// Copyright (C) 2019 The Android Open Source Project // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include "VkReconstruction.h" #include #include #include "FrameBuffer.h" #include "render-utils/IOStream.h" #include "VkDecoder.h" #include "aemu/base/containers/EntityManager.h" namespace gfxstream { namespace vk { #define DEBUG_RECONSTRUCTION 0 #if DEBUG_RECONSTRUCTION #define DEBUG_RECON(fmt, ...) fprintf(stderr, "%s:%d " fmt "\n", __func__, __LINE__, ##__VA_ARGS__); #else #define DEBUG_RECON(fmt, ...) #endif VkReconstruction::VkReconstruction() = default; std::vector typeTagSortedHandles( const std::vector& handles) { using EntityManagerTypeForHandles = android::base::EntityManager<32, 16, 16, int>; std::vector res = handles; std::sort(res.begin(), res.end(), [](const VkReconstruction::HandleWithState& lhs, const VkReconstruction::HandleWithState& rhs) { if (lhs.second != rhs.second) { return lhs.second < rhs.second; } return EntityManagerTypeForHandles::getHandleType(lhs.first) < EntityManagerTypeForHandles::getHandleType(rhs.first); }); return res; } void VkReconstruction::save(android::base::Stream* stream) { DEBUG_RECON("start") #if DEBUG_RECONSTRUCTION dump(); #endif std::unordered_map totalParents; std::vector next; mHandleReconstructions.forEachLiveComponent_const( [&totalParents, &next](bool live, uint64_t componentHandle, uint64_t entityHandle, const HandleWithStateReconstruction& item) { for (int state = BEGIN; state < HANDLE_STATE_COUNT; state++) { const auto& parents = item.states[state].parentHandles; HandleWithState handleWithState = {entityHandle, static_cast(state)}; totalParents[handleWithState] = parents.size(); if (parents.empty()) { next.push_back(handleWithState); } } }); std::vector> handlesByTopoOrder; while (!next.empty()) { next = typeTagSortedHandles(next); handlesByTopoOrder.push_back(std::move(next)); const std::vector& current = handlesByTopoOrder.back(); for (const auto& handle : current) { const auto& item = mHandleReconstructions.get(handle.first)->states[handle.second]; for (const auto& childHandle : item.childHandles) { if (--totalParents[childHandle] == 0) { next.push_back(childHandle); } } } } std::vector> uniqApiRefsByTopoOrder; uniqApiRefsByTopoOrder.reserve(handlesByTopoOrder.size() + 1); for (const auto& handles : handlesByTopoOrder) { std::vector nextApis; for (const auto& handle : handles) { auto item = mHandleReconstructions.get(handle.first)->states[handle.second]; for (uint64_t apiRef : item.apiRefs) { #if DEBUG_RECONSTRUCTION auto apiItem = mApiTrace.get(apiRef); DEBUG_RECON("adding handle 0x%lx API 0x%lx op code %d\n", handle.first, apiRef, apiItem->opCode); #endif nextApis.push_back(apiRef); } } uniqApiRefsByTopoOrder.push_back(std::move(nextApis)); } uniqApiRefsByTopoOrder.push_back(getOrderedUniqueModifyApis()); size_t totalApiTraceSize = 0; // 4 bytes to store size of created handles for (size_t i = 0; i < uniqApiRefsByTopoOrder.size(); ++i) { for (auto apiHandle : uniqApiRefsByTopoOrder[i]) { auto item = mApiTrace.get(apiHandle); totalApiTraceSize += 4; // opcode totalApiTraceSize += 4; // buffer size of trace totalApiTraceSize += item->traceBytes; // the actual trace } } DEBUG_RECON("total api trace size: %zu", totalApiTraceSize); std::vector createdHandleBuffer; for (size_t i = 0; i < uniqApiRefsByTopoOrder.size(); ++i) { for (auto apiHandle : uniqApiRefsByTopoOrder[i]) { auto item = mApiTrace.get(apiHandle); for (auto createdHandle : item->createdHandles) { DEBUG_RECON("save handle: 0x%lx\n", createdHandle); createdHandleBuffer.push_back(createdHandle); } } } std::vector apiTraceBuffer; apiTraceBuffer.resize(totalApiTraceSize); uint8_t* apiTracePtr = apiTraceBuffer.data(); for (size_t i = 0; i < uniqApiRefsByTopoOrder.size(); ++i) { for (auto apiHandle : uniqApiRefsByTopoOrder[i]) { auto item = mApiTrace.get(apiHandle); // 4 bytes for opcode, and 4 bytes for saveBufferRaw's size field DEBUG_RECON("saving api handle 0x%lx op code %d\n", apiHandle, item->opCode); memcpy(apiTracePtr, &item->opCode, sizeof(uint32_t)); apiTracePtr += 4; uint32_t traceBytesForSnapshot = item->traceBytes + 8; memcpy(apiTracePtr, &traceBytesForSnapshot, sizeof(uint32_t)); // and 8 bytes for 'self' struct of { opcode, packetlen } as // that is what decoder expects apiTracePtr += 4; memcpy(apiTracePtr, item->trace.data(), item->traceBytes); apiTracePtr += item->traceBytes; } } DEBUG_RECON("created handle buffer size: %zu trace: %zu", createdHandleBuffer.size(), apiTraceBuffer.size()); android::base::saveBufferRaw(stream, (char*)(createdHandleBuffer.data()), createdHandleBuffer.size() * sizeof(uint64_t)); android::base::saveBufferRaw(stream, (char*)(apiTraceBuffer.data()), apiTraceBuffer.size()); } class TrivialStream : public IOStream { public: TrivialStream() : IOStream(4) {} virtual ~TrivialStream() = default; void* allocBuffer(size_t minSize) { size_t allocSize = (m_bufsize < minSize ? minSize : m_bufsize); if (!m_buf) { m_buf = (unsigned char*)malloc(allocSize); } else if (m_bufsize < allocSize) { unsigned char* p = (unsigned char*)realloc(m_buf, allocSize); if (p != NULL) { m_buf = p; m_bufsize = allocSize; } else { ERR("realloc (%zu) failed\n", allocSize); free(m_buf); m_buf = NULL; m_bufsize = 0; } } return m_buf; } int commitBuffer(size_t size) { if (size == 0) return 0; return writeFully(m_buf, size); } int writeFully(const void* buf, size_t len) { return 0; } const unsigned char* readFully(void* buf, size_t len) { return NULL; } virtual void* getDmaForReading(uint64_t guest_paddr) { return nullptr; } virtual void unlockDma(uint64_t guest_paddr) {} protected: virtual const unsigned char* readRaw(void* buf, size_t* inout_len) { return nullptr; } virtual void onSave(android::base::Stream* stream) {} virtual unsigned char* onLoad(android::base::Stream* stream) { return nullptr; } }; void VkReconstruction::load(android::base::Stream* stream, emugl::GfxApiLogger& gfxLogger, emugl::HealthMonitor<>* healthMonitor) { DEBUG_RECON("start. assuming VkDecoderGlobalState has been cleared for loading already"); mApiTrace.clear(); mHandleReconstructions.clear(); std::vector createdHandleBuffer; std::vector apiTraceBuffer; android::base::loadBuffer(stream, &createdHandleBuffer); android::base::loadBuffer(stream, &apiTraceBuffer); DEBUG_RECON("created handle buffer size: %zu trace: %zu", createdHandleBuffer.size(), apiTraceBuffer.size()); uint32_t createdHandleBufferSize = createdHandleBuffer.size(); mLoadedTrace.resize(4 + createdHandleBufferSize + apiTraceBuffer.size()); unsigned char* finalTraceData = (unsigned char*)(mLoadedTrace.data()); memcpy(finalTraceData, &createdHandleBufferSize, sizeof(uint32_t)); memcpy(finalTraceData + 4, createdHandleBuffer.data(), createdHandleBufferSize); memcpy(finalTraceData + 4 + createdHandleBufferSize, apiTraceBuffer.data(), apiTraceBuffer.size()); VkDecoder decoderForLoading; // A decoder that is set for snapshot load will load up the created handles first, // if any, allowing us to 'catch' the results as they are decoded. decoderForLoading.setForSnapshotLoad(true); TrivialStream trivialStream; DEBUG_RECON("start decoding trace"); // TODO: This needs to be the puid seqno ptr auto resources = ProcessResources::create(); VkDecoderContext context = { .processName = nullptr, .gfxApiLogger = &gfxLogger, .healthMonitor = healthMonitor, }; decoderForLoading.decode(mLoadedTrace.data(), mLoadedTrace.size(), &trivialStream, resources.get(), context); DEBUG_RECON("finished decoding trace"); } VkReconstruction::ApiHandle VkReconstruction::createApiInfo() { auto handle = mApiTrace.add(ApiInfo(), 1); return handle; } void VkReconstruction::destroyApiInfo(VkReconstruction::ApiHandle h) { auto item = mApiTrace.get(h); if (!item) return; item->traceBytes = 0; item->createdHandles.clear(); mApiTrace.remove(h); } VkReconstruction::ApiInfo* VkReconstruction::getApiInfo(VkReconstruction::ApiHandle h) { return mApiTrace.get(h); } void VkReconstruction::setApiTrace(VkReconstruction::ApiInfo* apiInfo, uint32_t opCode, const uint8_t* traceBegin, size_t traceBytes) { if (apiInfo->trace.size() < traceBytes) apiInfo->trace.resize(traceBytes); apiInfo->opCode = opCode; memcpy(apiInfo->trace.data(), traceBegin, traceBytes); apiInfo->traceBytes = traceBytes; } void VkReconstruction::dump() { fprintf(stderr, "%s: api trace dump\n", __func__); size_t traceBytesTotal = 0; mApiTrace.forEachLiveEntry_const( [&traceBytesTotal](bool live, uint64_t handle, const ApiInfo& info) { fprintf(stderr, "VkReconstruction::%s: api handle 0x%llx: %s\n", __func__, (unsigned long long)handle, api_opcode_to_string(info.opCode)); traceBytesTotal += info.traceBytes; }); mHandleReconstructions.forEachLiveComponent_const( [this](bool live, uint64_t componentHandle, uint64_t entityHandle, const HandleWithStateReconstruction& reconstruction) { fprintf(stderr, "VkReconstruction::%s: %p handle 0x%llx api refs:\n", __func__, this, (unsigned long long)entityHandle); for (const auto& state : reconstruction.states) { for (auto apiHandle : state.apiRefs) { auto apiInfo = mApiTrace.get(apiHandle); const char* apiName = apiInfo ? api_opcode_to_string(apiInfo->opCode) : "unalloced"; fprintf(stderr, "VkReconstruction::%s: 0x%llx: %s\n", __func__, (unsigned long long)apiHandle, apiName); for (auto createdHandle : apiInfo->createdHandles) { fprintf(stderr, "VkReconstruction::%s: created 0x%llx\n", __func__, (unsigned long long)createdHandle); } } } }); mHandleModifications.forEachLiveComponent_const([this](bool live, uint64_t componentHandle, uint64_t entityHandle, const HandleModification& modification) { fprintf(stderr, "VkReconstruction::%s: mod: %p handle 0x%llx api refs:\n", __func__, this, (unsigned long long)entityHandle); for (auto apiHandle : modification.apiRefs) { auto apiInfo = mApiTrace.get(apiHandle); const char* apiName = apiInfo ? api_opcode_to_string(apiInfo->opCode) : "unalloced"; fprintf(stderr, "VkReconstruction::%s: mod: 0x%llx: %s\n", __func__, (unsigned long long)apiHandle, apiName); } }); fprintf(stderr, "%s: total trace bytes: %zu\n", __func__, traceBytesTotal); } void VkReconstruction::addHandles(const uint64_t* toAdd, uint32_t count) { if (!toAdd) return; for (uint32_t i = 0; i < count; ++i) { DEBUG_RECON("add 0x%llx", (unsigned long long)toAdd[i]); mHandleReconstructions.add(toAdd[i], HandleWithStateReconstruction()); } } void VkReconstruction::removeHandles(const uint64_t* toRemove, uint32_t count, bool recursive) { if (!toRemove) return; for (uint32_t i = 0; i < count; ++i) { DEBUG_RECON("remove 0x%llx", (unsigned long long)toRemove[i]); auto item = mHandleReconstructions.get(toRemove[i]); // Delete can happen in arbitrary order. // It might delete the parents before children, which will automatically remove // the name. if (!item) continue; // Break circuler references if (item->destroying) continue; item->destroying = true; if (!recursive) { bool couldDestroy = true; for (const auto& state : item->states) { if (!state.childHandles.size()) { continue; } couldDestroy = false; break; } // TODO(b/330769702): perform delayed destroy when all children are destroyed. if (couldDestroy) { forEachHandleDeleteApi(toRemove + i, 1); mHandleReconstructions.remove(toRemove[i]); } else { DEBUG_RECON("delay destroy of 0x%lx, TODO: actually destroy it", toRemove[i]); item->delayed_destroy = true; item->destroying = false; } continue; } for (size_t j = 0; j < item->states.size(); j++) { for (const auto& parentHandle : item->states[j].parentHandles) { auto parentItem = mHandleReconstructions.get(parentHandle.first); if (!parentItem) { continue; } parentItem->states[parentHandle.second].childHandles.erase( {toRemove[i], static_cast(j)}); } item->states[j].parentHandles.clear(); std::vector childHandles; for (const auto& childHandle : item->states[j].childHandles) { if (childHandle.second == CREATED) { childHandles.push_back(childHandle.first); } } item->states[j].childHandles.clear(); removeHandles(childHandles.data(), childHandles.size()); } forEachHandleDeleteApi(toRemove + i, 1); mHandleReconstructions.remove(toRemove[i]); } } void VkReconstruction::forEachHandleAddApi(const uint64_t* toProcess, uint32_t count, uint64_t apiHandle, HandleState state) { if (!toProcess) return; for (uint32_t i = 0; i < count; ++i) { auto item = mHandleReconstructions.get(toProcess[i]); if (!item) continue; item->states[state].apiRefs.push_back(apiHandle); DEBUG_RECON("handle 0x%lx state %d added api 0x%lx", toProcess[i], state, apiHandle); } } void VkReconstruction::forEachHandleDeleteApi(const uint64_t* toProcess, uint32_t count) { if (!toProcess) return; for (uint32_t i = 0; i < count; ++i) { DEBUG_RECON("deleting api for 0x%lx\n", toProcess[i]); auto item = mHandleReconstructions.get(toProcess[i]); if (!item) continue; for (auto& state : item->states) { for (auto handle : state.apiRefs) { destroyApiInfo(handle); } state.apiRefs.clear(); } auto modifyItem = mHandleModifications.get(toProcess[i]); if (!modifyItem) continue; modifyItem->apiRefs.clear(); } } void VkReconstruction::addHandleDependency(const uint64_t* handles, uint32_t count, uint64_t parentHandle, HandleState childState, HandleState parentState) { if (!handles) return; auto parentItem = mHandleReconstructions.get(parentHandle); if (!parentItem) { DEBUG_RECON("WARN: adding null parent item: 0x%lx\n", parentHandle); return; } auto& parentItemState = parentItem->states[parentState]; for (uint32_t i = 0; i < count; ++i) { auto childItem = mHandleReconstructions.get(handles[i]); if (!childItem) { continue; } parentItemState.childHandles.insert({handles[i], static_cast(childState)}); childItem->states[childState].parentHandles.push_back( {parentHandle, static_cast(parentState)}); DEBUG_RECON("Child handle 0x%lx state %d depends on parent handle 0x%lx state %d", handles[i], childState, parentHandle, parentState); } } void VkReconstruction::setCreatedHandlesForApi(uint64_t apiHandle, const uint64_t* created, uint32_t count) { if (!created) return; auto item = mApiTrace.get(apiHandle); if (!item) return; item->createdHandles.insert(item->createdHandles.end(), created, created + count); item->createdHandles.insert(item->createdHandles.end(), mExtraHandlesForNextApi.begin(), mExtraHandlesForNextApi.end()); mExtraHandlesForNextApi.clear(); } void VkReconstruction::createExtraHandlesForNextApi(const uint64_t* created, uint32_t count) { mExtraHandlesForNextApi.assign(created, created + count); } void VkReconstruction::forEachHandleAddModifyApi(const uint64_t* toProcess, uint32_t count, uint64_t apiHandle) { if (!toProcess) return; for (uint32_t i = 0; i < count; ++i) { mHandleModifications.add(toProcess[i], HandleModification()); auto item = mHandleModifications.get(toProcess[i]); if (!item) continue; item->apiRefs.push_back(apiHandle); } } void VkReconstruction::forEachHandleClearModifyApi(const uint64_t* toProcess, uint32_t count) { if (!toProcess) return; for (uint32_t i = 0; i < count; ++i) { mHandleModifications.add(toProcess[i], HandleModification()); auto item = mHandleModifications.get(toProcess[i]); if (!item) continue; item->apiRefs.clear(); } } std::vector VkReconstruction::getOrderedUniqueModifyApis() const { std::vector orderedModifies; // Now add all handle modifications to the trace, ordered by the .order field. mHandleModifications.forEachLiveComponent_const( [&orderedModifies](bool live, uint64_t componentHandle, uint64_t entityHandle, const HandleModification& mod) { orderedModifies.push_back(mod); }); // Sort by the |order| field for each modify API // since it may be important to apply modifies in a particular // order (e.g., when dealing with descriptor set updates // or commands in a command buffer). std::sort(orderedModifies.begin(), orderedModifies.end(), [](const HandleModification& lhs, const HandleModification& rhs) { return lhs.order < rhs.order; }); std::unordered_set usedModifyApis; std::vector orderedUniqueModifyApis; for (const auto& mod : orderedModifies) { for (auto apiRef : mod.apiRefs) { if (usedModifyApis.find(apiRef) == usedModifyApis.end()) { orderedUniqueModifyApis.push_back(apiRef); usedModifyApis.insert(apiRef); } } } return orderedUniqueModifyApis; } } // namespace vk } // namespace gfxstream