/*-*- mode:c;indent-tabs-mode:nil;c-basic-offset:2;tab-width:8;coding:utf-8 -*-│
│ vi: set et ft=c ts=2 sts=2 sw=2 fenc=utf-8 :vi │
╞══════════════════════════════════════════════════════════════════════════════╡
│ Copyright 2020 Justine Alexandra Roberts Tunney │
│ │
│ Permission to use, copy, modify, and/or distribute this software for │
│ any purpose with or without fee is hereby granted, provided that the │
│ above copyright notice and this permission notice appear in all copies. │
│ │
│ THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL │
│ WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED │
│ WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE │
│ AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL │
│ DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR │
│ PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER │
│ TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR │
│ PERFORMANCE OF THIS SOFTWARE. │
╚─────────────────────────────────────────────────────────────────────────────*/
#include "libc/calls/calls.h"
#include "libc/calls/struct/stat.h"
#include "libc/fmt/libgen.h"
#include "libc/fmt/wintime.internal.h"
#include "libc/intrin/kprintf.h"
#include "libc/intrin/safemacros.internal.h"
#include "libc/log/check.h"
#include "libc/log/log.h"
#include "libc/mem/gc.h"
#include "libc/mem/mem.h"
#include "libc/nexgen32e/crc32.h"
#include "libc/nt/struct/filetime.h"
#include "libc/serialize.h"
#include "libc/stdckdint.h"
#include "libc/stdio/stdio.h"
#include "libc/stdio/sysparam.h"
#include "libc/str/str.h"
#include "libc/sysv/consts/map.h"
#include "libc/sysv/consts/o.h"
#include "libc/sysv/consts/prot.h"
#include "libc/x/xasprintf.h"
#include "libc/x/xiso8601.h"
#include "libc/zip.internal.h"
#include "tool/decode/lib/asmcodegen.h"
#include "tool/decode/lib/disassemblehex.h"
#include "tool/decode/lib/flagger.h"
#include "tool/decode/lib/idname.h"
#include "tool/decode/lib/ntfileflagnames.h"
#include "tool/decode/lib/titlegen.h"
#include "tool/decode/lib/zipnames.h"
/**
* @fileoverview Zip File Disassembler.
*/
uint8_t *map;
static __wur char *FormatDosDate(uint16_t dosdate) {
return xasprintf("%04u-%02u-%02u", ((dosdate >> 9) & 0b1111111) + 1980,
(dosdate >> 5) & 0b1111, dosdate & 0b11111);
}
static __wur char *FormatDosTime(uint16_t dostime) {
return xasprintf("%02u:%02u:%02u", (dostime >> 11) & 0b11111,
(dostime >> 5) & 0b111111, (dostime << 1) & 0b111110);
}
void AdvancePosition(uint8_t *map, size_t *pos, size_t off) {
if (off > *pos) {
/* printf("\n/\t<%s>\n", "LIMBO"); */
/* disassemblehex(&map[*pos], off - *pos, stdout); */
/* printf("/\t</%s>\n", "LIMBO"); */
}
*pos = off;
}
void ShowGeneralFlag(uint16_t generalflag) {
puts("\
/ ┌─utf8\n\
/ │ ┌─strong encryption\n\
/ │ │┌─compressed patch data\n\
/ │ ││ ┌─crc and size go after file content\n\
/ │ ││ │┌─{normal,max,fast,superfast}\n\
/ │ ││ ││ ┌─encrypted\n\
/ rrrr│uuuu││r│├┐│");
show(".short", format(b1, "0b%016b", generalflag), "generalflag");
}
void ShowTimestamp(uint16_t time, uint16_t date) {
show(".short", format(b1, "%#04hx", time),
gc(xasprintf("%s (%s)", "lastmodifiedtime", gc(FormatDosTime(time)))));
show(".short", format(b1, "%#04hx", date),
gc(xasprintf("%s (%s)", "lastmodifieddate", gc(FormatDosDate(date)))));
}
void ShowCompressionMethod(uint16_t compressmethod) {
show(".short",
firstnonnull(findnamebyid(kZipCompressionNames, compressmethod),
format(b1, "%hu", compressmethod)),
"compressionmethod");
}
void ShowNtfs(uint8_t *ntfs, size_t n) {
struct timespec mtime, atime, ctime;
mtime = WindowsTimeToTimeSpec(READ64LE(ntfs + 8));
atime = WindowsTimeToTimeSpec(READ64LE(ntfs + 16));
ctime = WindowsTimeToTimeSpec(READ64LE(ntfs + 24));
show(".long", gc(xasprintf("%d", READ32LE(ntfs))), "ntfs reserved");
show(".short", gc(xasprintf("0x%04x", READ16LE(ntfs + 4))),
"ntfs attribute tag value #1");
show(".short", gc(xasprintf("%hu", READ16LE(ntfs + 6))),
"ntfs attribute tag size");
show(".quad", gc(xasprintf("%lu", READ64LE(ntfs + 8))),
gc(xasprintf("%s (%s)", "ntfs last modified time",
gc(xiso8601(&mtime)))));
show(".quad", gc(xasprintf("%lu", READ64LE(ntfs + 16))),
gc(xasprintf("%s (%s)", "ntfs last access time", gc(xiso8601(&atime)))));
show(".quad", gc(xasprintf("%lu", READ64LE(ntfs + 24))),
gc(xasprintf("%s (%s)", "ntfs creation time", gc(xiso8601(&ctime)))));
}
void ShowExtendedTimestamp(uint8_t *p, size_t n, bool islocal) {
int flag;
if (n) {
--n;
flag = *p++;
show(".byte", gc(xasprintf("0b%03hhb", flag)), "fields present in local");
if ((flag & 1) && n >= 4) {
show(".long", gc(xasprintf("%u", READ32LE(p))),
gc(xasprintf("%s (%s)", "last modified",
gc(xiso8601(&(struct timespec){READ32LE(p)})))));
p += 4;
n -= 4;
}
flag >>= 1;
if (islocal) {
if ((flag & 1) && n >= 4) {
show(".long", gc(xasprintf("%u", READ32LE(p))),
gc(xasprintf("%s (%s)", "access time",
gc(xiso8601(&(struct timespec){READ32LE(p)})))));
p += 4;
n -= 4;
}
flag >>= 1;
if ((flag & 1) && n >= 4) {
show(".long", gc(xasprintf("%u", READ32LE(p))),
gc(xasprintf("%s (%s)", "creation time",
gc(xiso8601(&(struct timespec){READ32LE(p)})))));
p += 4;
n -= 4;
}
}
}
}
void ShowZip64(uint8_t *lf, uint8_t *p, size_t n, bool islocal) {
int i = 0;
uint32_t uncompsize;
if (islocal) {
uncompsize = ZIP_LFILE_UNCOMPRESSEDSIZE(lf);
} else {
uncompsize = ZIP_CFILE_UNCOMPRESSEDSIZE(lf);
}
if (uncompsize == 0xffffffffu) {
if (i + 8 <= n) {
show(".quad", gc(xasprintf("0x%lx", READ64LE(p + i))),
gc(xasprintf("uncompressed size (%,ld)", READ64LE(p + i))));
} else {
kprintf("/\tWARNING: ZIP64 EXTRA MISSING UNCOMPRESSED SIZE\n");
}
i += 8;
}
uint32_t compsize;
if (islocal) {
compsize = ZIP_LFILE_COMPRESSEDSIZE(lf);
} else {
compsize = ZIP_CFILE_COMPRESSEDSIZE(lf);
}
if (compsize == 0xffffffffu) {
if (i + 8 <= n) {
show(".quad", gc(xasprintf("0x%lx", READ64LE(p + i))),
gc(xasprintf("compressed size (%,ld)", READ64LE(p + i))));
} else {
kprintf("/\tWARNING: ZIP64 EXTRA MISSING COMPRESSED SIZE\n");
}
i += 8;
}
if (!islocal) {
uint32_t offset;
offset = ZIP_CFILE_OFFSET(lf);
if (offset == 0xffffffffu) {
if (i + 8 <= n) {
show(".quad", gc(xasprintf("0x%lx", READ64LE(p + i))),
gc(xasprintf("lfile offset (%,ld)", READ64LE(p + i))));
} else {
kprintf("/\tWARNING: ZIP64 EXTRA MISSING OFFSET\n");
}
i += 8;
}
}
if (!islocal) {
uint16_t disk;
disk = ZIP_CFILE_DISK(lf);
if (disk == 0xffff) {
if (i + 4 <= n) {
show(".long", gc(xasprintf("0x%x", READ32LE(p + i))),
gc(xasprintf("lfile disk (%,ld)", READ32LE(p + i))));
} else {
kprintf("/\tWARNING: ZIP64 EXTRA MISSING DISK\n");
}
i += 8;
}
}
if (i != n) {
kprintf("/\tWARNING: ZIP64 EXTRA HAS SUPERFLUOUS CONTENT\n");
}
}
void ShowInfoZipNewUnixExtra(uint8_t *p, size_t n, bool islocal) {
if (p[0] == 1 && p[1] == 4 && p[6] == 4) {
show(".byte", "1", "version");
show(".byte", "4", "uid length");
show(".long", gc(xasprintf("%u", READ32LE(p + 2))), "uid");
show(".byte", "4", "gid length");
show(".long", gc(xasprintf("%u", READ32LE(p + 7))), "gid");
} else {
disassemblehex(p, n, stdout);
}
}
void ShowExtra(uint8_t *lf, uint8_t *extra, bool islocal) {
switch (ZIP_EXTRA_HEADERID(extra)) {
case kZipExtraNtfs:
ShowNtfs(ZIP_EXTRA_CONTENT(extra), ZIP_EXTRA_CONTENTSIZE(extra));
break;
case kZipExtraExtendedTimestamp:
ShowExtendedTimestamp(ZIP_EXTRA_CONTENT(extra),
ZIP_EXTRA_CONTENTSIZE(extra), islocal);
break;
case kZipExtraZip64:
ShowZip64(lf, ZIP_EXTRA_CONTENT(extra), ZIP_EXTRA_CONTENTSIZE(extra),
islocal);
break;
case kZipExtraInfoZipNewUnixExtra:
ShowInfoZipNewUnixExtra(ZIP_EXTRA_CONTENT(extra),
ZIP_EXTRA_CONTENTSIZE(extra), islocal);
break;
default:
disassemblehex(ZIP_EXTRA_CONTENT(extra), ZIP_EXTRA_CONTENTSIZE(extra),
stdout);
break;
}
}
void ShowExternalAttributes(uint8_t *cf) {
uint32_t ea;
ea = ZIP_CFILE_EXTERNALATTRIBUTES(cf);
if (ZIP_CFILE_FILEATTRCOMPAT(cf) == kZipOsUnix) {
show(".short", RecreateFlags(kNtFileFlagNames, ea & 0xffff),
"dos file flags");
show(".short", format(b1, "%#o", ea >> 16), "st_mode");
} else {
show(".long", RecreateFlags(kNtFileFlagNames, ea), "externalattributes");
}
}
void ShowExtras(uint8_t *lf, uint8_t *extras, uint16_t extrassize,
bool islocal) {
int i;
bool first;
uint8_t *p, *pe;
if (extrassize) {
first = true;
for (p = extras, pe = extras + extrassize, i = 0; p < pe;
p += ZIP_EXTRA_SIZE(p), ++i) {
show(".short",
firstnonnull(findnamebyid(kZipExtraNames, ZIP_EXTRA_HEADERID(p)),
gc(xasprintf("0x%04hx", ZIP_EXTRA_HEADERID(p)))),
gc(xasprintf("%s[%d].%s", "extras", i, "headerid")));
show(".short", gc(xasprintf("%df-%df", (i + 2) * 10, (i + 1) * 10)),
gc(xasprintf("%s[%d].%s (%hd %s)", "extras", i, "contentsize",
ZIP_EXTRA_CONTENTSIZE(p), "bytes")));
if (first) {
first = false;
printf("%d:", (i + 1) * 10);
}
ShowExtra(lf, p, islocal);
printf("%d:", (i + 2) * 10);
}
}
putchar('\n');
}
void ShowLocalFileHeader(uint8_t *lf, uint16_t idx) {
printf("\n/\t%s #%hu (%zu %s @ %#lx)\n", "local file", idx + 1,
ZIP_LFILE_HDRSIZE(lf), "bytes", lf - map);
show(".ascii", format(b1, "%`'.*s", 4, lf), "magic");
show(".byte",
firstnonnull(findnamebyid(kZipEraNames, ZIP_LFILE_VERSIONNEED(lf)),
gc(xasprintf("%d", ZIP_LFILE_VERSIONNEED(lf)))),
"pkzip version need");
show(".byte",
firstnonnull(findnamebyid(kZipOsNames, ZIP_LFILE_OSNEED(lf)),
gc(xasprintf("%d", ZIP_LFILE_OSNEED(lf)))),
"os need");
ShowGeneralFlag(ZIP_LFILE_GENERALFLAG(lf));
ShowCompressionMethod(ZIP_LFILE_COMPRESSIONMETHOD(lf));
ShowTimestamp(ZIP_LFILE_LASTMODIFIEDTIME(lf), ZIP_LFILE_LASTMODIFIEDDATE(lf));
show(
".long",
format(b1, "%#x", ZIP_LFILE_CRC32(lf)), gc(xasprintf("%s (%#x)", "crc32z", GetZipLfileCompressedSize(lf) /* crc32_z(0, ZIP_LFILE_CONTENT(lf), GetZipLfileCompressedSize(lf)) */)));
if (ZIP_LFILE_COMPRESSEDSIZE(lf) == 0xFFFFFFFF) {
show(".long", "0xFFFFFFFF", "compressedsize (zip64)");
} else {
show(".long", "3f-2f",
format(b1, "%s (%u %s)", "compressedsize",
ZIP_LFILE_COMPRESSEDSIZE(lf), "bytes"));
}
show(".long",
ZIP_LFILE_UNCOMPRESSEDSIZE(lf) == 0xFFFFFFFF
? "0xFFFFFFFF"
: format(b1, "%u", ZIP_LFILE_UNCOMPRESSEDSIZE(lf)),
"uncompressedsize");
show(".short", "1f-0f",
format(b1, "%s (%hu %s)", "namesize", ZIP_LFILE_NAMESIZE(lf), "bytes"));
show(
".short", "2f-1f",
format(b1, "%s (%hu %s)", "extrasize", ZIP_LFILE_EXTRASIZE(lf), "bytes"));
printf("0:");
show(".ascii",
format(b1, "%`'s",
gc(strndup(ZIP_LFILE_NAME(lf), ZIP_LFILE_NAMESIZE(lf)))),
"name");
printf("1:");
ShowExtras(lf, ZIP_LFILE_EXTRA(lf), ZIP_LFILE_EXTRASIZE(lf), true);
printf("2:");
/* disassemblehex(ZIP_LFILE_CONTENT(lf), ZIP_LFILE_COMPRESSEDSIZE(lf),
* stdout); */
printf("3:\n");
}
void ShowCentralFileHeader(uint8_t *cf) {
printf("\n/\t%s (%zu %s @ %#lx)\n", "central directory file header",
ZIP_CFILE_HDRSIZE(cf), "bytes", cf - map);
show(".ascii", format(b1, "%`'.*s", 4, cf), "magic");
show(".byte", gc(xasprintf("%d", ZIP_CFILE_VERSIONMADE(cf))),
"zip version made");
show(".byte",
firstnonnull(findnamebyid(kZipOsNames, ZIP_CFILE_FILEATTRCOMPAT(cf)),
gc(xasprintf("%d", ZIP_CFILE_FILEATTRCOMPAT(cf)))),
"file attr compat");
show(".byte",
firstnonnull(findnamebyid(kZipEraNames, ZIP_CFILE_VERSIONNEED(cf)),
gc(xasprintf("%d", ZIP_CFILE_VERSIONNEED(cf)))),
"pkzip version need");
show(".byte",
firstnonnull(findnamebyid(kZipOsNames, ZIP_CFILE_OSNEED(cf)),
gc(xasprintf("%d", ZIP_CFILE_OSNEED(cf)))),
"os need");
ShowGeneralFlag(ZIP_CFILE_GENERALFLAG(cf));
ShowCompressionMethod(ZIP_CFILE_COMPRESSIONMETHOD(cf));
ShowTimestamp(ZIP_CFILE_LASTMODIFIEDTIME(cf), ZIP_CFILE_LASTMODIFIEDDATE(cf));
show(".long", format(b1, "%#x", ZIP_CFILE_CRC32(cf)), "crc32z");
if (ZIP_CFILE_COMPRESSEDSIZE(cf) == 0xFFFFFFFF) {
show(".long", "0xFFFFFFFF", "compressedsize (zip64)");
} else {
show(".long", format(b1, "%u", ZIP_CFILE_COMPRESSEDSIZE(cf)),
"compressedsize");
}
if (ZIP_CFILE_UNCOMPRESSEDSIZE(cf) == 0xFFFFFFFF) {
show(".long", "0xFFFFFFFF", "compressedsize (zip64)");
} else {
show(".long", format(b1, "%u", ZIP_CFILE_UNCOMPRESSEDSIZE(cf)),
"uncompressedsize");
}
show(".short", "1f-0f",
format(b1, "%s (%hu %s)", "namesize", ZIP_CFILE_NAMESIZE(cf), "bytes"));
show(
".short", "2f-1f",
format(b1, "%s (%hu %s)", "extrasize", ZIP_CFILE_EXTRASIZE(cf), "bytes"));
show(".short", "3f-2f",
format(b1, "%s (%hu %s)", "commentsize", ZIP_CFILE_COMMENTSIZE(cf),
"bytes"));
show(".short", format(b1, "%hu", ZIP_CFILE_DISK(cf)), "disk");
show(".short",
RecreateFlags(kZipIattrNames, ZIP_CFILE_INTERNALATTRIBUTES(cf) & 1),
"internalattributes");
ShowExternalAttributes(cf);
if (ZIP_CFILE_OFFSET(cf) == 0xFFFFFFFF) {
show(".long", "0xFFFFFFFF", "lfile hdr offset (zip64)");
} else {
show(".long", format(b1, "0x%x", ZIP_CFILE_OFFSET(cf)), "lfile hdr offset");
}
printf("0:");
show(".ascii",
format(b1, "%`'s",
gc(strndup(ZIP_CFILE_NAME(cf), ZIP_CFILE_NAMESIZE(cf)))),
"name");
printf("1:");
ShowExtras(cf, ZIP_CFILE_EXTRA(cf), ZIP_CFILE_EXTRASIZE(cf), false);
printf("2:");
show(".ascii",
format(b1, "%`'.*s", ZIP_CFILE_COMMENTSIZE(cf), ZIP_CFILE_COMMENT(cf)),
"comment");
printf("3:\n");
}
void ShowCentralDirHeader32(uint8_t *cd) {
printf("\n/\t%s (%zu %s @ %#lx)\n", "end of central directory header",
ZIP_CDIR_HDRSIZE(cd), "bytes", cd - map);
show(".ascii", format(b1, "%`'.*s", 4, cd), "magic");
show(".short", format(b1, "%hd", ZIP_CDIR_DISK(cd)), "disk");
show(".short", format(b1, "%hd", ZIP_CDIR_STARTINGDISK(cd)), "startingdisk");
show(".short", format(b1, "%hu", ZIP_CDIR_RECORDSONDISK(cd)),
"recordsondisk");
show(".short", format(b1, "%hu", ZIP_CDIR_RECORDS(cd)), "records");
show(".long", format(b1, "%u", ZIP_CDIR_SIZE(cd)), "size");
show(".long", format(b1, "0x%x", ZIP_CDIR_OFFSET(cd)), "cfile hdrs offset");
show(".short", "1f-0f",
format(b1, "%s (%hu %s)", "commentsize", ZIP_CDIR_COMMENTSIZE(cd),
"bytes"));
printf("0:");
disassemblehex(ZIP_CDIR_COMMENT(cd), ZIP_CDIR_COMMENTSIZE(cd), stdout);
printf("1:\n");
}
void ShowCentralDirHeader64(uint8_t *cd) {
printf("\n/\t%s (%zu %s @ %#lx)\n", "zip64 end of central directory header",
ZIP_CDIR64_HDRSIZE(cd), "bytes", cd - map);
show(".ascii", format(b1, "%`'.*s", 4, cd), "magic");
show(".quad", format(b1, "%lu", ZIP_CDIR64_HDRSIZE(cd) - 12), "hdr size");
show(".short", format(b1, "%hd", ZIP_CDIR64_VERSIONMADE(cd)), "version made");
show(".short", format(b1, "%hd", ZIP_CDIR64_VERSIONNEED(cd)), "version need");
show(".long", format(b1, "%d", ZIP_CDIR64_DISK(cd)), "disk");
show(".long", format(b1, "%d", ZIP_CDIR64_STARTINGDISK(cd)), "startingdisk");
show(".quad", format(b1, "%lu", ZIP_CDIR64_RECORDSONDISK(cd)),
"recordsondisk");
show(".quad", format(b1, "%lu", ZIP_CDIR64_RECORDS(cd)), "records");
show(".quad", format(b1, "%lu", ZIP_CDIR64_SIZE(cd)), "cdir size");
show(".quad", format(b1, "0x%lx", ZIP_CDIR64_OFFSET(cd)), "cdir offset");
printf("0:");
disassemblehex(ZIP_CDIR64_COMMENT(cd), ZIP_CDIR64_COMMENTSIZE(cd), stdout);
printf("1:\n");
cd += ZIP_CDIR64_HDRSIZE(cd);
printf("\n/\t%s (%zu %s)\n", "zip64 end of central directory locator",
kZipCdir64LocatorSize, "bytes");
show(".ascii", format(b1, "%`'.*s", 4, cd), "magic");
show(".long", format(b1, "%d", READ32LE(cd + 4)), "startingdisk");
show(".quad", format(b1, "0x%lx", READ64LE(cd + 4 + 4)), "eocd64 offset");
show(".long", format(b1, "%d", READ32LE(cd + 4 + 4 + 8)), "totaldisks");
}
int IsZipEocd32(const uint8_t *p, size_t n, size_t i) {
size_t offset;
if (i > n || n - i < kZipCdirHdrMinSize) {
return kZipErrorEocdOffsetOverflow;
}
if (READ32LE(p + i) != kZipCdirHdrMagic) {
return kZipErrorEocdMagicNotFound;
}
if (i + ZIP_CDIR_HDRSIZE(p + i) > n) {
return kZipErrorEocdSizeOverflow;
}
if (ZIP_CDIR_DISK(p + i) != ZIP_CDIR_STARTINGDISK(p + i)) {
return kZipErrorEocdDiskMismatch;
}
if (ZIP_CDIR_RECORDSONDISK(p + i) != ZIP_CDIR_RECORDS(p + i)) {
return kZipErrorEocdRecordsMismatch;
}
if (ZIP_CDIR_RECORDS(p + i) * kZipCfileHdrMinSize > ZIP_CDIR_SIZE(p + i)) {
return kZipErrorEocdRecordsOverflow;
}
if (ckd_add(&offset, ZIP_CDIR_OFFSET(p + i), ZIP_CDIR_SIZE(p + i))) {
return kZipErrorEocdOffsetSizeOverflow;
}
if (offset > i) {
return kZipErrorCdirOffsetPastEocd;
}
return kZipOk;
}
uint8_t *GetZipCdir32(const uint8_t *p, size_t n) {
int64_t i, e, err;
if (n >= kZipCdirHdrMinSize) {
i = n - kZipCdirHdrMinSize;
e = MAX(0, n - 65536);
for (; i >= e; --i) {
if (READ32LE(p + i) == kZipCdirHdrMagic) {
if ((err = IsZipEocd32(p, n, i)) == kZipOk) {
return (/*unconst*/ uint8_t *)(p + i);
}
kprintf("warning: found eocd32 magic at offset 0x%lx that didn't look "
"like an eocd32 record\n",
i);
}
}
}
return NULL;
}
uint8_t *GetZipCdir64(const uint8_t *p, size_t n) {
int64_t e, i, j;
if (n >= kZipCdir64LocatorSize) {
i = n - kZipCdir64LocatorSize;
e = MAX(0, n - 65536);
for (; i >= e; --i) {
if (READ32LE(p + i) == kZipCdir64LocatorMagic) {
if ((j = ZIP_LOCATE64_OFFSET(p + i)) + kZipCdir64HdrMinSize <= n) {
CHECK_EQ(kZipCdir64HdrMagic, ZIP_CDIR64_MAGIC((uint8_t *)p + j));
return (uint8_t *)p + j;
}
kprintf("warning: found eocd64 locator magic that "
"didn't look like an eocd64 locator record\n");
}
}
}
return NULL;
}
void DisassembleZip(const char *path, uint8_t *p, size_t n) {
size_t pos;
uint16_t i;
static int records;
uint8_t *eocd32, *eocd64, *cdir, *cf, *lf;
eocd32 = GetZipCdir32(p, n);
eocd64 = GetZipCdir64(p, n);
CHECK(eocd32 || eocd64);
pos = 0;
if (eocd64) {
records = ZIP_CDIR64_RECORDS(eocd64);
cdir = p + ZIP_CDIR64_OFFSET(eocd64);
} else {
records = ZIP_CDIR_RECORDS(eocd32);
cdir = p + ZIP_CDIR_OFFSET(eocd32);
}
for (i = 0, cf = cdir; i < records; ++i, cf += ZIP_CFILE_HDRSIZE(cf)) {
lf = p + GetZipCfileOffset(cf);
CHECK_EQ(kZipLfileHdrMagic, ZIP_LFILE_MAGIC(lf));
AdvancePosition(p, &pos, lf - p);
ShowLocalFileHeader(lf, i);
pos = (lf - p) + ZIP_LFILE_SIZE(lf);
}
for (i = 0, cf = cdir; i < records; ++i, cf += ZIP_CFILE_HDRSIZE(cf)) {
CHECK_EQ(kZipCfileHdrMagic, ZIP_CFILE_MAGIC(cf));
AdvancePosition(p, &pos, cf - p);
ShowCentralFileHeader(cf);
pos = (cf - p) + ZIP_CFILE_HDRSIZE(cf);
}
/* TODO(jart): This is absurd. */
if (eocd32 && eocd64) {
if (eocd32 < eocd64) {
ShowCentralDirHeader32(eocd32);
AdvancePosition(p, &pos, eocd32 - p);
ShowCentralDirHeader64(eocd64);
AdvancePosition(p, &pos, eocd64 - p);
} else {
/* pos = eocd64 - p + ZIP_CDIR_HDRSIZE(eocd64); */
/* AdvancePosition(p, &pos, n); */
ShowCentralDirHeader64(eocd64);
AdvancePosition(p, &pos, eocd64 - p);
/* pos = eocd32 - p + ZIP_CDIR_HDRSIZE(eocd32); */
/* AdvancePosition(p, &pos, n); */
ShowCentralDirHeader32(eocd32);
AdvancePosition(p, &pos, eocd32 - p);
}
} else if (eocd32) {
ShowCentralDirHeader32(eocd32);
AdvancePosition(p, &pos, eocd32 - p);
} else {
ShowCentralDirHeader64(eocd64);
AdvancePosition(p, &pos, eocd64 - p);
}
pos = n;
AdvancePosition(p, &pos, n);
}
int main(int argc, char *argv[]) {
int fd;
struct stat st;
ShowCrashReports();
CHECK_EQ(2, argc);
CHECK_NE(-1, (fd = open(argv[1], O_RDONLY)));
CHECK_NE(-1, fstat(fd, &st));
CHECK_GE(st.st_size, kZipCdirHdrMinSize);
CHECK_NE(MAP_FAILED,
(map = mmap(NULL, st.st_size, PROT_READ, MAP_SHARED, fd, 0)));
showtitle("αcτµαlly pδrταblε εxεcµταblε", "tool/decode/zip",
basename(argv[1]), NULL, &kModelineAsm);
DisassembleZip(argv[1], map, st.st_size);
CHECK_NE(-1, munmap(map, st.st_size));
CHECK_NE(-1, close(fd));
return 0;
}