fceugx/source/ngc/gcunzip.c
2008-10-14 09:21:58 +00:00

556 lines
13 KiB
C

/****************************************************************************
* FCE Ultra 0.98.12
* Nintendo Wii/Gamecube Port
*
* Tantric September 2008
*
* gcunzip.h
*
* Unzip routines
****************************************************************************/
#include <gccore.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <zlib.h>
#include "../sz/7zCrc.h"
#include "../sz/7zIn.h"
#include "../sz/7zExtract.h"
#include "fceuconfig.h"
#include "dvd.h"
#include "smbop.h"
#include "fileop.h"
#include "menudraw.h"
#include "gcunzip.h"
/*
* PKWare Zip Header - adopted into zip standard
*/
#define MAXROM 0x500000
#define ZIPCHUNK 2048
/*
* Zip files are stored little endian
* Support functions for short and int types
*/
u32
FLIP32 (u32 b)
{
unsigned int c;
c = (b & 0xff000000) >> 24;
c |= (b & 0xff0000) >> 8;
c |= (b & 0xff00) << 8;
c |= (b & 0xff) << 24;
return c;
}
u16
FLIP16 (u16 b)
{
u16 c;
c = (b & 0xff00) >> 8;
c |= (b & 0xff) << 8;
return c;
}
/****************************************************************************
* IsZipFile
*
* Returns 1 when Zip signature is found
****************************************************************************/
int
IsZipFile (char *buffer)
{
unsigned int *check;
check = (unsigned int *) buffer;
if (check[0] == 0x504b0304) // ZIP file
return 1;
return 0;
}
/*****************************************************************************
* UnZipBuffer
*
* It should be noted that there is a limit of 5MB total size for any ROM
******************************************************************************/
int
UnZipBuffer (unsigned char *outbuffer, int method)
{
PKZIPHEADER pkzip;
int zipoffset = 0;
int zipchunk = 0;
char out[ZIPCHUNK];
z_stream zs;
int res;
int bufferoffset = 0;
int readoffset = 0;
int have = 0;
char readbuffer[ZIPCHUNK];
char msg[128];
u64 discoffset = 0;
// Read Zip Header
switch (method)
{
case METHOD_SD:
case METHOD_USB:
fseek(fatfile, 0, SEEK_SET);
fread (readbuffer, 1, ZIPCHUNK, fatfile);
break;
case METHOD_DVD:
discoffset = dvddir;
dvd_read (readbuffer, ZIPCHUNK, discoffset);
break;
case METHOD_SMB:
SMB_ReadFile(readbuffer, ZIPCHUNK, 0, smbfile);
break;
}
/*** Copy PKZip header to local, used as info ***/
memcpy (&pkzip, readbuffer, sizeof (PKZIPHEADER));
pkzip.uncompressedSize = FLIP32 (pkzip.uncompressedSize);
sprintf (msg, "Unzipping %d bytes ... Wait",
pkzip.uncompressedSize);
ShowAction (msg);
/*** Prepare the zip stream ***/
memset (&zs, 0, sizeof (z_stream));
zs.zalloc = Z_NULL;
zs.zfree = Z_NULL;
zs.opaque = Z_NULL;
zs.avail_in = 0;
zs.next_in = Z_NULL;
res = inflateInit2 (&zs, -MAX_WBITS);
if (res != Z_OK)
return 0;
/*** Set ZipChunk for first pass ***/
zipoffset =
(sizeof (PKZIPHEADER) + FLIP16 (pkzip.filenameLength) +
FLIP16 (pkzip.extraDataLength));
zipchunk = ZIPCHUNK - zipoffset;
/*** Now do it! ***/
do
{
zs.avail_in = zipchunk;
zs.next_in = (Bytef *) & readbuffer[zipoffset];
/*** Now inflate until input buffer is exhausted ***/
do
{
zs.avail_out = ZIPCHUNK;
zs.next_out = (Bytef *) & out;
res = inflate (&zs, Z_NO_FLUSH);
if (res == Z_MEM_ERROR)
{
inflateEnd (&zs);
return 0;
}
have = ZIPCHUNK - zs.avail_out;
if (have)
{
/*** Copy to normal block buffer ***/
memcpy (&outbuffer[bufferoffset], &out, have);
bufferoffset += have;
}
}
while (zs.avail_out == 0);
// Readup the next 2k block
zipoffset = 0;
zipchunk = ZIPCHUNK;
switch (method)
{
case METHOD_SD:
case METHOD_USB:
fread (readbuffer, 1, ZIPCHUNK, fatfile);
break;
case METHOD_DVD:
readoffset += ZIPCHUNK;
dvd_read (readbuffer, ZIPCHUNK, discoffset+readoffset);
break;
case METHOD_SMB:
readoffset += ZIPCHUNK;
SMB_ReadFile(readbuffer, ZIPCHUNK, readoffset, smbfile);
break;
}
}
while (res != Z_STREAM_END);
inflateEnd (&zs);
if (res == Z_STREAM_END)
{
if (pkzip.uncompressedSize == (u32) bufferoffset)
return bufferoffset;
else
return pkzip.uncompressedSize;
}
return 0;
}
/****************************************************************************
* GetFirstZipFilename
*
* Returns the filename of the first file in the zipped archive
* The idea here is to do the least amount of work required
***************************************************************************/
char *
GetFirstZipFilename (int method)
{
char * firstFilename = NULL;
char tempbuffer[ZIPCHUNK];
// read start of ZIP
switch (method)
{
case METHOD_SD: // SD Card
case METHOD_USB: // USB
LoadFATFile (tempbuffer, ZIPCHUNK);
break;
case METHOD_DVD: // DVD
LoadDVDFile ((unsigned char *)tempbuffer, ZIPCHUNK);
break;
case METHOD_SMB: // From SMB
LoadSMBFile (tempbuffer, ZIPCHUNK);
break;
}
tempbuffer[28] = 0; // truncate - filename length is 2 bytes long (bytes 26-27)
int namelength = tempbuffer[26]; // filename length starts 26 bytes in
firstFilename = &tempbuffer[30]; // first filename of a ZIP starts 31 bytes in
firstFilename[namelength] = 0; // truncate at filename length
return firstFilename;
}
/****************************************************************************
* 7z functions
***************************************************************************/
typedef struct _SzFileInStream
{
ISzInStream InStream;
u64 offset; // offset of the file
unsigned int len; // length of the file
u64 pos; // current position of the file pointer
} SzFileInStream;
// 7zip error list
char szerrormsg[][30] = {
"7z: Data error",
"7z: Out of memory",
"7z: CRC Error",
"7z: Not implemented",
"7z: Fail",
"7z: Archive error",
"7z: Dictionary too large",
};
SZ_RESULT SzRes;
SzFileInStream SzArchiveStream;
CArchiveDatabaseEx SzDb;
ISzAlloc SzAllocImp;
ISzAlloc SzAllocTempImp;
UInt32 SzBlockIndex = 0xFFFFFFFF;
size_t SzBufferSize;
size_t SzOffset;
size_t SzOutSizeProcessed;
CFileItem *SzF;
char sz_buffer[2048];
int szMethod = 0;
/****************************************************************************
* Is7ZipFile
*
* Returns 1 when 7z signature is found
****************************************************************************/
int
Is7ZipFile (char *buffer)
{
unsigned int *check;
check = (unsigned int *) buffer;
// 7z signature
static Byte Signature[6] = {'7', 'z', 0xBC, 0xAF, 0x27, 0x1C};
int i;
for(i = 0; i < 6; i++)
if(buffer[i] != Signature[i])
return 0;
return 1; // 7z archive found
}
// display an error message
void SzDisplayError(SZ_RESULT res)
{
WaitPrompt(szerrormsg[(res - 1)]);
}
// function used by the 7zip SDK to read data from SD/USB/DVD/SMB
SZ_RESULT SzFileReadImp(void *object, void **buffer, size_t maxRequiredSize, size_t *processedSize)
{
// the void* object is a SzFileInStream
SzFileInStream *s = (SzFileInStream *)object;
// calculate offset
u64 offset = (u64)(s->offset + s->pos);
if(maxRequiredSize > 2048)
maxRequiredSize = 2048;
// read data
switch(szMethod)
{
case METHOD_SD:
case METHOD_USB:
fseek(fatfile, offset, SEEK_SET);
fread (sz_buffer, 1, maxRequiredSize, fatfile);
break;
case METHOD_DVD:
dvd_safe_read(sz_buffer, maxRequiredSize, offset);
break;
case METHOD_SMB:
SMB_ReadFile(sz_buffer, maxRequiredSize, offset, smbfile);
break;
}
*buffer = sz_buffer;
*processedSize = maxRequiredSize;
s->pos += *processedSize;
return SZ_OK;
}
// function used by the 7zip SDK to change the filepointer
SZ_RESULT SzFileSeekImp(void *object, CFileSize pos)
{
// the void* object is a SzFileInStream
SzFileInStream *s = (SzFileInStream *)object;
// check if the 7z SDK wants to move the pointer to somewhere after the EOF
if(pos >= s->len)
{
WaitPrompt("7z Error: The 7z SDK wants to start reading somewhere behind the EOF...");
return SZE_FAIL;
}
// save new position and return
s->pos = pos;
return SZ_OK;
}
/****************************************************************************
* SzParse
*
* Opens a 7z file, and parses it
* Right now doesn't parse 7z, since we'll always use the first file
* But it could parse the entire 7z for full browsing capability
***************************************************************************/
int SzParse(char * filepath, int method)
{
int nbfiles = 0;
// save the offset and the length of this file inside the archive stream structure
SzArchiveStream.offset = filelist[selection].offset;
SzArchiveStream.len = filelist[selection].length;
SzArchiveStream.pos = 0;
// open file
switch (method)
{
case METHOD_SD:
case METHOD_USB:
fatfile = fopen (filepath, "rb");
if(!fatfile)
return 0;
break;
case METHOD_SMB:
smbfile = OpenSMBFile(filepath);
if(!smbfile)
return 0;
break;
}
// set szMethod to current chosen load method
szMethod = method;
// set handler functions for reading data from FAT/SMB/DVD
SzArchiveStream.InStream.Read = SzFileReadImp;
SzArchiveStream.InStream.Seek = SzFileSeekImp;
// set default 7Zip SDK handlers for allocation and freeing memory
SzAllocImp.Alloc = SzAlloc;
SzAllocImp.Free = SzFree;
SzAllocTempImp.Alloc = SzAllocTemp;
SzAllocTempImp.Free = SzFreeTemp;
// prepare CRC and 7Zip database structures
InitCrcTable();
SzArDbExInit(&SzDb);
// open the archive
SzRes = SzArchiveOpen(&SzArchiveStream.InStream, &SzDb, &SzAllocImp,
&SzAllocTempImp);
if (SzRes != SZ_OK)
{
SzDisplayError(SzRes);
// free memory used by the 7z SDK
SzClose();
}
else // archive opened successfully
{
if(SzDb.Database.NumFiles > 0)
{
// Parses the 7z into a full file listing
// store the current 7z data
unsigned int oldLength = filelist[selection].length;
u64 oldOffset = filelist[selection].offset;
// erase all previous entries
memset(&filelist, 0, sizeof(FILEENTRIES) * MAXFILES);
// add '..' folder
strncpy(filelist[0].displayname, "..", 2);
filelist[0].flags = 1;
filelist[0].length = oldLength;
filelist[0].offset = oldOffset; // in case the user wants exit 7z
// get contents and parse them into file list structure
unsigned int SzI, SzJ;
SzJ = 1;
for (SzI = 0; SzI < SzDb.Database.NumFiles; SzI++)
{
SzF = SzDb.Database.Files + SzI;
// skip directories
if (SzF->IsDirectory)
continue;
// do not exceed MAXFILES to avoid possible buffer overflows
if (SzJ == (MAXFILES - 1))
break;
// parse information about this file to the dvd file list structure
strncpy(filelist[SzJ].filename, SzF->Name, MAXJOLIET); // copy joliet name (useless...)
filelist[SzJ].filename[MAXJOLIET] = 0; // terminate string
strncpy(filelist[SzJ].displayname, SzF->Name, MAXDISPLAY+1); // crop name for display
filelist[SzJ].length = SzF->Size; // filesize
filelist[SzJ].offset = SzI; // the extraction function identifies the file with this number
filelist[SzJ].flags = 0; // only files will be displayed (-> no flags)
SzJ++;
}
// update maxfiles and select the first entry
offset = selection = 0;
nbfiles = SzJ;
}
else
{
SzArDbExFree(&SzDb, SzAllocImp.Free);
}
}
// close file
switch (method)
{
case METHOD_SD:
case METHOD_USB:
fclose(fatfile);
break;
case METHOD_SMB:
SMB_CloseFile (smbfile);
break;
}
return nbfiles;
}
/****************************************************************************
* SzClose
*
* Closes a 7z file
***************************************************************************/
void SzClose()
{
if(SzDb.Database.NumFiles > 0)
SzArDbExFree(&SzDb, SzAllocImp.Free);
}
/****************************************************************************
* SzExtractFile
*
* Extracts the given file # into the buffer specified
* Must parse the 7z BEFORE running this function
***************************************************************************/
int SzExtractFile(int i, unsigned char *buffer)
{
// prepare some variables
SzBlockIndex = 0xFFFFFFFF;
SzOffset = 0;
// Unzip the file
ShowAction("Unzipping file. Please wait...");
SzRes = SzExtract2(
&SzArchiveStream.InStream,
&SzDb,
i, // index of file
&SzBlockIndex, // index of solid block
&buffer,
&SzBufferSize,
&SzOffset, // offset of stream for required file in *outBuffer
&SzOutSizeProcessed, // size of file in *outBuffer
&SzAllocImp,
&SzAllocTempImp);
// close 7Zip archive and free memory
SzClose();
// check for errors
if(SzRes != SZ_OK)
{
// display error message
SzDisplayError(SzRes);
return 0;
}
else
{
return SzOutSizeProcessed;
}
}