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xash3d-fwgs/filesystem/zip.c

731 lines
17 KiB
C

/*
zip.c - ZIP support for filesystem
Copyright (C) 2019 Mr0maks
Copyright (C) 2019-2023 Xash3D FWGS contributors
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
*/
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#if XASH_POSIX
#include <unistd.h>
#endif
#include <errno.h>
#include <stddef.h>
#include STDINT_H
#include "port.h"
#include "filesystem_internal.h"
#include "crtlib.h"
#include "common/com_strings.h"
#include "miniz.h"
#define ZIP_HEADER_LF (('K'<<8)+('P')+(0x03<<16)+(0x04<<24))
#define ZIP_HEADER_SPANNED ((0x08<<24)+(0x07<<16)+('K'<<8)+'P')
#define ZIP_HEADER_CDF ((0x02<<24)+(0x01<<16)+('K'<<8)+'P')
#define ZIP_HEADER_EOCD ((0x06<<24)+(0x05<<16)+('K'<<8)+'P')
#define ZIP_COMPRESSION_NO_COMPRESSION 0
#define ZIP_COMPRESSION_DEFLATED 8
#define ZIP_ZIP64 0xffffffff
#pragma pack( push, 1 )
typedef struct zip_header_s
{
uint32_t signature; // little endian ZIP_HEADER
uint16_t version; // version of pkzip need to unpack
uint16_t flags; // flags (16 bits == 16 flags)
uint16_t compression_flags; // compression flags (bits)
uint32_t dos_date; // file modification time and file modification date
uint32_t crc32; //crc32
uint32_t compressed_size;
uint32_t uncompressed_size;
uint16_t filename_len;
uint16_t extrafield_len;
} zip_header_t;
/*
in zip64 comp and uncompr size == 0xffffffff remeber this
compressed and uncompress filesize stored in extra field
*/
typedef struct zip_header_extra_s
{
uint32_t signature; // ZIP_HEADER_SPANNED
uint32_t crc32;
uint32_t compressed_size;
uint32_t uncompressed_size;
} zip_header_extra_t;
typedef struct zip_cdf_header_s
{
uint32_t signature;
uint16_t version;
uint16_t version_need;
uint16_t generalPurposeBitFlag;
uint16_t flags;
uint16_t modification_time;
uint16_t modification_date;
uint32_t crc32;
uint32_t compressed_size;
uint32_t uncompressed_size;
uint16_t filename_len;
uint16_t extrafield_len;
uint16_t file_commentary_len;
uint16_t disk_start;
uint16_t internal_attr;
uint32_t external_attr;
uint32_t local_header_offset;
} zip_cdf_header_t;
typedef struct zip_header_eocd_s
{
uint16_t disk_number;
uint16_t start_disk_number;
uint16_t number_central_directory_record;
uint16_t total_central_directory_record;
uint32_t size_of_central_directory;
uint32_t central_directory_offset;
uint16_t commentary_len;
} zip_header_eocd_t;
#pragma pack( pop )
// ZIP errors
enum
{
ZIP_LOAD_OK = 0,
ZIP_LOAD_COULDNT_OPEN,
ZIP_LOAD_BAD_HEADER,
ZIP_LOAD_BAD_FOLDERS,
ZIP_LOAD_NO_FILES,
ZIP_LOAD_CORRUPTED
};
typedef struct zipfile_s
{
char name[MAX_SYSPATH];
fs_offset_t offset; // offset of local file header
fs_offset_t size; //original file size
fs_offset_t compressed_size; // compressed file size
uint16_t flags;
} zipfile_t;
struct zip_s
{
int handle;
int numfiles;
time_t filetime;
zipfile_t *files;
};
#ifdef XASH_REDUCE_FD
static void FS_EnsureOpenZip( zip_t *zip )
{
if( fs_last_zip == zip )
return;
if( fs_last_zip && (fs_last_zip->handle != -1) )
{
close( fs_last_zip->handle );
fs_last_zip->handle = -1;
}
fs_last_zip = zip;
if( zip && (zip->handle == -1) )
zip->handle = open( zip->filename, O_RDONLY|O_BINARY );
}
#else
static void FS_EnsureOpenZip( zip_t *zip ) {}
#endif
/*
============
FS_CloseZIP
============
*/
static void FS_CloseZIP( zip_t *zip )
{
if( zip->files )
Mem_Free( zip->files );
FS_EnsureOpenZip( NULL );
if( zip->handle >= 0 )
close( zip->handle );
Mem_Free( zip );
}
/*
============
FS_Close_ZIP
============
*/
static void FS_Close_ZIP( searchpath_t *search )
{
FS_CloseZIP( search->zip );
}
/*
============
FS_SortZip
============
*/
static int FS_SortZip( const void *a, const void *b )
{
return Q_stricmp( ( ( zipfile_t* )a )->name, ( ( zipfile_t* )b )->name );
}
/*
============
FS_LoadZip
============
*/
static zip_t *FS_LoadZip( const char *zipfile, int *error )
{
int numpackfiles = 0, i;
zip_cdf_header_t header_cdf;
zip_header_eocd_t header_eocd;
uint32_t signature;
fs_offset_t filepos = 0, length;
zipfile_t *info = NULL;
char filename_buffer[MAX_SYSPATH];
zip_t *zip = (zip_t *)Mem_Calloc( fs_mempool, sizeof( *zip ));
fs_size_t c;
zip->handle = open( zipfile, O_RDONLY|O_BINARY );
if( zip->handle < 0 )
{
Con_Reportf( S_ERROR "%s couldn't open\n", zipfile );
if( error )
*error = ZIP_LOAD_COULDNT_OPEN;
FS_CloseZIP( zip );
return NULL;
}
length = lseek( zip->handle, 0, SEEK_END );
if( length > UINT_MAX )
{
Con_Reportf( S_ERROR "%s bigger than 4GB.\n", zipfile );
if( error )
*error = ZIP_LOAD_COULDNT_OPEN;
FS_CloseZIP( zip );
return NULL;
}
lseek( zip->handle, 0, SEEK_SET );
c = read( zip->handle, &signature, sizeof( signature ) );
if( c != sizeof( signature ) || signature == ZIP_HEADER_EOCD )
{
Con_Reportf( S_WARN "%s has no files. Ignored.\n", zipfile );
if( error )
*error = ZIP_LOAD_NO_FILES;
FS_CloseZIP( zip );
return NULL;
}
if( signature != ZIP_HEADER_LF )
{
Con_Reportf( S_ERROR "%s is not a zip file. Ignored.\n", zipfile );
if( error )
*error = ZIP_LOAD_BAD_HEADER;
FS_CloseZIP( zip );
return NULL;
}
// Find oecd
lseek( zip->handle, 0, SEEK_SET );
filepos = length;
while ( filepos > 0 )
{
lseek( zip->handle, filepos, SEEK_SET );
c = read( zip->handle, &signature, sizeof( signature ) );
if( c == sizeof( signature ) && signature == ZIP_HEADER_EOCD )
break;
filepos -= sizeof( char ); // step back one byte
}
if( ZIP_HEADER_EOCD != signature )
{
Con_Reportf( S_ERROR "cannot find EOCD in %s. Zip file corrupted.\n", zipfile );
if( error )
*error = ZIP_LOAD_BAD_HEADER;
FS_CloseZIP( zip );
return NULL;
}
c = read( zip->handle, &header_eocd, sizeof( header_eocd ) );
if( c != sizeof( header_eocd ))
{
Con_Reportf( S_ERROR "invalid EOCD header in %s. Zip file corrupted.\n", zipfile );
if( error )
*error = ZIP_LOAD_BAD_HEADER;
FS_CloseZIP( zip );
return NULL;
}
// Move to CDF start
lseek( zip->handle, header_eocd.central_directory_offset, SEEK_SET );
// Calc count of files in archive
info = (zipfile_t *)Mem_Calloc( fs_mempool, sizeof( *info ) * header_eocd.total_central_directory_record );
for( i = 0; i < header_eocd.total_central_directory_record; i++ )
{
c = read( zip->handle, &header_cdf, sizeof( header_cdf ) );
if( c != sizeof( header_cdf ) || header_cdf.signature != ZIP_HEADER_CDF )
{
Con_Reportf( S_ERROR "CDF signature mismatch in %s. Zip file corrupted.\n", zipfile );
if( error )
*error = ZIP_LOAD_BAD_HEADER;
Mem_Free( info );
FS_CloseZIP( zip );
return NULL;
}
if( header_cdf.uncompressed_size && header_cdf.filename_len && ( header_cdf.filename_len < MAX_SYSPATH ) )
{
memset( &filename_buffer, '\0', MAX_SYSPATH );
c = read( zip->handle, &filename_buffer, header_cdf.filename_len );
if( c != header_cdf.filename_len )
{
Con_Reportf( S_ERROR "filename length mismatch in %s. Zip file corrupted.\n", zipfile );
if( error )
*error = ZIP_LOAD_CORRUPTED;
Mem_Free( info );
FS_CloseZIP( zip );
return NULL;
}
Q_strncpy( info[numpackfiles].name, filename_buffer, MAX_SYSPATH );
info[numpackfiles].size = header_cdf.uncompressed_size;
info[numpackfiles].compressed_size = header_cdf.compressed_size;
info[numpackfiles].offset = header_cdf.local_header_offset;
numpackfiles++;
}
else
lseek( zip->handle, header_cdf.filename_len, SEEK_CUR );
if( header_cdf.extrafield_len )
lseek( zip->handle, header_cdf.extrafield_len, SEEK_CUR );
if( header_cdf.file_commentary_len )
lseek( zip->handle, header_cdf.file_commentary_len, SEEK_CUR );
}
// recalculate offsets
for( i = 0; i < numpackfiles; i++ )
{
zip_header_t header;
lseek( zip->handle, info[i].offset, SEEK_SET );
c = read( zip->handle, &header, sizeof( header ) );
if( c != sizeof( header ))
{
Con_Reportf( S_ERROR "header length mismatch in %s. Zip file corrupted.\n", zipfile );
if( error )
*error = ZIP_LOAD_CORRUPTED;
Mem_Free( info );
FS_CloseZIP( zip );
return NULL;
}
info[i].flags = header.compression_flags;
info[i].offset = info[i].offset + header.filename_len + header.extrafield_len + sizeof( header );
}
zip->filetime = FS_SysFileTime( zipfile );
zip->numfiles = numpackfiles;
zip->files = info;
qsort( zip->files, zip->numfiles, sizeof( *zip->files ), FS_SortZip );
#ifdef XASH_REDUCE_FD
// will reopen when needed
close(zip->handle);
zip->handle = -1;
#endif
if( error )
*error = ZIP_LOAD_OK;
return zip;
}
/*
===========
FS_OpenZipFile
Open a packed file using its package file descriptor
===========
*/
static file_t *FS_OpenFile_ZIP( searchpath_t *search, const char *filename, const char *mode, int pack_ind )
{
zipfile_t *pfile;
pfile = &search->zip->files[pack_ind];
// compressed files handled in Zip_LoadFile
if( pfile->flags != ZIP_COMPRESSION_NO_COMPRESSION )
{
Con_Printf( S_ERROR "%s: can't open compressed file %s\n", __FUNCTION__, pfile->name );
return NULL;
}
return FS_OpenHandle( search->filename, search->zip->handle, pfile->offset, pfile->size );
}
/*
===========
FS_LoadZIPFile
===========
*/
static byte *FS_LoadZIPFile( searchpath_t *search, const char *path, int pack_ind, fs_offset_t *sizeptr )
{
zipfile_t *file;
int index;
byte *compressed_buffer = NULL, *decompressed_buffer = NULL;
int zlib_result = 0;
dword test_crc, final_crc;
z_stream decompress_stream;
size_t c;
if( sizeptr ) *sizeptr = 0;
file = &search->zip->files[pack_ind];
FS_EnsureOpenZip( search->zip );
if( lseek( search->zip->handle, file->offset, SEEK_SET ) == -1 )
return NULL;
/*if( read( search->zip->handle, &header, sizeof( header ) ) < 0 )
return NULL;
if( header.signature != ZIP_HEADER_LF )
{
Con_Reportf( S_ERROR "Zip_LoadFile: %s signature error\n", file->name );
return NULL;
}*/
if( file->flags == ZIP_COMPRESSION_NO_COMPRESSION )
{
decompressed_buffer = Mem_Malloc( fs_mempool, file->size + 1 );
decompressed_buffer[file->size] = '\0';
c = read( search->zip->handle, decompressed_buffer, file->size );
if( c != file->size )
{
Con_Reportf( S_ERROR "Zip_LoadFile: %s size doesn't match\n", file->name );
return NULL;
}
#if 0
CRC32_Init( &test_crc );
CRC32_ProcessBuffer( &test_crc, decompressed_buffer, file->size );
final_crc = CRC32_Final( test_crc );
if( final_crc != file->crc32 )
{
Con_Reportf( S_ERROR "Zip_LoadFile: %s file crc32 mismatch\n", file->name );
Mem_Free( decompressed_buffer );
return NULL;
}
#endif
if( sizeptr ) *sizeptr = file->size;
FS_EnsureOpenZip( NULL );
return decompressed_buffer;
}
else if( file->flags == ZIP_COMPRESSION_DEFLATED )
{
compressed_buffer = Mem_Malloc( fs_mempool, file->compressed_size + 1 );
decompressed_buffer = Mem_Malloc( fs_mempool, file->size + 1 );
decompressed_buffer[file->size] = '\0';
c = read( search->zip->handle, compressed_buffer, file->compressed_size );
if( c != file->compressed_size )
{
Con_Reportf( S_ERROR "Zip_LoadFile: %s compressed size doesn't match\n", file->name );
return NULL;
}
memset( &decompress_stream, 0, sizeof( decompress_stream ) );
decompress_stream.total_in = decompress_stream.avail_in = file->compressed_size;
decompress_stream.next_in = (Bytef *)compressed_buffer;
decompress_stream.total_out = decompress_stream.avail_out = file->size;
decompress_stream.next_out = (Bytef *)decompressed_buffer;
decompress_stream.zalloc = Z_NULL;
decompress_stream.zfree = Z_NULL;
decompress_stream.opaque = Z_NULL;
if( inflateInit2( &decompress_stream, -MAX_WBITS ) != Z_OK )
{
Con_Printf( S_ERROR "Zip_LoadFile: inflateInit2 failed\n" );
Mem_Free( compressed_buffer );
Mem_Free( decompressed_buffer );
return NULL;
}
zlib_result = inflate( &decompress_stream, Z_NO_FLUSH );
inflateEnd( &decompress_stream );
if( zlib_result == Z_OK || zlib_result == Z_STREAM_END )
{
Mem_Free( compressed_buffer ); // finaly free compressed buffer
#if 0
CRC32_Init( &test_crc );
CRC32_ProcessBuffer( &test_crc, decompressed_buffer, file->size );
final_crc = CRC32_Final( test_crc );
if( final_crc != file->crc32 )
{
Con_Reportf( S_ERROR "Zip_LoadFile: %s file crc32 mismatch\n", file->name );
Mem_Free( decompressed_buffer );
return NULL;
}
#endif
if( sizeptr ) *sizeptr = file->size;
FS_EnsureOpenZip( NULL );
return decompressed_buffer;
}
else
{
Con_Reportf( S_ERROR "Zip_LoadFile: %s : error while file decompressing. Zlib return code %d.\n", file->name, zlib_result );
Mem_Free( compressed_buffer );
Mem_Free( decompressed_buffer );
return NULL;
}
}
else
{
Con_Reportf( S_ERROR "Zip_LoadFile: %s : file compressed with unknown algorithm.\n", file->name );
return NULL;
}
FS_EnsureOpenZip( NULL );
return NULL;
}
/*
===========
FS_FileTime_ZIP
===========
*/
static int FS_FileTime_ZIP( searchpath_t *search, const char *filename )
{
return search->zip->filetime;
}
/*
===========
FS_PrintInfo_ZIP
===========
*/
static void FS_PrintInfo_ZIP( searchpath_t *search, char *dst, size_t size )
{
Q_snprintf( dst, size, "%s (%i files)", search->filename, search->zip->numfiles );
}
/*
===========
FS_FindFile_ZIP
===========
*/
static int FS_FindFile_ZIP( searchpath_t *search, const char *path, char *fixedname, size_t len )
{
int left, right, middle;
// look for the file (binary search)
left = 0;
right = search->zip->numfiles - 1;
while( left <= right )
{
int diff;
middle = (left + right) / 2;
diff = Q_stricmp( search->zip->files[middle].name, path );
// Found it
if( !diff )
{
if( fixedname )
Q_strncpy( fixedname, search->zip->files[middle].name, len );
return middle;
}
// if we're too far in the list
if( diff > 0 )
right = middle - 1;
else left = middle + 1;
}
return -1;
}
/*
===========
FS_Search_ZIP
===========
*/
static void FS_Search_ZIP( searchpath_t *search, stringlist_t *list, const char *pattern, int caseinsensitive )
{
string temp;
const char *slash, *backslash, *colon, *separator;
int j, i;
for( i = 0; i < search->zip->numfiles; i++ )
{
Q_strncpy( temp, search->zip->files[i].name, sizeof( temp ));
while( temp[0] )
{
if( matchpattern( temp, pattern, true ))
{
for( j = 0; j < list->numstrings; j++ )
{
if( !Q_strcmp( list->strings[j], temp ))
break;
}
if( j == list->numstrings )
stringlistappend( list, temp );
}
// strip off one path element at a time until empty
// this way directories are added to the listing if they match the pattern
slash = Q_strrchr( temp, '/' );
backslash = Q_strrchr( temp, '\\' );
colon = Q_strrchr( temp, ':' );
separator = temp;
if( separator < slash )
separator = slash;
if( separator < backslash )
separator = backslash;
if( separator < colon )
separator = colon;
*((char *)separator) = 0;
}
}
}
/*
===========
FS_AddZip_Fullpath
===========
*/
qboolean FS_AddZip_Fullpath( const char *zipfile, qboolean *already_loaded, int flags )
{
searchpath_t *search;
zip_t *zip = NULL;
const char *ext = COM_FileExtension( zipfile );
int errorcode = ZIP_LOAD_COULDNT_OPEN;
for( search = fs_searchpaths; search; search = search->next )
{
if( search->type == SEARCHPATH_ZIP && !Q_stricmp( search->filename, zipfile ))
{
if( already_loaded ) *already_loaded = true;
return true; // already loaded
}
}
if( already_loaded ) *already_loaded = false;
if( !Q_stricmp( ext, "pk3" ) )
zip = FS_LoadZip( zipfile, &errorcode );
if( zip )
{
string fullpath;
int i;
search = (searchpath_t *)Mem_Calloc( fs_mempool, sizeof( searchpath_t ) );
Q_strncpy( search->filename, zipfile, sizeof( search->filename ));
search->zip = zip;
search->type = SEARCHPATH_ZIP;
search->next = fs_searchpaths;
search->flags = flags;
search->pfnPrintInfo = FS_PrintInfo_ZIP;
search->pfnClose = FS_Close_ZIP;
search->pfnOpenFile = FS_OpenFile_ZIP;
search->pfnFileTime = FS_FileTime_ZIP;
search->pfnFindFile = FS_FindFile_ZIP;
search->pfnSearch = FS_Search_ZIP;
search->pfnLoadFile = FS_LoadZIPFile;
fs_searchpaths = search;
Con_Reportf( "Adding zipfile: %s (%i files)\n", zipfile, zip->numfiles );
// time to add in search list all the wads that contains in current pakfile (if do)
for( i = 0; i < zip->numfiles; i++ )
{
if( !Q_stricmp( COM_FileExtension( zip->files[i].name ), "wad" ))
{
Q_snprintf( fullpath, MAX_STRING, "%s/%s", zipfile, zip->files[i].name );
FS_AddWad_Fullpath( fullpath, NULL, flags );
}
}
return true;
}
else
{
if( errorcode != ZIP_LOAD_NO_FILES )
Con_Reportf( S_ERROR "FS_AddZip_Fullpath: unable to load zip \"%s\"\n", zipfile );
return false;
}
}