/* * Copyright (C) 2009 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. */ #ifndef IMEDIA_SOURCE_BASE_H_ #define IMEDIA_SOURCE_BASE_H_ #include <map> #include <binder/IInterface.h> #include <binder/IMemory.h> #include <media/MediaSource.h> #include <media/stagefright/MediaBuffer.h> #include <media/stagefright/MediaErrors.h> namespace android { class MediaBufferGroup; class IMediaSource : public IInterface { public: DECLARE_META_INTERFACE(MediaSource); enum { // Maximum number of buffers would be read in readMultiple. kMaxNumReadMultiple = 128, }; // To be called before any other methods on this object, except // getFormat(). virtual status_t start(MetaData *params = NULL) = 0; // Any blocking read call returns immediately with a result of NO_INIT. // It is an error to call any methods other than start after this call // returns. Any buffers the object may be holding onto at the time of // the stop() call are released. // Also, it is imperative that any buffers output by this object and // held onto by callers be released before a call to stop() !!! virtual status_t stop() = 0; // Returns the format of the data output by this media source. virtual sp<MetaData> getFormat() = 0; // Returns a new buffer of data. Call blocks until a // buffer is available, an error is encountered or the end of the stream // is reached. // End of stream is signalled by a result of ERROR_END_OF_STREAM. // A result of INFO_FORMAT_CHANGED indicates that the format of this // MediaSource has changed mid-stream, the client can continue reading // but should be prepared for buffers of the new configuration. // // TODO: consider removing read() in favor of readMultiple(). virtual status_t read( MediaBufferBase **buffer, const MediaSource::ReadOptions *options = NULL) = 0; // Returns a vector of new buffers of data, where the new buffers are added // to the end of the vector. // Call blocks until an error is encountered, or the end of the stream is // reached, or format change is hit, or |kMaxNumReadMultiple| buffers have // been read. // End of stream is signaled by a result of ERROR_END_OF_STREAM. // A result of INFO_FORMAT_CHANGED indicates that the format of this // MediaSource has changed mid-stream, the client can continue reading // but should be prepared for buffers of the new configuration. // // ReadOptions may be specified. Persistent options apply to all reads; // non-persistent options (e.g. seek) apply only to the first read. virtual status_t readMultiple( Vector<MediaBufferBase *> *buffers, uint32_t maxNumBuffers = 1, const MediaSource::ReadOptions *options = nullptr) = 0; // Returns true if |readMultiple| is supported, otherwise false. virtual bool supportReadMultiple() = 0; // Returns true if |read| supports nonblocking option, otherwise false. // |readMultiple| if supported, always allows the nonblocking option. virtual bool supportNonblockingRead() = 0; // Causes this source to suspend pulling data from its upstream source // until a subsequent read-with-seek. Currently only supported by // OMXCodec. virtual status_t pause() = 0; }; class BnMediaSource: public BnInterface<IMediaSource> { public: BnMediaSource(); virtual status_t onTransact(uint32_t code, const Parcel& data, Parcel* reply, uint32_t flags = 0); virtual status_t pause() { return ERROR_UNSUPPORTED; } // TODO: Implement this for local media sources. virtual status_t readMultiple( Vector<MediaBufferBase *> * /* buffers */, uint32_t /* maxNumBuffers = 1 */, const MediaSource::ReadOptions * /* options = nullptr */) { return ERROR_UNSUPPORTED; } virtual bool supportReadMultiple() { return false; } // Override in source if nonblocking reads are supported. virtual bool supportNonblockingRead() { return false; } // align buffer count with video request size in NuMediaExtractor::selectTrack() static const size_t kBinderMediaBuffers = 8; // buffers managed by BnMediaSource static const size_t kTransferSharedAsSharedThreshold = 4 * 1024; // if >= shared, else inline static const size_t kTransferInlineAsSharedThreshold = 8 * 1024; // if >= shared, else inline static const size_t kInlineMaxTransfer = 64 * 1024; // Binder size limited to BINDER_VM_SIZE. protected: virtual ~BnMediaSource(); private: uint32_t mBuffersSinceStop; // Buffer tracking variable std::unique_ptr<MediaBufferGroup> mGroup; // To prevent marshalling IMemory with each read transaction, we cache the IMemory pointer // into a map. // // This is converted into an index, which is used to identify the associated memory // on the receiving side. We hold a reference to the IMemory here to ensure it doesn't // change underneath us. struct IndexCache { IndexCache() : mIndex(0) { } // Returns the index of the IMemory stored in cache or 0 if not found. uint64_t lookup(const sp<IMemory> &mem) { auto p = mMemoryToIndex.find(mem.get()); if (p == mMemoryToIndex.end()) { return 0; } if (MediaBuffer::isDeadObject(p->second.first)) { // this object's dead ALOGW("Attempting to lookup a dead IMemory"); (void)mMemoryToIndex.erase(p); return 0; } ALOGW_IF(p->second.first.get() != mem.get(), "Mismatched buffers without reset"); return p->second.second; } // Returns the index of the IMemory stored in the index cache. uint64_t insert(const sp<IMemory> &mem) { auto p = mMemoryToIndex.find(mem.get()); if (p == mMemoryToIndex.end()) { if (mIndex == UINT64_MAX) { ALOGE("Index overflow"); mIndex = 1; // skip overflow condition and hope for the best } else { ++mIndex; } (void)mMemoryToIndex.emplace(// C++11 mem.get(), std::make_pair(mem, mIndex)) std::piecewise_construct, std::forward_as_tuple(mem.get()), std::forward_as_tuple(mem, mIndex)); return mIndex; } ALOGW("IMemory already inserted into cache"); return p->second.second; } void reset() { mMemoryToIndex.clear(); mIndex = 0; } void gc() { for (auto it = mMemoryToIndex.begin(); it != mMemoryToIndex.end(); ) { if (MediaBuffer::isDeadObject(it->second.first)) { it = mMemoryToIndex.erase(it); } else { ++it; } } } private: uint64_t mIndex; // C++14 unordered_map erase on iterator is stable; C++11 has no guarantee. // Could key on uintptr_t instead of IMemory * std::map<IMemory *, std::pair<sp<IMemory>, uint64_t>> mMemoryToIndex; } mIndexCache; }; } // namespace android #endif // IMEDIA_SOURCE_BASE_H_