/
archiver_zip.c
1478 lines (1204 loc) · 44.3 KB
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/*
* ZIP support routines for PhysicsFS.
*
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* Please see the file LICENSE.txt in the source's root directory.
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*
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* This file written by Ryan C. Gordon, with some peeking at "unzip.c"
* by Gilles Vollant.
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*/
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#if (defined PHYSFS_SUPPORTS_ZIP)
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#include <stdio.h>
#include <stdlib.h>
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#include <string.h>
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#ifndef _WIN32_WCE
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#include <errno.h>
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#include <time.h>
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#endif
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#include "physfs.h"
#include "zlib.h"
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#define __PHYSICSFS_INTERNAL__
#include "physfs_internal.h"
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/*
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* A buffer of ZIP_READBUFSIZE is allocated for each compressed file opened,
* and is freed when you close the file; compressed data is read into
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* this buffer, and then is decompressed into the buffer passed to
* PHYSFS_read().
*
* Uncompressed entries in a zipfile do not allocate this buffer; they just
* read data directly into the buffer passed to PHYSFS_read().
*
* Depending on your speed and memory requirements, you should tweak this
* value.
*/
#define ZIP_READBUFSIZE (16 * 1024)
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/*
* Entries are "unresolved" until they are first opened. At that time,
* local file headers parsed/validated, data offsets will be updated to look
* at the actual file data instead of the header, and symlinks will be
* followed and optimized. This means that we don't seek and read around the
* archive until forced to do so, and after the first time, we had to do
* less reading and parsing, which is very CD-ROM friendly.
*/
typedef enum
{
ZIP_UNRESOLVED_FILE,
ZIP_UNRESOLVED_SYMLINK,
ZIP_RESOLVING,
ZIP_RESOLVED,
ZIP_BROKEN_FILE,
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ZIP_BROKEN_SYMLINK
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} ZipResolveType;
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/*
* One ZIPentry is kept for each file in an open ZIP archive.
*/
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typedef struct _ZIPentry
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{
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char *name; /* Name of file in archive */
struct _ZIPentry *symlink; /* NULL or file we symlink to */
ZipResolveType resolved; /* Have we resolved file/symlink? */
PHYSFS_uint32 offset; /* offset of data in archive */
PHYSFS_uint16 version; /* version made by */
PHYSFS_uint16 version_needed; /* version needed to extract */
PHYSFS_uint16 compression_method; /* compression method */
PHYSFS_uint32 crc; /* crc-32 */
PHYSFS_uint32 compressed_size; /* compressed size */
PHYSFS_uint32 uncompressed_size; /* uncompressed size */
PHYSFS_sint64 last_mod_time; /* last file mod time */
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} ZIPentry;
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/*
* One ZIPinfo is kept for each open ZIP archive.
*/
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typedef struct
{
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char *archiveName; /* path to ZIP in platform-dependent notation. */
PHYSFS_uint16 entryCount; /* Number of files in ZIP. */
ZIPentry *entries; /* info on all files in ZIP. */
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} ZIPinfo;
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/*
* One ZIPfileinfo is kept for each open file in a ZIP archive.
*/
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typedef struct
{
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ZIPentry *entry; /* Info on file. */
void *handle; /* physical file handle. */
PHYSFS_uint32 compressed_position; /* offset in compressed data. */
PHYSFS_uint32 uncompressed_position; /* tell() position. */
PHYSFS_uint8 *buffer; /* decompression buffer. */
z_stream stream; /* zlib stream state. */
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} ZIPfileinfo;
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/* Magic numbers... */
#define ZIP_LOCAL_FILE_SIG 0x04034b50
#define ZIP_CENTRAL_DIR_SIG 0x02014b50
#define ZIP_END_OF_CENTRAL_DIR_SIG 0x06054b50
/* compression methods... */
#define COMPMETH_NONE 0
/* ...and others... */
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#define UNIX_FILETYPE_MASK 0170000
#define UNIX_FILETYPE_SYMLINK 0120000
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/*
* Bridge physfs allocation functions to zlib's format...
*/
static voidpf zlibPhysfsAlloc(voidpf opaque, uInt items, uInt size)
{
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return ((PHYSFS_Allocator *) opaque)->Malloc(items * size);
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} /* zlibPhysfsAlloc */
/*
* Bridge physfs allocation functions to zlib's format...
*/
static void zlibPhysfsFree(voidpf opaque, voidpf address)
{
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((PHYSFS_Allocator *) opaque)->Free(address);
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} /* zlibPhysfsFree */
/*
* Construct a new z_stream to a sane state.
*/
static void initializeZStream(z_stream *pstr)
{
memset(pstr, '\0', sizeof (z_stream));
pstr->zalloc = zlibPhysfsAlloc;
pstr->zfree = zlibPhysfsFree;
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pstr->opaque = &allocator;
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} /* initializeZStream */
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static const char *zlib_error_string(int rc)
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{
switch (rc)
{
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case Z_OK: return NULL; /* not an error. */
case Z_STREAM_END: return NULL; /* not an error. */
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#ifndef _WIN32_WCE
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case Z_ERRNO: return strerror(errno);
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#endif
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case Z_NEED_DICT: return ERR_NEED_DICT;
case Z_DATA_ERROR: return ERR_DATA_ERROR;
case Z_MEM_ERROR: return ERR_MEMORY_ERROR;
case Z_BUF_ERROR: return ERR_BUFFER_ERROR;
case Z_VERSION_ERROR: return ERR_VERSION_ERROR;
default: return ERR_UNKNOWN_ERROR;
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} /* switch */
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} /* zlib_error_string */
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/*
* Wrap all zlib calls in this, so the physfs error state is set appropriately.
*/
static int zlib_err(int rc)
{
const char *str = zlib_error_string(rc);
if (str != NULL)
__PHYSFS_setError(str);
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return rc;
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} /* zlib_err */
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static inline int readAll(void *fh, void *buf, const PHYSFS_uint64 len)
{
return (__PHYSFS_platformRead(fh, buf, len) == len);
} /* readAll */
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/*
* Read an unsigned 32-bit int and swap to native byte order.
*/
static int readui32(void *in, PHYSFS_uint32 *val)
{
PHYSFS_uint32 v;
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BAIL_IF_MACRO(!readAll(in, &v, sizeof (v)), NULL, 0);
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*val = PHYSFS_swapULE32(v);
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return 1;
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} /* readui32 */
/*
* Read an unsigned 16-bit int and swap to native byte order.
*/
static int readui16(void *in, PHYSFS_uint16 *val)
{
PHYSFS_uint16 v;
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BAIL_IF_MACRO(!readAll(in, &v, sizeof (v)), NULL, 0);
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*val = PHYSFS_swapULE16(v);
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return 1;
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} /* readui16 */
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static PHYSFS_sint64 ZIP_read(fvoid *opaque, void *buf, PHYSFS_uint64 len)
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{
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ZIPfileinfo *finfo = (ZIPfileinfo *) opaque;
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ZIPentry *entry = finfo->entry;
PHYSFS_sint64 retval = 0;
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PHYSFS_sint64 maxread = (PHYSFS_sint64) len;
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PHYSFS_sint64 avail = entry->uncompressed_size -
finfo->uncompressed_position;
if (avail < maxread)
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maxread = avail;
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BAIL_IF_MACRO(maxread == 0, NULL, 0); /* quick rejection. */
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if (entry->compression_method == COMPMETH_NONE)
retval = __PHYSFS_platformRead(finfo->handle, buf, maxread);
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else
{
finfo->stream.next_out = buf;
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finfo->stream.avail_out = maxread;
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while (retval < maxread)
{
PHYSFS_uint32 before = finfo->stream.total_out;
int rc;
if (finfo->stream.avail_in == 0)
{
PHYSFS_sint64 br;
br = entry->compressed_size - finfo->compressed_position;
if (br > 0)
{
if (br > ZIP_READBUFSIZE)
br = ZIP_READBUFSIZE;
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br = __PHYSFS_platformRead(finfo->handle, finfo->buffer,
(PHYSFS_uint64) br);
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if (br <= 0)
break;
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finfo->compressed_position += (PHYSFS_uint32) br;
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finfo->stream.next_in = finfo->buffer;
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finfo->stream.avail_in = (PHYSFS_uint32) br;
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} /* if */
} /* if */
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rc = zlib_err(inflate(&finfo->stream, Z_SYNC_FLUSH));
retval += (finfo->stream.total_out - before);
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if (rc != Z_OK)
break;
} /* while */
} /* else */
if (retval > 0)
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finfo->uncompressed_position += (PHYSFS_uint32) retval;
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return retval;
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} /* ZIP_read */
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static PHYSFS_sint64 ZIP_write(fvoid *f, const void *buf, PHYSFS_uint64 len)
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{
BAIL_MACRO(ERR_NOT_SUPPORTED, -1);
} /* ZIP_write */
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static int ZIP_eof(fvoid *opaque)
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{
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ZIPfileinfo *finfo = (ZIPfileinfo *) opaque;
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return (finfo->uncompressed_position >= finfo->entry->uncompressed_size);
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} /* ZIP_eof */
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static PHYSFS_sint64 ZIP_tell(fvoid *opaque)
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{
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return ((ZIPfileinfo *) opaque)->uncompressed_position;
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} /* ZIP_tell */
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static int ZIP_seek(fvoid *opaque, PHYSFS_uint64 offset)
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{
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ZIPfileinfo *finfo = (ZIPfileinfo *) opaque;
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ZIPentry *entry = finfo->entry;
void *in = finfo->handle;
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BAIL_IF_MACRO(offset > entry->uncompressed_size, ERR_PAST_EOF, 0);
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if (entry->compression_method == COMPMETH_NONE)
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{
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PHYSFS_sint64 newpos = offset + entry->offset;
BAIL_IF_MACRO(!__PHYSFS_platformSeek(in, newpos), NULL, 0);
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finfo->uncompressed_position = (PHYSFS_uint32) offset;
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} /* if */
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else
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{
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/*
* If seeking backwards, we need to redecode the file
* from the start and throw away the compressed bits until we hit
* the offset we need. If seeking forward, we still need to
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* decode, but we don't rewind first.
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*/
if (offset < finfo->uncompressed_position)
{
/* we do a copy so state is sane if inflateInit2() fails. */
z_stream str;
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initializeZStream(&str);
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if (zlib_err(inflateInit2(&str, -MAX_WBITS)) != Z_OK)
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return 0;
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if (!__PHYSFS_platformSeek(in, entry->offset))
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return 0;
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inflateEnd(&finfo->stream);
memcpy(&finfo->stream, &str, sizeof (z_stream));
finfo->uncompressed_position = finfo->compressed_position = 0;
} /* if */
while (finfo->uncompressed_position != offset)
{
PHYSFS_uint8 buf[512];
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PHYSFS_uint32 maxread;
maxread = (PHYSFS_uint32) (offset - finfo->uncompressed_position);
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if (maxread > sizeof (buf))
maxread = sizeof (buf);
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if (ZIP_read(finfo, buf, maxread) != maxread)
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return 0;
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} /* while */
} /* else */
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return 1;
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} /* ZIP_seek */
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static PHYSFS_sint64 ZIP_fileLength(fvoid *opaque)
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{
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ZIPfileinfo *finfo = (ZIPfileinfo *) opaque;
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return finfo->entry->uncompressed_size;
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} /* ZIP_fileLength */
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static int ZIP_fileClose(fvoid *opaque)
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{
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ZIPfileinfo *finfo = (ZIPfileinfo *) opaque;
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BAIL_IF_MACRO(!__PHYSFS_platformClose(finfo->handle), NULL, 0);
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if (finfo->entry->compression_method != COMPMETH_NONE)
inflateEnd(&finfo->stream);
if (finfo->buffer != NULL)
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allocator.Free(finfo->buffer);
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allocator.Free(finfo);
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return 1;
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} /* ZIP_fileClose */
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static PHYSFS_sint64 zip_find_end_of_central_dir(void *in, PHYSFS_sint64 *len)
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{
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PHYSFS_uint8 buf[256];
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PHYSFS_uint8 extra[4] = { 0, 0, 0, 0 };
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PHYSFS_sint32 i = 0;
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PHYSFS_sint64 filelen;
PHYSFS_sint64 filepos;
PHYSFS_sint32 maxread;
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PHYSFS_sint32 totalread = 0;
int found = 0;
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filelen = __PHYSFS_platformFileLength(in);
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BAIL_IF_MACRO(filelen == -1, NULL, 0); /* !!! FIXME: unlocalized string */
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BAIL_IF_MACRO(filelen > 0xFFFFFFFF, "ZIP bigger than 4 gigs?!", 0);
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/*
* Jump to the end of the file and start reading backwards.
* The last thing in the file is the zipfile comment, which is variable
* length, and the field that specifies its size is before it in the
* file (argh!)...this means that we need to scan backwards until we
* hit the end-of-central-dir signature. We can then sanity check that
* the comment was as big as it should be to make sure we're in the
* right place. The comment length field is 16 bits, so we can stop
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* searching for that signature after a little more than 64k at most,
* and call it a corrupted zipfile.
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*/
if (sizeof (buf) < filelen)
{
filepos = filelen - sizeof (buf);
maxread = sizeof (buf);
} /* if */
else
{
filepos = 0;
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maxread = (PHYSFS_uint32) filelen;
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} /* else */
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while ((totalread < filelen) && (totalread < 65557))
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{
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BAIL_IF_MACRO(!__PHYSFS_platformSeek(in, filepos), NULL, -1);
/* make sure we catch a signature between buffers. */
if (totalread != 0)
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{
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if (!readAll(in, buf, maxread - 4))
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return -1;
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memcpy(&buf[maxread - 4], &extra, sizeof (extra));
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totalread += maxread - 4;
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} /* if */
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else
{
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if (!readAll(in, buf, maxread))
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return -1;
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totalread += maxread;
} /* else */
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memcpy(&extra, buf, sizeof (extra));
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for (i = maxread - 4; i > 0; i--)
{
if ((buf[i + 0] == 0x50) &&
(buf[i + 1] == 0x4B) &&
(buf[i + 2] == 0x05) &&
(buf[i + 3] == 0x06) )
{
found = 1; /* that's the signature! */
break;
} /* if */
} /* for */
if (found)
break;
filepos -= (maxread - 4);
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if (filepos < 0)
filepos = 0;
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} /* while */
BAIL_IF_MACRO(!found, ERR_NOT_AN_ARCHIVE, -1);
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if (len != NULL)
*len = filelen;
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return (filepos + i);
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} /* zip_find_end_of_central_dir */
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static int ZIP_isArchive(const char *filename, int forWriting)
{
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PHYSFS_uint32 sig;
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int retval = 0;
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void *in;
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in = __PHYSFS_platformOpenRead(filename);
BAIL_IF_MACRO(in == NULL, NULL, 0);
/*
* The first thing in a zip file might be the signature of the
* first local file record, so it makes for a quick determination.
*/
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if (readui32(in, &sig))
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{
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retval = (sig == ZIP_LOCAL_FILE_SIG);
if (!retval)
{
/*
* No sig...might be a ZIP with data at the start
* (a self-extracting executable, etc), so we'll have to do
* it the hard way...
*/
retval = (zip_find_end_of_central_dir(in, NULL) != -1);
} /* if */
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} /* if */
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__PHYSFS_platformClose(in);
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return retval;
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} /* ZIP_isArchive */
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static void zip_free_entries(ZIPentry *entries, PHYSFS_uint32 max)
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{
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PHYSFS_uint32 i;
for (i = 0; i < max; i++)
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{
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ZIPentry *entry = &entries[i];
if (entry->name != NULL)
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allocator.Free(entry->name);
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} /* for */
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allocator.Free(entries);
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} /* zip_free_entries */
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/*
* This will find the ZIPentry associated with a path in platform-independent
* notation. Directories don't have ZIPentries associated with them, but
* (*isDir) will be set to non-zero if a dir was hit.
*/
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static ZIPentry *zip_find_entry(const ZIPinfo *info, const char *path,
int *isDir)
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{
ZIPentry *a = info->entries;
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PHYSFS_sint32 pathlen = strlen(path);
PHYSFS_sint32 lo = 0;
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PHYSFS_sint32 hi = (PHYSFS_sint32) (info->entryCount - 1);
PHYSFS_sint32 middle;
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const char *thispath = NULL;
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int rc;
while (lo <= hi)
{
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middle = lo + ((hi - lo) / 2);
thispath = a[middle].name;
rc = strncmp(path, thispath, pathlen);
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if (rc > 0)
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lo = middle + 1;
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else if (rc < 0)
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hi = middle - 1;
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else /* substring match...might be dir or entry or nothing. */
{
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if (isDir != NULL)
{
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*isDir = (thispath[pathlen] == '/');
if (*isDir)
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return NULL;
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} /* if */
if (thispath[pathlen] == '\0') /* found entry? */
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return &a[middle];
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else
hi = middle - 1; /* adjust search params, try again. */
} /* if */
} /* while */
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if (isDir != NULL)
*isDir = 0;
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BAIL_MACRO(ERR_NO_SUCH_FILE, NULL);
} /* zip_find_entry */
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/* Convert paths from old, buggy DOS zippers... */
static void zip_convert_dos_path(ZIPentry *entry, char *path)
{
PHYSFS_uint8 hosttype = (PHYSFS_uint8) ((entry->version >> 8) & 0xFF);
if (hosttype == 0) /* FS_FAT_ */
{
while (*path)
{
if (*path == '\\')
*path = '/';
path++;
} /* while */
} /* if */
} /* zip_convert_dos_path */
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static void zip_expand_symlink_path(char *path)
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{
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char *ptr = path;
char *prevptr = path;
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while (1)
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{
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ptr = strchr(ptr, '/');
if (ptr == NULL)
break;
if (*(ptr + 1) == '.')
{
if (*(ptr + 2) == '/')
{
/* current dir in middle of string: ditch it. */
memmove(ptr, ptr + 2, strlen(ptr + 2) + 1);
} /* else if */
else if (*(ptr + 2) == '\0')
{
/* current dir at end of string: ditch it. */
*ptr = '\0';
} /* else if */
else if (*(ptr + 2) == '.')
{
if (*(ptr + 3) == '/')
{
/* parent dir in middle: move back one, if possible. */
memmove(prevptr, ptr + 4, strlen(ptr + 4) + 1);
ptr = prevptr;
while (prevptr != path)
{
prevptr--;
if (*prevptr == '/')
{
prevptr++;
break;
} /* if */
} /* while */
} /* if */
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if (*(ptr + 3) == '\0')
{
/* parent dir at end: move back one, if possible. */
*prevptr = '\0';
} /* if */
} /* if */
} /* if */
else
{
prevptr = ptr;
} /* else */
} /* while */
} /* zip_expand_symlink_path */
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/* (forward reference: zip_follow_symlink and zip_resolve call each other.) */
static int zip_resolve(void *in, ZIPinfo *info, ZIPentry *entry);
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/*
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* Look for the entry named by (path). If it exists, resolve it, and return
* a pointer to that entry. If it's another symlink, keep resolving until you
* hit a real file and then return a pointer to the final non-symlink entry.
* If there's a problem, return NULL. (path) is always free()'d by this
* function.
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*/
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static ZIPentry *zip_follow_symlink(void *in, ZIPinfo *info, char *path)
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{
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ZIPentry *entry;
zip_expand_symlink_path(path);
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entry = zip_find_entry(info, path, NULL);
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if (entry != NULL)
{
if (!zip_resolve(in, info, entry)) /* recursive! */
entry = NULL;
else
{
if (entry->symlink != NULL)
entry = entry->symlink;
} /* else */
} /* if */
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allocator.Free(path);
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return entry;
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} /* zip_follow_symlink */
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static int zip_resolve_symlink(void *in, ZIPinfo *info, ZIPentry *entry)
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{
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char *path;
PHYSFS_uint32 size = entry->uncompressed_size;
int rc = 0;
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/*
* We've already parsed the local file header of the symlink at this
* point. Now we need to read the actual link from the file data and
* follow it.
*/
BAIL_IF_MACRO(!__PHYSFS_platformSeek(in, entry->offset), NULL, 0);
669
path = (char *) allocator.Malloc(size + 1);
670
BAIL_IF_MACRO(path == NULL, ERR_OUT_OF_MEMORY, 0);
671
672
if (entry->compression_method == COMPMETH_NONE)
673
rc = readAll(in, path, size);
674
675
676
677
else /* symlink target path is compressed... */
{
z_stream stream;
678
679
PHYSFS_uint32 complen = entry->compressed_size;
PHYSFS_uint8 *compressed = (PHYSFS_uint8*) __PHYSFS_smallAlloc(complen);
680
681
if (compressed != NULL)
{
682
if (readAll(in, compressed, complen))
683
{
684
initializeZStream(&stream);
685
stream.next_in = compressed;
686
stream.avail_in = complen;
687
stream.next_out = (unsigned char *) path;
688
689
690
stream.avail_out = size;
if (zlib_err(inflateInit2(&stream, -MAX_WBITS)) == Z_OK)
{
691
rc = zlib_err(inflate(&stream, Z_FINISH));
692
inflateEnd(&stream);
693
694
695
/* both are acceptable outcomes... */
rc = ((rc == Z_OK) || (rc == Z_STREAM_END));
696
697
} /* if */
} /* if */
698
__PHYSFS_smallFree(compressed);
699
700
} /* if */
} /* else */
701
702
if (!rc)
703
allocator.Free(path);
704
705
706
707
708
709
710
else
{
path[entry->uncompressed_size] = '\0'; /* null-terminate it. */
zip_convert_dos_path(entry, path);
entry->symlink = zip_follow_symlink(in, info, path);
} /* else */
711
return (entry->symlink != NULL);
712
713
714
715
716
717
718
719
720
721
722
723
724
} /* zip_resolve_symlink */
/*
* Parse the local file header of an entry, and update entry->offset.
*/
static int zip_parse_local(void *in, ZIPentry *entry)
{
PHYSFS_uint32 ui32;
PHYSFS_uint16 ui16;
PHYSFS_uint16 fnamelen;
PHYSFS_uint16 extralen;
725
726
727
728
729
730
731
/*
* crc and (un)compressed_size are always zero if this is a "JAR"
* archive created with Sun's Java tools, apparently. We only
* consider this archive corrupted if those entries don't match and
* aren't zero. That seems to work well.
*/
732
733
734
735
736
737
738
739
740
741
BAIL_IF_MACRO(!__PHYSFS_platformSeek(in, entry->offset), NULL, 0);
BAIL_IF_MACRO(!readui32(in, &ui32), NULL, 0);
BAIL_IF_MACRO(ui32 != ZIP_LOCAL_FILE_SIG, ERR_CORRUPTED, 0);
BAIL_IF_MACRO(!readui16(in, &ui16), NULL, 0);
BAIL_IF_MACRO(ui16 != entry->version_needed, ERR_CORRUPTED, 0);
BAIL_IF_MACRO(!readui16(in, &ui16), NULL, 0); /* general bits. */
BAIL_IF_MACRO(!readui16(in, &ui16), NULL, 0);
BAIL_IF_MACRO(ui16 != entry->compression_method, ERR_CORRUPTED, 0);
BAIL_IF_MACRO(!readui32(in, &ui32), NULL, 0); /* date/time */
BAIL_IF_MACRO(!readui32(in, &ui32), NULL, 0);
742
BAIL_IF_MACRO(ui32 && (ui32 != entry->crc), ERR_CORRUPTED, 0);
743
BAIL_IF_MACRO(!readui32(in, &ui32), NULL, 0);
744
BAIL_IF_MACRO(ui32 && (ui32 != entry->compressed_size), ERR_CORRUPTED, 0);
745
BAIL_IF_MACRO(!readui32(in, &ui32), NULL, 0);
746
BAIL_IF_MACRO(ui32 && (ui32 != entry->uncompressed_size),ERR_CORRUPTED,0);
747
748
749
750
BAIL_IF_MACRO(!readui16(in, &fnamelen), NULL, 0);
BAIL_IF_MACRO(!readui16(in, &extralen), NULL, 0);
entry->offset += fnamelen + extralen + 30;
751
return 1;
752
753
754
755
756
757
758
759
760
761
762
763
764
765
766
767
768
769
770
771
772
773
774
775
776
777
778
779
780
781
782
783
784
785
786
787
788
789
790
791
792
793
} /* zip_parse_local */
static int zip_resolve(void *in, ZIPinfo *info, ZIPentry *entry)
{
int retval = 1;
ZipResolveType resolve_type = entry->resolved;
/* Don't bother if we've failed to resolve this entry before. */
BAIL_IF_MACRO(resolve_type == ZIP_BROKEN_FILE, ERR_CORRUPTED, 0);
BAIL_IF_MACRO(resolve_type == ZIP_BROKEN_SYMLINK, ERR_CORRUPTED, 0);
/* uhoh...infinite symlink loop! */
BAIL_IF_MACRO(resolve_type == ZIP_RESOLVING, ERR_SYMLINK_LOOP, 0);
/*
* We fix up the offset to point to the actual data on the
* first open, since we don't want to seek across the whole file on
* archive open (can be SLOW on large, CD-stored files), but we
* need to check the local file header...not just for corruption,
* but since it stores offset info the central directory does not.
*/
if (resolve_type != ZIP_RESOLVED)
{
entry->resolved = ZIP_RESOLVING;
retval = zip_parse_local(in, entry);
if (retval)
{
/*
* If it's a symlink, find the original file. This will cause
* resolution of other entries (other symlinks and, eventually,
* the real file) if all goes well.
*/
if (resolve_type == ZIP_UNRESOLVED_SYMLINK)
retval = zip_resolve_symlink(in, info, entry);
} /* if */
if (resolve_type == ZIP_UNRESOLVED_SYMLINK)
entry->resolved = ((retval) ? ZIP_RESOLVED : ZIP_BROKEN_SYMLINK);
else if (resolve_type == ZIP_UNRESOLVED_FILE)
entry->resolved = ((retval) ? ZIP_RESOLVED : ZIP_BROKEN_FILE);
794
} /* if */
795
796
return retval;
797
} /* zip_resolve */
798
799
800
static int zip_version_does_symlinks(PHYSFS_uint32 version)
801
802
{
int retval = 0;
803
PHYSFS_uint8 hosttype = (PHYSFS_uint8) ((version >> 8) & 0xFF);
804
805
806
switch (hosttype)
{
807
808
809
810
811
812
813
814
815
816
817
818
819
820
821
822
823
/*
* These are the platforms that can NOT build an archive with
* symlinks, according to the Info-ZIP project.
*/
case 0: /* FS_FAT_ */
case 1: /* AMIGA_ */
case 2: /* VMS_ */
case 4: /* VM_CSM_ */
case 6: /* FS_HPFS_ */
case 11: /* FS_NTFS_ */
case 14: /* FS_VFAT_ */
case 13: /* ACORN_ */
case 15: /* MVS_ */
case 18: /* THEOS_ */
break; /* do nothing. */
default: /* assume the rest to be unix-like. */
824
825
826
827
retval = 1;
break;
} /* switch */
828
return retval;
829
830
831
} /* zip_version_does_symlinks */
832
static int zip_entry_is_symlink(const ZIPentry *entry)
833
{
834
835
836
return ((entry->resolved == ZIP_UNRESOLVED_SYMLINK) ||
(entry->resolved == ZIP_BROKEN_SYMLINK) ||
(entry->symlink));
837
} /* zip_entry_is_symlink */
838
839
840
static int zip_has_symlink_attr(ZIPentry *entry, PHYSFS_uint32 extern_attr)
841
{
842
PHYSFS_uint16 xattr = ((extern_attr >> 16) & 0xFFFF);
843
844
845
return ( (zip_version_does_symlinks(entry->version)) &&
(entry->uncompressed_size > 0) &&
((xattr & UNIX_FILETYPE_MASK) == UNIX_FILETYPE_SYMLINK) );
846
} /* zip_has_symlink_attr */
847
848
849
static PHYSFS_sint64 zip_dos_time_to_physfs_time(PHYSFS_uint32 dostime)
850
{
851
#ifdef _WIN32_WCE
852
853
854
/* We have no struct tm and no mktime right now.
FIXME: This should probably be fixed at some point.
*/
855
856
return -1;
#else
857
PHYSFS_uint32 dosdate;
858
859
struct tm unixtime;
memset(&unixtime, '\0', sizeof (unixtime));
860
861
862
dosdate = (PHYSFS_uint32) ((dostime >> 16) & 0xFFFF);
dostime &= 0xFFFF;
863
864
865
866
867
868
869
870
871
872
873
874
875
/* dissect date */
unixtime.tm_year = ((dosdate >> 9) & 0x7F) + 80;
unixtime.tm_mon = ((dosdate >> 5) & 0x0F) - 1;
unixtime.tm_mday = ((dosdate ) & 0x1F);
/* dissect time */
unixtime.tm_hour = ((dostime >> 11) & 0x1F);
unixtime.tm_min = ((dostime >> 5) & 0x3F);
unixtime.tm_sec = ((dostime << 1) & 0x3E);
/* let mktime calculate daylight savings time. */
unixtime.tm_isdst = -1;
876
877
return ((PHYSFS_sint64) mktime(&unixtime));
878
#endif
879
} /* zip_dos_time_to_physfs_time */
880
881
882
static int zip_load_entry(void *in, ZIPentry *entry, PHYSFS_uint32 ofs_fixup)
883
884
885
886
887
888
889
890
891
892
893
894
895
896
{
PHYSFS_uint16 fnamelen, extralen, commentlen;
PHYSFS_uint32 external_attr;
PHYSFS_uint16 ui16;
PHYSFS_uint32 ui32;
PHYSFS_sint64 si64;
/* sanity check with central directory signature... */
BAIL_IF_MACRO(!readui32(in, &ui32), NULL, 0);
BAIL_IF_MACRO(ui32 != ZIP_CENTRAL_DIR_SIG, ERR_CORRUPTED, 0);
/* Get the pertinent parts of the record... */
BAIL_IF_MACRO(!readui16(in, &entry->version), NULL, 0);
BAIL_IF_MACRO(!readui16(in, &entry->version_needed), NULL, 0);
897
BAIL_IF_MACRO(!readui16(in, &ui16), NULL, 0); /* general bits */
898
899
BAIL_IF_MACRO(!readui16(in, &entry->compression_method), NULL, 0);
BAIL_IF_MACRO(!readui32(in, &ui32), NULL, 0);
900
entry->last_mod_time = zip_dos_time_to_physfs_time(ui32);
901
902
903
904
905
906
907
908
909
910
911
BAIL_IF_MACRO(!readui32(in, &entry->crc), NULL, 0);
BAIL_IF_MACRO(!readui32(in, &entry->compressed_size), NULL, 0);
BAIL_IF_MACRO(!readui32(in, &entry->uncompressed_size), NULL, 0);
BAIL_IF_MACRO(!readui16(in, &fnamelen), NULL, 0);
BAIL_IF_MACRO(!readui16(in, &extralen), NULL, 0);
BAIL_IF_MACRO(!readui16(in, &commentlen), NULL, 0);
BAIL_IF_MACRO(!readui16(in, &ui16), NULL, 0); /* disk number start */
BAIL_IF_MACRO(!readui16(in, &ui16), NULL, 0); /* internal file attribs */
BAIL_IF_MACRO(!readui32(in, &external_attr), NULL, 0);
BAIL_IF_MACRO(!readui32(in, &entry->offset), NULL, 0);
entry->offset += ofs_fixup;
912
913
914
915
entry->symlink = NULL; /* will be resolved later, if necessary. */
entry->resolved = (zip_has_symlink_attr(entry, external_attr)) ?
ZIP_UNRESOLVED_SYMLINK : ZIP_UNRESOLVED_FILE;
916
917
entry->name = (char *) allocator.Malloc(fnamelen + 1);
918
BAIL_IF_MACRO(entry->name == NULL, ERR_OUT_OF_MEMORY, 0);
919
if (!readAll(in, entry->name, fnamelen))
920
goto zip_load_entry_puked;
921
922
entry->name[fnamelen] = '\0'; /* null-terminate the filename. */
923
zip_convert_dos_path(entry, entry->name);
924
925
926
si64 = __PHYSFS_platformTell(in);
if (si64 == -1)
927
goto zip_load_entry_puked;
928
929
930
/* seek to the start of the next entry in the central directory... */
if (!__PHYSFS_platformSeek(in, si64 + extralen + commentlen))
931
goto zip_load_entry_puked;
932
933
return 1; /* success. */
934
935
zip_load_entry_puked:
936
allocator.Free(entry->name);
937
return 0; /* failure. */
938
939
940
} /* zip_load_entry */
941
static int zip_entry_cmp(void *_a, PHYSFS_uint32 one, PHYSFS_uint32 two)
942
{
943
944
945
if (one != two)
{
const ZIPentry *a = (const ZIPentry *) _a;
946
return strcmp(a[one].name, a[two].name);
947
948
949
} /* if */
return 0;
950
} /* zip_entry_cmp */
951
952
953
static void zip_entry_swap(void *_a, PHYSFS_uint32 one, PHYSFS_uint32 two)
954
{
955
956
957
958
959
960
961
962
963
if (one != two)
{
ZIPentry tmp;
ZIPentry *first = &(((ZIPentry *) _a)[one]);
ZIPentry *second = &(((ZIPentry *) _a)[two]);
memcpy(&tmp, first, sizeof (ZIPentry));
memcpy(first, second, sizeof (ZIPentry));
memcpy(second, &tmp, sizeof (ZIPentry));
} /* if */
964
} /* zip_entry_swap */
965
966
967
static int zip_load_entries(void *in, ZIPinfo *info,
968
969
970
971
972
973
974
PHYSFS_uint32 data_ofs, PHYSFS_uint32 central_ofs)
{
PHYSFS_uint32 max = info->entryCount;
PHYSFS_uint32 i;
BAIL_IF_MACRO(!__PHYSFS_platformSeek(in, central_ofs), NULL, 0);
975
info->entries = (ZIPentry *) allocator.Malloc(sizeof (ZIPentry) * max);
976
977
978
979
BAIL_IF_MACRO(info->entries == NULL, ERR_OUT_OF_MEMORY, 0);
for (i = 0; i < max; i++)
{
980
if (!zip_load_entry(in, &info->entries[i], data_ofs))
981
{
982
zip_free_entries(info->entries, i);
983
return 0;
984
985
986
} /* if */
} /* for */
987
__PHYSFS_sort(info->entries, max, zip_entry_cmp, zip_entry_swap);
988
return 1;
989
} /* zip_load_entries */
990
991
992
static int zip_parse_end_of_central_dir(void *in, ZIPinfo *info,
993
994
PHYSFS_uint32 *data_start,
PHYSFS_uint32 *central_dir_ofs)
995
{
996
997
998
999
PHYSFS_uint32 ui32;
PHYSFS_uint16 ui16;
PHYSFS_sint64 len;
PHYSFS_sint64 pos;
1000