fceugx/source/ngc/fileop.cpp

661 lines
15 KiB
C++

/****************************************************************************
* FCE Ultra 0.98.12
* Nintendo Wii/Gamecube Port
*
* Tantric 2008-2009
*
* fileop.cpp
*
* File operations
****************************************************************************/
#include <gccore.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <malloc.h>
#include <ogcsys.h>
#include <sys/dir.h>
#include <sys/stat.h>
#include <zlib.h>
#include <sdcard/wiisd_io.h>
#include <sdcard/gcsd.h>
#include <ogc/usbstorage.h>
#include "dvd.h"
#include "common.h"
#include "fceugx.h"
#include "fileop.h"
#include "memcardop.h"
#include "networkop.h"
#include "gcunzip.h"
#include "menu.h"
#include "filebrowser.h"
unsigned char savebuffer[SAVEBUFFERSIZE] ATTRIBUTE_ALIGN(32);
static mutex_t bufferLock = LWP_MUTEX_NULL;
FILE * file; // file pointer - the only one we should ever use!
bool unmountRequired[9] = { false, false, false, false, false, false, false, false, false };
bool isMounted[9] = { false, false, false, false, false, false, false, false, false };
#ifdef HW_RVL
const DISC_INTERFACE* sd = &__io_wiisd;
const DISC_INTERFACE* usb = &__io_usbstorage;
#else
const DISC_INTERFACE* carda = &__io_gcsda;
const DISC_INTERFACE* cardb = &__io_gcsdb;
#endif
/****************************************************************************
* deviceThreading
***************************************************************************/
static lwp_t devicethread = LWP_THREAD_NULL;
static bool deviceHalt = true;
/****************************************************************************
* ResumeDeviceThread
*
* Signals the device thread to start, and resumes the thread.
***************************************************************************/
void
ResumeDeviceThread()
{
deviceHalt = false;
LWP_ResumeThread(devicethread);
}
/****************************************************************************
* HaltGui
*
* Signals the device thread to stop.
***************************************************************************/
void
HaltDeviceThread()
{
deviceHalt = true;
#ifdef HW_RVL
if(inNetworkInit) // don't wait for network to initialize
return;
#endif
// wait for thread to finish
while(!LWP_ThreadIsSuspended(devicethread))
usleep(100);
}
/****************************************************************************
* devicecallback
*
* This checks our devices for changes (SD/USB removed) and
* initializes the network in the background
***************************************************************************/
static int devsleep = 1*1000*1000;
static void *
devicecallback (void *arg)
{
while(devsleep > 0)
{
if(deviceHalt)
LWP_SuspendThread(devicethread);
usleep(100);
devsleep -= 100;
}
while (1)
{
#ifdef HW_RVL
if(isMounted[METHOD_SD])
{
if(!sd->isInserted()) // check if the device was removed
{
unmountRequired[METHOD_SD] = true;
isMounted[METHOD_SD] = false;
}
}
if(isMounted[METHOD_USB])
{
if(!usb->isInserted()) // check if the device was removed
{
unmountRequired[METHOD_USB] = true;
isMounted[METHOD_USB] = false;
}
}
UpdateCheck();
InitializeNetwork(SILENT);
#else
if(isMounted[METHOD_SD_SLOTA])
{
if(!carda->isInserted()) // check if the device was removed
{
unmountRequired[METHOD_SD_SLOTA] = true;
isMounted[METHOD_SD_SLOTA] = false;
}
}
if(isMounted[METHOD_SD_SLOTB])
{
if(!cardb->isInserted()) // check if the device was removed
{
unmountRequired[METHOD_SD_SLOTB] = true;
isMounted[METHOD_SD_SLOTB] = false;
}
}
#endif
devsleep = 1000*1000; // 1 sec
while(devsleep > 0)
{
if(deviceHalt)
LWP_SuspendThread(devicethread);
usleep(100);
devsleep -= 100;
}
}
return NULL;
}
/****************************************************************************
* InitDeviceThread
*
* libOGC provides a nice wrapper for LWP access.
* This function sets up a new local queue and attaches the thread to it.
***************************************************************************/
void
InitDeviceThread()
{
LWP_CreateThread (&devicethread, devicecallback, NULL, NULL, 0, 40);
}
/****************************************************************************
* UnmountAllFAT
* Unmounts all FAT devices
***************************************************************************/
void UnmountAllFAT()
{
#ifdef HW_RVL
fatUnmount("sd:");
fatUnmount("usb:");
#else
fatUnmount("carda:");
fatUnmount("cardb:");
#endif
}
/****************************************************************************
* MountFAT
* Checks if the device needs to be (re)mounted
* If so, unmounts the device
* Attempts to mount the device specified
* Sets libfat to use the device by default
***************************************************************************/
bool MountFAT(int method)
{
bool mounted = true; // assume our disc is already mounted
char name[10];
const DISC_INTERFACE* disc = NULL;
switch(method)
{
#ifdef HW_RVL
case METHOD_SD:
sprintf(name, "sd");
disc = sd;
break;
case METHOD_USB:
sprintf(name, "usb");
disc = usb;
break;
#else
case METHOD_SD_SLOTA:
sprintf(name, "carda");
disc = carda;
break;
case METHOD_SD_SLOTB:
sprintf(name, "cardb");
disc = cardb;
break;
#endif
default:
return false; // unknown device
}
sprintf(rootdir, "%s:", name);
if(unmountRequired[method])
{
unmountRequired[method] = false;
fatUnmount(rootdir);
disc->shutdown();
isMounted[method] = false;
}
if(!isMounted[method])
{
if(!disc->startup())
mounted = false;
else if(!fatMountSimple(name, disc))
mounted = false;
}
isMounted[method] = mounted;
return mounted;
}
void MountAllFAT()
{
#ifdef HW_RVL
MountFAT(METHOD_SD);
MountFAT(METHOD_USB);
#else
MountFAT(METHOD_SD_SLOTA);
MountFAT(METHOD_SD_SLOTB);
#endif
}
/****************************************************************************
* ChangeInterface
* Attempts to mount/configure the device specified
***************************************************************************/
bool ChangeInterface(int method, bool silent)
{
bool mounted = false;
if(method == METHOD_SD)
{
#ifdef HW_RVL
mounted = MountFAT(METHOD_SD); // try Wii internal SD
#else
mounted = MountFAT(METHOD_SD_SLOTA); // try SD Gecko on slot A
if(!mounted) // internal SD and SD Gecko (on slot A) not found
mounted = MountFAT(METHOD_SD_SLOTB); // try SD Gecko on slot B
#endif
if(!mounted && !silent) // no SD device found
ErrorPrompt("SD card not found!");
}
else if(method == METHOD_USB)
{
#ifdef HW_RVL
mounted = MountFAT(method);
if(!mounted && !silent)
ErrorPrompt("USB drive not found!");
#endif
}
else if(method == METHOD_DVD)
{
mounted = MountDVD(silent);
}
#ifdef HW_RVL
else if(method == METHOD_SMB)
{
mounted = ConnectShare(silent);
}
#endif
else if(method == METHOD_MC_SLOTA)
{
mounted = TestMC(CARD_SLOTA, silent);
}
else if(method == METHOD_MC_SLOTB)
{
mounted = TestMC(CARD_SLOTB, silent);
}
if(!mounted)
{
sprintf(browser.dir,"/");
rootdir[0] = 0;
}
return mounted;
}
/***************************************************************************
* Browse subdirectories
**************************************************************************/
int
ParseDirectory(int method)
{
DIR_ITER *dir = NULL;
char fulldir[MAXPATHLEN];
char filename[MAXPATHLEN];
struct stat filestat;
char msg[128];
int retry = 1;
bool mounted = false;
// reset browser
ResetBrowser();
ShowAction("Loading...");
// open the directory
while(dir == NULL && retry == 1)
{
mounted = ChangeInterface(method, NOTSILENT);
sprintf(fulldir, "%s%s", rootdir, browser.dir); // add device to path
if(mounted) dir = diropen(fulldir);
if(dir == NULL)
{
unmountRequired[method] = true;
sprintf(msg, "Error opening %s", fulldir);
retry = ErrorPromptRetry(msg);
}
}
// if we can't open the dir, try opening the root dir
if (dir == NULL)
{
if(ChangeInterface(method, SILENT))
{
sprintf(browser.dir,"/");
sprintf(fulldir, "%s%s", rootdir, browser.dir);
dir = diropen(fulldir);
if (dir == NULL)
{
sprintf(msg, "Error opening %s", rootdir);
ErrorPrompt(msg);
return -1;
}
}
}
// index files/folders
int entryNum = 0;
while(dirnext(dir,filename,&filestat) == 0)
{
if(strcmp(filename,".") != 0)
{
BROWSERENTRY * newBrowserList = (BROWSERENTRY *)realloc(browserList, (entryNum+1) * sizeof(BROWSERENTRY));
if(!newBrowserList) // failed to allocate required memory
{
ResetBrowser();
ErrorPrompt("Out of memory: too many files!");
entryNum = -1;
break;
}
else
{
browserList = newBrowserList;
}
memset(&(browserList[entryNum]), 0, sizeof(BROWSERENTRY)); // clear the new entry
strncpy(browserList[entryNum].filename, filename, MAXJOLIET);
if(strcmp(filename,"..") == 0)
{
sprintf(browserList[entryNum].displayname, "Up One Level");
}
else
{
StripExt(browserList[entryNum].displayname, browserList[entryNum].filename); // hide file extension
}
browserList[entryNum].length = filestat.st_size;
browserList[entryNum].mtime = filestat.st_mtime;
browserList[entryNum].isdir = (filestat.st_mode & _IFDIR) == 0 ? 0 : 1; // flag this as a dir
entryNum++;
}
}
// close directory
dirclose(dir);
// Sort the file list
qsort(browserList, entryNum, sizeof(BROWSERENTRY), FileSortCallback);
CancelAction();
browser.numEntries = entryNum;
return entryNum;
}
/****************************************************************************
* AllocSaveBuffer ()
* Clear and allocate the savebuffer
***************************************************************************/
void
AllocSaveBuffer ()
{
if(bufferLock == LWP_MUTEX_NULL)
LWP_MutexInit(&bufferLock, false);
if(bufferLock != LWP_MUTEX_NULL)
LWP_MutexLock(bufferLock);
memset (savebuffer, 0, SAVEBUFFERSIZE);
}
/****************************************************************************
* FreeSaveBuffer ()
* Free the savebuffer memory
***************************************************************************/
void
FreeSaveBuffer ()
{
if(bufferLock != LWP_MUTEX_NULL)
LWP_MutexUnlock(bufferLock);
}
/****************************************************************************
* LoadSzFile
* Loads the selected file # from the specified 7z into rbuffer
* Returns file size
***************************************************************************/
u32
LoadSzFile(char * filepath, unsigned char * rbuffer)
{
u32 size = 0;
// stop checking if devices were removed/inserted
// since we're loading a file
HaltDeviceThread();
file = fopen (filepath, "rb");
if (file > 0)
{
size = SzExtractFile(browserList[browser.selIndex].offset, rbuffer);
fclose (file);
}
else
{
ErrorPrompt("Error opening file");
}
// go back to checking if devices were inserted/removed
ResumeDeviceThread();
return size;
}
/****************************************************************************
* LoadFile
***************************************************************************/
u32
LoadFile (char * rbuffer, char *filepath, u32 length, int method, bool silent)
{
char zipbuffer[2048];
u32 size = 0;
u32 readsize = 0;
char fullpath[MAXPATHLEN];
int retry = 1;
switch(method)
{
case METHOD_DVD:
return LoadDVDFile (rbuffer, filepath, length, silent);
break;
case METHOD_MC_SLOTA:
return LoadMCFile (rbuffer, CARD_SLOTA, filepath, silent);
break;
case METHOD_MC_SLOTB:
return LoadMCFile (rbuffer, CARD_SLOTB, filepath, silent);
break;
}
// stop checking if devices were removed/inserted
// since we're loading a file
HaltDeviceThread();
// open the file
while(!size && retry == 1)
{
if(ChangeInterface(method, silent))
{
sprintf(fullpath, "%s%s", rootdir, filepath); // add device to filepath
file = fopen (fullpath, "rb");
if(file > 0)
{
if(length > 0 && length <= 2048) // do a partial read (eg: to check file header)
{
size = fread (rbuffer, 1, length, file);
}
else // load whole file
{
readsize = fread (zipbuffer, 1, 2048, file);
if(readsize > 0)
{
if (IsZipFile (zipbuffer))
{
size = UnZipBuffer ((unsigned char *)rbuffer, method); // unzip
}
else
{
struct stat fileinfo;
if(fstat(file->_file, &fileinfo) == 0)
{
size = fileinfo.st_size;
memcpy (rbuffer, zipbuffer, readsize); // copy what we already read
u32 offset = readsize;
u32 nextread = 0;
while(offset < size)
{
if(size - offset > 4*1024) nextread = 4*1024;
else nextread = size-offset;
ShowProgress ("Loading...", offset, size);
readsize = fread (rbuffer + offset, 1, nextread, file); // read in next chunk
if(readsize <= 0 || readsize > nextread)
break; // read failure
if(readsize > 0)
offset += readsize;
}
CancelAction();
if(offset != size) // # bytes read doesn't match # expected
size = 0;
}
}
}
}
fclose (file);
}
}
if(!size)
{
if(!silent)
{
unmountRequired[method] = true;
retry = ErrorPromptRetry("Error loading file!");
}
else
{
retry = 0;
}
}
}
// go back to checking if devices were inserted/removed
ResumeDeviceThread();
CancelAction();
return size;
}
u32 LoadFile(char * filepath, int method, bool silent)
{
return LoadFile((char *)savebuffer, filepath, 0, method, silent);
}
/****************************************************************************
* SaveFile
* Write buffer to file
***************************************************************************/
u32
SaveFile (char * buffer, char *filepath, u32 datasize, int method, bool silent)
{
char fullpath[MAXPATHLEN];
u32 written = 0;
int retry = 1;
if(datasize == 0)
return 0;
ShowAction("Saving...");
if(method == METHOD_MC_SLOTA || method == METHOD_MC_SLOTB)
{
if(method == METHOD_MC_SLOTA)
return SaveMCFile (buffer, CARD_SLOTA, filepath, datasize, silent);
else
return SaveMCFile (buffer, CARD_SLOTB, filepath, datasize, silent);
}
// stop checking if devices were removed/inserted
// since we're saving a file
HaltDeviceThread();
while(!written && retry == 1)
{
if(ChangeInterface(method, silent))
{
sprintf(fullpath, "%s%s", rootdir, filepath); // add device to filepath
file = fopen (fullpath, "wb");
if (file > 0)
{
u32 writesize, nextwrite;
while(written < datasize)
{
if(datasize - written > 4*1024) nextwrite=4*1024;
else nextwrite = datasize-written;
writesize = fwrite (buffer+written, 1, nextwrite, file);
if(writesize != nextwrite) break; // write failure
written += writesize;
}
if(written != datasize) written = 0;
fclose (file);
}
}
if(!written)
{
unmountRequired[method] = true;
if(!silent)
retry = ErrorPromptRetry("Error saving file!");
else
retry = 0;
}
}
// go back to checking if devices were inserted/removed
ResumeDeviceThread();
CancelAction();
return written;
}
u32 SaveFile(char * filepath, u32 datasize, int method, bool silent)
{
return SaveFile((char *)savebuffer, filepath, datasize, method, silent);
}