VirtualDisplaySurface.h revision ccdfd60d79a8b7f1ed6401d0f2e8e29166a10584
1/* 2 * Copyright 2013 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_SF_VIRTUAL_DISPLAY_SURFACE_H 18#define ANDROID_SF_VIRTUAL_DISPLAY_SURFACE_H 19 20#include <gui/ConsumerBase.h> 21#include <gui/IGraphicBufferProducer.h> 22 23#include "DisplaySurface.h" 24 25// --------------------------------------------------------------------------- 26namespace android { 27// --------------------------------------------------------------------------- 28 29class HWComposer; 30class IProducerListener; 31 32/* This DisplaySurface implementation supports virtual displays, where GLES 33 * and/or HWC compose into a buffer that is then passed to an arbitrary 34 * consumer (the sink) running in another process. 35 * 36 * The simplest case is when the virtual display will never use the h/w 37 * composer -- either the h/w composer doesn't support writing to buffers, or 38 * there are more virtual displays than it supports simultaneously. In this 39 * case, the GLES driver works directly with the output buffer queue, and 40 * calls to the VirtualDisplay from SurfaceFlinger and DisplayHardware do 41 * nothing. 42 * 43 * If h/w composer might be used, then each frame will fall into one of three 44 * configurations: GLES-only, HWC-only, and MIXED composition. In all of these, 45 * we must provide a FB target buffer and output buffer for the HWC set() call. 46 * 47 * In GLES-only composition, the GLES driver is given a buffer from the sink to 48 * render into. When the GLES driver queues the buffer to the 49 * VirtualDisplaySurface, the VirtualDisplaySurface holds onto it instead of 50 * immediately queueing it to the sink. The buffer is used as both the FB 51 * target and output buffer for HWC, though on these frames the HWC doesn't 52 * do any work for this display and doesn't write to the output buffer. After 53 * composition is complete, the buffer is queued to the sink. 54 * 55 * In HWC-only composition, the VirtualDisplaySurface dequeues a buffer from 56 * the sink and passes it to HWC as both the FB target buffer and output 57 * buffer. The HWC doesn't need to read from the FB target buffer, but does 58 * write to the output buffer. After composition is complete, the buffer is 59 * queued to the sink. 60 * 61 * On MIXED frames, things become more complicated, since some h/w composer 62 * implementations can't read from and write to the same buffer. This class has 63 * an internal BufferQueue that it uses as a scratch buffer pool. The GLES 64 * driver is given a scratch buffer to render into. When it finishes rendering, 65 * the buffer is queued and then immediately acquired by the 66 * VirtualDisplaySurface. The scratch buffer is then used as the FB target 67 * buffer for HWC, and a separate buffer is dequeued from the sink and used as 68 * the HWC output buffer. When HWC composition is complete, the scratch buffer 69 * is released and the output buffer is queued to the sink. 70 */ 71class VirtualDisplaySurface : public DisplaySurface, 72 public BnGraphicBufferProducer, 73 private ConsumerBase { 74public: 75 VirtualDisplaySurface(HWComposer& hwc, int32_t dispId, 76 const sp<IGraphicBufferProducer>& sink, 77 const sp<IGraphicBufferProducer>& bqProducer, 78 const sp<IGraphicBufferConsumer>& bqConsumer, 79 const String8& name); 80 81 // 82 // DisplaySurface interface 83 // 84 virtual status_t beginFrame(bool mustRecompose); 85 virtual status_t prepareFrame(CompositionType compositionType); 86 virtual status_t compositionComplete(); 87 virtual status_t advanceFrame(); 88 virtual void onFrameCommitted(); 89 virtual void dumpAsString(String8& result) const; 90 virtual void resizeBuffers(const uint32_t w, const uint32_t h); 91 92private: 93 enum Source {SOURCE_SINK = 0, SOURCE_SCRATCH = 1}; 94 95 virtual ~VirtualDisplaySurface(); 96 97 // 98 // IGraphicBufferProducer interface, used by the GLES driver. 99 // 100 virtual status_t requestBuffer(int pslot, sp<GraphicBuffer>* outBuf); 101 virtual status_t setMaxDequeuedBufferCount(int maxDequeuedBuffers); 102 virtual status_t setAsyncMode(bool async); 103 virtual status_t dequeueBuffer(int* pslot, sp<Fence>* fence, uint32_t w, 104 uint32_t h, PixelFormat format, uint32_t usage); 105 virtual status_t detachBuffer(int slot); 106 virtual status_t detachNextBuffer(sp<GraphicBuffer>* outBuffer, 107 sp<Fence>* outFence); 108 virtual status_t attachBuffer(int* slot, const sp<GraphicBuffer>& buffer); 109 virtual status_t queueBuffer(int pslot, 110 const QueueBufferInput& input, QueueBufferOutput* output); 111 virtual status_t cancelBuffer(int pslot, const sp<Fence>& fence); 112 virtual int query(int what, int* value); 113 virtual status_t connect(const sp<IProducerListener>& listener, 114 int api, bool producerControlledByApp, QueueBufferOutput* output); 115 virtual status_t disconnect(int api); 116 virtual status_t setSidebandStream(const sp<NativeHandle>& stream); 117 virtual void allocateBuffers(uint32_t width, uint32_t height, 118 PixelFormat format, uint32_t usage); 119 virtual status_t allowAllocation(bool allow); 120 virtual status_t setGenerationNumber(uint32_t generationNumber); 121 virtual String8 getConsumerName() const override; 122 virtual uint64_t getNextFrameNumber() const override; 123 virtual status_t setSingleBufferMode(bool singleBufferMode); 124 125 // 126 // Utility methods 127 // 128 static Source fbSourceForCompositionType(CompositionType type); 129 status_t dequeueBuffer(Source source, PixelFormat format, uint32_t usage, 130 int* sslot, sp<Fence>* fence); 131 void updateQueueBufferOutput(const QueueBufferOutput& qbo); 132 void resetPerFrameState(); 133 status_t refreshOutputBuffer(); 134 135 // Both the sink and scratch buffer pools have their own set of slots 136 // ("source slots", or "sslot"). We have to merge these into the single 137 // set of slots used by the GLES producer ("producer slots" or "pslot") and 138 // internally in the VirtualDisplaySurface. To minimize the number of times 139 // a producer slot switches which source it comes from, we map source slot 140 // numbers to producer slot numbers differently for each source. 141 static int mapSource2ProducerSlot(Source source, int sslot); 142 static int mapProducer2SourceSlot(Source source, int pslot); 143 144 // 145 // Immutable after construction 146 // 147 HWComposer& mHwc; 148 const int32_t mDisplayId; 149 const String8 mDisplayName; 150 sp<IGraphicBufferProducer> mSource[2]; // indexed by SOURCE_* 151 uint32_t mDefaultOutputFormat; 152 153 // 154 // Inter-frame state 155 // 156 157 // To avoid buffer reallocations, we track the buffer usage and format 158 // we used on the previous frame and use it again on the new frame. If 159 // the composition type changes or the GLES driver starts requesting 160 // different usage/format, we'll get a new buffer. 161 uint32_t mOutputFormat; 162 uint32_t mOutputUsage; 163 164 // Since we present a single producer interface to the GLES driver, but 165 // are internally muxing between the sink and scratch producers, we have 166 // to keep track of which source last returned each producer slot from 167 // dequeueBuffer. Each bit in mProducerSlotSource corresponds to a producer 168 // slot. Both mProducerSlotSource and mProducerBuffers are indexed by a 169 // "producer slot"; see the mapSlot*() functions. 170 uint64_t mProducerSlotSource; 171 sp<GraphicBuffer> mProducerBuffers[BufferQueue::NUM_BUFFER_SLOTS]; 172 173 // The QueueBufferOutput with the latest info from the sink, and with the 174 // transform hint cleared. Since we defer queueBuffer from the GLES driver 175 // to the sink, we have to return the previous version. 176 QueueBufferOutput mQueueBufferOutput; 177 178 // Details of the current sink buffer. These become valid when a buffer is 179 // dequeued from the sink, and are used when queueing the buffer. 180 uint32_t mSinkBufferWidth, mSinkBufferHeight; 181 182 // 183 // Intra-frame state 184 // 185 186 // Composition type and GLES buffer source for the current frame. 187 // Valid after prepareFrame(), cleared in onFrameCommitted. 188 CompositionType mCompositionType; 189 190 // mFbFence is the fence HWC should wait for before reading the framebuffer 191 // target buffer. 192 sp<Fence> mFbFence; 193 194 // mOutputFence is the fence HWC should wait for before writing to the 195 // output buffer. 196 sp<Fence> mOutputFence; 197 198 // Producer slot numbers for the buffers to use for HWC framebuffer target 199 // and output. 200 int mFbProducerSlot; 201 int mOutputProducerSlot; 202 203 // Debug only -- track the sequence of events in each frame so we can make 204 // sure they happen in the order we expect. This class implicitly models 205 // a state machine; this enum/variable makes it explicit. 206 // 207 // +-----------+-------------------+-------------+ 208 // | State | Event || Next State | 209 // +-----------+-------------------+-------------+ 210 // | IDLE | beginFrame || BEGUN | 211 // | BEGUN | prepareFrame || PREPARED | 212 // | PREPARED | dequeueBuffer [1] || GLES | 213 // | PREPARED | advanceFrame [2] || HWC | 214 // | GLES | queueBuffer || GLES_DONE | 215 // | GLES_DONE | advanceFrame || HWC | 216 // | HWC | onFrameCommitted || IDLE | 217 // +-----------+-------------------++------------+ 218 // [1] COMPOSITION_GLES and COMPOSITION_MIXED frames. 219 // [2] COMPOSITION_HWC frames. 220 // 221 enum DbgState { 222 // no buffer dequeued, don't know anything about the next frame 223 DBG_STATE_IDLE, 224 // output buffer dequeued, framebuffer source not yet known 225 DBG_STATE_BEGUN, 226 // output buffer dequeued, framebuffer source known but not provided 227 // to GLES yet. 228 DBG_STATE_PREPARED, 229 // GLES driver has a buffer dequeued 230 DBG_STATE_GLES, 231 // GLES driver has queued the buffer, we haven't sent it to HWC yet 232 DBG_STATE_GLES_DONE, 233 // HWC has the buffer for this frame 234 DBG_STATE_HWC, 235 }; 236 DbgState mDbgState; 237 CompositionType mDbgLastCompositionType; 238 239 const char* dbgStateStr() const; 240 static const char* dbgSourceStr(Source s); 241 242 bool mMustRecompose; 243}; 244 245// --------------------------------------------------------------------------- 246} // namespace android 247// --------------------------------------------------------------------------- 248 249#endif // ANDROID_SF_VIRTUAL_DISPLAY_SURFACE_H 250 251