// Copyright (c) 2012- PPSSPP Project. // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, version 2.0 or later versions. // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License 2.0 for more details. // A copy of the GPL 2.0 should have been included with the program. // If not, see http://www.gnu.org/licenses/ // Official git repository and contact information can be found at // https://github.com/hrydgard/ppsspp and http://www.ppsspp.org/. #include #include #include "base/mutex.h" #include "base/timeutil.h" #include "base/NativeApp.h" #include "i18n/i18n.h" #include "Common/FileUtil.h" #include "Common/ChunkFile.h" #include "Core/SaveState.h" #include "Core/Config.h" #include "Core/Core.h" #include "Core/CoreTiming.h" #include "Core/Host.h" #include "Core/Screenshot.h" #include "Core/System.h" #include "Core/FileSystems/MetaFileSystem.h" #include "Core/ELF/ParamSFO.h" #include "Core/HLE/HLE.h" #include "Core/HLE/sceDisplay.h" #include "Core/HLE/ReplaceTables.h" #include "Core/HLE/sceKernel.h" #include "Core/MemMap.h" #include "Core/MIPS/MIPS.h" #include "Core/MIPS/JitCommon/JitBlockCache.h" #include "HW/MemoryStick.h" #include "GPU/GPUState.h" #include "UI/OnScreenDisplay.h" namespace SaveState { struct SaveStart { void DoState(PointerWrap &p); }; enum OperationType { SAVESTATE_SAVE, SAVESTATE_LOAD, SAVESTATE_VERIFY, SAVESTATE_REWIND, SAVESTATE_SAVE_SCREENSHOT, }; struct Operation { Operation(OperationType t, const std::string &f, Callback cb, void *cbUserData_) : type(t), filename(f), callback(cb), cbUserData(cbUserData_) { } OperationType type; std::string filename; Callback callback; void *cbUserData; }; CChunkFileReader::Error SaveToRam(std::vector &data) { SaveStart state; size_t sz = CChunkFileReader::MeasurePtr(state); if (data.size() < sz) data.resize(sz); return CChunkFileReader::SavePtr(&data[0], state); } CChunkFileReader::Error LoadFromRam(std::vector &data) { SaveStart state; return CChunkFileReader::LoadPtr(&data[0], state); } struct StateRingbuffer { StateRingbuffer(int size) : first_(0), next_(0), size_(size), base_(-1) { states_.resize(size); baseMapping_.resize(size); } CChunkFileReader::Error Save() { int n = next_++ % size_; if ((next_ % size_) == first_) ++first_; static std::vector buffer; std::vector *compressBuffer = &buffer; CChunkFileReader::Error err; if (base_ == -1 || ++baseUsage_ > BASE_USAGE_INTERVAL) { base_ = (base_ + 1) % ARRAY_SIZE(bases_); baseUsage_ = 0; err = SaveToRam(bases_[base_]); // Let's not bother savestating twice. compressBuffer = &bases_[base_]; } else err = SaveToRam(buffer); if (err == CChunkFileReader::ERROR_NONE) Compress(states_[n], *compressBuffer, bases_[base_]); else states_[n].clear(); baseMapping_[n] = base_; return err; } CChunkFileReader::Error Restore() { // No valid states left. if (Empty()) return CChunkFileReader::ERROR_BAD_FILE; int n = (--next_ + size_) % size_; if (states_[n].empty()) return CChunkFileReader::ERROR_BAD_FILE; static std::vector buffer; Decompress(buffer, states_[n], bases_[baseMapping_[n]]); return LoadFromRam(buffer); } void Compress(std::vector &result, const std::vector &state, const std::vector &base) { result.clear(); for (size_t i = 0; i < state.size(); i += BLOCK_SIZE) { int blockSize = std::min(BLOCK_SIZE, (int)(state.size() - i)); if (i + blockSize > base.size() || memcmp(&state[i], &base[i], blockSize) != 0) { result.push_back(1); result.insert(result.end(), state.begin() + i, state.begin() +i + blockSize); } else result.push_back(0); } } void Decompress(std::vector &result, const std::vector &compressed, const std::vector &base) { result.clear(); result.reserve(base.size()); auto basePos = base.begin(); for (size_t i = 0; i < compressed.size(); ) { if (compressed[i] == 0) { ++i; int blockSize = std::min(BLOCK_SIZE, (int)(base.size() - result.size())); result.insert(result.end(), basePos, basePos + blockSize); basePos += blockSize; } else { ++i; int blockSize = std::min(BLOCK_SIZE, (int)(compressed.size() - i)); result.insert(result.end(), compressed.begin() + i, compressed.begin() + i + blockSize); i += blockSize; basePos += blockSize; } } } void Clear() { first_ = 0; next_ = 0; } bool Empty() const { return next_ == first_; } static const int BLOCK_SIZE; // TODO: Instead, based on size of compressed state? static const int BASE_USAGE_INTERVAL; typedef std::vector StateBuffer; int first_; int next_; int size_; std::vector states_; StateBuffer bases_[2]; std::vector baseMapping_; int base_; int baseUsage_; }; static bool needsProcess = false; static std::vector pending; static recursive_mutex mutex; static bool hasLoadedState = false; // TODO: Should this be configurable? static const int REWIND_NUM_STATES = 20; static StateRingbuffer rewindStates(REWIND_NUM_STATES); // TODO: Any reason for this to be configurable? const static float rewindMaxWallFrequency = 1.0f; static float rewindLastTime = 0.0f; const int StateRingbuffer::BLOCK_SIZE = 8192; const int StateRingbuffer::BASE_USAGE_INTERVAL = 15; void SaveStart::DoState(PointerWrap &p) { auto s = p.Section("SaveStart", 1); if (!s) return; // Gotta do CoreTiming first since we'll restore into it. CoreTiming::DoState(p); // Memory is a bit tricky when jit is enabled, since there's emuhacks in it. auto savedReplacements = SaveAndClearReplacements(); if (MIPSComp::jit && p.mode == p.MODE_WRITE) { auto blockCache = MIPSComp::jit->GetBlockCache(); auto savedBlocks = blockCache->SaveAndClearEmuHackOps(); Memory::DoState(p); blockCache->RestoreSavedEmuHackOps(savedBlocks); } else Memory::DoState(p); RestoreSavedReplacements(savedReplacements); MemoryStick_DoState(p); currentMIPS->DoState(p); HLEDoState(p); __KernelDoState(p); // Kernel object destructors might close open files, so do the filesystem last. pspFileSystem.DoState(p); } void Enqueue(SaveState::Operation op) { lock_guard guard(mutex); pending.push_back(op); // Don't actually run it until next frame. // It's possible there might be a duplicate but it won't hurt us. needsProcess = true; Core_UpdateSingleStep(); } void Load(const std::string &filename, Callback callback, void *cbUserData) { Enqueue(Operation(SAVESTATE_LOAD, filename, callback, cbUserData)); } void Save(const std::string &filename, Callback callback, void *cbUserData) { Enqueue(Operation(SAVESTATE_SAVE, filename, callback, cbUserData)); } void Verify(Callback callback, void *cbUserData) { Enqueue(Operation(SAVESTATE_VERIFY, std::string(""), callback, cbUserData)); } void Rewind(Callback callback, void *cbUserData) { Enqueue(Operation(SAVESTATE_REWIND, std::string(""), callback, cbUserData)); } void SaveScreenshot(const std::string &filename, Callback callback, void *cbUserData) { Enqueue(Operation(SAVESTATE_SAVE_SCREENSHOT, filename, callback, cbUserData)); } bool CanRewind() { return !rewindStates.Empty(); } // Slot utilities std::string AppendSlotTitle(const std::string &filename, const std::string &title) { if (!endsWith(filename, std::string(".") + STATE_EXTENSION)) { return title + " (" + filename + ")"; } // Usually these are slots, let's check the slot # after the last '_'. size_t slotNumPos = filename.find_last_of('_'); if (slotNumPos == filename.npos) { return title + " (" + filename + ")"; } const size_t extLength = strlen(STATE_EXTENSION) + 1; // If we take out the extension, '_', etc. we should be left with only a single digit. if (slotNumPos + 1 + extLength != filename.length() - 1) { return title + " (" + filename + ")"; } std::string slot = filename.substr(slotNumPos + 1, 1); if (slot[0] < '0' || slot[0] > '8') { return title + " (" + filename + ")"; } // Change from zero indexed to human friendly. slot[0]++; return title + " (" + slot + ")"; } std::string GetTitle(const std::string &filename) { std::string title; if (CChunkFileReader::GetFileTitle(filename, &title) == CChunkFileReader::ERROR_NONE) { if (title.empty()) { return File::GetFilename(filename); } return AppendSlotTitle(filename, title); } // The file can't be loaded - let's note that. I18NCategory *sy = GetI18NCategory("System"); return File::GetFilename(filename) + " " + sy->T("(broken)"); } std::string GenerateSaveSlotFilename(const std::string &gameFilename, int slot, const char *extension) { std::string discId = g_paramSFO.GetValueString("DISC_ID"); std::string fullDiscId; if (discId.size()) { fullDiscId = StringFromFormat("%s_%s", g_paramSFO.GetValueString("DISC_ID").c_str(), g_paramSFO.GetValueString("DISC_VERSION").c_str()); } else { // Okay, no discId. Probably homebrew, let's use the last part of the path name. if (File::IsDirectory(gameFilename)) { // EBOOT.PBP directory, most likely. std::string path = gameFilename; size_t slash = path.rfind('/'); // Always '/', not '\\', as we're in a virtual directory if (slash != std::string::npos && slash < path.size() - 1) path = path.substr(slash + 1); fullDiscId = path; } else { // Probably a loose elf. std::string fn = File::GetFilename(gameFilename); size_t dot = fn.rfind('.'); if (dot != std::string::npos) { fullDiscId = fn.substr(0, dot); } else { fullDiscId = "elf"; // Fallback } } } std::string temp = StringFromFormat("ms0:/PSP/PPSSPP_STATE/%s_%i.%s", fullDiscId.c_str(), slot, extension); std::string hostPath; if (pspFileSystem.GetHostPath(temp, hostPath)) { return hostPath; } else { return ""; } } int GetCurrentSlot() { return g_Config.iCurrentStateSlot; } void NextSlot() { I18NCategory *sy = GetI18NCategory("System"); g_Config.iCurrentStateSlot = (g_Config.iCurrentStateSlot + 1) % NUM_SLOTS; std::string msg = StringFromFormat("%s: %d", sy->T("Savestate Slot"), g_Config.iCurrentStateSlot + 1); osm.Show(msg); NativeMessageReceived("slotchanged", ""); } void LoadSlot(const std::string &gameFilename, int slot, Callback callback, void *cbUserData) { std::string fn = GenerateSaveSlotFilename(gameFilename, slot, STATE_EXTENSION); if (!fn.empty()) { Load(fn, callback, cbUserData); } else { I18NCategory *sy = GetI18NCategory("System"); osm.Show(sy->T("Failed to load state. Error in the file system."), 2.0); if (callback) callback(false, cbUserData); } } void SaveSlot(const std::string &gameFilename, int slot, Callback callback, void *cbUserData) { std::string fn = GenerateSaveSlotFilename(gameFilename, slot, STATE_EXTENSION); std::string shot = GenerateSaveSlotFilename(gameFilename, slot, SCREENSHOT_EXTENSION); if (!fn.empty()) { auto renameCallback = [=](bool status, void *data) { if (status) { if (File::Exists(fn)) { File::Delete(fn); } File::Rename(fn + ".tmp", fn); } if (callback) { callback(status, data); } }; // Let's also create a screenshot. SaveScreenshot(shot, Callback(), 0); Save(fn + ".tmp", renameCallback, cbUserData); } else { I18NCategory *sc = GetI18NCategory("Screen"); osm.Show("Failed to save state. Error in the file system.", 2.0); if (callback) callback(false, cbUserData); } } bool HasSaveInSlot(const std::string &gameFilename, int slot) { std::string fn = GenerateSaveSlotFilename(gameFilename, slot, STATE_EXTENSION); return File::Exists(fn); } bool HasScreenshotInSlot(const std::string &gameFilename, int slot) { std::string fn = GenerateSaveSlotFilename(gameFilename, slot, SCREENSHOT_EXTENSION); return File::Exists(fn); } bool operator < (const tm &t1, const tm &t2) { if (t1.tm_year < t2.tm_year) return true; if (t1.tm_year > t2.tm_year) return false; if (t1.tm_mon < t2.tm_mon) return true; if (t1.tm_mon > t2.tm_mon) return false; if (t1.tm_mday < t2.tm_mday) return true; if (t1.tm_mday > t2.tm_mday) return false; if (t1.tm_hour < t2.tm_hour) return true; if (t1.tm_hour > t2.tm_hour) return false; if (t1.tm_min < t2.tm_min) return true; if (t1.tm_min > t2.tm_min) return false; if (t1.tm_sec < t2.tm_sec) return true; if (t1.tm_sec > t2.tm_sec) return false; return false; } int GetNewestSlot(const std::string &gameFilename) { int newestSlot = -1; tm newestDate = {0}; for (int i = 0; i < NUM_SLOTS; i++) { std::string fn = GenerateSaveSlotFilename(gameFilename, i, STATE_EXTENSION); if (File::Exists(fn)) { tm time; bool success = File::GetModifTime(fn, time); if (success && newestDate < time) { newestDate = time; newestSlot = i; } } } return newestSlot; } std::string GetSlotDateAsString(const std::string &gameFilename, int slot) { std::string fn = GenerateSaveSlotFilename(gameFilename, slot, STATE_EXTENSION); if (File::Exists(fn)) { tm time; if (File::GetModifTime(fn, time)) { char buf[256]; // TODO: Use local time format? Americans and some others might not like ISO standard :) strftime(buf, sizeof(buf), "%Y-%m-%d %H:%M:%S", &time); return std::string(buf); } } return ""; } std::vector Flush() { lock_guard guard(mutex); std::vector copy = pending; pending.clear(); return copy; } bool HandleFailure() { // Okay, first, let's give the rewind state a shot - maybe we can at least not reset entirely. // Even if this was a rewind, maybe we can still load a previous one. CChunkFileReader::Error result; do result = rewindStates.Restore(); while (result == CChunkFileReader::ERROR_BROKEN_STATE); if (result == CChunkFileReader::ERROR_NONE) { return true; } // We tried, our only remaining option is to reset the game. PSP_Shutdown(); std::string resetError; if (!PSP_Init(PSP_CoreParameter(), &resetError)) { ERROR_LOG(BOOT, "Error resetting: %s", resetError.c_str()); // TODO: This probably doesn't clean up well enough. Core_Stop(); return false; } host->BootDone(); host->UpdateDisassembly(); return false; } static inline void CheckRewindState() { if (gpuStats.numFlips % g_Config.iRewindFlipFrequency != 0) return; // For fast-forwarding, otherwise they may be useless and too close. time_update(); float diff = time_now() - rewindLastTime; if (diff < rewindMaxWallFrequency) return; rewindLastTime = time_now(); DEBUG_LOG(BOOT, "saving rewind state"); rewindStates.Save(); } bool HasLoadedState() { return hasLoadedState; } void Process() { #ifndef MOBILE_DEVICE if (g_Config.iRewindFlipFrequency != 0 && gpuStats.numFlips != 0) CheckRewindState(); #endif if (!needsProcess) return; needsProcess = false; if (!__KernelIsRunning()) { ERROR_LOG(COMMON, "Savestate failure: Unable to load without kernel, this should never happen."); return; } std::vector operations = Flush(); SaveStart state; for (size_t i = 0, n = operations.size(); i < n; ++i) { Operation &op = operations[i]; CChunkFileReader::Error result; bool callbackResult; std::string reason; I18NCategory *sc = GetI18NCategory("Screen"); const char *i18nLoadFailure = sc->T("Load savestate failed", ""); const char *i18nSaveFailure = sc->T("Save State Failed", ""); if (strlen(i18nLoadFailure) == 0) i18nLoadFailure = sc->T("Failed to load state"); if (strlen(i18nSaveFailure) == 0) i18nSaveFailure = sc->T("Failed to save state"); switch (op.type) { case SAVESTATE_LOAD: INFO_LOG(COMMON, "Loading state from %s", op.filename.c_str()); result = CChunkFileReader::Load(op.filename, PPSSPP_GIT_VERSION, state, &reason); if (result == CChunkFileReader::ERROR_NONE) { osm.Show(sc->T("Loaded State"), 2.0); callbackResult = true; hasLoadedState = true; } else if (result == CChunkFileReader::ERROR_BROKEN_STATE) { HandleFailure(); osm.Show(i18nLoadFailure, 2.0); ERROR_LOG(COMMON, "Load state failure: %s", reason.c_str()); callbackResult = false; } else { osm.Show(sc->T(reason.c_str(), i18nLoadFailure), 2.0); callbackResult = false; } break; case SAVESTATE_SAVE: INFO_LOG(COMMON, "Saving state to %s", op.filename.c_str()); result = CChunkFileReader::Save(op.filename, g_paramSFO.GetValueString("TITLE"), PPSSPP_GIT_VERSION, state); if (result == CChunkFileReader::ERROR_NONE) { osm.Show(sc->T("Saved State"), 2.0); callbackResult = true; } else if (result == CChunkFileReader::ERROR_BROKEN_STATE) { HandleFailure(); osm.Show(i18nSaveFailure, 2.0); ERROR_LOG(COMMON, "Save state failure: %s", reason.c_str()); callbackResult = false; } else { osm.Show(i18nSaveFailure, 2.0); callbackResult = false; } break; case SAVESTATE_VERIFY: INFO_LOG(COMMON, "Verifying save state system"); callbackResult = CChunkFileReader::Verify(state) == CChunkFileReader::ERROR_NONE; break; case SAVESTATE_REWIND: INFO_LOG(COMMON, "Rewinding to recent savestate snapshot"); result = rewindStates.Restore(); if (result == CChunkFileReader::ERROR_NONE) { osm.Show(sc->T("Loaded State"), 2.0); callbackResult = true; hasLoadedState = true; } else if (result == CChunkFileReader::ERROR_BROKEN_STATE) { // Cripes. Good news is, we might have more. Let's try those too, better than a reset. if (HandleFailure()) { // Well, we did rewind, even if too much... osm.Show(sc->T("Loaded State"), 2.0); callbackResult = true; hasLoadedState = true; } else { osm.Show(i18nLoadFailure, 2.0); callbackResult = false; } } else { osm.Show(i18nLoadFailure, 2.0); callbackResult = false; } break; case SAVESTATE_SAVE_SCREENSHOT: callbackResult = TakeGameScreenshot(op.filename.c_str(), SCREENSHOT_JPG, SCREENSHOT_RENDER); if (!callbackResult) { ERROR_LOG(COMMON, "Failed to take a screenshot for the savestate! %s", op.filename.c_str()); } break; default: ERROR_LOG(COMMON, "Savestate failure: unknown operation type %d", op.type); callbackResult = false; break; } if (op.callback) op.callback(callbackResult, op.cbUserData); } if (operations.size()) { // Avoid triggering frame skipping due to slowdown __DisplaySetWasPaused(); } } void Init() { // Make sure there's a directory for save slots pspFileSystem.MkDir("ms0:/PSP/PPSSPP_STATE"); lock_guard guard(mutex); rewindStates.Clear(); hasLoadedState = false; } }