ref: 3efb5bbb4061056e523858b134c555949591efe2
dir: /appl/cmd/puttar.b/
# read list of pathnames on stdin, write POSIX.1 tar on stdout # Copyright(c)1996 Lucent Technologies. All Rights Reserved. # 22 Dec 1996 ehg@bell-labs.com implement puttar; include "sys.m"; sys: Sys; print, sprint, fprint: import sys; stdout, stderr: ref sys->FD; include "draw.m"; include "bufio.m"; bufio: Bufio; Iobuf: import bufio; puttar: module{ init: fn(nil: ref Draw->Context, nil: list of string); }; Warning(mess: string) { fprint(stderr,"warning: puttar: %s: %r\n",mess); } Error(mess: string){ fprint(stderr,"puttar: %s: %r\n",mess); exit; } TBLOCK: con 512; # tar logical blocksize NBLOCK: con 20; # blocking factor for efficient write tarbuf := array[NBLOCK*TBLOCK] of byte; # for output nblock := 0; # how many blocks of data are in tarbuf flushblocks(){ if(nblock<=0) return; if(nblock<NBLOCK){ for(i:=(nblock+1)*TBLOCK;i<NBLOCK*TBLOCK;i++) tarbuf[i] = byte 0; } i := sys->write(stdout,tarbuf,NBLOCK*TBLOCK); if(i!=NBLOCK*TBLOCK) Error("write error"); nblock = 0; } putblock(data:array of byte){ # all writes are done through here, so we can guarantee # 10kbyte blocks if writing to tape device if(len data!=TBLOCK) Error("putblock wants TBLOCK chunks"); tarbuf[nblock*TBLOCK:] = data; nblock++; if(nblock>=NBLOCK) flushblocks(); } packname(hdr:array of byte, name:string){ utf := array of byte name; n := len utf; if(n<=100){ hdr[0:] = utf; return; } for(i:=n-101; i<n && int utf[i] != '/'; i++){} if(i==n) Error(sprint("%s > 100 bytes",name)); if(i>155) Error(sprint("%s too long\n",name)); hdr[0:] = utf[i+1:n]; hdr[345:] = utf[0:i]; # tar supplies implicit slash } octal(width:int, val:int):array of byte{ octal := array of byte "01234567"; a := array[width] of byte; for(i:=width-1; i>=0; i--){ a[i] = octal[val&7]; val >>= 3; } return a; } chksum(hdr: array of byte):int{ sum := 0; for(i:=0; i<len hdr; i++) sum += int hdr[i]; return sum; } hdr, zeros, ibuf : array of byte; tar(file : string) { ifile: ref sys->FD; (rc,stat) := sys->stat(file); if(rc<0){ Warning(sprint("cannot stat %s",file)); return; }; ifile = sys->open(file,sys->OREAD); if(ifile==nil) Error(sprint("cannot open %s",file)); hdr[0:] = zeros; packname(hdr,file); hdr[100:] = octal(7,stat.mode&8r777); hdr[108:] = octal(7,1); hdr[116:] = octal(7,1); hdr[124:] = octal(11,int stat.length); hdr[136:] = octal(11,stat.mtime); hdr[148:] = array of byte " "; # for chksum hdr[156] = byte '0'; if(stat.mode&Sys->DMDIR) hdr[156] = byte '5'; hdr[257:] = array of byte "ustar"; hdr[263:] = array of byte "00"; hdr[265:] = array of byte stat.uid; # assumes len uid<=32 hdr[297:] = array of byte stat.gid; hdr[329:] = octal(8,stat.dev); hdr[337:] = octal(8,int stat.qid.path); hdr[148:] = octal(7,chksum(hdr)); hdr[155] = byte 0; putblock(hdr); for(bytes := int stat.length; bytes>0;){ n := len ibuf; if(n>bytes) n = bytes; # min if(sys->read(ifile,ibuf,n)!=n) Error(sprint("read error on %s",file)); nb := (n+TBLOCK-1)/TBLOCK; fill := nb*TBLOCK; for(i:=n; i<fill; i++) ibuf[i] = byte 0; for(i=0; i<nb; i++) putblock(ibuf[i*TBLOCK:(i+1)*TBLOCK]); bytes -= n; } ifile = nil; } rtar(file : string) { tar(file); # recurse if directory (ok, dir) := sys->stat(file); if (ok < 0){ Warning(sprint("cannot stat %s", file)); return; } if (dir.mode & Sys->DMDIR) { fd := sys->open(file, sys->OREAD); if (fd == nil) Error(sprint("cannot open %s", file)); for (;;) { (n, d) := sys->dirread(fd); if (n <= 0) break; for (i := 0; i < n; i++) { if (file[len file - 1] == '/') rtar(file + d[i].name); else rtar(file + "/" + d[i].name); } } } } init(nil: ref Draw->Context, args: list of string){ sys = load Sys Sys->PATH; bufio = load Bufio Bufio->PATH; stdout = sys->fildes(1); stderr = sys->fildes(2); hdr = array[TBLOCK] of byte; zeros = array[TBLOCK] of {* => byte 0}; ibuf = array[len tarbuf] of byte; if (tl args == nil) { stdin := bufio->fopen(sys->fildes(0),bufio->OREAD); if(stdin==nil) Error("can't fopen stdin"); while((file := stdin.gets('\n'))!=nil){ if(file[len file-1]=='\n') file = file[0:len file-1]; tar(file); } } else { for (args = tl args; args != nil; args = tl args) rtar(hd args); } putblock(zeros); putblock(zeros); # format requires two empty blocks at end flushblocks(); }