/*
* cpio - copy file archives in and out
*
* Gunnar Ritter, Freiburg i. Br., Germany, April 2003.
*/
/*
* Copyright (c) 2003 Gunnar Ritter
*
* This software is provided 'as-is', without any express or implied
* warranty. In no event will the authors be held liable for any damages
* arising from the use of this software.
*
* Permission is granted to anyone to use this software for any purpose,
* including commercial applications, and to alter it and redistribute
* it freely, subject to the following restrictions:
*
* 1. The origin of this software must not be misrepresented; you must not
* claim that you wrote the original software. If you use this software
* in a product, an acknowledgment in the product documentation would be
* appreciated but is not required.
*
* 2. Altered source versions must be plainly marked as such, and must not be
* misrepresented as being the original software.
*
* 3. This notice may not be removed or altered from any source distribution.
*/
/*
* Sccsid @(#)cpio.c 1.301 (gritter) 2/24/07
*/
#include <sys/types.h>
#include <sys/stat.h>
#ifdef __linux__
#if !defined (__UCLIBC__) && !defined (__dietlibc__)
#include <linux/fs.h>
#endif /* !__UCLIBC__, !__dietlibc__ */
#include <linux/fd.h>
#undef WNOHANG
#undef WUNTRACED
#ifdef __dietlibc__
#undef NR_OPEN
#undef PATH_MAX
#endif /* __dietlibc__ */
#endif /* __linux__ */
#include <sys/wait.h>
#include <fcntl.h>
#include <stdlib.h>
#include <malloc.h>
#include <string.h>
#include <unistd.h>
#include <signal.h>
#include "sigset.h"
#include <time.h>
#include <utime.h>
#include <pwd.h>
#include <grp.h>
#include <limits.h>
#include <stdio.h>
#include <libgen.h>
#include <errno.h>
#include <inttypes.h>
#include <stdarg.h>
#include <locale.h>
#include <ctype.h>
#include "memalign.h"
#if USE_ZLIB
#include <zlib.h>
#endif /* USE_ZLIB */
#if USE_BZLIB
#include <bzlib.h>
#endif /* USE_BZLIB */
#include <sys/ioctl.h>
#if defined (__linux__) || defined (__sun) || defined (__FreeBSD__) || \
defined (__hpux) || defined (_AIX) || defined (__NetBSD__) || \
defined (__OpenBSD__) || defined (__DragonFly__) || defined (__APPLE__)
#include <sys/mtio.h>
#else /* SVR4.2MP */
#include <sys/scsi.h>
#include <sys/st01.h>
#endif /* SVR4.2MP */
#include <iblok.h>
#include <sfile.h>
#include <atoll.h>
#ifdef _AIX
#include <sys/sysmacros.h>
#endif /* _AIX */
#ifndef major
#include <sys/mkdev.h>
#endif /* !major */
#include "cpio.h"
#include "blast.h"
#ifdef __GLIBC__
#ifdef _IO_putc_unlocked
#undef putc
#define putc(c, f) _IO_putc_unlocked(c, f)
#undef putchar
#define putchar(c) _IO_putc_unlocked(c, stdout)
#endif /* _IO_putc_unlocked */
#endif /* __GLIBC__ */
/*
* The cpio code assumes that all following S_IFMT bits are the same as
* those of the mode fields in cpio headers. The only real Unix system
* known to deviate from this de facto standard is UNICOS which uses
* 0130000 for S_IFLNK. But this software does not run on UNICOS for
* a variety of other reasons anyway, so this should not be of much
* concern.
*/
#if S_IFIFO != 0010000 || \
S_IFCHR != 0020000 || \
S_IFDIR != 0040000 || \
S_IFBLK != 0060000 || \
S_IFREG != 0100000 || \
S_IFLNK != 0120000 || \
S_IFSOCK!= 0140000 || \
S_IFMT != 0170000
#error non-standard S_IFMT bits
#endif
/*
* File types that are not present on all systems but that we want to
* recognize nevertheless.
*/
#ifndef S_IFDOOR
#define S_IFDOOR 0150000 /* Solaris door */
#endif
#ifndef S_IFNAM
#define S_IFNAM 0050000 /* XENIX special named file */
#endif
#ifndef S_INSEM
#define S_INSEM 0x1 /* XENIX semaphore subtype of IFNAM */
#endif
#ifndef S_INSHD
#define S_INSHD 0x2 /* XENIX shared data subtype of IFNAM */
#endif
#ifndef S_IFNWK
#define S_IFNWK 0110000 /* HP-UX network special file */
#endif
#if defined (__FreeBSD__) || defined (__NetBSD__) || defined (__OpenBSD__) || \
defined (__DragonFly__) || defined (__APPLE__)
/*
* For whatever reason, FreeBSD casts the return values of major() and
* minor() to signed values so that normal limit comparisons will fail.
*/
static unsigned long
mymajor(long dev)
{
return major(dev) & 0xFFFFFFFFUL;
}
#undef major
#define major(a) mymajor(a)
static unsigned long
myminor(long dev)
{
return minor(dev) & 0xFFFFFFFFUL;
}
#undef minor
#define minor(a) myminor(a)
#endif /* __FreeBSD__, __NetBSD__, __OpenBSD__, __DragonFly__, __APPLE__ */
/*
* Device and inode counts in cpio formats are too small to store the
* information used to detect hard links on today's systems. Keep track
* of all devices and inodes and store fake counts in the archive.
*/
struct ilink {
struct ilink *l_nxt; /* next link to same i-node */
char *l_nam; /* link name */
size_t l_siz; /* link name size */
};
struct islot {
struct islot *i_lln; /* left link */
struct islot *i_rln; /* right link */
struct ilink *i_lnk; /* links list */
struct stat *i_st; /* stat information */
char *i_name;/* name of first link encountered */
ino_t i_ino; /* real inode number */
uint32_t i_fino; /* fake inode number */
nlink_t i_nlk; /* number of remaining links */
};
struct dslot {
struct dslot *d_nxt; /* next device */
struct islot *d_isl; /* inode slots */
uint32_t d_cnt; /* used inode number count */
uint32_t d_fake; /* faked device id */
dev_t d_dev; /* real device id */
};
union types2 {
uint8_t byte[2];
uint16_t sword;
};
union types4 {
uint8_t byte[4];
uint16_t sword[2];
uint32_t lword;
};
/*
* Store and retrieve integers in a defined endian order.
*/
static uint16_t
ple16(const char *cp)
{
return (uint16_t)(cp[0]&0377) +
((uint16_t)(cp[1]&0377) << 8);
}
static uint16_t
pbe16(const char *cp)
{
return (uint16_t)(cp[1]&0377) +
((uint16_t)(cp[0]&0377) << 8);
}
static uint32_t
ple32(const char *cp)
{
return (uint32_t)(cp[0]&0377) +
((uint32_t)(cp[1]&0377) << 8) +
((uint32_t)(cp[2]&0377) << 16) +
((uint32_t)(cp[3]&0377) << 24);
}
static uint32_t
pbe32(const char *cp)
{
return (uint32_t)(cp[3]&0377) +
((uint32_t)(cp[2]&0377) << 8) +
((uint32_t)(cp[1]&0377) << 16) +
((uint32_t)(cp[0]&0377) << 24);
}
static uint32_t
pme32(const char *cp)
{
return (uint32_t)(cp[2]&0377) +
((uint32_t)(cp[3]&0377) << 8) +
((uint32_t)(cp[0]&0377) << 16) +
((uint32_t)(cp[1]&0377) << 24);
}
static uint64_t
ple64(const char *cp)
{
return (uint64_t)(cp[0]&0377) +
((uint64_t)(cp[1]&0377) << 8) +
((uint64_t)(cp[2]&0377) << 16) +
((uint64_t)(cp[3]&0377) << 24) +
((uint64_t)(cp[4]&0377) << 32) +
((uint64_t)(cp[5]&0377) << 40) +
((uint64_t)(cp[6]&0377) << 48) +
((uint64_t)(cp[7]&0377) << 56);
}
static uint64_t
pbe64(const char *cp)
{
return (uint64_t)(cp[7]&0377) +
((uint64_t)(cp[6]&0377) << 8) +
((uint64_t)(cp[5]&0377) << 16) +
((uint64_t)(cp[4]&0377) << 24) +
((uint64_t)(cp[3]&0377) << 32) +
((uint64_t)(cp[2]&0377) << 40) +
((uint64_t)(cp[1]&0377) << 48) +
((uint64_t)(cp[0]&0377) << 56);
}
static void
le16p(uint16_t n, char *cp)
{
cp[0] = (n&0x00ff);
cp[1] = (n&0xff00) >> 8;
}
static void
be16p(uint16_t n, char *cp)
{
cp[1] = (n&0x00ff);
cp[0] = (n&0xff00) >> 8;
}
static void
le32p(uint32_t n, char *cp)
{
cp[0] = (n&0x000000ff);
cp[1] = (n&0x0000ff00) >> 8;
cp[2] = (n&0x00ff0000) >> 16;
cp[3] = (n&0xff000000) >> 24;
}
static void
be32p(uint32_t n, char *cp)
{
cp[3] = (n&0x000000ff);
cp[2] = (n&0x0000ff00) >> 8;
cp[1] = (n&0x00ff0000) >> 16;
cp[0] = (n&0xff000000) >> 24;
}
static void
me32p(uint32_t n, char *cp)
{
cp[2] = (n&0x000000ff);
cp[3] = (n&0x0000ff00) >> 8;
cp[0] = (n&0x00ff0000) >> 16;
cp[1] = (n&0xff000000) >> 24;
}
static void
le64p(uint64_t n, char *cp)
{
cp[0] = (n&0x00000000000000ffLL);
cp[1] = (n&0x000000000000ff00LL) >> 8;
cp[2] = (n&0x0000000000ff0000LL) >> 16;
cp[3] = (n&0x00000000ff000000LL) >> 24;
cp[4] = (n&0x000000ff00000000LL) >> 32;
cp[5] = (n&0x0000ff0000000000LL) >> 40;
cp[6] = (n&0x00ff000000000000LL) >> 48;
cp[7] = (n&0xff00000000000000LL) >> 56;
}
static void
be64p(uint64_t n, char *cp)
{
cp[7] = (n&0x00000000000000ffLL);
cp[6] = (n&0x000000000000ff00LL) >> 8;
cp[5] = (n&0x0000000000ff0000LL) >> 16;
cp[4] = (n&0x00000000ff000000LL) >> 24;
cp[3] = (n&0x000000ff00000000LL) >> 32;
cp[2] = (n&0x0000ff0000000000LL) >> 40;
cp[1] = (n&0x00ff000000000000LL) >> 48;
cp[0] = (n&0xff00000000000000LL) >> 56;
}
#define TNAMSIZ 100
#define TPFXSIZ 155
#define TMAGSIZ 6
#define TTIMSIZ 12
/*
* Structure of an archive header.
*/
union bincpio {
char data[4096];
#define SIZEOF_hdr_cpio 26
struct hdr_cpio {
char c_magic[2];
char c_dev[2];
char c_ino[2];
char c_mode[2];
char c_uid[2];
char c_gid[2];
char c_nlink[2];
char c_rdev[2];
char c_mtime[4];
char c_namesize[2];
char c_filesize[4];
} Hdr;
#define SIZEOF_cray_hdr 152
struct cray_hdr { /* with thanks to Cray-Cyber.org */
char C_magic[8];
char C_dev[8];
char C_ino[8];
char C_mode[8];
char C_uid[8];
char C_gid[8];
char C_nlink[8];
char C_rdev[8];
/*
* The C_param field was introduced with
* UNICOS 6 and is simply not present in
* the earlier format. Following fields
* are the same for both revisions again.
*/
#define CRAY_PARAMSZ (8*8)
char C_param[CRAY_PARAMSZ];
char C_mtime[8];
char C_namesize[8];
char C_filesize[8];
} Crayhdr;
#define SIZEOF_c_hdr 76
struct c_hdr {
char c_magic[6];
char c_dev[6];
char c_ino[6];
char c_mode[6];
char c_uid[6];
char c_gid[6];
char c_nlink[6];
char c_rdev[6];
char c_mtime[11];
char c_namesz[6];
char c_filesz[11];
} Cdr;
#define SIZEOF_d_hdr 86
struct d_hdr {
char d_magic[6];
char d_dev[6];
char d_ino[6];
char d_mode[6];
char d_uid[6];
char d_gid[6];
char d_nlink[6];
char d_rmaj[8];
char d_rmin[8];
char d_mtime[11];
char d_namesz[6];
char d_filesz[11];
} Ddr;
#define SIZEOF_Exp_cpio_hdr 110
struct Exp_cpio_hdr {
char E_magic[6];
char E_ino[8];
char E_mode[8];
char E_uid[8];
char E_gid[8];
char E_nlink[8];
char E_mtime[8];
char E_filesize[8];
char E_maj[8];
char E_min[8];
char E_rmaj[8];
char E_rmin[8];
char E_namesize[8];
char E_chksum[8];
} Edr;
struct tar_header {
char t_name[TNAMSIZ];
char t_mode[8];
char t_uid[8];
char t_gid[8];
char t_size[12];
char t_mtime[TTIMSIZ];
char t_chksum[8];
char t_linkflag;
char t_linkname[TNAMSIZ];
char t_magic[TMAGSIZ];
char t_version[2];
char t_uname[32];
char t_gname[32];
char t_devmajor[8];
char t_devminor[8];
char t_prefix[TPFXSIZ];
} Tdr;
#define SIZEOF_bar_header 84
struct bar_header {
char b_mode[8];
char b_uid[8];
char b_gid[8];
char b_size[12];
char b_mtime[12];
char b_chksum[8];
char b_rdev[8];
char b_linkflag;
char b_bar_magic[2];
char b_volume_num[4];
char b_compressed;
char b_date[12];
} Bdr;
#define SIZEOF_zip_header 30
struct zip_header {
char z_signature[4];
char z_version[2];
char z_gflag[2];
char z_cmethod[2];
char z_modtime[2];
char z_moddate[2];
char z_crc32[4];
char z_csize[4];
char z_nsize[4];
char z_namelen[2];
char z_extralen[2];
} Zdr;
};
#define BCUT 0177777
#define OCUT 0777777
#define ECUT 0xFFFFFFFFUL
static const char trailer[] = "TRAILER!!!";
/*
* Structure of per-file extra data for zip format.
*/
union zextra {
char data[1];
#define SIZEOF_zextra_gn 4
struct zextra_gn {
char ze_gn_tag[2];
char ze_gn_tsize[2];
} Ze_gn;
#define SIZEOF_zextra_64 32 /* regular size */
#define SIZEOF_zextra_64_a 28 /* size without startn field */
#define SIZEOF_zextra_64_b 20 /* size without reloff field */
struct zextra_64 {
char ze_64_tag[2];
char ze_64_tsize[2];
char ze_64_nsize[8];
char ze_64_csize[8];
char ze_64_reloff[8];
char ze_64_startn[4];
} Ze_64;
#define SIZEOF_zextra_pk 16
struct zextra_pk {
char ze_pk_tag[2];
char ze_pk_tsize[2];
char ze_pk_atime[4];
char ze_pk_mtime[4];
char ze_pk_uid[2];
char ze_pk_gid[2];
} Ze_pk;
#define SIZEOF_zextra_ek 17
struct zextra_et {
char ze_et_tag[2];
char ze_et_tsize[2];
char ze_et_flags[1];
char ze_et_mtime[4];
char ze_et_atime[4];
char ze_et_ctime[4];
} Ze_et;
#define SIZEOF_zextra_i1 16
struct zextra_i1 {
char ze_i1_tag[2];
char ze_i1_tsize[2];
char ze_i1_atime[4];
char ze_i1_mtime[4];
char ze_i1_uid[2];
char ze_i1_gid[2];
} Ze_i1;
#define SIZEOF_zextra_i2 8
struct zextra_i2 {
char ze_i2_tag[2];
char ze_i2_tsize[2];
char ze_i2_uid[2];
char ze_i2_gid[2];
} Ze_i2;
#define SIZEOF_zextra_as 16
struct zextra_as {
char ze_as_tag[2];
char ze_as_tsize[2];
char ze_as_crc[4];
char ze_as_mode[2];
char ze_as_sizdev[4];
char ze_as_uid[2];
char ze_as_gid[2];
} Ze_as;
#define SIZEOF_zextra_cp 40
struct zextra_cp {
char ze_cp_tag[2];
char ze_cp_tsize[2];
char ze_cp_dev[4];
char ze_cp_ino[4];
char ze_cp_mode[4];
char ze_cp_uid[4];
char ze_cp_gid[4];
char ze_cp_nlink[4];
char ze_cp_rdev[4];
char ze_cp_mtime[4];
char ze_cp_atime[4];
} Ze_cp;
};
static struct zipstuff { /* stuff for central directory at EOF */
struct zipstuff *zs_next;
char *zs_name; /* file name */
long long zs_size; /* file size */
long long zs_relative; /* offset of local header */
long long zs_csize; /* compressed size */
uint32_t zs_crc32; /* CRC */
time_t zs_mtime; /* modification time */
enum cmethod zs_cmethod; /* compression method */
int zs_gflag; /* general flag */
mode_t zs_mode; /* file mode */
} *zipbulk;
/*
* Structure of the central zip directory at the end of the file. This
* (obligatory) part of a zip file is written by this implementation,
* but is completely ignored on copy-in. This means that we miss the
* mode_t stored in zc_extralen if zc_versionmade[1] is 3 (Unix). We
* have to do this since it contains the S_IFMT bits, thus telling us
* whether something is a symbolic link and resulting in different
* behavior - but as the input had to be seekable in order to do this,
* we had to store entire archives in temporary files if input came
* from a pipe to be consistent.
*/
#define SIZEOF_zipcentral 46
struct zipcentral {
char zc_signature[4];
char zc_versionmade[2];
char zc_versionextr[2];
char zc_gflag[2];
char zc_cmethod[2];
char zc_modtime[2];
char zc_moddate[2];
char zc_crc32[4];
char zc_csize[4];
char zc_nsize[4];
char zc_namelen[2];
char zc_extralen[2];
char zc_commentlen[2];
char zc_disknstart[2];
char zc_internal[2];
char zc_external[4];
char zc_relative[4];
};
#define SIZEOF_zip64end 56
struct zip64end {
char z6_signature[4];
char z6_recsize[8];
char z6_versionmade[2];
char z6_versionextr[2];
char z6_thisdiskn[4];
char z6_alldiskn[4];
char z6_thisentries[8];
char z6_allentries[8];
char z6_dirsize[8];
char z6_startsize[8];
};
#define SIZEOF_zip64loc 20
struct zip64loc {
char z4_signature[4];
char z4_startno[4];
char z4_reloff[8];
char z4_alldiskn[4];
};
#define SIZEOF_zipend 22
struct zipend {
char ze_signature[4];
char ze_thisdiskn[2];
char ze_alldiskn[2];
char ze_thisentries[2];
char ze_allentries[2];
char ze_dirsize[4];
char ze_startsize[4];
char ze_commentlen[2];
};
#define SIZEOF_zipddesc 16
struct zipddesc {
char zd_signature[4];
char zd_crc32[4];
char zd_csize[4];
char zd_nsize[4];
};
#define SIZEOF_zipddesc64 24
struct zipddesc64 {
char zd_signature[4];
char zd_crc32[4];
char zd_csize[8];
char zd_nsize[8];
};
/*
* Magic numbers and strings.
*/
static const uint16_t mag_bin = 070707;
/*static const uint16_t mag_bbs = 0143561;*/
static const char mag_asc[6] = "070701";
static const char mag_crc[6] = "070702";
static const char mag_odc[6] = "070707";
static const long mag_sco = 0x7ffffe00;
static const char mag_ustar[6] = "ustar\0";
static const char mag_gnutar[8] = "ustar \0";
static const char mag_bar[2] = "V\0";
static const char mag_zipctr[4] = "PK\1\2";
static const char mag_zipsig[4] = "PK\3\4";
static const char mag_zipend[4] = "PK\5\6";
static const char mag_zip64e[4] = "PK\6\6";
static const char mag_zip64l[4] = "PK\6\7";
static const char mag_zipdds[4] = "PK\7\10";
#define mag_zip64f 0x0001
#define mag_zipcpio 0x0707
/*
* Fields for the extended pax header.
*/
static enum paxrec {
PR_NONE = 0000,
PR_ATIME = 0001,
PR_GID = 0002,
PR_LINKPATH = 0004,
PR_MTIME = 0010,
PR_PATH = 0020,
PR_SIZE = 0040,
PR_UID = 0100,
PR_SUN_DEVMAJOR = 0200,
PR_SUN_DEVMINOR = 0400
} paxrec, globrec;
static struct stat globst;
/*
* This sets a sanity check limit on path names. If a longer path name
* occurs in an archive, it is treated as corrupt. This is because no
* known Unix system can handle path names of arbitrary length; limits
* are typically between 1024 and 4096. Trying to extract longer path
* names would fail anyway and will cpio eventually fail to allocate
* memory.
*/
#define SANELIMIT 0177777
char *progname; /* argv[0] to main() */
static struct dslot *devices; /* devices table */
static struct dslot *markeddevs; /* unusable device numbers */
static char *blkbuf; /* block buffer */
int blksiz; /* block buffer size */
static int blktop; /* top of filled part of buffer */
static int curpos; /* position in blkbuf */
static uint32_t fakedev; /* fake device for single link inodes */
static uint32_t fakeino; /* fake inode for single link inodes */
static uint32_t harddev; /* fake device used for hard links */
static unsigned long long maxsize;/* maximum size for format */
static unsigned long long maxrdev;/* maximum st_rdev for format */
static unsigned long long maxmajor;/* maximum major(st_rdev) for format */
static unsigned long long maxminor;/* maximum minor(st_rdev) for format */
static unsigned long long maxuid; /* maximum user id for format */
static unsigned long long maxgid; /* maximum group id for format */
static unsigned long long maxnlink;/* maximum link count for format */
static int mt; /* magtape file descriptor */
static int mfl; /* magtape flags */
static struct stat mtst; /* fstat() on mt */
int aflag; /* reset access times */
int Aflag; /* append to archive */
int bflag; /* swap bytes */
int Bflag; /* 5120 blocking */
int cflag; /* ascii format */
int Cflag; /* user-defined blocking */
int dflag; /* create directories */
int Dflag; /* do not ask for next device */
int eflag; /* DEC format */
int cray_eflag; /* do not archive if values too large */
const char *Eflag; /* filename for files to be extracted */
int fflag; /* pattern excludes */
int Hflag; /* header format */
const char *Iflag; /* input archive name */
int kflag; /* skipt corrupted parts */
int Kflag; /* IRIX-style large file support */
int lflag; /* link of possible */
int Lflag; /* follow symbolic links */
int mflag; /* retain modification times */
const char *Mflag; /* message when switching media */
const char *Oflag; /* output archive name */
int rflag; /* rename files */
const char *Rflag; /* reassign ownerships */
static uid_t Ruid; /* uid to assign */
static gid_t Rgid; /* gid to assign */
int sflag; /* swap half word bytes */
int Sflag; /* swap word bytes */
int tflag; /* print toc */
int uflag; /* overwrite files unconditionally */
int hp_Uflag; /* use umask when creating files */
int vflag; /* verbose */
int Vflag; /* special verbose */
int sixflag; /* 6th Edition archives */
int action; /* -i -o -p */
long long errcnt; /* error status */
static unsigned long long maxpath;/* maximum path length with -i */
static uint32_t maxino; /* maximum inode number with -i */
static uid_t myuid; /* user id of caller */
static gid_t mygid; /* group id of caller */
static long long blocks; /* copying statistics: full blocks */
static long long bytes; /* copying statistics: partial blocks */
static long long nwritten; /* bytes written to archive */
static off_t aoffs; /* offset in archive */
static off_t poffs; /* physical offset in archive */
static int tapeblock = -1; /* physical tape block size */
struct glist *patterns; /* patterns for -i */
static int tty; /* terminal file descriptor */
static const char *cur_ofile; /* current original file */
static const char *cur_tfile; /* current temporary file */
static mode_t umsk; /* user's umask */
static int zipclevel; /* zip compression level */
static struct islot *inull; /* splay tree null element */
int printsev; /* print message severity strings */
static int compressed_bar; /* this is a compressed bar archive */
static int formatforced; /* -k -i -Hfmt forces a format */
int pax_dflag; /* directory matches only itself */
int pax_kflag; /* do not overwrite files */
int pax_nflag; /* select first archive member only */
int pax_sflag; /* substitute file names */
int pax_uflag; /* add only recent files to archive */
int pax_Xflag; /* do not cross device boundaries */
static enum {
PO_NONE = 0,
PO_LINKDATA = 01, /* include link data in type 2 */
PO_TIMES = 02, /* create atime and mtime fields */
} pax_oflag; /* recognized -o options */
static void copyout(int (*)(const char *, struct stat *));
static size_t ofiles_cpio(char **, size_t *);
static void dooutp(void);
static int outfile(const char *, struct stat *);
static int addfile(const char *, struct stat *, uint32_t, uint32_t, int,
const char *);
static void iflush(struct islot *, uint32_t);
static void lflush(void);
static int bigendian(void);
static void getbuf(char **, size_t *, size_t);
static void prdot(int);
static void newmedia(int);
static void mclose(void);
static ssize_t mwrite(int);
static void bwrite(const char *, size_t);
static void bflush(void);
static int sum(int, const char *, struct stat *, char *);
static int rstime(const char *, struct stat *, const char *);
static struct islot *isplay(ino_t, struct islot *);
static struct islot *ifind(ino_t, struct islot **);
static void iput(struct islot *, struct islot **);
static struct dslot *dfind(struct dslot **, dev_t);
static void done(int);
static void dopass(const char *);
static int passdata(struct file *, const char *, int);
static int passfile(const char *, struct stat *);
static int filein(struct file *, int (*)(struct file *, const char *, int),
char *);
static int linkunlink(const char *, const char *);
static void tunlink(char **);
static int filet(struct file *, int (*)(struct file *, const char *, int));
static void filev(struct file *);
static int typec(struct stat *);
static void permbits(mode_t);
static void prtime_cpio(time_t);
static void getpath(const char *, char **, char **, size_t *, size_t *);
static void setpath(const char *, char **, char **,
size_t, size_t *, size_t *);
static int imdir(char *);
static int setattr(const char *, struct stat *);
static int setowner(const char *, struct stat *);
static int canlink(const char *, struct stat *, int);
static void doinp(void);
static void storelink(struct file *);
static void flushlinks(struct file *);
static void flushnode(struct islot *, struct file *);
static void flushrest(int);
static void flushtree(struct islot *, int);
static int inpone(struct file *, int);
static int readhdr(struct file *, union bincpio *);
static void whathdr(void);
static int infile(struct file *);
static int skipfile(struct file *);
static int skipdata(struct file *f,
int (*)(struct file *, const char *, int));
static int indata(struct file *, const char *, int);
static int totrailer(void);
static long long rdoct(const char *, int);
static long long rdhex(const char *, int);
static ssize_t mread(void);
static void mstat(void);
static int skippad(unsigned long long, int);
static int allzero(const char *, int);
static const char *getuser(uid_t);
static const char *getgroup(gid_t);
static struct glist *want(struct file *, struct glist **);
static void patfile(void);
static int ckodd(long long, int, const char *, const char *);
static int rname(char **, size_t *);
static int redirect(const char *, const char *);
static char *tnameof(struct tar_header *, char *);
static int tmkname(struct tar_header *, const char *);
static void tlinkof(struct tar_header *, struct file *);
static int tmklink(struct tar_header *, const char *);
static int tlflag(struct stat *);
static void tchksum(union bincpio *);
static int tcssum(union bincpio *, int);
static int trdsum(union bincpio *);
static mode_t tifmt(int);
static void bchksum(union bincpio *);
static int bcssum(union bincpio *);
static void blinkof(const char *, struct file *, int);
static void dump_barhdr(void);
static int zcreat(const char *, mode_t);
static int zclose(int);
static void markdev(dev_t);
static int marked(dev_t);
static void cantsup(int, const char *);
static void onint(int);
static int zipread(struct file *, const char *, int, int);
static void zipreaddesc(struct file *);
static int cantunzip(struct file *, const char *);
static time_t gdostime(const char *, const char *);
static void mkdostime(time_t, char *, char *);
static ssize_t ziprxtra(struct file *, struct zip_header *);
static void ziptrailer(void);
static void zipdefer(const char *, struct stat *, long long,
uint32_t, long long, const struct zip_header *);
static int zipwrite(int, const char *, struct stat *,
union bincpio *, size_t, uint32_t, uint32_t,
uint32_t *, long long *);
static int zipwtemp(int, const char *, struct stat *,
union bincpio *, size_t, uint32_t, uint32_t,
uint32_t *, long long *);
#if USE_ZLIB
static int zipwdesc(int, const char *, struct stat *,
union bincpio *, size_t, uint32_t, uint32_t,
uint32_t *, long long *);
#endif /* USE_ZLIB */
static int zipwxtra(const char *, struct stat *, uint32_t, uint32_t);
static void zipinfo(struct file *);
static void readK2hdr(struct file *);
static int readgnuname(char **, size_t *, long);
static void writegnuname(const char *, long, int);
static void tgetpax(struct tar_header *, struct file *);
static enum paxrec tgetrec(char **, char **, char **);
static void wrpax(const char *, const char *, struct stat *);
static void addrec(char **, long *, long *,
const char *, const char *, long long);
static void paxnam(struct tar_header *, const char *);
static char *sequence(void);
static char *joinpath(const char *, char *);
static int utf8(const char *);
size_t (*ofiles)(char **, size_t *) = ofiles_cpio;
void (*prtime)(time_t) = prtime_cpio;
int
main(int argc, char **argv)
{
myuid = getuid();
mygid = getgid();
umask(umsk = umask(0));
progname = basename(argv[0]);
setlocale(LC_CTYPE, "");
setlocale(LC_TIME, "");
inull = scalloc(1, sizeof *inull);
inull->i_lln = inull->i_rln = inull;
flags(argc, argv);
switch (action) {
case 'i':
if (sigset(SIGINT, SIG_IGN) != SIG_IGN)
sigset(SIGINT, onint);
doinp();
break;
case 'o':
dooutp();
break;
case 'p':
if (sigset(SIGINT, SIG_IGN) != SIG_IGN)
sigset(SIGINT, onint);
dopass(argv[optind]);
break;
}
if (tflag)
fflush(stdout);
else if (Vflag)
prdot(1);
if (pax != PAX_TYPE_CPIO)
pax_onexit();
fprintf(stderr, "%llu blocks\n", blocks + ((bytes + 0777) >> 9));
mclose();
if (errcnt && sysv3 == 0)
fprintf(stderr, "%llu error(s)\n", errcnt);
return errcnt ? sysv3 ? 1 : 2 : 0;
}
static size_t
ofiles_cpio(char **name, size_t *namsiz)
{
static struct iblok *ip;
if (ip == NULL)
ip = ib_alloc(0, 0);
return ib_getlin(ip, name, namsiz, srealloc);
}
/*
* Read the file name list for -o and -p and do initial processing
* for each name.
*/
static void
copyout(int (*copyfn)(const char *, struct stat *))
{
char *name = NULL, *np;
size_t namsiz = 0, namlen;
struct stat st;
while ((namlen = ofiles(&name, &namsiz)) != 0) {
if (name[namlen-1] == '\n')
name[--namlen] = '\0';
np = name;
while (np[0] == '.' && np[1] == '/') {
np += 2;
while (*np == '/')
np++;
if (*np == '\0') {
np = name;
break;
}
}
if (lstat(np, &st) < 0) {
if (sysv3 < 0)
msg(2, 0, "< %s > ?\n", np);
else if (sysv3 > 0)
msg(2, 0, "Cannot obtain information "
"about file: \"%s\".\n",
np);
else
emsg(2, "Error with lstat of \"%s\"", np);
errcnt++;
continue;
}
if (Lflag && (st.st_mode&S_IFMT) == S_IFLNK) {
if (stat(np, &st) < 0) {
emsg(2, "Cannot follow \"%s\"", np);
errcnt++;
continue;
}
}
/*
* These file types are essentially useless in an archive
* since they are recreated by any process that needs them.
* We thus ignore them and do not even issue a warning,
* because that would only displace more important messages
* on a terminal and confuse people who just want to copy
* directory hierarchies.--But for pax, POSIX.1-2001 requires
* us to fail!
*/
if ((st.st_mode&S_IFMT) == S_IFSOCK ||
(st.st_mode&S_IFMT) == S_IFDOOR) {
if (pax >= PAX_TYPE_PAX2001) {
msg(2, 0, "Cannot handle %s \"%s\".\n",
(st.st_mode&S_IFMT) == S_IFSOCK ?
"socket" : "door", np);
errcnt++;
}
continue;
}
if (pax_track(np, st.st_mtime) == 0)
continue;
if ((fmttype == FMT_ZIP ||
fmttype & TYP_BAR ||
fmttype == FMT_GNUTAR)
&& (st.st_mode&S_IFMT) == S_IFDIR &&
name[namlen-1] != '/') {
if (namlen+2 >= namsiz) {
size_t diff = np - name;
name = srealloc(name, namsiz = namlen+2);
np = &name[diff];
}
name[namlen++] = '/';
name[namlen] = '\0';
}
errcnt += copyfn(np, &st);
}
}
/*
* Execution for -o.
*/
static void
dooutp(void)
{
if (Oflag) {
if ((mt = Aflag ? open(Oflag, O_RDWR, 0666) :
creat(Oflag, 0666)) < 0) {
if (sysv3) {
emsg(013, "Cannot open <%s> for %s.", Oflag,
Aflag ? "append" : "output");
done(1);
} else
msg(3, -2, "Cannot open \"%s\" for %s\n", Oflag,
Aflag ? "append" : "output");
}
} else
mt = dup(1);
mstat();
blkbuf = svalloc(blksiz, 1);
if (Aflag) {
if (totrailer() != 0)
return;
} else if (fmttype == FMT_NONE)
fmttype = bigendian() ? FMT_BINBE : FMT_BINLE;
if (fmttype & TYP_BINARY) {
maxino = 0177777;
fakeino = 0177777;
maxpath = 256;
if (fmttype & TYP_SGI) {
maxsize = 0x7FFFFFFFFFFFFFFFLL;
maxmajor = 037777;
maxminor = 0777777;
} else {
maxsize = 0x7FFFFFFFLL;
maxrdev = 0177777;
}
maxuid = 0177777;
maxgid = 0177777;
maxnlink = 0177777;
} else if (fmttype == FMT_ODC) {
maxino = 0777777;
fakeino = 0777777;
maxpath = 256;
maxsize = 077777777777LL;
maxrdev = 0777777;
maxuid = 0777777;
maxgid = 0777777;
maxnlink = 0777777;
} else if (fmttype == FMT_DEC) {
maxino = 0777777;
fakeino = 0777777;
maxpath = 256;
maxsize = 077777777777LL;
maxmajor = 077777777;
maxminor = 077777777;
maxuid = 0777777;
maxgid = 0777777;
maxnlink = 0777777;
} else if (fmttype & TYP_NCPIO) {
maxino = 0xFFFFFFFFUL;
fakeino = 0xFFFFFFFFUL;
maxpath = 1024;
maxsize = fmttype&TYP_SCO ? 0x7FFFFFFFFFFFFFFFLL : 0xFFFFFFFFUL;
maxmajor = 0xFFFFFFFFUL;
maxminor = 0xFFFFFFFFUL;
maxuid = 0xFFFFFFFFUL;
maxgid = 0xFFFFFFFFUL;
maxnlink = 0xFFFFFFFFUL;
} else if (fmttype & TYP_CRAY) {
maxino = 0xFFFFFFFFUL;
fakeino = 0xFFFFFFFFUL;
maxpath = SANELIMIT;
maxsize = 0x7FFFFFFFFFFFFFFFLL;
maxrdev = 0x7FFFFFFFFFFFFFFFLL;
maxuid = 0x7FFFFFFFFFFFFFFFLL;
maxgid = 0x7FFFFFFFFFFFFFFFLL;
maxnlink = 0x7FFFFFFFFFFFFFFFLL;
} else if (fmttype == FMT_GNUTAR) {
maxino = 0xFFFFFFFFUL;
fakeino = 0xFFFFFFFFUL;
maxpath = SANELIMIT;
maxsize = 0x7FFFFFFFFFFFFFFFLL;
maxmajor = 0x7FFFFFFFFFFFFFFFLL;
maxminor = 0x7FFFFFFFFFFFFFFFLL;
maxuid = 0x7FFFFFFFFFFFFFFFLL;
maxgid = 0x7FFFFFFFFFFFFFFFLL;
maxnlink = 0x7FFFFFFFFFFFFFFFLL;
} else if (fmttype & TYP_PAX) {
maxino = 0xFFFFFFFFUL;
fakeino = 0xFFFFFFFFUL;
maxpath = SANELIMIT;
maxsize = 0x7FFFFFFFFFFFFFFFLL;
maxmajor = fmttype==FMT_SUN ? 0x7FFFFFFFFFFFFFFFLL : 07777777;
maxminor = fmttype==FMT_SUN ? 0x7FFFFFFFFFFFFFFFLL : 07777777;
maxuid = 0x7FFFFFFFFFFFFFFFLL;
maxgid = 0x7FFFFFFFFFFFFFFFLL;
maxnlink = 0x7FFFFFFFFFFFFFFFLL;
if (pax_oflag & PO_TIMES)
globrec |= PR_ATIME|PR_MTIME;
} else if (fmttype & TYP_BAR) {
maxino = 0xFFFFFFFFUL;
fakeino = 0xFFFFFFFFUL;
maxpath = 512 - SIZEOF_bar_header - 1;
maxsize = 077777777777LL;
maxrdev = 07777777;
maxuid = 07777777;
maxgid = 07777777;
maxnlink = 0x7FFFFFFFFFFFFFFFLL;
if (nwritten == 0)
dump_barhdr();
} else if (fmttype & TYP_USTAR) {
maxino = 0xFFFFFFFFUL;
fakeino = 0xFFFFFFFFUL;
maxpath = 256;
maxsize = 077777777777LL;
maxmajor = 07777777;
maxminor = 07777777;
maxuid = 07777777;
maxgid = 07777777;
maxnlink = 0x7FFFFFFFFFFFFFFFLL;
} else if (fmttype & TYP_OTAR) {
maxino = 0xFFFFFFFFUL;
fakeino = 0xFFFFFFFFUL;
maxpath = 99;
maxsize = 077777777777LL;
maxuid = 07777777;
maxgid = 07777777;
maxnlink = 0x7FFFFFFFFFFFFFFFLL;
} else if (fmttype == FMT_ZIP) {
maxino = 0xFFFFFFFFUL;
fakeino = 0xFFFFFFFFUL;
maxpath = 60000;
maxsize = 0x7FFFFFFFFFFFFFFFLL;
maxrdev = 0xFFFFFFFFUL;
maxuid = 0xFFFFFFFFUL;
maxgid = 0xFFFFFFFFUL;
maxnlink = 0xFFFFFFFFUL;
} else
abort();
fakedev = 0177777;
harddev = 1;
copyout(outfile);
if (fmttype & TYP_NCPIO)
lflush();
if (fmttype & TYP_CPIO) {
struct stat st;
memset(&st, 0, sizeof st);
st.st_nlink = 1;
outfile(trailer, &st);
}
if (fmttype & TYP_TAR) {
char b[512];
memset(b, 0, sizeof b);
bwrite(b, sizeof b);
bwrite(b, sizeof b);
}
if (fmttype == FMT_ZIP)
ziptrailer();
bflush();
}
/*
* Handle a single file for -o, do sanity checks and detect hard links.
*/
static int
outfile(const char *file, struct stat *st)
{
uint32_t dev, ino;
size_t pathsz;
if ((st->st_mode&S_IFMT) == S_IFREG)
if (mtst.st_dev == st->st_dev && mtst.st_ino == st->st_ino)
return 0;
if (st->st_size > maxsize) {
msg(2, 0, "Size of %c%s%c >%lluGB. Not dumped\n",
sysv3 ? '<' : '"',
file,
sysv3 ? '>' : '"',
(maxsize+1) / (1024*1024*1024));
return 1;
}
if (((st->st_mode&S_IFMT)==S_IFBLK||(st->st_mode&S_IFMT)==S_IFCHR) &&
(maxrdev &&
(unsigned long long)st->st_rdev > maxrdev ||
maxmajor &&
(unsigned long long)major(st->st_rdev) > maxmajor ||
maxminor &&
(unsigned long long)minor(st->st_rdev) > maxminor)) {
cantsup(1, file);
return 1;
}
if ((unsigned long long)st->st_uid > maxuid) {
if (cray_eflag) {
cantsup(1, file);
return 1;
}
cantsup(0, file);
st->st_uid = 60001;
if ((st->st_mode&S_IFMT) == S_IFREG && st->st_mode & 0111)
st->st_mode &= ~(mode_t)S_ISUID;
if ((unsigned long long)st->st_gid > maxgid) {
st->st_gid = 60001;
if ((st->st_mode&S_IFMT)==S_IFREG && st->st_mode&0010)
st->st_mode &= ~(mode_t)S_ISGID;
}
} else if ((unsigned long long)st->st_gid > maxgid) {
if (cray_eflag) {
cantsup(1, file);
return 1;
}
cantsup(0, file);
st->st_gid = 60001;
if ((st->st_mode&S_IFMT) == S_IFREG && st->st_mode & 0010)
st->st_mode &= ~(mode_t)S_ISGID;
}
if ((pathsz = strlen(file)) > maxpath) {
msg(2, 0, "%s: file name too long\n", file);
return 1;
}
/*
* Detect hard links and compute fake inode counts. The mechanism
* is as follows: If a file has more than one link, a fake device
* number starting at one is used for its device, and a fake inode
* number is used starting at one too.
*
* The information on links of directories is useless, so it is
* dropped and handled like a file with a single link only: Fake
* devices are allocated just below the format's limit, fake
* i-nodes the same.
*
* This way even the binary cpio format can have up to ~4G files.
*/
if (maxino && st->st_nlink > 1 && (st->st_mode&S_IFMT) != S_IFDIR) {
struct dslot *ds, *dp;
struct islot *ip;
dev = 1;
ds = devices;
dp = NULL;
nextdev:
for (; ds; dp = ds, ds = ds->d_nxt, dev++ /* see below! */)
if (ds->d_dev == st->st_dev)
break;
if (markeddevs && marked(dev)) {
dev++;
goto nextdev;
}
if (dev >= fakedev)
msg(4, 1, "Too many devices in archive, exiting\n");
if (ds == NULL) {
ds = scalloc(1, sizeof *ds);
ds->d_dev = st->st_dev;
ds->d_fake = dev;
if (devices == NULL)
devices = ds;
else
dp->d_nxt = ds;
}
harddev = dev;
if ((ip = ifind(st->st_ino, &ds->d_isl)) == NULL) {
if (ds->d_cnt >= maxino) {
/* corresponds to for loop above */
dev++, dp = ds, ds = ds->d_nxt;
goto nextdev;
}
ip = scalloc(1, sizeof *ip);
ip->i_ino = st->st_ino;
ip->i_fino = ++ds->d_cnt;
ip->i_nlk = st->st_nlink;
if (fmttype & TYP_TAR)
ip->i_name = sstrdup(file);
if (fmttype & TYP_NCPIO) {
ip->i_st = smalloc(sizeof *ip->i_st);
*ip->i_st = *st;
}
iput(ip, &ds->d_isl);
}
ino = ip->i_fino;
if (fmttype & TYP_NCPIO) {
/*
* In SVR4 ascii cpio format, files with multiple
* links are stored with a zero size except for the
* last link, which contains the actual file content.
* As one cannot know which is the last link in
* advance since some links may be outside the
* archive content, all links have to be collected
* and written out at once.
*/
struct ilink *il, *ik;
switch (ip->i_nlk) {
case 1:
/*
* This was the last link to a file. Write
* all previous links and break to write
* the actual file content. Free the pointers
* in islot; islot remains within the tree
* with a remaining link count of zero.
*/
ip->i_nlk--;
free(ip->i_st);
ip->i_st = NULL;
for (il = ip->i_lnk, ik = NULL; il;
ik = il, il = il->l_nxt,
ik ? free(ik), 0 : 0) {
errcnt += addfile(il->l_nam, st,
dev, ino, 1, 0);
free(il->l_nam);
}
break;
case 0:
/*
* This file got a link during operation, or
* -L was specified and we encountered a link
* more than once. Start with a fresh link
* count again.
*/
ip->i_nlk = st->st_nlink;
ip->i_lnk = NULL;
ip->i_st = smalloc(sizeof *ip->i_st);
*ip->i_st = *st;
/*FALLTHRU*/
default:
/*
* There are more links to this file. Store
* only the name and return.
*/
ip->i_nlk--;
if (ip->i_lnk) {
for (il = ip->i_lnk; il->l_nxt;
il = il->l_nxt);
il->l_nxt = scalloc(1,sizeof*il->l_nxt);
il = il->l_nxt;
} else {
ip->i_lnk = scalloc(1,sizeof*ip->i_lnk);
il = ip->i_lnk;
}
il->l_nam = smalloc(pathsz + 1);
strcpy(il->l_nam, file);
return 0;
}
} else if (fmttype & TYP_TAR) {
if (strcmp(ip->i_name, file))
return addfile(file, st, dev, ino, 1,
ip->i_name);
}
} else { /* single-linked or directory */
dev = fakedev;
while (markeddevs && marked(dev))
dev--;
if ((ino = fakeino--) == 0) {
if (--dev <= harddev)
msg(4, 1, "Too many devices in archive, "
"exiting\n");
fakedev = dev;
ino = maxino;
fakeino = ino - 1;
}
}
return addfile(file, st, dev, ino, 0, 0);
}
/*
* Add a single file to the archive with -o.
*/
static int
addfile(const char *realfile, struct stat *st,
uint32_t dev, uint32_t ino, int zerolink, const char *linkname)
{
union bincpio bc;
int fd = -1;
long long size;
int pad, i;
ssize_t rsz = 0, wsz = 0, hsz, fsz, psz;
long long remsz, relative, nlink;
long long Kbase = 0, Krest = 0, Ksize = 0;
struct hdr_cpio K2hdr;
uint32_t crc = 0;
long long csize = 0;
char *file;
char *symblink = NULL;
int failure = 1;
file = sstrdup(realfile);
if (pax != PAX_TYPE_CPIO && strcmp(file, trailer)) {
size_t junk = 0;
if (pax_sflag && pax_sname(&file, &junk) == 0)
goto cleanup;
if (rflag && rname(&file, &junk) == 0)
goto cleanup;
}
fsz = strlen(file);
relative = nwritten;
memset(bc.data, 0, sizeof bc.data);
if (fmttype == FMT_PAX && pax_oflag & PO_LINKDATA &&
(st->st_mode&S_IFMT) == S_IFREG)
size = st->st_size;
else if (zerolink)
size = 0;
else if ((st->st_mode&S_IFMT) == S_IFREG)
size = st->st_size;
else if ((st->st_mode&S_IFMT) == S_IFLNK) {
i = st->st_size ? st->st_size : PATH_MAX;
symblink = smalloc(i+1);
if ((size = readlink(realfile, symblink, i)) < 0) {
emsg(3, "Cannot read symbolic link \"%s\"", realfile);
goto cleanup;
}
symblink[size] = '\0';
} else
size = 0;
nlink = ((unsigned long long)st->st_nlink>maxnlink ?
maxnlink : st->st_nlink);
if (fmttype & TYP_NCPIO) {
long size1;
if (fmttype & TYP_SCO && size >= mag_sco) {
char *ofile = file;
size1 = mag_sco;
fsz += 22;
file = smalloc(fsz + 1);
snprintf(file, fsz + 1, "%s%csize=%016llx",
ofile, 0, size);
free(ofile);
} else
size1 = size;
pad = 4;
sprintf(bc.data, "%*.*s%08lx%08lx%08lx%08lx%08lx%08lx"
"%08lx%08lx%08lx%08lx%08lx%08lx%08lx",
(int)(fmttype&TYP_CRC? sizeof mag_crc:sizeof mag_asc),
(int)(fmttype&TYP_CRC? sizeof mag_crc:sizeof mag_asc),
fmttype & TYP_CRC ? mag_crc : mag_asc,
(long)ino & ECUT,
(long)st->st_mode & ECUT,
(long)st->st_uid & ECUT,
(long)st->st_gid & ECUT,
(long)nlink & ECUT,
(long)st->st_mtime & ECUT,
(long)size1 & ECUT,
(long)major(dev) & ECUT,
(long)minor(dev) & ECUT,
(long)major(st->st_rdev) & ECUT,
(long)minor(st->st_rdev) & ECUT,
(long)++fsz,
0L);
hsz = SIZEOF_Exp_cpio_hdr;
if ((psz = (hsz + fsz) % pad) != 0)
psz = pad - psz;
} else if (fmttype == FMT_ODC) {
pad = 1;
sprintf(bc.data, "%*.*s%06lo%06lo%06lo%06lo%06lo%06lo%06lo"
"%011lo%06lo%011lo",
(int)sizeof mag_odc, (int)sizeof mag_odc, mag_odc,
(long)dev & OCUT,
(long)ino & OCUT,
(long)st->st_mode & OCUT,
(long)st->st_uid & OCUT,
(long)st->st_gid & OCUT,
(long)nlink & OCUT,
(long)st->st_rdev & OCUT,
(long)st->st_mtime,
(long)++fsz,
(long)size);
hsz = SIZEOF_c_hdr;
if ((psz = (hsz + fsz) % pad) != 0)
psz = pad - psz;
} else if (fmttype == FMT_DEC) {
pad = 1;
sprintf(bc.data, "%*.*s%06lo%06lo%06lo%06lo%06lo%06lo"
"%08lo%08lo%011lo%06lo%011lo",
(int)sizeof mag_odc, (int)sizeof mag_odc, mag_odc,
(long)dev & OCUT,
(long)ino & OCUT,
(long)st->st_mode & OCUT,
(long)st->st_uid & OCUT,
(long)st->st_gid & OCUT,
(long)nlink & OCUT,
(long)major(st->st_rdev) & 077777777,
(long)minor(st->st_rdev) & 077777777,
(long)st->st_mtime,
(long)++fsz,
(long)size);
hsz = SIZEOF_d_hdr;
if ((psz = (hsz + fsz) % pad) != 0)
psz = pad - psz;
} else if (fmttype & TYP_BINARY) {
/*
* To avoid gcc's stupid 'comparison is always false due to
* limited range of data type' warning.
*/
unsigned long long gcccrap;
pad = 2;
if (fmttype & TYP_BE) {
be16p(mag_bin, bc.Hdr.c_magic);
be16p(dev, bc.Hdr.c_dev);
be16p(ino, bc.Hdr.c_ino);
be16p(st->st_mode, bc.Hdr.c_mode);
be16p(st->st_uid, bc.Hdr.c_uid);
be16p(st->st_gid, bc.Hdr.c_gid);
be16p(nlink, bc.Hdr.c_nlink);
be16p(st->st_rdev, bc.Hdr.c_rdev);
be32p(st->st_mtime, bc.Hdr.c_mtime);
be16p(++fsz, bc.Hdr.c_namesize);
} else {
le16p(mag_bin, bc.Hdr.c_magic);
le16p(dev, bc.Hdr.c_dev);
le16p(ino, bc.Hdr.c_ino);
le16p(st->st_mode, bc.Hdr.c_mode);
le16p(st->st_uid, bc.Hdr.c_uid);
le16p(st->st_gid, bc.Hdr.c_gid);
le16p(nlink, bc.Hdr.c_nlink);
le16p(st->st_rdev, bc.Hdr.c_rdev);
me32p(st->st_mtime, bc.Hdr.c_mtime);
le16p(++fsz, bc.Hdr.c_namesize);
}
if (fmttype & TYP_SGI && size > 0x7FFFFFFFLL) {
Krest = size & 0x7FFFFFFFLL;
Kbase = size - Krest;
Ksize = 0x100000000LL - (Kbase >> 31);
if (fmttype & TYP_BE)
be32p(Ksize, bc.Hdr.c_filesize);
else
me32p(Ksize, bc.Hdr.c_filesize);
K2hdr = bc.Hdr;
if (fmttype & TYP_BE)
be32p(Krest, K2hdr.c_filesize);
else
me32p(Krest, K2hdr.c_filesize);
} else {
if (fmttype & TYP_BE)
be32p(size, bc.Hdr.c_filesize);
else
me32p(size, bc.Hdr.c_filesize);
}
if (fmttype & TYP_SGI &&
(((st->st_mode&S_IFMT) == S_IFBLK ||
(st->st_mode&S_IFMT) == S_IFCHR) &&
((unsigned long long)major(st->st_rdev)>0xFF ||
(unsigned long long)minor(st->st_rdev)>0xFF) ||
(gcccrap = st->st_rdev) > 0177777)) {
uint32_t rdev;
rdev = (minor(st->st_rdev) & 0x0003FFFF) +
((major(st->st_rdev)<<18) & 0xFFFC0000);
if (fmttype & TYP_BE) {
be16p(0xFFFF, bc.Hdr.c_rdev);
be32p(rdev, bc.Hdr.c_filesize);
} else {
le16p(0xFFFF, bc.Hdr.c_rdev);
me32p(rdev, bc.Hdr.c_filesize);
}
}
hsz = SIZEOF_hdr_cpio;
psz = (hsz + fsz) % 2;
} else if (fmttype & TYP_CRAY) {
int diff5 = fmttype==FMT_CRAY5 ? CRAY_PARAMSZ : 0;
mode_t mo;
pad = 1;
be64p(mag_bin, bc.Crayhdr.C_magic);
be64p(dev, bc.Crayhdr.C_dev);
be64p(ino, bc.Crayhdr.C_ino);
if ((st->st_mode&S_IFMT) == S_IFLNK) /* non-standard */
mo = st->st_mode&07777|0130000; /* S_IFLNK on Cray */
else
mo = st->st_mode;
be64p(mo, bc.Crayhdr.C_mode);
be64p(st->st_uid, bc.Crayhdr.C_uid);
be64p(st->st_gid, bc.Crayhdr.C_gid);
be64p(nlink, bc.Crayhdr.C_nlink);
be64p(st->st_rdev, bc.Crayhdr.C_rdev);
be64p(st->st_mtime, bc.Crayhdr.C_mtime - diff5);
be64p(++fsz, bc.Crayhdr.C_namesize - diff5);
be64p(size, bc.Crayhdr.C_filesize - diff5);
hsz = SIZEOF_cray_hdr - diff5;
psz = 0;
} else if (fmttype & TYP_BAR) {
int c, n = 0;
pad = 512;
sprintf(bc.Bdr.b_mode, "%7.7o",(int)st->st_mode&(07777|S_IFMT));
sprintf(bc.Bdr.b_uid, "%7.7lo", (long)st->st_uid);
sprintf(bc.Bdr.b_gid, "%7.7lo", (long)st->st_gid);
sprintf(bc.Bdr.b_size, "%11.11llo",
(st->st_mode&S_IFMT) == S_IFREG && !zerolink ?
(long long)st->st_size&077777777777LL : 0LL);
sprintf(bc.Bdr.b_mtime, "%11.11lo", (long)st->st_mtime);
sprintf(bc.Bdr.b_rdev, "%7.7lo", (long)st->st_rdev);
strcpy(&bc.data[SIZEOF_bar_header], file);
c = tlflag(st);
if (zerolink == 0) {
bc.Bdr.b_linkflag = c;
if (c == '2') {
strncpy(&bc.data[SIZEOF_bar_header+fsz+1],
symblink,
512-SIZEOF_bar_header-fsz);
n = size;
}
} else {
bc.Bdr.b_linkflag = '1';
strncpy(&bc.data[SIZEOF_bar_header+fsz+1], linkname,
512-SIZEOF_bar_header-fsz-1);
n = strlen(linkname);
}
if (n > 512-SIZEOF_bar_header-fsz-1) {
msg(3, 0, "%s: linked name too long\n", realfile);
goto cleanup;
}
bchksum(&bc);
hsz = 512;
psz = 0;
fsz = 0;
} else if (fmttype & TYP_TAR) {
const char *cp;
int c;
/*
* Many SVR4 cpio derivatives expect the mode field
* to contain S_IFMT bits. The meaning of these bits
* in the mode field of the ustar header is left
* unspecified by IEEE Std 1003.1, 1996, 10.1.1.
*/
int mmask = fmttype == FMT_USTAR || fmttype == FMT_PAX ?
07777 : 07777|S_IFMT;
paxrec = globrec;
pad = 512;
if (tmkname(&bc.Tdr, file) != 0)
goto cleanup;
sprintf(bc.Tdr.t_mode, "%7.7o", (int)st->st_mode & mmask);
if (fmttype == FMT_GNUTAR && st->st_uid > 07777777) {
be64p(st->st_uid, bc.Tdr.t_uid);
bc.Tdr.t_uid[0] |= 0200;
} else {
sprintf(bc.Tdr.t_uid, "%7.7lo",
(long)st->st_uid&07777777);
if (fmttype & TYP_PAX && st->st_uid > 07777777)
paxrec |= PR_UID;
}
if (fmttype == FMT_GNUTAR && st->st_gid > 07777777) {
be64p(st->st_gid, bc.Tdr.t_gid);
bc.Tdr.t_gid[0] |= 0200;
} else {
sprintf(bc.Tdr.t_gid, "%7.7lo",
(long)st->st_gid&07777777);
if (fmttype & TYP_PAX && st->st_gid > 07777777)
paxrec |= PR_GID;
}
if (fmttype == FMT_GNUTAR && (st->st_mode&S_IFMT) == S_IFREG &&
st->st_size > 077777777777LL && !zerolink) {
bc.Tdr.t_size[0] = '\200';
be64p(st->st_size, &bc.Tdr.t_size[4]);
} else {
sprintf(bc.Tdr.t_size, "%11.11llo",
(st->st_mode&S_IFMT) == S_IFREG &&
(!zerolink || fmttype == FMT_PAX &&
pax_oflag & PO_LINKDATA) ?
(long long)st->st_size&077777777777LL : 0LL);
if (fmttype & TYP_PAX &&
(st->st_mode&S_IFMT) == S_IFREG &&
st->st_size > 077777777777LL &&
(!zerolink || fmttype == FMT_PAX &&
pax_oflag & PO_LINKDATA))
paxrec |= PR_SIZE;
}
sprintf(bc.Tdr.t_mtime, "%11.11lo", (long)st->st_mtime);
if ((c = tlflag(st)) < 0) {
if ((st->st_mode&S_IFMT) != S_IFDIR) {
msg(2, 0, "%s is not a file. Not dumped\n",
realfile);
errcnt++;
} else
failure = 0;
goto cleanup;
}
if (zerolink == 0) {
bc.Tdr.t_linkflag = c;
if (c == '2') {
if (tmklink(&bc.Tdr, symblink) != 0)
goto cleanup;
}
} else {
bc.Tdr.t_linkflag = '1';
if (tmklink(&bc.Tdr, linkname) != 0)
goto cleanup;
}
if (fmttype & TYP_USTAR) {
if (fmttype == FMT_GNUTAR)
strcpy(bc.Tdr.t_magic, mag_gnutar);
else {
strcpy(bc.Tdr.t_magic, mag_ustar);
bc.Tdr.t_version[0] = bc.Tdr.t_version[1] = '0';
}
if ((cp = getuser(st->st_uid)) != NULL)
sprintf(bc.Tdr.t_uname, "%.31s", cp);
else
msg(1, 0, "could not get passwd information "
"for %s\n", realfile);
if ((cp = getgroup(st->st_gid)) != NULL)
sprintf(bc.Tdr.t_gname, "%.31s", cp);
else
msg(1, 0, "could not get group information "
"for %s\n", realfile);
if (fmttype == FMT_GNUTAR &&
(unsigned long long)major(st->st_rdev)
> 077777777) {
be64p(major(st->st_rdev), bc.Tdr.t_devmajor);
bc.Tdr.t_devmajor[0] |= 0200;
} else {
if (fmttype == FMT_SUN &&
(unsigned long long)major(st->st_rdev)
> 077777777 &&
((st->st_mode&S_IFMT)==S_IFBLK||
(st->st_mode&S_IFMT)==S_IFCHR))
paxrec |= PR_SUN_DEVMAJOR;
sprintf(bc.Tdr.t_devmajor, "%7.7o",
(int)major(st->st_rdev)&07777777);
}
if (fmttype == FMT_GNUTAR &&
(unsigned long long)minor(st->st_rdev)
> 077777777) {
be64p(minor(st->st_rdev), bc.Tdr.t_devminor);
bc.Tdr.t_devminor[0] |= 0200;
} else {
if (fmttype == FMT_SUN &&
(unsigned long long)minor(st->st_rdev)
> 077777777 &&
((st->st_mode&S_IFMT)==S_IFBLK||
(st->st_mode&S_IFMT)==S_IFCHR))
paxrec |= PR_SUN_DEVMINOR;
sprintf(bc.Tdr.t_devminor, "%7.7o",
(int)minor(st->st_rdev)&07777777);
}
}
tchksum(&bc);
hsz = 512;
psz = 0;
fsz = 0;
} else if (fmttype == FMT_ZIP) {
pad = 1;
memcpy(bc.Zdr.z_signature, mag_zipsig, sizeof mag_zipsig);
bc.Zdr.z_version[0] = 10;
mkdostime(st->st_mtime, bc.Zdr.z_modtime, bc.Zdr.z_moddate);
if ((st->st_mode&S_IFMT) == S_IFREG ||
(st->st_mode&S_IFMT) == S_IFLNK) {
le32p(size, bc.Zdr.z_csize);
le32p(size, bc.Zdr.z_nsize);
csize = size;
}
le16p(fsz, bc.Zdr.z_namelen);
le16p(SIZEOF_zextra_cp, bc.Zdr.z_extralen);
hsz = SIZEOF_zip_header;
psz = 0;
} else
abort();
/*
* Start writing the file to the archive.
*/
if ((st->st_mode&S_IFMT) == S_IFREG && st->st_size != 0 &&
(zerolink == 0 || fmttype == FMT_PAX &&
pax_oflag & PO_LINKDATA)) {
char *buf;
size_t bufsize;
int readerr = 0;
if ((fd = open(realfile, O_RDONLY)) < 0) {
if (sysv3 < 0)
msg(0, 0, "< %s > ?\n", realfile);
else if (sysv3 > 0)
fprintf(stderr, "<%s> ?\n", realfile);
else
msg(0, 0, "\"%s\" ?\n", realfile);
goto cleanup;
}
if (fmttype == FMT_ZIP) {
if (zipwrite(fd, file, st, &bc, fsz, dev, ino,
&crc, &csize) < 0)
goto cleanup2;
goto done;
}
if (fmttype & TYP_CRC)
if (sum(fd, realfile, st, bc.Edr.E_chksum) < 0)
goto cleanup2;
if (fmttype & TYP_PAX && paxrec != PR_NONE)
wrpax(file, symblink?symblink:linkname, st);
bwrite(bc.data, hsz);
if (fsz)
bwrite(file, fsz);
if (psz)
bwrite(&bc.data[hsz], psz);
if (Kbase)
remsz = Kbase;
else
remsz = st->st_size;
getbuf(&buf, &bufsize, st->st_blksize);
again: while (remsz > 0) {
if (fd < 0 || (rsz = read(fd, &buf[wsz],
bufsize - wsz)) < 0) {
if (readerr == 0) {
emsg(3, "Cannot read \"%s\"", realfile);
if (fd >= 0)
errcnt++;
readerr = 1;
}
if (fd >= 0 && lseek(fd, bufsize - wsz,
SEEK_CUR) < 0) {
close(fd);
fd = -1;
}
rsz = bufsize - wsz;
if (rsz > remsz)
rsz = remsz;
memset(&buf[wsz], 0, rsz);
}
if (rsz > remsz)
rsz = remsz;
wsz += rsz;
remsz -= rsz;
bwrite(buf, wsz);
memset(buf, 0, wsz);
size = wsz;
wsz = 0;
}
wsz = size;
if (Kbase) {
if ((i = Ksize % pad) != 0)
bwrite(&bc.data[hsz], i);
bwrite((char *)&K2hdr, hsz);
if (fsz)
bwrite(file, fsz);
if (psz)
bwrite(&bc.data[hsz], psz);
remsz = Krest;
Kbase = 0;
wsz = 0;
goto again;
} else if (Ksize)
wsz = Krest;
} else if ((fmttype == FMT_ZIP || fmttype & TYP_CPIO) &&
(st->st_mode&S_IFMT) == S_IFLNK) {
wsz = size;
if (fmttype == FMT_ZIP) {
crc = zipcrc(0, (unsigned char *)symblink, wsz);
le32p(crc, bc.Zdr.z_crc32);
bwrite(bc.data, SIZEOF_zip_header);
bwrite(file, fsz);
zipwxtra(file, st, dev, ino);
bwrite(symblink, wsz);
} else {
bwrite(bc.data, hsz);
if (fsz)
bwrite(file, fsz);
if (psz)
bwrite(&bc.data[hsz], psz);
bwrite(symblink, wsz);
}
} else {
if (fmttype & TYP_PAX && paxrec != PR_NONE)
wrpax(file, symblink?symblink:linkname, st);
bwrite(bc.data, hsz);
if (fsz)
bwrite(file, fsz);
if (psz)
bwrite(&bc.data[hsz], psz);
if (fmttype == FMT_ZIP)
zipwxtra(file, st, dev, ino);
}
done: if (fmttype == FMT_ZIP) {
zipdefer(file, st, relative, crc, csize, &bc.Zdr);
}
if ((i = wsz % pad) != 0)
bwrite(&bc.data[hsz], pad - i);
if (vflag && strcmp(file, trailer))
fprintf(stderr, "%s\n", file);
else if (Vflag)
prdot(0);
failure = 0;
cleanup2:
if ((st->st_mode&S_IFMT) == S_IFREG) {
if (fd >= 0)
close(fd);
if (aflag)
errcnt += rstime(realfile, st, "access");
}
cleanup:
free(file);
free(symblink);
return failure;
}
/*
* Flush a SVR4 cpio format inode tree for -o.
*/
static void
iflush(struct islot *ip, uint32_t dev)
{
if (ip == inull)
return;
iflush(ip->i_lln, dev);
iflush(ip->i_rln, dev);
if (ip->i_nlk > 0 && ip->i_st) {
struct ilink *il;
for (il = ip->i_lnk; il->l_nxt; il = il->l_nxt)
errcnt += addfile(il->l_nam, ip->i_st,
dev, ip->i_fino, 1, 0);
errcnt += addfile(il->l_nam, ip->i_st, dev, ip->i_fino, 0, 0);
}
}
/*
* Flush the SVR4 cpio link forest for -o.
*/
static void
lflush(void)
{
struct dslot *ds;
for (ds = devices; ds; ds = ds->d_nxt)
iflush(ds->d_isl, ds->d_fake);
}
int
setfmt(char *s)
{
int i, j;
struct {
const char *ucs;
const char *lcs;
int type;
int bits;
} fs[] = {
{ "NEWC", "newc", FMT_ASC, 00 },
{ "SCO", "sco", FMT_SCOASC, 00 },
{ "CRC", "crc", FMT_CRC, 00 },
{ "SCOCRC", "scocrc", FMT_SCOCRC, 00 },
{ "ODC", "odc", FMT_ODC, 00 },
{ "DEC", "dec", FMT_DEC, 00 },
{ "BIN", "bin", FMT_NONE, 00 },
{ "BBS", "bbs", TYP_BE, 00 },
{ "SGI", "sgi", FMT_SGIBE, 00 },
{ "CRAY", "cray", FMT_CRAY, 00 },
{ "CRAY5", "cray5", FMT_CRAY5, 00 },
{ "TAR", "tar", FMT_TAR, 00 },
{ "USTAR", "ustar", FMT_USTAR, 00 },
{ "PAX:", "pax:", FMT_PAX, 00 },
{ "SUN", "sun", FMT_SUN, 00 },
{ "GNU", "gnu", FMT_GNUTAR, 00 },
{ "OTAR", "otar", FMT_OTAR, 00 },
{ "BAR", "bar", FMT_BAR, 00 },
{ "ZIP:", "zip:", FMT_ZIP, 00 },
{ NULL, NULL, 0, 00 }
};
for (i = 0; fs[i].ucs; i++) {
for (j = 0; s[j] &&
(s[j] == fs[i].ucs[j] || s[j] == fs[i].lcs[j]);
j++)
if (fs[i].ucs[j] == ':')
break;
if (s[j] == '\0' &&
(fs[i].ucs[j] == '\0' || fs[i].ucs[j] == ':') ||
s[j] == ':' && fs[i].ucs[j] == ':') {
fmttype = fs[i].type;
if (fmttype == FMT_ZIP && s[j] == ':') {
#if USE_ZLIB
if (strcmp(&s[j+1], "en") == 0)
zipclevel = 00;
else if (strcmp(&s[j+1], "ex") == 0)
zipclevel = 01;
else if (strcmp(&s[j+1], "ef") == 0)
zipclevel = 02;
else if (strcmp(&s[j+1], "es") == 0)
zipclevel = 03;
else
#endif /* USE_ZLIB */
if (strcmp(&s[j+1], "e0") == 0)
zipclevel = 04;
else
#if USE_BZLIB
if (strcmp(&s[j+1], "bz2") == 0)
zipclevel = 07;
else
#endif /* USE_BZLIB */
continue;
} else if (fmttype == FMT_NONE)
fmttype = bigendian() ? FMT_BINBE : FMT_BINLE;
else if (fmttype == TYP_BE)
fmttype = bigendian() ? FMT_BINLE : FMT_BINBE;
else if (fmttype == FMT_PAX && s[j] == ':') {
if (pax_options(&s[j+1], 0) < 0)
continue;
}
return 0;
}
}
msg(3, 0, "Invalid header \"%s\" specified.\n", s);
return -1;
}
static int
bigendian(void)
{
union {
char u_c[2];
int16_t u_i;
} u;
u.u_i = 1;
return u.u_c[1] == 1;
}
int
setreassign(const char *s)
{
struct passwd *pwd;
int val = 0;
if (myuid != 0) {
msg(3, 0, "R option only valid for super-user.\n");
val = -1;
}
if ((pwd = getpwnam(s)) == NULL) {
msg(3, 0, "\"%s\" is not a valid user id\n", s);
val = -1;
} else {
Ruid = pwd->pw_uid;
Rgid = pwd->pw_gid;
}
return val;
}
void *
srealloc(void *m, size_t n)
{
if ((m = realloc(m, n)) == NULL) {
write(2, "Out of memory.\n", 15);
_exit(sysv3 ? 2 : 3);
}
return m;
}
void *
smalloc(size_t n)
{
return srealloc(NULL, n);
}
void *
scalloc(size_t nmemb, size_t size)
{
void *vp;
if ((vp = calloc(nmemb, size)) == NULL) {
write(2, "Out of memory.\n", 15);
_exit(sysv3 ? 2 : 3);
}
return vp;
}
void *
svalloc(size_t n, int force)
{
static long pagesize;
void *vp;
if (pagesize == 0)
if ((pagesize = sysconf(_SC_PAGESIZE)) < 0)
pagesize = 4096;
if ((vp = memalign(pagesize, n)) == NULL && force) {
write(2, "Out of memory.\n", 15);
_exit(sysv3 ? 2 : 3);
}
return vp;
}
/*
* A single static buffer is used for intermediate copying from file
* data to the tape buffer and vice versa, for creating checksums, and
* for data transfer with -p.
*/
static void
getbuf(char **bufp, size_t *sizep, size_t best)
{
static char *buf;
static size_t size;
if (size != best) {
if (buf)
free(buf);
size = best;
if (size == 0 || (buf = svalloc(size, 0)) == NULL)
buf = svalloc(size = 512, 1);
}
*bufp = buf;
*sizep = size;
}
static void
sevprnt(int sev)
{
if (printsev) switch (sev) {
case 1:
fprintf(stderr, "INFORM: ");
break;
case 2:
fprintf(stderr, "WARNING: ");
break;
case 3:
fprintf(stderr, "ERROR: ");
break;
case 4:
fprintf(stderr, "HALT: ");
break;
}
}
void
msg(int sev, int err, const char *fmt, ...)
{
va_list ap;
/*
* The error message should appear near the file it refers to.
*/
if (tflag)
fflush(stdout);
else if (Vflag)
prdot(1);
if (sysv3 >= 0 && sev >= (printsev ? 0 : -1))
fprintf(stderr, "%s: ", progname);
sevprnt(sev);
va_start(ap, fmt);
vfprintf(stderr, fmt, ap);
va_end(ap);
if (err > 0)
done(err);
else if (err == -2) {
if (sysv3)
done(1);
usage();
}
}
void
emsg(int sev, const char *fmt, ...)
{
char _fmt[60];
int i, fl = sev & 030, n;
va_list ap;
sev &= ~030;
i = errno;
if (tflag)
fflush(stdout);
else if (Vflag)
prdot(1);
fprintf(stderr, "%s: ", progname);
sevprnt(sev);
va_start(ap, fmt);
if (sysv3) {
if (fmt[(n=strlen(fmt))-1] == '"' && fmt[n-2] == 's' &&
fmt[n-3] == '%' && fmt[n-4] == '"' &&
n < sizeof _fmt) {
strcpy(_fmt, fmt);
_fmt[n-1] = '>';
_fmt[n-4] = '<';
fmt = _fmt;
}
}
vfprintf(stderr, fmt, ap);
va_end(ap);
if (sysv3 > 0 && sev >= 0 && fl & 010)
fprintf(stderr, "\n\t%s\n", strerror(i));
else if (sysv3 < 0) {
if (fl & 020)
putc('\n', stderr);
else
fprintf(stderr, " (errno:%d)\n", i);
} else
fprintf(stderr, ", errno %d, %s\n", i, strerror(i));
}
static void
prdot(int flush)
{
static int column;
if (flush && column != 0 || column >= 50) {
write(action == 'o' && !Oflag ? 2 : 1, "\n", 1);
column = 0;
}
if (!flush) {
write(action == 'o' && !Oflag ? 2 : 1, ".", 1);
column++;
}
}
/*
* Ask the user for new media if applicable, or exit.
*/
static void
newmedia(int err)
{
static int mediacnt = 1;
static char answer[PATH_MAX+1];
const char *mesf = action == 'i' ?
(Iflag && !sysv3 ? Iflag : "input") :
(Oflag && !sysv3 ? Oflag : "output");
char c;
int i, j;
if (mfl == 0 && close(mt) < 0) {
emsg(3, "Close error on \"%s\"", mesf);
errcnt++;
}
mfl = -1;
if ((mtst.st_mode&S_IFMT)!=S_IFCHR && (mtst.st_mode&S_IFMT)!=S_IFBLK ||
Dflag) {
if (action == 'o') {
switch (err) {
case 0:
break;
case EFBIG:
msg(3, 0, "ulimit reached for output file.\n");
break;
case ENOSPC:
msg(3, 0, "No space left for output file.\n");
break;
default:
msg(3, 0, "I/O error - cannot continue, "
"errno %d, %s\n",
err, strerror(err));
}
}
return;
}
if (err == ENOSPC || err == ENXIO || err == 0)
msg(-2, 0, sysv3 ? "Reached end of medium on %s.\a\n" :
"End of medium on \"%s\".\a\n", mesf);
else
msg(3, 0, "I/O error on \"%s\", errno %d, %s\a\n", mesf,
err, strerror(err));
mediacnt++;
while (mfl < 0) {
if (Iflag || Oflag)
msg(-2, 0, Mflag ? Mflag :
"Change to part %d and press "
"RETURN key. [q] ", mediacnt);
else
msg(-2, 0, sysv3 ? "If you want to go on, "
"type device/file name when ready.\n" :
"To continue, type device/file name "
"when ready.\n");
if (tty == 0)
if ((tty = open("/dev/tty", O_RDWR)) < 0 ||
fcntl(tty, F_SETFD, FD_CLOEXEC) < 0) {
cantrt: errcnt++;
msg(4, 1, "Cannot read tty.\n");
}
i = 0;
while ((j = read(tty, &c, 1)) == 1 && c != '\n')
if (i < sizeof answer - 1)
answer[i++] = c;
if (j != 1)
goto cantrt;
answer[i] = 0;
if (Iflag || Oflag) {
if (answer[0] == '\0')
snprintf(answer, sizeof answer, Iflag ? Iflag :
Oflag);
else if (answer[0] == 'q')
exit(errcnt != 0 ? sysv3 ? 1 : 2 : 0);
else if (Iflag)
Iflag = sstrdup(answer);
else if (Oflag)
Oflag = sstrdup(answer);
} else if (answer[0] == '\0')
return;
if ((mt = action == 'i' ? open(answer, O_RDONLY) :
creat(answer, 0666)) < 0) {
if (sysv3)
msg(-2, 0, "That didn't work, "
"cannot open \"%s\"\n%s\n",
answer, strerror(errno));
else
emsg(3, "Cannot open \"%s\"", answer);
}
else
mfl = 0;
}
mstat();
}
static void
mclose(void)
{
if (action == 'o' && mt >= 0 && close(mt) < 0) {
emsg(3, "Close error on \"%s\"",
Oflag && !sysv3 ? Oflag : "output");
errcnt++;
}
}
/*
* Write the archive buffer to tape.
*/
static ssize_t
mwrite(int max)
{
ssize_t wo, wt = 0;
do {
if ((wo = write(mt, blkbuf + wt, (max?max:blksiz) - wt)) < 0) {
if (errno == EINTR) {
continue;
} else {
newmedia(errno);
if (mfl == 0) {
if (fmttype & TYP_BAR)
dump_barhdr();
continue;
}
else
done(1);
}
}
poffs += wo;
wt += wo;
} while (wt < (max?max:blksiz));
blocks += wt >> 9;
bytes += wt & 0777;
return wt;
}
/*
* Buffered writes to tape.
*/
static void
bwrite(const char *data, size_t sz)
{
size_t di;
nwritten += sz;
while (curpos + sz > blksiz) {
di = blksiz - curpos;
sz -= di;
memcpy(&blkbuf[curpos], data, di);
mwrite(0);
data += di;
curpos = 0;
}
memcpy(&blkbuf[curpos], data, sz);
curpos += sz;
}
/*
* Flush the tape write buffer.
*/
static void
bflush(void)
{
if (curpos) {
memset(&blkbuf[curpos], 0, blksiz - curpos);
mwrite(fmttype==FMT_ZIP && (mtst.st_mode&S_IFMT) == S_IFREG ?
curpos : 0);
}
curpos = 0;
}
/*
* CRC format checksum calculation with -i.
*/
static int
sum(int fd, const char *fn, struct stat *sp, char *tg)
{
char *buf;
size_t bufsize;
uint32_t size = sp->st_size, sum = 0;
ssize_t rd;
char c;
getbuf(&buf, &bufsize, sp->st_blksize);
/*
* Unfortunately, SVR4 cpio derivatives (as on Solaris 8 and
* UnixWare 2.1) compute the checksum of signed char values,
* whereas GNU cpio and the pax implementations of AT&T and
* BSD use unsigned chars. Since there is no 'open' standard
* for the SVR4 CRC format, the SVR4 implementation should be
* taken as a de facto reference and we thus create SVR4 type
* checksums.
*/
while ((rd = read(fd, buf, size>bufsize ? bufsize : size )) > 0) {
size -= rd;
do
sum += ((signed char *)buf)[--rd];
while (rd);
}
if (rd < 0) {
msg(3, 0, "Error computing checksum\n");
return 1;
}
if (lseek(fd, 0, SEEK_SET) == (off_t)-1) {
emsg(3, "Cannot reset file after checksum");
return 1;
}
c = tg[8];
sprintf(tg, "%08lx", (long)sum);
tg[8] = c;
return 0;
}
static int
rstime(const char *fn, struct stat *st, const char *which)
{
struct utimbuf utb;
utb.actime = st->st_atime;
utb.modtime = st->st_mtime;
if (pax != PAX_TYPE_CPIO &&
(pax_preserve&(PAX_P_ATIME|PAX_P_MTIME)) != 0 &&
(pax_preserve&PAX_P_EVERY) == 0) {
struct stat xst;
if (stat(fn, &xst) < 0)
goto fail;
if (pax_preserve&PAX_P_ATIME)
utb.actime = xst.st_atime;
if (pax_preserve&PAX_P_MTIME)
utb.modtime = xst.st_mtime;
}
if (utime(fn, &utb) < 0) {
fail: emsg(2, "Unable to reset %s time for \"%s\"", which, fn);
return 1;
}
return 0;
}
/*
* Top-down splay function for inode tree.
*/
static struct islot *
isplay(ino_t ino, struct islot *x)
{
struct islot hdr;
struct islot *leftmax, *rightmin;
struct islot *y;
hdr.i_lln = hdr.i_rln = inull;
leftmax = rightmin = &hdr;
inull->i_ino = ino;
while (ino != x->i_ino) {
if (ino < x->i_ino) {
if (ino < x->i_lln->i_ino) {
y = x->i_lln;
x->i_lln = y->i_rln;
y->i_rln = x;
x = y;
}
if (x->i_lln == inull)
break;
rightmin->i_lln = x;
rightmin = x;
x = x->i_lln;
} else {
if (ino > x->i_rln->i_ino) {
y = x->i_rln;
x->i_rln = y->i_lln;
y->i_lln = x;
x = y;
}
if (x->i_rln == inull)
break;
leftmax->i_rln = x;
leftmax = x;
x = x->i_rln;
}
}
leftmax->i_rln = x->i_lln;
rightmin->i_lln = x->i_rln;
x->i_lln = hdr.i_rln;
x->i_rln = hdr.i_lln;
inull->i_ino = !ino;
return x;
}
/*
* Find the inode number ino.
*/
static struct islot *
ifind(ino_t ino, struct islot **it)
{
if (*it == NULL)
return NULL;
*it = isplay(ino, *it);
return (*it)->i_ino == ino ? *it : NULL;
}
/*
* Put ik into the tree.
*/
static void
iput(struct islot *ik, struct islot **it)
{
if ((*it) == NULL) {
ik->i_lln = ik->i_rln = inull;
(*it) = ik;
} else {
/* ifind() is always called before */
/*(*it) = isplay(ik->i_ino, (*it));*/
if (ik->i_ino < (*it)->i_ino) {
ik->i_lln = (*it)->i_lln;
ik->i_rln = (*it);
(*it)->i_lln = inull;
(*it) = ik;
} else if ((*it)->i_ino < ik->i_ino) {
ik->i_rln = (*it)->i_rln;
ik->i_lln = (*it);
(*it)->i_rln = inull;
(*it) = ik;
}
}
}
/*
* Find the device dev or add it to the device/inode forest if not
* already present.
*/
static struct dslot *
dfind(struct dslot **root, dev_t dev)
{
struct dslot *ds, *dp;
for (ds = *root, dp = NULL; ds; dp = ds, ds = ds->d_nxt)
if (ds->d_dev == dev)
break;
if (ds == NULL) {
ds = scalloc(1, sizeof *ds);
ds->d_dev = dev;
if (*root == NULL)
*root = ds;
else
dp->d_nxt = ds;
}
return ds;
}
/*
* Exit on fatal error conditions.
*/
static void
done(int i)
{
if (tflag)
fflush(stdout);
errcnt += i;
mclose();
if (errcnt && !sysv3)
fprintf(stderr, "%llu errors\n", errcnt);
exit(sysv3 ? 2 : 3);
}
static char *pcopy, *pcend;
static size_t psz, pslen, pss;
/*
* Execution for -p.
*/
static void
dopass(const char *target)
{
struct stat st;
if (access(target, W_OK) < 0) {
emsg(033, sysv3 ? "cannot write in <%s>" :
"Error during access() of \"%s\"", target);
if (sysv3)
done(1);
usage();
}
if (stat(target, &st) < 0) {
emsg(023, "Error during stat() of \"%s\"", target);
done(1);
}
if ((st.st_mode&S_IFMT) != S_IFDIR)
msg(3, 1, sysv3 ? "<%s> not a directory.\n" :
"\"%s\" is not a directory\n", target);
getpath(target, &pcopy, &pcend, &psz, &pslen);
copyout(passfile);
}
/*
* Callback for sfile().
*/
/*ARGSUSED*/
void
writerr(void *vp, int count, int written)
{
}
/*
* Copy file data of regular files with -p.
*/
static int
passdata(struct file *f, const char *tgt, int tfd)
{
char *buf;
size_t bufsize;
ssize_t rd = 0;
if (f->f_fd < 0) /* is a zero-sized unreadable file */
return 0;
#ifdef __linux__
if (f->f_st.st_size > 0) {
long long sent;
sent = sfile(tfd, f->f_fd, f->f_st.st_mode, f->f_st.st_size);
blocks += (sent + 0777) >> 9;
if (sent == f->f_st.st_size)
return 0;
if (sent < 0)
goto rerr;
}
#endif /* __linux__ */
getbuf(&buf, &bufsize, f->f_st.st_blksize);
while ((rd = read(f->f_fd, buf, bufsize)) > 0) {
blocks += (rd + 0777) >> 9;
if (write(tfd, buf, rd) != rd) {
emsg(3, "Cannot write \"%s\"", tgt);
return -1;
}
}
if (rd < 0) {
#ifdef __linux__
rerr:
#endif /* __linux__ */
emsg(3, "Cannot read \"%s\"", f->f_name);
return -1;
}
return 0;
}
/*
* Handle a single file for -p.
*/
static int
passfile(const char *fn, struct stat *st)
{
struct file f;
ssize_t sz;
int val;
char *newfn;
size_t newsz = 0;
newfn = sstrdup(fn);
if (pax != PAX_TYPE_CPIO) {
if (pax_sflag && pax_sname(&newfn, &newsz) == 0)
return 0;
if (rflag && rname(&newfn, &newsz) == 0)
return 0;
}
setpath(newfn, &pcopy, &pcend, pslen, &psz, &pss);
free(newfn);
memset(&f, 0, sizeof f);
f.f_name = sstrdup(fn);
f.f_nsiz = strlen(fn) + 1;
f.f_st = *st;
f.f_fd = -1;
if ((st->st_mode&S_IFMT) == S_IFLNK) {
sz = st->st_size ? st->st_size : PATH_MAX;
f.f_lnam = smalloc(sz+1);
if ((sz = readlink(fn, f.f_lnam, sz+1)) < 0) {
emsg(3, "Cannot read symbolic link \"%s\"", fn);
free(f.f_lnam);
return 1;
}
f.f_lnam[sz] = '\0';
} else if ((st->st_mode&S_IFMT) == S_IFREG) {
if ((f.f_fd = open(fn, O_RDONLY)) < 0) {
if (sysv3)
msg(2, 0, "Cannot open file \"%s\".\n", fn);
else
emsg(2, "Cannot open \"%s\", skipped", fn);
if (st->st_size != 0)
return 1;
}
}
val = filein(&f, passdata, pcopy);
if (f.f_lnam)
free(f.f_lnam);
free(f.f_name);
if (f.f_fd >= 0)
close(f.f_fd);
if (val <= 1 && aflag && (st->st_mode&S_IFMT) == S_IFREG)
errcnt += rstime(fn, st, "access");
return val != 0;
}
/*
* Processing of a single file common to -i and -p. Return value: 0 if
* successful, 1 at failure if data was read, 2 at failure if no data
* was read.
*/
static int
filein(struct file *f, int (*copydata)(struct file *, const char *, int),
char *tgt)
{
struct stat nst;
char *temp = NULL;
size_t len;
int fd, i, j, new;
int failure = 2;
if (fmttype == FMT_ZIP && (f->f_st.st_mode&S_IFMT) != S_IFREG &&
(f->f_st.st_mode&S_IFMT) != S_IFLNK &&
(f->f_csize > 0 || f->f_gflag & FG_DESC))
skipfile(f);
if ((new = lstat(tgt, &nst)) == 0) {
if (action == 'p' && f->f_st.st_dev == nst.st_dev &&
f->f_st.st_ino == nst.st_ino) {
msg(3, 0, sysv3 ?
"Attempt to pass file to self!\n" :
"Attempt to pass a file to itself.\n");
return 1;
}
if ((f->f_st.st_mode&S_IFMT) == S_IFDIR) {
if ((nst.st_mode&S_IFMT) == S_IFDIR)
return setattr(tgt, &f->f_st);
rmdir(tgt);
} else {
if (pax_kflag) {
failure = 0;
goto skip;
}
if (uflag == 0 && f->f_st.st_mtime <= nst.st_mtime) {
if (pax == PAX_TYPE_CPIO)
msg(-1, 0, sysv3 ?
"current <%s> newer or same age\n" :
"Existing \"%s\" same age or newer\n",
tgt);
else
failure = 0;
goto skip;
}
}
} else {
if (imdir(tgt) < 0)
goto skip;
}
if (Vflag && !vflag)
prdot(0);
if ((f->f_st.st_mode&S_IFMT) != S_IFDIR && lflag) {
if (Lflag) {
char *symblink, *name;
struct stat xst;
name = f->f_name;
for (;;) {
if (lstat(name, &xst) < 0) {
emsg(3, "Cannot lstat \"%s\"", name);
if (name != f->f_name)
free(name);
goto cantlink;
}
if ((xst.st_mode&S_IFMT) != S_IFLNK)
break;
i = xst.st_size ? xst.st_size : PATH_MAX;
symblink = smalloc(i+1);
if ((j = readlink(name, symblink, i)) < 0) {
emsg(3, "Cannot read symbolic link "
"\"%s\"", name);
free(symblink);
if (name != f->f_name)
free(name);
goto cantlink;
}
symblink[j] = '\0';
symblink = joinpath(name, symblink);
if (name != f->f_name)
free(name);
name = symblink;
}
if (linkunlink(name, tgt) == 0) {
if (vflag)
fprintf(stderr, "%s\n", tgt);
if (name != f->f_name)
free(name);
return 0;
}
if (name != f->f_name)
free(name);
} else if (linkunlink(f->f_name, tgt) == 0) {
if (vflag)
fprintf(stderr, "%s\n", tgt);
return 0;
}
cantlink: errcnt += 1;
}
if ((f->f_st.st_mode&S_IFMT) != S_IFDIR && f->f_st.st_nlink > 1 &&
(fmttype & TYP_CPIO || fmttype == FMT_ZIP
|| action == 'p') &&
(i = canlink(tgt, &f->f_st, 1)) != 0) {
if (i < 0)
goto skip;
/*
* At this point, hard links in SVR4 cpio format have
* been reordered and data is associated with the first
* link; remaining links have st_size == 0 so don't
* overwrite the data here.
*/
if (fmttype & TYP_NCPIO && f->f_st.st_size == 0 ||
(f->f_st.st_mode&S_IFMT) != S_IFREG) {
if (vflag)
fprintf(stderr, "%s\n", f->f_name);
return 0;
}
/*
* Make sure we can creat() this file later.
*/
chmod(tgt, 0600);
} else if (fmttype & TYP_TAR && f->f_st.st_nlink > 1) {
if (linkunlink(f->f_lnam, f->f_name) == 0) {
if (fmttype & TYP_USTAR && f->f_st.st_size > 0)
chmod(tgt, 0600);
else {
if (vflag)
fprintf(stderr, "%s\n", f->f_name);
return 0;
}
} else {
goto restore;
}
} else if (new == 0 && (f->f_st.st_mode&S_IFMT) != S_IFDIR) {
len = strlen(tgt);
temp = smalloc(len + 7);
strcpy(temp, tgt);
strcpy(&temp[len], "XXXXXX");
if ((fd = mkstemp(temp)) < 0 || close(fd) < 0) {
emsg(3, "Cannot create temporary file");
if (fd < 0) {
free(temp);
temp = NULL;
}
goto skip;
}
cur_ofile = tgt;
cur_tfile = temp;
if (rename(tgt, temp) < 0) {
emsg(3, "Cannot rename current \"%s\"", tgt);
tunlink(&temp);
goto skip;
}
}
switch (f->f_st.st_mode & S_IFMT) {
case S_IFDIR:
if (!dflag) {
if (action == 'p')
msg(-1, 0, "Use -d option to copy \"%s\"\n",
f->f_name);
goto restore;
}
if (mkdir(tgt, 0777) < 0 && errno != EEXIST) {
emsg(-1, "Cannot create directory \"%s\"", tgt);
goto restore;
}
break;
case S_IFLNK:
if (symlink(f->f_lnam, tgt) < 0) {
emsg(3, "Cannot create \"%s\"", tgt);
goto restore;
}
break;
case S_IFREG:
if (temp && f->f_fd < 0)
goto restore;
cur_ofile = tgt;
if ((fd = (compressed_bar ? zcreat : creat)(tgt,
f->f_st.st_mode & 0777)) < 0) {
emsg(3, "Cannot create \"%s\"", tgt);
goto skip;
}
failure = 1;
if (copydata(f, tgt, fd) != 0) {
close(fd);
goto restore;
}
if ((compressed_bar ? zclose : close)(fd) < 0) {
emsg(3, "Close error on \"%s\"", tgt);
goto restore;
}
break;
case S_IFBLK:
case S_IFCHR:
case S_IFIFO:
case S_IFNAM:
case S_IFNWK:
if (mknod(tgt, f->f_st.st_mode&(S_IFMT|0777),
f->f_st.st_rdev) < 0) {
emsg(3, "Cannot mknod() \"%s\"", tgt);
goto restore;
}
break;
default:
msg(-1, 0, "Impossible file type\n");
goto skip;
}
if (vflag)
fprintf(stderr, "%s\n", f->f_name);
tunlink(&temp);
return setattr(tgt, &f->f_st);
skip: if (copydata == indata)
skipdata(f, copydata);
restore:
if (temp) {
if (rename(temp, tgt) < 0) {
emsg(3, "Cannot recover original version of \"%s\"",
tgt);
tunlink(&temp);
} else
fprintf(stderr, "Restoring existing \"%s\"\n", tgt);
cur_tfile = cur_ofile = NULL;
}
return failure;
}
static int
linkunlink(const char *path1, const char *path2)
{
int twice = 0;
do {
if (link(path1, path2) == 0) {
if (vflag && pax == PAX_TYPE_CPIO)
printf("%s linked to %s\n", path1, path2);
return 0;
}
if (errno == EEXIST && unlink(path2) < 0)
emsg(3, sysv3 ? "cannot unlink <%s>" :
"Error cannot unlink \"%s\"", path2);
} while (twice++ == 0);
emsg(023, sysv3 ? "Cannot link <%s> & <%s>" :
"Cannot link \"%s\" and \"%s\"", path1, path2);
return -1;
}
static void
tunlink(char **fn)
{
cur_tfile = cur_ofile = NULL;
if (*fn) {
if (unlink(*fn) < 0)
emsg(3, "Cannot unlink() temp file \"%s\"", *fn);
free(*fn);
*fn = NULL;
}
}
/*
* For -it[v] option.
*/
static int
filet(struct file *f, int (*copydata)(struct file *, const char *, int))
{
if (vflag && (
(fmttype == FMT_ZIP && f->f_gflag & FG_DESC &&
(f->f_cmethod == C_DEFLATED || f->f_cmethod == C_ENHDEFLD) &&
(f->f_gflag & FG_CRYPT) == 0) ||
f->f_Kbase)) {
/*
* Need to read zip data descriptor located after the
* file contents in order to know the file size. Or
* need to read second header of -K archive.
*/
int i;
i = skipdata(f, copydata);
filev(f);
return i;
}
if (vflag)
filev(f);
else
puts(f->f_name);
return skipdata(f, copydata);
}
static void
filev(struct file *f)
{
const char *cp;
long c;
if (pax == PAX_TYPE_CPIO && fmttype & TYP_TAR && f->f_st.st_nlink > 1)
printf("%s linked to %s\n", f->f_lnam, f->f_name);
if (sysv3)
printf("%-6o", (int)f->f_st.st_mode&(07777|S_IFMT));
else {
c = typec(&f->f_st);
putchar(c);
permbits(f->f_st.st_mode);
}
if (fmttype == FMT_ZIP && vflag > 1)
zipinfo(f);
else {
if (sysv3 == 0)
printf(" %3d", fmttype&TYP_TAR &&
(f->f_st.st_mode&S_IFMT) == S_IFLNK ?
2 : (int)f->f_st.st_nlink);
if ((cp = getuser(f->f_st.st_uid)) != NULL)
printf(sysv3 ? " %-6s" : " %-8s", cp);
else
printf(sysv3 ? " %-6lu" : " %-8lu",
(long)f->f_st.st_uid);
if (sysv3 == 0) {
if ((cp = getgroup(f->f_st.st_gid)) != NULL)
printf(" %-8s", cp);
else
printf(" %-8lu", (long)f->f_st.st_gid);
}
}
if (sysv3 || (f->f_st.st_mode&S_IFMT)!=S_IFCHR &&
(f->f_st.st_mode&S_IFMT)!=S_IFBLK &&
(f->f_st.st_mode&S_IFMT)!=S_IFNAM &&
(f->f_st.st_mode&S_IFMT)!=S_IFNWK)
printf(pax != PAX_TYPE_CPIO ? "%8llu" :
sysv3 ? "%7llu" : " %-7llu", f->f_dsize);
else
printf(" %3lu,%3lu", (long)f->f_rmajor, (long)f->f_rminor);
prtime(f->f_st.st_mtime);
printf("%s", f->f_name);
if ((f->f_st.st_mode&S_IFMT) == S_IFLNK)
printf(" -> %s", f->f_lnam);
if (pax != PAX_TYPE_CPIO && (f->f_st.st_mode&S_IFMT) != S_IFDIR &&
f->f_st.st_nlink>1) {
if (fmttype & TYP_TAR)
printf(" == %s", f->f_lnam);
else
canlink(f->f_name, &f->f_st, 0);
}
putchar('\n');
}
static int
typec(struct stat *st)
{
switch (st->st_mode&S_IFMT) {
case S_IFREG:
return '-';
case S_IFDIR:
return 'd';
case S_IFLNK:
return 'l';
case S_IFCHR:
return 'c';
case S_IFBLK:
return 'b';
case S_IFIFO:
return 'p';
case S_IFNWK:
return 'n';
case S_IFNAM:
switch (st->st_rdev) {
case S_INSEM:
return 's';
case S_INSHD:
return 'm';
}
/*FALLTHRU*/
default:
msg(-1, 0, "Impossible file type\n");
errcnt++;
return '-';
}
}
static void
permbits(mode_t mode)
{
mode_t mask = 0700, shft = 6;
while (mask) {
if (((mode & mask) >> shft) & 04)
putchar('r');
else
putchar('-');
if (((mode & mask) >> shft) & 02)
putchar('w');
else
putchar('-');
if (mask == 0700 && mode & 04000)
putchar('s');
else if (mask == 0070 && (mode & 02010) == 02010)
putchar('s');
else if (mask == 0070 && mode & 02000)
putchar('l');
else if (mask == 0007 && mode & 01000)
putchar('t');
else if (((mode & mask) >> shft) & 01)
putchar('x');
else
putchar('-');
mask >>= 3;
shft -= 3;
}
}
static void
prtime_cpio(time_t t)
{
char b[30];
strftime(b, sizeof b, sysv3 ? "%b %e %H:%M:%S %Y" : "%b %e %H:%M %Y",
localtime(&t));
printf(sysv3 ? " %s " : " %s, ", b);
}
/*
* Prepare path to add names of files below it later.
*/
static void
getpath(const char *path, char **file, char **filend, size_t *sz, size_t *slen)
{
*sz = 14 + strlen(path) + 2;
*file = smalloc(*sz);
*filend = *file;
if (path[0] == '/' && path[1] == '\0')
*(*filend)++ = '/';
else {
const char *cp = path;
while ((*(*filend)++ = *cp++) != '\0');
(*filend)[-1] = '/';
}
*slen = *filend - *file;
}
/*
* Concatenate base (prepared with getpath()) and file.
*/
static void
setpath(const char *base, char **file, char **filend,
size_t slen, size_t *sz, size_t *ss)
{
if (slen + (*ss = strlen(base)) >= *sz) {
*sz += slen + *ss + 15;
*file = srealloc(*file, *sz);
*filend = &(*file)[slen];
}
strcpy(*filend, base);
}
/*
* Create intermediate directories with -m.
*/
static int
imdir(char *fn)
{
struct stat st;
char *cp;
int dfl = dflag != 0;
for (cp = fn; *cp == '/'; cp++);
do {
while (*cp && *cp != '/')
cp++;
if (*cp == '/') {
*cp = '\0';
if (stat(fn, &st) < 0) {
if (dfl) {
if (mkdir(fn, 0777) < 0) {
*cp = '/';
emsg(-1, "Cannot create "
"directory for \"%s\"",
fn);
return -1;
}
} else {
msg(-1, 0, sysv3 ?
"missing 'd' option\n" :
"Missing -d option\n");
dfl = 2;
}
}
*cp = '/';
while (*cp == '/')
cp++;
}
} while (*cp);
return 0;
}
/*
* Set file attributes and make sure that suid/sgid bits are only restored
* if the owner is the same as on the tape.
*/
static int
setattr(const char *fn, struct stat *st)
{
mode_t mode = st->st_mode & 07777;
uid_t uid = Rflag ? Ruid : myuid;
gid_t gid = Rflag ? Rgid : mygid;
if ((pax != PAX_TYPE_CPIO || myuid == 0) &&
(pax == PAX_TYPE_CPIO ||
pax_preserve&(PAX_P_OWNER|PAX_P_EVERY))) {
if (setowner(fn, st) != 0)
return 1;
}
if (pax != PAX_TYPE_CPIO &&
(pax_preserve&(PAX_P_OWNER|PAX_P_EVERY)) == 0)
mode &= ~(mode_t)(S_ISUID|S_ISGID);
if (myuid != 0 || Rflag) {
if (st->st_uid != uid || st->st_gid != gid) {
mode &= ~(mode_t)S_ISUID;
if ((st->st_mode&S_IFMT) != S_IFDIR && mode & 0010)
mode &= ~(mode_t)S_ISGID;
if ((st->st_mode&S_IFMT) == S_IFDIR && st->st_gid!=gid)
mode &= ~(mode_t)S_ISGID;
}
}
if ((st->st_mode&S_IFMT) == S_IFLNK)
return 0;
if (hp_Uflag)
mode &= ~umsk|S_IFMT;
if (pax != PAX_TYPE_CPIO &&
(pax_preserve&(PAX_P_MODE|PAX_P_OWNER|PAX_P_EVERY))==0)
mode &= 01777|S_IFMT;
if ((pax == PAX_TYPE_CPIO || pax_preserve&(PAX_P_MODE|PAX_P_EVERY)) &&
chmod(fn, mode) < 0) {
emsg(2, "Cannot chmod() \"%s\"", fn);
return 1;
}
if (pax != PAX_TYPE_CPIO ?
(pax_preserve&(PAX_P_ATIME|PAX_P_MTIME|PAX_P_EVERY)) !=
(PAX_P_ATIME|PAX_P_MTIME) : mflag)
return rstime(fn, st, "modification");
else
return 0;
}
static int
setowner(const char *fn, struct stat *st)
{
uid_t uid = Rflag ? Ruid : myuid ? myuid : st->st_uid;
gid_t gid = Rflag ? Rgid : st->st_gid;
if (((st->st_mode&S_IFMT)==S_IFLNK?lchown:chown)(fn, uid, gid) < 0) {
emsg(2, "Cannot chown() \"%s\"", fn);
return 1;
}
if (pax >= PAX_TYPE_PAX2001 && myuid && myuid != st->st_uid &&
pax_preserve & (PAX_P_OWNER|PAX_P_EVERY)) {
/*
* Do not even try to preserve user ownership in this case.
* It would either fail, or, without _POSIX_CHOWN_RESTRICTED,
* leave us with a file we do not own and which we thus could
* not chmod() later.
*/
errno = EPERM;
emsg(2, "Cannot chown() \"%s\"", fn);
return 1;
}
return 0;
}
/*
* For -i and -p: Check if device/inode have been created already and
* if so, link path (or print the link name).
*/
static int
canlink(const char *path, struct stat *st, int really)
{
struct dslot *ds;
struct islot *ip;
ds = dfind(&devices, st->st_dev);
if ((ip = ifind(st->st_ino, &ds->d_isl)) == NULL ||
ip->i_name == NULL) {
if (ip == NULL) {
ip = scalloc(1, sizeof *ip);
ip->i_ino = st->st_ino;
if ((fmttype&(TYP_NCPIO|TYP_TAR)) == 0)
ip->i_nlk = st->st_nlink;
iput(ip, &ds->d_isl);
}
ip->i_name = sstrdup(path);
} else {
if ((fmttype&(TYP_NCPIO|TYP_TAR)) == 0) {
/*
* If an archive inode has more links than given in
* st_nlink, write a new disk inode. See the comments
* to storelink() for the rationale.
*/
if (--ip->i_nlk == 0) {
free(ip->i_name);
ip->i_name = sstrdup(path);
ip->i_nlk = st->st_nlink;
return 0;
}
}
if (really) {
/*
* If there was file data before the last link with
* SVR4 cpio formats, do not create a hard link.
*/
if (fmttype & TYP_NCPIO && ip->i_nlk == 0)
return 0;
if (linkunlink(ip->i_name, path) == 0)
return 1;
else
return -1;
} else {
printf(" == %s", ip->i_name);
return 1;
}
}
return 0;
}
/*
* Execution for -i.
*/
static void
doinp(void)
{
union bincpio bc;
struct file f;
int n;
memset(&f, 0, sizeof f);
if (Eflag)
patfile();
if (Iflag) {
if ((mt = open(Iflag, O_RDONLY)) < 0) {
if (sysv3) {
emsg(3, "Cannot open <%s> for input.", Iflag);
done(1);
}
else
msg(3, -2, "Cannot open \"%s\" for input\n",
Iflag);
}
} else
mt = dup(0);
mstat();
blkbuf = svalloc(blksiz, 1);
if ((n = mread()) == 0)
unexeoa();
else if (n < 0) {
emsg(3, "Read error on \"%s\"",
Iflag && !sysv3 ? Iflag : "input");
done(1);
}
if (kflag == 0 && sixflag == 0)
fmttype = FMT_NONE;
if (fmttype == FMT_NONE)
whathdr();
else
formatforced = 1;
while (readhdr(&f, &bc) == 0) {
if (fmttype & TYP_NCPIO && f.f_st.st_nlink > 1 &&
(f.f_st.st_mode&S_IFMT) != S_IFDIR) {
if (f.f_st.st_size != 0)
flushlinks(&f);
else
storelink(&f);
} else
inpone(&f, 1);
f.f_Kbase = f.f_Krest = f.f_Ksize = 0;
f.f_oflag = 0;
}
if (fmttype & TYP_NCPIO)
flushrest(f.f_pad);
}
/*
* SVR4 cpio link handling with -i; called if we assume that more links
* to this file will follow.
*/
static void
storelink(struct file *f)
{
struct dslot *ds;
struct islot *ip;
struct ilink *il, *iz;
ds = dfind(&devices, f->f_st.st_dev);
if ((ip = ifind(f->f_st.st_ino, &ds->d_isl)) == NULL) {
ip = scalloc(1, sizeof *ip);
ip->i_ino = f->f_st.st_ino;
ip->i_nlk = f->f_st.st_nlink;
ip->i_st = smalloc(sizeof *ip->i_st);
*ip->i_st = f->f_st;
iput(ip, &ds->d_isl);
} else {
if (ip->i_nlk == 0) {
/*
* More links to an inode than given in the first
* st_nlink occurence are found within this archive.
* This happens if -L was specified and soft links
* point to a file with multiple hard links. We do
* the same as SVR4 cpio implementations here and
* associate these links with a new inode, since it
* is related to the way a file with a single hard
* link but referenced by soft links is unpacked.
*/
ip->i_nlk = f->f_st.st_nlink;
if (ip->i_name)
free(ip->i_name);
ip->i_name = NULL;
ip->i_st = smalloc(sizeof *ip->i_st);
*ip->i_st = f->f_st;
} else if (ip->i_nlk <= 2) {
/*
* We get here if
* - a file with multiple links is empty;
* - a broken implementation has stored file data
* before the last link;
* - a linked file has been added to the archive later
* again (does not happen with our implementation).
*/
flushnode(ip, f);
return;
} else
ip->i_nlk--;
}
for (il = ip->i_lnk, iz = NULL; il; il = il->l_nxt)
iz = il;
il = scalloc(1, sizeof *il);
il->l_siz = strlen(f->f_name) + 1;
il->l_nam = smalloc(il->l_siz);
strcpy(il->l_nam, f->f_name);
if (iz)
iz->l_nxt = il;
else
ip->i_lnk = il;
}
/*
* Flush all links of a file with SVR4 cpio format and -i.
*/
static void
flushlinks(struct file *f)
{
struct dslot *ds;
struct islot *ip;
ds = dfind(&devices, f->f_st.st_dev);
ip = ifind(f->f_st.st_ino, &ds->d_isl);
flushnode(ip, f);
}
/*
* Data of a multi-linked file shall be transferred now for SVR4 cpio
* format and -i.
*/
static void
flushnode(struct islot *ip, struct file *f)
{
struct file nf;
struct ilink *il, *iz;
f->f_dsize = f->f_st.st_size;
if (ip && ip->i_nlk > 0) {
/*
* Write out the file data with the first link the user
* wants to be extracted, but show the same display size
* for all links.
*/
for (il = ip->i_lnk, iz = NULL; il;
iz = il, il = il->l_nxt, iz ? free(iz), 0 : 0) {
memset(&nf, 0, sizeof nf);
nf.f_name = il->l_nam;
nf.f_nsiz = il->l_siz;
nf.f_st = f->f_st;
nf.f_chksum = f->f_chksum;
nf.f_pad = f->f_pad;
nf.f_dsize = f->f_dsize;
if (inpone(&nf, 0) == 0) {
f->f_chksum = 0;
f->f_st.st_size = 0;
}
free(il->l_nam);
}
ip->i_lnk = NULL;
if (ip->i_st)
free(ip->i_st);
ip->i_st = NULL;
}
if (f->f_name)
inpone(f, 1);
if (ip) {
if (ip->i_nlk <= 2 && ip->i_name) {
free(ip->i_name);
ip->i_name = NULL;
}
ip->i_nlk = 0;
}
}
/*
* This writes all remaining multiply linked files, i. e. those with
* st_size == 0 and st_nlink > number of links within the archive.
*/
static void
flushrest(int pad)
{
struct dslot *ds;
for (ds = devices; ds; ds = ds->d_nxt)
if (ds->d_isl != NULL)
flushtree(ds->d_isl, pad);
}
static void
flushtree(struct islot *ip, int pad)
{
struct file f;
if (ip == inull)
return;
flushtree(ip->i_lln, pad);
flushtree(ip->i_rln, pad);
if (ip->i_nlk > 0 && ip->i_st) {
memset(&f, 0, sizeof f);
f.f_st = *ip->i_st;
f.f_pad = pad;
flushnode(ip, &f);
}
}
/*
* See if the user wants to have this file with -i, and extract it or
* skip its data on the tape.
*/
static int
inpone(struct file *f, int shallskip)
{
struct glist *gp = NULL, *gb = NULL;
int val = -1, selected = 0;
if ((patterns == NULL || (gp = want(f, &gb)) != NULL ^ fflag) &&
pax_track(f->f_name, f->f_st.st_mtime)) {
selected = 1;
if ((pax_sflag == 0 || pax_sname(&f->f_name, &f->f_nsiz)) &&
(rflag == 0 || rname(&f->f_name, &f->f_nsiz))) {
errcnt += infile(f);
val = 0;
}
} else if (shallskip)
errcnt += skipfile(f);
if (gp != NULL && selected) {
gp->g_gotcha = 1;
if (gp->g_nxt && gp->g_nxt->g_art)
gp->g_nxt->g_gotcha = 1;
else if (gp->g_art && gb)
gb->g_gotcha = 1;
}
return val;
}
/*
* Read the header for a file with -i. Return values: 0 okay, 1 end of
* archive, -1 failure.
*/
static int
readhdr(struct file *f, union bincpio *bp)
{
long namlen, l1, l2, rd, hsz;
static long attempts;
long long skipped = 0;
if (fmttype & TYP_TAR) {
if (f->f_name)
f->f_name[0] = '\0';
if (f->f_lnam)
f->f_lnam[0] = '\0';
}
paxrec = globrec;
retry: f->f_st = globst;
retry2: if (fmttype & TYP_BINARY) {
hsz = SIZEOF_hdr_cpio;
if (attempts == 0 && bread(bp->data, hsz) != hsz)
unexeoa();
if ((fmttype&TYP_BE ? pbe16(bp->Hdr.c_magic) :
ple16(bp->Hdr.c_magic)) != mag_bin)
goto badhdr;
if (fmttype & TYP_BE) {
f->f_st.st_dev = pbe16(bp->Hdr.c_dev)&0177777;
f->f_st.st_ino = pbe16(bp->Hdr.c_ino)&0177777;
f->f_st.st_mode = pbe16(bp->Hdr.c_mode);
} else {
f->f_st.st_dev = ple16(bp->Hdr.c_dev)&0177777;
f->f_st.st_ino = ple16(bp->Hdr.c_ino)&0177777;
f->f_st.st_mode = ple16(bp->Hdr.c_mode);
}
if (sixflag) {
/*
* relevant Unix 6th Edition style mode bits
* (according to /usr/sys/inode.h, untested:)
*
* 060000 IFMT type of file
* 040000 IFDIR directory
* 020000 IFCHR character special
* 060000 IFBLK block special, 0 is regular
* 007777 permission bits as today
*/
f->f_st.st_mode &= 067777;
if ((f->f_st.st_mode & 060000) == 0)
f->f_st.st_mode |= S_IFREG;
}
if (fmttype & TYP_BE) {
f->f_st.st_uid = pbe16(bp->Hdr.c_uid)&0177777;
f->f_st.st_gid = pbe16(bp->Hdr.c_gid)&0177777;
f->f_st.st_nlink = pbe16(bp->Hdr.c_nlink)&0177777;
f->f_st.st_mtime = pbe32(bp->Hdr.c_mtime);
f->f_st.st_rdev = pbe16(bp->Hdr.c_rdev);
namlen = pbe16(bp->Hdr.c_namesize);
f->f_st.st_size = pbe32(bp->Hdr.c_filesize)&0xFFFFFFFF;
} else {
f->f_st.st_uid = ple16(bp->Hdr.c_uid)&0177777;
f->f_st.st_gid = ple16(bp->Hdr.c_gid)&0177777;
f->f_st.st_nlink = ple16(bp->Hdr.c_nlink)&0177777;
f->f_st.st_mtime = pme32(bp->Hdr.c_mtime);
f->f_st.st_rdev = ple16(bp->Hdr.c_rdev);
namlen = ple16(bp->Hdr.c_namesize);
f->f_st.st_size = pme32(bp->Hdr.c_filesize)&0xFFFFFFFF;
}
f->f_rmajor = major(f->f_st.st_rdev);
f->f_rminor = minor(f->f_st.st_rdev);
if ((f->f_st.st_rdev&0xFFFF) == 0xFFFF &&
f->f_st.st_size > 0 &&
((f->f_st.st_mode&S_IFMT) == S_IFBLK ||
(f->f_st.st_mode&S_IFMT) == S_IFCHR &&
(!formatforced || fmttype & TYP_SGI))) {
fmttype |= TYP_SGI;
f->f_rmajor = (f->f_st.st_size&0xFFFC0000)>>18;
f->f_rminor = f->f_st.st_size&0x0003FFFF;
f->f_st.st_rdev = makedev(f->f_rmajor, f->f_rminor);
f->f_st.st_size = 0;
}
if ((f->f_st.st_mode&S_IFMT) == S_IFREG &&
f->f_st.st_size&0x80000000 &&
(!formatforced || fmttype & TYP_SGI)) {
fmttype |= TYP_SGI;
f->f_Ksize = f->f_st.st_size&0xFFFFFFFF;
f->f_Kbase = (0x100000000LL-f->f_st.st_size) *
0x80000000;
f->f_st.st_size = 0;
}
f->f_pad = 2;
rd = SIZEOF_hdr_cpio;
} else if (fmttype == FMT_ODC) {
hsz = SIZEOF_c_hdr;
if (attempts == 0 && bread(bp->data, hsz) != hsz)
unexeoa();
if(memcmp(bp->Cdr.c_magic, mag_odc, sizeof mag_odc))
goto badhdr;
f->f_st.st_dev = rdoct(bp->Cdr.c_dev, 6);
f->f_st.st_ino = rdoct(bp->Cdr.c_ino, 6);
f->f_st.st_mode = rdoct(bp->Cdr.c_mode, 6);
f->f_st.st_uid = rdoct(bp->Cdr.c_uid, 6);
f->f_st.st_gid = rdoct(bp->Cdr.c_gid, 6);
f->f_st.st_nlink = rdoct(bp->Cdr.c_nlink, 6);
f->f_st.st_rdev = rdoct(bp->Cdr.c_rdev, 6);
f->f_rmajor = major(f->f_st.st_rdev);
f->f_rminor = minor(f->f_st.st_rdev);
f->f_st.st_mtime = rdoct(bp->Cdr.c_mtime, 11);
namlen = rdoct(bp->Cdr.c_namesz, 6);
f->f_st.st_size = rdoct(bp->Cdr.c_filesz, 11);
f->f_pad = 1;
rd = SIZEOF_c_hdr;
} else if (fmttype == FMT_DEC) {
hsz = SIZEOF_d_hdr;
if (attempts == 0 && bread(bp->data, hsz) != hsz)
unexeoa();
if(memcmp(bp->Ddr.d_magic, mag_odc, sizeof mag_odc))
goto badhdr;
f->f_st.st_dev = rdoct(bp->Ddr.d_dev, 6);
f->f_st.st_ino = rdoct(bp->Ddr.d_ino, 6);
f->f_st.st_mode = rdoct(bp->Ddr.d_mode, 6);
f->f_st.st_uid = rdoct(bp->Ddr.d_uid, 6);
f->f_st.st_gid = rdoct(bp->Ddr.d_gid, 6);
f->f_st.st_nlink = rdoct(bp->Ddr.d_nlink, 6);
f->f_rmajor = rdoct(bp->Ddr.d_rmaj, 8);
f->f_rminor = rdoct(bp->Ddr.d_rmin, 8);
f->f_st.st_rdev = makedev(f->f_rmajor, f->f_rminor);
f->f_st.st_mtime = rdoct(bp->Ddr.d_mtime, 11);
namlen = rdoct(bp->Ddr.d_namesz, 6);
f->f_st.st_size = rdoct(bp->Ddr.d_filesz, 11);
f->f_pad = 1;
rd = SIZEOF_d_hdr;
} else if (fmttype & TYP_NCPIO) {
hsz = SIZEOF_Exp_cpio_hdr;
if (attempts == 0 && bread(bp->data, hsz) != hsz)
unexeoa();
if (memcmp(bp->Edr.E_magic, mag_asc, sizeof mag_asc) &&
memcmp(bp->Edr.E_magic, mag_crc, sizeof mag_crc))
goto badhdr;
f->f_st.st_ino = rdhex(bp->Edr.E_ino, 8);
f->f_st.st_mode = rdhex(bp->Edr.E_mode, 8);
f->f_st.st_uid = rdhex(bp->Edr.E_uid, 8);
f->f_st.st_gid = rdhex(bp->Edr.E_gid, 8);
f->f_st.st_nlink = rdhex(bp->Edr.E_nlink, 8);
f->f_st.st_mtime = rdhex(bp->Edr.E_mtime, 8);
f->f_st.st_size = rdhex(bp->Edr.E_filesize, 8);
l1 = rdhex(bp->Edr.E_maj, 8);
l2 = rdhex(bp->Edr.E_min, 8);
f->f_st.st_dev = makedev(l1, l2);
f->f_rmajor = rdhex(bp->Edr.E_rmaj, 8);
f->f_rminor = rdhex(bp->Edr.E_rmin, 8);
f->f_st.st_rdev = makedev(f->f_rmajor, f->f_rminor);
namlen = rdhex(bp->Edr.E_namesize, 8);
f->f_chksum = rdhex(bp->Edr.E_chksum, 8);
f->f_pad = 4;
rd = SIZEOF_Exp_cpio_hdr;
} else if (fmttype & TYP_CRAY) {
int diff5 = fmttype==FMT_CRAY5 ? CRAY_PARAMSZ : 0;
hsz = SIZEOF_cray_hdr - diff5;
if (attempts == 0 && bread(bp->data, hsz) != hsz)
unexeoa();
if (pbe64(bp->Crayhdr.C_magic) != mag_bin)
goto badhdr;
f->f_st.st_dev = pbe64(bp->Crayhdr.C_dev);
f->f_st.st_ino = pbe64(bp->Crayhdr.C_ino);
f->f_st.st_mode = pbe64(bp->Crayhdr.C_mode);
/*
* Some of the S_IFMT bits on Cray UNICOS 9 differ from
* the common Unix values, namely:
*
* S_IFLNK 0130000 symbolic link
* S_IFOFD 0110000 off line, with data
* S_IFOFL 0120000 off line, with no data
*
* We treat the latter ones as regular files.
*/
if ((f->f_st.st_mode&S_IFMT) == 0130000)
f->f_st.st_mode = f->f_st.st_mode&07777|S_IFLNK;
else if ((f->f_st.st_mode&S_IFMT) == 0110000 ||
(f->f_st.st_mode&S_IFMT) == 0120000)
f->f_st.st_mode = f->f_st.st_mode&07777|S_IFREG;
f->f_st.st_uid = pbe64(bp->Crayhdr.C_uid);
f->f_st.st_gid = pbe64(bp->Crayhdr.C_gid);
f->f_st.st_nlink = pbe64(bp->Crayhdr.C_nlink);
f->f_st.st_mtime = pbe64(bp->Crayhdr.C_mtime - diff5);
f->f_st.st_rdev = pbe64(bp->Crayhdr.C_rdev);
f->f_rmajor = major(f->f_st.st_rdev);
f->f_rminor = minor(f->f_st.st_rdev);
f->f_st.st_size = pbe64(bp->Crayhdr.C_filesize - diff5);
namlen = pbe64(bp->Crayhdr.C_namesize - diff5);
f->f_pad = 1;
rd = SIZEOF_cray_hdr - diff5;
} else if (fmttype & TYP_BAR) {
hsz = 512;
if (attempts == 0 && bread(bp->data, hsz) != hsz)
unexeoa();
if (bp->data[SIZEOF_bar_header] == '\0') {
if (kflag && !allzero(bp->data, hsz))
goto badhdr;
return 1;
}
if (trdsum(bp) != 0 && kflag == 0)
goto badhdr;
bp->data[512] = bp->data[513] = '\0';
if (f->f_name == NULL || f->f_name[0] == '\0') {
if (f->f_nsiz < 512) {
free(f->f_name);
f->f_name = smalloc(f->f_nsiz = 512);
}
strcpy(f->f_name, &bp->data[SIZEOF_bar_header]);
}
namlen = strlen(f->f_name) + 1;
f->f_st.st_mode = rdoct(bp->Bdr.b_mode, 8);
f->f_st.st_uid = rdoct(bp->Bdr.b_uid, 8);
f->f_st.st_gid = rdoct(bp->Bdr.b_gid, 8);
f->f_st.st_size = rdoct(bp->Bdr.b_size, 12);
f->f_st.st_mtime = rdoct(bp->Bdr.b_mtime, 12);
f->f_st.st_rdev = rdoct(bp->Bdr.b_rdev, 8);
f->f_rmajor = major(f->f_st.st_rdev);
f->f_rminor = minor(f->f_st.st_rdev);
switch (bp->Bdr.b_linkflag) {
case '0':
f->f_st.st_mode &= 07777;
if (f->f_name[namlen-2] == '/')
f->f_st.st_mode |= S_IFDIR;
else
f->f_st.st_mode |= S_IFREG;
break;
case '1':
if (f->f_lnam == NULL || f->f_lnam[0] == '\0')
blinkof(bp->data, f, namlen);
f->f_st.st_nlink = 2;
if ((f->f_st.st_mode&S_IFMT) == 0)
f->f_st.st_mode |= S_IFREG;
break;
case '2':
if (f->f_lnam == NULL || f->f_lnam[0] == '\0')
blinkof(bp->data, f, namlen);
f->f_st.st_mode &= 07777;
f->f_st.st_mode |= S_IFLNK;
}
f->f_pad = 512;
rd = 512;
} else if (fmttype & TYP_TAR) {
hsz = 512;
if (attempts == 0 && bread(bp->data, hsz) != hsz)
unexeoa();
if (bp->Tdr.t_name[0] == '\0') {
if (kflag && !allzero(bp->data, hsz))
goto badhdr;
return 1;
}
if (fmttype == FMT_GNUTAR) {
if (memcmp(bp->Tdr.t_magic, mag_gnutar, 8))
goto badhdr;
} else if (fmttype & TYP_USTAR) {
if (memcmp(bp->Tdr.t_magic, mag_ustar, 6))
goto badhdr;
}
if (trdsum(bp) != 0 && kflag == 0)
goto badhdr;
if ((fmttype & TYP_PAX) == 0 && (fmttype == FMT_GNUTAR ||
strcmp(bp->Tdr.t_name, "././@LongLink") == 0)) {
switch (bp->Tdr.t_linkflag) {
case 'L':
if (readgnuname(&f->f_name, &f->f_nsiz,
rdoct(bp->Tdr.t_size, 12)) < 0)
goto badhdr;
goto retry;
case 'K':
if (readgnuname(&f->f_lnam, &f->f_lsiz,
rdoct(bp->Tdr.t_size, 12)) < 0)
goto badhdr;
goto retry;
}
}
if (fmttype & TYP_USTAR && fmttype != FMT_GNUTAR) {
switch (bp->Tdr.t_linkflag) {
case 'g':
case 'x':
if (formatforced && fmttype != FMT_PAX)
break;
fmttype = FMT_PAX;
tgetpax(&bp->Tdr, f);
goto retry2;
case 'X':
if (formatforced && fmttype != FMT_SUN)
break;
fmttype = FMT_SUN;
tgetpax(&bp->Tdr, f);
goto retry2;
}
}
if (f->f_name == NULL || f->f_name[0] == '\0') {
if (f->f_nsiz < TNAMSIZ+TPFXSIZ+2) {
free(f->f_name);
f->f_name= smalloc(f->f_nsiz=TNAMSIZ+TPFXSIZ+2);
}
tnameof(&bp->Tdr, f->f_name);
}
namlen = strlen(f->f_name) + 1;
f->f_st.st_mode = rdoct(bp->Tdr.t_mode, 8) & 07777;
if (paxrec & PR_UID)
/*EMPTY*/;
else if (fmttype == FMT_GNUTAR && bp->Tdr.t_uid[0] & 0200)
f->f_st.st_uid = pbe64(bp->Tdr.t_uid) &
0x7FFFFFFFFFFFFFFFLL;
else
f->f_st.st_uid = rdoct(bp->Tdr.t_uid, 8);
if (paxrec & PR_GID)
/*EMPTY*/;
else if (fmttype == FMT_GNUTAR && bp->Tdr.t_gid[0] & 0200)
f->f_st.st_gid = pbe64(bp->Tdr.t_gid) &
0x7FFFFFFFFFFFFFFFLL;
else
f->f_st.st_gid = rdoct(bp->Tdr.t_gid, 8);
if (paxrec & PR_SIZE)
/*EMPTY*/;
else if (fmttype == FMT_GNUTAR && bp->Tdr.t_size[0] == '\200')
f->f_st.st_size = pbe64(&bp->Tdr.t_size[4]);
else
f->f_st.st_size = rdoct(bp->Tdr.t_size, 12);
if ((paxrec & PR_MTIME) == 0)
f->f_st.st_mtime = rdoct(bp->Tdr.t_mtime, TTIMSIZ);
if (bp->Tdr.t_linkflag == '1') {
if (f->f_lnam == NULL || f->f_lnam[0] == '\0')
tlinkof(&bp->Tdr, f);
f->f_st.st_mode |= S_IFREG; /* for -tv */
f->f_st.st_nlink = 2;
} else if (bp->Tdr.t_linkflag == '2') {
if (f->f_lnam == NULL || f->f_lnam[0] == '\0')
tlinkof(&bp->Tdr, f);
f->f_st.st_mode |= S_IFLNK;
} else if (tflag == 0 && (f->f_name)[namlen-2] == '/')
f->f_st.st_mode |= S_IFDIR;
else
f->f_st.st_mode |= tifmt(bp->Tdr.t_linkflag);
if (paxrec & PR_SUN_DEVMAJOR)
/*EMPTY*/;
else if (fmttype == FMT_GNUTAR && bp->Tdr.t_devmajor[0] & 0200)
f->f_rmajor = pbe64(bp->Tdr.t_devmajor) &
0x7FFFFFFFFFFFFFFFLL;
else
f->f_rmajor = rdoct(bp->Tdr.t_devmajor, 8);
if (paxrec & PR_SUN_DEVMINOR)
/*EMPTY*/;
else if (fmttype == FMT_GNUTAR && bp->Tdr.t_devminor[0] & 0200)
f->f_rminor = pbe64(bp->Tdr.t_devminor) &
0x7FFFFFFFFFFFFFFFLL;
else
f->f_rminor = rdoct(bp->Tdr.t_devminor, 8);
f->f_st.st_rdev = makedev(f->f_rmajor, f->f_rminor);
f->f_pad = 512;
rd = 512;
} else if (fmttype == FMT_ZIP) {
hsz = SIZEOF_zip_header;
if (attempts == 0 && bread(bp->data, hsz) != hsz)
unexeoa();
if (memcmp(bp->Zdr.z_signature, mag_zipctr,
sizeof mag_zipctr) == 0 ||
memcmp(bp->Zdr.z_signature, mag_zipend,
sizeof mag_zipend) == 0 ||
memcmp(bp->Zdr.z_signature, mag_zip64e,
sizeof mag_zip64e) == 0 ||
memcmp(bp->Zdr.z_signature, mag_zip64l,
sizeof mag_zip64l) == 0)
return 1;
if (memcmp(bp->Zdr.z_signature, mag_zipsig, sizeof mag_zipsig))
goto badhdr;
f->f_st.st_uid = myuid;
f->f_st.st_gid = mygid;
f->f_st.st_nlink = 1;
f->f_st.st_mtime =
gdostime(bp->Zdr.z_modtime, bp->Zdr.z_moddate);
f->f_st.st_size = ple32(bp->Zdr.z_nsize);
f->f_csize = ple32(bp->Zdr.z_csize);
f->f_cmethod = ple16(bp->Zdr.z_cmethod);
f->f_chksum = ple32(bp->Zdr.z_crc32);
f->f_gflag = ple16(bp->Zdr.z_gflag);
rd = SIZEOF_zip_header;
namlen = ple16(bp->Zdr.z_namelen)&0177777;
if (f->f_nsiz < namlen+1) {
free(f->f_name);
f->f_name = smalloc(f->f_nsiz = namlen+1);
}
if (bread(f->f_name, namlen) != namlen)
goto corrupt;
(f->f_name)[namlen] = '\0';
if (f->f_name[namlen-1] == '/')
f->f_st.st_mode = 0777&~(mode_t)umsk|S_IFDIR;
else
f->f_st.st_mode = 0666&~(mode_t)umsk|S_IFREG;
rd += namlen;
if ((l1 = ziprxtra(f, &bp->Zdr)) < 0)
goto corrupt;
rd += l1;
f->f_pad = 1;
} else
abort();
if (fmttype & TYP_CPIO) {
if (f->f_st.st_nlink <= 0 || namlen <= 0 || namlen >= SANELIMIT)
goto corrupt;
if (namlen > f->f_nsiz) {
if (f->f_name)
free(f->f_name);
f->f_name = smalloc(f->f_nsiz = namlen);
}
if (bread(f->f_name, namlen) != namlen)
unexeoa();
if (f->f_name[namlen-1] != '\0')
goto corrupt;
rd += namlen;
skippad(rd, f->f_pad);
if (fmttype & TYP_NCPIO &&
(!formatforced || fmttype & TYP_SCO)) {
/*
* The UnixWare format is a hack, but not a bad
* one. It is backwards compatible as far as
* possible; old implementations can use the -k
* option and will then get only the beginning
* of a large file, but all other files in the
* archive.
*/
if (namlen >= 24 && memcmp(&f->f_name[namlen-23],
"\0size=", 6) == 0) {
fmttype |= TYP_SCO;
f->f_st.st_size = rdhex(&f->f_name[namlen-17],
16);
}
}
}
if (attempts) {
if (tflag)
fflush(stdout);
msg(0, 0, sysv3 < 0 ?
"Re-synced after skipping %lld bytes.\n" :
"Re-synchronized on magic number/header.\n",
skipped);
}
attempts = 0;
if (f->f_st.st_atime == 0 || (pax_preserve&(PAX_P_ATIME|PAX_P_EVERY)) ==
PAX_P_ATIME)
f->f_st.st_atime = f->f_st.st_mtime;
if ((f->f_dsize = f->f_st.st_size) < 0)
goto badhdr;
if (fmttype & TYP_CPIO && strcmp(f->f_name, trailer) == 0)
return 1;
return 0;
corrupt:
if (kflag) {
if (tflag)
fflush(stdout);
msg(3, 0, "Corrupt header, file(s) may be lost.\n");
}
badhdr:
if (kflag) {
int next = fmttype & TYP_TAR ? 512 : 1;
if (attempts++ == 0) {
if (tflag)
fflush(stdout);
msg(1, 0, sysv3 < 0 ? "Out of phase; resyncing.\n" :
"Searching for magic number/header.\n");
errcnt++;
}
for (l1 = next; l1 < hsz; l1++)
bp->data[l1-next] = bp->data[l1];
if (bread(&bp->data[l1-next], next) != next)
unexeoa();
skipped++;
goto retry;
}
if (tflag)
fflush(stdout);
msg(3, 1, sysv3 < 0 ? "Out of phase--get help\n" :
sysv3 > 0 ? "Out of sync, bad magic number/header.\n" :
"Bad magic number/header.\n");
/*NOTREACHED*/
return -1;
}
/*
* Determine the kind of archive on tape.
*/
static void
whathdr(void)
{
again: if (blktop >= SIZEOF_hdr_cpio &&
ple16(blkbuf) == mag_bin) {
fmttype = FMT_BINLE;
} else if (blktop >= SIZEOF_hdr_cpio &&
pbe16(blkbuf) == mag_bin) {
fmttype = FMT_BINBE;
} else if (blktop >= SIZEOF_c_hdr &&
memcmp(blkbuf, mag_odc, sizeof mag_odc) == 0) {
/*
* The DEC format is rubbish. Instead of introducing a new
* archive magic, its engineers reused the POSIX/odc magic
* and changed the fields. But there's a workaround: For a
* real odc archive, the byte following the file name is a
* \0 byte (unless the archive is damaged, of course). If
* it is not a \0 byte, but a \0 byte appears at the
* corresponding location for the DEC format, this is
* treated as a DEC archive. It must be noted that the
* Tru64 UNIX 5.1 cpio command is too stupid even for
* doing that - it will spill out a list of complaints
* if an extended archive is read but -e is not given.
*/
int ns1, ns2;
ns1 = rdoct(((struct c_hdr *)blkbuf)->c_namesz, 6);
ns2 = rdoct(((struct d_hdr *)blkbuf)->d_namesz, 6);
if (blktop >= SIZEOF_d_hdr &&
(ns1 >= blktop - SIZEOF_c_hdr ||
blkbuf[SIZEOF_c_hdr+ns1-1] != '\0') &&
ns2 <= blktop - SIZEOF_d_hdr &&
blkbuf[SIZEOF_d_hdr+ns2-1] == '\0')
fmttype = FMT_DEC;
else
fmttype = FMT_ODC;
} else if (blktop >= SIZEOF_Exp_cpio_hdr &&
memcmp(blkbuf, mag_asc, sizeof mag_asc) == 0) {
fmttype = FMT_ASC;
} else if (blktop >= SIZEOF_Exp_cpio_hdr &&
memcmp(blkbuf, mag_crc, sizeof mag_crc) == 0) {
fmttype = FMT_CRC;
} else if (blktop >= SIZEOF_cray_hdr &&
pbe64(blkbuf) == mag_bin) {
/*
* Old and new Cray headers are identical in the first
* 64 header bytes (including the magic). cpio(5) on
* UNICOS does not describe what the new param field
* is for.
*
* An archive is treated as old format if the mtime
* and namesize fields make sense and all characters
* of the name are non-null.
*/
struct cray_hdr *Cp = (struct cray_hdr *)blkbuf;
long long mtime, namesize;
fmttype = FMT_CRAY;
mtime = pbe64(Cp->C_mtime - CRAY_PARAMSZ);
namesize = pbe64(Cp->C_namesize - CRAY_PARAMSZ);
if (mtime > 0 && mtime < (1LL<<31) &&
namesize > 0 && namesize < 2048 &&
blktop > SIZEOF_cray_hdr-
CRAY_PARAMSZ+namesize+1) {
int i;
for (i = 0; i < namesize; i++)
if (blkbuf[SIZEOF_cray_hdr-
CRAY_PARAMSZ+i] == '\0')
break;
if (i == namesize-1)
fmttype = FMT_CRAY5;
}
} else if (blktop >= 512 &&
memcmp(&blkbuf[257], mag_ustar, 6) == 0 &&
tcssum((union bincpio *)blkbuf, 1) == 0) {
fmttype = FMT_USTAR;
} else if (blktop >= 512 &&
memcmp(&blkbuf[257], mag_gnutar, 8) == 0 &&
tcssum((union bincpio *)blkbuf, 1) == 0) {
fmttype = FMT_GNUTAR;
} else if (blktop >= 512 && blkbuf[0] && /* require filename
to avoid match on
/dev/zero etc. */
memcmp(&blkbuf[257], "\0\0\0\0\0", 5) == 0 &&
tcssum((union bincpio *)blkbuf, 0) == 0) {
fmttype = FMT_OTAR;
} else if (blktop >= SIZEOF_zip_header &&
(memcmp(blkbuf, mag_zipctr, sizeof mag_zipctr) == 0 ||
memcmp(blkbuf, mag_zipsig, sizeof mag_zipsig) == 0 ||
memcmp(blkbuf, mag_zipend, sizeof mag_zipend) == 0 ||
memcmp(blkbuf, mag_zip64e, sizeof mag_zip64e) == 0 ||
memcmp(blkbuf, mag_zip64l, sizeof mag_zip64l) == 0)) {
fmttype = FMT_ZIP;
} else if (blktop >= 512 && memcmp(blkbuf,"\0\0\0\0\0\0\0\0",8) == 0 &&
memcmp(&blkbuf[65], mag_bar, sizeof mag_bar) == 0 &&
bcssum((union bincpio *)blkbuf) == 0) {
fmttype = FMT_BAR;
compressed_bar = blkbuf[71] == '1';
curpos = 512;
} else if (!Aflag && blktop > 3 && memcmp(blkbuf, "BZh", 3) == 0 &&
redirect("bzip2", "-cd") == 0) {
goto zip;
} else if (!Aflag && blktop > 2 && memcmp(blkbuf, "\37\235", 2) == 0 &&
redirect("zcat", NULL) == 0) {
goto zip;
} else if (!Aflag && blktop > 2 && memcmp(blkbuf, "\37\213", 2) == 0 &&
redirect("gzip", "-cd") == 0) {
goto zip;
} else if (!Aflag && blktop > 4 &&
memcmp(blkbuf, "\355\253\356\333", 4) == 0 &&
redirect("rpm2cpio", "-") == 0) {
goto zip;
} else {
msg(3, 0, sysv3 ? "This is not a cpio file, bad header.\n" :
"Not a cpio file, bad header.\n");
done(1);
}
return;
zip:
blktop = curpos = 0;
blocks = 0;
bytes = 0;
mfl = 0;
mstat();
if (mread() == 0)
unexeoa();
goto again;
}
/*
* Processing of a single file with -i.
*/
static int
infile(struct file *f)
{
int val;
if ((fmttype & TYP_CPIO || fmttype == FMT_ZIP && f->f_st.st_size) &&
(f->f_st.st_mode&S_IFMT) == S_IFLNK) {
if (f->f_lsiz < f->f_st.st_size+1)
f->f_lnam = srealloc(f->f_lnam,
f->f_lsiz = f->f_st.st_size+1);
if (bread(f->f_lnam, f->f_st.st_size) != f->f_st.st_size)
unexeoa();
f->f_lnam[f->f_st.st_size] = '\0';
skippad(f->f_st.st_size, f->f_pad);
}
if (tflag)
val = filet(f, indata);
else
val = filein(f, indata, f->f_name);
return val != 0;
}
/*
* Fetch the data of regular files from tape and write it to tfd or, if
* tfd < 0, discard it.
*/
static int
indata(struct file *f, const char *tgt, int tfd)
{
char *buf;
size_t bufsize;
struct stat ts;
long long size;
ssize_t rd;
uint32_t ssum = 0, usum = 0;
int val = 0;
int doswap = 0;
size = fmttype == FMT_ZIP ? f->f_csize :
f->f_Kbase ? f->f_Kbase : f->f_st.st_size;
doswap = ((bflag|sflag) == 0 ||
ckodd(size, 2, "bytes", f->f_name) == 0) &
((bflag|Sflag) == 0 ||
ckodd(size, 4, "halfwords", f->f_name) == 0) &
(bflag|sflag|Sflag);
if (fmttype == FMT_ZIP && f->f_cmethod != C_STORED)
return zipread(f, tgt, tfd, doswap);
if (tfd < 0 || fstat(tfd, &ts) < 0)
ts.st_blksize = 4096;
getbuf(&buf, &bufsize, ts.st_blksize);
again: while (size) {
if ((rd = bread(buf, size > bufsize ? bufsize : size)) <= 0)
unexeoa();
if (doswap)
swap(buf, rd, bflag || sflag, bflag || Sflag);
if (tfd >= 0 && write(tfd, buf, rd) != rd) {
emsg(3, "Cannot write \"%s\"", tgt);
tfd = -1;
val = -1;
}
size -= rd;
if (fmttype & TYP_CRC)
do {
rd--;
ssum += ((signed char *)buf)[rd];
usum += ((unsigned char *)buf)[rd];
} while (rd);
}
if (f->f_Kbase) {
skippad(f->f_Ksize, f->f_pad);
readK2hdr(f);
size = f->f_Krest;
goto again;
}
skippad(fmttype==FMT_ZIP ? f->f_csize :
f->f_Ksize ? f->f_Krest : f->f_st.st_size, f->f_pad);
if (fmttype & TYP_CRC) {
if (f->f_chksum != ssum && f->f_chksum != usum) {
msg(3, 0, "\"%s\" - checksum error\n", f->f_name);
if (kflag)
errcnt++;
else
val = -1;
}
}
return val;
}
/*
* Skip the data for a file on tape.
*/
static int
skipfile(struct file *f)
{
char b[4096];
long long size;
ssize_t rd;
if (fmttype & TYP_TAR && ((f->f_st.st_mode&S_IFMT) == S_IFLNK ||
f->f_st.st_nlink > 1)) {
if (fmttype & TYP_USTAR && (!formatforced ||
fmttype == FMT_PAX) &&
f->f_st.st_nlink > 1 &&
f->f_st.st_size > 0)
/*EMPTY*/;
else
return 0;
}
/*
* SVR4 cpio derivatives always ignore the size of these,
* even if not reading tar formats. We do the same for now,
* although POSIX (for -H odc format) says the contrary.
*/
if (fmttype != FMT_ZIP && ((f->f_st.st_mode&S_IFMT) == S_IFDIR ||
(f->f_st.st_mode&S_IFMT) == S_IFCHR ||
(f->f_st.st_mode&S_IFMT) == S_IFBLK ||
(f->f_st.st_mode&S_IFMT) == S_IFIFO ||
(f->f_st.st_mode&S_IFMT) == S_IFNAM ||
(f->f_st.st_mode&S_IFMT) == S_IFNWK))
return 0;
if (fmttype == FMT_ZIP && f->f_gflag & FG_DESC)
return zipread(f, f->f_name, -1, 0);
size = fmttype == FMT_ZIP ? f->f_csize :
f->f_Kbase ? f->f_Kbase : f->f_st.st_size;
again: while (size) {
if ((rd = bread(b, size > sizeof b ? sizeof b : size)) <= 0)
unexeoa();
size -= rd;
}
if (f->f_Kbase) {
skippad(f->f_Ksize, f->f_pad);
readK2hdr(f);
size = f->f_Krest;
goto again;
}
skippad(fmttype==FMT_ZIP ? f->f_csize :
f->f_Ksize ? f->f_Krest : f->f_st.st_size, f->f_pad);
return 0;
}
/*
* Skip data also, but perform checks as if copying.
*/
static int
skipdata(struct file *f, int (*copydata)(struct file *, const char *, int))
{
switch (f->f_st.st_mode&S_IFMT) {
case S_IFLNK:
break;
case S_IFDIR:
case S_IFBLK:
case S_IFCHR:
case S_IFIFO:
case S_IFNAM:
case S_IFNWK:
if (fmttype != FMT_ZIP)
break;
/*FALLTHRU*/
case S_IFREG:
default:
if (fmttype & TYP_TAR && f->f_st.st_nlink > 1 &&
((fmttype & TYP_USTAR) == 0 ||
formatforced && fmttype != FMT_PAX))
break;
if (copydata(f, f->f_name, -1) != 0)
return 1;
}
return 0;
}
/*
* Seek to a position in the archive measured from the begin of
* operation. Handle media-dependent seeks. n must be a multiple
* of the tape device's physical block size.
*/
static int
tseek(off_t n)
{
int fault;
if (tapeblock > 0) {
int i = (n - poffs) / tapeblock;
#if defined (__linux__) || defined (__sun) || defined (__FreeBSD__) || \
defined (__hpux) || defined (_AIX) || defined (__NetBSD__) || \
defined (__OpenBSD__) || defined (__DragonFly__) || defined (__APPLE__)
struct mtop mo;
mo.mt_op = i > 0 ? MTFSR : MTBSR;
mo.mt_count = i > 0 ? i : -i;
fault = ioctl(mt, MTIOCTOP, &mo);
#else /* SVR4.2MP */
int t, a;
t = i > 0 ? T_SBF : T_SBB;
a = i > 0 ? i : -i;
fault = ioctl(mt, t, a);
#endif /* SVR4.2MP */
} else
fault = lseek(mt, n - poffs, SEEK_CUR) == (off_t)-1 ? -1 : 0;
if (fault == 0)
poffs = n;
return fault;
}
/*
* Advance to the trailer on the tape (for -A).
*/
static int
totrailer(void)
{
union bincpio bc;
struct file f;
off_t ooffs, noffs, diff;
int i;
if (mread() == 0)
unexeoa();
if (fmttype == FMT_NONE)
whathdr();
memset(&f, 0, sizeof f);
for (;;) {
ooffs = aoffs;
if ((i = readhdr(&f, &bc)) < 0)
goto fail;
if (i > 0)
break;
markdev(f.f_st.st_dev);
if (skipfile(&f) != 0)
goto fail;
if (fmttype == FMT_ZIP)
zipdefer(f.f_name, &f.f_st, ooffs,
f.f_chksum, f.f_csize, &bc.Zdr);
pax_track(f.f_name, f.f_st.st_mtime);
}
/*
* Now seek to the position of the trailer, but retain the
* block alignment.
*/
diff = ooffs % blksiz;
noffs = ooffs - diff;
if (diff ? tseek(noffs) == 0 && mread() >= diff && tseek(noffs) == 0
: tseek(ooffs) == 0) {
free(f.f_name);
free(f.f_lnam);
nwritten = ooffs;
curpos = diff;
return 0;
}
fail: msg(4, 1, "Unable to append to this archive\n");
/*NOTREACHED*/
return 1;
}
static long long
rdoct(const char *data, int len)
{
int i;
long long val = 0;
for (i = 0; i < len && data[i] == ' '; i++);
for ( ; i < len && data[i] && data[i] != ' '; i++) {
val <<= 3;
val += data[i] - '0';
}
return val;
}
static long long
rdhex(const char *data, int len)
{
int i;
long long val = 0;
for (i = 0; i < len && data[i] == ' '; i++);
for ( ; i < len && data[i] && data[i] != ' '; i++) {
val <<= 4;
val += data[i] > '9' ? data[i] > 'F' ? data[i] - 'a' + 10 :
data[i] - 'A' + 10 : data[i] - '0';
}
return val;
}
void
unexeoa(void)
{
if (sysv3) {
fprintf(stderr,
"Can't read input: end of file encountered "
"prior to expected end of archive.\n");
done(1);
}
else
msg(3, 1, "Unexpected end-of-archive encountered.\n");
}
static char *peekdata;
static size_t peekbot, peektop, peeksize;
void
bunread(const char *data, size_t sz)
{
peekdata = srealloc(peekdata, peeksize += sz);
memcpy(&peekdata[peekbot], data, sz);
peektop += sz;
aoffs -= sz;
}
/*
* Buffered read of data from tape. sz is the amount of data required
* by the archive format; if it cannot be retrieved, processing fails.
*/
ssize_t
bread(char *data, size_t sz)
{
ssize_t rd = 0;
if (peekdata) {
rd = sz>peektop-peekbot ? peektop-peekbot : sz;
memcpy(&data[0], &peekdata[peekbot], rd);
sz -= rd;
peekbot += rd;
if (peekbot == peektop) {
free(peekdata);
peekdata = 0;
peeksize = 0;
peekbot = peektop = 0;
}
}
while (sz) {
if (blktop - curpos >= sz) {
memcpy(&data[rd], &blkbuf[curpos], sz);
curpos += sz;
rd += sz;
aoffs += rd;
return rd;
}
if (blktop > curpos) {
memcpy(&data[rd], &blkbuf[curpos], blktop - curpos);
rd += blktop - curpos;
sz -= blktop - curpos;
curpos = blktop;
}
if (mfl < 0) {
if (mfl == -1) {
emsg(3, "I/O error on \"%s\"",
Iflag ? Iflag : "input");
if (kflag == 0)
break;
if (tapeblock < 0 && (
(mtst.st_mode&S_IFMT)==S_IFBLK||
(mtst.st_mode&S_IFMT)==S_IFCHR||
(mtst.st_mode&S_IFMT)==S_IFREG
) && lseek(mt, blksiz, SEEK_CUR)
== (off_t)-1) {
emsg(3, "Cannot lseek()");
done(1);
}
}
if (kflag == 0 || mfl == -2) {
if ((mtst.st_mode&S_IFMT)!=S_IFCHR &&
(mtst.st_mode&S_IFMT)!=S_IFBLK)
break;
newmedia(mfl == -1 ? errno : 0);
if (mfl == -1) {
mfl = -2;
break;
}
if (fmttype & TYP_BAR)
curpos = 512;
}
}
mread();
}
aoffs += rd;
return rd;
}
/*
* Read a block of data from tape.
*/
static ssize_t
mread(void)
{
ssize_t ro, rt = 0;
do {
if ((ro = read(mt, blkbuf + rt, blksiz - rt)) <= 0) {
if (ro < 0) {
if (errno == EINTR)
continue;
mfl = -1;
} else
mfl = -2;
if (rt > 0) {
rt += ro;
break;
}
curpos = blktop = 0;
return ro;
}
rt += ro;
poffs += ro;
if (tapeblock == 0) {
tapeblock = ro;
if (!Bflag && !Cflag)
blksiz = ro;
}
} while (rt < blksiz);
curpos = 0;
blocks += rt >> 9;
bytes += rt & 0777;
blktop = rt;
return rt;
}
/*
* Look what kind of tape or other archive media we are working on and
* set the buffer size appropriately (if not specified by the user).
*/
static void
mstat(void)
{
if (fstat(mt, &mtst) < 0) {
emsg(3, "Error during stat() of archive");
done(1);
}
#if defined (__linux__)
if ((mtst.st_mode&S_IFMT) == S_IFCHR) {
struct mtget mg;
if (ioctl(mt, MTIOCGET, &mg) == 0)
tapeblock = (mg.mt_dsreg&MT_ST_BLKSIZE_MASK) >>
MT_ST_BLKSIZE_SHIFT;
} else if ((mtst.st_mode&S_IFMT) == S_IFBLK) {
/*
* If using a block device, write blocks of the floppy
* disk sector with direct i/o. This enables signals
* after each block is written instead of being ~40
* seconds in uninterruptible sleep when calling close()
* later. For block devices other than floppies, use the
* kernel defined i/o block size. For floppies, use direct
* i/o even when reading since it is faster.
*/
struct floppy_struct fs;
int floppy = -1;
int blkbsz;
if (blksiz == 0) {
if ((floppy = ioctl(mt, FDGETPRM, &fs)) == 0)
blksiz = fs.sect * FD_SECTSIZE(&fs);
#ifdef BLKBSZGET
else if (ioctl(mt, BLKBSZGET, &blkbsz) == 0)
blksiz = blkbsz;
#endif /* BLKBSZGET */
}
#ifdef O_DIRECT
if ((action == 'o' || floppy == 0) && blksiz != 0) {
int flags;
if ((flags = fcntl(mt, F_GETFL)) != -1)
fcntl(mt, F_SETFL, flags | O_DIRECT);
}
}
#endif /* O_DIRECT */
#elif defined (__sun)
if ((mtst.st_mode&S_IFMT) == S_IFCHR) {
struct mtdrivetype_request mr;
static struct mtdrivetype md;
mr.size = sizeof md;
mr.mtdtp = &md;
if (ioctl(mt, MTIOCGETDRIVETYPE, &mr) == 0)
tapeblock = md.bsize;
}
#elif defined (__FreeBSD__) || defined (__NetBSD__) || defined (__OpenBSD__) \
|| defined (__DragonFly__) || defined (__APPLE__)
if ((mtst.st_mode&S_IFMT) == S_IFCHR) {
struct mtget mg;
if (ioctl(mt, MTIOCGET, &mg) == 0)
tapeblock = mg.mt_blksiz;
}
#elif defined (__hpux) || defined (_AIX)
#else /* SVR4.2MP */
if ((mtst.st_mode&S_IFMT) == S_IFCHR) {
struct blklen bl;
if (ioctl(mt, T_RDBLKLEN, &bl) == 0)
/*
* These are not the values we're interested in
* (always 1 and 16M-1 for DAT/DDS tape drives).
*/
tapeblock = 0;
}
#endif /* SVR4.2MP */
if (blksiz == 0)
switch (mtst.st_mode&S_IFMT) {
case S_IFREG:
case S_IFBLK:
blksiz = 4096;
break;
case S_IFCHR:
if (action == 'o' && !Aflag) {
if (pax != PAX_TYPE_CPIO) {
if (fmttype & TYP_PAX)
blksiz = 5120;
else if (fmttype & TYP_TAR)
blksiz = 10240;
else if (fmttype & TYP_CPIO)
blksiz = 5120;
else
blksiz = 512;
} else
blksiz = tapeblock>0 ? tapeblock : 512;
} else
blksiz = tapeblock > 0 && tapeblock % 1024 ?
tapeblock : tapeblock > 10240 ?
tapeblock : 10240;
break;
default:
blksiz = 512;
}
}
/*
* Skip tape data such that size becomes aligned to pad.
*/
static int
skippad(unsigned long long size, int pad)
{
char b[512];
int to;
if ((to = size % pad) != 0) {
if (bread(b, pad - to) != pad - to)
unexeoa();
}
return 0;
}
static int
allzero(const char *bp, int n)
{
int i;
for (i = 0; i < n; i++)
if (bp[i] != '\0')
return 0;
return 1;
}
#define CACHESIZE 16
static const char *
getuser(uid_t uid)
{
static struct {
char *name;
uid_t uid;
} cache[CACHESIZE];
static int last;
int i;
struct passwd *pwd;
const char *name;
for (i = 0; i < CACHESIZE && cache[i].name; i++)
if (cache[i].uid == uid)
goto found;
if ((pwd = getpwuid(uid)) != NULL)
name = pwd->pw_name;
else
name = "";
if (i >= CACHESIZE) {
if (last >= CACHESIZE)
last = 0;
i = last++;
}
if (cache[i].name)
free(cache[i].name);
cache[i].name = sstrdup(name);
cache[i].uid = uid;
found: return cache[i].name[0] ? cache[i].name : NULL;
}
static const char *
getgroup(gid_t gid)
{
static struct {
char *name;
gid_t gid;
} cache[CACHESIZE];
static int last;
int i;
struct group *grp;
const char *name;
for (i = 0; i < CACHESIZE && cache[i].name; i++)
if (cache[i].gid == gid)
goto found;
if ((grp = getgrgid(gid)) != NULL)
name = grp->gr_name;
else
name = "";
if (i >= CACHESIZE) {
if (last >= CACHESIZE)
last = 0;
i = last++;
}
if (cache[i].name)
free(cache[i].name);
cache[i].name = sstrdup(name);
cache[i].gid = gid;
found: return cache[i].name[0] ? cache[i].name : NULL;
}
/*
* Return a version of the passed string that contains at most one '%d'
* and no other printf formats.
*/
char *
oneintfmt(const char *op)
{
char *new, *np;
int no = 0;
np = new = smalloc(2 * strlen(op) + 1);
do {
if (*op == '%') {
*np++ = *op++;
if (*op != '%')
if (*op != 'd' || no++)
*np++ = '%';
}
*np++ = *op;
} while (*op++);
return new;
}
char *
sstrdup(const char *op)
{
char *np;
np = smalloc(strlen(op) + 1);
strcpy(np, op);
return np;
}
/*
* Add this pattern to the extraction list with -i.
*/
void
addg(const char *pattern, int art)
{
struct glist *gp;
gp = scalloc(1, sizeof *gp);
if (pax == PAX_TYPE_CPIO && pattern[0] == '!') {
gp->g_not = 1;
pattern++;
}
gp->g_pat = sstrdup(pattern);
gp->g_art = art;
if (pax != PAX_TYPE_CPIO) {
struct glist *gb = NULL, *gc;
for (gc = patterns; gc; gc = gc->g_nxt)
gb = gc;
if (gb)
gb->g_nxt = gp;
else
patterns = gp;
} else {
gp->g_nxt = patterns;
patterns = gp;
}
}
/*
* Check if the file name s matches any of the given patterns.
*/
static struct glist *
want(struct file *f, struct glist **gb)
{
extern int gmatch(const char *, const char *);
struct glist *gp;
for (gp = patterns; gp; gp = gp->g_nxt) {
if ((gmatch(f->f_name, gp->g_pat) != 0) ^ gp->g_not &&
(pax_nflag == 0 || gp->g_gotcha == 0)) {
return gp;
}
*gb = gp;
}
return NULL;
}
static void
patfile(void)
{
struct iblok *ip;
char *name = NULL;
size_t namsiz = 0, namlen;
if ((ip = ib_open(Eflag, 0)) == NULL)
msg(3, -2, "Cannot open \"%s\" to read patterns\n", Eflag);
while ((namlen = ib_getlin(ip, &name, &namsiz, srealloc)) != 0) {
if (name[namlen-1] == '\n')
name[--namlen] = '\0';
addg(name, 0);
}
ib_close(ip);
}
void
swap(char *b, size_t sz, int s8, int s16)
{
uint8_t u8;
uint16_t u16;
union types2 *t2;
union types4 *t4;
int i;
if (s8) {
for (i = 0; i < (sz >> 1); i++) {
t2 = &((union types2 *)b)[i];
u8 = t2->byte[0];
t2->byte[0] = t2->byte[1];
t2->byte[1] = u8;
}
}
if (s16) {
for (i = 0; i < (sz >> 2); i++) {
t4 = &((union types4 *)b)[i];
u16 = t4->sword[0];
t4->sword[0] = t4->sword[1];
t4->sword[1] = u16;
}
}
}
static int
ckodd(long long size, int mod, const char *str, const char *fn)
{
if (size % mod) {
msg(3, 0, "Cannot swap %s of \"%s\", odd number of %s\n",
str, fn, str);
errcnt++;
return 1;
}
return 0;
}
/*
* Interactive rename (-r option).
*/
static int
rname(char **oldp, size_t *olds)
{
char *new = NULL;
size_t newsize = 0;
int i, r;
char c;
fprintf(stderr, "Rename \"%s\"? ", *oldp);
if (tty == 0)
if ((tty = open("/dev/tty", O_RDWR)) < 0 ||
fcntl(tty, F_SETFD, FD_CLOEXEC) < 0)
err: msg(3, 1, "Cannot read tty.\n");
i = 0;
while ((r = read(tty, &c, 1)) == 1 && c != '\n') {
if (i+1 >= newsize)
new = srealloc(new, newsize += 32);
new[i++] = c;
}
if (r <= 0)
goto err;
if (new == NULL)
return 0;
new[i] = '\0';
if (new[0] == '.' && new[1] == '\0') {
free(new);
} else {
free(*oldp);
*oldp = new;
*olds = newsize;
}
return 1;
}
/*
* Filter data from tape through the commands given in arg?.
*/
static int
redirect(const char *arg0, const char *arg1)
{
int pd[2];
if (pipe(pd) < 0)
return -1;
switch (fork()) {
case 0:
if (tapeblock>=0 || lseek(mt, -blktop, SEEK_CUR) == (off_t)-1) {
int xpd[2];
if (pipe(xpd) == 0 && fork() == 0) {
ssize_t rd, wo, wt;
close(xpd[0]);
do {
wo = wt = 0;
do {
if ((wo = write(xpd[1],
blkbuf + wt,
blktop - wt))
<= 0) {
if (errno == EINTR)
continue;
_exit(0);
}
wt += wo;
} while (wt < blktop);
} while ((rd = mread()) >= 0);
if (rd < 0) {
emsg(3, "Read error on \"%s\"",
Iflag && !sysv3 ?
Iflag : "input");
}
_exit(0);
} else {
close(xpd[1]);
dup2(xpd[0], 0);
close(xpd[0]);
}
} else {
dup2(mt, 0);
}
close(mt);
dup2(pd[1], 1);
close(pd[0]);
close(pd[1]);
execlp(arg0, arg0, arg1, NULL);
fprintf(stderr, "%s: could not exec %s: %s\n",
progname, arg0, strerror(errno));
_exit(0177);
/*NOTREACHED*/
default:
dup2(pd[0], mt);
close(pd[0]);
close(pd[1]);
tapeblock = -1;
break;
case -1:
return -1;
}
return 0;
}
/*
* Get the name stored in a tar header. buf is expected to be at least
* TPFXSIZ+TNAMSIZ+2 bytes.
*/
static char *
tnameof(struct tar_header *hp, char *buf)
{
const char *cp;
char *bp = buf;
if (fmttype & TYP_USTAR && fmttype != FMT_GNUTAR &&
hp->t_prefix[0] != '\0') {
cp = hp->t_prefix;
while (cp < &hp->t_prefix[TPFXSIZ] && *cp)
*bp++ = *cp++;
if (bp > buf)
*bp++ = '/';
}
cp = hp->t_name;
while (cp < &hp->t_name[TNAMSIZ] && *cp)
*bp++ = *cp++;
*bp = '\0';
return buf;
}
/*
* Store fn as file name in a tar header.
*/
static int
tmkname(struct tar_header *hp, const char *fn)
{
const char *cp, *cs = NULL;
for (cp = fn; *cp; cp++) {
if (fmttype & TYP_USTAR && *cp == '/' && cp[1] != '\0' &&
cp > fn && cp-fn <= TPFXSIZ)
cs = cp;
}
if (fmttype == FMT_GNUTAR && cp - fn > 99) {
writegnuname(fn, cp - fn + 1, 'L');
cp = &fn[99];
} else if (cp - (cs ? &cs[1] : fn) > TNAMSIZ) {
if (fmttype & TYP_PAX && utf8(fn)) {
paxrec |= PR_PATH;
strcpy(hp->t_name, sequence());
return 0;
}
msg(3, 0, "%s: file name too long\n", fn);
return -1;
}
if (cs && cp - fn > TNAMSIZ) {
memcpy(hp->t_prefix, fn, cs - fn);
if (cs - fn < TPFXSIZ)
hp->t_prefix[cs - fn] = '\0';
memcpy(hp->t_name, &cs[1], cp - &cs[1]);
if (cp - &cs[1] < TNAMSIZ)
hp->t_name[cp - &cs[1]] = '\0';
} else {
memcpy(hp->t_name, fn, cp - fn);
if (cp - fn < TNAMSIZ)
hp->t_name[cp - fn] = '\0';
}
return 0;
}
/*
* Get the link name of a tar header.
*/
static void
tlinkof(struct tar_header *hp, struct file *f)
{
const char *cp;
char *bp;
if (f->f_lsiz < TNAMSIZ+1)
f->f_lnam = srealloc(f->f_lnam, f->f_lsiz = TNAMSIZ+1);
cp = hp->t_linkname;
bp = f->f_lnam;
while (cp < &hp->t_linkname[TNAMSIZ] && *cp)
*bp++ = *cp++;
*bp = '\0';
}
/*
* Create the link name in a tar header.
*/
static int
tmklink(struct tar_header *hp, const char *fn)
{
const char *cp;
for (cp = fn; *cp; cp++);
if (fmttype == FMT_GNUTAR && cp - fn > 99) {
writegnuname(fn, cp - fn + 1, 'K');
cp = &fn[99];
} else if (cp - fn > TNAMSIZ) {
if (fmttype & TYP_PAX && utf8(fn)) {
paxrec |= PR_LINKPATH;
strcpy(hp->t_linkname, sequence());
return 0;
}
msg(3, 0, "%s: linked name too long\n", fn);
return -1;
}
memcpy(hp->t_linkname, fn, cp - fn);
if (cp - fn < TNAMSIZ)
hp->t_linkname[cp - fn] = '\0';
return 0;
}
static int
tlflag(struct stat *st)
{
if (fmttype & TYP_BAR) {
switch (st->st_mode & S_IFMT) {
case S_IFREG:
case S_IFDIR:
return '0';
case S_IFLNK:
return '2';
default:
return '3';
}
} else if (fmttype & TYP_USTAR) {
switch (st->st_mode & S_IFMT) {
case S_IFREG:
return '0';
case S_IFLNK:
return '2';
case S_IFCHR:
return '3';
case S_IFBLK:
return '4';
case S_IFDIR:
return '5';
case S_IFIFO:
return '6';
default:
return -1;
}
} else {
switch (st->st_mode & S_IFMT) {
case S_IFREG:
return '\0';
case S_IFLNK:
return '2';
default:
return -1;
}
}
}
/*
* Ustar checksums are created using unsigned chars, as specified by
* POSIX. Traditional tar implementations use signed chars. Some
* implementations (notably SVR4 cpio derivatives) use signed chars
* even for ustar archives, but this is clearly an implementation bug.
*/
static void
tchksum(union bincpio *bp)
{
uint32_t sum;
char *cp;
memset(bp->Tdr.t_chksum, ' ', sizeof bp->Tdr.t_chksum);
sum = 0;
if (fmttype & TYP_USTAR)
for (cp = bp->data; cp < &bp->data[512]; cp++)
sum += *((unsigned char *)cp);
else
for (cp = bp->data; cp < &bp->data[512]; cp++)
sum += *((signed char *)cp);
sprintf(bp->Tdr.t_chksum, "%7.7o", sum);
}
static int
tcssum(union bincpio *bp, int ustar)
{
uint32_t ssum = 0, usum = 0, osum;
char ochk[sizeof bp->Tdr.t_chksum];
char *cp;
osum = rdoct(bp->Tdr.t_chksum, 8);
memcpy(ochk, bp->Tdr.t_chksum, sizeof ochk);
memset(bp->Tdr.t_chksum, ' ', sizeof bp->Tdr.t_chksum);
for (cp = bp->data; cp < &bp->data[512]; cp++) {
ssum += *((signed char *)cp);
usum += *((unsigned char *)cp);
}
memcpy(bp->Tdr.t_chksum, ochk, sizeof bp->Tdr.t_chksum);
return ssum != osum && usum != osum;
}
static int
trdsum(union bincpio *bp)
{
int i;
if (fmttype & TYP_BAR)
i = bcssum(bp);
else
i = tcssum(bp, fmttype & TYP_USTAR);
if (i)
msg(3, 0, "Bad header - checksum error.\n");
return i;
}
static mode_t
tifmt(int c)
{
switch (c) {
default:
case '\0':
case '0':
return S_IFREG;
case '2':
return S_IFLNK;
case '3':
return S_IFCHR;
case '4':
return S_IFBLK;
case '5':
return S_IFDIR;
case '6':
return S_IFIFO;
}
}
/*
* bar format support functions.
*/
static void
bchksum(union bincpio *bp)
{
uint32_t sum;
char *cp;
memset(bp->Bdr.b_chksum, ' ', sizeof bp->Bdr.b_chksum);
sum = 0;
for (cp = bp->data; cp < &bp->data[512]; cp++)
sum += *((signed char *)cp);
sprintf(bp->Bdr.b_chksum, "%7.7o", sum);
}
static int
bcssum(union bincpio *bp)
{
uint32_t sum, osum;
char ochk[sizeof bp->Bdr.b_chksum];
char *cp;
osum = rdoct(bp->Bdr.b_chksum, 8);
memcpy(ochk, bp->Bdr.b_chksum, sizeof ochk);
memset(bp->Bdr.b_chksum, ' ', sizeof bp->Bdr.b_chksum);
sum = 0;
for (cp = bp->data; cp < &bp->data[512]; cp++)
sum += *((signed char *)cp);
memcpy(bp->Bdr.b_chksum, ochk, sizeof bp->Bdr.b_chksum);
return sum != osum;
}
static void
blinkof(const char *cp, struct file *f, int namlen)
{
if (f->f_lsiz < 512)
f->f_lnam = srealloc(f->f_lnam, f->f_lsiz = 512);
strcpy(f->f_lnam, &cp[SIZEOF_bar_header + namlen]);
}
static void
dump_barhdr(void)
{
union bincpio bc;
static int volno;
static time_t now = -1;
memset(&bc, 0, 512);
sprintf(bc.Bdr.b_uid, "%d", myuid & 07777777);
sprintf(bc.Bdr.b_gid, "%d", mygid & 07777777);
bc.Bdr.b_size[0] = '0';
memcpy(bc.Bdr.b_bar_magic, mag_bar, sizeof bc.Bdr.b_bar_magic);
sprintf(bc.Bdr.b_volume_num, "%d", ++volno & 0777);
bc.Bdr.b_compressed = '0';
if (now == (time_t)-1)
time(&now);
sprintf(bc.Bdr.b_date, "%llo", now & 077777777777LL);
bchksum(&bc);
bwrite(bc.data, 512);
}
/*
* Support for compressed bar format (any regular file is piped through zcat).
*/
static pid_t zpid;
static int
zcreat(const char *name, mode_t mode)
{
int pd[2];
int fd;
if (pipe(pd) < 0)
return -1;
if ((fd = creat(name, mode)) < 0) {
fd = errno;
close(pd[0]);
close(pd[1]);
errno = fd;
return -1;
}
switch (zpid = fork()) {
case -1:
return -1;
case 0:
dup2(pd[0], 0);
dup2(fd, 1);
close(pd[0]);
close(pd[1]);
close(fd);
execlp("zcat", "zcat", NULL);
_exit(0177);
/*NOTREACHED*/
}
close(pd[0]);
close(fd);
sigset(SIGPIPE, SIG_IGN);
return pd[1];
}
static int
zclose(int fd)
{
int c, s;
c = close(fd);
while (waitpid(zpid, &s, 0) != zpid);
return c != 0 || s != 0 ? -1 : 0;
}
/*
* If using the -A option, device numbers that appear in the archive
* are not reused for appended files. This avoids wrong hardlink
* connections on extraction.
*
* In fact, this should be done even if we did not fake device and
* inode numbers, since it is not guaranteed that the archive was
* created on the same machine, or even on the same machine, inode
* number could have changed after a file was unlinked.
*/
static void
markdev(dev_t dev)
{
struct dslot *dp, *dq = NULL;;
for (dp = markeddevs; dp; dp = dp->d_nxt) {
if (dp->d_dev == dev)
return;
dq = dp;
}
dp = scalloc(1, sizeof *dp);
dp->d_dev = dev;
if (markeddevs == NULL)
markeddevs = dp;
else
dq->d_nxt = dp;
}
static int
marked(dev_t dev)
{
struct dslot *dp;
for (dp = markeddevs; dp; dp = dp->d_nxt)
if (dp->d_dev == dev)
return 1;
return 0;
}
static void
cantsup(int err, const char *file)
{
if (sysv3)
msg(err ? 3 : 2, 0,
"format can't support expanded types on %s\n",
file);
else
msg(0, 0, "%s format can't support expanded types on %s\n",
err ? "Error" : "Warning", file);
errcnt++;
}
static void
onint(int signo)
{
if (cur_ofile && cur_tfile && rename(cur_tfile, cur_ofile) < 0)
emsg(3, "Cannot recover original \"%s\"", cur_ofile);
if (cur_ofile && cur_tfile == NULL && unlink(cur_ofile) < 0)
emsg(3, "Cannot remove incomplete \"%s\"", cur_ofile);
exit(signo | 0200);
}
/*
* Read the compressed zip data part for a file.
*/
static int
zipread(struct file *f, const char *tgt, int tfd, int doswap)
{
int val = 0;
uint32_t crc = 0;
if (f->f_gflag & FG_DESC) {
if (f->f_cmethod != C_DEFLATED && f->f_cmethod != C_ENHDEFLD ||
f->f_gflag & FG_CRYPT)
msg(4, 1, "Cannot handle zip data descriptor\n");
f->f_csize = 0x7FFFFFFFFFFFFFFFLL;
f->f_st.st_size = 0x7FFFFFFFFFFFFFFFLL;
} else if (tfd < 0)
return skipfile(f);
if (f->f_gflag & FG_CRYPT)
return cantunzip(f, "encrypted");
switch (f->f_cmethod) {
case C_DEFLATED:
case C_ENHDEFLD:
val = zipinflate(f, tgt, tfd, doswap, &crc);
break;
case C_SHRUNK:
val = zipunshrink(f, tgt, tfd, doswap, &crc);
break;
case C_IMPLODED:
val = zipexplode(f, tgt, tfd, doswap, &crc);
break;
case C_REDUCED1:
case C_REDUCED2:
case C_REDUCED3:
case C_REDUCED4:
val = zipexpand(f, tgt, tfd, doswap, &crc);
break;
case C_TOKENIZED:
return cantunzip(f, "tokenized");
case C_DCLIMPLODED:
val = zipblast(f, tgt, tfd, doswap, &crc);
break;
case C_BZIP2:
#if USE_BZLIB
val = zipunbz2(f, tgt, tfd, doswap, &crc);
break;
#else /* !USE_BZLIB */
return cantunzip(f, "bzip2 compressed");
#endif /* !USE_BZLIB */
default:
return cantunzip(f, "compressed");
}
if (f->f_gflag & FG_DESC)
zipreaddesc(f);
if (val == 0 && crc != f->f_chksum) {
msg(3, 0, "\"%s\" - checksum error\n", f->f_name);
return -1;
}
return val;
}
/*
* Read a zip data descriptor (i. e. a field after the compressed data
* that contains the actual values for sizes and crc).
*/
static void
zipreaddesc(struct file *f)
{
if (f->f_oflag & OF_ZIP64) {
struct zipddesc64 zd64;
bread((char *)&zd64, SIZEOF_zipddesc64);
if (memcmp(zd64.zd_signature, mag_zipdds, sizeof mag_zipdds))
msg(4, 1, "Invalid zip data descriptor\n");
f->f_chksum = ple32(zd64.zd_crc32);
f->f_dsize = f->f_st.st_size = ple64(zd64.zd_nsize) &
0xFFFFFFFFFFFFFFFFULL;
f->f_csize = ple64(zd64.zd_csize) &
0xFFFFFFFFFFFFFFFFULL;
} else {
struct zipddesc zd;
bread((char *)&zd, SIZEOF_zipddesc);
if (memcmp(zd.zd_signature, mag_zipdds, sizeof mag_zipdds))
msg(4, 1, "Invalid zip data descriptor\n");
f->f_chksum = ple32(zd.zd_crc32);
f->f_dsize = f->f_st.st_size = ple32(zd.zd_nsize)&0xFFFFFFFFUL;
f->f_csize = ple32(zd.zd_csize)&0xFFFFFFFFUL;
}
}
static int
cantunzip(struct file *f, const char *method)
{
msg(3, 0, "Cannot unzip %s file \"%s\"\n", method, f->f_name);
errcnt++;
return skipfile(f);
}
/*
* PC-DOS time format:
*
* 31 24 20 15 10 4 0
* | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | |
* | | | | |
* |year |months |days |hours |minutes |biseconds|
*
* refers to local time on the machine it was created on.
*/
static time_t
gdostime(const char *tp, const char *dp)
{
uint32_t v;
struct tm tm;
v = (int)(tp[0]&0377) +
((int)(tp[1]&0377) << 8) +
((int)(dp[0]&0377) << 16) +
((int)(dp[1]&0377) << 24);
memset(&tm, 0, sizeof tm);
tm.tm_sec = (v&0x1F) << 1;
tm.tm_min = (v&0x7E0) >> 5;
tm.tm_hour = (v&0xF800) >> 11;
tm.tm_mday = ((v&0x1F0000) >> 16);
tm.tm_mon = ((v&0x1E00000) >> 21) - 1;
tm.tm_year = ((v&0xFE000000) >> 25) + 80;
tm.tm_isdst = -1;
return mktime(&tm);
}
static void
mkdostime(time_t t, char *tp, char *dp)
{
uint32_t v;
struct tm *tm;
tm = localtime(&t);
v = (tm->tm_sec >> 1) + (tm->tm_sec&1) + (tm->tm_min << 5) +
(tm->tm_hour << 11) + (tm->tm_mday << 16) +
((tm->tm_mon+1) << 21) + ((tm->tm_year - 80) << 25);
le16p(v&0x0000ffff, tp);
le16p((v&0xffff0000) >> 16, dp);
}
/*
* Read and interpret the zip extra field for a file.
*/
static ssize_t
ziprxtra(struct file *f, struct zip_header *z)
{
union zextra *x, *xp;
short tag, size;
ssize_t len;
len = ple16(z->z_extralen)&0177777;
if (len > 0) {
x = smalloc(len);
if (bread((char *)x, len) != len)
return -1;
xp = x;
while (len > 0) {
if (len < 4)
return -1;
tag = ple16(xp->Ze_gn.ze_gn_tag);
size = (ple16(xp->Ze_gn.ze_gn_tsize)&0177777) + 4;
switch (tag) {
case mag_zip64f: /* ZIP64 extended information */
if (size != SIZEOF_zextra_64 &&
size != SIZEOF_zextra_64_a &&
size != SIZEOF_zextra_64_b)
break;
if (f->f_st.st_size == 0xffffffff)
f->f_st.st_size =
ple64(xp->Ze_64.ze_64_nsize);
if (f->f_csize == 0xffffffff)
f->f_csize =
ple64(xp->Ze_64.ze_64_csize);
f->f_oflag |= OF_ZIP64;
break;
case 0x000d: /* PKWARE Unix Extra Field */
if (size != SIZEOF_zextra_pk)
break;
f->f_st.st_atime = ple32(xp->Ze_pk.ze_pk_atime);
f->f_st.st_mtime = ple32(xp->Ze_pk.ze_pk_mtime);
f->f_st.st_uid = ple16(xp->Ze_pk.ze_pk_uid) &
0177777;
f->f_st.st_gid = ple16(xp->Ze_pk.ze_pk_gid) &
0177777;
break;
case 0x5455: /* Extended Timestamp Extra Field */
if (xp->Ze_et.ze_et_flags[0] & 1)
f->f_st.st_atime =
ple32(xp->Ze_et.ze_et_atime);
if (xp->Ze_et.ze_et_flags[0] & 2)
f->f_st.st_mtime =
ple32(xp->Ze_et.ze_et_mtime);
if (xp->Ze_et.ze_et_flags[0] & 3)
f->f_st.st_ctime =
ple32(xp->Ze_et.ze_et_ctime);
break;
case 0x5855: /* Info-ZIP Unix Extra Field #1 */
if (size != SIZEOF_zextra_i1)
break;
f->f_st.st_atime = ple32(xp->Ze_i1.ze_i1_atime);
f->f_st.st_mtime = ple32(xp->Ze_i1.ze_i1_mtime);
f->f_st.st_uid = ple16(xp->Ze_i1.ze_i1_uid) &
0177777;
f->f_st.st_gid = ple16(xp->Ze_i1.ze_i1_gid) &
0177777;
break;
case 0x7855: /* Info-ZIP Unix Extra Field #2 */
if (size != SIZEOF_zextra_i2)
break;
f->f_st.st_uid = ple16(xp->Ze_i2.ze_i2_uid) &
0177777;
f->f_st.st_gid = ple16(xp->Ze_i2.ze_i2_gid) &
0177777;
break;
case 0x756e: /* ASi Unix Extra Field */
if (size < SIZEOF_zextra_as)
break;
f->f_st.st_mode = ple16(xp->Ze_as.ze_as_mode);
f->f_st.st_uid = ple16(xp->Ze_as.ze_as_uid) &
0177777;
f->f_st.st_gid = ple16(xp->Ze_as.ze_as_gid) &
0177777;
if ((f->f_st.st_mode&S_IFMT) == S_IFLNK) {
if (f->f_lsiz < size-14+1)
f->f_lnam = srealloc(f->f_lnam,
f->f_lsiz =
size-18+1);
memcpy(f->f_lnam, &((char *)xp)[18],
size-18);
f->f_lnam[size-18] = '\0';
f->f_st.st_size = size-18;
} else {
f->f_st.st_rdev =
ple32(xp->Ze_as.ze_as_sizdev);
f->f_rmajor = major(f->f_st.st_rdev);
f->f_rminor = minor(f->f_st.st_rdev);
}
break;
case mag_zipcpio:
if (size != SIZEOF_zextra_cp)
break;
f->f_st.st_dev = ple32(xp->Ze_cp.ze_cp_dev);
f->f_st.st_ino = ple32(xp->Ze_cp.ze_cp_ino);
f->f_st.st_mode = ple32(xp->Ze_cp.ze_cp_mode);
f->f_st.st_uid = ple32(xp->Ze_cp.ze_cp_uid) &
0xFFFFFFFFUL;
f->f_st.st_gid = ple32(xp->Ze_cp.ze_cp_gid) &
0xFFFFFFFFUL;
f->f_st.st_nlink = ple32(xp->Ze_cp.ze_cp_nlink)&
0xFFFFFFFFUL;
f->f_st.st_rdev = ple32(xp->Ze_cp.ze_cp_rdev);
f->f_rmajor = major(f->f_st.st_rdev);
f->f_rminor = minor(f->f_st.st_rdev);
f->f_st.st_mtime = ple32(xp->Ze_cp.ze_cp_mtime);
f->f_st.st_atime = ple32(xp->Ze_cp.ze_cp_atime);
break;
}
xp = (union zextra *)&((char *)xp)[size];
len -= size;
}
free(x);
}
return len;
}
/*
* Write the central directory and the end of a zip file.
*/
static void
ziptrailer(void)
{
struct zipstuff *zs;
struct zipcentral zc;
struct zipend ze;
long long cpstart, cpend, entries = 0;
size_t sz;
cpstart = nwritten;
for (zs = zipbulk; zs; zs = zs->zs_next) {
entries++;
memset(&zc, 0, SIZEOF_zipcentral);
memcpy(zc.zc_signature, mag_zipctr, 4);
zc.zc_versionmade[0] = 20;
zc.zc_versionextr[0] = zs->zs_cmethod == 8 ? 20 : 10;
mkdostime(zs->zs_mtime, zc.zc_modtime, zc.zc_moddate);
le32p(zs->zs_crc32, zc.zc_crc32);
le16p(zs->zs_cmethod, zc.zc_cmethod);
le16p(zs->zs_gflag, zc.zc_gflag);
/*
* We flag files as created on PC-DOS / FAT filesystem
* and thus set PC-DOS attributes here.
*/
if ((zs->zs_mode&0222) == 0)
zc.zc_external[0] |= 0x01; /* readonly attribute */
if ((zs->zs_mode&S_IFMT) == S_IFDIR)
zc.zc_external[0] |= 0x10; /* directory attr. */
sz = strlen(zs->zs_name);
le16p(sz, zc.zc_namelen);
if (zs->zs_size >= 0xffffffff || zs->zs_csize >= 0xffffffff ||
zs->zs_relative >= 0xffffffff) {
struct zextra_64 zf;
memset(&zf, 0, SIZEOF_zextra_64);
le16p(mag_zip64f, zf.ze_64_tag);
le16p(SIZEOF_zextra_64 - 4, zf.ze_64_tsize);
if ((zs->zs_mode&S_IFMT) == S_IFREG ||
(zs->zs_mode&S_IFMT) == S_IFLNK) {
le32p(0xffffffff, zc.zc_csize);
le32p(0xffffffff, zc.zc_nsize);
le64p(zs->zs_csize, zf.ze_64_csize);
le64p(zs->zs_size, zf.ze_64_nsize);
}
le64p(zs->zs_relative, zf.ze_64_reloff);
le32p(0xffffffff, zc.zc_relative);
le16p(SIZEOF_zextra_64, zc.zc_extralen);
bwrite((char *)&zc, SIZEOF_zipcentral);
bwrite(zs->zs_name, sz);
bwrite((char *)&zf, SIZEOF_zextra_64);
} else {
if ((zs->zs_mode&S_IFMT) == S_IFREG ||
(zs->zs_mode&S_IFMT) == S_IFLNK) {
le32p(zs->zs_csize, zc.zc_csize);
le32p(zs->zs_size, zc.zc_nsize);
}
le32p(zs->zs_relative, zc.zc_relative);
bwrite((char *)&zc, SIZEOF_zipcentral);
bwrite(zs->zs_name, sz);
}
}
cpend = nwritten;
memset(&ze, 0, SIZEOF_zipend);
memcpy(ze.ze_signature, mag_zipend, 4);
if (cpend >= 0xffffffff || entries >= 0xffff) {
struct zip64end z6;
struct zip64loc z4;
memset(&z6, 0, SIZEOF_zip64end);
memcpy(z6.z6_signature, mag_zip64e, 4);
le64p(SIZEOF_zip64end - 12, z6.z6_recsize);
z6.z6_versionmade[0] = 20;
z6.z6_versionextr[0] = 20;
le64p(entries, z6.z6_thisentries);
le64p(entries, z6.z6_allentries);
le64p(cpend - cpstart, z6.z6_dirsize);
le64p(cpstart, z6.z6_startsize);
bwrite((char *)&z6, SIZEOF_zip64end);
memset(&z4, 0, SIZEOF_zip64loc);
memcpy(z4.z4_signature, mag_zip64l, 4);
le64p(cpend, z4.z4_reloff);
le32p(1, z4.z4_alldiskn);
bwrite((char *)&z4, SIZEOF_zip64loc);
le16p(0xffff, ze.ze_thisentries);
le16p(0xffff, ze.ze_allentries);
le32p(0xffffffff, ze.ze_dirsize);
le32p(0xffffffff, ze.ze_startsize);
} else {
le16p(entries, ze.ze_thisentries);
le16p(entries, ze.ze_allentries);
le32p(cpend - cpstart, ze.ze_dirsize);
le32p(cpstart, ze.ze_startsize);
}
bwrite((char *)&ze, SIZEOF_zipend);
}
/*
* Store the data later needed for the central directory.
*/
static void
zipdefer(const char *fn, struct stat *st, long long relative,
uint32_t crc, long long csize, const struct zip_header *zh)
{
struct zipstuff *zp;
zp = scalloc(1, sizeof *zp);
zp->zs_name = sstrdup(fn);
zp->zs_size = st->st_size;
zp->zs_mtime = st->st_mtime;
zp->zs_mode = st->st_mode;
zp->zs_relative = relative;
zp->zs_cmethod = ple16(zh->z_cmethod);
zp->zs_gflag = ple16(zh->z_gflag);
zp->zs_csize = csize;
zp->zs_crc32 = crc;
zp->zs_next = zipbulk;
zipbulk = zp;
}
#define ziptrlevel() ( \
zipclevel == 01 ? 9 : /* maximum */ \
zipclevel == 02 ? 3 : /* fast */ \
zipclevel == 03 ? 1 : /* super fast */\
/*zipclevel==00*/ 6 /* normal */ \
)
/*
* Write (and compress) data for a regular file to a zip archive.
*/
static int
zipwrite(int fd, const char *fn, struct stat *st, union bincpio *bp, size_t sz,
uint32_t dev, uint32_t ino, uint32_t *crc, long long *csize)
{
#if USE_ZLIB
struct z_stream_s z;
int i;
size_t osize = 0;
#endif /* USE_ZLIB */
char *ibuf, *obuf = 0;
if (st->st_size > 196608 || (ibuf = malloc(st->st_size)) == 0) {
#if USE_ZLIB
if (zipclevel < 04)
return zipwdesc(fd, fn, st, bp, sz, dev, ino,
crc, csize);
#endif /* USE_ZLIB */
return zipwtemp(fd, fn, st, bp, sz, dev, ino, crc, csize);
}
*csize = 0;
if (read(fd, ibuf, st->st_size) != st->st_size) {
free(ibuf);
emsg(3, "Cannot read \"%s\"", fn);
close(fd);
return -1;
}
*crc = zipcrc(0, (unsigned char *)ibuf, st->st_size);
#if USE_BZLIB
if (zipclevel == 07) {
unsigned int sb;
if ((obuf = malloc(sb = st->st_size)) == 0)
goto store;
if (BZ2_bzBuffToBuffCompress(obuf, &sb, ibuf, st->st_size,
9, 0, 0) != BZ_OK)
goto store;
*csize = sb;
bp->Zdr.z_cmethod[0] = C_BZIP2;
bp->Zdr.z_version[0] = 0x2e;
goto out;
}
#endif /* USE_BZLIB */
if (zipclevel > 03)
goto store;
#if USE_ZLIB
memset(&z, 0, sizeof z);
if (deflateInit2(&z, ziptrlevel(), Z_DEFLATED, -15,
8, Z_DEFAULT_STRATEGY) < 0)
goto store;
z.next_in = (unsigned char *)ibuf;
z.avail_in = z.total_in = st->st_size;
do {
if (z.avail_out == 0) {
if ((obuf = realloc(obuf, osize += 4096)) == 0) {
deflateEnd(&z);
goto store;
}
z.next_out = (unsigned char *)&obuf[*csize];
z.avail_out = osize - *csize;
}
if ((i = deflate(&z, z.avail_in ? Z_NO_FLUSH : Z_FINISH)) < 0) {
deflateEnd(&z);
goto store;
}
*csize = osize - z.avail_out;
} while (z.avail_in || i != Z_STREAM_END);
deflateEnd(&z);
if (*csize < st->st_size) {
bp->Zdr.z_cmethod[0] = C_DEFLATED;
bp->Zdr.z_gflag[0] |= zipclevel << 1;
bp->Zdr.z_version[0] = 20;
} else
#endif /* USE_ZLIB */
store: *csize = st->st_size;
#if USE_BZLIB
out:
#endif /* USE_BZLIB */
le32p(*crc, bp->Zdr.z_crc32);
le32p(*csize, bp->Zdr.z_csize);
bwrite((char *)bp, SIZEOF_zip_header);
bwrite(fn, sz);
zipwxtra(fn, st, dev, ino);
switch (bp->Zdr.z_cmethod[0]) {
case C_DEFLATED:
case C_BZIP2:
bwrite(obuf, *csize);
break;
default:
bwrite(ibuf, *csize);
}
free(ibuf);
free(obuf);
close(fd);
return 0;
}
/*
* Write and compress data to a zip archive for a file that is to large
* too be kept in memory. If there is an error with the temporary file
* (e. g. no space left on device), the file is stored in uncompressed
* form.
*/
static int
zipwtemp(int fd, const char *fn, struct stat *st, union bincpio *bp, size_t sz,
uint32_t dev, uint32_t ino, uint32_t *crc, long long *csize)
{
static int tf = -1;
static char tlate[] = "/var/tmp/cpioXXXXXX";
char ibuf[32768];
#if USE_ZLIB || USE_BZLIB
char obuf[32768];
#endif /* USE_ZLIB || USE_BZLIB */
struct zextra_64 zf;
struct zextra_64 *zfp = 0;
long long size = st->st_size;
const char *sname;
int cuse, sf;
ssize_t rd;
*csize = 0;
*crc = 0;
#if USE_ZLIB || USE_BZLIB
if (tf < 0) {
if ((tf = mkstemp(tlate)) >= 0)
unlink(tlate);
} else if (lseek(tf, 0, SEEK_SET) != 0) {
close(tf);
tf = -1;
}
#endif /* USE_ZLIB || USE_BZLIB */
#if USE_ZLIB
if (zipclevel < 04) {
struct z_stream_s z;
memset(&z, 0, sizeof z);
if ((cuse = deflateInit2(&z, ziptrlevel(), Z_DEFLATED,
-15, 8, Z_DEFAULT_STRATEGY)) < 0)
goto store;
do {
if (z.avail_in == 0 && size > 0) {
if ((rd = read(fd, ibuf, sizeof ibuf)) <= 0) {
emsg(3, "Cannot read \"%s\"", fn);
close(fd);
ftruncate(tf, 0);
return -1;
}
z.next_in = (unsigned char *)ibuf;
z.avail_in = z.total_in = rd;
size -= rd;
*crc = zipcrc(*crc, (unsigned char *)ibuf, rd);
}
if (z.next_out == NULL || (char *)z.next_out > obuf) {
if (z.next_out && tf >= 0) {
if (write(tf, obuf,
(char *)z.next_out-obuf) !=
(char *)z.next_out-obuf) {
close(tf);
tf = -1;
}
*csize += (char *)z.next_out - obuf;
}
z.next_out = (unsigned char *)obuf;
z.avail_out = sizeof obuf;
}
if (cuse >= 0 && cuse != Z_STREAM_END)
cuse = deflate(&z,
z.avail_in?Z_NO_FLUSH:Z_FINISH);
else
z.avail_in = 0;
} while (size>0 || (char *)z.next_out>obuf ||
cuse>=0 && cuse!=Z_STREAM_END);
deflateEnd(&z);
goto out;
}
#endif /* USE_ZLIB */
#if USE_BZLIB
if (zipclevel == 07) {
bz_stream bs;
int ok, on;
memset(&bs, sizeof bs, 0);
if ((ok = BZ2_bzCompressInit(&bs, 9, 0, 0)) != BZ_OK)
goto store;
cuse = 1;
do {
if (bs.avail_in == 0 && size > 0) {
if ((rd = read(fd, ibuf, sizeof ibuf)) <= 0) {
emsg(3, "Cannot read \"%s\"", fn);
close(fd);
ftruncate(tf, 0);
return -1;
}
bs.next_in = ibuf;
bs.avail_in = rd;
size -= rd;
*crc = zipcrc(*crc, (unsigned char *)ibuf, rd);
}
if (bs.next_out == NULL || bs.next_out > obuf) {
if (bs.next_out && tf >= 0) {
on = bs.next_out - obuf;
if (write(tf, obuf, on) != on) {
close(tf);
tf = -1;
}
*csize += on;
}
bs.next_out = obuf;
bs.avail_out = sizeof obuf;
}
if (ok != BZ_STREAM_END) {
switch (ok = BZ2_bzCompress(&bs,
bs.avail_in?BZ_RUN:BZ_FINISH)) {
case BZ_RUN_OK:
case BZ_FINISH_OK:
case BZ_STREAM_END:
break;
default:
msg(3, 1, "Compression error %d "
"on \"%s\"\n", ok, fn);
close(fd);
return -1;
}
}
} while (size > 0 || bs.next_out > obuf || ok != BZ_STREAM_END);
BZ2_bzCompressEnd(&bs);
goto out;
}
#endif /* USE_BZLIB */
store: cuse = -1;
while (size > 0) {
if ((rd = read(fd, ibuf, sizeof ibuf)) <= 0) {
emsg(3, "Cannot read \"%s\"", fn);
close(fd);
return -1;
}
size -= rd;
*crc = zipcrc(*crc, (unsigned char *)ibuf, rd);
}
out: if (tf >= 0 && cuse >= 0 && *csize < st->st_size) {
if (zipclevel == 07) {
bp->Zdr.z_cmethod[0] = C_BZIP2;
bp->Zdr.z_version[0] = 0x2e;
} else {
bp->Zdr.z_cmethod[0] = C_DEFLATED;
bp->Zdr.z_gflag[0] |= zipclevel << 1;
bp->Zdr.z_version[0] = 20;
}
sf = tf;
sname = tlate;
} else {
*csize = st->st_size;
sf = fd;
sname = fn;
}
if ((lseek(sf, 0, SEEK_SET)) != 0) {
emsg(3, "Cannot rewind \"%s\"", sname);
errcnt++;
close(fd);
ftruncate(tf, 0);
return -1;
}
le32p(*crc, bp->Zdr.z_crc32);
if (st->st_size >= 0xffffffff || *csize >= 0xffffffff) {
int n;
zfp = &zf;
memset(&zf, 0, SIZEOF_zextra_64);
le16p(mag_zip64f, zf.ze_64_tag);
le16p(SIZEOF_zextra_64 - 4, zf.ze_64_tsize);
le64p(st->st_size, zf.ze_64_nsize);
le64p(*csize, zf.ze_64_csize);
le32p(0xffffffff, bp->Zdr.z_csize);
le32p(0xffffffff, bp->Zdr.z_nsize);
n = (ple16(bp->Zdr.z_extralen)&0177777) + SIZEOF_zextra_64;
le16p(n, bp->Zdr.z_extralen);
} else
le32p(*csize, bp->Zdr.z_csize);
bwrite((char *)bp, SIZEOF_zip_header);
bwrite(fn, sz);
if (zfp)
bwrite((char *)zfp, SIZEOF_zextra_64);
zipwxtra(fn, st, dev, ino);
size = *csize;
while (size) {
if ((rd=read(sf, ibuf, size>sizeof ibuf?sizeof ibuf:size)) <= 0)
msg(3, 1, "Cannot read \"%s\"\n", sname);
bwrite(ibuf, rd);
size -= rd;
}
ftruncate(tf, 0);
close(fd);
return 0;
}
#if USE_ZLIB
/*
* Write a zip archive entry using the data descriptor structure.
*/
static int
zipwdesc(int fd, const char *fn, struct stat *st, union bincpio *bp, size_t sz,
uint32_t dev, uint32_t ino, uint32_t *crc, long long *csize)
{
struct zextra_64 zf;
struct zextra_64 *zfp = 0;
char ibuf[32768], obuf[32768];
long long size = st->st_size;
ssize_t rd;
struct z_stream_s z;
int cuse;
*csize = 0;
*crc = 0;
memset(&z, 0, sizeof z);
if ((cuse = deflateInit2(&z, ziptrlevel(), Z_DEFLATED,
-15, 8, Z_DEFAULT_STRATEGY)) < 0)
return zipwtemp(fd, fn, st, bp, sz, dev, ino, crc, csize);
bp->Zdr.z_cmethod[0] = C_DEFLATED;
bp->Zdr.z_gflag[0] |= zipclevel << 1 | FG_DESC;
bp->Zdr.z_version[0] = 20;
/*
* RFC 1951 states that deflate compression needs 5 bytes additional
* space per 32k block in the worst case. Thus a compressed size
* greater than 4G-1 can be reached if at least 131052 blocks are
* used.
*/
if (st->st_size >= 131052LL*32768) {
int n;
zfp = &zf;
memset(&zf, 0, SIZEOF_zextra_64);
le16p(mag_zip64f, zf.ze_64_tag);
le16p(SIZEOF_zextra_64 - 4, zf.ze_64_tsize);
le32p(0xffffffff, bp->Zdr.z_csize);
le32p(0xffffffff, bp->Zdr.z_nsize);
n = (ple16(bp->Zdr.z_extralen)&0177777) + SIZEOF_zextra_64;
le16p(n, bp->Zdr.z_extralen);
}
bwrite((char *)bp, SIZEOF_zip_header);
bwrite(fn, sz);
if (zfp)
bwrite((char *)zfp, SIZEOF_zextra_64);
zipwxtra(fn, st, dev, ino);
do {
if (z.avail_in == 0 && size > 0) {
if ((rd = read(fd, ibuf, sizeof ibuf)) <= 0) {
emsg(3, "Cannot read \"%s\"", fn);
st->st_size -= size;
size = 0; /* can't simply stop here */
rd = 0; /* no data */
}
z.next_in = (unsigned char *)ibuf;
z.avail_in = z.total_in = rd;
size -= rd;
*crc = zipcrc(*crc, (unsigned char *)ibuf, rd);
}
if (z.next_out == NULL || (char *)z.next_out > obuf) {
if (z.next_out) {
bwrite(obuf, (char *)z.next_out - obuf);
*csize += (char *)z.next_out - obuf;
}
z.next_out = (unsigned char *)obuf;
z.avail_out = sizeof obuf;
}
if (cuse >= 0 && cuse != Z_STREAM_END)
cuse = deflate(&z, z.avail_in?Z_NO_FLUSH:Z_FINISH);
else
z.avail_in = 0;
} while (size > 0 || (char *)z.next_out > obuf ||
cuse >= 0 && cuse != Z_STREAM_END);
deflateEnd(&z);
if (zfp) {
struct zipddesc64 zd64;
memcpy(zd64.zd_signature, mag_zipdds, sizeof mag_zipdds);
le32p(*crc, zd64.zd_crc32);
le64p(st->st_size, zd64.zd_nsize);
le64p(*csize, zd64.zd_csize);
bwrite((char *)&zd64, SIZEOF_zipddesc64);
} else {
struct zipddesc zd;
memcpy(zd.zd_signature, mag_zipdds, sizeof mag_zipdds);
le32p(*crc, zd.zd_crc32);
le32p(st->st_size, zd.zd_nsize);
le32p(*csize, zd.zd_csize);
bwrite((char *)&zd, SIZEOF_zipddesc);
}
close(fd);
return 0;
}
#endif /* USE_ZLIB */
/*
* Write the extra fields for a file to a zip archive (currently
* our own field type). Note that the z_extralen field in the file
* header must correspond to the size of the data written here.
*/
static int
zipwxtra(const char *fn, struct stat *st, uint32_t dev, uint32_t ino)
{
struct zextra_cp z;
memset(&z, 0, SIZEOF_zextra_cp);
le16p(mag_zipcpio, z.ze_cp_tag);
le16p(SIZEOF_zextra_cp - 4, z.ze_cp_tsize);
le32p(dev, z.ze_cp_mode);
le32p(ino, z.ze_cp_ino);
le32p(st->st_mode&(S_IFMT|07777), z.ze_cp_mode);
le32p(st->st_uid, z.ze_cp_uid);
le32p(st->st_gid, z.ze_cp_gid);
le32p(st->st_nlink, z.ze_cp_nlink);
le32p(st->st_rdev, z.ze_cp_rdev);
le32p(st->st_mtime, z.ze_cp_mtime);
le32p(st->st_atime, z.ze_cp_atime);
bwrite((char *)&z, SIZEOF_zextra_cp);
return SIZEOF_zextra_cp;
}
static void
zipinfo(struct file *f)
{
const char *cp;
char b[5];
int i;
printf(" %7llu", f->f_csize);
if (f->f_dsize) {
i = f->f_csize*100 / f->f_dsize;
i += f->f_csize*200 / f->f_dsize & 1;
i = 100 - i;
} else
i = 0;
printf(" %3d%%", i);
switch (f->f_cmethod) {
case C_STORED:
cp = "stor";
break;
case C_SHRUNK:
cp = "shrk";
break;
case C_REDUCED1:
cp = "re:1";
break;
case C_REDUCED2:
cp = "re:2";
break;
case C_REDUCED3:
cp = "re:3";
break;
case C_REDUCED4:
cp = "re:4";
break;
case C_IMPLODED:
b[0] = 'i';
b[1] = f->f_gflag & FG_BIT1 ? '8' : '4';
b[2] = ':';
b[3] = f->f_gflag & FG_BIT2 ? '3' : '2';
b[4] = '\0';
cp = b;
break;
case C_TOKENIZED:
cp = "tokn";
break;
case C_DEFLATED:
b[0] = 'd', b[1] = 'e', b[2] = 'f', b[4] = '\0';
if (f->f_gflag & FG_BIT2)
b[3] = f->f_gflag & FG_BIT1 ? 'S' : 'F';
else
b[3] = f->f_gflag & FG_BIT1 ? 'X' : 'N';
cp = b;
break;
case C_ENHDEFLD:
cp = "edef";
break;
case C_DCLIMPLODED:
cp = "dcli";
break;
case C_BZIP2:
cp = "bz2 ";
break;
default:
snprintf(b, sizeof b, "%4.4X", f->f_cmethod);
cp = b;
}
printf(" %s", cp);
}
#if USE_BZLIB
int
zipunbz2(struct file *f, const char *tgt, int tfd, int doswap, uint32_t *crc)
{
bz_stream bs;
long long isize = f->f_csize;
char ibuf[4096], obuf[8192];
int in, on, val = 0, ok;
memset(&bs, 0, sizeof bs);
if ((ok = BZ2_bzDecompressInit(&bs, 0, 0)) != BZ_OK) {
msg(3, 0, "bzip2 initialization error %d on \"%s\"\n",
ok, f->f_name);
errcnt++;
return skipfile(f);
}
while (isize > 0 || ok == BZ_OK) {
if (bs.avail_in == 0 && isize > 0) {
in = sizeof ibuf < isize ? sizeof ibuf : isize;
isize -= in;
if (bread(ibuf, in) != in)
unexeoa();
if (doswap)
swap(ibuf, in, bflag || sflag, bflag || Sflag);
bs.next_in = ibuf;
bs.avail_in = in;
}
if (ok == BZ_OK) {
bs.next_out = obuf;
bs.avail_out = sizeof obuf;
switch (ok = BZ2_bzDecompress(&bs)) {
case BZ_OK:
case BZ_STREAM_END:
on = sizeof obuf - bs.avail_out;
if (tfd >= 0 && write(tfd, obuf, on) != on) {
emsg(3, "Cannot write \"%s\"", tgt);
tfd = -1;
val = 1;
}
*crc = zipcrc(*crc, (unsigned char *)obuf, on);
break;
default:
msg(3, 0, "compression error %d on \"%s\"\n",
ok, f->f_name);
errcnt++;
val = 1;
}
}
}
BZ2_bzDecompressEnd(&bs);
return val;
}
#endif /* USE_BZLIB */
struct blasthow {
struct file *bh_f;
const char *bh_tgt;
long long bh_isize;
uint32_t *bh_crc;
int bh_tfd;
int bh_doswap;
int bh_val;
};
static unsigned
blastin(void *how, unsigned char **buf)
{
const int chunk = 16384;
static unsigned char *hold;
struct blasthow *bp = how;
unsigned sz;
if (bp->bh_isize <= 0)
return 0;
if (hold == NULL)
hold = smalloc(chunk);
sz = bp->bh_isize > chunk ? chunk : bp->bh_isize;
bp->bh_isize -= sz;
if (bread((char *)hold, sz) != sz)
unexeoa();
if (bp->bh_doswap)
swap((char *)hold, sz, bflag || sflag, bflag || Sflag);
*buf = hold;
return sz;
}
static int
blastout(void *how, unsigned char *buf, unsigned len)
{
struct blasthow *bp = how;
if (bp->bh_tfd >= 0 && write(bp->bh_tfd, buf, len) != len) {
emsg(3, "Cannot write \"%s\"", bp->bh_tgt);
bp->bh_tfd = -1;
bp->bh_val = 1;
}
*bp->bh_crc = zipcrc(*bp->bh_crc, buf, len);
return 0;
}
int
zipblast(struct file *f, const char *tgt, int tfd, int doswap, uint32_t *crc)
{
struct blasthow bh;
int n;
bh.bh_f = f;
bh.bh_tgt = tgt;
bh.bh_isize = f->f_csize;
bh.bh_crc = crc;
bh.bh_tfd = tfd;
bh.bh_doswap = doswap;
bh.bh_val = 0;
switch (n = blast(blastin, &bh, blastout, &bh)) {
case 0:
break;
default:
msg(3, 0, "compression error %d on \"%s\"\n", n, f->f_name);
errcnt++;
bh.bh_val = 1;
}
while (bh.bh_isize) {
char buf[4096];
unsigned n;
n = bh.bh_isize > sizeof buf ? sizeof buf : bh.bh_isize;
if (bread(buf, n) != n)
unexeoa();
bh.bh_isize -= n;
}
return bh.bh_val;
}
/*
* The SGI -K format was introduced with SGI's IRIX 5.X. It is essentially
* a slightly extended binary format. The known additions are:
*
* - If the major or minor st_rdev device number exceeds the limit of
* 255 imposed by the 16-bit c_rdev field, this field is set to 0xFFFF
* and st_rdev is stored in the c_filesize 32-bit field. The first 14
* bits of this field compose the major device number, the minor is
* stored in the remaining 18 bits. This enables implementations to
* read the modified format without special support if they ignore
* the size of device files; otherwise they will try to read a lot
* of archive data and fail.
*
* - If the file is larger than 2 GB - 1 byte, two nearly identical
* archive headers are stored for it. The only difference is in
* the c_filesize field:
*
* [first header: file size X times 2 GB]
* [first data part: X times 2 GB]
* [second header: file size modulo 2 GB]
* [second data part: rest of data]
*
* The first header can be recognized by a negative c_filesize. A
* value of 0xFFFFFFFF means that 2 GB follow, 0xFFFFFFFE -> 4 GB
* 0xFFFFFFFD -> 6 GB, 0xFFFFFFFC -> 8 GB, and so forth. The second
* is a standard binary cpio header, although the following data is
* meant to be appended to the preceding file.
*
* It is important to note that padding follows the number in
* c_filesize, not the amount of data written; thus all data parts
* with odd c_filesize fields (0xFFFFFFFF = 2+ GB, 0xFFFFFFFD = 6+ GB
* etc.) cause the following archive entries to be aligned on an odd
* offset. This seems to be an implementation artifact but has to be
* followed for compatibility.
*
* This extension seems a bit weird since no known cpio implementation
* is able to read these archive entries without special support. Thus
* a more straightforward extension (such as storing the size just past
* the file name) would well have had the same effect. Nevertheless,
* the cpio -K format is useful, so it is implemented here.
*
* --Note that IRIX 6.X tar also has a -K option. This option extends
* the tar format in essentially the same way as the second extension
* to cpio described above. Unfortunately, the result is definitively
* broken. Contrasting to the binary cpio format, the standard POSIX
* tar format is well able to hold files of size 0xFFFFFFFF and below
* in a regular manner. Thus, a tar -K archive entry is _exactly_ the
* same as two regular POSIX tar entries for the same file. And this
* situation even occurs on a regular basis with tar -r! For this
* reason, we do not implement the IRIX tar -K format and will probably
* never do so unless it is changed (the tar format really has a lot
* of options to indicate extensions that might be used for this).
*
* Many thanks to Sven Mascheck who made archiving tests on the IRIX
* machine.
*/
/*
* This function reads the second header of a SGI -K format archive.
*/
static void
readK2hdr(struct file *f)
{
struct file n;
union bincpio bc;
n.f_name = n.f_lnam = NULL;
n.f_nsiz = n.f_lsiz = 0;
readhdr(&n, &bc);
f->f_Krest = n.f_st.st_size;
f->f_dsize = f->f_st.st_size = n.f_st.st_size + f->f_Kbase;
f->f_Kbase = 0;
free(n.f_name);
free(n.f_lnam);
}
/*
* Read the data of a GNU filename extra header.
*/
static int
readgnuname(char **np, size_t *sp, long length)
{
if (length > SANELIMIT)
return -1;
if (*sp == 0 || *sp <= length)
*np = srealloc(*np, *sp = length+1);
bread(*np, length);
(*np)[length] = '\0';
skippad(length, 512);
return 0;
}
/*
* Write a GNU filename extra header and its data.
*/
static void
writegnuname(const char *fn, long length, int flag)
{
union bincpio bc;
memset(bc.data, 0, 512);
strcpy(bc.Tdr.t_name, "././@LongLink");
sprintf(bc.Tdr.t_mode, "%7.7o", 0);
sprintf(bc.Tdr.t_uid, "%7.7o", 0);
sprintf(bc.Tdr.t_gid, "%7.7o", 0);
sprintf(bc.Tdr.t_size, "%11.11lo", length);
sprintf(bc.Tdr.t_mtime, "%11.11lo", 0L);
bc.Tdr.t_linkflag = flag;
memcpy(bc.Tdr.t_magic, mag_gnutar, 8);
strcpy(bc.Tdr.t_uname, "root");
strcpy(bc.Tdr.t_gname, "root");
tchksum(&bc);
bwrite(bc.data, 512);
bwrite(fn, length);
length %= 512;
memset(bc.data, 0, 512 - length);
bwrite(bc.data, 512 - length);
}
/*
* POSIX.1-2001 pax format support.
*/
static void
tgetpax(struct tar_header *tp, struct file *f)
{
char *keyword, *value;
char *block, *bp;
long long n;
enum paxrec pr;
n = rdoct(tp->t_size, 12);
bp = block = smalloc(n+1);
bread(block, n);
skippad(n, 512);
block[n] = '\0';
while (bp < &block[n]) {
int c;
pr = tgetrec(&bp, &keyword, &value);
switch (pr) {
case PR_ATIME:
f->f_st.st_atime = strtoll(value, NULL, 10);
break;
case PR_GID:
f->f_st.st_gid = strtoll(value, NULL, 10);
break;
case PR_LINKPATH:
c = strlen(value);
if (f->f_lnam == NULL || f->f_lsiz < c+1) {
f->f_lsiz = c+1;
f->f_lnam = srealloc(f->f_lnam, c+1);
}
strcpy(f->f_lnam, value);
break;
case PR_MTIME:
f->f_st.st_mtime = strtoll(value, NULL, 10);
break;
case PR_PATH:
c = strlen(value);
if (f->f_name == NULL || f->f_nsiz < c+1) {
f->f_nsiz = c+1;
f->f_name = srealloc(f->f_name, c+1);
}
strcpy(f->f_name, value);
break;
case PR_SIZE:
f->f_st.st_size = strtoll(value, NULL, 10);
break;
case PR_UID:
f->f_st.st_uid = strtoll(value, NULL, 10);
break;
case PR_SUN_DEVMAJOR:
f->f_rmajor = strtoll(value, NULL, 10);
break;
case PR_SUN_DEVMINOR:
f->f_rminor = strtoll(value, NULL, 10);
break;
}
paxrec |= pr;
}
if (tp->t_linkflag == 'g') {
globrec = paxrec & ~(PR_LINKPATH|PR_PATH|PR_SIZE);
globst = f->f_st;
}
free(block);
}
static enum paxrec
tgetrec(char **bp, char **keyword, char **value)
{
char *x;
long n = 0;
enum paxrec pr;
*keyword = "";
*value = "";
while (**bp && (n = strtol(*bp, &x, 10)) <= 0 && (*x!=' ' || *x!='\t'))
do
(*bp)++;
while (**bp && **bp != '\n');
if (*x == '\0' || **bp == '\0') {
(*bp)++;
return PR_NONE;
}
while (x < &(*bp)[n] && (*x == ' ' || *x == '\t'))
x++;
if (x == &(*bp)[n] || *x == '=')
goto out;
*keyword = x;
while (x < &(*bp)[n] && *x != '=')
x++;
if (x == &(*bp)[n])
goto out;
*x = '\0';
if (&x[1] < &(*bp)[n])
*value = &x[1];
(*bp)[n-1] = '\0';
out: *bp = &(*bp)[n];
if (strcmp(*keyword, "atime") == 0)
pr = PR_ATIME;
else if (strcmp(*keyword, "gid") == 0)
pr = PR_GID;
else if (strcmp(*keyword, "linkpath") == 0)
pr = PR_LINKPATH;
else if (strcmp(*keyword, "mtime") == 0)
pr = PR_MTIME;
else if (strcmp(*keyword, "path") == 0)
pr = PR_PATH;
else if (strcmp(*keyword, "size") == 0)
pr = PR_SIZE;
else if (strcmp(*keyword, "uid") == 0)
pr = PR_UID;
else if (strcmp(*keyword, "SUN.devmajor") == 0)
pr = PR_SUN_DEVMAJOR;
else if (strcmp(*keyword, "SUN.devminor") == 0)
pr = PR_SUN_DEVMINOR;
else
pr = PR_NONE;
return pr;
}
static void
wrpax(const char *longname, const char *linkname, struct stat *sp)
{
union bincpio bc;
char *pdata = NULL;
long psize = 0, pcur = 0;
long long blocks;
memset(bc.data, 0, 512);
if (paxrec & PR_ATIME)
addrec(&pdata, &psize, &pcur, "atime", NULL, sp->st_atime);
if (paxrec & PR_GID)
addrec(&pdata, &psize, &pcur, "gid", NULL, sp->st_gid);
if (paxrec & PR_LINKPATH)
addrec(&pdata, &psize, &pcur, "linkpath", linkname, 0);
if (paxrec & PR_MTIME)
addrec(&pdata, &psize, &pcur, "mtime", NULL, sp->st_mtime);
if (paxrec & PR_PATH)
addrec(&pdata, &psize, &pcur, "path", longname, 0);
if (paxrec & PR_SIZE)
addrec(&pdata, &psize, &pcur, "size", NULL, sp->st_size);
if (paxrec & PR_UID)
addrec(&pdata, &psize, &pcur, "uid", NULL, sp->st_uid);
if (paxrec & PR_SUN_DEVMAJOR)
addrec(&pdata, &psize, &pcur, "SUN.devmajor", NULL,
major(sp->st_rdev));
if (paxrec & PR_SUN_DEVMINOR)
addrec(&pdata, &psize, &pcur, "SUN.devminor", NULL,
minor(sp->st_rdev));
paxnam(&bc.Tdr, longname);
sprintf(bc.Tdr.t_mode, "%7.7o", fmttype==FMT_SUN ? 0444|S_IFREG : 0444);
sprintf(bc.Tdr.t_uid, "%7.7o", 0);
sprintf(bc.Tdr.t_gid, "%7.7o", 0);
sprintf(bc.Tdr.t_size, "%11.11lo", pcur);
sprintf(bc.Tdr.t_mtime, "%11.11o", 0);
strcpy(bc.Tdr.t_magic, "ustar");
bc.Tdr.t_version[0] = bc.Tdr.t_version[1] = '0';
strcpy(bc.Tdr.t_uname, "root");
strcpy(bc.Tdr.t_gname, "root");
bc.Tdr.t_linkflag = fmttype==FMT_SUN ? 'X' : 'x';
tchksum(&bc);
bwrite(bc.data, 512);
memset(&pdata[pcur], 0, psize - pcur);
blocks = (pcur + (512-1)) / 512;
bwrite(pdata, blocks * 512);
free(pdata);
}
static void
addrec(char **pdata, long *psize, long *pcur,
const char *keyword, const char *sval, long long lval)
{
char dval[25], xval[25];
long od, d, r;
if (sval == 0) {
sprintf(xval, "%lld", lval);
sval = xval;
}
r = strlen(keyword) + strlen(sval) + 3;
d = 0;
do {
od = d;
d = sprintf(dval, "%ld", od + r);
} while (d != od);
*psize += d + r + 1 + 512;
*pdata = srealloc(*pdata, *psize);
sprintf(&(*pdata)[*pcur], "%s %s=%s\n", dval, keyword, sval);
*pcur += d + r;
}
static void
paxnam(struct tar_header *hp, const char *name)
{
char buf[257], *bp;
const char *cp, *np;
int bl = 0;
static int pid;
if (pid == 0)
pid = getpid();
for (np = name; *np; np++);
while (np > name && *np != '/') {
np--;
bl++;
}
if ((np > name || *name == '/') && np-name <= 120)
for (bp = buf, cp = name; cp < np; bp++, cp++)
*bp = *cp;
else {
*buf = '.';
bp = &buf[1];
}
snprintf(bp, sizeof buf - (bp - buf), "/PaxHeaders.%d/%s",
pid, bl < 100 ? np>name?&np[1]:name : sequence());
tmkname(hp, buf);
}
static char *
sequence(void)
{
static char buf[25];
static long long d;
sprintf(buf, "%10.10lld", ++d);
return buf;
}
static int
pax_oneopt(const char *s, int warn)
{
if (strcmp(s, "linkdata") == 0)
pax_oflag |= PO_LINKDATA;
else if (strcmp(s, "times") == 0)
pax_oflag |= PO_TIMES;
else {
if (warn)
msg(2, 0, "Unknown flag \"-o %s\"\n", s);
return -1;
}
return 0;
}
int
pax_options(char *s, int warn)
{
char *o = s, c;
int val = 0, word = 0;
do {
if (word == 0) {
if (isspace(*s&0377))
o = &s[1];
else
word = 1;
}
if (*s == ',' || *s == '\0') {
c = *s;
*s = '\0';
val |= pax_oneopt(o, warn);
*s = c;
o = &s[1];
word = 0;
}
} while (*s++);
return val;
}
/*
* Given a symbolic link "base" and the result of readlink "name", form
* a valid path name for the link target.
*/
static char *
joinpath(const char *base, char *name)
{
const char *bp = NULL, *cp;
char *new, *np;
if (*name == '/')
return name;
for (cp = base; *cp; cp++)
if (*cp == '/')
bp = cp;
if (bp == NULL)
return name;
np = new = smalloc(bp - base + strlen(name) + 2);
for (cp = base; cp < bp; cp++)
*np++ = *cp;
*np++ = '/';
for (cp = name; *cp; cp++)
*np++ = *cp;
*np = '\0';
free(name);
return new;
}
static int
utf8(const char *cp)
{
int c, n;
while (*cp) if ((c = *cp++ & 0377) & 0200) {
if (c == (c & 037 | 0300))
n = 1;
else if (c == (c & 017 | 0340))
n = 2;
else if (c == (c & 07 | 0360))
n = 3;
else if (c == (c & 03 | 0370))
n = 4;
else if (c == (c & 01 | 0374))
n = 5;
else
return 0;
while (n--) {
c = *cp++ & 0377;
if (c != (c & 077 | 0200))
return 0;
}
}
return 1;
}
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