#include "FlashScreen.hpp" #include "Gfx.hpp" #include "ProcUI.hpp" #include "Utils.hpp" #include #include #include #include #include #include #include namespace { bool GetDRCFirmwarePath(std::string& path) { int32_t handle = MCP_Open(); if (handle < 0) { return false; } alignas(0x40) MCPTitleListType title; uint32_t titleCount = 0; MCPError error = MCP_TitleListByAppType(handle, MCP_APP_TYPE_DRC_FIRMWARE, &titleCount, &title, sizeof(title)); MCP_Close(handle); if (error != 0 || titleCount != 1) { return false; } path = std::string(&title.path[0]) + "/content/drc_fw.bin"; return true; } bool ReadFirmwareHeader(const std::string& path, FlashScreen::FirmwareHeader& header) { FILE* f = fopen(path.c_str(), "rb"); if (!f) { return false; } if (fread(&header, 1, sizeof(header), f) != sizeof(header)) { fclose(f); return false; } fclose(f); return true; } bool CopyFile(const std::string& srcPath, const std::string& dstPath) { FILE* inf = fopen(srcPath.c_str(), "rb"); if (!inf) { return false; } FILE* outf = fopen(dstPath.c_str(), "wb"); if (!outf) { fclose(inf); return false; } uint8_t buf[4096]; size_t bytesRead; while ((bytesRead = fread(buf, 1, sizeof(buf), inf)) > 0) { if (fwrite(buf, 1, bytesRead, outf) != bytesRead) { fclose(inf); fclose(outf); return false; } } if (ferror(inf)) { fclose(inf); fclose(outf); return false; } fclose(inf); fclose(outf); return true; } bool CaffeineInvalidate() { CCRCDCSoftwareVersion version; CCRCDCSoftwareGetVersion(CCR_CDC_DESTINATION_DRC0, &version); // Only newer versions have caffeine if (version.runningVersion >= 0x180a0000) { return CCRSysCaffeineSetCaffeineSlot(0xff) == 0; } return true; } bool WaitForEeprom(uint32_t drcSlot) { uint8_t val; OSTime startTime = OSGetSystemTime(); while (CCRCFGGetCachedEeprom(drcSlot, 0, &val, sizeof(val)) == -1) { // 2 second timeout if (OSTicksToSeconds(OSGetSystemTime() - startTime) > 2) { return false; } OSSleepTicks(OSMillisecondsToTicks(200)); } return true; } bool ReattachDRC(CCRCDCDestination dest, CCRCDCDrcStateEnum targetState, BOOL unknown) { // Get the current DRC state CCRCDCDrcState state; int32_t res = CCRCDCSysGetDrcState(dest, &state); if (res != 0) { return false; } // Not sure what state 3 is if (state.state == CCR_CDC_DRC_STATE_UNK3) { state.state = CCR_CDC_DRC_STATE_ACTIVE; } // Nothing to do if we're already in the target state if (state.state == targetState) { return true; } __CCRSysInitReattach(dest - CCR_CDC_DESTINATION_DRC0); // Set target state state.state = targetState; res = CCRCDCSysSetDrcState(dest, &state); if (res != 0) { return false; } // Wait for the DRC to reattach res = __CCRSysWaitReattach(dest - CCR_CDC_DESTINATION_DRC0, unknown); if (res != 0) { return false; } // Wait for EEPROM if (!WaitForEeprom(dest - CCR_CDC_DESTINATION_DRC0)) { return false; } // Check if we're in the state we want res = CCRCDCSysGetDrcState(dest, &state); if (res != 0) { return false; } if (state.state != targetState) { return false; } return true; } bool AbortUpdate(CCRCDCDestination dest) { OSTime startTime = OSGetSystemTime(); while (CCRCDCSoftwareAbort(dest) != 0) { // 3 second timeout if (OSTicksToSeconds(OSGetSystemTime() - startTime) > 3) { return false; } OSSleepTicks(OSMillisecondsToTicks(200)); } return true; } void SoftwareUpdateCallback(IOSError error, void* arg) { FlashScreen* flashScreen = static_cast(arg); flashScreen->OnUpdateCompleted(error); } } FlashScreen::FlashScreen() : mFileEntries({ {FILE_ORIGINAL, {0xf187, "Original Firmware"}}, {FILE_SDCARD, {0xf7c2, "From SD Card (\"sd:/drc_fw.bin\")"}}, }) { } FlashScreen::~FlashScreen() { } void FlashScreen::Draw() { DrawTopBar("FlashScreen"); switch (mState) { case STATE_SELECT_FILE: { for (FileID id = FILE_ORIGINAL; id <= FILE_SDCARD; id = static_cast(id + 1)) { int yOff = 75 + static_cast(id) * 150; Gfx::DrawRectFilled(0, yOff, Gfx::SCREEN_WIDTH, 150, Gfx::COLOR_ALT_BACKGROUND); Gfx::DrawIcon(68, yOff + 150 / 2, 60, Gfx::COLOR_TEXT, mFileEntries[id].icon); Gfx::Print(128 + 8, yOff + 150 / 2, 60, Gfx::COLOR_TEXT, mFileEntries[id].name, Gfx::ALIGN_VERTICAL); if (id == mFile) { Gfx::DrawRect(0, yOff, Gfx::SCREEN_WIDTH, 150, 8, Gfx::COLOR_HIGHLIGHTED); } } break; } case STATE_CONFIRM: { Gfx::Print(Gfx::SCREEN_WIDTH / 2, Gfx::SCREEN_HEIGHT / 2, 64, Gfx::COLOR_TEXT, Utils::sprintf("Are you sure?\n" "About to flash: %s", mFileEntries[mFile].name), Gfx::ALIGN_CENTER); break; } case STATE_PREPARE: { Gfx::Print(Gfx::SCREEN_WIDTH / 2, Gfx::SCREEN_HEIGHT / 2, 64, Gfx::COLOR_TEXT, "Preparing...", Gfx::ALIGN_CENTER); break; } case STATE_CONFIRM2: { Gfx::Print(Gfx::SCREEN_WIDTH / 2, Gfx::SCREEN_HEIGHT / 2, 64, Gfx::COLOR_ERROR, Utils::sprintf("Are you really really really sure?\n" "About to flash firmware version 0x%08x.\n" "Flashing a firmware can do permanent damage!!!\n", mFirmwareHeader.version), Gfx::ALIGN_CENTER); break; } case STATE_UPDATE: { Gfx::Print(Gfx::SCREEN_WIDTH / 2, Gfx::SCREEN_HEIGHT / 2, 64, Gfx::COLOR_TEXT, "Starting update...", Gfx::ALIGN_CENTER); break; } case STATE_FLASHING: { Gfx::Print(Gfx::SCREEN_WIDTH / 2, Gfx::SCREEN_HEIGHT / 2 - 32, 64, Gfx::COLOR_TEXT, Utils::sprintf("Flashing... %d%%", mFlashingProgress), Gfx::ALIGN_CENTER); Gfx::DrawRect(64, Gfx::SCREEN_HEIGHT / 2 + 32, Gfx::SCREEN_WIDTH - 128, 64, 5, Gfx::COLOR_ACCENT); Gfx::DrawRectFilled(64, Gfx::SCREEN_HEIGHT / 2 + 32, (Gfx::SCREEN_WIDTH - 128) * (mFlashingProgress / 100.0f), 64, Gfx::COLOR_ACCENT); break; } case STATE_ACTIVATE: { Gfx::Print(Gfx::SCREEN_WIDTH / 2, Gfx::SCREEN_HEIGHT / 2, 64, Gfx::COLOR_TEXT, "Activating firmware...", Gfx::ALIGN_CENTER); break; } case STATE_DONE: { Gfx::Print(Gfx::SCREEN_WIDTH / 2, Gfx::SCREEN_HEIGHT / 2, 64, Gfx::COLOR_TEXT, Utils::sprintf("Done!\n" "Flashed firmware version:\n0x%08x (%s)", mFirmwareHeader.version, mFileEntries[mFile].name), Gfx::ALIGN_CENTER); break; } case STATE_ERROR: { Gfx::Print(Gfx::SCREEN_WIDTH / 2, Gfx::SCREEN_HEIGHT / 2, 64, Gfx::COLOR_ERROR, "Error:\n" + mErrorString, Gfx::ALIGN_CENTER); break; } } if (mState == STATE_SELECT_FILE) { DrawBottomBar("\ue07d Navigate", "\ue044 Exit", "\ue000 Confirm / \ue001 Back"); } else if (mState == STATE_CONFIRM || mState == STATE_CONFIRM2) { DrawBottomBar(nullptr, "\ue044 Exit", "\ue000 Confirm / \ue001 Back"); } else if (mState == STATE_PREPARE || mState == STATE_UPDATE || mState == STATE_FLASHING || mState == STATE_ACTIVATE) { DrawBottomBar(nullptr, "Please wait...", nullptr); } else { DrawBottomBar(nullptr, nullptr, "\ue001 Back"); } } bool FlashScreen::Update(VPADStatus& input) { switch (mState) { case STATE_SELECT_FILE: { if (input.trigger & VPAD_BUTTON_B) { return false; } if (input.trigger & VPAD_BUTTON_A) { mState = STATE_CONFIRM; break; } if (input.trigger & VPAD_BUTTON_DOWN) { if (mFile < FILE_SDCARD) { mFile = static_cast(mFile + 1); } } else if (input.trigger & VPAD_BUTTON_UP) { if (mFile > FILE_ORIGINAL) { mFile = static_cast(mFile - 1); } } break; } case STATE_CONFIRM: case STATE_CONFIRM2: { if (input.trigger & VPAD_BUTTON_B) { return false; } if (input.trigger & VPAD_BUTTON_A) { mState = (mState == STATE_CONFIRM) ? STATE_PREPARE : STATE_UPDATE; break; } break; } case STATE_PREPARE: { ProcUI::SetHomeButtonMenuEnabled(false); std::string originalFirmwarePath; if (!GetDRCFirmwarePath(originalFirmwarePath)) { mErrorString = "Failed to get original DRC firmware path"; mState = STATE_ERROR; break; } // Replace absolute path with devoptab prefix std::size_t prefixPos = originalFirmwarePath.find("/vol/storage_mlc01"); if (prefixPos != 0) { mErrorString = "Invalid firmware path"; mState = STATE_ERROR; break; } std::string doptPath = originalFirmwarePath; doptPath.replace(prefixPos, sizeof("/vol/storage_mlc01") - 1, "storage_mlc01:"); FirmwareHeader originalFirmwareHeader; if (!ReadFirmwareHeader(doptPath, originalFirmwareHeader)) { mErrorString = "Failed to read original DRC firmware header"; mState = STATE_ERROR; break; } if (mFile == FILE_ORIGINAL) { mFirmwarePath = originalFirmwarePath; mFirmwareHeader = originalFirmwareHeader; } else if (mFile == FILE_SDCARD) { if (!ReadFirmwareHeader("/vol/external01/drc_fw.bin", mFirmwareHeader)) { mErrorString = "Failed to read DRC firmware header"; mState = STATE_ERROR; break; } // Don't allow downgrading lower than the version on NAND, // otherwise this might cause bricks without flashing the language files? if (mFirmwareHeader.version < originalFirmwareHeader.version) { mErrorString = Utils::sprintf("Not allowing versions lower than version on NAND.\n(Firmware 0x%08x Original 0x%08x)", mFirmwareHeader.version, originalFirmwareHeader.version); mState = STATE_ERROR; break; } // Copy to MLC so IOS-PAD can install it mFirmwarePath = "/vol/storage_mlc01/usr/tmp/drc_fw.bin"; if (!CopyFile("/vol/external01/drc_fw.bin", "storage_mlc01:/usr/tmp/drc_fw.bin")) { mErrorString = "Failed to copy firmware to MLC"; mState = STATE_ERROR; break; } } else { mState = STATE_ERROR; break; } mState = STATE_CONFIRM2; break; } case STATE_UPDATE: { if (!CaffeineInvalidate()) { mErrorString = "Failed to invalidate caffeine."; mState = STATE_ERROR; break; } // Abort any potential pending software updates CCRCDCSoftwareAbort(CCR_CDC_DESTINATION_DRC0); // Reattach the DRC in update mode if (!ReattachDRC(CCR_CDC_DESTINATION_DRC0, CCR_CDC_DRC_STATE_UPDATE, FALSE)) { ReattachDRC(CCR_CDC_DESTINATION_DRC0, CCR_CDC_DRC_STATE_ACTIVE, FALSE); mErrorString = "Failed to reattach DRC in update mode."; mState = STATE_ERROR; break; } mFlashingProgress = 0; mUpdateComplete = false; mUpdateResult = 0; if (CCRCDCSoftwareUpdate(CCR_CDC_DESTINATION_DRC0, mFirmwarePath.c_str(), SoftwareUpdateCallback, this) != 0) { AbortUpdate(CCR_CDC_DESTINATION_DRC0); ReattachDRC(CCR_CDC_DESTINATION_DRC0, CCR_CDC_DRC_STATE_ACTIVE, FALSE); mErrorString = "Failed to start software update."; mState = STATE_ERROR; break; } mState = STATE_FLASHING; break; } case STATE_FLASHING: { // Update progress CCRCDCFWInfo fwInfo{}; if (CCRCDCGetFWInfo(CCR_CDC_DESTINATION_DRC0, &fwInfo) == 0) { mFlashingProgress = fwInfo.updateProgress; } OSSleepTicks(OSMillisecondsToTicks(200)); // Check if update complete if (mUpdateComplete) { if (mUpdateResult == IOS_ERROR_OK) { mState = STATE_ACTIVATE; } else { AbortUpdate(CCR_CDC_DESTINATION_DRC0); ReattachDRC(CCR_CDC_DESTINATION_DRC0, CCR_CDC_DRC_STATE_ACTIVE, FALSE); mErrorString = "Software update failed."; mState = STATE_ERROR; } } break; } case STATE_ACTIVATE: { // Activate the newly flashed firmware if (CCRCDCSoftwareActivate(CCR_CDC_DESTINATION_DRC0) != 0) { AbortUpdate(CCR_CDC_DESTINATION_DRC0); ReattachDRC(CCR_CDC_DESTINATION_DRC0, CCR_CDC_DRC_STATE_ACTIVE, FALSE); mErrorString = "Failed to activate software update."; mState = STATE_ERROR; break; } // Put the gamepad back into active mode OSTime startTime = OSGetSystemTime(); while (!ReattachDRC(CCR_CDC_DESTINATION_DRC0, CCR_CDC_DRC_STATE_ACTIVE, FALSE)) { // 10 second timeout if (OSTicksToSeconds(OSGetSystemTime() - startTime) > 10) { // At this point we don't really care if it times out or not break; } OSSleepTicks(OSMillisecondsToTicks(1000)); } mState = STATE_DONE; break; } case STATE_DONE: { if (input.trigger & VPAD_BUTTON_B) { ProcUI::SetHomeButtonMenuEnabled(true); return false; } break; } case STATE_ERROR: { if (input.trigger & VPAD_BUTTON_B) { ProcUI::SetHomeButtonMenuEnabled(true); return false; } break; } default: break; } return true; } void FlashScreen::OnUpdateCompleted(int32_t result) { mUpdateComplete = true; mUpdateResult = result; }