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|
/* tar.c - create/extract archives
*
* Copyright 2014 Ashwini Kumar <ak.ashwini81@gmail.com>
*
* For the command, see
* http://pubs.opengroup.org/onlinepubs/007908799/xcu/tar.html
* For the modern file format, see
* http://pubs.opengroup.org/onlinepubs/9699919799/utilities/pax.html#tag_20_92_13_06
* https://en.wikipedia.org/wiki/Tar_(computing)#File_format
* https://www.gnu.org/software/tar/manual/html_node/Tar-Internals.html
*
* For writing to external program
* http://www.gnu.org/software/tar/manual/html_node/Writing-to-an-External-Program.html
*
* Toybox will never implement the "pax" command as a matter of policy.
*
* Why --exclude pattern but no --include? tar cvzf a.tgz dir --include '*.txt'
*
USE_TAR(NEWTOY(tar, "&(restrict)(full-time)(no-recursion)(numeric-owner)(no-same-permissions)(overwrite)(exclude)*(mode):(mtime):(group):(owner):(to-command):o(no-same-owner)p(same-permissions)k(keep-old)c(create)|h(dereference)x(extract)|t(list)|v(verbose)J(xz)j(bzip2)z(gzip)S(sparse)O(to-stdout)P(absolute-names)m(touch)X(exclude-from)*T(files-from)*C(directory):f(file):a[!txc][!jzJa]", TOYFLAG_USR|TOYFLAG_BIN))
config TAR
bool "tar"
default y
help
usage: tar [-cxt] [-fvohmjkOS] [-XTCf NAME] [FILE...]
Create, extract, or list files in a .tar (or compressed t?z) file.
Options:
c Create x Extract t Test (list)
f tar FILE (default -) C Change to DIR first v Verbose display
o Ignore owner h Follow symlinks m Ignore mtime
J xz compression j bzip2 compression z gzip compression
O Extract to stdout X exclude names in FILE T include names in FILE
--exclude FILENAME to exclude --full-time Show seconds with -tv
--mode MODE Adjust modes --mtime TIME Override timestamps
--owner NAME Set file owner to NAME --group NAME Set file group to NAME
--sparse Record sparse files
--restrict All archive contents must extract under one subdirectory
--numeric-owner Save/use/display uid and gid, not user/group name
--no-recursion Don't store directory contents
*/
#define FOR_tar
#include "toys.h"
GLOBALS(
char *f, *C;
struct arg_list *T, *X;
char *to_command, *owner, *group, *mtime, *mode;
struct arg_list *exclude;
struct double_list *incl, *excl, *seen;
struct string_list *dirs;
char *cwd;
int fd, ouid, ggid, hlc, warn, adev, aino, sparselen;
long long *sparse;
time_t mtt;
// hardlinks seen so far (hlc many)
struct {
char *arg;
ino_t ino;
dev_t dev;
} *hlx;
// Parsed information about a tar header.
struct tar_header {
char *name, *link_target, *uname, *gname;
long long size, ssize;
uid_t uid;
gid_t gid;
mode_t mode;
time_t mtime;
dev_t device;
} hdr;
)
struct tar_hdr {
char name[100], mode[8], uid[8], gid[8],size[12], mtime[12], chksum[8],
type, link[100], magic[8], uname[32], gname[32], major[8], minor[8],
prefix[155], padd[12];
};
// convert from int to octal (or base-256)
static void itoo(char *str, int len, unsigned long long val)
{
// Do we need binary encoding?
if (!(val>>(3*(len-1)))) sprintf(str, "%0*llo", len-1, val);
else {
*str = 128;
while (--len) *++str = val>>(3*len);
}
}
#define ITOO(x, y) itoo(x, sizeof(x), y)
// convert octal (or base-256) to int
static unsigned long long otoi(char *str, unsigned len)
{
unsigned long long val = 0;
// When tar value too big or octal, use binary encoding with high bit set
if (128&*str) while (--len) val = (val<<8)+*++str;
else {
while (len && *str == ' ') str++;
while (len && *str>='0' && *str<='7') val = val*8+*str++-'0', len--;
if (len && *str && *str != ' ') error_exit("bad header");
}
return val;
}
#define OTOI(x) otoi(x, sizeof(x))
static void write_longname(char *name, char type)
{
struct tar_hdr tmp;
int sz = strlen(name) +1;
memset(&tmp, 0, sizeof(tmp));
strcpy(tmp.name, "././@LongLink");
ITOO(tmp.uid, 0);
ITOO(tmp.gid, 0);
ITOO(tmp.size, sz);
ITOO(tmp.mtime, 0);
tmp.type = type;
strcpy(tmp.magic, "ustar ");
// Historical nonsense to match other implementations. Never used.
ITOO(tmp.mode, 0644);
strcpy(tmp.uname, "root");
strcpy(tmp.gname, "root");
// Calculate checksum. Since 512*255 = 0377000 in octal, this can never
// use more than 6 digits. The last byte is ' ' for historical reasons.
itoo(tmp.chksum, sizeof(tmp.chksum)-1, tar_cksum(&tmp));
tmp.chksum[7] = ' ';
// write header and name, padded with NUL to block size
xwrite(TT.fd, &tmp, 512);
xwrite(TT.fd, name, sz);
if (sz%512) xwrite(TT.fd, toybuf, 512-(sz%512));
}
static struct double_list *filter(struct double_list *lst, char *name)
{
struct double_list *end = lst;
if (lst)
// constant is FNM_LEADING_DIR
do if (!fnmatch(lst->data, name, 1<<3)) return lst;
while (end != (lst = lst->next));
return 0;
}
static void skippy(long long len)
{
if (lskip(TT.fd, len)) perror_exit("EOF");
}
// allocate and read data from TT.fd
static void alloread(void *buf, int len)
{
// actually void **, but automatic typecasting doesn't work with void ** :(
char **b = buf;
free(*b);
*b = xmalloc(len+1);
xreadall(TT.fd, *b, len);
(*b)[len] = 0;
}
// callback from dirtree to create archive
static int add_to_tar(struct dirtree *node)
{
struct stat *st = &(node->st);
struct tar_hdr hdr;
struct passwd *pw = pw;
struct group *gr = gr;
int i, fd = -1, norecurse = FLAG(no_recursion);
char *name, *lnk, *hname;
if (!dirtree_notdotdot(node)) return 0;
if (TT.adev == st->st_dev && TT.aino == st->st_ino) {
error_msg("'%s' file is the archive; not dumped", node->name);
return 0;
}
i = 1;
name = hname = dirtree_path(node, &i);
// exclusion defaults to --no-anchored and --wildcards-match-slash
for (lnk = name; *lnk;) {
if (filter(TT.excl, lnk)) {
norecurse++;
goto done;
}
while (*lnk && *lnk!='/') lnk++;
while (*lnk=='/') lnk++;
}
// Consume the 1 extra byte alocated in dirtree_path()
if (S_ISDIR(st->st_mode) && name[i-1] != '/') strcat(name, "/");
// remove leading / and any .. entries from saved name
if (!FLAG(P)) while (*hname == '/') hname++;
for (lnk = hname;;) {
if (!(lnk = strstr(lnk, ".."))) break;
if (lnk == hname || lnk[-1] == '/') {
if (!lnk[2]) goto done;
if (lnk[2]=='/') lnk = hname = lnk+3;
} else lnk+= 2;
}
if (!*hname) goto done;
if (TT.warn && hname != name) {
fprintf(stderr, "removing leading '%.*s' from member names\n",
(int)(hname-name), name);
TT.warn = 0;
}
if (TT.owner) st->st_uid = TT.ouid;
if (TT.group) st->st_gid = TT.ggid;
if (TT.mode) st->st_mode = string_to_mode(TT.mode, st->st_mode);
if (TT.mtime) st->st_mtime = TT.mtt;
memset(&hdr, 0, sizeof(hdr));
strncpy(hdr.name, hname, sizeof(hdr.name));
ITOO(hdr.mode, st->st_mode &07777);
ITOO(hdr.uid, st->st_uid);
ITOO(hdr.gid, st->st_gid);
ITOO(hdr.size, 0); //set size later
ITOO(hdr.mtime, st->st_mtime);
strcpy(hdr.magic, "ustar ");
// Hard link or symlink? i=0 neither, i=1 hardlink, i=2 symlink
// Are there hardlinks to a non-directory entry?
if (st->st_nlink>1 && !S_ISDIR(st->st_mode)) {
// Have we seen this dev&ino before?
for (i = 0; i<TT.hlc; i++) {
if (st->st_ino == TT.hlx[i].ino && st->st_dev == TT.hlx[i].dev)
break;
}
if (i != TT.hlc) {
lnk = TT.hlx[i].arg;
i = 1;
} else {
// first time we've seen it. Store as normal file, but remember it.
if (!(TT.hlc&255))
TT.hlx = xrealloc(TT.hlx, sizeof(*TT.hlx)*(TT.hlc+256));
TT.hlx[TT.hlc].arg = xstrdup(hname);
TT.hlx[TT.hlc].ino = st->st_ino;
TT.hlx[TT.hlc].dev = st->st_dev;
TT.hlc++;
i = 0;
}
} else i = 0;
// Handle file types
if (i || S_ISLNK(st->st_mode)) {
hdr.type = '1'+!i;
if (!i && !(lnk = xreadlink(name))) {
perror_msg("readlink");
goto done;
}
if (strlen(lnk) > sizeof(hdr.link)) write_longname(lnk, 'K');
strncpy(hdr.link, lnk, sizeof(hdr.link));
if (!i) free(lnk);
} else if (S_ISREG(st->st_mode)) {
hdr.type = '0';
ITOO(hdr.size, st->st_size);
} else if (S_ISDIR(st->st_mode)) hdr.type = '5';
else if (S_ISFIFO(st->st_mode)) hdr.type = '6';
else if (S_ISBLK(st->st_mode) || S_ISCHR(st->st_mode)) {
hdr.type = (S_ISCHR(st->st_mode))?'3':'4';
ITOO(hdr.major, dev_major(st->st_rdev));
ITOO(hdr.minor, dev_minor(st->st_rdev));
} else {
error_msg("unknown file type '%o'", st->st_mode & S_IFMT);
goto done;
}
if (strlen(hname) > sizeof(hdr.name)) write_longname(hname, 'L');
if (!FLAG(numeric_owner)) {
if (TT.owner || (pw = bufgetpwuid(st->st_uid)))
strncpy(hdr.uname, TT.owner ? TT.owner : pw->pw_name, sizeof(hdr.uname));
if (TT.group || (gr = bufgetgrgid(st->st_gid)))
strncpy(hdr.gname, TT.group ? TT.group : gr->gr_name, sizeof(hdr.gname));
}
TT.sparselen = 0;
if (hdr.type == '0') {
// Before we write the header, make sure we can read the file
if ((fd = open(name, O_RDONLY)) < 0) {
perror_msg("can't open '%s'", name);
return 0;
}
if (FLAG(S)) {
long long lo, ld = 0, len = 0;
// Enumerate the extents
while ((lo = lseek(fd, ld, SEEK_HOLE)) != -1) {
if (!(TT.sparselen&511))
TT.sparse = xrealloc(TT.sparse, (TT.sparselen+514)*sizeof(long long));
if (ld != lo) {
TT.sparse[TT.sparselen++] = ld;
len += TT.sparse[TT.sparselen++] = lo-ld;
}
if (lo == st->st_size || (ld = lseek(fd, lo, SEEK_DATA)) < lo) break;
}
// If there were extents, change type to S record
if (TT.sparselen>2) {
TT.sparse[TT.sparselen++] = st->st_size;
TT.sparse[TT.sparselen++] = 0;
hdr.type = 'S';
lnk = (char *)&hdr;
for (i = 0; i<TT.sparselen && i<8; i++)
itoo(lnk+386+12*i, 12, TT.sparse[i]);
// Record if there's overflow records, change length to sparse length,
// record apparent length
if (TT.sparselen>8) lnk[482] = 1;
itoo(lnk+483, 12, st->st_size);
ITOO(hdr.size, len);
} else TT.sparselen = 0;
lseek(fd, 0, SEEK_SET);
}
}
itoo(hdr.chksum, sizeof(hdr.chksum)-1, tar_cksum(&hdr));
hdr.chksum[7] = ' ';
if (FLAG(v)) dprintf((TT.fd==1) ? 2 : 1, "%s\n", hname);
// Write header and data to archive
xwrite(TT.fd, &hdr, 512);
if (TT.sparselen>8) {
char buf[512];
// write extent overflow blocks
for (i=8;;i++) {
int j = (i-8)%42;
if (!j || i==TT.sparselen) {
if (i!=8) {
if (i!=TT.sparselen) buf[504] = 1;
xwrite(TT.fd, buf, 512);
}
if (i==TT.sparselen) break;
memset(buf, 0, sizeof(buf));
}
itoo(buf+12*j, 12, TT.sparse[i]);
}
}
TT.sparselen >>= 1;
if (hdr.type == '0' || hdr.type == 'S') {
if (hdr.type == '0') xsendfile_pad(fd, TT.fd, st->st_size);
else for (i = 0; i<TT.sparselen; i++) {
if (TT.sparse[i*2] != lseek(fd, TT.sparse[i*2], SEEK_SET))
perror_msg("%s: seek %lld", name, TT.sparse[i*2]);
xsendfile_pad(fd, TT.fd, TT.sparse[i*2+1]);
}
if (st->st_size%512) writeall(TT.fd, toybuf, (512-(st->st_size%512)));
close(fd);
}
done:
free(name);
return (DIRTREE_RECURSE|(FLAG(h)?DIRTREE_SYMFOLLOW:0))*!norecurse;
}
static void wsettime(char *s, long long sec)
{
struct timespec times[2] = {{sec, 0},{sec, 0}};
if (utimensat(AT_FDCWD, s, times, AT_SYMLINK_NOFOLLOW))
perror_msg("settime %lld %s", sec, s);
}
// Do pending directory utimes(), NULL to flush all.
static int dirflush(char *name, int isdir)
{
char *s = 0, *ss;
// Barf if name not in TT.cwd
if (name) {
if (!(ss = s = xabspath(name, -1-isdir))) {
error_msg("'%s' bad symlink", name);
return 1;
}
if (TT.cwd[1] && (!strstart(&ss, TT.cwd) || (*ss && *ss!='/'))) {
error_msg("'%s' %s not under '%s'", name, s, TT.cwd);
free(s);
return 1;
}
// --restrict means first entry extracted is what everything must be under
if (FLAG(restrict)) {
free(TT.cwd);
TT.cwd = strdup(s);
toys.optflags ^= FLAG_restrict;
}
// use resolved name so trailing / is stripped
if (isdir) unlink(s);
}
// Set deferred utimes() for directories this file isn't under.
// (Files must be depth-first ordered in tarball for this to matter.)
while (TT.dirs) {
// If next file is under (or equal to) this dir, keep waiting
if (name && strstart(&ss, ss = s) && (!*ss || *ss=='/')) break;
wsettime(TT.dirs->str+sizeof(long long), *(long long *)TT.dirs->str);
free(llist_pop(&TT.dirs));
}
free(s);
// name was under TT.cwd
return 0;
}
// write data to file
static void sendfile_sparse(int fd)
{
long long len, used = 0, sent;
int i = 0, j;
do {
if (TT.sparselen) {
// Seek past holes or fill output with zeroes.
if (-1 == lseek(fd, len = TT.sparse[i*2], SEEK_SET)) {
sent = 0;
while (len) {
// first/last 512 bytes used, rest left zeroes
j = (len>3072) ? 3072 : len;
if (j != writeall(fd, toybuf+512, j)) goto error;
len -= j;
}
} else {
sent = len;
if (!(len = TT.sparse[i*2+1]) && ftruncate(fd, sent+len))
perror_msg("ftruncate");
}
if (len+used>TT.hdr.size) error_exit("sparse overflow");
} else len = TT.hdr.size;
len -= sendfile_len(TT.fd, fd, len, &sent);
used += sent;
if (len) {
error:
if (fd!=1) perror_msg(0);
skippy(TT.hdr.size-used);
break;
}
} while (++i<TT.sparselen);
close(fd);
}
static void extract_to_disk(void)
{
char *name = TT.hdr.name;
int ala = TT.hdr.mode;
if (dirflush(name, S_ISDIR(ala))) {
if (S_ISREG(ala) && !TT.hdr.link_target) skippy(TT.hdr.size);
return;
}
// create path before file if necessary
if (strrchr(name, '/') && mkpath(name) && errno!=EEXIST)
return perror_msg(":%s: can't mkdir", name);
// remove old file, if exists
if (!FLAG(k) && !S_ISDIR(ala) && unlink(name) && errno!=ENOENT)
return perror_msg("can't remove: %s", name);
if (S_ISREG(ala)) {
// hardlink?
if (TT.hdr.link_target) {
if (link(TT.hdr.link_target, name))
return perror_msg("can't link '%s' -> '%s'", name, TT.hdr.link_target);
// write contents
} else {
int fd = xcreate(name,
WARN_ONLY|O_WRONLY|O_CREAT|(FLAG(overwrite)?O_TRUNC:O_EXCL),
ala & 07777);
if (fd != -1) sendfile_sparse(fd);
else skippy(TT.hdr.size);
}
} else if (S_ISDIR(ala)) {
if ((mkdir(name, 0700) == -1) && errno != EEXIST)
return perror_msg("%s: can't create", TT.hdr.name);
} else if (S_ISLNK(ala)) {
if (symlink(TT.hdr.link_target, TT.hdr.name))
return perror_msg("can't link '%s' -> '%s'", name, TT.hdr.link_target);
} else if (mknod(name, ala, TT.hdr.device))
return perror_msg("can't create '%s'", name);
// Set ownership
if (!FLAG(o) && !geteuid()) {
int u = TT.hdr.uid, g = TT.hdr.gid;
if (TT.owner) TT.hdr.uid = TT.ouid;
else if (!FLAG(numeric_owner) && *TT.hdr.uname) {
struct passwd *pw = getpwnam(TT.hdr.uname);
if (pw && (TT.owner || !FLAG(numeric_owner))) TT.hdr.uid = pw->pw_uid;
}
if (TT.group) TT.hdr.gid = TT.ggid;
else if (!FLAG(numeric_owner) && *TT.hdr.uname) {
struct group *gr = getgrnam(TT.hdr.gname);
if (gr) TT.hdr.gid = gr->gr_gid;
}
if (lchown(name, u, g)) perror_msg("chown %d:%d '%s'", u, g, name);;
}
if (!S_ISLNK(ala)) chmod(TT.hdr.name, FLAG(p) ? ala : ala&0777);
// Apply mtime.
if (!FLAG(m)) {
if (S_ISDIR(ala)) {
struct string_list *sl;
// Writing files into a directory changes directory timestamps, so
// defer mtime updates until contents written.
sl = xmalloc(sizeof(struct string_list)+sizeof(long long)+strlen(name)+1);
*(long long *)sl->str = TT.hdr.mtime;
strcpy(sl->str+sizeof(long long), name);
sl->next = TT.dirs;
TT.dirs = sl;
} else wsettime(TT.hdr.name, TT.hdr.mtime);
}
}
static void unpack_tar(char *first)
{
struct double_list *walk, *delete;
struct tar_hdr tar;
int i, and = 0;
unsigned maj, min;
char *s;
for (;;) {
if (first) {
memcpy(&tar, first, i = 512);
first = 0;
} else {
// align to next block and read it
if (TT.hdr.size%512) skippy(512-TT.hdr.size%512);
i = readall(TT.fd, &tar, 512);
}
if (i && i!=512) error_exit("short header");
// Two consecutive empty headers ends tar even if there's more data
if (!i || !*tar.name) {
if (!i || and++) return;
TT.hdr.size = 0;
continue;
}
// ensure null temination even of pathological packets
tar.padd[0] = and = 0;
// Is this a valid TAR header?
if (!is_tar_header(&tar)) error_exit("bad header");
TT.hdr.size = OTOI(tar.size);
// If this header isn't writing something to the filesystem
if ((tar.type<'0' || tar.type>'7') && tar.type!='S'
&& (*tar.magic && tar.type))
{
// Long name extension header?
if (tar.type == 'K') alloread(&TT.hdr.link_target, TT.hdr.size);
else if (tar.type == 'L') alloread(&TT.hdr.name, TT.hdr.size);
else if (tar.type == 'x') {
char *p, *buf = 0;
int i, len, n = 0;
// Posix extended record "LEN NAME=VALUE\n" format
alloread(&buf, TT.hdr.size);
for (p = buf; (p-buf)<TT.hdr.size; p += len) {
i = sscanf(p, "%u path=%n", &len, &n);
if (i<1 || len<4 || len>TT.hdr.size) {
error_msg("bad header");
break;
}
p[len-1] = 0;
if (n) {
TT.hdr.name = xstrdup(p+n);
break;
}
}
free(buf);
// Ignore everything else.
} else skippy(TT.hdr.size);
continue;
}
// Handle sparse file type
if (tar.type == 'S') {
char sparse[512];
int max = 8;
// Load 4 pairs of offset/len from S block, plus 21 pairs from each
// continuation block, list says where to seek/write sparse file contents
TT.sparselen = 0;
s = 386+(char *)&tar;
*sparse = i = 0;
for (;;) {
if (!(TT.sparselen&511))
TT.sparse = xrealloc(TT.sparse, (TT.sparselen+512)*sizeof(long long));
// If out of data in block check continue flag, stop or load next block
if (++i>max || !*s) {
if (!(*sparse ? sparse[504] : ((char *)&tar)[482])) break;
xreadall(TT.fd, s = sparse, 512);
max = 41;
i = 0;
}
// Load next entry
TT.sparse[TT.sparselen++] = otoi(s, 12);
s += 12;
}
// Odd number of entries (from corrupted tar) would be dropped here
TT.sparselen /= 2;
if (TT.sparselen)
TT.hdr.ssize = TT.sparse[2*TT.sparselen-1]+TT.sparse[2*TT.sparselen-2];
} else {
TT.sparselen = 0;
TT.hdr.ssize = TT.hdr.size;
}
// At this point, we have something to output. Convert metadata.
TT.hdr.mode = OTOI(tar.mode)&0xfff;
if (tar.type == 'S' || !tar.type) TT.hdr.mode |= 0x8000;
else TT.hdr.mode |= (char []){8,8,10,2,6,4,1,8}[tar.type-'0']<<12;
TT.hdr.uid = OTOI(tar.uid);
TT.hdr.gid = OTOI(tar.gid);
TT.hdr.mtime = OTOI(tar.mtime);
maj = OTOI(tar.major);
min = OTOI(tar.minor);
TT.hdr.device = dev_makedev(maj, min);
TT.hdr.uname = xstrndup(TT.owner ? TT.owner : tar.uname, sizeof(tar.uname));
TT.hdr.gname = xstrndup(TT.group ? TT.group : tar.gname, sizeof(tar.gname));
if (TT.owner) TT.hdr.uid = TT.ouid;
else if (!FLAG(numeric_owner)) {
struct passwd *pw = getpwnam(TT.hdr.uname);
if (pw && (TT.owner || !FLAG(numeric_owner))) TT.hdr.uid = pw->pw_uid;
}
if (TT.group) TT.hdr.gid = TT.ggid;
else if (!FLAG(numeric_owner)) {
struct group *gr = getgrnam(TT.hdr.gname);
if (gr) TT.hdr.gid = gr->gr_gid;
}
if (!TT.hdr.link_target && *tar.link)
TT.hdr.link_target = xstrndup(tar.link, sizeof(tar.link));
if (!TT.hdr.name) {
// Glue prefix and name fields together with / if necessary
i = (tar.type=='S') ? 0 : strnlen(tar.prefix, sizeof(tar.prefix));
TT.hdr.name = xmprintf("%.*s%s%.*s", i, tar.prefix,
(i && tar.prefix[i-1] != '/') ? "/" : "",
(int)sizeof(tar.name), tar.name);
}
// Old broken tar recorded dir as "file with trailing slash"
if (S_ISREG(TT.hdr.mode) && (s = strend(TT.hdr.name, "/"))) {
*s = 0;
TT.hdr.mode = (TT.hdr.mode & ~S_IFMT) | S_IFDIR;
}
// Non-regular files don't have contents stored in archive.
if ((TT.hdr.link_target && *TT.hdr.link_target)
|| (tar.type && !S_ISREG(TT.hdr.mode)))
TT.hdr.size = 0;
// Files are seen even if excluded, so check them here.
// TT.seen points to first seen entry in TT.incl, or NULL if none yet.
if ((delete = filter(TT.incl, TT.hdr.name)) && TT.incl != TT.seen) {
if (!TT.seen) TT.seen = delete;
// Move seen entry to end of list.
if (TT.incl == delete) TT.incl = TT.incl->next;
else for (walk = TT.incl; walk != TT.seen; walk = walk->next) {
if (walk == delete) {
dlist_pop(&walk);
dlist_add_nomalloc(&TT.incl, delete);
}
}
}
// Skip excluded files
if (filter(TT.excl, TT.hdr.name) || (TT.incl && !delete))
skippy(TT.hdr.size);
else if (FLAG(t)) {
if (FLAG(v)) {
struct tm *lc = localtime(TT.mtime ? &TT.mtt : &TT.hdr.mtime);
char perm[12], gname[12];
mode_to_string(TT.hdr.mode, perm);
printf("%s", perm);
sprintf(perm, "%u", TT.hdr.uid);
sprintf(gname, "%u", TT.hdr.gid);
printf(" %s/%s ", *TT.hdr.uname ? TT.hdr.uname : perm,
*TT.hdr.gname ? TT.hdr.gname : gname);
if (tar.type=='3' || tar.type=='4') printf("%u,%u", maj, min);
else printf("%9lld", TT.hdr.ssize);
sprintf(perm, ":%02d", lc->tm_sec);
printf(" %d-%02d-%02d %02d:%02d%s ", 1900+lc->tm_year, 1+lc->tm_mon,
lc->tm_mday, lc->tm_hour, lc->tm_min, FLAG(full_time) ? perm : "");
}
printf("%s", TT.hdr.name);
if (TT.hdr.link_target) printf(" -> %s", TT.hdr.link_target);
xputc('\n');
skippy(TT.hdr.size);
} else {
if (FLAG(v)) printf("%s\n", TT.hdr.name);
if (FLAG(O)) sendfile_sparse(1);
else if (FLAG(to_command)) {
if (S_ISREG(TT.hdr.mode)) {
int fd, pid;
xsetenv("TAR_FILETYPE", "f");
xsetenv(xmprintf("TAR_MODE=%o", TT.hdr.mode), 0);
xsetenv(xmprintf("TAR_SIZE=%lld", TT.hdr.ssize), 0);
xsetenv("TAR_FILENAME", TT.hdr.name);
xsetenv("TAR_UNAME", TT.hdr.uname);
xsetenv("TAR_GNAME", TT.hdr.gname);
xsetenv(xmprintf("TAR_MTIME=%llo", (long long)TT.hdr.mtime), 0);
xsetenv(xmprintf("TAR_UID=%o", TT.hdr.uid), 0);
xsetenv(xmprintf("TAR_GID=%o", TT.hdr.gid), 0);
pid = xpopen((char *[]){"sh", "-c", TT.to_command, NULL}, &fd, 0);
// todo: short write exits tar here, other skips data.
sendfile_sparse(fd);
fd = xpclose_both(pid, 0);
if (fd) error_msg("%d: Child returned %d", pid, fd);
}
} else extract_to_disk();
}
free(TT.hdr.name);
free(TT.hdr.link_target);
free(TT.hdr.uname);
free(TT.hdr.gname);
TT.hdr.name = TT.hdr.link_target = 0;
}
}
// Add copy of filename (minus trailing \n and /) to dlist **
static void trim2list(void *list, char *pline)
{
char *n = xstrdup(pline);
int i = strlen(n);
dlist_add(list, n);
if (i && n[i-1]=='\n') i--;
while (i && n[i-1] == '/') i--;
n[i] = 0;
}
// do_lines callback, selects TT.incl or TT.excl based on call order
static void do_XT(char **pline, long len)
{
if (pline) trim2list(TT.X ? &TT.excl : &TT.incl, *pline);
}
void tar_main(void)
{
char *s, **args = toys.optargs,
*archiver = FLAG(z) ? "gzip" : (FLAG(J) ? "xz" : "bzip2");
int len = 0;
// Needed when extracting to command
signal(SIGPIPE, SIG_IGN);
// Get possible early errors out of the way
if (!geteuid()) toys.optflags |= FLAG_p;
if (TT.owner) TT.ouid = xgetuid(TT.owner);
if (TT.group) TT.ggid = xgetgid(TT.group);
if (TT.mtime) xparsedate(TT.mtime, &TT.mtt, (void *)&s, 1);
// Collect file list.
for (; TT.exclude; TT.exclude = TT.exclude->next)
trim2list(&TT.excl, TT.exclude->arg);
for (;TT.X; TT.X = TT.X->next) do_lines(xopenro(TT.X->arg), '\n', do_XT);
for (args = toys.optargs; *args; args++) trim2list(&TT.incl, *args);
for (;TT.T; TT.T = TT.T->next) do_lines(xopenro(TT.T->arg), '\n', do_XT);
// If include file list empty, don't create empty archive
if (FLAG(c)) {
if (!TT.incl) error_exit("empty archive");
TT.fd = 1;
}
// nommu reentry for nonseekable input skips this, parent did it for us
if (toys.stacktop) {
if (TT.f && strcmp(TT.f, "-"))
TT.fd = xcreate(TT.f, TT.fd*(O_WRONLY|O_CREAT|O_TRUNC), 0666);
// Get destination directory
if (TT.C) xchdir(TT.C);
}
// Get destination directory
TT.cwd = xabspath(s = xgetcwd(), 1);
free(s);
// Remember archive inode so we don't overwrite it or add it to itself
{
struct stat st;
if (!fstat(TT.fd, &st)) {
TT.aino = st.st_ino;
TT.adev = st.st_dev;
}
}
// Are we reading?
if (FLAG(x)||FLAG(t)) {
char *hdr = 0;
// autodetect compression type when not specified
if (!(FLAG(j)||FLAG(z)||FLAG(J))) {
len = xread(TT.fd, hdr = toybuf+sizeof(toybuf)-512, 512);
if (len!=512 || !is_tar_header(hdr)) {
// detect gzip and bzip signatures
if (SWAP_BE16(*(short *)hdr)==0x1f8b) toys.optflags |= FLAG_z;
else if (!memcmp(hdr, "BZh", 3)) toys.optflags |= FLAG_j;
else if (peek_be(hdr, 7) == 0xfd377a585a0000UL) toys.optflags |= FLAG_J;
else error_exit("Not tar");
// if we can seek back we don't need to loop and copy data
if (!lseek(TT.fd, -len, SEEK_CUR)) hdr = 0;
}
}
if (FLAG(j)||FLAG(z)||FLAG(J)) {
int pipefd[2] = {hdr ? -1 : TT.fd, -1}, i, pid;
struct string_list *zcat = find_in_path(getenv("PATH"),
FLAG(j) ? "bzcat" : FLAG(J) ? "xzcat" : "zcat");
// Toybox provides more decompressors than compressors, so try them first
xpopen_both(zcat ? (char *[]){zcat->str, 0} :
(char *[]){archiver, "-dc", 0}, pipefd);
if (CFG_TOYBOX_FREE) llist_traverse(zcat, free);
if (!hdr) {
// If we could seek, child gzip inherited fd and we read its output
close(TT.fd);
TT.fd = pipefd[1];
} else {
// If we autodetected type but then couldn't lseek to put the data back
// we have to loop reading data from TT.fd and pass it to gzip ourselves
// (starting with the block of data we read to autodetect).
// dirty trick: move gzip input pipe to stdin so child closes spare copy
dup2(pipefd[0], 0);
if (pipefd[0]) close(pipefd[0]);
// Fork a copy of ourselves to handle extraction (reads from zip output
// pipe, writes to stdout).
pipefd[0] = pipefd[1];
pipefd[1] = 1;
pid = xpopen_both(0, pipefd);
close(pipefd[1]);
// loop writing collated data to zip proc
xwrite(0, hdr, len);
for (;;) {
if ((i = read(TT.fd, toybuf, sizeof(toybuf)))<1) {
close(0);
xwaitpid(pid);
return;
}
xwrite(0, toybuf, i);
}
}
}
unpack_tar(hdr);
dirflush(0, 0);
// Each time a TT.incl entry is seen it's moved to the end of the list,
// with TT.seen pointing to first seen list entry. Anything between
// TT.incl and TT.seen wasn't encountered in archive..
if (TT.seen != TT.incl) {
if (!TT.seen) TT.seen = TT.incl;
while (TT.incl != TT.seen) {
error_msg("'%s' not in archive", TT.incl->data);
TT.incl = TT.incl->next;
}
}
// are we writing? (Don't have to test flag here, one of 3 must be set)
} else {
struct double_list *dl = TT.incl;
// autodetect compression type based on -f name. (Use > to avoid.)
if (TT.f && !FLAG(j) && !FLAG(z)) {
char *tbz[] = {".tbz", ".tbz2", ".tar.bz", ".tar.bz2"};
if (strend(TT.f, ".tgz") || strend(TT.f, ".tar.gz"))
toys.optflags |= FLAG_z;
if (strend(TT.f, ".txz") || strend(TT.f, ".tar.xz"))
toys.optflags |= FLAG_J;
else for (len = 0; len<ARRAY_LEN(tbz); len++)
if (strend(TT.f, tbz[len])) toys.optflags |= FLAG_j;
}
if (FLAG(j)||FLAG(z)||FLAG(J)) {
int pipefd[2] = {-1, TT.fd};
xpopen_both((char *[]){archiver, "-f", 0}, pipefd);
close(TT.fd);
TT.fd = pipefd[0];
}
do {
TT.warn = 1;
dirtree_flagread(dl->data, FLAG(h)?DIRTREE_SYMFOLLOW:0, add_to_tar);
} while (TT.incl != (dl = dl->next));
writeall(TT.fd, toybuf, 1024);
}
if (CFG_TOYBOX_FREE) {
llist_traverse(TT.excl, llist_free_double);
llist_traverse(TT.incl, llist_free_double);
while(TT.hlc) free(TT.hlx[--TT.hlc].arg);
free(TT.hlx);
free(TT.cwd);
close(TT.fd);
}
}
|