/* Functions for dealing with sparse files
Copyright 2003-2022 Free Software Foundation, Inc.
This program is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 3, or (at your option) any later
version.
This program is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General
Public License for more details.
You should have received a copy of the GNU General Public License along
with this program. If not, see . */
#include
#include
#include
#include "common.h"
struct tar_sparse_file;
static bool sparse_select_optab (struct tar_sparse_file *file);
enum sparse_scan_state
{
scan_begin,
scan_block,
scan_end
};
struct tar_sparse_optab
{
bool (*init) (struct tar_sparse_file *);
bool (*done) (struct tar_sparse_file *);
bool (*sparse_member_p) (struct tar_sparse_file *);
bool (*dump_header) (struct tar_sparse_file *);
bool (*fixup_header) (struct tar_sparse_file *);
bool (*decode_header) (struct tar_sparse_file *);
bool (*scan_block) (struct tar_sparse_file *, enum sparse_scan_state,
void *);
bool (*dump_region) (struct tar_sparse_file *, size_t);
bool (*extract_region) (struct tar_sparse_file *, size_t);
};
struct tar_sparse_file
{
int fd; /* File descriptor */
bool seekable; /* Is fd seekable? */
off_t offset; /* Current offset in fd if seekable==false.
Otherwise unused */
off_t dumped_size; /* Number of bytes actually written
to the archive */
struct tar_stat_info *stat_info; /* Information about the file */
struct tar_sparse_optab const *optab; /* Operation table */
void *closure; /* Any additional data optab calls might
require */
};
/* Dump zeros to file->fd until offset is reached. It is used instead of
lseek if the output file is not seekable */
static bool
dump_zeros (struct tar_sparse_file *file, off_t offset)
{
static char const zero_buf[BLOCKSIZE];
if (offset < file->offset)
{
errno = EINVAL;
return false;
}
while (file->offset < offset)
{
size_t size = (BLOCKSIZE < offset - file->offset
? BLOCKSIZE
: offset - file->offset);
ssize_t wrbytes;
wrbytes = write (file->fd, zero_buf, size);
if (wrbytes <= 0)
{
if (wrbytes == 0)
errno = EINVAL;
return false;
}
file->offset += wrbytes;
}
return true;
}
static bool
tar_sparse_member_p (struct tar_sparse_file *file)
{
if (file->optab->sparse_member_p)
return file->optab->sparse_member_p (file);
return false;
}
static bool
tar_sparse_init (struct tar_sparse_file *file)
{
memset (file, 0, sizeof *file);
if (!sparse_select_optab (file))
return false;
if (file->optab->init)
return file->optab->init (file);
return true;
}
static bool
tar_sparse_done (struct tar_sparse_file *file)
{
if (file->optab->done)
return file->optab->done (file);
return true;
}
static bool
tar_sparse_scan (struct tar_sparse_file *file, enum sparse_scan_state state,
void *block)
{
if (file->optab->scan_block)
return file->optab->scan_block (file, state, block);
return true;
}
static bool
tar_sparse_dump_region (struct tar_sparse_file *file, size_t i)
{
if (file->optab->dump_region)
return file->optab->dump_region (file, i);
return false;
}
static bool
tar_sparse_extract_region (struct tar_sparse_file *file, size_t i)
{
if (file->optab->extract_region)
return file->optab->extract_region (file, i);
return false;
}
static bool
tar_sparse_dump_header (struct tar_sparse_file *file)
{
if (file->optab->dump_header)
return file->optab->dump_header (file);
return false;
}
static bool
tar_sparse_decode_header (struct tar_sparse_file *file)
{
if (file->optab->decode_header)
return file->optab->decode_header (file);
return true;
}
static bool
tar_sparse_fixup_header (struct tar_sparse_file *file)
{
if (file->optab->fixup_header)
return file->optab->fixup_header (file);
return true;
}
static bool
lseek_or_error (struct tar_sparse_file *file, off_t offset)
{
if (file->seekable
? lseek (file->fd, offset, SEEK_SET) < 0
: ! dump_zeros (file, offset))
{
seek_diag_details (file->stat_info->orig_file_name, offset);
return false;
}
return true;
}
/* Takes a blockful of data and basically cruises through it to see if
it's made *entirely* of zeros, returning a 0 the instant it finds
something that is a nonzero, i.e., useful data. */
static bool
zero_block_p (char const *buffer, size_t size)
{
while (size--)
if (*buffer++)
return false;
return true;
}
static void
sparse_add_map (struct tar_stat_info *st, struct sp_array const *sp)
{
struct sp_array *sparse_map = st->sparse_map;
size_t avail = st->sparse_map_avail;
if (avail == st->sparse_map_size)
st->sparse_map = sparse_map =
x2nrealloc (sparse_map, &st->sparse_map_size, sizeof *sparse_map);
sparse_map[avail] = *sp;
st->sparse_map_avail = avail + 1;
}
/* Scan the sparse file byte-by-byte and create its map. */
static bool
sparse_scan_file_raw (struct tar_sparse_file *file)
{
struct tar_stat_info *st = file->stat_info;
int fd = file->fd;
char buffer[BLOCKSIZE];
size_t count = 0;
off_t offset = 0;
struct sp_array sp = {0, 0};
st->archive_file_size = 0;
if (!tar_sparse_scan (file, scan_begin, NULL))
return false;
while ((count = blocking_read (fd, buffer, sizeof buffer)) != 0
&& count != SAFE_READ_ERROR)
{
/* Analyze the block. */
if (zero_block_p (buffer, count))
{
if (sp.numbytes)
{
sparse_add_map (st, &sp);
sp.numbytes = 0;
if (!tar_sparse_scan (file, scan_block, NULL))
return false;
}
}
else
{
if (sp.numbytes == 0)
sp.offset = offset;
sp.numbytes += count;
st->archive_file_size += count;
if (!tar_sparse_scan (file, scan_block, buffer))
return false;
}
offset += count;
}
/* save one more sparse segment of length 0 to indicate that
the file ends with a hole */
if (sp.numbytes == 0)
sp.offset = offset;
sparse_add_map (st, &sp);
st->archive_file_size += count;
return tar_sparse_scan (file, scan_end, NULL);
}
static bool
sparse_scan_file_wholesparse (struct tar_sparse_file *file)
{
struct tar_stat_info *st = file->stat_info;
struct sp_array sp = {0, 0};
/* Note that this function is called only for truly sparse files of size >= 1
block size (checked via ST_IS_SPARSE before). See the thread
http://www.mail-archive.com/bug-tar@gnu.org/msg04209.html for more info */
if (ST_NBLOCKS (st->stat) == 0)
{
st->archive_file_size = 0;
sp.offset = st->stat.st_size;
sparse_add_map (st, &sp);
return true;
}
return false;
}
#ifdef SEEK_HOLE
/* Try to engage SEEK_HOLE/SEEK_DATA feature. */
static bool
sparse_scan_file_seek (struct tar_sparse_file *file)
{
struct tar_stat_info *st = file->stat_info;
int fd = file->fd;
struct sp_array sp = {0, 0};
off_t offset = 0;
off_t data_offset;
off_t hole_offset;
st->archive_file_size = 0;
for (;;)
{
/* locate first chunk of data */
data_offset = lseek (fd, offset, SEEK_DATA);
if (data_offset == (off_t)-1)
/* ENXIO == EOF; error otherwise */
{
if (errno == ENXIO)
{
/* file ends with hole, add one more empty chunk of data */
sp.numbytes = 0;
sp.offset = st->stat.st_size;
sparse_add_map (st, &sp);
return true;
}
return false;
}
hole_offset = lseek (fd, data_offset, SEEK_HOLE);
/* according to specs, if FS does not fully support
SEEK_DATA/SEEK_HOLE it may just implement kind of "wrapper" around
classic lseek() call. We must detect it here and try to use other
hole-detection methods. */
if (offset == 0 /* first loop */
&& data_offset == 0
&& hole_offset == st->stat.st_size)
{
lseek (fd, 0, SEEK_SET);
return false;
}
sp.offset = data_offset;
sp.numbytes = hole_offset - data_offset;
sparse_add_map (st, &sp);
st->archive_file_size += sp.numbytes;
offset = hole_offset;
}
}
#endif
static bool
sparse_scan_file (struct tar_sparse_file *file)
{
/* always check for completely sparse files */
if (sparse_scan_file_wholesparse (file))
return true;
switch (hole_detection)
{
case HOLE_DETECTION_DEFAULT:
case HOLE_DETECTION_SEEK:
#ifdef SEEK_HOLE
if (sparse_scan_file_seek (file))
return true;
#else
if (hole_detection == HOLE_DETECTION_SEEK)
WARN((0, 0,
_("\"seek\" hole detection is not supported, using \"raw\".")));
/* fall back to "raw" for this and all other files */
hole_detection = HOLE_DETECTION_RAW;
#endif
FALLTHROUGH;
case HOLE_DETECTION_RAW:
if (sparse_scan_file_raw (file))
return true;
}
return false;
}
static struct tar_sparse_optab const oldgnu_optab;
static struct tar_sparse_optab const star_optab;
static struct tar_sparse_optab const pax_optab;
static bool
sparse_select_optab (struct tar_sparse_file *file)
{
switch (current_format == DEFAULT_FORMAT ? archive_format : current_format)
{
case V7_FORMAT:
case USTAR_FORMAT:
return false;
case OLDGNU_FORMAT:
case GNU_FORMAT: /*FIXME: This one should disappear? */
file->optab = &oldgnu_optab;
break;
case POSIX_FORMAT:
file->optab = &pax_optab;
break;
case STAR_FORMAT:
file->optab = &star_optab;
break;
default:
return false;
}
return true;
}
static bool
sparse_dump_region (struct tar_sparse_file *file, size_t i)
{
union block *blk;
off_t bytes_left = file->stat_info->sparse_map[i].numbytes;
if (!lseek_or_error (file, file->stat_info->sparse_map[i].offset))
return false;
while (bytes_left > 0)
{
size_t bufsize = (bytes_left > BLOCKSIZE) ? BLOCKSIZE : bytes_left;
size_t bytes_read;
blk = find_next_block ();
bytes_read = safe_read (file->fd, blk->buffer, bufsize);
if (bytes_read == SAFE_READ_ERROR)
{
read_diag_details (file->stat_info->orig_file_name,
(file->stat_info->sparse_map[i].offset
+ file->stat_info->sparse_map[i].numbytes
- bytes_left),
bufsize);
return false;
}
else if (bytes_read == 0)
{
char buf[UINTMAX_STRSIZE_BOUND];
struct stat st;
size_t n;
if (fstat (file->fd, &st) == 0)
n = file->stat_info->stat.st_size - st.st_size;
else
n = file->stat_info->stat.st_size
- (file->stat_info->sparse_map[i].offset
+ file->stat_info->sparse_map[i].numbytes
- bytes_left);
WARNOPT (WARN_FILE_SHRANK,
(0, 0,
ngettext ("%s: File shrank by %s byte; padding with zeros",
"%s: File shrank by %s bytes; padding with zeros",
n),
quotearg_colon (file->stat_info->orig_file_name),
STRINGIFY_BIGINT (n, buf)));
if (! ignore_failed_read_option)
set_exit_status (TAREXIT_DIFFERS);
return false;
}
memset (blk->buffer + bytes_read, 0, BLOCKSIZE - bytes_read);
bytes_left -= bytes_read;
file->dumped_size += bytes_read;
set_next_block_after (blk);
}
return true;
}
static bool
sparse_extract_region (struct tar_sparse_file *file, size_t i)
{
off_t write_size;
if (!lseek_or_error (file, file->stat_info->sparse_map[i].offset))
return false;
write_size = file->stat_info->sparse_map[i].numbytes;
if (write_size == 0)
{
/* Last block of the file is a hole */
if (file->seekable && sys_truncate (file->fd))
truncate_warn (file->stat_info->orig_file_name);
}
else while (write_size > 0)
{
size_t count;
size_t wrbytes = (write_size > BLOCKSIZE) ? BLOCKSIZE : write_size;
union block *blk = find_next_block ();
if (!blk)
{
ERROR ((0, 0, _("Unexpected EOF in archive")));
return false;
}
set_next_block_after (blk);
file->dumped_size += BLOCKSIZE;
count = blocking_write (file->fd, blk->buffer, wrbytes);
write_size -= count;
mv_size_left (file->stat_info->archive_file_size - file->dumped_size);
file->offset += count;
if (count != wrbytes)
{
write_error_details (file->stat_info->orig_file_name,
count, wrbytes);
return false;
}
}
return true;
}
/* Interface functions */
enum dump_status
sparse_dump_file (int fd, struct tar_stat_info *st)
{
bool rc;
struct tar_sparse_file file;
if (!tar_sparse_init (&file))
return dump_status_not_implemented;
file.stat_info = st;
file.fd = fd;
file.seekable = true; /* File *must* be seekable for dump to work */
rc = sparse_scan_file (&file);
if (rc && file.optab->dump_region)
{
tar_sparse_dump_header (&file);
if (fd >= 0)
{
size_t i;
mv_begin_write (file.stat_info->file_name,
file.stat_info->stat.st_size,
file.stat_info->archive_file_size - file.dumped_size);
for (i = 0; rc && i < file.stat_info->sparse_map_avail; i++)
rc = tar_sparse_dump_region (&file, i);
}
}
pad_archive (file.stat_info->archive_file_size - file.dumped_size);
return (tar_sparse_done (&file) && rc) ? dump_status_ok : dump_status_short;
}
bool
sparse_member_p (struct tar_stat_info *st)
{
struct tar_sparse_file file;
if (!tar_sparse_init (&file))
return false;
file.stat_info = st;
return tar_sparse_member_p (&file);
}
bool
sparse_fixup_header (struct tar_stat_info *st)
{
struct tar_sparse_file file;
if (!tar_sparse_init (&file))
return false;
file.stat_info = st;
return tar_sparse_fixup_header (&file);
}
enum dump_status
sparse_extract_file (int fd, struct tar_stat_info *st, off_t *size)
{
bool rc = true;
struct tar_sparse_file file;
size_t i;
if (!tar_sparse_init (&file))
{
*size = st->stat.st_size;
return dump_status_not_implemented;
}
file.stat_info = st;
file.fd = fd;
file.seekable = lseek (fd, 0, SEEK_SET) == 0;
file.offset = 0;
rc = tar_sparse_decode_header (&file);
for (i = 0; rc && i < file.stat_info->sparse_map_avail; i++)
rc = tar_sparse_extract_region (&file, i);
*size = file.stat_info->archive_file_size - file.dumped_size;
return (tar_sparse_done (&file) && rc) ? dump_status_ok : dump_status_short;
}
enum dump_status
sparse_skim_file (struct tar_stat_info *st, bool must_copy)
{
bool rc = true;
struct tar_sparse_file file;
if (!tar_sparse_init (&file))
return dump_status_not_implemented;
file.stat_info = st;
file.fd = -1;
rc = tar_sparse_decode_header (&file);
skim_file (file.stat_info->archive_file_size - file.dumped_size, must_copy);
return (tar_sparse_done (&file) && rc) ? dump_status_ok : dump_status_short;
}
static bool
check_sparse_region (struct tar_sparse_file *file, off_t beg, off_t end)
{
if (!lseek_or_error (file, beg))
return false;
while (beg < end)
{
size_t bytes_read;
size_t rdsize = BLOCKSIZE < end - beg ? BLOCKSIZE : end - beg;
char diff_buffer[BLOCKSIZE];
bytes_read = safe_read (file->fd, diff_buffer, rdsize);
if (bytes_read == SAFE_READ_ERROR)
{
read_diag_details (file->stat_info->orig_file_name,
beg,
rdsize);
return false;
}
else if (bytes_read == 0)
{
report_difference (file->stat_info, _("Size differs"));
return false;
}
if (!zero_block_p (diff_buffer, bytes_read))
{
char begbuf[INT_BUFSIZE_BOUND (off_t)];
report_difference (file->stat_info,
_("File fragment at %s is not a hole"),
offtostr (beg, begbuf));
return false;
}
beg += bytes_read;
}
return true;
}
static bool
check_data_region (struct tar_sparse_file *file, size_t i)
{
off_t size_left;
if (!lseek_or_error (file, file->stat_info->sparse_map[i].offset))
return false;
size_left = file->stat_info->sparse_map[i].numbytes;
mv_size_left (file->stat_info->archive_file_size - file->dumped_size);
while (size_left > 0)
{
size_t bytes_read;
size_t rdsize = (size_left > BLOCKSIZE) ? BLOCKSIZE : size_left;
char diff_buffer[BLOCKSIZE];
union block *blk = find_next_block ();
if (!blk)
{
ERROR ((0, 0, _("Unexpected EOF in archive")));
return false;
}
set_next_block_after (blk);
file->dumped_size += BLOCKSIZE;
bytes_read = safe_read (file->fd, diff_buffer, rdsize);
if (bytes_read == SAFE_READ_ERROR)
{
read_diag_details (file->stat_info->orig_file_name,
(file->stat_info->sparse_map[i].offset
+ file->stat_info->sparse_map[i].numbytes
- size_left),
rdsize);
return false;
}
else if (bytes_read == 0)
{
report_difference (¤t_stat_info, _("Size differs"));
return false;
}
size_left -= bytes_read;
mv_size_left (file->stat_info->archive_file_size - file->dumped_size);
if (memcmp (blk->buffer, diff_buffer, bytes_read))
{
report_difference (file->stat_info, _("Contents differ"));
return false;
}
}
return true;
}
bool
sparse_diff_file (int fd, struct tar_stat_info *st)
{
bool rc = true;
struct tar_sparse_file file;
size_t i;
off_t offset = 0;
if (!tar_sparse_init (&file))
return false;
file.stat_info = st;
file.fd = fd;
file.seekable = true; /* File *must* be seekable for compare to work */
rc = tar_sparse_decode_header (&file);
mv_begin_read (st);
for (i = 0; rc && i < file.stat_info->sparse_map_avail; i++)
{
rc = check_sparse_region (&file,
offset, file.stat_info->sparse_map[i].offset)
&& check_data_region (&file, i);
offset = file.stat_info->sparse_map[i].offset
+ file.stat_info->sparse_map[i].numbytes;
}
if (!rc)
skim_file (file.stat_info->archive_file_size - file.dumped_size, false);
mv_end ();
tar_sparse_done (&file);
return rc;
}
/* Old GNU Format. The sparse file information is stored in the
oldgnu_header in the following manner:
The header is marked with type 'S'. Its 'size' field contains
the cumulative size of all non-empty blocks of the file. The
actual file size is stored in 'realsize' member of oldgnu_header.
The map of the file is stored in a list of 'struct sparse'.
Each struct contains offset to the block of data and its
size (both as octal numbers). The first file header contains
at most 4 such structs (SPARSES_IN_OLDGNU_HEADER). If the map
contains more structs, then the field 'isextended' of the main
header is set to 1 (binary) and the 'struct sparse_header'
header follows, containing at most 21 following structs
(SPARSES_IN_SPARSE_HEADER). If more structs follow, 'isextended'
field of the extended header is set and next next extension header
follows, etc... */
enum oldgnu_add_status
{
add_ok,
add_finish,
add_fail
};
static bool
oldgnu_sparse_member_p (struct tar_sparse_file *file MAYBE_UNUSED)
{
return current_header->header.typeflag == GNUTYPE_SPARSE;
}
/* Add a sparse item to the sparse file and its obstack */
static enum oldgnu_add_status
oldgnu_add_sparse (struct tar_sparse_file *file, struct sparse *s)
{
struct sp_array sp;
if (s->numbytes[0] == '\0')
return add_finish;
sp.offset = OFF_FROM_HEADER (s->offset);
sp.numbytes = OFF_FROM_HEADER (s->numbytes);
if (sp.offset < 0 || sp.numbytes < 0
|| INT_ADD_OVERFLOW (sp.offset, sp.numbytes)
|| file->stat_info->stat.st_size < sp.offset + sp.numbytes
|| file->stat_info->archive_file_size < 0)
return add_fail;
sparse_add_map (file->stat_info, &sp);
return add_ok;
}
static bool
oldgnu_fixup_header (struct tar_sparse_file *file)
{
/* NOTE! st_size was initialized from the header
which actually contains archived size. The following fixes it */
off_t realsize = OFF_FROM_HEADER (current_header->oldgnu_header.realsize);
file->stat_info->archive_file_size = file->stat_info->stat.st_size;
file->stat_info->stat.st_size = max (0, realsize);
return 0 <= realsize;
}
/* Convert old GNU format sparse data to internal representation */
static bool
oldgnu_get_sparse_info (struct tar_sparse_file *file)
{
size_t i;
union block *h = current_header;
int ext_p;
enum oldgnu_add_status rc;
file->stat_info->sparse_map_avail = 0;
for (i = 0; i < SPARSES_IN_OLDGNU_HEADER; i++)
{
rc = oldgnu_add_sparse (file, &h->oldgnu_header.sp[i]);
if (rc != add_ok)
break;
}
for (ext_p = h->oldgnu_header.isextended;
rc == add_ok && ext_p; ext_p = h->sparse_header.isextended)
{
h = find_next_block ();
if (!h)
{
ERROR ((0, 0, _("Unexpected EOF in archive")));
return false;
}
set_next_block_after (h);
for (i = 0; i < SPARSES_IN_SPARSE_HEADER && rc == add_ok; i++)
rc = oldgnu_add_sparse (file, &h->sparse_header.sp[i]);
}
if (rc == add_fail)
{
ERROR ((0, 0, _("%s: invalid sparse archive member"),
file->stat_info->orig_file_name));
return false;
}
return true;
}
static void
oldgnu_store_sparse_info (struct tar_sparse_file *file, size_t *pindex,
struct sparse *sp, size_t sparse_size)
{
for (; *pindex < file->stat_info->sparse_map_avail
&& sparse_size > 0; sparse_size--, sp++, ++*pindex)
{
OFF_TO_CHARS (file->stat_info->sparse_map[*pindex].offset,
sp->offset);
OFF_TO_CHARS (file->stat_info->sparse_map[*pindex].numbytes,
sp->numbytes);
}
}
static bool
oldgnu_dump_header (struct tar_sparse_file *file)
{
off_t block_ordinal = current_block_ordinal ();
union block *blk;
size_t i;
blk = start_header (file->stat_info);
blk->header.typeflag = GNUTYPE_SPARSE;
if (file->stat_info->sparse_map_avail > SPARSES_IN_OLDGNU_HEADER)
blk->oldgnu_header.isextended = 1;
/* Store the real file size */
OFF_TO_CHARS (file->stat_info->stat.st_size, blk->oldgnu_header.realsize);
/* Store the effective (shrunken) file size */
OFF_TO_CHARS (file->stat_info->archive_file_size, blk->header.size);
i = 0;
oldgnu_store_sparse_info (file, &i,
blk->oldgnu_header.sp,
SPARSES_IN_OLDGNU_HEADER);
blk->oldgnu_header.isextended = i < file->stat_info->sparse_map_avail;
finish_header (file->stat_info, blk, block_ordinal);
while (i < file->stat_info->sparse_map_avail)
{
blk = find_next_block ();
memset (blk->buffer, 0, BLOCKSIZE);
oldgnu_store_sparse_info (file, &i,
blk->sparse_header.sp,
SPARSES_IN_SPARSE_HEADER);
if (i < file->stat_info->sparse_map_avail)
blk->sparse_header.isextended = 1;
set_next_block_after (blk);
}
return true;
}
static struct tar_sparse_optab const oldgnu_optab = {
NULL, /* No init function */
NULL, /* No done function */
oldgnu_sparse_member_p,
oldgnu_dump_header,
oldgnu_fixup_header,
oldgnu_get_sparse_info,
NULL, /* No scan_block function */
sparse_dump_region,
sparse_extract_region,
};
/* Star */
static bool
star_sparse_member_p (struct tar_sparse_file *file MAYBE_UNUSED)
{
return current_header->header.typeflag == GNUTYPE_SPARSE;
}
static bool
star_fixup_header (struct tar_sparse_file *file)
{
/* NOTE! st_size was initialized from the header
which actually contains archived size. The following fixes it */
off_t realsize = OFF_FROM_HEADER (current_header->star_in_header.realsize);
file->stat_info->archive_file_size = file->stat_info->stat.st_size;
file->stat_info->stat.st_size = max (0, realsize);
return 0 <= realsize;
}
/* Convert STAR format sparse data to internal representation */
static bool
star_get_sparse_info (struct tar_sparse_file *file)
{
size_t i;
union block *h = current_header;
int ext_p;
enum oldgnu_add_status rc = add_ok;
file->stat_info->sparse_map_avail = 0;
if (h->star_in_header.prefix[0] == '\0'
&& h->star_in_header.sp[0].offset[10] != '\0')
{
/* Old star format */
for (i = 0; i < SPARSES_IN_STAR_HEADER; i++)
{
rc = oldgnu_add_sparse (file, &h->star_in_header.sp[i]);
if (rc != add_ok)
break;
}
ext_p = h->star_in_header.isextended;
}
else
ext_p = 1;
for (; rc == add_ok && ext_p; ext_p = h->star_ext_header.isextended)
{
h = find_next_block ();
if (!h)
{
ERROR ((0, 0, _("Unexpected EOF in archive")));
return false;
}
set_next_block_after (h);
for (i = 0; i < SPARSES_IN_STAR_EXT_HEADER && rc == add_ok; i++)
rc = oldgnu_add_sparse (file, &h->star_ext_header.sp[i]);
file->dumped_size += BLOCKSIZE;
}
if (rc == add_fail)
{
ERROR ((0, 0, _("%s: invalid sparse archive member"),
file->stat_info->orig_file_name));
return false;
}
return true;
}
static struct tar_sparse_optab const star_optab = {
NULL, /* No init function */
NULL, /* No done function */
star_sparse_member_p,
NULL,
star_fixup_header,
star_get_sparse_info,
NULL, /* No scan_block function */
NULL, /* No dump region function */
sparse_extract_region,
};
/* GNU PAX sparse file format. There are several versions:
* 0.0
The initial version of sparse format used by tar 1.14-1.15.1.
The sparse file map is stored in x header:
GNU.sparse.size Real size of the stored file
GNU.sparse.numblocks Number of blocks in the sparse map
repeat numblocks time
GNU.sparse.offset Offset of the next data block
GNU.sparse.numbytes Size of the next data block
end repeat
This has been reported as conflicting with the POSIX specs. The reason is
that offsets and sizes of non-zero data blocks were stored in multiple
instances of GNU.sparse.offset/GNU.sparse.numbytes variables, whereas
POSIX requires the latest occurrence of the variable to override all
previous occurrences.
To avoid this incompatibility two following versions were introduced.
* 0.1
Used by tar 1.15.2 -- 1.15.91 (alpha releases).
The sparse file map is stored in
x header:
GNU.sparse.size Real size of the stored file
GNU.sparse.numblocks Number of blocks in the sparse map
GNU.sparse.map Map of non-null data chunks. A string consisting
of comma-separated values "offset,size[,offset,size]..."
The resulting GNU.sparse.map string can be *very* long. While POSIX does not
impose any limit on the length of a x header variable, this can confuse some
tars.
* 1.0
Starting from this version, the exact sparse format version is specified
explicitly in the header using the following variables:
GNU.sparse.major Major version
GNU.sparse.minor Minor version
X header keeps the following variables:
GNU.sparse.name Real file name of the sparse file
GNU.sparse.realsize Real size of the stored file (corresponds to the old
GNU.sparse.size variable)
The name field of the ustar header is constructed using the pattern
"%d/GNUSparseFile.%p/%f".
The sparse map itself is stored in the file data block, preceding the actual
file data. It consists of a series of octal numbers of arbitrary length,
delimited by newlines. The map is padded with nulls to the nearest block
boundary.
The first number gives the number of entries in the map. Following are map
entries, each one consisting of two numbers giving the offset and size of
the data block it describes.
The format is designed in such a way that non-posix aware tars and tars not
supporting GNU.sparse.* keywords will extract each sparse file in its
condensed form with the file map attached and will place it into a separate
directory. Then, using a simple program it would be possible to expand the
file to its original form even without GNU tar.
Bu default, v.1.0 archives are created. To use other formats,
--sparse-version option is provided. Additionally, v.0.0 can be obtained
by deleting GNU.sparse.map from 0.1 format: --sparse-version 0.1
--pax-option delete=GNU.sparse.map
*/
static bool
pax_sparse_member_p (struct tar_sparse_file *file)
{
return file->stat_info->sparse_map_avail > 0
|| file->stat_info->sparse_major > 0;
}
/* Start a header that uses the effective (shrunken) file size. */
static union block *
pax_start_header (struct tar_stat_info *st)
{
off_t realsize = st->stat.st_size;
union block *blk;
st->stat.st_size = st->archive_file_size;
blk = start_header (st);
st->stat.st_size = realsize;
return blk;
}
static bool
pax_dump_header_0 (struct tar_sparse_file *file)
{
off_t block_ordinal = current_block_ordinal ();
union block *blk;
size_t i;
char nbuf[UINTMAX_STRSIZE_BOUND];
struct sp_array *map = file->stat_info->sparse_map;
char *save_file_name = NULL;
/* Store the real file size */
xheader_store ("GNU.sparse.size", file->stat_info, NULL);
xheader_store ("GNU.sparse.numblocks", file->stat_info, NULL);
if (xheader_keyword_deleted_p ("GNU.sparse.map")
|| tar_sparse_minor == 0)
{
for (i = 0; i < file->stat_info->sparse_map_avail; i++)
{
xheader_store ("GNU.sparse.offset", file->stat_info, &i);
xheader_store ("GNU.sparse.numbytes", file->stat_info, &i);
}
}
else
{
xheader_store ("GNU.sparse.name", file->stat_info, NULL);
save_file_name = file->stat_info->file_name;
file->stat_info->file_name = xheader_format_name (file->stat_info,
"%d/GNUSparseFile.%p/%f", 0);
xheader_string_begin (&file->stat_info->xhdr);
for (i = 0; i < file->stat_info->sparse_map_avail; i++)
{
if (i)
xheader_string_add (&file->stat_info->xhdr, ",");
xheader_string_add (&file->stat_info->xhdr,
umaxtostr (map[i].offset, nbuf));
xheader_string_add (&file->stat_info->xhdr, ",");
xheader_string_add (&file->stat_info->xhdr,
umaxtostr (map[i].numbytes, nbuf));
}
if (!xheader_string_end (&file->stat_info->xhdr,
"GNU.sparse.map"))
{
free (file->stat_info->file_name);
file->stat_info->file_name = save_file_name;
return false;
}
}
blk = pax_start_header (file->stat_info);
finish_header (file->stat_info, blk, block_ordinal);
if (save_file_name)
{
free (file->stat_info->file_name);
file->stat_info->file_name = save_file_name;
}
return true;
}
static bool
pax_dump_header_1 (struct tar_sparse_file *file)
{
off_t block_ordinal = current_block_ordinal ();
union block *blk;
char *p, *q;
size_t i;
char nbuf[UINTMAX_STRSIZE_BOUND];
off_t size = 0;
struct sp_array *map = file->stat_info->sparse_map;
char *save_file_name = file->stat_info->file_name;
#define COPY_STRING(b,dst,src) do \
{ \
char *endp = b->buffer + BLOCKSIZE; \
char const *srcp = src; \
while (*srcp) \
{ \
if (dst == endp) \
{ \
set_next_block_after (b); \
b = find_next_block (); \
dst = b->buffer; \
endp = b->buffer + BLOCKSIZE; \
} \
*dst++ = *srcp++; \
} \
} while (0)
/* Compute stored file size */
p = umaxtostr (file->stat_info->sparse_map_avail, nbuf);
size += strlen (p) + 1;
for (i = 0; i < file->stat_info->sparse_map_avail; i++)
{
p = umaxtostr (map[i].offset, nbuf);
size += strlen (p) + 1;
p = umaxtostr (map[i].numbytes, nbuf);
size += strlen (p) + 1;
}
size = (size + BLOCKSIZE - 1) / BLOCKSIZE;
file->stat_info->archive_file_size += size * BLOCKSIZE;
file->dumped_size += size * BLOCKSIZE;
/* Store sparse file identification */
xheader_store ("GNU.sparse.major", file->stat_info, NULL);
xheader_store ("GNU.sparse.minor", file->stat_info, NULL);
xheader_store ("GNU.sparse.name", file->stat_info, NULL);
xheader_store ("GNU.sparse.realsize", file->stat_info, NULL);
file->stat_info->file_name =
xheader_format_name (file->stat_info, "%d/GNUSparseFile.%p/%f", 0);
/* Make sure the created header name is shorter than NAME_FIELD_SIZE: */
if (strlen (file->stat_info->file_name) > NAME_FIELD_SIZE)
file->stat_info->file_name[NAME_FIELD_SIZE] = 0;
blk = pax_start_header (file->stat_info);
finish_header (file->stat_info, blk, block_ordinal);
free (file->stat_info->file_name);
file->stat_info->file_name = save_file_name;
blk = find_next_block ();
q = blk->buffer;
p = umaxtostr (file->stat_info->sparse_map_avail, nbuf);
COPY_STRING (blk, q, p);
COPY_STRING (blk, q, "\n");
for (i = 0; i < file->stat_info->sparse_map_avail; i++)
{
p = umaxtostr (map[i].offset, nbuf);
COPY_STRING (blk, q, p);
COPY_STRING (blk, q, "\n");
p = umaxtostr (map[i].numbytes, nbuf);
COPY_STRING (blk, q, p);
COPY_STRING (blk, q, "\n");
}
memset (q, 0, BLOCKSIZE - (q - blk->buffer));
set_next_block_after (blk);
return true;
}
static bool
pax_dump_header (struct tar_sparse_file *file)
{
file->stat_info->sparse_major = tar_sparse_major;
file->stat_info->sparse_minor = tar_sparse_minor;
return (file->stat_info->sparse_major == 0) ?
pax_dump_header_0 (file) : pax_dump_header_1 (file);
}
static bool
decode_num (uintmax_t *num, char const *arg, uintmax_t maxval)
{
uintmax_t u;
char *arg_lim;
if (!ISDIGIT (*arg))
return false;
errno = 0;
u = strtoumax (arg, &arg_lim, 10);
if (! (u <= maxval && errno != ERANGE) || *arg_lim)
return false;
*num = u;
return true;
}
static bool
pax_decode_header (struct tar_sparse_file *file)
{
if (file->stat_info->sparse_major > 0)
{
uintmax_t u;
char nbuf[UINTMAX_STRSIZE_BOUND];
union block *blk;
char *p;
size_t i;
off_t start;
#define COPY_BUF(b,buf,src) do \
{ \
char *endp = b->buffer + BLOCKSIZE; \
char *dst = buf; \
do \
{ \
if (dst == buf + UINTMAX_STRSIZE_BOUND -1) \
{ \
ERROR ((0, 0, _("%s: numeric overflow in sparse archive member"), \
file->stat_info->orig_file_name)); \
return false; \
} \
if (src == endp) \
{ \
set_next_block_after (b); \
b = find_next_block (); \
if (!b) \
FATAL_ERROR ((0, 0, _("Unexpected EOF in archive"))); \
src = b->buffer; \
endp = b->buffer + BLOCKSIZE; \
} \
*dst = *src++; \
} \
while (*dst++ != '\n'); \
dst[-1] = 0; \
} while (0)
start = current_block_ordinal ();
set_next_block_after (current_header);
blk = find_next_block ();
if (!blk)
FATAL_ERROR ((0, 0, _("Unexpected EOF in archive")));
p = blk->buffer;
COPY_BUF (blk,nbuf,p);
if (!decode_num (&u, nbuf, TYPE_MAXIMUM (size_t)))
{
ERROR ((0, 0, _("%s: malformed sparse archive member"),
file->stat_info->orig_file_name));
return false;
}
file->stat_info->sparse_map_size = u;
file->stat_info->sparse_map = xcalloc (file->stat_info->sparse_map_size,
sizeof (*file->stat_info->sparse_map));
file->stat_info->sparse_map_avail = 0;
for (i = 0; i < file->stat_info->sparse_map_size; i++)
{
struct sp_array sp;
COPY_BUF (blk,nbuf,p);
if (!decode_num (&u, nbuf, TYPE_MAXIMUM (off_t)))
{
ERROR ((0, 0, _("%s: malformed sparse archive member"),
file->stat_info->orig_file_name));
return false;
}
sp.offset = u;
COPY_BUF (blk,nbuf,p);
if (!decode_num (&u, nbuf, TYPE_MAXIMUM (off_t))
|| INT_ADD_OVERFLOW (sp.offset, u)
|| file->stat_info->stat.st_size < sp.offset + u)
{
ERROR ((0, 0, _("%s: malformed sparse archive member"),
file->stat_info->orig_file_name));
return false;
}
sp.numbytes = u;
sparse_add_map (file->stat_info, &sp);
}
set_next_block_after (blk);
file->dumped_size += BLOCKSIZE * (current_block_ordinal () - start);
}
return true;
}
static struct tar_sparse_optab const pax_optab = {
NULL, /* No init function */
NULL, /* No done function */
pax_sparse_member_p,
pax_dump_header,
NULL,
pax_decode_header,
NULL, /* No scan_block function */
sparse_dump_region,
sparse_extract_region,
};