snes9xgx/source/ngc/fileop.cpp
2008-09-27 07:57:03 +00:00

275 lines
6.2 KiB
C++

/****************************************************************************
* Snes9x 1.51 Nintendo Wii/Gamecube Port
*
* softdev July 2006
* crunchy2 May 2007
* Michniewski 2008
* Tantric August 2008
*
* fileop.cpp
*
* FAT File operations
***************************************************************************/
#include <gccore.h>
#include <stdio.h>
#include <string.h>
#include <ogcsys.h>
#include <zlib.h>
#include "memmap.h"
#include "fileop.h"
#include "unzip.h"
#include "video.h"
#include "menudraw.h"
#include "filesel.h"
#include "sram.h"
#include "preferences.h"
#include "snes9xGX.h"
FILE * filehandle;
/****************************************************************************
* fat_is_mounted
* to check whether FAT media are detected.
***************************************************************************/
bool FatIsMounted(PARTITION_INTERFACE partition) {
char prefix[] = "fatX:/";
prefix[3] = partition + '0';
DIR_ITER *dir = diropen(prefix);
if (dir) {
dirclose(dir);
return true;
}
return false;
}
/****************************************************************************
* changeFATInterface
* Checks if the device (method) specified is available, and
* sets libfat to use the device
***************************************************************************/
bool ChangeFATInterface(int method, bool silent)
{
bool devFound = false;
if(method == METHOD_SD)
{
// check which SD device is loaded
#ifdef HW_RVL
if (FatIsMounted(PI_INTERNAL_SD))
{
devFound = true;
fatSetDefaultInterface(PI_INTERNAL_SD);
}
#endif
if (!devFound && FatIsMounted(PI_SDGECKO_A))
{
devFound = true;
fatSetDefaultInterface(PI_SDGECKO_A);
}
if(!devFound && FatIsMounted(PI_SDGECKO_B))
{
devFound = true;
fatSetDefaultInterface(PI_SDGECKO_B);
}
if(!devFound)
{
if(!silent)
WaitPrompt ((char *)"SD card not found!");
}
}
else if(method == METHOD_USB)
{
#ifdef HW_RVL
if(FatIsMounted(PI_USBSTORAGE))
{
devFound = true;
fatSetDefaultInterface(PI_USBSTORAGE);
}
else
{
if(!silent)
WaitPrompt ((char *)"USB flash drive not found!");
}
#endif
}
return devFound;
}
/***************************************************************************
* Browse FAT subdirectories
**************************************************************************/
int
ParseFATdirectory(int method)
{
int nbfiles = 0;
DIR_ITER *fatdir;
char filename[MAXPATHLEN];
struct stat filestat;
char msg[128];
// initialize selection
selection = offset = 0;
// Clear any existing values
memset (&filelist, 0, sizeof (FILEENTRIES) * MAXFILES);
// open the directory
fatdir = diropen(currentdir);
if (fatdir == NULL)
{
sprintf(msg, "Couldn't open %s", currentdir);
WaitPrompt(msg);
// if we can't open the dir, open root dir
sprintf(currentdir,"%s",ROOTFATDIR);
fatdir = diropen(currentdir);
if (fatdir == NULL)
{
sprintf(msg, "Error opening %s", currentdir);
WaitPrompt(msg);
return 0;
}
}
// index files/folders
while(dirnext(fatdir,filename,&filestat) == 0)
{
if(strcmp(filename,".") != 0)
{
memset(&filelist[nbfiles], 0, sizeof(FILEENTRIES));
strncpy(filelist[nbfiles].filename, filename, MAXPATHLEN);
strncpy(filelist[nbfiles].displayname, filename, MAXDISPLAY+1); // crop name for display
filelist[nbfiles].length = filestat.st_size;
filelist[nbfiles].flags = (filestat.st_mode & _IFDIR) == 0 ? 0 : 1; // flag this as a dir
nbfiles++;
}
}
// close directory
dirclose(fatdir);
// Sort the file list
qsort(filelist, nbfiles, sizeof(FILEENTRIES), FileSortCallback);
return nbfiles;
}
/****************************************************************************
* LoadFATFile
***************************************************************************/
int
LoadFATFile ()
{
char zipbuffer[2048];
char filepath[MAXPATHLEN];
FILE *handle;
unsigned char *rbuffer = (unsigned char *) Memory.ROM;
u32 size;
/* Check filename length */
if ((strlen(currentdir)+1+strlen(filelist[selection].filename)) < MAXPATHLEN)
sprintf(filepath, "%s/%s",currentdir,filelist[selection].filename);
else
{
WaitPrompt((char*) "Maximum filepath length reached!");
return -1;
}
handle = fopen (filepath, "rb");
if (handle > 0)
{
fread (zipbuffer, 1, 2048, handle);
if (IsZipFile (zipbuffer))
{
size = UnZipFile (rbuffer, handle); // unzip from FAT
}
else
{
// Just load the file up
fseek(handle, 0, SEEK_END);
size = ftell(handle); // get filesize
fseek(handle, 2048, SEEK_SET); // seek back to point where we left off
memcpy (rbuffer, zipbuffer, 2048); // copy what we already read
fread (rbuffer + 2048, 1, size - 2048, handle);
}
fclose (handle);
return size;
}
else
{
WaitPrompt((char*) "Error opening file");
return 0;
}
return 0;
}
/****************************************************************************
* Load savebuffer from FAT file
***************************************************************************/
int
LoadBufferFromFAT (char *filepath, bool silent)
{
FILE *handle;
int boffset = 0;
int read = 0;
handle = fopen (filepath, "rb");
if (handle <= 0)
{
if ( !silent )
{
char msg[100];
sprintf(msg, "Couldn't open %s", filepath);
WaitPrompt (msg);
}
return 0;
}
/*** This is really nice, just load the file and decode it ***/
while ((read = fread (savebuffer + boffset, 1, 1024, handle)) > 0)
{
boffset += read;
}
fclose (handle);
return boffset;
}
/****************************************************************************
* Write savebuffer to FAT card file
***************************************************************************/
int
SaveBufferToFAT (char *filepath, int datasize, bool silent)
{
FILE *handle;
if (datasize)
{
handle = fopen (filepath, "wb");
if (handle <= 0)
{
char msg[100];
sprintf(msg, "Couldn't save %s", filepath);
WaitPrompt (msg);
return 0;
}
fwrite (savebuffer, 1, datasize, handle);
fclose (handle);
}
return datasize;
}