wudd/source/ApplicationState.cpp
2021-10-09 01:24:12 +02:00

862 lines
33 KiB
C++

#include "ApplicationState.h"
#include "utils/WiiUScreen.h"
#include "utils/ScreenUtils.h"
#include "common/common.h"
#include "utils/utils.h"
#include "utils/StringTools.h"
#include "utils/rijndael.h"
#include "fs/FSUtils.h"
#include <sysapp/launch.h>
#include <coreinit/ios.h>
#include <iosuhax.h>
#include <malloc.h>
#include <coreinit/memdefaultheap.h>
#include <cstdarg>
#include <ntfs.h>
#include <WUD/DiscReaderDiscDrive.h>
#include <whb/proc.h>
#include <coreinit/debug.h>
#include <WUD/content/partitions/WiiUGMPartition.h>
#include <WUD/header/WiiUDiscHeader.h>
#include <WUD/entities/TMD/Content.h>
#include <WUD/entities/TMD/TitleMetaData.h>
#include <WUD/NUSDataProviderWUD.h>
#include <WUD/NUSTitle.h>
extern ntfs_md *ntfs_mounts;
extern int ntfs_mount_count;
unsigned int swap_uint32(unsigned int val) {
val = ((val << 8) & 0xFF00FF00) | ((val >> 8) & 0xFF00FF);
return (val << 16) | (val >> 16);
}
unsigned long long swap_uint64(unsigned long long val) {
val = ((val << 8) & 0xFF00FF00FF00FF00ULL) | ((val >> 8) & 0x00FF00FF00FF00FFULL);
val = ((val << 16) & 0xFFFF0000FFFF0000ULL) | ((val >> 16) & 0x0000FFFF0000FFFFULL);
return (val << 32) | (val >> 32);
}
/*
* Hash function used to create a hash of each sector
* The hashes are then compared to find duplicate sectors
*/
void calculateHash256(unsigned char *data, unsigned int length, unsigned char *hashOut) {
// cheap and simple hash implementation
// you can replace this part with your favorite hash method
memset(hashOut, 0x00, 32);
for (unsigned int i = 0; i < length; i++) {
hashOut[i % 32] ^= data[i];
hashOut[(i + 7) % 32] += data[i];
}
}
ApplicationState::ApplicationState() : log("fs:/vol/external01/wudump.log", CFile::WriteOnly) {
this->log.fwrite("Started wudump\n");
this->state = STATE_WELCOME_SCREEN;
}
void ApplicationState::printHeader() {
WiiUScreen::drawLine("Wudump");
WiiUScreen::drawLine("==================");
WiiUScreen::drawLine("");
}
void ApplicationState::render() {
WiiUScreen::clearScreen();
if (this->state == STATE_ERROR) {
WiiUScreen::drawLine();
WiiUScreen::drawLinef("Error: %s", ErrorMessage().c_str());
WiiUScreen::drawLinef("Description: %s", ErrorDescription().c_str());
WiiUScreen::drawLine();
WiiUScreen::drawLine("Press A to return to the Wii U Menu.");
} else if (this->state == STATE_WELCOME_SCREEN) {
WiiUScreen::drawLine("Welcome to Wudump");
WiiUScreen::drawLine("Press A to dump the currently inserted Disc");
WiiUScreen::drawLine("");
if (this->selectedOption == 0) {
WiiUScreen::drawLine("> Dump as WUX Dump as WUD Dump as .app Exit");
} else if (this->selectedOption == 1) {
WiiUScreen::drawLine(" Dump as WUX > Dump as WUD Dump as .app Exit");
} else if (this->selectedOption == 2) {
WiiUScreen::drawLine(" Dump as WUX Dump as WUD > Dump as .app Exit");
} else if (this->selectedOption == 3) {
WiiUScreen::drawLine(" Dump as WUX Dump as WUD Dump as .app > Exit");
}
} else if (this->state == STATE_CHOOSE_TARGET) {
printHeader();
WiiUScreen::drawLine("Please choose your target:");
std::vector<std::string> options;
int32_t targetCount = 0;
if (this->dumpFormat == DUMP_AS_APP) {
options.emplace_back("SD");
targetCount++;
}
for (int i = 0; i < ntfs_mount_count; i++) {
options.emplace_back(ntfs_mounts[i].name);
targetCount++;
}
std::string curLine = "";
if (this->selectedOption == 0) {
curLine = "> Back\t";
} else {
curLine = " Back\t";
}
if (targetCount == 0) {
WiiUScreen::drawLine("Please insert a NTFS formatted USB drive and restart wudump\n");
} else {
for (int32_t i = 0; i < targetCount; i++) {
if (this->selectedOption - 1 == i) {
curLine += "> " + options[i];
} else {
curLine += " " + options[i];
}
curLine += "\t";
}
}
WiiUScreen::drawLine(curLine.c_str());
} else if (this->state == STATE_OPEN_ODD1) {
WiiUScreen::drawLine("Open /dev/odd01");
} else if (this->state == STATE_READ_DISC_INFO) {
WiiUScreen::drawLine("Read disc information");
} else if (this->state == STATE_READ_DISC_INFO_DONE) {
WiiUScreen::drawLinef("Dumping: %s", this->discId);
} else if (this->state == STATE_DUMP_TICKET) {
WiiUScreen::drawLinef("Dumping game.key");
} else if (this->state == STATE_DUMP_DISC_START || this->state == STATE_DUMP_DISC || this->state == STATE_WAIT_USER_ERROR_CONFIRM) {
WiiUScreen::drawLinef("Dumping: %s", this->discId);
float percent = this->currentSector / (WUD_FILE_SIZE / READ_SECTOR_SIZE * 1.0f) * 100.0f;
WiiUScreen::drawLinef("Progress: %0.2f MiB / %5.2f MiB (%2.1f %%)", this->currentSector * (READ_SECTOR_SIZE / 1024.0f / 1024.0f), WUD_FILE_SIZE / 1024.0f / 1024.0f, percent);
if (doWUX) {
WiiUScreen::drawLinef("Written %0.2f MiB. Compression ratio 1:%0.2f", this->hashMap.size() * (READ_SECTOR_SIZE / 1024.0f / 1024.0f),
1.0f / (this->hashMap.size() / (float) this->currentSector));
}
if (this->readResult < 0 || this->oddFd < 0) {
WiiUScreen::drawLine();
if (this->oddFd < 0) {
WiiUScreen::drawLine("Failed to open disc, try again.");
} else {
WiiUScreen::drawLinef("Error: Failed to read sector - Error %d", this->readResult);
}
WiiUScreen::drawLine();
WiiUScreen::drawLine("Press A to skip this sector (will be replaced by 0's)");
WiiUScreen::drawLine("Press B to try again");
} else {
OSTime curTime = OSGetTime();
float remaining = (WUD_FILE_SIZE - (READ_SECTOR_SIZE * this->currentSector)) / 1024.0f / 1024.0f;
float curSpeed = READ_SECTOR_SIZE * ((this->readSectors / 1000.0f) / OSTicksToMilliseconds(curTime - startTime));
int32_t remainingSec = remaining / curSpeed;
int32_t minutes = (remainingSec / 60) % 60;
int32_t seconds = remainingSec % 60;
int32_t hours = remainingSec / 3600;
WiiUScreen::drawLinef("Speed: %.2f MiB/s ETA: %02dh %02dm %02ds", curSpeed, remaining, hours, minutes, seconds);
}
WiiUScreen::drawLine();
if (!this->skippedSectors.empty()) {
WiiUScreen::drawLinef("Skipped dumping %d sectors", this->skippedSectors.size());
}
} else if (this->state == STATE_DUMP_DISC_DONE) {
if (!flushWriteCache()) {
setError(ERROR_WRITE_FAILED);
}
WiiUScreen::drawLinef("Dumping done! Press A to continue");
} else if (this->state == STATE_DUMP_APP_FILES_DONE) {
WiiUScreen::drawLinef("Dumping done! Press A to continue");
}
printFooter();
WiiUScreen::flipBuffers();
}
void ApplicationState::update(Input *input) {
if (this->state == STATE_ERROR) {
OSEnableHomeButtonMenu(true);
if (entrySelected(input)) {
SYSLaunchMenu();
}
} else if (this->state == STATE_WELCOME_SCREEN) {
proccessMenuNavigation(input, 4);
if (entrySelected(input)) {
if (this->selectedOption == 0) {
this->retryCount = 10;
this->state = STATE_CHOOSE_TARGET;
this->dumpFormat = DUMP_AS_WUX;
} else if (this->selectedOption == 1) {
this->retryCount = 10;
this->state = STATE_CHOOSE_TARGET;
this->dumpFormat = DUMP_AS_WUD;
} else if (this->selectedOption == 2) {
this->retryCount = 10;
this->state = STATE_CHOOSE_TARGET;
this->dumpFormat = DUMP_AS_APP;
} else {
SYSLaunchMenu();
}
this->selectedOption = 0;
return;
}
} else if (this->state == STATE_CHOOSE_TARGET) {
WiiUScreen::drawLine("Please choose your target");
std::vector<std::string> options;
uint32_t targetCount = 0;
if (this->dumpFormat == DUMP_AS_APP) {
options.emplace_back("fs:/vol/external01/");
targetCount++;
}
if (ntfs_mount_count > 0) {
for (int i = 0; i < ntfs_mount_count; i++) {
options.emplace_back(std::string(ntfs_mounts[i].name) + ":/");
targetCount++;
}
}
proccessMenuNavigation(input, targetCount + 1);
if (entrySelected(input)) {
if (this->selectedOption == 0) {
this->state = STATE_WELCOME_SCREEN;
} else if (targetCount > 0) {
target = options[selectedOption - 1];
this->state = STATE_OPEN_ODD1;
}
this->selectedOption = 0;
}
} else if (this->state == STATE_OPEN_ODD1) {
if (this->readSectors > 0) {
auto ret = IOSUHAX_FSA_RawOpen(gFSAfd, "/dev/odd01", &(this->oddFd));
if (ret >= 0) {
// continue!
this->state = STATE_DUMP_DISC;
} else {
this->oddFd = -1;
this->state = STATE_WAIT_USER_ERROR_CONFIRM;
}
return;
}
DEBUG_FUNCTION_LINE("STATE_OPEN_ODD1");
if (this->retryCount-- <= 0) {
this->setError(ERROR_OPEN_ODD1);
return;
}
auto ret = IOSUHAX_FSA_RawOpen(gFSAfd, "/dev/odd01", &(this->oddFd));
if (ret >= 0) {
if (this->sectorBuf == nullptr) {
this->sectorBuf = (void *) memalign(0x100, this->sectorBufSize);
if (this->sectorBuf == nullptr) {
this->setError(ERROR_MALLOC_FAILED);
return;
}
}
DEBUG_FUNCTION_LINE("Opened /dev/odd01 %d", this->oddFd);
this->state = STATE_READ_DISC_INFO;
}
} else if (this->state == STATE_READ_DISC_INFO) {
DEBUG_FUNCTION_LINE("STATE_READ_DISC_INFO");
if (IOSUHAX_FSA_RawRead(gFSAfd, this->sectorBuf, READ_SECTOR_SIZE, 1, 0, this->oddFd) >= 0) {
this->discId[10] = '\0';
memcpy(this->discId, sectorBuf, 10);
if (this->discId[0] == 0) {
setError(ERROR_NO_DISC_ID);
return;
}
this->state = STATE_READ_DISC_INFO_DONE;
return;
}
this->setError(ERROR_READ_FIRST_SECTOR);
return;
} else if (this->state == STATE_READ_DISC_INFO_DONE) {
DEBUG_FUNCTION_LINE("STATE_READ_DISC_INFO_DONE");
this->state = STATE_DUMP_TICKET;
} else if (this->state == STATE_DUMP_TICKET) {
DEBUG_FUNCTION_LINE("STATE_DUMP_TICKET");
auto res = IOSUHAX_FSA_RawRead(gFSAfd, this->sectorBuf, READ_SECTOR_SIZE, 1, 3, this->oddFd);
uint8_t discKey[16];
bool hasDiscKey = false;
if (res >= 0) {
if (((uint32_t *) this->sectorBuf)[0] != 0xCCA6E67B) {
uint8_t iv[16];
memset(iv, 0, 16);
auto odm_handle = IOS_Open("/dev/odm", IOS_OPEN_READ);
if (odm_handle >= 0) {
uint32_t io_buffer[0x20 / 4];
// disc encryption key, only works with patched IOSU
io_buffer[0] = 3;
if (IOS_Ioctl(odm_handle, 0x06, io_buffer, 0x14, io_buffer, 0x20) == 0) {
memcpy(discKey, io_buffer, 16);
hasDiscKey = true;
}
IOS_Close(odm_handle);
}
}
}
if (hasDiscKey) {
if (!FSUtils::CreateSubfolder(StringTools::fmt("%swudump/%s", target.c_str(), discId))) {
setError(ERROR_WRITE_FAILED);
return;
}
if (!FSUtils::saveBufferToFile(StringTools::fmt("%swudump/%s/game.key", target.c_str(), discId), discKey, 16)) {
setError(ERROR_WRITE_FAILED);
return;
}
}
if (this->dumpFormat == DUMP_AS_WUX || this->dumpFormat == DUMP_AS_WUD) {
if (this->dumpFormat == DUMP_AS_WUX) {
this->doWUX = true;
}
this->state = STATE_DUMP_DISC_START;
} else {
this->state = STATE_DUMP_APP_FILES;
}
} else if (this->state == STATE_DUMP_APP_FILES) {
ApplicationState::dumpAppFiles();
if (this->state != STATE_ERROR) {
this->state = STATE_DUMP_APP_FILES_DONE;
}
} else if (this->state == STATE_DUMP_APP_FILES_DONE) {
if (entrySelected(input)) {
this->state = STATE_WELCOME_SCREEN;
if (this->oddFd >= 0) {
IOSUHAX_FSA_RawClose(gFSAfd, this->oddFd);
this->oddFd = -1;
}
this->currentSector = 0;
this->readSectors = 0;
}
} else if (this->state == STATE_DUMP_DISC_START) {
ApplicationState::clearWriteCache();
DEBUG_FUNCTION_LINE("STATE_DUMP_DISC_START");
if (!FSUtils::CreateSubfolder(StringTools::fmt("%swudump/%s", target.c_str(), discId))) {
setError(ERROR_WRITE_FAILED);
return;
}
this->fileHandle = new CFile(StringTools::fmt("%swudump/%s/game.%s", target.c_str(), discId, doWUX ? "wux" : "wud"), CFile::WriteOnly);
this->totalSectorCount = WUD_FILE_SIZE / SECTOR_SIZE;
if (!this->fileHandle->isOpen()) {
DEBUG_FUNCTION_LINE("Failed to open file");
this->setError(ERROR_FILE_OPEN_FAILED);
return;
}
if (doWUX) {
wuxHeader_t wuxHeader = {0};
wuxHeader.magic0 = WUX_MAGIC_0;
wuxHeader.magic1 = WUX_MAGIC_1;
wuxHeader.sectorSize = swap_uint32(SECTOR_SIZE);
wuxHeader.uncompressedSize = swap_uint64(WUD_FILE_SIZE);
wuxHeader.flags = 0;
DEBUG_FUNCTION_LINE("Write header");
this->fileHandle->write((uint8_t *) &wuxHeader, sizeof(wuxHeader_t));
this->sectorTableStart = this->fileHandle->tell();
this->sectorIndexTable = (void *) malloc(totalSectorCount * 4);
if (sectorIndexTable == nullptr) {
this->setError(ERROR_MALLOC_FAILED);
return;
}
memset(this->sectorIndexTable, 0, totalSectorCount * 4);
DEBUG_FUNCTION_LINE("Write empty sectorIndexTable");
this->fileHandle->write((uint8_t *) this->sectorIndexTable, totalSectorCount * 4);
DEBUG_FUNCTION_LINE("Get sector table end");
this->sectorTableEnd = this->fileHandle->tell();
uint64_t tableEnd = this->sectorTableEnd;
this->sectorTableEnd += SECTOR_SIZE - 1;
this->sectorTableEnd -= (this->sectorTableEnd % SECTOR_SIZE);
uint64_t padding = this->sectorTableEnd - tableEnd;
auto *paddingData = (uint8_t *) malloc(padding);
memset(paddingData, 0, padding);
this->fileHandle->write(reinterpret_cast<const uint8_t *>(paddingData), padding);
free(paddingData);
this->hashMap.clear();
}
this->writeBufferSize = READ_SECTOR_SIZE * WRITE_BUFFER_NUM_SECTORS;
this->writeBuffer = (void *) memalign(0x1000, this->writeBufferSize);
if (this->writeBuffer == nullptr) {
this->setError(ERROR_MALLOC_FAILED);
return;
}
this->writeBufferPos = 0;
this->startTime = OSGetTime();
this->state = STATE_DUMP_DISC;
this->currentSector = 0;
this->retryCount = 10;
this->selectedOption = 0;
this->readSectors = 0;
} else if (this->state == STATE_DUMP_DISC) {
//DEBUG_FUNCTION_LINE("STATE_DUMP_DISC");
int32_t numSectors = this->currentSector + READ_NUM_SECTORS > this->totalSectorCount ? this->totalSectorCount - this->currentSector : READ_NUM_SECTORS;
if ((this->readResult = IOSUHAX_FSA_RawRead(gFSAfd, sectorBuf, READ_SECTOR_SIZE, numSectors, this->currentSector, this->oddFd)) >= 0) {
if (!writeDataToFile(this->sectorBuf, numSectors)) {
this->setError(ERROR_WRITE_FAILED);
return;
}
//DEBUG_FUNCTION_LINE("Read done %lld %lld", this->currentSector, this->totalSectorCount);
this->retryCount = 10;
if (this->currentSector >= this->totalSectorCount) {
this->state = STATE_DUMP_DISC_DONE;
if (this->fileHandle->isOpen()) {
if (!this->flushWriteCache()) {
this->setError(ERROR_WRITE_FAILED);
return;
}
if (doWUX) {
this->writeSectorIndexTable();
}
this->fileHandle->close();
}
}
} else {
this->state = STATE_WAIT_USER_ERROR_CONFIRM;
if (this->oddFd >= 0) {
IOSUHAX_FSA_RawClose(gFSAfd, this->oddFd);
this->oddFd = -1;
}
return;
}
} else if (this->state == STATE_WAIT_USER_ERROR_CONFIRM) {
if (this->autoSkip) {
if (this->oddFd >= 0) {
IOSUHAX_FSA_RawClose(gFSAfd, this->oddFd);
this->oddFd = -1;
}
}
if (this->autoSkip || (input->data.buttons_d & Input::BUTTON_A)) {
this->log.fwrite("Skipped sector %d : 0x%ll016X-0x%ll016X, filled with 0's\n", this->currentSector, this->currentSector * READ_SECTOR_SIZE, (this->currentSector + 1) * READ_SECTOR_SIZE);
this->state = STATE_OPEN_ODD1;
this->skippedSectors.push_back(this->currentSector);
// We can't use seek because we may have cached values.
if (this->emptySector == nullptr) {
this->emptySector = memalign(0x100, READ_SECTOR_SIZE);
if (this->emptySector == nullptr) {
this->setError(ERROR_MALLOC_FAILED);
return;
}
}
if (!this->writeCached(reinterpret_cast<uint32_t>(emptySector), READ_SECTOR_SIZE)) {
this->setError(ERROR_WRITE_FAILED);
return;
}
this->currentSector += 1;
this->readResult = 0;
} else if (input->data.buttons_d & Input::BUTTON_B) {
this->state = STATE_OPEN_ODD1;
this->readResult = 0;
} else if (input->data.buttons_d & Input::BUTTON_Y) {
this->autoSkip = true;
}
} else if (this->state == STATE_DUMP_DISC_DONE) {
if (entrySelected(input)) {
if (this->oddFd >= 0) {
IOSUHAX_FSA_RawClose(gFSAfd, this->oddFd);
this->oddFd = -1;
}
this->state = STATE_WELCOME_SCREEN;
this->selectedOption = 0;
this->currentSector = 0;
this->readSectors = 0;
this->writtenSector = 0;
return;
}
}
}
std::string ApplicationState::ErrorMessage() {
if (this->error == ERROR_NONE) {
return "NONE";
} else if (this->error == ERROR_IOSUHAX_FAILED) {
return "ERROR_IOSUHAX_FAILED";
} else if (this->error == ERROR_MALLOC_FAILED) {
return "ERROR_MALLOC_FAILED";
} else if (this->error == ERROR_FILE_OPEN_FAILED) {
return "ERROR_FILE_OPEN_FAILED";
} else if (this->error == ERROR_NO_DISC_ID) {
return "ERROR_NO_DISC_ID";
}
DEBUG_FUNCTION_LINE("Error: %d", this->error);
return "UNKNOWN_ERROR";
}
std::string ApplicationState::ErrorDescription() {
if (this->error == ERROR_NONE) {
return "-";
} else if (this->error == ERROR_IOSUHAX_FAILED) {
return "Failed to init IOSUHAX.";
} else if (this->error == ERROR_MALLOC_FAILED) {
return "Failed to allocate data.";
} else if (this->error == ERROR_FILE_OPEN_FAILED) {
return "Failed to create file";
} else if (this->error == ERROR_NO_DISC_ID) {
return "Failed to get the disc id";
}
DEBUG_FUNCTION_LINE("Error: %d", this->error);
return "UNKNOWN_ERROR";
}
void ApplicationState::setError(eErrorState err) {
this->state = STATE_ERROR;
this->error = err;
//OSEnableHomeButtonMenu(true);
}
void ApplicationState::printFooter() {
ScreenUtils::printTextOnScreen(CONSOLE_SCREEN_TV, 0, 27, "By Maschell");
ScreenUtils::printTextOnScreen(CONSOLE_SCREEN_DRC, 0, 17, "By Maschell");
}
void ApplicationState::proccessMenuNavigation(Input *input, int maxOptionValue) {
if (input->data.buttons_d & Input::BUTTON_LEFT) {
this->selectedOption--;
} else if (input->data.buttons_d & Input::BUTTON_RIGHT) {
this->selectedOption++;
}
if (this->selectedOption < 0) {
this->selectedOption = maxOptionValue;
} else if (this->selectedOption >= maxOptionValue) {
this->selectedOption = 0;
}
}
bool ApplicationState::entrySelected(Input *input) {
return input->data.buttons_d & Input::BUTTON_A;
}
ApplicationState::~ApplicationState() {
this->log.close();
if (this->fileHandle->isOpen()) {
if (!this->flushWriteCache()) {
}
if (doWUX) {
this->writeSectorIndexTable();
}
this->fileHandle->close();
}
if (this->emptySector != nullptr) {
free(this->emptySector);
this->emptySector = nullptr;
}
if (this->writeBuffer != nullptr) {
free(this->writeBuffer);
this->writeBuffer = nullptr;
}
if (this->sectorIndexTable != nullptr) {
free(this->sectorIndexTable);
this->sectorIndexTable = nullptr;
}
if (this->sectorBuf != nullptr) {
free(this->sectorBuf);
this->sectorBuf = nullptr;
}
if (this->oddFd >= 0) {
IOSUHAX_FSA_RawClose(gFSAfd, this->oddFd);
this->oddFd = -1;
}
}
bool ApplicationState::writeDataToFile(void *buffer, int numberOfSectors) {
if (!doWUX) {
if (!writeCached(reinterpret_cast<uint32_t>(buffer), numberOfSectors * READ_SECTOR_SIZE)) {
return false;
}
this->currentSector += numberOfSectors;
this->readSectors += numberOfSectors;
} else {
char hashOut[32];
for (int i = 0; i < numberOfSectors; i++) {
uint32_t addr = ((uint32_t) buffer) + (i * READ_SECTOR_SIZE);
calculateHash256(reinterpret_cast<unsigned char *>(addr), READ_SECTOR_SIZE, reinterpret_cast<unsigned char *>(hashOut));
char tmp[34];
auto *test = (uint32_t *) hashOut;
snprintf(tmp, 33, "%08X%08X%08X%08X", test[0], test[1], test[2], test[3]);
std::string hash(tmp);
uint32_t *indexTable = (uint32_t *) this->sectorIndexTable;
auto it = hashMap.find(hash);
if (it != hashMap.end()) {
indexTable[this->currentSector] = swap_uint32(this->hashMap[hash]);
} else {
indexTable[this->currentSector] = swap_uint32(this->writtenSector);
hashMap[hash] = this->writtenSector;
if (this->fileHandle->isOpen()) {
if (!writeCached(addr, READ_SECTOR_SIZE)) {
return false;
}
}
this->writtenSector++;
}
this->currentSector++;
this->readSectors++;
}
}
return true;
}
bool ApplicationState::writeCached(uint32_t addr, uint32_t writeSize) {
// DEBUG_FUNCTION_LINE("Lest write %d bytes", writeSize);
if (writeSize == this->writeBufferSize) {
if (!this->flushWriteCache()) {
return false;
}
int32_t res = this->fileHandle->write(reinterpret_cast<const uint8_t *>(addr), writeSize);
return res >= 0;
}
uint32_t toWrite = writeSize;
if (toWrite == 0) {
return true;
}
uint32_t written = 0;
do {
uint32_t curWrite = toWrite;
if (this->writeBufferPos + curWrite > this->writeBufferSize) {
curWrite = this->writeBufferSize - this->writeBufferPos;
}
// DEBUG_FUNCTION_LINE("Copy from %08X into %08X, size %08X, %d",(addr + written),((uint32_t) this->writeBuffer) + this->writeBufferPos, curWrite, this->writeBufferPos/READ_SECTOR_SIZE);
OSBlockMove((void *) (((uint32_t) this->writeBuffer) + this->writeBufferPos), (void *) (addr + written), curWrite, 1);
this->writeBufferPos += curWrite;
if (this->writeBufferPos == this->writeBufferSize) {
if (!flushWriteCache()) {
return false;
}
}
toWrite -= curWrite;
written += curWrite;
} while (toWrite > 0);
return true;
}
bool ApplicationState::flushWriteCache() {
if (this->writeBufferPos > 0) {
int32_t res = this->fileHandle->write(static_cast<const uint8_t *>(this->writeBuffer), this->writeBufferPos);
if (res < 0) {
return false;
}
this->writeBufferPos = 0;
}
return true;
}
void ApplicationState::clearWriteCache() {
this->writeBufferPos = 0;
}
void ApplicationState::writeSectorIndexTable() {
if (this->fileHandle->isOpen() && doWUX) {
this->fileHandle->seek(this->sectorTableStart, SEEK_SET);
this->fileHandle->write((uint8_t *) this->sectorIndexTable, totalSectorCount * 4);
}
}
void ApplicationState::printDumpState(const char *fmt, ...) {
WiiUScreen::clearScreen();
ApplicationState::printHeader();
char *buf = (char *) MEMAllocFromDefaultHeapEx(PRINTF_BUFFER_LENGTH, 4);
va_list va;
if (!buf) {
return;
}
va_start(va, fmt);
vsnprintf(buf, PRINTF_BUFFER_LENGTH, fmt, va);
WiiUScreen::drawLine(buf);
MEMFreeToDefaultHeap(buf);
va_end(va);
ApplicationState::printFooter();
WiiUScreen::flipBuffers();
}
void ApplicationState::dumpAppFiles() {
uint8_t opt[0x400];
IOSUHAX_read_otp(opt, 0x400);
uint8_t cKey[0x10];
memcpy(cKey, opt + 0xE0, 0x10);
DEBUG_FUNCTION_LINE("Reading Partitions");
printDumpState("Reading Partitions...");
auto discReader = new DiscReaderDiscDrive();
if (!discReader->IsReady()) {
DEBUG_FUNCTION_LINE("!IsReady");
this->setError(ERROR_OPEN_ODD1);
delete discReader;
return;
}
DEBUG_FUNCTION_LINE("Read DiscHeader");
auto *discHeader = new WiiUDiscHeader(discReader);
bool forceExit = false;
for (auto &partition: discHeader->wiiUContentsInformation->partitions->partitions) {
auto gmPartition = dynamic_cast<WiiUGMPartition *>(partition);
if (gmPartition != nullptr) {
auto *nusTitle = NUSTitle::loadTitleFromGMPartition(gmPartition, discReader, cKey);
if (nusTitle == nullptr) {
DEBUG_FUNCTION_LINE("nusTitle was null");
continue;
}
auto *dataProvider = nusTitle->dataProcessor->getDataProvider();
uint64_t partitionSize = 0;
uint64_t partitionSizeWritten = 0;
for (auto &content: nusTitle->tmd->contentList) {
partitionSize += ROUNDUP(content->encryptedFileSize, 16);
}
auto partitionDumpInfo = StringTools::strfmt("Partition: %s\n\tProgress: %.2f MiB / %.2f MiB\n", partition->getVolumeId().c_str(), partitionSizeWritten / 1024.0f / 1024.0f,
partitionSize / 1024.0f / 1024.0f);
printDumpState("%s", partitionDumpInfo.c_str());
char buffer[512];
snprintf(buffer, 500, "%swudump/%s/%s", target.c_str(), this->discId, gmPartition->getVolumeId().c_str());
FSUtils::CreateSubfolder(buffer);
uint8_t *wBuffer = nullptr;
uint32_t wBufferLen = 0;
if (dataProvider->getRawTMD(&wBuffer, &wBufferLen)) {
std::string fileName = std::string(buffer).append("/").append(WUD_TMD_FILENAME);
printDumpState("%s\nSaving %s", partitionDumpInfo.c_str(), WUD_TMD_FILENAME);
FSUtils::saveBufferToFile(fileName.c_str(), wBuffer, wBufferLen);
free(wBuffer);
}
if (dataProvider->getRawTicket(&wBuffer, &wBufferLen)) {
std::string fileName = std::string(buffer).append("/").append(WUD_TICKET_FILENAME);
printDumpState("%s\nSaving %s", partitionDumpInfo.c_str(), WUD_TICKET_FILENAME);
FSUtils::saveBufferToFile(fileName.c_str(), wBuffer, wBufferLen);
free(wBuffer);
}
if (dataProvider->getRawCert(&wBuffer, &wBufferLen)) {
std::string fileName = std::string(buffer).append("/").append(WUD_TICKET_FILENAME);
printDumpState("%s\nSaving %s", partitionDumpInfo.c_str(), WUD_CERT_FILENAME);
FSUtils::saveBufferToFile(fileName.c_str(), wBuffer, wBufferLen);
free(wBuffer);
}
auto contentCount = nusTitle->tmd->contentList.size();
auto contentI = 1;
for (auto &content: nusTitle->tmd->contentList) {
char bufApp[32];
snprintf(bufApp, 31, "%08X.app", content->ID);
std::string appFileName = std::string(buffer) + "/" + bufApp;
partitionDumpInfo = StringTools::strfmt("Partition: %s\n\tProgress: %.2f MiB / %.2f MiB\n", partition->getVolumeId().c_str(), partitionSizeWritten / 1024.0f / 1024.0f,
partitionSize / 1024.0f / 1024.0f);
auto contentDumpInfo = StringTools::strfmt("Saving %s (Content %02d/%02d)\n", bufApp, contentI, contentCount);
printDumpState("%s\n%s", partitionDumpInfo.c_str(), contentDumpInfo.c_str());
uint32_t bufferSize = READ_NUM_SECTORS * READ_SECTOR_SIZE * 2;
auto *readBuffer = (uint8_t *) malloc(bufferSize);
if (readBuffer == nullptr) {
DEBUG_FUNCTION_LINE("Failed to alloc buffer");
continue;
}
CFile file(appFileName, CFile::WriteOnly);
if (!file.isOpen()) {
free(readBuffer);
continue;
}
uint32_t readSoFar = 0;
uint64_t curOffset = 0;
uint32_t size = ROUNDUP(content->encryptedFileSize, 16);
OSTime startTimeApp = OSGetTime();
do {
if (!WHBProcIsRunning()) {
forceExit = true;
break;
}
startTimeApp = OSGetTime();
WiiUScreen::clearScreen();
uint32_t toRead = size - readSoFar;
if (toRead > bufferSize) {
toRead = bufferSize;
}
dataProvider->readRawContent(content, readBuffer, curOffset, toRead);
if (file.write((const uint8_t *) readBuffer, toRead) != (int32_t) toRead) {
DEBUG_FUNCTION_LINE("Failed to write");
break;
}
OSTime curTime = OSGetTime();
auto curSpeed = (float) toRead / (float) OSTicksToMilliseconds(curTime - startTimeApp);
readSoFar += toRead;
curOffset += toRead;
partitionSizeWritten += toRead;
partitionDumpInfo = StringTools::strfmt("Partition: %s\n\tProgress: %.2f MiB / %.2f MiB\n", partition->getVolumeId().c_str(), partitionSizeWritten / 1024.0f / 1024.0f,
partitionSize / 1024.0f / 1024.0f);
printDumpState("%s\n%s\tProgress: %.2f MiB / %.2f MiB (%0.2f%%)\n\tSpeed: %0.2f MiB/s", partitionDumpInfo.c_str(), contentDumpInfo.c_str(), readSoFar / 1024.0f / 1024.0f,
size / 1024.0f / 1024.0f, ((readSoFar * 1.0f) / size) * 100.0f, curSpeed / 1024.0f);
} while (readSoFar < size);
file.close();
if (forceExit) {
break;
}
uint8_t *h3Data = nullptr;
uint32_t h3Length = 0;
if (dataProvider->getContentH3Hash(content, &h3Data, &h3Length)) {
char bufh3[32];
snprintf(bufh3, 31, "%08X.h3", content->ID);
std::string h3FileName = std::string(buffer) + "/" + bufh3;
printDumpState("%s\n%s", partitionDumpInfo.c_str(), contentDumpInfo.c_str());
FSUtils::saveBufferToFile(h3FileName.c_str(), h3Data, h3Length);
}
contentI++;
}
delete nusTitle;
if (forceExit) {
exit(0);
break;
}
}
}
delete discHeader;
delete discReader;
}