/* * 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. */ #define LOG_TAG "Camera3-BufUtils" #define ATRACE_TAG ATRACE_TAG_CAMERA //#define LOG_NDEBUG 0 //#define LOG_NNDEBUG 0 // Per-frame verbose logging #include #include #include "device3/BufferUtils.h" namespace android { namespace camera3 { camera_buffer_status_t mapHidlBufferStatus(hardware::camera::device::V3_2::BufferStatus status) { using hardware::camera::device::V3_2::BufferStatus; switch (status) { case BufferStatus::OK: return CAMERA_BUFFER_STATUS_OK; case BufferStatus::ERROR: return CAMERA_BUFFER_STATUS_ERROR; } return CAMERA_BUFFER_STATUS_ERROR; } void BufferRecords::takeInflightBufferMap(BufferRecords& other) { std::lock_guard oLock(other.mInflightLock); std::lock_guard lock(mInflightLock); if (mInflightBufferMap.size() > 0) { ALOGE("%s: inflight map is set in non-empty state!", __FUNCTION__); } mInflightBufferMap = std::move(other.mInflightBufferMap); other.mInflightBufferMap.clear(); } void BufferRecords::takeRequestedBufferMap(BufferRecords& other) { std::lock_guard oLock(other.mRequestedBuffersLock); std::lock_guard lock(mRequestedBuffersLock); if (mRequestedBufferMap.size() > 0) { ALOGE("%s: requested buffer map is set in non-empty state!", __FUNCTION__); } mRequestedBufferMap = std::move(other.mRequestedBufferMap); other.mRequestedBufferMap.clear(); } void BufferRecords::takeBufferCaches(BufferRecords& other, const std::vector& streams) { std::lock_guard oLock(other.mBufferIdMapLock); std::lock_guard lock(mBufferIdMapLock); if (mBufferIdMaps.size() > 0) { ALOGE("%s: buffer ID map is set in non-empty state!", __FUNCTION__); } for (auto streamId : streams) { mBufferIdMaps.insert({streamId, std::move(other.mBufferIdMaps.at(streamId))}); } other.mBufferIdMaps.clear(); } std::pair BufferRecords::getBufferId( const buffer_handle_t& buf, int streamId) { std::lock_guard lock(mBufferIdMapLock); BufferIdMap& bIdMap = mBufferIdMaps.at(streamId); auto it = bIdMap.find(buf); if (it == bIdMap.end()) { bIdMap[buf] = mNextBufferId++; ALOGV("stream %d now have %zu buffer caches, buf %p", streamId, bIdMap.size(), buf); return std::make_pair(true, mNextBufferId - 1); } else { return std::make_pair(false, it->second); } } void BufferRecords::tryCreateBufferCache(int streamId) { std::lock_guard lock(mBufferIdMapLock); if (mBufferIdMaps.count(streamId) == 0) { mBufferIdMaps.emplace(streamId, BufferIdMap{}); } } void BufferRecords::removeInactiveBufferCaches(const std::set& activeStreams) { std::lock_guard lock(mBufferIdMapLock); for(auto it = mBufferIdMaps.begin(); it != mBufferIdMaps.end();) { int streamId = it->first; bool active = activeStreams.count(streamId) > 0; if (!active) { it = mBufferIdMaps.erase(it); } else { ++it; } } } uint64_t BufferRecords::removeOneBufferCache(int streamId, const native_handle_t* handle) { std::lock_guard lock(mBufferIdMapLock); uint64_t bufferId = BUFFER_ID_NO_BUFFER; auto mapIt = mBufferIdMaps.find(streamId); if (mapIt == mBufferIdMaps.end()) { // streamId might be from a deleted stream here ALOGI("%s: stream %d has been removed", __FUNCTION__, streamId); return BUFFER_ID_NO_BUFFER; } BufferIdMap& bIdMap = mapIt->second; auto it = bIdMap.find(handle); if (it == bIdMap.end()) { ALOGW("%s: cannot find buffer %p in stream %d", __FUNCTION__, handle, streamId); return BUFFER_ID_NO_BUFFER; } else { bufferId = it->second; bIdMap.erase(it); ALOGV("%s: stream %d now have %zu buffer caches after removing buf %p", __FUNCTION__, streamId, bIdMap.size(), handle); } return bufferId; } std::vector BufferRecords::clearBufferCaches(int streamId) { std::lock_guard lock(mBufferIdMapLock); std::vector ret; auto mapIt = mBufferIdMaps.find(streamId); if (mapIt == mBufferIdMaps.end()) { ALOGE("%s: streamId %d not found!", __FUNCTION__, streamId); return ret; } BufferIdMap& bIdMap = mapIt->second; ret.reserve(bIdMap.size()); for (const auto& it : bIdMap) { ret.push_back(it.second); } bIdMap.clear(); return ret; } bool BufferRecords::isStreamCached(int streamId) { std::lock_guard lock(mBufferIdMapLock); return mBufferIdMaps.find(streamId) != mBufferIdMaps.end(); } bool BufferRecords::verifyBufferIds( int32_t streamId, std::vector& bufIds) { std::lock_guard lock(mBufferIdMapLock); camera3::BufferIdMap& bIdMap = mBufferIdMaps.at(streamId); if (bIdMap.size() != bufIds.size()) { ALOGE("%s: stream ID %d buffer cache number mismatch: %zu/%zu (service/HAL)", __FUNCTION__, streamId, bIdMap.size(), bufIds.size()); return false; } std::vector internalBufIds; internalBufIds.reserve(bIdMap.size()); for (const auto& pair : bIdMap) { internalBufIds.push_back(pair.second); } std::sort(bufIds.begin(), bufIds.end()); std::sort(internalBufIds.begin(), internalBufIds.end()); for (size_t i = 0; i < bufIds.size(); i++) { if (bufIds[i] != internalBufIds[i]) { ALOGE("%s: buffer cache mismatch! Service %" PRIu64 ", HAL %" PRIu64, __FUNCTION__, internalBufIds[i], bufIds[i]); return false; } } return true; } void BufferRecords::getInflightBufferKeys( std::vector>* out) { std::lock_guard lock(mInflightLock); out->clear(); out->reserve(mInflightBufferMap.size()); for (auto& pair : mInflightBufferMap) { uint64_t key = pair.first; int32_t streamId = key & 0xFFFFFFFF; int32_t frameNumber = (key >> 32) & 0xFFFFFFFF; out->push_back(std::make_pair(frameNumber, streamId)); } return; } status_t BufferRecords::pushInflightBuffer( int32_t frameNumber, int32_t streamId, buffer_handle_t *buffer) { std::lock_guard lock(mInflightLock); uint64_t key = static_cast(frameNumber) << 32 | static_cast(streamId); mInflightBufferMap[key] = buffer; return OK; } status_t BufferRecords::popInflightBuffer( int32_t frameNumber, int32_t streamId, /*out*/ buffer_handle_t **buffer) { std::lock_guard lock(mInflightLock); uint64_t key = static_cast(frameNumber) << 32 | static_cast(streamId); auto it = mInflightBufferMap.find(key); if (it == mInflightBufferMap.end()) return NAME_NOT_FOUND; if (buffer != nullptr) { *buffer = it->second; } mInflightBufferMap.erase(it); return OK; } void BufferRecords::popInflightBuffers( const std::vector>& buffers) { for (const auto& pair : buffers) { int32_t frameNumber = pair.first; int32_t streamId = pair.second; popInflightBuffer(frameNumber, streamId, nullptr); } } status_t BufferRecords::pushInflightRequestBuffer( uint64_t bufferId, buffer_handle_t* buf, int32_t streamId) { std::lock_guard lock(mRequestedBuffersLock); auto pair = mRequestedBufferMap.insert({bufferId, {streamId, buf}}); if (!pair.second) { ALOGE("%s: bufId %" PRIu64 " is already inflight!", __FUNCTION__, bufferId); return BAD_VALUE; } return OK; } // Find and pop a buffer_handle_t based on bufferId status_t BufferRecords::popInflightRequestBuffer( uint64_t bufferId, /*out*/ buffer_handle_t** buffer, /*optional out*/ int32_t* streamId) { if (buffer == nullptr) { ALOGE("%s: buffer (%p) must not be null", __FUNCTION__, buffer); return BAD_VALUE; } std::lock_guard lock(mRequestedBuffersLock); auto it = mRequestedBufferMap.find(bufferId); if (it == mRequestedBufferMap.end()) { ALOGE("%s: bufId %" PRIu64 " is not inflight!", __FUNCTION__, bufferId); return BAD_VALUE; } *buffer = it->second.second; if (streamId != nullptr) { *streamId = it->second.first; } mRequestedBufferMap.erase(it); return OK; } void BufferRecords::getInflightRequestBufferKeys( std::vector* out) { std::lock_guard lock(mRequestedBuffersLock); out->clear(); out->reserve(mRequestedBufferMap.size()); for (auto& pair : mRequestedBufferMap) { out->push_back(pair.first); } return; } } // camera3 } // namespace android