1 /* 2 * Copyright 2014 The Android Open Source Project 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 17 #ifndef ANDROID_GUI_BUFFERQUEUECORE_H 18 #define ANDROID_GUI_BUFFERQUEUECORE_H 19 20 #include <gui/BufferItem.h> 21 #include <gui/BufferQueueDefs.h> 22 #include <gui/BufferSlot.h> 23 #include <gui/OccupancyTracker.h> 24 25 #include <utils/Condition.h> 26 #include <utils/Mutex.h> 27 #include <utils/NativeHandle.h> 28 #include <utils/RefBase.h> 29 #include <utils/String8.h> 30 #include <utils/StrongPointer.h> 31 #include <utils/Trace.h> 32 #include <utils/Vector.h> 33 34 #include <list> 35 #include <set> 36 37 #define BQ_LOGV(x, ...) ALOGV("[%s] " x, mConsumerName.string(), ##__VA_ARGS__) 38 #define BQ_LOGD(x, ...) ALOGD("[%s] " x, mConsumerName.string(), ##__VA_ARGS__) 39 #define BQ_LOGI(x, ...) ALOGI("[%s] " x, mConsumerName.string(), ##__VA_ARGS__) 40 #define BQ_LOGW(x, ...) ALOGW("[%s] " x, mConsumerName.string(), ##__VA_ARGS__) 41 #define BQ_LOGE(x, ...) ALOGE("[%s] " x, mConsumerName.string(), ##__VA_ARGS__) 42 43 #define ATRACE_BUFFER_INDEX(index) \ 44 if (ATRACE_ENABLED()) { \ 45 char ___traceBuf[1024]; \ 46 snprintf(___traceBuf, 1024, "%s: %d", \ 47 mCore->mConsumerName.string(), (index)); \ 48 android::ScopedTrace ___bufTracer(ATRACE_TAG, ___traceBuf); \ 49 } 50 51 namespace android { 52 53 class IConsumerListener; 54 class IGraphicBufferAlloc; 55 class IProducerListener; 56 57 class BufferQueueCore : public virtual RefBase { 58 59 friend class BufferQueueProducer; 60 friend class BufferQueueConsumer; 61 62 public: 63 // Used as a placeholder slot number when the value isn't pointing to an 64 // existing buffer. 65 enum { INVALID_BUFFER_SLOT = BufferItem::INVALID_BUFFER_SLOT }; 66 67 // We reserve two slots in order to guarantee that the producer and 68 // consumer can run asynchronously. 69 enum { MAX_MAX_ACQUIRED_BUFFERS = BufferQueueDefs::NUM_BUFFER_SLOTS - 2 }; 70 71 enum { 72 // The API number used to indicate the currently connected producer 73 CURRENTLY_CONNECTED_API = -1, 74 75 // The API number used to indicate that no producer is connected 76 NO_CONNECTED_API = 0, 77 }; 78 79 typedef Vector<BufferItem> Fifo; 80 81 // BufferQueueCore manages a pool of gralloc memory slots to be used by 82 // producers and consumers. allocator is used to allocate all the needed 83 // gralloc buffers. 84 BufferQueueCore(const sp<IGraphicBufferAlloc>& allocator = NULL); 85 virtual ~BufferQueueCore(); 86 87 private: 88 // Dump our state in a string 89 void dump(String8& result, const char* prefix) const; 90 91 // getMinUndequeuedBufferCountLocked returns the minimum number of buffers 92 // that must remain in a state other than DEQUEUED. The async parameter 93 // tells whether we're in asynchronous mode. 94 int getMinUndequeuedBufferCountLocked() const; 95 96 // getMinMaxBufferCountLocked returns the minimum number of buffers allowed 97 // given the current BufferQueue state. The async parameter tells whether 98 // we're in asynchonous mode. 99 int getMinMaxBufferCountLocked() const; 100 101 // getMaxBufferCountLocked returns the maximum number of buffers that can be 102 // allocated at once. This value depends on the following member variables: 103 // 104 // mMaxDequeuedBufferCount 105 // mMaxAcquiredBufferCount 106 // mMaxBufferCount 107 // mAsyncMode 108 // mDequeueBufferCannotBlock 109 // 110 // Any time one of these member variables is changed while a producer is 111 // connected, mDequeueCondition must be broadcast. 112 int getMaxBufferCountLocked() const; 113 114 // This performs the same computation but uses the given arguments instead 115 // of the member variables for mMaxBufferCount, mAsyncMode, and 116 // mDequeueBufferCannotBlock. 117 int getMaxBufferCountLocked(bool asyncMode, 118 bool dequeueBufferCannotBlock, int maxBufferCount) const; 119 120 // clearBufferSlotLocked frees the GraphicBuffer and sync resources for the 121 // given slot. 122 void clearBufferSlotLocked(int slot); 123 124 // freeAllBuffersLocked frees the GraphicBuffer and sync resources for 125 // all slots, even if they're currently dequeued, queued, or acquired. 126 void freeAllBuffersLocked(); 127 128 // discardFreeBuffersLocked releases all currently-free buffers held by the 129 // queue, in order to reduce the memory consumption of the queue to the 130 // minimum possible without discarding data. 131 void discardFreeBuffersLocked(); 132 133 // If delta is positive, makes more slots available. If negative, takes 134 // away slots. Returns false if the request can't be met. 135 bool adjustAvailableSlotsLocked(int delta); 136 137 // waitWhileAllocatingLocked blocks until mIsAllocating is false. 138 void waitWhileAllocatingLocked() const; 139 140 #if DEBUG_ONLY_CODE 141 // validateConsistencyLocked ensures that the free lists are in sync with 142 // the information stored in mSlots 143 void validateConsistencyLocked() const; 144 #endif 145 146 // mAllocator is the connection to SurfaceFlinger that is used to allocate 147 // new GraphicBuffer objects. 148 sp<IGraphicBufferAlloc> mAllocator; 149 150 // mMutex is the mutex used to prevent concurrent access to the member 151 // variables of BufferQueueCore objects. It must be locked whenever any 152 // member variable is accessed. 153 mutable Mutex mMutex; 154 155 // mIsAbandoned indicates that the BufferQueue will no longer be used to 156 // consume image buffers pushed to it using the IGraphicBufferProducer 157 // interface. It is initialized to false, and set to true in the 158 // consumerDisconnect method. A BufferQueue that is abandoned will return 159 // the NO_INIT error from all IGraphicBufferProducer methods capable of 160 // returning an error. 161 bool mIsAbandoned; 162 163 // mConsumerControlledByApp indicates whether the connected consumer is 164 // controlled by the application. 165 bool mConsumerControlledByApp; 166 167 // mConsumerName is a string used to identify the BufferQueue in log 168 // messages. It is set by the IGraphicBufferConsumer::setConsumerName 169 // method. 170 String8 mConsumerName; 171 172 // mConsumerListener is used to notify the connected consumer of 173 // asynchronous events that it may wish to react to. It is initially 174 // set to NULL and is written by consumerConnect and consumerDisconnect. 175 sp<IConsumerListener> mConsumerListener; 176 177 // mConsumerUsageBits contains flags that the consumer wants for 178 // GraphicBuffers. 179 uint32_t mConsumerUsageBits; 180 181 // mConnectedApi indicates the producer API that is currently connected 182 // to this BufferQueue. It defaults to NO_CONNECTED_API, and gets updated 183 // by the connect and disconnect methods. 184 int mConnectedApi; 185 186 // mConnectedProducerToken is used to set a binder death notification on 187 // the producer. 188 sp<IProducerListener> mConnectedProducerListener; 189 190 // mSlots is an array of buffer slots that must be mirrored on the producer 191 // side. This allows buffer ownership to be transferred between the producer 192 // and consumer without sending a GraphicBuffer over Binder. The entire 193 // array is initialized to NULL at construction time, and buffers are 194 // allocated for a slot when requestBuffer is called with that slot's index. 195 BufferQueueDefs::SlotsType mSlots; 196 197 // mQueue is a FIFO of queued buffers used in synchronous mode. 198 Fifo mQueue; 199 200 // mFreeSlots contains all of the slots which are FREE and do not currently 201 // have a buffer attached. 202 std::set<int> mFreeSlots; 203 204 // mFreeBuffers contains all of the slots which are FREE and currently have 205 // a buffer attached. 206 std::list<int> mFreeBuffers; 207 208 // mUnusedSlots contains all slots that are currently unused. They should be 209 // free and not have a buffer attached. 210 std::list<int> mUnusedSlots; 211 212 // mActiveBuffers contains all slots which have a non-FREE buffer attached. 213 std::set<int> mActiveBuffers; 214 215 // mDequeueCondition is a condition variable used for dequeueBuffer in 216 // synchronous mode. 217 mutable Condition mDequeueCondition; 218 219 // mDequeueBufferCannotBlock indicates whether dequeueBuffer is allowed to 220 // block. This flag is set during connect when both the producer and 221 // consumer are controlled by the application. 222 bool mDequeueBufferCannotBlock; 223 224 // mDefaultBufferFormat can be set so it will override the buffer format 225 // when it isn't specified in dequeueBuffer. 226 PixelFormat mDefaultBufferFormat; 227 228 // mDefaultWidth holds the default width of allocated buffers. It is used 229 // in dequeueBuffer if a width and height of 0 are specified. 230 uint32_t mDefaultWidth; 231 232 // mDefaultHeight holds the default height of allocated buffers. It is used 233 // in dequeueBuffer if a width and height of 0 are specified. 234 uint32_t mDefaultHeight; 235 236 // mDefaultBufferDataSpace holds the default dataSpace of queued buffers. 237 // It is used in queueBuffer if a dataspace of 0 (HAL_DATASPACE_UNKNOWN) 238 // is specified. 239 android_dataspace mDefaultBufferDataSpace; 240 241 // mMaxBufferCount is the limit on the number of buffers that will be 242 // allocated at one time. This limit can be set by the consumer. 243 int mMaxBufferCount; 244 245 // mMaxAcquiredBufferCount is the number of buffers that the consumer may 246 // acquire at one time. It defaults to 1, and can be changed by the consumer 247 // via setMaxAcquiredBufferCount, but this may only be done while no 248 // producer is connected to the BufferQueue. This value is used to derive 249 // the value returned for the MIN_UNDEQUEUED_BUFFERS query to the producer. 250 int mMaxAcquiredBufferCount; 251 252 // mMaxDequeuedBufferCount is the number of buffers that the producer may 253 // dequeue at one time. It defaults to 1, and can be changed by the producer 254 // via setMaxDequeuedBufferCount. 255 int mMaxDequeuedBufferCount; 256 257 // mBufferHasBeenQueued is true once a buffer has been queued. It is reset 258 // when something causes all buffers to be freed (e.g., changing the buffer 259 // count). 260 bool mBufferHasBeenQueued; 261 262 // mFrameCounter is the free running counter, incremented on every 263 // successful queueBuffer call and buffer allocation. 264 uint64_t mFrameCounter; 265 266 // mTransformHint is used to optimize for screen rotations. 267 uint32_t mTransformHint; 268 269 // mSidebandStream is a handle to the sideband buffer stream, if any 270 sp<NativeHandle> mSidebandStream; 271 272 // mIsAllocating indicates whether a producer is currently trying to allocate buffers (which 273 // releases mMutex while doing the allocation proper). Producers should not modify any of the 274 // FREE slots while this is true. mIsAllocatingCondition is signaled when this value changes to 275 // false. 276 bool mIsAllocating; 277 278 // mIsAllocatingCondition is a condition variable used by producers to wait until mIsAllocating 279 // becomes false. 280 mutable Condition mIsAllocatingCondition; 281 282 // mAllowAllocation determines whether dequeueBuffer is allowed to allocate 283 // new buffers 284 bool mAllowAllocation; 285 286 // mBufferAge tracks the age of the contents of the most recently dequeued 287 // buffer as the number of frames that have elapsed since it was last queued 288 uint64_t mBufferAge; 289 290 // mGenerationNumber stores the current generation number of the attached 291 // producer. Any attempt to attach a buffer with a different generation 292 // number will fail. 293 uint32_t mGenerationNumber; 294 295 // mAsyncMode indicates whether or not async mode is enabled. 296 // In async mode an extra buffer will be allocated to allow the producer to 297 // enqueue buffers without blocking. 298 bool mAsyncMode; 299 300 // mSharedBufferMode indicates whether or not shared buffer mode is enabled. 301 bool mSharedBufferMode; 302 303 // When shared buffer mode is enabled, this indicates whether the consumer 304 // should acquire buffers even if BufferQueue doesn't indicate that they are 305 // available. 306 bool mAutoRefresh; 307 308 // When shared buffer mode is enabled, this tracks which slot contains the 309 // shared buffer. 310 int mSharedBufferSlot; 311 312 // Cached data about the shared buffer in shared buffer mode 313 struct SharedBufferCache { SharedBufferCacheSharedBufferCache314 SharedBufferCache(Rect _crop, uint32_t _transform, int _scalingMode, 315 android_dataspace _dataspace) 316 : crop(_crop), 317 transform(_transform), 318 scalingMode(_scalingMode), 319 dataspace(_dataspace) { 320 }; 321 322 Rect crop; 323 uint32_t transform; 324 uint32_t scalingMode; 325 android_dataspace dataspace; 326 } mSharedBufferCache; 327 328 // The slot of the last queued buffer 329 int mLastQueuedSlot; 330 331 OccupancyTracker mOccupancyTracker; 332 333 const uint64_t mUniqueId; 334 335 }; // class BufferQueueCore 336 337 } // namespace android 338 339 #endif 340