nephele/haiku
nephele
/
haiku
0
0
Fork 0
Code Issues Releases Activity
haiku/src/bin/unzip/process.c

1660 lines
63 KiB
C
Raw Permalink Blame History

/*
Copyright (c) 1990-2001 Info-ZIP. All rights reserved.
See the accompanying file LICENSE, version 2000-Apr-09 or later
(the contents of which are also included in unzip.h) for terms of use.
If, for some reason, all these files are missing, the Info-ZIP license
also may be found at: ftp://ftp.info-zip.org/pub/infozip/license.html
*/
/*---------------------------------------------------------------------------
process.c
This file contains the top-level routines for processing multiple zipfiles.
Contains: process_zipfiles()
free_G_buffers()
do_seekable()
find_ecrec()
uz_end_central()
process_cdir_file_hdr()
get_cdir_ent()
process_local_file_hdr()
ef_scan_for_izux()
getRISCOSexfield()
---------------------------------------------------------------------------*/
#define UNZIP_INTERNAL
#include "unzip.h"
#ifdef WINDLL
# ifdef POCKET_UNZIP
# include "wince/intrface.h"
# else
# include "windll/windll.h"
# endif
#endif
static int do_seekable OF((__GPRO__ int lastchance));
static int find_ecrec OF((__GPRO__ long searchlen));
static ZCONST char Far CannotAllocateBuffers[] =
"error: cannot allocate unzip buffers\n";
#ifdef SFX
static ZCONST char Far CannotFindMyself[] =
"unzipsfx: cannot find myself! [%s]\n";
# ifdef CHEAP_SFX_AUTORUN
static ZCONST char Far AutorunPrompt[] =
"\nAuto-run command: %s\nExecute this command? [y/n] ";
static ZCONST char Far NotAutoRunning[] =
"Not executing auto-run command.";
# endif
#else /* !SFX */
/* process_zipfiles() strings */
# if (defined(IZ_CHECK_TZ) && defined(USE_EF_UT_TIME))
static ZCONST char Far WarnInvalidTZ[] =
"Warning: TZ environment variable not found, cannot use UTC times!!\n";
# endif
static ZCONST char Far FilesProcessOK[] =
"%d archive%s successfully processed.\n";
static ZCONST char Far ArchiveWarning[] =
"%d archive%s had warnings but no fatal errors.\n";
static ZCONST char Far ArchiveFatalError[] =
"%d archive%s had fatal errors.\n";
static ZCONST char Far FileHadNoZipfileDir[] =
"%d file%s had no zipfile directory.\n";
static ZCONST char Far ZipfileWasDir[] = "1 \"zipfile\" was a directory.\n";
static ZCONST char Far ManyZipfilesWereDir[] =
"%d \"zipfiles\" were directories.\n";
static ZCONST char Far NoZipfileFound[] = "No zipfiles found.\n";
/* do_seekable() strings */
# ifdef UNIX
static ZCONST char Far CannotFindZipfileDirMsg[] =
"%s: cannot find zipfile directory in one of %s or\n\
%s%s.zip, and cannot find %s, period.\n";
static ZCONST char Far CannotFindEitherZipfile[] =
"%s: cannot find %s, %s.zip or %s.\n";
# else /* !UNIX */
# ifndef AMIGA
static ZCONST char Far CannotFindWildcardMatch[] =
"%s: cannot find any matches for wildcard specification \"%s\".\n";
# endif /* !AMIGA */
static ZCONST char Far CannotFindZipfileDirMsg[] =
"%s: cannot find zipfile directory in %s,\n\
%sand cannot find %s, period.\n";
static ZCONST char Far CannotFindEitherZipfile[] =
"%s: cannot find either %s or %s.\n";
# endif /* ?UNIX */
extern ZCONST char Far Zipnfo[]; /* in unzip.c */
#ifndef WINDLL
static ZCONST char Far Unzip[] = "unzip";
#else
static ZCONST char Far Unzip[] = "UnZip DLL";
#endif
static ZCONST char Far MaybeExe[] =
"note: %s may be a plain executable, not an archive\n";
static ZCONST char Far CentDirNotInZipMsg[] = "\n\
[%s]:\n\
Zipfile is disk %u of a multi-disk archive, and this is not the disk on\n\
which the central zipfile directory begins (disk %u).\n";
static ZCONST char Far EndCentDirBogus[] =
"\nwarning [%s]: end-of-central-directory record claims this\n\
is disk %u but that the central directory starts on disk %u; this is a\n\
contradiction. Attempting to process anyway.\n";
# ifdef NO_MULTIPART
static ZCONST char Far NoMultiDiskArcSupport[] =
"\nerror [%s]: zipfile is part of multi-disk archive\n\
(sorry, not yet supported).\n";
static ZCONST char Far MaybePakBug[] = "warning [%s]:\
zipfile claims to be 2nd disk of a 2-part archive;\n\
attempting to process anyway. If no further errors occur, this archive\n\
was probably created by PAK v2.51 or earlier. This bug was reported to\n\
NoGate in March 1991 and was supposed to have been fixed by mid-1991; as\n\
of mid-1992 it still hadn't been. (If further errors do occur, archive\n\
was probably created by PKZIP 2.04c or later; UnZip does not yet support\n\
multi-part archives.)\n";
# else
static ZCONST char Far MaybePakBug[] = "warning [%s]:\
zipfile claims to be last disk of a multi-part archive;\n\
attempting to process anyway, assuming all parts have been concatenated\n\
together in order. Expect \"errors\" and warnings...true multi-part support\
\n doesn't exist yet (coming soon).\n";
# endif
static ZCONST char Far ExtraBytesAtStart[] =
"warning [%s]: %ld extra byte%s at beginning or within zipfile\n\
(attempting to process anyway)\n";
#endif /* ?SFX */
static ZCONST char Far MissingBytes[] =
"error [%s]: missing %ld bytes in zipfile\n\
(attempting to process anyway)\n";
static ZCONST char Far NullCentDirOffset[] =
"error [%s]: NULL central directory offset\n\
(attempting to process anyway)\n";
static ZCONST char Far ZipfileEmpty[] = "warning [%s]: zipfile is empty\n";
static ZCONST char Far CentDirStartNotFound[] =
"error [%s]: start of central directory not found;\n\
zipfile corrupt.\n%s";
#ifndef SFX
static ZCONST char Far CentDirTooLong[] =
"error [%s]: reported length of central directory is\n\
%ld bytes too long (Atari STZip zipfile? J.H.Holm ZIPSPLIT 1.1\n\
zipfile?). Compensating...\n";
static ZCONST char Far CentDirEndSigNotFound[] = "\
End-of-central-directory signature not found. Either this file is not\n\
a zipfile, or it constitutes one disk of a multi-part archive. In the\n\
latter case the central directory and zipfile comment will be found on\n\
the last disk(s) of this archive.\n";
#else /* SFX */
static ZCONST char Far CentDirEndSigNotFound[] =
" End-of-central-directory signature not found.\n";
#endif /* ?SFX */
static ZCONST char Far ZipfileCommTrunc1[] =
"\ncaution: zipfile comment truncated\n";
/*******************************/
/* Function process_zipfiles() */
/*******************************/
int process_zipfiles(__G) /* return PK-type error code */
__GDEF
{
#ifndef SFX
char *lastzipfn = (char *)NULL;
int NumWinFiles, NumLoseFiles, NumWarnFiles;
int NumMissDirs, NumMissFiles;
#endif
int error=0, error_in_archive=0;
/*---------------------------------------------------------------------------
Start by allocating buffers and (re)constructing the various PK signature
strings.
---------------------------------------------------------------------------*/
G.inbuf = (uch *)malloc(INBUFSIZ + 4); /* 4 extra for hold[] (below) */
G.outbuf = (uch *)malloc(OUTBUFSIZ + 1); /* 1 extra for string term. */
if ((G.inbuf == (uch *)NULL) || (G.outbuf == (uch *)NULL)) {
Info(slide, 0x401, ((char *)slide,
LoadFarString(CannotAllocateBuffers)));
return(PK_MEM);
}
G.hold = G.inbuf + INBUFSIZ; /* to check for boundary-spanning sigs */
#ifndef VMS /* VMS uses its own buffer scheme for textmode flush(). */
#ifdef SMALL_MEM
G.outbuf2 = G.outbuf+RAWBUFSIZ; /* never changes */
#endif
#endif /* !VMS */
#if 0 /* CRC_32_TAB has been NULLified by CONSTRUCTGLOBALS !!!! */
/* allocate the CRC table only later when we know we have a zipfile */
CRC_32_TAB = NULL;
#endif /* 0 */
/* finish up initialization of magic signature strings */
local_hdr_sig[0] /* = extd_local_sig[0] */ = /* ASCII 'P', */
central_hdr_sig[0] = end_central_sig[0] = 0x50; /* not EBCDIC */
local_hdr_sig[1] /* = extd_local_sig[1] */ = /* ASCII 'K', */
central_hdr_sig[1] = end_central_sig[1] = 0x4B; /* not EBCDIC */
/*---------------------------------------------------------------------------
Make sure timezone info is set correctly; localtime() returns GMT on
some OSes (e.g., Solaris 2.x) if this isn't done first. The ifdefs were
initially copied from dos_to_unix_time() in fileio.c. probably, they are
still too strict; any listed OS that supplies tzset(), regardless of
whether the function does anything, should be removed from the ifdefs.
---------------------------------------------------------------------------*/
#if (defined(WIN32) && defined(USE_EF_UT_TIME))
/* For the Win32 environment, we may have to "prepare" the environment
prior to the tzset() call, to work around tzset() implementation bugs.
*/
iz_w32_prepareTZenv();
#endif
#if (defined(IZ_CHECK_TZ) && defined(USE_EF_UT_TIME))
# ifndef VALID_TIMEZONE
# define VALID_TIMEZONE(tmp) \
(((tmp = getenv("TZ")) != NULL) && (*tmp != '\0'))
# endif
{
char *p;
G.tz_is_valid = VALID_TIMEZONE(p);
# ifndef SFX
if (!G.tz_is_valid) {
Info(slide, 0x401, ((char *)slide, LoadFarString(WarnInvalidTZ)));
error_in_archive = error = PK_WARN;
}
# endif /* !SFX */
}
#endif /* IZ_CHECK_TZ && USE_EF_UT_TIME */
/* For systems that do not have tzset() but supply this function using another
name (_tzset() or something similar), an appropiate "#define tzset ..."
should be added to the system specifc configuration section. */
#if (!defined(T20_VMS) && !defined(MACOS) && !defined(RISCOS) && !defined(QDOS))
#if (!defined(BSD) && !defined(MTS) && !defined(CMS_MVS) && !defined(TANDEM))
tzset();
#endif
#endif
/*---------------------------------------------------------------------------
Initialize the internal flag holding the mode of processing "overwrite
existing file" cases. We do not use the calling interface flags directly
because the overwrite mode may be changed by user interaction while
processing archive files. Such a change should not affect the option
settings as passed through the DLL calling interface.
In case of conflicting options, the 'safer' flag uO.overwrite_none takes
precedence.
---------------------------------------------------------------------------*/
G.overwrite_mode = (uO.overwrite_none ? OVERWRT_NEVER :
(uO.overwrite_all ? OVERWRT_ALWAYS : OVERWRT_QUERY));
/*---------------------------------------------------------------------------
Match (possible) wildcard zipfile specification with existing files and
attempt to process each. If no hits, try again after appending ".zip"
suffix. If still no luck, give up.
---------------------------------------------------------------------------*/
#ifdef SFX
if ((error = do_seekable(__G__ 0)) == PK_NOZIP) {
#ifdef EXE_EXTENSION
int len=strlen(G.argv0);
/* append .exe if appropriate; also .sfx? */
if ( (G.zipfn = (char *)malloc(len+sizeof(EXE_EXTENSION))) !=
(char *)NULL ) {
strcpy(G.zipfn, G.argv0);
strcpy(G.zipfn+len, EXE_EXTENSION);
error = do_seekable(__G__ 0);
free(G.zipfn);
G.zipfn = G.argv0; /* for "cannot find myself" message only */
}
#endif /* EXE_EXTENSION */
#ifdef WIN32
G.zipfn = G.argv0; /* for "cannot find myself" message only */
#endif
}
if (error) {
if (error == IZ_DIR)
error_in_archive = PK_NOZIP;
else
error_in_archive = error;
if (error == PK_NOZIP)
Info(slide, 1, ((char *)slide, LoadFarString(CannotFindMyself),
G.zipfn));
}
#ifdef CHEAP_SFX_AUTORUN
if (G.autorun_command[0] && !uO.qflag) { /* NO autorun without prompt! */
Info(slide, 0x81, ((char *)slide, LoadFarString(AutorunPrompt),
FnFilter1(G.autorun_command)));
if (fgets(G.answerbuf, 9, stdin) != (char *)NULL
&& toupper(*G.answerbuf) == 'Y')
system(G.autorun_command);
else
Info(slide, 1, ((char *)slide, LoadFarString(NotAutoRunning)));
}
#endif /* CHEAP_SFX_AUTORUN */
#else /* !SFX */
NumWinFiles = NumLoseFiles = NumWarnFiles = 0;
NumMissDirs = NumMissFiles = 0;
while ((G.zipfn = do_wild(__G__ G.wildzipfn)) != (char *)NULL) {
Trace((stderr, "do_wild( %s ) returns %s\n", G.wildzipfn, G.zipfn));
lastzipfn = G.zipfn;
/* print a blank line between the output of different zipfiles */
if (!uO.qflag && error != PK_NOZIP && error != IZ_DIR
#ifdef TIMESTAMP
&& (!uO.T_flag || uO.zipinfo_mode)
#endif
&& (NumWinFiles+NumLoseFiles+NumWarnFiles+NumMissFiles) > 0)
(*G.message)((zvoid *)&G, (uch *)"\n", 1L, 0);
if ((error = do_seekable(__G__ 0)) == PK_WARN)
++NumWarnFiles;
else if (error == IZ_DIR)
++NumMissDirs;
else if (error == PK_NOZIP)
++NumMissFiles;
else if (error)
++NumLoseFiles;
else
++NumWinFiles;
Trace((stderr, "do_seekable(0) returns %d\n", error));
if (error != IZ_DIR && error > error_in_archive)
error_in_archive = error;
#ifdef WINDLL
if (error == IZ_CTRLC) {
free_G_buffers(__G);
return error;
}
#endif
} /* end while-loop (wildcard zipfiles) */
if ((NumWinFiles + NumWarnFiles + NumLoseFiles) == 0 &&
(NumMissDirs + NumMissFiles) == 1 && lastzipfn != (char *)NULL)
{
NumMissDirs = NumMissFiles = 0;
if (error_in_archive == PK_NOZIP)
error_in_archive = PK_COOL;
#if (!defined(UNIX) && !defined(AMIGA)) /* filenames with wildcard characters */
if (iswild(G.wildzipfn))
Info(slide, 0x401, ((char *)slide,
LoadFarString(CannotFindWildcardMatch), uO.zipinfo_mode?
LoadFarStringSmall(Zipnfo) : LoadFarStringSmall(Unzip),
G.wildzipfn));
else
#endif
{
char *p = lastzipfn + strlen(lastzipfn);
G.zipfn = lastzipfn;
strcpy(p, ZSUFX);
#if defined(UNIX) || defined(QDOS)
/* only Unix has case-sensitive filesystems */
/* Well FlexOS (sometimes) also has them, but support is per media */
/* and a pig to code for, so treat as case insensitive for now */
/* we do this under QDOS to check for .zip as well as _zip */
if ((error = do_seekable(__G__ 0)) == PK_NOZIP || error == IZ_DIR) {
if (error == IZ_DIR)
++NumMissDirs;
strcpy(p, ALT_ZSUFX);
error = do_seekable(__G__ 1);
}
#else
error = do_seekable(__G__ 1);
#endif
Trace((stderr, "do_seekable(1) returns %d\n", error));
switch (error) {
case PK_WARN:
++NumWarnFiles;
break;
case IZ_DIR:
++NumMissDirs;
error = PK_NOZIP;
break;
case PK_NOZIP:
/* increment again => bug:
"1 file had no zipfile directory." */
/* ++NumMissFiles */ ;
break;
default:
if (error)
++NumLoseFiles;
else
++NumWinFiles;
break;
}
if (error > error_in_archive)
error_in_archive = error;
#ifdef WINDLL
if (error == IZ_CTRLC) {
free_G_buffers(__G);
return error;
}
#endif
}
}
#endif /* ?SFX */
/*---------------------------------------------------------------------------
Print summary of all zipfiles, assuming zipfile spec was a wildcard (no
need for a summary if just one zipfile).
---------------------------------------------------------------------------*/
#ifndef SFX
if (iswild(G.wildzipfn) && uO.qflag < 3
#ifdef TIMESTAMP
&& !(uO.T_flag && uO.qflag && !uO.zipinfo_mode)
#endif
)
{
if ((NumMissFiles + NumLoseFiles + NumWarnFiles > 0 || NumWinFiles != 1)
#ifdef TIMESTAMP
&& !(uO.T_flag && !uO.zipinfo_mode)
#endif
&& !(uO.tflag && uO.qflag > 1))
(*G.message)((zvoid *)&G, (uch *)"\n", 1L, 0x401);
if ((NumWinFiles > 1) || (NumWinFiles == 1 &&
NumMissDirs + NumMissFiles + NumLoseFiles + NumWarnFiles > 0))
Info(slide, 0x401, ((char *)slide, LoadFarString(FilesProcessOK),
NumWinFiles, (NumWinFiles == 1)? " was" : "s were"));
if (NumWarnFiles > 0)
Info(slide, 0x401, ((char *)slide, LoadFarString(ArchiveWarning),
NumWarnFiles, (NumWarnFiles == 1)? "" : "s"));
if (NumLoseFiles > 0)
Info(slide, 0x401, ((char *)slide, LoadFarString(ArchiveFatalError),
NumLoseFiles, (NumLoseFiles == 1)? "" : "s"));
if (NumMissFiles > 0)
Info(slide, 0x401, ((char *)slide,
LoadFarString(FileHadNoZipfileDir), NumMissFiles,
(NumMissFiles == 1)? "" : "s"));
if (NumMissDirs == 1)
Info(slide, 0x401, ((char *)slide, LoadFarString(ZipfileWasDir)));
else if (NumMissDirs > 0)
Info(slide, 0x401, ((char *)slide,
LoadFarString(ManyZipfilesWereDir), NumMissDirs));
if (NumWinFiles + NumLoseFiles + NumWarnFiles == 0)
Info(slide, 0x401, ((char *)slide, LoadFarString(NoZipfileFound)));
}
#endif /* !SFX */
/* free allocated memory */
free_G_buffers(__G);
return error_in_archive;
} /* end function process_zipfiles() */
/*****************************/
/* Function free_G_buffers() */
/*****************************/
void free_G_buffers(__G) /* releases all memory allocated in global vars */
__GDEF
{
inflate_free(__G);
checkdir(__G__ (char *)NULL, END);
#ifdef DYNALLOC_CRCTAB
if (CRC_32_TAB) {
free_crc_table();
CRC_32_TAB = NULL;
}
#endif
if (G.key != (char *)NULL) {
free(G.key);
G.key = (char *)NULL;
}
if (G.extra_field != (uch *)NULL) {
free(G.extra_field);
G.extra_field = (uch *)NULL;
}
#if (!defined(VMS) && !defined(SMALL_MEM))
/* VMS uses its own buffer scheme for textmode flush() */
if (G.outbuf2) {
free(G.outbuf2); /* malloc'd ONLY if unshrink and -a */
G.outbuf2 = (uch *)NULL;
}
#endif
if (G.outbuf)
free(G.outbuf);
if (G.inbuf)
free(G.inbuf);
G.inbuf = G.outbuf = (uch *)NULL;
#ifdef MALLOC_WORK
if (G.area.Slide) {
free(G.area.Slide);
G.area.Slide = (uch *)NULL;
}
#endif
} /* end function free_G_buffers() */
/**************************/
/* Function do_seekable() */
/**************************/
static int do_seekable(__G__ lastchance) /* return PK-type error code */
__GDEF
int lastchance;
{
#ifndef SFX
/* static int no_ecrec = FALSE; SKM: moved to globals.h */
int maybe_exe=FALSE;
int too_weird_to_continue=FALSE;
#ifdef TIMESTAMP
time_t uxstamp;
ulg nmember = 0L;
#endif
#endif
int error=0, error_in_archive;
/*---------------------------------------------------------------------------
Open the zipfile for reading in BINARY mode to prevent CR/LF translation,
which would corrupt the bit streams.
---------------------------------------------------------------------------*/
if (SSTAT(G.zipfn, &G.statbuf) ||
#ifdef THEOS
(error = S_ISLIB(G.statbuf.st_mode)) != 0 ||
#endif
(error = S_ISDIR(G.statbuf.st_mode)) != 0)
{
#ifndef SFX
if (lastchance && (uO.qflag < 3)) {
#if defined(UNIX) || defined(QDOS)
if (G.no_ecrec)
Info(slide, 1, ((char *)slide,
LoadFarString(CannotFindZipfileDirMsg), uO.zipinfo_mode?
LoadFarStringSmall(Zipnfo) : LoadFarStringSmall(Unzip),
G.wildzipfn, uO.zipinfo_mode? " " : "", G.wildzipfn,
G.zipfn));
else
Info(slide, 1, ((char *)slide,
LoadFarString(CannotFindEitherZipfile), uO.zipinfo_mode?
LoadFarStringSmall(Zipnfo) : LoadFarStringSmall(Unzip),
G.wildzipfn, G.wildzipfn, G.zipfn));
#else /* !(UNIX || QDOS) */
if (G.no_ecrec)
Info(slide, 0x401, ((char *)slide,
LoadFarString(CannotFindZipfileDirMsg), uO.zipinfo_mode?
LoadFarStringSmall(Zipnfo) : LoadFarStringSmall(Unzip),
G.wildzipfn, uO.zipinfo_mode? " " : "", G.zipfn));
else
Info(slide, 0x401, ((char *)slide,
LoadFarString(CannotFindEitherZipfile), uO.zipinfo_mode?
LoadFarStringSmall(Zipnfo) : LoadFarStringSmall(Unzip),
G.wildzipfn, G.zipfn));
#endif /* ?(UNIX || QDOS) */
}
#endif /* !SFX */
return error? IZ_DIR : PK_NOZIP;
}
G.ziplen = G.statbuf.st_size;
#ifndef SFX
#if defined(UNIX) || defined(DOS_OS2_W32) || defined(THEOS)
if (G.statbuf.st_mode & S_IEXEC) /* no extension on Unix exes: might */
maybe_exe = TRUE; /* find unzip, not unzip.zip; etc. */
#endif
#endif /* !SFX */
#ifdef VMS
if (check_format(__G)) /* check for variable-length format */
return PK_ERR;
#endif
if (open_input_file(__G)) /* this should never happen, given */
return PK_NOZIP; /* the stat() test above, but... */
/*---------------------------------------------------------------------------
Find and process the end-of-central-directory header. UnZip need only
check last 65557 bytes of zipfile: comment may be up to 65535, end-of-
central-directory record is 18 bytes, and signature itself is 4 bytes;
add some to allow for appended garbage. Since ZipInfo is often used as
a debugging tool, search the whole zipfile if zipinfo_mode is true.
---------------------------------------------------------------------------*/
/* initialize the CRC table pointer (once) */
if (CRC_32_TAB == NULL) {
if ((CRC_32_TAB = get_crc_table()) == NULL) {
CLOSE_INFILE();
return PK_MEM;
}
}
#if (!defined(SFX) || defined(SFX_EXDIR))
/* check out if specified extraction root directory exists */
if (uO.exdir != (char *)NULL && G.extract_flag) {
G.create_dirs = !uO.fflag;
if ((error = checkdir(__G__ uO.exdir, ROOT)) > MPN_INF_SKIP) {
/* out of memory, or file in way */
CLOSE_INFILE();
return (error == MPN_NOMEM ? PK_MEM : PK_ERR);
}
}
#endif /* !SFX || SFX_EXDIR */
G.cur_zipfile_bufstart = 0;
G.inptr = G.inbuf;
#if (!defined(WINDLL) && !defined(SFX))
#ifdef TIMESTAMP
if (!uO.zipinfo_mode && !uO.qflag && !uO.T_flag)
#else
if (!uO.zipinfo_mode && !uO.qflag)
#endif
#ifdef WIN32 /* Win32 console may require codepage conversion for G.zipfn */
Info(slide, 0, ((char *)slide, "Archive: %s\n", FnFilter1(G.zipfn)));
#else
Info(slide, 0, ((char *)slide, "Archive: %s\n", G.zipfn));
#endif
#endif /* !WINDLL && !SFX */
if ((
#ifndef NO_ZIPINFO
uO.zipinfo_mode &&
((error_in_archive = find_ecrec(__G__ G.ziplen)) != 0 ||
(error_in_archive = zi_end_central(__G)) > PK_WARN))
|| (!uO.zipinfo_mode &&
#endif
((error_in_archive = find_ecrec(__G__ MIN(G.ziplen,66000L))) != 0 ||
(error_in_archive = uz_end_central(__G)) > PK_WARN)))
{
CLOSE_INFILE();
#ifdef SFX
++lastchance; /* avoid picky compiler warnings */
return error_in_archive;
#else
if (maybe_exe)
Info(slide, 0x401, ((char *)slide, LoadFarString(MaybeExe),
G.zipfn));
if (lastchance)
return error_in_archive;
else {
G.no_ecrec = TRUE; /* assume we found wrong file: e.g., */
return PK_NOZIP; /* unzip instead of unzip.zip */
}
#endif /* ?SFX */
}
if ((uO.zflag > 0) && !uO.zipinfo_mode) { /* unzip: zflag = comment ONLY */
CLOSE_INFILE();
return error_in_archive;
}
/*---------------------------------------------------------------------------
Test the end-of-central-directory info for incompatibilities (multi-disk
archives) or inconsistencies (missing or extra bytes in zipfile).
---------------------------------------------------------------------------*/
#ifdef NO_MULTIPART
error = !uO.zipinfo_mode && (G.ecrec.number_this_disk == 1) &&
(G.ecrec.num_disk_start_cdir == 1);
#else
error = !uO.zipinfo_mode && (G.ecrec.number_this_disk != 0);
#endif
#ifndef SFX
if (uO.zipinfo_mode &&
G.ecrec.number_this_disk != G.ecrec.num_disk_start_cdir)
{
if (G.ecrec.number_this_disk > G.ecrec.num_disk_start_cdir) {
Info(slide, 0x401, ((char *)slide,
LoadFarString(CentDirNotInZipMsg), G.zipfn,
G.ecrec.number_this_disk, G.ecrec.num_disk_start_cdir));
error_in_archive = PK_FIND;
too_weird_to_continue = TRUE;
} else {
Info(slide, 0x401, ((char *)slide,
LoadFarString(EndCentDirBogus), G.zipfn,
G.ecrec.number_this_disk, G.ecrec.num_disk_start_cdir));
error_in_archive = PK_WARN;
}
#ifdef NO_MULTIPART /* concatenation of multiple parts works in some cases */
} else if (!uO.zipinfo_mode && !error && G.ecrec.number_this_disk != 0) {
Info(slide, 0x401, ((char *)slide, LoadFarString(NoMultiDiskArcSupport),
G.zipfn));
error_in_archive = PK_FIND;
too_weird_to_continue = TRUE;
#endif
}
if (!too_weird_to_continue) { /* (relatively) normal zipfile: go for it */
if (error) {
Info(slide, 0x401, ((char *)slide, LoadFarString(MaybePakBug),
G.zipfn));
error_in_archive = PK_WARN;
}
#endif /* !SFX */
if ((G.extra_bytes = G.real_ecrec_offset-G.expect_ecrec_offset) <
(LONGINT)0)
{
Info(slide, 0x401, ((char *)slide, LoadFarString(MissingBytes),
G.zipfn, (long)(-G.extra_bytes)));
error_in_archive = PK_ERR;
} else if (G.extra_bytes > 0) {
if ((G.ecrec.offset_start_central_directory == 0) &&
(G.ecrec.size_central_directory != 0)) /* zip 1.5 -go bug */
{
Info(slide, 0x401, ((char *)slide,
LoadFarString(NullCentDirOffset), G.zipfn));
G.ecrec.offset_start_central_directory = G.extra_bytes;
G.extra_bytes = 0;
error_in_archive = PK_ERR;
}
#ifndef SFX
else {
Info(slide, 0x401, ((char *)slide,
LoadFarString(ExtraBytesAtStart), G.zipfn,
(long)G.extra_bytes, (G.extra_bytes == 1)? "":"s"));
error_in_archive = PK_WARN;
}
#endif /* !SFX */
}
/*-----------------------------------------------------------------------
Check for empty zipfile and exit now if so.
-----------------------------------------------------------------------*/
if (G.expect_ecrec_offset==0L && G.ecrec.size_central_directory==0) {
if (uO.zipinfo_mode)
Info(slide, 0, ((char *)slide, "%sEmpty zipfile.\n",
uO.lflag>9? "\n " : ""));
else
Info(slide, 0x401, ((char *)slide, LoadFarString(ZipfileEmpty),
G.zipfn));
CLOSE_INFILE();
return (error_in_archive > PK_WARN)? error_in_archive : PK_WARN;
}
/*-----------------------------------------------------------------------
Compensate for missing or extra bytes, and seek to where the start
of central directory should be. If header not found, uncompensate
and try again (necessary for at least some Atari archives created
with STZip, as well as archives created by J.H. Holm's ZIPSPLIT 1.1).
-----------------------------------------------------------------------*/
error = seek_zipf(__G__ G.ecrec.offset_start_central_directory);
if (error == PK_BADERR) {
CLOSE_INFILE();
return PK_BADERR;
}
#ifdef OLD_SEEK_TEST
if (error != PK_OK || readbuf(__G__ G.sig, 4) == 0) {
CLOSE_INFILE();
return PK_ERR; /* file may be locked, or possibly disk error(?) */
}
if (strncmp(G.sig, central_hdr_sig, 4))
#else
if ((error != PK_OK) || (readbuf(__G__ G.sig, 4) == 0) ||
strncmp(G.sig, central_hdr_sig, 4))
#endif
{
#ifndef SFX
long tmp = G.extra_bytes;
#endif
G.extra_bytes = 0;
error = seek_zipf(__G__ G.ecrec.offset_start_central_directory);
if ((error != PK_OK) || (readbuf(__G__ G.sig, 4) == 0) ||
strncmp(G.sig, central_hdr_sig, 4))
{
if (error != PK_BADERR)
Info(slide, 0x401, ((char *)slide,
LoadFarString(CentDirStartNotFound), G.zipfn,
LoadFarStringSmall(ReportMsg)));
CLOSE_INFILE();
return (error != PK_OK ? error : PK_BADERR);
}
#ifndef SFX
Info(slide, 0x401, ((char *)slide, LoadFarString(CentDirTooLong),
G.zipfn, -tmp));
#endif
error_in_archive = PK_ERR;
}
/*-----------------------------------------------------------------------
Seek to the start of the central directory one last time, since we
have just read the first entry's signature bytes; then list, extract
or test member files as instructed, and close the zipfile.
-----------------------------------------------------------------------*/
error = seek_zipf(__G__ G.ecrec.offset_start_central_directory);
if (error != PK_OK) {
CLOSE_INFILE();
return error;
}
Trace((stderr, "about to extract/list files (error = %d)\n",
error_in_archive));
#ifdef DLL
/* G.fValidate is used only to look at an archive to see if
it appears to be a valid archive. There is no interest
in what the archive contains, nor in validating that the
entries in the archive are in good condition. This is
currently used only in the Windows DLLs for purposes of
checking archives within an archive to determine whether
or not to display the inner archives.
*/
if (!G.fValidate)
#endif
{
#ifndef NO_ZIPINFO
if (uO.zipinfo_mode)
error = zipinfo(__G); /* ZIPINFO 'EM */
else
#endif
#ifndef SFX
#ifdef TIMESTAMP
if (uO.T_flag)
error = get_time_stamp(__G__ &uxstamp, &nmember);
else
#endif
if (uO.vflag && !uO.tflag && !uO.cflag)
error = list_files(__G); /* LIST 'EM */
else
#endif /* !SFX */
error = extract_or_test_files(__G); /* EXTRACT OR TEST 'EM */
Trace((stderr, "done with extract/list files (error = %d)\n",
error));
}
if (error > error_in_archive) /* don't overwrite stronger error */
error_in_archive = error; /* with (for example) a warning */
#ifndef SFX
} /* end if (!too_weird_to_continue) */
#endif
CLOSE_INFILE();
#ifdef TIMESTAMP
if (uO.T_flag && !uO.zipinfo_mode && (nmember > 0L)) {
# ifdef WIN32
if (stamp_file(__G__ G.zipfn, uxstamp)) { /* TIME-STAMP 'EM */
# else
if (stamp_file(G.zipfn, uxstamp)) { /* TIME-STAMP 'EM */
# endif
if (uO.qflag < 3)
Info(slide, 0x201, ((char *)slide,
"warning: cannot set time for %s\n", G.zipfn));
if (error_in_archive < PK_WARN)
error_in_archive = PK_WARN;
}
}
#endif
return error_in_archive;
} /* end function do_seekable() */
/*************************/
/* Function find_ecrec() */
/*************************/
static int find_ecrec(__G__ searchlen) /* return PK-class error */
__GDEF
long searchlen;
{
int i, numblks, found=FALSE;
LONGINT tail_len;
ec_byte_rec byterec;
/*---------------------------------------------------------------------------
Treat case of short zipfile separately.
---------------------------------------------------------------------------*/
if (G.ziplen <= INBUFSIZ) {
lseek(G.zipfd, 0L, SEEK_SET);
if ((G.incnt = read(G.zipfd,(char *)G.inbuf,(unsigned int)G.ziplen))
== (int)G.ziplen)
/* 'P' must be at least (ECREC_SIZE+4) bytes from end of zipfile */
for (G.inptr = G.inbuf+(int)G.ziplen-(ECREC_SIZE+4);
G.inptr >= G.inbuf;
--G.inptr) {
if ( (*G.inptr == (uch)0x50) && /* ASCII 'P' */
!strncmp((char *)G.inptr, end_central_sig, 4)) {
G.incnt -= (int)(G.inptr - G.inbuf);
found = TRUE;
break;
}
}
/*---------------------------------------------------------------------------
Zipfile is longer than INBUFSIZ: may need to loop. Start with short
block at end of zipfile (if not TOO short).
---------------------------------------------------------------------------*/
} else {
if ((tail_len = G.ziplen % INBUFSIZ) > ECREC_SIZE) {
#ifdef USE_STRM_INPUT
fseek((FILE *)G.zipfd, G.ziplen-tail_len, SEEK_SET);
G.cur_zipfile_bufstart = ftell((FILE *)G.zipfd);
#else /* !USE_STRM_INPUT */
G.cur_zipfile_bufstart = lseek(G.zipfd, G.ziplen-tail_len,
SEEK_SET);
#endif /* ?USE_STRM_INPUT */
if ((G.incnt = read(G.zipfd, (char *)G.inbuf,
(unsigned int)tail_len)) != (int)tail_len)
goto fail; /* it's expedient... */
/* 'P' must be at least (ECREC_SIZE+4) bytes from end of zipfile */
for (G.inptr = G.inbuf+(int)tail_len-(ECREC_SIZE+4);
G.inptr >= G.inbuf;
--G.inptr) {
if ( (*G.inptr == (uch)0x50) && /* ASCII 'P' */
!strncmp((char *)G.inptr, end_central_sig, 4)) {
G.incnt -= (int)(G.inptr - G.inbuf);
found = TRUE;
break;
}
}
/* sig may span block boundary: */
memcpy((char *)G.hold, (char *)G.inbuf, 3);
} else
G.cur_zipfile_bufstart = G.ziplen - tail_len;
/*-----------------------------------------------------------------------
Loop through blocks of zipfile data, starting at the end and going
toward the beginning. In general, need not check whole zipfile for
signature, but may want to do so if testing.
-----------------------------------------------------------------------*/
numblks = (int)((searchlen - tail_len + (INBUFSIZ-1)) / INBUFSIZ);
/* ==amount= ==done== ==rounding== =blksiz= */
for (i = 1; !found && (i <= numblks); ++i) {
G.cur_zipfile_bufstart -= INBUFSIZ;
lseek(G.zipfd, G.cur_zipfile_bufstart, SEEK_SET);
if ((G.incnt = read(G.zipfd,(char *)G.inbuf,INBUFSIZ))
!= INBUFSIZ)
break; /* fall through and fail */
for (G.inptr = G.inbuf+INBUFSIZ-1; G.inptr >= G.inbuf;
--G.inptr)
if ((native(*G.inptr) == 'P') &&
!strncmp((char *)G.inptr, end_central_sig, 4)) {
G.incnt -= (int)(G.inptr - G.inbuf);
found = TRUE;
break;
}
/* sig may span block boundary: */
memcpy((char *)G.hold, (char *)G.inbuf, 3);
}
} /* end if (ziplen > INBUFSIZ) */
/*---------------------------------------------------------------------------
Searched through whole region where signature should be without finding
it. Print informational message and die a horrible death.
---------------------------------------------------------------------------*/
fail:
if (!found) {
if (uO.qflag || uO.zipinfo_mode)
Info(slide, 0x401, ((char *)slide, "[%s]\n", G.zipfn));
Info(slide, 0x401, ((char *)slide,
LoadFarString(CentDirEndSigNotFound)));
return PK_ERR; /* failed */
}
/*---------------------------------------------------------------------------
Found the signature, so get the end-central data before returning. Do
any necessary machine-type conversions (byte ordering, structure padding
compensation) by reading data into character array and copying to struct.
---------------------------------------------------------------------------*/
G.real_ecrec_offset = G.cur_zipfile_bufstart + (G.inptr-G.inbuf);
#ifdef TEST
printf("\n found end-of-central-dir signature at offset %ld (%.8lXh)\n",
G.real_ecrec_offset, G.real_ecrec_offset);
printf(" from beginning of file; offset %d (%.4Xh) within block\n",
G.inptr-G.inbuf, G.inptr-G.inbuf);
#endif
if (readbuf(__G__ (char *)byterec, ECREC_SIZE+4) == 0)
return PK_EOF;
G.ecrec.number_this_disk =
makeword(&byterec[NUMBER_THIS_DISK]);
G.ecrec.num_disk_start_cdir =
makeword(&byterec[NUM_DISK_WITH_START_CENTRAL_DIR]);
G.ecrec.num_entries_centrl_dir_ths_disk =
makeword(&byterec[NUM_ENTRIES_CENTRL_DIR_THS_DISK]);
G.ecrec.total_entries_central_dir =
makeword(&byterec[TOTAL_ENTRIES_CENTRAL_DIR]);
G.ecrec.size_central_directory =
makelong(&byterec[SIZE_CENTRAL_DIRECTORY]);
G.ecrec.offset_start_central_directory =
makelong(&byterec[OFFSET_START_CENTRAL_DIRECTORY]);
G.ecrec.zipfile_comment_length =
makeword(&byterec[ZIPFILE_COMMENT_LENGTH]);
G.expect_ecrec_offset = G.ecrec.offset_start_central_directory +
G.ecrec.size_central_directory;
return PK_COOL;
} /* end function find_ecrec() */
/*****************************/
/* Function uz_end_central() */
/*****************************/
int uz_end_central(__G) /* return PK-type error code */
__GDEF
{
int error = PK_COOL;
/*---------------------------------------------------------------------------
Get the zipfile comment (up to 64KB long), if any, and print it out.
Then position the file pointer to the beginning of the central directory
and fill buffer.
---------------------------------------------------------------------------*/
#ifdef WINDLL
/* for comment button: */
if ((!G.fValidate) && (G.lpUserFunctions != NULL))
G.lpUserFunctions->cchComment = G.ecrec.zipfile_comment_length;
if (G.ecrec.zipfile_comment_length && (uO.zflag > 0))
#else /* !WINDLL */
if (G.ecrec.zipfile_comment_length && (uO.zflag > 0 ||
(uO.zflag == 0 &&
#ifdef TIMESTAMP
!uO.T_flag &&
#endif
!uO.qflag)))
#endif /* ?WINDLL */
{
#if (defined(SFX) && defined(CHEAP_SFX_AUTORUN))
if (do_string(__G__ G.ecrec.zipfile_comment_length, CHECK_AUTORUN)) {
#else
if (do_string(__G__ G.ecrec.zipfile_comment_length, DISPLAY)) {
#endif
Info(slide, 0x401, ((char *)slide,
LoadFarString(ZipfileCommTrunc1)));
error = PK_WARN;
}
}
#if (defined(SFX) && defined(CHEAP_SFX_AUTORUN))
else if (G.ecrec.zipfile_comment_length) {
if (do_string(__G__ G.ecrec.zipfile_comment_length, CHECK_AUTORUN_Q)) {
Info(slide, 0x401, ((char *)slide,
LoadFarString(ZipfileCommTrunc1)));
error = PK_WARN;
}
}
#endif
return error;
} /* end function uz_end_central() */
/************************************/
/* Function process_cdir_file_hdr() */
/************************************/
int process_cdir_file_hdr(__G) /* return PK-type error code */
__GDEF
{
int error;
/*---------------------------------------------------------------------------
Get central directory info, save host and method numbers, and set flag
for lowercase conversion of filename, depending on the OS from which the
file is coming.
---------------------------------------------------------------------------*/
if ((error = get_cdir_ent(__G)) != 0)
return error;
G.pInfo->hostver = G.crec.version_made_by[0];
G.pInfo->hostnum = MIN(G.crec.version_made_by[1], NUM_HOSTS);
/* extnum = MIN(crec.version_needed_to_extract[1], NUM_HOSTS); */
G.pInfo->lcflag = 0;
if (uO.L_flag == 1) /* name conversion for monocase systems */
switch (G.pInfo->hostnum) {
case FS_FAT_: /* PKZIP and zip -k store in uppercase */
case CPM_: /* like MS-DOS, right? */
case VM_CMS_: /* all caps? */
case MVS_: /* all caps? */
case TANDEM_:
case TOPS20_:
case VMS_: /* our Zip uses lowercase, but ASi's doesn't */
/* case Z_SYSTEM_: ? */
/* case QDOS_: ? */
G.pInfo->lcflag = 1; /* convert filename to lowercase */
break;
default: /* AMIGA_, FS_HPFS_, FS_NTFS_, MAC_, UNIX_, ATARI_, */
break; /* FS_VFAT_, BEOS_ (Z_SYSTEM_), THEOS_: */
/* no conversion */
}
else if (uO.L_flag > 1) /* let -LL force lower case for all names */
G.pInfo->lcflag = 1;
/* do Amigas (AMIGA_) also have volume labels? */
if (IS_VOLID(G.crec.external_file_attributes) &&
(G.pInfo->hostnum == FS_FAT_ || G.pInfo->hostnum == FS_HPFS_ ||
G.pInfo->hostnum == FS_NTFS_ || G.pInfo->hostnum == ATARI_))
{
G.pInfo->vollabel = TRUE;
G.pInfo->lcflag = 0; /* preserve case of volume labels */
} else
G.pInfo->vollabel = FALSE;
/* this flag is needed to detect archives made by "PKZIP for Unix" when
deciding which kind of codepage conversion has to be applied to
strings (see do_string() function in fileio.c) */
G.pInfo->HasUxAtt = (G.crec.external_file_attributes & 0xffff0000L) != 0L;
return PK_COOL;
} /* end function process_cdir_file_hdr() */
/***************************/
/* Function get_cdir_ent() */
/***************************/
int get_cdir_ent(__G) /* return PK-type error code */
__GDEF
{
cdir_byte_hdr byterec;
/*---------------------------------------------------------------------------
Read the next central directory entry and do any necessary machine-type
conversions (byte ordering, structure padding compensation--do so by
copying the data from the array into which it was read (byterec) to the
usable struct (crec)).
---------------------------------------------------------------------------*/
if (readbuf(__G__ (char *)byterec, CREC_SIZE) == 0)
return PK_EOF;
G.crec.version_made_by[0] = byterec[C_VERSION_MADE_BY_0];
G.crec.version_made_by[1] = byterec[C_VERSION_MADE_BY_1];
G.crec.version_needed_to_extract[0] =
byterec[C_VERSION_NEEDED_TO_EXTRACT_0];
G.crec.version_needed_to_extract[1] =
byterec[C_VERSION_NEEDED_TO_EXTRACT_1];
G.crec.general_purpose_bit_flag =
makeword(&byterec[C_GENERAL_PURPOSE_BIT_FLAG]);
G.crec.compression_method =
makeword(&byterec[C_COMPRESSION_METHOD]);
G.crec.last_mod_dos_datetime =
makelong(&byterec[C_LAST_MOD_DOS_DATETIME]);
G.crec.crc32 =
makelong(&byterec[C_CRC32]);
G.crec.csize =
makelong(&byterec[C_COMPRESSED_SIZE]);
G.crec.ucsize =
makelong(&byterec[C_UNCOMPRESSED_SIZE]);
G.crec.filename_length =
makeword(&byterec[C_FILENAME_LENGTH]);
G.crec.extra_field_length =
makeword(&byterec[C_EXTRA_FIELD_LENGTH]);
G.crec.file_comment_length =
makeword(&byterec[C_FILE_COMMENT_LENGTH]);
G.crec.disk_number_start =
makeword(&byterec[C_DISK_NUMBER_START]);
G.crec.internal_file_attributes =
makeword(&byterec[C_INTERNAL_FILE_ATTRIBUTES]);
G.crec.external_file_attributes =
makelong(&byterec[C_EXTERNAL_FILE_ATTRIBUTES]); /* LONG, not word! */
G.crec.relative_offset_local_header =
makelong(&byterec[C_RELATIVE_OFFSET_LOCAL_HEADER]);
return PK_COOL;
} /* end function get_cdir_ent() */
/*************************************/
/* Function process_local_file_hdr() */
/*************************************/
int process_local_file_hdr(__G) /* return PK-type error code */
__GDEF
{
local_byte_hdr byterec;
/*---------------------------------------------------------------------------
Read the next local file header and do any necessary machine-type con-
versions (byte ordering, structure padding compensation--do so by copy-
ing the data from the array into which it was read (byterec) to the
usable struct (lrec)).
---------------------------------------------------------------------------*/
if (readbuf(__G__ (char *)byterec, LREC_SIZE) == 0)
return PK_EOF;
G.lrec.version_needed_to_extract[0] =
byterec[L_VERSION_NEEDED_TO_EXTRACT_0];
G.lrec.version_needed_to_extract[1] =
byterec[L_VERSION_NEEDED_TO_EXTRACT_1];
G.lrec.general_purpose_bit_flag =
makeword(&byterec[L_GENERAL_PURPOSE_BIT_FLAG]);
G.lrec.compression_method = makeword(&byterec[L_COMPRESSION_METHOD]);
G.lrec.last_mod_dos_datetime = makelong(&byterec[L_LAST_MOD_DOS_DATETIME]);
G.lrec.crc32 = makelong(&byterec[L_CRC32]);
G.lrec.csize = makelong(&byterec[L_COMPRESSED_SIZE]);
G.lrec.ucsize = makelong(&byterec[L_UNCOMPRESSED_SIZE]);
G.lrec.filename_length = makeword(&byterec[L_FILENAME_LENGTH]);
G.lrec.extra_field_length = makeword(&byterec[L_EXTRA_FIELD_LENGTH]);
if ((G.lrec.general_purpose_bit_flag & 8) != 0) {
/* can't trust local header, use central directory: */
G.lrec.crc32 = G.pInfo->crc;
G.lrec.csize = G.pInfo->compr_size;
G.lrec.ucsize = G.pInfo->uncompr_size;
}
G.csize = (long)G.lrec.csize;
return PK_COOL;
} /* end function process_local_file_hdr() */
#ifdef USE_EF_UT_TIME
/*******************************/
/* Function ef_scan_for_izux() */
/*******************************/
unsigned ef_scan_for_izux(ef_buf, ef_len, ef_is_c, dos_mdatetime,
z_utim, z_uidgid)
ZCONST uch *ef_buf; /* buffer containing extra field */
unsigned ef_len; /* total length of extra field */
int ef_is_c; /* flag indicating "is central extra field" */
ulg dos_mdatetime; /* last_mod_file_date_time in DOS format */
iztimes *z_utim; /* return storage: atime, mtime, ctime */
ush *z_uidgid; /* return storage: uid and gid */
{
unsigned flags = 0;
unsigned eb_id;
unsigned eb_len;
int have_new_type_eb = FALSE;
long i_time; /* buffer for Unix style 32-bit integer time value */
#ifdef TIME_T_TYPE_DOUBLE
int ut_in_archive_sgn = 0;
#else
int ut_zip_unzip_compatible = FALSE;
#endif
/*---------------------------------------------------------------------------
This function scans the extra field for EF_TIME, EF_IZUNIX2, EF_IZUNIX, or
EF_PKUNIX blocks containing Unix-style time_t (GMT) values for the entry's
access, creation, and modification time.
If a valid block is found, the time stamps are copied to the iztimes
structure (provided the z_utim pointer is not NULL).
If a IZUNIX2 block is found or the IZUNIX block contains UID/GID fields,
and the z_uidgid array pointer is valid (!= NULL), the owner info is
transfered as well.
The presence of an EF_TIME or EF_IZUNIX2 block results in ignoring all
data from probably present obsolete EF_IZUNIX blocks.
If multiple blocks of the same type are found, only the information from
the last block is used.
The return value is a combination of the EF_TIME Flags field with an
additional flag bit indicating the presence of valid UID/GID info,
or 0 in case of failure.
---------------------------------------------------------------------------*/
if (ef_len == 0 || ef_buf == NULL || (z_utim == 0 && z_uidgid == NULL))
return 0;
TTrace((stderr,"\nef_scan_for_izux: scanning extra field of length %u\n",
ef_len));
while (ef_len >= EB_HEADSIZE) {
eb_id = makeword(EB_ID + ef_buf);
eb_len = makeword(EB_LEN + ef_buf);
if (eb_len > (ef_len - EB_HEADSIZE)) {
/* discovered some extra field inconsistency! */
TTrace((stderr,
"ef_scan_for_izux: block length %u > rest ef_size %u\n", eb_len,
ef_len - EB_HEADSIZE));
break;
}
switch (eb_id) {
case EF_TIME:
flags &= ~0x0ff; /* ignore previous IZUNIX or EF_TIME fields */
have_new_type_eb = TRUE;
if ( eb_len >= EB_UT_MINLEN && z_utim != NULL) {
unsigned eb_idx = EB_UT_TIME1;
TTrace((stderr,"ef_scan_for_izux: found TIME extra field\n"));
flags |= (ef_buf[EB_HEADSIZE+EB_UT_FLAGS] & 0x0ff);
if ((flags & EB_UT_FL_MTIME)) {
if ((eb_idx+4) <= eb_len) {
i_time = (long)makelong((EB_HEADSIZE+eb_idx) + ef_buf);
eb_idx += 4;
TTrace((stderr," UT e.f. modification time = %ld\n",
i_time));
#ifdef TIME_T_TYPE_DOUBLE
if ((ulg)(i_time) & (ulg)(0x80000000L)) {
if (dos_mdatetime == DOSTIME_MINIMUM) {
ut_in_archive_sgn = -1;
z_utim->mtime =
(time_t)((long)i_time | (~(long)0x7fffffffL));
} else if (dos_mdatetime >= DOSTIME_2038_01_18) {
ut_in_archive_sgn = 1;
z_utim->mtime =
(time_t)((ulg)i_time & (ulg)0xffffffffL);
} else {
ut_in_archive_sgn = 0;
/* cannot determine sign of mtime;
without modtime: ignore complete UT field */
flags &= ~0x0ff; /* no time_t times available */
TTrace((stderr,
" UT modtime range error; ignore e.f.!\n"));
break; /* stop scanning this field */
}
} else {
/* cannot determine, safe assumption is FALSE */
ut_in_archive_sgn = 0;
z_utim->mtime = (time_t)i_time;
}
#else /* !TIME_T_TYPE_DOUBLE */
if ((ulg)(i_time) & (ulg)(0x80000000L)) {
ut_zip_unzip_compatible =
((time_t)0x80000000L < (time_t)0L)
? (dos_mdatetime == DOSTIME_MINIMUM)
: (dos_mdatetime >= DOSTIME_2038_01_18);
if (!ut_zip_unzip_compatible) {
/* UnZip interprets mtime differently than Zip;
without modtime: ignore complete UT field */
flags &= ~0x0ff; /* no time_t times available */
TTrace((stderr,
" UT modtime range error; ignore e.f.!\n"));
break; /* stop scanning this field */
}
} else {
/* cannot determine, safe assumption is FALSE */
ut_zip_unzip_compatible = FALSE;
}
z_utim->mtime = (time_t)i_time;
#endif /* ?TIME_T_TYPE_DOUBLE */
} else {
flags &= ~EB_UT_FL_MTIME;
TTrace((stderr," UT e.f. truncated; no modtime\n"));
}
}
if (ef_is_c) {
break; /* central version of TIME field ends here */
}
if (flags & EB_UT_FL_ATIME) {
if ((eb_idx+4) <= eb_len) {
i_time = (long)makelong((EB_HEADSIZE+eb_idx) + ef_buf);
eb_idx += 4;
TTrace((stderr," UT e.f. access time = %ld\n",
i_time));
#ifdef TIME_T_TYPE_DOUBLE
if ((ulg)(i_time) & (ulg)(0x80000000L)) {
if (ut_in_archive_sgn == -1)
z_utim->atime =
(time_t)((long)i_time | (~(long)0x7fffffffL));
} else if (ut_in_archive_sgn == 1) {
z_utim->atime =
(time_t)((ulg)i_time & (ulg)0xffffffffL);
} else {
/* sign of 32-bit time is unknown -> ignore it */
flags &= ~EB_UT_FL_ATIME;
TTrace((stderr,
" UT access time range error: skip time!\n"));
}
} else {
z_utim->atime = (time_t)i_time;
}
#else /* !TIME_T_TYPE_DOUBLE */
if (((ulg)(i_time) & (ulg)(0x80000000L)) &&
!ut_zip_unzip_compatible) {
flags &= ~EB_UT_FL_ATIME;
TTrace((stderr,
" UT access time range error: skip time!\n"));
} else {
z_utim->atime = (time_t)i_time;
}
#endif /* ?TIME_T_TYPE_DOUBLE */
} else {
flags &= ~EB_UT_FL_ATIME;
}
}
if (flags & EB_UT_FL_CTIME) {
if ((eb_idx+4) <= eb_len) {
i_time = (long)makelong((EB_HEADSIZE+eb_idx) + ef_buf);
TTrace((stderr," UT e.f. creation time = %ld\n",
i_time));
#ifdef TIME_T_TYPE_DOUBLE
if ((ulg)(i_time) & (ulg)(0x80000000L)) {
if (ut_in_archive_sgn == -1)
z_utim->ctime =
(time_t)((long)i_time | (~(long)0x7fffffffL));
} else if (ut_in_archive_sgn == 1) {
z_utim->ctime =
(time_t)((ulg)i_time & (ulg)0xffffffffL);
} else {
/* sign of 32-bit time is unknown -> ignore it */
flags &= ~EB_UT_FL_CTIME;
TTrace((stderr,
" UT creation time range error: skip time!\n"));
}
} else {
z_utim->ctime = (time_t)i_time;
}
#else /* !TIME_T_TYPE_DOUBLE */
if (((ulg)(i_time) & (ulg)(0x80000000L)) &&
!ut_zip_unzip_compatible) {
flags &= ~EB_UT_FL_CTIME;
TTrace((stderr,
" UT creation time range error: skip time!\n"));
} else {
z_utim->ctime = (time_t)i_time;
}
#endif /* ?TIME_T_TYPE_DOUBLE */
} else {
flags &= ~EB_UT_FL_CTIME;
}
}
}
break;
case EF_IZUNIX2:
if (!have_new_type_eb) {
flags &= ~0x0ff; /* ignore any previous IZUNIX field */
have_new_type_eb = TRUE;
}
if (eb_len >= EB_UX2_MINLEN && z_uidgid != NULL) {
z_uidgid[0] = makeword((EB_HEADSIZE+EB_UX2_UID) + ef_buf);
z_uidgid[1] = makeword((EB_HEADSIZE+EB_UX2_GID) + ef_buf);
flags |= EB_UX2_VALID; /* signal success */
}
break;
case EF_IZUNIX:
case EF_PKUNIX: /* PKUNIX e.f. layout is identical to IZUNIX */
if (eb_len >= EB_UX_MINLEN) {
TTrace((stderr,"ef_scan_for_izux: found %s extra field\n",
(eb_id == EF_IZUNIX ? "IZUNIX" : "PKUNIX")));
if (have_new_type_eb) {
break; /* Ignore IZUNIX extra field block ! */
}
if (z_utim != NULL) {
flags |= (EB_UT_FL_MTIME | EB_UT_FL_ATIME);
i_time = (long)makelong((EB_HEADSIZE+EB_UX_MTIME)+ef_buf);
TTrace((stderr," Unix EF modtime = %ld\n", i_time));
#ifdef TIME_T_TYPE_DOUBLE
if ((ulg)(i_time) & (ulg)(0x80000000L)) {
if (dos_mdatetime == DOSTIME_MINIMUM) {
ut_in_archive_sgn = -1;
z_utim->mtime =
(time_t)((long)i_time | (~(long)0x7fffffffL));
} else if (dos_mdatetime >= DOSTIME_2038_01_18) {
ut_in_archive_sgn = 1;
z_utim->mtime =
(time_t)((ulg)i_time & (ulg)0xffffffffL);
} else {
ut_in_archive_sgn = 0;
/* cannot determine sign of mtime;
without modtime: ignore complete UT field */
flags &= ~0x0ff; /* no time_t times available */
TTrace((stderr,
" UX modtime range error: ignore e.f.!\n"));
}
} else {
/* cannot determine, safe assumption is FALSE */
ut_in_archive_sgn = 0;
z_utim->mtime = (time_t)i_time;
}
#else /* !TIME_T_TYPE_DOUBLE */
if ((ulg)(i_time) & (ulg)(0x80000000L)) {
ut_zip_unzip_compatible =
((time_t)0x80000000L < (time_t)0L)
? (dos_mdatetime == DOSTIME_MINIMUM)
: (dos_mdatetime >= DOSTIME_2038_01_18);
if (!ut_zip_unzip_compatible) {
/* UnZip interpretes mtime differently than Zip;
without modtime: ignore complete UT field */
flags &= ~0x0ff; /* no time_t times available */
TTrace((stderr,
" UX modtime range error: ignore e.f.!\n"));
}
} else {
/* cannot determine, safe assumption is FALSE */
ut_zip_unzip_compatible = FALSE;
}
z_utim->mtime = (time_t)i_time;
#endif /* ?TIME_T_TYPE_DOUBLE */
i_time = (long)makelong((EB_HEADSIZE+EB_UX_ATIME)+ef_buf);
TTrace((stderr," Unix EF actime = %ld\n", i_time));
#ifdef TIME_T_TYPE_DOUBLE
if ((ulg)(i_time) & (ulg)(0x80000000L)) {
if (ut_in_archive_sgn == -1)
z_utim->atime =
(time_t)((long)i_time | (~(long)0x7fffffffL));
} else if (ut_in_archive_sgn == 1) {
z_utim->atime =
(time_t)((ulg)i_time & (ulg)0xffffffffL);
} else if (flags & 0x0ff) {
/* sign of 32-bit time is unknown -> ignore it */
flags &= ~EB_UT_FL_ATIME;
TTrace((stderr,
" UX access time range error: skip time!\n"));
}
} else {
z_utim->atime = (time_t)i_time;
}
#else /* !TIME_T_TYPE_DOUBLE */
if (((ulg)(i_time) & (ulg)(0x80000000L)) &&
!ut_zip_unzip_compatible && (flags & 0x0ff)) {
/* atime not in range of UnZip's time_t */
flags &= ~EB_UT_FL_ATIME;
TTrace((stderr,
" UX access time range error: skip time!\n"));
} else {
z_utim->atime = (time_t)i_time;
}
#endif /* ?TIME_T_TYPE_DOUBLE */
}
if (eb_len >= EB_UX_FULLSIZE && z_uidgid != NULL) {
z_uidgid[0] = makeword((EB_HEADSIZE+EB_UX_UID) + ef_buf);
z_uidgid[1] = makeword((EB_HEADSIZE+EB_UX_GID) + ef_buf);
flags |= EB_UX2_VALID;
}
}
break;
default:
break;
}
/* Skip this extra field block */
ef_buf += (eb_len + EB_HEADSIZE);
ef_len -= (eb_len + EB_HEADSIZE);
}
return flags;
}
#endif /* USE_EF_UT_TIME */
#if (defined(RISCOS) || defined(ACORN_FTYPE_NFS))
#define SPARKID_2 0x30435241 /* = "ARC0" */
/*******************************/
/* Function getRISCOSexfield() */
/*******************************/
zvoid *getRISCOSexfield(ef_buf, ef_len)
ZCONST uch *ef_buf; /* buffer containing extra field */
unsigned ef_len; /* total length of extra field */
{
unsigned eb_id;
unsigned eb_len;
/*---------------------------------------------------------------------------
This function scans the extra field for a Acorn SPARK filetype ef-block.
If a valid block is found, the function returns a pointer to the start
of the SPARK_EF block in the extra field buffer. Otherwise, a NULL
pointer is returned.
---------------------------------------------------------------------------*/
if (ef_len == 0 || ef_buf == NULL)
return NULL;
TTrace((stderr,"\ngetRISCOSexfield: scanning extra field of length %u\n",
ef_len));
while (ef_len >= EB_HEADSIZE) {
eb_id = makeword(EB_ID + ef_buf);
eb_len = makeword(EB_LEN + ef_buf);
if (eb_len > (ef_len - EB_HEADSIZE)) {
/* discovered some extra field inconsistency! */
TTrace((stderr,
"getRISCOSexfield: block length %u > rest ef_size %u\n", eb_len,
ef_len - EB_HEADSIZE));
break;
}
if (eb_id == EF_SPARK && (eb_len == 24 || eb_len == 20)) {
if (makelong(EB_HEADSIZE + ef_buf) == SPARKID_2) {
/* Return a pointer to the valid SPARK filetype ef block */
return (zvoid *)ef_buf;
}
}
/* Skip this extra field block */
ef_buf += (eb_len + EB_HEADSIZE);
ef_len -= (eb_len + EB_HEADSIZE);
}
return NULL;
}
#endif /* (RISCOS || ACORN_FTYPE_NFS) */
View Git Blame Copy Permalink