freebsd-nq/gnu/usr.bin/cpio/copyout.c
Bruce Evans 3eb77f2c54 Output a zero rdev except for bdevs, cdevs, fifos and sockets. This
stops regular files with unrepresentable rdevs from being rejected
and makes the output independent of unpreservable metadata.
1995-09-12 16:38:16 +00:00

937 lines
25 KiB
C

/* copyout.c - create a cpio archive
Copyright (C) 1990, 1991, 1992 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 2, 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, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */
#include <stdio.h>
#include <sys/types.h>
#include <sys/stat.h>
#include "filetypes.h"
#include "system.h"
#include "cpiohdr.h"
#include "dstring.h"
#include "extern.h"
#include "defer.h"
#include "rmt.h"
static unsigned long read_for_checksum ();
static void clear_rest_of_block ();
static void pad_output ();
static int last_link ();
static int count_defered_links_to_dev_ino ();
static void add_link_defer ();
static void writeout_other_defers ();
static void writeout_final_defers();
static void writeout_defered_file ();
static int check_rdev ();
/* Write out header FILE_HDR, including the file name, to file
descriptor OUT_DES. */
void
write_out_header (file_hdr, out_des)
struct new_cpio_header *file_hdr;
int out_des;
{
if (archive_format == arf_newascii || archive_format == arf_crcascii)
{
char ascii_header[112];
char *magic_string;
if (archive_format == arf_crcascii)
magic_string = "070702";
else
magic_string = "070701";
sprintf (ascii_header,
"%6s%08lx%08lx%08lx%08lx%08lx%08lx%08lx%08lx%08lx%08lx%08lx%08lx%08lx",
magic_string,
file_hdr->c_ino, file_hdr->c_mode, file_hdr->c_uid,
file_hdr->c_gid, file_hdr->c_nlink, file_hdr->c_mtime,
file_hdr->c_filesize, file_hdr->c_dev_maj, file_hdr->c_dev_min,
file_hdr->c_rdev_maj, file_hdr->c_rdev_min, file_hdr->c_namesize,
file_hdr->c_chksum);
copy_buf_out (ascii_header, out_des, 110L);
/* Write file name to output. */
copy_buf_out (file_hdr->c_name, out_des, (long) file_hdr->c_namesize);
pad_output (out_des, file_hdr->c_namesize + 110);
}
else if (archive_format == arf_oldascii || archive_format == arf_hpoldascii)
{
char ascii_header[78];
#ifndef __MSDOS__
dev_t dev;
dev_t rdev;
if (archive_format == arf_oldascii)
{
dev = makedev (file_hdr->c_dev_maj, file_hdr->c_dev_min);
rdev = makedev (file_hdr->c_rdev_maj, file_hdr->c_rdev_min);
}
else
{
/* HP/UX cpio creates archives that look just like ordinary archives,
but for devices it sets major = 0, minor = 1, and puts the
actual major/minor number in the filesize field. */
switch (file_hdr->c_mode & CP_IFMT)
{
case CP_IFCHR:
case CP_IFBLK:
#ifdef CP_IFSOCK
case CP_IFSOCK:
#endif
#ifdef CP_IFIFO
case CP_IFIFO:
#endif
file_hdr->c_filesize = makedev (file_hdr->c_rdev_maj,
file_hdr->c_rdev_min);
rdev = 1;
break;
default:
dev = makedev (file_hdr->c_dev_maj, file_hdr->c_dev_min);
rdev = makedev (file_hdr->c_rdev_maj, file_hdr->c_rdev_min);
break;
}
}
#else
int dev = 0, rdev = 0;
#endif
if ((file_hdr->c_ino >> 16) != 0)
error (0, 0, "%s: truncating inode number", file_hdr->c_name);
sprintf (ascii_header,
"%06lo%06lo%06lo%06lo%06lo%06lo%06lo%06lo%011lo%06lo%011lo",
file_hdr->c_magic & 0xFFFF, dev & 0xFFFF,
file_hdr->c_ino & 0xFFFF, file_hdr->c_mode & 0xFFFF,
file_hdr->c_uid & 0xFFFF, file_hdr->c_gid & 0xFFFF,
file_hdr->c_nlink & 0xFFFF, rdev & 0xFFFF,
file_hdr->c_mtime, file_hdr->c_namesize & 0xFFFF,
file_hdr->c_filesize);
copy_buf_out (ascii_header, out_des, 76L);
/* Write file name to output. */
copy_buf_out (file_hdr->c_name, out_des, (long) file_hdr->c_namesize);
}
else if (archive_format == arf_tar || archive_format == arf_ustar)
{
write_out_tar_header (file_hdr, out_des);
}
else
{
struct old_cpio_header short_hdr;
short_hdr.c_magic = 070707;
short_hdr.c_dev = makedev (file_hdr->c_dev_maj, file_hdr->c_dev_min);
if ((file_hdr->c_ino >> 16) != 0)
error (0, 0, "%s: truncating inode number", file_hdr->c_name);
short_hdr.c_ino = file_hdr->c_ino & 0xFFFF;
short_hdr.c_mode = file_hdr->c_mode & 0xFFFF;
short_hdr.c_uid = file_hdr->c_uid & 0xFFFF;
short_hdr.c_gid = file_hdr->c_gid & 0xFFFF;
short_hdr.c_nlink = file_hdr->c_nlink & 0xFFFF;
if (archive_format != arf_hpbinary)
short_hdr.c_rdev = makedev (file_hdr->c_rdev_maj, file_hdr->c_rdev_min);
else
{
switch (file_hdr->c_mode & CP_IFMT)
{
/* HP/UX cpio creates archives that look just like ordinary
archives, but for devices it sets major = 0, minor = 1, and
puts the actual major/minor number in the filesize field. */
case CP_IFCHR:
case CP_IFBLK:
#ifdef CP_IFSOCK
case CP_IFSOCK:
#endif
#ifdef CP_IFIFO
case CP_IFIFO:
#endif
file_hdr->c_filesize = makedev (file_hdr->c_rdev_maj,
file_hdr->c_rdev_min);
short_hdr.c_rdev = makedev (0, 1);
break;
default:
short_hdr.c_rdev = makedev (file_hdr->c_rdev_maj,
file_hdr->c_rdev_min);
break;
}
}
short_hdr.c_mtimes[0] = file_hdr->c_mtime >> 16;
short_hdr.c_mtimes[1] = file_hdr->c_mtime & 0xFFFF;
short_hdr.c_namesize = file_hdr->c_namesize & 0xFFFF;
short_hdr.c_filesizes[0] = file_hdr->c_filesize >> 16;
short_hdr.c_filesizes[1] = file_hdr->c_filesize & 0xFFFF;
/* Output the file header. */
copy_buf_out ((char *) &short_hdr, out_des, 26L);
/* Write file name to output. */
copy_buf_out (file_hdr->c_name, out_des, (long) file_hdr->c_namesize);
pad_output (out_des, file_hdr->c_namesize + 26);
}
}
/* Read a list of file names from the standard input
and write a cpio collection on the standard output.
The format of the header depends on the compatibility (-c) flag. */
void
process_copy_out ()
{
int res; /* Result of functions. */
dynamic_string input_name; /* Name of file read from stdin. */
struct utimbuf times; /* For resetting file times after copy. */
struct stat file_stat; /* Stat record for file. */
struct new_cpio_header file_hdr; /* Output header information. */
int in_file_des; /* Source file descriptor. */
int out_file_des; /* Output file descriptor. */
char *p;
/* Initialize the copy out. */
ds_init (&input_name, 128);
/* Initialize this in case it has members we don't know to set. */
bzero (&times, sizeof (struct utimbuf));
file_hdr.c_magic = 070707;
#ifdef __MSDOS__
setmode (archive_des, O_BINARY);
#endif
/* Check whether the output file might be a tape. */
out_file_des = archive_des;
if (_isrmt (out_file_des))
{
output_is_special = 1;
output_is_seekable = 0;
}
else
{
if (fstat (out_file_des, &file_stat))
error (1, errno, "standard output is closed");
output_is_special =
#ifdef S_ISBLK
S_ISBLK (file_stat.st_mode) ||
#endif
S_ISCHR (file_stat.st_mode);
output_is_seekable = S_ISREG (file_stat.st_mode);
}
if (append_flag)
{
process_copy_in ();
prepare_append (out_file_des);
}
/* Copy files with names read from stdin. */
while (ds_fgetstr (stdin, &input_name, name_end) != NULL)
{
/* Check for blank line. */
if (input_name.ds_string[0] == 0)
{
error (0, 0, "blank line ignored");
continue;
}
/* Process next file. */
if ((*xstat) (input_name.ds_string, &file_stat) < 0)
error (0, errno, "%s", input_name.ds_string);
else
{
/* Set values in output header. */
file_hdr.c_dev_maj = major (file_stat.st_dev);
file_hdr.c_dev_min = minor (file_stat.st_dev);
file_hdr.c_ino = file_stat.st_ino;
/* For POSIX systems that don't define the S_IF macros,
we can't assume that S_ISfoo means the standard Unix
S_IFfoo bit(s) are set. So do it manually, with a
different name. Bleah. */
file_hdr.c_mode = (file_stat.st_mode & 07777);
if (S_ISREG (file_stat.st_mode))
file_hdr.c_mode |= CP_IFREG;
else if (S_ISDIR (file_stat.st_mode))
file_hdr.c_mode |= CP_IFDIR;
#ifdef S_ISBLK
else if (S_ISBLK (file_stat.st_mode))
file_hdr.c_mode |= CP_IFBLK;
#endif
#ifdef S_ISCHR
else if (S_ISCHR (file_stat.st_mode))
file_hdr.c_mode |= CP_IFCHR;
#endif
#ifdef S_ISFIFO
else if (S_ISFIFO (file_stat.st_mode))
file_hdr.c_mode |= CP_IFIFO;
#endif
#ifdef S_ISLNK
else if (S_ISLNK (file_stat.st_mode))
file_hdr.c_mode |= CP_IFLNK;
#endif
#ifdef S_ISSOCK
else if (S_ISSOCK (file_stat.st_mode))
file_hdr.c_mode |= CP_IFSOCK;
#endif
#ifdef S_ISNWK
else if (S_ISNWK (file_stat.st_mode))
file_hdr.c_mode |= CP_IFNWK;
#endif
file_hdr.c_uid = file_stat.st_uid;
file_hdr.c_gid = file_stat.st_gid;
file_hdr.c_nlink = file_stat.st_nlink;
/* The rdev is meaningless except for block and character
special files (POSIX standard) and perhaps fifos and
sockets. Clear it for other types of files so that
check_rdev() doesn't reject files just because stat()
put garbage in st_rdev and so that the output doesn't
depend on the garbage. */
switch (file_hdr.c_mode & CP_IFMT)
{
case CP_IFBLK:
case CP_IFCHR:
#ifdef CP_IFIFO
case CP_IFIFO:
#endif
#ifdef CP_IFSOCK
case CP_IFSOCK:
#endif
file_hdr.c_rdev_maj = major (file_stat.st_rdev);
file_hdr.c_rdev_min = minor (file_stat.st_rdev);
break;
default:
file_hdr.c_rdev_maj = 0;
file_hdr.c_rdev_min = 0;
break;
}
file_hdr.c_mtime = file_stat.st_mtime;
file_hdr.c_filesize = file_stat.st_size;
file_hdr.c_chksum = 0;
file_hdr.c_tar_linkname = NULL;
/* Strip leading `./' from the filename. */
p = input_name.ds_string;
while (*p == '.' && *(p + 1) == '/')
{
++p;
while (*p == '/')
++p;
}
#ifndef HPUX_CDF
file_hdr.c_name = p;
file_hdr.c_namesize = strlen (p) + 1;
#else
if ( (archive_format != arf_tar) && (archive_format != arf_ustar) )
{
/* We mark CDF's in cpio files by adding a 2nd `/' after the
"hidden" directory name. We need to do this so we can
properly recreate the directory as hidden (in case the
files of a directory go into the archive before the
directory itself (e.g from "find ... -depth ... | cpio")). */
file_hdr.c_name = add_cdf_double_slashes (p);
file_hdr.c_namesize = strlen (file_hdr.c_name) + 1;
}
else
{
/* We don't mark CDF's in tar files. We assume the "hidden"
directory will always go into the archive before any of
its files. */
file_hdr.c_name = p;
file_hdr.c_namesize = strlen (p) + 1;
}
#endif
if ((archive_format == arf_tar || archive_format == arf_ustar)
&& is_tar_filename_too_long (file_hdr.c_name))
{
error (0, 0, "%s: file name too long", file_hdr.c_name);
continue;
}
switch (check_rdev (&file_hdr))
{
case 1:
error (0, 0, "%s not dumped: major number would be truncated",
file_hdr.c_name);
continue;
case 2:
error (0, 0, "%s not dumped: minor number would be truncated",
file_hdr.c_name);
continue;
case 4:
error (0, 0, "%s not dumped: device number would be truncated",
file_hdr.c_name);
continue;
}
/* Copy the named file to the output. */
switch (file_hdr.c_mode & CP_IFMT)
{
case CP_IFREG:
#ifndef __MSDOS__
if (archive_format == arf_tar || archive_format == arf_ustar)
{
char *otherfile;
if ((otherfile = find_inode_file (file_hdr.c_ino,
file_hdr.c_dev_maj,
file_hdr.c_dev_min)))
{
file_hdr.c_tar_linkname = otherfile;
write_out_header (&file_hdr, out_file_des);
break;
}
}
if ( (archive_format == arf_newascii || archive_format == arf_crcascii)
&& (file_hdr.c_nlink > 1) )
{
if (last_link (&file_hdr) )
{
writeout_other_defers (&file_hdr, out_file_des);
}
else
{
add_link_defer (&file_hdr);
break;
}
}
#endif
in_file_des = open (input_name.ds_string,
O_RDONLY | O_BINARY, 0);
if (in_file_des < 0)
{
error (0, errno, "%s", input_name.ds_string);
continue;
}
if (archive_format == arf_crcascii)
file_hdr.c_chksum = read_for_checksum (in_file_des,
file_hdr.c_filesize,
input_name.ds_string);
write_out_header (&file_hdr, out_file_des);
copy_files (in_file_des, out_file_des, file_hdr.c_filesize);
#ifndef __MSDOS__
if (archive_format == arf_tar || archive_format == arf_ustar)
add_inode (file_hdr.c_ino, file_hdr.c_name, file_hdr.c_dev_maj,
file_hdr.c_dev_min);
#endif
pad_output (out_file_des, file_hdr.c_filesize);
if (close (in_file_des) < 0)
error (0, errno, "%s", input_name.ds_string);
if (reset_time_flag)
{
times.actime = file_stat.st_atime;
times.modtime = file_stat.st_mtime;
if (utime (file_hdr.c_name, &times) < 0)
error (0, errno, "%s", file_hdr.c_name);
}
break;
case CP_IFDIR:
file_hdr.c_filesize = 0;
write_out_header (&file_hdr, out_file_des);
break;
#ifndef __MSDOS__
case CP_IFCHR:
case CP_IFBLK:
#ifdef CP_IFSOCK
case CP_IFSOCK:
#endif
#ifdef CP_IFIFO
case CP_IFIFO:
#endif
if (archive_format == arf_tar)
{
error (0, 0, "%s not dumped: not a regular file",
file_hdr.c_name);
continue;
}
else if (archive_format == arf_ustar)
{
char *otherfile;
if ((otherfile = find_inode_file (file_hdr.c_ino,
file_hdr.c_dev_maj,
file_hdr.c_dev_min)))
{
/* This file is linked to another file already in the
archive, so write it out as a hard link. */
file_hdr.c_mode = (file_stat.st_mode & 07777);
file_hdr.c_mode |= CP_IFREG;
file_hdr.c_tar_linkname = otherfile;
write_out_header (&file_hdr, out_file_des);
break;
}
add_inode (file_hdr.c_ino, file_hdr.c_name,
file_hdr.c_dev_maj, file_hdr.c_dev_min);
}
file_hdr.c_filesize = 0;
write_out_header (&file_hdr, out_file_des);
break;
#endif
#ifdef CP_IFLNK
case CP_IFLNK:
{
char *link_name = (char *) xmalloc (file_stat.st_size + 1);
if (readlink (input_name.ds_string, link_name,
file_stat.st_size) < 0)
{
error (0, errno, "%s", input_name.ds_string);
free (link_name);
continue;
}
if (archive_format == arf_tar || archive_format == arf_ustar)
{
if (file_stat.st_size + 1 > 100)
{
error (0, 0, "%s: symbolic link too long",
file_hdr.c_name);
}
else
{
link_name[file_stat.st_size] = '\0';
file_hdr.c_tar_linkname = link_name;
write_out_header (&file_hdr, out_file_des);
}
}
else
{
write_out_header (&file_hdr, out_file_des);
copy_buf_out (link_name, out_file_des, file_stat.st_size);
pad_output (out_file_des, file_hdr.c_filesize);
}
free (link_name);
}
break;
#endif
default:
error (0, 0, "%s: unknown file type", input_name.ds_string);
}
if (verbose_flag)
fprintf (stderr, "%s\n", input_name.ds_string);
if (dot_flag)
fputc ('.', stderr);
}
}
writeout_final_defers(out_file_des);
/* The collection is complete; append the trailer. */
file_hdr.c_ino = 0;
file_hdr.c_mode = 0;
file_hdr.c_uid = 0;
file_hdr.c_gid = 0;
file_hdr.c_nlink = 1; /* Must be 1 for crc format. */
file_hdr.c_dev_maj = 0;
file_hdr.c_dev_min = 0;
file_hdr.c_rdev_maj = 0;
file_hdr.c_rdev_min = 0;
file_hdr.c_mtime = 0;
file_hdr.c_chksum = 0;
file_hdr.c_filesize = 0;
file_hdr.c_namesize = 11;
file_hdr.c_name = "TRAILER!!!";
if (archive_format != arf_tar && archive_format != arf_ustar)
write_out_header (&file_hdr, out_file_des);
else
{
copy_buf_out (zeros_512, out_file_des, 512);
copy_buf_out (zeros_512, out_file_des, 512);
}
/* Fill up the output block. */
clear_rest_of_block (out_file_des);
empty_output_buffer (out_file_des);
if (dot_flag)
fputc ('\n', stderr);
res = (output_bytes + io_block_size - 1) / io_block_size;
if (res == 1)
fprintf (stderr, "1 block\n");
else
fprintf (stderr, "%d blocks\n", res);
}
/* Read FILE_SIZE bytes of FILE_NAME from IN_FILE_DES and
compute and return a checksum for them. */
static unsigned long
read_for_checksum (in_file_des, file_size, file_name)
int in_file_des;
int file_size;
char *file_name;
{
unsigned long crc;
char buf[BUFSIZ];
int bytes_left;
int bytes_read;
int i;
crc = 0;
for (bytes_left = file_size; bytes_left > 0; bytes_left -= bytes_read)
{
bytes_read = read (in_file_des, buf, BUFSIZ);
if (bytes_read < 0)
error (1, errno, "cannot read checksum for %s", file_name);
if (bytes_read == 0)
break;
for (i = 0; i < bytes_read; ++i)
crc += buf[i] & 0xff;
}
if (lseek (in_file_des, 0L, SEEK_SET))
error (1, errno, "cannot read checksum for %s", file_name);
return crc;
}
/* Write out NULs to fill out the rest of the current block on
OUT_FILE_DES. */
static void
clear_rest_of_block (out_file_des)
int out_file_des;
{
while (output_size < io_block_size)
{
if ((io_block_size - output_size) > 512)
copy_buf_out (zeros_512, out_file_des, 512);
else
copy_buf_out (zeros_512, out_file_des, io_block_size - output_size);
}
}
/* Write NULs on OUT_FILE_DES to move from OFFSET (the current location)
to the end of the header. */
static void
pad_output (out_file_des, offset)
int out_file_des;
int offset;
{
int pad;
if (archive_format == arf_newascii || archive_format == arf_crcascii)
pad = (4 - (offset % 4)) % 4;
else if (archive_format == arf_tar || archive_format == arf_ustar)
pad = (512 - (offset % 512)) % 512;
else if (archive_format != arf_oldascii && archive_format != arf_hpoldascii)
pad = (2 - (offset % 2)) % 2;
else
pad = 0;
if (pad != 0)
copy_buf_out (zeros_512, out_file_des, pad);
}
/* When creating newc and crc archives if a file has multiple (hard)
links, we don't put any of them into the archive until we have seen
all of them (or until we get to the end of the list of files that
are going into the archive and know that we have seen all of the links
to the file that we will see). We keep these "defered" files on
this list. */
struct deferment *deferouts = NULL;
/* Is this file_hdr the last (hard) link to a file? I.e., have
we already seen and defered all of the other links? */
static int
last_link (file_hdr)
struct new_cpio_header *file_hdr;
{
int other_files_sofar;
other_files_sofar = count_defered_links_to_dev_ino (file_hdr);
if (file_hdr->c_nlink == (other_files_sofar + 1) )
{
return 1;
}
return 0;
}
/* Count the number of other (hard) links to this file that have
already been defered. */
static int
count_defered_links_to_dev_ino (file_hdr)
struct new_cpio_header *file_hdr;
{
struct deferment *d;
int ino;
int maj;
int min;
int count;
ino = file_hdr->c_ino;
maj = file_hdr->c_dev_maj;
min = file_hdr->c_dev_min;
count = 0;
for (d = deferouts; d != NULL; d = d->next)
{
if ( (d->header.c_ino == ino) && (d->header.c_dev_maj == maj)
&& (d->header.c_dev_min == min) )
++count;
}
return count;
}
/* Add the file header for a link that is being defered to the deferouts
list. */
static void
add_link_defer (file_hdr)
struct new_cpio_header *file_hdr;
{
struct deferment *d;
d = create_deferment (file_hdr);
d->next = deferouts;
deferouts = d;
}
/* We are about to put a file into a newc or crc archive that is
multiply linked. We have already seen and defered all of the
other links to the file but haven't written them into the archive.
Write the other links into the archive, and remove them from the
deferouts list. */
static void
writeout_other_defers (file_hdr, out_des)
struct new_cpio_header *file_hdr;
int out_des;
{
struct deferment *d;
struct deferment *d_prev;
int ino;
int maj;
int min;
int count;
ino = file_hdr->c_ino;
maj = file_hdr->c_dev_maj;
min = file_hdr->c_dev_min;
d_prev = NULL;
d = deferouts;
while (d != NULL)
{
if ( (d->header.c_ino == ino) && (d->header.c_dev_maj == maj)
&& (d->header.c_dev_min == min) )
{
struct deferment *d_free;
d->header.c_filesize = 0;
write_out_header (&d->header, out_des);
if (d_prev != NULL)
d_prev->next = d->next;
else
deferouts = d->next;
d_free = d;
d = d->next;
free_deferment (d_free);
}
else
{
d_prev = d;
d = d->next;
}
}
return;
}
/* When writing newc and crc format archives we defer multiply linked
files until we have seen all of the links to the file. If a file
has links to it that aren't going into the archive, then we will
never see the "last" link to the file, so at the end we just write
all of the leftover defered files into the archive. */
static void
writeout_final_defers(out_des)
int out_des;
{
struct deferment *d;
int other_count;
while (deferouts != NULL)
{
d = deferouts;
other_count = count_defered_links_to_dev_ino (&d->header);
if (other_count == 1)
{
writeout_defered_file (&d->header, out_des);
}
else
{
struct new_cpio_header file_hdr;
file_hdr = d->header;
file_hdr.c_filesize = 0;
write_out_header (&file_hdr, out_des);
}
deferouts = deferouts->next;
}
}
/* Write a file into the archive. This code is the same as
the code in process_copy_out(), but we need it here too
for writeout_final_defers() to call. */
static void
writeout_defered_file (header, out_file_des)
struct new_cpio_header *header;
{
int in_file_des;
struct new_cpio_header file_hdr;
struct utimbuf times; /* For setting file times. */
/* Initialize this in case it has members we don't know to set. */
bzero (&times, sizeof (struct utimbuf));
file_hdr = *header;
in_file_des = open (header->c_name,
O_RDONLY | O_BINARY, 0);
if (in_file_des < 0)
{
error (0, errno, "%s", header->c_name);
return;
}
if (archive_format == arf_crcascii)
file_hdr.c_chksum = read_for_checksum (in_file_des,
file_hdr.c_filesize,
header->c_name);
write_out_header (&file_hdr, out_file_des);
copy_files (in_file_des, out_file_des, file_hdr.c_filesize);
#ifndef __MSDOS__
if (archive_format == arf_tar || archive_format == arf_ustar)
add_inode (file_hdr.c_ino, file_hdr.c_name, file_hdr.c_dev_maj,
file_hdr.c_dev_min);
#endif
pad_output (out_file_des, file_hdr.c_filesize);
if (close (in_file_des) < 0)
error (0, errno, "%s", header->c_name);
if (reset_time_flag)
{
times.actime = file_hdr.c_mtime;
times.modtime = file_hdr.c_mtime;
if (utime (file_hdr.c_name, &times) < 0)
error (0, errno, "%s", file_hdr.c_name);
}
return;
}
static int
check_rdev (file_hdr)
struct new_cpio_header *file_hdr;
{
if (archive_format == arf_newascii || archive_format == arf_crcascii)
{
if ((file_hdr->c_rdev_maj & 0xFFFFFFFF) != file_hdr->c_rdev_maj)
return 1;
if ((file_hdr->c_rdev_min & 0xFFFFFFFF) != file_hdr->c_rdev_min)
return 2;
}
else if (archive_format == arf_oldascii || archive_format == arf_hpoldascii)
{
#ifndef __MSDOS__
dev_t rdev;
rdev = makedev (file_hdr->c_rdev_maj, file_hdr->c_rdev_min);
if (archive_format == arf_oldascii)
{
if ((rdev & 0xFFFF) != rdev)
return 4;
}
else
{
switch (file_hdr->c_mode & CP_IFMT)
{
case CP_IFCHR:
case CP_IFBLK:
#ifdef CP_IFSOCK
case CP_IFSOCK:
#endif
#ifdef CP_IFIFO
case CP_IFIFO:
#endif
/* We could handle one more bit if longs are >= 33 bits. */
if ((rdev & 037777777777) != rdev)
return 4;
break;
default:
if ((rdev & 0xFFFF) != rdev)
return 4;
break;
}
}
#endif
}
else if (archive_format == arf_tar || archive_format == arf_ustar)
{
/* The major and minor formats are limited to 7 octal digits in ustar
format, and to_oct () adds a gratuitous trailing blank to further
limit the format to 6 octal digits. */
if ((file_hdr->c_rdev_maj & 0777777) != file_hdr->c_rdev_maj)
return 1;
if ((file_hdr->c_rdev_min & 0777777) != file_hdr->c_rdev_min)
return 2;
}
else
{
#ifndef __MSDOS__
dev_t rdev;
rdev = makedev (file_hdr->c_rdev_maj, file_hdr->c_rdev_min);
if (archive_format != arf_hpbinary)
{
if ((rdev & 0xFFFF) != rdev)
return 4;
}
else
{
switch (file_hdr->c_mode & CP_IFMT)
{
case CP_IFCHR:
case CP_IFBLK:
#ifdef CP_IFSOCK
case CP_IFSOCK:
#endif
#ifdef CP_IFIFO
case CP_IFIFO:
#endif
if ((rdev & 0xFFFFFFFF) != rdev)
return 4;
file_hdr->c_filesize = rdev;
rdev = makedev (0, 1);
break;
default:
if ((rdev & 0xFFFF) != rdev)
return 4;
break;
}
}
#endif
}
return 0;
}