GShell 0.2.7 − しじみ72個分のちから

開発:なんで72個分なんですかね?

社長:36の2倍だからでしょうか?

基盤:永谷園で見る… いえ、70個分のようです。

開発:あそう。

基盤:商品情報には「1杯でしじみ70個分のちから」とありますね。

社長:なんにしても素晴らしいネーミングですね。

基盤:特許庁のほうで商標検索してみましょう。

全員:面白すぎるw

開発:正書法というものが無いのかな。

基盤:No.1 と No.3 の違いがわからないです。

社長:つまり「1杯でしじみ70個分のちから」というのは登録商標では無いということですね。

基盤:これ、商標は英数字も日本語というか全角でしかできないということですかね。

開発:内部的に Shift_JIS だったりするのかな。

開発:(検索用)ってありますから、「商標見本」の画像が本式なんでしょうね。

基盤:でも、商標見本のほうも全角になってますね。

社長:「十個」を「ジュッコ」て読むのは正式なんでしょうかね?わたしはずっとそう読んできたんですが、結構歳を食ってから、「ジッコ」が正式だと聞いてショックを受けたものです。

開発:そもそも正式には「ナナジュウ」じゃなくて「シチジュウ」じゃなかったでしたっけ?

社長:わたしはそもそも「シチ」じゃなくて「ヒチ」かと思ってました。シチとか江戸っ子ですか?みたいな。

基盤:訓令式ってやつですかね。

広報:商品名を「パワー」にするか「ちから」にするか、登録時点でももめてた感じが伝わります。

社長:きっと議論が紛糾して収拾できなかったんでしょう。

基盤:インパクト的にはちから派の圧勝ですけどね。

社長:チカラじゃないところに共感しますね。ひらがな派としては。

開発:パワー派は太宰府送りされちゃたのかな。

広報:力派は居なかったんでしょうか?

開発:カと区別しにくいですからねえ。

基盤:長州カとか。しじみのカとかいうパチモンも出そうです。

社長:IMEは昨日で一旦収束と思ったんですが、これは面白いお題ですね。

開発:HTML電子署名の話もやりたいですが。

社長:いやこれは、ヒトの琴線にふれるというか、人間工学的にも、shellにとってより根源的な課題だと思うんですよ。

開発:根源的重要性を基準にして仕事をスケジュールするといつまでも現実的な成果物が出ない気はしますw

基盤:そういえば、最近ところてんにおとなのふりかけをトッピングして食べるとなかなか良いと思っています。ただミニでもちょっと多すぎってとこはあるんですけど。

* * *

開発:辞書はまだ試作中ですが、入力に成功しました。

社長:これは x が来ると、それ以前にあった文字列を数を表す日本語文字列として解釈して算数字に置換するということですね?

基盤:AIみたいです。

開発:そういう実装もありえますが、ここでは辞書のちからを利用して「nanajuunix > 72」というマッチングをしています。

基盤:ふつうに72って打ったほうが速くないですか?

開発:まず数字キーが表示されないスマホのキーボードでは有用です。リアルタイム翻訳も兼ねます。nanajuuni / 72 / ななじゅうに / 七十二 / seventy two を互いにイケイケにするのです。

社長:わたしは数字キーのブラインド入力に自信が無いし、ホームポジションから極力動きたくないので、数字キーじゃなくてIMEの変換で入れることもあります。

基盤:x は小さいかなを出すのにも使われてますよね。

開発:xa, xi, xu, xe, xo, xy だけですね。このケースは xk だから被らない。それに、混同するようなら x を打つタイミングというか、前後との時間間隔で峻別すれば良いと思います。誤解されたら BS で取り消せば良いだけです。

社長:xx でもいいんじゃないでしょうか。というか、x の次は沢山空いてますね。

基盤:xx だと16進、xd なら10進に変換するとか。

開発:さすがにそこまで辞書化するのはどうかと思いますので、x が来たらアルゴリズム的にマッチすることになるでしょうね。

社長:うーむ。日本語読みで入力して計算すると。よくわからないけどすごいな。

開発:あとは、力 / ちからの切り替えを q でやっています。[ chikara > ちから > 力 ] という2段の変換ではなく、あくまでも [ chikara > 力 ] と [ chikaraq > ちから ]という対等な力関係です。

社長:複数読みがあるときは q qq qqq … とすると。

開発:q q2 q3 … でも良いかもしれません。

基盤:で、使用頻度に応じて辞書の中で q の数の割当てを変えると。

開発:なんにしても、 q はアルファベットのキーボードで唯一日本語入力に使用されていない聖地なわけです。

基盤:qu く、qi くぃ、… だったりしますけどね。IME依存ですけど。

開発:それは踏襲してもしなくても良いと思います。宝の無駄遣い。

社長:というか、qu、qi、というのを辞書に入れとけば良いだけのような。

開発:なんにしても q は、文節の明示的な区切りと、候補選択機能を実現する、GShellにとって重要なキーだと思います。

社長:まさに重要な鍵ですね。

基盤:候補選択を q 連続打ちでやるのはちょっとつらいかもですね。qj、qjj、qjjj、… なんてのはどうでしょうか?で、qjjk とかやると、qj と同じになる。

社長:それは押しやすい。

開発:インタラクティブな候補選択モードになるなら、矢印キーでもよいかも。前進は普通のIMEと同じスペースでも。

社長:あからじめ変換モードを設定するとか、変換モードの有効期間とか、後追い変換の対象範囲とか、実用にこぎつけるには色々考えるべきことが多そうです。

* * *

社長:ところで私はミスタッチが多いので、何か自動的にフォローしてくれる機能があると良いですね。

開発:近い文字列も別の表記として全部辞書に登録しておけばよいのではないかと。アルファベット26文字で、綴が10文字程度の単語が主だとすれば、26の10乗単語… 

基盤:所要 K x 141TB程度ですかね。

開発:まあ、1GB程度に収めたいところです。

社長:冗長な辞書で1億エントリくらいあっても、100メガエントリだから、イケるんじゃないでしょうかね?

開発:あとは辞書をどう生成するかですね。

社長:わたしはこれまで書いたブログの文章から生成したいです。全文検索機能もセットで作る。

開発:常用漢字が 2136字、読みが音訓で4388みたいですね。これを使ってローマ字表記にして、辞書に突っ込む。

基盤:ああ、2010年の改訂で「十 – 備考欄に〈「ジュッ」とも。〉と注記。」とありますね。

社長:で、データは?

基盤:文化庁からは常用漢字表がPDFで公開されてますね。あと、読みからの検索ページもあります。へー、「ふじ」って読みの漢字は「藤」だけなんですね。まあそういわれればそうか。

開発:うーん、でもやっぱり字単位じゃなくて語単位の辞書が欲しいですよね。

社長:Google IME から本体の辞書をもらえませんかね?

基盤:辞書ならいろいろフリーなのもありますね。

社長:いや、必要なら有償でも。まあ1万円くらいまでなら。

基盤:広辞苑が1万円くらいですね。

開発:でも、その広辞苑用のブラウザからしか読めないように辞書データは保護されてるんじゃないですかね。技術的にか、あるいは、ライセンス上。

社長:まあ辞書データは知財の核心ですからね。でも、説明とかはとりあえずいらなくて、単語と読みだけでいいわけです。それくらいナマで渡してくれないですかね?

基盤:単語単位で検索できるAPIとかはあるんじゃないですかね?

開発:うちのIMEは1文字毎にインクリメンタルに検索できないといけないので、それではダメですね。

社長:昔のCannaのとかどうですかね。あるいはICOTの形態素解析辞書とか。

開発:それか!ああ、UniDicというものがありますね。

基盤:「主として近代の論説文(明治普通文)を対象としています。」?

開発:とりあえず「現代書き言葉UniDicダウンロードしてみます。GPL / LGPL / BSD License …

全員:(^-^;

社長:まあ、気長に待ちましょうw

基盤:10Mbps未満ですね。

開発:うちのライトセールでミラーしてあげたいですね。

社長:展開したら20GBくらいですかね。

基盤:むーぎわらのー♪

社長:マリゴールドってクッサイですよね。以前ガーデニングにハマった時。母もそう言ってました。

開発:しかしIMEは面白いですけど、日本語入力についてはどこまでやるかですね。GShellにとっては本題では無いし。

* * *

社長:そういえば、vi では ~ で大文字小文字変換ができるわけで、これは GShell IME でもやりたいですね。

開発:vi の場合、入力モードと閲覧モードがわかれてるので、そのあたりのキー割り当てに余裕がありますよね。GShell の入力にも閲覧モードというのを入れたいという話でしたが。

基盤:閲覧モードに入ったら hjkl で移動できるとか楽ちんでいいんじゃないですかね。

社長:IMEで閲覧モードは面白いと思います。/ とか : コマンドとかも使える。てかそれ、既に gsh.go の TODO に書いてありますが。

開発:vi 互換にしますかね。ESC で閲覧モードへ…

開発:こんな感じでどうでしょうね?閲覧モードではhl を下上左右と解釈します。

社長:おー。これこれ、これが欲しかったです。素晴らしい!

開発:x で一文字削除。

社長:素晴らしい!

開発:i と a で入力モードに移行する。

社長:素晴らしい!

開発:そして、~ で大文字小文字反転。

社長:猛烈に感動した!

基盤:その感動、ブログでは全く伝えられないですねw

社長:vi 使いには伝わるでしょう (^-^)/ GShell史上最大の快挙です。

開発:この幸せはたったこれだけのコードで実現したわけです。所要15分。

基盤:ケースの反転とか関数化しましょうよw

開発:一貫してやっつけです。

社長:明るい未来が見えた気がした。

開発:あとは / と ? でヒストリ検索とかですかね。: で色々コマンドとか。

基盤:Emacs的にコマンドのコンプリーションとかできると良いですね。

社長:うーん、GShell にとって、これはまさに one giant leap だったと思います。飲みに行きたい… けれど今日はボウリングの試合があるんだな。

開発:まだ時間があるので、試合前に軽く祝杯も良いですね。

社長:そうしましょう。

— 2020-0831 SatoxITS (^-^)/

/* GShell-0.2.4 by SatoxITS
GShell version 0.2.7 // 2020-08-31 // SatoxITS

GShell // a General purpose Shell built on the top of Golang

It is a shell for myself, by myself, of myself. –SatoxITS(^-^)

0 | | Fork | Stop | Unfold | */ /*
Statement

Fun to create a shell

For a programmer, it must be far easy and fun to create his own simple shell rightly fitting to his favor and necessities, than learning existing shells with complex full features that he never use. I, as one of programmers, am writing this tiny shell for my own real needs, totally from scratch, with fun.

For a programmer, it is fun to learn new computer languages. For long years before writing this software, I had been specialized to C and early HTML2 :-). Now writing this software, I’m learning Go language, HTML5, JavaScript and CSS on demand as a novice of these, with fun.

This single file “gsh.go”, that is executable by Go, contains all of the code written in Go. Also it can be displayed as “gsh.go.html” by browsers. It is a standalone HTML file that works as the viewer of the code of itself, and as the “home page” of this software.

Because this HTML file is a Go program, you may run it as a real shell program on your computer. But you must be aware that this program is written under situation like above. Needless to say, there is no warranty for this program in any means.

Aug 2020, SatoxITS (sato@its-more.jp)
*/ /*
Index
Documents Command summary Go lang part Package structures import struct Main functions str-expansion // macro processor finder // builtin find + du grep // builtin grep + wc + cksum + … plugin // plugin commands system // external commands builtin // builtin commands network // socket handler remote-sh // remote shell redirect // StdIn/Out redireciton history // command history rusage // resouce usage encode // encode / decode IME // command line IME getline // line editor scanf // string decomposer interpreter // command interpreter main JavaScript part Source Builtin data CSS part Source References Internal External Whole parts Source Download Dump
*/ //
//Go Source
// gsh – Go lang based Shell // (c) 2020 ITS more Co., Ltd. // 2020-0807 created by SatoxITS (sato@its-more.jp) package main // gsh main // Imported packages // Packages import ( “fmt” // fmt “strings” // strings “strconv” // strconv “sort” // sort “time” // time “bufio” // bufio “io/ioutil” // ioutil “os” // os “syscall” // syscall “plugin” // plugin “net” // net “net/http” // http //”html” // html “path/filepath” // filepath “go/types” // types “go/token” // token “encoding/base64” // base64 “unicode/utf8” // utf8 //”gshdata” // gshell’s logo and source code “hash/crc32” // crc32 ) const ( NAME = “gsh” VERSION = “0.2.7” DATE = “2020-08-31” AUTHOR = “SatoxITS(^-^)/” ) var ( GSH_HOME = “.gsh” // under home directory GSH_PORT = 9999 MaxStreamSize = int64(128*1024*1024*1024) // 128GiB is too large? PROMPT = “> ” LINESIZE = (8*1024) PATHSEP = “:” // should be “;” in Windows DIRSEP = “/” // canbe \ in Windows ) // -xX logging control // –A– all // –I– info. // –D– debug // –T– time and resource usage // –W– warning // –E– error // –F– fatal error // –Xn- network // Structures type GCommandHistory struct { StartAt time.Time // command line execution started at EndAt time.Time // command line execution ended at ResCode int // exit code of (external command) CmdError error // error string OutData *os.File // output of the command FoundFile []string // output – result of ufind Rusagev [2]syscall.Rusage // Resource consumption, CPU time or so CmdId int // maybe with identified with arguments or impact // redireciton commands should not be the CmdId WorkDir string // working directory at start WorkDirX int // index in ChdirHistory CmdLine string // command line } type GChdirHistory struct { Dir string MovedAt time.Time CmdIndex int } type CmdMode struct { BackGround bool } type Event struct { when time.Time event int evarg int64 CmdIndex int } var CmdIndex int var Events []Event type PluginInfo struct { Spec *plugin.Plugin Addr plugin.Symbol Name string // maybe relative Path string // this is in Plugin but hidden } type GServer struct { host string port string } // Digest const ( // SumType SUM_ITEMS = 0x000001 // items count SUM_SIZE = 0x000002 // data length (simplly added) SUM_SIZEHASH = 0x000004 // data length (hashed sequence) SUM_DATEHASH = 0x000008 // date of data (hashed sequence) // also envelope attributes like time stamp can be a part of digest // hashed value of sizes or mod-date of files will be useful to detect changes SUM_WORDS = 0x000010 // word count is a kind of digest SUM_LINES = 0x000020 // line count is a kind of digest SUM_SUM64 = 0x000040 // simple add of bytes, useful for human too SUM_SUM32_BITS = 0x000100 // the number of true bits SUM_SUM32_2BYTE = 0x000200 // 16bits words SUM_SUM32_4BYTE = 0x000400 // 32bits words SUM_SUM32_8BYTE = 0x000800 // 64bits words SUM_SUM16_BSD = 0x001000 // UNIXsum -sum -bsd SUM_SUM16_SYSV = 0x002000 // UNIXsum -sum -sysv SUM_UNIXFILE = 0x004000 SUM_CRCIEEE = 0x008000 ) type CheckSum struct { Files int64 // the number of files (or data) Size int64 // content size Words int64 // word count Lines int64 // line count SumType int Sum64 uint64 Crc32Table crc32.Table Crc32Val uint32 Sum16 int Ctime time.Time Atime time.Time Mtime time.Time Start time.Time Done time.Time RusgAtStart [2]syscall.Rusage RusgAtEnd [2]syscall.Rusage } type ValueStack [][]string type GshContext struct { StartDir string // the current directory at the start GetLine string // gsh-getline command as a input line editor ChdirHistory []GChdirHistory // the 1st entry is wd at the start gshPA syscall.ProcAttr CommandHistory []GCommandHistory CmdCurrent GCommandHistory BackGround bool BackGroundJobs []int LastRusage syscall.Rusage GshHomeDir string TerminalId int CmdTrace bool // should be [map] CmdTime bool // should be [map] PluginFuncs []PluginInfo iValues []string iDelimiter string // field sepearater of print out iFormat string // default print format (of integer) iValStack ValueStack LastServer GServer RSERV string // [gsh://]host[:port] RWD string // remote (target, there) working directory lastCheckSum CheckSum } func nsleep(ns time.Duration){ time.Sleep(ns) } func usleep(ns time.Duration){ nsleep(ns*1000) } func msleep(ns time.Duration){ nsleep(ns*1000000) } func sleep(ns time.Duration){ nsleep(ns*1000000000) } func strBegins(str, pat string)(bool){ if len(pat) <= len(str){ yes := str[0:len(pat)] == pat //fmt.Printf("--D-- strBegins(%v,%v)=%v\n",str,pat,yes) return yes } //fmt.Printf("--D-- strBegins(%v,%v)=%v\n",str,pat,false) return false } func isin(what string, list []string) bool { for _, v := range list { if v == what { return true } } return false } func isinX(what string,list[]string)(int){ for i,v := range list { if v == what { return i } } return -1 } func env(opts []string) { env := os.Environ() if isin("-s", opts){ sort.Slice(env, func(i,j int) bool { return env[i] < env[j] }) } for _, v := range env { fmt.Printf("%v\n",v) } } // - rewriting should be context dependent // - should postpone until the real point of evaluation // - should rewrite only known notation of symobl func scanInt(str string)(val int,leng int){ leng = -1 for i,ch := range str { if '0' <= ch && ch <= '9' { leng = i+1 }else{ break } } if 0 < leng { ival,_ := strconv.Atoi(str[0:leng]) return ival,leng }else{ return 0,0 } } func substHistory(gshCtx *GshContext,str string,i int,rstr string)(leng int,rst string){ if len(str[i+1:]) == 0 { return 0,rstr } hi := 0 histlen := len(gshCtx.CommandHistory) if str[i+1] == '!' { hi = histlen - 1 leng = 1 }else{ hi,leng = scanInt(str[i+1:]) if leng == 0 { return 0,rstr } if hi < 0 { hi = histlen + hi } } if 0 <= hi && hi < histlen { var ext byte if 1 < len(str[i+leng:]) { ext = str[i+leng:][1] } //fmt.Printf("--D-- %v(%c)\n",str[i+leng:],str[i+leng]) if ext == 'f' { leng += 1 xlist := []string{} list := gshCtx.CommandHistory[hi].FoundFile for _,v := range list { //list[i] = escapeWhiteSP(v) xlist = append(xlist,escapeWhiteSP(v)) } //rstr += strings.Join(list," ") rstr += strings.Join(xlist," ") }else if ext == '@' || ext == 'd' { // !N@ .. workdir at the start of the command leng += 1 rstr += gshCtx.CommandHistory[hi].WorkDir }else{ rstr += gshCtx.CommandHistory[hi].CmdLine } }else{ leng = 0 } return leng,rstr } func escapeWhiteSP(str string)(string){ if len(str) == 0 { return "\\z" // empty, to be ignored } rstr := "" for _,ch := range str { switch ch { case '\\': rstr += "\\\\" case ' ': rstr += "\\s" case '\t': rstr += "\\t" case '\r': rstr += "\\r" case '\n': rstr += "\\n" default: rstr += string(ch) } } return rstr } func unescapeWhiteSP(str string)(string){ // strip original escapes rstr := "" for i := 0; i < len(str); i++ { ch := str[i] if ch == '\\' { if i+1 < len(str) { switch str[i+1] { case 'z': continue; } } } rstr += string(ch) } return rstr } func unescapeWhiteSPV(strv []string)([]string){ // strip original escapes ustrv := []string{} for _,v := range strv { ustrv = append(ustrv,unescapeWhiteSP(v)) } return ustrv } // str-expansion // – this should be a macro processor func strsubst(gshCtx *GshContext,str string,histonly bool) string { rbuff := []byte{} if false { //@@U Unicode should be cared as a character return str } //rstr := “” inEsc := 0 // escape characer mode for i := 0; i < len(str); i++ { //fmt.Printf("--D--Subst %v:%v\n",i,str[i:]) ch := str[i] if inEsc == 0 { if ch == '!' { //leng,xrstr := substHistory(gshCtx,str,i,rstr) leng,rs := substHistory(gshCtx,str,i,"") if 0 < leng { //_,rs := substHistory(gshCtx,str,i,"") rbuff = append(rbuff,[]byte(rs)...) i += leng //rstr = xrstr continue } } switch ch { case '\\': inEsc = '\\'; continue //case '%': inEsc = '%'; continue case '$': } } switch inEsc { case '\\': switch ch { case '\\': ch = '\\' case 's': ch = ' ' case 't': ch = '\t' case 'r': ch = '\r' case 'n': ch = '\n' case 'z': inEsc = 0; continue // empty, to be ignored } inEsc = 0 case '%': switch { case ch == '%': ch = '%' case ch == 'T': //rstr = rstr + time.Now().Format(time.Stamp) rs := time.Now().Format(time.Stamp) rbuff = append(rbuff,[]byte(rs)...) inEsc = 0 continue; default: // postpone the interpretation //rstr = rstr + "%" + string(ch) rbuff = append(rbuff,ch) inEsc = 0 continue; } inEsc = 0 } //rstr = rstr + string(ch) rbuff = append(rbuff,ch) } //fmt.Printf("--D--subst(%s)(%s)\n",str,string(rbuff)) return string(rbuff) //return rstr } func showFileInfo(path string, opts []string) { if isin("-l",opts) || isin("-ls",opts) { fi, err := os.Stat(path) if err != nil { fmt.Printf("---------- ((%v))",err) }else{ mod := fi.ModTime() date := mod.Format(time.Stamp) fmt.Printf("%v %8v %s ",fi.Mode(),fi.Size(),date) } } fmt.Printf("%s",path) if isin("-sp",opts) { fmt.Printf(" ") }else if ! isin("-n",opts) { fmt.Printf("\n") } } func userHomeDir()(string,bool){ /* homedir,_ = os.UserHomeDir() // not implemented in older Golang */ homedir,found := os.LookupEnv("HOME") //fmt.Printf("--I-- HOME=%v(%v)\n",homedir,found) if !found { return "/tmp",found } return homedir,found } func toFullpath(path string) (fullpath string) { if path[0] == '/' { return path } pathv := strings.Split(path,DIRSEP) switch { case pathv[0] == ".": pathv[0], _ = os.Getwd() case pathv[0] == "..": // all ones should be interpreted cwd, _ := os.Getwd() ppathv := strings.Split(cwd,DIRSEP) pathv[0] = strings.Join(ppathv,DIRSEP) case pathv[0] == "~": pathv[0],_ = userHomeDir() default: cwd, _ := os.Getwd() pathv[0] = cwd + DIRSEP + pathv[0] } return strings.Join(pathv,DIRSEP) } func IsRegFile(path string)(bool){ fi, err := os.Stat(path) if err == nil { fm := fi.Mode() return fm.IsRegular(); } return false } // Encode / Decode // Encoder func (gshCtx *GshContext)Enc(argv[]string){ file := os.Stdin buff := make([]byte,LINESIZE) li := 0 encoder := base64.NewEncoder(base64.StdEncoding,os.Stdout) for li = 0; ; li++ { count, err := file.Read(buff) if count <= 0 { break } if err != nil { break } encoder.Write(buff[0:count]) } encoder.Close() } func (gshCtx *GshContext)Dec(argv[]string){ decoder := base64.NewDecoder(base64.StdEncoding,os.Stdin) li := 0 buff := make([]byte,LINESIZE) for li = 0; ; li++ { count, err := decoder.Read(buff) if count <= 0 { break } if err != nil { break } os.Stdout.Write(buff[0:count]) } } // lnsp [N] [-crlf][-C \\] func (gshCtx *GshContext)SplitLine(argv[]string){ reader := bufio.NewReaderSize(os.Stdin,64*1024) ni := 0 toi := 0 for ni = 0; ; ni++ { line, err := reader.ReadString('\n') if len(line) <= 0 { if err != nil { fmt.Fprintf(os.Stderr,"--I-- lnsp %d to %d (%v)\n",ni,toi,err) break } } off := 0 ilen := len(line) remlen := len(line) for oi := 0; 0 < remlen; oi++ { olen := remlen addnl := false if 72 < olen { olen = 72 addnl = true } fmt.Fprintf(os.Stderr,"--D-- write %d [%d.%d] %d %d/%d/%d\n", toi,ni,oi,off,olen,remlen,ilen) toi += 1 os.Stdout.Write([]byte(line[0:olen])) if addnl { //os.Stdout.Write([]byte("\r\n")) os.Stdout.Write([]byte("\\")) os.Stdout.Write([]byte("\n")) } line = line[olen:] off += olen remlen -= olen } } fmt.Fprintf(os.Stderr,"--I-- lnsp %d to %d\n",ni,toi) } // CRC32 crc32 // 1 0000 0100 1100 0001 0001 1101 1011 0111 var CRC32UNIX uint32 = uint32(0x04C11DB7) // Unix cksum var CRC32IEEE uint32 = uint32(0xEDB88320) func byteCRC32add(crc uint32,str[]byte,len uint64)(uint32){ var i uint64 for i = 0; i < len; i++ { var oct = str[i] for bi := 0; bi < 8; bi++ { ovf1 := (crc & 0x80000000) != 0 ovf2 := (oct & 0x80) != 0 ovf := (ovf1 && !ovf2) || (!ovf1 && ovf2) oct <<= 1 crc <<= 1 if ovf { crc ^= CRC32UNIX } } } return crc; } func byteCRC32end(crc uint32, len uint64)(uint32){ var slen = make([]byte,4) var li = 0 for li = 0; li < 4; { slen[li] = byte(len) li += 1 len >>= 8 if( len == 0 ){ break } } crc = byteCRC32add(crc,slen,uint64(li)) crc ^= 0xFFFFFFFF return crc } func byteCRC32(str[]byte,len uint64)(crc uint32){ crc = byteCRC32add(0,str,len) crc = byteCRC32end(crc,len) return crc } func CRC32Finish(crc uint32, table *crc32.Table, len uint64)(uint32){ var slen = make([]byte,4) var li = 0 for li = 0; li < 4; { slen[li] = byte(len & 0xFF) li += 1 len >>= 8 if( len == 0 ){ break } } crc = crc32.Update(crc,table,slen) crc ^= 0xFFFFFFFF return crc } func (gsh*GshContext)xCksum(path string,argv[]string, sum*CheckSum)(int64){ if isin(“-type/f”,argv) && !IsRegFile(path){ return 0 } if isin(“-type/d”,argv) && IsRegFile(path){ return 0 } file, err := os.OpenFile(path,os.O_RDONLY,0) if err != nil { fmt.Printf(“–E– cksum %v (%v)\n”,path,err) return -1 } defer file.Close() if gsh.CmdTrace { fmt.Printf(“–I– cksum %v %v\n”,path,argv) } bi := 0 var buff = make([]byte,32*1024) var total int64 = 0 var initTime = time.Time{} if sum.Start == initTime { sum.Start = time.Now() } for bi = 0; ; bi++ { count,err := file.Read(buff) if count <= 0 || err != nil { break } if (sum.SumType & SUM_SUM64) != 0 { s := sum.Sum64 for _,c := range buff[0:count] { s += uint64(c) } sum.Sum64 = s } if (sum.SumType & SUM_UNIXFILE) != 0 { sum.Crc32Val = byteCRC32add(sum.Crc32Val,buff,uint64(count)) } if (sum.SumType & SUM_CRCIEEE) != 0 { sum.Crc32Val = crc32.Update(sum.Crc32Val,&sum.Crc32Table,buff[0:count]) } // BSD checksum if (sum.SumType & SUM_SUM16_BSD) != 0 { s := sum.Sum16 for _,c := range buff[0:count] { s = (s >> 1) + ((s & 1) << 15) s += int(c) s &= 0xFFFF //fmt.Printf("BSDsum: %d[%d] %d\n",sum.Size+int64(i),i,s) } sum.Sum16 = s } if (sum.SumType & SUM_SUM16_SYSV) != 0 { for bj := 0; bj < count; bj++ { sum.Sum16 += int(buff[bj]) } } total += int64(count) } sum.Done = time.Now() sum.Files += 1 sum.Size += total if !isin("-s",argv) { fmt.Printf("%v ",total) } return 0 } // grep // “lines”, “lin” or “lnp” for “(text) line processor” or “scanner” // a*,!ab,c, … sequentioal combination of patterns // what “LINE” is should be definable // generic line-by-line processing // grep [-v] // cat -n -v // uniq [-c] // tail -f // sed s/x/y/ or awk // grep with line count like wc // rewrite contents if specified func (gsh*GshContext)xGrep(path string,rexpv[]string)(int){ file, err := os.OpenFile(path,os.O_RDONLY,0) if err != nil { fmt.Printf(“–E– grep %v (%v)\n”,path,err) return -1 } defer file.Close() if gsh.CmdTrace { fmt.Printf(“–I– grep %v %v\n”,path,rexpv) } //reader := bufio.NewReaderSize(file,LINESIZE) reader := bufio.NewReaderSize(file,80) li := 0 found := 0 for li = 0; ; li++ { line, err := reader.ReadString(‘\n’) if len(line) <= 0 { break } if 150 < len(line) { // maybe binary break; } if err != nil { break } if 0 <= strings.Index(string(line),rexpv[0]) { found += 1 fmt.Printf("%s:%d: %s",path,li,line) } } //fmt.Printf("total %d lines %s\n",li,path) //if( 0 < found ){ fmt.Printf("((found %d lines %s))\n",found,path); } return found } // Finder // finding files with it name and contents // file names are ORed // show the content with %x fmt list // ls -R // tar command by adding output type fileSum struct { Err int64 // access error or so Size int64 // content size DupSize int64 // content size from hard links Blocks int64 // number of blocks (of 512 bytes) DupBlocks int64 // Blocks pointed from hard links HLinks int64 // hard links Words int64 Lines int64 Files int64 Dirs int64 // the num. of directories SymLink int64 Flats int64 // the num. of flat files MaxDepth int64 MaxNamlen int64 // max. name length nextRepo time.Time } func showFusage(dir string,fusage *fileSum){ bsume := float64(((fusage.Blocks-fusage.DupBlocks)/2)*1024)/1000000.0 //bsumdup := float64((fusage.Blocks/2)*1024)/1000000.0 fmt.Printf(“%v: %v files (%vd %vs %vh) %.6f MB (%.2f MBK)\n”, dir, fusage.Files, fusage.Dirs, fusage.SymLink, fusage.HLinks, float64(fusage.Size)/1000000.0,bsume); } const ( S_IFMT = 0170000 S_IFCHR = 0020000 S_IFDIR = 0040000 S_IFREG = 0100000 S_IFLNK = 0120000 S_IFSOCK = 0140000 ) func cumFinfo(fsum *fileSum, path string, staterr error, fstat syscall.Stat_t, argv[]string,verb bool)(*fileSum){ now := time.Now() if time.Second <= now.Sub(fsum.nextRepo) { if !fsum.nextRepo.IsZero(){ tstmp := now.Format(time.Stamp) showFusage(tstmp,fsum) } fsum.nextRepo = now.Add(time.Second) } if staterr != nil { fsum.Err += 1 return fsum } fsum.Files += 1 if 1 < fstat.Nlink { // must count only once... // at least ignore ones in the same directory //if finfo.Mode().IsRegular() { if (fstat.Mode & S_IFMT) == S_IFREG { fsum.HLinks += 1 fsum.DupBlocks += int64(fstat.Blocks) //fmt.Printf("---Dup HardLink %v %s\n",fstat.Nlink,path) } } //fsum.Size += finfo.Size() fsum.Size += fstat.Size fsum.Blocks += int64(fstat.Blocks) //if verb { fmt.Printf("(%8dBlk) %s",fstat.Blocks/2,path) } if isin("-ls",argv){ //if verb { fmt.Printf("%4d %8d ",fstat.Blksize,fstat.Blocks) } // fmt.Printf("%d\t",fstat.Blocks/2) } //if finfo.IsDir() if (fstat.Mode & S_IFMT) == S_IFDIR { fsum.Dirs += 1 } //if (finfo.Mode() & os.ModeSymlink) != 0 if (fstat.Mode & S_IFMT) == S_IFLNK { //if verb { fmt.Printf("symlink(%v,%s)\n",fstat.Mode,finfo.Name()) } //{ fmt.Printf("symlink(%o,%s)\n",fstat.Mode,finfo.Name()) } fsum.SymLink += 1 } return fsum } func (gsh*GshContext)xxFindEntv(depth int,total *fileSum,dir string, dstat syscall.Stat_t, ei int, entv []string,npatv[]string,argv[]string)(*fileSum){ nols := isin("-grep",argv) // sort entv /* if isin("-t",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].ModTime().Sub(filev[j].ModTime()) }) } */ /* if isin("-u",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].AccTime().Sub(filev[j].AccTime()) }) } if isin("-U",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].CreatTime().Sub(filev[j].CreatTime()) }) } */ /* if isin("-S",argv){ sort.Slice(filev, func(i,j int) bool { return filev[j].Size() < filev[i].Size() }) } */ for _,filename := range entv { for _,npat := range npatv { match := true if npat == "*" { match = true }else{ match, _ = filepath.Match(npat,filename) } path := dir + DIRSEP + filename if !match { continue } var fstat syscall.Stat_t staterr := syscall.Lstat(path,&fstat) if staterr != nil { if !isin("-w",argv){fmt.Printf("ufind: %v\n",staterr) } continue; } if isin("-du",argv) && (fstat.Mode & S_IFMT) == S_IFDIR { // should not show size of directory in "-du" mode ... }else if !nols && !isin("-s",argv) && (!isin("-du",argv) || isin("-a",argv)) { if isin("-du",argv) { fmt.Printf("%d\t",fstat.Blocks/2) } showFileInfo(path,argv) } if true { // && isin("-du",argv) total = cumFinfo(total,path,staterr,fstat,argv,false) } /* if isin("-wc",argv) { } */ if gsh.lastCheckSum.SumType != 0 { gsh.xCksum(path,argv,&gsh.lastCheckSum); } x := isinX("-grep",argv); // -grep will be convenient like -ls if 0 <= x && x+1 <= len(argv) { // -grep will be convenient like -ls if IsRegFile(path){ found := gsh.xGrep(path,argv[x+1:]) if 0 < found { foundv := gsh.CmdCurrent.FoundFile if len(foundv) < 10 { gsh.CmdCurrent.FoundFile = append(gsh.CmdCurrent.FoundFile,path) } } } } if !isin("-r0",argv) { // -d 0 in du, -depth n in find //total.Depth += 1 if (fstat.Mode & S_IFMT) == S_IFLNK { continue } if dstat.Rdev != fstat.Rdev { fmt.Printf("--I-- don't follow differnet device %v(%v) %v(%v)\n", dir,dstat.Rdev,path,fstat.Rdev) } if (fstat.Mode & S_IFMT) == S_IFDIR { total = gsh.xxFind(depth+1,total,path,npatv,argv) } } } } return total } func (gsh*GshContext)xxFind(depth int,total *fileSum,dir string,npatv[]string,argv[]string)(*fileSum){ nols := isin("-grep",argv) dirfile,oerr := os.OpenFile(dir,os.O_RDONLY,0) if oerr == nil { //fmt.Printf("--I-- %v(%v)[%d]\n",dir,dirfile,dirfile.Fd()) defer dirfile.Close() }else{ } prev := *total var dstat syscall.Stat_t staterr := syscall.Lstat(dir,&dstat) // should be flstat if staterr != nil { if !isin("-w",argv){ fmt.Printf("ufind: %v\n",staterr) } return total } //filev,err := ioutil.ReadDir(dir) //_,err := ioutil.ReadDir(dir) // ReadDir() heavy and bad for huge directory /* if err != nil { if !isin("-w",argv){ fmt.Printf("ufind: %v\n",err) } return total } */ if depth == 0 { total = cumFinfo(total,dir,staterr,dstat,argv,true) if !nols && !isin("-s",argv) && (!isin("-du",argv) || isin("-a",argv)) { showFileInfo(dir,argv) } } // it it is not a directory, just scan it and finish for ei := 0; ; ei++ { entv,rderr := dirfile.Readdirnames(8*1024) if len(entv) == 0 || rderr != nil { //if rderr != nil { fmt.Printf("[%d] len=%d (%v)\n",ei,len(entv),rderr) } break } if 0 < ei { fmt.Printf("--I-- xxFind[%d] %d large-dir: %s\n",ei,len(entv),dir) } total = gsh.xxFindEntv(depth,total,dir,dstat,ei,entv,npatv,argv) } if isin("-du",argv) { // if in "du" mode fmt.Printf("%d\t%s\n",(total.Blocks-prev.Blocks)/2,dir) } return total } // {ufind|fu|ls} [Files] [// Names] [-- Expressions] // Files is "." by default // Names is "*" by default // Expressions is "-print" by default for "ufind", or -du for "fu" command func (gsh*GshContext)xFind(argv[]string){ if 0 < len(argv) && strBegins(argv[0],"?"){ showFound(gsh,argv) return } if isin("-cksum",argv) || isin("-sum",argv) { gsh.lastCheckSum = CheckSum{} if isin("-sum",argv) && isin("-add",argv) { gsh.lastCheckSum.SumType |= SUM_SUM64 }else if isin("-sum",argv) && isin("-size",argv) { gsh.lastCheckSum.SumType |= SUM_SIZE }else if isin("-sum",argv) && isin("-bsd",argv) { gsh.lastCheckSum.SumType |= SUM_SUM16_BSD }else if isin("-sum",argv) && isin("-sysv",argv) { gsh.lastCheckSum.SumType |= SUM_SUM16_SYSV }else if isin("-sum",argv) { gsh.lastCheckSum.SumType |= SUM_SUM64 } if isin("-unix",argv) { gsh.lastCheckSum.SumType |= SUM_UNIXFILE gsh.lastCheckSum.Crc32Table = *crc32.MakeTable(CRC32UNIX) } if isin("-ieee",argv){ gsh.lastCheckSum.SumType |= SUM_CRCIEEE gsh.lastCheckSum.Crc32Table = *crc32.MakeTable(CRC32IEEE) } gsh.lastCheckSum.RusgAtStart = Getrusagev() } var total = fileSum{} npats := []string{} for _,v := range argv { if 0 < len(v) && v[0] != '-' { npats = append(npats,v) } if v == "//" { break } if v == "--" { break } if v == "-grep" { break } if v == "-ls" { break } } if len(npats) == 0 { npats = []string{"*"} } cwd := "." // if to be fullpath ::: cwd, _ := os.Getwd() if len(npats) == 0 { npats = []string{"*"} } fusage := gsh.xxFind(0,&total,cwd,npats,argv) if gsh.lastCheckSum.SumType != 0 { var sumi uint64 = 0 sum := &gsh.lastCheckSum if (sum.SumType & SUM_SIZE) != 0 { sumi = uint64(sum.Size) } if (sum.SumType & SUM_SUM64) != 0 { sumi = sum.Sum64 } if (sum.SumType & SUM_SUM16_SYSV) != 0 { s := uint32(sum.Sum16) r := (s & 0xFFFF) + ((s & 0xFFFFFFFF) >> 16) s = (r & 0xFFFF) + (r >> 16) sum.Crc32Val = uint32(s) sumi = uint64(s) } if (sum.SumType & SUM_SUM16_BSD) != 0 { sum.Crc32Val = uint32(sum.Sum16) sumi = uint64(sum.Sum16) } if (sum.SumType & SUM_UNIXFILE) != 0 { sum.Crc32Val = byteCRC32end(sum.Crc32Val,uint64(sum.Size)) sumi = uint64(byteCRC32end(sum.Crc32Val,uint64(sum.Size))) } if 1 < sum.Files { fmt.Printf("%v %v // %v / %v files, %v/file\r\n", sumi,sum.Size, abssize(sum.Size),sum.Files, abssize(sum.Size/sum.Files)) }else{ fmt.Printf("%v %v %v\n", sumi,sum.Size,npats[0]) } } if !isin("-grep",argv) { showFusage("total",fusage) } if !isin("-s",argv){ hits := len(gsh.CmdCurrent.FoundFile) if 0 < hits { fmt.Printf("--I-- %d files hits // can be refered with !%df\n", hits,len(gsh.CommandHistory)) } } if gsh.lastCheckSum.SumType != 0 { if isin("-ru",argv) { sum := &gsh.lastCheckSum sum.Done = time.Now() gsh.lastCheckSum.RusgAtEnd = Getrusagev() elps := sum.Done.Sub(sum.Start) fmt.Printf("--cksum-size: %v (%v) / %v files, %v/file\r\n", sum.Size,abssize(sum.Size),sum.Files,abssize(sum.Size/sum.Files)) nanos := int64(elps) fmt.Printf("--cksum-time: %v/total, %v/file, %.1f files/s, %v\r\n", abbtime(nanos), abbtime(nanos/sum.Files), (float64(sum.Files)*1000000000.0)/float64(nanos), abbspeed(sum.Size,nanos)) diff := RusageSubv(sum.RusgAtEnd,sum.RusgAtStart) fmt.Printf("--cksum-rusg: %v\n",sRusagef("",argv,diff)) } } return } func showFiles(files[]string){ sp := "" for i,file := range files { if 0 < i { sp = " " } else { sp = "" } fmt.Printf(sp+"%s",escapeWhiteSP(file)) } } func showFound(gshCtx *GshContext, argv[]string){ for i,v := range gshCtx.CommandHistory { if 0 < len(v.FoundFile) { fmt.Printf("!%d (%d) ",i,len(v.FoundFile)) if isin("-ls",argv){ fmt.Printf("\n") for _,file := range v.FoundFile { fmt.Printf("") //sub number? showFileInfo(file,argv) } }else{ showFiles(v.FoundFile) fmt.Printf("\n") } } } } func showMatchFile(filev []os.FileInfo, npat,dir string, argv[]string)(string,bool){ fname := "" found := false for _,v := range filev { match, _ := filepath.Match(npat,(v.Name())) if match { fname = v.Name() found = true //fmt.Printf("[%d] %s\n",i,v.Name()) showIfExecutable(fname,dir,argv) } } return fname,found } func showIfExecutable(name,dir string,argv[]string)(ffullpath string,ffound bool){ var fullpath string if strBegins(name,DIRSEP){ fullpath = name }else{ fullpath = dir + DIRSEP + name } fi, err := os.Stat(fullpath) if err != nil { fullpath = dir + DIRSEP + name + ".go" fi, err = os.Stat(fullpath) } if err == nil { fm := fi.Mode() if fm.IsRegular() { // R_OK=4, W_OK=2, X_OK=1, F_OK=0 if syscall.Access(fullpath,5) == nil { ffullpath = fullpath ffound = true if ! isin("-s", argv) { showFileInfo(fullpath,argv) } } } } return ffullpath, ffound } func which(list string, argv []string) (fullpathv []string, itis bool){ if len(argv) <= 1 { fmt.Printf("Usage: which comand [-s] [-a] [-ls]\n") return []string{""}, false } path := argv[1] if strBegins(path,"/") { // should check if excecutable? _,exOK := showIfExecutable(path,"/",argv) fmt.Printf("--D-- %v exOK=%v\n",path,exOK) return []string{path},exOK } pathenv, efound := os.LookupEnv(list) if ! efound { fmt.Printf("--E-- which: no \"%s\" environment\n",list) return []string{""}, false } showall := isin("-a",argv) || 0 <= strings.Index(path,"*") dirv := strings.Split(pathenv,PATHSEP) ffound := false ffullpath := path for _, dir := range dirv { if 0 <= strings.Index(path,"*") { // by wild-card list,_ := ioutil.ReadDir(dir) ffullpath, ffound = showMatchFile(list,path,dir,argv) }else{ ffullpath, ffound = showIfExecutable(path,dir,argv) } //if ffound && !isin("-a", argv) { if ffound && !showall { break; } } return []string{ffullpath}, ffound } func stripLeadingWSParg(argv[]string)([]string){ for ; 0 < len(argv); { if len(argv[0]) == 0 { argv = argv[1:] }else{ break } } return argv } func xEval(argv []string, nlend bool){ argv = stripLeadingWSParg(argv) if len(argv) == 0 { fmt.Printf("eval [%%format] [Go-expression]\n") return } pfmt := "%v" if argv[0][0] == '%' { pfmt = argv[0] argv = argv[1:] } if len(argv) == 0 { return } gocode := strings.Join(argv," "); //fmt.Printf("eval [%v] [%v]\n",pfmt,gocode) fset := token.NewFileSet() rval, _ := types.Eval(fset,nil,token.NoPos,gocode) fmt.Printf(pfmt,rval.Value) if nlend { fmt.Printf("\n") } } func getval(name string) (found bool, val int) { /* should expand the name here */ if name == "gsh.pid" { return true, os.Getpid() }else if name == "gsh.ppid" { return true, os.Getppid() } return false, 0 } func echo(argv []string, nlend bool){ for ai := 1; ai < len(argv); ai++ { if 1 < ai { fmt.Printf(" "); } arg := argv[ai] found, val := getval(arg) if found { fmt.Printf("%d",val) }else{ fmt.Printf("%s",arg) } } if nlend { fmt.Printf("\n"); } } func resfile() string { return "gsh.tmp" } //var resF *File func resmap() { //_ , err := os.OpenFile(resfile(), os.O_RDWR|os.O_CREATE, os.ModeAppend) // https://developpaper.com/solution-to-golang-bad-file-descriptor-problem/ _ , err := os.OpenFile(resfile(), os.O_RDWR|os.O_CREATE, 0600) if err != nil { fmt.Printf("refF could not open: %s\n",err) }else{ fmt.Printf("refF opened\n") } } // @@2020-0821 func gshScanArg(str string,strip int)(argv []string){ var si = 0 var sb = 0 var inBracket = 0 var arg1 = make([]byte,LINESIZE) var ax = 0 debug := false for ; si < len(str); si++ { if str[si] != ' ' { break } } sb = si for ; si < len(str); si++ { if sb <= si { if debug { fmt.Printf("--Da- +%d %2d-%2d %s ... %s\n", inBracket,sb,si,arg1[0:ax],str[si:]) } } ch := str[si] if ch == '{' { inBracket += 1 if 0 < strip && inBracket <= strip { //fmt.Printf("stripLEV %d <= %d?\n",inBracket,strip) continue } } if 0 < inBracket { if ch == '}' { inBracket -= 1 if 0 < strip && inBracket < strip { //fmt.Printf("stripLEV %d < %d?\n",inBracket,strip) continue } } arg1[ax] = ch ax += 1 continue } if str[si] == ' ' { argv = append(argv,string(arg1[0:ax])) if debug { fmt.Printf("--Da- [%v][%v-%v] %s ... %s\n", -1+len(argv),sb,si,str[sb:si],string(str[si:])) } sb = si+1 ax = 0 continue } arg1[ax] = ch ax += 1 } if sb < si { argv = append(argv,string(arg1[0:ax])) if debug { fmt.Printf("--Da- [%v][%v-%v] %s ... %s\n", -1+len(argv),sb,si,string(arg1[0:ax]),string(str[si:])) } } if debug { fmt.Printf("--Da- %d [%s] => [%d]%v\n”,strip,str,len(argv),argv) } return argv } // should get stderr (into tmpfile ?) and return func (gsh*GshContext)Popen(name,mode string)(pin*os.File,pout*os.File,err bool){ var pv = []int{-1,-1} syscall.Pipe(pv) xarg := gshScanArg(name,1) name = strings.Join(xarg,” “) pin = os.NewFile(uintptr(pv[0]),”StdoutOf-{“+name+”}”) pout = os.NewFile(uintptr(pv[1]),”StdinOf-{“+name+”}”) fdix := 0 dir := “?” if mode == “r” { dir = “<" fdix = 1 // read from the stdout of the process }else{ dir = ">” fdix = 0 // write to the stdin of the process } gshPA := gsh.gshPA savfd := gshPA.Files[fdix] var fd uintptr = 0 if mode == “r” { fd = pout.Fd() gshPA.Files[fdix] = pout.Fd() }else{ fd = pin.Fd() gshPA.Files[fdix] = pin.Fd() } // should do this by Goroutine? if false { fmt.Printf(“–Ip- Opened fd[%v] %s %v\n”,fd,dir,name) fmt.Printf(“–RED1 [%d,%d,%d]->[%d,%d,%d]\n”, os.Stdin.Fd(),os.Stdout.Fd(),os.Stderr.Fd(), pin.Fd(),pout.Fd(),pout.Fd()) } savi := os.Stdin savo := os.Stdout save := os.Stderr os.Stdin = pin os.Stdout = pout os.Stderr = pout gsh.BackGround = true gsh.gshelllh(name) gsh.BackGround = false os.Stdin = savi os.Stdout = savo os.Stderr = save gshPA.Files[fdix] = savfd return pin,pout,false } // External commands func (gsh*GshContext)excommand(exec bool, argv []string) (notf bool,exit bool) { if gsh.CmdTrace { fmt.Printf(“–I– excommand[%v](%v)\n”,exec,argv) } gshPA := gsh.gshPA fullpathv, itis := which(“PATH”,[]string{“which”,argv[0],”-s”}) if itis == false { return true,false } fullpath := fullpathv[0] argv = unescapeWhiteSPV(argv) if 0 < strings.Index(fullpath,".go") { nargv := argv // []string{} gofullpathv, itis := which("PATH",[]string{"which","go","-s"}) if itis == false { fmt.Printf("--F-- Go not found\n") return false,true } gofullpath := gofullpathv[0] nargv = []string{ gofullpath, "run", fullpath } fmt.Printf("--I-- %s {%s %s %s}\n",gofullpath, nargv[0],nargv[1],nargv[2]) if exec { syscall.Exec(gofullpath,nargv,os.Environ()) }else{ pid, _ := syscall.ForkExec(gofullpath,nargv,&gshPA) if gsh.BackGround { fmt.Fprintf(stderr,"--Ip- in Background pid[%d]%d(%v)\n",pid,len(argv),nargv) gsh.BackGroundJobs = append(gsh.BackGroundJobs,pid) }else{ rusage := syscall.Rusage {} syscall.Wait4(pid,nil,0,&rusage) gsh.LastRusage = rusage gsh.CmdCurrent.Rusagev[1] = rusage } } }else{ if exec { syscall.Exec(fullpath,argv,os.Environ()) }else{ pid, _ := syscall.ForkExec(fullpath,argv,&gshPA) //fmt.Printf("[%d]\n",pid); // '&' to be background if gsh.BackGround { fmt.Fprintf(stderr,"--Ip- in Background pid[%d]%d(%v)\n",pid,len(argv),argv) gsh.BackGroundJobs = append(gsh.BackGroundJobs,pid) }else{ rusage := syscall.Rusage {} syscall.Wait4(pid,nil,0,&rusage); gsh.LastRusage = rusage gsh.CmdCurrent.Rusagev[1] = rusage } } } return false,false } // Builtin Commands func (gshCtx *GshContext) sleep(argv []string) { if len(argv) < 2 { fmt.Printf("Sleep 100ms, 100us, 100ns, ...\n") return } duration := argv[1]; d, err := time.ParseDuration(duration) if err != nil { d, err = time.ParseDuration(duration+"s") if err != nil { fmt.Printf("duration ? %s (%s)\n",duration,err) return } } //fmt.Printf("Sleep %v\n",duration) time.Sleep(d) if 0 < len(argv[2:]) { gshCtx.gshellv(argv[2:]) } } func (gshCtx *GshContext)repeat(argv []string) { if len(argv) < 2 { return } start0 := time.Now() for ri,_ := strconv.Atoi(argv[1]); 0 < ri; ri-- { if 0 < len(argv[2:]) { //start := time.Now() gshCtx.gshellv(argv[2:]) end := time.Now() elps := end.Sub(start0); if( 1000000000 < elps ){ fmt.Printf("(repeat#%d %v)\n",ri,elps); } } } } func (gshCtx *GshContext)gen(argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: %s N\n",argv[0]) return } // should br repeated by "repeat" command count, _ := strconv.Atoi(argv[1]) fd := gshPA.Files[1] // Stdout file := os.NewFile(fd,"internalStdOut") fmt.Printf("--I-- Gen. Count=%d to [%d]\n",count,file.Fd()) //buf := []byte{} outdata := "0123 5678 0123 5678 0123 5678 0123 5678\r" for gi := 0; gi < count; gi++ { file.WriteString(outdata) } //file.WriteString("\n") fmt.Printf("\n(%d B)\n",count*len(outdata)); //file.Close() } // Remote Execution // 2020-0820 func Elapsed(from time.Time)(string){ elps := time.Now().Sub(from) if 1000000000 < elps { return fmt.Sprintf("[%5d.%02ds]",elps/1000000000,(elps%1000000000)/10000000) }else if 1000000 < elps { return fmt.Sprintf("[%3d.%03dms]",elps/1000000,(elps%1000000)/1000) }else{ return fmt.Sprintf("[%3d.%03dus]",elps/1000,(elps%1000)) } } func abbtime(nanos int64)(string){ if 1000000000 < nanos { return fmt.Sprintf("%d.%02ds",nanos/1000000000,(nanos%1000000000)/10000000) }else if 1000000 < nanos { return fmt.Sprintf("%d.%03dms",nanos/1000000,(nanos%1000000)/1000) }else{ return fmt.Sprintf("%d.%03dus",nanos/1000,(nanos%1000)) } } func abssize(size int64)(string){ fsize := float64(size) if 1024*1024*1024 < size { return fmt.Sprintf("%.2fGiB",fsize/(1024*1024*1024)) }else if 1024*1024 < size { return fmt.Sprintf("%.3fMiB",fsize/(1024*1024)) }else{ return fmt.Sprintf("%.3fKiB",fsize/1024) } } func absize(size int64)(string){ fsize := float64(size) if 1024*1024*1024 < size { return fmt.Sprintf("%8.2fGiB",fsize/(1024*1024*1024)) }else if 1024*1024 < size { return fmt.Sprintf("%8.3fMiB",fsize/(1024*1024)) }else{ return fmt.Sprintf("%8.3fKiB",fsize/1024) } } func abbspeed(totalB int64,ns int64)(string){ MBs := (float64(totalB)/1000000) / (float64(ns)/1000000000) if 1000 <= MBs { return fmt.Sprintf("%6.3fGB/s",MBs/1000) } if 1 <= MBs { return fmt.Sprintf("%6.3fMB/s",MBs) }else{ return fmt.Sprintf("%6.3fKB/s",MBs*1000) } } func abspeed(totalB int64,ns time.Duration)(string){ MBs := (float64(totalB)/1000000) / (float64(ns)/1000000000) if 1000 <= MBs { return fmt.Sprintf("%6.3fGBps",MBs/1000) } if 1 <= MBs { return fmt.Sprintf("%6.3fMBps",MBs) }else{ return fmt.Sprintf("%6.3fKBps",MBs*1000) } } func fileRelay(what string,in*os.File,out*os.File,size int64,bsiz int)(wcount int64){ Start := time.Now() buff := make([]byte,bsiz) var total int64 = 0 var rem int64 = size nio := 0 Prev := time.Now() var PrevSize int64 = 0 fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) START\n", what,absize(total),size,nio) for i:= 0; ; i++ { var len = bsiz if int(rem) < len { len = int(rem) } Now := time.Now() Elps := Now.Sub(Prev); if 1000000000 < Now.Sub(Prev) { fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) %s\n", what,absize(total),size,nio, abspeed((total-PrevSize),Elps)) Prev = Now; PrevSize = total } rlen := len if in != nil { // should watch the disconnection of out rcc,err := in.Read(buff[0:rlen]) if err != nil { fmt.Printf(Elapsed(Start)+"--En- X: %s read(%v,%v)<%v\n", what,rcc,err,in.Name()) break } rlen = rcc if string(buff[0:10]) == "((SoftEOF " { var ecc int64 = 0 fmt.Sscanf(string(buff),"((SoftEOF %v",&ecc) fmt.Printf(Elapsed(Start)+"--En- X: %s Recv ((SoftEOF %v))/%v\n", what,ecc,total) if ecc == total { break } } } wlen := rlen if out != nil { wcc,err := out.Write(buff[0:rlen]) if err != nil { fmt.Printf(Elapsed(Start)+"-En-- X: %s write(%v,%v)>%v\n”, what,wcc,err,out.Name()) break } wlen = wcc } if wlen < rlen { fmt.Printf(Elapsed(Start)+"--En- X: %s incomplete write (%v/%v)\n", what,wlen,rlen) break; } nio += 1 total += int64(rlen) rem -= int64(rlen) if rem <= 0 { break } } Done := time.Now() Elps := float64(Done.Sub(Start))/1000000000 //Seconds TotalMB := float64(total)/1000000 //MB MBps := TotalMB / Elps fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) %v %.3fMB/s\n", what,total,size,nio,absize(total),MBps) return total } func tcpPush(clnt *os.File){ // shrink socket buffer and recover usleep(100); } func (gsh*GshContext)RexecServer(argv[]string){ debug := true Start0 := time.Now() Start := Start0 // if local == ":" { local = "0.0.0.0:9999" } local := "0.0.0.0:9999" if 0 < len(argv) { if argv[0] == "-s" { debug = false argv = argv[1:] } } if 0 < len(argv) { argv = argv[1:] } port, err := net.ResolveTCPAddr("tcp",local); if err != nil { fmt.Printf("--En- S: Address error: %s (%s)\n",local,err) return } fmt.Printf(Elapsed(Start)+"--In- S: Listening at %s...\n",local); sconn, err := net.ListenTCP("tcp", port) if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: Listen error: %s (%s)\n",local,err) return } reqbuf := make([]byte,LINESIZE) res := "" for { fmt.Printf(Elapsed(Start0)+"--In- S: Listening at %s...\n",local); aconn, err := sconn.AcceptTCP() Start = time.Now() if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: Accept error: %s (%s)\n",local,err) return } clnt, _ := aconn.File() fd := clnt.Fd() ar := aconn.RemoteAddr() if debug { fmt.Printf(Elapsed(Start0)+"--In- S: Accepted TCP at %s [%d] <- %v\n", local,fd,ar) } res = fmt.Sprintf("220 GShell/%s Server\r\n",VERSION) fmt.Fprintf(clnt,"%s",res) if debug { fmt.Printf(Elapsed(Start)+"--In- S: %s",res) } count, err := clnt.Read(reqbuf) if err != nil { fmt.Printf(Elapsed(Start)+"--En- C: (%v %v) %v", count,err,string(reqbuf)) } req := string(reqbuf[:count]) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",string(req)) } reqv := strings.Split(string(req),"\r") cmdv := gshScanArg(reqv[0],0) //cmdv := strings.Split(reqv[0]," ") switch cmdv[0] { case "HELO": res = fmt.Sprintf("250 %v",req) case "GET": // download {remotefile|-zN} [localfile] var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var fname string = "" var in *os.File = nil var pseudoEOF = false if 1 < len(cmdv) { fname = cmdv[1] if strBegins(fname,"-z") { fmt.Sscanf(fname[2:],"%d",&dsize) }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"r") if err { }else{ xout.Close() defer xin.Close() in = xin dsize = MaxStreamSize pseudoEOF = true } }else{ xin,err := os.Open(fname) if err != nil { fmt.Printf("--En- GET (%v)\n",err) }else{ defer xin.Close() in = xin fi,_ := xin.Stat() dsize = fi.Size() } } } //fmt.Printf(Elapsed(Start)+"--In- GET %v:%v\n",dsize,bsize) res = fmt.Sprintf("200 %v\r\n",dsize) fmt.Fprintf(clnt,"%v",res) tcpPush(clnt); // should be separated as line in receiver fmt.Printf(Elapsed(Start)+"--In- S: %v",res) wcount := fileRelay("SendGET",in,clnt,dsize,bsize) if pseudoEOF { in.Close() // pipe from the command // show end of stream data (its size) by OOB? SoftEOF := fmt.Sprintf("((SoftEOF %v))",wcount) fmt.Printf(Elapsed(Start)+"--In- S: Send %v\n",SoftEOF) tcpPush(clnt); // to let SoftEOF data apper at the top of recevied data fmt.Fprintf(clnt,"%v\r\n",SoftEOF) tcpPush(clnt); // to let SoftEOF alone in a packet (separate with 200 OK) // with client generated random? //fmt.Printf("--In- L: close %v (%v)\n",in.Fd(),in.Name()) } res = fmt.Sprintf("200 GET done\r\n") case "PUT": // upload {srcfile|-zN} [dstfile] var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var fname string = "" var out *os.File = nil if 1 < len(cmdv) { // localfile fmt.Sscanf(cmdv[1],"%d",&dsize) } if 2 < len(cmdv) { fname = cmdv[2] if fname == "-" { // nul dev }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"w") if err { }else{ xin.Close() defer xout.Close() out = xout } }else{ // should write to temporary file // should suppress ^C on tty xout,err := os.OpenFile(fname,os.O_CREATE|os.O_RDWR|os.O_TRUNC,0600) //fmt.Printf("--In- S: open(%v) out(%v) err(%v)\n",fname,xout,err) if err != nil { fmt.Printf("--En- PUT (%v)\n",err) }else{ out = xout } } fmt.Printf(Elapsed(Start)+"--In- L: open(%v,w) %v (%v)\n", fname,local,err) } fmt.Printf(Elapsed(Start)+"--In- PUT %v (/%v)\n",dsize,bsize) fmt.Printf(Elapsed(Start)+"--In- S: 200 %v OK\r\n",dsize) fmt.Fprintf(clnt,"200 %v OK\r\n",dsize) fileRelay("RecvPUT",clnt,out,dsize,bsize) res = fmt.Sprintf("200 PUT done\r\n") default: res = fmt.Sprintf("400 What? %v",req) } swcc,serr := clnt.Write([]byte(res)) if serr != nil { fmt.Printf(Elapsed(Start)+"--In- S: (wc=%v er=%v) %v",swcc,serr,res) }else{ fmt.Printf(Elapsed(Start)+"--In- S: %v",res) } aconn.Close(); clnt.Close(); } sconn.Close(); } func (gsh*GshContext)RexecClient(argv[]string)(int,string){ debug := true Start := time.Now() if len(argv) == 1 { return -1,"EmptyARG" } argv = argv[1:] if argv[0] == "-serv" { gsh.RexecServer(argv[1:]) return 0,"Server" } remote := "0.0.0.0:9999" if argv[0][0] == '@' { remote = argv[0][1:] argv = argv[1:] } if argv[0] == "-s" { debug = false argv = argv[1:] } dport, err := net.ResolveTCPAddr("tcp",remote); if err != nil { fmt.Printf(Elapsed(Start)+"Address error: %s (%s)\n",remote,err) return -1,"AddressError" } fmt.Printf(Elapsed(Start)+"--In- C: Connecting to %s\n",remote) serv, err := net.DialTCP("tcp",nil,dport) if err != nil { fmt.Printf(Elapsed(Start)+"Connection error: %s (%s)\n",remote,err) return -1,"CannotConnect" } if debug { al := serv.LocalAddr() fmt.Printf(Elapsed(Start)+"--In- C: Connected to %v <- %v\n",remote,al) } req := "" res := make([]byte,LINESIZE) count,err := serv.Read(res) if err != nil { fmt.Printf("--En- S: (%3d,%v) %v",count,err,string(res)) } if debug { fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res)) } if argv[0] == "GET" { savPA := gsh.gshPA var bsize int = 64*1024 req = fmt.Sprintf("%v\r\n",strings.Join(argv," ")) fmt.Printf(Elapsed(Start)+"--In- C: %v",req) fmt.Fprintf(serv,req) count,err = serv.Read(res) if err != nil { }else{ var dsize int64 = 0 var out *os.File = nil var out_tobeclosed *os.File = nil var fname string = "" var rcode int = 0 var pid int = -1 fmt.Sscanf(string(res),"%d %d",&rcode,&dsize) fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res[0:count])) if 3 <= len(argv) { fname = argv[2] if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"w") if err { }else{ xin.Close() defer xout.Close() out = xout out_tobeclosed = xout pid = 0 // should be its pid } }else{ // should write to temporary file // should suppress ^C on tty xout,err := os.OpenFile(fname,os.O_CREATE|os.O_RDWR|os.O_TRUNC,0600) if err != nil { fmt.Print("--En- %v\n",err) } out = xout //fmt.Printf("--In-- %d > %s\n”,out.Fd(),fname) } } in,_ := serv.File() fileRelay(“RecvGET”,in,out,dsize,bsize) if 0 <= pid { gsh.gshPA = savPA // recovery of Fd(), and more? fmt.Printf(Elapsed(Start)+"--In- L: close Pipe > %v\n”,fname) out_tobeclosed.Close() //syscall.Wait4(pid,nil,0,nil) //@@ } } }else if argv[0] == “PUT” { remote, _ := serv.File() var local *os.File = nil var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var ofile string = “-” //fmt.Printf(“–I– Rex %v\n”,argv) if 1 < len(argv) { fname := argv[1] if strBegins(fname,"-z") { fmt.Sscanf(fname[2:],"%d",&dsize) }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"r") if err { }else{ xout.Close() defer xin.Close() //in = xin local = xin fmt.Printf("--In- [%d] < Upload output of %v\n", local.Fd(),fname) ofile = "-from."+fname dsize = MaxStreamSize } }else{ xlocal,err := os.Open(fname) if err != nil { fmt.Printf("--En- (%s)\n",err) local = nil }else{ local = xlocal fi,_ := local.Stat() dsize = fi.Size() defer local.Close() //fmt.Printf("--I-- Rex in(%v / %v)\n",ofile,dsize) } ofile = fname fmt.Printf(Elapsed(Start)+"--In- L: open(%v,r)=%v %v (%v)\n", fname,dsize,local,err) } } if 2 < len(argv) && argv[2] != "" { ofile = argv[2] //fmt.Printf("(%d)%v B.ofile=%v\n",len(argv),argv,ofile) } //fmt.Printf(Elapsed(Start)+"--I-- Rex out(%v)\n",ofile) fmt.Printf(Elapsed(Start)+"--In- PUT %v (/%v)\n",dsize,bsize) req = fmt.Sprintf("PUT %v %v \r\n",dsize,ofile) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",req) } fmt.Fprintf(serv,"%v",req) count,err = serv.Read(res) if debug { fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res[0:count])) } fileRelay("SendPUT",local,remote,dsize,bsize) }else{ req = fmt.Sprintf("%v\r\n",strings.Join(argv," ")) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",req) } fmt.Fprintf(serv,"%v",req) //fmt.Printf("--In- sending RexRequest(%v)\n",len(req)) } //fmt.Printf(Elapsed(Start)+"--In- waiting RexResponse...\n") count,err = serv.Read(res) ress := "" if count == 0 { ress = "(nil)\r\n" }else{ ress = string(res[:count]) } if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: (%d,%v) %v",count,err,ress) }else{ fmt.Printf(Elapsed(Start)+"--In- S: %v",ress) } serv.Close() //conn.Close() var stat string var rcode int fmt.Sscanf(ress,"%d %s",&rcode,&stat) //fmt.Printf("--D-- Client: %v (%v)",rcode,stat) return rcode,ress } // Remote Shell // gcp file […] { [host]:[port:][dir] | dir } // -p | -no-p func (gsh*GshContext)FileCopy(argv[]string){ var host = “” var port = “” var upload = false var download = false var xargv = []string{“rex-gcp”} var srcv = []string{} var dstv = []string{} argv = argv[1:] for _,v := range argv { /* if v[0] == ‘-‘ { // might be a pseudo file (generated date) continue } */ obj := strings.Split(v,”:”) //fmt.Printf(“%d %v %v\n”,len(obj),v,obj) if 1 < len(obj) { host = obj[0] file := "" if 0 < len(host) { gsh.LastServer.host = host }else{ host = gsh.LastServer.host port = gsh.LastServer.port } if 2 < len(obj) { port = obj[1] if 0 < len(port) { gsh.LastServer.port = port }else{ port = gsh.LastServer.port } file = obj[2] }else{ file = obj[1] } if len(srcv) == 0 { download = true srcv = append(srcv,file) continue } upload = true dstv = append(dstv,file) continue } /* idx := strings.Index(v,":") if 0 <= idx { remote = v[0:idx] if len(srcv) == 0 { download = true srcv = append(srcv,v[idx+1:]) continue } upload = true dstv = append(dstv,v[idx+1:]) continue } */ if download { dstv = append(dstv,v) }else{ srcv = append(srcv,v) } } hostport := "@" + host + ":" + port if upload { if host != "" { xargv = append(xargv,hostport) } xargv = append(xargv,"PUT") xargv = append(xargv,srcv[0:]...) xargv = append(xargv,dstv[0:]...) //fmt.Printf("--I-- FileCopy PUT gsh://%s/%v < %v // %v\n",hostport,dstv,srcv,xargv) fmt.Printf("--I-- FileCopy PUT gsh://%s/%v < %v\n",hostport,dstv,srcv) gsh.RexecClient(xargv) }else if download { if host != "" { xargv = append(xargv,hostport) } xargv = append(xargv,"GET") xargv = append(xargv,srcv[0:]...) xargv = append(xargv,dstv[0:]...) //fmt.Printf("--I-- FileCopy GET gsh://%v/%v > %v // %v\n”,hostport,srcv,dstv,xargv) fmt.Printf(“–I– FileCopy GET gsh://%v/%v > %v\n”,hostport,srcv,dstv) gsh.RexecClient(xargv) }else{ } } // target func (gsh*GshContext)Trelpath(rloc string)(string){ cwd, _ := os.Getwd() os.Chdir(gsh.RWD) os.Chdir(rloc) twd, _ := os.Getwd() os.Chdir(cwd) tpath := twd + “/” + rloc return tpath } // join to rmote GShell – [user@]host[:port] or cd host:[port]:path func (gsh*GshContext)Rjoin(argv[]string){ if len(argv) <= 1 { fmt.Printf("--I-- current server = %v\n",gsh.RSERV) return } serv := argv[1] servv := strings.Split(serv,":") if 1 <= len(servv) { if servv[0] == "lo" { servv[0] = "localhost" } } switch len(servv) { case 1: //if strings.Index(serv,":") < 0 { serv = servv[0] + ":" + fmt.Sprintf("%d",GSH_PORT) //} case 2: // host:port serv = strings.Join(servv,":") } xargv := []string{"rex-join","@"+serv,"HELO"} rcode,stat := gsh.RexecClient(xargv) if (rcode / 100) == 2 { fmt.Printf("--I-- OK Joined (%v) %v\n",rcode,stat) gsh.RSERV = serv }else{ fmt.Printf("--I-- NG, could not joined (%v) %v\n",rcode,stat) } } func (gsh*GshContext)Rexec(argv[]string){ if len(argv) <= 1 { fmt.Printf("--I-- rexec command [ | {file || {command} ]\n",gsh.RSERV) return } /* nargv := gshScanArg(strings.Join(argv," "),0) fmt.Printf("--D-- nargc=%d [%v]\n",len(nargv),nargv) if nargv[1][0] != '{' { nargv[1] = "{" + nargv[1] + "}" fmt.Printf("--D-- nargc=%d [%v]\n",len(nargv),nargv) } argv = nargv */ nargv := []string{} nargv = append(nargv,"{"+strings.Join(argv[1:]," ")+"}") fmt.Printf("--D-- nargc=%d %v\n",len(nargv),nargv) argv = nargv xargv := []string{"rex-exec","@"+gsh.RSERV,"GET"} xargv = append(xargv,argv...) xargv = append(xargv,"/dev/tty") rcode,stat := gsh.RexecClient(xargv) if (rcode / 100) == 2 { fmt.Printf("--I-- OK Rexec (%v) %v\n",rcode,stat) }else{ fmt.Printf("--I-- NG Rexec (%v) %v\n",rcode,stat) } } func (gsh*GshContext)Rchdir(argv[]string){ if len(argv) <= 1 { return } cwd, _ := os.Getwd() os.Chdir(gsh.RWD) os.Chdir(argv[1]) twd, _ := os.Getwd() gsh.RWD = twd fmt.Printf("--I-- JWD=%v\n",twd) os.Chdir(cwd) } func (gsh*GshContext)Rpwd(argv[]string){ fmt.Printf("%v\n",gsh.RWD) } func (gsh*GshContext)Rls(argv[]string){ cwd, _ := os.Getwd() os.Chdir(gsh.RWD) argv[0] = "-ls" gsh.xFind(argv) os.Chdir(cwd) } func (gsh*GshContext)Rput(argv[]string){ var local string = "" var remote string = "" if 1 < len(argv) { local = argv[1] remote = local // base name } if 2 < len(argv) { remote = argv[2] } fmt.Printf("--I-- jput from=%v to=%v\n",local,gsh.Trelpath(remote)) } func (gsh*GshContext)Rget(argv[]string){ var remote string = "" var local string = "" if 1 < len(argv) { remote = argv[1] local = remote // base name } if 2 < len(argv) { local = argv[2] } fmt.Printf("--I-- jget from=%v to=%v\n",gsh.Trelpath(remote),local) } // network // -s, -si, -so // bi-directional, source, sync (maybe socket) func (gshCtx*GshContext)sconnect(inTCP bool, argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: -s [host]:[port[.udp]]\n") return } remote := argv[1] if remote == ":" { remote = "0.0.0.0:9999" } if inTCP { // TCP dport, err := net.ResolveTCPAddr("tcp",remote); if err != nil { fmt.Printf("Address error: %s (%s)\n",remote,err) return } conn, err := net.DialTCP("tcp",nil,dport) if err != nil { fmt.Printf("Connection error: %s (%s)\n",remote,err) return } file, _ := conn.File(); fd := file.Fd() fmt.Printf("Socket: connected to %s, socket[%d]\n",remote,fd) savfd := gshPA.Files[1] gshPA.Files[1] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[1] = savfd file.Close() conn.Close() }else{ //dport, err := net.ResolveUDPAddr("udp4",remote); dport, err := net.ResolveUDPAddr("udp",remote); if err != nil { fmt.Printf("Address error: %s (%s)\n",remote,err) return } //conn, err := net.DialUDP("udp4",nil,dport) conn, err := net.DialUDP("udp",nil,dport) if err != nil { fmt.Printf("Connection error: %s (%s)\n",remote,err) return } file, _ := conn.File(); fd := file.Fd() ar := conn.RemoteAddr() //al := conn.LocalAddr() fmt.Printf("Socket: connected to %s [%s], socket[%d]\n", remote,ar.String(),fd) savfd := gshPA.Files[1] gshPA.Files[1] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[1] = savfd file.Close() conn.Close() } } func (gshCtx*GshContext)saccept(inTCP bool, argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: -ac [host]:[port[.udp]]\n") return } local := argv[1] if local == ":" { local = "0.0.0.0:9999" } if inTCP { // TCP port, err := net.ResolveTCPAddr("tcp",local); if err != nil { fmt.Printf("Address error: %s (%s)\n",local,err) return } //fmt.Printf("Listen at %s...\n",local); sconn, err := net.ListenTCP("tcp", port) if err != nil { fmt.Printf("Listen error: %s (%s)\n",local,err) return } //fmt.Printf("Accepting at %s...\n",local); aconn, err := sconn.AcceptTCP() if err != nil { fmt.Printf("Accept error: %s (%s)\n",local,err) return } file, _ := aconn.File() fd := file.Fd() fmt.Printf("Accepted TCP at %s [%d]\n",local,fd) savfd := gshPA.Files[0] gshPA.Files[0] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[0] = savfd sconn.Close(); aconn.Close(); file.Close(); }else{ //port, err := net.ResolveUDPAddr("udp4",local); port, err := net.ResolveUDPAddr("udp",local); if err != nil { fmt.Printf("Address error: %s (%s)\n",local,err) return } fmt.Printf("Listen UDP at %s...\n",local); //uconn, err := net.ListenUDP("udp4", port) uconn, err := net.ListenUDP("udp", port) if err != nil { fmt.Printf("Listen error: %s (%s)\n",local,err) return } file, _ := uconn.File() fd := file.Fd() ar := uconn.RemoteAddr() remote := "" if ar != nil { remote = ar.String() } if remote == "" { remote = "?" } // not yet received //fmt.Printf("Accepted at %s [%d] <- %s\n",local,fd,"") savfd := gshPA.Files[0] gshPA.Files[0] = fd; savenv := gshPA.Env gshPA.Env = append(savenv, "REMOTE_HOST="+remote) gshCtx.gshellv(argv[2:]) gshPA.Env = savenv gshPA.Files[0] = savfd uconn.Close(); file.Close(); } } // empty line command func (gshCtx*GshContext)xPwd(argv[]string){ // execute context command, pwd + date // context notation, representation scheme, to be resumed at re-login cwd, _ := os.Getwd() switch { case isin("-a",argv): gshCtx.ShowChdirHistory(argv) case isin("-ls",argv): showFileInfo(cwd,argv) default: fmt.Printf("%s\n",cwd) case isin("-v",argv): // obsolete emtpy command t := time.Now() date := t.Format(time.UnixDate) exe, _ := os.Executable() host, _ := os.Hostname() fmt.Printf("{PWD=\"%s\"",cwd) fmt.Printf(" HOST=\"%s\"",host) fmt.Printf(" DATE=\"%s\"",date) fmt.Printf(" TIME=\"%s\"",t.String()) fmt.Printf(" PID=\"%d\"",os.Getpid()) fmt.Printf(" EXE=\"%s\"",exe) fmt.Printf("}\n") } } // History // these should be browsed and edited by HTTP browser // show the time of command with -t and direcotry with -ls // openfile-history, sort by -a -m -c // sort by elapsed time by -t -s // search by “more” like interface // edit history // sort history, and wc or uniq // CPU and other resource consumptions // limit showing range (by time or so) // export / import history func (gshCtx *GshContext)xHistory(argv []string){ atWorkDirX := -1 if 1 < len(argv) && strBegins(argv[1],"@") { atWorkDirX,_ = strconv.Atoi(argv[1][1:]) } //fmt.Printf("--D-- showHistory(%v)\n",argv) for i, v := range gshCtx.CommandHistory { // exclude commands not to be listed by default // internal commands may be suppressed by default if v.CmdLine == "" && !isin("-a",argv) { continue; } if 0 <= atWorkDirX { if v.WorkDirX != atWorkDirX { continue } } if !isin("-n",argv){ // like "fc" fmt.Printf("!%-2d ",i) } if isin("-v",argv){ fmt.Println(v) // should be with it date }else{ if isin("-l",argv) || isin("-l0",argv) { elps := v.EndAt.Sub(v.StartAt); start := v.StartAt.Format(time.Stamp) fmt.Printf("@%d ",v.WorkDirX) fmt.Printf("[%v] %11v/t ",start,elps) } if isin("-l",argv) && !isin("-l0",argv){ fmt.Printf("%v",Rusagef("%t %u\t// %s",argv,v.Rusagev)) } if isin("-at",argv) { // isin("-ls",argv){ dhi := v.WorkDirX // workdir history index fmt.Printf("@%d %s\t",dhi,v.WorkDir) // show the FileInfo of the output command?? } fmt.Printf("%s",v.CmdLine) fmt.Printf("\n") } } } // !n - history index func searchHistory(gshCtx GshContext, gline string) (string, bool, bool){ if gline[0] == '!' { hix, err := strconv.Atoi(gline[1:]) if err != nil { fmt.Printf("--E-- (%s : range)\n",hix) return "", false, true } if hix < 0 || len(gshCtx.CommandHistory) <= hix { fmt.Printf("--E-- (%d : out of range)\n",hix) return "", false, true } return gshCtx.CommandHistory[hix].CmdLine, false, false } // search //for i, v := range gshCtx.CommandHistory { //} return gline, false, false } func (gsh*GshContext)cmdStringInHistory(hix int)(cmd string, ok bool){ if 0 <= hix && hix < len(gsh.CommandHistory) { return gsh.CommandHistory[hix].CmdLine,true } return "",false } // temporary adding to PATH environment // cd name -lib for LD_LIBRARY_PATH // chdir with directory history (date + full-path) // -s for sort option (by visit date or so) func (gsh*GshContext)ShowChdirHistory1(i int,v GChdirHistory, argv []string){ fmt.Printf("!%-2d ",v.CmdIndex) // the first command at this WorkDir fmt.Printf("@%d ",i) fmt.Printf("[%v] ",v.MovedAt.Format(time.Stamp)) showFileInfo(v.Dir,argv) } func (gsh*GshContext)ShowChdirHistory(argv []string){ for i, v := range gsh.ChdirHistory { gsh.ShowChdirHistory1(i,v,argv) } } func skipOpts(argv[]string)(int){ for i,v := range argv { if strBegins(v,"-") { }else{ return i } } return -1 } func (gshCtx*GshContext)xChdir(argv []string){ cdhist := gshCtx.ChdirHistory if isin("?",argv ) || isin("-t",argv) || isin("-a",argv) { gshCtx.ShowChdirHistory(argv) return } pwd, _ := os.Getwd() dir := "" if len(argv) <= 1 { dir = toFullpath("~") }else{ i := skipOpts(argv[1:]) if i < 0 { dir = toFullpath("~") }else{ dir = argv[1+i] } } if strBegins(dir,"@") { if dir == "@0" { // obsolete dir = gshCtx.StartDir }else if dir == "@!" { index := len(cdhist) - 1 if 0 < index { index -= 1 } dir = cdhist[index].Dir }else{ index, err := strconv.Atoi(dir[1:]) if err != nil { fmt.Printf("--E-- xChdir(%v)\n",err) dir = "?" }else if len(gshCtx.ChdirHistory) <= index { fmt.Printf("--E-- xChdir(history range error)\n") dir = "?" }else{ dir = cdhist[index].Dir } } } if dir != "?" { err := os.Chdir(dir) if err != nil { fmt.Printf("--E-- xChdir(%s)(%v)\n",argv[1],err) }else{ cwd, _ := os.Getwd() if cwd != pwd { hist1 := GChdirHistory { } hist1.Dir = cwd hist1.MovedAt = time.Now() hist1.CmdIndex = len(gshCtx.CommandHistory)+1 gshCtx.ChdirHistory = append(cdhist,hist1) if !isin("-s",argv){ //cwd, _ := os.Getwd() //fmt.Printf("%s\n",cwd) ix := len(gshCtx.ChdirHistory)-1 gshCtx.ShowChdirHistory1(ix,hist1,argv) } } } } if isin("-ls",argv){ cwd, _ := os.Getwd() showFileInfo(cwd,argv); } } func TimeValSub(tv1 *syscall.Timeval, tv2 *syscall.Timeval){ *tv1 = syscall.NsecToTimeval(tv1.Nano() - tv2.Nano()) } func RusageSubv(ru1, ru2 [2]syscall.Rusage)([2]syscall.Rusage){ TimeValSub(&ru1[0].Utime,&ru2[0].Utime) TimeValSub(&ru1[0].Stime,&ru2[0].Stime) TimeValSub(&ru1[1].Utime,&ru2[1].Utime) TimeValSub(&ru1[1].Stime,&ru2[1].Stime) return ru1 } func TimeValAdd(tv1 syscall.Timeval, tv2 syscall.Timeval)(syscall.Timeval){ tvs := syscall.NsecToTimeval(tv1.Nano() + tv2.Nano()) return tvs } /* func RusageAddv(ru1, ru2 [2]syscall.Rusage)([2]syscall.Rusage){ TimeValAdd(ru1[0].Utime,ru2[0].Utime) TimeValAdd(ru1[0].Stime,ru2[0].Stime) TimeValAdd(ru1[1].Utime,ru2[1].Utime) TimeValAdd(ru1[1].Stime,ru2[1].Stime) return ru1 } */ // Resource Usage func sRusagef(fmtspec string, argv []string, ru [2]syscall.Rusage)(string){ // ru[0] self , ru[1] children ut := TimeValAdd(ru[0].Utime,ru[1].Utime) st := TimeValAdd(ru[0].Stime,ru[1].Stime) uu := (ut.Sec*1000000 + int64(ut.Usec)) * 1000 su := (st.Sec*1000000 + int64(st.Usec)) * 1000 tu := uu + su ret := fmt.Sprintf(“%v/sum”,abbtime(tu)) ret += fmt.Sprintf(“, %v/usr”,abbtime(uu)) ret += fmt.Sprintf(“, %v/sys”,abbtime(su)) return ret } func Rusagef(fmtspec string, argv []string, ru [2]syscall.Rusage)(string){ ut := TimeValAdd(ru[0].Utime,ru[1].Utime) st := TimeValAdd(ru[0].Stime,ru[1].Stime) fmt.Printf(“%d.%06ds/u “,ut.Sec,ut.Usec) //ru[1].Utime.Sec,ru[1].Utime.Usec) fmt.Printf(“%d.%06ds/s “,st.Sec,st.Usec) //ru[1].Stime.Sec,ru[1].Stime.Usec) return “” } func Getrusagev()([2]syscall.Rusage){ var ruv = [2]syscall.Rusage{} syscall.Getrusage(syscall.RUSAGE_SELF,&ruv[0]) syscall.Getrusage(syscall.RUSAGE_CHILDREN,&ruv[1]) return ruv } func showRusage(what string,argv []string, ru *syscall.Rusage){ fmt.Printf(“%s: “,what); fmt.Printf(“Usr=%d.%06ds”,ru.Utime.Sec,ru.Utime.Usec) fmt.Printf(” Sys=%d.%06ds”,ru.Stime.Sec,ru.Stime.Usec) fmt.Printf(” Rss=%vB”,ru.Maxrss) if isin(“-l”,argv) { fmt.Printf(” MinFlt=%v”,ru.Minflt) fmt.Printf(” MajFlt=%v”,ru.Majflt) fmt.Printf(” IxRSS=%vB”,ru.Ixrss) fmt.Printf(” IdRSS=%vB”,ru.Idrss) fmt.Printf(” Nswap=%vB”,ru.Nswap) fmt.Printf(” Read=%v”,ru.Inblock) fmt.Printf(” Write=%v”,ru.Oublock) } fmt.Printf(” Snd=%v”,ru.Msgsnd) fmt.Printf(” Rcv=%v”,ru.Msgrcv) //if isin(“-l”,argv) { fmt.Printf(” Sig=%v”,ru.Nsignals) //} fmt.Printf(“\n”); } func (gshCtx *GshContext)xTime(argv[]string)(bool){ if 2 <= len(argv){ gshCtx.LastRusage = syscall.Rusage{} rusagev1 := Getrusagev() fin := gshCtx.gshellv(argv[1:]) rusagev2 := Getrusagev() showRusage(argv[1],argv,&gshCtx.LastRusage) rusagev := RusageSubv(rusagev2,rusagev1) showRusage("self",argv,&rusagev[0]) showRusage("chld",argv,&rusagev[1]) return fin }else{ rusage:= syscall.Rusage {} syscall.Getrusage(syscall.RUSAGE_SELF,&rusage) showRusage("self",argv, &rusage) syscall.Getrusage(syscall.RUSAGE_CHILDREN,&rusage) showRusage("chld",argv, &rusage) return false } } func (gshCtx *GshContext)xJobs(argv[]string){ fmt.Printf("%d Jobs\n",len(gshCtx.BackGroundJobs)) for ji, pid := range gshCtx.BackGroundJobs { //wstat := syscall.WaitStatus {0} rusage := syscall.Rusage {} //wpid, err := syscall.Wait4(pid,&wstat,syscall.WNOHANG,&rusage); wpid, err := syscall.Wait4(pid,nil,syscall.WNOHANG,&rusage); if err != nil { fmt.Printf("--E-- %%%d [%d] (%v)\n",ji,pid,err) }else{ fmt.Printf("%%%d[%d](%d)\n",ji,pid,wpid) showRusage("chld",argv,&rusage) } } } func (gsh*GshContext)inBackground(argv[]string)(bool){ if gsh.CmdTrace { fmt.Printf("--I-- inBackground(%v)\n",argv) } gsh.BackGround = true // set background option xfin := false xfin = gsh.gshellv(argv) gsh.BackGround = false return xfin } // -o file without command means just opening it and refer by #N // should be listed by "files" comnmand func (gshCtx*GshContext)xOpen(argv[]string){ var pv = []int{-1,-1} err := syscall.Pipe(pv) fmt.Printf("--I-- pipe()=[#%d,#%d](%v)\n",pv[0],pv[1],err) } func (gshCtx*GshContext)fromPipe(argv[]string){ } func (gshCtx*GshContext)xClose(argv[]string){ } // redirect func (gshCtx*GshContext)redirect(argv[]string)(bool){ if len(argv) < 2 { return false } cmd := argv[0] fname := argv[1] var file *os.File = nil fdix := 0 mode := os.O_RDONLY switch { case cmd == "-i" || cmd == "<": fdix = 0 mode = os.O_RDONLY case cmd == "-o" || cmd == ">“: fdix = 1 mode = os.O_RDWR | os.O_CREATE case cmd == “-a” || cmd == “>>”: fdix = 1 mode = os.O_RDWR | os.O_CREATE | os.O_APPEND } if fname[0] == ‘#’ { fd, err := strconv.Atoi(fname[1:]) if err != nil { fmt.Printf(“–E– (%v)\n”,err) return false } file = os.NewFile(uintptr(fd),”MaybePipe”) }else{ xfile, err := os.OpenFile(argv[1], mode, 0600) if err != nil { fmt.Printf(“–E– (%s)\n”,err) return false } file = xfile } gshPA := gshCtx.gshPA savfd := gshPA.Files[fdix] gshPA.Files[fdix] = file.Fd() fmt.Printf(“–I– Opened [%d] %s\n”,file.Fd(),argv[1]) gshCtx.gshellv(argv[2:]) gshPA.Files[fdix] = savfd return false } //fmt.Fprintf(res, “GShell Status: %q”, html.EscapeString(req.URL.Path)) func httpHandler(res http.ResponseWriter, req *http.Request){ path := req.URL.Path fmt.Printf(“–I– Got HTTP Request(%s)\n”,path) { gshCtxBuf, _ := setupGshContext() gshCtx := &gshCtxBuf fmt.Printf(“–I– %s\n”,path[1:]) gshCtx.tgshelll(path[1:]) } fmt.Fprintf(res, “Hello(^-^)/\n%s\n”,path) } func (gshCtx *GshContext) httpServer(argv []string){ http.HandleFunc(“/”, httpHandler) accport := “localhost:9999” fmt.Printf(“–I– HTTP Server Start at [%s]\n”,accport) http.ListenAndServe(accport,nil) } func (gshCtx *GshContext)xGo(argv[]string){ go gshCtx.gshellv(argv[1:]); } func (gshCtx *GshContext) xPs(argv[]string)(){ } // Plugin // plugin [-ls [names]] to list plugins // Reference: plugin source code func (gshCtx *GshContext) whichPlugin(name string,argv[]string)(pi *PluginInfo){ pi = nil for _,p := range gshCtx.PluginFuncs { if p.Name == name && pi == nil { pi = &p } if !isin(“-s”,argv){ //fmt.Printf(“%v %v “,i,p) if isin(“-ls”,argv){ showFileInfo(p.Path,argv) }else{ fmt.Printf(“%s\n”,p.Name) } } } return pi } func (gshCtx *GshContext) xPlugin(argv[]string) (error) { if len(argv) == 0 || argv[0] == “-ls” { gshCtx.whichPlugin(“”,argv) return nil } name := argv[0] Pin := gshCtx.whichPlugin(name,[]string{“-s”}) if Pin != nil { os.Args = argv // should be recovered? Pin.Addr.(func())() return nil } sofile := toFullpath(argv[0] + “.so”) // or find it by which($PATH) p, err := plugin.Open(sofile) if err != nil { fmt.Printf(“–E– plugin.Open(%s)(%v)\n”,sofile,err) return err } fname := “Main” f, err := p.Lookup(fname) if( err != nil ){ fmt.Printf(“–E– plugin.Lookup(%s)(%v)\n”,fname,err) return err } pin := PluginInfo {p,f,name,sofile} gshCtx.PluginFuncs = append(gshCtx.PluginFuncs,pin) fmt.Printf(“–I– added (%d)\n”,len(gshCtx.PluginFuncs)) //fmt.Printf(“–I– first call(%s:%s)%v\n”,sofile,fname,argv) os.Args = argv f.(func())() return err } func (gshCtx*GshContext)Args(argv[]string){ for i,v := range os.Args { fmt.Printf(“[%v] %v\n”,i,v) } } func (gshCtx *GshContext) showVersion(argv[]string){ if isin(“-l”,argv) { fmt.Printf(“%v/%v (%v)”,NAME,VERSION,DATE); }else{ fmt.Printf(“%v”,VERSION); } if isin(“-a”,argv) { fmt.Printf(” %s”,AUTHOR) } if !isin(“-n”,argv) { fmt.Printf(“\n”) } } // Scanf // string decomposer // scanf [format] [input] func scanv(sstr string)(strv[]string){ strv = strings.Split(sstr,” “) return strv } func scanUntil(src,end string)(rstr string,leng int){ idx := strings.Index(src,end) if 0 <= idx { rstr = src[0:idx] return rstr,idx+len(end) } return src,0 } // -bn -- display base-name part only // can be in some %fmt, for sed rewriting func (gsh*GshContext)printVal(fmts string, vstr string, optv[]string){ //vint,err := strconv.Atoi(vstr) var ival int64 = 0 n := 0 err := error(nil) if strBegins(vstr,"_") { vx,_ := strconv.Atoi(vstr[1:]) if vx < len(gsh.iValues) { vstr = gsh.iValues[vx] }else{ } } // should use Eval() if strBegins(vstr,"0x") { n,err = fmt.Sscanf(vstr[2:],"%x",&ival) }else{ n,err = fmt.Sscanf(vstr,"%d",&ival) //fmt.Printf("--D-- n=%d err=(%v) {%s}=%v\n",n,err,vstr, ival) } if n == 1 && err == nil { //fmt.Printf("--D-- formatn(%v) ival(%v)\n",fmts,ival) fmt.Printf("%"+fmts,ival) }else{ if isin("-bn",optv){ fmt.Printf("%"+fmts,filepath.Base(vstr)) }else{ fmt.Printf("%"+fmts,vstr) } } } func (gsh*GshContext)printfv(fmts,div string,argv[]string,optv[]string,list[]string){ //fmt.Printf("{%d}",len(list)) //curfmt := "v" outlen := 0 curfmt := gsh.iFormat if 0 < len(fmts) { for xi := 0; xi < len(fmts); xi++ { fch := fmts[xi] if fch == '%' { if xi+1 < len(fmts) { curfmt = string(fmts[xi+1]) gsh.iFormat = curfmt xi += 1 if xi+1 < len(fmts) && fmts[xi+1] == '(' { vals,leng := scanUntil(fmts[xi+2:],")") //fmt.Printf("--D-- show fmt(%v) val(%v) next(%v)\n",curfmt,vals,leng) gsh.printVal(curfmt,vals,optv) xi += 2+leng-1 outlen += 1 } continue } } if fch == '_' { hi,leng := scanInt(fmts[xi+1:]) if 0 < leng { if hi < len(gsh.iValues) { gsh.printVal(curfmt,gsh.iValues[hi],optv) outlen += 1 // should be the real length }else{ fmt.Printf("((out-range))") } xi += leng continue; } } fmt.Printf("%c",fch) outlen += 1 } }else{ //fmt.Printf("--D-- print {%s}\n") for i,v := range list { if 0 < i { fmt.Printf(div) } gsh.printVal(curfmt,v,optv) outlen += 1 } } if 0 < outlen { fmt.Printf("\n") } } func (gsh*GshContext)Scanv(argv[]string){ //fmt.Printf("--D-- Scanv(%v)\n",argv) if len(argv) == 1 { return } argv = argv[1:] fmts := "" if strBegins(argv[0],"-F") { fmts = argv[0] gsh.iDelimiter = fmts argv = argv[1:] } input := strings.Join(argv," ") if fmts == "" { // simple decomposition v := scanv(input) gsh.iValues = v //fmt.Printf("%v\n",strings.Join(v,",")) }else{ v := make([]string,8) n,err := fmt.Sscanf(input,fmts,&v[0],&v[1],&v[2],&v[3]) fmt.Printf("--D-- Scanf ->(%v) n=%d err=(%v)\n”,v,n,err) gsh.iValues = v } } func (gsh*GshContext)Printv(argv[]string){ if false { //@@U fmt.Printf(“%v\n”,strings.Join(argv[1:],” “)) return } //fmt.Printf(“–D– Printv(%v)\n”,argv) //fmt.Printf(“%v\n”,strings.Join(gsh.iValues,”,”)) div := gsh.iDelimiter fmts := “” argv = argv[1:] if 0 < len(argv) { if strBegins(argv[0],"-F") { div = argv[0][2:] argv = argv[1:] } } optv := []string{} for _,v := range argv { if strBegins(v,"-"){ optv = append(optv,v) argv = argv[1:] }else{ break; } } if 0 < len(argv) { fmts = strings.Join(argv," ") } gsh.printfv(fmts,div,argv,optv,gsh.iValues) } func (gsh*GshContext)Basename(argv[]string){ for i,v := range gsh.iValues { gsh.iValues[i] = filepath.Base(v) } } func (gsh*GshContext)Sortv(argv[]string){ sv := gsh.iValues sort.Slice(sv , func(i,j int) bool { return sv[i] < sv[j] }) } func (gsh*GshContext)Shiftv(argv[]string){ vi := len(gsh.iValues) if 0 < vi { if isin("-r",argv) { top := gsh.iValues[0] gsh.iValues = append(gsh.iValues[1:],top) }else{ gsh.iValues = gsh.iValues[1:] } } } func (gsh*GshContext)Enq(argv[]string){ } func (gsh*GshContext)Deq(argv[]string){ } func (gsh*GshContext)Push(argv[]string){ gsh.iValStack = append(gsh.iValStack,argv[1:]) fmt.Printf("depth=%d\n",len(gsh.iValStack)) } func (gsh*GshContext)Dump(argv[]string){ for i,v := range gsh.iValStack { fmt.Printf("%d %v\n",i,v) } } func (gsh*GshContext)Pop(argv[]string){ depth := len(gsh.iValStack) if 0 < depth { v := gsh.iValStack[depth-1] if isin("-cat",argv){ gsh.iValues = append(gsh.iValues,v...) }else{ gsh.iValues = v } gsh.iValStack = gsh.iValStack[0:depth-1] fmt.Printf("depth=%d %s\n",len(gsh.iValStack),gsh.iValues) }else{ fmt.Printf("depth=%d\n",depth) } } // Command Interpreter func (gshCtx*GshContext)gshellv(argv []string) (fin bool) { fin = false if gshCtx.CmdTrace { fmt.Fprintf(os.Stderr,”–I– gshellv((%d))\n”,len(argv)) } if len(argv) <= 0 { return false } xargv := []string{} for ai := 0; ai < len(argv); ai++ { xargv = append(xargv,strsubst(gshCtx,argv[ai],false)) } argv = xargv if false { for ai := 0; ai < len(argv); ai++ { fmt.Printf("[%d] %s [%d]%T\n", ai,argv[ai],len(argv[ai]),argv[ai]) } } cmd := argv[0] if gshCtx.CmdTrace { fmt.Fprintf(os.Stderr,"--I-- gshellv(%d)%v\n",len(argv),argv) } switch { // https://tour.golang.org/flowcontrol/11 case cmd == "": gshCtx.xPwd([]string{}); // emtpy command case cmd == "-x": gshCtx.CmdTrace = ! gshCtx.CmdTrace case cmd == "-xt": gshCtx.CmdTime = ! gshCtx.CmdTime case cmd == "-ot": gshCtx.sconnect(true, argv) case cmd == "-ou": gshCtx.sconnect(false, argv) case cmd == "-it": gshCtx.saccept(true , argv) case cmd == "-iu": gshCtx.saccept(false, argv) case cmd == "-i" || cmd == "<" || cmd == "-o" || cmd == ">” || cmd == “-a” || cmd == “>>” || cmd == “-s” || cmd == “><": gshCtx.redirect(argv) case cmd == "|": gshCtx.fromPipe(argv) case cmd == "args": gshCtx.Args(argv) case cmd == "bg" || cmd == "-bg": rfin := gshCtx.inBackground(argv[1:]) return rfin case cmd == "-bn": gshCtx.Basename(argv) case cmd == "call": _,_ = gshCtx.excommand(false,argv[1:]) case cmd == "cd" || cmd == "chdir": gshCtx.xChdir(argv); case cmd == "-cksum": gshCtx.xFind(argv) case cmd == "-sum": gshCtx.xFind(argv) case cmd == "close": gshCtx.xClose(argv) case cmd == "gcp": gshCtx.FileCopy(argv) case cmd == "dec" || cmd == "decode": gshCtx.Dec(argv) case cmd == "#define": case cmd == "dic" || cmd == "d": xDic(argv) case cmd == "dump": gshCtx.Dump(argv) case cmd == "echo" || cmd == "e": echo(argv,true) case cmd == "enc" || cmd == "encode": gshCtx.Enc(argv) case cmd == "env": env(argv) case cmd == "eval": xEval(argv[1:],true) case cmd == "ev" || cmd == "events": dumpEvents(argv) case cmd == "exec": _,_ = gshCtx.excommand(true,argv[1:]) // should not return here case cmd == "exit" || cmd == "quit": // write Result code EXIT to 3> return true case cmd == “fdls”: // dump the attributes of fds (of other process) case cmd == “-find” || cmd == “fin” || cmd == “ufind” || cmd == “uf”: gshCtx.xFind(argv[1:]) case cmd == “fu”: gshCtx.xFind(argv[1:]) case cmd == “fork”: // mainly for a server case cmd == “-gen”: gshCtx.gen(argv) case cmd == “-go”: gshCtx.xGo(argv) case cmd == “-grep”: gshCtx.xFind(argv) case cmd == “gdeq”: gshCtx.Deq(argv) case cmd == “genq”: gshCtx.Enq(argv) case cmd == “gpop”: gshCtx.Pop(argv) case cmd == “gpush”: gshCtx.Push(argv) case cmd == “history” || cmd == “hi”: // hi should be alias gshCtx.xHistory(argv) case cmd == “jobs”: gshCtx.xJobs(argv) case cmd == “lnsp” || cmd == “nlsp”: gshCtx.SplitLine(argv) case cmd == “-ls”: gshCtx.xFind(argv) case cmd == “nop”: // do nothing case cmd == “pipe”: gshCtx.xOpen(argv) case cmd == “plug” || cmd == “plugin” || cmd == “pin”: gshCtx.xPlugin(argv[1:]) case cmd == “print” || cmd == “-pr”: // output internal slice // also sprintf should be gshCtx.Printv(argv) case cmd == “ps”: gshCtx.xPs(argv) case cmd == “pstitle”: // to be gsh.title case cmd == “rexecd” || cmd == “rexd”: gshCtx.RexecServer(argv) case cmd == “rexec” || cmd == “rex”: gshCtx.RexecClient(argv) case cmd == “repeat” || cmd == “rep”: // repeat cond command gshCtx.repeat(argv) case cmd == “replay”: gshCtx.xReplay(argv) case cmd == “scan”: // scan input (or so in fscanf) to internal slice (like Files or map) gshCtx.Scanv(argv) case cmd == “set”: // set name … case cmd == “serv”: gshCtx.httpServer(argv) case cmd == “shift”: gshCtx.Shiftv(argv) case cmd == “sleep”: gshCtx.sleep(argv) case cmd == “-sort”: gshCtx.Sortv(argv) case cmd == “j” || cmd == “join”: gshCtx.Rjoin(argv) case cmd == “a” || cmd == “alpa”: gshCtx.Rexec(argv) case cmd == “jcd” || cmd == “jchdir”: gshCtx.Rchdir(argv) case cmd == “jget”: gshCtx.Rget(argv) case cmd == “jls”: gshCtx.Rls(argv) case cmd == “jput”: gshCtx.Rput(argv) case cmd == “jpwd”: gshCtx.Rpwd(argv) case cmd == “time”: fin = gshCtx.xTime(argv) case cmd == “ungets”: if 1 < len(argv) { ungets(argv[1]+"\n") }else{ } case cmd == "pwd": gshCtx.xPwd(argv); case cmd == "ver" || cmd == "-ver" || cmd == "version": gshCtx.showVersion(argv) case cmd == "where": // data file or so? case cmd == "which": which("PATH",argv); default: if gshCtx.whichPlugin(cmd,[]string{"-s"}) != nil { gshCtx.xPlugin(argv) }else{ notfound,_ := gshCtx.excommand(false,argv) if notfound { fmt.Printf("--E-- command not found (%v)\n",cmd) } } } return fin } func (gsh*GshContext)gshelll(gline string) (rfin bool) { argv := strings.Split(string(gline)," ") fin := gsh.gshellv(argv) return fin } func (gsh*GshContext)tgshelll(gline string)(xfin bool){ start := time.Now() fin := gsh.gshelll(gline) end := time.Now() elps := end.Sub(start); if gsh.CmdTime { fmt.Printf("--T-- " + time.Now().Format(time.Stamp) + "(%d.%09ds)\n", elps/1000000000,elps%1000000000) } return fin } func Ttyid() (int) { fi, err := os.Stdin.Stat() if err != nil { return 0; } //fmt.Printf("Stdin: %v Dev=%d\n", // fi.Mode(),fi.Mode()&os.ModeDevice) if (fi.Mode() & os.ModeDevice) != 0 { stat := syscall.Stat_t{}; err := syscall.Fstat(0,&stat) if err != nil { //fmt.Printf("--I-- Stdin: (%v)\n",err) }else{ //fmt.Printf("--I-- Stdin: rdev=%d %d\n", // stat.Rdev&0xFF,stat.Rdev); //fmt.Printf("--I-- Stdin: tty%d\n",stat.Rdev&0xFF); return int(stat.Rdev & 0xFF) } } return 0 } func (gshCtx *GshContext) ttyfile() string { //fmt.Printf("--I-- GSH_HOME=%s\n",gshCtx.GshHomeDir) ttyfile := gshCtx.GshHomeDir + "/" + "gsh-tty" + fmt.Sprintf("%02d",gshCtx.TerminalId) //strconv.Itoa(gshCtx.TerminalId) //fmt.Printf("--I-- ttyfile=%s\n",ttyfile) return ttyfile } func (gshCtx *GshContext) ttyline()(*os.File){ file, err := os.OpenFile(gshCtx.ttyfile(),os.O_RDWR|os.O_CREATE|os.O_TRUNC,0600) if err != nil { fmt.Printf("--F-- cannot open %s (%s)\n",gshCtx.ttyfile(),err) return file; } return file } func (gshCtx *GshContext)getline(hix int, skipping bool, prevline string) (string) { if( skipping ){ reader := bufio.NewReaderSize(os.Stdin,LINESIZE) line, _, _ := reader.ReadLine() return string(line) }else if true { return xgetline(hix,prevline,gshCtx) } /* else if( with_exgetline && gshCtx.GetLine != "" ){ //var xhix int64 = int64(hix); // cast newenv := os.Environ() newenv = append(newenv, "GSH_LINENO="+strconv.FormatInt(int64(hix),10) ) tty := gshCtx.ttyline() tty.WriteString(prevline) Pa := os.ProcAttr { "", // start dir newenv, //os.Environ(), []*os.File{os.Stdin,os.Stdout,os.Stderr,tty}, nil, } //fmt.Printf("--I-- getline=%s // %s\n",gsh_getlinev[0],gshCtx.GetLine) proc, err := os.StartProcess(gsh_getlinev[0],[]string{"getline","getline"},&Pa) if err != nil { fmt.Printf("--F-- getline process error (%v)\n",err) // for ; ; { } return "exit (getline program failed)" } //stat, err := proc.Wait() proc.Wait() buff := make([]byte,LINESIZE) count, err := tty.Read(buff) //_, err = tty.Read(buff) //fmt.Printf("--D-- getline (%d)\n",count) if err != nil { if ! (count == 0) { // && err.String() == "EOF" ) { fmt.Printf("--E-- getline error (%s)\n",err) } }else{ //fmt.Printf("--I-- getline OK \"%s\"\n",buff) } tty.Close() gline := string(buff[0:count]) return gline }else */ { // if isatty { fmt.Printf("!%d",hix) fmt.Print(PROMPT) // } reader := bufio.NewReaderSize(os.Stdin,LINESIZE) line, _, _ := reader.ReadLine() return string(line) } } //== begin ======================================================= getline /* * getline.c * 2020-0819 extracted from dog.c * getline.go * 2020-0822 ported to Go */ /* package main // getline main import ( "fmt" // fmt “strings” // strings “os” // os “syscall” // syscall //”bytes” // os //”os/exec” // os ) */ // C language compatibility functions var errno = 0 var stdin *os.File = os.Stdin var stdout *os.File = os.Stdout var stderr *os.File = os.Stderr var EOF = -1 var NULL = 0 type FILE os.File type StrBuff []byte var NULL_FP *os.File = nil var NULLSP = 0 //var LINESIZE = 1024 func system(cmdstr string)(int){ PA := syscall.ProcAttr { “”, // the starting directory os.Environ(), []uintptr{os.Stdin.Fd(),os.Stdout.Fd(),os.Stderr.Fd()}, nil, } argv := strings.Split(cmdstr,” “) pid,err := syscall.ForkExec(argv[0],argv,&PA) if( err != nil ){ fmt.Printf(“–E– syscall(%v) err(%v)\n”,cmdstr,err) } syscall.Wait4(pid,nil,0,nil) /* argv := strings.Split(cmdstr,” “) fmt.Fprintf(os.Stderr,”–I– system(%v)\n”,argv) //cmd := exec.Command(argv[0:]…) cmd := exec.Command(argv[0],argv[1],argv[2]) cmd.Stdin = strings.NewReader(“output of system”) var out bytes.Buffer cmd.Stdout = &out var serr bytes.Buffer cmd.Stderr = &serr err := cmd.Run() if err != nil { fmt.Fprintf(os.Stderr,”–E– system(%v)err(%v)\n”,argv,err) fmt.Printf(“ERR:%s\n”,serr.String()) }else{ fmt.Printf(“%s”,out.String()) } */ return 0 } func atoi(str string)(ret int){ ret,err := fmt.Sscanf(str,”%d”,ret) if err == nil { return ret }else{ // should set errno return 0 } } func getenv(name string)(string){ val,got := os.LookupEnv(name) if got { return val }else{ return “?” } } func strcpy(dst StrBuff, src string){ var i int srcb := []byte(src) for i = 0; i < len(src) && srcb[i] != 0; i++ { dst[i] = srcb[i] } dst[i] = 0 } func xstrcpy(dst StrBuff, src StrBuff){ dst = src } func strcat(dst StrBuff, src StrBuff){ dst = append(dst,src...) } func strdup(str StrBuff)(string){ return string(str[0:strlen(str)]) } func sstrlen(str string)(int){ return len(str) } func strlen(str StrBuff)(int){ var i int for i = 0; i < len(str) && str[i] != 0; i++ { } return i } func sizeof(data StrBuff)(int){ return len(data) } func isatty(fd int)(ret int){ return 1 } func fopen(file string,mode string)(fp*os.File){ if mode == "r" { fp,err := os.Open(file) if( err != nil ){ fmt.Printf("--E-- fopen(%s,%s)=(%v)\n",file,mode,err) return NULL_FP; } return fp; }else{ fp,err := os.OpenFile(file,os.O_RDWR|os.O_CREATE|os.O_TRUNC,0600) if( err != nil ){ return NULL_FP; } return fp; } } func fclose(fp*os.File){ fp.Close() } func fflush(fp *os.File)(int){ return 0 } func fgetc(fp*os.File)(int){ var buf [1]byte _,err := fp.Read(buf[0:1]) if( err != nil ){ return EOF; }else{ return int(buf[0]) } } func sfgets(str*string, size int, fp*os.File)(int){ buf := make(StrBuff,size) var ch int var i int for i = 0; i < len(buf)-1; i++ { ch = fgetc(fp) //fprintf(stderr,"--fgets %d/%d %X\n",i,len(buf),ch) if( ch == EOF ){ break; } buf[i] = byte(ch); if( ch == '\n' ){ break; } } buf[i] = 0 //fprintf(stderr,"--fgets %d/%d (%s)\n",i,len(buf),buf[0:i]) return i } func fgets(buf StrBuff, size int, fp*os.File)(int){ var ch int var i int for i = 0; i < len(buf)-1; i++ { ch = fgetc(fp) //fprintf(stderr,"--fgets %d/%d %X\n",i,len(buf),ch) if( ch == EOF ){ break; } buf[i] = byte(ch); if( ch == '\n' ){ break; } } buf[i] = 0 //fprintf(stderr,"--fgets %d/%d (%s)\n",i,len(buf),buf[0:i]) return i } func fputc(ch int , fp*os.File)(int){ var buf [1]byte buf[0] = byte(ch) fp.Write(buf[0:1]) return 0 } func fputs(buf StrBuff, fp*os.File)(int){ fp.Write(buf) return 0 } func xfputss(str string, fp*os.File)(int){ return fputs([]byte(str),fp) } func sscanf(str StrBuff,fmts string, params ...interface{})(int){ fmt.Sscanf(string(str[0:strlen(str)]),fmts,params...) return 0 } func fprintf(fp*os.File,fmts string, params ...interface{})(int){ fmt.Fprintf(fp,fmts,params...) return 0 } // Command Line IME //———————————————————————– MyIME var MyIMEVER = “MyIME/0.0.2”; type RomKana struct { dic string // dictionaly ID pat string // input pattern out string // output pattern hit int64 // count of hit and used } var dicents = 0 var romkana [1024]RomKana var Romkan []RomKana func isinDic(str string)(int){ for i,v := range Romkan { if v.pat == str { return i } } return -1 } const ( DIC_COM_LOAD = “im” DIC_COM_DUMP = “s” DIC_COM_LIST = “ls” DIC_COM_ENA = “en” DIC_COM_DIS = “di” ) func helpDic(argv []string){ out := stderr cmd := “” if 0 < len(argv) { cmd = argv[0] } fprintf(out,"--- %v Usage\n",cmd) fprintf(out,"... Commands\n") fprintf(out,"... %v %-3v [dicName] [dicURL ] -- Import dictionary\n",cmd,DIC_COM_LOAD) fprintf(out,"... %v %-3v [pattern] -- Search in dictionary\n",cmd,DIC_COM_DUMP) fprintf(out,"... %v %-3v [dicName] -- List dictionaries\n",cmd,DIC_COM_LIST) fprintf(out,"... %v %-3v [dicName] -- Disable dictionaries\n",cmd,DIC_COM_DIS) fprintf(out,"... %v %-3v [dicName] -- Enable dictionaries\n",cmd,DIC_COM_ENA) fprintf(out,"... Keys ... %v\n","ESC can be used for '\\'") fprintf(out,"... \\c -- Reverse the case of the last character\n",) fprintf(out,"... \\i -- Replace input with translated text\n",) fprintf(out,"... \\j -- On/Off translation mode\n",) fprintf(out,"... \\l -- Force Lower Case\n",) fprintf(out,"... \\u -- Force Upper Case (software CapsLock)\n",) fprintf(out,"... \\v -- Show translation actions\n",) fprintf(out,"... \\x -- Replace the last input character with it Hexa-Decimal\n",) } func xDic(argv[]string){ if len(argv) <= 1 { helpDic(argv) return } argv = argv[1:] var debug = false var info = false var silent = false var dump = false var builtin = false cmd := argv[0] argv = argv[1:] opt := "" arg := "" if 0 < len(argv) { arg1 := argv[0] if arg1[0] == '-' { switch arg1 { default: fmt.Printf("--Ed-- Unknown option(%v)\n",arg1) return case "-b": builtin = true case "-d": debug = true case "-s": silent = true case "-v": info = true } opt = arg1 argv = argv[1:] } } dicName := "" dicURL := "" if 0 < len(argv) { arg = argv[0] dicName = arg argv = argv[1:] } if 0 < len(argv) { dicURL = argv[0] argv = argv[1:] } if false { fprintf(stderr,"--Dd-- com(%v) opt(%v) arg(%v)\n",cmd,opt,arg) } if cmd == DIC_COM_LOAD { //dicType := "" dicBody := "" if !builtin && dicName != "" && dicURL == "" { f,err := os.Open(dicName) if err == nil { dicURL = dicName }else{ f,err = os.Open(dicName+".html") if err == nil { dicURL = dicName+".html" }else{ f,err = os.Open("gshdic-"+dicName+".html") if err == nil { dicURL = "gshdic-"+dicName+".html" } } } if err == nil { var buf = make([]byte,128*1024) count,err := f.Read(buf) f.Close() if info { fprintf(stderr,"--Id-- ReadDic(%v,%v)\n",count,err) } dicBody = string(buf[0:count]) } } if dicBody == "" { switch arg { default: dicName = "WorldDic" dicURL = WorldDic if info { fprintf(stderr,"--Id-- default dictionary \"%v\"\n", dicName); } case "wnn": dicName = "WnnDic" dicURL = WnnDic case "sumomo": dicName = "SumomoDic" dicURL = SumomoDic case "sijimi": dicName = "SijimiDic" dicURL = SijimiDic case "jkl": dicName = "JKLJaDic" dicURL = JA_JKLDic } if debug { fprintf(stderr,"--Id-- %v URL=%v\n\n",dicName,dicURL); } dicv := strings.Split(dicURL,",") if debug { fprintf(stderr,"--Id-- %v encoded data...\n",dicName) fprintf(stderr,"Type: %v\n",dicv[0]) fprintf(stderr,"Body: %v\n",dicv[1]) fprintf(stderr,"\n") } body,_ := base64.StdEncoding.DecodeString(dicv[1]) dicBody = string(body) } if info { fmt.Printf("--Id-- %v %v\n",dicName,dicURL) fmt.Printf("%s\n",dicBody) } if debug { fprintf(stderr,"--Id-- dicName %v text...\n",dicName) fprintf(stderr,"%v\n",string(dicBody)) } entv := strings.Split(dicBody,"\n"); if info { fprintf(stderr,"--Id-- %v scan...\n",dicName); } var added int = 0 var dup int = 0 for i,v := range entv { var pat string var out string fmt.Sscanf(v,"%s %s",&pat,&out) if len(pat) <= 0 { }else{ if 0 <= isinDic(pat) { dup += 1 continue } romkana[dicents] = RomKana{dicName,pat,out,0} dicents += 1 added += 1 Romkan = append(Romkan,RomKana{dicName,pat,out,0}) if debug { fmt.Printf("[%3v]:[%2v]%-8v [%2v]%v\n", i,len(pat),pat,len(out),out) } } } if !silent { url := dicURL if strBegins(url,"data:") { url = "builtin" } fprintf(stderr,"--Id-- %v scan... %v added, %v dup. / %v total (%v)\n", dicName,added,dup,len(Romkan),url); } // should sort by pattern length for conclete match, for performance if debug { arg = "" // search pattern dump = true } } if cmd == DIC_COM_DUMP || dump { fprintf(stderr,"--Id-- %v dump... %v entries:\n",dicName,len(Romkan)); var match = 0 for i := 0; i < len(Romkan); i++ { dic := Romkan[i].dic pat := Romkan[i].pat out := Romkan[i].out if arg == "" || 0 <= strings.Index(pat,arg)||0 <= strings.Index(out,arg) { fmt.Printf("\\\\%v\t%v [%2v]%-8v [%2v]%v\n", i,dic,len(pat),pat,len(out),out) match += 1 } } fprintf(stderr,"--Id-- %v matched %v / %v entries:\n",arg,match,len(Romkan)); } } func loadDefaultDic(dic int){ if( 0 < len(Romkan) ){ return } //fprintf(stderr,"\r\n") xDic([]string{"dic",DIC_COM_LOAD}); var info = false if info { fprintf(stderr,"--Id-- Conguraturations!! WorldDic is now activated.\r\n") fprintf(stderr,"--Id-- enter \"dic\" command for help.\r\n") } } func readDic()(int){ /* var rk *os.File; var dic = "MyIME-dic.txt"; //rk = fopen("romkana.txt","r"); //rk = fopen("JK-JA-morse-dic.txt","r"); rk = fopen(dic,"r"); if( rk == NULL_FP ){ if( true ){ fprintf(stderr,"--%s-- Could not load %s\n",MyIMEVER,dic); } return -1; } if( true ){ var di int; var line = make(StrBuff,1024); var pat string var out string for di = 0; di < 1024; di++ { if( fgets(line,sizeof(line),rk) == NULLSP ){ break; } fmt.Sscanf(string(line[0:strlen(line)]),"%s %s",&pat,&out); //sscanf(line,"%s %[^\r\n]",&pat,&out); romkana[di].pat = pat; romkana[di].out = out; //fprintf(stderr,"--Dd- %-10s %s\n",pat,out) } dicents += di if( false ){ fprintf(stderr,"--%s-- loaded romkana.txt [%d]\n",MyIMEVER,di); for di = 0; di < dicents; di++ { fprintf(stderr, "%s %s\n",romkana[di].pat,romkana[di].out); } } } fclose(rk); //romkana[dicents].pat = "//ddump" //romkana[dicents].pat = "//ddump" // dump the dic. and clean the command input */ return 0; } func matchlen(stri string, pati string)(int){ if strBegins(stri,pati) { return len(pati) }else{ return 0 } } func convs(src string)(string){ var si int; var sx = len(src); var di int; var mi int; var dstb []byte for si = 0; si < sx; { // search max. match from the position if strBegins(src[si:],"%x/") { // %x/integer/ // s/a/b/ ix := strings.Index(src[si+3:],"/") if 0 < ix { var iv int = 0 //fmt.Sscanf(src[si+3:si+3+ix],"%d",&iv) fmt.Sscanf(src[si+3:si+3+ix],"%v",&iv) sval := fmt.Sprintf("%x",iv) bval := []byte(sval) dstb = append(dstb,bval...) si = si+3+ix+1 continue } } if strBegins(src[si:],"%d/") { // %d/integer/ // s/a/b/ ix := strings.Index(src[si+3:],"/") if 0 < ix { var iv int = 0 fmt.Sscanf(src[si+3:si+3+ix],"%v",&iv) sval := fmt.Sprintf("%d",iv) bval := []byte(sval) dstb = append(dstb,bval...) si = si+3+ix+1 continue } } if strBegins(src[si:],"%t") { now := time.Now() if true { date := now.Format(time.Stamp) dstb = append(dstb,[]byte(date)...) si = si+3 } continue } var maxlen int = 0; var len int; mi = -1; for di = 0; di < dicents; di++ { len = matchlen(src[si:],romkana[di].pat); if( maxlen < len ){ maxlen = len; mi = di; } } if( 0 < maxlen ){ out := romkana[mi].out; dstb = append(dstb,[]byte(out)...); si += maxlen; }else{ dstb = append(dstb,src[si]) si += 1; } } return string(dstb) } func trans(src string)(int){ dst := convs(src); xfputss(dst,stderr); return 0; } //------------------------------------------------------------- LINEEDIT // "?" at the top of the line means searching history // should be compatilbe with Telnet const ( EV_MODE = 255 EV_IDLE = 254 EV_TIMEOUT = 253 GO_UP = 252 GO_DOWN = 251 GO_RIGHT = 250 GO_LEFT = 249 DEL_RIGHT = 248 ) // should return number of octets ready to be read immediately //fprintf(stderr,"\n--Select(%v %v)\n",err,r.Bits[0]) var EventRecvFd = -1 // file descriptor var EventSendFd = -1 const EventFdOffset = 1000000 const NormalFdOffset = 100 func putEvent(event int, evarg int){ if true { if EventRecvFd < 0 { var pv = []int{-1,-1} syscall.Pipe(pv) EventRecvFd = pv[0] EventSendFd = pv[1] //fmt.Printf("--De-- EventPipe created[%v,%v]\n",EventRecvFd,EventSendFd) } }else{ if EventRecvFd < 0 { // the document differs from this spec // https://golang.org/src/syscall/syscall_unix.go?s=8096:8158#L340 sv,err := syscall.Socketpair(syscall.AF_UNIX,syscall.SOCK_STREAM,0) EventRecvFd = sv[0] EventSendFd = sv[1] if err != nil { fmt.Printf("--De-- EventSock created[%v,%v](%v)\n", EventRecvFd,EventSendFd,err) } } } var buf = []byte{ byte(event)} n,err := syscall.Write(EventSendFd,buf) if err != nil { fmt.Printf("--De-- putEvent[%v](%3v)(%v %v)\n",EventSendFd,event,n,err) } } func ungets(str string){ for _,ch := range str { putEvent(int(ch),0) } } func (gsh*GshContext)xReplay(argv[]string){ hix := 0 tempo := 1.0 xtempo := 1.0 repeat := 1 for _,a := range argv { // tempo if strBegins(a,"x") { fmt.Sscanf(a[1:],"%f",&xtempo) tempo = 1 / xtempo //fprintf(stderr,"--Dr-- tempo=[%v]%v\n",a[2:],tempo); }else if strBegins(a,"r") { // repeat fmt.Sscanf(a[1:],"%v",&repeat) }else if strBegins(a,"!") { fmt.Sscanf(a[1:],"%d",&hix) }else{ fmt.Sscanf(a,"%d",&hix) } } if hix == 0 || len(argv) <= 1 { hix = len(gsh.CommandHistory)-1 } fmt.Printf("--Ir-- Replay(!%v x%v r%v)\n",hix,xtempo,repeat) //dumpEvents(hix) //gsh.xScanReplay(hix,false,repeat,tempo,argv) go gsh.xScanReplay(hix,true,repeat,tempo,argv) } // syscall.Select // 2020-0827 GShell-0.2.3 func FpollIn1(fp *os.File,usec int)(uintptr){ nfd := 1 rdv := syscall.FdSet {} fd1 := fp.Fd() bank1 := fd1/32 mask1 := int32(1 << fd1) rdv.Bits[bank1] = mask1 fd2 := -1 bank2 := -1 var mask2 int32 = 0 if 0 <= EventRecvFd { fd2 = EventRecvFd nfd = fd2 + 1 bank2 = fd2/32 mask2 = int32(1 << fd2) rdv.Bits[bank2] |= mask2 //fmt.Printf("--De-- EventPoll mask added [%d][%v][%v]\n",fd2,bank2,mask2) } tout := syscall.NsecToTimeval(int64(usec*1000)) //n,err := syscall.Select(nfd,&rdv,nil,nil,&tout) // spec. mismatch err := syscall.Select(nfd,&rdv,nil,nil,&tout) if err != nil { //fmt.Printf("--De-- select() err(%v)\n",err) } if err == nil { if 0 <= fd2 && (rdv.Bits[bank2] & mask2) != 0 { if false { fmt.Printf("--De-- got Event\n") } return uintptr(EventFdOffset + fd2) }else if (rdv.Bits[bank1] & mask1) != 0 { return uintptr(NormalFdOffset + fd1) }else{ return 1 } }else{ return 0 } } func fgetcTimeout1(fp *os.File,usec int)(int){ READ1: readyFd := FpollIn1(fp,usec) if readyFd < 100 { return EV_TIMEOUT } var buf [1]byte if EventFdOffset <= readyFd { fd := int(readyFd-EventFdOffset) _,err := syscall.Read(fd,buf[0:1]) if( err != nil ){ return EOF; }else{ if buf[0] == EV_MODE { recvEvent(fd) goto READ1 } return int(buf[0]) } } _,err := fp.Read(buf[0:1]) if( err != nil ){ return EOF; }else{ return int(buf[0]) } } func visibleChar(ch int)(string){ switch { case '!' <= ch && ch <= '~': return string(ch) } switch ch { case ' ': return "\\s" case '\n': return "\\n" case '\r': return "\\r" case '\t': return "\\t" } switch ch { case 0x00: return "NUL" case 0x07: return "BEL" case 0x08: return "BS" case 0x0E: return "SO" case 0x0F: return "SI" case 0x1B: return "ESC" case 0x7F: return "DEL" } switch ch { case EV_IDLE: return fmt.Sprintf("IDLE") case EV_MODE: return fmt.Sprintf("MODE") } return fmt.Sprintf("%X",ch) } func recvEvent(fd int){ var buf = make([]byte,1) _,_ = syscall.Read(fd,buf[0:1]) if( buf[0] != 0 ){ romkanmode = true }else{ romkanmode = false } } func (gsh*GshContext)xScanReplay(hix int,replay bool,repeat int,tempo float64,argv[]string){ var Start time.Time var events = []Event{} for _,e := range Events { if hix == 0 || e.CmdIndex == hix { events = append(events,e) } } elen := len(events) if 0 < elen { if events[elen-1].event == EV_IDLE { events = events[0:elen-1] } } for r := 0; r < repeat; r++ { for i,e := range events { nano := e.when.Nanosecond() micro := nano / 1000 if Start.Second() == 0 { Start = time.Now() } diff := time.Now().Sub(Start) if replay { if e.event != EV_IDLE { putEvent(e.event,0) if e.event == EV_MODE { // event with arg putEvent(int(e.evarg),0) } } }else{ fmt.Printf("%7.3fms #%-3v !%-3v [%v.%06d] %3v %02X %-4v %10.3fms\n", float64(diff)/1000000.0, i, e.CmdIndex, e.when.Format(time.Stamp),micro, e.event,e.event,visibleChar(e.event), float64(e.evarg)/1000000.0) } if e.event == EV_IDLE { d := time.Duration(float64(time.Duration(e.evarg)) * tempo) //nsleep(time.Duration(e.evarg)) nsleep(d) } } } } func dumpEvents(arg[]string){ hix := 0 if 1 < len(arg) { fmt.Sscanf(arg[1],"%d",&hix) } for i,e := range Events { nano := e.when.Nanosecond() micro := nano / 1000 //if e.event != EV_TIMEOUT { if hix == 0 || e.CmdIndex == hix { fmt.Printf("#%-3v !%-3v [%v.%06d] %3v %02X %-4v %10.3fms\n",i, e.CmdIndex, e.when.Format(time.Stamp),micro, e.event,e.event,visibleChar(e.event),float64(e.evarg)/1000000.0) } //} } } func fgetcTimeout(fp *os.File,usec int)(int){ ch := fgetcTimeout1(fp,usec) if ch != EV_TIMEOUT { now := time.Now() if 0 < len(Events) { last := Events[len(Events)-1] dura := int64(now.Sub(last.when)) Events = append(Events,Event{last.when,EV_IDLE,dura,last.CmdIndex}) } Events = append(Events,Event{time.Now(),ch,0,CmdIndex}) } return ch } var TtyMaxCol = 72 // to be obtained by ioctl? var EscTimeout = (100*1000) var ( MODE_EditMode bool // vi compatible mode MODE_ShowMode bool romkanmode bool MODE_Recursive bool // recursive translation MODE_CapsLock bool // software CapsLock MODE_LowerLock bool // force lower-case character lock MODE_ViInsert int // visible insert mode, should be like "I" icon in X Window MODE_ViTrace bool // output newline before translation ) type IInput struct { lno int lastlno int pch []int // input queue prompt string line string right string inJmode bool pinJmode bool waitingMeta string // waiting meta character LastCmd string } func (iin*IInput)Getc(timeoutUs int)(int){ ch1 := EOF ch2 := EOF ch3 := EOF if( 0 < len(iin.pch) ){ // deQ ch1 = iin.pch[0] iin.pch = iin.pch[1:] }else{ ch1 = fgetcTimeout(stdin,timeoutUs); } if( ch1 == 033 ){ /// escape sequence ch2 = fgetcTimeout(stdin,EscTimeout); if( ch2 == EV_TIMEOUT ){ }else{ ch3 = fgetcTimeout(stdin,EscTimeout); if( ch3 == EV_TIMEOUT ){ iin.pch = append(iin.pch,ch2) // enQ }else{ switch( ch2 ){ default: iin.pch = append(iin.pch,ch2) // enQ iin.pch = append(iin.pch,ch3) // enQ case '[': switch( ch3 ){ case 'A': ch1 = GO_UP; // ^ case 'B': ch1 = GO_DOWN; // v case 'C': ch1 = GO_RIGHT; // > case ‘D’: ch1 = GO_LEFT; // < case '3': ch4 := fgetcTimeout(stdin,EscTimeout); if( ch4 == '~' ){ //fprintf(stderr,"x[%02X %02X %02X %02X]\n",ch1,ch2,ch3,ch4); ch1 = DEL_RIGHT } } case '\\': //ch4 := fgetcTimeout(stdin,EscTimeout); //fprintf(stderr,"y[%02X %02X %02X %02X]\n",ch1,ch2,ch3,ch4); switch( ch3 ){ case '~': ch1 = DEL_RIGHT } } } } } return ch1 } func (inn*IInput)clearline(){ var i int fprintf(stderr,"\r"); // should be ANSI ESC sequence for i = 0; i < TtyMaxCol; i++ { // to the max. position in this input action fputc(' ',os.Stderr); } fprintf(stderr,"\r"); } func (iin*IInput)Redraw(){ redraw(iin,iin.lno,iin.line,iin.right) } func redraw(iin *IInput,lno int,line string,right string){ inMeta := false showMode := "" showMeta := "" // visible Meta mode on the cursor position showLino := fmt.Sprintf("!%d! ",lno) InsertMark := "" // in visible insert mode if MODE_EditMode { }else if 0 < len(iin.right) { InsertMark = " " } if( 0 < len(iin.waitingMeta) ){ inMeta = true if iin.waitingMeta[0] != 033 { showMeta = iin.waitingMeta } } if( romkanmode ){ //romkanmark = " *"; }else{ //romkanmark = ""; } if MODE_ShowMode { romkan := "--" inmeta := "-" inveri := "" if MODE_CapsLock { inmeta = "A" } if MODE_LowerLock { inmeta = "a" } if MODE_ViTrace { inveri = "v" } if MODE_EditMode { inveri = ":" } if romkanmode { romkan = "\343\201\202" if MODE_CapsLock { inmeta = "R" }else{ inmeta = "r" } } if inMeta { inmeta = "\\" } showMode = "["+romkan+inmeta+inveri+"]"; } Pre := "\r" + showMode + showLino Output := "" Left := "" Right := "" if romkanmode { Left = convs(line) Right = InsertMark+convs(right) }else{ Left = line Right = InsertMark+right } Output = Pre+Left if MODE_ViTrace { Output += iin.LastCmd } Output += showMeta+Right for len(Output) < TtyMaxCol { // to the max. position that may be dirty Output += " " // should be ANSI ESC sequence // not necessary just after newline } Output += Pre+Left+showMeta // to set the cursor to the current input position fprintf(stderr,"%s",Output) if MODE_ViTrace { if 0 < len(iin.LastCmd) { iin.LastCmd = "" fprintf(stderr,"\r\n") } } } func delHeadChar(str string)(rline string,head string){ _,clen := utf8.DecodeRune([]byte(str)) head = string(str[0:clen]) return str[clen:],head } func delTailChar(str string)(rline string, last string){ var i = 0 var clen = 0 for { _,siz := utf8.DecodeRune([]byte(str)[i:]) if siz <= 0 { break } clen = siz i += siz } last = str[len(str)-clen:] return str[0:len(str)-clen],last } // 3> for output and history // 4> for keylog? // Command Line Editor func xgetline(lno int, prevline string, gsh*GshContext)(string){ var iin IInput iin.lastlno = lno iin.lno = lno CmdIndex = len(gsh.CommandHistory) if( isatty(0) == 0 ){ if( sfgets(&iin.line,LINESIZE,stdin) == NULL ){ iin.line = “exit\n”; }else{ } return iin.line } if( true ){ //var pts string; //pts = ptsname(0); //pts = ttyname(0); //fprintf(stderr,”–pts[0] = %s\n”,pts?pts:”?”); } if( false ){ fprintf(stderr,”! “); fflush(stderr); sfgets(&iin.line,LINESIZE,stdin); return iin.line } system(“/bin/stty -echo -icanon”); xline := iin.xgetline1(prevline,gsh) system(“/bin/stty echo sane”); return xline } func (iin*IInput)Translate(cmdch int){ romkanmode = !romkanmode; if MODE_ViTrace { fprintf(stderr,”%v\r\n”,string(cmdch)); }else if( cmdch == ‘J’ ){ fprintf(stderr,”J\r\n”); iin.inJmode = true } iin.Redraw(); loadDefaultDic(cmdch); iin.Redraw(); } func (iin*IInput)Replace(cmdch int){ iin.LastCmd = fmt.Sprintf(“\\%v”,string(cmdch)) iin.Redraw(); loadDefaultDic(cmdch); dst := convs(iin.line+iin.right); iin.line = dst iin.right = “” if( cmdch == ‘I’ ){ fprintf(stderr,”I\r\n”); iin.inJmode = true } iin.Redraw(); } func (iin*IInput)xgetline1(prevline string, gsh*GshContext)(string){ var ch int; MODE_ShowMode = false iin.Redraw(); first := true for cix := 0; ; cix++ { iin.pinJmode = iin.inJmode iin.inJmode = false ch = iin.Getc(1000*1000) if ch != EV_TIMEOUT && first { first = false mode := 0 if romkanmode { mode = 1 } now := time.Now() Events = append(Events,Event{now,EV_MODE,int64(mode),CmdIndex}) } if ch == 033 { MODE_ShowMode = true MODE_EditMode = !MODE_EditMode iin.Redraw(); continue } if MODE_EditMode { switch ch { case ‘j’: ch = GO_DOWN case ‘k’: ch = GO_UP case ‘h’: ch = GO_LEFT case ‘l’: ch = GO_RIGHT case ‘x’: ch = DEL_RIGHT case ‘a’: MODE_EditMode = !MODE_EditMode ch = GO_RIGHT case ‘i’: MODE_EditMode = !MODE_EditMode iin.Redraw(); continue case ‘~’: right,head := delHeadChar(iin.right) if len([]byte(head)) == 1 { ch = int(head[0]) if( ‘a’ <= ch && ch <= 'z' ){ ch = ch + 'A'-'a' }else if( 'A' <= ch && ch <= 'Z' ){ ch = ch + 'a'-'A' } iin.right = string(ch) + right } iin.Redraw(); continue } } //fprintf(stderr,"A[%02X]\n",ch); if( ch == '\\' || ch == 033 ){ MODE_ShowMode = true metach := ch iin.waitingMeta = string(ch) iin.Redraw(); // set cursor //fprintf(stderr,"???\b\b\b") ch = fgetcTimeout(stdin,2000*1000) // reset cursor iin.waitingMeta = "" cmdch := ch if( ch == EV_TIMEOUT ){ if metach == 033 { continue } ch = metach }else /* if( ch == 'm' || ch == 'M' ){ mch := fgetcTimeout(stdin,1000*1000) if mch == 'r' { romkanmode = true }else{ romkanmode = false } continue }else */ if( ch == 'k' || ch == 'K' ){ MODE_Recursive = !MODE_Recursive iin.Translate(cmdch); continue }else if( ch == 'j' || ch == 'J' ){ iin.Translate(cmdch); continue }else if( ch == 'i' || ch == 'I' ){ iin.Replace(cmdch); continue }else if( ch == 'l' || ch == 'L' ){ MODE_LowerLock = !MODE_LowerLock MODE_CapsLock = false if MODE_ViTrace { fprintf(stderr,"%v\r\n",string(cmdch)); } iin.Redraw(); continue }else if( ch == 'u' || ch == 'U' ){ MODE_CapsLock = !MODE_CapsLock MODE_LowerLock = false if MODE_ViTrace { fprintf(stderr,"%v\r\n",string(cmdch)); } iin.Redraw(); continue }else if( ch == 'v' || ch == 'V' ){ MODE_ViTrace = !MODE_ViTrace if MODE_ViTrace { fprintf(stderr,"%v\r\n",string(cmdch)); } iin.Redraw(); continue }else if( ch == 'c' || ch == 'C' ){ if 0 < len(iin.line) { xline,tail := delTailChar(iin.line) if len([]byte(tail)) == 1 { ch = int(tail[0]) if( 'a' <= ch && ch <= 'z' ){ ch = ch + 'A'-'a' }else if( 'A' <= ch && ch <= 'Z' ){ ch = ch + 'a'-'A' } iin.line = xline + string(ch) } } if MODE_ViTrace { fprintf(stderr,"%v\r\n",string(cmdch)); } iin.Redraw(); continue }else{ iin.pch = append(iin.pch,ch) // push ch = '\\' } } switch( ch ){ case 'P'-0x40: ch = GO_UP case 'N'-0x40: ch = GO_DOWN case 'B'-0x40: ch = GO_LEFT case 'F'-0x40: ch = GO_RIGHT } //fprintf(stderr,"B[%02X]\n",ch); switch( ch ){ case 0: continue; case '\t': iin.Replace('j'); continue case 'X'-0x40: iin.Replace('j'); continue case EV_TIMEOUT: iin.Redraw(); if iin.pinJmode { fprintf(stderr,"\\J\r\n") iin.inJmode = true } continue case GO_UP: if iin.lno == 1 { continue } cmd,ok := gsh.cmdStringInHistory(iin.lno-1) if ok { iin.line = cmd iin.right = "" iin.lno = iin.lno - 1 } iin.Redraw(); continue case GO_DOWN: cmd,ok := gsh.cmdStringInHistory(iin.lno+1) if ok { iin.line = cmd iin.right = "" iin.lno = iin.lno + 1 }else{ iin.line = "" iin.right = "" if iin.lno == iin.lastlno-1 { iin.lno = iin.lno + 1 } } iin.Redraw(); continue case GO_LEFT: if 0 < len(iin.line) { xline,tail := delTailChar(iin.line) iin.line = xline iin.right = tail + iin.right } iin.Redraw(); continue; case GO_RIGHT: if( 0 < len(iin.right) && iin.right[0] != 0 ){ xright,head := delHeadChar(iin.right) iin.right = xright iin.line += head } iin.Redraw(); continue; case EOF: goto EXIT; case 'R'-0x40: // replace dst := convs(iin.line+iin.right); iin.line = dst iin.right = "" iin.Redraw(); continue; case 'T'-0x40: // just show the result readDic(); romkanmode = !romkanmode; iin.Redraw(); continue; case 'L'-0x40: iin.Redraw(); continue case 'K'-0x40: iin.right = "" iin.Redraw(); continue case 'E'-0x40: iin.line += iin.right iin.right = "" iin.Redraw(); continue case 'A'-0x40: iin.right = iin.line + iin.right iin.line = "" iin.Redraw(); continue case 'U'-0x40: iin.line = "" iin.right = "" iin.clearline(); iin.Redraw(); continue; case DEL_RIGHT: if( 0 < len(iin.right) ){ iin.right,_ = delHeadChar(iin.right) iin.Redraw(); } continue; case 0x7F: // BS? not DEL if( 0 < len(iin.line) ){ iin.line,_ = delTailChar(iin.line) iin.Redraw(); } /* else if( 0 < len(iin.right) ){ iin.right,_ = delHeadChar(iin.right) iin.Redraw(); } */ continue; case 'H'-0x40: if( 0 < len(iin.line) ){ iin.line,_ = delTailChar(iin.line) iin.Redraw(); } continue; } if( ch == '\n' || ch == '\r' ){ iin.line += iin.right; iin.right = "" iin.Redraw(); fputc(ch,stderr); break; } if MODE_CapsLock { if 'a' <= ch && ch <= 'z' { ch = ch+'A'-'a' } } if MODE_LowerLock { if 'A' <= ch && ch <= 'Z' { ch = ch+'a'-'A' } } iin.line += string(ch); iin.Redraw(); } EXIT: return iin.line + iin.right; } func getline_main(){ line := xgetline(0,"",nil) fprintf(stderr,"%s\n",line); /* dp = strpbrk(line,"\r\n"); if( dp != NULL ){ *dp = 0; } if( 0 ){ fprintf(stderr,"\n(%d)\n",int(strlen(line))); } if( lseek(3,0,0) == 0 ){ if( romkanmode ){ var buf [8*1024]byte; convs(line,buff); strcpy(line,buff); } write(3,line,strlen(line)); ftruncate(3,lseek(3,0,SEEK_CUR)); //fprintf(stderr,"outsize=%d\n",(int)lseek(3,0,SEEK_END)); lseek(3,0,SEEK_SET); close(3); }else{ fprintf(stderr,"\r\ngotline: "); trans(line); //printf("%s\n",line); printf("\n"); } */ } //== end ========================================================= getline // // $USERHOME/.gsh/ // gsh-rc.txt, or gsh-configure.txt // gsh-history.txt // gsh-aliases.txt // should be conditional? // func (gshCtx *GshContext)gshSetupHomedir()(bool) { homedir,found := userHomeDir() if !found { fmt.Printf("--E-- You have no UserHomeDir\n") return true } gshhome := homedir + "/" + GSH_HOME _, err2 := os.Stat(gshhome) if err2 != nil { err3 := os.Mkdir(gshhome,0700) if err3 != nil { fmt.Printf("--E-- Could not Create %s (%s)\n", gshhome,err3) return true } fmt.Printf("--I-- Created %s\n",gshhome) } gshCtx.GshHomeDir = gshhome return false } func setupGshContext()(GshContext,bool){ gshPA := syscall.ProcAttr { "", // the staring directory os.Environ(), // environ[] []uintptr{os.Stdin.Fd(),os.Stdout.Fd(),os.Stderr.Fd()}, nil, // OS specific } cwd, _ := os.Getwd() gshCtx := GshContext { cwd, // StartDir "", // GetLine []GChdirHistory { {cwd,time.Now(),0} }, // ChdirHistory gshPA, []GCommandHistory{}, //something for invokation? GCommandHistory{}, // CmdCurrent false, []int{}, syscall.Rusage{}, "", // GshHomeDir Ttyid(), false, false, []PluginInfo{}, []string{}, " ", "v", ValueStack{}, GServer{"",""}, // LastServer "", // RSERV cwd, // RWD CheckSum{}, } err := gshCtx.gshSetupHomedir() return gshCtx, err } func (gsh*GshContext)gshelllh(gline string)(bool){ ghist := gsh.CmdCurrent ghist.WorkDir,_ = os.Getwd() ghist.WorkDirX = len(gsh.ChdirHistory)-1 //fmt.Printf("--D--ChdirHistory(@%d)\n",len(gsh.ChdirHistory)) ghist.StartAt = time.Now() rusagev1 := Getrusagev() gsh.CmdCurrent.FoundFile = []string{} fin := gsh.tgshelll(gline) rusagev2 := Getrusagev() ghist.Rusagev = RusageSubv(rusagev2,rusagev1) ghist.EndAt = time.Now() ghist.CmdLine = gline ghist.FoundFile = gsh.CmdCurrent.FoundFile /* record it but not show in list by default if len(gline) == 0 { continue } if gline == "hi" || gline == "history" { // don't record it continue } */ gsh.CommandHistory = append(gsh.CommandHistory, ghist) return fin } // Main loop func script(gshCtxGiven *GshContext) (_ GshContext) { gshCtxBuf,err0 := setupGshContext() if err0 { return gshCtxBuf; } gshCtx := &gshCtxBuf //fmt.Printf(“–I– GSH_HOME=%s\n”,gshCtx.GshHomeDir) //resmap() /* if false { gsh_getlinev, with_exgetline := which(“PATH”,[]string{“which”,”gsh-getline”,”-s”}) if with_exgetline { gsh_getlinev[0] = toFullpath(gsh_getlinev[0]) gshCtx.GetLine = toFullpath(gsh_getlinev[0]) }else{ fmt.Printf(“–W– No gsh-getline found. Using internal getline.\n”); } } */ ghist0 := gshCtx.CmdCurrent // something special, or gshrc script, or permanent history gshCtx.CommandHistory = append(gshCtx.CommandHistory,ghist0) prevline := “” skipping := false for hix := len(gshCtx.CommandHistory); ; { gline := gshCtx.getline(hix,skipping,prevline) if skipping { if strings.Index(gline,”fi”) == 0 { fmt.Printf(“fi\n”); skipping = false; }else{ //fmt.Printf(“%s\n”,gline); } continue } if strings.Index(gline,”if”) == 0 { //fmt.Printf(“–D– if start: %s\n”,gline); skipping = true; continue } if false { os.Stdout.Write([]byte(“gotline:”)) os.Stdout.Write([]byte(gline)) os.Stdout.Write([]byte(“\n”)) } gline = strsubst(gshCtx,gline,true) if false { fmt.Printf(“fmt.Printf %%v – %v\n”,gline) fmt.Printf(“fmt.Printf %%s – %s\n”,gline) fmt.Printf(“fmt.Printf %%x – %s\n”,gline) fmt.Printf(“fmt.Printf %%U – %s\n”,gline) fmt.Printf(“Stouut.Write -“) os.Stdout.Write([]byte(gline)) fmt.Printf(“\n”) } /* // should be cared in substitution ? if 0 < len(gline) && gline[0] == '!' { xgline, set, err := searchHistory(gshCtx,gline) if err { continue } if set { // set the line in command line editor } gline = xgline } */ fin := gshCtx.gshelllh(gline) if fin { break; } prevline = gline; hix++; } return *gshCtx } func main() { gshCtxBuf := GshContext{} gsh := &gshCtxBuf argv := os.Args if 1 < len(argv) { if isin("version",argv){ gsh.showVersion(argv) return } comx := isinX("-c",argv) if 0 < comx { gshCtxBuf,err := setupGshContext() gsh := &gshCtxBuf if !err { gsh.gshellv(argv[comx+1:]) } return } } if 1 < len(argv) && isin("-s",argv) { }else{ gsh.showVersion(append(argv,[]string{"-l","-a"}...)) } script(nil) //gshCtx := script(nil) //gshelll(gshCtx,"time") } //
//
Considerations
// – inter gsh communication, possibly running in remote hosts — to be remote shell // – merged histories of multiple parallel gsh sessions // – alias as a function or macro // – instant alias end environ export to the permanent > ~/.gsh/gsh-alias and gsh-environ // – retrieval PATH of files by its type // – gsh as an IME with completion using history and file names as dictionaies // – gsh a scheduler in precise time of within a millisecond // – all commands have its subucomand after “—” symbol // – filename expansion by “-find” command // – history of ext code and output of each commoand // – “script” output for each command by pty-tee or telnet-tee // – $BUILTIN command in PATH to show the priority // – “?” symbol in the command (not as in arguments) shows help request // – searching command with wild card like: which ssh-* // – longformat prompt after long idle time (should dismiss by BS) // – customizing by building plugin and dynamically linking it // – generating syntactic element like “if” by macro expansion (like CPP) >> alias // – “!” symbol should be used for negation, don’t wast it just for job control // – don’t put too long output to tty, record it into GSH_HOME/session-id/comand-id.log // – making canonical form of command at the start adding quatation or white spaces // – name(a,b,c) … use “(” and “)” to show both delimiter and realm // – name? or name! might be useful // – htar format – packing directory contents into a single html file using data scheme // – filepath substitution shold be done by each command, expecially in case of builtins // – @N substition for the history of working directory, and @spec for more generic ones // – @dir prefix to do the command at there, that means like (chdir @dir; command) // – GSH_PATH for plugins // – standard command output: list of data with name, size, resouce usage, modified time // – generic sort key option -nm name, -sz size, -ru rusage, -ts start-time, -tm mod-time // -wc word-count, grep match line count, … // – standard command execution result: a list of string, -tm, -ts, -ru, -sz, … // – -tailf-filename like tail -f filename, repeat close and open before read // – max. size and max. duration and timeout of (generated) data transfer // – auto. numbering, aliasing, IME completion of file name (especially rm of quieer name) // – IME “?” at the top of the command line means searching history // – IME %d/0x10000/ %x/ffff/ // – IME ESC to go the edit mode like in vi, and use :command as :s/x/y/g to edit history // – gsh in WebAssembly // – gsh as a HTTP server of online-manual //—END— (^-^)/ITS more
// var WorldDic = // “data:text/dic;base64,”+ “Ly8gTXlJTUUvMC4wLjEg6L6e5pu4ICgyMDIwLTA4MTlhKQpzZWthaSDkuJbnlYwKa28g44GT”+ “Cm5uIOOCkwpuaSDjgasKY2hpIOOBoQp0aSDjgaEKaGEg44GvCnNlIOOBmwprYSDjgYsKaSDj”+ “gYQK”; // var WnnDic = // “data:text/dic;base64,”+ “PG1ldGEgY2hhcnNldD0iVVRGLTgiPgo8dGV4dGFyZWEgY29scz04MCByb3dzPTQwPgovL2Rp”+ “Y3ZlcglHU2hlbGxcc0lNRVxzZGljdGlvbmFyeVxzZm9yXHNXbm5ccy8vXHMyMDIwLTA4MzAK”+ “R1NoZWxsCUdTaGVsbArjgo/jgZ/jgZcJ56eBCndhdGFzaGkJ56eBCndhdGFzaQnnp4EK44Gq”+ “44G+44GICeWQjeWJjQpuYW1hZQnlkI3liY0K44Gq44GL44GuCeS4remHjgpuYWthbm8J5Lit”+ “6YeOCndhCeOCjwp0YQnjgZ8Kc2kJ44GXCnNoaQnjgZcKbm8J44GuCm5hCeOBqgptYQnjgb4K”+ “ZQnjgYgKaGEJ44GvCm5hCeOBqgprYQnjgYsKbm8J44GuCmRlCeOBpwpzdQnjgZkKZVxzCWVj”+ “aG8KZGljCWRpYwplY2hvCWVjaG8KcmVwbGF5CXJlcGxheQpyZXBlYXQJcmVwZWF0CmR0CWRh”+ “dGVccysnJVklbSVkLSVIOiVNOiVTJwp0aW9uCXRpb24KJXQJJXQJLy8gdG8gYmUgYW4gYWN0″+ “aW9uCjwvdGV4dGFyZWE+Cg==” // var SumomoDic = // “data:text/dic;base64,”+ “PG1ldGEgY2hhcnNldD0iVVRGLTgiPgo8dGV4dGFyZWEgY29scz04MCByb3dzPTQwPgovL3Zl”+ “cglHU2hlbGxcc0lNRVxzZGljdGlvbmFyeVxzZm9yXHNTdW1vbW9ccy8vXHMyMDIwLTA4MzAK”+ “c3UJ44GZCm1vCeOCggpubwnjga4KdQnjgYYKY2hpCeOBoQp0aQnjgaEKdWNoaQnlhoUKdXRp”+ “CeWGhQpzdW1vbW8J44GZ44KC44KCCnN1bW9tb21vCeOBmeOCguOCguOCggptb21vCeahgwpt”+ “b21vbW8J5qGD44KCCiwsCeOAgQouLgnjgIIKPC90ZXh0YXJlYT4K” // var SijimiDic = // “data:text/dic;base64,”+ “PG1ldGEgY2hhcnNldD0iVVRGLTgiPgo8dGV4dGFyZWEgY29scz04MCByb3dzPTQwPgovL3Zl”+ “cglHU2hlbGxcc0lNRVxzZGljdGlvbmFyeVxzZm9yXHNTaGlqaW1pXHMvL1xzMjAyMC0wODMw”+ “CnNpCeOBlwpzaGkJ44GXCmppCeOBmAptaQnjgb8KbmEJ44GqCmp1CeOBmOOChQp4eXUJ44KF”+ “CnUJ44GGCm5pCeOBqwprbwnjgZMKYnUJ44G2Cm5uCeOCkwpubwnjga4KY2hpCeOBoQp0aQnj”+ “gaEKa2EJ44GLCnJhCeOCiQosLAnjgIEKLi4J44CCCnhuYW5hCeS4gwp4anV1CeWNgQp4bmkJ”+ “5LqMCmtveAnlgIsKa29xCeWAiwprb3gJ5YCLCm5hbmFqdXVuaXgJNzIKbmFuYWp1dW5peHgJ”+ “77yX77ySCm5hbmFqdXVuaVgJ77yX77ySCuS4g+WNgeS6jHgJNzIKa29idW5uCeWAi+WIhgp0″+ “aWthcmFxCeOBoeOBi+OCiQp0aWthcmEJ5YqbCmNoaWthcmEJ5YqbCjwvdGV4dGFyZWE+Cg=” // var JA_JKLDic = // “data:text/dic;base64,”+ “Ly92ZXJsCU15SU1FamRpY2ptb3JzZWpKQWpKS0woMjAyMGowODE5KSheLV4pL1NhdG94SVRT”+ “CmtqamprbGtqa2tsa2psIOS4lueVjApqamtqamwJ44GCCmtqbAnjgYQKa2tqbAnjgYYKamtq”+ “amwJ44GICmtqa2trbAnjgYoKa2pra2wJ44GLCmpramtrbAnjgY0Ka2tramwJ44GPCmpramps”+ “CeOBkQpqampqbAnjgZMKamtqa2psCeOBlQpqamtqa2wJ44GXCmpqamtqbAnjgZkKa2pqamts”+ “CeOBmwpqamprbAnjgZ0KamtsCeOBnwpra2prbAnjgaEKa2pqa2wJ44GkCmtqa2pqbAnjgaYK”+ “a2tqa2tsCeOBqApramtsCeOBqgpqa2prbAnjgasKa2tra2wJ44GsCmpqa2psCeOBrQpra2pq”+ “bAnjga4Kamtra2wJ44GvCmpqa2tqbAnjgbIKampra2wJ44G1CmtsCeOBuApqa2tsCeOBuwpq”+ “a2tqbAnjgb4Ka2tqa2psCeOBvwpqbAnjgoAKamtra2psCeOCgQpqa2tqa2wJ44KCCmtqamwJ”+ “44KECmpra2pqbAnjgoYKampsCeOCiApra2tsCeOCiQpqamtsCeOCigpqa2pqa2wJ44KLCmpq”+ “amwJ44KMCmtqa2psCeOCjQpqa2psCeOCjwpramtramwJ44KQCmtqamtrbAnjgpEKa2pqamwJ”+ “44KSCmtqa2prbAnjgpMKa2pqa2psCeODvApra2wJ44KbCmtramprbAnjgpwKa2pramtqbAnj”+ “gIEK”; // // /*
References
*/ /*
Raw Source
Whole file
CSS part
JavaScript part
Builtin data part
*/ /* –> *///

GShell 0.2.6 − 私の名前は中野です

このキーボード入力は人間業ではありません

社長:乗りかかった船でもあるので、GShell IMEの件はもう少しキリの良いところまで進めて置きたいですね。

開発:昨日の入力リプレイ機能は、自分の本業系の脳機能を使ったので少し疲れたように思います。IME の件と比べると、with fun が弱い。

社長:我々のIMEの原点はやはりWnnだと思うわけです。当時はIMEというような言葉があった記憶は無いですけど。

基盤:MS あたりの造語ですかね?

開発:それ以前はパソコンで松 vs 一太郎の時代でしたね。PC98で。

社長:まあ私らはvi育ちは当然、松派でしたけどね。

開発:最初は5インチフロッピーで、最後は3.5インチになりましたね。そうこうするうちにパソコン端末時代が終わってUnixワークステーション時代になり、Wnn になり、Canna もでてきた。

社長:Cannaの中の人たちとはOnew MLの関係で1994年か95年に東京でオフミをやりました。みなさんどうしてますかね。

開発:Canna懐かしス。

* * *

開発:さて、それで Wnn と言えば「わたしのなまえはなかのです」なわけです。ちょっと未来から来ました。最初に、下で色々検討する方式の、目指すところ、結論を示したいと思います。自動表示変換モード(¥j)+手動書き換え(¥i)でやります。

社長:史上最もなめらかな「私の名前は中野です」かも知れませんね。

基盤:キータッチがもっと速ければw

開発:なにせ、人間は変換用の指示は何も出しておらず、単にローマ字表記の列をべた入力している。随時、GShell IME は入力を変換して表示している。それだけです。

開発:舞台裏。辞書はこんなふうになっています。

開発:で、こういうべたな辞書方式でGo!という結論に、下記では至るわけです。少なくとも昼食前の時点では。

* * *

開発:さて、一旦ベースに立ち戻ります。

開発:!2 から表示だけ変換、オリジナルの文字列は変えないモードに入っています。!3,4,5 はヒストリ機能というか上向き矢印で!2のコマンド行を呼び出して手動で「追加変換」をしています。

基盤:段階が複雑過ぎると思います。

社長:あと、表示されている状態が実際の結果にならないというのは直感に反しますね。

開発:実装上、根っこにこういう機能というか状態は必要なので。ユーザには、それらを使いやすい組み合わせにパッケージした状態で提供すれば良いと思います。逆変換は難しいと思いますから、なるべくオリジナルの文字列を保持したい。

社長:オリジナル入力列の保持は技術的には面白いと思いますが、単に日本語を入力したい場合には邪魔かなと思います。

基盤:ヒストリを取っておいてundoで戻れば良いように思います。

開発:そのへんは、両立する内部+外部表現形式があれば良いのかなとも思います。そこにある文字列だけで状態を全て持っているというのはどうしても魅力です。例えば変換モード自体を内蔵する文字列みたいな。

開発:次に、自動書き換えつまり入力文字列の自動置き換えモード。

社長:入力を置き換えるというのは、通常の言語処理系にはない方式でしょうね。

開発:そこもまた、IMEが古典的な言語処理系で実現されてない理由の一つかなと思います。しかも、ローマ字→かな→漢字という2段階の書き換えを行っている。

社長:そこはまとめて、ローマ字→(かな|漢字)という辞書を作ればよいのではないですかね。

開発:そこはにはまず、ローマ字→かな変換が一意でない、つまりローマ字表記とヘボン式と訓令式を受容したいという問題があります。たとえば私は「ち」語の先頭では「chi」と打つことが多いですが、語の中では「ti」と売ってることが結構多いようなんです。

社長:かなへの変換を想定しないローマ字表記ではヘボン式に親しんでますからね。

基盤:効率を考えれば訓令式「ti」ですよね。

開発:ローマ字レベルで内部表現を訓令式に正規化してしまうという手はあるとは思います。なんにしても、「 chikara || tikara > 力」というような重複した辞書を持つものはいかがなものかと。まあ、ローマ字読み状態も保持したいと思うと、これも致し方ないとは思いますが。

社長:そういう意味で、ひらがな表記の辞書だと、ひらがな段階で正規化されるわけですね。「chi ka ra || ti ka ra > ち か ら > 力」という。

基盤:変換辞書のためのメモリもストレージもほぼ無尽蔵にあるんですから、重複とか気にしなくて良いのでは。

開発:そうですね… ただ、多段方式での変換には、ひらがな表記にした段階で一旦「確定する」という機能というか効能もあるわけです。たとえば「ち」という1つの文字に確定できる。これを「ti」や「chi」の状態で残しておくと、入力済の部分にカーソル移動したときに「t | i > tい」とか「c | hi > cひ」とか「ch | i > chい」とか、面白いけどうざいことになるわけです。

社長:昔に戻ってそこを直したいことはまず無い。カーソル移動の効率も悪いですね。

開発:ところで上で書いた、カーソル位置を示す「|」は、保存する文字列にも残しておくと面白いかもですね。再編集するときに、どこから編集を再開するかを指示できる。

社長:まあ「|」はパイプやORを始め、あまりによく使われてますから、やるとしたら「|||」とか、「¥…」あたりでしょうね。

開発:私はGoで「…」という予約語が使われてるのを見て、最初ぎょっとしましたw

社長:ともかく、「世界辞書」で変換が気持ち良いのは、「se > せ」「 ka > か」「i > い」 とは別に「sekai > 世界」 とい入力が定義されていて、s、せ、せk、せか、から直に 世界に変わってくれるからだと思います。一旦「せかい」になってから「世界」へという段階が無いのが気持ち良い。

基盤:「echo > えcほ || えちょ」にならないように、「echo > echo」という定義もあると良いと思います。

社長:「echo > エコー || おうむがえし」という定義もあって、どっちか選ぶというのも良いかもですね。まあコマンド入力の先頭に出てくるのは echo に決まってますから、文脈で決めれば良いことですが。

基盤:「エコー」とか「おうむがえし」という日本語のコマンドがあっても悪くないですよね。そもそも内部的に echo という文字列が保持されてるなら、一貫して echo なんでしょうけど。

開発:日本語英語交じりの文章、とくに技術文書はそうですが、には英単語の辞書は絶対必要だと思いますね。これは英単語だから、英単語として表示するという。そもそも前後に空白のある文字列は、日本語に変換するよりローマ字のまま表示する方を優先するとかでも良いですが。

開発:実装上は、辞書による書き換えを、変換時に多段階に再帰的に適用するか、あらかじめ一段階の辞書に展開してしまって、いわゆるローマ字かな変換とかな漢字変換を一体化してしまうか、という選択肢があります。前者はあたりまえの技法なので、面白そうな後者をやってみたい気がします。

開発:多段階の変換をしたい場合には、たとえばハードコーディングされたアルゴリズムとして存在するより、辞書というデータを複数に分けておいて、どの辞書をどういう順序で適用するかという形で一般化したほうが面白いと思うのです。これなら何段階でもありえます。まあ普通に言えば、ローマ字かな辞書と、かな漢字辞書なわけですが。

社長:辞書には普通は品詞情報も持ってたりするわけですよね。

開発:まったく日本語の、というか個別の言語の知識無しでできると面白いかと。できる限りシンプルに、ナイーブに、ブルートフォース的に。

社長:なんにしても、いろんな制約とか、他の面にいろいろ弊害は出ると思いますが、「変換」という人間の指示なしで、本来のコンテンツの情報を入力するだけで結果が出るというのは、あまりに魅力的です。

開発:インクリメンタルに変換して、人間が「それで良い」と思ったその場で確定して、その先に進むという入力形態になるんだと思います。

社長:長く入力しておいてあとで変換を確定する式があるのは、確定する操作が面倒にできているからかも知れないですね。

基盤:複数の候補がある時には、候補の数を表示するとか、色で知らせしてくれるとよいですね。

社長:なんにしても、既に入力済みの情報だけから出力を作るのであれば、原理的にはそれができるはずですよね。

開発:ちょっとやってみたんですが、やはり難関は「すもももももももものうち」かなと思うんです。これは人間にしか切れ目がわからない。Google IMEにはこれが一つの語として登録されていて一発変換できるわけですが、それはある意味ズルです。そもそもそれなら、「すももも > すももも桃も桃の内」って入れときたいくらいです。これを実直なMS の IME で一括変換しようとすると、ひどいことになる。単語、文節毎に確定して行くほうがずっとよいわけです。ここをなんとか、なめらかに入力できないだろうかと。

社長:難題ですね。面白い。お昼食べてきます。

* * *

基盤:結局食事に行きませんでしたね。

社長:面倒くさくなって。そもそも今時点、とうもろこし以上に魅力な外食が無いのです。

レンジ:ひぺぱ、ぴぺぱ、…

開発:出来ました。うん、思ったとおり細身だと甘みが強いですね。もぐもぐ。

社長:もぐもぐ。若いうちは糖分とデンプンで、成熟したらタンパクになるとかですかね。

開発:加熱すると甘くなる化学構造かどうかもあるんじゃないですかね。もぐもぐ。

基盤:あー、美味しかったー。

開発:いやー、このBGM、もう20回転くらいしましたが、全然飽きないですね。もっと聴きたくなるくらいな。

社長:BGMガンガンかけて仕事できる職場ってのも夢のひとつでしたね。

開発:ヘッドホンとかイヤホンて気持ち悪いですよね。音も自然には広がらないし。

* * *

社長:ところで思ったんですが、入力列を replay するときに実際のスピードで再生するだけでなく、早送りとか、おそ回しとか、定間隔にしちゃうとかいうオプションあると、面白いんじゃないですかね。

開発:そうですね。それは簡単。

基盤:逆回しもあると良いですね。ローテートシフトするとか。

社長:それは面白すぎる。

開発:何か実用の役に立つ機能にならないですかね…

社長:rot13とかは欲しいですよね。

* * *

社長:どんな感じでしょう?

開発:それが、昨日リクエストのあった、replay時に変換モードを再現する件を実装したのですが、そこで考え事を。これは当然、モード情報を特殊な、イベントの一種として送ってやるのが自然だと思います。バイト列というかオクテットストリームのインバウンドで。で、どういう形式にしようかと。自然と 0xFF で始まるバイト列になったわけです。で、ふとこれは、前に見た事があるなと。そう、Telnet プロトコルですよ。

社長:なるほど… Telnetに合わせておけば、GShellをデータストリーム中継型のリモートシェルとして使う時に、環境変数とか端末情報の伝達がそのまま使えますね。

開発:そうなんですが、まてよと。そのオクテットストリームをTelnetを理解しない普通の受信者が受け取った時はどうだろうかと。

社長:まあ、受け取った文字列がTelnetのパケットだとは思うはずないので、びっくりするでしょうね。化け化けでしょう。

開発:バイナリデータはどの道化けるとは思うんですが、UTF-8で無いのが嫌だなと思ったわけです。なので、Telnet のパケットを UTF-8でエンコードしてはどうかと。

開発:UTF-8にするメリットは、可変長のイベント情報をUTF-8で長さ規定して送れることです。

基盤:Unicodeの面白い文字になるようなパケットを作ると面白いかもですね。

社長:「表示されない文字」というUnicodeがあれば、invisibleにできますね。お豆腐にもならない。まあそのへんは、ANSIシーケンスのほうが柔軟だとは思います。意味のない機能シーケンスを送るとか。

開発:ISO-2022 コードも使えるかもですねw

社長:実際私は MIMEで、文字コード切り替えコードを続けて送って状態伝達をする方法を提案したりしてました。

基盤:モールス符号みたいですねw

開発:入力列として伝達するんで、visibleに送ってBSで消すという技もアリですかねw

開発:ああそれで、早回し再生の件はこんなふうになりました。

社長:これ、リプレイのために送信しているイベントを別ウィンドウで表示すると良いかもですね。

基盤:というか、IMEでの変換候補とか、ヒストリのビューなんかも別ウィンドウになるべきではないでしょうか。

開発:そのへんは、GShellがHTTPサーバになって、HTTPでブラウザに表示すれば良いかなとも思っていたのですが… まあ変換の候補を表示するには専用のポップアップ的ウィンドウがあったほうが良いとは思います。でもANSIシーケンスでウィンドウもどきを端末に表示するのも面白いかなと。

社長:curses的なものを使うかどうかですね。

開発:使う場合には使い倒す。使わないなら一切使わない、というところかと思います。なんせ実際現在、全く使っていません。画面への転送と表示が速いもんで、キー入力ごとに変換してばかちょんで行の全部を書き直してます。このIME、JavaScriptでDOM上に書く時にも使いたいと思っていまして、その場合にはANSIが使えるとは思えないと言うこともあります。

* * *

開発:一応すもももの課題もクリアしました。

基盤:なんかズルしてませんかw

開発:すももも専用の辞書ですから。

社長:文脈に最適な辞書を選択するのは人として当然です。

* * *

社長:だだいまー。

経理:だいぶ飲んでますね。

社長:今日はあの、謎の定食屋?中華料理?でした。いつものようにマスターは寝そべってテレビ見てましたけどw。でもあそこの出色は刺し身なんですよね。下手な和食屋よりハイグレード。でもって会計はほぼ原価なんです。まかないですかってw

社長:ああそれで、飲みながら思ったんですが、要するに入力は分かち書きすればいいんじゃね?ということです。日本語の変換を面倒にしている理由の一つは、これが分かち書きの言語でないからです。最終結果として分かち書き表示された日本語というのはやはり変だと思いますが、入力を分かち書きするのは別に何の問題もない。

開発:処理系としては分解処理がなくて楽ですが、そもそもユーザが分かち書き入力の手間を許容するかどうかですね。

社長:単純なそれをしないかわりに、逆にすごく面倒な操作が増えているんじゃないかと思うわけです。

基盤:スペースキーは重いので、これで分かち書きはあまりうれしくないですね。

社長:私はカンマを希望。

開発:常にcsv入力みたいなw

— 2020-0830 SatoxITS

/* GShell-0.2.4 by SatoxITS
GShell version 0.2.6 // 2020-08-30 // SatoxITS

GShell // a General purpose Shell built on the top of Golang

It is a shell for myself, by myself, of myself. –SatoxITS(^-^)

0 | | Fork | Stop | Unfold | */ /*
Statement

Fun to create a shell

For a programmer, it must be far easy and fun to create his own simple shell rightly fitting to his favor and necessities, than learning existing shells with complex full features that he never use. I, as one of programmers, am writing this tiny shell for my own real needs, totally from scratch, with fun.

For a programmer, it is fun to learn new computer languages. For long years before writing this software, I had been specialized to C and early HTML2 :-). Now writing this software, I’m learning Go language, HTML5, JavaScript and CSS on demand as a novice of these, with fun.

This single file “gsh.go”, that is executable by Go, contains all of the code written in Go. Also it can be displayed as “gsh.go.html” by browsers. It is a standalone HTML file that works as the viewer of the code of itself, and as the “home page” of this software.

Because this HTML file is a Go program, you may run it as a real shell program on your computer. But you must be aware that this program is written under situation like above. Needless to say, there is no warranty for this program in any means.

Aug 2020, SatoxITS (sato@its-more.jp)
*/ /*
Index
Documents Command summary Go lang part Package structures import struct Main functions str-expansion // macro processor finder // builtin find + du grep // builtin grep + wc + cksum + … plugin // plugin commands system // external commands builtin // builtin commands network // socket handler remote-sh // remote shell redirect // StdIn/Out redireciton history // command history rusage // resouce usage encode // encode / decode IME // command line IME getline // line editor scanf // string decomposer interpreter // command interpreter main JavaScript part Source Builtin data CSS part Source References Internal External Whole parts Source Download Dump
*/ //
//Go Source
// gsh – Go lang based Shell // (c) 2020 ITS more Co., Ltd. // 2020-0807 created by SatoxITS (sato@its-more.jp) package main // gsh main // Imported packages // Packages import ( “fmt” // fmt “strings” // strings “strconv” // strconv “sort” // sort “time” // time “bufio” // bufio “io/ioutil” // ioutil “os” // os “syscall” // syscall “plugin” // plugin “net” // net “net/http” // http //”html” // html “path/filepath” // filepath “go/types” // types “go/token” // token “encoding/base64” // base64 “unicode/utf8” // utf8 //”gshdata” // gshell’s logo and source code “hash/crc32” // crc32 ) const ( NAME = “gsh” VERSION = “0.2.6” DATE = “2020-08-30” AUTHOR = “SatoxITS(^-^)/” ) var ( GSH_HOME = “.gsh” // under home directory GSH_PORT = 9999 MaxStreamSize = int64(128*1024*1024*1024) // 128GiB is too large? PROMPT = “> ” LINESIZE = (8*1024) PATHSEP = “:” // should be “;” in Windows DIRSEP = “/” // canbe \ in Windows ) // -xX logging control // –A– all // –I– info. // –D– debug // –T– time and resource usage // –W– warning // –E– error // –F– fatal error // –Xn- network // Structures type GCommandHistory struct { StartAt time.Time // command line execution started at EndAt time.Time // command line execution ended at ResCode int // exit code of (external command) CmdError error // error string OutData *os.File // output of the command FoundFile []string // output – result of ufind Rusagev [2]syscall.Rusage // Resource consumption, CPU time or so CmdId int // maybe with identified with arguments or impact // redireciton commands should not be the CmdId WorkDir string // working directory at start WorkDirX int // index in ChdirHistory CmdLine string // command line } type GChdirHistory struct { Dir string MovedAt time.Time CmdIndex int } type CmdMode struct { BackGround bool } type Event struct { when time.Time event int evarg int64 CmdIndex int } var CmdIndex int var Events []Event type PluginInfo struct { Spec *plugin.Plugin Addr plugin.Symbol Name string // maybe relative Path string // this is in Plugin but hidden } type GServer struct { host string port string } // Digest const ( // SumType SUM_ITEMS = 0x000001 // items count SUM_SIZE = 0x000002 // data length (simplly added) SUM_SIZEHASH = 0x000004 // data length (hashed sequence) SUM_DATEHASH = 0x000008 // date of data (hashed sequence) // also envelope attributes like time stamp can be a part of digest // hashed value of sizes or mod-date of files will be useful to detect changes SUM_WORDS = 0x000010 // word count is a kind of digest SUM_LINES = 0x000020 // line count is a kind of digest SUM_SUM64 = 0x000040 // simple add of bytes, useful for human too SUM_SUM32_BITS = 0x000100 // the number of true bits SUM_SUM32_2BYTE = 0x000200 // 16bits words SUM_SUM32_4BYTE = 0x000400 // 32bits words SUM_SUM32_8BYTE = 0x000800 // 64bits words SUM_SUM16_BSD = 0x001000 // UNIXsum -sum -bsd SUM_SUM16_SYSV = 0x002000 // UNIXsum -sum -sysv SUM_UNIXFILE = 0x004000 SUM_CRCIEEE = 0x008000 ) type CheckSum struct { Files int64 // the number of files (or data) Size int64 // content size Words int64 // word count Lines int64 // line count SumType int Sum64 uint64 Crc32Table crc32.Table Crc32Val uint32 Sum16 int Ctime time.Time Atime time.Time Mtime time.Time Start time.Time Done time.Time RusgAtStart [2]syscall.Rusage RusgAtEnd [2]syscall.Rusage } type ValueStack [][]string type GshContext struct { StartDir string // the current directory at the start GetLine string // gsh-getline command as a input line editor ChdirHistory []GChdirHistory // the 1st entry is wd at the start gshPA syscall.ProcAttr CommandHistory []GCommandHistory CmdCurrent GCommandHistory BackGround bool BackGroundJobs []int LastRusage syscall.Rusage GshHomeDir string TerminalId int CmdTrace bool // should be [map] CmdTime bool // should be [map] PluginFuncs []PluginInfo iValues []string iDelimiter string // field sepearater of print out iFormat string // default print format (of integer) iValStack ValueStack LastServer GServer RSERV string // [gsh://]host[:port] RWD string // remote (target, there) working directory lastCheckSum CheckSum } func nsleep(ns time.Duration){ time.Sleep(ns) } func usleep(ns time.Duration){ nsleep(ns*1000) } func msleep(ns time.Duration){ nsleep(ns*1000000) } func sleep(ns time.Duration){ nsleep(ns*1000000000) } func strBegins(str, pat string)(bool){ if len(pat) <= len(str){ yes := str[0:len(pat)] == pat //fmt.Printf("--D-- strBegins(%v,%v)=%v\n",str,pat,yes) return yes } //fmt.Printf("--D-- strBegins(%v,%v)=%v\n",str,pat,false) return false } func isin(what string, list []string) bool { for _, v := range list { if v == what { return true } } return false } func isinX(what string,list[]string)(int){ for i,v := range list { if v == what { return i } } return -1 } func env(opts []string) { env := os.Environ() if isin("-s", opts){ sort.Slice(env, func(i,j int) bool { return env[i] < env[j] }) } for _, v := range env { fmt.Printf("%v\n",v) } } // - rewriting should be context dependent // - should postpone until the real point of evaluation // - should rewrite only known notation of symobl func scanInt(str string)(val int,leng int){ leng = -1 for i,ch := range str { if '0' <= ch && ch <= '9' { leng = i+1 }else{ break } } if 0 < leng { ival,_ := strconv.Atoi(str[0:leng]) return ival,leng }else{ return 0,0 } } func substHistory(gshCtx *GshContext,str string,i int,rstr string)(leng int,rst string){ if len(str[i+1:]) == 0 { return 0,rstr } hi := 0 histlen := len(gshCtx.CommandHistory) if str[i+1] == '!' { hi = histlen - 1 leng = 1 }else{ hi,leng = scanInt(str[i+1:]) if leng == 0 { return 0,rstr } if hi < 0 { hi = histlen + hi } } if 0 <= hi && hi < histlen { var ext byte if 1 < len(str[i+leng:]) { ext = str[i+leng:][1] } //fmt.Printf("--D-- %v(%c)\n",str[i+leng:],str[i+leng]) if ext == 'f' { leng += 1 xlist := []string{} list := gshCtx.CommandHistory[hi].FoundFile for _,v := range list { //list[i] = escapeWhiteSP(v) xlist = append(xlist,escapeWhiteSP(v)) } //rstr += strings.Join(list," ") rstr += strings.Join(xlist," ") }else if ext == '@' || ext == 'd' { // !N@ .. workdir at the start of the command leng += 1 rstr += gshCtx.CommandHistory[hi].WorkDir }else{ rstr += gshCtx.CommandHistory[hi].CmdLine } }else{ leng = 0 } return leng,rstr } func escapeWhiteSP(str string)(string){ if len(str) == 0 { return "\\z" // empty, to be ignored } rstr := "" for _,ch := range str { switch ch { case '\\': rstr += "\\\\" case ' ': rstr += "\\s" case '\t': rstr += "\\t" case '\r': rstr += "\\r" case '\n': rstr += "\\n" default: rstr += string(ch) } } return rstr } func unescapeWhiteSP(str string)(string){ // strip original escapes rstr := "" for i := 0; i < len(str); i++ { ch := str[i] if ch == '\\' { if i+1 < len(str) { switch str[i+1] { case 'z': continue; } } } rstr += string(ch) } return rstr } func unescapeWhiteSPV(strv []string)([]string){ // strip original escapes ustrv := []string{} for _,v := range strv { ustrv = append(ustrv,unescapeWhiteSP(v)) } return ustrv } // str-expansion // – this should be a macro processor func strsubst(gshCtx *GshContext,str string,histonly bool) string { rbuff := []byte{} if false { //@@U Unicode should be cared as a character return str } //rstr := “” inEsc := 0 // escape characer mode for i := 0; i < len(str); i++ { //fmt.Printf("--D--Subst %v:%v\n",i,str[i:]) ch := str[i] if inEsc == 0 { if ch == '!' { //leng,xrstr := substHistory(gshCtx,str,i,rstr) leng,rs := substHistory(gshCtx,str,i,"") if 0 < leng { //_,rs := substHistory(gshCtx,str,i,"") rbuff = append(rbuff,[]byte(rs)...) i += leng //rstr = xrstr continue } } switch ch { case '\\': inEsc = '\\'; continue //case '%': inEsc = '%'; continue case '$': } } switch inEsc { case '\\': switch ch { case '\\': ch = '\\' case 's': ch = ' ' case 't': ch = '\t' case 'r': ch = '\r' case 'n': ch = '\n' case 'z': inEsc = 0; continue // empty, to be ignored } inEsc = 0 case '%': switch { case ch == '%': ch = '%' case ch == 'T': //rstr = rstr + time.Now().Format(time.Stamp) rs := time.Now().Format(time.Stamp) rbuff = append(rbuff,[]byte(rs)...) inEsc = 0 continue; default: // postpone the interpretation //rstr = rstr + "%" + string(ch) rbuff = append(rbuff,ch) inEsc = 0 continue; } inEsc = 0 } //rstr = rstr + string(ch) rbuff = append(rbuff,ch) } //fmt.Printf("--D--subst(%s)(%s)\n",str,string(rbuff)) return string(rbuff) //return rstr } func showFileInfo(path string, opts []string) { if isin("-l",opts) || isin("-ls",opts) { fi, err := os.Stat(path) if err != nil { fmt.Printf("---------- ((%v))",err) }else{ mod := fi.ModTime() date := mod.Format(time.Stamp) fmt.Printf("%v %8v %s ",fi.Mode(),fi.Size(),date) } } fmt.Printf("%s",path) if isin("-sp",opts) { fmt.Printf(" ") }else if ! isin("-n",opts) { fmt.Printf("\n") } } func userHomeDir()(string,bool){ /* homedir,_ = os.UserHomeDir() // not implemented in older Golang */ homedir,found := os.LookupEnv("HOME") //fmt.Printf("--I-- HOME=%v(%v)\n",homedir,found) if !found { return "/tmp",found } return homedir,found } func toFullpath(path string) (fullpath string) { if path[0] == '/' { return path } pathv := strings.Split(path,DIRSEP) switch { case pathv[0] == ".": pathv[0], _ = os.Getwd() case pathv[0] == "..": // all ones should be interpreted cwd, _ := os.Getwd() ppathv := strings.Split(cwd,DIRSEP) pathv[0] = strings.Join(ppathv,DIRSEP) case pathv[0] == "~": pathv[0],_ = userHomeDir() default: cwd, _ := os.Getwd() pathv[0] = cwd + DIRSEP + pathv[0] } return strings.Join(pathv,DIRSEP) } func IsRegFile(path string)(bool){ fi, err := os.Stat(path) if err == nil { fm := fi.Mode() return fm.IsRegular(); } return false } // Encode / Decode // Encoder func (gshCtx *GshContext)Enc(argv[]string){ file := os.Stdin buff := make([]byte,LINESIZE) li := 0 encoder := base64.NewEncoder(base64.StdEncoding,os.Stdout) for li = 0; ; li++ { count, err := file.Read(buff) if count <= 0 { break } if err != nil { break } encoder.Write(buff[0:count]) } encoder.Close() } func (gshCtx *GshContext)Dec(argv[]string){ decoder := base64.NewDecoder(base64.StdEncoding,os.Stdin) li := 0 buff := make([]byte,LINESIZE) for li = 0; ; li++ { count, err := decoder.Read(buff) if count <= 0 { break } if err != nil { break } os.Stdout.Write(buff[0:count]) } } // lnsp [N] [-crlf][-C \\] func (gshCtx *GshContext)SplitLine(argv[]string){ reader := bufio.NewReaderSize(os.Stdin,64*1024) ni := 0 toi := 0 for ni = 0; ; ni++ { line, err := reader.ReadString('\n') if len(line) <= 0 { if err != nil { fmt.Fprintf(os.Stderr,"--I-- lnsp %d to %d (%v)\n",ni,toi,err) break } } off := 0 ilen := len(line) remlen := len(line) for oi := 0; 0 < remlen; oi++ { olen := remlen addnl := false if 72 < olen { olen = 72 addnl = true } fmt.Fprintf(os.Stderr,"--D-- write %d [%d.%d] %d %d/%d/%d\n", toi,ni,oi,off,olen,remlen,ilen) toi += 1 os.Stdout.Write([]byte(line[0:olen])) if addnl { //os.Stdout.Write([]byte("\r\n")) os.Stdout.Write([]byte("\\")) os.Stdout.Write([]byte("\n")) } line = line[olen:] off += olen remlen -= olen } } fmt.Fprintf(os.Stderr,"--I-- lnsp %d to %d\n",ni,toi) } // CRC32 crc32 // 1 0000 0100 1100 0001 0001 1101 1011 0111 var CRC32UNIX uint32 = uint32(0x04C11DB7) // Unix cksum var CRC32IEEE uint32 = uint32(0xEDB88320) func byteCRC32add(crc uint32,str[]byte,len uint64)(uint32){ var i uint64 for i = 0; i < len; i++ { var oct = str[i] for bi := 0; bi < 8; bi++ { ovf1 := (crc & 0x80000000) != 0 ovf2 := (oct & 0x80) != 0 ovf := (ovf1 && !ovf2) || (!ovf1 && ovf2) oct <<= 1 crc <<= 1 if ovf { crc ^= CRC32UNIX } } } return crc; } func byteCRC32end(crc uint32, len uint64)(uint32){ var slen = make([]byte,4) var li = 0 for li = 0; li < 4; { slen[li] = byte(len) li += 1 len >>= 8 if( len == 0 ){ break } } crc = byteCRC32add(crc,slen,uint64(li)) crc ^= 0xFFFFFFFF return crc } func byteCRC32(str[]byte,len uint64)(crc uint32){ crc = byteCRC32add(0,str,len) crc = byteCRC32end(crc,len) return crc } func CRC32Finish(crc uint32, table *crc32.Table, len uint64)(uint32){ var slen = make([]byte,4) var li = 0 for li = 0; li < 4; { slen[li] = byte(len & 0xFF) li += 1 len >>= 8 if( len == 0 ){ break } } crc = crc32.Update(crc,table,slen) crc ^= 0xFFFFFFFF return crc } func (gsh*GshContext)xCksum(path string,argv[]string, sum*CheckSum)(int64){ if isin(“-type/f”,argv) && !IsRegFile(path){ return 0 } if isin(“-type/d”,argv) && IsRegFile(path){ return 0 } file, err := os.OpenFile(path,os.O_RDONLY,0) if err != nil { fmt.Printf(“–E– cksum %v (%v)\n”,path,err) return -1 } defer file.Close() if gsh.CmdTrace { fmt.Printf(“–I– cksum %v %v\n”,path,argv) } bi := 0 var buff = make([]byte,32*1024) var total int64 = 0 var initTime = time.Time{} if sum.Start == initTime { sum.Start = time.Now() } for bi = 0; ; bi++ { count,err := file.Read(buff) if count <= 0 || err != nil { break } if (sum.SumType & SUM_SUM64) != 0 { s := sum.Sum64 for _,c := range buff[0:count] { s += uint64(c) } sum.Sum64 = s } if (sum.SumType & SUM_UNIXFILE) != 0 { sum.Crc32Val = byteCRC32add(sum.Crc32Val,buff,uint64(count)) } if (sum.SumType & SUM_CRCIEEE) != 0 { sum.Crc32Val = crc32.Update(sum.Crc32Val,&sum.Crc32Table,buff[0:count]) } // BSD checksum if (sum.SumType & SUM_SUM16_BSD) != 0 { s := sum.Sum16 for _,c := range buff[0:count] { s = (s >> 1) + ((s & 1) << 15) s += int(c) s &= 0xFFFF //fmt.Printf("BSDsum: %d[%d] %d\n",sum.Size+int64(i),i,s) } sum.Sum16 = s } if (sum.SumType & SUM_SUM16_SYSV) != 0 { for bj := 0; bj < count; bj++ { sum.Sum16 += int(buff[bj]) } } total += int64(count) } sum.Done = time.Now() sum.Files += 1 sum.Size += total if !isin("-s",argv) { fmt.Printf("%v ",total) } return 0 } // grep // “lines”, “lin” or “lnp” for “(text) line processor” or “scanner” // a*,!ab,c, … sequentioal combination of patterns // what “LINE” is should be definable // generic line-by-line processing // grep [-v] // cat -n -v // uniq [-c] // tail -f // sed s/x/y/ or awk // grep with line count like wc // rewrite contents if specified func (gsh*GshContext)xGrep(path string,rexpv[]string)(int){ file, err := os.OpenFile(path,os.O_RDONLY,0) if err != nil { fmt.Printf(“–E– grep %v (%v)\n”,path,err) return -1 } defer file.Close() if gsh.CmdTrace { fmt.Printf(“–I– grep %v %v\n”,path,rexpv) } //reader := bufio.NewReaderSize(file,LINESIZE) reader := bufio.NewReaderSize(file,80) li := 0 found := 0 for li = 0; ; li++ { line, err := reader.ReadString(‘\n’) if len(line) <= 0 { break } if 150 < len(line) { // maybe binary break; } if err != nil { break } if 0 <= strings.Index(string(line),rexpv[0]) { found += 1 fmt.Printf("%s:%d: %s",path,li,line) } } //fmt.Printf("total %d lines %s\n",li,path) //if( 0 < found ){ fmt.Printf("((found %d lines %s))\n",found,path); } return found } // Finder // finding files with it name and contents // file names are ORed // show the content with %x fmt list // ls -R // tar command by adding output type fileSum struct { Err int64 // access error or so Size int64 // content size DupSize int64 // content size from hard links Blocks int64 // number of blocks (of 512 bytes) DupBlocks int64 // Blocks pointed from hard links HLinks int64 // hard links Words int64 Lines int64 Files int64 Dirs int64 // the num. of directories SymLink int64 Flats int64 // the num. of flat files MaxDepth int64 MaxNamlen int64 // max. name length nextRepo time.Time } func showFusage(dir string,fusage *fileSum){ bsume := float64(((fusage.Blocks-fusage.DupBlocks)/2)*1024)/1000000.0 //bsumdup := float64((fusage.Blocks/2)*1024)/1000000.0 fmt.Printf(“%v: %v files (%vd %vs %vh) %.6f MB (%.2f MBK)\n”, dir, fusage.Files, fusage.Dirs, fusage.SymLink, fusage.HLinks, float64(fusage.Size)/1000000.0,bsume); } const ( S_IFMT = 0170000 S_IFCHR = 0020000 S_IFDIR = 0040000 S_IFREG = 0100000 S_IFLNK = 0120000 S_IFSOCK = 0140000 ) func cumFinfo(fsum *fileSum, path string, staterr error, fstat syscall.Stat_t, argv[]string,verb bool)(*fileSum){ now := time.Now() if time.Second <= now.Sub(fsum.nextRepo) { if !fsum.nextRepo.IsZero(){ tstmp := now.Format(time.Stamp) showFusage(tstmp,fsum) } fsum.nextRepo = now.Add(time.Second) } if staterr != nil { fsum.Err += 1 return fsum } fsum.Files += 1 if 1 < fstat.Nlink { // must count only once... // at least ignore ones in the same directory //if finfo.Mode().IsRegular() { if (fstat.Mode & S_IFMT) == S_IFREG { fsum.HLinks += 1 fsum.DupBlocks += int64(fstat.Blocks) //fmt.Printf("---Dup HardLink %v %s\n",fstat.Nlink,path) } } //fsum.Size += finfo.Size() fsum.Size += fstat.Size fsum.Blocks += int64(fstat.Blocks) //if verb { fmt.Printf("(%8dBlk) %s",fstat.Blocks/2,path) } if isin("-ls",argv){ //if verb { fmt.Printf("%4d %8d ",fstat.Blksize,fstat.Blocks) } // fmt.Printf("%d\t",fstat.Blocks/2) } //if finfo.IsDir() if (fstat.Mode & S_IFMT) == S_IFDIR { fsum.Dirs += 1 } //if (finfo.Mode() & os.ModeSymlink) != 0 if (fstat.Mode & S_IFMT) == S_IFLNK { //if verb { fmt.Printf("symlink(%v,%s)\n",fstat.Mode,finfo.Name()) } //{ fmt.Printf("symlink(%o,%s)\n",fstat.Mode,finfo.Name()) } fsum.SymLink += 1 } return fsum } func (gsh*GshContext)xxFindEntv(depth int,total *fileSum,dir string, dstat syscall.Stat_t, ei int, entv []string,npatv[]string,argv[]string)(*fileSum){ nols := isin("-grep",argv) // sort entv /* if isin("-t",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].ModTime().Sub(filev[j].ModTime()) }) } */ /* if isin("-u",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].AccTime().Sub(filev[j].AccTime()) }) } if isin("-U",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].CreatTime().Sub(filev[j].CreatTime()) }) } */ /* if isin("-S",argv){ sort.Slice(filev, func(i,j int) bool { return filev[j].Size() < filev[i].Size() }) } */ for _,filename := range entv { for _,npat := range npatv { match := true if npat == "*" { match = true }else{ match, _ = filepath.Match(npat,filename) } path := dir + DIRSEP + filename if !match { continue } var fstat syscall.Stat_t staterr := syscall.Lstat(path,&fstat) if staterr != nil { if !isin("-w",argv){fmt.Printf("ufind: %v\n",staterr) } continue; } if isin("-du",argv) && (fstat.Mode & S_IFMT) == S_IFDIR { // should not show size of directory in "-du" mode ... }else if !nols && !isin("-s",argv) && (!isin("-du",argv) || isin("-a",argv)) { if isin("-du",argv) { fmt.Printf("%d\t",fstat.Blocks/2) } showFileInfo(path,argv) } if true { // && isin("-du",argv) total = cumFinfo(total,path,staterr,fstat,argv,false) } /* if isin("-wc",argv) { } */ if gsh.lastCheckSum.SumType != 0 { gsh.xCksum(path,argv,&gsh.lastCheckSum); } x := isinX("-grep",argv); // -grep will be convenient like -ls if 0 <= x && x+1 <= len(argv) { // -grep will be convenient like -ls if IsRegFile(path){ found := gsh.xGrep(path,argv[x+1:]) if 0 < found { foundv := gsh.CmdCurrent.FoundFile if len(foundv) < 10 { gsh.CmdCurrent.FoundFile = append(gsh.CmdCurrent.FoundFile,path) } } } } if !isin("-r0",argv) { // -d 0 in du, -depth n in find //total.Depth += 1 if (fstat.Mode & S_IFMT) == S_IFLNK { continue } if dstat.Rdev != fstat.Rdev { fmt.Printf("--I-- don't follow differnet device %v(%v) %v(%v)\n", dir,dstat.Rdev,path,fstat.Rdev) } if (fstat.Mode & S_IFMT) == S_IFDIR { total = gsh.xxFind(depth+1,total,path,npatv,argv) } } } } return total } func (gsh*GshContext)xxFind(depth int,total *fileSum,dir string,npatv[]string,argv[]string)(*fileSum){ nols := isin("-grep",argv) dirfile,oerr := os.OpenFile(dir,os.O_RDONLY,0) if oerr == nil { //fmt.Printf("--I-- %v(%v)[%d]\n",dir,dirfile,dirfile.Fd()) defer dirfile.Close() }else{ } prev := *total var dstat syscall.Stat_t staterr := syscall.Lstat(dir,&dstat) // should be flstat if staterr != nil { if !isin("-w",argv){ fmt.Printf("ufind: %v\n",staterr) } return total } //filev,err := ioutil.ReadDir(dir) //_,err := ioutil.ReadDir(dir) // ReadDir() heavy and bad for huge directory /* if err != nil { if !isin("-w",argv){ fmt.Printf("ufind: %v\n",err) } return total } */ if depth == 0 { total = cumFinfo(total,dir,staterr,dstat,argv,true) if !nols && !isin("-s",argv) && (!isin("-du",argv) || isin("-a",argv)) { showFileInfo(dir,argv) } } // it it is not a directory, just scan it and finish for ei := 0; ; ei++ { entv,rderr := dirfile.Readdirnames(8*1024) if len(entv) == 0 || rderr != nil { //if rderr != nil { fmt.Printf("[%d] len=%d (%v)\n",ei,len(entv),rderr) } break } if 0 < ei { fmt.Printf("--I-- xxFind[%d] %d large-dir: %s\n",ei,len(entv),dir) } total = gsh.xxFindEntv(depth,total,dir,dstat,ei,entv,npatv,argv) } if isin("-du",argv) { // if in "du" mode fmt.Printf("%d\t%s\n",(total.Blocks-prev.Blocks)/2,dir) } return total } // {ufind|fu|ls} [Files] [// Names] [-- Expressions] // Files is "." by default // Names is "*" by default // Expressions is "-print" by default for "ufind", or -du for "fu" command func (gsh*GshContext)xFind(argv[]string){ if 0 < len(argv) && strBegins(argv[0],"?"){ showFound(gsh,argv) return } if isin("-cksum",argv) || isin("-sum",argv) { gsh.lastCheckSum = CheckSum{} if isin("-sum",argv) && isin("-add",argv) { gsh.lastCheckSum.SumType |= SUM_SUM64 }else if isin("-sum",argv) && isin("-size",argv) { gsh.lastCheckSum.SumType |= SUM_SIZE }else if isin("-sum",argv) && isin("-bsd",argv) { gsh.lastCheckSum.SumType |= SUM_SUM16_BSD }else if isin("-sum",argv) && isin("-sysv",argv) { gsh.lastCheckSum.SumType |= SUM_SUM16_SYSV }else if isin("-sum",argv) { gsh.lastCheckSum.SumType |= SUM_SUM64 } if isin("-unix",argv) { gsh.lastCheckSum.SumType |= SUM_UNIXFILE gsh.lastCheckSum.Crc32Table = *crc32.MakeTable(CRC32UNIX) } if isin("-ieee",argv){ gsh.lastCheckSum.SumType |= SUM_CRCIEEE gsh.lastCheckSum.Crc32Table = *crc32.MakeTable(CRC32IEEE) } gsh.lastCheckSum.RusgAtStart = Getrusagev() } var total = fileSum{} npats := []string{} for _,v := range argv { if 0 < len(v) && v[0] != '-' { npats = append(npats,v) } if v == "//" { break } if v == "--" { break } if v == "-grep" { break } if v == "-ls" { break } } if len(npats) == 0 { npats = []string{"*"} } cwd := "." // if to be fullpath ::: cwd, _ := os.Getwd() if len(npats) == 0 { npats = []string{"*"} } fusage := gsh.xxFind(0,&total,cwd,npats,argv) if gsh.lastCheckSum.SumType != 0 { var sumi uint64 = 0 sum := &gsh.lastCheckSum if (sum.SumType & SUM_SIZE) != 0 { sumi = uint64(sum.Size) } if (sum.SumType & SUM_SUM64) != 0 { sumi = sum.Sum64 } if (sum.SumType & SUM_SUM16_SYSV) != 0 { s := uint32(sum.Sum16) r := (s & 0xFFFF) + ((s & 0xFFFFFFFF) >> 16) s = (r & 0xFFFF) + (r >> 16) sum.Crc32Val = uint32(s) sumi = uint64(s) } if (sum.SumType & SUM_SUM16_BSD) != 0 { sum.Crc32Val = uint32(sum.Sum16) sumi = uint64(sum.Sum16) } if (sum.SumType & SUM_UNIXFILE) != 0 { sum.Crc32Val = byteCRC32end(sum.Crc32Val,uint64(sum.Size)) sumi = uint64(byteCRC32end(sum.Crc32Val,uint64(sum.Size))) } if 1 < sum.Files { fmt.Printf("%v %v // %v / %v files, %v/file\r\n", sumi,sum.Size, abssize(sum.Size),sum.Files, abssize(sum.Size/sum.Files)) }else{ fmt.Printf("%v %v %v\n", sumi,sum.Size,npats[0]) } } if !isin("-grep",argv) { showFusage("total",fusage) } if !isin("-s",argv){ hits := len(gsh.CmdCurrent.FoundFile) if 0 < hits { fmt.Printf("--I-- %d files hits // can be refered with !%df\n", hits,len(gsh.CommandHistory)) } } if gsh.lastCheckSum.SumType != 0 { if isin("-ru",argv) { sum := &gsh.lastCheckSum sum.Done = time.Now() gsh.lastCheckSum.RusgAtEnd = Getrusagev() elps := sum.Done.Sub(sum.Start) fmt.Printf("--cksum-size: %v (%v) / %v files, %v/file\r\n", sum.Size,abssize(sum.Size),sum.Files,abssize(sum.Size/sum.Files)) nanos := int64(elps) fmt.Printf("--cksum-time: %v/total, %v/file, %.1f files/s, %v\r\n", abbtime(nanos), abbtime(nanos/sum.Files), (float64(sum.Files)*1000000000.0)/float64(nanos), abbspeed(sum.Size,nanos)) diff := RusageSubv(sum.RusgAtEnd,sum.RusgAtStart) fmt.Printf("--cksum-rusg: %v\n",sRusagef("",argv,diff)) } } return } func showFiles(files[]string){ sp := "" for i,file := range files { if 0 < i { sp = " " } else { sp = "" } fmt.Printf(sp+"%s",escapeWhiteSP(file)) } } func showFound(gshCtx *GshContext, argv[]string){ for i,v := range gshCtx.CommandHistory { if 0 < len(v.FoundFile) { fmt.Printf("!%d (%d) ",i,len(v.FoundFile)) if isin("-ls",argv){ fmt.Printf("\n") for _,file := range v.FoundFile { fmt.Printf("") //sub number? showFileInfo(file,argv) } }else{ showFiles(v.FoundFile) fmt.Printf("\n") } } } } func showMatchFile(filev []os.FileInfo, npat,dir string, argv[]string)(string,bool){ fname := "" found := false for _,v := range filev { match, _ := filepath.Match(npat,(v.Name())) if match { fname = v.Name() found = true //fmt.Printf("[%d] %s\n",i,v.Name()) showIfExecutable(fname,dir,argv) } } return fname,found } func showIfExecutable(name,dir string,argv[]string)(ffullpath string,ffound bool){ var fullpath string if strBegins(name,DIRSEP){ fullpath = name }else{ fullpath = dir + DIRSEP + name } fi, err := os.Stat(fullpath) if err != nil { fullpath = dir + DIRSEP + name + ".go" fi, err = os.Stat(fullpath) } if err == nil { fm := fi.Mode() if fm.IsRegular() { // R_OK=4, W_OK=2, X_OK=1, F_OK=0 if syscall.Access(fullpath,5) == nil { ffullpath = fullpath ffound = true if ! isin("-s", argv) { showFileInfo(fullpath,argv) } } } } return ffullpath, ffound } func which(list string, argv []string) (fullpathv []string, itis bool){ if len(argv) <= 1 { fmt.Printf("Usage: which comand [-s] [-a] [-ls]\n") return []string{""}, false } path := argv[1] if strBegins(path,"/") { // should check if excecutable? _,exOK := showIfExecutable(path,"/",argv) fmt.Printf("--D-- %v exOK=%v\n",path,exOK) return []string{path},exOK } pathenv, efound := os.LookupEnv(list) if ! efound { fmt.Printf("--E-- which: no \"%s\" environment\n",list) return []string{""}, false } showall := isin("-a",argv) || 0 <= strings.Index(path,"*") dirv := strings.Split(pathenv,PATHSEP) ffound := false ffullpath := path for _, dir := range dirv { if 0 <= strings.Index(path,"*") { // by wild-card list,_ := ioutil.ReadDir(dir) ffullpath, ffound = showMatchFile(list,path,dir,argv) }else{ ffullpath, ffound = showIfExecutable(path,dir,argv) } //if ffound && !isin("-a", argv) { if ffound && !showall { break; } } return []string{ffullpath}, ffound } func stripLeadingWSParg(argv[]string)([]string){ for ; 0 < len(argv); { if len(argv[0]) == 0 { argv = argv[1:] }else{ break } } return argv } func xEval(argv []string, nlend bool){ argv = stripLeadingWSParg(argv) if len(argv) == 0 { fmt.Printf("eval [%%format] [Go-expression]\n") return } pfmt := "%v" if argv[0][0] == '%' { pfmt = argv[0] argv = argv[1:] } if len(argv) == 0 { return } gocode := strings.Join(argv," "); //fmt.Printf("eval [%v] [%v]\n",pfmt,gocode) fset := token.NewFileSet() rval, _ := types.Eval(fset,nil,token.NoPos,gocode) fmt.Printf(pfmt,rval.Value) if nlend { fmt.Printf("\n") } } func getval(name string) (found bool, val int) { /* should expand the name here */ if name == "gsh.pid" { return true, os.Getpid() }else if name == "gsh.ppid" { return true, os.Getppid() } return false, 0 } func echo(argv []string, nlend bool){ for ai := 1; ai < len(argv); ai++ { if 1 < ai { fmt.Printf(" "); } arg := argv[ai] found, val := getval(arg) if found { fmt.Printf("%d",val) }else{ fmt.Printf("%s",arg) } } if nlend { fmt.Printf("\n"); } } func resfile() string { return "gsh.tmp" } //var resF *File func resmap() { //_ , err := os.OpenFile(resfile(), os.O_RDWR|os.O_CREATE, os.ModeAppend) // https://developpaper.com/solution-to-golang-bad-file-descriptor-problem/ _ , err := os.OpenFile(resfile(), os.O_RDWR|os.O_CREATE, 0600) if err != nil { fmt.Printf("refF could not open: %s\n",err) }else{ fmt.Printf("refF opened\n") } } // @@2020-0821 func gshScanArg(str string,strip int)(argv []string){ var si = 0 var sb = 0 var inBracket = 0 var arg1 = make([]byte,LINESIZE) var ax = 0 debug := false for ; si < len(str); si++ { if str[si] != ' ' { break } } sb = si for ; si < len(str); si++ { if sb <= si { if debug { fmt.Printf("--Da- +%d %2d-%2d %s ... %s\n", inBracket,sb,si,arg1[0:ax],str[si:]) } } ch := str[si] if ch == '{' { inBracket += 1 if 0 < strip && inBracket <= strip { //fmt.Printf("stripLEV %d <= %d?\n",inBracket,strip) continue } } if 0 < inBracket { if ch == '}' { inBracket -= 1 if 0 < strip && inBracket < strip { //fmt.Printf("stripLEV %d < %d?\n",inBracket,strip) continue } } arg1[ax] = ch ax += 1 continue } if str[si] == ' ' { argv = append(argv,string(arg1[0:ax])) if debug { fmt.Printf("--Da- [%v][%v-%v] %s ... %s\n", -1+len(argv),sb,si,str[sb:si],string(str[si:])) } sb = si+1 ax = 0 continue } arg1[ax] = ch ax += 1 } if sb < si { argv = append(argv,string(arg1[0:ax])) if debug { fmt.Printf("--Da- [%v][%v-%v] %s ... %s\n", -1+len(argv),sb,si,string(arg1[0:ax]),string(str[si:])) } } if debug { fmt.Printf("--Da- %d [%s] => [%d]%v\n”,strip,str,len(argv),argv) } return argv } // should get stderr (into tmpfile ?) and return func (gsh*GshContext)Popen(name,mode string)(pin*os.File,pout*os.File,err bool){ var pv = []int{-1,-1} syscall.Pipe(pv) xarg := gshScanArg(name,1) name = strings.Join(xarg,” “) pin = os.NewFile(uintptr(pv[0]),”StdoutOf-{“+name+”}”) pout = os.NewFile(uintptr(pv[1]),”StdinOf-{“+name+”}”) fdix := 0 dir := “?” if mode == “r” { dir = “<" fdix = 1 // read from the stdout of the process }else{ dir = ">” fdix = 0 // write to the stdin of the process } gshPA := gsh.gshPA savfd := gshPA.Files[fdix] var fd uintptr = 0 if mode == “r” { fd = pout.Fd() gshPA.Files[fdix] = pout.Fd() }else{ fd = pin.Fd() gshPA.Files[fdix] = pin.Fd() } // should do this by Goroutine? if false { fmt.Printf(“–Ip- Opened fd[%v] %s %v\n”,fd,dir,name) fmt.Printf(“–RED1 [%d,%d,%d]->[%d,%d,%d]\n”, os.Stdin.Fd(),os.Stdout.Fd(),os.Stderr.Fd(), pin.Fd(),pout.Fd(),pout.Fd()) } savi := os.Stdin savo := os.Stdout save := os.Stderr os.Stdin = pin os.Stdout = pout os.Stderr = pout gsh.BackGround = true gsh.gshelllh(name) gsh.BackGround = false os.Stdin = savi os.Stdout = savo os.Stderr = save gshPA.Files[fdix] = savfd return pin,pout,false } // External commands func (gsh*GshContext)excommand(exec bool, argv []string) (notf bool,exit bool) { if gsh.CmdTrace { fmt.Printf(“–I– excommand[%v](%v)\n”,exec,argv) } gshPA := gsh.gshPA fullpathv, itis := which(“PATH”,[]string{“which”,argv[0],”-s”}) if itis == false { return true,false } fullpath := fullpathv[0] argv = unescapeWhiteSPV(argv) if 0 < strings.Index(fullpath,".go") { nargv := argv // []string{} gofullpathv, itis := which("PATH",[]string{"which","go","-s"}) if itis == false { fmt.Printf("--F-- Go not found\n") return false,true } gofullpath := gofullpathv[0] nargv = []string{ gofullpath, "run", fullpath } fmt.Printf("--I-- %s {%s %s %s}\n",gofullpath, nargv[0],nargv[1],nargv[2]) if exec { syscall.Exec(gofullpath,nargv,os.Environ()) }else{ pid, _ := syscall.ForkExec(gofullpath,nargv,&gshPA) if gsh.BackGround { fmt.Fprintf(stderr,"--Ip- in Background pid[%d]%d(%v)\n",pid,len(argv),nargv) gsh.BackGroundJobs = append(gsh.BackGroundJobs,pid) }else{ rusage := syscall.Rusage {} syscall.Wait4(pid,nil,0,&rusage) gsh.LastRusage = rusage gsh.CmdCurrent.Rusagev[1] = rusage } } }else{ if exec { syscall.Exec(fullpath,argv,os.Environ()) }else{ pid, _ := syscall.ForkExec(fullpath,argv,&gshPA) //fmt.Printf("[%d]\n",pid); // '&' to be background if gsh.BackGround { fmt.Fprintf(stderr,"--Ip- in Background pid[%d]%d(%v)\n",pid,len(argv),argv) gsh.BackGroundJobs = append(gsh.BackGroundJobs,pid) }else{ rusage := syscall.Rusage {} syscall.Wait4(pid,nil,0,&rusage); gsh.LastRusage = rusage gsh.CmdCurrent.Rusagev[1] = rusage } } } return false,false } // Builtin Commands func (gshCtx *GshContext) sleep(argv []string) { if len(argv) < 2 { fmt.Printf("Sleep 100ms, 100us, 100ns, ...\n") return } duration := argv[1]; d, err := time.ParseDuration(duration) if err != nil { d, err = time.ParseDuration(duration+"s") if err != nil { fmt.Printf("duration ? %s (%s)\n",duration,err) return } } //fmt.Printf("Sleep %v\n",duration) time.Sleep(d) if 0 < len(argv[2:]) { gshCtx.gshellv(argv[2:]) } } func (gshCtx *GshContext)repeat(argv []string) { if len(argv) < 2 { return } start0 := time.Now() for ri,_ := strconv.Atoi(argv[1]); 0 < ri; ri-- { if 0 < len(argv[2:]) { //start := time.Now() gshCtx.gshellv(argv[2:]) end := time.Now() elps := end.Sub(start0); if( 1000000000 < elps ){ fmt.Printf("(repeat#%d %v)\n",ri,elps); } } } } func (gshCtx *GshContext)gen(argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: %s N\n",argv[0]) return } // should br repeated by "repeat" command count, _ := strconv.Atoi(argv[1]) fd := gshPA.Files[1] // Stdout file := os.NewFile(fd,"internalStdOut") fmt.Printf("--I-- Gen. Count=%d to [%d]\n",count,file.Fd()) //buf := []byte{} outdata := "0123 5678 0123 5678 0123 5678 0123 5678\r" for gi := 0; gi < count; gi++ { file.WriteString(outdata) } //file.WriteString("\n") fmt.Printf("\n(%d B)\n",count*len(outdata)); //file.Close() } // Remote Execution // 2020-0820 func Elapsed(from time.Time)(string){ elps := time.Now().Sub(from) if 1000000000 < elps { return fmt.Sprintf("[%5d.%02ds]",elps/1000000000,(elps%1000000000)/10000000) }else if 1000000 < elps { return fmt.Sprintf("[%3d.%03dms]",elps/1000000,(elps%1000000)/1000) }else{ return fmt.Sprintf("[%3d.%03dus]",elps/1000,(elps%1000)) } } func abbtime(nanos int64)(string){ if 1000000000 < nanos { return fmt.Sprintf("%d.%02ds",nanos/1000000000,(nanos%1000000000)/10000000) }else if 1000000 < nanos { return fmt.Sprintf("%d.%03dms",nanos/1000000,(nanos%1000000)/1000) }else{ return fmt.Sprintf("%d.%03dus",nanos/1000,(nanos%1000)) } } func abssize(size int64)(string){ fsize := float64(size) if 1024*1024*1024 < size { return fmt.Sprintf("%.2fGiB",fsize/(1024*1024*1024)) }else if 1024*1024 < size { return fmt.Sprintf("%.3fMiB",fsize/(1024*1024)) }else{ return fmt.Sprintf("%.3fKiB",fsize/1024) } } func absize(size int64)(string){ fsize := float64(size) if 1024*1024*1024 < size { return fmt.Sprintf("%8.2fGiB",fsize/(1024*1024*1024)) }else if 1024*1024 < size { return fmt.Sprintf("%8.3fMiB",fsize/(1024*1024)) }else{ return fmt.Sprintf("%8.3fKiB",fsize/1024) } } func abbspeed(totalB int64,ns int64)(string){ MBs := (float64(totalB)/1000000) / (float64(ns)/1000000000) if 1000 <= MBs { return fmt.Sprintf("%6.3fGB/s",MBs/1000) } if 1 <= MBs { return fmt.Sprintf("%6.3fMB/s",MBs) }else{ return fmt.Sprintf("%6.3fKB/s",MBs*1000) } } func abspeed(totalB int64,ns time.Duration)(string){ MBs := (float64(totalB)/1000000) / (float64(ns)/1000000000) if 1000 <= MBs { return fmt.Sprintf("%6.3fGBps",MBs/1000) } if 1 <= MBs { return fmt.Sprintf("%6.3fMBps",MBs) }else{ return fmt.Sprintf("%6.3fKBps",MBs*1000) } } func fileRelay(what string,in*os.File,out*os.File,size int64,bsiz int)(wcount int64){ Start := time.Now() buff := make([]byte,bsiz) var total int64 = 0 var rem int64 = size nio := 0 Prev := time.Now() var PrevSize int64 = 0 fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) START\n", what,absize(total),size,nio) for i:= 0; ; i++ { var len = bsiz if int(rem) < len { len = int(rem) } Now := time.Now() Elps := Now.Sub(Prev); if 1000000000 < Now.Sub(Prev) { fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) %s\n", what,absize(total),size,nio, abspeed((total-PrevSize),Elps)) Prev = Now; PrevSize = total } rlen := len if in != nil { // should watch the disconnection of out rcc,err := in.Read(buff[0:rlen]) if err != nil { fmt.Printf(Elapsed(Start)+"--En- X: %s read(%v,%v)<%v\n", what,rcc,err,in.Name()) break } rlen = rcc if string(buff[0:10]) == "((SoftEOF " { var ecc int64 = 0 fmt.Sscanf(string(buff),"((SoftEOF %v",&ecc) fmt.Printf(Elapsed(Start)+"--En- X: %s Recv ((SoftEOF %v))/%v\n", what,ecc,total) if ecc == total { break } } } wlen := rlen if out != nil { wcc,err := out.Write(buff[0:rlen]) if err != nil { fmt.Printf(Elapsed(Start)+"-En-- X: %s write(%v,%v)>%v\n”, what,wcc,err,out.Name()) break } wlen = wcc } if wlen < rlen { fmt.Printf(Elapsed(Start)+"--En- X: %s incomplete write (%v/%v)\n", what,wlen,rlen) break; } nio += 1 total += int64(rlen) rem -= int64(rlen) if rem <= 0 { break } } Done := time.Now() Elps := float64(Done.Sub(Start))/1000000000 //Seconds TotalMB := float64(total)/1000000 //MB MBps := TotalMB / Elps fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) %v %.3fMB/s\n", what,total,size,nio,absize(total),MBps) return total } func tcpPush(clnt *os.File){ // shrink socket buffer and recover usleep(100); } func (gsh*GshContext)RexecServer(argv[]string){ debug := true Start0 := time.Now() Start := Start0 // if local == ":" { local = "0.0.0.0:9999" } local := "0.0.0.0:9999" if 0 < len(argv) { if argv[0] == "-s" { debug = false argv = argv[1:] } } if 0 < len(argv) { argv = argv[1:] } port, err := net.ResolveTCPAddr("tcp",local); if err != nil { fmt.Printf("--En- S: Address error: %s (%s)\n",local,err) return } fmt.Printf(Elapsed(Start)+"--In- S: Listening at %s...\n",local); sconn, err := net.ListenTCP("tcp", port) if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: Listen error: %s (%s)\n",local,err) return } reqbuf := make([]byte,LINESIZE) res := "" for { fmt.Printf(Elapsed(Start0)+"--In- S: Listening at %s...\n",local); aconn, err := sconn.AcceptTCP() Start = time.Now() if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: Accept error: %s (%s)\n",local,err) return } clnt, _ := aconn.File() fd := clnt.Fd() ar := aconn.RemoteAddr() if debug { fmt.Printf(Elapsed(Start0)+"--In- S: Accepted TCP at %s [%d] <- %v\n", local,fd,ar) } res = fmt.Sprintf("220 GShell/%s Server\r\n",VERSION) fmt.Fprintf(clnt,"%s",res) if debug { fmt.Printf(Elapsed(Start)+"--In- S: %s",res) } count, err := clnt.Read(reqbuf) if err != nil { fmt.Printf(Elapsed(Start)+"--En- C: (%v %v) %v", count,err,string(reqbuf)) } req := string(reqbuf[:count]) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",string(req)) } reqv := strings.Split(string(req),"\r") cmdv := gshScanArg(reqv[0],0) //cmdv := strings.Split(reqv[0]," ") switch cmdv[0] { case "HELO": res = fmt.Sprintf("250 %v",req) case "GET": // download {remotefile|-zN} [localfile] var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var fname string = "" var in *os.File = nil var pseudoEOF = false if 1 < len(cmdv) { fname = cmdv[1] if strBegins(fname,"-z") { fmt.Sscanf(fname[2:],"%d",&dsize) }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"r") if err { }else{ xout.Close() defer xin.Close() in = xin dsize = MaxStreamSize pseudoEOF = true } }else{ xin,err := os.Open(fname) if err != nil { fmt.Printf("--En- GET (%v)\n",err) }else{ defer xin.Close() in = xin fi,_ := xin.Stat() dsize = fi.Size() } } } //fmt.Printf(Elapsed(Start)+"--In- GET %v:%v\n",dsize,bsize) res = fmt.Sprintf("200 %v\r\n",dsize) fmt.Fprintf(clnt,"%v",res) tcpPush(clnt); // should be separated as line in receiver fmt.Printf(Elapsed(Start)+"--In- S: %v",res) wcount := fileRelay("SendGET",in,clnt,dsize,bsize) if pseudoEOF { in.Close() // pipe from the command // show end of stream data (its size) by OOB? SoftEOF := fmt.Sprintf("((SoftEOF %v))",wcount) fmt.Printf(Elapsed(Start)+"--In- S: Send %v\n",SoftEOF) tcpPush(clnt); // to let SoftEOF data apper at the top of recevied data fmt.Fprintf(clnt,"%v\r\n",SoftEOF) tcpPush(clnt); // to let SoftEOF alone in a packet (separate with 200 OK) // with client generated random? //fmt.Printf("--In- L: close %v (%v)\n",in.Fd(),in.Name()) } res = fmt.Sprintf("200 GET done\r\n") case "PUT": // upload {srcfile|-zN} [dstfile] var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var fname string = "" var out *os.File = nil if 1 < len(cmdv) { // localfile fmt.Sscanf(cmdv[1],"%d",&dsize) } if 2 < len(cmdv) { fname = cmdv[2] if fname == "-" { // nul dev }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"w") if err { }else{ xin.Close() defer xout.Close() out = xout } }else{ // should write to temporary file // should suppress ^C on tty xout,err := os.OpenFile(fname,os.O_CREATE|os.O_RDWR|os.O_TRUNC,0600) //fmt.Printf("--In- S: open(%v) out(%v) err(%v)\n",fname,xout,err) if err != nil { fmt.Printf("--En- PUT (%v)\n",err) }else{ out = xout } } fmt.Printf(Elapsed(Start)+"--In- L: open(%v,w) %v (%v)\n", fname,local,err) } fmt.Printf(Elapsed(Start)+"--In- PUT %v (/%v)\n",dsize,bsize) fmt.Printf(Elapsed(Start)+"--In- S: 200 %v OK\r\n",dsize) fmt.Fprintf(clnt,"200 %v OK\r\n",dsize) fileRelay("RecvPUT",clnt,out,dsize,bsize) res = fmt.Sprintf("200 PUT done\r\n") default: res = fmt.Sprintf("400 What? %v",req) } swcc,serr := clnt.Write([]byte(res)) if serr != nil { fmt.Printf(Elapsed(Start)+"--In- S: (wc=%v er=%v) %v",swcc,serr,res) }else{ fmt.Printf(Elapsed(Start)+"--In- S: %v",res) } aconn.Close(); clnt.Close(); } sconn.Close(); } func (gsh*GshContext)RexecClient(argv[]string)(int,string){ debug := true Start := time.Now() if len(argv) == 1 { return -1,"EmptyARG" } argv = argv[1:] if argv[0] == "-serv" { gsh.RexecServer(argv[1:]) return 0,"Server" } remote := "0.0.0.0:9999" if argv[0][0] == '@' { remote = argv[0][1:] argv = argv[1:] } if argv[0] == "-s" { debug = false argv = argv[1:] } dport, err := net.ResolveTCPAddr("tcp",remote); if err != nil { fmt.Printf(Elapsed(Start)+"Address error: %s (%s)\n",remote,err) return -1,"AddressError" } fmt.Printf(Elapsed(Start)+"--In- C: Connecting to %s\n",remote) serv, err := net.DialTCP("tcp",nil,dport) if err != nil { fmt.Printf(Elapsed(Start)+"Connection error: %s (%s)\n",remote,err) return -1,"CannotConnect" } if debug { al := serv.LocalAddr() fmt.Printf(Elapsed(Start)+"--In- C: Connected to %v <- %v\n",remote,al) } req := "" res := make([]byte,LINESIZE) count,err := serv.Read(res) if err != nil { fmt.Printf("--En- S: (%3d,%v) %v",count,err,string(res)) } if debug { fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res)) } if argv[0] == "GET" { savPA := gsh.gshPA var bsize int = 64*1024 req = fmt.Sprintf("%v\r\n",strings.Join(argv," ")) fmt.Printf(Elapsed(Start)+"--In- C: %v",req) fmt.Fprintf(serv,req) count,err = serv.Read(res) if err != nil { }else{ var dsize int64 = 0 var out *os.File = nil var out_tobeclosed *os.File = nil var fname string = "" var rcode int = 0 var pid int = -1 fmt.Sscanf(string(res),"%d %d",&rcode,&dsize) fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res[0:count])) if 3 <= len(argv) { fname = argv[2] if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"w") if err { }else{ xin.Close() defer xout.Close() out = xout out_tobeclosed = xout pid = 0 // should be its pid } }else{ // should write to temporary file // should suppress ^C on tty xout,err := os.OpenFile(fname,os.O_CREATE|os.O_RDWR|os.O_TRUNC,0600) if err != nil { fmt.Print("--En- %v\n",err) } out = xout //fmt.Printf("--In-- %d > %s\n”,out.Fd(),fname) } } in,_ := serv.File() fileRelay(“RecvGET”,in,out,dsize,bsize) if 0 <= pid { gsh.gshPA = savPA // recovery of Fd(), and more? fmt.Printf(Elapsed(Start)+"--In- L: close Pipe > %v\n”,fname) out_tobeclosed.Close() //syscall.Wait4(pid,nil,0,nil) //@@ } } }else if argv[0] == “PUT” { remote, _ := serv.File() var local *os.File = nil var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var ofile string = “-” //fmt.Printf(“–I– Rex %v\n”,argv) if 1 < len(argv) { fname := argv[1] if strBegins(fname,"-z") { fmt.Sscanf(fname[2:],"%d",&dsize) }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"r") if err { }else{ xout.Close() defer xin.Close() //in = xin local = xin fmt.Printf("--In- [%d] < Upload output of %v\n", local.Fd(),fname) ofile = "-from."+fname dsize = MaxStreamSize } }else{ xlocal,err := os.Open(fname) if err != nil { fmt.Printf("--En- (%s)\n",err) local = nil }else{ local = xlocal fi,_ := local.Stat() dsize = fi.Size() defer local.Close() //fmt.Printf("--I-- Rex in(%v / %v)\n",ofile,dsize) } ofile = fname fmt.Printf(Elapsed(Start)+"--In- L: open(%v,r)=%v %v (%v)\n", fname,dsize,local,err) } } if 2 < len(argv) && argv[2] != "" { ofile = argv[2] //fmt.Printf("(%d)%v B.ofile=%v\n",len(argv),argv,ofile) } //fmt.Printf(Elapsed(Start)+"--I-- Rex out(%v)\n",ofile) fmt.Printf(Elapsed(Start)+"--In- PUT %v (/%v)\n",dsize,bsize) req = fmt.Sprintf("PUT %v %v \r\n",dsize,ofile) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",req) } fmt.Fprintf(serv,"%v",req) count,err = serv.Read(res) if debug { fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res[0:count])) } fileRelay("SendPUT",local,remote,dsize,bsize) }else{ req = fmt.Sprintf("%v\r\n",strings.Join(argv," ")) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",req) } fmt.Fprintf(serv,"%v",req) //fmt.Printf("--In- sending RexRequest(%v)\n",len(req)) } //fmt.Printf(Elapsed(Start)+"--In- waiting RexResponse...\n") count,err = serv.Read(res) ress := "" if count == 0 { ress = "(nil)\r\n" }else{ ress = string(res[:count]) } if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: (%d,%v) %v",count,err,ress) }else{ fmt.Printf(Elapsed(Start)+"--In- S: %v",ress) } serv.Close() //conn.Close() var stat string var rcode int fmt.Sscanf(ress,"%d %s",&rcode,&stat) //fmt.Printf("--D-- Client: %v (%v)",rcode,stat) return rcode,ress } // Remote Shell // gcp file […] { [host]:[port:][dir] | dir } // -p | -no-p func (gsh*GshContext)FileCopy(argv[]string){ var host = “” var port = “” var upload = false var download = false var xargv = []string{“rex-gcp”} var srcv = []string{} var dstv = []string{} argv = argv[1:] for _,v := range argv { /* if v[0] == ‘-‘ { // might be a pseudo file (generated date) continue } */ obj := strings.Split(v,”:”) //fmt.Printf(“%d %v %v\n”,len(obj),v,obj) if 1 < len(obj) { host = obj[0] file := "" if 0 < len(host) { gsh.LastServer.host = host }else{ host = gsh.LastServer.host port = gsh.LastServer.port } if 2 < len(obj) { port = obj[1] if 0 < len(port) { gsh.LastServer.port = port }else{ port = gsh.LastServer.port } file = obj[2] }else{ file = obj[1] } if len(srcv) == 0 { download = true srcv = append(srcv,file) continue } upload = true dstv = append(dstv,file) continue } /* idx := strings.Index(v,":") if 0 <= idx { remote = v[0:idx] if len(srcv) == 0 { download = true srcv = append(srcv,v[idx+1:]) continue } upload = true dstv = append(dstv,v[idx+1:]) continue } */ if download { dstv = append(dstv,v) }else{ srcv = append(srcv,v) } } hostport := "@" + host + ":" + port if upload { if host != "" { xargv = append(xargv,hostport) } xargv = append(xargv,"PUT") xargv = append(xargv,srcv[0:]...) xargv = append(xargv,dstv[0:]...) //fmt.Printf("--I-- FileCopy PUT gsh://%s/%v < %v // %v\n",hostport,dstv,srcv,xargv) fmt.Printf("--I-- FileCopy PUT gsh://%s/%v < %v\n",hostport,dstv,srcv) gsh.RexecClient(xargv) }else if download { if host != "" { xargv = append(xargv,hostport) } xargv = append(xargv,"GET") xargv = append(xargv,srcv[0:]...) xargv = append(xargv,dstv[0:]...) //fmt.Printf("--I-- FileCopy GET gsh://%v/%v > %v // %v\n”,hostport,srcv,dstv,xargv) fmt.Printf(“–I– FileCopy GET gsh://%v/%v > %v\n”,hostport,srcv,dstv) gsh.RexecClient(xargv) }else{ } } // target func (gsh*GshContext)Trelpath(rloc string)(string){ cwd, _ := os.Getwd() os.Chdir(gsh.RWD) os.Chdir(rloc) twd, _ := os.Getwd() os.Chdir(cwd) tpath := twd + “/” + rloc return tpath } // join to rmote GShell – [user@]host[:port] or cd host:[port]:path func (gsh*GshContext)Rjoin(argv[]string){ if len(argv) <= 1 { fmt.Printf("--I-- current server = %v\n",gsh.RSERV) return } serv := argv[1] servv := strings.Split(serv,":") if 1 <= len(servv) { if servv[0] == "lo" { servv[0] = "localhost" } } switch len(servv) { case 1: //if strings.Index(serv,":") < 0 { serv = servv[0] + ":" + fmt.Sprintf("%d",GSH_PORT) //} case 2: // host:port serv = strings.Join(servv,":") } xargv := []string{"rex-join","@"+serv,"HELO"} rcode,stat := gsh.RexecClient(xargv) if (rcode / 100) == 2 { fmt.Printf("--I-- OK Joined (%v) %v\n",rcode,stat) gsh.RSERV = serv }else{ fmt.Printf("--I-- NG, could not joined (%v) %v\n",rcode,stat) } } func (gsh*GshContext)Rexec(argv[]string){ if len(argv) <= 1 { fmt.Printf("--I-- rexec command [ | {file || {command} ]\n",gsh.RSERV) return } /* nargv := gshScanArg(strings.Join(argv," "),0) fmt.Printf("--D-- nargc=%d [%v]\n",len(nargv),nargv) if nargv[1][0] != '{' { nargv[1] = "{" + nargv[1] + "}" fmt.Printf("--D-- nargc=%d [%v]\n",len(nargv),nargv) } argv = nargv */ nargv := []string{} nargv = append(nargv,"{"+strings.Join(argv[1:]," ")+"}") fmt.Printf("--D-- nargc=%d %v\n",len(nargv),nargv) argv = nargv xargv := []string{"rex-exec","@"+gsh.RSERV,"GET"} xargv = append(xargv,argv...) xargv = append(xargv,"/dev/tty") rcode,stat := gsh.RexecClient(xargv) if (rcode / 100) == 2 { fmt.Printf("--I-- OK Rexec (%v) %v\n",rcode,stat) }else{ fmt.Printf("--I-- NG Rexec (%v) %v\n",rcode,stat) } } func (gsh*GshContext)Rchdir(argv[]string){ if len(argv) <= 1 { return } cwd, _ := os.Getwd() os.Chdir(gsh.RWD) os.Chdir(argv[1]) twd, _ := os.Getwd() gsh.RWD = twd fmt.Printf("--I-- JWD=%v\n",twd) os.Chdir(cwd) } func (gsh*GshContext)Rpwd(argv[]string){ fmt.Printf("%v\n",gsh.RWD) } func (gsh*GshContext)Rls(argv[]string){ cwd, _ := os.Getwd() os.Chdir(gsh.RWD) argv[0] = "-ls" gsh.xFind(argv) os.Chdir(cwd) } func (gsh*GshContext)Rput(argv[]string){ var local string = "" var remote string = "" if 1 < len(argv) { local = argv[1] remote = local // base name } if 2 < len(argv) { remote = argv[2] } fmt.Printf("--I-- jput from=%v to=%v\n",local,gsh.Trelpath(remote)) } func (gsh*GshContext)Rget(argv[]string){ var remote string = "" var local string = "" if 1 < len(argv) { remote = argv[1] local = remote // base name } if 2 < len(argv) { local = argv[2] } fmt.Printf("--I-- jget from=%v to=%v\n",gsh.Trelpath(remote),local) } // network // -s, -si, -so // bi-directional, source, sync (maybe socket) func (gshCtx*GshContext)sconnect(inTCP bool, argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: -s [host]:[port[.udp]]\n") return } remote := argv[1] if remote == ":" { remote = "0.0.0.0:9999" } if inTCP { // TCP dport, err := net.ResolveTCPAddr("tcp",remote); if err != nil { fmt.Printf("Address error: %s (%s)\n",remote,err) return } conn, err := net.DialTCP("tcp",nil,dport) if err != nil { fmt.Printf("Connection error: %s (%s)\n",remote,err) return } file, _ := conn.File(); fd := file.Fd() fmt.Printf("Socket: connected to %s, socket[%d]\n",remote,fd) savfd := gshPA.Files[1] gshPA.Files[1] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[1] = savfd file.Close() conn.Close() }else{ //dport, err := net.ResolveUDPAddr("udp4",remote); dport, err := net.ResolveUDPAddr("udp",remote); if err != nil { fmt.Printf("Address error: %s (%s)\n",remote,err) return } //conn, err := net.DialUDP("udp4",nil,dport) conn, err := net.DialUDP("udp",nil,dport) if err != nil { fmt.Printf("Connection error: %s (%s)\n",remote,err) return } file, _ := conn.File(); fd := file.Fd() ar := conn.RemoteAddr() //al := conn.LocalAddr() fmt.Printf("Socket: connected to %s [%s], socket[%d]\n", remote,ar.String(),fd) savfd := gshPA.Files[1] gshPA.Files[1] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[1] = savfd file.Close() conn.Close() } } func (gshCtx*GshContext)saccept(inTCP bool, argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: -ac [host]:[port[.udp]]\n") return } local := argv[1] if local == ":" { local = "0.0.0.0:9999" } if inTCP { // TCP port, err := net.ResolveTCPAddr("tcp",local); if err != nil { fmt.Printf("Address error: %s (%s)\n",local,err) return } //fmt.Printf("Listen at %s...\n",local); sconn, err := net.ListenTCP("tcp", port) if err != nil { fmt.Printf("Listen error: %s (%s)\n",local,err) return } //fmt.Printf("Accepting at %s...\n",local); aconn, err := sconn.AcceptTCP() if err != nil { fmt.Printf("Accept error: %s (%s)\n",local,err) return } file, _ := aconn.File() fd := file.Fd() fmt.Printf("Accepted TCP at %s [%d]\n",local,fd) savfd := gshPA.Files[0] gshPA.Files[0] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[0] = savfd sconn.Close(); aconn.Close(); file.Close(); }else{ //port, err := net.ResolveUDPAddr("udp4",local); port, err := net.ResolveUDPAddr("udp",local); if err != nil { fmt.Printf("Address error: %s (%s)\n",local,err) return } fmt.Printf("Listen UDP at %s...\n",local); //uconn, err := net.ListenUDP("udp4", port) uconn, err := net.ListenUDP("udp", port) if err != nil { fmt.Printf("Listen error: %s (%s)\n",local,err) return } file, _ := uconn.File() fd := file.Fd() ar := uconn.RemoteAddr() remote := "" if ar != nil { remote = ar.String() } if remote == "" { remote = "?" } // not yet received //fmt.Printf("Accepted at %s [%d] <- %s\n",local,fd,"") savfd := gshPA.Files[0] gshPA.Files[0] = fd; savenv := gshPA.Env gshPA.Env = append(savenv, "REMOTE_HOST="+remote) gshCtx.gshellv(argv[2:]) gshPA.Env = savenv gshPA.Files[0] = savfd uconn.Close(); file.Close(); } } // empty line command func (gshCtx*GshContext)xPwd(argv[]string){ // execute context command, pwd + date // context notation, representation scheme, to be resumed at re-login cwd, _ := os.Getwd() switch { case isin("-a",argv): gshCtx.ShowChdirHistory(argv) case isin("-ls",argv): showFileInfo(cwd,argv) default: fmt.Printf("%s\n",cwd) case isin("-v",argv): // obsolete emtpy command t := time.Now() date := t.Format(time.UnixDate) exe, _ := os.Executable() host, _ := os.Hostname() fmt.Printf("{PWD=\"%s\"",cwd) fmt.Printf(" HOST=\"%s\"",host) fmt.Printf(" DATE=\"%s\"",date) fmt.Printf(" TIME=\"%s\"",t.String()) fmt.Printf(" PID=\"%d\"",os.Getpid()) fmt.Printf(" EXE=\"%s\"",exe) fmt.Printf("}\n") } } // History // these should be browsed and edited by HTTP browser // show the time of command with -t and direcotry with -ls // openfile-history, sort by -a -m -c // sort by elapsed time by -t -s // search by “more” like interface // edit history // sort history, and wc or uniq // CPU and other resource consumptions // limit showing range (by time or so) // export / import history func (gshCtx *GshContext)xHistory(argv []string){ atWorkDirX := -1 if 1 < len(argv) && strBegins(argv[1],"@") { atWorkDirX,_ = strconv.Atoi(argv[1][1:]) } //fmt.Printf("--D-- showHistory(%v)\n",argv) for i, v := range gshCtx.CommandHistory { // exclude commands not to be listed by default // internal commands may be suppressed by default if v.CmdLine == "" && !isin("-a",argv) { continue; } if 0 <= atWorkDirX { if v.WorkDirX != atWorkDirX { continue } } if !isin("-n",argv){ // like "fc" fmt.Printf("!%-2d ",i) } if isin("-v",argv){ fmt.Println(v) // should be with it date }else{ if isin("-l",argv) || isin("-l0",argv) { elps := v.EndAt.Sub(v.StartAt); start := v.StartAt.Format(time.Stamp) fmt.Printf("@%d ",v.WorkDirX) fmt.Printf("[%v] %11v/t ",start,elps) } if isin("-l",argv) && !isin("-l0",argv){ fmt.Printf("%v",Rusagef("%t %u\t// %s",argv,v.Rusagev)) } if isin("-at",argv) { // isin("-ls",argv){ dhi := v.WorkDirX // workdir history index fmt.Printf("@%d %s\t",dhi,v.WorkDir) // show the FileInfo of the output command?? } fmt.Printf("%s",v.CmdLine) fmt.Printf("\n") } } } // !n - history index func searchHistory(gshCtx GshContext, gline string) (string, bool, bool){ if gline[0] == '!' { hix, err := strconv.Atoi(gline[1:]) if err != nil { fmt.Printf("--E-- (%s : range)\n",hix) return "", false, true } if hix < 0 || len(gshCtx.CommandHistory) <= hix { fmt.Printf("--E-- (%d : out of range)\n",hix) return "", false, true } return gshCtx.CommandHistory[hix].CmdLine, false, false } // search //for i, v := range gshCtx.CommandHistory { //} return gline, false, false } func (gsh*GshContext)cmdStringInHistory(hix int)(cmd string, ok bool){ if 0 <= hix && hix < len(gsh.CommandHistory) { return gsh.CommandHistory[hix].CmdLine,true } return "",false } // temporary adding to PATH environment // cd name -lib for LD_LIBRARY_PATH // chdir with directory history (date + full-path) // -s for sort option (by visit date or so) func (gsh*GshContext)ShowChdirHistory1(i int,v GChdirHistory, argv []string){ fmt.Printf("!%-2d ",v.CmdIndex) // the first command at this WorkDir fmt.Printf("@%d ",i) fmt.Printf("[%v] ",v.MovedAt.Format(time.Stamp)) showFileInfo(v.Dir,argv) } func (gsh*GshContext)ShowChdirHistory(argv []string){ for i, v := range gsh.ChdirHistory { gsh.ShowChdirHistory1(i,v,argv) } } func skipOpts(argv[]string)(int){ for i,v := range argv { if strBegins(v,"-") { }else{ return i } } return -1 } func (gshCtx*GshContext)xChdir(argv []string){ cdhist := gshCtx.ChdirHistory if isin("?",argv ) || isin("-t",argv) || isin("-a",argv) { gshCtx.ShowChdirHistory(argv) return } pwd, _ := os.Getwd() dir := "" if len(argv) <= 1 { dir = toFullpath("~") }else{ i := skipOpts(argv[1:]) if i < 0 { dir = toFullpath("~") }else{ dir = argv[1+i] } } if strBegins(dir,"@") { if dir == "@0" { // obsolete dir = gshCtx.StartDir }else if dir == "@!" { index := len(cdhist) - 1 if 0 < index { index -= 1 } dir = cdhist[index].Dir }else{ index, err := strconv.Atoi(dir[1:]) if err != nil { fmt.Printf("--E-- xChdir(%v)\n",err) dir = "?" }else if len(gshCtx.ChdirHistory) <= index { fmt.Printf("--E-- xChdir(history range error)\n") dir = "?" }else{ dir = cdhist[index].Dir } } } if dir != "?" { err := os.Chdir(dir) if err != nil { fmt.Printf("--E-- xChdir(%s)(%v)\n",argv[1],err) }else{ cwd, _ := os.Getwd() if cwd != pwd { hist1 := GChdirHistory { } hist1.Dir = cwd hist1.MovedAt = time.Now() hist1.CmdIndex = len(gshCtx.CommandHistory)+1 gshCtx.ChdirHistory = append(cdhist,hist1) if !isin("-s",argv){ //cwd, _ := os.Getwd() //fmt.Printf("%s\n",cwd) ix := len(gshCtx.ChdirHistory)-1 gshCtx.ShowChdirHistory1(ix,hist1,argv) } } } } if isin("-ls",argv){ cwd, _ := os.Getwd() showFileInfo(cwd,argv); } } func TimeValSub(tv1 *syscall.Timeval, tv2 *syscall.Timeval){ *tv1 = syscall.NsecToTimeval(tv1.Nano() - tv2.Nano()) } func RusageSubv(ru1, ru2 [2]syscall.Rusage)([2]syscall.Rusage){ TimeValSub(&ru1[0].Utime,&ru2[0].Utime) TimeValSub(&ru1[0].Stime,&ru2[0].Stime) TimeValSub(&ru1[1].Utime,&ru2[1].Utime) TimeValSub(&ru1[1].Stime,&ru2[1].Stime) return ru1 } func TimeValAdd(tv1 syscall.Timeval, tv2 syscall.Timeval)(syscall.Timeval){ tvs := syscall.NsecToTimeval(tv1.Nano() + tv2.Nano()) return tvs } /* func RusageAddv(ru1, ru2 [2]syscall.Rusage)([2]syscall.Rusage){ TimeValAdd(ru1[0].Utime,ru2[0].Utime) TimeValAdd(ru1[0].Stime,ru2[0].Stime) TimeValAdd(ru1[1].Utime,ru2[1].Utime) TimeValAdd(ru1[1].Stime,ru2[1].Stime) return ru1 } */ // Resource Usage func sRusagef(fmtspec string, argv []string, ru [2]syscall.Rusage)(string){ // ru[0] self , ru[1] children ut := TimeValAdd(ru[0].Utime,ru[1].Utime) st := TimeValAdd(ru[0].Stime,ru[1].Stime) uu := (ut.Sec*1000000 + int64(ut.Usec)) * 1000 su := (st.Sec*1000000 + int64(st.Usec)) * 1000 tu := uu + su ret := fmt.Sprintf(“%v/sum”,abbtime(tu)) ret += fmt.Sprintf(“, %v/usr”,abbtime(uu)) ret += fmt.Sprintf(“, %v/sys”,abbtime(su)) return ret } func Rusagef(fmtspec string, argv []string, ru [2]syscall.Rusage)(string){ ut := TimeValAdd(ru[0].Utime,ru[1].Utime) st := TimeValAdd(ru[0].Stime,ru[1].Stime) fmt.Printf(“%d.%06ds/u “,ut.Sec,ut.Usec) //ru[1].Utime.Sec,ru[1].Utime.Usec) fmt.Printf(“%d.%06ds/s “,st.Sec,st.Usec) //ru[1].Stime.Sec,ru[1].Stime.Usec) return “” } func Getrusagev()([2]syscall.Rusage){ var ruv = [2]syscall.Rusage{} syscall.Getrusage(syscall.RUSAGE_SELF,&ruv[0]) syscall.Getrusage(syscall.RUSAGE_CHILDREN,&ruv[1]) return ruv } func showRusage(what string,argv []string, ru *syscall.Rusage){ fmt.Printf(“%s: “,what); fmt.Printf(“Usr=%d.%06ds”,ru.Utime.Sec,ru.Utime.Usec) fmt.Printf(” Sys=%d.%06ds”,ru.Stime.Sec,ru.Stime.Usec) fmt.Printf(” Rss=%vB”,ru.Maxrss) if isin(“-l”,argv) { fmt.Printf(” MinFlt=%v”,ru.Minflt) fmt.Printf(” MajFlt=%v”,ru.Majflt) fmt.Printf(” IxRSS=%vB”,ru.Ixrss) fmt.Printf(” IdRSS=%vB”,ru.Idrss) fmt.Printf(” Nswap=%vB”,ru.Nswap) fmt.Printf(” Read=%v”,ru.Inblock) fmt.Printf(” Write=%v”,ru.Oublock) } fmt.Printf(” Snd=%v”,ru.Msgsnd) fmt.Printf(” Rcv=%v”,ru.Msgrcv) //if isin(“-l”,argv) { fmt.Printf(” Sig=%v”,ru.Nsignals) //} fmt.Printf(“\n”); } func (gshCtx *GshContext)xTime(argv[]string)(bool){ if 2 <= len(argv){ gshCtx.LastRusage = syscall.Rusage{} rusagev1 := Getrusagev() fin := gshCtx.gshellv(argv[1:]) rusagev2 := Getrusagev() showRusage(argv[1],argv,&gshCtx.LastRusage) rusagev := RusageSubv(rusagev2,rusagev1) showRusage("self",argv,&rusagev[0]) showRusage("chld",argv,&rusagev[1]) return fin }else{ rusage:= syscall.Rusage {} syscall.Getrusage(syscall.RUSAGE_SELF,&rusage) showRusage("self",argv, &rusage) syscall.Getrusage(syscall.RUSAGE_CHILDREN,&rusage) showRusage("chld",argv, &rusage) return false } } func (gshCtx *GshContext)xJobs(argv[]string){ fmt.Printf("%d Jobs\n",len(gshCtx.BackGroundJobs)) for ji, pid := range gshCtx.BackGroundJobs { //wstat := syscall.WaitStatus {0} rusage := syscall.Rusage {} //wpid, err := syscall.Wait4(pid,&wstat,syscall.WNOHANG,&rusage); wpid, err := syscall.Wait4(pid,nil,syscall.WNOHANG,&rusage); if err != nil { fmt.Printf("--E-- %%%d [%d] (%v)\n",ji,pid,err) }else{ fmt.Printf("%%%d[%d](%d)\n",ji,pid,wpid) showRusage("chld",argv,&rusage) } } } func (gsh*GshContext)inBackground(argv[]string)(bool){ if gsh.CmdTrace { fmt.Printf("--I-- inBackground(%v)\n",argv) } gsh.BackGround = true // set background option xfin := false xfin = gsh.gshellv(argv) gsh.BackGround = false return xfin } // -o file without command means just opening it and refer by #N // should be listed by "files" comnmand func (gshCtx*GshContext)xOpen(argv[]string){ var pv = []int{-1,-1} err := syscall.Pipe(pv) fmt.Printf("--I-- pipe()=[#%d,#%d](%v)\n",pv[0],pv[1],err) } func (gshCtx*GshContext)fromPipe(argv[]string){ } func (gshCtx*GshContext)xClose(argv[]string){ } // redirect func (gshCtx*GshContext)redirect(argv[]string)(bool){ if len(argv) < 2 { return false } cmd := argv[0] fname := argv[1] var file *os.File = nil fdix := 0 mode := os.O_RDONLY switch { case cmd == "-i" || cmd == "<": fdix = 0 mode = os.O_RDONLY case cmd == "-o" || cmd == ">“: fdix = 1 mode = os.O_RDWR | os.O_CREATE case cmd == “-a” || cmd == “>>”: fdix = 1 mode = os.O_RDWR | os.O_CREATE | os.O_APPEND } if fname[0] == ‘#’ { fd, err := strconv.Atoi(fname[1:]) if err != nil { fmt.Printf(“–E– (%v)\n”,err) return false } file = os.NewFile(uintptr(fd),”MaybePipe”) }else{ xfile, err := os.OpenFile(argv[1], mode, 0600) if err != nil { fmt.Printf(“–E– (%s)\n”,err) return false } file = xfile } gshPA := gshCtx.gshPA savfd := gshPA.Files[fdix] gshPA.Files[fdix] = file.Fd() fmt.Printf(“–I– Opened [%d] %s\n”,file.Fd(),argv[1]) gshCtx.gshellv(argv[2:]) gshPA.Files[fdix] = savfd return false } //fmt.Fprintf(res, “GShell Status: %q”, html.EscapeString(req.URL.Path)) func httpHandler(res http.ResponseWriter, req *http.Request){ path := req.URL.Path fmt.Printf(“–I– Got HTTP Request(%s)\n”,path) { gshCtxBuf, _ := setupGshContext() gshCtx := &gshCtxBuf fmt.Printf(“–I– %s\n”,path[1:]) gshCtx.tgshelll(path[1:]) } fmt.Fprintf(res, “Hello(^-^)/\n%s\n”,path) } func (gshCtx *GshContext) httpServer(argv []string){ http.HandleFunc(“/”, httpHandler) accport := “localhost:9999” fmt.Printf(“–I– HTTP Server Start at [%s]\n”,accport) http.ListenAndServe(accport,nil) } func (gshCtx *GshContext)xGo(argv[]string){ go gshCtx.gshellv(argv[1:]); } func (gshCtx *GshContext) xPs(argv[]string)(){ } // Plugin // plugin [-ls [names]] to list plugins // Reference: plugin source code func (gshCtx *GshContext) whichPlugin(name string,argv[]string)(pi *PluginInfo){ pi = nil for _,p := range gshCtx.PluginFuncs { if p.Name == name && pi == nil { pi = &p } if !isin(“-s”,argv){ //fmt.Printf(“%v %v “,i,p) if isin(“-ls”,argv){ showFileInfo(p.Path,argv) }else{ fmt.Printf(“%s\n”,p.Name) } } } return pi } func (gshCtx *GshContext) xPlugin(argv[]string) (error) { if len(argv) == 0 || argv[0] == “-ls” { gshCtx.whichPlugin(“”,argv) return nil } name := argv[0] Pin := gshCtx.whichPlugin(name,[]string{“-s”}) if Pin != nil { os.Args = argv // should be recovered? Pin.Addr.(func())() return nil } sofile := toFullpath(argv[0] + “.so”) // or find it by which($PATH) p, err := plugin.Open(sofile) if err != nil { fmt.Printf(“–E– plugin.Open(%s)(%v)\n”,sofile,err) return err } fname := “Main” f, err := p.Lookup(fname) if( err != nil ){ fmt.Printf(“–E– plugin.Lookup(%s)(%v)\n”,fname,err) return err } pin := PluginInfo {p,f,name,sofile} gshCtx.PluginFuncs = append(gshCtx.PluginFuncs,pin) fmt.Printf(“–I– added (%d)\n”,len(gshCtx.PluginFuncs)) //fmt.Printf(“–I– first call(%s:%s)%v\n”,sofile,fname,argv) os.Args = argv f.(func())() return err } func (gshCtx*GshContext)Args(argv[]string){ for i,v := range os.Args { fmt.Printf(“[%v] %v\n”,i,v) } } func (gshCtx *GshContext) showVersion(argv[]string){ if isin(“-l”,argv) { fmt.Printf(“%v/%v (%v)”,NAME,VERSION,DATE); }else{ fmt.Printf(“%v”,VERSION); } if isin(“-a”,argv) { fmt.Printf(” %s”,AUTHOR) } if !isin(“-n”,argv) { fmt.Printf(“\n”) } } // Scanf // string decomposer // scanf [format] [input] func scanv(sstr string)(strv[]string){ strv = strings.Split(sstr,” “) return strv } func scanUntil(src,end string)(rstr string,leng int){ idx := strings.Index(src,end) if 0 <= idx { rstr = src[0:idx] return rstr,idx+len(end) } return src,0 } // -bn -- display base-name part only // can be in some %fmt, for sed rewriting func (gsh*GshContext)printVal(fmts string, vstr string, optv[]string){ //vint,err := strconv.Atoi(vstr) var ival int64 = 0 n := 0 err := error(nil) if strBegins(vstr,"_") { vx,_ := strconv.Atoi(vstr[1:]) if vx < len(gsh.iValues) { vstr = gsh.iValues[vx] }else{ } } // should use Eval() if strBegins(vstr,"0x") { n,err = fmt.Sscanf(vstr[2:],"%x",&ival) }else{ n,err = fmt.Sscanf(vstr,"%d",&ival) //fmt.Printf("--D-- n=%d err=(%v) {%s}=%v\n",n,err,vstr, ival) } if n == 1 && err == nil { //fmt.Printf("--D-- formatn(%v) ival(%v)\n",fmts,ival) fmt.Printf("%"+fmts,ival) }else{ if isin("-bn",optv){ fmt.Printf("%"+fmts,filepath.Base(vstr)) }else{ fmt.Printf("%"+fmts,vstr) } } } func (gsh*GshContext)printfv(fmts,div string,argv[]string,optv[]string,list[]string){ //fmt.Printf("{%d}",len(list)) //curfmt := "v" outlen := 0 curfmt := gsh.iFormat if 0 < len(fmts) { for xi := 0; xi < len(fmts); xi++ { fch := fmts[xi] if fch == '%' { if xi+1 < len(fmts) { curfmt = string(fmts[xi+1]) gsh.iFormat = curfmt xi += 1 if xi+1 < len(fmts) && fmts[xi+1] == '(' { vals,leng := scanUntil(fmts[xi+2:],")") //fmt.Printf("--D-- show fmt(%v) val(%v) next(%v)\n",curfmt,vals,leng) gsh.printVal(curfmt,vals,optv) xi += 2+leng-1 outlen += 1 } continue } } if fch == '_' { hi,leng := scanInt(fmts[xi+1:]) if 0 < leng { if hi < len(gsh.iValues) { gsh.printVal(curfmt,gsh.iValues[hi],optv) outlen += 1 // should be the real length }else{ fmt.Printf("((out-range))") } xi += leng continue; } } fmt.Printf("%c",fch) outlen += 1 } }else{ //fmt.Printf("--D-- print {%s}\n") for i,v := range list { if 0 < i { fmt.Printf(div) } gsh.printVal(curfmt,v,optv) outlen += 1 } } if 0 < outlen { fmt.Printf("\n") } } func (gsh*GshContext)Scanv(argv[]string){ //fmt.Printf("--D-- Scanv(%v)\n",argv) if len(argv) == 1 { return } argv = argv[1:] fmts := "" if strBegins(argv[0],"-F") { fmts = argv[0] gsh.iDelimiter = fmts argv = argv[1:] } input := strings.Join(argv," ") if fmts == "" { // simple decomposition v := scanv(input) gsh.iValues = v //fmt.Printf("%v\n",strings.Join(v,",")) }else{ v := make([]string,8) n,err := fmt.Sscanf(input,fmts,&v[0],&v[1],&v[2],&v[3]) fmt.Printf("--D-- Scanf ->(%v) n=%d err=(%v)\n”,v,n,err) gsh.iValues = v } } func (gsh*GshContext)Printv(argv[]string){ if false { //@@U fmt.Printf(“%v\n”,strings.Join(argv[1:],” “)) return } //fmt.Printf(“–D– Printv(%v)\n”,argv) //fmt.Printf(“%v\n”,strings.Join(gsh.iValues,”,”)) div := gsh.iDelimiter fmts := “” argv = argv[1:] if 0 < len(argv) { if strBegins(argv[0],"-F") { div = argv[0][2:] argv = argv[1:] } } optv := []string{} for _,v := range argv { if strBegins(v,"-"){ optv = append(optv,v) argv = argv[1:] }else{ break; } } if 0 < len(argv) { fmts = strings.Join(argv," ") } gsh.printfv(fmts,div,argv,optv,gsh.iValues) } func (gsh*GshContext)Basename(argv[]string){ for i,v := range gsh.iValues { gsh.iValues[i] = filepath.Base(v) } } func (gsh*GshContext)Sortv(argv[]string){ sv := gsh.iValues sort.Slice(sv , func(i,j int) bool { return sv[i] < sv[j] }) } func (gsh*GshContext)Shiftv(argv[]string){ vi := len(gsh.iValues) if 0 < vi { if isin("-r",argv) { top := gsh.iValues[0] gsh.iValues = append(gsh.iValues[1:],top) }else{ gsh.iValues = gsh.iValues[1:] } } } func (gsh*GshContext)Enq(argv[]string){ } func (gsh*GshContext)Deq(argv[]string){ } func (gsh*GshContext)Push(argv[]string){ gsh.iValStack = append(gsh.iValStack,argv[1:]) fmt.Printf("depth=%d\n",len(gsh.iValStack)) } func (gsh*GshContext)Dump(argv[]string){ for i,v := range gsh.iValStack { fmt.Printf("%d %v\n",i,v) } } func (gsh*GshContext)Pop(argv[]string){ depth := len(gsh.iValStack) if 0 < depth { v := gsh.iValStack[depth-1] if isin("-cat",argv){ gsh.iValues = append(gsh.iValues,v...) }else{ gsh.iValues = v } gsh.iValStack = gsh.iValStack[0:depth-1] fmt.Printf("depth=%d %s\n",len(gsh.iValStack),gsh.iValues) }else{ fmt.Printf("depth=%d\n",depth) } } // Command Interpreter func (gshCtx*GshContext)gshellv(argv []string) (fin bool) { fin = false if gshCtx.CmdTrace { fmt.Fprintf(os.Stderr,”–I– gshellv((%d))\n”,len(argv)) } if len(argv) <= 0 { return false } xargv := []string{} for ai := 0; ai < len(argv); ai++ { xargv = append(xargv,strsubst(gshCtx,argv[ai],false)) } argv = xargv if false { for ai := 0; ai < len(argv); ai++ { fmt.Printf("[%d] %s [%d]%T\n", ai,argv[ai],len(argv[ai]),argv[ai]) } } cmd := argv[0] if gshCtx.CmdTrace { fmt.Fprintf(os.Stderr,"--I-- gshellv(%d)%v\n",len(argv),argv) } switch { // https://tour.golang.org/flowcontrol/11 case cmd == "": gshCtx.xPwd([]string{}); // emtpy command case cmd == "-x": gshCtx.CmdTrace = ! gshCtx.CmdTrace case cmd == "-xt": gshCtx.CmdTime = ! gshCtx.CmdTime case cmd == "-ot": gshCtx.sconnect(true, argv) case cmd == "-ou": gshCtx.sconnect(false, argv) case cmd == "-it": gshCtx.saccept(true , argv) case cmd == "-iu": gshCtx.saccept(false, argv) case cmd == "-i" || cmd == "<" || cmd == "-o" || cmd == ">” || cmd == “-a” || cmd == “>>” || cmd == “-s” || cmd == “><": gshCtx.redirect(argv) case cmd == "|": gshCtx.fromPipe(argv) case cmd == "args": gshCtx.Args(argv) case cmd == "bg" || cmd == "-bg": rfin := gshCtx.inBackground(argv[1:]) return rfin case cmd == "-bn": gshCtx.Basename(argv) case cmd == "call": _,_ = gshCtx.excommand(false,argv[1:]) case cmd == "cd" || cmd == "chdir": gshCtx.xChdir(argv); case cmd == "-cksum": gshCtx.xFind(argv) case cmd == "-sum": gshCtx.xFind(argv) case cmd == "close": gshCtx.xClose(argv) case cmd == "gcp": gshCtx.FileCopy(argv) case cmd == "dec" || cmd == "decode": gshCtx.Dec(argv) case cmd == "#define": case cmd == "dic" || cmd == "d": xDic(argv) case cmd == "dump": gshCtx.Dump(argv) case cmd == "echo" || cmd == "e": echo(argv,true) case cmd == "enc" || cmd == "encode": gshCtx.Enc(argv) case cmd == "env": env(argv) case cmd == "eval": xEval(argv[1:],true) case cmd == "ev" || cmd == "events": dumpEvents(argv) case cmd == "exec": _,_ = gshCtx.excommand(true,argv[1:]) // should not return here case cmd == "exit" || cmd == "quit": // write Result code EXIT to 3> return true case cmd == “fdls”: // dump the attributes of fds (of other process) case cmd == “-find” || cmd == “fin” || cmd == “ufind” || cmd == “uf”: gshCtx.xFind(argv[1:]) case cmd == “fu”: gshCtx.xFind(argv[1:]) case cmd == “fork”: // mainly for a server case cmd == “-gen”: gshCtx.gen(argv) case cmd == “-go”: gshCtx.xGo(argv) case cmd == “-grep”: gshCtx.xFind(argv) case cmd == “gdeq”: gshCtx.Deq(argv) case cmd == “genq”: gshCtx.Enq(argv) case cmd == “gpop”: gshCtx.Pop(argv) case cmd == “gpush”: gshCtx.Push(argv) case cmd == “history” || cmd == “hi”: // hi should be alias gshCtx.xHistory(argv) case cmd == “jobs”: gshCtx.xJobs(argv) case cmd == “lnsp” || cmd == “nlsp”: gshCtx.SplitLine(argv) case cmd == “-ls”: gshCtx.xFind(argv) case cmd == “nop”: // do nothing case cmd == “pipe”: gshCtx.xOpen(argv) case cmd == “plug” || cmd == “plugin” || cmd == “pin”: gshCtx.xPlugin(argv[1:]) case cmd == “print” || cmd == “-pr”: // output internal slice // also sprintf should be gshCtx.Printv(argv) case cmd == “ps”: gshCtx.xPs(argv) case cmd == “pstitle”: // to be gsh.title case cmd == “rexecd” || cmd == “rexd”: gshCtx.RexecServer(argv) case cmd == “rexec” || cmd == “rex”: gshCtx.RexecClient(argv) case cmd == “repeat” || cmd == “rep”: // repeat cond command gshCtx.repeat(argv) case cmd == “replay”: gshCtx.xReplay(argv) case cmd == “scan”: // scan input (or so in fscanf) to internal slice (like Files or map) gshCtx.Scanv(argv) case cmd == “set”: // set name … case cmd == “serv”: gshCtx.httpServer(argv) case cmd == “shift”: gshCtx.Shiftv(argv) case cmd == “sleep”: gshCtx.sleep(argv) case cmd == “-sort”: gshCtx.Sortv(argv) case cmd == “j” || cmd == “join”: gshCtx.Rjoin(argv) case cmd == “a” || cmd == “alpa”: gshCtx.Rexec(argv) case cmd == “jcd” || cmd == “jchdir”: gshCtx.Rchdir(argv) case cmd == “jget”: gshCtx.Rget(argv) case cmd == “jls”: gshCtx.Rls(argv) case cmd == “jput”: gshCtx.Rput(argv) case cmd == “jpwd”: gshCtx.Rpwd(argv) case cmd == “time”: fin = gshCtx.xTime(argv) case cmd == “ungets”: if 1 < len(argv) { ungets(argv[1]+"\n") }else{ } case cmd == "pwd": gshCtx.xPwd(argv); case cmd == "ver" || cmd == "-ver" || cmd == "version": gshCtx.showVersion(argv) case cmd == "where": // data file or so? case cmd == "which": which("PATH",argv); default: if gshCtx.whichPlugin(cmd,[]string{"-s"}) != nil { gshCtx.xPlugin(argv) }else{ notfound,_ := gshCtx.excommand(false,argv) if notfound { fmt.Printf("--E-- command not found (%v)\n",cmd) } } } return fin } func (gsh*GshContext)gshelll(gline string) (rfin bool) { argv := strings.Split(string(gline)," ") fin := gsh.gshellv(argv) return fin } func (gsh*GshContext)tgshelll(gline string)(xfin bool){ start := time.Now() fin := gsh.gshelll(gline) end := time.Now() elps := end.Sub(start); if gsh.CmdTime { fmt.Printf("--T-- " + time.Now().Format(time.Stamp) + "(%d.%09ds)\n", elps/1000000000,elps%1000000000) } return fin } func Ttyid() (int) { fi, err := os.Stdin.Stat() if err != nil { return 0; } //fmt.Printf("Stdin: %v Dev=%d\n", // fi.Mode(),fi.Mode()&os.ModeDevice) if (fi.Mode() & os.ModeDevice) != 0 { stat := syscall.Stat_t{}; err := syscall.Fstat(0,&stat) if err != nil { //fmt.Printf("--I-- Stdin: (%v)\n",err) }else{ //fmt.Printf("--I-- Stdin: rdev=%d %d\n", // stat.Rdev&0xFF,stat.Rdev); //fmt.Printf("--I-- Stdin: tty%d\n",stat.Rdev&0xFF); return int(stat.Rdev & 0xFF) } } return 0 } func (gshCtx *GshContext) ttyfile() string { //fmt.Printf("--I-- GSH_HOME=%s\n",gshCtx.GshHomeDir) ttyfile := gshCtx.GshHomeDir + "/" + "gsh-tty" + fmt.Sprintf("%02d",gshCtx.TerminalId) //strconv.Itoa(gshCtx.TerminalId) //fmt.Printf("--I-- ttyfile=%s\n",ttyfile) return ttyfile } func (gshCtx *GshContext) ttyline()(*os.File){ file, err := os.OpenFile(gshCtx.ttyfile(),os.O_RDWR|os.O_CREATE|os.O_TRUNC,0600) if err != nil { fmt.Printf("--F-- cannot open %s (%s)\n",gshCtx.ttyfile(),err) return file; } return file } func (gshCtx *GshContext)getline(hix int, skipping bool, prevline string) (string) { if( skipping ){ reader := bufio.NewReaderSize(os.Stdin,LINESIZE) line, _, _ := reader.ReadLine() return string(line) }else if true { return xgetline(hix,prevline,gshCtx) } /* else if( with_exgetline && gshCtx.GetLine != "" ){ //var xhix int64 = int64(hix); // cast newenv := os.Environ() newenv = append(newenv, "GSH_LINENO="+strconv.FormatInt(int64(hix),10) ) tty := gshCtx.ttyline() tty.WriteString(prevline) Pa := os.ProcAttr { "", // start dir newenv, //os.Environ(), []*os.File{os.Stdin,os.Stdout,os.Stderr,tty}, nil, } //fmt.Printf("--I-- getline=%s // %s\n",gsh_getlinev[0],gshCtx.GetLine) proc, err := os.StartProcess(gsh_getlinev[0],[]string{"getline","getline"},&Pa) if err != nil { fmt.Printf("--F-- getline process error (%v)\n",err) // for ; ; { } return "exit (getline program failed)" } //stat, err := proc.Wait() proc.Wait() buff := make([]byte,LINESIZE) count, err := tty.Read(buff) //_, err = tty.Read(buff) //fmt.Printf("--D-- getline (%d)\n",count) if err != nil { if ! (count == 0) { // && err.String() == "EOF" ) { fmt.Printf("--E-- getline error (%s)\n",err) } }else{ //fmt.Printf("--I-- getline OK \"%s\"\n",buff) } tty.Close() gline := string(buff[0:count]) return gline }else */ { // if isatty { fmt.Printf("!%d",hix) fmt.Print(PROMPT) // } reader := bufio.NewReaderSize(os.Stdin,LINESIZE) line, _, _ := reader.ReadLine() return string(line) } } //== begin ======================================================= getline /* * getline.c * 2020-0819 extracted from dog.c * getline.go * 2020-0822 ported to Go */ /* package main // getline main import ( "fmt" // fmt “strings” // strings “os” // os “syscall” // syscall //”bytes” // os //”os/exec” // os ) */ // C language compatibility functions var errno = 0 var stdin *os.File = os.Stdin var stdout *os.File = os.Stdout var stderr *os.File = os.Stderr var EOF = -1 var NULL = 0 type FILE os.File type StrBuff []byte var NULL_FP *os.File = nil var NULLSP = 0 //var LINESIZE = 1024 func system(cmdstr string)(int){ PA := syscall.ProcAttr { “”, // the starting directory os.Environ(), []uintptr{os.Stdin.Fd(),os.Stdout.Fd(),os.Stderr.Fd()}, nil, } argv := strings.Split(cmdstr,” “) pid,err := syscall.ForkExec(argv[0],argv,&PA) if( err != nil ){ fmt.Printf(“–E– syscall(%v) err(%v)\n”,cmdstr,err) } syscall.Wait4(pid,nil,0,nil) /* argv := strings.Split(cmdstr,” “) fmt.Fprintf(os.Stderr,”–I– system(%v)\n”,argv) //cmd := exec.Command(argv[0:]…) cmd := exec.Command(argv[0],argv[1],argv[2]) cmd.Stdin = strings.NewReader(“output of system”) var out bytes.Buffer cmd.Stdout = &out var serr bytes.Buffer cmd.Stderr = &serr err := cmd.Run() if err != nil { fmt.Fprintf(os.Stderr,”–E– system(%v)err(%v)\n”,argv,err) fmt.Printf(“ERR:%s\n”,serr.String()) }else{ fmt.Printf(“%s”,out.String()) } */ return 0 } func atoi(str string)(ret int){ ret,err := fmt.Sscanf(str,”%d”,ret) if err == nil { return ret }else{ // should set errno return 0 } } func getenv(name string)(string){ val,got := os.LookupEnv(name) if got { return val }else{ return “?” } } func strcpy(dst StrBuff, src string){ var i int srcb := []byte(src) for i = 0; i < len(src) && srcb[i] != 0; i++ { dst[i] = srcb[i] } dst[i] = 0 } func xstrcpy(dst StrBuff, src StrBuff){ dst = src } func strcat(dst StrBuff, src StrBuff){ dst = append(dst,src...) } func strdup(str StrBuff)(string){ return string(str[0:strlen(str)]) } func sstrlen(str string)(int){ return len(str) } func strlen(str StrBuff)(int){ var i int for i = 0; i < len(str) && str[i] != 0; i++ { } return i } func sizeof(data StrBuff)(int){ return len(data) } func isatty(fd int)(ret int){ return 1 } func fopen(file string,mode string)(fp*os.File){ if mode == "r" { fp,err := os.Open(file) if( err != nil ){ fmt.Printf("--E-- fopen(%s,%s)=(%v)\n",file,mode,err) return NULL_FP; } return fp; }else{ fp,err := os.OpenFile(file,os.O_RDWR|os.O_CREATE|os.O_TRUNC,0600) if( err != nil ){ return NULL_FP; } return fp; } } func fclose(fp*os.File){ fp.Close() } func fflush(fp *os.File)(int){ return 0 } func fgetc(fp*os.File)(int){ var buf [1]byte _,err := fp.Read(buf[0:1]) if( err != nil ){ return EOF; }else{ return int(buf[0]) } } func sfgets(str*string, size int, fp*os.File)(int){ buf := make(StrBuff,size) var ch int var i int for i = 0; i < len(buf)-1; i++ { ch = fgetc(fp) //fprintf(stderr,"--fgets %d/%d %X\n",i,len(buf),ch) if( ch == EOF ){ break; } buf[i] = byte(ch); if( ch == '\n' ){ break; } } buf[i] = 0 //fprintf(stderr,"--fgets %d/%d (%s)\n",i,len(buf),buf[0:i]) return i } func fgets(buf StrBuff, size int, fp*os.File)(int){ var ch int var i int for i = 0; i < len(buf)-1; i++ { ch = fgetc(fp) //fprintf(stderr,"--fgets %d/%d %X\n",i,len(buf),ch) if( ch == EOF ){ break; } buf[i] = byte(ch); if( ch == '\n' ){ break; } } buf[i] = 0 //fprintf(stderr,"--fgets %d/%d (%s)\n",i,len(buf),buf[0:i]) return i } func fputc(ch int , fp*os.File)(int){ var buf [1]byte buf[0] = byte(ch) fp.Write(buf[0:1]) return 0 } func fputs(buf StrBuff, fp*os.File)(int){ fp.Write(buf) return 0 } func xfputss(str string, fp*os.File)(int){ return fputs([]byte(str),fp) } func sscanf(str StrBuff,fmts string, params ...interface{})(int){ fmt.Sscanf(string(str[0:strlen(str)]),fmts,params...) return 0 } func fprintf(fp*os.File,fmts string, params ...interface{})(int){ fmt.Fprintf(fp,fmts,params...) return 0 } // Command Line IME //———————————————————————– MyIME var MyIMEVER = “MyIME/0.0.2”; type RomKana struct { dic string // dictionaly ID pat string // input pattern out string // output pattern hit int64 // count of hit and used } var dicents = 0 var romkana [1024]RomKana var Romkan []RomKana func isinDic(str string)(int){ for i,v := range Romkan { if v.pat == str { return i } } return -1 } const ( DIC_COM_LOAD = “im” DIC_COM_DUMP = “s” DIC_COM_LIST = “ls” DIC_COM_ENA = “en” DIC_COM_DIS = “di” ) func helpDic(argv []string){ out := stderr cmd := “” if 0 < len(argv) { cmd = argv[0] } fprintf(out,"--- %v Usage\n",cmd) fprintf(out,"... Commands\n") fprintf(out,"... %v %-3v [dicName] [dicURL ] -- Import dictionary\n",cmd,DIC_COM_LOAD) fprintf(out,"... %v %-3v [pattern] -- Search in dictionary\n",cmd,DIC_COM_DUMP) fprintf(out,"... %v %-3v [dicName] -- List dictionaries\n",cmd,DIC_COM_LIST) fprintf(out,"... %v %-3v [dicName] -- Disable dictionaries\n",cmd,DIC_COM_DIS) fprintf(out,"... %v %-3v [dicName] -- Enable dictionaries\n",cmd,DIC_COM_ENA) fprintf(out,"... Keys ... %v\n","ESC can be used for '\\'") fprintf(out,"... \\c -- Reverse the case of the last character\n",) fprintf(out,"... \\i -- Replace input with translated text\n",) fprintf(out,"... \\j -- On/Off translation mode\n",) fprintf(out,"... \\l -- Force Lower Case\n",) fprintf(out,"... \\u -- Force Upper Case (software CapsLock)\n",) fprintf(out,"... \\v -- Show translation actions\n",) fprintf(out,"... \\x -- Replace the last input character with it Hexa-Decimal\n",) } func xDic(argv[]string){ if len(argv) <= 1 { helpDic(argv) return } argv = argv[1:] var debug = false var info = false var silent = false var dump = false var builtin = false cmd := argv[0] argv = argv[1:] opt := "" arg := "" if 0 < len(argv) { arg1 := argv[0] if arg1[0] == '-' { switch arg1 { default: fmt.Printf("--Ed-- Unknown option(%v)\n",arg1) return case "-b": builtin = true case "-d": debug = true case "-s": silent = true case "-v": info = true } opt = arg1 argv = argv[1:] } } dicName := "" dicURL := "" if 0 < len(argv) { arg = argv[0] dicName = arg argv = argv[1:] } if 0 < len(argv) { dicURL = argv[0] argv = argv[1:] } if false { fprintf(stderr,"--Dd-- com(%v) opt(%v) arg(%v)\n",cmd,opt,arg) } if cmd == DIC_COM_LOAD { //dicType := "" dicBody := "" if !builtin && dicName != "" && dicURL == "" { f,err := os.Open(dicName) if err == nil { dicURL = dicName }else{ f,err = os.Open(dicName+".html") if err == nil { dicURL = dicName+".html" }else{ f,err = os.Open("gshdic-"+dicName+".html") if err == nil { dicURL = "gshdic-"+dicName+".html" } } } if err == nil { var buf = make([]byte,128*1024) count,err := f.Read(buf) f.Close() if info { fprintf(stderr,"--Id-- ReadDic(%v,%v)\n",count,err) } dicBody = string(buf[0:count]) } } if dicBody == "" { switch arg { default: dicName = "WorldDic" dicURL = WorldDic if info { fprintf(stderr,"--Id-- default dictionary \"%v\"\n", dicName); } case "wnn": dicName = "WnnDic" dicURL = WnnDic case "sumomo": dicName = "SumomoDic" dicURL = SumomoDic case "jkl": dicName = "JKLJaDic" dicURL = JA_JKLDic } if debug { fprintf(stderr,"--Id-- %v URL=%v\n\n",dicName,dicURL); } dicv := strings.Split(dicURL,",") if debug { fprintf(stderr,"--Id-- %v encoded data...\n",dicName) fprintf(stderr,"Type: %v\n",dicv[0]) fprintf(stderr,"Body: %v\n",dicv[1]) fprintf(stderr,"\n") } body,_ := base64.StdEncoding.DecodeString(dicv[1]) dicBody = string(body) } if info { fmt.Printf("--Id-- %v %v\n",dicName,dicURL) fmt.Printf("%s\n",dicBody) } if debug { fprintf(stderr,"--Id-- dicName %v text...\n",dicName) fprintf(stderr,"%v\n",string(dicBody)) } entv := strings.Split(dicBody,"\n"); if info { fprintf(stderr,"--Id-- %v scan...\n",dicName); } var added int = 0 var dup int = 0 for i,v := range entv { var pat string var out string fmt.Sscanf(v,"%s %s",&pat,&out) if len(pat) <= 0 { }else{ if 0 <= isinDic(pat) { dup += 1 continue } romkana[dicents] = RomKana{dicName,pat,out,0} dicents += 1 added += 1 Romkan = append(Romkan,RomKana{dicName,pat,out,0}) if debug { fmt.Printf("[%3v]:[%2v]%-8v [%2v]%v\n", i,len(pat),pat,len(out),out) } } } if !silent { url := dicURL if strBegins(url,"data:") { url = "builtin" } fprintf(stderr,"--Id-- %v scan... %v added, %v dup. / %v total (%v)\n", dicName,added,dup,len(Romkan),url); } // should sort by pattern length for conclete match, for performance if debug { arg = "" // search pattern dump = true } } if cmd == DIC_COM_DUMP || dump { fprintf(stderr,"--Id-- %v dump... %v entries:\n",dicName,len(Romkan)); var match = 0 for i := 0; i < len(Romkan); i++ { dic := Romkan[i].dic pat := Romkan[i].pat out := Romkan[i].out if arg == "" || 0 <= strings.Index(pat,arg)||0 <= strings.Index(out,arg) { fmt.Printf("\\\\%v\t%v [%2v]%-8v [%2v]%v\n", i,dic,len(pat),pat,len(out),out) match += 1 } } fprintf(stderr,"--Id-- %v matched %v / %v entries:\n",arg,match,len(Romkan)); } } func loadDefaultDic(dic int){ if( 0 < len(Romkan) ){ return } //fprintf(stderr,"\r\n") xDic([]string{"dic",DIC_COM_LOAD}); var info = false if info { fprintf(stderr,"--Id-- Conguraturations!! WorldDic is now activated.\r\n") fprintf(stderr,"--Id-- enter \"dic\" command for help.\r\n") } } func readDic()(int){ /* var rk *os.File; var dic = "MyIME-dic.txt"; //rk = fopen("romkana.txt","r"); //rk = fopen("JK-JA-morse-dic.txt","r"); rk = fopen(dic,"r"); if( rk == NULL_FP ){ if( true ){ fprintf(stderr,"--%s-- Could not load %s\n",MyIMEVER,dic); } return -1; } if( true ){ var di int; var line = make(StrBuff,1024); var pat string var out string for di = 0; di < 1024; di++ { if( fgets(line,sizeof(line),rk) == NULLSP ){ break; } fmt.Sscanf(string(line[0:strlen(line)]),"%s %s",&pat,&out); //sscanf(line,"%s %[^\r\n]",&pat,&out); romkana[di].pat = pat; romkana[di].out = out; //fprintf(stderr,"--Dd- %-10s %s\n",pat,out) } dicents += di if( false ){ fprintf(stderr,"--%s-- loaded romkana.txt [%d]\n",MyIMEVER,di); for di = 0; di < dicents; di++ { fprintf(stderr, "%s %s\n",romkana[di].pat,romkana[di].out); } } } fclose(rk); //romkana[dicents].pat = "//ddump" //romkana[dicents].pat = "//ddump" // dump the dic. and clean the command input */ return 0; } func matchlen(stri string, pati string)(int){ if strBegins(stri,pati) { return len(pati) }else{ return 0 } } func convs(src string)(string){ var si int; var sx = len(src); var di int; var mi int; var dstb []byte for si = 0; si < sx; { // search max. match from the position if strBegins(src[si:],"%x/") { // %x/integer/ // s/a/b/ ix := strings.Index(src[si+3:],"/") if 0 < ix { var iv int = 0 //fmt.Sscanf(src[si+3:si+3+ix],"%d",&iv) fmt.Sscanf(src[si+3:si+3+ix],"%v",&iv) sval := fmt.Sprintf("%x",iv) bval := []byte(sval) dstb = append(dstb,bval...) si = si+3+ix+1 continue } } if strBegins(src[si:],"%d/") { // %d/integer/ // s/a/b/ ix := strings.Index(src[si+3:],"/") if 0 < ix { var iv int = 0 fmt.Sscanf(src[si+3:si+3+ix],"%v",&iv) sval := fmt.Sprintf("%d",iv) bval := []byte(sval) dstb = append(dstb,bval...) si = si+3+ix+1 continue } } if strBegins(src[si:],"%t") { now := time.Now() if true { date := now.Format(time.Stamp) dstb = append(dstb,[]byte(date)...) si = si+3 } continue } var maxlen int = 0; var len int; mi = -1; for di = 0; di < dicents; di++ { len = matchlen(src[si:],romkana[di].pat); if( maxlen < len ){ maxlen = len; mi = di; } } if( 0 < maxlen ){ out := romkana[mi].out; dstb = append(dstb,[]byte(out)...); si += maxlen; }else{ dstb = append(dstb,src[si]) si += 1; } } return string(dstb) } func trans(src string)(int){ dst := convs(src); xfputss(dst,stderr); return 0; } //------------------------------------------------------------- LINEEDIT // "?" at the top of the line means searching history // should be compatilbe with Telnet const ( EV_MODE = 255 EV_IDLE = 254 EV_TIMEOUT = 253 GO_UP = 252 GO_DOWN = 251 GO_RIGHT = 250 GO_LEFT = 249 DEL_RIGHT = 248 ) // should return number of octets ready to be read immediately //fprintf(stderr,"\n--Select(%v %v)\n",err,r.Bits[0]) var EventRecvFd = -1 // file descriptor var EventSendFd = -1 const EventFdOffset = 1000000 const NormalFdOffset = 100 func putEvent(event int, evarg int){ if true { if EventRecvFd < 0 { var pv = []int{-1,-1} syscall.Pipe(pv) EventRecvFd = pv[0] EventSendFd = pv[1] //fmt.Printf("--De-- EventPipe created[%v,%v]\n",EventRecvFd,EventSendFd) } }else{ if EventRecvFd < 0 { // the document differs from this spec // https://golang.org/src/syscall/syscall_unix.go?s=8096:8158#L340 sv,err := syscall.Socketpair(syscall.AF_UNIX,syscall.SOCK_STREAM,0) EventRecvFd = sv[0] EventSendFd = sv[1] if err != nil { fmt.Printf("--De-- EventSock created[%v,%v](%v)\n", EventRecvFd,EventSendFd,err) } } } var buf = []byte{ byte(event)} n,err := syscall.Write(EventSendFd,buf) if err != nil { fmt.Printf("--De-- putEvent[%v](%3v)(%v %v)\n",EventSendFd,event,n,err) } } func ungets(str string){ for _,ch := range str { putEvent(int(ch),0) } } func (gsh*GshContext)xReplay(argv[]string){ hix := 0 tempo := 1.0 xtempo := 1.0 repeat := 1 for _,a := range argv { // tempo if strBegins(a,"x") { fmt.Sscanf(a[1:],"%f",&xtempo) tempo = 1 / xtempo //fprintf(stderr,"--Dr-- tempo=[%v]%v\n",a[2:],tempo); }else if strBegins(a,"r") { // repeat fmt.Sscanf(a[1:],"%v",&repeat) }else if strBegins(a,"!") { fmt.Sscanf(a[1:],"%d",&hix) }else{ fmt.Sscanf(a,"%d",&hix) } } if hix == 0 || len(argv) <= 1 { hix = len(gsh.CommandHistory)-1 } fmt.Printf("--Ir-- Replay(!%v x%v r%v)\n",hix,xtempo,repeat) //dumpEvents(hix) //gsh.xScanReplay(hix,false,repeat,tempo,argv) go gsh.xScanReplay(hix,true,repeat,tempo,argv) } // syscall.Select // 2020-0827 GShell-0.2.3 func FpollIn1(fp *os.File,usec int)(uintptr){ nfd := 1 rdv := syscall.FdSet {} fd1 := fp.Fd() bank1 := fd1/32 mask1 := int32(1 << fd1) rdv.Bits[bank1] = mask1 fd2 := -1 bank2 := -1 var mask2 int32 = 0 if 0 <= EventRecvFd { fd2 = EventRecvFd nfd = fd2 + 1 bank2 = fd2/32 mask2 = int32(1 << fd2) rdv.Bits[bank2] |= mask2 //fmt.Printf("--De-- EventPoll mask added [%d][%v][%v]\n",fd2,bank2,mask2) } tout := syscall.NsecToTimeval(int64(usec*1000)) //n,err := syscall.Select(nfd,&rdv,nil,nil,&tout) // spec. mismatch err := syscall.Select(nfd,&rdv,nil,nil,&tout) if err != nil { //fmt.Printf("--De-- select() err(%v)\n",err) } if err == nil { if 0 <= fd2 && (rdv.Bits[bank2] & mask2) != 0 { if false { fmt.Printf("--De-- got Event\n") } return uintptr(EventFdOffset + fd2) }else if (rdv.Bits[bank1] & mask1) != 0 { return uintptr(NormalFdOffset + fd1) }else{ return 1 } }else{ return 0 } } func fgetcTimeout1(fp *os.File,usec int)(int){ READ1: readyFd := FpollIn1(fp,usec) if readyFd < 100 { return EV_TIMEOUT } var buf [1]byte if EventFdOffset <= readyFd { fd := int(readyFd-EventFdOffset) _,err := syscall.Read(fd,buf[0:1]) if( err != nil ){ return EOF; }else{ if buf[0] == EV_MODE { recvEvent(fd) goto READ1 } return int(buf[0]) } } _,err := fp.Read(buf[0:1]) if( err != nil ){ return EOF; }else{ return int(buf[0]) } } func visibleChar(ch int)(string){ switch { case '!' <= ch && ch <= '~': return string(ch) } switch ch { case ' ': return "\\s" case '\n': return "\\n" case '\r': return "\\r" case '\t': return "\\t" } switch ch { case 0x00: return "NUL" case 0x07: return "BEL" case 0x08: return "BS" case 0x0E: return "SO" case 0x0F: return "SI" case 0x1B: return "ESC" case 0x7F: return "DEL" } switch ch { case EV_IDLE: return fmt.Sprintf("IDLE") case EV_MODE: return fmt.Sprintf("MODE") } return fmt.Sprintf("%X",ch) } func recvEvent(fd int){ var buf = make([]byte,1) _,_ = syscall.Read(fd,buf[0:1]) if( buf[0] != 0 ){ romkanmode = true }else{ romkanmode = false } } func (gsh*GshContext)xScanReplay(hix int,replay bool,repeat int,tempo float64,argv[]string){ var Start time.Time var events = []Event{} for _,e := range Events { if hix == 0 || e.CmdIndex == hix { events = append(events,e) } } elen := len(events) if 0 < elen { if events[elen-1].event == EV_IDLE { events = events[0:elen-1] } } for r := 0; r < repeat; r++ { for i,e := range events { nano := e.when.Nanosecond() micro := nano / 1000 if Start.Second() == 0 { Start = time.Now() } diff := time.Now().Sub(Start) if replay { if e.event != EV_IDLE { putEvent(e.event,0) if e.event == EV_MODE { // event with arg putEvent(int(e.evarg),0) } } }else{ fmt.Printf("%7.3fms #%-3v !%-3v [%v.%06d] %3v %02X %-4v %10.3fms\n", float64(diff)/1000000.0, i, e.CmdIndex, e.when.Format(time.Stamp),micro, e.event,e.event,visibleChar(e.event), float64(e.evarg)/1000000.0) } if e.event == EV_IDLE { d := time.Duration(float64(time.Duration(e.evarg)) * tempo) //nsleep(time.Duration(e.evarg)) nsleep(d) } } } } func dumpEvents(arg[]string){ hix := 0 if 1 < len(arg) { fmt.Sscanf(arg[1],"%d",&hix) } for i,e := range Events { nano := e.when.Nanosecond() micro := nano / 1000 //if e.event != EV_TIMEOUT { if hix == 0 || e.CmdIndex == hix { fmt.Printf("#%-3v !%-3v [%v.%06d] %3v %02X %-4v %10.3fms\n",i, e.CmdIndex, e.when.Format(time.Stamp),micro, e.event,e.event,visibleChar(e.event),float64(e.evarg)/1000000.0) } //} } } func fgetcTimeout(fp *os.File,usec int)(int){ ch := fgetcTimeout1(fp,usec) if ch != EV_TIMEOUT { now := time.Now() if 0 < len(Events) { last := Events[len(Events)-1] dura := int64(now.Sub(last.when)) Events = append(Events,Event{last.when,EV_IDLE,dura,last.CmdIndex}) } Events = append(Events,Event{time.Now(),ch,0,CmdIndex}) } return ch } var TtyMaxCol = 72 var EscTimeout = (100*1000) var ( MODE_ShowMode bool romkanmode bool MODE_Recursive bool // recursive translation MODE_CapsLock bool // software CapsLock MODE_LowerLock bool // force lower-case character lock MODE_ViInsert int // visible insert mode, should be like "I" icon in X Window MODE_ViTrace bool // output newline before translation ) type IInput struct { lno int lastlno int pch []int // input queue prompt string line string right string inJmode bool pinJmode bool waitingMeta string // waiting meta character LastCmd string } func (iin*IInput)Getc(timeoutUs int)(int){ ch1 := EOF ch2 := EOF ch3 := EOF if( 0 < len(iin.pch) ){ // deQ ch1 = iin.pch[0] iin.pch = iin.pch[1:] }else{ ch1 = fgetcTimeout(stdin,timeoutUs); } if( ch1 == 033 ){ /// escape sequence ch2 = fgetcTimeout(stdin,EscTimeout); if( ch2 == EV_TIMEOUT ){ }else{ ch3 = fgetcTimeout(stdin,EscTimeout); if( ch3 == EV_TIMEOUT ){ iin.pch = append(iin.pch,ch2) // enQ }else{ switch( ch2 ){ default: iin.pch = append(iin.pch,ch2) // enQ iin.pch = append(iin.pch,ch3) // enQ case '[': switch( ch3 ){ case 'A': ch1 = GO_UP; // ^ case 'B': ch1 = GO_DOWN; // v case 'C': ch1 = GO_RIGHT; // > case ‘D’: ch1 = GO_LEFT; // < case '3': ch4 := fgetcTimeout(stdin,EscTimeout); if( ch4 == '~' ){ //fprintf(stderr,"x[%02X %02X %02X %02X]\n",ch1,ch2,ch3,ch4); ch1 = DEL_RIGHT } } case '\\': //ch4 := fgetcTimeout(stdin,EscTimeout); //fprintf(stderr,"y[%02X %02X %02X %02X]\n",ch1,ch2,ch3,ch4); switch( ch3 ){ case '~': ch1 = DEL_RIGHT } } } } } return ch1 } func (inn*IInput)clearline(){ var i int fprintf(stderr,"\r"); // should be ANSI ESC sequence for i = 0; i < TtyMaxCol; i++ { // to the max. position in this input action fputc(' ',os.Stderr); } fprintf(stderr,"\r"); } func (iin*IInput)Redraw(){ redraw(iin,iin.lno,iin.line,iin.right) } func redraw(iin *IInput,lno int,line string,right string){ inMeta := false showMode := "" showMeta := "" // visible Meta mode on the cursor position showLino := fmt.Sprintf("!%d! ",lno) InsertMark := "" // in visible insert mode if 0 < len(iin.right) { InsertMark = " " } if( 0 < len(iin.waitingMeta) ){ inMeta = true if iin.waitingMeta[0] != 033 { showMeta = iin.waitingMeta } } if( romkanmode ){ //romkanmark = " *"; }else{ //romkanmark = ""; } if MODE_ShowMode { romkan := "--" inmeta := "-" inveri := "" if MODE_CapsLock { inmeta = "A" } if MODE_LowerLock { inmeta = "a" } if MODE_ViTrace { inveri = "v" } if romkanmode { romkan = "\343\201\202" if MODE_CapsLock { inmeta = "R" }else{ inmeta = "r" } } if inMeta { inmeta = "\\" } showMode = "["+romkan+inmeta+inveri+"]"; } Pre := "\r" + showMode + showLino Output := "" Left := "" Right := "" if romkanmode { Left = convs(line) Right = InsertMark+convs(right) }else{ Left = line Right = InsertMark+right } Output = Pre+Left if MODE_ViTrace { Output += iin.LastCmd } Output += showMeta+Right for len(Output) < TtyMaxCol { // to the max. position that may be dirty Output += " " // should be ANSI ESC sequence // not necessary just after newline } Output += Pre+Left+showMeta // to set the cursor to the current input position fprintf(stderr,"%s",Output) if MODE_ViTrace { if 0 < len(iin.LastCmd) { iin.LastCmd = "" fprintf(stderr,"\r\n") } } } func delHeadChar(str string)(rline string,head string){ _,clen := utf8.DecodeRune([]byte(str)) head = string(str[0:clen]) return str[clen:],head } func delTailChar(str string)(rline string, last string){ var i = 0 var clen = 0 for { _,siz := utf8.DecodeRune([]byte(str)[i:]) if siz <= 0 { break } clen = siz i += siz } last = str[len(str)-clen:] return str[0:len(str)-clen],last } // 3> for output and history // 4> for keylog? // Command Line Editor func xgetline(lno int, prevline string, gsh*GshContext)(string){ var iin IInput iin.lastlno = lno iin.lno = lno CmdIndex = len(gsh.CommandHistory) if( isatty(0) == 0 ){ if( sfgets(&iin.line,LINESIZE,stdin) == NULL ){ iin.line = “exit\n”; }else{ } return iin.line } if( true ){ //var pts string; //pts = ptsname(0); //pts = ttyname(0); //fprintf(stderr,”–pts[0] = %s\n”,pts?pts:”?”); } if( false ){ fprintf(stderr,”! “); fflush(stderr); sfgets(&iin.line,LINESIZE,stdin); return iin.line } system(“/bin/stty -echo -icanon”); xline := iin.xgetline1(prevline,gsh) system(“/bin/stty echo sane”); return xline } func (iin*IInput)Translate(cmdch int){ romkanmode = !romkanmode; if MODE_ViTrace { fprintf(stderr,”%v\r\n”,string(cmdch)); }else if( cmdch == ‘J’ ){ fprintf(stderr,”J\r\n”); iin.inJmode = true } iin.Redraw(); loadDefaultDic(cmdch); iin.Redraw(); } func (iin*IInput)Replace(cmdch int){ iin.LastCmd = fmt.Sprintf(“\\%v”,string(cmdch)) iin.Redraw(); loadDefaultDic(cmdch); dst := convs(iin.line+iin.right); iin.line = dst iin.right = “” if( cmdch == ‘I’ ){ fprintf(stderr,”I\r\n”); iin.inJmode = true } iin.Redraw(); } func (iin*IInput)xgetline1(prevline string, gsh*GshContext)(string){ var ch int; iin.Redraw(); first := true for cix := 0; ; cix++ { iin.pinJmode = iin.inJmode iin.inJmode = false ch = iin.Getc(1000*1000) if ch != EV_TIMEOUT && first { first = false mode := 0 if romkanmode { mode = 1 } now := time.Now() Events = append(Events,Event{now,EV_MODE,int64(mode),CmdIndex}) } //fprintf(stderr,”A[%02X]\n”,ch); if( ch == ‘\\’ || ch == 033 ){ MODE_ShowMode = true metach := ch iin.waitingMeta = string(ch) iin.Redraw(); // set cursor //fprintf(stderr,”???\b\b\b”) ch = fgetcTimeout(stdin,2000*1000) // reset cursor iin.waitingMeta = “” cmdch := ch if( ch == EV_TIMEOUT ){ if metach == 033 { continue } ch = metach }else /* if( ch == ‘m’ || ch == ‘M’ ){ mch := fgetcTimeout(stdin,1000*1000) if mch == ‘r’ { romkanmode = true }else{ romkanmode = false } continue }else */ if( ch == ‘k’ || ch == ‘K’ ){ MODE_Recursive = !MODE_Recursive iin.Translate(cmdch); continue }else if( ch == ‘j’ || ch == ‘J’ ){ iin.Translate(cmdch); continue }else if( ch == ‘i’ || ch == ‘I’ ){ iin.Replace(cmdch); continue }else if( ch == ‘l’ || ch == ‘L’ ){ MODE_LowerLock = !MODE_LowerLock MODE_CapsLock = false if MODE_ViTrace { fprintf(stderr,”%v\r\n”,string(cmdch)); } iin.Redraw(); continue }else if( ch == ‘u’ || ch == ‘U’ ){ MODE_CapsLock = !MODE_CapsLock MODE_LowerLock = false if MODE_ViTrace { fprintf(stderr,”%v\r\n”,string(cmdch)); } iin.Redraw(); continue }else if( ch == ‘v’ || ch == ‘V’ ){ MODE_ViTrace = !MODE_ViTrace if MODE_ViTrace { fprintf(stderr,”%v\r\n”,string(cmdch)); } iin.Redraw(); continue }else if( ch == ‘c’ || ch == ‘C’ ){ if 0 < len(iin.line) { xline,tail := delTailChar(iin.line) if len([]byte(tail)) == 1 { ch = int(tail[0]) if( 'a' <= ch && ch <= 'z' ){ ch = ch + 'A'-'a' }else if( 'A' <= ch && ch <= 'Z' ){ ch = ch + 'a'-'A' } iin.line = xline + string(ch) } } if MODE_ViTrace { fprintf(stderr,"%v\r\n",string(cmdch)); } iin.Redraw(); continue }else{ iin.pch = append(iin.pch,ch) // push ch = '\\' } } switch( ch ){ case 'P'-0x40: ch = GO_UP case 'N'-0x40: ch = GO_DOWN case 'B'-0x40: ch = GO_LEFT case 'F'-0x40: ch = GO_RIGHT } //fprintf(stderr,"B[%02X]\n",ch); switch( ch ){ case 0: continue; case '\t': iin.Replace('j'); continue case 'X'-0x40: iin.Replace('j'); continue case EV_TIMEOUT: iin.Redraw(); if iin.pinJmode { fprintf(stderr,"\\J\r\n") iin.inJmode = true } continue case GO_UP: if iin.lno == 1 { continue } cmd,ok := gsh.cmdStringInHistory(iin.lno-1) if ok { iin.line = cmd iin.right = "" iin.lno = iin.lno - 1 } iin.Redraw(); continue case GO_DOWN: cmd,ok := gsh.cmdStringInHistory(iin.lno+1) if ok { iin.line = cmd iin.right = "" iin.lno = iin.lno + 1 }else{ iin.line = "" iin.right = "" if iin.lno == iin.lastlno-1 { iin.lno = iin.lno + 1 } } iin.Redraw(); continue case GO_LEFT: if 0 < len(iin.line) { xline,tail := delTailChar(iin.line) iin.line = xline iin.right = tail + iin.right } iin.Redraw(); continue; case GO_RIGHT: if( 0 < len(iin.right) && iin.right[0] != 0 ){ xright,head := delHeadChar(iin.right) iin.right = xright iin.line += head } iin.Redraw(); continue; case EOF: goto EXIT; case 'R'-0x40: // replace dst := convs(iin.line+iin.right); iin.line = dst iin.right = "" iin.Redraw(); continue; case 'T'-0x40: // just show the result readDic(); romkanmode = !romkanmode; iin.Redraw(); continue; case 'L'-0x40: iin.Redraw(); continue case 'K'-0x40: iin.right = "" iin.Redraw(); continue case 'E'-0x40: iin.line += iin.right iin.right = "" iin.Redraw(); continue case 'A'-0x40: iin.right = iin.line + iin.right iin.line = "" iin.Redraw(); continue case 'U'-0x40: iin.line = "" iin.right = "" iin.clearline(); iin.Redraw(); continue; case DEL_RIGHT: if( 0 < len(iin.right) ){ iin.right,_ = delHeadChar(iin.right) iin.Redraw(); } continue; case 0x7F: // BS? not DEL if( 0 < len(iin.line) ){ iin.line,_ = delTailChar(iin.line) iin.Redraw(); } /* else if( 0 < len(iin.right) ){ iin.right,_ = delHeadChar(iin.right) iin.Redraw(); } */ continue; case 'H'-0x40: if( 0 < len(iin.line) ){ iin.line,_ = delTailChar(iin.line) iin.Redraw(); } continue; } if( ch == '\n' || ch == '\r' ){ iin.line += iin.right; iin.right = "" iin.Redraw(); fputc(ch,stderr); break; } if MODE_CapsLock { if 'a' <= ch && ch <= 'z' { ch = ch+'A'-'a' } } if MODE_LowerLock { if 'A' <= ch && ch <= 'Z' { ch = ch+'a'-'A' } } iin.line += string(ch); iin.Redraw(); } EXIT: return iin.line + iin.right; } func getline_main(){ line := xgetline(0,"",nil) fprintf(stderr,"%s\n",line); /* dp = strpbrk(line,"\r\n"); if( dp != NULL ){ *dp = 0; } if( 0 ){ fprintf(stderr,"\n(%d)\n",int(strlen(line))); } if( lseek(3,0,0) == 0 ){ if( romkanmode ){ var buf [8*1024]byte; convs(line,buff); strcpy(line,buff); } write(3,line,strlen(line)); ftruncate(3,lseek(3,0,SEEK_CUR)); //fprintf(stderr,"outsize=%d\n",(int)lseek(3,0,SEEK_END)); lseek(3,0,SEEK_SET); close(3); }else{ fprintf(stderr,"\r\ngotline: "); trans(line); //printf("%s\n",line); printf("\n"); } */ } //== end ========================================================= getline // // $USERHOME/.gsh/ // gsh-rc.txt, or gsh-configure.txt // gsh-history.txt // gsh-aliases.txt // should be conditional? // func (gshCtx *GshContext)gshSetupHomedir()(bool) { homedir,found := userHomeDir() if !found { fmt.Printf("--E-- You have no UserHomeDir\n") return true } gshhome := homedir + "/" + GSH_HOME _, err2 := os.Stat(gshhome) if err2 != nil { err3 := os.Mkdir(gshhome,0700) if err3 != nil { fmt.Printf("--E-- Could not Create %s (%s)\n", gshhome,err3) return true } fmt.Printf("--I-- Created %s\n",gshhome) } gshCtx.GshHomeDir = gshhome return false } func setupGshContext()(GshContext,bool){ gshPA := syscall.ProcAttr { "", // the staring directory os.Environ(), // environ[] []uintptr{os.Stdin.Fd(),os.Stdout.Fd(),os.Stderr.Fd()}, nil, // OS specific } cwd, _ := os.Getwd() gshCtx := GshContext { cwd, // StartDir "", // GetLine []GChdirHistory { {cwd,time.Now(),0} }, // ChdirHistory gshPA, []GCommandHistory{}, //something for invokation? GCommandHistory{}, // CmdCurrent false, []int{}, syscall.Rusage{}, "", // GshHomeDir Ttyid(), false, false, []PluginInfo{}, []string{}, " ", "v", ValueStack{}, GServer{"",""}, // LastServer "", // RSERV cwd, // RWD CheckSum{}, } err := gshCtx.gshSetupHomedir() return gshCtx, err } func (gsh*GshContext)gshelllh(gline string)(bool){ ghist := gsh.CmdCurrent ghist.WorkDir,_ = os.Getwd() ghist.WorkDirX = len(gsh.ChdirHistory)-1 //fmt.Printf("--D--ChdirHistory(@%d)\n",len(gsh.ChdirHistory)) ghist.StartAt = time.Now() rusagev1 := Getrusagev() gsh.CmdCurrent.FoundFile = []string{} fin := gsh.tgshelll(gline) rusagev2 := Getrusagev() ghist.Rusagev = RusageSubv(rusagev2,rusagev1) ghist.EndAt = time.Now() ghist.CmdLine = gline ghist.FoundFile = gsh.CmdCurrent.FoundFile /* record it but not show in list by default if len(gline) == 0 { continue } if gline == "hi" || gline == "history" { // don't record it continue } */ gsh.CommandHistory = append(gsh.CommandHistory, ghist) return fin } // Main loop func script(gshCtxGiven *GshContext) (_ GshContext) { gshCtxBuf,err0 := setupGshContext() if err0 { return gshCtxBuf; } gshCtx := &gshCtxBuf //fmt.Printf(“–I– GSH_HOME=%s\n”,gshCtx.GshHomeDir) //resmap() /* if false { gsh_getlinev, with_exgetline := which(“PATH”,[]string{“which”,”gsh-getline”,”-s”}) if with_exgetline { gsh_getlinev[0] = toFullpath(gsh_getlinev[0]) gshCtx.GetLine = toFullpath(gsh_getlinev[0]) }else{ fmt.Printf(“–W– No gsh-getline found. Using internal getline.\n”); } } */ ghist0 := gshCtx.CmdCurrent // something special, or gshrc script, or permanent history gshCtx.CommandHistory = append(gshCtx.CommandHistory,ghist0) prevline := “” skipping := false for hix := len(gshCtx.CommandHistory); ; { gline := gshCtx.getline(hix,skipping,prevline) if skipping { if strings.Index(gline,”fi”) == 0 { fmt.Printf(“fi\n”); skipping = false; }else{ //fmt.Printf(“%s\n”,gline); } continue } if strings.Index(gline,”if”) == 0 { //fmt.Printf(“–D– if start: %s\n”,gline); skipping = true; continue } if false { os.Stdout.Write([]byte(“gotline:”)) os.Stdout.Write([]byte(gline)) os.Stdout.Write([]byte(“\n”)) } gline = strsubst(gshCtx,gline,true) if false { fmt.Printf(“fmt.Printf %%v – %v\n”,gline) fmt.Printf(“fmt.Printf %%s – %s\n”,gline) fmt.Printf(“fmt.Printf %%x – %s\n”,gline) fmt.Printf(“fmt.Printf %%U – %s\n”,gline) fmt.Printf(“Stouut.Write -“) os.Stdout.Write([]byte(gline)) fmt.Printf(“\n”) } /* // should be cared in substitution ? if 0 < len(gline) && gline[0] == '!' { xgline, set, err := searchHistory(gshCtx,gline) if err { continue } if set { // set the line in command line editor } gline = xgline } */ fin := gshCtx.gshelllh(gline) if fin { break; } prevline = gline; hix++; } return *gshCtx } func main() { gshCtxBuf := GshContext{} gsh := &gshCtxBuf argv := os.Args if 1 < len(argv) { if isin("version",argv){ gsh.showVersion(argv) return } comx := isinX("-c",argv) if 0 < comx { gshCtxBuf,err := setupGshContext() gsh := &gshCtxBuf if !err { gsh.gshellv(argv[comx+1:]) } return } } if 1 < len(argv) && isin("-s",argv) { }else{ gsh.showVersion(append(argv,[]string{"-l","-a"}...)) } script(nil) //gshCtx := script(nil) //gshelll(gshCtx,"time") } //
//
Considerations
// – inter gsh communication, possibly running in remote hosts — to be remote shell // – merged histories of multiple parallel gsh sessions // – alias as a function or macro // – instant alias end environ export to the permanent > ~/.gsh/gsh-alias and gsh-environ // – retrieval PATH of files by its type // – gsh as an IME with completion using history and file names as dictionaies // – gsh a scheduler in precise time of within a millisecond // – all commands have its subucomand after “—” symbol // – filename expansion by “-find” command // – history of ext code and output of each commoand // – “script” output for each command by pty-tee or telnet-tee // – $BUILTIN command in PATH to show the priority // – “?” symbol in the command (not as in arguments) shows help request // – searching command with wild card like: which ssh-* // – longformat prompt after long idle time (should dismiss by BS) // – customizing by building plugin and dynamically linking it // – generating syntactic element like “if” by macro expansion (like CPP) >> alias // – “!” symbol should be used for negation, don’t wast it just for job control // – don’t put too long output to tty, record it into GSH_HOME/session-id/comand-id.log // – making canonical form of command at the start adding quatation or white spaces // – name(a,b,c) … use “(” and “)” to show both delimiter and realm // – name? or name! might be useful // – htar format – packing directory contents into a single html file using data scheme // – filepath substitution shold be done by each command, expecially in case of builtins // – @N substition for the history of working directory, and @spec for more generic ones // – @dir prefix to do the command at there, that means like (chdir @dir; command) // – GSH_PATH for plugins // – standard command output: list of data with name, size, resouce usage, modified time // – generic sort key option -nm name, -sz size, -ru rusage, -ts start-time, -tm mod-time // -wc word-count, grep match line count, … // – standard command execution result: a list of string, -tm, -ts, -ru, -sz, … // – -tailf-filename like tail -f filename, repeat close and open before read // – max. size and max. duration and timeout of (generated) data transfer // – auto. numbering, aliasing, IME completion of file name (especially rm of quieer name) // – IME “?” at the top of the command line means searching history // – IME %d/0x10000/ %x/ffff/ // – IME ESC to go the edit mode like in vi, and use :command as :s/x/y/g to edit history // – gsh in WebAssembly // – gsh as a HTTP server of online-manual //—END— (^-^)/ITS more
// var WorldDic = // “data:text/dic;base64,”+ “Ly8gTXlJTUUvMC4wLjEg6L6e5pu4ICgyMDIwLTA4MTlhKQpzZWthaSDkuJbnlYwKa28g44GT”+ “Cm5uIOOCkwpuaSDjgasKY2hpIOOBoQp0aSDjgaEKaGEg44GvCnNlIOOBmwprYSDjgYsKaSDj”+ “gYQK”; // var WnnDic = // “data:text/dic;base64,”+ “PG1ldGEgY2hhcnNldD0iVVRGLTgiPgo8dGV4dGFyZWEgY29scz04MCByb3dzPTQwPgovL2Rp”+ “Y3ZlcglHU2hlbGxcc0lNRVxzZGljdGlvbmFyeVxzZm9yXHNXbm5ccy8vXHMyMDIwLTA4MzAK”+ “R1NoZWxsCUdTaGVsbArjgo/jgZ/jgZcJ56eBCndhdGFzaGkJ56eBCndhdGFzaQnnp4EK44Gq”+ “44G+44GICeWQjeWJjQpuYW1hZQnlkI3liY0K44Gq44GL44GuCeS4remHjgpuYWthbm8J5Lit”+ “6YeOCndhCeOCjwp0YQnjgZ8Kc2kJ44GXCnNoaQnjgZcKbm8J44GuCm5hCeOBqgptYQnjgb4K”+ “ZQnjgYgKaGEJ44GvCm5hCeOBqgprYQnjgYsKbm8J44GuCmRlCeOBpwpzdQnjgZkKZVxzCWVj”+ “aG8KZGljCWRpYwplY2hvCWVjaG8KcmVwbGF5CXJlcGxheQpyZXBlYXQJcmVwZWF0CmR0CWRh”+ “dGVccysnJVklbSVkLSVIOiVNOiVTJwp0aW9uCXRpb24KJXQJJXQJLy8gdG8gYmUgYW4gYWN0″+ “aW9uCjwvdGV4dGFyZWE+Cg==” // var SumomoDic = // “data:text/dic;base64,”+ “PG1ldGEgY2hhcnNldD0iVVRGLTgiPgo8dGV4dGFyZWEgY29scz04MCByb3dzPTQwPgovL3Zl”+ “cglHU2hlbGxcc0lNRVxzZGljdGlvbmFyeVxzZm9yXHNTdW1vbW9ccy8vXHMyMDIwLTA4MzAK”+ “c3UJ44GZCm1vCeOCggpubwnjga4KdQnjgYYKY2hpCeOBoQp0aQnjgaEKdWNoaQnlhoUKdXRp”+ “CeWGhQpzdW1vbW8J44GZ44KC44KCCnN1bW9tb21vCeOBmeOCguOCguOCggptb21vCeahgwpt”+ “b21vbW8J5qGD44KCCiwsCeOAgQouLgnjgIIKPC90ZXh0YXJlYT4K” // var JA_JKLDic = // “data:text/dic;base64,”+ “Ly92ZXJsCU15SU1FamRpY2ptb3JzZWpKQWpKS0woMjAyMGowODE5KSheLV4pL1NhdG94SVRT”+ “CmtqamprbGtqa2tsa2psIOS4lueVjApqamtqamwJ44GCCmtqbAnjgYQKa2tqbAnjgYYKamtq”+ “amwJ44GICmtqa2trbAnjgYoKa2pra2wJ44GLCmpramtrbAnjgY0Ka2tramwJ44GPCmpramps”+ “CeOBkQpqampqbAnjgZMKamtqa2psCeOBlQpqamtqa2wJ44GXCmpqamtqbAnjgZkKa2pqamts”+ “CeOBmwpqamprbAnjgZ0KamtsCeOBnwpra2prbAnjgaEKa2pqa2wJ44GkCmtqa2pqbAnjgaYK”+ “a2tqa2tsCeOBqApramtsCeOBqgpqa2prbAnjgasKa2tra2wJ44GsCmpqa2psCeOBrQpra2pq”+ “bAnjga4Kamtra2wJ44GvCmpqa2tqbAnjgbIKampra2wJ44G1CmtsCeOBuApqa2tsCeOBuwpq”+ “a2tqbAnjgb4Ka2tqa2psCeOBvwpqbAnjgoAKamtra2psCeOCgQpqa2tqa2wJ44KCCmtqamwJ”+ “44KECmpra2pqbAnjgoYKampsCeOCiApra2tsCeOCiQpqamtsCeOCigpqa2pqa2wJ44KLCmpq”+ “amwJ44KMCmtqa2psCeOCjQpqa2psCeOCjwpramtramwJ44KQCmtqamtrbAnjgpEKa2pqamwJ”+ “44KSCmtqa2prbAnjgpMKa2pqa2psCeODvApra2wJ44KbCmtramprbAnjgpwKa2pramtqbAnj”+ “gIEK”; // // /*
References
*/ /*
Raw Source
Whole file
CSS part
JavaScript part
Builtin data part
*/ /* –> *///

GShell 0.2.5 − 電子署名付きHTML

開発:さて今日は、昨日やりかけて終わった、JavaScript で Go のプログラムを生成する件で行こうかと思いますが。

社長:緊急動議。HTMLとかPNGに電子署名する話が着手されてないですね。GShellでやってみると良いのでは。この機能は、あればすぐに使いたいものです。gsh.go.html を公開する上でも。

開発:確かに電子署名は創立以来の本丸でした。

基盤:緊急動議。GShellでレンタルサーバにHTTPの口からログインしたいです。SSHがかかったるいし。やりたいのはGShellで既に出来ている遠隔exec、実際単なるtail -f だからです。

開発:リクエストと応答をHTTPにくるむ必要がありますが、そもそも現状、コマンドごとにコネクションを張る実装になってますし、GShellサーバをCGIとしても動かせばよいかなと思います。

社長:一回、我社のバックログを洗い出すというか、着手していることも含めて、整理する必要がありそうです。ちょっとたばこと飲み物を仕入れてきます。

* * *

社長:ひーはー… 帰りました。

基盤:遅かったですね。

社長:車で出て、大好評のとうもろこしとスイカを仕入れて来ました。

開発:カット版ですね。

社長:それが、小玉スイカの12分割みたいのが590円とかして、あんぐりしまして。しゃぐ。

開発:何がおきてるんでしょうね。しゃぐ。甘さイマイチ。

基盤:やはりスイカはでっかく切ってかぶりつかないとですね。しゃぐ。

社長:それに引き換えこのとうもろこし、結構太くて一本128円です。4本で512円。

基盤:ずいぶんキリの良い値段ですね。

開発:さっそくチンしましょう。90度で5分30秒くらいかな… レンジでGo!

レンジ:ゴーー…

社長:そういえば、タバコに着火するのに使い捨てライターはもったいないと思うようになりました。携帯するわけではないし、台所のガス台の前で吸ってるわけですから。

基盤:ベランダで吸えばいいんじゃないですかね。気分もいいでしょうし。うるさい換気扇を回す必要もないですから。

開発:うーん、とうもろこしの甘い香りがして来ました。

レンジ:ぱぴぺ、ぱぴぺ、ぴぴぽぽぱー

開発:出来ました。どれどれ… あちっ、あちち。これしばらく触れないんですよね… やれ剥けました。

基盤:みっしり詰まってますね。どれどれ。はぐ。もぐもぐ。うん美味しい。

社長:もぐもぐ。前のよりスイート感が低い感じですが味が濃い気がしますね。色も濃い目。もぐもぐ。

開発:加熱時間も関係するかもですね。もぐもぐ。あー美味しかった。

基盤:これで128円はおトクですよね。

社長:100円ちょっとで売ってる低価格のカップ麺の凄さというのも改めて感じます。

* * *

開発:ふあぁ。。よく寝ました。

基盤:今日はまだ、とうもろこしを食べただけですね。

社長:手を動かすのだけが仕事ではありません。わたしは寝てる間に面白い事を思いつきました。

基盤:夢のお告げというやつですね。

開発:どのような。

社長:イベントレコーダーです。発生したイベントを時系列で記憶しておく。再生もできる。まあとりあえずキーロガーで良いです。たとえばGShell IMEでの入力操作を再生できたら見た目に面白いんじゃないかと思います。

開発:script コマンドは欲しいと思ってましたが、それの特殊系のようなものですね。

基盤:キー入力レベルのヒストリというか。

社長:そうそれで、記録したものを外部表現できて伝達できて別の場所で再生できると良いと思うんです。できるだけコンパクトな表現で。

開発:文字列の中に ¥b みたいな機能コードを表現できますが、あれに「指定時間遅延をする」という抽象的なコードを入れると良さそうですね。

社長:それか、ANSIIのエスケープシーケンスの拡張ですかね。

開発:コンパクトということにこだわらなければ、イベントを生成するコマンド列であっても良いですよね。タイミング情報付きのスクリプトというか。

基盤:タイミングは usleep コマンドで作ればいいんじゃないですかね。

社長:それもありですね。いろんな表現形式があって良い。

開発:実例をやってみせて学習させる式のプログラミングみたいのがありましたよね。なんちゃら by example とか by demonstration とか。

社長:GShell にもそういう感じの機能があると面白いですね。

開発:GShell+unfs3 で Automatorみたいなのは作りたいですね。

* * *

基盤:ああ、洗濯が終わってますね。おー、糸くずフィルターがーっ!て警告が。

開発:糸くずはまだしも、乾燥フィルターのほうがすごくないですか。座布団みたいに積もってる。

経理:このぶん、衣類が痩せてしまったかと思うと悲しい気分ですね。

基盤:掃除掃除。パカっと開いて捨てるだけ。よく出来てますねー。これって、前の機種だと結構面倒だったんです。

社長:内部にどっさりたまってしまって、針金で掻き出したり掃除機で吸い出したのを思い出しますね。

開発:しかしこれだけフィルターに堆積していても、乾燥が機能してたというのは大したものですね。

基盤:以前は毎回に近く乾燥フィルタはクリアしてたんですけどね。なんで忘れてたのかな…

経理:効率が下がって余計に電気を消費してたのでは無いでしょうか。

基盤:しかし衣類が痩せるとか電気を食うとか「洗濯物を干す」という作業のコストを考えればネグリジブルだと思いますね。季節によっては生乾きの匂いに嫌な思いをしていた時代が信じられません。

社長:そもそも「洗濯をする」こと自体が手作業で、大変な労力をかけてた時代もあったわけです。人類史的にはずっと。つい数十年前まで。

基盤:家電的にはテレビはもう見ないし、冷蔵庫もコンビニのおかげで無しでも過ごせるようになりましたが、洗濯機だけは無くてはならないですね。

社長:学生時代は共用の洗濯機かコインランドリーでしたけどね。これが非常に壊れやすくて稼働率が低かった。一人の専有時間も長くて空きを待つのが大変。全自動洗濯機はまさに夢の家電でした。夢がかなった今も。

開発:槽内に糸くずが舞ってますね。

基盤:そういえばメンテナンスコマンドを2ヶ月ばかりやってませんでした。では自動クリーニングのフルコースで。うーん、洗濯機って面白いな−。

* * *

経理:7月ぶんの年貢を納めようと思って、PayB でピッとしようとスマホのカメラを向けたら、バーコードが無い事に気が付きました。

基盤:国税はPay-easyですね。

開発:なんでバーコードを付けないですかねー。

社長:出力フォームの変更に大幅なシステムの作り直しが必要だとか。ハイリスクなのにお役所にはノーリターン。

経理:それで、銀行のペイジーの画面で納付番号を入力したのですが、2回間違えてしまいました。12桁の数字なので、4桁ごとに区切りらないとわかりにくいです。

開発:ああ、あの「区切りのハイフンはいりません」ていうやつ。親切心なんですかねw

基盤:別にあなたのためではなく自分のために入れたいだけなんですがって。

開発:システムを設計した人がたまたまブレインダメージドだったんですかね。誰しもそういう日はあります。

基盤:逆に任意の場所に空白とかハイフンを入れても認識してくれるのもありますよね。

経理:英数字の全角だ半角だってのも困ります。

開発:いずれそもそも人間が入力しなくても良くなるでしょうけど。とりあえずバーコード、いずれ電子証明書があれば済むことです。

社長:しょぼい機械に人間が合わせなければならなかった時代。それを引きずった非道なUIで人が苦しめられていた時代。そんな時代もあったねと、笑い話に時が変えるよ、もうすぐね、みたいな。

基盤:そういえば社内でのログインにフェリカを使おうって買ったきりになってますね。

開発:あれは、リーダライタのドライバがmacOSに対応してないことがわかったので、計画が頓挫しました。

基盤:Parallelsが全く問題ないことがわかりましたから、いずれWindowsで読ませてMacに伝達すれば良いと思います。

社長:パスワード入力を求められたらフェリカに聞きに行くようなインフラができると良いですかね。

基盤:そしたらもうパスワードは全部、最大長のランダムな文字列にしてやりたいです。

開発:パスワードのリポジトリという意味では、別にフェリカでなくても良いようには思っています。物理的な接続・切断が簡単にできるメディアであれば。

基盤:USBメモリの抜き差しは結構面倒ですね。

開発:そこはスイッチ付きのUSBハブで。

社長:ラズパイをパスワードサーバにして、Etherを落とすというのもありかと。ああ、無線だと簡単じゃないかな。

開発:サーバのバイナリの中に暗号化して焼き込むのも良いかもですね。GShellをサーバにして。

基盤:ssh-agent 的な感じですかね。

開発:起動するのにパスワードを要求される自分専用のshellというか、実行ファイルってあって良いと思うんです。自分専用のbinに置く。OSでのユーザ認証とかに頼らない。

社長:ああそれは DeleGate でもやってました。GShellの場合、ブラウザからJavaScript でgsh.goを生成する時に埋め込めると便利だと思います。でバイナリをbuildしてソースは消す。

開発:ほとんどの場合パスワードはブラウザからの入力ですから、やはりクライアント側としてはブラウザに手を突っ込むのが一番手っ取り早いかなとは思います。

基盤:Acrobatという難関がありますけどね。

* * *

社長:ということで今日は、計画を変更してイベントレコーダをやりたいです。

開発: 起動するのにパスワードが必要なGShellっていうのも面白いとは思いますが。

社長:まあそれは後日。

基盤:クリーニング中で洗濯機の槽内が泡だらけになってるのが面白いですが、槽内の照明のLEDが8秒くらいで切れてしまうのが本当にムカつきます。せめてスイッチを押してる間は点灯してるとかすれば良いのに…

開発:それにしてもこれ、イベントをつかまえるというなら、tty の read じゃなくてキーのイベントを捕まえたいですね。そうすればもっと分解した単位で捕まえられると思うのですが。stty -echo -icanon なんて外部コマンドでやっているのも内心忸怩たる思いもあり。

社長:イベントを飛ばしてくれるTerminalアプリを作ると良いかもですね。

基盤:Windows版のGoでは使えなそうな。Cygwinでイケるんでしたっけ?

社長:まあそれも後日。とりあえずこっちを先に進めましょう。

開発:えーと、キー入力の時刻とキーをイベントの可変長配列に追加していくと。こういうとこがGoはCより簡単で便利なんですよね。安全だし。性能的にはどうか知りませんが。で、イベントをダンプする。time.Time からナノ秒を取り出すには… … ああ、まんまNanosecond() ってのがありますね。

開発:ということで、とりあえずこんな感じに。

基盤:おー、キーロガーだ。

社長:再生は!コマンドと同じようにやると良いかもですね。!1-2 とかすると、!1から!2までの実行のタイミングどおりにキー入力を再生する。

開発:!コマンドはコマンドライン入力された後の文字列を直接再現実行しちゃいますが、キーの入力のタイミングまで再現するコマンドを作れば良いのでしょうね。うーん、つまりキー入力のイベント列を入力のキューに入れて、そこにあればttyじゃなくてそこから読む、みたいな実装が簡単かな。replay 1-2 みたいなコマンドで。

社長:何もなく時間が経過した、っていうのも一種のイベントとして入れとくと、実装が簡単そうですね。

開発:レベルかエッジかってとこですかね… じゃま、WAITという仮想的なキーが押されていたとします。

基盤:WAITというかIDLEじゃないですかね。

開発:じゃIDLEで。IDOLにしようかな。バイバイバイわたしのアイドル〜♪

社長:この、イベントにヒストリの番号とか、高次のコンテクストをセットにして記憶するのは何かに使えそうな気がします。

開発:それはコマンドヒストリ自体もそうだと思うんです。そのコマンドをどのワーキングディレクトリで実行したかとか。

基盤:以前と同じディレクトリで同じコマンドを実行したいって普通にありますよね。

* * *

社長:うー、無性にチューリップが聴きたくなりました。

基盤:iPhoneのiTunesに全部入ってますよね。

社長:めんどくさい。昔は手持ちのCDを全部 iMacのiTunesに読ませて、簡単にプレイリストくりくりで聞けて便利だったんですが。

開発:そいうえば何年か前にYouTubeでチューリップにハマってましたよね。残ってるのでは。

社長:久しぶりGoogleにログイン…高く評価した動画・・・ありました。だいぶ消されちゃってますね。河口湖のライブのパックがすごく良かったんですが…

開発:しかしひどい画質ですね。Retinaが泣いている。

基盤:でもiMacスピーカーは大活躍。ちゃんとどっしりしっとりした音がでますね。アンプの関係も?

社長:フィリップス君のスピーカーは悲惨でした。

開発:まあオーディオは当時より今のほうが退化してるかもですね。

社長:YouTubeで色々探すと、姫野さんの風貌の変遷が面白いんですw

開発:あー、山本潤子幸せになるためが続いてでましたね。しみ入るナ〜…

基盤:プリキュア夢は未来への道来ましたw

社長:くじけない決して逃げない〜♪ か…そう言えばつらい時代もあったよね。

開発:これは前に聴いてたのと詰合せが全然違いますね。

社長:まあどうせフローラくらいしか覚えてないですけど。でもこの作詞者天才かなと思います。

基盤:これBGMとしてプレイリストローテーションしときませんか。なんか元気出ますし。

社長:いろんなのを高く評価しちゃってますからねー。プレイリストって複数作れるんですかね?

開発:自前で作ればいいんじゃないですかね。URLを開くコマンドを外からブラウザに送れれば良いと思いますが… あるいはJavScript にリストをわたしてwindowを順次開かせるとか。プレイの終了をどうやって検出するか… まあ window のURLが変わったのを見ればいいんですかね。

基盤:別のアカウントでやれば簡単なのでは。Tube-Uでやりましょうか。

社長:いや、sato@its でいいです。これは正式な福利厚生の一環です。

基盤:前に聴いてたプリキュアの詰め合わせってこれですよね。

社長:ああそれです。

基盤:ではとりあえず、チューリップと山本潤子と北川理恵ローテーション、セットしました。

開発:竹田の子守唄もしみるナー…

基盤:続けて聴いてるとあっという間に空気になっちゃうでしょうけどね…

開発:久石さんのStand Alone と幸せになるためはクルマで6年間に1000回以上聴いたと思いますが、飽きませんでしたね。

社長:iTunesで無くて良いので、手持ちのCDを読み込んでプレイリスト作って再生できると良いのですが。

基盤:また300枚読み込むんですか…

社長:青春の想い出ですからね。あれだけは引っ越しの時に捨てなくてよかったと思います。

開発:あとこれ、広告の自動スキップextension作りたいですね。

社長:画面をパターンマッチしてマウスクリックイベント出すだけですよね。ブラウザ内蔵でなくても良いのでは。汎用の「広告スキップロボット」で。

基盤:ここにもReCAPTCHA技術が採用されてるかもですがw

* * *

開発:では仕事を再開します。

社長:間に挟まってるカブトムシ♪がなかなか良いですね。

開発:BGMのある生活って、久しぶりですね。それで、IDLE時間を表示するようにしたら面白い事が分かりました。こんな感じです。

開発:ざっと見て、連続して入力している時のキーとキーの間隔は100ms程度です。つまり、わたしのキー入力は最速で1秒に10文字程度。ただし、ホームポジションから離れたキーを押す前とかは空走時間が長い。

社長:どのくらい再現性があるか調べると面白そうですね。昔、キー入力の癖で個人を特定する研究をしてる人がいましたが、こういうのが基礎データなんでしょうね。

開発:で、このタイミング情報を何か、IMEにおける変換の推測とか、ユーザの意図の推測とかに使えると面白いなと思います。

社長:ユーザが意図的に、打鍵のリズムで別の単語を選ぶとか言うのもいいかもですね。

基盤:少し長押ししたら長音記号が出るとか便利だと思います。

開発:あと、エスケープシーケンスの生成速度とか。上向き矢印は ESC [ A なのですが、一瞬で生成されてると思いますから文字間の時間間隔はナノ秒単位ではないかと。表示されている数マイクロ秒は、GShellによるキーの処理時間と思われます。

社長:これはコンピュータの負荷状況をざっくり知るのに使えるかも知れないですね。

基盤:定期的に行っている処理があれば、その時間のズレとか。

開発:いや、それはあるんですよ。1秒毎にselectで入力をタイムアウトして、行を再表示してるんでw。うざいから表示を削りましたが、表示するとこんな感じ。

開発:これは以前「そうだ、スケジューラを作ろう」の時にも測ったと思いますが、今回は暇人のiMacなので、スケジュールの時間のズレというか、selectがタイムアウトしてくる時間の遅延は少ないです。長くとも15ms程度。

基盤:さっきからYouTube流しているので、あれは結構スケジューリングを乱してるんじゃないでしょうか?止めてみましょうか。

社長:良くなったのかもしれませんが、4msズレたら組み込み系のリアルタイム用途では使えないですね。40usでも厳しい。4usでもダメな場合もある。

開発:まあ macOS は組み込み用じゃないですからねw

基盤:そういえば Parallels も動いてますしね…

開発:ということで、イベントのログを取るのはとりあえずこんなところかと。

社長:あとはいよいよ、再生ですね。ワクワク。

開発:私は少し飽きてきてしまったんですが、プリキュアが流れるとなんだかシャキっとしますw

* * *

開発:さて実装の形として、伝統的な形式でコマンド行入力が下請けになってるために、つくりがちょっといびつになります。入力を差し戻すという。GUIのようにイベント・ドリブンで出来てれば、もっと素直にできるんですが。

社長:Goルーチンでキーボード入力のフリをするタスクを作ればいいんじゃないですかね。タイミング調整しながらキー入力をpipeに送る。IMEは、tty とpipeをselectする。

開発:それは美しいかも知れない…

基盤:自動入力に手動入力を介入させるのは面白そうです。

開発:確定しました。それで行きます。そもそもキー入力だけでなく、ファイルやソケットの入力に全部これを仕掛けます。すると、割り込み処理無しで、ポーリングだけで、単一タスクでイベント処理ができる。排他制御とかしなくて済むし、一つのコンテクストで実行できるのも良いと思います。コンテクストを分けたければその時は分ければ良い。即時処理が必要な処理なら、ここを通らずに普通にGoルーチンを分ければ良い。

* * *

開発:前進しました。

社長:完成ですか。

開発:一歩手前、寸止め状態みたいな。いや、Go の syscall が Poll を提供してなかったり、socketpair の仕様がドキュメントと違ったりでちょっと嫌な思いをしました。それはともかく、こういうことになりました。

開発:ungets で date という文字列をキー入力として送っています。

基盤:ungetsじゃないのにw

開発:それで、#14 – #22 までの date の入力は手入力ですから、キーの間が100ms程度空いている。ところが、#24 – #32 でキー入力だと思って受け取ったキーは、数マイクロ間隔で届くというわけです。

基盤:驚速!

社長:驚速がGoogle IMEのデフォルトに無いのは悲しいですね。自分の辞書に追加っと。

開発:あれはあの時期、画期的なネーミングとインパクトのあるCMでしたよね。

社長:もう商品としては無いんですかね?

基盤:検索したら、ちゃんと販売してます。

開発:でも私らが言ってる驚速というのは、キーボード入力が速くなる、たしか練習ソフトだったような気がするんですよね。

* * *

開発:どうもブログでヨタ話を書いてる時間が長くて、作業が進みませんねw

基盤:プリキュア再生してで気分を再生しましょうw

開発:ふう、出来ました。これでいいんじゃないですかね。遅延入りで再生です。

基盤:機械で再生すると、人間のもっさり感を感じますねw

社長:いよいよ GShell IMEで行きますか。

開発:あれ、BGM止まった。盛り下げてくれますね。

基盤:やはりYouTubeプレイリスト再生を自作するのが良いかも知れませんね。

開発:それでは再びプリキュアをBGMに。行きます。

社長:その前にいっぷく…

* * *

開発:では行きます…

基盤:できた!

社長:できましたね。あれ?でもWordPressに動画がアップロードができないです…

基盤:セッションが切れてるような切れてないような…

社長:一度入り直しますか… これでどうかな?

基盤:なんかダメですね。昔の QuickTime は普通にアップロードできるようですが…

社長:サイズが小さすぎるとか?

開発:ああ、Safari では再生できますよ。Vivaldi が死んでるとか。

基盤:Vivaldi 以外のブラウザなら再生できますね。ていうか、iMacのVivaldiならOK。

社長:そうですか、立ち上げ直せば大丈夫なのかな。Vivaldi だけ動画の再生の色が変なことがあるんですが、あれも酷使し過ぎですかね。

社長:それはともかく、昼間見た「夢」が実現しました。

開発:夢は未来への道ですね。明るい未来が見えた気がしたw

基盤:そろそろMacMiniをやめろというお告げかもですね。もう購入して4ヶ月、十分使いました。RAMを増やしてあげればよいのかもしれませんが、保証外になっちゃいますし。

開発:Appleに保証サービスで直してもらった事は無いですけどね。ああ、iPhoneは交換しましたけど。

社長:それはそうと、このIMEの「世界」専用辞書は、専用だけあって「世界」を出すには最高ですね。今まで生きてきて一番、使いやすいです。

社長:それでこの例で気づいたのですが、replay する時にIMEの変換モードが再現されていないので、表示が実際のリプレイにならないということです。なので、上の例では replay の前に手動で再現しています。

開発:さすがにそこは自動で再現するようにします。

社長:ただ、どこまで環境を回復するかは難しいところですね。あらゆる時点の環境を保存できるわけでは無いし、そもそも回復できない外部環境もありますから。

開発:まあ、1コマンドごとにGShellのコンテクストをダンプしちゃうとか、可能だとは思いますが。再実行した結果を現在の環境に取り込もうとか、そもそも現在の環境で過去の操作を再実行しようという場合もあるでしょうし。

社長:GShellの環境まるごとダンプは良いのではないですかね。ホストがイキナリ落ちた場合にも、直近の状態から再開できそう。

開発:プロセスレベルのハイバネーションも出来ますね。

基盤:目覚めたときには浦島太郎だったとかw

開発:複雑な情報を含んだヒストリファイルとか作るの面倒だから、ずっと内部表現で維持しようかなw

社長:今日は面白い機能ができました。ちょっとした機能ですが、当社の one giant leap だったのかも知れません。

開発:あと思ったんですが、マウスの動作もこれ式でいくつかキャプチャしといて、自動でreCAPTCHAボタン押させてやれば、「私はロボットではありません」て破れるんじゃないですかね。

— 2020-0829 SatoxITS

/* GShell-0.2.4 by SatoxITS
GShell version 0.2.5 // 2020-08-29 // SatoxITS

GShell // a General purpose Shell built on the top of Golang

It is a shell for myself, by myself, of myself. –SatoxITS(^-^)

0 | | Fork | Stop | Unfold | */ /*
Statement

Fun to create a shell

For a programmer, it must be far easy and fun to create his own simple shell rightly fitting to his favor and necessities, than learning existing shells with complex full features that he never use. I, as one of programmers, am writing this tiny shell for my own real needs, totally from scratch, with fun.

For a programmer, it is fun to learn new computer languages. For long years before writing this software, I had been specialized to C and early HTML2 :-). Now writing this software, I’m learning Go language, HTML5, JavaScript and CSS on demand as a novice of these, with fun.

This single file “gsh.go”, that is executable by Go, contains all of the code written in Go. Also it can be displayed as “gsh.go.html” by browsers. It is a standalone HTML file that works as the viewer of the code of itself, and as the “home page” of this software.

Because this HTML file is a Go program, you may run it as a real shell program on your computer. But you must be aware that this program is written under situation like above. Needless to say, there is no warranty for this program in any means.

Aug 2020, SatoxITS (sato@its-more.jp)
*/ /*
Index
Documents Command summary Go lang part Package structures import struct Main functions str-expansion // macro processor finder // builtin find + du grep // builtin grep + wc + cksum + … plugin // plugin commands system // external commands builtin // builtin commands network // socket handler remote-sh // remote shell redirect // StdIn/Out redireciton history // command history rusage // resouce usage encode // encode / decode IME // command line IME getline // line editor scanf // string decomposer interpreter // command interpreter main JavaScript part Source Builtin data CSS part Source References Internal External Whole parts Source Download Dump
*/ //
//Go Source
// gsh – Go lang based Shell // (c) 2020 ITS more Co., Ltd. // 2020-0807 created by SatoxITS (sato@its-more.jp) package main // gsh main // Imported packages // Packages import ( “fmt” // fmt “strings” // strings “strconv” // strconv “sort” // sort “time” // time “bufio” // bufio “io/ioutil” // ioutil “os” // os “syscall” // syscall “plugin” // plugin “net” // net “net/http” // http //”html” // html “path/filepath” // filepath “go/types” // types “go/token” // token “encoding/base64” // base64 “unicode/utf8” // utf8 //”gshdata” // gshell’s logo and source code “hash/crc32” // crc32 ) const ( NAME = “gsh” VERSION = “0.2.5” DATE = “2020-08-29” AUTHOR = “SatoxITS(^-^)/” ) var ( GSH_HOME = “.gsh” // under home directory GSH_PORT = 9999 MaxStreamSize = int64(128*1024*1024*1024) // 128GiB is too large? PROMPT = “> ” LINESIZE = (8*1024) PATHSEP = “:” // should be “;” in Windows DIRSEP = “/” // canbe \ in Windows ) // -xX logging control // –A– all // –I– info. // –D– debug // –T– time and resource usage // –W– warning // –E– error // –F– fatal error // –Xn- network // Structures type GCommandHistory struct { StartAt time.Time // command line execution started at EndAt time.Time // command line execution ended at ResCode int // exit code of (external command) CmdError error // error string OutData *os.File // output of the command FoundFile []string // output – result of ufind Rusagev [2]syscall.Rusage // Resource consumption, CPU time or so CmdId int // maybe with identified with arguments or impact // redireciton commands should not be the CmdId WorkDir string // working directory at start WorkDirX int // index in ChdirHistory CmdLine string // command line } type GChdirHistory struct { Dir string MovedAt time.Time CmdIndex int } type CmdMode struct { BackGround bool } type Event struct { when time.Time event int evarg int64 CmdIndex int } var CmdIndex int var Events []Event type PluginInfo struct { Spec *plugin.Plugin Addr plugin.Symbol Name string // maybe relative Path string // this is in Plugin but hidden } type GServer struct { host string port string } // Digest const ( // SumType SUM_ITEMS = 0x000001 // items count SUM_SIZE = 0x000002 // data length (simplly added) SUM_SIZEHASH = 0x000004 // data length (hashed sequence) SUM_DATEHASH = 0x000008 // date of data (hashed sequence) // also envelope attributes like time stamp can be a part of digest // hashed value of sizes or mod-date of files will be useful to detect changes SUM_WORDS = 0x000010 // word count is a kind of digest SUM_LINES = 0x000020 // line count is a kind of digest SUM_SUM64 = 0x000040 // simple add of bytes, useful for human too SUM_SUM32_BITS = 0x000100 // the number of true bits SUM_SUM32_2BYTE = 0x000200 // 16bits words SUM_SUM32_4BYTE = 0x000400 // 32bits words SUM_SUM32_8BYTE = 0x000800 // 64bits words SUM_SUM16_BSD = 0x001000 // UNIXsum -sum -bsd SUM_SUM16_SYSV = 0x002000 // UNIXsum -sum -sysv SUM_UNIXFILE = 0x004000 SUM_CRCIEEE = 0x008000 ) type CheckSum struct { Files int64 // the number of files (or data) Size int64 // content size Words int64 // word count Lines int64 // line count SumType int Sum64 uint64 Crc32Table crc32.Table Crc32Val uint32 Sum16 int Ctime time.Time Atime time.Time Mtime time.Time Start time.Time Done time.Time RusgAtStart [2]syscall.Rusage RusgAtEnd [2]syscall.Rusage } type ValueStack [][]string type GshContext struct { StartDir string // the current directory at the start GetLine string // gsh-getline command as a input line editor ChdirHistory []GChdirHistory // the 1st entry is wd at the start gshPA syscall.ProcAttr CommandHistory []GCommandHistory CmdCurrent GCommandHistory BackGround bool BackGroundJobs []int LastRusage syscall.Rusage GshHomeDir string TerminalId int CmdTrace bool // should be [map] CmdTime bool // should be [map] PluginFuncs []PluginInfo iValues []string iDelimiter string // field sepearater of print out iFormat string // default print format (of integer) iValStack ValueStack LastServer GServer RSERV string // [gsh://]host[:port] RWD string // remote (target, there) working directory lastCheckSum CheckSum } func nsleep(ns time.Duration){ time.Sleep(ns) } func usleep(ns time.Duration){ nsleep(ns*1000) } func msleep(ns time.Duration){ nsleep(ns*1000000) } func sleep(ns time.Duration){ nsleep(ns*1000000000) } func strBegins(str, pat string)(bool){ if len(pat) <= len(str){ yes := str[0:len(pat)] == pat //fmt.Printf("--D-- strBegins(%v,%v)=%v\n",str,pat,yes) return yes } //fmt.Printf("--D-- strBegins(%v,%v)=%v\n",str,pat,false) return false } func isin(what string, list []string) bool { for _, v := range list { if v == what { return true } } return false } func isinX(what string,list[]string)(int){ for i,v := range list { if v == what { return i } } return -1 } func env(opts []string) { env := os.Environ() if isin("-s", opts){ sort.Slice(env, func(i,j int) bool { return env[i] < env[j] }) } for _, v := range env { fmt.Printf("%v\n",v) } } // - rewriting should be context dependent // - should postpone until the real point of evaluation // - should rewrite only known notation of symobl func scanInt(str string)(val int,leng int){ leng = -1 for i,ch := range str { if '0' <= ch && ch <= '9' { leng = i+1 }else{ break } } if 0 < leng { ival,_ := strconv.Atoi(str[0:leng]) return ival,leng }else{ return 0,0 } } func substHistory(gshCtx *GshContext,str string,i int,rstr string)(leng int,rst string){ if len(str[i+1:]) == 0 { return 0,rstr } hi := 0 histlen := len(gshCtx.CommandHistory) if str[i+1] == '!' { hi = histlen - 1 leng = 1 }else{ hi,leng = scanInt(str[i+1:]) if leng == 0 { return 0,rstr } if hi < 0 { hi = histlen + hi } } if 0 <= hi && hi < histlen { var ext byte if 1 < len(str[i+leng:]) { ext = str[i+leng:][1] } //fmt.Printf("--D-- %v(%c)\n",str[i+leng:],str[i+leng]) if ext == 'f' { leng += 1 xlist := []string{} list := gshCtx.CommandHistory[hi].FoundFile for _,v := range list { //list[i] = escapeWhiteSP(v) xlist = append(xlist,escapeWhiteSP(v)) } //rstr += strings.Join(list," ") rstr += strings.Join(xlist," ") }else if ext == '@' || ext == 'd' { // !N@ .. workdir at the start of the command leng += 1 rstr += gshCtx.CommandHistory[hi].WorkDir }else{ rstr += gshCtx.CommandHistory[hi].CmdLine } }else{ leng = 0 } return leng,rstr } func escapeWhiteSP(str string)(string){ if len(str) == 0 { return "\\z" // empty, to be ignored } rstr := "" for _,ch := range str { switch ch { case '\\': rstr += "\\\\" case ' ': rstr += "\\s" case '\t': rstr += "\\t" case '\r': rstr += "\\r" case '\n': rstr += "\\n" default: rstr += string(ch) } } return rstr } func unescapeWhiteSP(str string)(string){ // strip original escapes rstr := "" for i := 0; i < len(str); i++ { ch := str[i] if ch == '\\' { if i+1 < len(str) { switch str[i+1] { case 'z': continue; } } } rstr += string(ch) } return rstr } func unescapeWhiteSPV(strv []string)([]string){ // strip original escapes ustrv := []string{} for _,v := range strv { ustrv = append(ustrv,unescapeWhiteSP(v)) } return ustrv } // str-expansion // – this should be a macro processor func strsubst(gshCtx *GshContext,str string,histonly bool) string { rbuff := []byte{} if false { //@@U Unicode should be cared as a character return str } //rstr := “” inEsc := 0 // escape characer mode for i := 0; i < len(str); i++ { //fmt.Printf("--D--Subst %v:%v\n",i,str[i:]) ch := str[i] if inEsc == 0 { if ch == '!' { //leng,xrstr := substHistory(gshCtx,str,i,rstr) leng,rs := substHistory(gshCtx,str,i,"") if 0 < leng { //_,rs := substHistory(gshCtx,str,i,"") rbuff = append(rbuff,[]byte(rs)...) i += leng //rstr = xrstr continue } } switch ch { case '\\': inEsc = '\\'; continue //case '%': inEsc = '%'; continue case '$': } } switch inEsc { case '\\': switch ch { case '\\': ch = '\\' case 's': ch = ' ' case 't': ch = '\t' case 'r': ch = '\r' case 'n': ch = '\n' case 'z': inEsc = 0; continue // empty, to be ignored } inEsc = 0 case '%': switch { case ch == '%': ch = '%' case ch == 'T': //rstr = rstr + time.Now().Format(time.Stamp) rs := time.Now().Format(time.Stamp) rbuff = append(rbuff,[]byte(rs)...) inEsc = 0 continue; default: // postpone the interpretation //rstr = rstr + "%" + string(ch) rbuff = append(rbuff,ch) inEsc = 0 continue; } inEsc = 0 } //rstr = rstr + string(ch) rbuff = append(rbuff,ch) } //fmt.Printf("--D--subst(%s)(%s)\n",str,string(rbuff)) return string(rbuff) //return rstr } func showFileInfo(path string, opts []string) { if isin("-l",opts) || isin("-ls",opts) { fi, err := os.Stat(path) if err != nil { fmt.Printf("---------- ((%v))",err) }else{ mod := fi.ModTime() date := mod.Format(time.Stamp) fmt.Printf("%v %8v %s ",fi.Mode(),fi.Size(),date) } } fmt.Printf("%s",path) if isin("-sp",opts) { fmt.Printf(" ") }else if ! isin("-n",opts) { fmt.Printf("\n") } } func userHomeDir()(string,bool){ /* homedir,_ = os.UserHomeDir() // not implemented in older Golang */ homedir,found := os.LookupEnv("HOME") //fmt.Printf("--I-- HOME=%v(%v)\n",homedir,found) if !found { return "/tmp",found } return homedir,found } func toFullpath(path string) (fullpath string) { if path[0] == '/' { return path } pathv := strings.Split(path,DIRSEP) switch { case pathv[0] == ".": pathv[0], _ = os.Getwd() case pathv[0] == "..": // all ones should be interpreted cwd, _ := os.Getwd() ppathv := strings.Split(cwd,DIRSEP) pathv[0] = strings.Join(ppathv,DIRSEP) case pathv[0] == "~": pathv[0],_ = userHomeDir() default: cwd, _ := os.Getwd() pathv[0] = cwd + DIRSEP + pathv[0] } return strings.Join(pathv,DIRSEP) } func IsRegFile(path string)(bool){ fi, err := os.Stat(path) if err == nil { fm := fi.Mode() return fm.IsRegular(); } return false } // Encode / Decode // Encoder func (gshCtx *GshContext)Enc(argv[]string){ file := os.Stdin buff := make([]byte,LINESIZE) li := 0 encoder := base64.NewEncoder(base64.StdEncoding,os.Stdout) for li = 0; ; li++ { count, err := file.Read(buff) if count <= 0 { break } if err != nil { break } encoder.Write(buff[0:count]) } encoder.Close() } func (gshCtx *GshContext)Dec(argv[]string){ decoder := base64.NewDecoder(base64.StdEncoding,os.Stdin) li := 0 buff := make([]byte,LINESIZE) for li = 0; ; li++ { count, err := decoder.Read(buff) if count <= 0 { break } if err != nil { break } os.Stdout.Write(buff[0:count]) } } // lnsp [N] [-crlf][-C \\] func (gshCtx *GshContext)SplitLine(argv[]string){ reader := bufio.NewReaderSize(os.Stdin,64*1024) ni := 0 toi := 0 for ni = 0; ; ni++ { line, err := reader.ReadString('\n') if len(line) <= 0 { if err != nil { fmt.Fprintf(os.Stderr,"--I-- lnsp %d to %d (%v)\n",ni,toi,err) break } } off := 0 ilen := len(line) remlen := len(line) for oi := 0; 0 < remlen; oi++ { olen := remlen addnl := false if 72 < olen { olen = 72 addnl = true } fmt.Fprintf(os.Stderr,"--D-- write %d [%d.%d] %d %d/%d/%d\n", toi,ni,oi,off,olen,remlen,ilen) toi += 1 os.Stdout.Write([]byte(line[0:olen])) if addnl { //os.Stdout.Write([]byte("\r\n")) os.Stdout.Write([]byte("\\")) os.Stdout.Write([]byte("\n")) } line = line[olen:] off += olen remlen -= olen } } fmt.Fprintf(os.Stderr,"--I-- lnsp %d to %d\n",ni,toi) } // CRC32 crc32 // 1 0000 0100 1100 0001 0001 1101 1011 0111 var CRC32UNIX uint32 = uint32(0x04C11DB7) // Unix cksum var CRC32IEEE uint32 = uint32(0xEDB88320) func byteCRC32add(crc uint32,str[]byte,len uint64)(uint32){ var i uint64 for i = 0; i < len; i++ { var oct = str[i] for bi := 0; bi < 8; bi++ { ovf1 := (crc & 0x80000000) != 0 ovf2 := (oct & 0x80) != 0 ovf := (ovf1 && !ovf2) || (!ovf1 && ovf2) oct <<= 1 crc <<= 1 if ovf { crc ^= CRC32UNIX } } } return crc; } func byteCRC32end(crc uint32, len uint64)(uint32){ var slen = make([]byte,4) var li = 0 for li = 0; li < 4; { slen[li] = byte(len) li += 1 len >>= 8 if( len == 0 ){ break } } crc = byteCRC32add(crc,slen,uint64(li)) crc ^= 0xFFFFFFFF return crc } func byteCRC32(str[]byte,len uint64)(crc uint32){ crc = byteCRC32add(0,str,len) crc = byteCRC32end(crc,len) return crc } func CRC32Finish(crc uint32, table *crc32.Table, len uint64)(uint32){ var slen = make([]byte,4) var li = 0 for li = 0; li < 4; { slen[li] = byte(len & 0xFF) li += 1 len >>= 8 if( len == 0 ){ break } } crc = crc32.Update(crc,table,slen) crc ^= 0xFFFFFFFF return crc } func (gsh*GshContext)xCksum(path string,argv[]string, sum*CheckSum)(int64){ if isin(“-type/f”,argv) && !IsRegFile(path){ return 0 } if isin(“-type/d”,argv) && IsRegFile(path){ return 0 } file, err := os.OpenFile(path,os.O_RDONLY,0) if err != nil { fmt.Printf(“–E– cksum %v (%v)\n”,path,err) return -1 } defer file.Close() if gsh.CmdTrace { fmt.Printf(“–I– cksum %v %v\n”,path,argv) } bi := 0 var buff = make([]byte,32*1024) var total int64 = 0 var initTime = time.Time{} if sum.Start == initTime { sum.Start = time.Now() } for bi = 0; ; bi++ { count,err := file.Read(buff) if count <= 0 || err != nil { break } if (sum.SumType & SUM_SUM64) != 0 { s := sum.Sum64 for _,c := range buff[0:count] { s += uint64(c) } sum.Sum64 = s } if (sum.SumType & SUM_UNIXFILE) != 0 { sum.Crc32Val = byteCRC32add(sum.Crc32Val,buff,uint64(count)) } if (sum.SumType & SUM_CRCIEEE) != 0 { sum.Crc32Val = crc32.Update(sum.Crc32Val,&sum.Crc32Table,buff[0:count]) } // BSD checksum if (sum.SumType & SUM_SUM16_BSD) != 0 { s := sum.Sum16 for _,c := range buff[0:count] { s = (s >> 1) + ((s & 1) << 15) s += int(c) s &= 0xFFFF //fmt.Printf("BSDsum: %d[%d] %d\n",sum.Size+int64(i),i,s) } sum.Sum16 = s } if (sum.SumType & SUM_SUM16_SYSV) != 0 { for bj := 0; bj < count; bj++ { sum.Sum16 += int(buff[bj]) } } total += int64(count) } sum.Done = time.Now() sum.Files += 1 sum.Size += total if !isin("-s",argv) { fmt.Printf("%v ",total) } return 0 } // grep // “lines”, “lin” or “lnp” for “(text) line processor” or “scanner” // a*,!ab,c, … sequentioal combination of patterns // what “LINE” is should be definable // generic line-by-line processing // grep [-v] // cat -n -v // uniq [-c] // tail -f // sed s/x/y/ or awk // grep with line count like wc // rewrite contents if specified func (gsh*GshContext)xGrep(path string,rexpv[]string)(int){ file, err := os.OpenFile(path,os.O_RDONLY,0) if err != nil { fmt.Printf(“–E– grep %v (%v)\n”,path,err) return -1 } defer file.Close() if gsh.CmdTrace { fmt.Printf(“–I– grep %v %v\n”,path,rexpv) } //reader := bufio.NewReaderSize(file,LINESIZE) reader := bufio.NewReaderSize(file,80) li := 0 found := 0 for li = 0; ; li++ { line, err := reader.ReadString(‘\n’) if len(line) <= 0 { break } if 150 < len(line) { // maybe binary break; } if err != nil { break } if 0 <= strings.Index(string(line),rexpv[0]) { found += 1 fmt.Printf("%s:%d: %s",path,li,line) } } //fmt.Printf("total %d lines %s\n",li,path) //if( 0 < found ){ fmt.Printf("((found %d lines %s))\n",found,path); } return found } // Finder // finding files with it name and contents // file names are ORed // show the content with %x fmt list // ls -R // tar command by adding output type fileSum struct { Err int64 // access error or so Size int64 // content size DupSize int64 // content size from hard links Blocks int64 // number of blocks (of 512 bytes) DupBlocks int64 // Blocks pointed from hard links HLinks int64 // hard links Words int64 Lines int64 Files int64 Dirs int64 // the num. of directories SymLink int64 Flats int64 // the num. of flat files MaxDepth int64 MaxNamlen int64 // max. name length nextRepo time.Time } func showFusage(dir string,fusage *fileSum){ bsume := float64(((fusage.Blocks-fusage.DupBlocks)/2)*1024)/1000000.0 //bsumdup := float64((fusage.Blocks/2)*1024)/1000000.0 fmt.Printf(“%v: %v files (%vd %vs %vh) %.6f MB (%.2f MBK)\n”, dir, fusage.Files, fusage.Dirs, fusage.SymLink, fusage.HLinks, float64(fusage.Size)/1000000.0,bsume); } const ( S_IFMT = 0170000 S_IFCHR = 0020000 S_IFDIR = 0040000 S_IFREG = 0100000 S_IFLNK = 0120000 S_IFSOCK = 0140000 ) func cumFinfo(fsum *fileSum, path string, staterr error, fstat syscall.Stat_t, argv[]string,verb bool)(*fileSum){ now := time.Now() if time.Second <= now.Sub(fsum.nextRepo) { if !fsum.nextRepo.IsZero(){ tstmp := now.Format(time.Stamp) showFusage(tstmp,fsum) } fsum.nextRepo = now.Add(time.Second) } if staterr != nil { fsum.Err += 1 return fsum } fsum.Files += 1 if 1 < fstat.Nlink { // must count only once... // at least ignore ones in the same directory //if finfo.Mode().IsRegular() { if (fstat.Mode & S_IFMT) == S_IFREG { fsum.HLinks += 1 fsum.DupBlocks += int64(fstat.Blocks) //fmt.Printf("---Dup HardLink %v %s\n",fstat.Nlink,path) } } //fsum.Size += finfo.Size() fsum.Size += fstat.Size fsum.Blocks += int64(fstat.Blocks) //if verb { fmt.Printf("(%8dBlk) %s",fstat.Blocks/2,path) } if isin("-ls",argv){ //if verb { fmt.Printf("%4d %8d ",fstat.Blksize,fstat.Blocks) } // fmt.Printf("%d\t",fstat.Blocks/2) } //if finfo.IsDir() if (fstat.Mode & S_IFMT) == S_IFDIR { fsum.Dirs += 1 } //if (finfo.Mode() & os.ModeSymlink) != 0 if (fstat.Mode & S_IFMT) == S_IFLNK { //if verb { fmt.Printf("symlink(%v,%s)\n",fstat.Mode,finfo.Name()) } //{ fmt.Printf("symlink(%o,%s)\n",fstat.Mode,finfo.Name()) } fsum.SymLink += 1 } return fsum } func (gsh*GshContext)xxFindEntv(depth int,total *fileSum,dir string, dstat syscall.Stat_t, ei int, entv []string,npatv[]string,argv[]string)(*fileSum){ nols := isin("-grep",argv) // sort entv /* if isin("-t",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].ModTime().Sub(filev[j].ModTime()) }) } */ /* if isin("-u",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].AccTime().Sub(filev[j].AccTime()) }) } if isin("-U",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].CreatTime().Sub(filev[j].CreatTime()) }) } */ /* if isin("-S",argv){ sort.Slice(filev, func(i,j int) bool { return filev[j].Size() < filev[i].Size() }) } */ for _,filename := range entv { for _,npat := range npatv { match := true if npat == "*" { match = true }else{ match, _ = filepath.Match(npat,filename) } path := dir + DIRSEP + filename if !match { continue } var fstat syscall.Stat_t staterr := syscall.Lstat(path,&fstat) if staterr != nil { if !isin("-w",argv){fmt.Printf("ufind: %v\n",staterr) } continue; } if isin("-du",argv) && (fstat.Mode & S_IFMT) == S_IFDIR { // should not show size of directory in "-du" mode ... }else if !nols && !isin("-s",argv) && (!isin("-du",argv) || isin("-a",argv)) { if isin("-du",argv) { fmt.Printf("%d\t",fstat.Blocks/2) } showFileInfo(path,argv) } if true { // && isin("-du",argv) total = cumFinfo(total,path,staterr,fstat,argv,false) } /* if isin("-wc",argv) { } */ if gsh.lastCheckSum.SumType != 0 { gsh.xCksum(path,argv,&gsh.lastCheckSum); } x := isinX("-grep",argv); // -grep will be convenient like -ls if 0 <= x && x+1 <= len(argv) { // -grep will be convenient like -ls if IsRegFile(path){ found := gsh.xGrep(path,argv[x+1:]) if 0 < found { foundv := gsh.CmdCurrent.FoundFile if len(foundv) < 10 { gsh.CmdCurrent.FoundFile = append(gsh.CmdCurrent.FoundFile,path) } } } } if !isin("-r0",argv) { // -d 0 in du, -depth n in find //total.Depth += 1 if (fstat.Mode & S_IFMT) == S_IFLNK { continue } if dstat.Rdev != fstat.Rdev { fmt.Printf("--I-- don't follow differnet device %v(%v) %v(%v)\n", dir,dstat.Rdev,path,fstat.Rdev) } if (fstat.Mode & S_IFMT) == S_IFDIR { total = gsh.xxFind(depth+1,total,path,npatv,argv) } } } } return total } func (gsh*GshContext)xxFind(depth int,total *fileSum,dir string,npatv[]string,argv[]string)(*fileSum){ nols := isin("-grep",argv) dirfile,oerr := os.OpenFile(dir,os.O_RDONLY,0) if oerr == nil { //fmt.Printf("--I-- %v(%v)[%d]\n",dir,dirfile,dirfile.Fd()) defer dirfile.Close() }else{ } prev := *total var dstat syscall.Stat_t staterr := syscall.Lstat(dir,&dstat) // should be flstat if staterr != nil { if !isin("-w",argv){ fmt.Printf("ufind: %v\n",staterr) } return total } //filev,err := ioutil.ReadDir(dir) //_,err := ioutil.ReadDir(dir) // ReadDir() heavy and bad for huge directory /* if err != nil { if !isin("-w",argv){ fmt.Printf("ufind: %v\n",err) } return total } */ if depth == 0 { total = cumFinfo(total,dir,staterr,dstat,argv,true) if !nols && !isin("-s",argv) && (!isin("-du",argv) || isin("-a",argv)) { showFileInfo(dir,argv) } } // it it is not a directory, just scan it and finish for ei := 0; ; ei++ { entv,rderr := dirfile.Readdirnames(8*1024) if len(entv) == 0 || rderr != nil { //if rderr != nil { fmt.Printf("[%d] len=%d (%v)\n",ei,len(entv),rderr) } break } if 0 < ei { fmt.Printf("--I-- xxFind[%d] %d large-dir: %s\n",ei,len(entv),dir) } total = gsh.xxFindEntv(depth,total,dir,dstat,ei,entv,npatv,argv) } if isin("-du",argv) { // if in "du" mode fmt.Printf("%d\t%s\n",(total.Blocks-prev.Blocks)/2,dir) } return total } // {ufind|fu|ls} [Files] [// Names] [-- Expressions] // Files is "." by default // Names is "*" by default // Expressions is "-print" by default for "ufind", or -du for "fu" command func (gsh*GshContext)xFind(argv[]string){ if 0 < len(argv) && strBegins(argv[0],"?"){ showFound(gsh,argv) return } if isin("-cksum",argv) || isin("-sum",argv) { gsh.lastCheckSum = CheckSum{} if isin("-sum",argv) && isin("-add",argv) { gsh.lastCheckSum.SumType |= SUM_SUM64 }else if isin("-sum",argv) && isin("-size",argv) { gsh.lastCheckSum.SumType |= SUM_SIZE }else if isin("-sum",argv) && isin("-bsd",argv) { gsh.lastCheckSum.SumType |= SUM_SUM16_BSD }else if isin("-sum",argv) && isin("-sysv",argv) { gsh.lastCheckSum.SumType |= SUM_SUM16_SYSV }else if isin("-sum",argv) { gsh.lastCheckSum.SumType |= SUM_SUM64 } if isin("-unix",argv) { gsh.lastCheckSum.SumType |= SUM_UNIXFILE gsh.lastCheckSum.Crc32Table = *crc32.MakeTable(CRC32UNIX) } if isin("-ieee",argv){ gsh.lastCheckSum.SumType |= SUM_CRCIEEE gsh.lastCheckSum.Crc32Table = *crc32.MakeTable(CRC32IEEE) } gsh.lastCheckSum.RusgAtStart = Getrusagev() } var total = fileSum{} npats := []string{} for _,v := range argv { if 0 < len(v) && v[0] != '-' { npats = append(npats,v) } if v == "//" { break } if v == "--" { break } if v == "-grep" { break } if v == "-ls" { break } } if len(npats) == 0 { npats = []string{"*"} } cwd := "." // if to be fullpath ::: cwd, _ := os.Getwd() if len(npats) == 0 { npats = []string{"*"} } fusage := gsh.xxFind(0,&total,cwd,npats,argv) if gsh.lastCheckSum.SumType != 0 { var sumi uint64 = 0 sum := &gsh.lastCheckSum if (sum.SumType & SUM_SIZE) != 0 { sumi = uint64(sum.Size) } if (sum.SumType & SUM_SUM64) != 0 { sumi = sum.Sum64 } if (sum.SumType & SUM_SUM16_SYSV) != 0 { s := uint32(sum.Sum16) r := (s & 0xFFFF) + ((s & 0xFFFFFFFF) >> 16) s = (r & 0xFFFF) + (r >> 16) sum.Crc32Val = uint32(s) sumi = uint64(s) } if (sum.SumType & SUM_SUM16_BSD) != 0 { sum.Crc32Val = uint32(sum.Sum16) sumi = uint64(sum.Sum16) } if (sum.SumType & SUM_UNIXFILE) != 0 { sum.Crc32Val = byteCRC32end(sum.Crc32Val,uint64(sum.Size)) sumi = uint64(byteCRC32end(sum.Crc32Val,uint64(sum.Size))) } if 1 < sum.Files { fmt.Printf("%v %v // %v / %v files, %v/file\r\n", sumi,sum.Size, abssize(sum.Size),sum.Files, abssize(sum.Size/sum.Files)) }else{ fmt.Printf("%v %v %v\n", sumi,sum.Size,npats[0]) } } if !isin("-grep",argv) { showFusage("total",fusage) } if !isin("-s",argv){ hits := len(gsh.CmdCurrent.FoundFile) if 0 < hits { fmt.Printf("--I-- %d files hits // can be refered with !%df\n", hits,len(gsh.CommandHistory)) } } if gsh.lastCheckSum.SumType != 0 { if isin("-ru",argv) { sum := &gsh.lastCheckSum sum.Done = time.Now() gsh.lastCheckSum.RusgAtEnd = Getrusagev() elps := sum.Done.Sub(sum.Start) fmt.Printf("--cksum-size: %v (%v) / %v files, %v/file\r\n", sum.Size,abssize(sum.Size),sum.Files,abssize(sum.Size/sum.Files)) nanos := int64(elps) fmt.Printf("--cksum-time: %v/total, %v/file, %.1f files/s, %v\r\n", abbtime(nanos), abbtime(nanos/sum.Files), (float64(sum.Files)*1000000000.0)/float64(nanos), abbspeed(sum.Size,nanos)) diff := RusageSubv(sum.RusgAtEnd,sum.RusgAtStart) fmt.Printf("--cksum-rusg: %v\n",sRusagef("",argv,diff)) } } return } func showFiles(files[]string){ sp := "" for i,file := range files { if 0 < i { sp = " " } else { sp = "" } fmt.Printf(sp+"%s",escapeWhiteSP(file)) } } func showFound(gshCtx *GshContext, argv[]string){ for i,v := range gshCtx.CommandHistory { if 0 < len(v.FoundFile) { fmt.Printf("!%d (%d) ",i,len(v.FoundFile)) if isin("-ls",argv){ fmt.Printf("\n") for _,file := range v.FoundFile { fmt.Printf("") //sub number? showFileInfo(file,argv) } }else{ showFiles(v.FoundFile) fmt.Printf("\n") } } } } func showMatchFile(filev []os.FileInfo, npat,dir string, argv[]string)(string,bool){ fname := "" found := false for _,v := range filev { match, _ := filepath.Match(npat,(v.Name())) if match { fname = v.Name() found = true //fmt.Printf("[%d] %s\n",i,v.Name()) showIfExecutable(fname,dir,argv) } } return fname,found } func showIfExecutable(name,dir string,argv[]string)(ffullpath string,ffound bool){ var fullpath string if strBegins(name,DIRSEP){ fullpath = name }else{ fullpath = dir + DIRSEP + name } fi, err := os.Stat(fullpath) if err != nil { fullpath = dir + DIRSEP + name + ".go" fi, err = os.Stat(fullpath) } if err == nil { fm := fi.Mode() if fm.IsRegular() { // R_OK=4, W_OK=2, X_OK=1, F_OK=0 if syscall.Access(fullpath,5) == nil { ffullpath = fullpath ffound = true if ! isin("-s", argv) { showFileInfo(fullpath,argv) } } } } return ffullpath, ffound } func which(list string, argv []string) (fullpathv []string, itis bool){ if len(argv) <= 1 { fmt.Printf("Usage: which comand [-s] [-a] [-ls]\n") return []string{""}, false } path := argv[1] if strBegins(path,"/") { // should check if excecutable? _,exOK := showIfExecutable(path,"/",argv) fmt.Printf("--D-- %v exOK=%v\n",path,exOK) return []string{path},exOK } pathenv, efound := os.LookupEnv(list) if ! efound { fmt.Printf("--E-- which: no \"%s\" environment\n",list) return []string{""}, false } showall := isin("-a",argv) || 0 <= strings.Index(path,"*") dirv := strings.Split(pathenv,PATHSEP) ffound := false ffullpath := path for _, dir := range dirv { if 0 <= strings.Index(path,"*") { // by wild-card list,_ := ioutil.ReadDir(dir) ffullpath, ffound = showMatchFile(list,path,dir,argv) }else{ ffullpath, ffound = showIfExecutable(path,dir,argv) } //if ffound && !isin("-a", argv) { if ffound && !showall { break; } } return []string{ffullpath}, ffound } func stripLeadingWSParg(argv[]string)([]string){ for ; 0 < len(argv); { if len(argv[0]) == 0 { argv = argv[1:] }else{ break } } return argv } func xEval(argv []string, nlend bool){ argv = stripLeadingWSParg(argv) if len(argv) == 0 { fmt.Printf("eval [%%format] [Go-expression]\n") return } pfmt := "%v" if argv[0][0] == '%' { pfmt = argv[0] argv = argv[1:] } if len(argv) == 0 { return } gocode := strings.Join(argv," "); //fmt.Printf("eval [%v] [%v]\n",pfmt,gocode) fset := token.NewFileSet() rval, _ := types.Eval(fset,nil,token.NoPos,gocode) fmt.Printf(pfmt,rval.Value) if nlend { fmt.Printf("\n") } } func getval(name string) (found bool, val int) { /* should expand the name here */ if name == "gsh.pid" { return true, os.Getpid() }else if name == "gsh.ppid" { return true, os.Getppid() } return false, 0 } func echo(argv []string, nlend bool){ for ai := 1; ai < len(argv); ai++ { if 1 < ai { fmt.Printf(" "); } arg := argv[ai] found, val := getval(arg) if found { fmt.Printf("%d",val) }else{ fmt.Printf("%s",arg) } } if nlend { fmt.Printf("\n"); } } func resfile() string { return "gsh.tmp" } //var resF *File func resmap() { //_ , err := os.OpenFile(resfile(), os.O_RDWR|os.O_CREATE, os.ModeAppend) // https://developpaper.com/solution-to-golang-bad-file-descriptor-problem/ _ , err := os.OpenFile(resfile(), os.O_RDWR|os.O_CREATE, 0600) if err != nil { fmt.Printf("refF could not open: %s\n",err) }else{ fmt.Printf("refF opened\n") } } // @@2020-0821 func gshScanArg(str string,strip int)(argv []string){ var si = 0 var sb = 0 var inBracket = 0 var arg1 = make([]byte,LINESIZE) var ax = 0 debug := false for ; si < len(str); si++ { if str[si] != ' ' { break } } sb = si for ; si < len(str); si++ { if sb <= si { if debug { fmt.Printf("--Da- +%d %2d-%2d %s ... %s\n", inBracket,sb,si,arg1[0:ax],str[si:]) } } ch := str[si] if ch == '{' { inBracket += 1 if 0 < strip && inBracket <= strip { //fmt.Printf("stripLEV %d <= %d?\n",inBracket,strip) continue } } if 0 < inBracket { if ch == '}' { inBracket -= 1 if 0 < strip && inBracket < strip { //fmt.Printf("stripLEV %d < %d?\n",inBracket,strip) continue } } arg1[ax] = ch ax += 1 continue } if str[si] == ' ' { argv = append(argv,string(arg1[0:ax])) if debug { fmt.Printf("--Da- [%v][%v-%v] %s ... %s\n", -1+len(argv),sb,si,str[sb:si],string(str[si:])) } sb = si+1 ax = 0 continue } arg1[ax] = ch ax += 1 } if sb < si { argv = append(argv,string(arg1[0:ax])) if debug { fmt.Printf("--Da- [%v][%v-%v] %s ... %s\n", -1+len(argv),sb,si,string(arg1[0:ax]),string(str[si:])) } } if debug { fmt.Printf("--Da- %d [%s] => [%d]%v\n”,strip,str,len(argv),argv) } return argv } // should get stderr (into tmpfile ?) and return func (gsh*GshContext)Popen(name,mode string)(pin*os.File,pout*os.File,err bool){ var pv = []int{-1,-1} syscall.Pipe(pv) xarg := gshScanArg(name,1) name = strings.Join(xarg,” “) pin = os.NewFile(uintptr(pv[0]),”StdoutOf-{“+name+”}”) pout = os.NewFile(uintptr(pv[1]),”StdinOf-{“+name+”}”) fdix := 0 dir := “?” if mode == “r” { dir = “<" fdix = 1 // read from the stdout of the process }else{ dir = ">” fdix = 0 // write to the stdin of the process } gshPA := gsh.gshPA savfd := gshPA.Files[fdix] var fd uintptr = 0 if mode == “r” { fd = pout.Fd() gshPA.Files[fdix] = pout.Fd() }else{ fd = pin.Fd() gshPA.Files[fdix] = pin.Fd() } // should do this by Goroutine? if false { fmt.Printf(“–Ip- Opened fd[%v] %s %v\n”,fd,dir,name) fmt.Printf(“–RED1 [%d,%d,%d]->[%d,%d,%d]\n”, os.Stdin.Fd(),os.Stdout.Fd(),os.Stderr.Fd(), pin.Fd(),pout.Fd(),pout.Fd()) } savi := os.Stdin savo := os.Stdout save := os.Stderr os.Stdin = pin os.Stdout = pout os.Stderr = pout gsh.BackGround = true gsh.gshelllh(name) gsh.BackGround = false os.Stdin = savi os.Stdout = savo os.Stderr = save gshPA.Files[fdix] = savfd return pin,pout,false } // External commands func (gsh*GshContext)excommand(exec bool, argv []string) (notf bool,exit bool) { if gsh.CmdTrace { fmt.Printf(“–I– excommand[%v](%v)\n”,exec,argv) } gshPA := gsh.gshPA fullpathv, itis := which(“PATH”,[]string{“which”,argv[0],”-s”}) if itis == false { return true,false } fullpath := fullpathv[0] argv = unescapeWhiteSPV(argv) if 0 < strings.Index(fullpath,".go") { nargv := argv // []string{} gofullpathv, itis := which("PATH",[]string{"which","go","-s"}) if itis == false { fmt.Printf("--F-- Go not found\n") return false,true } gofullpath := gofullpathv[0] nargv = []string{ gofullpath, "run", fullpath } fmt.Printf("--I-- %s {%s %s %s}\n",gofullpath, nargv[0],nargv[1],nargv[2]) if exec { syscall.Exec(gofullpath,nargv,os.Environ()) }else{ pid, _ := syscall.ForkExec(gofullpath,nargv,&gshPA) if gsh.BackGround { fmt.Fprintf(stderr,"--Ip- in Background pid[%d]%d(%v)\n",pid,len(argv),nargv) gsh.BackGroundJobs = append(gsh.BackGroundJobs,pid) }else{ rusage := syscall.Rusage {} syscall.Wait4(pid,nil,0,&rusage) gsh.LastRusage = rusage gsh.CmdCurrent.Rusagev[1] = rusage } } }else{ if exec { syscall.Exec(fullpath,argv,os.Environ()) }else{ pid, _ := syscall.ForkExec(fullpath,argv,&gshPA) //fmt.Printf("[%d]\n",pid); // '&' to be background if gsh.BackGround { fmt.Fprintf(stderr,"--Ip- in Background pid[%d]%d(%v)\n",pid,len(argv),argv) gsh.BackGroundJobs = append(gsh.BackGroundJobs,pid) }else{ rusage := syscall.Rusage {} syscall.Wait4(pid,nil,0,&rusage); gsh.LastRusage = rusage gsh.CmdCurrent.Rusagev[1] = rusage } } } return false,false } // Builtin Commands func (gshCtx *GshContext) sleep(argv []string) { if len(argv) < 2 { fmt.Printf("Sleep 100ms, 100us, 100ns, ...\n") return } duration := argv[1]; d, err := time.ParseDuration(duration) if err != nil { d, err = time.ParseDuration(duration+"s") if err != nil { fmt.Printf("duration ? %s (%s)\n",duration,err) return } } //fmt.Printf("Sleep %v\n",duration) time.Sleep(d) if 0 < len(argv[2:]) { gshCtx.gshellv(argv[2:]) } } func (gshCtx *GshContext)repeat(argv []string) { if len(argv) < 2 { return } start0 := time.Now() for ri,_ := strconv.Atoi(argv[1]); 0 < ri; ri-- { if 0 < len(argv[2:]) { //start := time.Now() gshCtx.gshellv(argv[2:]) end := time.Now() elps := end.Sub(start0); if( 1000000000 < elps ){ fmt.Printf("(repeat#%d %v)\n",ri,elps); } } } } func (gshCtx *GshContext)gen(argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: %s N\n",argv[0]) return } // should br repeated by "repeat" command count, _ := strconv.Atoi(argv[1]) fd := gshPA.Files[1] // Stdout file := os.NewFile(fd,"internalStdOut") fmt.Printf("--I-- Gen. Count=%d to [%d]\n",count,file.Fd()) //buf := []byte{} outdata := "0123 5678 0123 5678 0123 5678 0123 5678\r" for gi := 0; gi < count; gi++ { file.WriteString(outdata) } //file.WriteString("\n") fmt.Printf("\n(%d B)\n",count*len(outdata)); //file.Close() } // Remote Execution // 2020-0820 func Elapsed(from time.Time)(string){ elps := time.Now().Sub(from) if 1000000000 < elps { return fmt.Sprintf("[%5d.%02ds]",elps/1000000000,(elps%1000000000)/10000000) }else if 1000000 < elps { return fmt.Sprintf("[%3d.%03dms]",elps/1000000,(elps%1000000)/1000) }else{ return fmt.Sprintf("[%3d.%03dus]",elps/1000,(elps%1000)) } } func abbtime(nanos int64)(string){ if 1000000000 < nanos { return fmt.Sprintf("%d.%02ds",nanos/1000000000,(nanos%1000000000)/10000000) }else if 1000000 < nanos { return fmt.Sprintf("%d.%03dms",nanos/1000000,(nanos%1000000)/1000) }else{ return fmt.Sprintf("%d.%03dus",nanos/1000,(nanos%1000)) } } func abssize(size int64)(string){ fsize := float64(size) if 1024*1024*1024 < size { return fmt.Sprintf("%.2fGiB",fsize/(1024*1024*1024)) }else if 1024*1024 < size { return fmt.Sprintf("%.3fMiB",fsize/(1024*1024)) }else{ return fmt.Sprintf("%.3fKiB",fsize/1024) } } func absize(size int64)(string){ fsize := float64(size) if 1024*1024*1024 < size { return fmt.Sprintf("%8.2fGiB",fsize/(1024*1024*1024)) }else if 1024*1024 < size { return fmt.Sprintf("%8.3fMiB",fsize/(1024*1024)) }else{ return fmt.Sprintf("%8.3fKiB",fsize/1024) } } func abbspeed(totalB int64,ns int64)(string){ MBs := (float64(totalB)/1000000) / (float64(ns)/1000000000) if 1000 <= MBs { return fmt.Sprintf("%6.3fGB/s",MBs/1000) } if 1 <= MBs { return fmt.Sprintf("%6.3fMB/s",MBs) }else{ return fmt.Sprintf("%6.3fKB/s",MBs*1000) } } func abspeed(totalB int64,ns time.Duration)(string){ MBs := (float64(totalB)/1000000) / (float64(ns)/1000000000) if 1000 <= MBs { return fmt.Sprintf("%6.3fGBps",MBs/1000) } if 1 <= MBs { return fmt.Sprintf("%6.3fMBps",MBs) }else{ return fmt.Sprintf("%6.3fKBps",MBs*1000) } } func fileRelay(what string,in*os.File,out*os.File,size int64,bsiz int)(wcount int64){ Start := time.Now() buff := make([]byte,bsiz) var total int64 = 0 var rem int64 = size nio := 0 Prev := time.Now() var PrevSize int64 = 0 fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) START\n", what,absize(total),size,nio) for i:= 0; ; i++ { var len = bsiz if int(rem) < len { len = int(rem) } Now := time.Now() Elps := Now.Sub(Prev); if 1000000000 < Now.Sub(Prev) { fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) %s\n", what,absize(total),size,nio, abspeed((total-PrevSize),Elps)) Prev = Now; PrevSize = total } rlen := len if in != nil { // should watch the disconnection of out rcc,err := in.Read(buff[0:rlen]) if err != nil { fmt.Printf(Elapsed(Start)+"--En- X: %s read(%v,%v)<%v\n", what,rcc,err,in.Name()) break } rlen = rcc if string(buff[0:10]) == "((SoftEOF " { var ecc int64 = 0 fmt.Sscanf(string(buff),"((SoftEOF %v",&ecc) fmt.Printf(Elapsed(Start)+"--En- X: %s Recv ((SoftEOF %v))/%v\n", what,ecc,total) if ecc == total { break } } } wlen := rlen if out != nil { wcc,err := out.Write(buff[0:rlen]) if err != nil { fmt.Printf(Elapsed(Start)+"-En-- X: %s write(%v,%v)>%v\n”, what,wcc,err,out.Name()) break } wlen = wcc } if wlen < rlen { fmt.Printf(Elapsed(Start)+"--En- X: %s incomplete write (%v/%v)\n", what,wlen,rlen) break; } nio += 1 total += int64(rlen) rem -= int64(rlen) if rem <= 0 { break } } Done := time.Now() Elps := float64(Done.Sub(Start))/1000000000 //Seconds TotalMB := float64(total)/1000000 //MB MBps := TotalMB / Elps fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) %v %.3fMB/s\n", what,total,size,nio,absize(total),MBps) return total } func tcpPush(clnt *os.File){ // shrink socket buffer and recover usleep(100); } func (gsh*GshContext)RexecServer(argv[]string){ debug := true Start0 := time.Now() Start := Start0 // if local == ":" { local = "0.0.0.0:9999" } local := "0.0.0.0:9999" if 0 < len(argv) { if argv[0] == "-s" { debug = false argv = argv[1:] } } if 0 < len(argv) { argv = argv[1:] } port, err := net.ResolveTCPAddr("tcp",local); if err != nil { fmt.Printf("--En- S: Address error: %s (%s)\n",local,err) return } fmt.Printf(Elapsed(Start)+"--In- S: Listening at %s...\n",local); sconn, err := net.ListenTCP("tcp", port) if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: Listen error: %s (%s)\n",local,err) return } reqbuf := make([]byte,LINESIZE) res := "" for { fmt.Printf(Elapsed(Start0)+"--In- S: Listening at %s...\n",local); aconn, err := sconn.AcceptTCP() Start = time.Now() if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: Accept error: %s (%s)\n",local,err) return } clnt, _ := aconn.File() fd := clnt.Fd() ar := aconn.RemoteAddr() if debug { fmt.Printf(Elapsed(Start0)+"--In- S: Accepted TCP at %s [%d] <- %v\n", local,fd,ar) } res = fmt.Sprintf("220 GShell/%s Server\r\n",VERSION) fmt.Fprintf(clnt,"%s",res) if debug { fmt.Printf(Elapsed(Start)+"--In- S: %s",res) } count, err := clnt.Read(reqbuf) if err != nil { fmt.Printf(Elapsed(Start)+"--En- C: (%v %v) %v", count,err,string(reqbuf)) } req := string(reqbuf[:count]) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",string(req)) } reqv := strings.Split(string(req),"\r") cmdv := gshScanArg(reqv[0],0) //cmdv := strings.Split(reqv[0]," ") switch cmdv[0] { case "HELO": res = fmt.Sprintf("250 %v",req) case "GET": // download {remotefile|-zN} [localfile] var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var fname string = "" var in *os.File = nil var pseudoEOF = false if 1 < len(cmdv) { fname = cmdv[1] if strBegins(fname,"-z") { fmt.Sscanf(fname[2:],"%d",&dsize) }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"r") if err { }else{ xout.Close() defer xin.Close() in = xin dsize = MaxStreamSize pseudoEOF = true } }else{ xin,err := os.Open(fname) if err != nil { fmt.Printf("--En- GET (%v)\n",err) }else{ defer xin.Close() in = xin fi,_ := xin.Stat() dsize = fi.Size() } } } //fmt.Printf(Elapsed(Start)+"--In- GET %v:%v\n",dsize,bsize) res = fmt.Sprintf("200 %v\r\n",dsize) fmt.Fprintf(clnt,"%v",res) tcpPush(clnt); // should be separated as line in receiver fmt.Printf(Elapsed(Start)+"--In- S: %v",res) wcount := fileRelay("SendGET",in,clnt,dsize,bsize) if pseudoEOF { in.Close() // pipe from the command // show end of stream data (its size) by OOB? SoftEOF := fmt.Sprintf("((SoftEOF %v))",wcount) fmt.Printf(Elapsed(Start)+"--In- S: Send %v\n",SoftEOF) tcpPush(clnt); // to let SoftEOF data apper at the top of recevied data fmt.Fprintf(clnt,"%v\r\n",SoftEOF) tcpPush(clnt); // to let SoftEOF alone in a packet (separate with 200 OK) // with client generated random? //fmt.Printf("--In- L: close %v (%v)\n",in.Fd(),in.Name()) } res = fmt.Sprintf("200 GET done\r\n") case "PUT": // upload {srcfile|-zN} [dstfile] var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var fname string = "" var out *os.File = nil if 1 < len(cmdv) { // localfile fmt.Sscanf(cmdv[1],"%d",&dsize) } if 2 < len(cmdv) { fname = cmdv[2] if fname == "-" { // nul dev }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"w") if err { }else{ xin.Close() defer xout.Close() out = xout } }else{ // should write to temporary file // should suppress ^C on tty xout,err := os.OpenFile(fname,os.O_CREATE|os.O_RDWR|os.O_TRUNC,0600) //fmt.Printf("--In- S: open(%v) out(%v) err(%v)\n",fname,xout,err) if err != nil { fmt.Printf("--En- PUT (%v)\n",err) }else{ out = xout } } fmt.Printf(Elapsed(Start)+"--In- L: open(%v,w) %v (%v)\n", fname,local,err) } fmt.Printf(Elapsed(Start)+"--In- PUT %v (/%v)\n",dsize,bsize) fmt.Printf(Elapsed(Start)+"--In- S: 200 %v OK\r\n",dsize) fmt.Fprintf(clnt,"200 %v OK\r\n",dsize) fileRelay("RecvPUT",clnt,out,dsize,bsize) res = fmt.Sprintf("200 PUT done\r\n") default: res = fmt.Sprintf("400 What? %v",req) } swcc,serr := clnt.Write([]byte(res)) if serr != nil { fmt.Printf(Elapsed(Start)+"--In- S: (wc=%v er=%v) %v",swcc,serr,res) }else{ fmt.Printf(Elapsed(Start)+"--In- S: %v",res) } aconn.Close(); clnt.Close(); } sconn.Close(); } func (gsh*GshContext)RexecClient(argv[]string)(int,string){ debug := true Start := time.Now() if len(argv) == 1 { return -1,"EmptyARG" } argv = argv[1:] if argv[0] == "-serv" { gsh.RexecServer(argv[1:]) return 0,"Server" } remote := "0.0.0.0:9999" if argv[0][0] == '@' { remote = argv[0][1:] argv = argv[1:] } if argv[0] == "-s" { debug = false argv = argv[1:] } dport, err := net.ResolveTCPAddr("tcp",remote); if err != nil { fmt.Printf(Elapsed(Start)+"Address error: %s (%s)\n",remote,err) return -1,"AddressError" } fmt.Printf(Elapsed(Start)+"--In- C: Connecting to %s\n",remote) serv, err := net.DialTCP("tcp",nil,dport) if err != nil { fmt.Printf(Elapsed(Start)+"Connection error: %s (%s)\n",remote,err) return -1,"CannotConnect" } if debug { al := serv.LocalAddr() fmt.Printf(Elapsed(Start)+"--In- C: Connected to %v <- %v\n",remote,al) } req := "" res := make([]byte,LINESIZE) count,err := serv.Read(res) if err != nil { fmt.Printf("--En- S: (%3d,%v) %v",count,err,string(res)) } if debug { fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res)) } if argv[0] == "GET" { savPA := gsh.gshPA var bsize int = 64*1024 req = fmt.Sprintf("%v\r\n",strings.Join(argv," ")) fmt.Printf(Elapsed(Start)+"--In- C: %v",req) fmt.Fprintf(serv,req) count,err = serv.Read(res) if err != nil { }else{ var dsize int64 = 0 var out *os.File = nil var out_tobeclosed *os.File = nil var fname string = "" var rcode int = 0 var pid int = -1 fmt.Sscanf(string(res),"%d %d",&rcode,&dsize) fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res[0:count])) if 3 <= len(argv) { fname = argv[2] if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"w") if err { }else{ xin.Close() defer xout.Close() out = xout out_tobeclosed = xout pid = 0 // should be its pid } }else{ // should write to temporary file // should suppress ^C on tty xout,err := os.OpenFile(fname,os.O_CREATE|os.O_RDWR|os.O_TRUNC,0600) if err != nil { fmt.Print("--En- %v\n",err) } out = xout //fmt.Printf("--In-- %d > %s\n”,out.Fd(),fname) } } in,_ := serv.File() fileRelay(“RecvGET”,in,out,dsize,bsize) if 0 <= pid { gsh.gshPA = savPA // recovery of Fd(), and more? fmt.Printf(Elapsed(Start)+"--In- L: close Pipe > %v\n”,fname) out_tobeclosed.Close() //syscall.Wait4(pid,nil,0,nil) //@@ } } }else if argv[0] == “PUT” { remote, _ := serv.File() var local *os.File = nil var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var ofile string = “-” //fmt.Printf(“–I– Rex %v\n”,argv) if 1 < len(argv) { fname := argv[1] if strBegins(fname,"-z") { fmt.Sscanf(fname[2:],"%d",&dsize) }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"r") if err { }else{ xout.Close() defer xin.Close() //in = xin local = xin fmt.Printf("--In- [%d] < Upload output of %v\n", local.Fd(),fname) ofile = "-from."+fname dsize = MaxStreamSize } }else{ xlocal,err := os.Open(fname) if err != nil { fmt.Printf("--En- (%s)\n",err) local = nil }else{ local = xlocal fi,_ := local.Stat() dsize = fi.Size() defer local.Close() //fmt.Printf("--I-- Rex in(%v / %v)\n",ofile,dsize) } ofile = fname fmt.Printf(Elapsed(Start)+"--In- L: open(%v,r)=%v %v (%v)\n", fname,dsize,local,err) } } if 2 < len(argv) && argv[2] != "" { ofile = argv[2] //fmt.Printf("(%d)%v B.ofile=%v\n",len(argv),argv,ofile) } //fmt.Printf(Elapsed(Start)+"--I-- Rex out(%v)\n",ofile) fmt.Printf(Elapsed(Start)+"--In- PUT %v (/%v)\n",dsize,bsize) req = fmt.Sprintf("PUT %v %v \r\n",dsize,ofile) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",req) } fmt.Fprintf(serv,"%v",req) count,err = serv.Read(res) if debug { fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res[0:count])) } fileRelay("SendPUT",local,remote,dsize,bsize) }else{ req = fmt.Sprintf("%v\r\n",strings.Join(argv," ")) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",req) } fmt.Fprintf(serv,"%v",req) //fmt.Printf("--In- sending RexRequest(%v)\n",len(req)) } //fmt.Printf(Elapsed(Start)+"--In- waiting RexResponse...\n") count,err = serv.Read(res) ress := "" if count == 0 { ress = "(nil)\r\n" }else{ ress = string(res[:count]) } if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: (%d,%v) %v",count,err,ress) }else{ fmt.Printf(Elapsed(Start)+"--In- S: %v",ress) } serv.Close() //conn.Close() var stat string var rcode int fmt.Sscanf(ress,"%d %s",&rcode,&stat) //fmt.Printf("--D-- Client: %v (%v)",rcode,stat) return rcode,ress } // Remote Shell // gcp file […] { [host]:[port:][dir] | dir } // -p | -no-p func (gsh*GshContext)FileCopy(argv[]string){ var host = “” var port = “” var upload = false var download = false var xargv = []string{“rex-gcp”} var srcv = []string{} var dstv = []string{} argv = argv[1:] for _,v := range argv { /* if v[0] == ‘-‘ { // might be a pseudo file (generated date) continue } */ obj := strings.Split(v,”:”) //fmt.Printf(“%d %v %v\n”,len(obj),v,obj) if 1 < len(obj) { host = obj[0] file := "" if 0 < len(host) { gsh.LastServer.host = host }else{ host = gsh.LastServer.host port = gsh.LastServer.port } if 2 < len(obj) { port = obj[1] if 0 < len(port) { gsh.LastServer.port = port }else{ port = gsh.LastServer.port } file = obj[2] }else{ file = obj[1] } if len(srcv) == 0 { download = true srcv = append(srcv,file) continue } upload = true dstv = append(dstv,file) continue } /* idx := strings.Index(v,":") if 0 <= idx { remote = v[0:idx] if len(srcv) == 0 { download = true srcv = append(srcv,v[idx+1:]) continue } upload = true dstv = append(dstv,v[idx+1:]) continue } */ if download { dstv = append(dstv,v) }else{ srcv = append(srcv,v) } } hostport := "@" + host + ":" + port if upload { if host != "" { xargv = append(xargv,hostport) } xargv = append(xargv,"PUT") xargv = append(xargv,srcv[0:]...) xargv = append(xargv,dstv[0:]...) //fmt.Printf("--I-- FileCopy PUT gsh://%s/%v < %v // %v\n",hostport,dstv,srcv,xargv) fmt.Printf("--I-- FileCopy PUT gsh://%s/%v < %v\n",hostport,dstv,srcv) gsh.RexecClient(xargv) }else if download { if host != "" { xargv = append(xargv,hostport) } xargv = append(xargv,"GET") xargv = append(xargv,srcv[0:]...) xargv = append(xargv,dstv[0:]...) //fmt.Printf("--I-- FileCopy GET gsh://%v/%v > %v // %v\n”,hostport,srcv,dstv,xargv) fmt.Printf(“–I– FileCopy GET gsh://%v/%v > %v\n”,hostport,srcv,dstv) gsh.RexecClient(xargv) }else{ } } // target func (gsh*GshContext)Trelpath(rloc string)(string){ cwd, _ := os.Getwd() os.Chdir(gsh.RWD) os.Chdir(rloc) twd, _ := os.Getwd() os.Chdir(cwd) tpath := twd + “/” + rloc return tpath } // join to rmote GShell – [user@]host[:port] or cd host:[port]:path func (gsh*GshContext)Rjoin(argv[]string){ if len(argv) <= 1 { fmt.Printf("--I-- current server = %v\n",gsh.RSERV) return } serv := argv[1] servv := strings.Split(serv,":") if 1 <= len(servv) { if servv[0] == "lo" { servv[0] = "localhost" } } switch len(servv) { case 1: //if strings.Index(serv,":") < 0 { serv = servv[0] + ":" + fmt.Sprintf("%d",GSH_PORT) //} case 2: // host:port serv = strings.Join(servv,":") } xargv := []string{"rex-join","@"+serv,"HELO"} rcode,stat := gsh.RexecClient(xargv) if (rcode / 100) == 2 { fmt.Printf("--I-- OK Joined (%v) %v\n",rcode,stat) gsh.RSERV = serv }else{ fmt.Printf("--I-- NG, could not joined (%v) %v\n",rcode,stat) } } func (gsh*GshContext)Rexec(argv[]string){ if len(argv) <= 1 { fmt.Printf("--I-- rexec command [ | {file || {command} ]\n",gsh.RSERV) return } /* nargv := gshScanArg(strings.Join(argv," "),0) fmt.Printf("--D-- nargc=%d [%v]\n",len(nargv),nargv) if nargv[1][0] != '{' { nargv[1] = "{" + nargv[1] + "}" fmt.Printf("--D-- nargc=%d [%v]\n",len(nargv),nargv) } argv = nargv */ nargv := []string{} nargv = append(nargv,"{"+strings.Join(argv[1:]," ")+"}") fmt.Printf("--D-- nargc=%d %v\n",len(nargv),nargv) argv = nargv xargv := []string{"rex-exec","@"+gsh.RSERV,"GET"} xargv = append(xargv,argv...) xargv = append(xargv,"/dev/tty") rcode,stat := gsh.RexecClient(xargv) if (rcode / 100) == 2 { fmt.Printf("--I-- OK Rexec (%v) %v\n",rcode,stat) }else{ fmt.Printf("--I-- NG Rexec (%v) %v\n",rcode,stat) } } func (gsh*GshContext)Rchdir(argv[]string){ if len(argv) <= 1 { return } cwd, _ := os.Getwd() os.Chdir(gsh.RWD) os.Chdir(argv[1]) twd, _ := os.Getwd() gsh.RWD = twd fmt.Printf("--I-- JWD=%v\n",twd) os.Chdir(cwd) } func (gsh*GshContext)Rpwd(argv[]string){ fmt.Printf("%v\n",gsh.RWD) } func (gsh*GshContext)Rls(argv[]string){ cwd, _ := os.Getwd() os.Chdir(gsh.RWD) argv[0] = "-ls" gsh.xFind(argv) os.Chdir(cwd) } func (gsh*GshContext)Rput(argv[]string){ var local string = "" var remote string = "" if 1 < len(argv) { local = argv[1] remote = local // base name } if 2 < len(argv) { remote = argv[2] } fmt.Printf("--I-- jput from=%v to=%v\n",local,gsh.Trelpath(remote)) } func (gsh*GshContext)Rget(argv[]string){ var remote string = "" var local string = "" if 1 < len(argv) { remote = argv[1] local = remote // base name } if 2 < len(argv) { local = argv[2] } fmt.Printf("--I-- jget from=%v to=%v\n",gsh.Trelpath(remote),local) } // network // -s, -si, -so // bi-directional, source, sync (maybe socket) func (gshCtx*GshContext)sconnect(inTCP bool, argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: -s [host]:[port[.udp]]\n") return } remote := argv[1] if remote == ":" { remote = "0.0.0.0:9999" } if inTCP { // TCP dport, err := net.ResolveTCPAddr("tcp",remote); if err != nil { fmt.Printf("Address error: %s (%s)\n",remote,err) return } conn, err := net.DialTCP("tcp",nil,dport) if err != nil { fmt.Printf("Connection error: %s (%s)\n",remote,err) return } file, _ := conn.File(); fd := file.Fd() fmt.Printf("Socket: connected to %s, socket[%d]\n",remote,fd) savfd := gshPA.Files[1] gshPA.Files[1] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[1] = savfd file.Close() conn.Close() }else{ //dport, err := net.ResolveUDPAddr("udp4",remote); dport, err := net.ResolveUDPAddr("udp",remote); if err != nil { fmt.Printf("Address error: %s (%s)\n",remote,err) return } //conn, err := net.DialUDP("udp4",nil,dport) conn, err := net.DialUDP("udp",nil,dport) if err != nil { fmt.Printf("Connection error: %s (%s)\n",remote,err) return } file, _ := conn.File(); fd := file.Fd() ar := conn.RemoteAddr() //al := conn.LocalAddr() fmt.Printf("Socket: connected to %s [%s], socket[%d]\n", remote,ar.String(),fd) savfd := gshPA.Files[1] gshPA.Files[1] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[1] = savfd file.Close() conn.Close() } } func (gshCtx*GshContext)saccept(inTCP bool, argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: -ac [host]:[port[.udp]]\n") return } local := argv[1] if local == ":" { local = "0.0.0.0:9999" } if inTCP { // TCP port, err := net.ResolveTCPAddr("tcp",local); if err != nil { fmt.Printf("Address error: %s (%s)\n",local,err) return } //fmt.Printf("Listen at %s...\n",local); sconn, err := net.ListenTCP("tcp", port) if err != nil { fmt.Printf("Listen error: %s (%s)\n",local,err) return } //fmt.Printf("Accepting at %s...\n",local); aconn, err := sconn.AcceptTCP() if err != nil { fmt.Printf("Accept error: %s (%s)\n",local,err) return } file, _ := aconn.File() fd := file.Fd() fmt.Printf("Accepted TCP at %s [%d]\n",local,fd) savfd := gshPA.Files[0] gshPA.Files[0] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[0] = savfd sconn.Close(); aconn.Close(); file.Close(); }else{ //port, err := net.ResolveUDPAddr("udp4",local); port, err := net.ResolveUDPAddr("udp",local); if err != nil { fmt.Printf("Address error: %s (%s)\n",local,err) return } fmt.Printf("Listen UDP at %s...\n",local); //uconn, err := net.ListenUDP("udp4", port) uconn, err := net.ListenUDP("udp", port) if err != nil { fmt.Printf("Listen error: %s (%s)\n",local,err) return } file, _ := uconn.File() fd := file.Fd() ar := uconn.RemoteAddr() remote := "" if ar != nil { remote = ar.String() } if remote == "" { remote = "?" } // not yet received //fmt.Printf("Accepted at %s [%d] <- %s\n",local,fd,"") savfd := gshPA.Files[0] gshPA.Files[0] = fd; savenv := gshPA.Env gshPA.Env = append(savenv, "REMOTE_HOST="+remote) gshCtx.gshellv(argv[2:]) gshPA.Env = savenv gshPA.Files[0] = savfd uconn.Close(); file.Close(); } } // empty line command func (gshCtx*GshContext)xPwd(argv[]string){ // execute context command, pwd + date // context notation, representation scheme, to be resumed at re-login cwd, _ := os.Getwd() switch { case isin("-a",argv): gshCtx.ShowChdirHistory(argv) case isin("-ls",argv): showFileInfo(cwd,argv) default: fmt.Printf("%s\n",cwd) case isin("-v",argv): // obsolete emtpy command t := time.Now() date := t.Format(time.UnixDate) exe, _ := os.Executable() host, _ := os.Hostname() fmt.Printf("{PWD=\"%s\"",cwd) fmt.Printf(" HOST=\"%s\"",host) fmt.Printf(" DATE=\"%s\"",date) fmt.Printf(" TIME=\"%s\"",t.String()) fmt.Printf(" PID=\"%d\"",os.Getpid()) fmt.Printf(" EXE=\"%s\"",exe) fmt.Printf("}\n") } } // History // these should be browsed and edited by HTTP browser // show the time of command with -t and direcotry with -ls // openfile-history, sort by -a -m -c // sort by elapsed time by -t -s // search by “more” like interface // edit history // sort history, and wc or uniq // CPU and other resource consumptions // limit showing range (by time or so) // export / import history func (gshCtx *GshContext)xHistory(argv []string){ atWorkDirX := -1 if 1 < len(argv) && strBegins(argv[1],"@") { atWorkDirX,_ = strconv.Atoi(argv[1][1:]) } //fmt.Printf("--D-- showHistory(%v)\n",argv) for i, v := range gshCtx.CommandHistory { // exclude commands not to be listed by default // internal commands may be suppressed by default if v.CmdLine == "" && !isin("-a",argv) { continue; } if 0 <= atWorkDirX { if v.WorkDirX != atWorkDirX { continue } } if !isin("-n",argv){ // like "fc" fmt.Printf("!%-2d ",i) } if isin("-v",argv){ fmt.Println(v) // should be with it date }else{ if isin("-l",argv) || isin("-l0",argv) { elps := v.EndAt.Sub(v.StartAt); start := v.StartAt.Format(time.Stamp) fmt.Printf("@%d ",v.WorkDirX) fmt.Printf("[%v] %11v/t ",start,elps) } if isin("-l",argv) && !isin("-l0",argv){ fmt.Printf("%v",Rusagef("%t %u\t// %s",argv,v.Rusagev)) } if isin("-at",argv) { // isin("-ls",argv){ dhi := v.WorkDirX // workdir history index fmt.Printf("@%d %s\t",dhi,v.WorkDir) // show the FileInfo of the output command?? } fmt.Printf("%s",v.CmdLine) fmt.Printf("\n") } } } // !n - history index func searchHistory(gshCtx GshContext, gline string) (string, bool, bool){ if gline[0] == '!' { hix, err := strconv.Atoi(gline[1:]) if err != nil { fmt.Printf("--E-- (%s : range)\n",hix) return "", false, true } if hix < 0 || len(gshCtx.CommandHistory) <= hix { fmt.Printf("--E-- (%d : out of range)\n",hix) return "", false, true } return gshCtx.CommandHistory[hix].CmdLine, false, false } // search //for i, v := range gshCtx.CommandHistory { //} return gline, false, false } func (gsh*GshContext)cmdStringInHistory(hix int)(cmd string, ok bool){ if 0 <= hix && hix < len(gsh.CommandHistory) { return gsh.CommandHistory[hix].CmdLine,true } return "",false } // temporary adding to PATH environment // cd name -lib for LD_LIBRARY_PATH // chdir with directory history (date + full-path) // -s for sort option (by visit date or so) func (gsh*GshContext)ShowChdirHistory1(i int,v GChdirHistory, argv []string){ fmt.Printf("!%-2d ",v.CmdIndex) // the first command at this WorkDir fmt.Printf("@%d ",i) fmt.Printf("[%v] ",v.MovedAt.Format(time.Stamp)) showFileInfo(v.Dir,argv) } func (gsh*GshContext)ShowChdirHistory(argv []string){ for i, v := range gsh.ChdirHistory { gsh.ShowChdirHistory1(i,v,argv) } } func skipOpts(argv[]string)(int){ for i,v := range argv { if strBegins(v,"-") { }else{ return i } } return -1 } func (gshCtx*GshContext)xChdir(argv []string){ cdhist := gshCtx.ChdirHistory if isin("?",argv ) || isin("-t",argv) || isin("-a",argv) { gshCtx.ShowChdirHistory(argv) return } pwd, _ := os.Getwd() dir := "" if len(argv) <= 1 { dir = toFullpath("~") }else{ i := skipOpts(argv[1:]) if i < 0 { dir = toFullpath("~") }else{ dir = argv[1+i] } } if strBegins(dir,"@") { if dir == "@0" { // obsolete dir = gshCtx.StartDir }else if dir == "@!" { index := len(cdhist) - 1 if 0 < index { index -= 1 } dir = cdhist[index].Dir }else{ index, err := strconv.Atoi(dir[1:]) if err != nil { fmt.Printf("--E-- xChdir(%v)\n",err) dir = "?" }else if len(gshCtx.ChdirHistory) <= index { fmt.Printf("--E-- xChdir(history range error)\n") dir = "?" }else{ dir = cdhist[index].Dir } } } if dir != "?" { err := os.Chdir(dir) if err != nil { fmt.Printf("--E-- xChdir(%s)(%v)\n",argv[1],err) }else{ cwd, _ := os.Getwd() if cwd != pwd { hist1 := GChdirHistory { } hist1.Dir = cwd hist1.MovedAt = time.Now() hist1.CmdIndex = len(gshCtx.CommandHistory)+1 gshCtx.ChdirHistory = append(cdhist,hist1) if !isin("-s",argv){ //cwd, _ := os.Getwd() //fmt.Printf("%s\n",cwd) ix := len(gshCtx.ChdirHistory)-1 gshCtx.ShowChdirHistory1(ix,hist1,argv) } } } } if isin("-ls",argv){ cwd, _ := os.Getwd() showFileInfo(cwd,argv); } } func TimeValSub(tv1 *syscall.Timeval, tv2 *syscall.Timeval){ *tv1 = syscall.NsecToTimeval(tv1.Nano() - tv2.Nano()) } func RusageSubv(ru1, ru2 [2]syscall.Rusage)([2]syscall.Rusage){ TimeValSub(&ru1[0].Utime,&ru2[0].Utime) TimeValSub(&ru1[0].Stime,&ru2[0].Stime) TimeValSub(&ru1[1].Utime,&ru2[1].Utime) TimeValSub(&ru1[1].Stime,&ru2[1].Stime) return ru1 } func TimeValAdd(tv1 syscall.Timeval, tv2 syscall.Timeval)(syscall.Timeval){ tvs := syscall.NsecToTimeval(tv1.Nano() + tv2.Nano()) return tvs } /* func RusageAddv(ru1, ru2 [2]syscall.Rusage)([2]syscall.Rusage){ TimeValAdd(ru1[0].Utime,ru2[0].Utime) TimeValAdd(ru1[0].Stime,ru2[0].Stime) TimeValAdd(ru1[1].Utime,ru2[1].Utime) TimeValAdd(ru1[1].Stime,ru2[1].Stime) return ru1 } */ // Resource Usage func sRusagef(fmtspec string, argv []string, ru [2]syscall.Rusage)(string){ // ru[0] self , ru[1] children ut := TimeValAdd(ru[0].Utime,ru[1].Utime) st := TimeValAdd(ru[0].Stime,ru[1].Stime) uu := (ut.Sec*1000000 + int64(ut.Usec)) * 1000 su := (st.Sec*1000000 + int64(st.Usec)) * 1000 tu := uu + su ret := fmt.Sprintf(“%v/sum”,abbtime(tu)) ret += fmt.Sprintf(“, %v/usr”,abbtime(uu)) ret += fmt.Sprintf(“, %v/sys”,abbtime(su)) return ret } func Rusagef(fmtspec string, argv []string, ru [2]syscall.Rusage)(string){ ut := TimeValAdd(ru[0].Utime,ru[1].Utime) st := TimeValAdd(ru[0].Stime,ru[1].Stime) fmt.Printf(“%d.%06ds/u “,ut.Sec,ut.Usec) //ru[1].Utime.Sec,ru[1].Utime.Usec) fmt.Printf(“%d.%06ds/s “,st.Sec,st.Usec) //ru[1].Stime.Sec,ru[1].Stime.Usec) return “” } func Getrusagev()([2]syscall.Rusage){ var ruv = [2]syscall.Rusage{} syscall.Getrusage(syscall.RUSAGE_SELF,&ruv[0]) syscall.Getrusage(syscall.RUSAGE_CHILDREN,&ruv[1]) return ruv } func showRusage(what string,argv []string, ru *syscall.Rusage){ fmt.Printf(“%s: “,what); fmt.Printf(“Usr=%d.%06ds”,ru.Utime.Sec,ru.Utime.Usec) fmt.Printf(” Sys=%d.%06ds”,ru.Stime.Sec,ru.Stime.Usec) fmt.Printf(” Rss=%vB”,ru.Maxrss) if isin(“-l”,argv) { fmt.Printf(” MinFlt=%v”,ru.Minflt) fmt.Printf(” MajFlt=%v”,ru.Majflt) fmt.Printf(” IxRSS=%vB”,ru.Ixrss) fmt.Printf(” IdRSS=%vB”,ru.Idrss) fmt.Printf(” Nswap=%vB”,ru.Nswap) fmt.Printf(” Read=%v”,ru.Inblock) fmt.Printf(” Write=%v”,ru.Oublock) } fmt.Printf(” Snd=%v”,ru.Msgsnd) fmt.Printf(” Rcv=%v”,ru.Msgrcv) //if isin(“-l”,argv) { fmt.Printf(” Sig=%v”,ru.Nsignals) //} fmt.Printf(“\n”); } func (gshCtx *GshContext)xTime(argv[]string)(bool){ if 2 <= len(argv){ gshCtx.LastRusage = syscall.Rusage{} rusagev1 := Getrusagev() fin := gshCtx.gshellv(argv[1:]) rusagev2 := Getrusagev() showRusage(argv[1],argv,&gshCtx.LastRusage) rusagev := RusageSubv(rusagev2,rusagev1) showRusage("self",argv,&rusagev[0]) showRusage("chld",argv,&rusagev[1]) return fin }else{ rusage:= syscall.Rusage {} syscall.Getrusage(syscall.RUSAGE_SELF,&rusage) showRusage("self",argv, &rusage) syscall.Getrusage(syscall.RUSAGE_CHILDREN,&rusage) showRusage("chld",argv, &rusage) return false } } func (gshCtx *GshContext)xJobs(argv[]string){ fmt.Printf("%d Jobs\n",len(gshCtx.BackGroundJobs)) for ji, pid := range gshCtx.BackGroundJobs { //wstat := syscall.WaitStatus {0} rusage := syscall.Rusage {} //wpid, err := syscall.Wait4(pid,&wstat,syscall.WNOHANG,&rusage); wpid, err := syscall.Wait4(pid,nil,syscall.WNOHANG,&rusage); if err != nil { fmt.Printf("--E-- %%%d [%d] (%v)\n",ji,pid,err) }else{ fmt.Printf("%%%d[%d](%d)\n",ji,pid,wpid) showRusage("chld",argv,&rusage) } } } func (gsh*GshContext)inBackground(argv[]string)(bool){ if gsh.CmdTrace { fmt.Printf("--I-- inBackground(%v)\n",argv) } gsh.BackGround = true // set background option xfin := false xfin = gsh.gshellv(argv) gsh.BackGround = false return xfin } // -o file without command means just opening it and refer by #N // should be listed by "files" comnmand func (gshCtx*GshContext)xOpen(argv[]string){ var pv = []int{-1,-1} err := syscall.Pipe(pv) fmt.Printf("--I-- pipe()=[#%d,#%d](%v)\n",pv[0],pv[1],err) } func (gshCtx*GshContext)fromPipe(argv[]string){ } func (gshCtx*GshContext)xClose(argv[]string){ } // redirect func (gshCtx*GshContext)redirect(argv[]string)(bool){ if len(argv) < 2 { return false } cmd := argv[0] fname := argv[1] var file *os.File = nil fdix := 0 mode := os.O_RDONLY switch { case cmd == "-i" || cmd == "<": fdix = 0 mode = os.O_RDONLY case cmd == "-o" || cmd == ">“: fdix = 1 mode = os.O_RDWR | os.O_CREATE case cmd == “-a” || cmd == “>>”: fdix = 1 mode = os.O_RDWR | os.O_CREATE | os.O_APPEND } if fname[0] == ‘#’ { fd, err := strconv.Atoi(fname[1:]) if err != nil { fmt.Printf(“–E– (%v)\n”,err) return false } file = os.NewFile(uintptr(fd),”MaybePipe”) }else{ xfile, err := os.OpenFile(argv[1], mode, 0600) if err != nil { fmt.Printf(“–E– (%s)\n”,err) return false } file = xfile } gshPA := gshCtx.gshPA savfd := gshPA.Files[fdix] gshPA.Files[fdix] = file.Fd() fmt.Printf(“–I– Opened [%d] %s\n”,file.Fd(),argv[1]) gshCtx.gshellv(argv[2:]) gshPA.Files[fdix] = savfd return false } //fmt.Fprintf(res, “GShell Status: %q”, html.EscapeString(req.URL.Path)) func httpHandler(res http.ResponseWriter, req *http.Request){ path := req.URL.Path fmt.Printf(“–I– Got HTTP Request(%s)\n”,path) { gshCtxBuf, _ := setupGshContext() gshCtx := &gshCtxBuf fmt.Printf(“–I– %s\n”,path[1:]) gshCtx.tgshelll(path[1:]) } fmt.Fprintf(res, “Hello(^-^)/\n%s\n”,path) } func (gshCtx *GshContext) httpServer(argv []string){ http.HandleFunc(“/”, httpHandler) accport := “localhost:9999” fmt.Printf(“–I– HTTP Server Start at [%s]\n”,accport) http.ListenAndServe(accport,nil) } func (gshCtx *GshContext)xGo(argv[]string){ go gshCtx.gshellv(argv[1:]); } func (gshCtx *GshContext) xPs(argv[]string)(){ } // Plugin // plugin [-ls [names]] to list plugins // Reference: plugin source code func (gshCtx *GshContext) whichPlugin(name string,argv[]string)(pi *PluginInfo){ pi = nil for _,p := range gshCtx.PluginFuncs { if p.Name == name && pi == nil { pi = &p } if !isin(“-s”,argv){ //fmt.Printf(“%v %v “,i,p) if isin(“-ls”,argv){ showFileInfo(p.Path,argv) }else{ fmt.Printf(“%s\n”,p.Name) } } } return pi } func (gshCtx *GshContext) xPlugin(argv[]string) (error) { if len(argv) == 0 || argv[0] == “-ls” { gshCtx.whichPlugin(“”,argv) return nil } name := argv[0] Pin := gshCtx.whichPlugin(name,[]string{“-s”}) if Pin != nil { os.Args = argv // should be recovered? Pin.Addr.(func())() return nil } sofile := toFullpath(argv[0] + “.so”) // or find it by which($PATH) p, err := plugin.Open(sofile) if err != nil { fmt.Printf(“–E– plugin.Open(%s)(%v)\n”,sofile,err) return err } fname := “Main” f, err := p.Lookup(fname) if( err != nil ){ fmt.Printf(“–E– plugin.Lookup(%s)(%v)\n”,fname,err) return err } pin := PluginInfo {p,f,name,sofile} gshCtx.PluginFuncs = append(gshCtx.PluginFuncs,pin) fmt.Printf(“–I– added (%d)\n”,len(gshCtx.PluginFuncs)) //fmt.Printf(“–I– first call(%s:%s)%v\n”,sofile,fname,argv) os.Args = argv f.(func())() return err } func (gshCtx*GshContext)Args(argv[]string){ for i,v := range os.Args { fmt.Printf(“[%v] %v\n”,i,v) } } func (gshCtx *GshContext) showVersion(argv[]string){ if isin(“-l”,argv) { fmt.Printf(“%v/%v (%v)”,NAME,VERSION,DATE); }else{ fmt.Printf(“%v”,VERSION); } if isin(“-a”,argv) { fmt.Printf(” %s”,AUTHOR) } if !isin(“-n”,argv) { fmt.Printf(“\n”) } } // Scanf // string decomposer // scanf [format] [input] func scanv(sstr string)(strv[]string){ strv = strings.Split(sstr,” “) return strv } func scanUntil(src,end string)(rstr string,leng int){ idx := strings.Index(src,end) if 0 <= idx { rstr = src[0:idx] return rstr,idx+len(end) } return src,0 } // -bn -- display base-name part only // can be in some %fmt, for sed rewriting func (gsh*GshContext)printVal(fmts string, vstr string, optv[]string){ //vint,err := strconv.Atoi(vstr) var ival int64 = 0 n := 0 err := error(nil) if strBegins(vstr,"_") { vx,_ := strconv.Atoi(vstr[1:]) if vx < len(gsh.iValues) { vstr = gsh.iValues[vx] }else{ } } // should use Eval() if strBegins(vstr,"0x") { n,err = fmt.Sscanf(vstr[2:],"%x",&ival) }else{ n,err = fmt.Sscanf(vstr,"%d",&ival) //fmt.Printf("--D-- n=%d err=(%v) {%s}=%v\n",n,err,vstr, ival) } if n == 1 && err == nil { //fmt.Printf("--D-- formatn(%v) ival(%v)\n",fmts,ival) fmt.Printf("%"+fmts,ival) }else{ if isin("-bn",optv){ fmt.Printf("%"+fmts,filepath.Base(vstr)) }else{ fmt.Printf("%"+fmts,vstr) } } } func (gsh*GshContext)printfv(fmts,div string,argv[]string,optv[]string,list[]string){ //fmt.Printf("{%d}",len(list)) //curfmt := "v" outlen := 0 curfmt := gsh.iFormat if 0 < len(fmts) { for xi := 0; xi < len(fmts); xi++ { fch := fmts[xi] if fch == '%' { if xi+1 < len(fmts) { curfmt = string(fmts[xi+1]) gsh.iFormat = curfmt xi += 1 if xi+1 < len(fmts) && fmts[xi+1] == '(' { vals,leng := scanUntil(fmts[xi+2:],")") //fmt.Printf("--D-- show fmt(%v) val(%v) next(%v)\n",curfmt,vals,leng) gsh.printVal(curfmt,vals,optv) xi += 2+leng-1 outlen += 1 } continue } } if fch == '_' { hi,leng := scanInt(fmts[xi+1:]) if 0 < leng { if hi < len(gsh.iValues) { gsh.printVal(curfmt,gsh.iValues[hi],optv) outlen += 1 // should be the real length }else{ fmt.Printf("((out-range))") } xi += leng continue; } } fmt.Printf("%c",fch) outlen += 1 } }else{ //fmt.Printf("--D-- print {%s}\n") for i,v := range list { if 0 < i { fmt.Printf(div) } gsh.printVal(curfmt,v,optv) outlen += 1 } } if 0 < outlen { fmt.Printf("\n") } } func (gsh*GshContext)Scanv(argv[]string){ //fmt.Printf("--D-- Scanv(%v)\n",argv) if len(argv) == 1 { return } argv = argv[1:] fmts := "" if strBegins(argv[0],"-F") { fmts = argv[0] gsh.iDelimiter = fmts argv = argv[1:] } input := strings.Join(argv," ") if fmts == "" { // simple decomposition v := scanv(input) gsh.iValues = v //fmt.Printf("%v\n",strings.Join(v,",")) }else{ v := make([]string,8) n,err := fmt.Sscanf(input,fmts,&v[0],&v[1],&v[2],&v[3]) fmt.Printf("--D-- Scanf ->(%v) n=%d err=(%v)\n”,v,n,err) gsh.iValues = v } } func (gsh*GshContext)Printv(argv[]string){ if false { //@@U fmt.Printf(“%v\n”,strings.Join(argv[1:],” “)) return } //fmt.Printf(“–D– Printv(%v)\n”,argv) //fmt.Printf(“%v\n”,strings.Join(gsh.iValues,”,”)) div := gsh.iDelimiter fmts := “” argv = argv[1:] if 0 < len(argv) { if strBegins(argv[0],"-F") { div = argv[0][2:] argv = argv[1:] } } optv := []string{} for _,v := range argv { if strBegins(v,"-"){ optv = append(optv,v) argv = argv[1:] }else{ break; } } if 0 < len(argv) { fmts = strings.Join(argv," ") } gsh.printfv(fmts,div,argv,optv,gsh.iValues) } func (gsh*GshContext)Basename(argv[]string){ for i,v := range gsh.iValues { gsh.iValues[i] = filepath.Base(v) } } func (gsh*GshContext)Sortv(argv[]string){ sv := gsh.iValues sort.Slice(sv , func(i,j int) bool { return sv[i] < sv[j] }) } func (gsh*GshContext)Shiftv(argv[]string){ vi := len(gsh.iValues) if 0 < vi { if isin("-r",argv) { top := gsh.iValues[0] gsh.iValues = append(gsh.iValues[1:],top) }else{ gsh.iValues = gsh.iValues[1:] } } } func (gsh*GshContext)Enq(argv[]string){ } func (gsh*GshContext)Deq(argv[]string){ } func (gsh*GshContext)Push(argv[]string){ gsh.iValStack = append(gsh.iValStack,argv[1:]) fmt.Printf("depth=%d\n",len(gsh.iValStack)) } func (gsh*GshContext)Dump(argv[]string){ for i,v := range gsh.iValStack { fmt.Printf("%d %v\n",i,v) } } func (gsh*GshContext)Pop(argv[]string){ depth := len(gsh.iValStack) if 0 < depth { v := gsh.iValStack[depth-1] if isin("-cat",argv){ gsh.iValues = append(gsh.iValues,v...) }else{ gsh.iValues = v } gsh.iValStack = gsh.iValStack[0:depth-1] fmt.Printf("depth=%d %s\n",len(gsh.iValStack),gsh.iValues) }else{ fmt.Printf("depth=%d\n",depth) } } // Command Interpreter func (gshCtx*GshContext)gshellv(argv []string) (fin bool) { fin = false if gshCtx.CmdTrace { fmt.Fprintf(os.Stderr,”–I– gshellv((%d))\n”,len(argv)) } if len(argv) <= 0 { return false } xargv := []string{} for ai := 0; ai < len(argv); ai++ { xargv = append(xargv,strsubst(gshCtx,argv[ai],false)) } argv = xargv if false { for ai := 0; ai < len(argv); ai++ { fmt.Printf("[%d] %s [%d]%T\n", ai,argv[ai],len(argv[ai]),argv[ai]) } } cmd := argv[0] if gshCtx.CmdTrace { fmt.Fprintf(os.Stderr,"--I-- gshellv(%d)%v\n",len(argv),argv) } switch { // https://tour.golang.org/flowcontrol/11 case cmd == "": gshCtx.xPwd([]string{}); // emtpy command case cmd == "-x": gshCtx.CmdTrace = ! gshCtx.CmdTrace case cmd == "-xt": gshCtx.CmdTime = ! gshCtx.CmdTime case cmd == "-ot": gshCtx.sconnect(true, argv) case cmd == "-ou": gshCtx.sconnect(false, argv) case cmd == "-it": gshCtx.saccept(true , argv) case cmd == "-iu": gshCtx.saccept(false, argv) case cmd == "-i" || cmd == "<" || cmd == "-o" || cmd == ">” || cmd == “-a” || cmd == “>>” || cmd == “-s” || cmd == “><": gshCtx.redirect(argv) case cmd == "|": gshCtx.fromPipe(argv) case cmd == "args": gshCtx.Args(argv) case cmd == "bg" || cmd == "-bg": rfin := gshCtx.inBackground(argv[1:]) return rfin case cmd == "-bn": gshCtx.Basename(argv) case cmd == "call": _,_ = gshCtx.excommand(false,argv[1:]) case cmd == "cd" || cmd == "chdir": gshCtx.xChdir(argv); case cmd == "-cksum": gshCtx.xFind(argv) case cmd == "-sum": gshCtx.xFind(argv) case cmd == "close": gshCtx.xClose(argv) case cmd == "gcp": gshCtx.FileCopy(argv) case cmd == "dec" || cmd == "decode": gshCtx.Dec(argv) case cmd == "#define": case cmd == "dic": xDic(argv) case cmd == "dump": gshCtx.Dump(argv) case cmd == "echo": echo(argv,true) case cmd == "enc" || cmd == "encode": gshCtx.Enc(argv) case cmd == "env": env(argv) case cmd == "eval": xEval(argv[1:],true) case cmd == "ev" || cmd == "events": dumpEvents(0) case cmd == "exec": _,_ = gshCtx.excommand(true,argv[1:]) // should not return here case cmd == "exit" || cmd == "quit": // write Result code EXIT to 3> return true case cmd == “fdls”: // dump the attributes of fds (of other process) case cmd == “-find” || cmd == “fin” || cmd == “ufind” || cmd == “uf”: gshCtx.xFind(argv[1:]) case cmd == “fu”: gshCtx.xFind(argv[1:]) case cmd == “fork”: // mainly for a server case cmd == “-gen”: gshCtx.gen(argv) case cmd == “-go”: gshCtx.xGo(argv) case cmd == “-grep”: gshCtx.xFind(argv) case cmd == “gdeq”: gshCtx.Deq(argv) case cmd == “genq”: gshCtx.Enq(argv) case cmd == “gpop”: gshCtx.Pop(argv) case cmd == “gpush”: gshCtx.Push(argv) case cmd == “history” || cmd == “hi”: // hi should be alias gshCtx.xHistory(argv) case cmd == “jobs”: gshCtx.xJobs(argv) case cmd == “lnsp”: gshCtx.SplitLine(argv) case cmd == “-ls”: gshCtx.xFind(argv) case cmd == “nop”: // do nothing case cmd == “pipe”: gshCtx.xOpen(argv) case cmd == “plug” || cmd == “plugin” || cmd == “pin”: gshCtx.xPlugin(argv[1:]) case cmd == “print” || cmd == “-pr”: // output internal slice // also sprintf should be gshCtx.Printv(argv) case cmd == “ps”: gshCtx.xPs(argv) case cmd == “pstitle”: // to be gsh.title case cmd == “rexecd” || cmd == “rexd”: gshCtx.RexecServer(argv) case cmd == “rexec” || cmd == “rex”: gshCtx.RexecClient(argv) case cmd == “repeat” || cmd == “rep”: // repeat cond command gshCtx.repeat(argv) case cmd == “replay”: gshCtx.xReplay(argv) case cmd == “scan”: // scan input (or so in fscanf) to internal slice (like Files or map) gshCtx.Scanv(argv) case cmd == “set”: // set name … case cmd == “serv”: gshCtx.httpServer(argv) case cmd == “shift”: gshCtx.Shiftv(argv) case cmd == “sleep”: gshCtx.sleep(argv) case cmd == “-sort”: gshCtx.Sortv(argv) case cmd == “j” || cmd == “join”: gshCtx.Rjoin(argv) case cmd == “a” || cmd == “alpa”: gshCtx.Rexec(argv) case cmd == “jcd” || cmd == “jchdir”: gshCtx.Rchdir(argv) case cmd == “jget”: gshCtx.Rget(argv) case cmd == “jls”: gshCtx.Rls(argv) case cmd == “jput”: gshCtx.Rput(argv) case cmd == “jpwd”: gshCtx.Rpwd(argv) case cmd == “time”: fin = gshCtx.xTime(argv) case cmd == “ungets”: if 1 < len(argv) { ungets(argv[1]+"\n") }else{ } case cmd == "pwd": gshCtx.xPwd(argv); case cmd == "ver" || cmd == "-ver" || cmd == "version": gshCtx.showVersion(argv) case cmd == "where": // data file or so? case cmd == "which": which("PATH",argv); default: if gshCtx.whichPlugin(cmd,[]string{"-s"}) != nil { gshCtx.xPlugin(argv) }else{ notfound,_ := gshCtx.excommand(false,argv) if notfound { fmt.Printf("--E-- command not found (%v)\n",cmd) } } } return fin } func (gsh*GshContext)gshelll(gline string) (rfin bool) { argv := strings.Split(string(gline)," ") fin := gsh.gshellv(argv) return fin } func (gsh*GshContext)tgshelll(gline string)(xfin bool){ start := time.Now() fin := gsh.gshelll(gline) end := time.Now() elps := end.Sub(start); if gsh.CmdTime { fmt.Printf("--T-- " + time.Now().Format(time.Stamp) + "(%d.%09ds)\n", elps/1000000000,elps%1000000000) } return fin } func Ttyid() (int) { fi, err := os.Stdin.Stat() if err != nil { return 0; } //fmt.Printf("Stdin: %v Dev=%d\n", // fi.Mode(),fi.Mode()&os.ModeDevice) if (fi.Mode() & os.ModeDevice) != 0 { stat := syscall.Stat_t{}; err := syscall.Fstat(0,&stat) if err != nil { //fmt.Printf("--I-- Stdin: (%v)\n",err) }else{ //fmt.Printf("--I-- Stdin: rdev=%d %d\n", // stat.Rdev&0xFF,stat.Rdev); //fmt.Printf("--I-- Stdin: tty%d\n",stat.Rdev&0xFF); return int(stat.Rdev & 0xFF) } } return 0 } func (gshCtx *GshContext) ttyfile() string { //fmt.Printf("--I-- GSH_HOME=%s\n",gshCtx.GshHomeDir) ttyfile := gshCtx.GshHomeDir + "/" + "gsh-tty" + fmt.Sprintf("%02d",gshCtx.TerminalId) //strconv.Itoa(gshCtx.TerminalId) //fmt.Printf("--I-- ttyfile=%s\n",ttyfile) return ttyfile } func (gshCtx *GshContext) ttyline()(*os.File){ file, err := os.OpenFile(gshCtx.ttyfile(),os.O_RDWR|os.O_CREATE|os.O_TRUNC,0600) if err != nil { fmt.Printf("--F-- cannot open %s (%s)\n",gshCtx.ttyfile(),err) return file; } return file } func (gshCtx *GshContext)getline(hix int, skipping bool, prevline string) (string) { if( skipping ){ reader := bufio.NewReaderSize(os.Stdin,LINESIZE) line, _, _ := reader.ReadLine() return string(line) }else if true { return xgetline(hix,prevline,gshCtx) } /* else if( with_exgetline && gshCtx.GetLine != "" ){ //var xhix int64 = int64(hix); // cast newenv := os.Environ() newenv = append(newenv, "GSH_LINENO="+strconv.FormatInt(int64(hix),10) ) tty := gshCtx.ttyline() tty.WriteString(prevline) Pa := os.ProcAttr { "", // start dir newenv, //os.Environ(), []*os.File{os.Stdin,os.Stdout,os.Stderr,tty}, nil, } //fmt.Printf("--I-- getline=%s // %s\n",gsh_getlinev[0],gshCtx.GetLine) proc, err := os.StartProcess(gsh_getlinev[0],[]string{"getline","getline"},&Pa) if err != nil { fmt.Printf("--F-- getline process error (%v)\n",err) // for ; ; { } return "exit (getline program failed)" } //stat, err := proc.Wait() proc.Wait() buff := make([]byte,LINESIZE) count, err := tty.Read(buff) //_, err = tty.Read(buff) //fmt.Printf("--D-- getline (%d)\n",count) if err != nil { if ! (count == 0) { // && err.String() == "EOF" ) { fmt.Printf("--E-- getline error (%s)\n",err) } }else{ //fmt.Printf("--I-- getline OK \"%s\"\n",buff) } tty.Close() gline := string(buff[0:count]) return gline }else */ { // if isatty { fmt.Printf("!%d",hix) fmt.Print(PROMPT) // } reader := bufio.NewReaderSize(os.Stdin,LINESIZE) line, _, _ := reader.ReadLine() return string(line) } } //== begin ======================================================= getline /* * getline.c * 2020-0819 extracted from dog.c * getline.go * 2020-0822 ported to Go */ /* package main // getline main import ( "fmt" // fmt “strings” // strings “os” // os “syscall” // syscall //”bytes” // os //”os/exec” // os ) */ // C language compatibility functions var errno = 0 var stdin *os.File = os.Stdin var stdout *os.File = os.Stdout var stderr *os.File = os.Stderr var EOF = -1 var NULL = 0 type FILE os.File type StrBuff []byte var NULL_FP *os.File = nil var NULLSP = 0 //var LINESIZE = 1024 func system(cmdstr string)(int){ PA := syscall.ProcAttr { “”, // the starting directory os.Environ(), []uintptr{os.Stdin.Fd(),os.Stdout.Fd(),os.Stderr.Fd()}, nil, } argv := strings.Split(cmdstr,” “) pid,err := syscall.ForkExec(argv[0],argv,&PA) if( err != nil ){ fmt.Printf(“–E– syscall(%v) err(%v)\n”,cmdstr,err) } syscall.Wait4(pid,nil,0,nil) /* argv := strings.Split(cmdstr,” “) fmt.Fprintf(os.Stderr,”–I– system(%v)\n”,argv) //cmd := exec.Command(argv[0:]…) cmd := exec.Command(argv[0],argv[1],argv[2]) cmd.Stdin = strings.NewReader(“output of system”) var out bytes.Buffer cmd.Stdout = &out var serr bytes.Buffer cmd.Stderr = &serr err := cmd.Run() if err != nil { fmt.Fprintf(os.Stderr,”–E– system(%v)err(%v)\n”,argv,err) fmt.Printf(“ERR:%s\n”,serr.String()) }else{ fmt.Printf(“%s”,out.String()) } */ return 0 } func atoi(str string)(ret int){ ret,err := fmt.Sscanf(str,”%d”,ret) if err == nil { return ret }else{ // should set errno return 0 } } func getenv(name string)(string){ val,got := os.LookupEnv(name) if got { return val }else{ return “?” } } func strcpy(dst StrBuff, src string){ var i int srcb := []byte(src) for i = 0; i < len(src) && srcb[i] != 0; i++ { dst[i] = srcb[i] } dst[i] = 0 } func xstrcpy(dst StrBuff, src StrBuff){ dst = src } func strcat(dst StrBuff, src StrBuff){ dst = append(dst,src...) } func strdup(str StrBuff)(string){ return string(str[0:strlen(str)]) } func sstrlen(str string)(int){ return len(str) } func strlen(str StrBuff)(int){ var i int for i = 0; i < len(str) && str[i] != 0; i++ { } return i } func sizeof(data StrBuff)(int){ return len(data) } func isatty(fd int)(ret int){ return 1 } func fopen(file string,mode string)(fp*os.File){ if mode == "r" { fp,err := os.Open(file) if( err != nil ){ fmt.Printf("--E-- fopen(%s,%s)=(%v)\n",file,mode,err) return NULL_FP; } return fp; }else{ fp,err := os.OpenFile(file,os.O_RDWR|os.O_CREATE|os.O_TRUNC,0600) if( err != nil ){ return NULL_FP; } return fp; } } func fclose(fp*os.File){ fp.Close() } func fflush(fp *os.File)(int){ return 0 } func fgetc(fp*os.File)(int){ var buf [1]byte _,err := fp.Read(buf[0:1]) if( err != nil ){ return EOF; }else{ return int(buf[0]) } } func sfgets(str*string, size int, fp*os.File)(int){ buf := make(StrBuff,size) var ch int var i int for i = 0; i < len(buf)-1; i++ { ch = fgetc(fp) //fprintf(stderr,"--fgets %d/%d %X\n",i,len(buf),ch) if( ch == EOF ){ break; } buf[i] = byte(ch); if( ch == '\n' ){ break; } } buf[i] = 0 //fprintf(stderr,"--fgets %d/%d (%s)\n",i,len(buf),buf[0:i]) return i } func fgets(buf StrBuff, size int, fp*os.File)(int){ var ch int var i int for i = 0; i < len(buf)-1; i++ { ch = fgetc(fp) //fprintf(stderr,"--fgets %d/%d %X\n",i,len(buf),ch) if( ch == EOF ){ break; } buf[i] = byte(ch); if( ch == '\n' ){ break; } } buf[i] = 0 //fprintf(stderr,"--fgets %d/%d (%s)\n",i,len(buf),buf[0:i]) return i } func fputc(ch int , fp*os.File)(int){ var buf [1]byte buf[0] = byte(ch) fp.Write(buf[0:1]) return 0 } func fputs(buf StrBuff, fp*os.File)(int){ fp.Write(buf) return 0 } func xfputss(str string, fp*os.File)(int){ return fputs([]byte(str),fp) } func sscanf(str StrBuff,fmts string, params ...interface{})(int){ fmt.Sscanf(string(str[0:strlen(str)]),fmts,params...) return 0 } func fprintf(fp*os.File,fmts string, params ...interface{})(int){ fmt.Fprintf(fp,fmts,params...) return 0 } // Command Line IME //———————————————————————– MyIME var MyIMEVER = “MyIME/0.0.2”; type RomKana struct { dic string // dictionaly ID pat string // input pattern out string // output pattern hit int64 // count of hit and used } var dicents = 0 var romkana [1024]RomKana var Romkan []RomKana func isinDic(str string)(int){ for i,v := range Romkan { if v.pat == str { return i } } return -1 } const ( DIC_COM_LOAD = “im” DIC_COM_DUMP = “s” DIC_COM_LIST = “ls” DIC_COM_ENA = “en” DIC_COM_DIS = “di” ) func helpDic(argv []string){ out := stderr cmd := “” if 0 < len(argv) { cmd = argv[0] } fprintf(out,"--- %v Usage\n",cmd) fprintf(out,"... Commands\n") fprintf(out,"... %v %-3v [dicName] [dicURL ] -- Import dictionary\n",cmd,DIC_COM_LOAD) fprintf(out,"... %v %-3v [pattern] -- Search in dictionary\n",cmd,DIC_COM_DUMP) fprintf(out,"... %v %-3v [dicName] -- List dictionaries\n",cmd,DIC_COM_LIST) fprintf(out,"... %v %-3v [dicName] -- Disable dictionaries\n",cmd,DIC_COM_DIS) fprintf(out,"... %v %-3v [dicName] -- Enable dictionaries\n",cmd,DIC_COM_ENA) fprintf(out,"... Keys ... %v\n","ESC can be used for '\\'") fprintf(out,"... \\c -- Reverse the case of the last character\n",) fprintf(out,"... \\i -- Replace input with translated text\n",) fprintf(out,"... \\j -- On/Off translation mode\n",) fprintf(out,"... \\l -- Force Lower Case\n",) fprintf(out,"... \\u -- Force Upper Case (software CapsLock)\n",) fprintf(out,"... \\v -- Show translation actions\n",) fprintf(out,"... \\x -- Replace the last input character with it Hexa-Decimal\n",) } func xDic(argv[]string){ if len(argv) <= 1 { helpDic(argv) return } argv = argv[1:] var debug = false var info = false var dump = false cmd := argv[0] argv = argv[1:] opt := "" arg := "" if 0 < len(argv) { arg1 := argv[0] if arg1[0] == '-' { switch arg1 { default: fmt.Printf("--Ed-- Unknown option(%v)\n",arg1) return case "-v": debug = true case "-d": debug = true } opt = arg1 argv = argv[1:] } } dicName := "" dicURL := "" if 0 < len(argv) { arg = argv[0] argv = argv[1:] } if false { fprintf(stderr,"--Dd-- com(%v) opt(%v) arg(%v)\n",cmd,opt,arg) } if cmd == DIC_COM_LOAD { switch arg { default: dicName = "WorldDic" dicURL = WorldDic if info { fprintf(stderr,"--Id-- default dictionary \"%v\"\n",dicName); } case "jkl": dicName = "JKLJaDic" dicURL = JA_JKLDic } if debug { fprintf(stderr,"--Id-- %v URL=%v\n\n",dicName,dicURL); } dicv := strings.Split(dicURL,",") if debug { fprintf(stderr,"--Id-- %v encoded data...\n",dicName) fprintf(stderr,"Type: %v\n",dicv[0]) fprintf(stderr,"Body: %v\n",dicv[1]) fprintf(stderr,"\n") } body,_ := base64.StdEncoding.DecodeString(dicv[1]) if debug { fprintf(stderr,"--Id-- WorldDic %v text...\n",dicName) fprintf(stderr,"%v\n",string(body)) } entv := strings.Split(string(body),"\n"); if info { fprintf(stderr,"--Id-- %v scan...\n",dicName); } var added int = 0 var dup int = 0 for i,v := range entv { var pat string var out string fmt.Sscanf(v,"%s %s",&pat,&out) if len(pat) <= 0 { }else{ if 0 <= isinDic(pat) { dup += 1 continue } romkana[dicents] = RomKana{dicName,pat,out,0} dicents += 1 added += 1 Romkan = append(Romkan,RomKana{dicName,pat,out,0}) if debug { fmt.Printf("[%3v]:[%2v]%-8v [%2v]%v\n", i,len(pat),pat,len(out),out) } } } if info { fprintf(stderr,"--Id-- %v scan... %v added, %v dup. / %v total\n", dicName,added,dup,len(Romkan)); } // should sort by pattern length for conclete match, for performance if debug { arg = "" // search pattern dump = true } } if cmd == DIC_COM_DUMP || dump { fprintf(stderr,"--Id-- %v dump... %v entries:\n",dicName,len(Romkan)); var match = 0 for i := 0; i < len(Romkan); i++ { dic := Romkan[i].dic pat := Romkan[i].pat out := Romkan[i].out if arg == "" || 0 <= strings.Index(pat,arg)||0 <= strings.Index(out,arg) { fmt.Printf("\\\\%v\t%v [%2v]%-8v [%2v]%v\n", i,dic,len(pat),pat,len(out),out) match += 1 } } fprintf(stderr,"--Id-- %v matched %v / %v entries:\n",arg,match,len(Romkan)); } } func loadDefaultDic(dic int){ if( 0 < len(Romkan) ){ return } //fprintf(stderr,"\r\n") xDic([]string{"dic",DIC_COM_LOAD}); var info = false if info { fprintf(stderr,"--Id-- Conguraturations!! WorldDic is now activated.\r\n") fprintf(stderr,"--Id-- enter \"dic\" command for help.\r\n") } } func readDic()(int){ /* var rk *os.File; var dic = "MyIME-dic.txt"; //rk = fopen("romkana.txt","r"); //rk = fopen("JK-JA-morse-dic.txt","r"); rk = fopen(dic,"r"); if( rk == NULL_FP ){ if( true ){ fprintf(stderr,"--%s-- Could not load %s\n",MyIMEVER,dic); } return -1; } if( true ){ var di int; var line = make(StrBuff,1024); var pat string var out string for di = 0; di < 1024; di++ { if( fgets(line,sizeof(line),rk) == NULLSP ){ break; } fmt.Sscanf(string(line[0:strlen(line)]),"%s %s",&pat,&out); //sscanf(line,"%s %[^\r\n]",&pat,&out); romkana[di].pat = pat; romkana[di].out = out; //fprintf(stderr,"--Dd- %-10s %s\n",pat,out) } dicents += di if( false ){ fprintf(stderr,"--%s-- loaded romkana.txt [%d]\n",MyIMEVER,di); for di = 0; di < dicents; di++ { fprintf(stderr, "%s %s\n",romkana[di].pat,romkana[di].out); } } } fclose(rk); //romkana[dicents].pat = "//ddump" //romkana[dicents].pat = "//ddump" // dump the dic. and clean the command input */ return 0; } func matchlen(stri string, pati string)(int){ if strBegins(stri,pati) { return len(pati) }else{ return 0 } } func convs(src string)(string){ var si int; var sx = len(src); var di int; var mi int; var dstb []byte for si = 0; si < sx; { // search max. match from the position if strBegins(src[si:],"%x/") { // %x/integer/ // s/a/b/ ix := strings.Index(src[si+3:],"/") if 0 < ix { var iv int = 0 //fmt.Sscanf(src[si+3:si+3+ix],"%d",&iv) fmt.Sscanf(src[si+3:si+3+ix],"%v",&iv) sval := fmt.Sprintf("%x",iv) bval := []byte(sval) dstb = append(dstb,bval...) si = si+3+ix+1 continue } } if strBegins(src[si:],"%d/") { // %d/integer/ // s/a/b/ ix := strings.Index(src[si+3:],"/") if 0 < ix { var iv int = 0 fmt.Sscanf(src[si+3:si+3+ix],"%v",&iv) sval := fmt.Sprintf("%d",iv) bval := []byte(sval) dstb = append(dstb,bval...) si = si+3+ix+1 continue } } if strBegins(src[si:],"%t") { now := time.Now() if true { date := now.Format(time.Stamp) dstb = append(dstb,[]byte(date)...) si = si+3 } continue } var maxlen int = 0; var len int; mi = -1; for di = 0; di < dicents; di++ { len = matchlen(src[si:],romkana[di].pat); if( maxlen < len ){ maxlen = len; mi = di; } } if( 0 < maxlen ){ out := romkana[mi].out; dstb = append(dstb,[]byte(out)...); si += maxlen; }else{ dstb = append(dstb,src[si]) si += 1; } } return string(dstb) } func trans(src string)(int){ dst := convs(src); xfputss(dst,stderr); return 0; } //------------------------------------------------------------- LINEEDIT // "?" at the top of the line means searching history const ( GO_UP = 201 GO_DOWN = 202 GO_RIGHT = 203 GO_LEFT = 204 DEL_RIGHT= 205 EV_TIMEOUT = 206 EV_IDLE = 207 ) // should return number of octets ready to be read immediately //fprintf(stderr,"\n--Select(%v %v)\n",err,r.Bits[0]) var EventRecvFd = -1 // file descriptor var EventSendFd = -1 const EventFdOffset = 1000000 const NormalFdOffset = 100 func putEvent(event int, evarg int){ if true { if EventRecvFd < 0 { var pv = []int{-1,-1} syscall.Pipe(pv) EventRecvFd = pv[0] EventSendFd = pv[1] //fmt.Printf("--De-- EventPipe created[%v,%v]\n",EventRecvFd,EventSendFd) } }else{ if EventRecvFd < 0 { // the document differs from this spec // https://golang.org/src/syscall/syscall_unix.go?s=8096:8158#L340 sv,err := syscall.Socketpair(syscall.AF_UNIX,syscall.SOCK_STREAM,0) EventRecvFd = sv[0] EventSendFd = sv[1] if err != nil { fmt.Printf("--De-- EventSock created[%v,%v](%v)\n", EventRecvFd,EventSendFd,err) } } } var buf = []byte{ byte(event)} n,err := syscall.Write(EventSendFd,buf) if err != nil { fmt.Printf("--De-- putEvent[%v](%3v)(%v %v)\n",EventSendFd,event,n,err) } } func ungets(str string){ for _,ch := range str { putEvent(int(ch),0) } } func (gsh*GshContext)xReplay(argv[]string){ hix := 0 if 1 < len(argv) { fmt.Sscanf(argv[1],"%d",&hix) } if hix == 0 || len(argv) <= 1 { hix = len(gsh.CommandHistory)-1 } fmt.Printf("--Ir-- Replay(!%v)\n",hix) //dumpEvents(hix) //gsh.xScanReplay(hix,false) go gsh.xScanReplay(hix,true) } // syscall.Select // 2020-0827 GShell-0.2.3 func FpollIn1(fp *os.File,usec int)(uintptr){ nfd := 1 rdv := syscall.FdSet {} fd1 := fp.Fd() bank1 := fd1/32 mask1 := int32(1 << fd1) rdv.Bits[bank1] = mask1 fd2 := -1 bank2 := -1 var mask2 int32 = 0 if 0 <= EventRecvFd { fd2 = EventRecvFd nfd = fd2 + 1 bank2 = fd2/32 mask2 = int32(1 << fd2) rdv.Bits[bank2] |= mask2 //fmt.Printf("--De-- EventPoll mask added [%d][%v][%v]\n",fd2,bank2,mask2) } tout := syscall.NsecToTimeval(int64(usec*1000)) //n,err := syscall.Select(nfd,&rdv,nil,nil,&tout) // spec. mismatch err := syscall.Select(nfd,&rdv,nil,nil,&tout) if err != nil { //fmt.Printf("--De-- select() err(%v)\n",err) } if err == nil { if 0 <= fd2 && (rdv.Bits[bank2] & mask2) != 0 { if false { fmt.Printf("--De-- got Event\n") } return uintptr(EventFdOffset + fd2) }else if (rdv.Bits[bank1] & mask1) != 0 { return uintptr(NormalFdOffset + fd1) }else{ return 1 } }else{ return 0 } } func fgetcTimeout1(fp *os.File,usec int)(int){ readyFd := FpollIn1(fp,usec) if readyFd < 100 { return EV_TIMEOUT } var buf [1]byte if EventFdOffset <= readyFd { fd := int(readyFd-EventFdOffset) _,err := syscall.Read(fd,buf[0:1]) if( err != nil ){ return EOF; }else{ return int(buf[0]) } } _,err := fp.Read(buf[0:1]) if( err != nil ){ return EOF; }else{ return int(buf[0]) } } func visibleChar(ch int)(string){ switch { case '!' <= ch && ch <= '~': return string(ch) } switch ch { case ' ': return "\\s" case '\n': return "\\n" case '\r': return "\\r" case '\t': return "\\t" } switch ch { case 0x00: return "NUL" case 0x07: return "BEL" case 0x08: return "BS" case 0x0E: return "SO" case 0x0F: return "SI" case 0x1B: return "ESC" case 0x7F: return "DEL" } switch ch { case EV_IDLE: return fmt.Sprintf("IDLE") } return fmt.Sprintf("%X",ch) } func (gsh*GshContext)xScanReplay(hix int,replay bool){ var Start time.Time var events = []Event{} for _,e := range Events { if hix == 0 || e.CmdIndex == hix { events = append(events,e) } } elen := len(events) if 0 < elen { if events[elen-1].event == EV_IDLE { events = events[0:elen-1] } } for i,e := range events { nano := e.when.Nanosecond() micro := nano / 1000 if Start.Second() == 0 { Start = time.Now() } diff := time.Now().Sub(Start) if replay { if e.event != EV_IDLE { putEvent(e.event,0) } }else{ fmt.Printf("%7.3fms #%-3v !%-3v [%v.%06d] %3v %02X %-4v %10.3fms\n", float64(diff)/1000000.0, i, e.CmdIndex, e.when.Format(time.Stamp),micro, e.event,e.event,visibleChar(e.event), float64(e.evarg)/1000000.0) } if e.event == EV_IDLE { nsleep(time.Duration(e.evarg)) } } } func dumpEvents(hix int){ for i,e := range Events { nano := e.when.Nanosecond() micro := nano / 1000 //if e.event != EV_TIMEOUT { if hix == 0 || e.CmdIndex == hix { fmt.Printf("#%-3v !%-3v [%v.%06d] %3v %02X %-4v %10.3fms\n",i, e.CmdIndex, e.when.Format(time.Stamp),micro, e.event,e.event,visibleChar(e.event),float64(e.evarg)/1000000.0) } //} } } func fgetcTimeout(fp *os.File,usec int)(int){ ch := fgetcTimeout1(fp,usec) if ch != EV_TIMEOUT { now := time.Now() if 0 < len(Events) { last := Events[len(Events)-1] dura := int64(now.Sub(last.when)) Events = append(Events,Event{last.when,EV_IDLE,dura,last.CmdIndex}) } Events = append(Events,Event{time.Now(),ch,0,CmdIndex}) } return ch } var TtyMaxCol = 72 var EscTimeout = (100*1000) var ( MODE_ShowMode bool romkanmode bool MODE_CapsLock bool // software CapsLock MODE_LowerLock bool // force lower-case character lock MODE_ViInsert int // visible insert mode, should be like "I" icon in X Window MODE_ViTrace bool // output newline before translation ) type IInput struct { lno int lastlno int pch []int // input queue prompt string line string right string inJmode bool pinJmode bool waitingMeta string // waiting meta character LastCmd string } func (iin*IInput)Getc(timeoutUs int)(int){ ch1 := EOF ch2 := EOF ch3 := EOF if( 0 < len(iin.pch) ){ // deQ ch1 = iin.pch[0] iin.pch = iin.pch[1:] }else{ ch1 = fgetcTimeout(stdin,timeoutUs); } if( ch1 == 033 ){ /// escape sequence ch2 = fgetcTimeout(stdin,EscTimeout); if( ch2 == EV_TIMEOUT ){ }else{ ch3 = fgetcTimeout(stdin,EscTimeout); if( ch3 == EV_TIMEOUT ){ iin.pch = append(iin.pch,ch2) // enQ }else{ switch( ch2 ){ default: iin.pch = append(iin.pch,ch2) // enQ iin.pch = append(iin.pch,ch3) // enQ case '[': switch( ch3 ){ case 'A': ch1 = GO_UP; // ^ case 'B': ch1 = GO_DOWN; // v case 'C': ch1 = GO_RIGHT; // > case ‘D’: ch1 = GO_LEFT; // < case '3': ch4 := fgetcTimeout(stdin,EscTimeout); if( ch4 == '~' ){ //fprintf(stderr,"x[%02X %02X %02X %02X]\n",ch1,ch2,ch3,ch4); ch1 = DEL_RIGHT } } case '\\': //ch4 := fgetcTimeout(stdin,EscTimeout); //fprintf(stderr,"y[%02X %02X %02X %02X]\n",ch1,ch2,ch3,ch4); switch( ch3 ){ case '~': ch1 = DEL_RIGHT } } } } } return ch1 } func (inn*IInput)clearline(){ var i int fprintf(stderr,"\r"); // should be ANSI ESC sequence for i = 0; i < TtyMaxCol; i++ { // to the max. position in this input action fputc(' ',os.Stderr); } fprintf(stderr,"\r"); } func (iin*IInput)Redraw(){ redraw(iin,iin.lno,iin.line,iin.right) } func redraw(iin *IInput,lno int,line string,right string){ inMeta := false showMode := "" showMeta := "" // visible Meta mode on the cursor position showLino := fmt.Sprintf("!%d! ",lno) InsertMark := "" // in visible insert mode if 0 < len(iin.right) { InsertMark = " " } if( 0 < len(iin.waitingMeta) ){ inMeta = true if iin.waitingMeta[0] != 033 { showMeta = iin.waitingMeta } } if( romkanmode ){ //romkanmark = " *"; }else{ //romkanmark = ""; } if MODE_ShowMode { romkan := "--" inmeta := "-" inveri := "" if MODE_CapsLock { inmeta = "A" } if MODE_LowerLock { inmeta = "a" } if MODE_ViTrace { inveri = "v" } if romkanmode { romkan = "\343\201\202" if MODE_CapsLock { inmeta = "R" }else{ inmeta = "r" } } if inMeta { inmeta = "\\" } showMode = "["+romkan+inmeta+inveri+"]"; } Pre := "\r" + showMode + showLino Output := "" Left := "" Right := "" if romkanmode { Left = convs(line) Right = InsertMark+convs(right) }else{ Left = line Right = InsertMark+right } Output = Pre+Left if MODE_ViTrace { Output += iin.LastCmd } Output += showMeta+Right for len(Output) < TtyMaxCol { // to the max. position that may be dirty Output += " " // should be ANSI ESC sequence // not necessary just after newline } Output += Pre+Left+showMeta // to set the cursor to the current input position fprintf(stderr,"%s",Output) if MODE_ViTrace { if 0 < len(iin.LastCmd) { iin.LastCmd = "" fprintf(stderr,"\r\n") } } } func delHeadChar(str string)(rline string,head string){ _,clen := utf8.DecodeRune([]byte(str)) head = string(str[0:clen]) return str[clen:],head } func delTailChar(str string)(rline string, last string){ var i = 0 var clen = 0 for { _,siz := utf8.DecodeRune([]byte(str)[i:]) if siz <= 0 { break } clen = siz i += siz } last = str[len(str)-clen:] return str[0:len(str)-clen],last } // 3> for output and history // 4> for keylog? // Command Line Editor func xgetline(lno int, prevline string, gsh*GshContext)(string){ var iin IInput iin.lastlno = lno iin.lno = lno CmdIndex = len(gsh.CommandHistory) if( isatty(0) == 0 ){ if( sfgets(&iin.line,LINESIZE,stdin) == NULL ){ iin.line = “exit\n”; }else{ } return iin.line } if( true ){ //var pts string; //pts = ptsname(0); //pts = ttyname(0); //fprintf(stderr,”–pts[0] = %s\n”,pts?pts:”?”); } if( false ){ fprintf(stderr,”! “); fflush(stderr); sfgets(&iin.line,LINESIZE,stdin); return iin.line } system(“/bin/stty -echo -icanon”); xline := iin.xgetline1(prevline,gsh) system(“/bin/stty echo sane”); return xline } func (iin*IInput)Translate(cmdch int){ romkanmode = !romkanmode; if MODE_ViTrace { fprintf(stderr,”%v\r\n”,string(cmdch)); }else if( cmdch == ‘J’ ){ fprintf(stderr,”J\r\n”); iin.inJmode = true } iin.Redraw(); loadDefaultDic(cmdch); iin.Redraw(); } func (iin*IInput)Replace(cmdch int){ iin.LastCmd = fmt.Sprintf(“\\%v”,string(cmdch)) iin.Redraw(); loadDefaultDic(cmdch); dst := convs(iin.line+iin.right); iin.line = dst iin.right = “” if( cmdch == ‘I’ ){ fprintf(stderr,”I\r\n”); iin.inJmode = true } iin.Redraw(); } func (iin*IInput)xgetline1(prevline string, gsh*GshContext)(string){ var ch int; iin.Redraw(); for { iin.pinJmode = iin.inJmode iin.inJmode = false ch = iin.Getc(1000*1000) //fprintf(stderr,”A[%02X]\n”,ch); if( ch == ‘\\’ || ch == 033 ){ MODE_ShowMode = true metach := ch iin.waitingMeta = string(ch) iin.Redraw(); // set cursor //fprintf(stderr,”???\b\b\b”) ch = fgetcTimeout(stdin,2000*1000) // reset cursor iin.waitingMeta = “” cmdch := ch if( ch == EV_TIMEOUT ){ if metach == 033 { continue } ch = metach }else if( ch == ‘j’ || ch == ‘J’ ){ iin.Translate(cmdch); continue }else if( ch == ‘i’ || ch == ‘I’ ){ iin.Replace(cmdch); continue }else if( ch == ‘l’ || ch == ‘L’ ){ MODE_LowerLock = !MODE_LowerLock MODE_CapsLock = false if MODE_ViTrace { fprintf(stderr,”%v\r\n”,string(cmdch)); } iin.Redraw(); continue }else if( ch == ‘u’ || ch == ‘U’ ){ MODE_CapsLock = !MODE_CapsLock MODE_LowerLock = false if MODE_ViTrace { fprintf(stderr,”%v\r\n”,string(cmdch)); } iin.Redraw(); continue }else if( ch == ‘v’ || ch == ‘V’ ){ MODE_ViTrace = !MODE_ViTrace if MODE_ViTrace { fprintf(stderr,”%v\r\n”,string(cmdch)); } iin.Redraw(); continue }else if( ch == ‘c’ || ch == ‘C’ ){ if 0 < len(iin.line) { xline,tail := delTailChar(iin.line) if len([]byte(tail)) == 1 { ch = int(tail[0]) if( 'a' <= ch && ch <= 'z' ){ ch = ch + 'A'-'a' }else if( 'A' <= ch && ch <= 'Z' ){ ch = ch + 'a'-'A' } iin.line = xline + string(ch) } } if MODE_ViTrace { fprintf(stderr,"%v\r\n",string(cmdch)); } iin.Redraw(); continue }else{ iin.pch = append(iin.pch,ch) // push ch = '\\' } } switch( ch ){ case 'P'-0x40: ch = GO_UP case 'N'-0x40: ch = GO_DOWN case 'B'-0x40: ch = GO_LEFT case 'F'-0x40: ch = GO_RIGHT } //fprintf(stderr,"B[%02X]\n",ch); switch( ch ){ case 0: continue; case '\t': iin.Replace('j'); continue case 'X'-0x40: iin.Replace('j'); continue case EV_TIMEOUT: iin.Redraw(); if iin.pinJmode { fprintf(stderr,"\\J\r\n") iin.inJmode = true } continue case GO_UP: if iin.lno == 1 { continue } cmd,ok := gsh.cmdStringInHistory(iin.lno-1) if ok { iin.line = cmd iin.right = "" iin.lno = iin.lno - 1 } iin.Redraw(); continue case GO_DOWN: cmd,ok := gsh.cmdStringInHistory(iin.lno+1) if ok { iin.line = cmd iin.right = "" iin.lno = iin.lno + 1 }else{ iin.line = "" iin.right = "" if iin.lno == iin.lastlno-1 { iin.lno = iin.lno + 1 } } iin.Redraw(); continue case GO_LEFT: if 0 < len(iin.line) { xline,tail := delTailChar(iin.line) iin.line = xline iin.right = tail + iin.right } iin.Redraw(); continue; case GO_RIGHT: if( 0 < len(iin.right) && iin.right[0] != 0 ){ xright,head := delHeadChar(iin.right) iin.right = xright iin.line += head } iin.Redraw(); continue; case EOF: goto EXIT; case 'R'-0x40: // replace dst := convs(iin.line+iin.right); iin.line = dst iin.right = "" iin.Redraw(); continue; case 'T'-0x40: // just show the result readDic(); romkanmode = !romkanmode; iin.Redraw(); continue; case 'L'-0x40: iin.Redraw(); continue case 'K'-0x40: iin.right = "" iin.Redraw(); continue case 'E'-0x40: iin.line += iin.right iin.right = "" iin.Redraw(); continue case 'A'-0x40: iin.right = iin.line + iin.right iin.line = "" iin.Redraw(); continue case 'U'-0x40: iin.line = "" iin.right = "" iin.clearline(); iin.Redraw(); continue; case DEL_RIGHT: if( 0 < len(iin.right) ){ iin.right,_ = delHeadChar(iin.right) iin.Redraw(); } continue; case 0x7F: // BS? not DEL if( 0 < len(iin.line) ){ iin.line,_ = delTailChar(iin.line) iin.Redraw(); } /* else if( 0 < len(iin.right) ){ iin.right,_ = delHeadChar(iin.right) iin.Redraw(); } */ continue; case 'H'-0x40: if( 0 < len(iin.line) ){ iin.line,_ = delTailChar(iin.line) iin.Redraw(); } continue; } if( ch == '\n' || ch == '\r' ){ iin.line += iin.right; iin.right = "" iin.Redraw(); fputc(ch,stderr); break; } if MODE_CapsLock { if 'a' <= ch && ch <= 'z' { ch = ch+'A'-'a' } } if MODE_LowerLock { if 'A' <= ch && ch <= 'Z' { ch = ch+'a'-'A' } } iin.line += string(ch); iin.Redraw(); } EXIT: return iin.line + iin.right; } func getline_main(){ line := xgetline(0,"",nil) fprintf(stderr,"%s\n",line); /* dp = strpbrk(line,"\r\n"); if( dp != NULL ){ *dp = 0; } if( 0 ){ fprintf(stderr,"\n(%d)\n",int(strlen(line))); } if( lseek(3,0,0) == 0 ){ if( romkanmode ){ var buf [8*1024]byte; convs(line,buff); strcpy(line,buff); } write(3,line,strlen(line)); ftruncate(3,lseek(3,0,SEEK_CUR)); //fprintf(stderr,"outsize=%d\n",(int)lseek(3,0,SEEK_END)); lseek(3,0,SEEK_SET); close(3); }else{ fprintf(stderr,"\r\ngotline: "); trans(line); //printf("%s\n",line); printf("\n"); } */ } //== end ========================================================= getline // // $USERHOME/.gsh/ // gsh-rc.txt, or gsh-configure.txt // gsh-history.txt // gsh-aliases.txt // should be conditional? // func (gshCtx *GshContext)gshSetupHomedir()(bool) { homedir,found := userHomeDir() if !found { fmt.Printf("--E-- You have no UserHomeDir\n") return true } gshhome := homedir + "/" + GSH_HOME _, err2 := os.Stat(gshhome) if err2 != nil { err3 := os.Mkdir(gshhome,0700) if err3 != nil { fmt.Printf("--E-- Could not Create %s (%s)\n", gshhome,err3) return true } fmt.Printf("--I-- Created %s\n",gshhome) } gshCtx.GshHomeDir = gshhome return false } func setupGshContext()(GshContext,bool){ gshPA := syscall.ProcAttr { "", // the staring directory os.Environ(), // environ[] []uintptr{os.Stdin.Fd(),os.Stdout.Fd(),os.Stderr.Fd()}, nil, // OS specific } cwd, _ := os.Getwd() gshCtx := GshContext { cwd, // StartDir "", // GetLine []GChdirHistory { {cwd,time.Now(),0} }, // ChdirHistory gshPA, []GCommandHistory{}, //something for invokation? GCommandHistory{}, // CmdCurrent false, []int{}, syscall.Rusage{}, "", // GshHomeDir Ttyid(), false, false, []PluginInfo{}, []string{}, " ", "v", ValueStack{}, GServer{"",""}, // LastServer "", // RSERV cwd, // RWD CheckSum{}, } err := gshCtx.gshSetupHomedir() return gshCtx, err } func (gsh*GshContext)gshelllh(gline string)(bool){ ghist := gsh.CmdCurrent ghist.WorkDir,_ = os.Getwd() ghist.WorkDirX = len(gsh.ChdirHistory)-1 //fmt.Printf("--D--ChdirHistory(@%d)\n",len(gsh.ChdirHistory)) ghist.StartAt = time.Now() rusagev1 := Getrusagev() gsh.CmdCurrent.FoundFile = []string{} fin := gsh.tgshelll(gline) rusagev2 := Getrusagev() ghist.Rusagev = RusageSubv(rusagev2,rusagev1) ghist.EndAt = time.Now() ghist.CmdLine = gline ghist.FoundFile = gsh.CmdCurrent.FoundFile /* record it but not show in list by default if len(gline) == 0 { continue } if gline == "hi" || gline == "history" { // don't record it continue } */ gsh.CommandHistory = append(gsh.CommandHistory, ghist) return fin } // Main loop func script(gshCtxGiven *GshContext) (_ GshContext) { gshCtxBuf,err0 := setupGshContext() if err0 { return gshCtxBuf; } gshCtx := &gshCtxBuf //fmt.Printf(“–I– GSH_HOME=%s\n”,gshCtx.GshHomeDir) //resmap() /* if false { gsh_getlinev, with_exgetline := which(“PATH”,[]string{“which”,”gsh-getline”,”-s”}) if with_exgetline { gsh_getlinev[0] = toFullpath(gsh_getlinev[0]) gshCtx.GetLine = toFullpath(gsh_getlinev[0]) }else{ fmt.Printf(“–W– No gsh-getline found. Using internal getline.\n”); } } */ ghist0 := gshCtx.CmdCurrent // something special, or gshrc script, or permanent history gshCtx.CommandHistory = append(gshCtx.CommandHistory,ghist0) prevline := “” skipping := false for hix := len(gshCtx.CommandHistory); ; { gline := gshCtx.getline(hix,skipping,prevline) if skipping { if strings.Index(gline,”fi”) == 0 { fmt.Printf(“fi\n”); skipping = false; }else{ //fmt.Printf(“%s\n”,gline); } continue } if strings.Index(gline,”if”) == 0 { //fmt.Printf(“–D– if start: %s\n”,gline); skipping = true; continue } if false { os.Stdout.Write([]byte(“gotline:”)) os.Stdout.Write([]byte(gline)) os.Stdout.Write([]byte(“\n”)) } gline = strsubst(gshCtx,gline,true) if false { fmt.Printf(“fmt.Printf %%v – %v\n”,gline) fmt.Printf(“fmt.Printf %%s – %s\n”,gline) fmt.Printf(“fmt.Printf %%x – %s\n”,gline) fmt.Printf(“fmt.Printf %%U – %s\n”,gline) fmt.Printf(“Stouut.Write -“) os.Stdout.Write([]byte(gline)) fmt.Printf(“\n”) } /* // should be cared in substitution ? if 0 < len(gline) && gline[0] == '!' { xgline, set, err := searchHistory(gshCtx,gline) if err { continue } if set { // set the line in command line editor } gline = xgline } */ fin := gshCtx.gshelllh(gline) if fin { break; } prevline = gline; hix++; } return *gshCtx } func main() { gshCtxBuf := GshContext{} gsh := &gshCtxBuf argv := os.Args if 1 < len(argv) { if isin("version",argv){ gsh.showVersion(argv) return } comx := isinX("-c",argv) if 0 < comx { gshCtxBuf,err := setupGshContext() gsh := &gshCtxBuf if !err { gsh.gshellv(argv[comx+1:]) } return } } if 1 < len(argv) && isin("-s",argv) { }else{ gsh.showVersion(append(argv,[]string{"-l","-a"}...)) } script(nil) //gshCtx := script(nil) //gshelll(gshCtx,"time") } //
//
Considerations
// – inter gsh communication, possibly running in remote hosts — to be remote shell // – merged histories of multiple parallel gsh sessions // – alias as a function or macro // – instant alias end environ export to the permanent > ~/.gsh/gsh-alias and gsh-environ // – retrieval PATH of files by its type // – gsh as an IME with completion using history and file names as dictionaies // – gsh a scheduler in precise time of within a millisecond // – all commands have its subucomand after “—” symbol // – filename expansion by “-find” command // – history of ext code and output of each commoand // – “script” output for each command by pty-tee or telnet-tee // – $BUILTIN command in PATH to show the priority // – “?” symbol in the command (not as in arguments) shows help request // – searching command with wild card like: which ssh-* // – longformat prompt after long idle time (should dismiss by BS) // – customizing by building plugin and dynamically linking it // – generating syntactic element like “if” by macro expansion (like CPP) >> alias // – “!” symbol should be used for negation, don’t wast it just for job control // – don’t put too long output to tty, record it into GSH_HOME/session-id/comand-id.log // – making canonical form of command at the start adding quatation or white spaces // – name(a,b,c) … use “(” and “)” to show both delimiter and realm // – name? or name! might be useful // – htar format – packing directory contents into a single html file using data scheme // – filepath substitution shold be done by each command, expecially in case of builtins // – @N substition for the history of working directory, and @spec for more generic ones // – @dir prefix to do the command at there, that means like (chdir @dir; command) // – GSH_PATH for plugins // – standard command output: list of data with name, size, resouce usage, modified time // – generic sort key option -nm name, -sz size, -ru rusage, -ts start-time, -tm mod-time // -wc word-count, grep match line count, … // – standard command execution result: a list of string, -tm, -ts, -ru, -sz, … // – -tailf-filename like tail -f filename, repeat close and open before read // – max. size and max. duration and timeout of (generated) data transfer // – auto. numbering, aliasing, IME completion of file name (especially rm of quieer name) // – IME “?” at the top of the command line means searching history // – IME %d/0x10000/ %x/ffff/ // – IME ESC to go the edit mode like in vi, and use :command as :s/x/y/g to edit history // – gsh in WebAssembly // – gsh as a HTTP server of online-manual //—END— (^-^)/ITS more
// var WorldDic = // “data:text/dic;base64,”+ “Ly8gTXlJTUUvMC4wLjEg6L6e5pu4ICgyMDIwLTA4MTlhKQpzZWthaSDkuJbnlYwKa28g44GT”+ “Cm5uIOOCkwpuaSDjgasKY2hpIOOBoQp0aSDjgaEKaGEg44GvCnNlIOOBmwprYSDjgYsKaSDj”+ “gYQK”; // var JA_JKLDic = // “data:text/dic;base64,”+ “Ly92ZXJsCU15SU1FamRpY2ptb3JzZWpKQWpKS0woMjAyMGowODE5KSheLV4pL1NhdG94SVRT”+ “CmtqamprbGtqa2tsa2psIOS4lueVjApqamtqamwJ44GCCmtqbAnjgYQKa2tqbAnjgYYKamtq”+ “amwJ44GICmtqa2trbAnjgYoKa2pra2wJ44GLCmpramtrbAnjgY0Ka2tramwJ44GPCmpramps”+ “CeOBkQpqampqbAnjgZMKamtqa2psCeOBlQpqamtqa2wJ44GXCmpqamtqbAnjgZkKa2pqamts”+ “CeOBmwpqamprbAnjgZ0KamtsCeOBnwpra2prbAnjgaEKa2pqa2wJ44GkCmtqa2pqbAnjgaYK”+ “a2tqa2tsCeOBqApramtsCeOBqgpqa2prbAnjgasKa2tra2wJ44GsCmpqa2psCeOBrQpra2pq”+ “bAnjga4Kamtra2wJ44GvCmpqa2tqbAnjgbIKampra2wJ44G1CmtsCeOBuApqa2tsCeOBuwpq”+ “a2tqbAnjgb4Ka2tqa2psCeOBvwpqbAnjgoAKamtra2psCeOCgQpqa2tqa2wJ44KCCmtqamwJ”+ “44KECmpra2pqbAnjgoYKampsCeOCiApra2tsCeOCiQpqamtsCeOCigpqa2pqa2wJ44KLCmpq”+ “amwJ44KMCmtqa2psCeOCjQpqa2psCeOCjwpramtramwJ44KQCmtqamtrbAnjgpEKa2pqamwJ”+ “44KSCmtqa2prbAnjgpMKa2pqa2psCeODvApra2wJ44KbCmtramprbAnjgpwKa2pramtqbAnj”+ “gIEK”; // // /*
References
*/ /*
Raw Source
Whole file
CSS part
JavaScript part
Builtin data part
*/ /* –> *///

GShell 0.2.4 − 声明文

開発:そろそろこのshellを外部に公開する準備をしたいですね。

社長:うーん、なんかこう、これは何のつもりのものだ?みたいな導入の文章が必要ですよね。ちょっと書いてみます。

基盤:機能とか性能とかには一切言及しないんですね。

社長:いわゆる「立場文」てやつですよw GShell がユニークであり得るとすれば、それは我々のポジションというか姿勢から発してくるものです。わたしは人の作ったソフトを使うかどうか判断する時に、まずその作者の動機とか姿勢とか考え方を観察します。そこに共感できるかとか、笑えるかとかが重要。

基盤:プログラマに生まれたからには一つは自分のオリジナルシェルを作りたいってとこですね。

社長:既存の仕様でなんとかやりたいことをやるのに、厚い靴の底から掻くみたいに、ユーザレベルでは四苦八苦することが、プログラムをちょっと書けばずっと簡単にできちゃうってことは、プログラム書きには共感してもらえると思います。予めあらゆるユーザが満足できるカスタマイズ機能を提供するのも無理ですし。

開発:2段めは、これは習作ですから、そこんとこよろしくって宣言ですかね。

社長:これが読み物でなく実際に使われた場合の事は考慮しておく必要があります。正式には NO WARRANTY とかどこかに書いとくべきだと思います。

開発:ライセンスの条文は同梱しといたほうが良いでしょうね。

社長:それとわたしは前々から、ソフトのコードとドキュメントと配布が別々に維持管理されているのが嫌なんです。だから3段目では、全てを物理的に一つのファイルにまとめちゃいました、外部リソースの参照はゼロですと強調したいと思いました。

基盤:文中にはGShellという固有名詞は出てこないんですね。

社長:まだ正式名として確定してはないですし…

開発:というかこの声明は、個別のこの GShell の事というより、GShell 的なソフトウェアのあり方の提案の表明なんだろうと思います。

基盤:国会の答弁みたいですねw

* * *

社長:ということで、スペルミスを直したりしながら、無保証の件も書き足しました。試しにGoolge翻訳と Bing翻訳にかけてみました。まずGoogle。

社長:概ねわたしが読んで不自然では無いと思う日本語に翻訳されています。若干ニュアンスが違うのですが、間違ってはいない。言いたかったことが反映された日本語文です。

基盤:アマゾンの怪しげな売り場の日本語よりずっと良いですね。

開発:逆方向の変換はして見ないんですか?

社長:いいえ。だって自分が書いたのより自然な英語になるのが不愉快じゃないですか。こういう表現は自分には出来ないなあって。あくまで日本人が学校で習った英語で、日本人らしい人間的に書いてることに意味があると思うのです。

基盤:ひょっとしてこの英文から、書いたのが日本人だって判別できるかもですね。

社長:それに機械翻訳でそれらしい日本語になる英文であれば、他の言語への翻訳もそれなりかなと期待するわけです。こなれた英文が必ずしもそうかはわかりませんから。

開発:WordPress のプラグインとかのドキュメント類は、各国語の作者が一応英語で書いとくか的な感じがほのぼのしてて良いですね。

社長:日本ではわりと文法をちゃんと教えると思います。以前 DeleGate関係で色んな国の人のオレオレ風英語と付き合いましたが、もう文法が意味不明な場合が結構ありました。

開発:プログラマだったら文法は気にすると思うんですけどね。

* * *

社長:次にBing。ほぼ同様ですが、若干硬さが感じられる文章になります。意図的なものかも知れませんが。

開発:どういう調子の日本語にするか選択できると良いですね。

社長:大阪弁フィルターとかありましたね。

基盤:「囲碁言語」ってのが飛ばしてますね。

開発:他の部分では Go は固有名詞として認識しているのにね。

基盤:あと、:-) を :- で切ってみたりとか。メダカですか?

社長:残念なのが、最初の段落で英語的には自前のshellを作るのは楽しい、既存のものを倣うよりは、って順番で書いているわけですが、これが日本語にされると、どうしても逆順になっちゃうわけです。前置きが長い。

開発:一旦文章を切っちゃえばいいんじゃないですかね。なんか than にスペルチェックみたいな赤線が入ってるし、英語的にも掛かり受けに無理のある文章なのかと思います。

基盤:「彼が決して」「必需品」「正しくフィット」「本当のニーズ」「楽しんで」とか、1段落目はかなり不自然な日本語には思います。

社長:そのあたりは、Google翻訳の日本語が良すぎるくらいですね。英文を書いた自分にもああいうふうに自然な日本語に翻訳できるか自信がありませn(^-^)

開発:何と言ってもBingの傑作はこの、「サトックスシッツ」ですかねw

社長:勝手に日本語読みを生成するのは、大胆で面白いとは思いますが、x がスでもありシでもあるのは変じゃないかとは思いますね。

基盤:固有名詞を勝手に日本語読みにする翻訳って初めて見ました。ところで実際、これはなんと読むのが正しいんですか?

社長:いや、書いてる本人も読みを決めてるわけではありませんが… 「サトックス・アイティーエス」かなぁ。もちろん sato@its の意味です。sato と its を含んでいて、当時の Google も Bing も知らない8文字の英文字列ということでこれにしました。

社長:で、これを書いてて気づいたのですが、我々の立ち位置というか姿勢は「 … , with fun.」なんだなということです。

開発:文中に繰り返してますね。

基盤:スポーツ選手が良く「プレーを楽しむ」って言うやつですかね。

社長:うーん、似てるとは思いますが。

開発:まったくの遊びで作っているわけでは無いので、初稿のように for funでは無いですね。fun は目的であることもありますが、基本は手段だと思います。心の持ち方というか。

社長:はまりの表現は、遊び心ですかね。何か面白いものを作りたいわけなので、当然と言えば当然ですが。もし真面目に製品開発することになっても、いつも心に遊びを持っている、面白がっているべきだと思います。

基盤:面白がりエンジン駆動ですね。

開発:締め切り駆動の生活には絶対に戻りたくないですね。

社長:プログラマーは、遊びをせんとや生まれけむ、です。

開発:Fun to create a shell がGoogleでは「シェルを作るのが楽しい」Bingでは「シェルを作成する楽しみ」になってるのも面白いですね。

社長:この点、タイトルとして「が楽しい」ってのは奇妙だとは思いますけどね。

基盤:ブログのタイトルみたいw

開発:「は楽しい」でなくて「が楽しい」になっているのは、楽しくない方面への配慮とかですかね。カドが立たないというか。

社長:というわけで、今日の主要な成果物はこの、声明文でした (^-^)

* * *

開発:ところでこの、JavaScript でブラウザ用の表示を作るというのをやってて思ったのは、これはカスタマイズした gsh.go を生成するのにも使えるだろうということです。

社長:最初は印刷用とかダウンロード用のHTMLを生成しようという話でしたね。

開発:それは要するに、現在のDOMのソース形式ダンプなんですが。これ、最初はまっさらのオリジナルに近い状態にありますが、表示を生成した後にダンプすると、生成したものがダンプされる。最初は、自分自身の内部に生成すると、タブの開きと閉じの関係が壊れて厄介だなと思ったんですが。DOMの現状をHTMLのソースの状態で見れる、あるいはまたそれを普通にソースとして使えるというのは、便利だと気づいたんです。

開発:ブラウザには「ページのソースを表示する」という機能があるわけですが、これは普通、オリジナルの状態のソースの表示です。JavaScript で操作したDOMの状態ではないんです。プリントはDOMの状態を出していると思うのですが。

社長:つまり、動いてる途中のページの状態では無いということですね。

開発:たとえば長時間かかって表示を生成するJavaScriptがあったとします。その実行の結果を、HTMLとして魚拓することが出来ないということです。

基盤:ブラウザがその気になったら、普通に出来ることだとは思われますが。

開発:ブラウザに手を突っ込むとか、extension でやるとかは、いずれやりたいとは思いますが、今はそういう汎用のソリューションの前にまず、GShell というユーザのプログラムでやるのが面白いし、試すのに効率的だと思います。それに、ブラウザにもサーバにも頼らない、サーバのようなブラウザのような機能を自前で内蔵するHTMLというのは、それはそれで一般化すれば面白いと思うのです。

基盤:誰かがそういうJavaScript のライブラリを書いていそうな気はしますが…

開発:そこで我々の特殊性として、Go言語のソースをJavaScriptで生成する、という面白い応用があるわけです。JavaScirptで生成して、DOMをHTMLとして吐いて、Goとして実行する。そんなものはさすがに、今の世に無いと思います。

社長:わたしは、Windowをforkして色々変換した状態のをHTML形式でダンプしたのが面白いと思いました。入れ子とか壊れてましたが。あれをちゃんとしたHTMLとして吐き出せるように作ると良いですね。

社長:ところで、GShellのコードってどういう感じに生成するんですかね。

開発:まずはデータからですね。ここにおあつらえに、GShell IME用の内蔵辞書という例題があります。

社長:ちょっと待った。ちょっと疲れましたし、続きは明日ということでは?

基盤:昼間はずっと寝てましたけどw

社長:飲んで食事して午睡するのと違って、ただぐったり寝ると今ひとつこう、回復感が無いような気がするんです。最近面白過ぎてワクワク疲れが蓄積してる気もします。

開発:昼間に食事に出て陽の光を浴びるというのも重要なんでしょうね。

社長:ということで今日はこれにて終業とします。久しぶりの北のほうの飲み屋まで行こうかな♪

— 2020-0828 SatoxITS

/* GShell-0.2.4 by SatoxITS
GShell version 0.2.4 // 2020-08-28 // SatoxITS

GShell // a General purpose Shell built on the top of Golang

It is a shell for myself, by myself, of myself. –SatoxITS(^-^)

0 | | Fork | Stop | Unfold | */ /*
Statement

Fun to create a shell

For a programmer, it must be far easy and fun to create his own simple shell rightly fitting to his favor and necessities, than learning existing shells with complex full features that he never use. I, as one of programmers, am writing this tiny shell for my own real needs, totally from scratch, with fun.

For a programmer, it is fun to learn new computer languages. For long years before writing this software, I had been specialized to C and early HTML2 :-). Now writing this software, I’m learning Go language, HTML5, JavaScript and CSS on demand as a novice of these, with fun.

This single file “gsh.go”, that is executable by Go, contains all of the code written in Go. Also it can be displayed as “gsh.go.html” by browsers. It is a standalone HTML file that works as the viewer of the code of itself, and as the “home page” of this software.

Because this HTML file is a Go program, you may run it as a real shell program on your computer. But you must be aware that this program is written under situation like above. Needless to say, there is no warranty for this program in any means.

Aug 2020, SatoxITS (sato@its-more.jp)
*/ /*
Index
Documents Command summary Go lang part Package structures import struct Main functions str-expansion // macro processor finder // builtin find + du grep // builtin grep + wc + cksum + … plugin // plugin commands system // external commands builtin // builtin commands network // socket handler remote-sh // remote shell redirect // StdIn/Out redireciton history // command history rusage // resouce usage encode // encode / decode IME // command line IME getline // line editor scanf // string decomposer interpreter // command interpreter main JavaScript part Source Builtin data CSS part Source References Internal External Whole parts Source Download Dump
*/ //
//Go Source
// gsh – Go lang based Shell // (c) 2020 ITS more Co., Ltd. // 2020-0807 created by SatoxITS (sato@its-more.jp) package main // gsh main // Imported packages // Packages import ( “fmt” // fmt “strings” // strings “strconv” // strconv “sort” // sort “time” // time “bufio” // bufio “io/ioutil” // ioutil “os” // os “syscall” // syscall “plugin” // plugin “net” // net “net/http” // http //”html” // html “path/filepath” // filepath “go/types” // types “go/token” // token “encoding/base64” // base64 “unicode/utf8” // utf8 //”gshdata” // gshell’s logo and source code “hash/crc32” // crc32 ) const ( NAME = “gsh” VERSION = “0.2.4” DATE = “2020-08-28” AUTHOR = “SatoxITS(^-^)/” ) var ( GSH_HOME = “.gsh” // under home directory GSH_PORT = 9999 MaxStreamSize = int64(128*1024*1024*1024) // 128GiB is too large? PROMPT = “> ” LINESIZE = (8*1024) PATHSEP = “:” // should be “;” in Windows DIRSEP = “/” // canbe \ in Windows ) // -xX logging control // –A– all // –I– info. // –D– debug // –T– time and resource usage // –W– warning // –E– error // –F– fatal error // –Xn- network // Structures type GCommandHistory struct { StartAt time.Time // command line execution started at EndAt time.Time // command line execution ended at ResCode int // exit code of (external command) CmdError error // error string OutData *os.File // output of the command FoundFile []string // output – result of ufind Rusagev [2]syscall.Rusage // Resource consumption, CPU time or so CmdId int // maybe with identified with arguments or impact // redireciton commands should not be the CmdId WorkDir string // working directory at start WorkDirX int // index in ChdirHistory CmdLine string // command line } type GChdirHistory struct { Dir string MovedAt time.Time CmdIndex int } type CmdMode struct { BackGround bool } type PluginInfo struct { Spec *plugin.Plugin Addr plugin.Symbol Name string // maybe relative Path string // this is in Plugin but hidden } type GServer struct { host string port string } // Digest const ( // SumType SUM_ITEMS = 0x000001 // items count SUM_SIZE = 0x000002 // data length (simplly added) SUM_SIZEHASH = 0x000004 // data length (hashed sequence) SUM_DATEHASH = 0x000008 // date of data (hashed sequence) // also envelope attributes like time stamp can be a part of digest // hashed value of sizes or mod-date of files will be useful to detect changes SUM_WORDS = 0x000010 // word count is a kind of digest SUM_LINES = 0x000020 // line count is a kind of digest SUM_SUM64 = 0x000040 // simple add of bytes, useful for human too SUM_SUM32_BITS = 0x000100 // the number of true bits SUM_SUM32_2BYTE = 0x000200 // 16bits words SUM_SUM32_4BYTE = 0x000400 // 32bits words SUM_SUM32_8BYTE = 0x000800 // 64bits words SUM_SUM16_BSD = 0x001000 // UNIXsum -sum -bsd SUM_SUM16_SYSV = 0x002000 // UNIXsum -sum -sysv SUM_UNIXFILE = 0x004000 SUM_CRCIEEE = 0x008000 ) type CheckSum struct { Files int64 // the number of files (or data) Size int64 // content size Words int64 // word count Lines int64 // line count SumType int Sum64 uint64 Crc32Table crc32.Table Crc32Val uint32 Sum16 int Ctime time.Time Atime time.Time Mtime time.Time Start time.Time Done time.Time RusgAtStart [2]syscall.Rusage RusgAtEnd [2]syscall.Rusage } type ValueStack [][]string type GshContext struct { StartDir string // the current directory at the start GetLine string // gsh-getline command as a input line editor ChdirHistory []GChdirHistory // the 1st entry is wd at the start gshPA syscall.ProcAttr CommandHistory []GCommandHistory CmdCurrent GCommandHistory BackGround bool BackGroundJobs []int LastRusage syscall.Rusage GshHomeDir string TerminalId int CmdTrace bool // should be [map] CmdTime bool // should be [map] PluginFuncs []PluginInfo iValues []string iDelimiter string // field sepearater of print out iFormat string // default print format (of integer) iValStack ValueStack LastServer GServer RSERV string // [gsh://]host[:port] RWD string // remote (target, there) working directory lastCheckSum CheckSum } func nsleep(ns time.Duration){ time.Sleep(ns) } func usleep(ns time.Duration){ nsleep(ns*1000) } func msleep(ns time.Duration){ nsleep(ns*1000000) } func sleep(ns time.Duration){ nsleep(ns*1000000000) } func strBegins(str, pat string)(bool){ if len(pat) <= len(str){ yes := str[0:len(pat)] == pat //fmt.Printf("--D-- strBegins(%v,%v)=%v\n",str,pat,yes) return yes } //fmt.Printf("--D-- strBegins(%v,%v)=%v\n",str,pat,false) return false } func isin(what string, list []string) bool { for _, v := range list { if v == what { return true } } return false } func isinX(what string,list[]string)(int){ for i,v := range list { if v == what { return i } } return -1 } func env(opts []string) { env := os.Environ() if isin("-s", opts){ sort.Slice(env, func(i,j int) bool { return env[i] < env[j] }) } for _, v := range env { fmt.Printf("%v\n",v) } } // - rewriting should be context dependent // - should postpone until the real point of evaluation // - should rewrite only known notation of symobl func scanInt(str string)(val int,leng int){ leng = -1 for i,ch := range str { if '0' <= ch && ch <= '9' { leng = i+1 }else{ break } } if 0 < leng { ival,_ := strconv.Atoi(str[0:leng]) return ival,leng }else{ return 0,0 } } func substHistory(gshCtx *GshContext,str string,i int,rstr string)(leng int,rst string){ if len(str[i+1:]) == 0 { return 0,rstr } hi := 0 histlen := len(gshCtx.CommandHistory) if str[i+1] == '!' { hi = histlen - 1 leng = 1 }else{ hi,leng = scanInt(str[i+1:]) if leng == 0 { return 0,rstr } if hi < 0 { hi = histlen + hi } } if 0 <= hi && hi < histlen { var ext byte if 1 < len(str[i+leng:]) { ext = str[i+leng:][1] } //fmt.Printf("--D-- %v(%c)\n",str[i+leng:],str[i+leng]) if ext == 'f' { leng += 1 xlist := []string{} list := gshCtx.CommandHistory[hi].FoundFile for _,v := range list { //list[i] = escapeWhiteSP(v) xlist = append(xlist,escapeWhiteSP(v)) } //rstr += strings.Join(list," ") rstr += strings.Join(xlist," ") }else if ext == '@' || ext == 'd' { // !N@ .. workdir at the start of the command leng += 1 rstr += gshCtx.CommandHistory[hi].WorkDir }else{ rstr += gshCtx.CommandHistory[hi].CmdLine } }else{ leng = 0 } return leng,rstr } func escapeWhiteSP(str string)(string){ if len(str) == 0 { return "\\z" // empty, to be ignored } rstr := "" for _,ch := range str { switch ch { case '\\': rstr += "\\\\" case ' ': rstr += "\\s" case '\t': rstr += "\\t" case '\r': rstr += "\\r" case '\n': rstr += "\\n" default: rstr += string(ch) } } return rstr } func unescapeWhiteSP(str string)(string){ // strip original escapes rstr := "" for i := 0; i < len(str); i++ { ch := str[i] if ch == '\\' { if i+1 < len(str) { switch str[i+1] { case 'z': continue; } } } rstr += string(ch) } return rstr } func unescapeWhiteSPV(strv []string)([]string){ // strip original escapes ustrv := []string{} for _,v := range strv { ustrv = append(ustrv,unescapeWhiteSP(v)) } return ustrv } // str-expansion // – this should be a macro processor func strsubst(gshCtx *GshContext,str string,histonly bool) string { rbuff := []byte{} if false { //@@U Unicode should be cared as a character return str } //rstr := “” inEsc := 0 // escape characer mode for i := 0; i < len(str); i++ { //fmt.Printf("--D--Subst %v:%v\n",i,str[i:]) ch := str[i] if inEsc == 0 { if ch == '!' { //leng,xrstr := substHistory(gshCtx,str,i,rstr) leng,rs := substHistory(gshCtx,str,i,"") if 0 < leng { //_,rs := substHistory(gshCtx,str,i,"") rbuff = append(rbuff,[]byte(rs)...) i += leng //rstr = xrstr continue } } switch ch { case '\\': inEsc = '\\'; continue //case '%': inEsc = '%'; continue case '$': } } switch inEsc { case '\\': switch ch { case '\\': ch = '\\' case 's': ch = ' ' case 't': ch = '\t' case 'r': ch = '\r' case 'n': ch = '\n' case 'z': inEsc = 0; continue // empty, to be ignored } inEsc = 0 case '%': switch { case ch == '%': ch = '%' case ch == 'T': //rstr = rstr + time.Now().Format(time.Stamp) rs := time.Now().Format(time.Stamp) rbuff = append(rbuff,[]byte(rs)...) inEsc = 0 continue; default: // postpone the interpretation //rstr = rstr + "%" + string(ch) rbuff = append(rbuff,ch) inEsc = 0 continue; } inEsc = 0 } //rstr = rstr + string(ch) rbuff = append(rbuff,ch) } //fmt.Printf("--D--subst(%s)(%s)\n",str,string(rbuff)) return string(rbuff) //return rstr } func showFileInfo(path string, opts []string) { if isin("-l",opts) || isin("-ls",opts) { fi, err := os.Stat(path) if err != nil { fmt.Printf("---------- ((%v))",err) }else{ mod := fi.ModTime() date := mod.Format(time.Stamp) fmt.Printf("%v %8v %s ",fi.Mode(),fi.Size(),date) } } fmt.Printf("%s",path) if isin("-sp",opts) { fmt.Printf(" ") }else if ! isin("-n",opts) { fmt.Printf("\n") } } func userHomeDir()(string,bool){ /* homedir,_ = os.UserHomeDir() // not implemented in older Golang */ homedir,found := os.LookupEnv("HOME") //fmt.Printf("--I-- HOME=%v(%v)\n",homedir,found) if !found { return "/tmp",found } return homedir,found } func toFullpath(path string) (fullpath string) { if path[0] == '/' { return path } pathv := strings.Split(path,DIRSEP) switch { case pathv[0] == ".": pathv[0], _ = os.Getwd() case pathv[0] == "..": // all ones should be interpreted cwd, _ := os.Getwd() ppathv := strings.Split(cwd,DIRSEP) pathv[0] = strings.Join(ppathv,DIRSEP) case pathv[0] == "~": pathv[0],_ = userHomeDir() default: cwd, _ := os.Getwd() pathv[0] = cwd + DIRSEP + pathv[0] } return strings.Join(pathv,DIRSEP) } func IsRegFile(path string)(bool){ fi, err := os.Stat(path) if err == nil { fm := fi.Mode() return fm.IsRegular(); } return false } // Encode / Decode // Encoder func (gshCtx *GshContext)Enc(argv[]string){ file := os.Stdin buff := make([]byte,LINESIZE) li := 0 encoder := base64.NewEncoder(base64.StdEncoding,os.Stdout) for li = 0; ; li++ { count, err := file.Read(buff) if count <= 0 { break } if err != nil { break } encoder.Write(buff[0:count]) } encoder.Close() } func (gshCtx *GshContext)Dec(argv[]string){ decoder := base64.NewDecoder(base64.StdEncoding,os.Stdin) li := 0 buff := make([]byte,LINESIZE) for li = 0; ; li++ { count, err := decoder.Read(buff) if count <= 0 { break } if err != nil { break } os.Stdout.Write(buff[0:count]) } } // lnsp [N] [-crlf][-C \\] func (gshCtx *GshContext)SplitLine(argv[]string){ reader := bufio.NewReaderSize(os.Stdin,64*1024) ni := 0 toi := 0 for ni = 0; ; ni++ { line, err := reader.ReadString('\n') if len(line) <= 0 { if err != nil { fmt.Fprintf(os.Stderr,"--I-- lnsp %d to %d (%v)\n",ni,toi,err) break } } off := 0 ilen := len(line) remlen := len(line) for oi := 0; 0 < remlen; oi++ { olen := remlen addnl := false if 72 < olen { olen = 72 addnl = true } fmt.Fprintf(os.Stderr,"--D-- write %d [%d.%d] %d %d/%d/%d\n", toi,ni,oi,off,olen,remlen,ilen) toi += 1 os.Stdout.Write([]byte(line[0:olen])) if addnl { //os.Stdout.Write([]byte("\r\n")) os.Stdout.Write([]byte("\\")) os.Stdout.Write([]byte("\n")) } line = line[olen:] off += olen remlen -= olen } } fmt.Fprintf(os.Stderr,"--I-- lnsp %d to %d\n",ni,toi) } // CRC32 crc32 // 1 0000 0100 1100 0001 0001 1101 1011 0111 var CRC32UNIX uint32 = uint32(0x04C11DB7) // Unix cksum var CRC32IEEE uint32 = uint32(0xEDB88320) func byteCRC32add(crc uint32,str[]byte,len uint64)(uint32){ var i uint64 for i = 0; i < len; i++ { var oct = str[i] for bi := 0; bi < 8; bi++ { ovf1 := (crc & 0x80000000) != 0 ovf2 := (oct & 0x80) != 0 ovf := (ovf1 && !ovf2) || (!ovf1 && ovf2) oct <<= 1 crc <<= 1 if ovf { crc ^= CRC32UNIX } } } return crc; } func byteCRC32end(crc uint32, len uint64)(uint32){ var slen = make([]byte,4) var li = 0 for li = 0; li < 4; { slen[li] = byte(len) li += 1 len >>= 8 if( len == 0 ){ break } } crc = byteCRC32add(crc,slen,uint64(li)) crc ^= 0xFFFFFFFF return crc } func byteCRC32(str[]byte,len uint64)(crc uint32){ crc = byteCRC32add(0,str,len) crc = byteCRC32end(crc,len) return crc } func CRC32Finish(crc uint32, table *crc32.Table, len uint64)(uint32){ var slen = make([]byte,4) var li = 0 for li = 0; li < 4; { slen[li] = byte(len & 0xFF) li += 1 len >>= 8 if( len == 0 ){ break } } crc = crc32.Update(crc,table,slen) crc ^= 0xFFFFFFFF return crc } func (gsh*GshContext)xCksum(path string,argv[]string, sum*CheckSum)(int64){ if isin(“-type/f”,argv) && !IsRegFile(path){ return 0 } if isin(“-type/d”,argv) && IsRegFile(path){ return 0 } file, err := os.OpenFile(path,os.O_RDONLY,0) if err != nil { fmt.Printf(“–E– cksum %v (%v)\n”,path,err) return -1 } defer file.Close() if gsh.CmdTrace { fmt.Printf(“–I– cksum %v %v\n”,path,argv) } bi := 0 var buff = make([]byte,32*1024) var total int64 = 0 var initTime = time.Time{} if sum.Start == initTime { sum.Start = time.Now() } for bi = 0; ; bi++ { count,err := file.Read(buff) if count <= 0 || err != nil { break } if (sum.SumType & SUM_SUM64) != 0 { s := sum.Sum64 for _,c := range buff[0:count] { s += uint64(c) } sum.Sum64 = s } if (sum.SumType & SUM_UNIXFILE) != 0 { sum.Crc32Val = byteCRC32add(sum.Crc32Val,buff,uint64(count)) } if (sum.SumType & SUM_CRCIEEE) != 0 { sum.Crc32Val = crc32.Update(sum.Crc32Val,&sum.Crc32Table,buff[0:count]) } // BSD checksum if (sum.SumType & SUM_SUM16_BSD) != 0 { s := sum.Sum16 for _,c := range buff[0:count] { s = (s >> 1) + ((s & 1) << 15) s += int(c) s &= 0xFFFF //fmt.Printf("BSDsum: %d[%d] %d\n",sum.Size+int64(i),i,s) } sum.Sum16 = s } if (sum.SumType & SUM_SUM16_SYSV) != 0 { for bj := 0; bj < count; bj++ { sum.Sum16 += int(buff[bj]) } } total += int64(count) } sum.Done = time.Now() sum.Files += 1 sum.Size += total if !isin("-s",argv) { fmt.Printf("%v ",total) } return 0 } // grep // “lines”, “lin” or “lnp” for “(text) line processor” or “scanner” // a*,!ab,c, … sequentioal combination of patterns // what “LINE” is should be definable // generic line-by-line processing // grep [-v] // cat -n -v // uniq [-c] // tail -f // sed s/x/y/ or awk // grep with line count like wc // rewrite contents if specified func (gsh*GshContext)xGrep(path string,rexpv[]string)(int){ file, err := os.OpenFile(path,os.O_RDONLY,0) if err != nil { fmt.Printf(“–E– grep %v (%v)\n”,path,err) return -1 } defer file.Close() if gsh.CmdTrace { fmt.Printf(“–I– grep %v %v\n”,path,rexpv) } //reader := bufio.NewReaderSize(file,LINESIZE) reader := bufio.NewReaderSize(file,80) li := 0 found := 0 for li = 0; ; li++ { line, err := reader.ReadString(‘\n’) if len(line) <= 0 { break } if 150 < len(line) { // maybe binary break; } if err != nil { break } if 0 <= strings.Index(string(line),rexpv[0]) { found += 1 fmt.Printf("%s:%d: %s",path,li,line) } } //fmt.Printf("total %d lines %s\n",li,path) //if( 0 < found ){ fmt.Printf("((found %d lines %s))\n",found,path); } return found } // Finder // finding files with it name and contents // file names are ORed // show the content with %x fmt list // ls -R // tar command by adding output type fileSum struct { Err int64 // access error or so Size int64 // content size DupSize int64 // content size from hard links Blocks int64 // number of blocks (of 512 bytes) DupBlocks int64 // Blocks pointed from hard links HLinks int64 // hard links Words int64 Lines int64 Files int64 Dirs int64 // the num. of directories SymLink int64 Flats int64 // the num. of flat files MaxDepth int64 MaxNamlen int64 // max. name length nextRepo time.Time } func showFusage(dir string,fusage *fileSum){ bsume := float64(((fusage.Blocks-fusage.DupBlocks)/2)*1024)/1000000.0 //bsumdup := float64((fusage.Blocks/2)*1024)/1000000.0 fmt.Printf(“%v: %v files (%vd %vs %vh) %.6f MB (%.2f MBK)\n”, dir, fusage.Files, fusage.Dirs, fusage.SymLink, fusage.HLinks, float64(fusage.Size)/1000000.0,bsume); } const ( S_IFMT = 0170000 S_IFCHR = 0020000 S_IFDIR = 0040000 S_IFREG = 0100000 S_IFLNK = 0120000 S_IFSOCK = 0140000 ) func cumFinfo(fsum *fileSum, path string, staterr error, fstat syscall.Stat_t, argv[]string,verb bool)(*fileSum){ now := time.Now() if time.Second <= now.Sub(fsum.nextRepo) { if !fsum.nextRepo.IsZero(){ tstmp := now.Format(time.Stamp) showFusage(tstmp,fsum) } fsum.nextRepo = now.Add(time.Second) } if staterr != nil { fsum.Err += 1 return fsum } fsum.Files += 1 if 1 < fstat.Nlink { // must count only once... // at least ignore ones in the same directory //if finfo.Mode().IsRegular() { if (fstat.Mode & S_IFMT) == S_IFREG { fsum.HLinks += 1 fsum.DupBlocks += int64(fstat.Blocks) //fmt.Printf("---Dup HardLink %v %s\n",fstat.Nlink,path) } } //fsum.Size += finfo.Size() fsum.Size += fstat.Size fsum.Blocks += int64(fstat.Blocks) //if verb { fmt.Printf("(%8dBlk) %s",fstat.Blocks/2,path) } if isin("-ls",argv){ //if verb { fmt.Printf("%4d %8d ",fstat.Blksize,fstat.Blocks) } // fmt.Printf("%d\t",fstat.Blocks/2) } //if finfo.IsDir() if (fstat.Mode & S_IFMT) == S_IFDIR { fsum.Dirs += 1 } //if (finfo.Mode() & os.ModeSymlink) != 0 if (fstat.Mode & S_IFMT) == S_IFLNK { //if verb { fmt.Printf("symlink(%v,%s)\n",fstat.Mode,finfo.Name()) } //{ fmt.Printf("symlink(%o,%s)\n",fstat.Mode,finfo.Name()) } fsum.SymLink += 1 } return fsum } func (gsh*GshContext)xxFindEntv(depth int,total *fileSum,dir string, dstat syscall.Stat_t, ei int, entv []string,npatv[]string,argv[]string)(*fileSum){ nols := isin("-grep",argv) // sort entv /* if isin("-t",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].ModTime().Sub(filev[j].ModTime()) }) } */ /* if isin("-u",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].AccTime().Sub(filev[j].AccTime()) }) } if isin("-U",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].CreatTime().Sub(filev[j].CreatTime()) }) } */ /* if isin("-S",argv){ sort.Slice(filev, func(i,j int) bool { return filev[j].Size() < filev[i].Size() }) } */ for _,filename := range entv { for _,npat := range npatv { match := true if npat == "*" { match = true }else{ match, _ = filepath.Match(npat,filename) } path := dir + DIRSEP + filename if !match { continue } var fstat syscall.Stat_t staterr := syscall.Lstat(path,&fstat) if staterr != nil { if !isin("-w",argv){fmt.Printf("ufind: %v\n",staterr) } continue; } if isin("-du",argv) && (fstat.Mode & S_IFMT) == S_IFDIR { // should not show size of directory in "-du" mode ... }else if !nols && !isin("-s",argv) && (!isin("-du",argv) || isin("-a",argv)) { if isin("-du",argv) { fmt.Printf("%d\t",fstat.Blocks/2) } showFileInfo(path,argv) } if true { // && isin("-du",argv) total = cumFinfo(total,path,staterr,fstat,argv,false) } /* if isin("-wc",argv) { } */ if gsh.lastCheckSum.SumType != 0 { gsh.xCksum(path,argv,&gsh.lastCheckSum); } x := isinX("-grep",argv); // -grep will be convenient like -ls if 0 <= x && x+1 <= len(argv) { // -grep will be convenient like -ls if IsRegFile(path){ found := gsh.xGrep(path,argv[x+1:]) if 0 < found { foundv := gsh.CmdCurrent.FoundFile if len(foundv) < 10 { gsh.CmdCurrent.FoundFile = append(gsh.CmdCurrent.FoundFile,path) } } } } if !isin("-r0",argv) { // -d 0 in du, -depth n in find //total.Depth += 1 if (fstat.Mode & S_IFMT) == S_IFLNK { continue } if dstat.Rdev != fstat.Rdev { fmt.Printf("--I-- don't follow differnet device %v(%v) %v(%v)\n", dir,dstat.Rdev,path,fstat.Rdev) } if (fstat.Mode & S_IFMT) == S_IFDIR { total = gsh.xxFind(depth+1,total,path,npatv,argv) } } } } return total } func (gsh*GshContext)xxFind(depth int,total *fileSum,dir string,npatv[]string,argv[]string)(*fileSum){ nols := isin("-grep",argv) dirfile,oerr := os.OpenFile(dir,os.O_RDONLY,0) if oerr == nil { //fmt.Printf("--I-- %v(%v)[%d]\n",dir,dirfile,dirfile.Fd()) defer dirfile.Close() }else{ } prev := *total var dstat syscall.Stat_t staterr := syscall.Lstat(dir,&dstat) // should be flstat if staterr != nil { if !isin("-w",argv){ fmt.Printf("ufind: %v\n",staterr) } return total } //filev,err := ioutil.ReadDir(dir) //_,err := ioutil.ReadDir(dir) // ReadDir() heavy and bad for huge directory /* if err != nil { if !isin("-w",argv){ fmt.Printf("ufind: %v\n",err) } return total } */ if depth == 0 { total = cumFinfo(total,dir,staterr,dstat,argv,true) if !nols && !isin("-s",argv) && (!isin("-du",argv) || isin("-a",argv)) { showFileInfo(dir,argv) } } // it it is not a directory, just scan it and finish for ei := 0; ; ei++ { entv,rderr := dirfile.Readdirnames(8*1024) if len(entv) == 0 || rderr != nil { //if rderr != nil { fmt.Printf("[%d] len=%d (%v)\n",ei,len(entv),rderr) } break } if 0 < ei { fmt.Printf("--I-- xxFind[%d] %d large-dir: %s\n",ei,len(entv),dir) } total = gsh.xxFindEntv(depth,total,dir,dstat,ei,entv,npatv,argv) } if isin("-du",argv) { // if in "du" mode fmt.Printf("%d\t%s\n",(total.Blocks-prev.Blocks)/2,dir) } return total } // {ufind|fu|ls} [Files] [// Names] [-- Expressions] // Files is "." by default // Names is "*" by default // Expressions is "-print" by default for "ufind", or -du for "fu" command func (gsh*GshContext)xFind(argv[]string){ if 0 < len(argv) && strBegins(argv[0],"?"){ showFound(gsh,argv) return } if isin("-cksum",argv) || isin("-sum",argv) { gsh.lastCheckSum = CheckSum{} if isin("-sum",argv) && isin("-add",argv) { gsh.lastCheckSum.SumType |= SUM_SUM64 }else if isin("-sum",argv) && isin("-size",argv) { gsh.lastCheckSum.SumType |= SUM_SIZE }else if isin("-sum",argv) && isin("-bsd",argv) { gsh.lastCheckSum.SumType |= SUM_SUM16_BSD }else if isin("-sum",argv) && isin("-sysv",argv) { gsh.lastCheckSum.SumType |= SUM_SUM16_SYSV }else if isin("-sum",argv) { gsh.lastCheckSum.SumType |= SUM_SUM64 } if isin("-unix",argv) { gsh.lastCheckSum.SumType |= SUM_UNIXFILE gsh.lastCheckSum.Crc32Table = *crc32.MakeTable(CRC32UNIX) } if isin("-ieee",argv){ gsh.lastCheckSum.SumType |= SUM_CRCIEEE gsh.lastCheckSum.Crc32Table = *crc32.MakeTable(CRC32IEEE) } gsh.lastCheckSum.RusgAtStart = Getrusagev() } var total = fileSum{} npats := []string{} for _,v := range argv { if 0 < len(v) && v[0] != '-' { npats = append(npats,v) } if v == "//" { break } if v == "--" { break } if v == "-grep" { break } if v == "-ls" { break } } if len(npats) == 0 { npats = []string{"*"} } cwd := "." // if to be fullpath ::: cwd, _ := os.Getwd() if len(npats) == 0 { npats = []string{"*"} } fusage := gsh.xxFind(0,&total,cwd,npats,argv) if gsh.lastCheckSum.SumType != 0 { var sumi uint64 = 0 sum := &gsh.lastCheckSum if (sum.SumType & SUM_SIZE) != 0 { sumi = uint64(sum.Size) } if (sum.SumType & SUM_SUM64) != 0 { sumi = sum.Sum64 } if (sum.SumType & SUM_SUM16_SYSV) != 0 { s := uint32(sum.Sum16) r := (s & 0xFFFF) + ((s & 0xFFFFFFFF) >> 16) s = (r & 0xFFFF) + (r >> 16) sum.Crc32Val = uint32(s) sumi = uint64(s) } if (sum.SumType & SUM_SUM16_BSD) != 0 { sum.Crc32Val = uint32(sum.Sum16) sumi = uint64(sum.Sum16) } if (sum.SumType & SUM_UNIXFILE) != 0 { sum.Crc32Val = byteCRC32end(sum.Crc32Val,uint64(sum.Size)) sumi = uint64(byteCRC32end(sum.Crc32Val,uint64(sum.Size))) } if 1 < sum.Files { fmt.Printf("%v %v // %v / %v files, %v/file\r\n", sumi,sum.Size, abssize(sum.Size),sum.Files, abssize(sum.Size/sum.Files)) }else{ fmt.Printf("%v %v %v\n", sumi,sum.Size,npats[0]) } } if !isin("-grep",argv) { showFusage("total",fusage) } if !isin("-s",argv){ hits := len(gsh.CmdCurrent.FoundFile) if 0 < hits { fmt.Printf("--I-- %d files hits // can be refered with !%df\n", hits,len(gsh.CommandHistory)) } } if gsh.lastCheckSum.SumType != 0 { if isin("-ru",argv) { sum := &gsh.lastCheckSum sum.Done = time.Now() gsh.lastCheckSum.RusgAtEnd = Getrusagev() elps := sum.Done.Sub(sum.Start) fmt.Printf("--cksum-size: %v (%v) / %v files, %v/file\r\n", sum.Size,abssize(sum.Size),sum.Files,abssize(sum.Size/sum.Files)) nanos := int64(elps) fmt.Printf("--cksum-time: %v/total, %v/file, %.1f files/s, %v\r\n", abbtime(nanos), abbtime(nanos/sum.Files), (float64(sum.Files)*1000000000.0)/float64(nanos), abbspeed(sum.Size,nanos)) diff := RusageSubv(sum.RusgAtEnd,sum.RusgAtStart) fmt.Printf("--cksum-rusg: %v\n",sRusagef("",argv,diff)) } } return } func showFiles(files[]string){ sp := "" for i,file := range files { if 0 < i { sp = " " } else { sp = "" } fmt.Printf(sp+"%s",escapeWhiteSP(file)) } } func showFound(gshCtx *GshContext, argv[]string){ for i,v := range gshCtx.CommandHistory { if 0 < len(v.FoundFile) { fmt.Printf("!%d (%d) ",i,len(v.FoundFile)) if isin("-ls",argv){ fmt.Printf("\n") for _,file := range v.FoundFile { fmt.Printf("") //sub number? showFileInfo(file,argv) } }else{ showFiles(v.FoundFile) fmt.Printf("\n") } } } } func showMatchFile(filev []os.FileInfo, npat,dir string, argv[]string)(string,bool){ fname := "" found := false for _,v := range filev { match, _ := filepath.Match(npat,(v.Name())) if match { fname = v.Name() found = true //fmt.Printf("[%d] %s\n",i,v.Name()) showIfExecutable(fname,dir,argv) } } return fname,found } func showIfExecutable(name,dir string,argv[]string)(ffullpath string,ffound bool){ var fullpath string if strBegins(name,DIRSEP){ fullpath = name }else{ fullpath = dir + DIRSEP + name } fi, err := os.Stat(fullpath) if err != nil { fullpath = dir + DIRSEP + name + ".go" fi, err = os.Stat(fullpath) } if err == nil { fm := fi.Mode() if fm.IsRegular() { // R_OK=4, W_OK=2, X_OK=1, F_OK=0 if syscall.Access(fullpath,5) == nil { ffullpath = fullpath ffound = true if ! isin("-s", argv) { showFileInfo(fullpath,argv) } } } } return ffullpath, ffound } func which(list string, argv []string) (fullpathv []string, itis bool){ if len(argv) <= 1 { fmt.Printf("Usage: which comand [-s] [-a] [-ls]\n") return []string{""}, false } path := argv[1] if strBegins(path,"/") { // should check if excecutable? _,exOK := showIfExecutable(path,"/",argv) fmt.Printf("--D-- %v exOK=%v\n",path,exOK) return []string{path},exOK } pathenv, efound := os.LookupEnv(list) if ! efound { fmt.Printf("--E-- which: no \"%s\" environment\n",list) return []string{""}, false } showall := isin("-a",argv) || 0 <= strings.Index(path,"*") dirv := strings.Split(pathenv,PATHSEP) ffound := false ffullpath := path for _, dir := range dirv { if 0 <= strings.Index(path,"*") { // by wild-card list,_ := ioutil.ReadDir(dir) ffullpath, ffound = showMatchFile(list,path,dir,argv) }else{ ffullpath, ffound = showIfExecutable(path,dir,argv) } //if ffound && !isin("-a", argv) { if ffound && !showall { break; } } return []string{ffullpath}, ffound } func stripLeadingWSParg(argv[]string)([]string){ for ; 0 < len(argv); { if len(argv[0]) == 0 { argv = argv[1:] }else{ break } } return argv } func xEval(argv []string, nlend bool){ argv = stripLeadingWSParg(argv) if len(argv) == 0 { fmt.Printf("eval [%%format] [Go-expression]\n") return } pfmt := "%v" if argv[0][0] == '%' { pfmt = argv[0] argv = argv[1:] } if len(argv) == 0 { return } gocode := strings.Join(argv," "); //fmt.Printf("eval [%v] [%v]\n",pfmt,gocode) fset := token.NewFileSet() rval, _ := types.Eval(fset,nil,token.NoPos,gocode) fmt.Printf(pfmt,rval.Value) if nlend { fmt.Printf("\n") } } func getval(name string) (found bool, val int) { /* should expand the name here */ if name == "gsh.pid" { return true, os.Getpid() }else if name == "gsh.ppid" { return true, os.Getppid() } return false, 0 } func echo(argv []string, nlend bool){ for ai := 1; ai < len(argv); ai++ { if 1 < ai { fmt.Printf(" "); } arg := argv[ai] found, val := getval(arg) if found { fmt.Printf("%d",val) }else{ fmt.Printf("%s",arg) } } if nlend { fmt.Printf("\n"); } } func resfile() string { return "gsh.tmp" } //var resF *File func resmap() { //_ , err := os.OpenFile(resfile(), os.O_RDWR|os.O_CREATE, os.ModeAppend) // https://developpaper.com/solution-to-golang-bad-file-descriptor-problem/ _ , err := os.OpenFile(resfile(), os.O_RDWR|os.O_CREATE, 0600) if err != nil { fmt.Printf("refF could not open: %s\n",err) }else{ fmt.Printf("refF opened\n") } } // @@2020-0821 func gshScanArg(str string,strip int)(argv []string){ var si = 0 var sb = 0 var inBracket = 0 var arg1 = make([]byte,LINESIZE) var ax = 0 debug := false for ; si < len(str); si++ { if str[si] != ' ' { break } } sb = si for ; si < len(str); si++ { if sb <= si { if debug { fmt.Printf("--Da- +%d %2d-%2d %s ... %s\n", inBracket,sb,si,arg1[0:ax],str[si:]) } } ch := str[si] if ch == '{' { inBracket += 1 if 0 < strip && inBracket <= strip { //fmt.Printf("stripLEV %d <= %d?\n",inBracket,strip) continue } } if 0 < inBracket { if ch == '}' { inBracket -= 1 if 0 < strip && inBracket < strip { //fmt.Printf("stripLEV %d < %d?\n",inBracket,strip) continue } } arg1[ax] = ch ax += 1 continue } if str[si] == ' ' { argv = append(argv,string(arg1[0:ax])) if debug { fmt.Printf("--Da- [%v][%v-%v] %s ... %s\n", -1+len(argv),sb,si,str[sb:si],string(str[si:])) } sb = si+1 ax = 0 continue } arg1[ax] = ch ax += 1 } if sb < si { argv = append(argv,string(arg1[0:ax])) if debug { fmt.Printf("--Da- [%v][%v-%v] %s ... %s\n", -1+len(argv),sb,si,string(arg1[0:ax]),string(str[si:])) } } if debug { fmt.Printf("--Da- %d [%s] => [%d]%v\n”,strip,str,len(argv),argv) } return argv } // should get stderr (into tmpfile ?) and return func (gsh*GshContext)Popen(name,mode string)(pin*os.File,pout*os.File,err bool){ var pv = []int{-1,-1} syscall.Pipe(pv) xarg := gshScanArg(name,1) name = strings.Join(xarg,” “) pin = os.NewFile(uintptr(pv[0]),”StdoutOf-{“+name+”}”) pout = os.NewFile(uintptr(pv[1]),”StdinOf-{“+name+”}”) fdix := 0 dir := “?” if mode == “r” { dir = “<" fdix = 1 // read from the stdout of the process }else{ dir = ">” fdix = 0 // write to the stdin of the process } gshPA := gsh.gshPA savfd := gshPA.Files[fdix] var fd uintptr = 0 if mode == “r” { fd = pout.Fd() gshPA.Files[fdix] = pout.Fd() }else{ fd = pin.Fd() gshPA.Files[fdix] = pin.Fd() } // should do this by Goroutine? if false { fmt.Printf(“–Ip- Opened fd[%v] %s %v\n”,fd,dir,name) fmt.Printf(“–RED1 [%d,%d,%d]->[%d,%d,%d]\n”, os.Stdin.Fd(),os.Stdout.Fd(),os.Stderr.Fd(), pin.Fd(),pout.Fd(),pout.Fd()) } savi := os.Stdin savo := os.Stdout save := os.Stderr os.Stdin = pin os.Stdout = pout os.Stderr = pout gsh.BackGround = true gsh.gshelllh(name) gsh.BackGround = false os.Stdin = savi os.Stdout = savo os.Stderr = save gshPA.Files[fdix] = savfd return pin,pout,false } // External commands func (gsh*GshContext)excommand(exec bool, argv []string) (notf bool,exit bool) { if gsh.CmdTrace { fmt.Printf(“–I– excommand[%v](%v)\n”,exec,argv) } gshPA := gsh.gshPA fullpathv, itis := which(“PATH”,[]string{“which”,argv[0],”-s”}) if itis == false { return true,false } fullpath := fullpathv[0] argv = unescapeWhiteSPV(argv) if 0 < strings.Index(fullpath,".go") { nargv := argv // []string{} gofullpathv, itis := which("PATH",[]string{"which","go","-s"}) if itis == false { fmt.Printf("--F-- Go not found\n") return false,true } gofullpath := gofullpathv[0] nargv = []string{ gofullpath, "run", fullpath } fmt.Printf("--I-- %s {%s %s %s}\n",gofullpath, nargv[0],nargv[1],nargv[2]) if exec { syscall.Exec(gofullpath,nargv,os.Environ()) }else{ pid, _ := syscall.ForkExec(gofullpath,nargv,&gshPA) if gsh.BackGround { fmt.Fprintf(stderr,"--Ip- in Background pid[%d]%d(%v)\n",pid,len(argv),nargv) gsh.BackGroundJobs = append(gsh.BackGroundJobs,pid) }else{ rusage := syscall.Rusage {} syscall.Wait4(pid,nil,0,&rusage) gsh.LastRusage = rusage gsh.CmdCurrent.Rusagev[1] = rusage } } }else{ if exec { syscall.Exec(fullpath,argv,os.Environ()) }else{ pid, _ := syscall.ForkExec(fullpath,argv,&gshPA) //fmt.Printf("[%d]\n",pid); // '&' to be background if gsh.BackGround { fmt.Fprintf(stderr,"--Ip- in Background pid[%d]%d(%v)\n",pid,len(argv),argv) gsh.BackGroundJobs = append(gsh.BackGroundJobs,pid) }else{ rusage := syscall.Rusage {} syscall.Wait4(pid,nil,0,&rusage); gsh.LastRusage = rusage gsh.CmdCurrent.Rusagev[1] = rusage } } } return false,false } // Builtin Commands func (gshCtx *GshContext) sleep(argv []string) { if len(argv) < 2 { fmt.Printf("Sleep 100ms, 100us, 100ns, ...\n") return } duration := argv[1]; d, err := time.ParseDuration(duration) if err != nil { d, err = time.ParseDuration(duration+"s") if err != nil { fmt.Printf("duration ? %s (%s)\n",duration,err) return } } //fmt.Printf("Sleep %v\n",duration) time.Sleep(d) if 0 < len(argv[2:]) { gshCtx.gshellv(argv[2:]) } } func (gshCtx *GshContext)repeat(argv []string) { if len(argv) < 2 { return } start0 := time.Now() for ri,_ := strconv.Atoi(argv[1]); 0 < ri; ri-- { if 0 < len(argv[2:]) { //start := time.Now() gshCtx.gshellv(argv[2:]) end := time.Now() elps := end.Sub(start0); if( 1000000000 < elps ){ fmt.Printf("(repeat#%d %v)\n",ri,elps); } } } } func (gshCtx *GshContext)gen(argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: %s N\n",argv[0]) return } // should br repeated by "repeat" command count, _ := strconv.Atoi(argv[1]) fd := gshPA.Files[1] // Stdout file := os.NewFile(fd,"internalStdOut") fmt.Printf("--I-- Gen. Count=%d to [%d]\n",count,file.Fd()) //buf := []byte{} outdata := "0123 5678 0123 5678 0123 5678 0123 5678\r" for gi := 0; gi < count; gi++ { file.WriteString(outdata) } //file.WriteString("\n") fmt.Printf("\n(%d B)\n",count*len(outdata)); //file.Close() } // Remote Execution // 2020-0820 func Elapsed(from time.Time)(string){ elps := time.Now().Sub(from) if 1000000000 < elps { return fmt.Sprintf("[%5d.%02ds]",elps/1000000000,(elps%1000000000)/10000000) }else if 1000000 < elps { return fmt.Sprintf("[%3d.%03dms]",elps/1000000,(elps%1000000)/1000) }else{ return fmt.Sprintf("[%3d.%03dus]",elps/1000,(elps%1000)) } } func abbtime(nanos int64)(string){ if 1000000000 < nanos { return fmt.Sprintf("%d.%02ds",nanos/1000000000,(nanos%1000000000)/10000000) }else if 1000000 < nanos { return fmt.Sprintf("%d.%03dms",nanos/1000000,(nanos%1000000)/1000) }else{ return fmt.Sprintf("%d.%03dus",nanos/1000,(nanos%1000)) } } func abssize(size int64)(string){ fsize := float64(size) if 1024*1024*1024 < size { return fmt.Sprintf("%.2fGiB",fsize/(1024*1024*1024)) }else if 1024*1024 < size { return fmt.Sprintf("%.3fMiB",fsize/(1024*1024)) }else{ return fmt.Sprintf("%.3fKiB",fsize/1024) } } func absize(size int64)(string){ fsize := float64(size) if 1024*1024*1024 < size { return fmt.Sprintf("%8.2fGiB",fsize/(1024*1024*1024)) }else if 1024*1024 < size { return fmt.Sprintf("%8.3fMiB",fsize/(1024*1024)) }else{ return fmt.Sprintf("%8.3fKiB",fsize/1024) } } func abbspeed(totalB int64,ns int64)(string){ MBs := (float64(totalB)/1000000) / (float64(ns)/1000000000) if 1000 <= MBs { return fmt.Sprintf("%6.3fGB/s",MBs/1000) } if 1 <= MBs { return fmt.Sprintf("%6.3fMB/s",MBs) }else{ return fmt.Sprintf("%6.3fKB/s",MBs*1000) } } func abspeed(totalB int64,ns time.Duration)(string){ MBs := (float64(totalB)/1000000) / (float64(ns)/1000000000) if 1000 <= MBs { return fmt.Sprintf("%6.3fGBps",MBs/1000) } if 1 <= MBs { return fmt.Sprintf("%6.3fMBps",MBs) }else{ return fmt.Sprintf("%6.3fKBps",MBs*1000) } } func fileRelay(what string,in*os.File,out*os.File,size int64,bsiz int)(wcount int64){ Start := time.Now() buff := make([]byte,bsiz) var total int64 = 0 var rem int64 = size nio := 0 Prev := time.Now() var PrevSize int64 = 0 fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) START\n", what,absize(total),size,nio) for i:= 0; ; i++ { var len = bsiz if int(rem) < len { len = int(rem) } Now := time.Now() Elps := Now.Sub(Prev); if 1000000000 < Now.Sub(Prev) { fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) %s\n", what,absize(total),size,nio, abspeed((total-PrevSize),Elps)) Prev = Now; PrevSize = total } rlen := len if in != nil { // should watch the disconnection of out rcc,err := in.Read(buff[0:rlen]) if err != nil { fmt.Printf(Elapsed(Start)+"--En- X: %s read(%v,%v)<%v\n", what,rcc,err,in.Name()) break } rlen = rcc if string(buff[0:10]) == "((SoftEOF " { var ecc int64 = 0 fmt.Sscanf(string(buff),"((SoftEOF %v",&ecc) fmt.Printf(Elapsed(Start)+"--En- X: %s Recv ((SoftEOF %v))/%v\n", what,ecc,total) if ecc == total { break } } } wlen := rlen if out != nil { wcc,err := out.Write(buff[0:rlen]) if err != nil { fmt.Printf(Elapsed(Start)+"-En-- X: %s write(%v,%v)>%v\n”, what,wcc,err,out.Name()) break } wlen = wcc } if wlen < rlen { fmt.Printf(Elapsed(Start)+"--En- X: %s incomplete write (%v/%v)\n", what,wlen,rlen) break; } nio += 1 total += int64(rlen) rem -= int64(rlen) if rem <= 0 { break } } Done := time.Now() Elps := float64(Done.Sub(Start))/1000000000 //Seconds TotalMB := float64(total)/1000000 //MB MBps := TotalMB / Elps fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) %v %.3fMB/s\n", what,total,size,nio,absize(total),MBps) return total } func tcpPush(clnt *os.File){ // shrink socket buffer and recover usleep(100); } func (gsh*GshContext)RexecServer(argv[]string){ debug := true Start0 := time.Now() Start := Start0 // if local == ":" { local = "0.0.0.0:9999" } local := "0.0.0.0:9999" if 0 < len(argv) { if argv[0] == "-s" { debug = false argv = argv[1:] } } if 0 < len(argv) { argv = argv[1:] } port, err := net.ResolveTCPAddr("tcp",local); if err != nil { fmt.Printf("--En- S: Address error: %s (%s)\n",local,err) return } fmt.Printf(Elapsed(Start)+"--In- S: Listening at %s...\n",local); sconn, err := net.ListenTCP("tcp", port) if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: Listen error: %s (%s)\n",local,err) return } reqbuf := make([]byte,LINESIZE) res := "" for { fmt.Printf(Elapsed(Start0)+"--In- S: Listening at %s...\n",local); aconn, err := sconn.AcceptTCP() Start = time.Now() if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: Accept error: %s (%s)\n",local,err) return } clnt, _ := aconn.File() fd := clnt.Fd() ar := aconn.RemoteAddr() if debug { fmt.Printf(Elapsed(Start0)+"--In- S: Accepted TCP at %s [%d] <- %v\n", local,fd,ar) } res = fmt.Sprintf("220 GShell/%s Server\r\n",VERSION) fmt.Fprintf(clnt,"%s",res) if debug { fmt.Printf(Elapsed(Start)+"--In- S: %s",res) } count, err := clnt.Read(reqbuf) if err != nil { fmt.Printf(Elapsed(Start)+"--En- C: (%v %v) %v", count,err,string(reqbuf)) } req := string(reqbuf[:count]) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",string(req)) } reqv := strings.Split(string(req),"\r") cmdv := gshScanArg(reqv[0],0) //cmdv := strings.Split(reqv[0]," ") switch cmdv[0] { case "HELO": res = fmt.Sprintf("250 %v",req) case "GET": // download {remotefile|-zN} [localfile] var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var fname string = "" var in *os.File = nil var pseudoEOF = false if 1 < len(cmdv) { fname = cmdv[1] if strBegins(fname,"-z") { fmt.Sscanf(fname[2:],"%d",&dsize) }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"r") if err { }else{ xout.Close() defer xin.Close() in = xin dsize = MaxStreamSize pseudoEOF = true } }else{ xin,err := os.Open(fname) if err != nil { fmt.Printf("--En- GET (%v)\n",err) }else{ defer xin.Close() in = xin fi,_ := xin.Stat() dsize = fi.Size() } } } //fmt.Printf(Elapsed(Start)+"--In- GET %v:%v\n",dsize,bsize) res = fmt.Sprintf("200 %v\r\n",dsize) fmt.Fprintf(clnt,"%v",res) tcpPush(clnt); // should be separated as line in receiver fmt.Printf(Elapsed(Start)+"--In- S: %v",res) wcount := fileRelay("SendGET",in,clnt,dsize,bsize) if pseudoEOF { in.Close() // pipe from the command // show end of stream data (its size) by OOB? SoftEOF := fmt.Sprintf("((SoftEOF %v))",wcount) fmt.Printf(Elapsed(Start)+"--In- S: Send %v\n",SoftEOF) tcpPush(clnt); // to let SoftEOF data apper at the top of recevied data fmt.Fprintf(clnt,"%v\r\n",SoftEOF) tcpPush(clnt); // to let SoftEOF alone in a packet (separate with 200 OK) // with client generated random? //fmt.Printf("--In- L: close %v (%v)\n",in.Fd(),in.Name()) } res = fmt.Sprintf("200 GET done\r\n") case "PUT": // upload {srcfile|-zN} [dstfile] var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var fname string = "" var out *os.File = nil if 1 < len(cmdv) { // localfile fmt.Sscanf(cmdv[1],"%d",&dsize) } if 2 < len(cmdv) { fname = cmdv[2] if fname == "-" { // nul dev }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"w") if err { }else{ xin.Close() defer xout.Close() out = xout } }else{ // should write to temporary file // should suppress ^C on tty xout,err := os.OpenFile(fname,os.O_CREATE|os.O_RDWR|os.O_TRUNC,0600) //fmt.Printf("--In- S: open(%v) out(%v) err(%v)\n",fname,xout,err) if err != nil { fmt.Printf("--En- PUT (%v)\n",err) }else{ out = xout } } fmt.Printf(Elapsed(Start)+"--In- L: open(%v,w) %v (%v)\n", fname,local,err) } fmt.Printf(Elapsed(Start)+"--In- PUT %v (/%v)\n",dsize,bsize) fmt.Printf(Elapsed(Start)+"--In- S: 200 %v OK\r\n",dsize) fmt.Fprintf(clnt,"200 %v OK\r\n",dsize) fileRelay("RecvPUT",clnt,out,dsize,bsize) res = fmt.Sprintf("200 PUT done\r\n") default: res = fmt.Sprintf("400 What? %v",req) } swcc,serr := clnt.Write([]byte(res)) if serr != nil { fmt.Printf(Elapsed(Start)+"--In- S: (wc=%v er=%v) %v",swcc,serr,res) }else{ fmt.Printf(Elapsed(Start)+"--In- S: %v",res) } aconn.Close(); clnt.Close(); } sconn.Close(); } func (gsh*GshContext)RexecClient(argv[]string)(int,string){ debug := true Start := time.Now() if len(argv) == 1 { return -1,"EmptyARG" } argv = argv[1:] if argv[0] == "-serv" { gsh.RexecServer(argv[1:]) return 0,"Server" } remote := "0.0.0.0:9999" if argv[0][0] == '@' { remote = argv[0][1:] argv = argv[1:] } if argv[0] == "-s" { debug = false argv = argv[1:] } dport, err := net.ResolveTCPAddr("tcp",remote); if err != nil { fmt.Printf(Elapsed(Start)+"Address error: %s (%s)\n",remote,err) return -1,"AddressError" } fmt.Printf(Elapsed(Start)+"--In- C: Connecting to %s\n",remote) serv, err := net.DialTCP("tcp",nil,dport) if err != nil { fmt.Printf(Elapsed(Start)+"Connection error: %s (%s)\n",remote,err) return -1,"CannotConnect" } if debug { al := serv.LocalAddr() fmt.Printf(Elapsed(Start)+"--In- C: Connected to %v <- %v\n",remote,al) } req := "" res := make([]byte,LINESIZE) count,err := serv.Read(res) if err != nil { fmt.Printf("--En- S: (%3d,%v) %v",count,err,string(res)) } if debug { fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res)) } if argv[0] == "GET" { savPA := gsh.gshPA var bsize int = 64*1024 req = fmt.Sprintf("%v\r\n",strings.Join(argv," ")) fmt.Printf(Elapsed(Start)+"--In- C: %v",req) fmt.Fprintf(serv,req) count,err = serv.Read(res) if err != nil { }else{ var dsize int64 = 0 var out *os.File = nil var out_tobeclosed *os.File = nil var fname string = "" var rcode int = 0 var pid int = -1 fmt.Sscanf(string(res),"%d %d",&rcode,&dsize) fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res[0:count])) if 3 <= len(argv) { fname = argv[2] if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"w") if err { }else{ xin.Close() defer xout.Close() out = xout out_tobeclosed = xout pid = 0 // should be its pid } }else{ // should write to temporary file // should suppress ^C on tty xout,err := os.OpenFile(fname,os.O_CREATE|os.O_RDWR|os.O_TRUNC,0600) if err != nil { fmt.Print("--En- %v\n",err) } out = xout //fmt.Printf("--In-- %d > %s\n”,out.Fd(),fname) } } in,_ := serv.File() fileRelay(“RecvGET”,in,out,dsize,bsize) if 0 <= pid { gsh.gshPA = savPA // recovery of Fd(), and more? fmt.Printf(Elapsed(Start)+"--In- L: close Pipe > %v\n”,fname) out_tobeclosed.Close() //syscall.Wait4(pid,nil,0,nil) //@@ } } }else if argv[0] == “PUT” { remote, _ := serv.File() var local *os.File = nil var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var ofile string = “-” //fmt.Printf(“–I– Rex %v\n”,argv) if 1 < len(argv) { fname := argv[1] if strBegins(fname,"-z") { fmt.Sscanf(fname[2:],"%d",&dsize) }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"r") if err { }else{ xout.Close() defer xin.Close() //in = xin local = xin fmt.Printf("--In- [%d] < Upload output of %v\n", local.Fd(),fname) ofile = "-from."+fname dsize = MaxStreamSize } }else{ xlocal,err := os.Open(fname) if err != nil { fmt.Printf("--En- (%s)\n",err) local = nil }else{ local = xlocal fi,_ := local.Stat() dsize = fi.Size() defer local.Close() //fmt.Printf("--I-- Rex in(%v / %v)\n",ofile,dsize) } ofile = fname fmt.Printf(Elapsed(Start)+"--In- L: open(%v,r)=%v %v (%v)\n", fname,dsize,local,err) } } if 2 < len(argv) && argv[2] != "" { ofile = argv[2] //fmt.Printf("(%d)%v B.ofile=%v\n",len(argv),argv,ofile) } //fmt.Printf(Elapsed(Start)+"--I-- Rex out(%v)\n",ofile) fmt.Printf(Elapsed(Start)+"--In- PUT %v (/%v)\n",dsize,bsize) req = fmt.Sprintf("PUT %v %v \r\n",dsize,ofile) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",req) } fmt.Fprintf(serv,"%v",req) count,err = serv.Read(res) if debug { fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res[0:count])) } fileRelay("SendPUT",local,remote,dsize,bsize) }else{ req = fmt.Sprintf("%v\r\n",strings.Join(argv," ")) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",req) } fmt.Fprintf(serv,"%v",req) //fmt.Printf("--In- sending RexRequest(%v)\n",len(req)) } //fmt.Printf(Elapsed(Start)+"--In- waiting RexResponse...\n") count,err = serv.Read(res) ress := "" if count == 0 { ress = "(nil)\r\n" }else{ ress = string(res[:count]) } if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: (%d,%v) %v",count,err,ress) }else{ fmt.Printf(Elapsed(Start)+"--In- S: %v",ress) } serv.Close() //conn.Close() var stat string var rcode int fmt.Sscanf(ress,"%d %s",&rcode,&stat) //fmt.Printf("--D-- Client: %v (%v)",rcode,stat) return rcode,ress } // Remote Shell // gcp file […] { [host]:[port:][dir] | dir } // -p | -no-p func (gsh*GshContext)FileCopy(argv[]string){ var host = “” var port = “” var upload = false var download = false var xargv = []string{“rex-gcp”} var srcv = []string{} var dstv = []string{} argv = argv[1:] for _,v := range argv { /* if v[0] == ‘-‘ { // might be a pseudo file (generated date) continue } */ obj := strings.Split(v,”:”) //fmt.Printf(“%d %v %v\n”,len(obj),v,obj) if 1 < len(obj) { host = obj[0] file := "" if 0 < len(host) { gsh.LastServer.host = host }else{ host = gsh.LastServer.host port = gsh.LastServer.port } if 2 < len(obj) { port = obj[1] if 0 < len(port) { gsh.LastServer.port = port }else{ port = gsh.LastServer.port } file = obj[2] }else{ file = obj[1] } if len(srcv) == 0 { download = true srcv = append(srcv,file) continue } upload = true dstv = append(dstv,file) continue } /* idx := strings.Index(v,":") if 0 <= idx { remote = v[0:idx] if len(srcv) == 0 { download = true srcv = append(srcv,v[idx+1:]) continue } upload = true dstv = append(dstv,v[idx+1:]) continue } */ if download { dstv = append(dstv,v) }else{ srcv = append(srcv,v) } } hostport := "@" + host + ":" + port if upload { if host != "" { xargv = append(xargv,hostport) } xargv = append(xargv,"PUT") xargv = append(xargv,srcv[0:]...) xargv = append(xargv,dstv[0:]...) //fmt.Printf("--I-- FileCopy PUT gsh://%s/%v < %v // %v\n",hostport,dstv,srcv,xargv) fmt.Printf("--I-- FileCopy PUT gsh://%s/%v < %v\n",hostport,dstv,srcv) gsh.RexecClient(xargv) }else if download { if host != "" { xargv = append(xargv,hostport) } xargv = append(xargv,"GET") xargv = append(xargv,srcv[0:]...) xargv = append(xargv,dstv[0:]...) //fmt.Printf("--I-- FileCopy GET gsh://%v/%v > %v // %v\n”,hostport,srcv,dstv,xargv) fmt.Printf(“–I– FileCopy GET gsh://%v/%v > %v\n”,hostport,srcv,dstv) gsh.RexecClient(xargv) }else{ } } // target func (gsh*GshContext)Trelpath(rloc string)(string){ cwd, _ := os.Getwd() os.Chdir(gsh.RWD) os.Chdir(rloc) twd, _ := os.Getwd() os.Chdir(cwd) tpath := twd + “/” + rloc return tpath } // join to rmote GShell – [user@]host[:port] or cd host:[port]:path func (gsh*GshContext)Rjoin(argv[]string){ if len(argv) <= 1 { fmt.Printf("--I-- current server = %v\n",gsh.RSERV) return } serv := argv[1] servv := strings.Split(serv,":") if 1 <= len(servv) { if servv[0] == "lo" { servv[0] = "localhost" } } switch len(servv) { case 1: //if strings.Index(serv,":") < 0 { serv = servv[0] + ":" + fmt.Sprintf("%d",GSH_PORT) //} case 2: // host:port serv = strings.Join(servv,":") } xargv := []string{"rex-join","@"+serv,"HELO"} rcode,stat := gsh.RexecClient(xargv) if (rcode / 100) == 2 { fmt.Printf("--I-- OK Joined (%v) %v\n",rcode,stat) gsh.RSERV = serv }else{ fmt.Printf("--I-- NG, could not joined (%v) %v\n",rcode,stat) } } func (gsh*GshContext)Rexec(argv[]string){ if len(argv) <= 1 { fmt.Printf("--I-- rexec command [ | {file || {command} ]\n",gsh.RSERV) return } /* nargv := gshScanArg(strings.Join(argv," "),0) fmt.Printf("--D-- nargc=%d [%v]\n",len(nargv),nargv) if nargv[1][0] != '{' { nargv[1] = "{" + nargv[1] + "}" fmt.Printf("--D-- nargc=%d [%v]\n",len(nargv),nargv) } argv = nargv */ nargv := []string{} nargv = append(nargv,"{"+strings.Join(argv[1:]," ")+"}") fmt.Printf("--D-- nargc=%d %v\n",len(nargv),nargv) argv = nargv xargv := []string{"rex-exec","@"+gsh.RSERV,"GET"} xargv = append(xargv,argv...) xargv = append(xargv,"/dev/tty") rcode,stat := gsh.RexecClient(xargv) if (rcode / 100) == 2 { fmt.Printf("--I-- OK Rexec (%v) %v\n",rcode,stat) }else{ fmt.Printf("--I-- NG Rexec (%v) %v\n",rcode,stat) } } func (gsh*GshContext)Rchdir(argv[]string){ if len(argv) <= 1 { return } cwd, _ := os.Getwd() os.Chdir(gsh.RWD) os.Chdir(argv[1]) twd, _ := os.Getwd() gsh.RWD = twd fmt.Printf("--I-- JWD=%v\n",twd) os.Chdir(cwd) } func (gsh*GshContext)Rpwd(argv[]string){ fmt.Printf("%v\n",gsh.RWD) } func (gsh*GshContext)Rls(argv[]string){ cwd, _ := os.Getwd() os.Chdir(gsh.RWD) argv[0] = "-ls" gsh.xFind(argv) os.Chdir(cwd) } func (gsh*GshContext)Rput(argv[]string){ var local string = "" var remote string = "" if 1 < len(argv) { local = argv[1] remote = local // base name } if 2 < len(argv) { remote = argv[2] } fmt.Printf("--I-- jput from=%v to=%v\n",local,gsh.Trelpath(remote)) } func (gsh*GshContext)Rget(argv[]string){ var remote string = "" var local string = "" if 1 < len(argv) { remote = argv[1] local = remote // base name } if 2 < len(argv) { local = argv[2] } fmt.Printf("--I-- jget from=%v to=%v\n",gsh.Trelpath(remote),local) } // network // -s, -si, -so // bi-directional, source, sync (maybe socket) func (gshCtx*GshContext)sconnect(inTCP bool, argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: -s [host]:[port[.udp]]\n") return } remote := argv[1] if remote == ":" { remote = "0.0.0.0:9999" } if inTCP { // TCP dport, err := net.ResolveTCPAddr("tcp",remote); if err != nil { fmt.Printf("Address error: %s (%s)\n",remote,err) return } conn, err := net.DialTCP("tcp",nil,dport) if err != nil { fmt.Printf("Connection error: %s (%s)\n",remote,err) return } file, _ := conn.File(); fd := file.Fd() fmt.Printf("Socket: connected to %s, socket[%d]\n",remote,fd) savfd := gshPA.Files[1] gshPA.Files[1] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[1] = savfd file.Close() conn.Close() }else{ //dport, err := net.ResolveUDPAddr("udp4",remote); dport, err := net.ResolveUDPAddr("udp",remote); if err != nil { fmt.Printf("Address error: %s (%s)\n",remote,err) return } //conn, err := net.DialUDP("udp4",nil,dport) conn, err := net.DialUDP("udp",nil,dport) if err != nil { fmt.Printf("Connection error: %s (%s)\n",remote,err) return } file, _ := conn.File(); fd := file.Fd() ar := conn.RemoteAddr() //al := conn.LocalAddr() fmt.Printf("Socket: connected to %s [%s], socket[%d]\n", remote,ar.String(),fd) savfd := gshPA.Files[1] gshPA.Files[1] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[1] = savfd file.Close() conn.Close() } } func (gshCtx*GshContext)saccept(inTCP bool, argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: -ac [host]:[port[.udp]]\n") return } local := argv[1] if local == ":" { local = "0.0.0.0:9999" } if inTCP { // TCP port, err := net.ResolveTCPAddr("tcp",local); if err != nil { fmt.Printf("Address error: %s (%s)\n",local,err) return } //fmt.Printf("Listen at %s...\n",local); sconn, err := net.ListenTCP("tcp", port) if err != nil { fmt.Printf("Listen error: %s (%s)\n",local,err) return } //fmt.Printf("Accepting at %s...\n",local); aconn, err := sconn.AcceptTCP() if err != nil { fmt.Printf("Accept error: %s (%s)\n",local,err) return } file, _ := aconn.File() fd := file.Fd() fmt.Printf("Accepted TCP at %s [%d]\n",local,fd) savfd := gshPA.Files[0] gshPA.Files[0] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[0] = savfd sconn.Close(); aconn.Close(); file.Close(); }else{ //port, err := net.ResolveUDPAddr("udp4",local); port, err := net.ResolveUDPAddr("udp",local); if err != nil { fmt.Printf("Address error: %s (%s)\n",local,err) return } fmt.Printf("Listen UDP at %s...\n",local); //uconn, err := net.ListenUDP("udp4", port) uconn, err := net.ListenUDP("udp", port) if err != nil { fmt.Printf("Listen error: %s (%s)\n",local,err) return } file, _ := uconn.File() fd := file.Fd() ar := uconn.RemoteAddr() remote := "" if ar != nil { remote = ar.String() } if remote == "" { remote = "?" } // not yet received //fmt.Printf("Accepted at %s [%d] <- %s\n",local,fd,"") savfd := gshPA.Files[0] gshPA.Files[0] = fd; savenv := gshPA.Env gshPA.Env = append(savenv, "REMOTE_HOST="+remote) gshCtx.gshellv(argv[2:]) gshPA.Env = savenv gshPA.Files[0] = savfd uconn.Close(); file.Close(); } } // empty line command func (gshCtx*GshContext)xPwd(argv[]string){ // execute context command, pwd + date // context notation, representation scheme, to be resumed at re-login cwd, _ := os.Getwd() switch { case isin("-a",argv): gshCtx.ShowChdirHistory(argv) case isin("-ls",argv): showFileInfo(cwd,argv) default: fmt.Printf("%s\n",cwd) case isin("-v",argv): // obsolete emtpy command t := time.Now() date := t.Format(time.UnixDate) exe, _ := os.Executable() host, _ := os.Hostname() fmt.Printf("{PWD=\"%s\"",cwd) fmt.Printf(" HOST=\"%s\"",host) fmt.Printf(" DATE=\"%s\"",date) fmt.Printf(" TIME=\"%s\"",t.String()) fmt.Printf(" PID=\"%d\"",os.Getpid()) fmt.Printf(" EXE=\"%s\"",exe) fmt.Printf("}\n") } } // History // these should be browsed and edited by HTTP browser // show the time of command with -t and direcotry with -ls // openfile-history, sort by -a -m -c // sort by elapsed time by -t -s // search by “more” like interface // edit history // sort history, and wc or uniq // CPU and other resource consumptions // limit showing range (by time or so) // export / import history func (gshCtx *GshContext)xHistory(argv []string){ atWorkDirX := -1 if 1 < len(argv) && strBegins(argv[1],"@") { atWorkDirX,_ = strconv.Atoi(argv[1][1:]) } //fmt.Printf("--D-- showHistory(%v)\n",argv) for i, v := range gshCtx.CommandHistory { // exclude commands not to be listed by default // internal commands may be suppressed by default if v.CmdLine == "" && !isin("-a",argv) { continue; } if 0 <= atWorkDirX { if v.WorkDirX != atWorkDirX { continue } } if !isin("-n",argv){ // like "fc" fmt.Printf("!%-2d ",i) } if isin("-v",argv){ fmt.Println(v) // should be with it date }else{ if isin("-l",argv) || isin("-l0",argv) { elps := v.EndAt.Sub(v.StartAt); start := v.StartAt.Format(time.Stamp) fmt.Printf("@%d ",v.WorkDirX) fmt.Printf("[%v] %11v/t ",start,elps) } if isin("-l",argv) && !isin("-l0",argv){ fmt.Printf("%v",Rusagef("%t %u\t// %s",argv,v.Rusagev)) } if isin("-at",argv) { // isin("-ls",argv){ dhi := v.WorkDirX // workdir history index fmt.Printf("@%d %s\t",dhi,v.WorkDir) // show the FileInfo of the output command?? } fmt.Printf("%s",v.CmdLine) fmt.Printf("\n") } } } // !n - history index func searchHistory(gshCtx GshContext, gline string) (string, bool, bool){ if gline[0] == '!' { hix, err := strconv.Atoi(gline[1:]) if err != nil { fmt.Printf("--E-- (%s : range)\n",hix) return "", false, true } if hix < 0 || len(gshCtx.CommandHistory) <= hix { fmt.Printf("--E-- (%d : out of range)\n",hix) return "", false, true } return gshCtx.CommandHistory[hix].CmdLine, false, false } // search //for i, v := range gshCtx.CommandHistory { //} return gline, false, false } func (gsh*GshContext)cmdStringInHistory(hix int)(cmd string, ok bool){ if 0 <= hix && hix < len(gsh.CommandHistory) { return gsh.CommandHistory[hix].CmdLine,true } return "",false } // temporary adding to PATH environment // cd name -lib for LD_LIBRARY_PATH // chdir with directory history (date + full-path) // -s for sort option (by visit date or so) func (gsh*GshContext)ShowChdirHistory1(i int,v GChdirHistory, argv []string){ fmt.Printf("!%-2d ",v.CmdIndex) // the first command at this WorkDir fmt.Printf("@%d ",i) fmt.Printf("[%v] ",v.MovedAt.Format(time.Stamp)) showFileInfo(v.Dir,argv) } func (gsh*GshContext)ShowChdirHistory(argv []string){ for i, v := range gsh.ChdirHistory { gsh.ShowChdirHistory1(i,v,argv) } } func skipOpts(argv[]string)(int){ for i,v := range argv { if strBegins(v,"-") { }else{ return i } } return -1 } func (gshCtx*GshContext)xChdir(argv []string){ cdhist := gshCtx.ChdirHistory if isin("?",argv ) || isin("-t",argv) || isin("-a",argv) { gshCtx.ShowChdirHistory(argv) return } pwd, _ := os.Getwd() dir := "" if len(argv) <= 1 { dir = toFullpath("~") }else{ i := skipOpts(argv[1:]) if i < 0 { dir = toFullpath("~") }else{ dir = argv[1+i] } } if strBegins(dir,"@") { if dir == "@0" { // obsolete dir = gshCtx.StartDir }else if dir == "@!" { index := len(cdhist) - 1 if 0 < index { index -= 1 } dir = cdhist[index].Dir }else{ index, err := strconv.Atoi(dir[1:]) if err != nil { fmt.Printf("--E-- xChdir(%v)\n",err) dir = "?" }else if len(gshCtx.ChdirHistory) <= index { fmt.Printf("--E-- xChdir(history range error)\n") dir = "?" }else{ dir = cdhist[index].Dir } } } if dir != "?" { err := os.Chdir(dir) if err != nil { fmt.Printf("--E-- xChdir(%s)(%v)\n",argv[1],err) }else{ cwd, _ := os.Getwd() if cwd != pwd { hist1 := GChdirHistory { } hist1.Dir = cwd hist1.MovedAt = time.Now() hist1.CmdIndex = len(gshCtx.CommandHistory)+1 gshCtx.ChdirHistory = append(cdhist,hist1) if !isin("-s",argv){ //cwd, _ := os.Getwd() //fmt.Printf("%s\n",cwd) ix := len(gshCtx.ChdirHistory)-1 gshCtx.ShowChdirHistory1(ix,hist1,argv) } } } } if isin("-ls",argv){ cwd, _ := os.Getwd() showFileInfo(cwd,argv); } } func TimeValSub(tv1 *syscall.Timeval, tv2 *syscall.Timeval){ *tv1 = syscall.NsecToTimeval(tv1.Nano() - tv2.Nano()) } func RusageSubv(ru1, ru2 [2]syscall.Rusage)([2]syscall.Rusage){ TimeValSub(&ru1[0].Utime,&ru2[0].Utime) TimeValSub(&ru1[0].Stime,&ru2[0].Stime) TimeValSub(&ru1[1].Utime,&ru2[1].Utime) TimeValSub(&ru1[1].Stime,&ru2[1].Stime) return ru1 } func TimeValAdd(tv1 syscall.Timeval, tv2 syscall.Timeval)(syscall.Timeval){ tvs := syscall.NsecToTimeval(tv1.Nano() + tv2.Nano()) return tvs } /* func RusageAddv(ru1, ru2 [2]syscall.Rusage)([2]syscall.Rusage){ TimeValAdd(ru1[0].Utime,ru2[0].Utime) TimeValAdd(ru1[0].Stime,ru2[0].Stime) TimeValAdd(ru1[1].Utime,ru2[1].Utime) TimeValAdd(ru1[1].Stime,ru2[1].Stime) return ru1 } */ // Resource Usage func sRusagef(fmtspec string, argv []string, ru [2]syscall.Rusage)(string){ // ru[0] self , ru[1] children ut := TimeValAdd(ru[0].Utime,ru[1].Utime) st := TimeValAdd(ru[0].Stime,ru[1].Stime) uu := (ut.Sec*1000000 + int64(ut.Usec)) * 1000 su := (st.Sec*1000000 + int64(st.Usec)) * 1000 tu := uu + su ret := fmt.Sprintf(“%v/sum”,abbtime(tu)) ret += fmt.Sprintf(“, %v/usr”,abbtime(uu)) ret += fmt.Sprintf(“, %v/sys”,abbtime(su)) return ret } func Rusagef(fmtspec string, argv []string, ru [2]syscall.Rusage)(string){ ut := TimeValAdd(ru[0].Utime,ru[1].Utime) st := TimeValAdd(ru[0].Stime,ru[1].Stime) fmt.Printf(“%d.%06ds/u “,ut.Sec,ut.Usec) //ru[1].Utime.Sec,ru[1].Utime.Usec) fmt.Printf(“%d.%06ds/s “,st.Sec,st.Usec) //ru[1].Stime.Sec,ru[1].Stime.Usec) return “” } func Getrusagev()([2]syscall.Rusage){ var ruv = [2]syscall.Rusage{} syscall.Getrusage(syscall.RUSAGE_SELF,&ruv[0]) syscall.Getrusage(syscall.RUSAGE_CHILDREN,&ruv[1]) return ruv } func showRusage(what string,argv []string, ru *syscall.Rusage){ fmt.Printf(“%s: “,what); fmt.Printf(“Usr=%d.%06ds”,ru.Utime.Sec,ru.Utime.Usec) fmt.Printf(” Sys=%d.%06ds”,ru.Stime.Sec,ru.Stime.Usec) fmt.Printf(” Rss=%vB”,ru.Maxrss) if isin(“-l”,argv) { fmt.Printf(” MinFlt=%v”,ru.Minflt) fmt.Printf(” MajFlt=%v”,ru.Majflt) fmt.Printf(” IxRSS=%vB”,ru.Ixrss) fmt.Printf(” IdRSS=%vB”,ru.Idrss) fmt.Printf(” Nswap=%vB”,ru.Nswap) fmt.Printf(” Read=%v”,ru.Inblock) fmt.Printf(” Write=%v”,ru.Oublock) } fmt.Printf(” Snd=%v”,ru.Msgsnd) fmt.Printf(” Rcv=%v”,ru.Msgrcv) //if isin(“-l”,argv) { fmt.Printf(” Sig=%v”,ru.Nsignals) //} fmt.Printf(“\n”); } func (gshCtx *GshContext)xTime(argv[]string)(bool){ if 2 <= len(argv){ gshCtx.LastRusage = syscall.Rusage{} rusagev1 := Getrusagev() fin := gshCtx.gshellv(argv[1:]) rusagev2 := Getrusagev() showRusage(argv[1],argv,&gshCtx.LastRusage) rusagev := RusageSubv(rusagev2,rusagev1) showRusage("self",argv,&rusagev[0]) showRusage("chld",argv,&rusagev[1]) return fin }else{ rusage:= syscall.Rusage {} syscall.Getrusage(syscall.RUSAGE_SELF,&rusage) showRusage("self",argv, &rusage) syscall.Getrusage(syscall.RUSAGE_CHILDREN,&rusage) showRusage("chld",argv, &rusage) return false } } func (gshCtx *GshContext)xJobs(argv[]string){ fmt.Printf("%d Jobs\n",len(gshCtx.BackGroundJobs)) for ji, pid := range gshCtx.BackGroundJobs { //wstat := syscall.WaitStatus {0} rusage := syscall.Rusage {} //wpid, err := syscall.Wait4(pid,&wstat,syscall.WNOHANG,&rusage); wpid, err := syscall.Wait4(pid,nil,syscall.WNOHANG,&rusage); if err != nil { fmt.Printf("--E-- %%%d [%d] (%v)\n",ji,pid,err) }else{ fmt.Printf("%%%d[%d](%d)\n",ji,pid,wpid) showRusage("chld",argv,&rusage) } } } func (gsh*GshContext)inBackground(argv[]string)(bool){ if gsh.CmdTrace { fmt.Printf("--I-- inBackground(%v)\n",argv) } gsh.BackGround = true // set background option xfin := false xfin = gsh.gshellv(argv) gsh.BackGround = false return xfin } // -o file without command means just opening it and refer by #N // should be listed by "files" comnmand func (gshCtx*GshContext)xOpen(argv[]string){ var pv = []int{-1,-1} err := syscall.Pipe(pv) fmt.Printf("--I-- pipe()=[#%d,#%d](%v)\n",pv[0],pv[1],err) } func (gshCtx*GshContext)fromPipe(argv[]string){ } func (gshCtx*GshContext)xClose(argv[]string){ } // redirect func (gshCtx*GshContext)redirect(argv[]string)(bool){ if len(argv) < 2 { return false } cmd := argv[0] fname := argv[1] var file *os.File = nil fdix := 0 mode := os.O_RDONLY switch { case cmd == "-i" || cmd == "<": fdix = 0 mode = os.O_RDONLY case cmd == "-o" || cmd == ">“: fdix = 1 mode = os.O_RDWR | os.O_CREATE case cmd == “-a” || cmd == “>>”: fdix = 1 mode = os.O_RDWR | os.O_CREATE | os.O_APPEND } if fname[0] == ‘#’ { fd, err := strconv.Atoi(fname[1:]) if err != nil { fmt.Printf(“–E– (%v)\n”,err) return false } file = os.NewFile(uintptr(fd),”MaybePipe”) }else{ xfile, err := os.OpenFile(argv[1], mode, 0600) if err != nil { fmt.Printf(“–E– (%s)\n”,err) return false } file = xfile } gshPA := gshCtx.gshPA savfd := gshPA.Files[fdix] gshPA.Files[fdix] = file.Fd() fmt.Printf(“–I– Opened [%d] %s\n”,file.Fd(),argv[1]) gshCtx.gshellv(argv[2:]) gshPA.Files[fdix] = savfd return false } //fmt.Fprintf(res, “GShell Status: %q”, html.EscapeString(req.URL.Path)) func httpHandler(res http.ResponseWriter, req *http.Request){ path := req.URL.Path fmt.Printf(“–I– Got HTTP Request(%s)\n”,path) { gshCtxBuf, _ := setupGshContext() gshCtx := &gshCtxBuf fmt.Printf(“–I– %s\n”,path[1:]) gshCtx.tgshelll(path[1:]) } fmt.Fprintf(res, “Hello(^-^)/\n%s\n”,path) } func (gshCtx *GshContext) httpServer(argv []string){ http.HandleFunc(“/”, httpHandler) accport := “localhost:9999” fmt.Printf(“–I– HTTP Server Start at [%s]\n”,accport) http.ListenAndServe(accport,nil) } func (gshCtx *GshContext)xGo(argv[]string){ go gshCtx.gshellv(argv[1:]); } func (gshCtx *GshContext) xPs(argv[]string)(){ } // Plugin // plugin [-ls [names]] to list plugins // Reference: plugin source code func (gshCtx *GshContext) whichPlugin(name string,argv[]string)(pi *PluginInfo){ pi = nil for _,p := range gshCtx.PluginFuncs { if p.Name == name && pi == nil { pi = &p } if !isin(“-s”,argv){ //fmt.Printf(“%v %v “,i,p) if isin(“-ls”,argv){ showFileInfo(p.Path,argv) }else{ fmt.Printf(“%s\n”,p.Name) } } } return pi } func (gshCtx *GshContext) xPlugin(argv[]string) (error) { if len(argv) == 0 || argv[0] == “-ls” { gshCtx.whichPlugin(“”,argv) return nil } name := argv[0] Pin := gshCtx.whichPlugin(name,[]string{“-s”}) if Pin != nil { os.Args = argv // should be recovered? Pin.Addr.(func())() return nil } sofile := toFullpath(argv[0] + “.so”) // or find it by which($PATH) p, err := plugin.Open(sofile) if err != nil { fmt.Printf(“–E– plugin.Open(%s)(%v)\n”,sofile,err) return err } fname := “Main” f, err := p.Lookup(fname) if( err != nil ){ fmt.Printf(“–E– plugin.Lookup(%s)(%v)\n”,fname,err) return err } pin := PluginInfo {p,f,name,sofile} gshCtx.PluginFuncs = append(gshCtx.PluginFuncs,pin) fmt.Printf(“–I– added (%d)\n”,len(gshCtx.PluginFuncs)) //fmt.Printf(“–I– first call(%s:%s)%v\n”,sofile,fname,argv) os.Args = argv f.(func())() return err } func (gshCtx*GshContext)Args(argv[]string){ for i,v := range os.Args { fmt.Printf(“[%v] %v\n”,i,v) } } func (gshCtx *GshContext) showVersion(argv[]string){ if isin(“-l”,argv) { fmt.Printf(“%v/%v (%v)”,NAME,VERSION,DATE); }else{ fmt.Printf(“%v”,VERSION); } if isin(“-a”,argv) { fmt.Printf(” %s”,AUTHOR) } if !isin(“-n”,argv) { fmt.Printf(“\n”) } } // Scanf // string decomposer // scanf [format] [input] func scanv(sstr string)(strv[]string){ strv = strings.Split(sstr,” “) return strv } func scanUntil(src,end string)(rstr string,leng int){ idx := strings.Index(src,end) if 0 <= idx { rstr = src[0:idx] return rstr,idx+len(end) } return src,0 } // -bn -- display base-name part only // can be in some %fmt, for sed rewriting func (gsh*GshContext)printVal(fmts string, vstr string, optv[]string){ //vint,err := strconv.Atoi(vstr) var ival int64 = 0 n := 0 err := error(nil) if strBegins(vstr,"_") { vx,_ := strconv.Atoi(vstr[1:]) if vx < len(gsh.iValues) { vstr = gsh.iValues[vx] }else{ } } // should use Eval() if strBegins(vstr,"0x") { n,err = fmt.Sscanf(vstr[2:],"%x",&ival) }else{ n,err = fmt.Sscanf(vstr,"%d",&ival) //fmt.Printf("--D-- n=%d err=(%v) {%s}=%v\n",n,err,vstr, ival) } if n == 1 && err == nil { //fmt.Printf("--D-- formatn(%v) ival(%v)\n",fmts,ival) fmt.Printf("%"+fmts,ival) }else{ if isin("-bn",optv){ fmt.Printf("%"+fmts,filepath.Base(vstr)) }else{ fmt.Printf("%"+fmts,vstr) } } } func (gsh*GshContext)printfv(fmts,div string,argv[]string,optv[]string,list[]string){ //fmt.Printf("{%d}",len(list)) //curfmt := "v" outlen := 0 curfmt := gsh.iFormat if 0 < len(fmts) { for xi := 0; xi < len(fmts); xi++ { fch := fmts[xi] if fch == '%' { if xi+1 < len(fmts) { curfmt = string(fmts[xi+1]) gsh.iFormat = curfmt xi += 1 if xi+1 < len(fmts) && fmts[xi+1] == '(' { vals,leng := scanUntil(fmts[xi+2:],")") //fmt.Printf("--D-- show fmt(%v) val(%v) next(%v)\n",curfmt,vals,leng) gsh.printVal(curfmt,vals,optv) xi += 2+leng-1 outlen += 1 } continue } } if fch == '_' { hi,leng := scanInt(fmts[xi+1:]) if 0 < leng { if hi < len(gsh.iValues) { gsh.printVal(curfmt,gsh.iValues[hi],optv) outlen += 1 // should be the real length }else{ fmt.Printf("((out-range))") } xi += leng continue; } } fmt.Printf("%c",fch) outlen += 1 } }else{ //fmt.Printf("--D-- print {%s}\n") for i,v := range list { if 0 < i { fmt.Printf(div) } gsh.printVal(curfmt,v,optv) outlen += 1 } } if 0 < outlen { fmt.Printf("\n") } } func (gsh*GshContext)Scanv(argv[]string){ //fmt.Printf("--D-- Scanv(%v)\n",argv) if len(argv) == 1 { return } argv = argv[1:] fmts := "" if strBegins(argv[0],"-F") { fmts = argv[0] gsh.iDelimiter = fmts argv = argv[1:] } input := strings.Join(argv," ") if fmts == "" { // simple decomposition v := scanv(input) gsh.iValues = v //fmt.Printf("%v\n",strings.Join(v,",")) }else{ v := make([]string,8) n,err := fmt.Sscanf(input,fmts,&v[0],&v[1],&v[2],&v[3]) fmt.Printf("--D-- Scanf ->(%v) n=%d err=(%v)\n”,v,n,err) gsh.iValues = v } } func (gsh*GshContext)Printv(argv[]string){ if false { //@@U fmt.Printf(“%v\n”,strings.Join(argv[1:],” “)) return } //fmt.Printf(“–D– Printv(%v)\n”,argv) //fmt.Printf(“%v\n”,strings.Join(gsh.iValues,”,”)) div := gsh.iDelimiter fmts := “” argv = argv[1:] if 0 < len(argv) { if strBegins(argv[0],"-F") { div = argv[0][2:] argv = argv[1:] } } optv := []string{} for _,v := range argv { if strBegins(v,"-"){ optv = append(optv,v) argv = argv[1:] }else{ break; } } if 0 < len(argv) { fmts = strings.Join(argv," ") } gsh.printfv(fmts,div,argv,optv,gsh.iValues) } func (gsh*GshContext)Basename(argv[]string){ for i,v := range gsh.iValues { gsh.iValues[i] = filepath.Base(v) } } func (gsh*GshContext)Sortv(argv[]string){ sv := gsh.iValues sort.Slice(sv , func(i,j int) bool { return sv[i] < sv[j] }) } func (gsh*GshContext)Shiftv(argv[]string){ vi := len(gsh.iValues) if 0 < vi { if isin("-r",argv) { top := gsh.iValues[0] gsh.iValues = append(gsh.iValues[1:],top) }else{ gsh.iValues = gsh.iValues[1:] } } } func (gsh*GshContext)Enq(argv[]string){ } func (gsh*GshContext)Deq(argv[]string){ } func (gsh*GshContext)Push(argv[]string){ gsh.iValStack = append(gsh.iValStack,argv[1:]) fmt.Printf("depth=%d\n",len(gsh.iValStack)) } func (gsh*GshContext)Dump(argv[]string){ for i,v := range gsh.iValStack { fmt.Printf("%d %v\n",i,v) } } func (gsh*GshContext)Pop(argv[]string){ depth := len(gsh.iValStack) if 0 < depth { v := gsh.iValStack[depth-1] if isin("-cat",argv){ gsh.iValues = append(gsh.iValues,v...) }else{ gsh.iValues = v } gsh.iValStack = gsh.iValStack[0:depth-1] fmt.Printf("depth=%d %s\n",len(gsh.iValStack),gsh.iValues) }else{ fmt.Printf("depth=%d\n",depth) } } // Command Interpreter func (gshCtx*GshContext)gshellv(argv []string) (fin bool) { fin = false if gshCtx.CmdTrace { fmt.Fprintf(os.Stderr,”–I– gshellv((%d))\n”,len(argv)) } if len(argv) <= 0 { return false } xargv := []string{} for ai := 0; ai < len(argv); ai++ { xargv = append(xargv,strsubst(gshCtx,argv[ai],false)) } argv = xargv if false { for ai := 0; ai < len(argv); ai++ { fmt.Printf("[%d] %s [%d]%T\n", ai,argv[ai],len(argv[ai]),argv[ai]) } } cmd := argv[0] if gshCtx.CmdTrace { fmt.Fprintf(os.Stderr,"--I-- gshellv(%d)%v\n",len(argv),argv) } switch { // https://tour.golang.org/flowcontrol/11 case cmd == "": gshCtx.xPwd([]string{}); // emtpy command case cmd == "-x": gshCtx.CmdTrace = ! gshCtx.CmdTrace case cmd == "-xt": gshCtx.CmdTime = ! gshCtx.CmdTime case cmd == "-ot": gshCtx.sconnect(true, argv) case cmd == "-ou": gshCtx.sconnect(false, argv) case cmd == "-it": gshCtx.saccept(true , argv) case cmd == "-iu": gshCtx.saccept(false, argv) case cmd == "-i" || cmd == "<" || cmd == "-o" || cmd == ">” || cmd == “-a” || cmd == “>>” || cmd == “-s” || cmd == “><": gshCtx.redirect(argv) case cmd == "|": gshCtx.fromPipe(argv) case cmd == "args": gshCtx.Args(argv) case cmd == "bg" || cmd == "-bg": rfin := gshCtx.inBackground(argv[1:]) return rfin case cmd == "-bn": gshCtx.Basename(argv) case cmd == "call": _,_ = gshCtx.excommand(false,argv[1:]) case cmd == "cd" || cmd == "chdir": gshCtx.xChdir(argv); case cmd == "-cksum": gshCtx.xFind(argv) case cmd == "-sum": gshCtx.xFind(argv) case cmd == "close": gshCtx.xClose(argv) case cmd == "gcp": gshCtx.FileCopy(argv) case cmd == "dec" || cmd == "decode": gshCtx.Dec(argv) case cmd == "#define": case cmd == "dic": xDic(argv) case cmd == "dump": gshCtx.Dump(argv) case cmd == "echo": echo(argv,true) case cmd == "enc" || cmd == "encode": gshCtx.Enc(argv) case cmd == "env": env(argv) case cmd == "eval": xEval(argv[1:],true) case cmd == "exec": _,_ = gshCtx.excommand(true,argv[1:]) // should not return here case cmd == "exit" || cmd == "quit": // write Result code EXIT to 3> return true case cmd == “fdls”: // dump the attributes of fds (of other process) case cmd == “-find” || cmd == “fin” || cmd == “ufind” || cmd == “uf”: gshCtx.xFind(argv[1:]) case cmd == “fu”: gshCtx.xFind(argv[1:]) case cmd == “fork”: // mainly for a server case cmd == “-gen”: gshCtx.gen(argv) case cmd == “-go”: gshCtx.xGo(argv) case cmd == “-grep”: gshCtx.xFind(argv) case cmd == “gdeq”: gshCtx.Deq(argv) case cmd == “genq”: gshCtx.Enq(argv) case cmd == “gpop”: gshCtx.Pop(argv) case cmd == “gpush”: gshCtx.Push(argv) case cmd == “history” || cmd == “hi”: // hi should be alias gshCtx.xHistory(argv) case cmd == “jobs”: gshCtx.xJobs(argv) case cmd == “lnsp”: gshCtx.SplitLine(argv) case cmd == “-ls”: gshCtx.xFind(argv) case cmd == “nop”: // do nothing case cmd == “pipe”: gshCtx.xOpen(argv) case cmd == “plug” || cmd == “plugin” || cmd == “pin”: gshCtx.xPlugin(argv[1:]) case cmd == “print” || cmd == “-pr”: // output internal slice // also sprintf should be gshCtx.Printv(argv) case cmd == “ps”: gshCtx.xPs(argv) case cmd == “pstitle”: // to be gsh.title case cmd == “rexecd” || cmd == “rexd”: gshCtx.RexecServer(argv) case cmd == “rexec” || cmd == “rex”: gshCtx.RexecClient(argv) case cmd == “repeat” || cmd == “rep”: // repeat cond command gshCtx.repeat(argv) case cmd == “scan”: // scan input (or so in fscanf) to internal slice (like Files or map) gshCtx.Scanv(argv) case cmd == “set”: // set name … case cmd == “serv”: gshCtx.httpServer(argv) case cmd == “shift”: gshCtx.Shiftv(argv) case cmd == “sleep”: gshCtx.sleep(argv) case cmd == “-sort”: gshCtx.Sortv(argv) case cmd == “j” || cmd == “join”: gshCtx.Rjoin(argv) case cmd == “a” || cmd == “alpa”: gshCtx.Rexec(argv) case cmd == “jcd” || cmd == “jchdir”: gshCtx.Rchdir(argv) case cmd == “jget”: gshCtx.Rget(argv) case cmd == “jls”: gshCtx.Rls(argv) case cmd == “jput”: gshCtx.Rput(argv) case cmd == “jpwd”: gshCtx.Rpwd(argv) case cmd == “time”: fin = gshCtx.xTime(argv) case cmd == “pwd”: gshCtx.xPwd(argv); case cmd == “ver” || cmd == “-ver” || cmd == “version”: gshCtx.showVersion(argv) case cmd == “where”: // data file or so? case cmd == “which”: which(“PATH”,argv); default: if gshCtx.whichPlugin(cmd,[]string{“-s”}) != nil { gshCtx.xPlugin(argv) }else{ notfound,_ := gshCtx.excommand(false,argv) if notfound { fmt.Printf(“–E– command not found (%v)\n”,cmd) } } } return fin } func (gsh*GshContext)gshelll(gline string) (rfin bool) { argv := strings.Split(string(gline),” “) fin := gsh.gshellv(argv) return fin } func (gsh*GshContext)tgshelll(gline string)(xfin bool){ start := time.Now() fin := gsh.gshelll(gline) end := time.Now() elps := end.Sub(start); if gsh.CmdTime { fmt.Printf(“–T– ” + time.Now().Format(time.Stamp) + “(%d.%09ds)\n”, elps/1000000000,elps%1000000000) } return fin } func Ttyid() (int) { fi, err := os.Stdin.Stat() if err != nil { return 0; } //fmt.Printf(“Stdin: %v Dev=%d\n”, // fi.Mode(),fi.Mode()&os.ModeDevice) if (fi.Mode() & os.ModeDevice) != 0 { stat := syscall.Stat_t{}; err := syscall.Fstat(0,&stat) if err != nil { //fmt.Printf(“–I– Stdin: (%v)\n”,err) }else{ //fmt.Printf(“–I– Stdin: rdev=%d %d\n”, // stat.Rdev&0xFF,stat.Rdev); //fmt.Printf(“–I– Stdin: tty%d\n”,stat.Rdev&0xFF); return int(stat.Rdev & 0xFF) } } return 0 } func (gshCtx *GshContext) ttyfile() string { //fmt.Printf(“–I– GSH_HOME=%s\n”,gshCtx.GshHomeDir) ttyfile := gshCtx.GshHomeDir + “/” + “gsh-tty” + fmt.Sprintf(“%02d”,gshCtx.TerminalId) //strconv.Itoa(gshCtx.TerminalId) //fmt.Printf(“–I– ttyfile=%s\n”,ttyfile) return ttyfile } func (gshCtx *GshContext) ttyline()(*os.File){ file, err := os.OpenFile(gshCtx.ttyfile(),os.O_RDWR|os.O_CREATE|os.O_TRUNC,0600) if err != nil { fmt.Printf(“–F– cannot open %s (%s)\n”,gshCtx.ttyfile(),err) return file; } return file } func (gshCtx *GshContext)getline(hix int, skipping bool, prevline string) (string) { if( skipping ){ reader := bufio.NewReaderSize(os.Stdin,LINESIZE) line, _, _ := reader.ReadLine() return string(line) }else if true { return xgetline(hix,prevline,gshCtx) } /* else if( with_exgetline && gshCtx.GetLine != “” ){ //var xhix int64 = int64(hix); // cast newenv := os.Environ() newenv = append(newenv, “GSH_LINENO=”+strconv.FormatInt(int64(hix),10) ) tty := gshCtx.ttyline() tty.WriteString(prevline) Pa := os.ProcAttr { “”, // start dir newenv, //os.Environ(), []*os.File{os.Stdin,os.Stdout,os.Stderr,tty}, nil, } //fmt.Printf(“–I– getline=%s // %s\n”,gsh_getlinev[0],gshCtx.GetLine) proc, err := os.StartProcess(gsh_getlinev[0],[]string{“getline”,”getline”},&Pa) if err != nil { fmt.Printf(“–F– getline process error (%v)\n”,err) // for ; ; { } return “exit (getline program failed)” } //stat, err := proc.Wait() proc.Wait() buff := make([]byte,LINESIZE) count, err := tty.Read(buff) //_, err = tty.Read(buff) //fmt.Printf(“–D– getline (%d)\n”,count) if err != nil { if ! (count == 0) { // && err.String() == “EOF” ) { fmt.Printf(“–E– getline error (%s)\n”,err) } }else{ //fmt.Printf(“–I– getline OK \”%s\”\n”,buff) } tty.Close() gline := string(buff[0:count]) return gline }else */ { // if isatty { fmt.Printf(“!%d”,hix) fmt.Print(PROMPT) // } reader := bufio.NewReaderSize(os.Stdin,LINESIZE) line, _, _ := reader.ReadLine() return string(line) } } //== begin ======================================================= getline /* * getline.c * 2020-0819 extracted from dog.c * getline.go * 2020-0822 ported to Go */ /* package main // getline main import ( “fmt” // fmt “strings” // strings “os” // os “syscall” // syscall //”bytes” // os //”os/exec” // os ) */ // C language compatibility functions var errno = 0 var stdin *os.File = os.Stdin var stdout *os.File = os.Stdout var stderr *os.File = os.Stderr var EOF = -1 var NULL = 0 type FILE os.File type StrBuff []byte var NULL_FP *os.File = nil var NULLSP = 0 //var LINESIZE = 1024 func system(cmdstr string)(int){ PA := syscall.ProcAttr { “”, // the starting directory os.Environ(), []uintptr{os.Stdin.Fd(),os.Stdout.Fd(),os.Stderr.Fd()}, nil, } argv := strings.Split(cmdstr,” “) pid,err := syscall.ForkExec(argv[0],argv,&PA) if( err != nil ){ fmt.Printf(“–E– syscall(%v) err(%v)\n”,cmdstr,err) } syscall.Wait4(pid,nil,0,nil) /* argv := strings.Split(cmdstr,” “) fmt.Fprintf(os.Stderr,”–I– system(%v)\n”,argv) //cmd := exec.Command(argv[0:]…) cmd := exec.Command(argv[0],argv[1],argv[2]) cmd.Stdin = strings.NewReader(“output of system”) var out bytes.Buffer cmd.Stdout = &out var serr bytes.Buffer cmd.Stderr = &serr err := cmd.Run() if err != nil { fmt.Fprintf(os.Stderr,”–E– system(%v)err(%v)\n”,argv,err) fmt.Printf(“ERR:%s\n”,serr.String()) }else{ fmt.Printf(“%s”,out.String()) } */ return 0 } func atoi(str string)(ret int){ ret,err := fmt.Sscanf(str,”%d”,ret) if err == nil { return ret }else{ // should set errno return 0 } } func getenv(name string)(string){ val,got := os.LookupEnv(name) if got { return val }else{ return “?” } } func strcpy(dst StrBuff, src string){ var i int srcb := []byte(src) for i = 0; i < len(src) && srcb[i] != 0; i++ { dst[i] = srcb[i] } dst[i] = 0 } func xstrcpy(dst StrBuff, src StrBuff){ dst = src } func strcat(dst StrBuff, src StrBuff){ dst = append(dst,src...) } func strdup(str StrBuff)(string){ return string(str[0:strlen(str)]) } func sstrlen(str string)(int){ return len(str) } func strlen(str StrBuff)(int){ var i int for i = 0; i < len(str) && str[i] != 0; i++ { } return i } func sizeof(data StrBuff)(int){ return len(data) } func isatty(fd int)(ret int){ return 1 } func fopen(file string,mode string)(fp*os.File){ if mode == "r" { fp,err := os.Open(file) if( err != nil ){ fmt.Printf("--E-- fopen(%s,%s)=(%v)\n",file,mode,err) return NULL_FP; } return fp; }else{ fp,err := os.OpenFile(file,os.O_RDWR|os.O_CREATE|os.O_TRUNC,0600) if( err != nil ){ return NULL_FP; } return fp; } } func fclose(fp*os.File){ fp.Close() } func fflush(fp *os.File)(int){ return 0 } func fgetc(fp*os.File)(int){ var buf [1]byte _,err := fp.Read(buf[0:1]) if( err != nil ){ return EOF; }else{ return int(buf[0]) } } func sfgets(str*string, size int, fp*os.File)(int){ buf := make(StrBuff,size) var ch int var i int for i = 0; i < len(buf)-1; i++ { ch = fgetc(fp) //fprintf(stderr,"--fgets %d/%d %X\n",i,len(buf),ch) if( ch == EOF ){ break; } buf[i] = byte(ch); if( ch == '\n' ){ break; } } buf[i] = 0 //fprintf(stderr,"--fgets %d/%d (%s)\n",i,len(buf),buf[0:i]) return i } func fgets(buf StrBuff, size int, fp*os.File)(int){ var ch int var i int for i = 0; i < len(buf)-1; i++ { ch = fgetc(fp) //fprintf(stderr,"--fgets %d/%d %X\n",i,len(buf),ch) if( ch == EOF ){ break; } buf[i] = byte(ch); if( ch == '\n' ){ break; } } buf[i] = 0 //fprintf(stderr,"--fgets %d/%d (%s)\n",i,len(buf),buf[0:i]) return i } func fputc(ch int , fp*os.File)(int){ var buf [1]byte buf[0] = byte(ch) fp.Write(buf[0:1]) return 0 } func fputs(buf StrBuff, fp*os.File)(int){ fp.Write(buf) return 0 } func xfputss(str string, fp*os.File)(int){ return fputs([]byte(str),fp) } func sscanf(str StrBuff,fmts string, params ...interface{})(int){ fmt.Sscanf(string(str[0:strlen(str)]),fmts,params...) return 0 } func fprintf(fp*os.File,fmts string, params ...interface{})(int){ fmt.Fprintf(fp,fmts,params...) return 0 } // Command Line IME //———————————————————————– MyIME var MyIMEVER = “MyIME/0.0.2”; type RomKana struct { dic string // dictionaly ID pat string // input pattern out string // output pattern hit int64 // count of hit and used } var dicents = 0 var romkana [1024]RomKana var Romkan []RomKana func isinDic(str string)(int){ for i,v := range Romkan { if v.pat == str { return i } } return -1 } const ( DIC_COM_LOAD = “im” DIC_COM_DUMP = “s” DIC_COM_LIST = “ls” DIC_COM_ENA = “en” DIC_COM_DIS = “di” ) func helpDic(argv []string){ out := stderr cmd := “” if 0 < len(argv) { cmd = argv[0] } fprintf(out,"--- %v Usage\n",cmd) fprintf(out,"... Commands\n") fprintf(out,"... %v %-3v [dicName] [dicURL ] -- Import dictionary\n",cmd,DIC_COM_LOAD) fprintf(out,"... %v %-3v [pattern] -- Search in dictionary\n",cmd,DIC_COM_DUMP) fprintf(out,"... %v %-3v [dicName] -- List dictionaries\n",cmd,DIC_COM_LIST) fprintf(out,"... %v %-3v [dicName] -- Disable dictionaries\n",cmd,DIC_COM_DIS) fprintf(out,"... %v %-3v [dicName] -- Enable dictionaries\n",cmd,DIC_COM_ENA) fprintf(out,"... Keys ... %v\n","ESC can be used for '\\'") fprintf(out,"... \\c -- Reverse the case of the last character\n",) fprintf(out,"... \\i -- Replace input with translated text\n",) fprintf(out,"... \\j -- On/Off translation mode\n",) fprintf(out,"... \\l -- Force Lower Case\n",) fprintf(out,"... \\u -- Force Upper Case (software CapsLock)\n",) fprintf(out,"... \\v -- Show translation actions\n",) fprintf(out,"... \\x -- Replace the last input character with it Hexa-Decimal\n",) } func xDic(argv[]string){ if len(argv) <= 1 { helpDic(argv) return } argv = argv[1:] var debug = false var dump = false cmd := argv[0] argv = argv[1:] opt := "" arg := "" if 0 < len(argv) { arg1 := argv[0] if arg1[0] == '-' { switch arg1 { default: fmt.Printf("--Ed-- Unknown option(%v)\n",arg1) return case "-v": debug = true case "-d": debug = true } opt = arg1 argv = argv[1:] } } dicName := "" dicURL := "" if 0 < len(argv) { arg = argv[0] argv = argv[1:] } if false { fprintf(stderr,"--Dd-- com(%v) opt(%v) arg(%v)\n",cmd,opt,arg) } if cmd == DIC_COM_LOAD { switch arg { default: dicName = "WorldDic" dicURL = WorldDic fprintf(stderr,"--Id-- default dictionary \"%v\"\n",dicName); case "jkl": dicName = "JKLJaDic" dicURL = JA_JKLDic } if debug { fprintf(stderr,"--Id-- %v URL=%v\n\n",dicName,dicURL); } dicv := strings.Split(dicURL,",") if debug { fprintf(stderr,"--Id-- %v encoded data...\n",dicName) fprintf(stderr,"Type: %v\n",dicv[0]) fprintf(stderr,"Body: %v\n",dicv[1]) fprintf(stderr,"\n") } body,_ := base64.StdEncoding.DecodeString(dicv[1]) if debug { fprintf(stderr,"--Id-- WorldDic %v text...\n",dicName) fprintf(stderr,"%v\n",string(body)) } entv := strings.Split(string(body),"\n"); fprintf(stderr,"--Id-- %v scan...\n",dicName); var added int = 0 var dup int = 0 for i,v := range entv { var pat string var out string fmt.Sscanf(v,"%s %s",&pat,&out) if len(pat) <= 0 { }else{ if 0 <= isinDic(pat) { dup += 1 continue } romkana[dicents] = RomKana{dicName,pat,out,0} dicents += 1 added += 1 Romkan = append(Romkan,RomKana{dicName,pat,out,0}) if debug { fmt.Printf("[%3v]:[%2v]%-8v [%2v]%v\n", i,len(pat),pat,len(out),out) } } } fprintf(stderr,"--Id-- %v scan... %v added, %v dup. / %v total\n", dicName,added,dup,len(Romkan)); // should sort by pattern length for conclete match, for performance if debug { arg = "" // search pattern dump = true } } if cmd == DIC_COM_DUMP || dump { fprintf(stderr,"--Id-- %v dump... %v entries:\n",dicName,len(Romkan)); var match = 0 for i := 0; i < len(Romkan); i++ { dic := Romkan[i].dic pat := Romkan[i].pat out := Romkan[i].out if arg == "" || 0 <= strings.Index(pat,arg)||0 <= strings.Index(out,arg) { fmt.Printf("\\\\%v\t%v [%2v]%-8v [%2v]%v\n", i,dic,len(pat),pat,len(out),out) match += 1 } } fprintf(stderr,"--Id-- %v matched %v / %v entries:\n",arg,match,len(Romkan)); } } func loadDefaultDic(dic int){ if( 0 < len(Romkan) ){ return } //fprintf(stderr,"\r\n") xDic([]string{"dic",DIC_COM_LOAD}); fprintf(stderr,"--Id-- Conguraturations!! WorldDic is now activated.\r\n") fprintf(stderr,"--Id-- enter \"dic\" command for help.\r\n") } func readDic()(int){ /* var rk *os.File; var dic = "MyIME-dic.txt"; //rk = fopen("romkana.txt","r"); //rk = fopen("JK-JA-morse-dic.txt","r"); rk = fopen(dic,"r"); if( rk == NULL_FP ){ if( true ){ fprintf(stderr,"--%s-- Could not load %s\n",MyIMEVER,dic); } return -1; } if( true ){ var di int; var line = make(StrBuff,1024); var pat string var out string for di = 0; di < 1024; di++ { if( fgets(line,sizeof(line),rk) == NULLSP ){ break; } fmt.Sscanf(string(line[0:strlen(line)]),"%s %s",&pat,&out); //sscanf(line,"%s %[^\r\n]",&pat,&out); romkana[di].pat = pat; romkana[di].out = out; //fprintf(stderr,"--Dd- %-10s %s\n",pat,out) } dicents += di if( false ){ fprintf(stderr,"--%s-- loaded romkana.txt [%d]\n",MyIMEVER,di); for di = 0; di < dicents; di++ { fprintf(stderr, "%s %s\n",romkana[di].pat,romkana[di].out); } } } fclose(rk); //romkana[dicents].pat = "//ddump" //romkana[dicents].pat = "//ddump" // dump the dic. and clean the command input */ return 0; } func matchlen(stri string, pati string)(int){ if strBegins(stri,pati) { return len(pati) }else{ return 0 } } func convs(src string)(string){ var si int; var sx = len(src); var di int; var mi int; var dstb []byte for si = 0; si < sx; { // search max. match from the position if strBegins(src[si:],"%x/") { // %x/integer/ // s/a/b/ ix := strings.Index(src[si+3:],"/") if 0 < ix { var iv int = 0 //fmt.Sscanf(src[si+3:si+3+ix],"%d",&iv) fmt.Sscanf(src[si+3:si+3+ix],"%v",&iv) sval := fmt.Sprintf("%x",iv) bval := []byte(sval) dstb = append(dstb,bval...) si = si+3+ix+1 continue } } if strBegins(src[si:],"%d/") { // %d/integer/ // s/a/b/ ix := strings.Index(src[si+3:],"/") if 0 < ix { var iv int = 0 fmt.Sscanf(src[si+3:si+3+ix],"%v",&iv) sval := fmt.Sprintf("%d",iv) bval := []byte(sval) dstb = append(dstb,bval...) si = si+3+ix+1 continue } } if strBegins(src[si:],"%t") { now := time.Now() if true { date := now.Format(time.Stamp) dstb = append(dstb,[]byte(date)...) si = si+3 } continue } var maxlen int = 0; var len int; mi = -1; for di = 0; di < dicents; di++ { len = matchlen(src[si:],romkana[di].pat); if( maxlen < len ){ maxlen = len; mi = di; } } if( 0 < maxlen ){ out := romkana[mi].out; dstb = append(dstb,[]byte(out)...); si += maxlen; }else{ dstb = append(dstb,src[si]) si += 1; } } return string(dstb) } func trans(src string)(int){ dst := convs(src); xfputss(dst,stderr); return 0; } //------------------------------------------------------------- LINEEDIT // "?" at the top of the line means searching history const ( GO_UP = 201 GO_DOWN = 202 GO_RIGHT = 203 GO_LEFT = 204 DEL_RIGHT= 205 EV_TIMEOUT = 206 ) // should return number of octets ready to be read immediately //fprintf(stderr,"\n--Select(%v %v)\n",err,r.Bits[0]) // syscall.Select // 2020-0827 GShell-0.2.3 func FpollIn1(fp *os.File,usec int)(int){ rdv := syscall.FdSet {} fd := fp.Fd() bank := fd/32 mask := int32(1 << fd) rdv.Bits[bank] = mask t := syscall.NsecToTimeval(int64(usec*1000)) //n,err := syscall.Select(1,&rdv,nil,nil,&t) // spec. mismatch err := syscall.Select(1,&rdv,nil,nil,&t) if err == nil { if (rdv.Bits[bank] & mask) != 0 { return 1 }else{ return 0 } }else{ return -1 } } func fgetcTimeout(fp *os.File,usec int)(int){ ready := FpollIn1(fp,usec) if ready <= 0 { return EV_TIMEOUT } var buf [1]byte _,err := fp.Read(buf[0:1]) if( err != nil ){ return EOF; }else{ return int(buf[0]) } } var TtyMaxCol = 72 var EscTimeout = (100*1000) var ( MODE_ShowMode bool romkanmode bool MODE_CapsLock bool // software CapsLock MODE_LowerLock bool // force lower-case character lock MODE_ViInsert int // visible insert mode, should be like "I" icon in X Window MODE_ViTrace bool // output newline before translation ) type IInput struct { lno int lastlno int pch []int // input queue prompt string line string right string inJmode bool pinJmode bool waitingMeta string // waiting meta character LastCmd string } func (iin*IInput)Getc(timeoutUs int)(int){ ch1 := EOF ch2 := EOF ch3 := EOF if( 0 < len(iin.pch) ){ // deQ ch1 = iin.pch[0] iin.pch = iin.pch[1:] }else{ ch1 = fgetcTimeout(stdin,timeoutUs); } if( ch1 == 033 ){ /// escape sequence ch2 = fgetcTimeout(stdin,EscTimeout); if( ch2 == EV_TIMEOUT ){ }else{ ch3 = fgetcTimeout(stdin,EscTimeout); if( ch3 == EV_TIMEOUT ){ iin.pch = append(iin.pch,ch2) // enQ }else{ switch( ch2 ){ default: iin.pch = append(iin.pch,ch2) // enQ iin.pch = append(iin.pch,ch3) // enQ case '[': switch( ch3 ){ case 'A': ch1 = GO_UP; // ^ case 'B': ch1 = GO_DOWN; // v case 'C': ch1 = GO_RIGHT; // > case ‘D’: ch1 = GO_LEFT; // < case '3': ch4 := fgetcTimeout(stdin,EscTimeout); if( ch4 == '~' ){ //fprintf(stderr,"x[%02X %02X %02X %02X]\n",ch1,ch2,ch3,ch4); ch1 = DEL_RIGHT } } case '\\': //ch4 := fgetcTimeout(stdin,EscTimeout); //fprintf(stderr,"y[%02X %02X %02X %02X]\n",ch1,ch2,ch3,ch4); switch( ch3 ){ case '~': ch1 = DEL_RIGHT } } } } } return ch1 } func (inn*IInput)clearline(){ var i int fprintf(stderr,"\r"); // should be ANSI ESC sequence for i = 0; i < TtyMaxCol; i++ { // to the max. position in this input action fputc(' ',os.Stderr); } fprintf(stderr,"\r"); } func (iin*IInput)Redraw(){ redraw(iin,iin.lno,iin.line,iin.right) } func redraw(iin *IInput,lno int,line string,right string){ inMeta := false showMode := "" showMeta := "" // visible Meta mode on the cursor position showLino := fmt.Sprintf("!%d! ",lno) InsertMark := "" // in visible insert mode if 0 < len(iin.right) { InsertMark = " " } if( 0 < len(iin.waitingMeta) ){ inMeta = true if iin.waitingMeta[0] != 033 { showMeta = iin.waitingMeta } } if( romkanmode ){ //romkanmark = " *"; }else{ //romkanmark = ""; } if MODE_ShowMode { romkan := "--" inmeta := "-" inveri := "" if MODE_CapsLock { inmeta = "A" } if MODE_LowerLock { inmeta = "a" } if MODE_ViTrace { inveri = "v" } if romkanmode { romkan = "\343\201\202" if MODE_CapsLock { inmeta = "R" }else{ inmeta = "r" } } if inMeta { inmeta = "\\" } showMode = "["+romkan+inmeta+inveri+"]"; } Pre := "\r" + showMode + showLino Output := "" Left := "" Right := "" if romkanmode { Left = convs(line) Right = InsertMark+convs(right) }else{ Left = line Right = InsertMark+right } Output = Pre+Left if MODE_ViTrace { Output += iin.LastCmd } Output += showMeta+Right for len(Output) < TtyMaxCol { // to the max. position that may be dirty Output += " " // should be ANSI ESC sequence // not necessary just after newline } Output += Pre+Left+showMeta // to set the cursor to the current input position fprintf(stderr,"%s",Output) if MODE_ViTrace { if 0 < len(iin.LastCmd) { iin.LastCmd = "" fprintf(stderr,"\r\n") } } } func delHeadChar(str string)(rline string,head string){ _,clen := utf8.DecodeRune([]byte(str)) head = string(str[0:clen]) return str[clen:],head } func delTailChar(str string)(rline string, last string){ var i = 0 var clen = 0 for { _,siz := utf8.DecodeRune([]byte(str)[i:]) if siz <= 0 { break } clen = siz i += siz } last = str[len(str)-clen:] return str[0:len(str)-clen],last } // 3> for output and history // 4> for keylog? // Command Line Editor func xgetline(lno int, prevline string, gsh*GshContext)(string){ var iin IInput iin.lastlno = lno iin.lno = lno if( isatty(0) == 0 ){ if( sfgets(&iin.line,LINESIZE,stdin) == NULL ){ iin.line = “exit\n”; }else{ } return iin.line } if( true ){ //var pts string; //pts = ptsname(0); //pts = ttyname(0); //fprintf(stderr,”–pts[0] = %s\n”,pts?pts:”?”); } if( false ){ fprintf(stderr,”! “); fflush(stderr); sfgets(&iin.line,LINESIZE,stdin); return iin.line } system(“/bin/stty -echo -icanon”); xline := iin.xgetline1(prevline,gsh) system(“/bin/stty echo sane”); return xline } func (iin*IInput)Translate(cmdch int){ romkanmode = !romkanmode; if MODE_ViTrace { fprintf(stderr,”%v\r\n”,string(cmdch)); }else if( cmdch == ‘J’ ){ fprintf(stderr,”J\r\n”); iin.inJmode = true } iin.Redraw(); loadDefaultDic(cmdch); iin.Redraw(); } func (iin*IInput)Replace(cmdch int){ iin.LastCmd = fmt.Sprintf(“\\%v”,string(cmdch)) iin.Redraw(); loadDefaultDic(cmdch); dst := convs(iin.line+iin.right); iin.line = dst iin.right = “” if( cmdch == ‘I’ ){ fprintf(stderr,”I\r\n”); iin.inJmode = true } iin.Redraw(); } func (iin*IInput)xgetline1(prevline string, gsh*GshContext)(string){ var ch int; iin.Redraw(); for { iin.pinJmode = iin.inJmode iin.inJmode = false ch = iin.Getc(1000*1000) //fprintf(stderr,”A[%02X]\n”,ch); if( ch == ‘\\’ || ch == 033 ){ MODE_ShowMode = true metach := ch iin.waitingMeta = string(ch) iin.Redraw(); // set cursor //fprintf(stderr,”???\b\b\b”) ch = fgetcTimeout(stdin,2000*1000) // reset cursor iin.waitingMeta = “” cmdch := ch if( ch == EV_TIMEOUT ){ if metach == 033 { continue } ch = metach }else if( ch == ‘j’ || ch == ‘J’ ){ iin.Translate(cmdch); continue }else if( ch == ‘i’ || ch == ‘I’ ){ iin.Replace(cmdch); continue }else if( ch == ‘l’ || ch == ‘L’ ){ MODE_LowerLock = !MODE_LowerLock MODE_CapsLock = false if MODE_ViTrace { fprintf(stderr,”%v\r\n”,string(cmdch)); } iin.Redraw(); continue }else if( ch == ‘u’ || ch == ‘U’ ){ MODE_CapsLock = !MODE_CapsLock MODE_LowerLock = false if MODE_ViTrace { fprintf(stderr,”%v\r\n”,string(cmdch)); } iin.Redraw(); continue }else if( ch == ‘v’ || ch == ‘V’ ){ MODE_ViTrace = !MODE_ViTrace if MODE_ViTrace { fprintf(stderr,”%v\r\n”,string(cmdch)); } iin.Redraw(); continue }else if( ch == ‘c’ || ch == ‘C’ ){ if 0 < len(iin.line) { xline,tail := delTailChar(iin.line) if len([]byte(tail)) == 1 { ch = int(tail[0]) if( 'a' <= ch && ch <= 'z' ){ ch = ch + 'A'-'a' }else if( 'A' <= ch && ch <= 'Z' ){ ch = ch + 'a'-'A' } iin.line = xline + string(ch) } } if MODE_ViTrace { fprintf(stderr,"%v\r\n",string(cmdch)); } iin.Redraw(); continue }else{ iin.pch = append(iin.pch,ch) // push ch = '\\' } } switch( ch ){ case 'P'-0x40: ch = GO_UP case 'N'-0x40: ch = GO_DOWN case 'B'-0x40: ch = GO_LEFT case 'F'-0x40: ch = GO_RIGHT } //fprintf(stderr,"B[%02X]\n",ch); switch( ch ){ case 0: continue; case '\t': iin.Replace('j'); continue case 'X'-0x40: iin.Replace('j'); continue case EV_TIMEOUT: iin.Redraw(); if iin.pinJmode { fprintf(stderr,"\\J\r\n") iin.inJmode = true } continue case GO_UP: if iin.lno == 1 { continue } cmd,ok := gsh.cmdStringInHistory(iin.lno-1) if ok { iin.line = cmd iin.right = "" iin.lno = iin.lno - 1 } iin.Redraw(); continue case GO_DOWN: cmd,ok := gsh.cmdStringInHistory(iin.lno+1) if ok { iin.line = cmd iin.right = "" iin.lno = iin.lno + 1 }else{ iin.line = "" iin.right = "" if iin.lno == iin.lastlno-1 { iin.lno = iin.lno + 1 } } iin.Redraw(); continue case GO_LEFT: if 0 < len(iin.line) { xline,tail := delTailChar(iin.line) iin.line = xline iin.right = tail + iin.right } iin.Redraw(); continue; case GO_RIGHT: if( 0 < len(iin.right) && iin.right[0] != 0 ){ xright,head := delHeadChar(iin.right) iin.right = xright iin.line += head } iin.Redraw(); continue; case EOF: goto EXIT; case 'R'-0x40: // replace dst := convs(iin.line+iin.right); iin.line = dst iin.right = "" iin.Redraw(); continue; case 'T'-0x40: // just show the result readDic(); romkanmode = !romkanmode; iin.Redraw(); continue; case 'L'-0x40: iin.Redraw(); continue case 'K'-0x40: iin.right = "" iin.Redraw(); continue case 'E'-0x40: iin.line += iin.right iin.right = "" iin.Redraw(); continue case 'A'-0x40: iin.right = iin.line + iin.right iin.line = "" iin.Redraw(); continue case 'U'-0x40: iin.line = "" iin.right = "" iin.clearline(); iin.Redraw(); continue; case DEL_RIGHT: if( 0 < len(iin.right) ){ iin.right,_ = delHeadChar(iin.right) iin.Redraw(); } continue; case 0x7F: // BS? not DEL if( 0 < len(iin.line) ){ iin.line,_ = delTailChar(iin.line) iin.Redraw(); } /* else if( 0 < len(iin.right) ){ iin.right,_ = delHeadChar(iin.right) iin.Redraw(); } */ continue; case 'H'-0x40: if( 0 < len(iin.line) ){ iin.line,_ = delTailChar(iin.line) iin.Redraw(); } continue; } if( ch == '\n' || ch == '\r' ){ iin.line += iin.right; iin.right = "" iin.Redraw(); fputc(ch,stderr); break; } if MODE_CapsLock { if 'a' <= ch && ch <= 'z' { ch = ch+'A'-'a' } } if MODE_LowerLock { if 'A' <= ch && ch <= 'Z' { ch = ch+'a'-'A' } } iin.line += string(ch); iin.Redraw(); } EXIT: return iin.line + iin.right; } func getline_main(){ line := xgetline(0,"",nil) fprintf(stderr,"%s\n",line); /* dp = strpbrk(line,"\r\n"); if( dp != NULL ){ *dp = 0; } if( 0 ){ fprintf(stderr,"\n(%d)\n",int(strlen(line))); } if( lseek(3,0,0) == 0 ){ if( romkanmode ){ var buf [8*1024]byte; convs(line,buff); strcpy(line,buff); } write(3,line,strlen(line)); ftruncate(3,lseek(3,0,SEEK_CUR)); //fprintf(stderr,"outsize=%d\n",(int)lseek(3,0,SEEK_END)); lseek(3,0,SEEK_SET); close(3); }else{ fprintf(stderr,"\r\ngotline: "); trans(line); //printf("%s\n",line); printf("\n"); } */ } //== end ========================================================= getline // // $USERHOME/.gsh/ // gsh-rc.txt, or gsh-configure.txt // gsh-history.txt // gsh-aliases.txt // should be conditional? // func (gshCtx *GshContext)gshSetupHomedir()(bool) { homedir,found := userHomeDir() if !found { fmt.Printf("--E-- You have no UserHomeDir\n") return true } gshhome := homedir + "/" + GSH_HOME _, err2 := os.Stat(gshhome) if err2 != nil { err3 := os.Mkdir(gshhome,0700) if err3 != nil { fmt.Printf("--E-- Could not Create %s (%s)\n", gshhome,err3) return true } fmt.Printf("--I-- Created %s\n",gshhome) } gshCtx.GshHomeDir = gshhome return false } func setupGshContext()(GshContext,bool){ gshPA := syscall.ProcAttr { "", // the staring directory os.Environ(), // environ[] []uintptr{os.Stdin.Fd(),os.Stdout.Fd(),os.Stderr.Fd()}, nil, // OS specific } cwd, _ := os.Getwd() gshCtx := GshContext { cwd, // StartDir "", // GetLine []GChdirHistory { {cwd,time.Now(),0} }, // ChdirHistory gshPA, []GCommandHistory{}, //something for invokation? GCommandHistory{}, // CmdCurrent false, []int{}, syscall.Rusage{}, "", // GshHomeDir Ttyid(), false, false, []PluginInfo{}, []string{}, " ", "v", ValueStack{}, GServer{"",""}, // LastServer "", // RSERV cwd, // RWD CheckSum{}, } err := gshCtx.gshSetupHomedir() return gshCtx, err } func (gsh*GshContext)gshelllh(gline string)(bool){ ghist := gsh.CmdCurrent ghist.WorkDir,_ = os.Getwd() ghist.WorkDirX = len(gsh.ChdirHistory)-1 //fmt.Printf("--D--ChdirHistory(@%d)\n",len(gsh.ChdirHistory)) ghist.StartAt = time.Now() rusagev1 := Getrusagev() gsh.CmdCurrent.FoundFile = []string{} fin := gsh.tgshelll(gline) rusagev2 := Getrusagev() ghist.Rusagev = RusageSubv(rusagev2,rusagev1) ghist.EndAt = time.Now() ghist.CmdLine = gline ghist.FoundFile = gsh.CmdCurrent.FoundFile /* record it but not show in list by default if len(gline) == 0 { continue } if gline == "hi" || gline == "history" { // don't record it continue } */ gsh.CommandHistory = append(gsh.CommandHistory, ghist) return fin } // Main loop func script(gshCtxGiven *GshContext) (_ GshContext) { gshCtxBuf,err0 := setupGshContext() if err0 { return gshCtxBuf; } gshCtx := &gshCtxBuf //fmt.Printf(“–I– GSH_HOME=%s\n”,gshCtx.GshHomeDir) //resmap() /* if false { gsh_getlinev, with_exgetline := which(“PATH”,[]string{“which”,”gsh-getline”,”-s”}) if with_exgetline { gsh_getlinev[0] = toFullpath(gsh_getlinev[0]) gshCtx.GetLine = toFullpath(gsh_getlinev[0]) }else{ fmt.Printf(“–W– No gsh-getline found. Using internal getline.\n”); } } */ ghist0 := gshCtx.CmdCurrent // something special, or gshrc script, or permanent history gshCtx.CommandHistory = append(gshCtx.CommandHistory,ghist0) prevline := “” skipping := false for hix := len(gshCtx.CommandHistory); ; { gline := gshCtx.getline(hix,skipping,prevline) if skipping { if strings.Index(gline,”fi”) == 0 { fmt.Printf(“fi\n”); skipping = false; }else{ //fmt.Printf(“%s\n”,gline); } continue } if strings.Index(gline,”if”) == 0 { //fmt.Printf(“–D– if start: %s\n”,gline); skipping = true; continue } if false { os.Stdout.Write([]byte(“gotline:”)) os.Stdout.Write([]byte(gline)) os.Stdout.Write([]byte(“\n”)) } gline = strsubst(gshCtx,gline,true) if false { fmt.Printf(“fmt.Printf %%v – %v\n”,gline) fmt.Printf(“fmt.Printf %%s – %s\n”,gline) fmt.Printf(“fmt.Printf %%x – %s\n”,gline) fmt.Printf(“fmt.Printf %%U – %s\n”,gline) fmt.Printf(“Stouut.Write -“) os.Stdout.Write([]byte(gline)) fmt.Printf(“\n”) } /* // should be cared in substitution ? if 0 < len(gline) && gline[0] == '!' { xgline, set, err := searchHistory(gshCtx,gline) if err { continue } if set { // set the line in command line editor } gline = xgline } */ fin := gshCtx.gshelllh(gline) if fin { break; } prevline = gline; hix++; } return *gshCtx } func main() { gshCtxBuf := GshContext{} gsh := &gshCtxBuf argv := os.Args if 1 < len(argv) { if isin("version",argv){ gsh.showVersion(argv) return } comx := isinX("-c",argv) if 0 < comx { gshCtxBuf,err := setupGshContext() gsh := &gshCtxBuf if !err { gsh.gshellv(argv[comx+1:]) } return } } if 1 < len(argv) && isin("-s",argv) { }else{ gsh.showVersion(append(argv,[]string{"-l","-a"}...)) } script(nil) //gshCtx := script(nil) //gshelll(gshCtx,"time") } //
//
Considerations
// – inter gsh communication, possibly running in remote hosts — to be remote shell // – merged histories of multiple parallel gsh sessions // – alias as a function or macro // – instant alias end environ export to the permanent > ~/.gsh/gsh-alias and gsh-environ // – retrieval PATH of files by its type // – gsh as an IME with completion using history and file names as dictionaies // – gsh a scheduler in precise time of within a millisecond // – all commands have its subucomand after “—” symbol // – filename expansion by “-find” command // – history of ext code and output of each commoand // – “script” output for each command by pty-tee or telnet-tee // – $BUILTIN command in PATH to show the priority // – “?” symbol in the command (not as in arguments) shows help request // – searching command with wild card like: which ssh-* // – longformat prompt after long idle time (should dismiss by BS) // – customizing by building plugin and dynamically linking it // – generating syntactic element like “if” by macro expansion (like CPP) >> alias // – “!” symbol should be used for negation, don’t wast it just for job control // – don’t put too long output to tty, record it into GSH_HOME/session-id/comand-id.log // – making canonical form of command at the start adding quatation or white spaces // – name(a,b,c) … use “(” and “)” to show both delimiter and realm // – name? or name! might be useful // – htar format – packing directory contents into a single html file using data scheme // – filepath substitution shold be done by each command, expecially in case of builtins // – @N substition for the history of working directory, and @spec for more generic ones // – @dir prefix to do the command at there, that means like (chdir @dir; command) // – GSH_PATH for plugins // – standard command output: list of data with name, size, resouce usage, modified time // – generic sort key option -nm name, -sz size, -ru rusage, -ts start-time, -tm mod-time // -wc word-count, grep match line count, … // – standard command execution result: a list of string, -tm, -ts, -ru, -sz, … // – -tailf-filename like tail -f filename, repeat close and open before read // – max. size and max. duration and timeout of (generated) data transfer // – auto. numbering, aliasing, IME completion of file name (especially rm of quieer name) // – IME “?” at the top of the command line means searching history // – IME %d/0x10000/ %x/ffff/ // – IME ESC to go the edit mode like in vi, and use :command as :s/x/y/g to edit history // – gsh in WebAssembly // – gsh as a HTTP server of online-manual //—END— (^-^)/ITS more
// var WorldDic = // “data:text/dic;base64,”+ “Ly8gTXlJTUUvMC4wLjEg6L6e5pu4ICgyMDIwLTA4MTlhKQpzZWthaSDkuJbnlYwKa28g44GT”+ “Cm5uIOOCkwpuaSDjgasKY2hpIOOBoQp0aSDjgaEKaGEg44GvCnNlIOOBmwprYSDjgYsKaSDj”+ “gYQK”; // var JA_JKLDic = // “data:text/dic;base64,”+ “Ly92ZXJsCU15SU1FamRpY2ptb3JzZWpKQWpKS0woMjAyMGowODE5KSheLV4pL1NhdG94SVRT”+ “CmtqamprbGtqa2tsa2psIOS4lueVjApqamtqamwJ44GCCmtqbAnjgYQKa2tqbAnjgYYKamtq”+ “amwJ44GICmtqa2trbAnjgYoKa2pra2wJ44GLCmpramtrbAnjgY0Ka2tramwJ44GPCmpramps”+ “CeOBkQpqampqbAnjgZMKamtqa2psCeOBlQpqamtqa2wJ44GXCmpqamtqbAnjgZkKa2pqamts”+ “CeOBmwpqamprbAnjgZ0KamtsCeOBnwpra2prbAnjgaEKa2pqa2wJ44GkCmtqa2pqbAnjgaYK”+ “a2tqa2tsCeOBqApramtsCeOBqgpqa2prbAnjgasKa2tra2wJ44GsCmpqa2psCeOBrQpra2pq”+ “bAnjga4Kamtra2wJ44GvCmpqa2tqbAnjgbIKampra2wJ44G1CmtsCeOBuApqa2tsCeOBuwpq”+ “a2tqbAnjgb4Ka2tqa2psCeOBvwpqbAnjgoAKamtra2psCeOCgQpqa2tqa2wJ44KCCmtqamwJ”+ “44KECmpra2pqbAnjgoYKampsCeOCiApra2tsCeOCiQpqamtsCeOCigpqa2pqa2wJ44KLCmpq”+ “amwJ44KMCmtqa2psCeOCjQpqa2psCeOCjwpramtramwJ44KQCmtqamtrbAnjgpEKa2pqamwJ”+ “44KSCmtqa2prbAnjgpMKa2pqa2psCeODvApra2wJ44KbCmtramprbAnjgpwKa2pramtqbAnj”+ “gIEK”; // // /*
References
*/ /*
Raw Source
Whole file
CSS part
JavaScript part
Builtin data part
*/ /* –> *///

GShell 0.2.3 − window間通信

開発:遅くなりましたが、世界辞書をGShellの組み込みにしました。こんな感じです。

社長:良いですね。だいたい期待どおりです。

開発:以心伝心ですからw

基盤:¥i の undo は欲しいですね。¥u とか。

開発:undo 希望と。これはヒストリを取っておけば良いことです。

社長:あとは world → 世界と、世界 → world の変換があると、翻訳にもなりますね。

開発:G翻訳への挑戦ですかw

基盤:うちのはオフラインで使えて完全リアルタイム翻訳ですからね。マイクロ秒で応答するという。

社長:左から右だけじゃなくて、右から左への変換があると良いのかも。

開発:いっそ Prolog を導入しましょうかね。

基盤:せかい → 世界の変換も。

開発:再帰書き換えですね。ローマ字・かな・漢字一貫生産と。メモメモ。

基盤:辞書へはその場で追加できると良いですね。

開発:まあそのへんはヒストリとかと一体化する時に。まず短期記憶的辞書に入れて、なにかをトリガーにして長期記憶的辞書に保管するみたいな。

社長:辞書は適当な文書、今編集してる文書とかからガーと読んで生成できると良いですね。出現頻度も入れる。

開発:単語に分解したり読みをどう生成するかですが… 形態素解析のパッケージとかありますかね?

社長:形態素解析ってそもそも辞書を持ってるのでは。それをいただくとか。

基盤:Nグラム式でエントリ番号で参照する手も。

社長:あと、JKLモールス辞書もぜひビルトインしておいてください。

* * *

社長:今日は「GShell 0.2.3 − window間通信」で行く予定だったのですが、IMEが面白おかしくなってきたので、こっちにテーマを切り替えましょう。

開発:て、どういう話なんですか?

社長:いや、少なくともwindowを作った側では、子供のwindowのDOMをずっと読み書きできると思うんです。そうすると、子供は最低限の知識だけで生んで、双方向にやりとりしながら、大きく育てるみたいな。子供の間の仲介とかもする。

開発:面白そうですけど、使いみちはピンと来ないですね。

基盤:そもそも IME って何の略でしたっけ? input method なんちゃら?… ああ、input method editor ですね。というかこれ、和製英語なんですかね?日本語版のWikiしかないんですが。

開発:最後の editor がなんか不思議ですよね。input methodを編集するわけではなく…

基盤:ああ、”imput method” でググると出てきますね。Wikiにもあります

社長:本質は人間がインタラクティブにキーボードからテキスト入力する時に使う道具だということですね。入力文字列を状態遷移や辞書を用いて出力文字列に変換する。まあ辞書というのは縮退した状態遷移なんでしょうけど。

開発:出力側はテキストとは限らないとは思いますけどね。各種メディアかもしれないし。データじゃなくてアクションかも知れない。

基盤:キーボードじゃなくてタッチパネルの場合も多いですよね。音声かもしれない。

社長:まあそのへんは広げすぎると発散してしまいますから、とりあえず入力は文字というかコードの列として発生するものとしましょう。出力はテキスト。

開発:こういう、入力をパターンというか辞書とマッチして書き換えて出力するというのはとても一般的な技術ですよね。たとえば圧縮アルゴリズム。IMEの場合には大方、展開側に使う。

社長:おそらく理論的には、プログラム言語処理系の分野の言葉で説明できるし、実際その処理系で実装できるんだと思います。

開発:普通に lex とか flex を使って作れば良いようにも思いますが、なぜそうなってないんでしょうね?

社長:結局曖昧性というか、生成する系だから複数の候補があって、それは人間が選択するしかない。ふつうプログラム言語の処理系って、そういうインタラクティブに使うように作られてないですね。入力の取り消しとか、まあ書いて書けないことは無いかもしれませんが。あとはコンパイルしてスキャナを生成する系だと、ユーザがコンパイラを持ってないといけないとかの問題も。

基盤:この flex というのは、Golang 版があったら使いたいですね。

開発:入力する人間が分節単位で確定していく使い方に限定すれば、この枠組だけでかなりイケる気はするんですけどね。昔は、文節の区切りを指示する事が多かったですが、今やそういう機能は全く使わないですから。

社長:そう、Onew + Wnn/Kanna では ^I / ^O を良くやりました。昔は長く入れて後でまとめて変換するという流儀だったんでしょうかね?

開発:入れた端から決めて行かないと、後になって昔入力したテキストについても尋ねられてもなーって気もしますしね。思考が混乱します。

社長:そもそもWindowsのIMEでは切れ目を代える方法をよく知りませんでした。

開発:あれは何故ああいう入力方式が流行ったんですかね?いわゆるワープロの世界。

社長:その場でリアルタイムに変換するのは、昔のコンピュータでは処理的にきつかったとか。あとは、こういう書きなぐり文章的じゃない、じっくり書いて推敲するような文章の入力用に使われてたからかなという気もします。

基盤:手書きで下書きしてからワープロで入力するとかw

開発:学生の頃にアルバイトでコボルだかPL/Iのプログラムを書いたんですが、こっちは普段UnixでキーボードとCRTでCプログラム書いてた時代に、手書きでマス目に書かされました。パンチカード入力でもしてたんですかね?このゼロの記法ほうちの流儀には無い!とか叱られながらw

社長:キーパンチャー、タイピストという職業があった時代ですね。

開発:そういう時代の発想がIMEの根底に脈々と生き残ってる可能性はなきにしもあらずのような。

社長:なんにしても今あるコンピュータの能力を普通に使う。古典的な言語処理系の技術を投入する。なんなら正規表現だけでなくBNFも。ですかね。

開発:全コマンドの構文がBNFになってると良いですね。たとえば、grep コマンドで、ここは正規表現の引数部分だから正規表現の予約季語はエスケープせずに通してやろうとか、ここはファイル名だからファイル名としてマッチングしてやろうとか。一種のインクリメンタルコンパイルのような。

社長:マッチングして展開するか、マッチの有無とか個数だけを知らせるか。ファイルを作成するコマンドだったら、マッチするものが無くても、作ることが可能なパス名名だったら通すとか。アクセス権なんかもチェックして。

基盤:クラウドのAIとか使うんですか?

社長:いえ、あくまでオフラインで。250ms彼方にあるかも知れないサーバに頼らずに。ていうか、そういうものを必要だと思ったことないですね。自分的な文章がいつもの通り、かつより手軽に書けることが重要。

基盤:でも、入力した文字列をそのまま検索エンジンになげて全文検索の文脈から拾ってくるとか。シソーラスなんかもあると良いと思いますが、手元におけるでしょうか?

社長:データ量的には問題ないと思いますが、著作権のからみがどうですかね。

開発:たぶん、最大のヤマは、複数の変換先候補がある場合ですね。これがなければ、ごく普通に言語処理系が使えるはず。一番面白そうなのは、辞書の自動生成。今書いている文章に適した辞書を自動生成する。これは、今書いてる文章とか、典型的な文書とかお手本文書からとっても良い。ヒストリからとってもよい。!3 て入れると3番目に入れたコマンドが速攻で展開されるみたいな。

社長:あとは、インクリメタルと言うかインタラクティブな全文検索とか出来たら良いですね。辞書の文脈を見に行ける。

基盤:悪評の高いスポットライトでは、それが出来たような…

開発:データ圧縮技術とも一体化できたら完璧ですねw

* * *

開発:さてさて、まともな辞書関係は少し時間がかかるので、一発芸を。この刹那的辞書では刹那的ですが「%t」を「現時刻の文字列」とすることにします。すると、これに対応する文字列は、コマンド入力をしている間にも刻々と変わるわけです。で、ユーザにそのことを認識してもらうために現時刻jを刻々と表示する。すると、こういうことになります。

社長:面白いですね。パチパチパチ。

基盤:まあ、コマンドを入力してる間に辞書が変わるというのは、一般的にはあまりなさそうには思いますが。

開発:これは要するに、書き換え結果の生成を関数で定義できるようにすることで一般化できるわけです。そもそもIMEというかgetlineを、単なるコマンド入力のための使い走りじゃなくて、それ自体がshellのメインループであっても良いと思うようになって来ました。つまり、ずっと入力を処理していて、環境なんかも監視して、自分で処理できないもだけを、通常のコマンドインタプリタに投げるみたいな。

基盤:フロントエンドプロセッサとかじゃないと。

開発:実装形式はそれでもいいですが、フロントエンドがバックエンドのコンテクストにガッツリアクセスできることが必要です。それって、FEPとして分離しているとすごく面倒くさい。

社長:この辞書は変数のテーブルとしても使えないですかね。つまり、あらかじめ与えられた変数名というのはなくて、全てが文字列パターンだみたいな。あるパターンに対して、マッチしたらその対応する文字列が返る的な。

開発:全ての変数をそうするのはどうかと思いますが、なんか面白い使いみちがあるかも知れないですね。

基盤:それって、awk 的な処理系と同じ動きになるんじゃないですかね。

開発:シーケンシャルな入力列を処理するものではないですけどね。あれ?コマンドインタプリタってそういうものかも。そういえば、スケジューラを作ろう!っていう話が前ありましたけど、あれも同じ枠組みで作れないですかね。

社長:どういうタイミングでそのマッチングを行うかですよね。見た目に時刻の文字列で、どういうタイミングで文字列が変化し得るかがとわかれば、時刻の変化ごとに評価するというのもできるでしょうけど。まあDeleGateのログファイル名は、strftimeと同じ記法を使ってそういうファイルの生成と切り替えの処理をしているわけですが。

基盤:あれってなんかバグがあって、次の日のログファイルとか、32日のログとか出来ちゃうことがありますね。

社長:昔はそういうことは無かったんですけどねえ (^-^;

* * *

開発:それにしても Go は syscall についてはやる気が無いなというのは、これの実装でも思いました。入出力をタイムアウト付きにするのに簡単なのは poll か select なわけですが、最近ではもっぱら poll なわけです。ところが syscall.Poll が無いんですよ。目を皿のようにして探してもw

開発:で、syscall.Select を使うことにしたのですが、これのドキュメントが間違ってるんです。ドキュメントどおりに書いたら、返り値の数が多すぎると怒られるわけです。

開発:そもそも select のビットマップだって、int32 なんだか int64 だか怪しい。int64 代入しようとすると怒ってきますからね。

社長:macOSにデフォでインストールされてるGoの関数定義がおかしいとか無いですかね。実際そこは、64ビットOSなら64ビットなのかも。

開発:いえ、OSのナマのselect システムコールにしても、そもそも普通 int は 32ビットなわけです。fdsetの定義を見ればわかることですが… 普通そういう事は気にしなくて良いように、FD_SET、FD_ISSETとかするわけですが、そもそもそういう面倒もあるので、syscall.Pollであるべきだと思うんですが。

社長:まあ早めの夕食でも取って気分を落ち着けましょう。今日はうなぎ行ってみようかな。

* * *

社長:智恵子は「ほんとうの空」を見たいと行ったそうですが、わたしは時々、現実離れした空を見て感動する事があります。これは 2018年8月27日の18:35分、ちょうど2年前ですが、にたまたま空が面白い様相だったのを見て撮影した写真です。

基盤:ホーマックの駐車場ですね。

社長:本当の空の一角で、おそらく視野角的に全天の何万ぶんの位置という区画なんですが、そういうところにとてもおもしろい模様が出ていることがあります。で、あれを捉えるのにはスマホのとか普通のデジカメではダメかなと思うので、ガッツリ望遠できるやつがあると良いなと思うんです。

社長:というか、さっきうなぎの行き帰りに面白い空が出てたんで撮影したのを貼り付けようと思ってるんですが、いっこうにiCloudに上がって来ないわけです。ムカつくなー。ああ、やっと来ました。まずは月がキレイに出てました。片側だけ太陽に照らされてる感がとても良かったです。

基盤:ほぼ点ですね。

社長:筑波山が雲をかぶってたりとか。

社長:いやはや、デジタルズームとかクソですね。月を最大ズームしたらこんな事に。

社長:ちゃんとしたカメラ欲しいなー。

経理:何年か前に光学ズームのスチルとムービー1台ずつ買いましたよね。まずあれを発掘して試してみては。それでダメなら新調ということかと。

社長:あれは4Kでは無いです。楽隠居してるヒトでもでっかいレンズとか趣味で買ってますよね…

* * *

開発:うーん、なんだかんだで今日の最大の成果は「ソフトウェアCapsLock」と「小文字ロック」機能の導入かも知れないですね。

社長:大文字・小文字を変換するというのはローマ字系のアルファベットでの入力の変換の根幹ですからね。彼らはキーボード入力でのローマ字・かな・漢字変換を他人事だと思ってるかも知れませんが、このへんが共通意識の糸口になるかもです。ある意味、IMEの象徴なのかも知れません。

基盤:IMEじゃない名前を考えてるんですよね。

— 2020-0827 SatoxITS

/* GShell-0.2.3 by SatoxITS
GShell version 0.2.3 // 2020-08-27 // SatoxITS

GShell // a General purpose Shell built on the top of Golang

It is a shell for myself, by myself, of myself. –SatoxITS(^-^)

0 | | Fork | Stop | Unfold | */ /*
Overview
To be written
*/ /*
Source Code Index
Implementation Structures import struct Main functions str-expansion // macro processor finder // builtin find + du grep // builtin grep + wc + cksum + … plugin // plugin commands system // external commands builtin // builtin commands network // socket handler remote-sh // remote shell redirect // StdIn/Out redireciton history // command history rusage // resouce usage encode // encode / decode IME // command line IME getline // line editor scanf // string decomposer interpreter // command interpreter main
*/ //
//Source Code
// gsh – Go lang based Shell // (c) 2020 ITS more Co., Ltd. // 2020-0807 created by SatoxITS (sato@its-more.jp) package main // gsh main // Imported packages // Packages import ( “fmt” // fmt “strings” // strings “strconv” // strconv “sort” // sort “time” // time “bufio” // bufio “io/ioutil” // ioutil “os” // os “syscall” // syscall “plugin” // plugin “net” // net “net/http” // http //”html” // html “path/filepath” // filepath “go/types” // types “go/token” // token “encoding/base64” // base64 “unicode/utf8” // utf8 //”gshdata” // gshell’s logo and source code “hash/crc32” // crc32 ) const ( NAME = “gsh” VERSION = “0.2.3” DATE = “2020-08-27” AUTHOR = “SatoxITS(^-^)/” ) var ( GSH_HOME = “.gsh” // under home directory GSH_PORT = 9999 MaxStreamSize = int64(128*1024*1024*1024) // 128GiB is too large? PROMPT = “> ” LINESIZE = (8*1024) PATHSEP = “:” // should be “;” in Windows DIRSEP = “/” // canbe \ in Windows ) // -xX logging control // –A– all // –I– info. // –D– debug // –T– time and resource usage // –W– warning // –E– error // –F– fatal error // –Xn- network // Structures type GCommandHistory struct { StartAt time.Time // command line execution started at EndAt time.Time // command line execution ended at ResCode int // exit code of (external command) CmdError error // error string OutData *os.File // output of the command FoundFile []string // output – result of ufind Rusagev [2]syscall.Rusage // Resource consumption, CPU time or so CmdId int // maybe with identified with arguments or impact // redireciton commands should not be the CmdId WorkDir string // working directory at start WorkDirX int // index in ChdirHistory CmdLine string // command line } type GChdirHistory struct { Dir string MovedAt time.Time CmdIndex int } type CmdMode struct { BackGround bool } type PluginInfo struct { Spec *plugin.Plugin Addr plugin.Symbol Name string // maybe relative Path string // this is in Plugin but hidden } type GServer struct { host string port string } // Digest const ( // SumType SUM_ITEMS = 0x000001 // items count SUM_SIZE = 0x000002 // data length (simplly added) SUM_SIZEHASH = 0x000004 // data length (hashed sequence) SUM_DATEHASH = 0x000008 // date of data (hashed sequence) // also envelope attributes like time stamp can be a part of digest // hashed value of sizes or mod-date of files will be useful to detect changes SUM_WORDS = 0x000010 // word count is a kind of digest SUM_LINES = 0x000020 // line count is a kind of digest SUM_SUM64 = 0x000040 // simple add of bytes, useful for human too SUM_SUM32_BITS = 0x000100 // the number of true bits SUM_SUM32_2BYTE = 0x000200 // 16bits words SUM_SUM32_4BYTE = 0x000400 // 32bits words SUM_SUM32_8BYTE = 0x000800 // 64bits words SUM_SUM16_BSD = 0x001000 // UNIXsum -sum -bsd SUM_SUM16_SYSV = 0x002000 // UNIXsum -sum -sysv SUM_UNIXFILE = 0x004000 SUM_CRCIEEE = 0x008000 ) type CheckSum struct { Files int64 // the number of files (or data) Size int64 // content size Words int64 // word count Lines int64 // line count SumType int Sum64 uint64 Crc32Table crc32.Table Crc32Val uint32 Sum16 int Ctime time.Time Atime time.Time Mtime time.Time Start time.Time Done time.Time RusgAtStart [2]syscall.Rusage RusgAtEnd [2]syscall.Rusage } type ValueStack [][]string type GshContext struct { StartDir string // the current directory at the start GetLine string // gsh-getline command as a input line editor ChdirHistory []GChdirHistory // the 1st entry is wd at the start gshPA syscall.ProcAttr CommandHistory []GCommandHistory CmdCurrent GCommandHistory BackGround bool BackGroundJobs []int LastRusage syscall.Rusage GshHomeDir string TerminalId int CmdTrace bool // should be [map] CmdTime bool // should be [map] PluginFuncs []PluginInfo iValues []string iDelimiter string // field sepearater of print out iFormat string // default print format (of integer) iValStack ValueStack LastServer GServer RSERV string // [gsh://]host[:port] RWD string // remote (target, there) working directory lastCheckSum CheckSum } func nsleep(ns time.Duration){ time.Sleep(ns) } func usleep(ns time.Duration){ nsleep(ns*1000) } func msleep(ns time.Duration){ nsleep(ns*1000000) } func sleep(ns time.Duration){ nsleep(ns*1000000000) } func strBegins(str, pat string)(bool){ if len(pat) <= len(str){ yes := str[0:len(pat)] == pat //fmt.Printf("--D-- strBegins(%v,%v)=%v\n",str,pat,yes) return yes } //fmt.Printf("--D-- strBegins(%v,%v)=%v\n",str,pat,false) return false } func isin(what string, list []string) bool { for _, v := range list { if v == what { return true } } return false } func isinX(what string,list[]string)(int){ for i,v := range list { if v == what { return i } } return -1 } func env(opts []string) { env := os.Environ() if isin("-s", opts){ sort.Slice(env, func(i,j int) bool { return env[i] < env[j] }) } for _, v := range env { fmt.Printf("%v\n",v) } } // - rewriting should be context dependent // - should postpone until the real point of evaluation // - should rewrite only known notation of symobl func scanInt(str string)(val int,leng int){ leng = -1 for i,ch := range str { if '0' <= ch && ch <= '9' { leng = i+1 }else{ break } } if 0 < leng { ival,_ := strconv.Atoi(str[0:leng]) return ival,leng }else{ return 0,0 } } func substHistory(gshCtx *GshContext,str string,i int,rstr string)(leng int,rst string){ if len(str[i+1:]) == 0 { return 0,rstr } hi := 0 histlen := len(gshCtx.CommandHistory) if str[i+1] == '!' { hi = histlen - 1 leng = 1 }else{ hi,leng = scanInt(str[i+1:]) if leng == 0 { return 0,rstr } if hi < 0 { hi = histlen + hi } } if 0 <= hi && hi < histlen { var ext byte if 1 < len(str[i+leng:]) { ext = str[i+leng:][1] } //fmt.Printf("--D-- %v(%c)\n",str[i+leng:],str[i+leng]) if ext == 'f' { leng += 1 xlist := []string{} list := gshCtx.CommandHistory[hi].FoundFile for _,v := range list { //list[i] = escapeWhiteSP(v) xlist = append(xlist,escapeWhiteSP(v)) } //rstr += strings.Join(list," ") rstr += strings.Join(xlist," ") }else if ext == '@' || ext == 'd' { // !N@ .. workdir at the start of the command leng += 1 rstr += gshCtx.CommandHistory[hi].WorkDir }else{ rstr += gshCtx.CommandHistory[hi].CmdLine } }else{ leng = 0 } return leng,rstr } func escapeWhiteSP(str string)(string){ if len(str) == 0 { return "\\z" // empty, to be ignored } rstr := "" for _,ch := range str { switch ch { case '\\': rstr += "\\\\" case ' ': rstr += "\\s" case '\t': rstr += "\\t" case '\r': rstr += "\\r" case '\n': rstr += "\\n" default: rstr += string(ch) } } return rstr } func unescapeWhiteSP(str string)(string){ // strip original escapes rstr := "" for i := 0; i < len(str); i++ { ch := str[i] if ch == '\\' { if i+1 < len(str) { switch str[i+1] { case 'z': continue; } } } rstr += string(ch) } return rstr } func unescapeWhiteSPV(strv []string)([]string){ // strip original escapes ustrv := []string{} for _,v := range strv { ustrv = append(ustrv,unescapeWhiteSP(v)) } return ustrv } // str-expansion // – this should be a macro processor func strsubst(gshCtx *GshContext,str string,histonly bool) string { rbuff := []byte{} if false { //@@U Unicode should be cared as a character return str } //rstr := “” inEsc := 0 // escape characer mode for i := 0; i < len(str); i++ { //fmt.Printf("--D--Subst %v:%v\n",i,str[i:]) ch := str[i] if inEsc == 0 { if ch == '!' { //leng,xrstr := substHistory(gshCtx,str,i,rstr) leng,rs := substHistory(gshCtx,str,i,"") if 0 < leng { //_,rs := substHistory(gshCtx,str,i,"") rbuff = append(rbuff,[]byte(rs)...) i += leng //rstr = xrstr continue } } switch ch { case '\\': inEsc = '\\'; continue //case '%': inEsc = '%'; continue case '$': } } switch inEsc { case '\\': switch ch { case '\\': ch = '\\' case 's': ch = ' ' case 't': ch = '\t' case 'r': ch = '\r' case 'n': ch = '\n' case 'z': inEsc = 0; continue // empty, to be ignored } inEsc = 0 case '%': switch { case ch == '%': ch = '%' case ch == 'T': //rstr = rstr + time.Now().Format(time.Stamp) rs := time.Now().Format(time.Stamp) rbuff = append(rbuff,[]byte(rs)...) inEsc = 0 continue; default: // postpone the interpretation //rstr = rstr + "%" + string(ch) rbuff = append(rbuff,ch) inEsc = 0 continue; } inEsc = 0 } //rstr = rstr + string(ch) rbuff = append(rbuff,ch) } //fmt.Printf("--D--subst(%s)(%s)\n",str,string(rbuff)) return string(rbuff) //return rstr } func showFileInfo(path string, opts []string) { if isin("-l",opts) || isin("-ls",opts) { fi, err := os.Stat(path) if err != nil { fmt.Printf("---------- ((%v))",err) }else{ mod := fi.ModTime() date := mod.Format(time.Stamp) fmt.Printf("%v %8v %s ",fi.Mode(),fi.Size(),date) } } fmt.Printf("%s",path) if isin("-sp",opts) { fmt.Printf(" ") }else if ! isin("-n",opts) { fmt.Printf("\n") } } func userHomeDir()(string,bool){ /* homedir,_ = os.UserHomeDir() // not implemented in older Golang */ homedir,found := os.LookupEnv("HOME") //fmt.Printf("--I-- HOME=%v(%v)\n",homedir,found) if !found { return "/tmp",found } return homedir,found } func toFullpath(path string) (fullpath string) { if path[0] == '/' { return path } pathv := strings.Split(path,DIRSEP) switch { case pathv[0] == ".": pathv[0], _ = os.Getwd() case pathv[0] == "..": // all ones should be interpreted cwd, _ := os.Getwd() ppathv := strings.Split(cwd,DIRSEP) pathv[0] = strings.Join(ppathv,DIRSEP) case pathv[0] == "~": pathv[0],_ = userHomeDir() default: cwd, _ := os.Getwd() pathv[0] = cwd + DIRSEP + pathv[0] } return strings.Join(pathv,DIRSEP) } func IsRegFile(path string)(bool){ fi, err := os.Stat(path) if err == nil { fm := fi.Mode() return fm.IsRegular(); } return false } // Encode / Decode // Encoder func (gshCtx *GshContext)Enc(argv[]string){ file := os.Stdin buff := make([]byte,LINESIZE) li := 0 encoder := base64.NewEncoder(base64.StdEncoding,os.Stdout) for li = 0; ; li++ { count, err := file.Read(buff) if count <= 0 { break } if err != nil { break } encoder.Write(buff[0:count]) } encoder.Close() } func (gshCtx *GshContext)Dec(argv[]string){ decoder := base64.NewDecoder(base64.StdEncoding,os.Stdin) li := 0 buff := make([]byte,LINESIZE) for li = 0; ; li++ { count, err := decoder.Read(buff) if count <= 0 { break } if err != nil { break } os.Stdout.Write(buff[0:count]) } } // lnsp [N] [-crlf][-C \\] func (gshCtx *GshContext)SplitLine(argv[]string){ reader := bufio.NewReaderSize(os.Stdin,64*1024) ni := 0 toi := 0 for ni = 0; ; ni++ { line, err := reader.ReadString('\n') if len(line) <= 0 { if err != nil { fmt.Fprintf(os.Stderr,"--I-- lnsp %d to %d (%v)\n",ni,toi,err) break } } off := 0 ilen := len(line) remlen := len(line) for oi := 0; 0 < remlen; oi++ { olen := remlen addnl := false if 72 < olen { olen = 72 addnl = true } fmt.Fprintf(os.Stderr,"--D-- write %d [%d.%d] %d %d/%d/%d\n", toi,ni,oi,off,olen,remlen,ilen) toi += 1 os.Stdout.Write([]byte(line[0:olen])) if addnl { //os.Stdout.Write([]byte("\r\n")) os.Stdout.Write([]byte("\\")) os.Stdout.Write([]byte("\n")) } line = line[olen:] off += olen remlen -= olen } } fmt.Fprintf(os.Stderr,"--I-- lnsp %d to %d\n",ni,toi) } // CRC32 crc32 // 1 0000 0100 1100 0001 0001 1101 1011 0111 var CRC32UNIX uint32 = uint32(0x04C11DB7) // Unix cksum var CRC32IEEE uint32 = uint32(0xEDB88320) func byteCRC32add(crc uint32,str[]byte,len uint64)(uint32){ var i uint64 for i = 0; i < len; i++ { var oct = str[i] for bi := 0; bi < 8; bi++ { ovf1 := (crc & 0x80000000) != 0 ovf2 := (oct & 0x80) != 0 ovf := (ovf1 && !ovf2) || (!ovf1 && ovf2) oct <<= 1 crc <<= 1 if ovf { crc ^= CRC32UNIX } } } return crc; } func byteCRC32end(crc uint32, len uint64)(uint32){ var slen = make([]byte,4) var li = 0 for li = 0; li < 4; { slen[li] = byte(len) li += 1 len >>= 8 if( len == 0 ){ break } } crc = byteCRC32add(crc,slen,uint64(li)) crc ^= 0xFFFFFFFF return crc } func byteCRC32(str[]byte,len uint64)(crc uint32){ crc = byteCRC32add(0,str,len) crc = byteCRC32end(crc,len) return crc } func CRC32Finish(crc uint32, table *crc32.Table, len uint64)(uint32){ var slen = make([]byte,4) var li = 0 for li = 0; li < 4; { slen[li] = byte(len & 0xFF) li += 1 len >>= 8 if( len == 0 ){ break } } crc = crc32.Update(crc,table,slen) crc ^= 0xFFFFFFFF return crc } func (gsh*GshContext)xCksum(path string,argv[]string, sum*CheckSum)(int64){ if isin(“-type/f”,argv) && !IsRegFile(path){ return 0 } if isin(“-type/d”,argv) && IsRegFile(path){ return 0 } file, err := os.OpenFile(path,os.O_RDONLY,0) if err != nil { fmt.Printf(“–E– cksum %v (%v)\n”,path,err) return -1 } defer file.Close() if gsh.CmdTrace { fmt.Printf(“–I– cksum %v %v\n”,path,argv) } bi := 0 var buff = make([]byte,32*1024) var total int64 = 0 var initTime = time.Time{} if sum.Start == initTime { sum.Start = time.Now() } for bi = 0; ; bi++ { count,err := file.Read(buff) if count <= 0 || err != nil { break } if (sum.SumType & SUM_SUM64) != 0 { s := sum.Sum64 for _,c := range buff[0:count] { s += uint64(c) } sum.Sum64 = s } if (sum.SumType & SUM_UNIXFILE) != 0 { sum.Crc32Val = byteCRC32add(sum.Crc32Val,buff,uint64(count)) } if (sum.SumType & SUM_CRCIEEE) != 0 { sum.Crc32Val = crc32.Update(sum.Crc32Val,&sum.Crc32Table,buff[0:count]) } // BSD checksum if (sum.SumType & SUM_SUM16_BSD) != 0 { s := sum.Sum16 for _,c := range buff[0:count] { s = (s >> 1) + ((s & 1) << 15) s += int(c) s &= 0xFFFF //fmt.Printf("BSDsum: %d[%d] %d\n",sum.Size+int64(i),i,s) } sum.Sum16 = s } if (sum.SumType & SUM_SUM16_SYSV) != 0 { for bj := 0; bj < count; bj++ { sum.Sum16 += int(buff[bj]) } } total += int64(count) } sum.Done = time.Now() sum.Files += 1 sum.Size += total if !isin("-s",argv) { fmt.Printf("%v ",total) } return 0 } // grep // “lines”, “lin” or “lnp” for “(text) line processor” or “scanner” // a*,!ab,c, … sequentioal combination of patterns // what “LINE” is should be definable // generic line-by-line processing // grep [-v] // cat -n -v // uniq [-c] // tail -f // sed s/x/y/ or awk // grep with line count like wc // rewrite contents if specified func (gsh*GshContext)xGrep(path string,rexpv[]string)(int){ file, err := os.OpenFile(path,os.O_RDONLY,0) if err != nil { fmt.Printf(“–E– grep %v (%v)\n”,path,err) return -1 } defer file.Close() if gsh.CmdTrace { fmt.Printf(“–I– grep %v %v\n”,path,rexpv) } //reader := bufio.NewReaderSize(file,LINESIZE) reader := bufio.NewReaderSize(file,80) li := 0 found := 0 for li = 0; ; li++ { line, err := reader.ReadString(‘\n’) if len(line) <= 0 { break } if 150 < len(line) { // maybe binary break; } if err != nil { break } if 0 <= strings.Index(string(line),rexpv[0]) { found += 1 fmt.Printf("%s:%d: %s",path,li,line) } } //fmt.Printf("total %d lines %s\n",li,path) //if( 0 < found ){ fmt.Printf("((found %d lines %s))\n",found,path); } return found } // Finder // finding files with it name and contents // file names are ORed // show the content with %x fmt list // ls -R // tar command by adding output type fileSum struct { Err int64 // access error or so Size int64 // content size DupSize int64 // content size from hard links Blocks int64 // number of blocks (of 512 bytes) DupBlocks int64 // Blocks pointed from hard links HLinks int64 // hard links Words int64 Lines int64 Files int64 Dirs int64 // the num. of directories SymLink int64 Flats int64 // the num. of flat files MaxDepth int64 MaxNamlen int64 // max. name length nextRepo time.Time } func showFusage(dir string,fusage *fileSum){ bsume := float64(((fusage.Blocks-fusage.DupBlocks)/2)*1024)/1000000.0 //bsumdup := float64((fusage.Blocks/2)*1024)/1000000.0 fmt.Printf(“%v: %v files (%vd %vs %vh) %.6f MB (%.2f MBK)\n”, dir, fusage.Files, fusage.Dirs, fusage.SymLink, fusage.HLinks, float64(fusage.Size)/1000000.0,bsume); } const ( S_IFMT = 0170000 S_IFCHR = 0020000 S_IFDIR = 0040000 S_IFREG = 0100000 S_IFLNK = 0120000 S_IFSOCK = 0140000 ) func cumFinfo(fsum *fileSum, path string, staterr error, fstat syscall.Stat_t, argv[]string,verb bool)(*fileSum){ now := time.Now() if time.Second <= now.Sub(fsum.nextRepo) { if !fsum.nextRepo.IsZero(){ tstmp := now.Format(time.Stamp) showFusage(tstmp,fsum) } fsum.nextRepo = now.Add(time.Second) } if staterr != nil { fsum.Err += 1 return fsum } fsum.Files += 1 if 1 < fstat.Nlink { // must count only once... // at least ignore ones in the same directory //if finfo.Mode().IsRegular() { if (fstat.Mode & S_IFMT) == S_IFREG { fsum.HLinks += 1 fsum.DupBlocks += int64(fstat.Blocks) //fmt.Printf("---Dup HardLink %v %s\n",fstat.Nlink,path) } } //fsum.Size += finfo.Size() fsum.Size += fstat.Size fsum.Blocks += int64(fstat.Blocks) //if verb { fmt.Printf("(%8dBlk) %s",fstat.Blocks/2,path) } if isin("-ls",argv){ //if verb { fmt.Printf("%4d %8d ",fstat.Blksize,fstat.Blocks) } // fmt.Printf("%d\t",fstat.Blocks/2) } //if finfo.IsDir() if (fstat.Mode & S_IFMT) == S_IFDIR { fsum.Dirs += 1 } //if (finfo.Mode() & os.ModeSymlink) != 0 if (fstat.Mode & S_IFMT) == S_IFLNK { //if verb { fmt.Printf("symlink(%v,%s)\n",fstat.Mode,finfo.Name()) } //{ fmt.Printf("symlink(%o,%s)\n",fstat.Mode,finfo.Name()) } fsum.SymLink += 1 } return fsum } func (gsh*GshContext)xxFindEntv(depth int,total *fileSum,dir string, dstat syscall.Stat_t, ei int, entv []string,npatv[]string,argv[]string)(*fileSum){ nols := isin("-grep",argv) // sort entv /* if isin("-t",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].ModTime().Sub(filev[j].ModTime()) }) } */ /* if isin("-u",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].AccTime().Sub(filev[j].AccTime()) }) } if isin("-U",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].CreatTime().Sub(filev[j].CreatTime()) }) } */ /* if isin("-S",argv){ sort.Slice(filev, func(i,j int) bool { return filev[j].Size() < filev[i].Size() }) } */ for _,filename := range entv { for _,npat := range npatv { match := true if npat == "*" { match = true }else{ match, _ = filepath.Match(npat,filename) } path := dir + DIRSEP + filename if !match { continue } var fstat syscall.Stat_t staterr := syscall.Lstat(path,&fstat) if staterr != nil { if !isin("-w",argv){fmt.Printf("ufind: %v\n",staterr) } continue; } if isin("-du",argv) && (fstat.Mode & S_IFMT) == S_IFDIR { // should not show size of directory in "-du" mode ... }else if !nols && !isin("-s",argv) && (!isin("-du",argv) || isin("-a",argv)) { if isin("-du",argv) { fmt.Printf("%d\t",fstat.Blocks/2) } showFileInfo(path,argv) } if true { // && isin("-du",argv) total = cumFinfo(total,path,staterr,fstat,argv,false) } /* if isin("-wc",argv) { } */ if gsh.lastCheckSum.SumType != 0 { gsh.xCksum(path,argv,&gsh.lastCheckSum); } x := isinX("-grep",argv); // -grep will be convenient like -ls if 0 <= x && x+1 <= len(argv) { // -grep will be convenient like -ls if IsRegFile(path){ found := gsh.xGrep(path,argv[x+1:]) if 0 < found { foundv := gsh.CmdCurrent.FoundFile if len(foundv) < 10 { gsh.CmdCurrent.FoundFile = append(gsh.CmdCurrent.FoundFile,path) } } } } if !isin("-r0",argv) { // -d 0 in du, -depth n in find //total.Depth += 1 if (fstat.Mode & S_IFMT) == S_IFLNK { continue } if dstat.Rdev != fstat.Rdev { fmt.Printf("--I-- don't follow differnet device %v(%v) %v(%v)\n", dir,dstat.Rdev,path,fstat.Rdev) } if (fstat.Mode & S_IFMT) == S_IFDIR { total = gsh.xxFind(depth+1,total,path,npatv,argv) } } } } return total } func (gsh*GshContext)xxFind(depth int,total *fileSum,dir string,npatv[]string,argv[]string)(*fileSum){ nols := isin("-grep",argv) dirfile,oerr := os.OpenFile(dir,os.O_RDONLY,0) if oerr == nil { //fmt.Printf("--I-- %v(%v)[%d]\n",dir,dirfile,dirfile.Fd()) defer dirfile.Close() }else{ } prev := *total var dstat syscall.Stat_t staterr := syscall.Lstat(dir,&dstat) // should be flstat if staterr != nil { if !isin("-w",argv){ fmt.Printf("ufind: %v\n",staterr) } return total } //filev,err := ioutil.ReadDir(dir) //_,err := ioutil.ReadDir(dir) // ReadDir() heavy and bad for huge directory /* if err != nil { if !isin("-w",argv){ fmt.Printf("ufind: %v\n",err) } return total } */ if depth == 0 { total = cumFinfo(total,dir,staterr,dstat,argv,true) if !nols && !isin("-s",argv) && (!isin("-du",argv) || isin("-a",argv)) { showFileInfo(dir,argv) } } // it it is not a directory, just scan it and finish for ei := 0; ; ei++ { entv,rderr := dirfile.Readdirnames(8*1024) if len(entv) == 0 || rderr != nil { //if rderr != nil { fmt.Printf("[%d] len=%d (%v)\n",ei,len(entv),rderr) } break } if 0 < ei { fmt.Printf("--I-- xxFind[%d] %d large-dir: %s\n",ei,len(entv),dir) } total = gsh.xxFindEntv(depth,total,dir,dstat,ei,entv,npatv,argv) } if isin("-du",argv) { // if in "du" mode fmt.Printf("%d\t%s\n",(total.Blocks-prev.Blocks)/2,dir) } return total } // {ufind|fu|ls} [Files] [// Names] [-- Expressions] // Files is "." by default // Names is "*" by default // Expressions is "-print" by default for "ufind", or -du for "fu" command func (gsh*GshContext)xFind(argv[]string){ if 0 < len(argv) && strBegins(argv[0],"?"){ showFound(gsh,argv) return } if isin("-cksum",argv) || isin("-sum",argv) { gsh.lastCheckSum = CheckSum{} if isin("-sum",argv) && isin("-add",argv) { gsh.lastCheckSum.SumType |= SUM_SUM64 }else if isin("-sum",argv) && isin("-size",argv) { gsh.lastCheckSum.SumType |= SUM_SIZE }else if isin("-sum",argv) && isin("-bsd",argv) { gsh.lastCheckSum.SumType |= SUM_SUM16_BSD }else if isin("-sum",argv) && isin("-sysv",argv) { gsh.lastCheckSum.SumType |= SUM_SUM16_SYSV }else if isin("-sum",argv) { gsh.lastCheckSum.SumType |= SUM_SUM64 } if isin("-unix",argv) { gsh.lastCheckSum.SumType |= SUM_UNIXFILE gsh.lastCheckSum.Crc32Table = *crc32.MakeTable(CRC32UNIX) } if isin("-ieee",argv){ gsh.lastCheckSum.SumType |= SUM_CRCIEEE gsh.lastCheckSum.Crc32Table = *crc32.MakeTable(CRC32IEEE) } gsh.lastCheckSum.RusgAtStart = Getrusagev() } var total = fileSum{} npats := []string{} for _,v := range argv { if 0 < len(v) && v[0] != '-' { npats = append(npats,v) } if v == "//" { break } if v == "--" { break } if v == "-grep" { break } if v == "-ls" { break } } if len(npats) == 0 { npats = []string{"*"} } cwd := "." // if to be fullpath ::: cwd, _ := os.Getwd() if len(npats) == 0 { npats = []string{"*"} } fusage := gsh.xxFind(0,&total,cwd,npats,argv) if gsh.lastCheckSum.SumType != 0 { var sumi uint64 = 0 sum := &gsh.lastCheckSum if (sum.SumType & SUM_SIZE) != 0 { sumi = uint64(sum.Size) } if (sum.SumType & SUM_SUM64) != 0 { sumi = sum.Sum64 } if (sum.SumType & SUM_SUM16_SYSV) != 0 { s := uint32(sum.Sum16) r := (s & 0xFFFF) + ((s & 0xFFFFFFFF) >> 16) s = (r & 0xFFFF) + (r >> 16) sum.Crc32Val = uint32(s) sumi = uint64(s) } if (sum.SumType & SUM_SUM16_BSD) != 0 { sum.Crc32Val = uint32(sum.Sum16) sumi = uint64(sum.Sum16) } if (sum.SumType & SUM_UNIXFILE) != 0 { sum.Crc32Val = byteCRC32end(sum.Crc32Val,uint64(sum.Size)) sumi = uint64(byteCRC32end(sum.Crc32Val,uint64(sum.Size))) } if 1 < sum.Files { fmt.Printf("%v %v // %v / %v files, %v/file\r\n", sumi,sum.Size, abssize(sum.Size),sum.Files, abssize(sum.Size/sum.Files)) }else{ fmt.Printf("%v %v %v\n", sumi,sum.Size,npats[0]) } } if !isin("-grep",argv) { showFusage("total",fusage) } if !isin("-s",argv){ hits := len(gsh.CmdCurrent.FoundFile) if 0 < hits { fmt.Printf("--I-- %d files hits // can be refered with !%df\n", hits,len(gsh.CommandHistory)) } } if gsh.lastCheckSum.SumType != 0 { if isin("-ru",argv) { sum := &gsh.lastCheckSum sum.Done = time.Now() gsh.lastCheckSum.RusgAtEnd = Getrusagev() elps := sum.Done.Sub(sum.Start) fmt.Printf("--cksum-size: %v (%v) / %v files, %v/file\r\n", sum.Size,abssize(sum.Size),sum.Files,abssize(sum.Size/sum.Files)) nanos := int64(elps) fmt.Printf("--cksum-time: %v/total, %v/file, %.1f files/s, %v\r\n", abbtime(nanos), abbtime(nanos/sum.Files), (float64(sum.Files)*1000000000.0)/float64(nanos), abbspeed(sum.Size,nanos)) diff := RusageSubv(sum.RusgAtEnd,sum.RusgAtStart) fmt.Printf("--cksum-rusg: %v\n",sRusagef("",argv,diff)) } } return } func showFiles(files[]string){ sp := "" for i,file := range files { if 0 < i { sp = " " } else { sp = "" } fmt.Printf(sp+"%s",escapeWhiteSP(file)) } } func showFound(gshCtx *GshContext, argv[]string){ for i,v := range gshCtx.CommandHistory { if 0 < len(v.FoundFile) { fmt.Printf("!%d (%d) ",i,len(v.FoundFile)) if isin("-ls",argv){ fmt.Printf("\n") for _,file := range v.FoundFile { fmt.Printf("") //sub number? showFileInfo(file,argv) } }else{ showFiles(v.FoundFile) fmt.Printf("\n") } } } } func showMatchFile(filev []os.FileInfo, npat,dir string, argv[]string)(string,bool){ fname := "" found := false for _,v := range filev { match, _ := filepath.Match(npat,(v.Name())) if match { fname = v.Name() found = true //fmt.Printf("[%d] %s\n",i,v.Name()) showIfExecutable(fname,dir,argv) } } return fname,found } func showIfExecutable(name,dir string,argv[]string)(ffullpath string,ffound bool){ var fullpath string if strBegins(name,DIRSEP){ fullpath = name }else{ fullpath = dir + DIRSEP + name } fi, err := os.Stat(fullpath) if err != nil { fullpath = dir + DIRSEP + name + ".go" fi, err = os.Stat(fullpath) } if err == nil { fm := fi.Mode() if fm.IsRegular() { // R_OK=4, W_OK=2, X_OK=1, F_OK=0 if syscall.Access(fullpath,5) == nil { ffullpath = fullpath ffound = true if ! isin("-s", argv) { showFileInfo(fullpath,argv) } } } } return ffullpath, ffound } func which(list string, argv []string) (fullpathv []string, itis bool){ if len(argv) <= 1 { fmt.Printf("Usage: which comand [-s] [-a] [-ls]\n") return []string{""}, false } path := argv[1] if strBegins(path,"/") { // should check if excecutable? _,exOK := showIfExecutable(path,"/",argv) fmt.Printf("--D-- %v exOK=%v\n",path,exOK) return []string{path},exOK } pathenv, efound := os.LookupEnv(list) if ! efound { fmt.Printf("--E-- which: no \"%s\" environment\n",list) return []string{""}, false } showall := isin("-a",argv) || 0 <= strings.Index(path,"*") dirv := strings.Split(pathenv,PATHSEP) ffound := false ffullpath := path for _, dir := range dirv { if 0 <= strings.Index(path,"*") { // by wild-card list,_ := ioutil.ReadDir(dir) ffullpath, ffound = showMatchFile(list,path,dir,argv) }else{ ffullpath, ffound = showIfExecutable(path,dir,argv) } //if ffound && !isin("-a", argv) { if ffound && !showall { break; } } return []string{ffullpath}, ffound } func stripLeadingWSParg(argv[]string)([]string){ for ; 0 < len(argv); { if len(argv[0]) == 0 { argv = argv[1:] }else{ break } } return argv } func xEval(argv []string, nlend bool){ argv = stripLeadingWSParg(argv) if len(argv) == 0 { fmt.Printf("eval [%%format] [Go-expression]\n") return } pfmt := "%v" if argv[0][0] == '%' { pfmt = argv[0] argv = argv[1:] } if len(argv) == 0 { return } gocode := strings.Join(argv," "); //fmt.Printf("eval [%v] [%v]\n",pfmt,gocode) fset := token.NewFileSet() rval, _ := types.Eval(fset,nil,token.NoPos,gocode) fmt.Printf(pfmt,rval.Value) if nlend { fmt.Printf("\n") } } func getval(name string) (found bool, val int) { /* should expand the name here */ if name == "gsh.pid" { return true, os.Getpid() }else if name == "gsh.ppid" { return true, os.Getppid() } return false, 0 } func echo(argv []string, nlend bool){ for ai := 1; ai < len(argv); ai++ { if 1 < ai { fmt.Printf(" "); } arg := argv[ai] found, val := getval(arg) if found { fmt.Printf("%d",val) }else{ fmt.Printf("%s",arg) } } if nlend { fmt.Printf("\n"); } } func resfile() string { return "gsh.tmp" } //var resF *File func resmap() { //_ , err := os.OpenFile(resfile(), os.O_RDWR|os.O_CREATE, os.ModeAppend) // https://developpaper.com/solution-to-golang-bad-file-descriptor-problem/ _ , err := os.OpenFile(resfile(), os.O_RDWR|os.O_CREATE, 0600) if err != nil { fmt.Printf("refF could not open: %s\n",err) }else{ fmt.Printf("refF opened\n") } } // @@2020-0821 func gshScanArg(str string,strip int)(argv []string){ var si = 0 var sb = 0 var inBracket = 0 var arg1 = make([]byte,LINESIZE) var ax = 0 debug := false for ; si < len(str); si++ { if str[si] != ' ' { break } } sb = si for ; si < len(str); si++ { if sb <= si { if debug { fmt.Printf("--Da- +%d %2d-%2d %s ... %s\n", inBracket,sb,si,arg1[0:ax],str[si:]) } } ch := str[si] if ch == '{' { inBracket += 1 if 0 < strip && inBracket <= strip { //fmt.Printf("stripLEV %d <= %d?\n",inBracket,strip) continue } } if 0 < inBracket { if ch == '}' { inBracket -= 1 if 0 < strip && inBracket < strip { //fmt.Printf("stripLEV %d < %d?\n",inBracket,strip) continue } } arg1[ax] = ch ax += 1 continue } if str[si] == ' ' { argv = append(argv,string(arg1[0:ax])) if debug { fmt.Printf("--Da- [%v][%v-%v] %s ... %s\n", -1+len(argv),sb,si,str[sb:si],string(str[si:])) } sb = si+1 ax = 0 continue } arg1[ax] = ch ax += 1 } if sb < si { argv = append(argv,string(arg1[0:ax])) if debug { fmt.Printf("--Da- [%v][%v-%v] %s ... %s\n", -1+len(argv),sb,si,string(arg1[0:ax]),string(str[si:])) } } if debug { fmt.Printf("--Da- %d [%s] => [%d]%v\n”,strip,str,len(argv),argv) } return argv } // should get stderr (into tmpfile ?) and return func (gsh*GshContext)Popen(name,mode string)(pin*os.File,pout*os.File,err bool){ var pv = []int{-1,-1} syscall.Pipe(pv) xarg := gshScanArg(name,1) name = strings.Join(xarg,” “) pin = os.NewFile(uintptr(pv[0]),”StdoutOf-{“+name+”}”) pout = os.NewFile(uintptr(pv[1]),”StdinOf-{“+name+”}”) fdix := 0 dir := “?” if mode == “r” { dir = “<" fdix = 1 // read from the stdout of the process }else{ dir = ">” fdix = 0 // write to the stdin of the process } gshPA := gsh.gshPA savfd := gshPA.Files[fdix] var fd uintptr = 0 if mode == “r” { fd = pout.Fd() gshPA.Files[fdix] = pout.Fd() }else{ fd = pin.Fd() gshPA.Files[fdix] = pin.Fd() } // should do this by Goroutine? if false { fmt.Printf(“–Ip- Opened fd[%v] %s %v\n”,fd,dir,name) fmt.Printf(“–RED1 [%d,%d,%d]->[%d,%d,%d]\n”, os.Stdin.Fd(),os.Stdout.Fd(),os.Stderr.Fd(), pin.Fd(),pout.Fd(),pout.Fd()) } savi := os.Stdin savo := os.Stdout save := os.Stderr os.Stdin = pin os.Stdout = pout os.Stderr = pout gsh.BackGround = true gsh.gshelllh(name) gsh.BackGround = false os.Stdin = savi os.Stdout = savo os.Stderr = save gshPA.Files[fdix] = savfd return pin,pout,false } // External commands func (gsh*GshContext)excommand(exec bool, argv []string) (notf bool,exit bool) { if gsh.CmdTrace { fmt.Printf(“–I– excommand[%v](%v)\n”,exec,argv) } gshPA := gsh.gshPA fullpathv, itis := which(“PATH”,[]string{“which”,argv[0],”-s”}) if itis == false { return true,false } fullpath := fullpathv[0] argv = unescapeWhiteSPV(argv) if 0 < strings.Index(fullpath,".go") { nargv := argv // []string{} gofullpathv, itis := which("PATH",[]string{"which","go","-s"}) if itis == false { fmt.Printf("--F-- Go not found\n") return false,true } gofullpath := gofullpathv[0] nargv = []string{ gofullpath, "run", fullpath } fmt.Printf("--I-- %s {%s %s %s}\n",gofullpath, nargv[0],nargv[1],nargv[2]) if exec { syscall.Exec(gofullpath,nargv,os.Environ()) }else{ pid, _ := syscall.ForkExec(gofullpath,nargv,&gshPA) if gsh.BackGround { fmt.Fprintf(stderr,"--Ip- in Background pid[%d]%d(%v)\n",pid,len(argv),nargv) gsh.BackGroundJobs = append(gsh.BackGroundJobs,pid) }else{ rusage := syscall.Rusage {} syscall.Wait4(pid,nil,0,&rusage) gsh.LastRusage = rusage gsh.CmdCurrent.Rusagev[1] = rusage } } }else{ if exec { syscall.Exec(fullpath,argv,os.Environ()) }else{ pid, _ := syscall.ForkExec(fullpath,argv,&gshPA) //fmt.Printf("[%d]\n",pid); // '&' to be background if gsh.BackGround { fmt.Fprintf(stderr,"--Ip- in Background pid[%d]%d(%v)\n",pid,len(argv),argv) gsh.BackGroundJobs = append(gsh.BackGroundJobs,pid) }else{ rusage := syscall.Rusage {} syscall.Wait4(pid,nil,0,&rusage); gsh.LastRusage = rusage gsh.CmdCurrent.Rusagev[1] = rusage } } } return false,false } // Builtin Commands func (gshCtx *GshContext) sleep(argv []string) { if len(argv) < 2 { fmt.Printf("Sleep 100ms, 100us, 100ns, ...\n") return } duration := argv[1]; d, err := time.ParseDuration(duration) if err != nil { d, err = time.ParseDuration(duration+"s") if err != nil { fmt.Printf("duration ? %s (%s)\n",duration,err) return } } //fmt.Printf("Sleep %v\n",duration) time.Sleep(d) if 0 < len(argv[2:]) { gshCtx.gshellv(argv[2:]) } } func (gshCtx *GshContext)repeat(argv []string) { if len(argv) < 2 { return } start0 := time.Now() for ri,_ := strconv.Atoi(argv[1]); 0 < ri; ri-- { if 0 < len(argv[2:]) { //start := time.Now() gshCtx.gshellv(argv[2:]) end := time.Now() elps := end.Sub(start0); if( 1000000000 < elps ){ fmt.Printf("(repeat#%d %v)\n",ri,elps); } } } } func (gshCtx *GshContext)gen(argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: %s N\n",argv[0]) return } // should br repeated by "repeat" command count, _ := strconv.Atoi(argv[1]) fd := gshPA.Files[1] // Stdout file := os.NewFile(fd,"internalStdOut") fmt.Printf("--I-- Gen. Count=%d to [%d]\n",count,file.Fd()) //buf := []byte{} outdata := "0123 5678 0123 5678 0123 5678 0123 5678\r" for gi := 0; gi < count; gi++ { file.WriteString(outdata) } //file.WriteString("\n") fmt.Printf("\n(%d B)\n",count*len(outdata)); //file.Close() } // Remote Execution // 2020-0820 func Elapsed(from time.Time)(string){ elps := time.Now().Sub(from) if 1000000000 < elps { return fmt.Sprintf("[%5d.%02ds]",elps/1000000000,(elps%1000000000)/10000000) }else if 1000000 < elps { return fmt.Sprintf("[%3d.%03dms]",elps/1000000,(elps%1000000)/1000) }else{ return fmt.Sprintf("[%3d.%03dus]",elps/1000,(elps%1000)) } } func abbtime(nanos int64)(string){ if 1000000000 < nanos { return fmt.Sprintf("%d.%02ds",nanos/1000000000,(nanos%1000000000)/10000000) }else if 1000000 < nanos { return fmt.Sprintf("%d.%03dms",nanos/1000000,(nanos%1000000)/1000) }else{ return fmt.Sprintf("%d.%03dus",nanos/1000,(nanos%1000)) } } func abssize(size int64)(string){ fsize := float64(size) if 1024*1024*1024 < size { return fmt.Sprintf("%.2fGiB",fsize/(1024*1024*1024)) }else if 1024*1024 < size { return fmt.Sprintf("%.3fMiB",fsize/(1024*1024)) }else{ return fmt.Sprintf("%.3fKiB",fsize/1024) } } func absize(size int64)(string){ fsize := float64(size) if 1024*1024*1024 < size { return fmt.Sprintf("%8.2fGiB",fsize/(1024*1024*1024)) }else if 1024*1024 < size { return fmt.Sprintf("%8.3fMiB",fsize/(1024*1024)) }else{ return fmt.Sprintf("%8.3fKiB",fsize/1024) } } func abbspeed(totalB int64,ns int64)(string){ MBs := (float64(totalB)/1000000) / (float64(ns)/1000000000) if 1000 <= MBs { return fmt.Sprintf("%6.3fGB/s",MBs/1000) } if 1 <= MBs { return fmt.Sprintf("%6.3fMB/s",MBs) }else{ return fmt.Sprintf("%6.3fKB/s",MBs*1000) } } func abspeed(totalB int64,ns time.Duration)(string){ MBs := (float64(totalB)/1000000) / (float64(ns)/1000000000) if 1000 <= MBs { return fmt.Sprintf("%6.3fGBps",MBs/1000) } if 1 <= MBs { return fmt.Sprintf("%6.3fMBps",MBs) }else{ return fmt.Sprintf("%6.3fKBps",MBs*1000) } } func fileRelay(what string,in*os.File,out*os.File,size int64,bsiz int)(wcount int64){ Start := time.Now() buff := make([]byte,bsiz) var total int64 = 0 var rem int64 = size nio := 0 Prev := time.Now() var PrevSize int64 = 0 fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) START\n", what,absize(total),size,nio) for i:= 0; ; i++ { var len = bsiz if int(rem) < len { len = int(rem) } Now := time.Now() Elps := Now.Sub(Prev); if 1000000000 < Now.Sub(Prev) { fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) %s\n", what,absize(total),size,nio, abspeed((total-PrevSize),Elps)) Prev = Now; PrevSize = total } rlen := len if in != nil { // should watch the disconnection of out rcc,err := in.Read(buff[0:rlen]) if err != nil { fmt.Printf(Elapsed(Start)+"--En- X: %s read(%v,%v)<%v\n", what,rcc,err,in.Name()) break } rlen = rcc if string(buff[0:10]) == "((SoftEOF " { var ecc int64 = 0 fmt.Sscanf(string(buff),"((SoftEOF %v",&ecc) fmt.Printf(Elapsed(Start)+"--En- X: %s Recv ((SoftEOF %v))/%v\n", what,ecc,total) if ecc == total { break } } } wlen := rlen if out != nil { wcc,err := out.Write(buff[0:rlen]) if err != nil { fmt.Printf(Elapsed(Start)+"-En-- X: %s write(%v,%v)>%v\n”, what,wcc,err,out.Name()) break } wlen = wcc } if wlen < rlen { fmt.Printf(Elapsed(Start)+"--En- X: %s incomplete write (%v/%v)\n", what,wlen,rlen) break; } nio += 1 total += int64(rlen) rem -= int64(rlen) if rem <= 0 { break } } Done := time.Now() Elps := float64(Done.Sub(Start))/1000000000 //Seconds TotalMB := float64(total)/1000000 //MB MBps := TotalMB / Elps fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) %v %.3fMB/s\n", what,total,size,nio,absize(total),MBps) return total } func tcpPush(clnt *os.File){ // shrink socket buffer and recover usleep(100); } func (gsh*GshContext)RexecServer(argv[]string){ debug := true Start0 := time.Now() Start := Start0 // if local == ":" { local = "0.0.0.0:9999" } local := "0.0.0.0:9999" if 0 < len(argv) { if argv[0] == "-s" { debug = false argv = argv[1:] } } if 0 < len(argv) { argv = argv[1:] } port, err := net.ResolveTCPAddr("tcp",local); if err != nil { fmt.Printf("--En- S: Address error: %s (%s)\n",local,err) return } fmt.Printf(Elapsed(Start)+"--In- S: Listening at %s...\n",local); sconn, err := net.ListenTCP("tcp", port) if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: Listen error: %s (%s)\n",local,err) return } reqbuf := make([]byte,LINESIZE) res := "" for { fmt.Printf(Elapsed(Start0)+"--In- S: Listening at %s...\n",local); aconn, err := sconn.AcceptTCP() Start = time.Now() if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: Accept error: %s (%s)\n",local,err) return } clnt, _ := aconn.File() fd := clnt.Fd() ar := aconn.RemoteAddr() if debug { fmt.Printf(Elapsed(Start0)+"--In- S: Accepted TCP at %s [%d] <- %v\n", local,fd,ar) } res = fmt.Sprintf("220 GShell/%s Server\r\n",VERSION) fmt.Fprintf(clnt,"%s",res) if debug { fmt.Printf(Elapsed(Start)+"--In- S: %s",res) } count, err := clnt.Read(reqbuf) if err != nil { fmt.Printf(Elapsed(Start)+"--En- C: (%v %v) %v", count,err,string(reqbuf)) } req := string(reqbuf[:count]) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",string(req)) } reqv := strings.Split(string(req),"\r") cmdv := gshScanArg(reqv[0],0) //cmdv := strings.Split(reqv[0]," ") switch cmdv[0] { case "HELO": res = fmt.Sprintf("250 %v",req) case "GET": // download {remotefile|-zN} [localfile] var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var fname string = "" var in *os.File = nil var pseudoEOF = false if 1 < len(cmdv) { fname = cmdv[1] if strBegins(fname,"-z") { fmt.Sscanf(fname[2:],"%d",&dsize) }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"r") if err { }else{ xout.Close() defer xin.Close() in = xin dsize = MaxStreamSize pseudoEOF = true } }else{ xin,err := os.Open(fname) if err != nil { fmt.Printf("--En- GET (%v)\n",err) }else{ defer xin.Close() in = xin fi,_ := xin.Stat() dsize = fi.Size() } } } //fmt.Printf(Elapsed(Start)+"--In- GET %v:%v\n",dsize,bsize) res = fmt.Sprintf("200 %v\r\n",dsize) fmt.Fprintf(clnt,"%v",res) tcpPush(clnt); // should be separated as line in receiver fmt.Printf(Elapsed(Start)+"--In- S: %v",res) wcount := fileRelay("SendGET",in,clnt,dsize,bsize) if pseudoEOF { in.Close() // pipe from the command // show end of stream data (its size) by OOB? SoftEOF := fmt.Sprintf("((SoftEOF %v))",wcount) fmt.Printf(Elapsed(Start)+"--In- S: Send %v\n",SoftEOF) tcpPush(clnt); // to let SoftEOF data apper at the top of recevied data fmt.Fprintf(clnt,"%v\r\n",SoftEOF) tcpPush(clnt); // to let SoftEOF alone in a packet (separate with 200 OK) // with client generated random? //fmt.Printf("--In- L: close %v (%v)\n",in.Fd(),in.Name()) } res = fmt.Sprintf("200 GET done\r\n") case "PUT": // upload {srcfile|-zN} [dstfile] var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var fname string = "" var out *os.File = nil if 1 < len(cmdv) { // localfile fmt.Sscanf(cmdv[1],"%d",&dsize) } if 2 < len(cmdv) { fname = cmdv[2] if fname == "-" { // nul dev }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"w") if err { }else{ xin.Close() defer xout.Close() out = xout } }else{ // should write to temporary file // should suppress ^C on tty xout,err := os.OpenFile(fname,os.O_CREATE|os.O_RDWR|os.O_TRUNC,0600) //fmt.Printf("--In- S: open(%v) out(%v) err(%v)\n",fname,xout,err) if err != nil { fmt.Printf("--En- PUT (%v)\n",err) }else{ out = xout } } fmt.Printf(Elapsed(Start)+"--In- L: open(%v,w) %v (%v)\n", fname,local,err) } fmt.Printf(Elapsed(Start)+"--In- PUT %v (/%v)\n",dsize,bsize) fmt.Printf(Elapsed(Start)+"--In- S: 200 %v OK\r\n",dsize) fmt.Fprintf(clnt,"200 %v OK\r\n",dsize) fileRelay("RecvPUT",clnt,out,dsize,bsize) res = fmt.Sprintf("200 PUT done\r\n") default: res = fmt.Sprintf("400 What? %v",req) } swcc,serr := clnt.Write([]byte(res)) if serr != nil { fmt.Printf(Elapsed(Start)+"--In- S: (wc=%v er=%v) %v",swcc,serr,res) }else{ fmt.Printf(Elapsed(Start)+"--In- S: %v",res) } aconn.Close(); clnt.Close(); } sconn.Close(); } func (gsh*GshContext)RexecClient(argv[]string)(int,string){ debug := true Start := time.Now() if len(argv) == 1 { return -1,"EmptyARG" } argv = argv[1:] if argv[0] == "-serv" { gsh.RexecServer(argv[1:]) return 0,"Server" } remote := "0.0.0.0:9999" if argv[0][0] == '@' { remote = argv[0][1:] argv = argv[1:] } if argv[0] == "-s" { debug = false argv = argv[1:] } dport, err := net.ResolveTCPAddr("tcp",remote); if err != nil { fmt.Printf(Elapsed(Start)+"Address error: %s (%s)\n",remote,err) return -1,"AddressError" } fmt.Printf(Elapsed(Start)+"--In- C: Connecting to %s\n",remote) serv, err := net.DialTCP("tcp",nil,dport) if err != nil { fmt.Printf(Elapsed(Start)+"Connection error: %s (%s)\n",remote,err) return -1,"CannotConnect" } if debug { al := serv.LocalAddr() fmt.Printf(Elapsed(Start)+"--In- C: Connected to %v <- %v\n",remote,al) } req := "" res := make([]byte,LINESIZE) count,err := serv.Read(res) if err != nil { fmt.Printf("--En- S: (%3d,%v) %v",count,err,string(res)) } if debug { fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res)) } if argv[0] == "GET" { savPA := gsh.gshPA var bsize int = 64*1024 req = fmt.Sprintf("%v\r\n",strings.Join(argv," ")) fmt.Printf(Elapsed(Start)+"--In- C: %v",req) fmt.Fprintf(serv,req) count,err = serv.Read(res) if err != nil { }else{ var dsize int64 = 0 var out *os.File = nil var out_tobeclosed *os.File = nil var fname string = "" var rcode int = 0 var pid int = -1 fmt.Sscanf(string(res),"%d %d",&rcode,&dsize) fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res[0:count])) if 3 <= len(argv) { fname = argv[2] if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"w") if err { }else{ xin.Close() defer xout.Close() out = xout out_tobeclosed = xout pid = 0 // should be its pid } }else{ // should write to temporary file // should suppress ^C on tty xout,err := os.OpenFile(fname,os.O_CREATE|os.O_RDWR|os.O_TRUNC,0600) if err != nil { fmt.Print("--En- %v\n",err) } out = xout //fmt.Printf("--In-- %d > %s\n”,out.Fd(),fname) } } in,_ := serv.File() fileRelay(“RecvGET”,in,out,dsize,bsize) if 0 <= pid { gsh.gshPA = savPA // recovery of Fd(), and more? fmt.Printf(Elapsed(Start)+"--In- L: close Pipe > %v\n”,fname) out_tobeclosed.Close() //syscall.Wait4(pid,nil,0,nil) //@@ } } }else if argv[0] == “PUT” { remote, _ := serv.File() var local *os.File = nil var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var ofile string = “-” //fmt.Printf(“–I– Rex %v\n”,argv) if 1 < len(argv) { fname := argv[1] if strBegins(fname,"-z") { fmt.Sscanf(fname[2:],"%d",&dsize) }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"r") if err { }else{ xout.Close() defer xin.Close() //in = xin local = xin fmt.Printf("--In- [%d] < Upload output of %v\n", local.Fd(),fname) ofile = "-from."+fname dsize = MaxStreamSize } }else{ xlocal,err := os.Open(fname) if err != nil { fmt.Printf("--En- (%s)\n",err) local = nil }else{ local = xlocal fi,_ := local.Stat() dsize = fi.Size() defer local.Close() //fmt.Printf("--I-- Rex in(%v / %v)\n",ofile,dsize) } ofile = fname fmt.Printf(Elapsed(Start)+"--In- L: open(%v,r)=%v %v (%v)\n", fname,dsize,local,err) } } if 2 < len(argv) && argv[2] != "" { ofile = argv[2] //fmt.Printf("(%d)%v B.ofile=%v\n",len(argv),argv,ofile) } //fmt.Printf(Elapsed(Start)+"--I-- Rex out(%v)\n",ofile) fmt.Printf(Elapsed(Start)+"--In- PUT %v (/%v)\n",dsize,bsize) req = fmt.Sprintf("PUT %v %v \r\n",dsize,ofile) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",req) } fmt.Fprintf(serv,"%v",req) count,err = serv.Read(res) if debug { fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res[0:count])) } fileRelay("SendPUT",local,remote,dsize,bsize) }else{ req = fmt.Sprintf("%v\r\n",strings.Join(argv," ")) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",req) } fmt.Fprintf(serv,"%v",req) //fmt.Printf("--In- sending RexRequest(%v)\n",len(req)) } //fmt.Printf(Elapsed(Start)+"--In- waiting RexResponse...\n") count,err = serv.Read(res) ress := "" if count == 0 { ress = "(nil)\r\n" }else{ ress = string(res[:count]) } if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: (%d,%v) %v",count,err,ress) }else{ fmt.Printf(Elapsed(Start)+"--In- S: %v",ress) } serv.Close() //conn.Close() var stat string var rcode int fmt.Sscanf(ress,"%d %s",&rcode,&stat) //fmt.Printf("--D-- Client: %v (%v)",rcode,stat) return rcode,ress } // Remote Shell // gcp file […] { [host]:[port:][dir] | dir } // -p | -no-p func (gsh*GshContext)FileCopy(argv[]string){ var host = “” var port = “” var upload = false var download = false var xargv = []string{“rex-gcp”} var srcv = []string{} var dstv = []string{} argv = argv[1:] for _,v := range argv { /* if v[0] == ‘-‘ { // might be a pseudo file (generated date) continue } */ obj := strings.Split(v,”:”) //fmt.Printf(“%d %v %v\n”,len(obj),v,obj) if 1 < len(obj) { host = obj[0] file := "" if 0 < len(host) { gsh.LastServer.host = host }else{ host = gsh.LastServer.host port = gsh.LastServer.port } if 2 < len(obj) { port = obj[1] if 0 < len(port) { gsh.LastServer.port = port }else{ port = gsh.LastServer.port } file = obj[2] }else{ file = obj[1] } if len(srcv) == 0 { download = true srcv = append(srcv,file) continue } upload = true dstv = append(dstv,file) continue } /* idx := strings.Index(v,":") if 0 <= idx { remote = v[0:idx] if len(srcv) == 0 { download = true srcv = append(srcv,v[idx+1:]) continue } upload = true dstv = append(dstv,v[idx+1:]) continue } */ if download { dstv = append(dstv,v) }else{ srcv = append(srcv,v) } } hostport := "@" + host + ":" + port if upload { if host != "" { xargv = append(xargv,hostport) } xargv = append(xargv,"PUT") xargv = append(xargv,srcv[0:]...) xargv = append(xargv,dstv[0:]...) //fmt.Printf("--I-- FileCopy PUT gsh://%s/%v < %v // %v\n",hostport,dstv,srcv,xargv) fmt.Printf("--I-- FileCopy PUT gsh://%s/%v < %v\n",hostport,dstv,srcv) gsh.RexecClient(xargv) }else if download { if host != "" { xargv = append(xargv,hostport) } xargv = append(xargv,"GET") xargv = append(xargv,srcv[0:]...) xargv = append(xargv,dstv[0:]...) //fmt.Printf("--I-- FileCopy GET gsh://%v/%v > %v // %v\n”,hostport,srcv,dstv,xargv) fmt.Printf(“–I– FileCopy GET gsh://%v/%v > %v\n”,hostport,srcv,dstv) gsh.RexecClient(xargv) }else{ } } // target func (gsh*GshContext)Trelpath(rloc string)(string){ cwd, _ := os.Getwd() os.Chdir(gsh.RWD) os.Chdir(rloc) twd, _ := os.Getwd() os.Chdir(cwd) tpath := twd + “/” + rloc return tpath } // join to rmote GShell – [user@]host[:port] or cd host:[port]:path func (gsh*GshContext)Rjoin(argv[]string){ if len(argv) <= 1 { fmt.Printf("--I-- current server = %v\n",gsh.RSERV) return } serv := argv[1] servv := strings.Split(serv,":") if 1 <= len(servv) { if servv[0] == "lo" { servv[0] = "localhost" } } switch len(servv) { case 1: //if strings.Index(serv,":") < 0 { serv = servv[0] + ":" + fmt.Sprintf("%d",GSH_PORT) //} case 2: // host:port serv = strings.Join(servv,":") } xargv := []string{"rex-join","@"+serv,"HELO"} rcode,stat := gsh.RexecClient(xargv) if (rcode / 100) == 2 { fmt.Printf("--I-- OK Joined (%v) %v\n",rcode,stat) gsh.RSERV = serv }else{ fmt.Printf("--I-- NG, could not joined (%v) %v\n",rcode,stat) } } func (gsh*GshContext)Rexec(argv[]string){ if len(argv) <= 1 { fmt.Printf("--I-- rexec command [ | {file || {command} ]\n",gsh.RSERV) return } /* nargv := gshScanArg(strings.Join(argv," "),0) fmt.Printf("--D-- nargc=%d [%v]\n",len(nargv),nargv) if nargv[1][0] != '{' { nargv[1] = "{" + nargv[1] + "}" fmt.Printf("--D-- nargc=%d [%v]\n",len(nargv),nargv) } argv = nargv */ nargv := []string{} nargv = append(nargv,"{"+strings.Join(argv[1:]," ")+"}") fmt.Printf("--D-- nargc=%d %v\n",len(nargv),nargv) argv = nargv xargv := []string{"rex-exec","@"+gsh.RSERV,"GET"} xargv = append(xargv,argv...) xargv = append(xargv,"/dev/tty") rcode,stat := gsh.RexecClient(xargv) if (rcode / 100) == 2 { fmt.Printf("--I-- OK Rexec (%v) %v\n",rcode,stat) }else{ fmt.Printf("--I-- NG Rexec (%v) %v\n",rcode,stat) } } func (gsh*GshContext)Rchdir(argv[]string){ if len(argv) <= 1 { return } cwd, _ := os.Getwd() os.Chdir(gsh.RWD) os.Chdir(argv[1]) twd, _ := os.Getwd() gsh.RWD = twd fmt.Printf("--I-- JWD=%v\n",twd) os.Chdir(cwd) } func (gsh*GshContext)Rpwd(argv[]string){ fmt.Printf("%v\n",gsh.RWD) } func (gsh*GshContext)Rls(argv[]string){ cwd, _ := os.Getwd() os.Chdir(gsh.RWD) argv[0] = "-ls" gsh.xFind(argv) os.Chdir(cwd) } func (gsh*GshContext)Rput(argv[]string){ var local string = "" var remote string = "" if 1 < len(argv) { local = argv[1] remote = local // base name } if 2 < len(argv) { remote = argv[2] } fmt.Printf("--I-- jput from=%v to=%v\n",local,gsh.Trelpath(remote)) } func (gsh*GshContext)Rget(argv[]string){ var remote string = "" var local string = "" if 1 < len(argv) { remote = argv[1] local = remote // base name } if 2 < len(argv) { local = argv[2] } fmt.Printf("--I-- jget from=%v to=%v\n",gsh.Trelpath(remote),local) } // network // -s, -si, -so // bi-directional, source, sync (maybe socket) func (gshCtx*GshContext)sconnect(inTCP bool, argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: -s [host]:[port[.udp]]\n") return } remote := argv[1] if remote == ":" { remote = "0.0.0.0:9999" } if inTCP { // TCP dport, err := net.ResolveTCPAddr("tcp",remote); if err != nil { fmt.Printf("Address error: %s (%s)\n",remote,err) return } conn, err := net.DialTCP("tcp",nil,dport) if err != nil { fmt.Printf("Connection error: %s (%s)\n",remote,err) return } file, _ := conn.File(); fd := file.Fd() fmt.Printf("Socket: connected to %s, socket[%d]\n",remote,fd) savfd := gshPA.Files[1] gshPA.Files[1] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[1] = savfd file.Close() conn.Close() }else{ //dport, err := net.ResolveUDPAddr("udp4",remote); dport, err := net.ResolveUDPAddr("udp",remote); if err != nil { fmt.Printf("Address error: %s (%s)\n",remote,err) return } //conn, err := net.DialUDP("udp4",nil,dport) conn, err := net.DialUDP("udp",nil,dport) if err != nil { fmt.Printf("Connection error: %s (%s)\n",remote,err) return } file, _ := conn.File(); fd := file.Fd() ar := conn.RemoteAddr() //al := conn.LocalAddr() fmt.Printf("Socket: connected to %s [%s], socket[%d]\n", remote,ar.String(),fd) savfd := gshPA.Files[1] gshPA.Files[1] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[1] = savfd file.Close() conn.Close() } } func (gshCtx*GshContext)saccept(inTCP bool, argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: -ac [host]:[port[.udp]]\n") return } local := argv[1] if local == ":" { local = "0.0.0.0:9999" } if inTCP { // TCP port, err := net.ResolveTCPAddr("tcp",local); if err != nil { fmt.Printf("Address error: %s (%s)\n",local,err) return } //fmt.Printf("Listen at %s...\n",local); sconn, err := net.ListenTCP("tcp", port) if err != nil { fmt.Printf("Listen error: %s (%s)\n",local,err) return } //fmt.Printf("Accepting at %s...\n",local); aconn, err := sconn.AcceptTCP() if err != nil { fmt.Printf("Accept error: %s (%s)\n",local,err) return } file, _ := aconn.File() fd := file.Fd() fmt.Printf("Accepted TCP at %s [%d]\n",local,fd) savfd := gshPA.Files[0] gshPA.Files[0] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[0] = savfd sconn.Close(); aconn.Close(); file.Close(); }else{ //port, err := net.ResolveUDPAddr("udp4",local); port, err := net.ResolveUDPAddr("udp",local); if err != nil { fmt.Printf("Address error: %s (%s)\n",local,err) return } fmt.Printf("Listen UDP at %s...\n",local); //uconn, err := net.ListenUDP("udp4", port) uconn, err := net.ListenUDP("udp", port) if err != nil { fmt.Printf("Listen error: %s (%s)\n",local,err) return } file, _ := uconn.File() fd := file.Fd() ar := uconn.RemoteAddr() remote := "" if ar != nil { remote = ar.String() } if remote == "" { remote = "?" } // not yet received //fmt.Printf("Accepted at %s [%d] <- %s\n",local,fd,"") savfd := gshPA.Files[0] gshPA.Files[0] = fd; savenv := gshPA.Env gshPA.Env = append(savenv, "REMOTE_HOST="+remote) gshCtx.gshellv(argv[2:]) gshPA.Env = savenv gshPA.Files[0] = savfd uconn.Close(); file.Close(); } } // empty line command func (gshCtx*GshContext)xPwd(argv[]string){ // execute context command, pwd + date // context notation, representation scheme, to be resumed at re-login cwd, _ := os.Getwd() switch { case isin("-a",argv): gshCtx.ShowChdirHistory(argv) case isin("-ls",argv): showFileInfo(cwd,argv) default: fmt.Printf("%s\n",cwd) case isin("-v",argv): // obsolete emtpy command t := time.Now() date := t.Format(time.UnixDate) exe, _ := os.Executable() host, _ := os.Hostname() fmt.Printf("{PWD=\"%s\"",cwd) fmt.Printf(" HOST=\"%s\"",host) fmt.Printf(" DATE=\"%s\"",date) fmt.Printf(" TIME=\"%s\"",t.String()) fmt.Printf(" PID=\"%d\"",os.Getpid()) fmt.Printf(" EXE=\"%s\"",exe) fmt.Printf("}\n") } } // History // these should be browsed and edited by HTTP browser // show the time of command with -t and direcotry with -ls // openfile-history, sort by -a -m -c // sort by elapsed time by -t -s // search by “more” like interface // edit history // sort history, and wc or uniq // CPU and other resource consumptions // limit showing range (by time or so) // export / import history func (gshCtx *GshContext)xHistory(argv []string){ atWorkDirX := -1 if 1 < len(argv) && strBegins(argv[1],"@") { atWorkDirX,_ = strconv.Atoi(argv[1][1:]) } //fmt.Printf("--D-- showHistory(%v)\n",argv) for i, v := range gshCtx.CommandHistory { // exclude commands not to be listed by default // internal commands may be suppressed by default if v.CmdLine == "" && !isin("-a",argv) { continue; } if 0 <= atWorkDirX { if v.WorkDirX != atWorkDirX { continue } } if !isin("-n",argv){ // like "fc" fmt.Printf("!%-2d ",i) } if isin("-v",argv){ fmt.Println(v) // should be with it date }else{ if isin("-l",argv) || isin("-l0",argv) { elps := v.EndAt.Sub(v.StartAt); start := v.StartAt.Format(time.Stamp) fmt.Printf("@%d ",v.WorkDirX) fmt.Printf("[%v] %11v/t ",start,elps) } if isin("-l",argv) && !isin("-l0",argv){ fmt.Printf("%v",Rusagef("%t %u\t// %s",argv,v.Rusagev)) } if isin("-at",argv) { // isin("-ls",argv){ dhi := v.WorkDirX // workdir history index fmt.Printf("@%d %s\t",dhi,v.WorkDir) // show the FileInfo of the output command?? } fmt.Printf("%s",v.CmdLine) fmt.Printf("\n") } } } // !n - history index func searchHistory(gshCtx GshContext, gline string) (string, bool, bool){ if gline[0] == '!' { hix, err := strconv.Atoi(gline[1:]) if err != nil { fmt.Printf("--E-- (%s : range)\n",hix) return "", false, true } if hix < 0 || len(gshCtx.CommandHistory) <= hix { fmt.Printf("--E-- (%d : out of range)\n",hix) return "", false, true } return gshCtx.CommandHistory[hix].CmdLine, false, false } // search //for i, v := range gshCtx.CommandHistory { //} return gline, false, false } func (gsh*GshContext)cmdStringInHistory(hix int)(cmd string, ok bool){ if 0 <= hix && hix < len(gsh.CommandHistory) { return gsh.CommandHistory[hix].CmdLine,true } return "",false } // temporary adding to PATH environment // cd name -lib for LD_LIBRARY_PATH // chdir with directory history (date + full-path) // -s for sort option (by visit date or so) func (gsh*GshContext)ShowChdirHistory1(i int,v GChdirHistory, argv []string){ fmt.Printf("!%-2d ",v.CmdIndex) // the first command at this WorkDir fmt.Printf("@%d ",i) fmt.Printf("[%v] ",v.MovedAt.Format(time.Stamp)) showFileInfo(v.Dir,argv) } func (gsh*GshContext)ShowChdirHistory(argv []string){ for i, v := range gsh.ChdirHistory { gsh.ShowChdirHistory1(i,v,argv) } } func skipOpts(argv[]string)(int){ for i,v := range argv { if strBegins(v,"-") { }else{ return i } } return -1 } func (gshCtx*GshContext)xChdir(argv []string){ cdhist := gshCtx.ChdirHistory if isin("?",argv ) || isin("-t",argv) || isin("-a",argv) { gshCtx.ShowChdirHistory(argv) return } pwd, _ := os.Getwd() dir := "" if len(argv) <= 1 { dir = toFullpath("~") }else{ i := skipOpts(argv[1:]) if i < 0 { dir = toFullpath("~") }else{ dir = argv[1+i] } } if strBegins(dir,"@") { if dir == "@0" { // obsolete dir = gshCtx.StartDir }else if dir == "@!" { index := len(cdhist) - 1 if 0 < index { index -= 1 } dir = cdhist[index].Dir }else{ index, err := strconv.Atoi(dir[1:]) if err != nil { fmt.Printf("--E-- xChdir(%v)\n",err) dir = "?" }else if len(gshCtx.ChdirHistory) <= index { fmt.Printf("--E-- xChdir(history range error)\n") dir = "?" }else{ dir = cdhist[index].Dir } } } if dir != "?" { err := os.Chdir(dir) if err != nil { fmt.Printf("--E-- xChdir(%s)(%v)\n",argv[1],err) }else{ cwd, _ := os.Getwd() if cwd != pwd { hist1 := GChdirHistory { } hist1.Dir = cwd hist1.MovedAt = time.Now() hist1.CmdIndex = len(gshCtx.CommandHistory)+1 gshCtx.ChdirHistory = append(cdhist,hist1) if !isin("-s",argv){ //cwd, _ := os.Getwd() //fmt.Printf("%s\n",cwd) ix := len(gshCtx.ChdirHistory)-1 gshCtx.ShowChdirHistory1(ix,hist1,argv) } } } } if isin("-ls",argv){ cwd, _ := os.Getwd() showFileInfo(cwd,argv); } } func TimeValSub(tv1 *syscall.Timeval, tv2 *syscall.Timeval){ *tv1 = syscall.NsecToTimeval(tv1.Nano() - tv2.Nano()) } func RusageSubv(ru1, ru2 [2]syscall.Rusage)([2]syscall.Rusage){ TimeValSub(&ru1[0].Utime,&ru2[0].Utime) TimeValSub(&ru1[0].Stime,&ru2[0].Stime) TimeValSub(&ru1[1].Utime,&ru2[1].Utime) TimeValSub(&ru1[1].Stime,&ru2[1].Stime) return ru1 } func TimeValAdd(tv1 syscall.Timeval, tv2 syscall.Timeval)(syscall.Timeval){ tvs := syscall.NsecToTimeval(tv1.Nano() + tv2.Nano()) return tvs } /* func RusageAddv(ru1, ru2 [2]syscall.Rusage)([2]syscall.Rusage){ TimeValAdd(ru1[0].Utime,ru2[0].Utime) TimeValAdd(ru1[0].Stime,ru2[0].Stime) TimeValAdd(ru1[1].Utime,ru2[1].Utime) TimeValAdd(ru1[1].Stime,ru2[1].Stime) return ru1 } */ // Resource Usage func sRusagef(fmtspec string, argv []string, ru [2]syscall.Rusage)(string){ // ru[0] self , ru[1] children ut := TimeValAdd(ru[0].Utime,ru[1].Utime) st := TimeValAdd(ru[0].Stime,ru[1].Stime) uu := (ut.Sec*1000000 + int64(ut.Usec)) * 1000 su := (st.Sec*1000000 + int64(st.Usec)) * 1000 tu := uu + su ret := fmt.Sprintf(“%v/sum”,abbtime(tu)) ret += fmt.Sprintf(“, %v/usr”,abbtime(uu)) ret += fmt.Sprintf(“, %v/sys”,abbtime(su)) return ret } func Rusagef(fmtspec string, argv []string, ru [2]syscall.Rusage)(string){ ut := TimeValAdd(ru[0].Utime,ru[1].Utime) st := TimeValAdd(ru[0].Stime,ru[1].Stime) fmt.Printf(“%d.%06ds/u “,ut.Sec,ut.Usec) //ru[1].Utime.Sec,ru[1].Utime.Usec) fmt.Printf(“%d.%06ds/s “,st.Sec,st.Usec) //ru[1].Stime.Sec,ru[1].Stime.Usec) return “” } func Getrusagev()([2]syscall.Rusage){ var ruv = [2]syscall.Rusage{} syscall.Getrusage(syscall.RUSAGE_SELF,&ruv[0]) syscall.Getrusage(syscall.RUSAGE_CHILDREN,&ruv[1]) return ruv } func showRusage(what string,argv []string, ru *syscall.Rusage){ fmt.Printf(“%s: “,what); fmt.Printf(“Usr=%d.%06ds”,ru.Utime.Sec,ru.Utime.Usec) fmt.Printf(” Sys=%d.%06ds”,ru.Stime.Sec,ru.Stime.Usec) fmt.Printf(” Rss=%vB”,ru.Maxrss) if isin(“-l”,argv) { fmt.Printf(” MinFlt=%v”,ru.Minflt) fmt.Printf(” MajFlt=%v”,ru.Majflt) fmt.Printf(” IxRSS=%vB”,ru.Ixrss) fmt.Printf(” IdRSS=%vB”,ru.Idrss) fmt.Printf(” Nswap=%vB”,ru.Nswap) fmt.Printf(” Read=%v”,ru.Inblock) fmt.Printf(” Write=%v”,ru.Oublock) } fmt.Printf(” Snd=%v”,ru.Msgsnd) fmt.Printf(” Rcv=%v”,ru.Msgrcv) //if isin(“-l”,argv) { fmt.Printf(” Sig=%v”,ru.Nsignals) //} fmt.Printf(“\n”); } func (gshCtx *GshContext)xTime(argv[]string)(bool){ if 2 <= len(argv){ gshCtx.LastRusage = syscall.Rusage{} rusagev1 := Getrusagev() fin := gshCtx.gshellv(argv[1:]) rusagev2 := Getrusagev() showRusage(argv[1],argv,&gshCtx.LastRusage) rusagev := RusageSubv(rusagev2,rusagev1) showRusage("self",argv,&rusagev[0]) showRusage("chld",argv,&rusagev[1]) return fin }else{ rusage:= syscall.Rusage {} syscall.Getrusage(syscall.RUSAGE_SELF,&rusage) showRusage("self",argv, &rusage) syscall.Getrusage(syscall.RUSAGE_CHILDREN,&rusage) showRusage("chld",argv, &rusage) return false } } func (gshCtx *GshContext)xJobs(argv[]string){ fmt.Printf("%d Jobs\n",len(gshCtx.BackGroundJobs)) for ji, pid := range gshCtx.BackGroundJobs { //wstat := syscall.WaitStatus {0} rusage := syscall.Rusage {} //wpid, err := syscall.Wait4(pid,&wstat,syscall.WNOHANG,&rusage); wpid, err := syscall.Wait4(pid,nil,syscall.WNOHANG,&rusage); if err != nil { fmt.Printf("--E-- %%%d [%d] (%v)\n",ji,pid,err) }else{ fmt.Printf("%%%d[%d](%d)\n",ji,pid,wpid) showRusage("chld",argv,&rusage) } } } func (gsh*GshContext)inBackground(argv[]string)(bool){ if gsh.CmdTrace { fmt.Printf("--I-- inBackground(%v)\n",argv) } gsh.BackGround = true // set background option xfin := false xfin = gsh.gshellv(argv) gsh.BackGround = false return xfin } // -o file without command means just opening it and refer by #N // should be listed by "files" comnmand func (gshCtx*GshContext)xOpen(argv[]string){ var pv = []int{-1,-1} err := syscall.Pipe(pv) fmt.Printf("--I-- pipe()=[#%d,#%d](%v)\n",pv[0],pv[1],err) } func (gshCtx*GshContext)fromPipe(argv[]string){ } func (gshCtx*GshContext)xClose(argv[]string){ } // redirect func (gshCtx*GshContext)redirect(argv[]string)(bool){ if len(argv) < 2 { return false } cmd := argv[0] fname := argv[1] var file *os.File = nil fdix := 0 mode := os.O_RDONLY switch { case cmd == "-i" || cmd == "<": fdix = 0 mode = os.O_RDONLY case cmd == "-o" || cmd == ">“: fdix = 1 mode = os.O_RDWR | os.O_CREATE case cmd == “-a” || cmd == “>>”: fdix = 1 mode = os.O_RDWR | os.O_CREATE | os.O_APPEND } if fname[0] == ‘#’ { fd, err := strconv.Atoi(fname[1:]) if err != nil { fmt.Printf(“–E– (%v)\n”,err) return false } file = os.NewFile(uintptr(fd),”MaybePipe”) }else{ xfile, err := os.OpenFile(argv[1], mode, 0600) if err != nil { fmt.Printf(“–E– (%s)\n”,err) return false } file = xfile } gshPA := gshCtx.gshPA savfd := gshPA.Files[fdix] gshPA.Files[fdix] = file.Fd() fmt.Printf(“–I– Opened [%d] %s\n”,file.Fd(),argv[1]) gshCtx.gshellv(argv[2:]) gshPA.Files[fdix] = savfd return false } //fmt.Fprintf(res, “GShell Status: %q”, html.EscapeString(req.URL.Path)) func httpHandler(res http.ResponseWriter, req *http.Request){ path := req.URL.Path fmt.Printf(“–I– Got HTTP Request(%s)\n”,path) { gshCtxBuf, _ := setupGshContext() gshCtx := &gshCtxBuf fmt.Printf(“–I– %s\n”,path[1:]) gshCtx.tgshelll(path[1:]) } fmt.Fprintf(res, “Hello(^-^)/\n%s\n”,path) } func (gshCtx *GshContext) httpServer(argv []string){ http.HandleFunc(“/”, httpHandler) accport := “localhost:9999” fmt.Printf(“–I– HTTP Server Start at [%s]\n”,accport) http.ListenAndServe(accport,nil) } func (gshCtx *GshContext)xGo(argv[]string){ go gshCtx.gshellv(argv[1:]); } func (gshCtx *GshContext) xPs(argv[]string)(){ } // Plugin // plugin [-ls [names]] to list plugins // Reference: plugin source code func (gshCtx *GshContext) whichPlugin(name string,argv[]string)(pi *PluginInfo){ pi = nil for _,p := range gshCtx.PluginFuncs { if p.Name == name && pi == nil { pi = &p } if !isin(“-s”,argv){ //fmt.Printf(“%v %v “,i,p) if isin(“-ls”,argv){ showFileInfo(p.Path,argv) }else{ fmt.Printf(“%s\n”,p.Name) } } } return pi } func (gshCtx *GshContext) xPlugin(argv[]string) (error) { if len(argv) == 0 || argv[0] == “-ls” { gshCtx.whichPlugin(“”,argv) return nil } name := argv[0] Pin := gshCtx.whichPlugin(name,[]string{“-s”}) if Pin != nil { os.Args = argv // should be recovered? Pin.Addr.(func())() return nil } sofile := toFullpath(argv[0] + “.so”) // or find it by which($PATH) p, err := plugin.Open(sofile) if err != nil { fmt.Printf(“–E– plugin.Open(%s)(%v)\n”,sofile,err) return err } fname := “Main” f, err := p.Lookup(fname) if( err != nil ){ fmt.Printf(“–E– plugin.Lookup(%s)(%v)\n”,fname,err) return err } pin := PluginInfo {p,f,name,sofile} gshCtx.PluginFuncs = append(gshCtx.PluginFuncs,pin) fmt.Printf(“–I– added (%d)\n”,len(gshCtx.PluginFuncs)) //fmt.Printf(“–I– first call(%s:%s)%v\n”,sofile,fname,argv) os.Args = argv f.(func())() return err } func (gshCtx*GshContext)Args(argv[]string){ for i,v := range os.Args { fmt.Printf(“[%v] %v\n”,i,v) } } func (gshCtx *GshContext) showVersion(argv[]string){ if isin(“-l”,argv) { fmt.Printf(“%v/%v (%v)”,NAME,VERSION,DATE); }else{ fmt.Printf(“%v”,VERSION); } if isin(“-a”,argv) { fmt.Printf(” %s”,AUTHOR) } if !isin(“-n”,argv) { fmt.Printf(“\n”) } } // Scanf // string decomposer // scanf [format] [input] func scanv(sstr string)(strv[]string){ strv = strings.Split(sstr,” “) return strv } func scanUntil(src,end string)(rstr string,leng int){ idx := strings.Index(src,end) if 0 <= idx { rstr = src[0:idx] return rstr,idx+len(end) } return src,0 } // -bn -- display base-name part only // can be in some %fmt, for sed rewriting func (gsh*GshContext)printVal(fmts string, vstr string, optv[]string){ //vint,err := strconv.Atoi(vstr) var ival int64 = 0 n := 0 err := error(nil) if strBegins(vstr,"_") { vx,_ := strconv.Atoi(vstr[1:]) if vx < len(gsh.iValues) { vstr = gsh.iValues[vx] }else{ } } // should use Eval() if strBegins(vstr,"0x") { n,err = fmt.Sscanf(vstr[2:],"%x",&ival) }else{ n,err = fmt.Sscanf(vstr,"%d",&ival) //fmt.Printf("--D-- n=%d err=(%v) {%s}=%v\n",n,err,vstr, ival) } if n == 1 && err == nil { //fmt.Printf("--D-- formatn(%v) ival(%v)\n",fmts,ival) fmt.Printf("%"+fmts,ival) }else{ if isin("-bn",optv){ fmt.Printf("%"+fmts,filepath.Base(vstr)) }else{ fmt.Printf("%"+fmts,vstr) } } } func (gsh*GshContext)printfv(fmts,div string,argv[]string,optv[]string,list[]string){ //fmt.Printf("{%d}",len(list)) //curfmt := "v" outlen := 0 curfmt := gsh.iFormat if 0 < len(fmts) { for xi := 0; xi < len(fmts); xi++ { fch := fmts[xi] if fch == '%' { if xi+1 < len(fmts) { curfmt = string(fmts[xi+1]) gsh.iFormat = curfmt xi += 1 if xi+1 < len(fmts) && fmts[xi+1] == '(' { vals,leng := scanUntil(fmts[xi+2:],")") //fmt.Printf("--D-- show fmt(%v) val(%v) next(%v)\n",curfmt,vals,leng) gsh.printVal(curfmt,vals,optv) xi += 2+leng-1 outlen += 1 } continue } } if fch == '_' { hi,leng := scanInt(fmts[xi+1:]) if 0 < leng { if hi < len(gsh.iValues) { gsh.printVal(curfmt,gsh.iValues[hi],optv) outlen += 1 // should be the real length }else{ fmt.Printf("((out-range))") } xi += leng continue; } } fmt.Printf("%c",fch) outlen += 1 } }else{ //fmt.Printf("--D-- print {%s}\n") for i,v := range list { if 0 < i { fmt.Printf(div) } gsh.printVal(curfmt,v,optv) outlen += 1 } } if 0 < outlen { fmt.Printf("\n") } } func (gsh*GshContext)Scanv(argv[]string){ //fmt.Printf("--D-- Scanv(%v)\n",argv) if len(argv) == 1 { return } argv = argv[1:] fmts := "" if strBegins(argv[0],"-F") { fmts = argv[0] gsh.iDelimiter = fmts argv = argv[1:] } input := strings.Join(argv," ") if fmts == "" { // simple decomposition v := scanv(input) gsh.iValues = v //fmt.Printf("%v\n",strings.Join(v,",")) }else{ v := make([]string,8) n,err := fmt.Sscanf(input,fmts,&v[0],&v[1],&v[2],&v[3]) fmt.Printf("--D-- Scanf ->(%v) n=%d err=(%v)\n”,v,n,err) gsh.iValues = v } } func (gsh*GshContext)Printv(argv[]string){ if false { //@@U fmt.Printf(“%v\n”,strings.Join(argv[1:],” “)) return } //fmt.Printf(“–D– Printv(%v)\n”,argv) //fmt.Printf(“%v\n”,strings.Join(gsh.iValues,”,”)) div := gsh.iDelimiter fmts := “” argv = argv[1:] if 0 < len(argv) { if strBegins(argv[0],"-F") { div = argv[0][2:] argv = argv[1:] } } optv := []string{} for _,v := range argv { if strBegins(v,"-"){ optv = append(optv,v) argv = argv[1:] }else{ break; } } if 0 < len(argv) { fmts = strings.Join(argv," ") } gsh.printfv(fmts,div,argv,optv,gsh.iValues) } func (gsh*GshContext)Basename(argv[]string){ for i,v := range gsh.iValues { gsh.iValues[i] = filepath.Base(v) } } func (gsh*GshContext)Sortv(argv[]string){ sv := gsh.iValues sort.Slice(sv , func(i,j int) bool { return sv[i] < sv[j] }) } func (gsh*GshContext)Shiftv(argv[]string){ vi := len(gsh.iValues) if 0 < vi { if isin("-r",argv) { top := gsh.iValues[0] gsh.iValues = append(gsh.iValues[1:],top) }else{ gsh.iValues = gsh.iValues[1:] } } } func (gsh*GshContext)Enq(argv[]string){ } func (gsh*GshContext)Deq(argv[]string){ } func (gsh*GshContext)Push(argv[]string){ gsh.iValStack = append(gsh.iValStack,argv[1:]) fmt.Printf("depth=%d\n",len(gsh.iValStack)) } func (gsh*GshContext)Dump(argv[]string){ for i,v := range gsh.iValStack { fmt.Printf("%d %v\n",i,v) } } func (gsh*GshContext)Pop(argv[]string){ depth := len(gsh.iValStack) if 0 < depth { v := gsh.iValStack[depth-1] if isin("-cat",argv){ gsh.iValues = append(gsh.iValues,v...) }else{ gsh.iValues = v } gsh.iValStack = gsh.iValStack[0:depth-1] fmt.Printf("depth=%d %s\n",len(gsh.iValStack),gsh.iValues) }else{ fmt.Printf("depth=%d\n",depth) } } // Command Interpreter func (gshCtx*GshContext)gshellv(argv []string) (fin bool) { fin = false if gshCtx.CmdTrace { fmt.Fprintf(os.Stderr,”–I– gshellv((%d))\n”,len(argv)) } if len(argv) <= 0 { return false } xargv := []string{} for ai := 0; ai < len(argv); ai++ { xargv = append(xargv,strsubst(gshCtx,argv[ai],false)) } argv = xargv if false { for ai := 0; ai < len(argv); ai++ { fmt.Printf("[%d] %s [%d]%T\n", ai,argv[ai],len(argv[ai]),argv[ai]) } } cmd := argv[0] if gshCtx.CmdTrace { fmt.Fprintf(os.Stderr,"--I-- gshellv(%d)%v\n",len(argv),argv) } switch { // https://tour.golang.org/flowcontrol/11 case cmd == "": gshCtx.xPwd([]string{}); // emtpy command case cmd == "-x": gshCtx.CmdTrace = ! gshCtx.CmdTrace case cmd == "-xt": gshCtx.CmdTime = ! gshCtx.CmdTime case cmd == "-ot": gshCtx.sconnect(true, argv) case cmd == "-ou": gshCtx.sconnect(false, argv) case cmd == "-it": gshCtx.saccept(true , argv) case cmd == "-iu": gshCtx.saccept(false, argv) case cmd == "-i" || cmd == "<" || cmd == "-o" || cmd == ">” || cmd == “-a” || cmd == “>>” || cmd == “-s” || cmd == “><": gshCtx.redirect(argv) case cmd == "|": gshCtx.fromPipe(argv) case cmd == "args": gshCtx.Args(argv) case cmd == "bg" || cmd == "-bg": rfin := gshCtx.inBackground(argv[1:]) return rfin case cmd == "-bn": gshCtx.Basename(argv) case cmd == "call": _,_ = gshCtx.excommand(false,argv[1:]) case cmd == "cd" || cmd == "chdir": gshCtx.xChdir(argv); case cmd == "-cksum": gshCtx.xFind(argv) case cmd == "-sum": gshCtx.xFind(argv) case cmd == "close": gshCtx.xClose(argv) case cmd == "gcp": gshCtx.FileCopy(argv) case cmd == "dec" || cmd == "decode": gshCtx.Dec(argv) case cmd == "#define": case cmd == "dic": xDic(argv) case cmd == "dump": gshCtx.Dump(argv) case cmd == "echo": echo(argv,true) case cmd == "enc" || cmd == "encode": gshCtx.Enc(argv) case cmd == "env": env(argv) case cmd == "eval": xEval(argv[1:],true) case cmd == "exec": _,_ = gshCtx.excommand(true,argv[1:]) // should not return here case cmd == "exit" || cmd == "quit": // write Result code EXIT to 3> return true case cmd == “fdls”: // dump the attributes of fds (of other process) case cmd == “-find” || cmd == “fin” || cmd == “ufind” || cmd == “uf”: gshCtx.xFind(argv[1:]) case cmd == “fu”: gshCtx.xFind(argv[1:]) case cmd == “fork”: // mainly for a server case cmd == “-gen”: gshCtx.gen(argv) case cmd == “-go”: gshCtx.xGo(argv) case cmd == “-grep”: gshCtx.xFind(argv) case cmd == “gdeq”: gshCtx.Deq(argv) case cmd == “genq”: gshCtx.Enq(argv) case cmd == “gpop”: gshCtx.Pop(argv) case cmd == “gpush”: gshCtx.Push(argv) case cmd == “history” || cmd == “hi”: // hi should be alias gshCtx.xHistory(argv) case cmd == “jobs”: gshCtx.xJobs(argv) case cmd == “lnsp”: gshCtx.SplitLine(argv) case cmd == “-ls”: gshCtx.xFind(argv) case cmd == “nop”: // do nothing case cmd == “pipe”: gshCtx.xOpen(argv) case cmd == “plug” || cmd == “plugin” || cmd == “pin”: gshCtx.xPlugin(argv[1:]) case cmd == “print” || cmd == “-pr”: // output internal slice // also sprintf should be gshCtx.Printv(argv) case cmd == “ps”: gshCtx.xPs(argv) case cmd == “pstitle”: // to be gsh.title case cmd == “rexecd” || cmd == “rexd”: gshCtx.RexecServer(argv) case cmd == “rexec” || cmd == “rex”: gshCtx.RexecClient(argv) case cmd == “repeat” || cmd == “rep”: // repeat cond command gshCtx.repeat(argv) case cmd == “scan”: // scan input (or so in fscanf) to internal slice (like Files or map) gshCtx.Scanv(argv) case cmd == “set”: // set name … case cmd == “serv”: gshCtx.httpServer(argv) case cmd == “shift”: gshCtx.Shiftv(argv) case cmd == “sleep”: gshCtx.sleep(argv) case cmd == “-sort”: gshCtx.Sortv(argv) case cmd == “j” || cmd == “join”: gshCtx.Rjoin(argv) case cmd == “a” || cmd == “alpa”: gshCtx.Rexec(argv) case cmd == “jcd” || cmd == “jchdir”: gshCtx.Rchdir(argv) case cmd == “jget”: gshCtx.Rget(argv) case cmd == “jls”: gshCtx.Rls(argv) case cmd == “jput”: gshCtx.Rput(argv) case cmd == “jpwd”: gshCtx.Rpwd(argv) case cmd == “time”: fin = gshCtx.xTime(argv) case cmd == “pwd”: gshCtx.xPwd(argv); case cmd == “ver” || cmd == “-ver” || cmd == “version”: gshCtx.showVersion(argv) case cmd == “where”: // data file or so? case cmd == “which”: which(“PATH”,argv); default: if gshCtx.whichPlugin(cmd,[]string{“-s”}) != nil { gshCtx.xPlugin(argv) }else{ notfound,_ := gshCtx.excommand(false,argv) if notfound { fmt.Printf(“–E– command not found (%v)\n”,cmd) } } } return fin } func (gsh*GshContext)gshelll(gline string) (rfin bool) { argv := strings.Split(string(gline),” “) fin := gsh.gshellv(argv) return fin } func (gsh*GshContext)tgshelll(gline string)(xfin bool){ start := time.Now() fin := gsh.gshelll(gline) end := time.Now() elps := end.Sub(start); if gsh.CmdTime { fmt.Printf(“–T– ” + time.Now().Format(time.Stamp) + “(%d.%09ds)\n”, elps/1000000000,elps%1000000000) } return fin } func Ttyid() (int) { fi, err := os.Stdin.Stat() if err != nil { return 0; } //fmt.Printf(“Stdin: %v Dev=%d\n”, // fi.Mode(),fi.Mode()&os.ModeDevice) if (fi.Mode() & os.ModeDevice) != 0 { stat := syscall.Stat_t{}; err := syscall.Fstat(0,&stat) if err != nil { //fmt.Printf(“–I– Stdin: (%v)\n”,err) }else{ //fmt.Printf(“–I– Stdin: rdev=%d %d\n”, // stat.Rdev&0xFF,stat.Rdev); //fmt.Printf(“–I– Stdin: tty%d\n”,stat.Rdev&0xFF); return int(stat.Rdev & 0xFF) } } return 0 } func (gshCtx *GshContext) ttyfile() string { //fmt.Printf(“–I– GSH_HOME=%s\n”,gshCtx.GshHomeDir) ttyfile := gshCtx.GshHomeDir + “/” + “gsh-tty” + fmt.Sprintf(“%02d”,gshCtx.TerminalId) //strconv.Itoa(gshCtx.TerminalId) //fmt.Printf(“–I– ttyfile=%s\n”,ttyfile) return ttyfile } func (gshCtx *GshContext) ttyline()(*os.File){ file, err := os.OpenFile(gshCtx.ttyfile(),os.O_RDWR|os.O_CREATE|os.O_TRUNC,0600) if err != nil { fmt.Printf(“–F– cannot open %s (%s)\n”,gshCtx.ttyfile(),err) return file; } return file } func (gshCtx *GshContext)getline(hix int, skipping bool, prevline string) (string) { if( skipping ){ reader := bufio.NewReaderSize(os.Stdin,LINESIZE) line, _, _ := reader.ReadLine() return string(line) }else if true { return xgetline(hix,prevline,gshCtx) } /* else if( with_exgetline && gshCtx.GetLine != “” ){ //var xhix int64 = int64(hix); // cast newenv := os.Environ() newenv = append(newenv, “GSH_LINENO=”+strconv.FormatInt(int64(hix),10) ) tty := gshCtx.ttyline() tty.WriteString(prevline) Pa := os.ProcAttr { “”, // start dir newenv, //os.Environ(), []*os.File{os.Stdin,os.Stdout,os.Stderr,tty}, nil, } //fmt.Printf(“–I– getline=%s // %s\n”,gsh_getlinev[0],gshCtx.GetLine) proc, err := os.StartProcess(gsh_getlinev[0],[]string{“getline”,”getline”},&Pa) if err != nil { fmt.Printf(“–F– getline process error (%v)\n”,err) // for ; ; { } return “exit (getline program failed)” } //stat, err := proc.Wait() proc.Wait() buff := make([]byte,LINESIZE) count, err := tty.Read(buff) //_, err = tty.Read(buff) //fmt.Printf(“–D– getline (%d)\n”,count) if err != nil { if ! (count == 0) { // && err.String() == “EOF” ) { fmt.Printf(“–E– getline error (%s)\n”,err) } }else{ //fmt.Printf(“–I– getline OK \”%s\”\n”,buff) } tty.Close() gline := string(buff[0:count]) return gline }else */ { // if isatty { fmt.Printf(“!%d”,hix) fmt.Print(PROMPT) // } reader := bufio.NewReaderSize(os.Stdin,LINESIZE) line, _, _ := reader.ReadLine() return string(line) } } //== begin ======================================================= getline /* * getline.c * 2020-0819 extracted from dog.c * getline.go * 2020-0822 ported to Go */ /* package main // getline main import ( “fmt” // fmt “strings” // strings “os” // os “syscall” // syscall //”bytes” // os //”os/exec” // os ) */ // C language compatibility functions var errno = 0 var stdin *os.File = os.Stdin var stdout *os.File = os.Stdout var stderr *os.File = os.Stderr var EOF = -1 var NULL = 0 type FILE os.File type StrBuff []byte var NULL_FP *os.File = nil var NULLSP = 0 //var LINESIZE = 1024 func system(cmdstr string)(int){ PA := syscall.ProcAttr { “”, // the starting directory os.Environ(), []uintptr{os.Stdin.Fd(),os.Stdout.Fd(),os.Stderr.Fd()}, nil, } argv := strings.Split(cmdstr,” “) pid,err := syscall.ForkExec(argv[0],argv,&PA) if( err != nil ){ fmt.Printf(“–E– syscall(%v) err(%v)\n”,cmdstr,err) } syscall.Wait4(pid,nil,0,nil) /* argv := strings.Split(cmdstr,” “) fmt.Fprintf(os.Stderr,”–I– system(%v)\n”,argv) //cmd := exec.Command(argv[0:]…) cmd := exec.Command(argv[0],argv[1],argv[2]) cmd.Stdin = strings.NewReader(“output of system”) var out bytes.Buffer cmd.Stdout = &out var serr bytes.Buffer cmd.Stderr = &serr err := cmd.Run() if err != nil { fmt.Fprintf(os.Stderr,”–E– system(%v)err(%v)\n”,argv,err) fmt.Printf(“ERR:%s\n”,serr.String()) }else{ fmt.Printf(“%s”,out.String()) } */ return 0 } func atoi(str string)(ret int){ ret,err := fmt.Sscanf(str,”%d”,ret) if err == nil { return ret }else{ // should set errno return 0 } } func getenv(name string)(string){ val,got := os.LookupEnv(name) if got { return val }else{ return “?” } } func strcpy(dst StrBuff, src string){ var i int srcb := []byte(src) for i = 0; i < len(src) && srcb[i] != 0; i++ { dst[i] = srcb[i] } dst[i] = 0 } func xstrcpy(dst StrBuff, src StrBuff){ dst = src } func strcat(dst StrBuff, src StrBuff){ dst = append(dst,src...) } func strdup(str StrBuff)(string){ return string(str[0:strlen(str)]) } func sstrlen(str string)(int){ return len(str) } func strlen(str StrBuff)(int){ var i int for i = 0; i < len(str) && str[i] != 0; i++ { } return i } func sizeof(data StrBuff)(int){ return len(data) } func isatty(fd int)(ret int){ return 1 } func fopen(file string,mode string)(fp*os.File){ if mode == "r" { fp,err := os.Open(file) if( err != nil ){ fmt.Printf("--E-- fopen(%s,%s)=(%v)\n",file,mode,err) return NULL_FP; } return fp; }else{ fp,err := os.OpenFile(file,os.O_RDWR|os.O_CREATE|os.O_TRUNC,0600) if( err != nil ){ return NULL_FP; } return fp; } } func fclose(fp*os.File){ fp.Close() } func fflush(fp *os.File)(int){ return 0 } func fgetc(fp*os.File)(int){ var buf [1]byte _,err := fp.Read(buf[0:1]) if( err != nil ){ return EOF; }else{ return int(buf[0]) } } func sfgets(str*string, size int, fp*os.File)(int){ buf := make(StrBuff,size) var ch int var i int for i = 0; i < len(buf)-1; i++ { ch = fgetc(fp) //fprintf(stderr,"--fgets %d/%d %X\n",i,len(buf),ch) if( ch == EOF ){ break; } buf[i] = byte(ch); if( ch == '\n' ){ break; } } buf[i] = 0 //fprintf(stderr,"--fgets %d/%d (%s)\n",i,len(buf),buf[0:i]) return i } func fgets(buf StrBuff, size int, fp*os.File)(int){ var ch int var i int for i = 0; i < len(buf)-1; i++ { ch = fgetc(fp) //fprintf(stderr,"--fgets %d/%d %X\n",i,len(buf),ch) if( ch == EOF ){ break; } buf[i] = byte(ch); if( ch == '\n' ){ break; } } buf[i] = 0 //fprintf(stderr,"--fgets %d/%d (%s)\n",i,len(buf),buf[0:i]) return i } func fputc(ch int , fp*os.File)(int){ var buf [1]byte buf[0] = byte(ch) fp.Write(buf[0:1]) return 0 } func fputs(buf StrBuff, fp*os.File)(int){ fp.Write(buf) return 0 } func xfputss(str string, fp*os.File)(int){ return fputs([]byte(str),fp) } func sscanf(str StrBuff,fmts string, params ...interface{})(int){ fmt.Sscanf(string(str[0:strlen(str)]),fmts,params...) return 0 } func fprintf(fp*os.File,fmts string, params ...interface{})(int){ fmt.Fprintf(fp,fmts,params...) return 0 } // Command Line IME //———————————————————————– MyIME var MyIMEVER = “MyIME/0.0.2”; type RomKana struct { dic string // dictionaly ID pat string // input pattern out string // output pattern hit int64 // count of hit and used } var dicents = 0 var romkana [1024]RomKana var Romkan []RomKana func isinDic(str string)(int){ for i,v := range Romkan { if v.pat == str { return i } } return -1 } const ( DIC_COM_LOAD = “im” DIC_COM_DUMP = “s” DIC_COM_LIST = “ls” DIC_COM_ENA = “en” DIC_COM_DIS = “di” ) func helpDic(argv []string){ out := stderr cmd := “” if 0 < len(argv) { cmd = argv[0] } fprintf(out,"--- %v Usage\n",cmd) fprintf(out,"... Commands\n") fprintf(out,"... %v %-3v [dicName] [dicURL ] -- Import dictionary\n",cmd,DIC_COM_LOAD) fprintf(out,"... %v %-3v [pattern] -- Search in dictionary\n",cmd,DIC_COM_DUMP) fprintf(out,"... %v %-3v [dicName] -- List dictionaries\n",cmd,DIC_COM_LIST) fprintf(out,"... %v %-3v [dicName] -- Disable dictionaries\n",cmd,DIC_COM_DIS) fprintf(out,"... %v %-3v [dicName] -- Enable dictionaries\n",cmd,DIC_COM_ENA) fprintf(out,"... Keys ... %v\n","ESC can be used for '\\'") fprintf(out,"... \\c -- Reverse the case of the last character\n",) fprintf(out,"... \\i -- Replace input with translated text\n",) fprintf(out,"... \\j -- On/Off translation mode\n",) fprintf(out,"... \\l -- Force Lower Case\n",) fprintf(out,"... \\u -- Force Upper Case (software CapsLock)\n",) fprintf(out,"... \\v -- Show translation actions\n",) fprintf(out,"... \\x -- Replace the last input character with it Hexa-Decimal\n",) } func xDic(argv[]string){ if len(argv) <= 1 { helpDic(argv) return } argv = argv[1:] var debug = false var dump = false cmd := argv[0] argv = argv[1:] opt := "" arg := "" if 0 < len(argv) { arg1 := argv[0] if arg1[0] == '-' { switch arg1 { default: fmt.Printf("--Ed-- Unknown option(%v)\n",arg1) return case "-v": debug = true case "-d": debug = true } opt = arg1 argv = argv[1:] } } dicName := "" dicURL := "" if 0 < len(argv) { arg = argv[0] argv = argv[1:] } if false { fprintf(stderr,"--Dd-- com(%v) opt(%v) arg(%v)\n",cmd,opt,arg) } if cmd == DIC_COM_LOAD { switch arg { default: dicName = "WorldDic" dicURL = WorldDic fprintf(stderr,"--Id-- default dictionary \"%v\"\n",dicName); case "jkl": dicName = "JKLJaDic" dicURL = JA_JKLDic } if debug { fprintf(stderr,"--Id-- %v URL=%v\n\n",dicName,dicURL); } dicv := strings.Split(dicURL,",") if debug { fprintf(stderr,"--Id-- %v encoded data...\n",dicName) fprintf(stderr,"Type: %v\n",dicv[0]) fprintf(stderr,"Body: %v\n",dicv[1]) fprintf(stderr,"\n") } body,_ := base64.StdEncoding.DecodeString(dicv[1]) if debug { fprintf(stderr,"--Id-- WorldDic %v text...\n",dicName) fprintf(stderr,"%v\n",string(body)) } entv := strings.Split(string(body),"\n"); fprintf(stderr,"--Id-- %v scan...\n",dicName); var added int = 0 var dup int = 0 for i,v := range entv { var pat string var out string fmt.Sscanf(v,"%s %s",&pat,&out) if len(pat) <= 0 { }else{ if 0 <= isinDic(pat) { dup += 1 continue } romkana[dicents] = RomKana{dicName,pat,out,0} dicents += 1 added += 1 Romkan = append(Romkan,RomKana{dicName,pat,out,0}) if debug { fmt.Printf("[%3v]:[%2v]%-8v [%2v]%v\n", i,len(pat),pat,len(out),out) } } } fprintf(stderr,"--Id-- %v scan... %v added, %v dup. / %v total\n", dicName,added,dup,len(Romkan)); // should sort by pattern length for conclete match, for performance if debug { arg = "" // search pattern dump = true } } if cmd == DIC_COM_DUMP || dump { fprintf(stderr,"--Id-- %v dump... %v entries:\n",dicName,len(Romkan)); var match = 0 for i := 0; i < len(Romkan); i++ { dic := Romkan[i].dic pat := Romkan[i].pat out := Romkan[i].out if arg == "" || 0 <= strings.Index(pat,arg)||0 <= strings.Index(out,arg) { fmt.Printf("\\\\%v\t%v [%2v]%-8v [%2v]%v\n", i,dic,len(pat),pat,len(out),out) match += 1 } } fprintf(stderr,"--Id-- %v matched %v / %v entries:\n",arg,match,len(Romkan)); } } func loadDefaultDic(dic int){ if( 0 < len(Romkan) ){ return } //fprintf(stderr,"\r\n") xDic([]string{"dic",DIC_COM_LOAD}); fprintf(stderr,"--Id-- Conguraturations!! WorldDic is now activated.\r\n") fprintf(stderr,"--Id-- enter \"dic\" command for help.\r\n") } func readDic()(int){ /* var rk *os.File; var dic = "MyIME-dic.txt"; //rk = fopen("romkana.txt","r"); //rk = fopen("JK-JA-morse-dic.txt","r"); rk = fopen(dic,"r"); if( rk == NULL_FP ){ if( true ){ fprintf(stderr,"--%s-- Could not load %s\n",MyIMEVER,dic); } return -1; } if( true ){ var di int; var line = make(StrBuff,1024); var pat string var out string for di = 0; di < 1024; di++ { if( fgets(line,sizeof(line),rk) == NULLSP ){ break; } fmt.Sscanf(string(line[0:strlen(line)]),"%s %s",&pat,&out); //sscanf(line,"%s %[^\r\n]",&pat,&out); romkana[di].pat = pat; romkana[di].out = out; //fprintf(stderr,"--Dd- %-10s %s\n",pat,out) } dicents += di if( false ){ fprintf(stderr,"--%s-- loaded romkana.txt [%d]\n",MyIMEVER,di); for di = 0; di < dicents; di++ { fprintf(stderr, "%s %s\n",romkana[di].pat,romkana[di].out); } } } fclose(rk); //romkana[dicents].pat = "//ddump" //romkana[dicents].pat = "//ddump" // dump the dic. and clean the command input */ return 0; } func matchlen(stri string, pati string)(int){ if strBegins(stri,pati) { return len(pati) }else{ return 0 } } func convs(src string)(string){ var si int; var sx = len(src); var di int; var mi int; var dstb []byte for si = 0; si < sx; { // search max. match from the position if strBegins(src[si:],"%x/") { // %x/integer/ // s/a/b/ ix := strings.Index(src[si+3:],"/") if 0 < ix { var iv int = 0 //fmt.Sscanf(src[si+3:si+3+ix],"%d",&iv) fmt.Sscanf(src[si+3:si+3+ix],"%v",&iv) sval := fmt.Sprintf("%x",iv) bval := []byte(sval) dstb = append(dstb,bval...) si = si+3+ix+1 continue } } if strBegins(src[si:],"%d/") { // %d/integer/ // s/a/b/ ix := strings.Index(src[si+3:],"/") if 0 < ix { var iv int = 0 fmt.Sscanf(src[si+3:si+3+ix],"%v",&iv) sval := fmt.Sprintf("%d",iv) bval := []byte(sval) dstb = append(dstb,bval...) si = si+3+ix+1 continue } } if strBegins(src[si:],"%t") { now := time.Now() if true { date := now.Format(time.Stamp) dstb = append(dstb,[]byte(date)...) si = si+3 } continue } var maxlen int = 0; var len int; mi = -1; for di = 0; di < dicents; di++ { len = matchlen(src[si:],romkana[di].pat); if( maxlen < len ){ maxlen = len; mi = di; } } if( 0 < maxlen ){ out := romkana[mi].out; dstb = append(dstb,[]byte(out)...); si += maxlen; }else{ dstb = append(dstb,src[si]) si += 1; } } return string(dstb) } func trans(src string)(int){ dst := convs(src); xfputss(dst,stderr); return 0; } //------------------------------------------------------------- LINEEDIT // "?" at the top of the line means searching history const ( GO_UP = 201 GO_DOWN = 202 GO_RIGHT = 203 GO_LEFT = 204 DEL_RIGHT= 205 EV_TIMEOUT = 206 ) // should return number of octets ready to be read immediately //fprintf(stderr,"\n--Select(%v %v)\n",err,r.Bits[0]) // syscall.Select // 2020-0827 GShell-0.2.3 func FpollIn1(fp *os.File,usec int)(int){ rdv := syscall.FdSet {} fd := fp.Fd() bank := fd/32 mask := int32(1 << fd) rdv.Bits[bank] = mask t := syscall.NsecToTimeval(int64(usec*1000)) //n,err := syscall.Select(1,&rdv,nil,nil,&t) // spec. mismatch err := syscall.Select(1,&rdv,nil,nil,&t) if err == nil { if (rdv.Bits[bank] & mask) != 0 { return 1 }else{ return 0 } }else{ return -1 } } func fgetcTimeout(fp *os.File,usec int)(int){ ready := FpollIn1(fp,usec) if ready <= 0 { return EV_TIMEOUT } var buf [1]byte _,err := fp.Read(buf[0:1]) if( err != nil ){ return EOF; }else{ return int(buf[0]) } } var TtyMaxCol = 72 var EscTimeout = (100*1000) var ( MODE_ShowMode bool romkanmode bool MODE_CapsLock bool // software CapsLock MODE_LowerLock bool // force lower-case character lock MODE_ViInsert int // visible insert mode, should be like "I" icon in X Window MODE_ViTrace bool // output newline before translation ) type IInput struct { lno int lastlno int pch []int // input queue prompt string line string right string inJmode bool pinJmode bool waitingMeta string // waiting meta character LastCmd string } func (iin*IInput)Getc(timeoutUs int)(int){ ch1 := EOF ch2 := EOF ch3 := EOF if( 0 < len(iin.pch) ){ // deQ ch1 = iin.pch[0] iin.pch = iin.pch[1:] }else{ ch1 = fgetcTimeout(stdin,timeoutUs); } if( ch1 == 033 ){ /// escape sequence ch2 = fgetcTimeout(stdin,EscTimeout); if( ch2 == EV_TIMEOUT ){ }else{ ch3 = fgetcTimeout(stdin,EscTimeout); if( ch3 == EV_TIMEOUT ){ iin.pch = append(iin.pch,ch2) // enQ }else{ switch( ch2 ){ default: iin.pch = append(iin.pch,ch2) // enQ iin.pch = append(iin.pch,ch3) // enQ case '[': switch( ch3 ){ case 'A': ch1 = GO_UP; // ^ case 'B': ch1 = GO_DOWN; // v case 'C': ch1 = GO_RIGHT; // > case ‘D’: ch1 = GO_LEFT; // < case '3': ch4 := fgetcTimeout(stdin,EscTimeout); if( ch4 == '~' ){ //fprintf(stderr,"x[%02X %02X %02X %02X]\n",ch1,ch2,ch3,ch4); ch1 = DEL_RIGHT } } case '\\': //ch4 := fgetcTimeout(stdin,EscTimeout); //fprintf(stderr,"y[%02X %02X %02X %02X]\n",ch1,ch2,ch3,ch4); switch( ch3 ){ case '~': ch1 = DEL_RIGHT } } } } } return ch1 } func (inn*IInput)clearline(){ var i int fprintf(stderr,"\r"); // should be ANSI ESC sequence for i = 0; i < TtyMaxCol; i++ { // to the max. position in this input action fputc(' ',os.Stderr); } fprintf(stderr,"\r"); } func (iin*IInput)Redraw(){ redraw(iin,iin.lno,iin.line,iin.right) } func redraw(iin *IInput,lno int,line string,right string){ inMeta := false showMode := "" showMeta := "" // visible Meta mode on the cursor position showLino := fmt.Sprintf("!%d! ",lno) InsertMark := "" // in visible insert mode if 0 < len(iin.right) { InsertMark = " " } if( 0 < len(iin.waitingMeta) ){ inMeta = true if iin.waitingMeta[0] != 033 { showMeta = iin.waitingMeta } } if( romkanmode ){ //romkanmark = " *"; }else{ //romkanmark = ""; } if MODE_ShowMode { romkan := "--" inmeta := "-" inveri := "" if MODE_CapsLock { inmeta = "A" } if MODE_LowerLock { inmeta = "a" } if MODE_ViTrace { inveri = "v" } if romkanmode { romkan = "\343\201\202" if MODE_CapsLock { inmeta = "R" }else{ inmeta = "r" } } if inMeta { inmeta = "\\" } showMode = "["+romkan+inmeta+inveri+"]"; } Pre := "\r" + showMode + showLino Output := "" Left := "" Right := "" if romkanmode { Left = convs(line) Right = InsertMark+convs(right) }else{ Left = line Right = InsertMark+right } Output = Pre+Left if MODE_ViTrace { Output += iin.LastCmd } Output += showMeta+Right for len(Output) < TtyMaxCol { // to the max. position that may be dirty Output += " " // should be ANSI ESC sequence // not necessary just after newline } Output += Pre+Left+showMeta // to set the cursor to the current input position fprintf(stderr,"%s",Output) if MODE_ViTrace { if 0 < len(iin.LastCmd) { iin.LastCmd = "" fprintf(stderr,"\r\n") } } } func delHeadChar(str string)(rline string,head string){ _,clen := utf8.DecodeRune([]byte(str)) head = string(str[0:clen]) return str[clen:],head } func delTailChar(str string)(rline string, last string){ var i = 0 var clen = 0 for { _,siz := utf8.DecodeRune([]byte(str)[i:]) if siz <= 0 { break } clen = siz i += siz } last = str[len(str)-clen:] return str[0:len(str)-clen],last } // 3> for output and history // 4> for keylog? // Command Line Editor func xgetline(lno int, prevline string, gsh*GshContext)(string){ var iin IInput iin.lastlno = lno iin.lno = lno if( isatty(0) == 0 ){ if( sfgets(&iin.line,LINESIZE,stdin) == NULL ){ iin.line = “exit\n”; }else{ } return iin.line } if( true ){ //var pts string; //pts = ptsname(0); //pts = ttyname(0); //fprintf(stderr,”–pts[0] = %s\n”,pts?pts:”?”); } if( false ){ fprintf(stderr,”! “); fflush(stderr); sfgets(&iin.line,LINESIZE,stdin); return iin.line } system(“/bin/stty -echo -icanon”); xline := iin.xgetline1(prevline,gsh) system(“/bin/stty echo sane”); return xline } func (iin*IInput)Translate(cmdch int){ romkanmode = !romkanmode; if MODE_ViTrace { fprintf(stderr,”%v\r\n”,string(cmdch)); }else if( cmdch == ‘J’ ){ fprintf(stderr,”J\r\n”); iin.inJmode = true } iin.Redraw(); loadDefaultDic(cmdch); iin.Redraw(); } func (iin*IInput)Replace(cmdch int){ iin.LastCmd = fmt.Sprintf(“\\%v”,string(cmdch)) iin.Redraw(); loadDefaultDic(cmdch); dst := convs(iin.line+iin.right); iin.line = dst iin.right = “” if( cmdch == ‘I’ ){ fprintf(stderr,”I\r\n”); iin.inJmode = true } iin.Redraw(); } func (iin*IInput)xgetline1(prevline string, gsh*GshContext)(string){ var ch int; iin.Redraw(); for { iin.pinJmode = iin.inJmode iin.inJmode = false ch = iin.Getc(1000*1000) //fprintf(stderr,”A[%02X]\n”,ch); if( ch == ‘\\’ || ch == 033 ){ MODE_ShowMode = true metach := ch iin.waitingMeta = string(ch) iin.Redraw(); // set cursor //fprintf(stderr,”???\b\b\b”) ch = fgetcTimeout(stdin,2000*1000) // reset cursor iin.waitingMeta = “” cmdch := ch if( ch == EV_TIMEOUT ){ if metach == 033 { continue } ch = metach }else if( ch == ‘j’ || ch == ‘J’ ){ iin.Translate(cmdch); continue }else if( ch == ‘i’ || ch == ‘I’ ){ iin.Replace(cmdch); continue }else if( ch == ‘l’ || ch == ‘L’ ){ MODE_LowerLock = !MODE_LowerLock MODE_CapsLock = false if MODE_ViTrace { fprintf(stderr,”%v\r\n”,string(cmdch)); } iin.Redraw(); continue }else if( ch == ‘u’ || ch == ‘U’ ){ MODE_CapsLock = !MODE_CapsLock MODE_LowerLock = false if MODE_ViTrace { fprintf(stderr,”%v\r\n”,string(cmdch)); } iin.Redraw(); continue }else if( ch == ‘v’ || ch == ‘V’ ){ MODE_ViTrace = !MODE_ViTrace if MODE_ViTrace { fprintf(stderr,”%v\r\n”,string(cmdch)); } iin.Redraw(); continue }else if( ch == ‘c’ || ch == ‘C’ ){ if 0 < len(iin.line) { xline,tail := delTailChar(iin.line) if len([]byte(tail)) == 1 { ch = int(tail[0]) if( 'a' <= ch && ch <= 'z' ){ ch = ch + 'A'-'a' }else if( 'A' <= ch && ch <= 'Z' ){ ch = ch + 'a'-'A' } iin.line = xline + string(ch) } } if MODE_ViTrace { fprintf(stderr,"%v\r\n",string(cmdch)); } iin.Redraw(); continue }else{ iin.pch = append(iin.pch,ch) // push ch = '\\' } } switch( ch ){ case 'P'-0x40: ch = GO_UP case 'N'-0x40: ch = GO_DOWN case 'B'-0x40: ch = GO_LEFT case 'F'-0x40: ch = GO_RIGHT } //fprintf(stderr,"B[%02X]\n",ch); switch( ch ){ case 0: continue; case '\t': iin.Replace('j'); continue case 'X'-0x40: iin.Replace('j'); continue case EV_TIMEOUT: iin.Redraw(); if iin.pinJmode { fprintf(stderr,"\\J\r\n") iin.inJmode = true } continue case GO_UP: if iin.lno == 1 { continue } cmd,ok := gsh.cmdStringInHistory(iin.lno-1) if ok { iin.line = cmd iin.right = "" iin.lno = iin.lno - 1 } iin.Redraw(); continue case GO_DOWN: cmd,ok := gsh.cmdStringInHistory(iin.lno+1) if ok { iin.line = cmd iin.right = "" iin.lno = iin.lno + 1 }else{ iin.line = "" iin.right = "" if iin.lno == iin.lastlno-1 { iin.lno = iin.lno + 1 } } iin.Redraw(); continue case GO_LEFT: if 0 < len(iin.line) { xline,tail := delTailChar(iin.line) iin.line = xline iin.right = tail + iin.right } iin.Redraw(); continue; case GO_RIGHT: if( 0 < len(iin.right) && iin.right[0] != 0 ){ xright,head := delHeadChar(iin.right) iin.right = xright iin.line += head } iin.Redraw(); continue; case EOF: goto EXIT; case 'R'-0x40: // replace dst := convs(iin.line+iin.right); iin.line = dst iin.right = "" iin.Redraw(); continue; case 'T'-0x40: // just show the result readDic(); romkanmode = !romkanmode; iin.Redraw(); continue; case 'L'-0x40: iin.Redraw(); continue case 'K'-0x40: iin.right = "" iin.Redraw(); continue case 'E'-0x40: iin.line += iin.right iin.right = "" iin.Redraw(); continue case 'A'-0x40: iin.right = iin.line + iin.right iin.line = "" iin.Redraw(); continue case 'U'-0x40: iin.line = "" iin.right = "" iin.clearline(); iin.Redraw(); continue; case DEL_RIGHT: if( 0 < len(iin.right) ){ iin.right,_ = delHeadChar(iin.right) iin.Redraw(); } continue; case 0x7F: // BS? not DEL if( 0 < len(iin.line) ){ iin.line,_ = delTailChar(iin.line) iin.Redraw(); } /* else if( 0 < len(iin.right) ){ iin.right,_ = delHeadChar(iin.right) iin.Redraw(); } */ continue; case 'H'-0x40: if( 0 < len(iin.line) ){ iin.line,_ = delTailChar(iin.line) iin.Redraw(); } continue; } if( ch == '\n' || ch == '\r' ){ iin.line += iin.right; iin.right = "" iin.Redraw(); fputc(ch,stderr); break; } if MODE_CapsLock { if 'a' <= ch && ch <= 'z' { ch = ch+'A'-'a' } } if MODE_LowerLock { if 'A' <= ch && ch <= 'Z' { ch = ch+'a'-'A' } } iin.line += string(ch); iin.Redraw(); } EXIT: return iin.line + iin.right; } func getline_main(){ line := xgetline(0,"",nil) fprintf(stderr,"%s\n",line); /* dp = strpbrk(line,"\r\n"); if( dp != NULL ){ *dp = 0; } if( 0 ){ fprintf(stderr,"\n(%d)\n",int(strlen(line))); } if( lseek(3,0,0) == 0 ){ if( romkanmode ){ var buf [8*1024]byte; convs(line,buff); strcpy(line,buff); } write(3,line,strlen(line)); ftruncate(3,lseek(3,0,SEEK_CUR)); //fprintf(stderr,"outsize=%d\n",(int)lseek(3,0,SEEK_END)); lseek(3,0,SEEK_SET); close(3); }else{ fprintf(stderr,"\r\ngotline: "); trans(line); //printf("%s\n",line); printf("\n"); } */ } //== end ========================================================= getline // // $USERHOME/.gsh/ // gsh-rc.txt, or gsh-configure.txt // gsh-history.txt // gsh-aliases.txt // should be conditional? // func (gshCtx *GshContext)gshSetupHomedir()(bool) { homedir,found := userHomeDir() if !found { fmt.Printf("--E-- You have no UserHomeDir\n") return true } gshhome := homedir + "/" + GSH_HOME _, err2 := os.Stat(gshhome) if err2 != nil { err3 := os.Mkdir(gshhome,0700) if err3 != nil { fmt.Printf("--E-- Could not Create %s (%s)\n", gshhome,err3) return true } fmt.Printf("--I-- Created %s\n",gshhome) } gshCtx.GshHomeDir = gshhome return false } func setupGshContext()(GshContext,bool){ gshPA := syscall.ProcAttr { "", // the staring directory os.Environ(), // environ[] []uintptr{os.Stdin.Fd(),os.Stdout.Fd(),os.Stderr.Fd()}, nil, // OS specific } cwd, _ := os.Getwd() gshCtx := GshContext { cwd, // StartDir "", // GetLine []GChdirHistory { {cwd,time.Now(),0} }, // ChdirHistory gshPA, []GCommandHistory{}, //something for invokation? GCommandHistory{}, // CmdCurrent false, []int{}, syscall.Rusage{}, "", // GshHomeDir Ttyid(), false, false, []PluginInfo{}, []string{}, " ", "v", ValueStack{}, GServer{"",""}, // LastServer "", // RSERV cwd, // RWD CheckSum{}, } err := gshCtx.gshSetupHomedir() return gshCtx, err } func (gsh*GshContext)gshelllh(gline string)(bool){ ghist := gsh.CmdCurrent ghist.WorkDir,_ = os.Getwd() ghist.WorkDirX = len(gsh.ChdirHistory)-1 //fmt.Printf("--D--ChdirHistory(@%d)\n",len(gsh.ChdirHistory)) ghist.StartAt = time.Now() rusagev1 := Getrusagev() gsh.CmdCurrent.FoundFile = []string{} fin := gsh.tgshelll(gline) rusagev2 := Getrusagev() ghist.Rusagev = RusageSubv(rusagev2,rusagev1) ghist.EndAt = time.Now() ghist.CmdLine = gline ghist.FoundFile = gsh.CmdCurrent.FoundFile /* record it but not show in list by default if len(gline) == 0 { continue } if gline == "hi" || gline == "history" { // don't record it continue } */ gsh.CommandHistory = append(gsh.CommandHistory, ghist) return fin } // Main loop func script(gshCtxGiven *GshContext) (_ GshContext) { gshCtxBuf,err0 := setupGshContext() if err0 { return gshCtxBuf; } gshCtx := &gshCtxBuf //fmt.Printf(“–I– GSH_HOME=%s\n”,gshCtx.GshHomeDir) //resmap() /* if false { gsh_getlinev, with_exgetline := which(“PATH”,[]string{“which”,”gsh-getline”,”-s”}) if with_exgetline { gsh_getlinev[0] = toFullpath(gsh_getlinev[0]) gshCtx.GetLine = toFullpath(gsh_getlinev[0]) }else{ fmt.Printf(“–W– No gsh-getline found. Using internal getline.\n”); } } */ ghist0 := gshCtx.CmdCurrent // something special, or gshrc script, or permanent history gshCtx.CommandHistory = append(gshCtx.CommandHistory,ghist0) prevline := “” skipping := false for hix := len(gshCtx.CommandHistory); ; { gline := gshCtx.getline(hix,skipping,prevline) if skipping { if strings.Index(gline,”fi”) == 0 { fmt.Printf(“fi\n”); skipping = false; }else{ //fmt.Printf(“%s\n”,gline); } continue } if strings.Index(gline,”if”) == 0 { //fmt.Printf(“–D– if start: %s\n”,gline); skipping = true; continue } if false { os.Stdout.Write([]byte(“gotline:”)) os.Stdout.Write([]byte(gline)) os.Stdout.Write([]byte(“\n”)) } gline = strsubst(gshCtx,gline,true) if false { fmt.Printf(“fmt.Printf %%v – %v\n”,gline) fmt.Printf(“fmt.Printf %%s – %s\n”,gline) fmt.Printf(“fmt.Printf %%x – %s\n”,gline) fmt.Printf(“fmt.Printf %%U – %s\n”,gline) fmt.Printf(“Stouut.Write -“) os.Stdout.Write([]byte(gline)) fmt.Printf(“\n”) } /* // should be cared in substitution ? if 0 < len(gline) && gline[0] == '!' { xgline, set, err := searchHistory(gshCtx,gline) if err { continue } if set { // set the line in command line editor } gline = xgline } */ fin := gshCtx.gshelllh(gline) if fin { break; } prevline = gline; hix++; } return *gshCtx } func main() { gshCtxBuf := GshContext{} gsh := &gshCtxBuf argv := os.Args if 1 < len(argv) { if isin("version",argv){ gsh.showVersion(argv) return } comx := isinX("-c",argv) if 0 < comx { gshCtxBuf,err := setupGshContext() gsh := &gshCtxBuf if !err { gsh.gshellv(argv[comx+1:]) } return } } if 1 < len(argv) && isin("-s",argv) { }else{ gsh.showVersion(append(argv,[]string{"-l","-a"}...)) } script(nil) //gshCtx := script(nil) //gshelll(gshCtx,"time") } //
//
Consideration
// – inter gsh communication, possibly running in remote hosts — to be remote shell // – merged histories of multiple parallel gsh sessions // – alias as a function or macro // – instant alias end environ export to the permanent > ~/.gsh/gsh-alias and gsh-environ // – retrieval PATH of files by its type // – gsh as an IME with completion using history and file names as dictionaies // – gsh a scheduler in precise time of within a millisecond // – all commands have its subucomand after “—” symbol // – filename expansion by “-find” command // – history of ext code and output of each commoand // – “script” output for each command by pty-tee or telnet-tee // – $BUILTIN command in PATH to show the priority // – “?” symbol in the command (not as in arguments) shows help request // – searching command with wild card like: which ssh-* // – longformat prompt after long idle time (should dismiss by BS) // – customizing by building plugin and dynamically linking it // – generating syntactic element like “if” by macro expansion (like CPP) >> alias // – “!” symbol should be used for negation, don’t wast it just for job control // – don’t put too long output to tty, record it into GSH_HOME/session-id/comand-id.log // – making canonical form of command at the start adding quatation or white spaces // – name(a,b,c) … use “(” and “)” to show both delimiter and realm // – name? or name! might be useful // – htar format – packing directory contents into a single html file using data scheme // – filepath substitution shold be done by each command, expecially in case of builtins // – @N substition for the history of working directory, and @spec for more generic ones // – @dir prefix to do the command at there, that means like (chdir @dir; command) // – GSH_PATH for plugins // – standard command output: list of data with name, size, resouce usage, modified time // – generic sort key option -nm name, -sz size, -ru rusage, -ts start-time, -tm mod-time // -wc word-count, grep match line count, … // – standard command execution result: a list of string, -tm, -ts, -ru, -sz, … // – -tailf-filename like tail -f filename, repeat close and open before read // – max. size and max. duration and timeout of (generated) data transfer // – auto. numbering, aliasing, IME completion of file name (especially rm of quieer name) // – IME “?” at the top of the command line means searching history // – IME %d/0x10000/ %x/ffff/ // – IME ESC to go the edit mode like in vi, and use :command as :s/x/y/g to edit history // – gsh in WebAssembly // – gsh as a HTTP server of online-manual //—END— (^-^)/ITS more
// var WorldDic = // “data:text/dic;base64,”+ “Ly8gTXlJTUUvMC4wLjEg6L6e5pu4ICgyMDIwLTA4MTlhKQpzZWthaSDkuJbnlYwKa28g44GT”+ “Cm5uIOOCkwpuaSDjgasKY2hpIOOBoQp0aSDjgaEKaGEg44GvCnNlIOOBmwprYSDjgYsKaSDj”+ “gYQK”; // var JA_JKLDic = // “data:text/dic;base64,”+ “Ly92ZXJsCU15SU1FamRpY2ptb3JzZWpKQWpKS0woMjAyMGowODE5KSheLV4pL1NhdG94SVRT”+ “CmtqamprbGtqa2tsa2psIOS4lueVjApqamtqamwJ44GCCmtqbAnjgYQKa2tqbAnjgYYKamtq”+ “amwJ44GICmtqa2trbAnjgYoKa2pra2wJ44GLCmpramtrbAnjgY0Ka2tramwJ44GPCmpramps”+ “CeOBkQpqampqbAnjgZMKamtqa2psCeOBlQpqamtqa2wJ44GXCmpqamtqbAnjgZkKa2pqamts”+ “CeOBmwpqamprbAnjgZ0KamtsCeOBnwpra2prbAnjgaEKa2pqa2wJ44GkCmtqa2pqbAnjgaYK”+ “a2tqa2tsCeOBqApramtsCeOBqgpqa2prbAnjgasKa2tra2wJ44GsCmpqa2psCeOBrQpra2pq”+ “bAnjga4Kamtra2wJ44GvCmpqa2tqbAnjgbIKampra2wJ44G1CmtsCeOBuApqa2tsCeOBuwpq”+ “a2tqbAnjgb4Ka2tqa2psCeOBvwpqbAnjgoAKamtra2psCeOCgQpqa2tqa2wJ44KCCmtqamwJ”+ “44KECmpra2pqbAnjgoYKampsCeOCiApra2tsCeOCiQpqamtsCeOCigpqa2pqa2wJ44KLCmpq”+ “amwJ44KMCmtqa2psCeOCjQpqa2psCeOCjwpramtramwJ44KQCmtqamtrbAnjgpEKa2pqamwJ”+ “44KSCmtqa2prbAnjgpMKa2pqa2psCeODvApra2wJ44KbCmtramprbAnjgpwKa2pramtqbAnj”+ “gIEK”; // // /*
References
*/ /*
Total Source of GShell

The full of this HTML including the Go code is here.

Whole file
CSS part
JavaScript part
Builtin data part
*/ /* –> *///

祝40000カウント

基盤:ふとみると、カウンターが40000に近づいてきました。

基盤:お祝いしてあげないと40000が可哀そうなような気がします。

社長:そうですか… わたしは今とても面白い仕事中なんですが…

開発:まあ、10000カウントごとに、この部分の表示を見直すのも良いかもと思うんです。流石にGMT表示では何なので、現地、日本時間にしようかと思います。えーと、祝30000カウントの時に何をやったかといいますと…

開発:ああ、functions.php に xDate() という関数を突っ込んで、これを WordPress からショートカットで呼んでるわけですね。

開発:これの strftime を呼ぶ前にロケールの設定をすれば良いのかな?

基盤:セミコロン一つ抜けて「サイトに重大なエラー」というのがシャレてますね。

開発:Goのせいでセミコロンを打たなくなってしまった影響がこんなところにもw

社長:その昔宇宙計画で、セミコロンのせいでロケットが落ちたっていう逸話がありましたね。

開発:setlocale 効かないですね。これは表示言語を切り替えるだけの機能なのかな? localtimeを strftime に食わせてみるとどうですかね。

開発:そうですか… どうもこの、与えた時間の値を指定したタイムゾーン用に表示してねって機能というかパラメータが無いのがとても不思議ですね。

社長:まあ、与える時間を時間帯ぶん足しひきして食わせてやればいいだけですけどね。わたしがDeleGateを作ったころはそんなふうにしてましたが。

開発:strftime はあくまでもデフォルトのタイムゾーンで表示する気しかなくて、ローカルタイムのタイムゾーンは引数じゃなくて環境で与える、って感じですかね。このサーバというかPHPのデフォルトタイムゾーンは東京にセットされてるんだと思ってたので、strftimeはデフォルトでGMTで出すのかと勘違いしてました。… %Z を表示。

基盤:UTC になってますね。

開発:そうですか。ではデフォルトを Asia/Tokyo に設定して。クリック。

基盤:出ました。

開発:ついでに %W で曜日も出しましょうか…

開発:意味がわからない。ロケール指定が効いてないんですかね… まあこれは次回50000回の時に検討しましょう。functions.phpの記念写真をパシャ。

社長:わたしはここに、リロードというかリフレッシュボタンがほしいですね。特にスマホで見る時に。

開発:えーと、この関数を参照してる側がどうなっていたかといいますと…

基盤:前回、なんで「テキスト」ってウィジェット名なんだって盛り上がったところですね。

開発:ここにHTML書けるんでしたっけね…

基盤:だめですね。

開発:あれれ?でも、本文の中のショートコードブロックではこう書けますけどね。

here

社長:とりあえずそれをエコーするショートコードを書いてやり過ごしては。ショートカットにワークアラウンドw

開発:そうしますか。どうぜなら JavaScript で書きますかね。onclick=location.refload() だけでOK。いい感じですね。スマホではどうか… あれえ、表示している場所を維持して紅ですね。てことで #label 作戦… うーん、なんとかなるようなら、ずれるような…

基盤:とりあえず2つとも貼っとけばよいのでは。

開発:そうしますか…

社長:だいたい良いと思いますが、カウンターの数字はもうちょっと大きくても良いかもですね。バランス的に。

開発:うーん、どこで調整するんでしょうかね。height?ソースはどうなっているかというと…

開発:わたしはこの、生成したコードの適切な切れ目に改行を入れない流儀を見ているとめまいというか、もっと言えば吐き気がするんですよね… まあ要するに adswc_countertext のフォントサイズをでかくしてやれば良いと。WordPress に CSSを追加…

基盤:でかっ!

開発:まあテストですから。20pt くらいが妥当ですかね。色も当社カラーの #4169e1 にしてみる。。

社長:黒の方が渋くて良いようにも思いますが… しばらくこれで行きますか。あと、ブラウザによってフォントが違ったりするので、明示指定したいですね。少なくともボールドにはなってほしい。Operaでは痩せている。

開発:ちょっとフォント選びには時間がかかると思いますから、とりあえずボールドを添加。Operaでも太字になりました。

社長:大変結構ですね。今回の改訂はこんなところで良いかと思います。

基盤:定期自動リフレッシュスイッチも付けちゃうとか。

開発:付けるとしたら回数制限か時間制限しないとですね。その情報をどこに保持するか。URLの中だとうざいし、Cookieだと別の意味で煩わしいと思います。

社長:自動リフレッシュはふつうユーザの明示的な関与というか選択ありますね。なら、カウンターの表示形式も、もっと言えばページの配色とかフォントとか、サイトのフレーム構成も、ユーザの好みにあうように選択できるのが良いかなと思いますね。

開発:Client-side CSS とか流行らないのが不思議です。まあサーバ側のこう見せたいという方針もあるでしょうけど。CSS的には、@俺好みルール的なのが出来ていくとよいのかなと思いますが。

基盤:今回はこのような記念写真のフレームで行きたいと思います。

社長:Vivaldiの黒枠とコンテンツの青が良いバランスだと思います。

基盤:このリフレッシュボタンはなかなか良いと思います。更新してみたい情報の近くに更新ボタンがある。しかもワンクリック。あ、ボタンの形状だともっと良いかも。

社長:カウンターの値自体を更新ボタンにすれば良いかもですね。

開発:そのへん、テキストウィジェットの中でHTMLが書ければ簡単なのですが、書けないとするとめんどくさいですね。

社長:そもそもカウンターの表示形式自体が、HTMLテンプレートで定義できるようになってれば良いのだと思います。インラインCSSも使って。なんならJavaScriptも投入して。

開発:まあ、カウンターもいずれ自作したい小物ではあります。

基盤:それにしてもこのカウンター、何のカウントなんでしょうね?

開発:そのへん、なかなか追いかけてる暇が無いです。謎でいいんじゃないですかねw

社長:このカウンターのおかげてキリ番ごとに面白い勉強をさせてもらってます。

開発:案外こういうシンプルなアプリというか、ミニマムなアプレットにGShellのヒントが隠れてるのかもですね。

社長:それにしても、このカウンターの画像表示モードの画像データが data URI なのには驚きました。

開発:あれは、GShell に対する大きな刺激になったと思います。

基盤:ただ、カウンターの数値は機械可読なテキストであって欲しいですよね。

社長:ですが recaptcha系の松前漬け表示も面白いと思います。

開発:面白い表示をしようとすると昔はサーバ側で画像を生成してやるしか無かったわけですが、今ならCSSとJavaScriptで作るという事もできますよね。カウンターの数値データは普通にテキストなんだけれど、それをJavaScriptで読んで画像を生成してエレメントを置き換える。背景画像で良いと思います。

経理:そういえばDeleGateのカウンターサーバ費用、月900円をなんとかすべきではないかと思います。

社長:WakWakの会員IDとパスワードを回復しないと… というかあれ、もう20年も同じカウンターを使ってきたわけで、あれが連続アクセスをどうカウントから外しているのか方式を知らないと、カウンターを代えるとそれ以前と統計が変わっちゃうわけです。

開発:でもあのカウンターの値って気に止めたこと無いですよねw どういう経過だったを記録にも残していない。魚拓をとって切り替えてしまえばよいのでは。

基盤:そういえばAzureの塩漬けサーバも、ディスク代が毎日20円かかってます。あれもどう処遇すべきか。

経理:経費の面では、携帯代とケーブルテレビ代が削り代が大きいと思います。

社長:ああそれで、Android の端末だけ買おうかなって思うんです。WiFiだけで使う。

開発:それにしてもこの、カウンターのリフレッシュでサイドバー内の #label に飛ぶのは、ちょっとおもしろいかも知れないですね。サイドバーの中に飛ぶというのが。それに、ページ内の移動に #label をもっと全般に活用するといいんじゃないかと思うんです。

社長:昔は普通でしたけどね。最近は絶滅してしまったような。

基盤:この祭りもあと一時間以内と思います。

社長:それで、このお祭りのために中断してしまったのですが、それまでちょっとかなり面白い作業をしてたんです。わたしはGShellのHTMLというかJavaScript部分は、遊びようによってはかなり面白いと思います。

開発:まあUIの部分はおまかせします。

社長:UIというか、つまり window というのはそれぞれプロセスなので、プロセスのforkとjoinを、ブラウザのwindowという形で見える化して使うと面白いと思うわけです。fork の方向はだいたい出来ましたので、join する方向で何ができるかお楽しみというところです。

開発:まあshellと同じで、forkの世話はするけれど、生んだら切り離して後は知らないって使い方が多いですからね。

社長:で、window の生成関係で並列処理の全体構造を作って、各windowに extension で Goをくっつけるとかできると良いかなと。

開発:まあ特にGoにこだわる必要は無いかもですけど。

社長:そうですね… 要するに、OS上のプロセスが皆、ブラウザ上に対応する window を持つって感じかなと思うんです。ブラウザ上のウィンドウのプロセスと1対1のペアになるというか。たとえば、ps とかなんかをブラウザでビジュアルにやるとか。

基盤:find から起動する grep とか、いちいち window にしてられないですよね。

社長:まあそれはそうですね… 全体のワークフローの節目みたいなプロセスですかね。あるいは、ターミナルプロセスは対応するブラウザウィンドウを持っても良い。

開発:もちろんGShellプロセスもですね。これは複数を連携させるとしたら、ビジュアルに制御したい。あるいはリモートのGShellについても。ローカルなプロセスだけでは無いですね。

社長:それで、回復機能があるとは言え、ブラウザのウィンドウはサクッと消されてしまうので、そのあたりをどうするかなと。

開発:自律的にプロセス階層情報とかからウィンドウ階層を再構成するようにしておけばいいんじゃないですかね。なんにしろ、どういう形で何ができるのかもやっとしてますが、なんか面白そうだとは思います。

基盤:プロセスというか、もっと単純に、ファイルのディレクトごとに一ウィンドウっていうのが便利な気がします。ディレクトリを映るごとに、対応するウィンドウに focus を移す。ふFinderの「新しいウィンドウで開く」とかかったるいんですよね。

社長:Finder代わりのウィンドウですか… file URL とのからみでもありますね。

基盤:あと3カウントまで来ました。

開発:ここからが長かったり一瞬だったりするんですよね。

基盤:やはりキリ番監視ロボットがほしいですね。ぜひ extension で。定期的に reload して、注目するHTMLエレメントの値がある条件になったら停止する。

社長:ここで Vivaldi が固まったら悲しいですね。

基盤:予備のEdgeが隣に、別室に Chrome も控えていますw

開発:なんかQちゃんがコロコロ言い始めましたね。

社長:キリ番が近くなったらフォントを大きくするとか赤くすると面白いかもですね。警告音を出すとかw

基盤:あと1。

基盤:到達しました。

開発:やれやれ。

社長:どちらかというと、一つ手前のほうが見栄えがしますね。わくわく感があります。

基盤:そういうことで祭りは終了しました。解散。

開発:麦わら帽子の夏休みももうすぐ終わりですね。

社長:わたしは16進表示のカウンターを提案したいです。

開発:4096ごとか 65536カウントごとにお祭りという選択ですね。

社長:うん、次回は 0x10000 カウントを祝うことにしましょう。

基盤:さらば16ビット。

開発:0xC0DE とかもいいかも。

— 2020-0827 SatoxITS

GShell 0.2.2 − 音の出るソースコード

社長:動くソースコードがあるなら、鳴るソースコードも当然あって良いのではないかと思ったんです。

基盤:そいつはエジソンもびっくりですね。

開発:GShell は Go としても JavaScript としても音は出せると思いますが、ディスジョイントですよね。

社長:いや、少なくともデータは共有できると思うんです。Goからは自分を記述しているHTMLが見えない、コメント部分ですからね、のでHTMLで記述するのは難しい。ですので、Goの定数か変数で演奏データを記述して、Goからはそれを使う。JavaScriptからはそのデータを自分を検索して見つけて使う。

開発:JavaScript としては、タグのinnterHTMLとして取り出せるのが望ましいですね。IMEの辞書ファイルを内蔵にしようと思っていたので、それで試してみましょうか。

* * *

基盤:ところで、昨日ライトセール東京でディスクをなめるというのをやってみました。使ったチェックサムは一番軽い -add です。

基盤:ライトセールのディスクは遅いというか、ファイルを開きまくるような処理はかなり重いようです。平均して1382ファイル/秒、転送されるデータの読み出し速度は15MB/s と出ました。

開発:遠隔とUDPを使った高速データ転送すれば 50MB/s出るだけに残念ですね。

* * *

社長:40000カウント祭りで寄り道をしてしまいました。

開発:今日はそろそろ終業ですかね。

社長:若い頃は12時から朝までが一番仕事できたりした事もありますけどね。もうあの頃とは違うという、ある種の固定観念なのか。

開発:まあ、2〜3日寝ずに仕事しても全然平気、返ってもりもりしちゃうような時代でしたからね。徹夜ハイというのはよくありました。

基盤:最近、昼間寝てる時間がすごく長いように思われますが。

社長:連続して数時間寝ることが多いですね。寝たい時には寝たいだけ寝る。

開発:小学生の頃は、夏休みというと円形の活動時間割りみたいのを書かされてましたよね。絵に描いた餅みたいな。

社長:成長期の子供というのは眠い盛りだと思うんですが、朝から学校だからって無理やり起きる時の辛さは今でも覚えています。小中高と遅刻魔でしたね。

開発:よく規則正しい生活をって言われるわけですが、そもそも動物としても人間としても、規則正しい生活というものは良いものなのか、疑問を持っています。寝たい時に寝る、食べたい時に食べる、仕事したいなら嫌になるか眠くなるまでやる。少なくともメンタルには大変健康的です。

基盤:人間の自然な生活リズムでは一日は24時間より長くて、それは昔の一日の長さが長かったからだみたいな話を聞いたことがあります。

開発:それは聞いたことがありますが、地球の自転の速度が変わるほど人類とか動物の歴史は古くないように思うんですが。そもそも自転ってだんだん遅くなってるのでは?

社長:そもそも、たとえばいつ獲物にありつけるかわからない肉食動物とかには無いんじゃないかとも思うんです。

社長:従来的な社会での社会生活に適合するには、規則的でなければいけないというのはあるでしょうね。社会のリズムに合わないと、そのズレを埋めようとして身体にも精神にも無理が生じる。典型的なの不眠症で、あれは時間を規定された生活の中でズレが生じるのが困るから無理に寝ようとする。寝たくもないのに寝ようとするから睡眠の効率も悪い。

開発:まあうちのような就業形態では、不眠症とか起こり得ないですね。眠くなければ寝ずに仕事をしてれば良いこと。

社長:特に対面での同期型のコミュニケーションしか無かった時代には、ヒトと合わせないといけないという制約がありました。ですが、設備を動かして共同作業でモノを生産するような場合には明らかに別ですが、そうでない仕事については時間の縛りなんてとっくに無くなっている業種は多いですよね。

— 2020-0827 SatoxITS

/* GShell-0.2.2 by SatoxITS
GShell version 0.2.2 // 2020-08-26 // SatoxITS

GShell // a General purpose Shell built on the top of Golang

It is a shell for myself, by myself, of myself. –SatoxITS(^-^)

0 | | Fork | Unfold | Stop | */ /*
Overview
To be written
*/ /*
Source Code Index
Implementation Structures import struct Main functions str-expansion // macro processor finder // builtin find + du grep // builtin grep + wc + cksum + … plugin // plugin commands system // external commands builtin // builtin commands network // socket handler remote-sh // remote shell redirect // StdIn/Out redireciton history // command history rusage // resouce usage encode // encode / decode IME // command line IME getline // line editor scanf // string decomposer interpreter // command interpreter main
*/ //
//Source Code
// gsh – Go lang based Shell // (c) 2020 ITS more Co., Ltd. // 2020-0807 created by SatoxITS (sato@its-more.jp) package main // gsh main // Imported packages // Packages import ( “fmt” // fmt “strings” // strings “strconv” // strconv “sort” // sort “time” // time “bufio” // bufio “io/ioutil” // ioutil “os” // os “syscall” // syscall “plugin” // plugin “net” // net “net/http” // http //”html” // html “path/filepath” // filepath “go/types” // types “go/token” // token “encoding/base64” // base64 “unicode/utf8” // utf8 //”gshdata” // gshell’s logo and source code “hash/crc32” // crc32 ) const ( NAME = “gsh” VERSION = “0.2.2” DATE = “2020-08-26” AUTHOR = “SatoxITS(^-^)/” ) var ( GSH_HOME = “.gsh” // under home directory GSH_PORT = 9999 MaxStreamSize = int64(128*1024*1024*1024) // 128GiB is too large? PROMPT = “> ” LINESIZE = (8*1024) PATHSEP = “:” // should be “;” in Windows DIRSEP = “/” // canbe \ in Windows ) // -xX logging control // –A– all // –I– info. // –D– debug // –T– time and resource usage // –W– warning // –E– error // –F– fatal error // –Xn- network // Structures type GCommandHistory struct { StartAt time.Time // command line execution started at EndAt time.Time // command line execution ended at ResCode int // exit code of (external command) CmdError error // error string OutData *os.File // output of the command FoundFile []string // output – result of ufind Rusagev [2]syscall.Rusage // Resource consumption, CPU time or so CmdId int // maybe with identified with arguments or impact // redireciton commands should not be the CmdId WorkDir string // working directory at start WorkDirX int // index in ChdirHistory CmdLine string // command line } type GChdirHistory struct { Dir string MovedAt time.Time CmdIndex int } type CmdMode struct { BackGround bool } type PluginInfo struct { Spec *plugin.Plugin Addr plugin.Symbol Name string // maybe relative Path string // this is in Plugin but hidden } type GServer struct { host string port string } // Digest const ( // SumType SUM_ITEMS = 0x000001 // items count SUM_SIZE = 0x000002 // data length (simplly added) SUM_SIZEHASH = 0x000004 // data length (hashed sequence) SUM_DATEHASH = 0x000008 // date of data (hashed sequence) // also envelope attributes like time stamp can be a part of digest // hashed value of sizes or mod-date of files will be useful to detect changes SUM_WORDS = 0x000010 // word count is a kind of digest SUM_LINES = 0x000020 // line count is a kind of digest SUM_SUM64 = 0x000040 // simple add of bytes, useful for human too SUM_SUM32_BITS = 0x000100 // the number of true bits SUM_SUM32_2BYTE = 0x000200 // 16bits words SUM_SUM32_4BYTE = 0x000400 // 32bits words SUM_SUM32_8BYTE = 0x000800 // 64bits words SUM_SUM16_BSD = 0x001000 // UNIXsum -sum -bsd SUM_SUM16_SYSV = 0x002000 // UNIXsum -sum -sysv SUM_UNIXFILE = 0x004000 SUM_CRCIEEE = 0x008000 ) type CheckSum struct { Files int64 // the number of files (or data) Size int64 // content size Words int64 // word count Lines int64 // line count SumType int Sum64 uint64 Crc32Table crc32.Table Crc32Val uint32 Sum16 int Ctime time.Time Atime time.Time Mtime time.Time Start time.Time Done time.Time RusgAtStart [2]syscall.Rusage RusgAtEnd [2]syscall.Rusage } type ValueStack [][]string type GshContext struct { StartDir string // the current directory at the start GetLine string // gsh-getline command as a input line editor ChdirHistory []GChdirHistory // the 1st entry is wd at the start gshPA syscall.ProcAttr CommandHistory []GCommandHistory CmdCurrent GCommandHistory BackGround bool BackGroundJobs []int LastRusage syscall.Rusage GshHomeDir string TerminalId int CmdTrace bool // should be [map] CmdTime bool // should be [map] PluginFuncs []PluginInfo iValues []string iDelimiter string // field sepearater of print out iFormat string // default print format (of integer) iValStack ValueStack LastServer GServer RSERV string // [gsh://]host[:port] RWD string // remote (target, there) working directory lastCheckSum CheckSum } func nsleep(ns time.Duration){ time.Sleep(ns) } func usleep(ns time.Duration){ nsleep(ns*1000) } func msleep(ns time.Duration){ nsleep(ns*1000000) } func sleep(ns time.Duration){ nsleep(ns*1000000000) } func strBegins(str, pat string)(bool){ if len(pat) <= len(str){ yes := str[0:len(pat)] == pat //fmt.Printf("--D-- strBegins(%v,%v)=%v\n",str,pat,yes) return yes } //fmt.Printf("--D-- strBegins(%v,%v)=%v\n",str,pat,false) return false } func isin(what string, list []string) bool { for _, v := range list { if v == what { return true } } return false } func isinX(what string,list[]string)(int){ for i,v := range list { if v == what { return i } } return -1 } func env(opts []string) { env := os.Environ() if isin("-s", opts){ sort.Slice(env, func(i,j int) bool { return env[i] < env[j] }) } for _, v := range env { fmt.Printf("%v\n",v) } } // - rewriting should be context dependent // - should postpone until the real point of evaluation // - should rewrite only known notation of symobl func scanInt(str string)(val int,leng int){ leng = -1 for i,ch := range str { if '0' <= ch && ch <= '9' { leng = i+1 }else{ break } } if 0 < leng { ival,_ := strconv.Atoi(str[0:leng]) return ival,leng }else{ return 0,0 } } func substHistory(gshCtx *GshContext,str string,i int,rstr string)(leng int,rst string){ if len(str[i+1:]) == 0 { return 0,rstr } hi := 0 histlen := len(gshCtx.CommandHistory) if str[i+1] == '!' { hi = histlen - 1 leng = 1 }else{ hi,leng = scanInt(str[i+1:]) if leng == 0 { return 0,rstr } if hi < 0 { hi = histlen + hi } } if 0 <= hi && hi < histlen { var ext byte if 1 < len(str[i+leng:]) { ext = str[i+leng:][1] } //fmt.Printf("--D-- %v(%c)\n",str[i+leng:],str[i+leng]) if ext == 'f' { leng += 1 xlist := []string{} list := gshCtx.CommandHistory[hi].FoundFile for _,v := range list { //list[i] = escapeWhiteSP(v) xlist = append(xlist,escapeWhiteSP(v)) } //rstr += strings.Join(list," ") rstr += strings.Join(xlist," ") }else if ext == '@' || ext == 'd' { // !N@ .. workdir at the start of the command leng += 1 rstr += gshCtx.CommandHistory[hi].WorkDir }else{ rstr += gshCtx.CommandHistory[hi].CmdLine } }else{ leng = 0 } return leng,rstr } func escapeWhiteSP(str string)(string){ if len(str) == 0 { return "\\z" // empty, to be ignored } rstr := "" for _,ch := range str { switch ch { case '\\': rstr += "\\\\" case ' ': rstr += "\\s" case '\t': rstr += "\\t" case '\r': rstr += "\\r" case '\n': rstr += "\\n" default: rstr += string(ch) } } return rstr } func unescapeWhiteSP(str string)(string){ // strip original escapes rstr := "" for i := 0; i < len(str); i++ { ch := str[i] if ch == '\\' { if i+1 < len(str) { switch str[i+1] { case 'z': continue; } } } rstr += string(ch) } return rstr } func unescapeWhiteSPV(strv []string)([]string){ // strip original escapes ustrv := []string{} for _,v := range strv { ustrv = append(ustrv,unescapeWhiteSP(v)) } return ustrv } // str-expansion // – this should be a macro processor func strsubst(gshCtx *GshContext,str string,histonly bool) string { rbuff := []byte{} if false { //@@U Unicode should be cared as a character return str } //rstr := “” inEsc := 0 // escape characer mode for i := 0; i < len(str); i++ { //fmt.Printf("--D--Subst %v:%v\n",i,str[i:]) ch := str[i] if inEsc == 0 { if ch == '!' { //leng,xrstr := substHistory(gshCtx,str,i,rstr) leng,rs := substHistory(gshCtx,str,i,"") if 0 < leng { //_,rs := substHistory(gshCtx,str,i,"") rbuff = append(rbuff,[]byte(rs)...) i += leng //rstr = xrstr continue } } switch ch { case '\\': inEsc = '\\'; continue //case '%': inEsc = '%'; continue case '$': } } switch inEsc { case '\\': switch ch { case '\\': ch = '\\' case 's': ch = ' ' case 't': ch = '\t' case 'r': ch = '\r' case 'n': ch = '\n' case 'z': inEsc = 0; continue // empty, to be ignored } inEsc = 0 case '%': switch { case ch == '%': ch = '%' case ch == 'T': //rstr = rstr + time.Now().Format(time.Stamp) rs := time.Now().Format(time.Stamp) rbuff = append(rbuff,[]byte(rs)...) inEsc = 0 continue; default: // postpone the interpretation //rstr = rstr + "%" + string(ch) rbuff = append(rbuff,ch) inEsc = 0 continue; } inEsc = 0 } //rstr = rstr + string(ch) rbuff = append(rbuff,ch) } //fmt.Printf("--D--subst(%s)(%s)\n",str,string(rbuff)) return string(rbuff) //return rstr } func showFileInfo(path string, opts []string) { if isin("-l",opts) || isin("-ls",opts) { fi, err := os.Stat(path) if err != nil { fmt.Printf("---------- ((%v))",err) }else{ mod := fi.ModTime() date := mod.Format(time.Stamp) fmt.Printf("%v %8v %s ",fi.Mode(),fi.Size(),date) } } fmt.Printf("%s",path) if isin("-sp",opts) { fmt.Printf(" ") }else if ! isin("-n",opts) { fmt.Printf("\n") } } func userHomeDir()(string,bool){ /* homedir,_ = os.UserHomeDir() // not implemented in older Golang */ homedir,found := os.LookupEnv("HOME") //fmt.Printf("--I-- HOME=%v(%v)\n",homedir,found) if !found { return "/tmp",found } return homedir,found } func toFullpath(path string) (fullpath string) { if path[0] == '/' { return path } pathv := strings.Split(path,DIRSEP) switch { case pathv[0] == ".": pathv[0], _ = os.Getwd() case pathv[0] == "..": // all ones should be interpreted cwd, _ := os.Getwd() ppathv := strings.Split(cwd,DIRSEP) pathv[0] = strings.Join(ppathv,DIRSEP) case pathv[0] == "~": pathv[0],_ = userHomeDir() default: cwd, _ := os.Getwd() pathv[0] = cwd + DIRSEP + pathv[0] } return strings.Join(pathv,DIRSEP) } func IsRegFile(path string)(bool){ fi, err := os.Stat(path) if err == nil { fm := fi.Mode() return fm.IsRegular(); } return false } // Encode / Decode // Encoder func (gshCtx *GshContext)Enc(argv[]string){ file := os.Stdin buff := make([]byte,LINESIZE) li := 0 encoder := base64.NewEncoder(base64.StdEncoding,os.Stdout) for li = 0; ; li++ { count, err := file.Read(buff) if count <= 0 { break } if err != nil { break } encoder.Write(buff[0:count]) } encoder.Close() } func (gshCtx *GshContext)Dec(argv[]string){ decoder := base64.NewDecoder(base64.StdEncoding,os.Stdin) li := 0 buff := make([]byte,LINESIZE) for li = 0; ; li++ { count, err := decoder.Read(buff) if count <= 0 { break } if err != nil { break } os.Stdout.Write(buff[0:count]) } } // lnsp [N] [-crlf][-C \\] func (gshCtx *GshContext)SplitLine(argv[]string){ reader := bufio.NewReaderSize(os.Stdin,64*1024) ni := 0 toi := 0 for ni = 0; ; ni++ { line, err := reader.ReadString('\n') if len(line) <= 0 { if err != nil { fmt.Fprintf(os.Stderr,"--I-- lnsp %d to %d (%v)\n",ni,toi,err) break } } off := 0 ilen := len(line) remlen := len(line) for oi := 0; 0 < remlen; oi++ { olen := remlen addnl := false if 72 < olen { olen = 72 addnl = true } fmt.Fprintf(os.Stderr,"--D-- write %d [%d.%d] %d %d/%d/%d\n", toi,ni,oi,off,olen,remlen,ilen) toi += 1 os.Stdout.Write([]byte(line[0:olen])) if addnl { //os.Stdout.Write([]byte("\r\n")) os.Stdout.Write([]byte("\\")) os.Stdout.Write([]byte("\n")) } line = line[olen:] off += olen remlen -= olen } } fmt.Fprintf(os.Stderr,"--I-- lnsp %d to %d\n",ni,toi) } // CRC32 crc32 // 1 0000 0100 1100 0001 0001 1101 1011 0111 var CRC32UNIX uint32 = uint32(0x04C11DB7) // Unix cksum var CRC32IEEE uint32 = uint32(0xEDB88320) func byteCRC32add(crc uint32,str[]byte,len uint64)(uint32){ var i uint64 for i = 0; i < len; i++ { var oct = str[i] for bi := 0; bi < 8; bi++ { ovf1 := (crc & 0x80000000) != 0 ovf2 := (oct & 0x80) != 0 ovf := (ovf1 && !ovf2) || (!ovf1 && ovf2) oct <<= 1 crc <<= 1 if ovf { crc ^= CRC32UNIX } } } return crc; } func byteCRC32end(crc uint32, len uint64)(uint32){ var slen = make([]byte,4) var li = 0 for li = 0; li < 4; { slen[li] = byte(len) li += 1 len >>= 8 if( len == 0 ){ break } } crc = byteCRC32add(crc,slen,uint64(li)) crc ^= 0xFFFFFFFF return crc } func byteCRC32(str[]byte,len uint64)(crc uint32){ crc = byteCRC32add(0,str,len) crc = byteCRC32end(crc,len) return crc } func CRC32Finish(crc uint32, table *crc32.Table, len uint64)(uint32){ var slen = make([]byte,4) var li = 0 for li = 0; li < 4; { slen[li] = byte(len & 0xFF) li += 1 len >>= 8 if( len == 0 ){ break } } crc = crc32.Update(crc,table,slen) crc ^= 0xFFFFFFFF return crc } func (gsh*GshContext)xCksum(path string,argv[]string, sum*CheckSum)(int64){ if isin(“-type/f”,argv) && !IsRegFile(path){ return 0 } if isin(“-type/d”,argv) && IsRegFile(path){ return 0 } file, err := os.OpenFile(path,os.O_RDONLY,0) if err != nil { fmt.Printf(“–E– cksum %v (%v)\n”,path,err) return -1 } defer file.Close() if gsh.CmdTrace { fmt.Printf(“–I– cksum %v %v\n”,path,argv) } bi := 0 var buff = make([]byte,32*1024) var total int64 = 0 var initTime = time.Time{} if sum.Start == initTime { sum.Start = time.Now() } for bi = 0; ; bi++ { count,err := file.Read(buff) if count <= 0 || err != nil { break } if (sum.SumType & SUM_SUM64) != 0 { s := sum.Sum64 for _,c := range buff[0:count] { s += uint64(c) } sum.Sum64 = s } if (sum.SumType & SUM_UNIXFILE) != 0 { sum.Crc32Val = byteCRC32add(sum.Crc32Val,buff,uint64(count)) } if (sum.SumType & SUM_CRCIEEE) != 0 { sum.Crc32Val = crc32.Update(sum.Crc32Val,&sum.Crc32Table,buff[0:count]) } // BSD checksum if (sum.SumType & SUM_SUM16_BSD) != 0 { s := sum.Sum16 for _,c := range buff[0:count] { s = (s >> 1) + ((s & 1) << 15) s += int(c) s &= 0xFFFF //fmt.Printf("BSDsum: %d[%d] %d\n",sum.Size+int64(i),i,s) } sum.Sum16 = s } if (sum.SumType & SUM_SUM16_SYSV) != 0 { for bj := 0; bj < count; bj++ { sum.Sum16 += int(buff[bj]) } } total += int64(count) } sum.Done = time.Now() sum.Files += 1 sum.Size += total if !isin("-s",argv) { fmt.Printf("%v ",total) } return 0 } // grep // “lines”, “lin” or “lnp” for “(text) line processor” or “scanner” // a*,!ab,c, … sequentioal combination of patterns // what “LINE” is should be definable // generic line-by-line processing // grep [-v] // cat -n -v // uniq [-c] // tail -f // sed s/x/y/ or awk // grep with line count like wc // rewrite contents if specified func (gsh*GshContext)xGrep(path string,rexpv[]string)(int){ file, err := os.OpenFile(path,os.O_RDONLY,0) if err != nil { fmt.Printf(“–E– grep %v (%v)\n”,path,err) return -1 } defer file.Close() if gsh.CmdTrace { fmt.Printf(“–I– grep %v %v\n”,path,rexpv) } //reader := bufio.NewReaderSize(file,LINESIZE) reader := bufio.NewReaderSize(file,80) li := 0 found := 0 for li = 0; ; li++ { line, err := reader.ReadString(‘\n’) if len(line) <= 0 { break } if 150 < len(line) { // maybe binary break; } if err != nil { break } if 0 <= strings.Index(string(line),rexpv[0]) { found += 1 fmt.Printf("%s:%d: %s",path,li,line) } } //fmt.Printf("total %d lines %s\n",li,path) //if( 0 < found ){ fmt.Printf("((found %d lines %s))\n",found,path); } return found } // Finder // finding files with it name and contents // file names are ORed // show the content with %x fmt list // ls -R // tar command by adding output type fileSum struct { Err int64 // access error or so Size int64 // content size DupSize int64 // content size from hard links Blocks int64 // number of blocks (of 512 bytes) DupBlocks int64 // Blocks pointed from hard links HLinks int64 // hard links Words int64 Lines int64 Files int64 Dirs int64 // the num. of directories SymLink int64 Flats int64 // the num. of flat files MaxDepth int64 MaxNamlen int64 // max. name length nextRepo time.Time } func showFusage(dir string,fusage *fileSum){ bsume := float64(((fusage.Blocks-fusage.DupBlocks)/2)*1024)/1000000.0 //bsumdup := float64((fusage.Blocks/2)*1024)/1000000.0 fmt.Printf(“%v: %v files (%vd %vs %vh) %.6f MB (%.2f MBK)\n”, dir, fusage.Files, fusage.Dirs, fusage.SymLink, fusage.HLinks, float64(fusage.Size)/1000000.0,bsume); } const ( S_IFMT = 0170000 S_IFCHR = 0020000 S_IFDIR = 0040000 S_IFREG = 0100000 S_IFLNK = 0120000 S_IFSOCK = 0140000 ) func cumFinfo(fsum *fileSum, path string, staterr error, fstat syscall.Stat_t, argv[]string,verb bool)(*fileSum){ now := time.Now() if time.Second <= now.Sub(fsum.nextRepo) { if !fsum.nextRepo.IsZero(){ tstmp := now.Format(time.Stamp) showFusage(tstmp,fsum) } fsum.nextRepo = now.Add(time.Second) } if staterr != nil { fsum.Err += 1 return fsum } fsum.Files += 1 if 1 < fstat.Nlink { // must count only once... // at least ignore ones in the same directory //if finfo.Mode().IsRegular() { if (fstat.Mode & S_IFMT) == S_IFREG { fsum.HLinks += 1 fsum.DupBlocks += int64(fstat.Blocks) //fmt.Printf("---Dup HardLink %v %s\n",fstat.Nlink,path) } } //fsum.Size += finfo.Size() fsum.Size += fstat.Size fsum.Blocks += int64(fstat.Blocks) //if verb { fmt.Printf("(%8dBlk) %s",fstat.Blocks/2,path) } if isin("-ls",argv){ //if verb { fmt.Printf("%4d %8d ",fstat.Blksize,fstat.Blocks) } // fmt.Printf("%d\t",fstat.Blocks/2) } //if finfo.IsDir() if (fstat.Mode & S_IFMT) == S_IFDIR { fsum.Dirs += 1 } //if (finfo.Mode() & os.ModeSymlink) != 0 if (fstat.Mode & S_IFMT) == S_IFLNK { //if verb { fmt.Printf("symlink(%v,%s)\n",fstat.Mode,finfo.Name()) } //{ fmt.Printf("symlink(%o,%s)\n",fstat.Mode,finfo.Name()) } fsum.SymLink += 1 } return fsum } func (gsh*GshContext)xxFindEntv(depth int,total *fileSum,dir string, dstat syscall.Stat_t, ei int, entv []string,npatv[]string,argv[]string)(*fileSum){ nols := isin("-grep",argv) // sort entv /* if isin("-t",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].ModTime().Sub(filev[j].ModTime()) }) } */ /* if isin("-u",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].AccTime().Sub(filev[j].AccTime()) }) } if isin("-U",argv){ sort.Slice(filev, func(i,j int) bool { return 0 < filev[i].CreatTime().Sub(filev[j].CreatTime()) }) } */ /* if isin("-S",argv){ sort.Slice(filev, func(i,j int) bool { return filev[j].Size() < filev[i].Size() }) } */ for _,filename := range entv { for _,npat := range npatv { match := true if npat == "*" { match = true }else{ match, _ = filepath.Match(npat,filename) } path := dir + DIRSEP + filename if !match { continue } var fstat syscall.Stat_t staterr := syscall.Lstat(path,&fstat) if staterr != nil { if !isin("-w",argv){fmt.Printf("ufind: %v\n",staterr) } continue; } if isin("-du",argv) && (fstat.Mode & S_IFMT) == S_IFDIR { // should not show size of directory in "-du" mode ... }else if !nols && !isin("-s",argv) && (!isin("-du",argv) || isin("-a",argv)) { if isin("-du",argv) { fmt.Printf("%d\t",fstat.Blocks/2) } showFileInfo(path,argv) } if true { // && isin("-du",argv) total = cumFinfo(total,path,staterr,fstat,argv,false) } /* if isin("-wc",argv) { } */ if gsh.lastCheckSum.SumType != 0 { gsh.xCksum(path,argv,&gsh.lastCheckSum); } x := isinX("-grep",argv); // -grep will be convenient like -ls if 0 <= x && x+1 <= len(argv) { // -grep will be convenient like -ls if IsRegFile(path){ found := gsh.xGrep(path,argv[x+1:]) if 0 < found { foundv := gsh.CmdCurrent.FoundFile if len(foundv) < 10 { gsh.CmdCurrent.FoundFile = append(gsh.CmdCurrent.FoundFile,path) } } } } if !isin("-r0",argv) { // -d 0 in du, -depth n in find //total.Depth += 1 if (fstat.Mode & S_IFMT) == S_IFLNK { continue } if dstat.Rdev != fstat.Rdev { fmt.Printf("--I-- don't follow differnet device %v(%v) %v(%v)\n", dir,dstat.Rdev,path,fstat.Rdev) } if (fstat.Mode & S_IFMT) == S_IFDIR { total = gsh.xxFind(depth+1,total,path,npatv,argv) } } } } return total } func (gsh*GshContext)xxFind(depth int,total *fileSum,dir string,npatv[]string,argv[]string)(*fileSum){ nols := isin("-grep",argv) dirfile,oerr := os.OpenFile(dir,os.O_RDONLY,0) if oerr == nil { //fmt.Printf("--I-- %v(%v)[%d]\n",dir,dirfile,dirfile.Fd()) defer dirfile.Close() }else{ } prev := *total var dstat syscall.Stat_t staterr := syscall.Lstat(dir,&dstat) // should be flstat if staterr != nil { if !isin("-w",argv){ fmt.Printf("ufind: %v\n",staterr) } return total } //filev,err := ioutil.ReadDir(dir) //_,err := ioutil.ReadDir(dir) // ReadDir() heavy and bad for huge directory /* if err != nil { if !isin("-w",argv){ fmt.Printf("ufind: %v\n",err) } return total } */ if depth == 0 { total = cumFinfo(total,dir,staterr,dstat,argv,true) if !nols && !isin("-s",argv) && (!isin("-du",argv) || isin("-a",argv)) { showFileInfo(dir,argv) } } // it it is not a directory, just scan it and finish for ei := 0; ; ei++ { entv,rderr := dirfile.Readdirnames(8*1024) if len(entv) == 0 || rderr != nil { //if rderr != nil { fmt.Printf("[%d] len=%d (%v)\n",ei,len(entv),rderr) } break } if 0 < ei { fmt.Printf("--I-- xxFind[%d] %d large-dir: %s\n",ei,len(entv),dir) } total = gsh.xxFindEntv(depth,total,dir,dstat,ei,entv,npatv,argv) } if isin("-du",argv) { // if in "du" mode fmt.Printf("%d\t%s\n",(total.Blocks-prev.Blocks)/2,dir) } return total } // {ufind|fu|ls} [Files] [// Names] [-- Expressions] // Files is "." by default // Names is "*" by default // Expressions is "-print" by default for "ufind", or -du for "fu" command func (gsh*GshContext)xFind(argv[]string){ if 0 < len(argv) && strBegins(argv[0],"?"){ showFound(gsh,argv) return } if isin("-cksum",argv) || isin("-sum",argv) { gsh.lastCheckSum = CheckSum{} if isin("-sum",argv) && isin("-add",argv) { gsh.lastCheckSum.SumType |= SUM_SUM64 }else if isin("-sum",argv) && isin("-size",argv) { gsh.lastCheckSum.SumType |= SUM_SIZE }else if isin("-sum",argv) && isin("-bsd",argv) { gsh.lastCheckSum.SumType |= SUM_SUM16_BSD }else if isin("-sum",argv) && isin("-sysv",argv) { gsh.lastCheckSum.SumType |= SUM_SUM16_SYSV }else if isin("-sum",argv) { gsh.lastCheckSum.SumType |= SUM_SUM64 } if isin("-unix",argv) { gsh.lastCheckSum.SumType |= SUM_UNIXFILE gsh.lastCheckSum.Crc32Table = *crc32.MakeTable(CRC32UNIX) } if isin("-ieee",argv){ gsh.lastCheckSum.SumType |= SUM_CRCIEEE gsh.lastCheckSum.Crc32Table = *crc32.MakeTable(CRC32IEEE) } gsh.lastCheckSum.RusgAtStart = Getrusagev() } var total = fileSum{} npats := []string{} for _,v := range argv { if 0 < len(v) && v[0] != '-' { npats = append(npats,v) } if v == "//" { break } if v == "--" { break } if v == "-grep" { break } if v == "-ls" { break } } if len(npats) == 0 { npats = []string{"*"} } cwd := "." // if to be fullpath ::: cwd, _ := os.Getwd() if len(npats) == 0 { npats = []string{"*"} } fusage := gsh.xxFind(0,&total,cwd,npats,argv) if gsh.lastCheckSum.SumType != 0 { var sumi uint64 = 0 sum := &gsh.lastCheckSum if (sum.SumType & SUM_SIZE) != 0 { sumi = uint64(sum.Size) } if (sum.SumType & SUM_SUM64) != 0 { sumi = sum.Sum64 } if (sum.SumType & SUM_SUM16_SYSV) != 0 { s := uint32(sum.Sum16) r := (s & 0xFFFF) + ((s & 0xFFFFFFFF) >> 16) s = (r & 0xFFFF) + (r >> 16) sum.Crc32Val = uint32(s) sumi = uint64(s) } if (sum.SumType & SUM_SUM16_BSD) != 0 { sum.Crc32Val = uint32(sum.Sum16) sumi = uint64(sum.Sum16) } if (sum.SumType & SUM_UNIXFILE) != 0 { sum.Crc32Val = byteCRC32end(sum.Crc32Val,uint64(sum.Size)) sumi = uint64(byteCRC32end(sum.Crc32Val,uint64(sum.Size))) } if 1 < sum.Files { fmt.Printf("%v %v // %v / %v files, %v/file\r\n", sumi,sum.Size, abssize(sum.Size),sum.Files, abssize(sum.Size/sum.Files)) }else{ fmt.Printf("%v %v %v\n", sumi,sum.Size,npats[0]) } } if !isin("-grep",argv) { showFusage("total",fusage) } if !isin("-s",argv){ hits := len(gsh.CmdCurrent.FoundFile) if 0 < hits { fmt.Printf("--I-- %d files hits // can be refered with !%df\n", hits,len(gsh.CommandHistory)) } } if gsh.lastCheckSum.SumType != 0 { if isin("-ru",argv) { sum := &gsh.lastCheckSum sum.Done = time.Now() gsh.lastCheckSum.RusgAtEnd = Getrusagev() elps := sum.Done.Sub(sum.Start) fmt.Printf("--cksum-size: %v (%v) / %v files, %v/file\r\n", sum.Size,abssize(sum.Size),sum.Files,abssize(sum.Size/sum.Files)) nanos := int64(elps) fmt.Printf("--cksum-time: %v/total, %v/file, %.1f files/s, %v\r\n", abbtime(nanos), abbtime(nanos/sum.Files), (float64(sum.Files)*1000000000.0)/float64(nanos), abbspeed(sum.Size,nanos)) diff := RusageSubv(sum.RusgAtEnd,sum.RusgAtStart) fmt.Printf("--cksum-rusg: %v\n",sRusagef("",argv,diff)) } } return } func showFiles(files[]string){ sp := "" for i,file := range files { if 0 < i { sp = " " } else { sp = "" } fmt.Printf(sp+"%s",escapeWhiteSP(file)) } } func showFound(gshCtx *GshContext, argv[]string){ for i,v := range gshCtx.CommandHistory { if 0 < len(v.FoundFile) { fmt.Printf("!%d (%d) ",i,len(v.FoundFile)) if isin("-ls",argv){ fmt.Printf("\n") for _,file := range v.FoundFile { fmt.Printf("") //sub number? showFileInfo(file,argv) } }else{ showFiles(v.FoundFile) fmt.Printf("\n") } } } } func showMatchFile(filev []os.FileInfo, npat,dir string, argv[]string)(string,bool){ fname := "" found := false for _,v := range filev { match, _ := filepath.Match(npat,(v.Name())) if match { fname = v.Name() found = true //fmt.Printf("[%d] %s\n",i,v.Name()) showIfExecutable(fname,dir,argv) } } return fname,found } func showIfExecutable(name,dir string,argv[]string)(ffullpath string,ffound bool){ var fullpath string if strBegins(name,DIRSEP){ fullpath = name }else{ fullpath = dir + DIRSEP + name } fi, err := os.Stat(fullpath) if err != nil { fullpath = dir + DIRSEP + name + ".go" fi, err = os.Stat(fullpath) } if err == nil { fm := fi.Mode() if fm.IsRegular() { // R_OK=4, W_OK=2, X_OK=1, F_OK=0 if syscall.Access(fullpath,5) == nil { ffullpath = fullpath ffound = true if ! isin("-s", argv) { showFileInfo(fullpath,argv) } } } } return ffullpath, ffound } func which(list string, argv []string) (fullpathv []string, itis bool){ if len(argv) <= 1 { fmt.Printf("Usage: which comand [-s] [-a] [-ls]\n") return []string{""}, false } path := argv[1] if strBegins(path,"/") { // should check if excecutable? _,exOK := showIfExecutable(path,"/",argv) fmt.Printf("--D-- %v exOK=%v\n",path,exOK) return []string{path},exOK } pathenv, efound := os.LookupEnv(list) if ! efound { fmt.Printf("--E-- which: no \"%s\" environment\n",list) return []string{""}, false } showall := isin("-a",argv) || 0 <= strings.Index(path,"*") dirv := strings.Split(pathenv,PATHSEP) ffound := false ffullpath := path for _, dir := range dirv { if 0 <= strings.Index(path,"*") { // by wild-card list,_ := ioutil.ReadDir(dir) ffullpath, ffound = showMatchFile(list,path,dir,argv) }else{ ffullpath, ffound = showIfExecutable(path,dir,argv) } //if ffound && !isin("-a", argv) { if ffound && !showall { break; } } return []string{ffullpath}, ffound } func stripLeadingWSParg(argv[]string)([]string){ for ; 0 < len(argv); { if len(argv[0]) == 0 { argv = argv[1:] }else{ break } } return argv } func xEval(argv []string, nlend bool){ argv = stripLeadingWSParg(argv) if len(argv) == 0 { fmt.Printf("eval [%%format] [Go-expression]\n") return } pfmt := "%v" if argv[0][0] == '%' { pfmt = argv[0] argv = argv[1:] } if len(argv) == 0 { return } gocode := strings.Join(argv," "); //fmt.Printf("eval [%v] [%v]\n",pfmt,gocode) fset := token.NewFileSet() rval, _ := types.Eval(fset,nil,token.NoPos,gocode) fmt.Printf(pfmt,rval.Value) if nlend { fmt.Printf("\n") } } func getval(name string) (found bool, val int) { /* should expand the name here */ if name == "gsh.pid" { return true, os.Getpid() }else if name == "gsh.ppid" { return true, os.Getppid() } return false, 0 } func echo(argv []string, nlend bool){ for ai := 1; ai < len(argv); ai++ { if 1 < ai { fmt.Printf(" "); } arg := argv[ai] found, val := getval(arg) if found { fmt.Printf("%d",val) }else{ fmt.Printf("%s",arg) } } if nlend { fmt.Printf("\n"); } } func resfile() string { return "gsh.tmp" } //var resF *File func resmap() { //_ , err := os.OpenFile(resfile(), os.O_RDWR|os.O_CREATE, os.ModeAppend) // https://developpaper.com/solution-to-golang-bad-file-descriptor-problem/ _ , err := os.OpenFile(resfile(), os.O_RDWR|os.O_CREATE, 0600) if err != nil { fmt.Printf("refF could not open: %s\n",err) }else{ fmt.Printf("refF opened\n") } } // @@2020-0821 func gshScanArg(str string,strip int)(argv []string){ var si = 0 var sb = 0 var inBracket = 0 var arg1 = make([]byte,LINESIZE) var ax = 0 debug := false for ; si < len(str); si++ { if str[si] != ' ' { break } } sb = si for ; si < len(str); si++ { if sb <= si { if debug { fmt.Printf("--Da- +%d %2d-%2d %s ... %s\n", inBracket,sb,si,arg1[0:ax],str[si:]) } } ch := str[si] if ch == '{' { inBracket += 1 if 0 < strip && inBracket <= strip { //fmt.Printf("stripLEV %d <= %d?\n",inBracket,strip) continue } } if 0 < inBracket { if ch == '}' { inBracket -= 1 if 0 < strip && inBracket < strip { //fmt.Printf("stripLEV %d < %d?\n",inBracket,strip) continue } } arg1[ax] = ch ax += 1 continue } if str[si] == ' ' { argv = append(argv,string(arg1[0:ax])) if debug { fmt.Printf("--Da- [%v][%v-%v] %s ... %s\n", -1+len(argv),sb,si,str[sb:si],string(str[si:])) } sb = si+1 ax = 0 continue } arg1[ax] = ch ax += 1 } if sb < si { argv = append(argv,string(arg1[0:ax])) if debug { fmt.Printf("--Da- [%v][%v-%v] %s ... %s\n", -1+len(argv),sb,si,string(arg1[0:ax]),string(str[si:])) } } if debug { fmt.Printf("--Da- %d [%s] => [%d]%v\n”,strip,str,len(argv),argv) } return argv } // should get stderr (into tmpfile ?) and return func (gsh*GshContext)Popen(name,mode string)(pin*os.File,pout*os.File,err bool){ var pv = []int{-1,-1} syscall.Pipe(pv) xarg := gshScanArg(name,1) name = strings.Join(xarg,” “) pin = os.NewFile(uintptr(pv[0]),”StdoutOf-{“+name+”}”) pout = os.NewFile(uintptr(pv[1]),”StdinOf-{“+name+”}”) fdix := 0 dir := “?” if mode == “r” { dir = “<" fdix = 1 // read from the stdout of the process }else{ dir = ">” fdix = 0 // write to the stdin of the process } gshPA := gsh.gshPA savfd := gshPA.Files[fdix] var fd uintptr = 0 if mode == “r” { fd = pout.Fd() gshPA.Files[fdix] = pout.Fd() }else{ fd = pin.Fd() gshPA.Files[fdix] = pin.Fd() } // should do this by Goroutine? if false { fmt.Printf(“–Ip- Opened fd[%v] %s %v\n”,fd,dir,name) fmt.Printf(“–RED1 [%d,%d,%d]->[%d,%d,%d]\n”, os.Stdin.Fd(),os.Stdout.Fd(),os.Stderr.Fd(), pin.Fd(),pout.Fd(),pout.Fd()) } savi := os.Stdin savo := os.Stdout save := os.Stderr os.Stdin = pin os.Stdout = pout os.Stderr = pout gsh.BackGround = true gsh.gshelllh(name) gsh.BackGround = false os.Stdin = savi os.Stdout = savo os.Stderr = save gshPA.Files[fdix] = savfd return pin,pout,false } // External commands func (gsh*GshContext)excommand(exec bool, argv []string) (notf bool,exit bool) { if gsh.CmdTrace { fmt.Printf(“–I– excommand[%v](%v)\n”,exec,argv) } gshPA := gsh.gshPA fullpathv, itis := which(“PATH”,[]string{“which”,argv[0],”-s”}) if itis == false { return true,false } fullpath := fullpathv[0] argv = unescapeWhiteSPV(argv) if 0 < strings.Index(fullpath,".go") { nargv := argv // []string{} gofullpathv, itis := which("PATH",[]string{"which","go","-s"}) if itis == false { fmt.Printf("--F-- Go not found\n") return false,true } gofullpath := gofullpathv[0] nargv = []string{ gofullpath, "run", fullpath } fmt.Printf("--I-- %s {%s %s %s}\n",gofullpath, nargv[0],nargv[1],nargv[2]) if exec { syscall.Exec(gofullpath,nargv,os.Environ()) }else{ pid, _ := syscall.ForkExec(gofullpath,nargv,&gshPA) if gsh.BackGround { fmt.Fprintf(stderr,"--Ip- in Background pid[%d]%d(%v)\n",pid,len(argv),nargv) gsh.BackGroundJobs = append(gsh.BackGroundJobs,pid) }else{ rusage := syscall.Rusage {} syscall.Wait4(pid,nil,0,&rusage) gsh.LastRusage = rusage gsh.CmdCurrent.Rusagev[1] = rusage } } }else{ if exec { syscall.Exec(fullpath,argv,os.Environ()) }else{ pid, _ := syscall.ForkExec(fullpath,argv,&gshPA) //fmt.Printf("[%d]\n",pid); // '&' to be background if gsh.BackGround { fmt.Fprintf(stderr,"--Ip- in Background pid[%d]%d(%v)\n",pid,len(argv),argv) gsh.BackGroundJobs = append(gsh.BackGroundJobs,pid) }else{ rusage := syscall.Rusage {} syscall.Wait4(pid,nil,0,&rusage); gsh.LastRusage = rusage gsh.CmdCurrent.Rusagev[1] = rusage } } } return false,false } // Builtin Commands func (gshCtx *GshContext) sleep(argv []string) { if len(argv) < 2 { fmt.Printf("Sleep 100ms, 100us, 100ns, ...\n") return } duration := argv[1]; d, err := time.ParseDuration(duration) if err != nil { d, err = time.ParseDuration(duration+"s") if err != nil { fmt.Printf("duration ? %s (%s)\n",duration,err) return } } //fmt.Printf("Sleep %v\n",duration) time.Sleep(d) if 0 < len(argv[2:]) { gshCtx.gshellv(argv[2:]) } } func (gshCtx *GshContext)repeat(argv []string) { if len(argv) < 2 { return } start0 := time.Now() for ri,_ := strconv.Atoi(argv[1]); 0 < ri; ri-- { if 0 < len(argv[2:]) { //start := time.Now() gshCtx.gshellv(argv[2:]) end := time.Now() elps := end.Sub(start0); if( 1000000000 < elps ){ fmt.Printf("(repeat#%d %v)\n",ri,elps); } } } } func (gshCtx *GshContext)gen(argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: %s N\n",argv[0]) return } // should br repeated by "repeat" command count, _ := strconv.Atoi(argv[1]) fd := gshPA.Files[1] // Stdout file := os.NewFile(fd,"internalStdOut") fmt.Printf("--I-- Gen. Count=%d to [%d]\n",count,file.Fd()) //buf := []byte{} outdata := "0123 5678 0123 5678 0123 5678 0123 5678\r" for gi := 0; gi < count; gi++ { file.WriteString(outdata) } //file.WriteString("\n") fmt.Printf("\n(%d B)\n",count*len(outdata)); //file.Close() } // Remote Execution // 2020-0820 func Elapsed(from time.Time)(string){ elps := time.Now().Sub(from) if 1000000000 < elps { return fmt.Sprintf("[%5d.%02ds]",elps/1000000000,(elps%1000000000)/10000000) }else if 1000000 < elps { return fmt.Sprintf("[%3d.%03dms]",elps/1000000,(elps%1000000)/1000) }else{ return fmt.Sprintf("[%3d.%03dus]",elps/1000,(elps%1000)) } } func abbtime(nanos int64)(string){ if 1000000000 < nanos { return fmt.Sprintf("%d.%02ds",nanos/1000000000,(nanos%1000000000)/10000000) }else if 1000000 < nanos { return fmt.Sprintf("%d.%03dms",nanos/1000000,(nanos%1000000)/1000) }else{ return fmt.Sprintf("%d.%03dus",nanos/1000,(nanos%1000)) } } func abssize(size int64)(string){ fsize := float64(size) if 1024*1024*1024 < size { return fmt.Sprintf("%.2fGiB",fsize/(1024*1024*1024)) }else if 1024*1024 < size { return fmt.Sprintf("%.3fMiB",fsize/(1024*1024)) }else{ return fmt.Sprintf("%.3fKiB",fsize/1024) } } func absize(size int64)(string){ fsize := float64(size) if 1024*1024*1024 < size { return fmt.Sprintf("%8.2fGiB",fsize/(1024*1024*1024)) }else if 1024*1024 < size { return fmt.Sprintf("%8.3fMiB",fsize/(1024*1024)) }else{ return fmt.Sprintf("%8.3fKiB",fsize/1024) } } func abbspeed(totalB int64,ns int64)(string){ MBs := (float64(totalB)/1000000) / (float64(ns)/1000000000) if 1000 <= MBs { return fmt.Sprintf("%6.3fGB/s",MBs/1000) } if 1 <= MBs { return fmt.Sprintf("%6.3fMB/s",MBs) }else{ return fmt.Sprintf("%6.3fKB/s",MBs*1000) } } func abspeed(totalB int64,ns time.Duration)(string){ MBs := (float64(totalB)/1000000) / (float64(ns)/1000000000) if 1000 <= MBs { return fmt.Sprintf("%6.3fGBps",MBs/1000) } if 1 <= MBs { return fmt.Sprintf("%6.3fMBps",MBs) }else{ return fmt.Sprintf("%6.3fKBps",MBs*1000) } } func fileRelay(what string,in*os.File,out*os.File,size int64,bsiz int)(wcount int64){ Start := time.Now() buff := make([]byte,bsiz) var total int64 = 0 var rem int64 = size nio := 0 Prev := time.Now() var PrevSize int64 = 0 fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) START\n", what,absize(total),size,nio) for i:= 0; ; i++ { var len = bsiz if int(rem) < len { len = int(rem) } Now := time.Now() Elps := Now.Sub(Prev); if 1000000000 < Now.Sub(Prev) { fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) %s\n", what,absize(total),size,nio, abspeed((total-PrevSize),Elps)) Prev = Now; PrevSize = total } rlen := len if in != nil { // should watch the disconnection of out rcc,err := in.Read(buff[0:rlen]) if err != nil { fmt.Printf(Elapsed(Start)+"--En- X: %s read(%v,%v)<%v\n", what,rcc,err,in.Name()) break } rlen = rcc if string(buff[0:10]) == "((SoftEOF " { var ecc int64 = 0 fmt.Sscanf(string(buff),"((SoftEOF %v",&ecc) fmt.Printf(Elapsed(Start)+"--En- X: %s Recv ((SoftEOF %v))/%v\n", what,ecc,total) if ecc == total { break } } } wlen := rlen if out != nil { wcc,err := out.Write(buff[0:rlen]) if err != nil { fmt.Printf(Elapsed(Start)+"-En-- X: %s write(%v,%v)>%v\n”, what,wcc,err,out.Name()) break } wlen = wcc } if wlen < rlen { fmt.Printf(Elapsed(Start)+"--En- X: %s incomplete write (%v/%v)\n", what,wlen,rlen) break; } nio += 1 total += int64(rlen) rem -= int64(rlen) if rem <= 0 { break } } Done := time.Now() Elps := float64(Done.Sub(Start))/1000000000 //Seconds TotalMB := float64(total)/1000000 //MB MBps := TotalMB / Elps fmt.Printf(Elapsed(Start)+"--In- X: %s (%v/%v/%v) %v %.3fMB/s\n", what,total,size,nio,absize(total),MBps) return total } func tcpPush(clnt *os.File){ // shrink socket buffer and recover usleep(100); } func (gsh*GshContext)RexecServer(argv[]string){ debug := true Start0 := time.Now() Start := Start0 // if local == ":" { local = "0.0.0.0:9999" } local := "0.0.0.0:9999" if 0 < len(argv) { if argv[0] == "-s" { debug = false argv = argv[1:] } } if 0 < len(argv) { argv = argv[1:] } port, err := net.ResolveTCPAddr("tcp",local); if err != nil { fmt.Printf("--En- S: Address error: %s (%s)\n",local,err) return } fmt.Printf(Elapsed(Start)+"--In- S: Listening at %s...\n",local); sconn, err := net.ListenTCP("tcp", port) if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: Listen error: %s (%s)\n",local,err) return } reqbuf := make([]byte,LINESIZE) res := "" for { fmt.Printf(Elapsed(Start0)+"--In- S: Listening at %s...\n",local); aconn, err := sconn.AcceptTCP() Start = time.Now() if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: Accept error: %s (%s)\n",local,err) return } clnt, _ := aconn.File() fd := clnt.Fd() ar := aconn.RemoteAddr() if debug { fmt.Printf(Elapsed(Start0)+"--In- S: Accepted TCP at %s [%d] <- %v\n", local,fd,ar) } res = fmt.Sprintf("220 GShell/%s Server\r\n",VERSION) fmt.Fprintf(clnt,"%s",res) if debug { fmt.Printf(Elapsed(Start)+"--In- S: %s",res) } count, err := clnt.Read(reqbuf) if err != nil { fmt.Printf(Elapsed(Start)+"--En- C: (%v %v) %v", count,err,string(reqbuf)) } req := string(reqbuf[:count]) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",string(req)) } reqv := strings.Split(string(req),"\r") cmdv := gshScanArg(reqv[0],0) //cmdv := strings.Split(reqv[0]," ") switch cmdv[0] { case "HELO": res = fmt.Sprintf("250 %v",req) case "GET": // download {remotefile|-zN} [localfile] var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var fname string = "" var in *os.File = nil var pseudoEOF = false if 1 < len(cmdv) { fname = cmdv[1] if strBegins(fname,"-z") { fmt.Sscanf(fname[2:],"%d",&dsize) }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"r") if err { }else{ xout.Close() defer xin.Close() in = xin dsize = MaxStreamSize pseudoEOF = true } }else{ xin,err := os.Open(fname) if err != nil { fmt.Printf("--En- GET (%v)\n",err) }else{ defer xin.Close() in = xin fi,_ := xin.Stat() dsize = fi.Size() } } } //fmt.Printf(Elapsed(Start)+"--In- GET %v:%v\n",dsize,bsize) res = fmt.Sprintf("200 %v\r\n",dsize) fmt.Fprintf(clnt,"%v",res) tcpPush(clnt); // should be separated as line in receiver fmt.Printf(Elapsed(Start)+"--In- S: %v",res) wcount := fileRelay("SendGET",in,clnt,dsize,bsize) if pseudoEOF { in.Close() // pipe from the command // show end of stream data (its size) by OOB? SoftEOF := fmt.Sprintf("((SoftEOF %v))",wcount) fmt.Printf(Elapsed(Start)+"--In- S: Send %v\n",SoftEOF) tcpPush(clnt); // to let SoftEOF data apper at the top of recevied data fmt.Fprintf(clnt,"%v\r\n",SoftEOF) tcpPush(clnt); // to let SoftEOF alone in a packet (separate with 200 OK) // with client generated random? //fmt.Printf("--In- L: close %v (%v)\n",in.Fd(),in.Name()) } res = fmt.Sprintf("200 GET done\r\n") case "PUT": // upload {srcfile|-zN} [dstfile] var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var fname string = "" var out *os.File = nil if 1 < len(cmdv) { // localfile fmt.Sscanf(cmdv[1],"%d",&dsize) } if 2 < len(cmdv) { fname = cmdv[2] if fname == "-" { // nul dev }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"w") if err { }else{ xin.Close() defer xout.Close() out = xout } }else{ // should write to temporary file // should suppress ^C on tty xout,err := os.OpenFile(fname,os.O_CREATE|os.O_RDWR|os.O_TRUNC,0600) //fmt.Printf("--In- S: open(%v) out(%v) err(%v)\n",fname,xout,err) if err != nil { fmt.Printf("--En- PUT (%v)\n",err) }else{ out = xout } } fmt.Printf(Elapsed(Start)+"--In- L: open(%v,w) %v (%v)\n", fname,local,err) } fmt.Printf(Elapsed(Start)+"--In- PUT %v (/%v)\n",dsize,bsize) fmt.Printf(Elapsed(Start)+"--In- S: 200 %v OK\r\n",dsize) fmt.Fprintf(clnt,"200 %v OK\r\n",dsize) fileRelay("RecvPUT",clnt,out,dsize,bsize) res = fmt.Sprintf("200 PUT done\r\n") default: res = fmt.Sprintf("400 What? %v",req) } swcc,serr := clnt.Write([]byte(res)) if serr != nil { fmt.Printf(Elapsed(Start)+"--In- S: (wc=%v er=%v) %v",swcc,serr,res) }else{ fmt.Printf(Elapsed(Start)+"--In- S: %v",res) } aconn.Close(); clnt.Close(); } sconn.Close(); } func (gsh*GshContext)RexecClient(argv[]string)(int,string){ debug := true Start := time.Now() if len(argv) == 1 { return -1,"EmptyARG" } argv = argv[1:] if argv[0] == "-serv" { gsh.RexecServer(argv[1:]) return 0,"Server" } remote := "0.0.0.0:9999" if argv[0][0] == '@' { remote = argv[0][1:] argv = argv[1:] } if argv[0] == "-s" { debug = false argv = argv[1:] } dport, err := net.ResolveTCPAddr("tcp",remote); if err != nil { fmt.Printf(Elapsed(Start)+"Address error: %s (%s)\n",remote,err) return -1,"AddressError" } fmt.Printf(Elapsed(Start)+"--In- C: Connecting to %s\n",remote) serv, err := net.DialTCP("tcp",nil,dport) if err != nil { fmt.Printf(Elapsed(Start)+"Connection error: %s (%s)\n",remote,err) return -1,"CannotConnect" } if debug { al := serv.LocalAddr() fmt.Printf(Elapsed(Start)+"--In- C: Connected to %v <- %v\n",remote,al) } req := "" res := make([]byte,LINESIZE) count,err := serv.Read(res) if err != nil { fmt.Printf("--En- S: (%3d,%v) %v",count,err,string(res)) } if debug { fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res)) } if argv[0] == "GET" { savPA := gsh.gshPA var bsize int = 64*1024 req = fmt.Sprintf("%v\r\n",strings.Join(argv," ")) fmt.Printf(Elapsed(Start)+"--In- C: %v",req) fmt.Fprintf(serv,req) count,err = serv.Read(res) if err != nil { }else{ var dsize int64 = 0 var out *os.File = nil var out_tobeclosed *os.File = nil var fname string = "" var rcode int = 0 var pid int = -1 fmt.Sscanf(string(res),"%d %d",&rcode,&dsize) fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res[0:count])) if 3 <= len(argv) { fname = argv[2] if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"w") if err { }else{ xin.Close() defer xout.Close() out = xout out_tobeclosed = xout pid = 0 // should be its pid } }else{ // should write to temporary file // should suppress ^C on tty xout,err := os.OpenFile(fname,os.O_CREATE|os.O_RDWR|os.O_TRUNC,0600) if err != nil { fmt.Print("--En- %v\n",err) } out = xout //fmt.Printf("--In-- %d > %s\n”,out.Fd(),fname) } } in,_ := serv.File() fileRelay(“RecvGET”,in,out,dsize,bsize) if 0 <= pid { gsh.gshPA = savPA // recovery of Fd(), and more? fmt.Printf(Elapsed(Start)+"--In- L: close Pipe > %v\n”,fname) out_tobeclosed.Close() //syscall.Wait4(pid,nil,0,nil) //@@ } } }else if argv[0] == “PUT” { remote, _ := serv.File() var local *os.File = nil var dsize int64 = 32*1024*1024 var bsize int = 64*1024 var ofile string = “-” //fmt.Printf(“–I– Rex %v\n”,argv) if 1 < len(argv) { fname := argv[1] if strBegins(fname,"-z") { fmt.Sscanf(fname[2:],"%d",&dsize) }else if strBegins(fname,"{") { xin,xout,err := gsh.Popen(fname,"r") if err { }else{ xout.Close() defer xin.Close() //in = xin local = xin fmt.Printf("--In- [%d] < Upload output of %v\n", local.Fd(),fname) ofile = "-from."+fname dsize = MaxStreamSize } }else{ xlocal,err := os.Open(fname) if err != nil { fmt.Printf("--En- (%s)\n",err) local = nil }else{ local = xlocal fi,_ := local.Stat() dsize = fi.Size() defer local.Close() //fmt.Printf("--I-- Rex in(%v / %v)\n",ofile,dsize) } ofile = fname fmt.Printf(Elapsed(Start)+"--In- L: open(%v,r)=%v %v (%v)\n", fname,dsize,local,err) } } if 2 < len(argv) && argv[2] != "" { ofile = argv[2] //fmt.Printf("(%d)%v B.ofile=%v\n",len(argv),argv,ofile) } //fmt.Printf(Elapsed(Start)+"--I-- Rex out(%v)\n",ofile) fmt.Printf(Elapsed(Start)+"--In- PUT %v (/%v)\n",dsize,bsize) req = fmt.Sprintf("PUT %v %v \r\n",dsize,ofile) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",req) } fmt.Fprintf(serv,"%v",req) count,err = serv.Read(res) if debug { fmt.Printf(Elapsed(Start)+"--In- S: %v",string(res[0:count])) } fileRelay("SendPUT",local,remote,dsize,bsize) }else{ req = fmt.Sprintf("%v\r\n",strings.Join(argv," ")) if debug { fmt.Printf(Elapsed(Start)+"--In- C: %v",req) } fmt.Fprintf(serv,"%v",req) //fmt.Printf("--In- sending RexRequest(%v)\n",len(req)) } //fmt.Printf(Elapsed(Start)+"--In- waiting RexResponse...\n") count,err = serv.Read(res) ress := "" if count == 0 { ress = "(nil)\r\n" }else{ ress = string(res[:count]) } if err != nil { fmt.Printf(Elapsed(Start)+"--En- S: (%d,%v) %v",count,err,ress) }else{ fmt.Printf(Elapsed(Start)+"--In- S: %v",ress) } serv.Close() //conn.Close() var stat string var rcode int fmt.Sscanf(ress,"%d %s",&rcode,&stat) //fmt.Printf("--D-- Client: %v (%v)",rcode,stat) return rcode,ress } // Remote Shell // gcp file […] { [host]:[port:][dir] | dir } // -p | -no-p func (gsh*GshContext)FileCopy(argv[]string){ var host = “” var port = “” var upload = false var download = false var xargv = []string{“rex-gcp”} var srcv = []string{} var dstv = []string{} argv = argv[1:] for _,v := range argv { /* if v[0] == ‘-‘ { // might be a pseudo file (generated date) continue } */ obj := strings.Split(v,”:”) //fmt.Printf(“%d %v %v\n”,len(obj),v,obj) if 1 < len(obj) { host = obj[0] file := "" if 0 < len(host) { gsh.LastServer.host = host }else{ host = gsh.LastServer.host port = gsh.LastServer.port } if 2 < len(obj) { port = obj[1] if 0 < len(port) { gsh.LastServer.port = port }else{ port = gsh.LastServer.port } file = obj[2] }else{ file = obj[1] } if len(srcv) == 0 { download = true srcv = append(srcv,file) continue } upload = true dstv = append(dstv,file) continue } /* idx := strings.Index(v,":") if 0 <= idx { remote = v[0:idx] if len(srcv) == 0 { download = true srcv = append(srcv,v[idx+1:]) continue } upload = true dstv = append(dstv,v[idx+1:]) continue } */ if download { dstv = append(dstv,v) }else{ srcv = append(srcv,v) } } hostport := "@" + host + ":" + port if upload { if host != "" { xargv = append(xargv,hostport) } xargv = append(xargv,"PUT") xargv = append(xargv,srcv[0:]...) xargv = append(xargv,dstv[0:]...) //fmt.Printf("--I-- FileCopy PUT gsh://%s/%v < %v // %v\n",hostport,dstv,srcv,xargv) fmt.Printf("--I-- FileCopy PUT gsh://%s/%v < %v\n",hostport,dstv,srcv) gsh.RexecClient(xargv) }else if download { if host != "" { xargv = append(xargv,hostport) } xargv = append(xargv,"GET") xargv = append(xargv,srcv[0:]...) xargv = append(xargv,dstv[0:]...) //fmt.Printf("--I-- FileCopy GET gsh://%v/%v > %v // %v\n”,hostport,srcv,dstv,xargv) fmt.Printf(“–I– FileCopy GET gsh://%v/%v > %v\n”,hostport,srcv,dstv) gsh.RexecClient(xargv) }else{ } } // target func (gsh*GshContext)Trelpath(rloc string)(string){ cwd, _ := os.Getwd() os.Chdir(gsh.RWD) os.Chdir(rloc) twd, _ := os.Getwd() os.Chdir(cwd) tpath := twd + “/” + rloc return tpath } // join to rmote GShell – [user@]host[:port] or cd host:[port]:path func (gsh*GshContext)Rjoin(argv[]string){ if len(argv) <= 1 { fmt.Printf("--I-- current server = %v\n",gsh.RSERV) return } serv := argv[1] servv := strings.Split(serv,":") if 1 <= len(servv) { if servv[0] == "lo" { servv[0] = "localhost" } } switch len(servv) { case 1: //if strings.Index(serv,":") < 0 { serv = servv[0] + ":" + fmt.Sprintf("%d",GSH_PORT) //} case 2: // host:port serv = strings.Join(servv,":") } xargv := []string{"rex-join","@"+serv,"HELO"} rcode,stat := gsh.RexecClient(xargv) if (rcode / 100) == 2 { fmt.Printf("--I-- OK Joined (%v) %v\n",rcode,stat) gsh.RSERV = serv }else{ fmt.Printf("--I-- NG, could not joined (%v) %v\n",rcode,stat) } } func (gsh*GshContext)Rexec(argv[]string){ if len(argv) <= 1 { fmt.Printf("--I-- rexec command [ | {file || {command} ]\n",gsh.RSERV) return } /* nargv := gshScanArg(strings.Join(argv," "),0) fmt.Printf("--D-- nargc=%d [%v]\n",len(nargv),nargv) if nargv[1][0] != '{' { nargv[1] = "{" + nargv[1] + "}" fmt.Printf("--D-- nargc=%d [%v]\n",len(nargv),nargv) } argv = nargv */ nargv := []string{} nargv = append(nargv,"{"+strings.Join(argv[1:]," ")+"}") fmt.Printf("--D-- nargc=%d %v\n",len(nargv),nargv) argv = nargv xargv := []string{"rex-exec","@"+gsh.RSERV,"GET"} xargv = append(xargv,argv...) xargv = append(xargv,"/dev/tty") rcode,stat := gsh.RexecClient(xargv) if (rcode / 100) == 2 { fmt.Printf("--I-- OK Rexec (%v) %v\n",rcode,stat) }else{ fmt.Printf("--I-- NG Rexec (%v) %v\n",rcode,stat) } } func (gsh*GshContext)Rchdir(argv[]string){ if len(argv) <= 1 { return } cwd, _ := os.Getwd() os.Chdir(gsh.RWD) os.Chdir(argv[1]) twd, _ := os.Getwd() gsh.RWD = twd fmt.Printf("--I-- JWD=%v\n",twd) os.Chdir(cwd) } func (gsh*GshContext)Rpwd(argv[]string){ fmt.Printf("%v\n",gsh.RWD) } func (gsh*GshContext)Rls(argv[]string){ cwd, _ := os.Getwd() os.Chdir(gsh.RWD) argv[0] = "-ls" gsh.xFind(argv) os.Chdir(cwd) } func (gsh*GshContext)Rput(argv[]string){ var local string = "" var remote string = "" if 1 < len(argv) { local = argv[1] remote = local // base name } if 2 < len(argv) { remote = argv[2] } fmt.Printf("--I-- jput from=%v to=%v\n",local,gsh.Trelpath(remote)) } func (gsh*GshContext)Rget(argv[]string){ var remote string = "" var local string = "" if 1 < len(argv) { remote = argv[1] local = remote // base name } if 2 < len(argv) { local = argv[2] } fmt.Printf("--I-- jget from=%v to=%v\n",gsh.Trelpath(remote),local) } // network // -s, -si, -so // bi-directional, source, sync (maybe socket) func (gshCtx*GshContext)sconnect(inTCP bool, argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: -s [host]:[port[.udp]]\n") return } remote := argv[1] if remote == ":" { remote = "0.0.0.0:9999" } if inTCP { // TCP dport, err := net.ResolveTCPAddr("tcp",remote); if err != nil { fmt.Printf("Address error: %s (%s)\n",remote,err) return } conn, err := net.DialTCP("tcp",nil,dport) if err != nil { fmt.Printf("Connection error: %s (%s)\n",remote,err) return } file, _ := conn.File(); fd := file.Fd() fmt.Printf("Socket: connected to %s, socket[%d]\n",remote,fd) savfd := gshPA.Files[1] gshPA.Files[1] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[1] = savfd file.Close() conn.Close() }else{ //dport, err := net.ResolveUDPAddr("udp4",remote); dport, err := net.ResolveUDPAddr("udp",remote); if err != nil { fmt.Printf("Address error: %s (%s)\n",remote,err) return } //conn, err := net.DialUDP("udp4",nil,dport) conn, err := net.DialUDP("udp",nil,dport) if err != nil { fmt.Printf("Connection error: %s (%s)\n",remote,err) return } file, _ := conn.File(); fd := file.Fd() ar := conn.RemoteAddr() //al := conn.LocalAddr() fmt.Printf("Socket: connected to %s [%s], socket[%d]\n", remote,ar.String(),fd) savfd := gshPA.Files[1] gshPA.Files[1] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[1] = savfd file.Close() conn.Close() } } func (gshCtx*GshContext)saccept(inTCP bool, argv []string) { gshPA := gshCtx.gshPA if len(argv) < 2 { fmt.Printf("Usage: -ac [host]:[port[.udp]]\n") return } local := argv[1] if local == ":" { local = "0.0.0.0:9999" } if inTCP { // TCP port, err := net.ResolveTCPAddr("tcp",local); if err != nil { fmt.Printf("Address error: %s (%s)\n",local,err) return } //fmt.Printf("Listen at %s...\n",local); sconn, err := net.ListenTCP("tcp", port) if err != nil { fmt.Printf("Listen error: %s (%s)\n",local,err) return } //fmt.Printf("Accepting at %s...\n",local); aconn, err := sconn.AcceptTCP() if err != nil { fmt.Printf("Accept error: %s (%s)\n",local,err) return } file, _ := aconn.File() fd := file.Fd() fmt.Printf("Accepted TCP at %s [%d]\n",local,fd) savfd := gshPA.Files[0] gshPA.Files[0] = fd; gshCtx.gshellv(argv[2:]) gshPA.Files[0] = savfd sconn.Close(); aconn.Close(); file.Close(); }else{ //port, err := net.ResolveUDPAddr("udp4",local); port, err := net.ResolveUDPAddr("udp",local); if err != nil { fmt.Printf("Address error: %s (%s)\n",local,err) return } fmt.Printf("Listen UDP at %s...\n",local); //uconn, err := net.ListenUDP("udp4", port) uconn, err := net.ListenUDP("udp", port) if err != nil { fmt.Printf("Listen error: %s (%s)\n",local,err) return } file, _ := uconn.File() fd := file.Fd() ar := uconn.RemoteAddr() remote := "" if ar != nil { remote = ar.String() } if remote == "" { remote = "?" } // not yet received //fmt.Printf("Accepted at %s [%d] <- %s\n",local,fd,"") savfd := gshPA.Files[0] gshPA.Files[0] = fd; savenv := gshPA.Env gshPA.Env = append(savenv, "REMOTE_HOST="+remote) gshCtx.gshellv(argv[2:]) gshPA.Env = savenv gshPA.Files[0] = savfd uconn.Close(); file.Close(); } } // empty line command func (gshCtx*GshContext)xPwd(argv[]string){ // execute context command, pwd + date // context notation, representation scheme, to be resumed at re-login cwd, _ := os.Getwd() switch { case isin("-a",argv): gshCtx.ShowChdirHistory(argv) case isin("-ls",argv): showFileInfo(cwd,argv) default: fmt.Printf("%s\n",cwd) case isin("-v",argv): // obsolete emtpy command t := time.Now() date := t.Format(time.UnixDate) exe, _ := os.Executable() host, _ := os.Hostname() fmt.Printf("{PWD=\"%s\"",cwd) fmt.Printf(" HOST=\"%s\"",host) fmt.Printf(" DATE=\"%s\"",date) fmt.Printf(" TIME=\"%s\"",t.String()) fmt.Printf(" PID=\"%d\"",os.Getpid()) fmt.Printf(" EXE=\"%s\"",exe) fmt.Printf("}\n") } } // History // these should be browsed and edited by HTTP browser // show the time of command with -t and direcotry with -ls // openfile-history, sort by -a -m -c // sort by elapsed time by -t -s // search by “more” like interface // edit history // sort history, and wc or uniq // CPU and other resource consumptions // limit showing range (by time or so) // export / import history func (gshCtx *GshContext)xHistory(argv []string){ atWorkDirX := -1 if 1 < len(argv) && strBegins(argv[1],"@") { atWorkDirX,_ = strconv.Atoi(argv[1][1:]) } //fmt.Printf("--D-- showHistory(%v)\n",argv) for i, v := range gshCtx.CommandHistory { // exclude commands not to be listed by default // internal commands may be suppressed by default if v.CmdLine == "" && !isin("-a",argv) { continue; } if 0 <= atWorkDirX { if v.WorkDirX != atWorkDirX { continue } } if !isin("-n",argv){ // like "fc" fmt.Printf("!%-2d ",i) } if isin("-v",argv){ fmt.Println(v) // should be with it date }else{ if isin("-l",argv) || isin("-l0",argv) { elps := v.EndAt.Sub(v.StartAt); start := v.StartAt.Format(time.Stamp) fmt.Printf("@%d ",v.WorkDirX) fmt.Printf("[%v] %11v/t ",start,elps) } if isin("-l",argv) && !isin("-l0",argv){ fmt.Printf("%v",Rusagef("%t %u\t// %s",argv,v.Rusagev)) } if isin("-at",argv) { // isin("-ls",argv){ dhi := v.WorkDirX // workdir history index fmt.Printf("@%d %s\t",dhi,v.WorkDir) // show the FileInfo of the output command?? } fmt.Printf("%s",v.CmdLine) fmt.Printf("\n") } } } // !n - history index func searchHistory(gshCtx GshContext, gline string) (string, bool, bool){ if gline[0] == '!' { hix, err := strconv.Atoi(gline[1:]) if err != nil { fmt.Printf("--E-- (%s : range)\n",hix) return "", false, true } if hix < 0 || len(gshCtx.CommandHistory) <= hix { fmt.Printf("--E-- (%d : out of range)\n",hix) return "", false, true } return gshCtx.CommandHistory[hix].CmdLine, false, false } // search //for i, v := range gshCtx.CommandHistory { //} return gline, false, false } func (gsh*GshContext)cmdStringInHistory(hix int)(cmd string, ok bool){ if 0 <= hix && hix < len(gsh.CommandHistory) { return gsh.CommandHistory[hix].CmdLine,true } return "",false } // temporary adding to PATH environment // cd name -lib for LD_LIBRARY_PATH // chdir with directory history (date + full-path) // -s for sort option (by visit date or so) func (gsh*GshContext)ShowChdirHistory1(i int,v GChdirHistory, argv []string){ fmt.Printf("!%-2d ",v.CmdIndex) // the first command at this WorkDir fmt.Printf("@%d ",i) fmt.Printf("[%v] ",v.MovedAt.Format(time.Stamp)) showFileInfo(v.Dir,argv) } func (gsh*GshContext)ShowChdirHistory(argv []string){ for i, v := range gsh.ChdirHistory { gsh.ShowChdirHistory1(i,v,argv) } } func skipOpts(argv[]string)(int){ for i,v := range argv { if strBegins(v,"-") { }else{ return i } } return -1 } func (gshCtx*GshContext)xChdir(argv []string){ cdhist := gshCtx.ChdirHistory if isin("?",argv ) || isin("-t",argv) || isin("-a",argv) { gshCtx.ShowChdirHistory(argv) return } pwd, _ := os.Getwd() dir := "" if len(argv) <= 1 { dir = toFullpath("~") }else{ i := skipOpts(argv[1:]) if i < 0 { dir = toFullpath("~") }else{ dir = argv[1+i] } } if strBegins(dir,"@") { if dir == "@0" { // obsolete dir = gshCtx.StartDir }else if dir == "@!" { index := len(cdhist) - 1 if 0 < index { index -= 1 } dir = cdhist[index].Dir }else{ index, err := strconv.Atoi(dir[1:]) if err != nil { fmt.Printf("--E-- xChdir(%v)\n",err) dir = "?" }else if len(gshCtx.ChdirHistory) <= index { fmt.Printf("--E-- xChdir(history range error)\n") dir = "?" }else{ dir = cdhist[index].Dir } } } if dir != "?" { err := os.Chdir(dir) if err != nil { fmt.Printf("--E-- xChdir(%s)(%v)\n",argv[1],err) }else{ cwd, _ := os.Getwd() if cwd != pwd { hist1 := GChdirHistory { } hist1.Dir = cwd hist1.MovedAt = time.Now() hist1.CmdIndex = len(gshCtx.CommandHistory)+1 gshCtx.ChdirHistory = append(cdhist,hist1) if !isin("-s",argv){ //cwd, _ := os.Getwd() //fmt.Printf("%s\n",cwd) ix := len(gshCtx.ChdirHistory)-1 gshCtx.ShowChdirHistory1(ix,hist1,argv) } } } } if isin("-ls",argv){ cwd, _ := os.Getwd() showFileInfo(cwd,argv); } } func TimeValSub(tv1 *syscall.Timeval, tv2 *syscall.Timeval){ *tv1 = syscall.NsecToTimeval(tv1.Nano() - tv2.Nano()) } func RusageSubv(ru1, ru2 [2]syscall.Rusage)([2]syscall.Rusage){ TimeValSub(&ru1[0].Utime,&ru2[0].Utime) TimeValSub(&ru1[0].Stime,&ru2[0].Stime) TimeValSub(&ru1[1].Utime,&ru2[1].Utime) TimeValSub(&ru1[1].Stime,&ru2[1].Stime) return ru1 } func TimeValAdd(tv1 syscall.Timeval, tv2 syscall.Timeval)(syscall.Timeval){ tvs := syscall.NsecToTimeval(tv1.Nano() + tv2.Nano()) return tvs } /* func RusageAddv(ru1, ru2 [2]syscall.Rusage)([2]syscall.Rusage){ TimeValAdd(ru1[0].Utime,ru2[0].Utime) TimeValAdd(ru1[0].Stime,ru2[0].Stime) TimeValAdd(ru1[1].Utime,ru2[1].Utime) TimeValAdd(ru1[1].Stime,ru2[1].Stime) return ru1 } */ // Resource Usage func sRusagef(fmtspec string, argv []string, ru [2]syscall.Rusage)(string){ // ru[0] self , ru[1] children ut := TimeValAdd(ru[0].Utime,ru[1].Utime) st := TimeValAdd(ru[0].Stime,ru[1].Stime) uu := (ut.Sec*1000000 + int64(ut.Usec)) * 1000 su := (st.Sec*1000000 + int64(st.Usec)) * 1000 tu := uu + su ret := fmt.Sprintf(“%v/sum”,abbtime(tu)) ret += fmt.Sprintf(“, %v/usr”,abbtime(uu)) ret += fmt.Sprintf(“, %v/sys”,abbtime(su)) return ret } func Rusagef(fmtspec string, argv []string, ru [2]syscall.Rusage)(string){ ut := TimeValAdd(ru[0].Utime,ru[1].Utime) st := TimeValAdd(ru[0].Stime,ru[1].Stime) fmt.Printf(“%d.%06ds/u “,ut.Sec,ut.Usec) //ru[1].Utime.Sec,ru[1].Utime.Usec) fmt.Printf(“%d.%06ds/s “,st.Sec,st.Usec) //ru[1].Stime.Sec,ru[1].Stime.Usec) return “” } func Getrusagev()([2]syscall.Rusage){ var ruv = [2]syscall.Rusage{} syscall.Getrusage(syscall.RUSAGE_SELF,&ruv[0]) syscall.Getrusage(syscall.RUSAGE_CHILDREN,&ruv[1]) return ruv } func showRusage(what string,argv []string, ru *syscall.Rusage){ fmt.Printf(“%s: “,what); fmt.Printf(“Usr=%d.%06ds”,ru.Utime.Sec,ru.Utime.Usec) fmt.Printf(” Sys=%d.%06ds”,ru.Stime.Sec,ru.Stime.Usec) fmt.Printf(” Rss=%vB”,ru.Maxrss) if isin(“-l”,argv) { fmt.Printf(” MinFlt=%v”,ru.Minflt) fmt.Printf(” MajFlt=%v”,ru.Majflt) fmt.Printf(” IxRSS=%vB”,ru.Ixrss) fmt.Printf(” IdRSS=%vB”,ru.Idrss) fmt.Printf(” Nswap=%vB”,ru.Nswap) fmt.Printf(” Read=%v”,ru.Inblock) fmt.Printf(” Write=%v”,ru.Oublock) } fmt.Printf(” Snd=%v”,ru.Msgsnd) fmt.Printf(” Rcv=%v”,ru.Msgrcv) //if isin(“-l”,argv) { fmt.Printf(” Sig=%v”,ru.Nsignals) //} fmt.Printf(“\n”); } func (gshCtx *GshContext)xTime(argv[]string)(bool){ if 2 <= len(argv){ gshCtx.LastRusage = syscall.Rusage{} rusagev1 := Getrusagev() fin := gshCtx.gshellv(argv[1:]) rusagev2 := Getrusagev() showRusage(argv[1],argv,&gshCtx.LastRusage) rusagev := RusageSubv(rusagev2,rusagev1) showRusage("self",argv,&rusagev[0]) showRusage("chld",argv,&rusagev[1]) return fin }else{ rusage:= syscall.Rusage {} syscall.Getrusage(syscall.RUSAGE_SELF,&rusage) showRusage("self",argv, &rusage) syscall.Getrusage(syscall.RUSAGE_CHILDREN,&rusage) showRusage("chld",argv, &rusage) return false } } func (gshCtx *GshContext)xJobs(argv[]string){ fmt.Printf("%d Jobs\n",len(gshCtx.BackGroundJobs)) for ji, pid := range gshCtx.BackGroundJobs { //wstat := syscall.WaitStatus {0} rusage := syscall.Rusage {} //wpid, err := syscall.Wait4(pid,&wstat,syscall.WNOHANG,&rusage); wpid, err := syscall.Wait4(pid,nil,syscall.WNOHANG,&rusage); if err != nil { fmt.Printf("--E-- %%%d [%d] (%v)\n",ji,pid,err) }else{ fmt.Printf("%%%d[%d](%d)\n",ji,pid,wpid) showRusage("chld",argv,&rusage) } } } func (gsh*GshContext)inBackground(argv[]string)(bool){ if gsh.CmdTrace { fmt.Printf("--I-- inBackground(%v)\n",argv) } gsh.BackGround = true // set background option xfin := false xfin = gsh.gshellv(argv) gsh.BackGround = false return xfin } // -o file without command means just opening it and refer by #N // should be listed by "files" comnmand func (gshCtx*GshContext)xOpen(argv[]string){ var pv = []int{-1,-1} err := syscall.Pipe(pv) fmt.Printf("--I-- pipe()=[#%d,#%d](%v)\n",pv[0],pv[1],err) } func (gshCtx*GshContext)fromPipe(argv[]string){ } func (gshCtx*GshContext)xClose(argv[]string){ } // redirect func (gshCtx*GshContext)redirect(argv[]string)(bool){ if len(argv) < 2 { return false } cmd := argv[0] fname := argv[1] var file *os.File = nil fdix := 0 mode := os.O_RDONLY switch { case cmd == "-i" || cmd == "<": fdix = 0 mode = os.O_RDONLY case cmd == "-o" || cmd == ">“: fdix = 1 mode = os.O_RDWR | os.O_CREATE case cmd == “-a” || cmd == “>>”: fdix = 1 mode = os.O_RDWR | os.O_CREATE | os.O_APPEND } if fname[0] == ‘#’ { fd, err := strconv.Atoi(fname[1:]) if err != nil { fmt.Printf(“–E– (%v)\n”,err) return false } file = os.NewFile(uintptr(fd),”MaybePipe”) }else{ xfile, err := os.OpenFile(argv[1], mode, 0600) if err != nil { fmt.Printf(“–E– (%s)\n”,err) return false } file = xfile } gshPA := gshCtx.gshPA savfd := gshPA.Files[fdix] gshPA.Files[fdix] = file.Fd() fmt.Printf(“–I– Opened [%d] %s\n”,file.Fd(),argv[1]) gshCtx.gshellv(argv[2:]) gshPA.Files[fdix] = savfd return false } //fmt.Fprintf(res, “GShell Status: %q”, html.EscapeString(req.URL.Path)) func httpHandler(res http.ResponseWriter, req *http.Request){ path := req.URL.Path fmt.Printf(“–I– Got HTTP Request(%s)\n”,path) { gshCtxBuf, _ := setupGshContext() gshCtx := &gshCtxBuf fmt.Printf(“–I– %s\n”,path[1:]) gshCtx.tgshelll(path[1:]) } fmt.Fprintf(res, “Hello(^-^)/\n%s\n”,path) } func (gshCtx *GshContext) httpServer(argv []string){ http.HandleFunc(“/”, httpHandler) accport := “localhost:9999” fmt.Printf(“–I– HTTP Server Start at [%s]\n”,accport) http.ListenAndServe(accport,nil) } func (gshCtx *GshContext)xGo(argv[]string){ go gshCtx.gshellv(argv[1:]); } func (gshCtx *GshContext) xPs(argv[]string)(){ } // Plugin // plugin [-ls [names]] to list plugins // Reference: plugin source code func (gshCtx *GshContext) whichPlugin(name string,argv[]string)(pi *PluginInfo){ pi = nil for _,p := range gshCtx.PluginFuncs { if p.Name == name && pi == nil { pi = &p } if !isin(“-s”,argv){ //fmt.Printf(“%v %v “,i,p) if isin(“-ls”,argv){ showFileInfo(p.Path,argv) }else{ fmt.Printf(“%s\n”,p.Name) } } } return pi } func (gshCtx *GshContext) xPlugin(argv[]string) (error) { if len(argv) == 0 || argv[0] == “-ls” { gshCtx.whichPlugin(“”,argv) return nil } name := argv[0] Pin := gshCtx.whichPlugin(name,[]string{“-s”}) if Pin != nil { os.Args = argv // should be recovered? Pin.Addr.(func())() return nil } sofile := toFullpath(argv[0] + “.so”) // or find it by which($PATH) p, err := plugin.Open(sofile) if err != nil { fmt.Printf(“–E– plugin.Open(%s)(%v)\n”,sofile,err) return err } fname := “Main” f, err := p.Lookup(fname) if( err != nil ){ fmt.Printf(“–E– plugin.Lookup(%s)(%v)\n”,fname,err) return err } pin := PluginInfo {p,f,name,sofile} gshCtx.PluginFuncs = append(gshCtx.PluginFuncs,pin) fmt.Printf(“–I– added (%d)\n”,len(gshCtx.PluginFuncs)) //fmt.Printf(“–I– first call(%s:%s)%v\n”,sofile,fname,argv) os.Args = argv f.(func())() return err } func (gshCtx*GshContext)Args(argv[]string){ for i,v := range os.Args { fmt.Printf(“[%v] %v\n”,i,v) } } func (gshCtx *GshContext) showVersion(argv[]string){ if isin(“-l”,argv) { fmt.Printf(“%v/%v (%v)”,NAME,VERSION,DATE); }else{ fmt.Printf(“%v”,VERSION); } if isin(“-a”,argv) { fmt.Printf(” %s”,AUTHOR) } if !isin(“-n”,argv) { fmt.Printf(“\n”) } } // Scanf // string decomposer // scanf [format] [input] func scanv(sstr string)(strv[]string){ strv = strings.Split(sstr,” “) return strv } func scanUntil(src,end string)(rstr string,leng int){ idx := strings.Index(src,end) if 0 <= idx { rstr = src[0:idx] return rstr,idx+len(end) } return src,0 } // -bn -- display base-name part only // can be in some %fmt, for sed rewriting func (gsh*GshContext)printVal(fmts string, vstr string, optv[]string){ //vint,err := strconv.Atoi(vstr) var ival int64 = 0 n := 0 err := error(nil) if strBegins(vstr,"_") { vx,_ := strconv.Atoi(vstr[1:]) if vx < len(gsh.iValues) { vstr = gsh.iValues[vx] }else{ } } // should use Eval() if strBegins(vstr,"0x") { n,err = fmt.Sscanf(vstr[2:],"%x",&ival) }else{ n,err = fmt.Sscanf(vstr,"%d",&ival) //fmt.Printf("--D-- n=%d err=(%v) {%s}=%v\n",n,err,vstr, ival) } if n == 1 && err == nil { //fmt.Printf("--D-- formatn(%v) ival(%v)\n",fmts,ival) fmt.Printf("%"+fmts,ival) }else{ if isin("-bn",optv){ fmt.Printf("%"+fmts,filepath.Base(vstr)) }else{ fmt.Printf("%"+fmts,vstr) } } } func (gsh*GshContext)printfv(fmts,div string,argv[]string,optv[]string,list[]string){ //fmt.Printf("{%d}",len(list)) //curfmt := "v" outlen := 0 curfmt := gsh.iFormat if 0 < len(fmts) { for xi := 0; xi < len(fmts); xi++ { fch := fmts[xi] if fch == '%' { if xi+1 < len(fmts) { curfmt = string(fmts[xi+1]) gsh.iFormat = curfmt xi += 1 if xi+1 < len(fmts) && fmts[xi+1] == '(' { vals,leng := scanUntil(fmts[xi+2:],")") //fmt.Printf("--D-- show fmt(%v) val(%v) next(%v)\n",curfmt,vals,leng) gsh.printVal(curfmt,vals,optv) xi += 2+leng-1 outlen += 1 } continue } } if fch == '_' { hi,leng := scanInt(fmts[xi+1:]) if 0 < leng { if hi < len(gsh.iValues) { gsh.printVal(curfmt,gsh.iValues[hi],optv) outlen += 1 // should be the real length }else{ fmt.Printf("((out-range))") } xi += leng continue; } } fmt.Printf("%c",fch) outlen += 1 } }else{ //fmt.Printf("--D-- print {%s}\n") for i,v := range list { if 0 < i { fmt.Printf(div) } gsh.printVal(curfmt,v,optv) outlen += 1 } } if 0 < outlen { fmt.Printf("\n") } } func (gsh*GshContext)Scanv(argv[]string){ //fmt.Printf("--D-- Scanv(%v)\n",argv) if len(argv) == 1 { return } argv = argv[1:] fmts := "" if strBegins(argv[0],"-F") { fmts = argv[0] gsh.iDelimiter = fmts argv = argv[1:] } input := strings.Join(argv," ") if fmts == "" { // simple decomposition v := scanv(input) gsh.iValues = v //fmt.Printf("%v\n",strings.Join(v,",")) }else{ v := make([]string,8) n,err := fmt.Sscanf(input,fmts,&v[0],&v[1],&v[2],&v[3]) fmt.Printf("--D-- Scanf ->(%v) n=%d err=(%v)\n”,v,n,err) gsh.iValues = v } } func (gsh*GshContext)Printv(argv[]string){ if false { //@@U fmt.Printf(“%v\n”,strings.Join(argv[1:],” “)) return } //fmt.Printf(“–D– Printv(%v)\n”,argv) //fmt.Printf(“%v\n”,strings.Join(gsh.iValues,”,”)) div := gsh.iDelimiter fmts := “” argv = argv[1:] if 0 < len(argv) { if strBegins(argv[0],"-F") { div = argv[0][2:] argv = argv[1:] } } optv := []string{} for _,v := range argv { if strBegins(v,"-"){ optv = append(optv,v) argv = argv[1:] }else{ break; } } if 0 < len(argv) { fmts = strings.Join(argv," ") } gsh.printfv(fmts,div,argv,optv,gsh.iValues) } func (gsh*GshContext)Basename(argv[]string){ for i,v := range gsh.iValues { gsh.iValues[i] = filepath.Base(v) } } func (gsh*GshContext)Sortv(argv[]string){ sv := gsh.iValues sort.Slice(sv , func(i,j int) bool { return sv[i] < sv[j] }) } func (gsh*GshContext)Shiftv(argv[]string){ vi := len(gsh.iValues) if 0 < vi { if isin("-r",argv) { top := gsh.iValues[0] gsh.iValues = append(gsh.iValues[1:],top) }else{ gsh.iValues = gsh.iValues[1:] } } } func (gsh*GshContext)Enq(argv[]string){ } func (gsh*GshContext)Deq(argv[]string){ } func (gsh*GshContext)Push(argv[]string){ gsh.iValStack = append(gsh.iValStack,argv[1:]) fmt.Printf("depth=%d\n",len(gsh.iValStack)) } func (gsh*GshContext)Dump(argv[]string){ for i,v := range gsh.iValStack { fmt.Printf("%d %v\n",i,v) } } func (gsh*GshContext)Pop(argv[]string){ depth := len(gsh.iValStack) if 0 < depth { v := gsh.iValStack[depth-1] if isin("-cat",argv){ gsh.iValues = append(gsh.iValues,v...) }else{ gsh.iValues = v } gsh.iValStack = gsh.iValStack[0:depth-1] fmt.Printf("depth=%d %s\n",len(gsh.iValStack),gsh.iValues) }else{ fmt.Printf("depth=%d\n",depth) } } // Command Interpreter func (gshCtx*GshContext)gshellv(argv []string) (fin bool) { fin = false if gshCtx.CmdTrace { fmt.Fprintf(os.Stderr,”–I– gshellv((%d))\n”,len(argv)) } if len(argv) <= 0 { return false } xargv := []string{} for ai := 0; ai < len(argv); ai++ { xargv = append(xargv,strsubst(gshCtx,argv[ai],false)) } argv = xargv if false { for ai := 0; ai < len(argv); ai++ { fmt.Printf("[%d] %s [%d]%T\n", ai,argv[ai],len(argv[ai]),argv[ai]) } } cmd := argv[0] if gshCtx.CmdTrace { fmt.Fprintf(os.Stderr,"--I-- gshellv(%d)%v\n",len(argv),argv) } switch { // https://tour.golang.org/flowcontrol/11 case cmd == "": gshCtx.xPwd([]string{}); // emtpy command case cmd == "-x": gshCtx.CmdTrace = ! gshCtx.CmdTrace case cmd == "-xt": gshCtx.CmdTime = ! gshCtx.CmdTime case cmd == "-ot": gshCtx.sconnect(true, argv) case cmd == "-ou": gshCtx.sconnect(false, argv) case cmd == "-it": gshCtx.saccept(true , argv) case cmd == "-iu": gshCtx.saccept(false, argv) case cmd == "-i" || cmd == "<" || cmd == "-o" || cmd == ">” || cmd == “-a” || cmd == “>>” || cmd == “-s” || cmd == “><": gshCtx.redirect(argv) case cmd == "|": gshCtx.fromPipe(argv) case cmd == "args": gshCtx.Args(argv) case cmd == "bg" || cmd == "-bg": rfin := gshCtx.inBackground(argv[1:]) return rfin case cmd == "-bn": gshCtx.Basename(argv) case cmd == "call": _,_ = gshCtx.excommand(false,argv[1:]) case cmd == "cd" || cmd == "chdir": gshCtx.xChdir(argv); case cmd == "-cksum": gshCtx.xFind(argv) case cmd == "-sum": gshCtx.xFind(argv) case cmd == "close": gshCtx.xClose(argv) case cmd == "gcp": gshCtx.FileCopy(argv) case cmd == "dec" || cmd == "decode": gshCtx.Dec(argv) case cmd == "#define": case cmd == "dump": gshCtx.Dump(argv) case cmd == "echo": echo(argv,true) case cmd == "enc" || cmd == "encode": gshCtx.Enc(argv) case cmd == "env": env(argv) case cmd == "eval": xEval(argv[1:],true) case cmd == "exec": _,_ = gshCtx.excommand(true,argv[1:]) // should not return here case cmd == "exit" || cmd == "quit": // write Result code EXIT to 3> return true case cmd == “fdls”: // dump the attributes of fds (of other process) case cmd == “-find” || cmd == “fin” || cmd == “ufind” || cmd == “uf”: gshCtx.xFind(argv[1:]) case cmd == “fu”: gshCtx.xFind(argv[1:]) case cmd == “fork”: // mainly for a server case cmd == “-gen”: gshCtx.gen(argv) case cmd == “-go”: gshCtx.xGo(argv) case cmd == “-grep”: gshCtx.xFind(argv) case cmd == “gdeq”: gshCtx.Deq(argv) case cmd == “genq”: gshCtx.Enq(argv) case cmd == “gpop”: gshCtx.Pop(argv) case cmd == “gpush”: gshCtx.Push(argv) case cmd == “history” || cmd == “hi”: // hi should be alias gshCtx.xHistory(argv) case cmd == “jobs”: gshCtx.xJobs(argv) case cmd == “lnsp”: gshCtx.SplitLine(argv) case cmd == “-ls”: gshCtx.xFind(argv) case cmd == “nop”: // do nothing case cmd == “pipe”: gshCtx.xOpen(argv) case cmd == “plug” || cmd == “plugin” || cmd == “pin”: gshCtx.xPlugin(argv[1:]) case cmd == “print” || cmd == “-pr”: // output internal slice // also sprintf should be gshCtx.Printv(argv) case cmd == “ps”: gshCtx.xPs(argv) case cmd == “pstitle”: // to be gsh.title case cmd == “rexecd” || cmd == “rexd”: gshCtx.RexecServer(argv) case cmd == “rexec” || cmd == “rex”: gshCtx.RexecClient(argv) case cmd == “repeat” || cmd == “rep”: // repeat cond command gshCtx.repeat(argv) case cmd == “scan”: // scan input (or so in fscanf) to internal slice (like Files or map) gshCtx.Scanv(argv) case cmd == “set”: // set name … case cmd == “serv”: gshCtx.httpServer(argv) case cmd == “shift”: gshCtx.Shiftv(argv) case cmd == “sleep”: gshCtx.sleep(argv) case cmd == “-sort”: gshCtx.Sortv(argv) case cmd == “j” || cmd == “join”: gshCtx.Rjoin(argv) case cmd == “a” || cmd == “alpa”: gshCtx.Rexec(argv) case cmd == “jcd” || cmd == “jchdir”: gshCtx.Rchdir(argv) case cmd == “jget”: gshCtx.Rget(argv) case cmd == “jls”: gshCtx.Rls(argv) case cmd == “jput”: gshCtx.Rput(argv) case cmd == “jpwd”: gshCtx.Rpwd(argv) case cmd == “time”: fin = gshCtx.xTime(argv) case cmd == “pwd”: gshCtx.xPwd(argv); case cmd == “ver” || cmd == “-ver” || cmd == “version”: gshCtx.showVersion(argv) case cmd == “where”: // data file or so? case cmd == “which”: which(“PATH”,argv); default: if gshCtx.whichPlugin(cmd,[]string{“-s”}) != nil { gshCtx.xPlugin(argv) }else{ notfound,_ := gshCtx.excommand(false,argv) if notfound { fmt.Printf(“–E– command not found (%v)\n”,cmd) } } } return fin } func (gsh*GshContext)gshelll(gline string) (rfin bool) { argv := strings.Split(string(gline),” “) fin := gsh.gshellv(argv) return fin } func (gsh*GshContext)tgshelll(gline string)(xfin bool){ start := time.Now() fin := gsh.gshelll(gline) end := time.Now() elps := end.Sub(start); if gsh.CmdTime { fmt.Printf(“–T– ” + time.Now().Format(time.Stamp) + “(%d.%09ds)\n”, elps/1000000000,elps%1000000000) } return fin } func Ttyid() (int) { fi, err := os.Stdin.Stat() if err != nil { return 0; } //fmt.Printf(“Stdin: %v Dev=%d\n”, // fi.Mode(),fi.Mode()&os.ModeDevice) if (fi.Mode() & os.ModeDevice) != 0 { stat := syscall.Stat_t{}; err := syscall.Fstat(0,&stat) if err != nil { //fmt.Printf(“–I– Stdin: (%v)\n”,err) }else{ //fmt.Printf(“–I– Stdin: rdev=%d %d\n”, // stat.Rdev&0xFF,stat.Rdev); //fmt.Printf(“–I– Stdin: tty%d\n”,stat.Rdev&0xFF); return int(stat.Rdev & 0xFF) } } return 0 } func (gshCtx *GshContext) ttyfile() string { //fmt.Printf(“–I– GSH_HOME=%s\n”,gshCtx.GshHomeDir) ttyfile := gshCtx.GshHomeDir + “/” + “gsh-tty” + fmt.Sprintf(“%02d”,gshCtx.TerminalId) //strconv.Itoa(gshCtx.TerminalId) //fmt.Printf(“–I– ttyfile=%s\n”,ttyfile) return ttyfile } func (gshCtx *GshContext) ttyline()(*os.File){ file, err := os.OpenFile(gshCtx.ttyfile(),os.O_RDWR|os.O_CREATE|os.O_TRUNC,0600) if err != nil { fmt.Printf(“–F– cannot open %s (%s)\n”,gshCtx.ttyfile(),err) return file; } return file } func (gshCtx *GshContext)getline(hix int, skipping bool, prevline string) (string) { if( skipping ){ reader := bufio.NewReaderSize(os.Stdin,LINESIZE) line, _, _ := reader.ReadLine() return string(line) }else if true { return xgetline(hix,prevline,gshCtx) } /* else if( with_exgetline && gshCtx.GetLine != “” ){ //var xhix int64 = int64(hix); // cast newenv := os.Environ() newenv = append(newenv, “GSH_LINENO=”+strconv.FormatInt(int64(hix),10) ) tty := gshCtx.ttyline() tty.WriteString(prevline) Pa := os.ProcAttr { “”, // start dir newenv, //os.Environ(), []*os.File{os.Stdin,os.Stdout,os.Stderr,tty}, nil, } //fmt.Printf(“–I– getline=%s // %s\n”,gsh_getlinev[0],gshCtx.GetLine) proc, err := os.StartProcess(gsh_getlinev[0],[]string{“getline”,”getline”},&Pa) if err != nil { fmt.Printf(“–F– getline process error (%v)\n”,err) // for ; ; { } return “exit (getline program failed)” } //stat, err := proc.Wait() proc.Wait() buff := make([]byte,LINESIZE) count, err := tty.Read(buff) //_, err = tty.Read(buff) //fmt.Printf(“–D– getline (%d)\n”,count) if err != nil { if ! (count == 0) { // && err.String() == “EOF” ) { fmt.Printf(“–E– getline error (%s)\n”,err) } }else{ //fmt.Printf(“–I– getline OK \”%s\”\n”,buff) } tty.Close() gline := string(buff[0:count]) return gline }else */ { // if isatty { fmt.Printf(“!%d”,hix) fmt.Print(PROMPT) // } reader := bufio.NewReaderSize(os.Stdin,LINESIZE) line, _, _ := reader.ReadLine() return string(line) } } //== begin ======================================================= getline /* * getline.c * 2020-0819 extracted from dog.c * getline.go * 2020-0822 ported to Go */ /* package main // getline main import ( “fmt” // fmt “strings” // strings “os” // os “syscall” // syscall //”bytes” // os //”os/exec” // os ) */ // C language compatibility functions var errno = 0 var stdin *os.File = os.Stdin var stdout *os.File = os.Stdout var stderr *os.File = os.Stderr var EOF = -1 var NULL = 0 type FILE os.File type StrBuff []byte var NULL_FP *os.File = nil var NULLSP = 0 //var LINESIZE = 1024 func system(cmdstr string)(int){ PA := syscall.ProcAttr { “”, // the starting directory os.Environ(), []uintptr{os.Stdin.Fd(),os.Stdout.Fd(),os.Stderr.Fd()}, nil, } argv := strings.Split(cmdstr,” “) pid,err := syscall.ForkExec(argv[0],argv,&PA) if( err != nil ){ fmt.Printf(“–E– syscall(%v) err(%v)\n”,cmdstr,err) } syscall.Wait4(pid,nil,0,nil) /* argv := strings.Split(cmdstr,” “) fmt.Fprintf(os.Stderr,”–I– system(%v)\n”,argv) //cmd := exec.Command(argv[0:]…) cmd := exec.Command(argv[0],argv[1],argv[2]) cmd.Stdin = strings.NewReader(“output of system”) var out bytes.Buffer cmd.Stdout = &out var serr bytes.Buffer cmd.Stderr = &serr err := cmd.Run() if err != nil { fmt.Fprintf(os.Stderr,”–E– system(%v)err(%v)\n”,argv,err) fmt.Printf(“ERR:%s\n”,serr.String()) }else{ fmt.Printf(“%s”,out.String()) } */ return 0 } func atoi(str string)(ret int){ ret,err := fmt.Sscanf(str,”%d”,ret) if err == nil { return ret }else{ // should set errno return 0 } } func getenv(name string)(string){ val,got := os.LookupEnv(name) if got { return val }else{ return “?” } } func strcpy(dst StrBuff, src string){ var i int srcb := []byte(src) for i = 0; i < len(src) && srcb[i] != 0; i++ { dst[i] = srcb[i] } dst[i] = 0 } func xstrcpy(dst StrBuff, src StrBuff){ dst = src } func strcat(dst StrBuff, src StrBuff){ dst = append(dst,src...) } func strdup(str StrBuff)(string){ return string(str[0:strlen(str)]) } func sstrlen(str string)(int){ return len(str) } func strlen(str StrBuff)(int){ var i int for i = 0; i < len(str) && str[i] != 0; i++ { } return i } func sizeof(data StrBuff)(int){ return len(data) } func isatty(fd int)(ret int){ return 1 } func fopen(file string,mode string)(fp*os.File){ if mode == "r" { fp,err := os.Open(file) if( err != nil ){ fmt.Printf("--E-- fopen(%s,%s)=(%v)\n",file,mode,err) return NULL_FP; } return fp; }else{ fp,err := os.OpenFile(file,os.O_RDWR|os.O_CREATE|os.O_TRUNC,0600) if( err != nil ){ return NULL_FP; } return fp; } } func fclose(fp*os.File){ fp.Close() } func fflush(fp *os.File)(int){ return 0 } func fgetc(fp*os.File)(int){ var buf [1]byte _,err := fp.Read(buf[0:1]) if( err != nil ){ return EOF; }else{ return int(buf[0]) } } func sfgets(str*string, size int, fp*os.File)(int){ buf := make(StrBuff,size) var ch int var i int for i = 0; i < len(buf)-1; i++ { ch = fgetc(fp) //fprintf(stderr,"--fgets %d/%d %X\n",i,len(buf),ch) if( ch == EOF ){ break; } buf[i] = byte(ch); if( ch == '\n' ){ break; } } buf[i] = 0 //fprintf(stderr,"--fgets %d/%d (%s)\n",i,len(buf),buf[0:i]) return i } func fgets(buf StrBuff, size int, fp*os.File)(int){ var ch int var i int for i = 0; i < len(buf)-1; i++ { ch = fgetc(fp) //fprintf(stderr,"--fgets %d/%d %X\n",i,len(buf),ch) if( ch == EOF ){ break; } buf[i] = byte(ch); if( ch == '\n' ){ break; } } buf[i] = 0 //fprintf(stderr,"--fgets %d/%d (%s)\n",i,len(buf),buf[0:i]) return i } func fputc(ch int , fp*os.File)(int){ var buf [1]byte buf[0] = byte(ch) fp.Write(buf[0:1]) return 0 } func fputs(buf StrBuff, fp*os.File)(int){ fp.Write(buf) return 0 } func xfputss(str string, fp*os.File)(int){ return fputs([]byte(str),fp) } func sscanf(str StrBuff,fmts string, params ...interface{})(int){ fmt.Sscanf(string(str[0:strlen(str)]),fmts,params...) return 0 } func fprintf(fp*os.File,fmts strin