ref: dc593372bfc4224c6cf91d2031d0ad0aeadaddfe
dir: /sys/src/cmd/tar.c/
/* * tar - `tape archiver', actually usable on any medium. * POSIX "ustar" compliant when extracting, and by default when creating. * this tar attempts to read and write multiple Tblock-byte blocks * at once to and from the filesystem, and does not copy blocks * around internally. */ #include <u.h> #include <libc.h> #include <ctype.h> #include <fcall.h> /* for %M */ #include <String.h> /* * modified versions of those in libc.h; scans only the first arg for * keyletters and options. */ #define TARGBEGIN {\ (argv0 || (argv0 = *argv)), argv++, argc--;\ if (argv[0]) {\ char *_args, *_argt;\ Rune _argc;\ _args = &argv[0][0];\ _argc = 0;\ while(*_args && (_args += chartorune(&_argc, _args)))\ switch(_argc) #define TARGEND SET(_argt); USED(_argt);USED(_argc);USED(_args); \ argc--, argv++; } \ USED(argv); USED(argc); } #define TARGC() (_argc) #define ROUNDUP(a, b) (((a) + (b) - 1)/(b)) #define BYTES2TBLKS(bytes) ROUNDUP(bytes, Tblock) /* read big-endian binary integers; args must be (uchar *) */ #define G2BEBYTE(x) (((x)[0]<<8) | (x)[1]) #define G3BEBYTE(x) (((x)[0]<<16) | ((x)[1]<<8) | (x)[2]) #define G4BEBYTE(x) (((x)[0]<<24) | ((x)[1]<<16) | ((x)[2]<<8) | (x)[3]) #define G8BEBYTE(x) (((vlong)G4BEBYTE(x)<<32) | (u32int)G4BEBYTE((x)+4)) typedef vlong Off; typedef char *(*Refill)(int ar, char *bufs, int justhdr); enum { Stdin, Stdout, Stderr }; enum { Rd, Wr }; /* pipe fd-array indices */ enum { Output, Input }; enum { None, Toc, Xtract, Replace }; enum { Alldata, Justnxthdr }; enum { Tblock = 512, Namsiz = 100, Maxpfx = 155, /* from POSIX */ Maxname = Namsiz + 1 + Maxpfx, Maxlongname = 65535, Binsize = 0x80, /* flag in size[0], from gnu: positive binary size */ Binnegsz = 0xff, /* flag in size[0]: negative binary size */ Nblock = 40, /* maximum blocksize */ Dblock = 20, /* default blocksize */ Debug = 0, }; /* POSIX link flags */ enum { LF_PLAIN1 = '\0', LF_PLAIN2 = '0', LF_LINK = '1', LF_SYMLINK1 = '2', LF_SYMLINK2 = 's', /* 4BSD used this */ LF_CHR = '3', LF_BLK = '4', LF_DIR = '5', LF_FIFO = '6', LF_CONTIG = '7', /* 'A' - 'Z' are reserved for custom implementations */ LF_LONGNAME = 'L', /* GNU extenstion */ LF_LONGLINK = 'K', LF_PAXHDR = 'x', /* PAX header */ LF_PAXGLOBL = 'g', }; #define islink(lf) (isreallink(lf) || issymlink(lf)) #define isreallink(lf) ((lf) == LF_LINK) #define issymlink(lf) ((lf) == LF_SYMLINK1 || (lf) == LF_SYMLINK2) typedef union { uchar data[Tblock]; struct { char name[Namsiz]; char mode[8]; char uid[8]; char gid[8]; char size[12]; char mtime[12]; char chksum[8]; char linkflag; char linkname[Namsiz]; /* rest are defined by POSIX's ustar format; see p1003.2b */ char magic[6]; /* "ustar" */ char version[2]; char uname[32]; char gname[32]; char devmajor[8]; char devminor[8]; char prefix[Maxpfx]; /* if non-null, path= prefix "/" name */ }; } Blk; typedef struct { char *name; char *uid; char *gid; ulong mode; vlong size; vlong mtime; vlong atime; } Hdr; typedef struct { char *comp; char *decomp; char *sfx[4]; } Compress; static Compress comps[] = { "gzip", "gunzip", { ".tar.gz", ".tgz" }, /* default */ "compress", "uncompress", { ".tar.Z", ".tz" }, "bzip2", "bunzip2", { ".tar.bz", ".tbz", ".tar.bz2",".tbz2" }, }; typedef struct { int kid; int fd; /* original fd */ int rfd; /* replacement fd */ int input; int open; } Pushstate; #define OTHER(rdwr) ((rdwr) == Rd? Wr: Rd) static int fixednblock; static int verb; static int posix = 1; static int docreate; static int aruid; static int argid; static int relative = 1; static int settime; static int verbose; static int docompress; static int keepexisting; static int ignerrs; /* flag: ignore i/o errors if possible */ static Off blkoff; /* offset of the current archive block (not Tblock) */ static Off nexthdr; static int nblock = Dblock; static int resync; static char *usefile, *arname = "archive"; static char origdir[Maxlongname+1]; static Blk *tpblk, *endblk; static Blk *curblk; static Hdr globlhdr; static void usage(void) { fprint(2, "usage: %s {crtx}[PRTfgikmpsuvz] [archive] [file1 file2...]\n", argv0); exits("usage"); } /* I/O, with error retry or exit */ static int cope(char *name, int fd, void *buf, long len, Off off) { fprint(2, "%s: %serror reading %s: %r\n", argv0, (ignerrs? "ignoring ": ""), name); if (!ignerrs) exits("read error"); /* pretend we read len bytes of zeroes */ memset(buf, 0, len); if (off >= 0) /* seekable? */ seek(fd, off + len, 0); return len; } static int eread(char *name, int fd, void *buf, long len) { int rd; Off off; off = seek(fd, 0, 1); /* for coping with errors */ rd = read(fd, buf, len); if (rd < 0) rd = cope(name, fd, buf, len, off); return rd; } static int ereadn(char *name, int fd, void *buf, long len) { int rd; Off off; off = seek(fd, 0, 1); rd = readn(fd, buf, len); if (rd < 0) rd = cope(name, fd, buf, len, off); return rd; } static int ewrite(char *name, int fd, void *buf, long len) { int rd; werrstr(""); rd = write(fd, buf, len); if (rd != len) sysfatal("error writing %s: %r", name); return rd; } /* compression */ static Compress * compmethod(char *name) { if (name) { int i, nmlen, sfxlen; Compress *cp; nmlen = strlen(name); for (cp = comps; cp < comps + nelem(comps); cp++) { for (i = 0; i < nelem(cp->sfx) && cp->sfx[i]; i++) { sfxlen = strlen(cp->sfx[i]); if (nmlen > sfxlen && strcmp(cp->sfx[i], name + nmlen - sfxlen) == 0) return cp; } } } return docompress? comps: nil; } /* * push a filter, cmd, onto fd. if input, it's an input descriptor. * returns a descriptor to replace fd, or -1 on error. */ static int push(int fd, char *cmd, int input, Pushstate *ps) { int nfd, pifds[2]; String *s; ps->open = 0; ps->fd = fd; ps->input = input; if (fd < 0 || pipe(pifds) < 0) return -1; ps->kid = fork(); switch (ps->kid) { case -1: return -1; case 0: if (input) dup(pifds[Wr], Stdout); else dup(pifds[Rd], Stdin); close(pifds[input? Rd: Wr]); dup(fd, (input? Stdin: Stdout)); s = s_new(); if (cmd[0] != '/') s_append(s, "/bin/"); s_append(s, cmd); execl(s_to_c(s), cmd, nil); sysfatal("can't exec %s: %r", cmd); default: nfd = pifds[input? Rd: Wr]; close(pifds[input? Wr: Rd]); break; } ps->rfd = nfd; ps->open = 1; return nfd; } static char * pushclose(Pushstate *ps) { Waitmsg *wm; if (ps->fd < 0 || ps->rfd < 0 || !ps->open) return "not open"; close(ps->rfd); ps->rfd = -1; ps->open = 0; while ((wm = wait()) != nil && wm->pid != ps->kid) continue; return wm? wm->msg: nil; } /* * block-buffer management */ static void initblks(void) { free(tpblk); tpblk = malloc(Tblock * nblock); assert(tpblk != nil); endblk = tpblk + nblock; } /* * (re)fill block buffers from archive. `justhdr' means we don't care * about the data before the next header block. */ static char * refill(int ar, char *bufs, int justhdr) { int i, n; unsigned bytes = Tblock * nblock; static int done, first = 1, seekable; if (done) return nil; blkoff = seek(ar, 0, 1); /* note position for `tar r' */ if (first) seekable = blkoff >= 0; /* try to size non-pipe input at first read */ if (first && usefile && !fixednblock) { n = eread(arname, ar, bufs, bytes); if (n == 0) sysfatal("EOF reading archive %s: %r", arname); i = n; if (i % Tblock != 0) sysfatal("%s: archive block size (%d) error", arname, i); i /= Tblock; if (i != nblock) { nblock = i; fprint(2, "%s: blocking = %d\n", argv0, nblock); endblk = (Blk *)bufs + nblock; bytes = n; } } else if (justhdr && seekable && nexthdr - blkoff >= bytes) { /* optimisation for huge archive members on seekable media */ if (seek(ar, bytes, 1) < 0) sysfatal("can't seek on archive %s: %r", arname); n = bytes; } else n = ereadn(arname, ar, bufs, bytes); first = 0; if (n == 0) sysfatal("unexpected EOF reading archive %s", arname); if (n % Tblock != 0) sysfatal("partial block read from archive %s", arname); if (n != bytes) { done = 1; memset(bufs + n, 0, bytes - n); } return bufs; } static Blk * getblk(int ar, Refill rfp, int justhdr) { if (curblk == nil || curblk >= endblk) { /* input block exhausted? */ if (rfp != nil && (*rfp)(ar, (char *)tpblk, justhdr) == nil) return nil; curblk = tpblk; } return curblk++; } static Blk * getblkrd(int ar, int justhdr) { return getblk(ar, refill, justhdr); } static Blk * getblke(int ar) { return getblk(ar, nil, Alldata); } static Blk * getblkz(int ar) { Blk *bp = getblke(ar); if (bp != nil) memset(bp->data, 0, Tblock); return bp; } /* * how many block buffers are available, starting at the address * just returned by getblk*? */ static int gothowmany(int max) { int n = endblk - (curblk - 1); return n > max? max: n; } /* * indicate that one is done with the last block obtained from getblke * and it is now available to be written into the archive. */ static void putlastblk(int ar) { unsigned bytes = Tblock * nblock; /* if writing end-of-archive, aid compression (good hygiene too) */ if (curblk < endblk) memset(curblk, 0, (char *)endblk - (char *)curblk); ewrite(arname, ar, tpblk, bytes); } static void putblk(int ar) { if (curblk >= endblk) putlastblk(ar); } static void putbackblk(int ar) { curblk--; USED(ar); } static void putreadblks(int ar, int blks) { curblk += blks - 1; USED(ar); } static void putblkmany(int ar, int blks) { assert(blks > 0); curblk += blks - 1; putblk(ar); } /* * common routines */ /* * modifies hp->chksum but restores it; important for the last block of the * old archive when updating with `tar rf archive' */ static long chksum(Blk *bp) { int n = Tblock; long i = 0; uchar *cp = bp->data; char oldsum[sizeof bp->chksum]; memmove(oldsum, bp->chksum, sizeof oldsum); memset(bp->chksum, ' ', sizeof bp->chksum); while (n-- > 0) i += *cp++; memmove(bp->chksum, oldsum, sizeof oldsum); return i; } static int isustar(Blk *bp) { return strcmp(bp->magic, "ustar") == 0; } /* * s is at most n bytes long, but need not be NUL-terminated. * if shorter than n bytes, all bytes after the first NUL must also * be NUL. */ static int strnlen(char *s, int n) { return s[n - 1] != '\0'? n: strlen(s); } /* set fullname from header */ static char * parsename(Blk *bp, char *buf, int nbuf) { int pfxlen, namlen; namlen = strnlen(bp->name, sizeof bp->name); if (bp->prefix[0] == '\0' || !isustar(bp)) { /* old-style name? */ assert(nbuf > namlen); memmove(buf, bp->name, namlen); buf[namlen] = '\0'; return buf; } /* name is in two pieces */ pfxlen = strnlen(bp->prefix, sizeof bp->prefix); assert(nbuf > pfxlen + 1 + namlen); memmove(buf, bp->prefix, pfxlen); buf[pfxlen] = '/'; memmove(buf + pfxlen + 1, bp->name, namlen); buf[pfxlen + 1 + namlen] = '\0'; return buf; } static int isdir(Blk *bp, char *name) { /* the mode test is ugly but sometimes necessary */ return bp->linkflag == LF_DIR || strrchr(name, '\0')[-1] == '/' || (strtoul(bp->mode, nil, 8)&0170000) == 040000; } static int eotar(Blk *bp) { char buf[Maxname + 1]; return parsename(bp, buf, sizeof(buf))[0] == '\0'; } /* static uvlong getbe(uchar *src, int size) { uvlong vl = 0; while (size-- > 0) { vl <<= 8; vl |= *src++; } return vl; } */ static void putbe(uchar *dest, uvlong vl, int size) { for (dest += size; size-- > 0; vl >>= 8) *--dest = vl; } /* * cautious parsing of octal numbers as ascii strings in * a tar header block. this is particularly important for * trusting the checksum when trying to resync. */ static uvlong hdrotoull(char *st, char *end, uvlong errval, char *name, char *field) { char *numb; for (numb = st; (*numb == ' ' || *numb == '\0') && numb < end; numb++) ; if (numb < end && isascii(*numb) && isdigit(*numb)) return strtoull(numb, nil, 8); else if (numb >= end) fprint(2, "%s: %s: empty %s in header\n", argv0, name, field); else fprint(2, "%s: %s: %s: non-numeric %s in header\n", argv0, name, numb, field); return errval; } /* * return the nominal size from the header block, which is not always the * size in the archive (the archive size may be zero for some file types * regardless of the nominal size). * * gnu and freebsd tars are now recording vlongs as big-endian binary * with a flag in byte 0 to indicate this, which permits file sizes up to * 2^64-1 (actually 2^80-1 but our file sizes are vlongs) rather than 2^33-1. */ static Off hdrsize(Blk *bp) { uchar *p; char buf[Maxname + 1]; if((uchar)bp->size[0] == Binnegsz) { fprint(2, "%s: %s: negative length, which is insane\n", argv0, parsename(bp, buf, sizeof(buf))); return 0; } else if((uchar)bp->size[0] == Binsize) { p = (uchar *)bp->size + sizeof bp->size - 1 - sizeof(vlong); /* -1 for terminating space */ return G8BEBYTE(p); } return hdrotoull(bp->size, bp->size + sizeof bp->size, 0, parsename(bp, buf, sizeof(buf)), "size"); } /* * return the number of bytes recorded in the archive. */ static Off arsize(Blk *bp, char *fname) { if(isdir(bp, fname) || islink(bp->linkflag)) return 0; return hdrsize(bp); } static long parsecksum(char *cksum, char *name) { Blk *bp; return hdrotoull(cksum, cksum + sizeof bp->chksum, (uvlong)-1LL, name, "checksum"); } static Blk * readhdrblk(int ar) { char buf[Maxname + 1]; long hdrcksum; Blk *bp; bp = getblkrd(ar, Alldata); if (bp == nil) sysfatal("unexpected EOF instead of archive header in %s", arname); if (eotar(bp)) /* end-of-archive block? */ return nil; hdrcksum = parsecksum(bp->chksum, parsename(bp, buf, sizeof(buf))); if (hdrcksum == -1 || chksum(bp) != hdrcksum) { if (!resync) sysfatal("bad archive header checksum in %s: " "name %.100s...; expected %#luo got %#luo", arname, bp->name, hdrcksum, chksum(bp)); fprint(2, "%s: skipping past archive header with bad checksum in %s...", argv0, arname); do { bp = getblkrd(ar, Alldata); if (bp == nil) sysfatal("unexpected EOF looking for archive header in %s", arname); hdrcksum = parsecksum(bp->chksum, parsename(bp, buf, sizeof(buf))); } while (hdrcksum == -1 || chksum(bp) != hdrcksum); fprint(2, "found %s\n", parsename(bp, buf, sizeof(buf))); } nexthdr += Tblock*(1 + BYTES2TBLKS(hdrsize(bp))); return bp; } static int getname(int ar, Blk *bp, Hdr *hdr) { char buf[Maxlongname+1]; ulong blksleft, blksread; char *p; int n; if (bp->linkflag != LF_LONGNAME){ /* PAX attributes take precedence */ if(hdr->name == nil) hdr->name = strdup(parsename(bp, buf, sizeof(buf))); return 0; } p = buf; for (blksleft = BYTES2TBLKS(hdrsize(bp)); blksleft > 0; blksleft -= blksread) { bp = getblkrd(ar, Alldata); if (bp == nil) sysfatal("unexpected EOF on archive reading from %s", arname); blksread = gothowmany(blksleft); n = &buf[Maxlongname] - p; if(Tblock*blksread < n) n = Tblock*blksread; memmove(p, bp->data, n); p += n; } *p = '\0'; hdr->name = strdup(buf); return 1; } static char * matchattr(char *kvp, char *k) { if (strncmp(kvp, k, strlen(k)) == 0) return kvp + strlen(k); return nil; } static int parsepax(int ar, Blk *bp, Hdr *hdr, int paxtype) { char *p, *lp, *le, *e, *kvp, *val, lenbuf[16]; ulong blksleft; int n, off, len; Blk *b; if (!isustar(bp) || bp->linkflag != paxtype) return 0; off = 0; len = -1; kvp = nil; lp = lenbuf; le = lenbuf + sizeof(lenbuf); for (blksleft = BYTES2TBLKS(hdrsize(bp)); blksleft > 0; ) { b = getblkrd(ar, Alldata); if (b == nil) sysfatal("unexpected EOF on archive reading attr for %s from %s", bp->name, arname); p = (char *)b->data; e = (char *)b->data + sizeof(b->data); while(p != e) { if(*p == '\0') break; /* * Copy out the length prefix. This may span a block boundary, so be * careful about when we get the next block. The length prefix includes * both its own length and the trailing newline. We want to trim the * length prefix, since we already consumed it. */ if(len == -1){ while(p != e && *p >= '0' && *p <= '9'){ if(lp + 1 == le) sysfatal("oversize length prefix in pax header"); *lp++ = *p++; } if (p == e && blksleft > 0) goto nextblk; if (*p++ != ' ') sysfatal("invalid delimiter in pax header: %c (%s)\n", *p, p); *lp++ = '\0'; len = atoi(lenbuf) - strlen(lenbuf) - 1; } if (kvp == nil && (kvp = malloc(len)) == nil) sysfatal("out of memory: %r"); n = (len - off > e - p) ? e - p : len - off; memcpy(kvp + off, p, n); kvp[len - 1] = '\0'; off += n; p += n; assert(e >= p); if (len == off) { if ((val = matchattr(kvp, "path=")) != nil) { free(hdr->name); hdr->name = strdup(val); } else if ((val = matchattr(kvp, "linkpath=")) != nil) { /* Mostly for better error messages. */ free(hdr->name); hdr->name = strdup(val); } else if ((val = matchattr(kvp, "uname=")) != nil) { free(hdr->uid); hdr->uid = strdup(val); } else if ((val = matchattr(kvp, "gname=")) != nil) { free(hdr->gid); hdr->gid = strdup(val); } else if ((val = matchattr(kvp, "atime=")) != nil) hdr->atime = strtoll(val, nil, 0); else if ((val = matchattr(kvp, "mtime=")) != nil) hdr->mtime = strtoll(val, nil, 0); else if ((val = matchattr(kvp, "size=")) != nil) hdr->size = strtoll(val, nil, 0); else if (matchattr(kvp, "comment=") == nil && matchattr(kvp, "ctime=") == nil) fprint(2, "warning: pax attribute not supported: %s\n", kvp); free(kvp); kvp = nil; lp = lenbuf; off = 0; len = -1; } } nextblk: blksleft--; } return 1; } static int parsehdr(Hdr *hdr, Blk *bp) { int ustar; ustar = isustar(bp); if(hdr->mode == -1) hdr->mode = (strtoul(bp->mode, nil, 8) & 0777); if(hdr->mode == -1) hdr->mode = globlhdr.mode; if (isdir(bp, hdr->name)) hdr->mode |= DMDIR; if (hdr->atime == -1) hdr->atime = -1; if (hdr->atime == -1) hdr->atime = globlhdr.atime; if (hdr->mtime == -1) hdr->mtime = strtol(bp->mtime, nil, 8); if (hdr->mtime == -1) hdr->mtime = globlhdr.mtime; if (hdr->size == -1) hdr->size = arsize(bp, hdr->name); if (ustar && hdr->uid == nil) hdr->uid = strdup(bp->uname); if (hdr->uid == nil) hdr->uid = (globlhdr.uid != nil) ? strdup(globlhdr.uid) : nil; if (ustar && hdr->gid == nil) hdr->gid = strdup(bp->uname); if (hdr->gid == nil) hdr->gid = (globlhdr.gid != nil) ? strdup(globlhdr.gid) : nil; return 0; } static void nullhdr(Hdr *hdr) { hdr->name = nil; hdr->uid = nil; hdr->gid = nil; hdr->mode = -1; hdr->mtime = -1; hdr->atime = -1; hdr->size = -1; } static Blk * readhdr(int ar, Hdr *hdr) { Blk *bp; nullhdr(hdr); again: if ((bp = readhdrblk(ar)) == nil) return nil; if (parsepax(ar, bp, hdr, LF_PAXHDR)) goto again; if (parsepax(ar, bp, &globlhdr, LF_PAXGLOBL)) goto again; if (getname(ar, bp, hdr)) goto again; if (parsehdr(hdr, bp) == -1) sysfatal("could not parse header: %r"); return bp; } void freehdr(Hdr *hdr) { free(hdr->name); free(hdr->uid); free(hdr->gid); } /* * if name is longer than Namsiz bytes, try to split it at a slash and fit the * pieces into bp->prefix and bp->name. */ static int putfullname(Blk *bp, char *name) { int namlen, pfxlen; char *sl, *osl; String *slname = nil; if (isdir(bp, name)) { slname = s_new(); s_append(slname, name); s_append(slname, "/"); /* posix requires this */ name = s_to_c(slname); } namlen = strlen(name); if (namlen <= Namsiz) { strncpy(bp->name, name, Namsiz); bp->prefix[0] = '\0'; /* ustar paranoia */ return 0; } if (!posix || namlen > Maxname) { fprint(2, "%s: name too long for tar header: %s\n", argv0, name); return -1; } /* * try various splits until one results in pieces that fit into the * appropriate fields of the header. look for slashes from right * to left, in the hopes of putting the largest part of the name into * bp->prefix, which is larger than bp->name. */ sl = strrchr(name, '/'); while (sl != nil) { pfxlen = sl - name; if (pfxlen <= sizeof bp->prefix && namlen-1 - pfxlen <= Namsiz) break; osl = sl; *osl = '\0'; sl = strrchr(name, '/'); *osl = '/'; } if (sl == nil) { fprint(2, "%s: name can't be split to fit tar header: %s\n", argv0, name); return -1; } *sl = '\0'; strncpy(bp->prefix, name, sizeof bp->prefix); *sl++ = '/'; strncpy(bp->name, sl, sizeof bp->name); if (slname) s_free(slname); return 0; } static int mkhdr(Blk *bp, Dir *dir, char *file) { int r; /* * some of these fields run together, so we format them left-to-right * and don't use snprint. */ sprint(bp->mode, "%6lo ", dir->mode & 0777); sprint(bp->uid, "%6o ", aruid); sprint(bp->gid, "%6o ", argid); if (dir->length >= (Off)1<<32) { static int printed; if (!printed) { printed = 1; fprint(2, "%s: storing large sizes in \"base 256\"\n", argv0); } bp->size[0] = Binsize; /* emit so-called `base 256' representation of size */ putbe((uchar *)bp->size+1, dir->length, sizeof bp->size - 2); bp->size[sizeof bp->size - 1] = ' '; } else sprint(bp->size, "%11lluo ", dir->length); sprint(bp->mtime, "%11luo ", dir->mtime); bp->linkflag = (dir->mode&DMDIR? LF_DIR: LF_PLAIN1); r = putfullname(bp, file); if (posix) { strncpy(bp->magic, "ustar", sizeof bp->magic); strncpy(bp->version, "00", sizeof bp->version); strncpy(bp->uname, dir->uid, sizeof bp->uname); strncpy(bp->gname, dir->gid, sizeof bp->gname); } sprint(bp->chksum, "%6luo", chksum(bp)); return r; } static void addtoar(int ar, char *file, char *shortf); static void addtreetoar(int ar, char *file, char *shortf, int fd) { int n; Dir *dent, *dirents; String *name = s_new(); n = dirreadall(fd, &dirents); if (n < 0) fprint(2, "%s: dirreadall %s: %r\n", argv0, file); close(fd); if (n <= 0) return; if (chdir(shortf) < 0) sysfatal("chdir %s: %r", file); if (Debug) fprint(2, "chdir %s\t# %s\n", shortf, file); for (dent = dirents; dent < dirents + n; dent++) { s_reset(name); s_append(name, file); s_append(name, "/"); s_append(name, dent->name); addtoar(ar, s_to_c(name), dent->name); } s_free(name); free(dirents); /* * this assumes that shortf is just one component, which is true * during directory descent, but not necessarily true of command-line * arguments. Our caller (or addtoar's) must reset the working * directory if necessary. */ if (chdir("..") < 0) sysfatal("chdir %s/..: %r", file); if (Debug) fprint(2, "chdir ..\n"); } static void addtoar(int ar, char *file, char *shortf) { int n, fd, isdir; long bytes, blksread; ulong blksleft; Blk *hbp; Dir *dir; String *name = nil; if (shortf[0] == '#') { name = s_new(); s_append(name, "./"); s_append(name, shortf); shortf = s_to_c(name); } if (Debug) fprint(2, "opening %s # %s\n", shortf, file); fd = open(shortf, OREAD); if (fd < 0) { fprint(2, "%s: can't open %s: %r\n", argv0, file); if (name) s_free(name); return; } dir = dirfstat(fd); if (dir == nil) sysfatal("can't fstat %s: %r", file); hbp = getblkz(ar); isdir = (dir->qid.type & QTDIR) != 0; if (mkhdr(hbp, dir, file) < 0) { putbackblk(ar); free(dir); close(fd); if (name) s_free(name); return; } putblk(ar); blksleft = BYTES2TBLKS(dir->length); free(dir); if (isdir) addtreetoar(ar, file, shortf, fd); else { for (; blksleft > 0; blksleft -= blksread) { hbp = getblke(ar); blksread = gothowmany(blksleft); assert(blksread >= 0); bytes = blksread * Tblock; n = ereadn(file, fd, hbp->data, bytes); assert(n >= 0); /* * ignore EOF. zero any partial block to aid * compression and emergency recovery of data. */ if (n < Tblock) memset(hbp->data + n, 0, bytes - n); putblkmany(ar, blksread); } close(fd); if (verbose) fprint(2, "%s\n", file); } if (name) s_free(name); } static char * replace(char **argv) { int i, ar; ulong blksleft, blksread; Off bytes; Blk *bp; Compress *comp = nil; Pushstate ps; if (usefile && docreate) ar = create(usefile, OWRITE, 0666); else if (usefile) ar = open(usefile, ORDWR); else ar = Stdout; if (docreate && docompress) { comp = compmethod(usefile); if (comp) ar = push(ar, comp->comp, Output, &ps); } if (ar < 0) sysfatal("can't open archive %s: %r", usefile); if (usefile && !docreate) { /* skip quickly to the end */ while ((bp = readhdrblk(ar)) != nil) { bytes = hdrsize(bp); for (blksleft = BYTES2TBLKS(bytes); blksleft > 0 && getblkrd(ar, Justnxthdr) != nil; blksleft -= blksread) { blksread = gothowmany(blksleft); putreadblks(ar, blksread); } } /* * we have just read the end-of-archive Tblock. * now seek back over the (big) archive block containing it, * and back up curblk ptr over end-of-archive Tblock in memory. */ if (seek(ar, blkoff, 0) < 0) sysfatal("can't seek back over end-of-archive in %s: %r", arname); curblk--; } for (i = 0; argv[i] != nil; i++) { addtoar(ar, argv[i], argv[i]); chdir(origdir); /* for correctness & profiling */ } /* write end-of-archive marker */ getblkz(ar); putblk(ar); getblkz(ar); putlastblk(ar); if (comp) return pushclose(&ps); if (ar > Stderr) close(ar); return nil; } /* * tar [xt] */ /* is pfx a file-name prefix of name? */ static int prefix(char *name, char *pfx) { char clpfx[Maxlongname+1]; int pfxlen = strlen(pfx); clpfx[Maxlongname] = '\0'; strncpy(clpfx, pfx, Maxlongname); cleanname(clpfx); return strncmp(clpfx, name, pfxlen) == 0 && (name[pfxlen] == '\0' || name[pfxlen] == '/'); } static int match(char *name, char **argv) { char clname[Maxlongname+1]; int i; if (argv[0] == nil) return 1; clname[Maxlongname] = '\0'; strncpy(clname, name, Maxlongname); cleanname(clname); for (i = 0; argv[i] != nil; i++) if (prefix(clname, argv[i])) return 1; return 0; } static void cantcreate(char *s, int mode) { int len; static char *last; /* * Always print about files. Only print about directories * we haven't printed about. (Assumes archive is ordered * nicely.) */ if(mode&DMDIR){ if(last){ /* already printed this directory */ if(strcmp(s, last) == 0) return; /* printed a higher directory, so printed this one */ len = strlen(s); if(memcmp(s, last, len) == 0 && last[len] == '/') return; } /* save */ free(last); last = strdup(s); } fprint(2, "%s: can't create %s: %r\n", argv0, s); } static int makedir(char *s) { int f; if (access(s, AEXIST) == 0) return -1; f = create(s, OREAD, DMDIR | 0777); if (f >= 0) close(f); else cantcreate(s, DMDIR); return f; } static int mkpdirs(char *s) { int err; char *p; p = s; err = 0; while (!err && (p = strchr(p+1, '/')) != nil) { *p = '\0'; err = (access(s, AEXIST) < 0 && makedir(s) < 0); *p = '/'; } return -err; } /* Call access but preserve the error string. */ static int xaccess(char *name, int mode) { char err[ERRMAX]; int rv; err[0] = 0; errstr(err, sizeof err); rv = access(name, mode); errstr(err, sizeof err); return rv; } static int openfname(Blk *bp, char *fname, int mode) { int fd, dir; fd = -1; dir = mode & DMDIR; cleanname(fname); switch (bp->linkflag) { case LF_LINK: case LF_SYMLINK1: case LF_SYMLINK2: case LF_LONGLINK: fprint(2, "%s: can't make (sym)link %s\n", argv0, fname); break; case LF_FIFO: fprint(2, "%s: can't make fifo %s\n", argv0, fname); break; default: if (!keepexisting || access(fname, AEXIST) < 0) { int rw = (dir ? OREAD: OWRITE); fd = create(fname, rw, mode); if (fd < 0) { mkpdirs(fname); fd = create(fname, rw, mode); } if (fd < 0 && (!dir || xaccess(fname, AEXIST) < 0)) cantcreate(fname, mode); } if (fd >= 0 && verbose) fprint(2, "%s\n", fname); break; } return fd; } /* copy from archive to file system (or nowhere for table-of-contents) */ static void copyfromar(int ar, int fd, char *fname, ulong blksleft, Off bytes) { int wrbytes; ulong blksread; Blk *hbp; if (blksleft == 0 || bytes < 0) bytes = 0; for (; blksleft > 0; blksleft -= blksread) { hbp = getblkrd(ar, (fd >= 0? Alldata: Justnxthdr)); if (hbp == nil) sysfatal("unexpected EOF on archive extracting %s from %s", fname, arname); blksread = gothowmany(blksleft); if (blksread <= 0) { fprint(2, "%s: got %ld blocks reading %s!\n", argv0, blksread, fname); blksread = 0; } wrbytes = Tblock*blksread; assert(bytes >= 0); if(wrbytes > bytes) wrbytes = bytes; assert(wrbytes >= 0); if (fd >= 0) ewrite(fname, fd, hbp->data, wrbytes); putreadblks(ar, blksread); bytes -= wrbytes; assert(bytes >= 0); } if (bytes > 0) fprint(2, "%s: %lld bytes uncopied at EOF on archive %s; " "%s not fully extracted\n", argv0, bytes, arname, fname); } static void wrmeta(int fd, Hdr *hdr) /* update metadata */ { Dir nd; nulldir(&nd); nd.mtime = hdr->mtime; nd.mode = hdr->mode; dirfwstat(fd, &nd); if (hdr->gid) { nulldir(&nd); nd.gid = hdr->gid; dirfwstat(fd, &nd); } if (hdr->uid){ nulldir(&nd); nd.uid = hdr->uid; dirfwstat(fd, &nd); } } /* * copy a file from the archive into the filesystem. * fname is result of getname(), so has two extra bytes at beginning. */ static void extract1(int ar, Blk *bp, Hdr *hdr) { int fd = -1; Off bytes = hdr->size; /* for printing */ uvlong blksleft = BYTES2TBLKS(bytes); char *path; /* fiddle name, figure out mode and blocks */ switch (bp->linkflag) { case LF_LINK: case LF_SYMLINK1: case LF_SYMLINK2: case LF_FIFO: blksleft = 0; break; } if((path = malloc(strlen(hdr->name) + 3)) == nil) sysfatal("malloc: %r"); if (relative && hdr->name[0] == '/') strcpy(path, "."); else if(relative && hdr->name[0] == '#') strcpy(path, "./"); else path[0] = '\0'; strcat(path, hdr->name); if (verb == Xtract) fd = openfname(bp, path, hdr->mode); else if (verbose) { char *cp = ctime(hdr->mtime); print("%M %8lld %-12.12s %-4.4s %s\n", hdr->mode, bytes, cp+4, cp+24, path); } else print("%s\n", path); copyfromar(ar, fd, path, blksleft, hdr->size); /* touch up meta data and close */ if (fd >= 0) { /* * directories should be wstated *after* we're done * creating files in them, but we don't do that. */ if (settime) wrmeta(fd, hdr); close(fd); } free(path); } static void skip(int ar, Blk *bp, Hdr *hdr) { ulong blksleft, blksread; Blk *hbp; for (blksleft = BYTES2TBLKS(arsize(bp, hdr->name)); blksleft > 0; blksleft -= blksread) { hbp = getblkrd(ar, Justnxthdr); if (hbp == nil) sysfatal("unexpected EOF on archive extracting %s from %s", hdr->name, arname); blksread = gothowmany(blksleft); putreadblks(ar, blksread); } } static char * extract(char **argv) { int ar; Blk *bp; Hdr hdr; Compress *comp; Pushstate ps; if (usefile) ar = open(usefile, OREAD); else ar = Stdin; comp = compmethod(usefile); if (comp) ar = push(ar, comp->decomp, Input, &ps); if (ar < 0) sysfatal("can't open archive %s: %r", usefile); while ((bp = readhdr(ar, &hdr)) != nil) { if (match(hdr.name, argv)) extract1(ar, bp, &hdr); else skip(ar, bp, &hdr); freehdr(&hdr); } if (comp) return pushclose(&ps); if (ar > Stderr) close(ar); return nil; } void main(int argc, char *argv[]) { int errflg = 0; char *ret = nil; fmtinstall('M', dirmodefmt); TARGBEGIN { case 'c': docreate++; verb = Replace; break; case 'f': usefile = arname = EARGF(usage()); break; case 'g': argid = strtoul(EARGF(usage()), 0, 0); break; case 'i': ignerrs = 1; break; case 'k': keepexisting++; break; case 'm': /* compatibility */ settime = 0; break; case 'p': posix++; break; case 'P': posix = 0; break; case 'r': verb = Replace; break; case 'R': relative = 0; break; case 's': resync++; break; case 't': verb = Toc; break; case 'T': settime++; break; case 'u': aruid = strtoul(EARGF(usage()), 0, 0); break; case 'v': verbose++; break; case 'x': verb = Xtract; break; case 'z': docompress++; break; case '-': break; default: fprint(2, "tar: unknown letter %C\n", TARGC()); errflg++; break; } TARGEND if (argc < 0 || errflg) usage(); initblks(); nullhdr(&globlhdr); switch (verb) { case Toc: case Xtract: ret = extract(argv); break; case Replace: if (getwd(origdir, sizeof origdir) == nil) strcpy(origdir, "/tmp"); ret = replace(argv); break; default: usage(); break; } exits(ret); }