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1 /*
2  * Copyright 2016 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_HARDWARE_GRAPHICS_COMPOSER_COMMAND_BUFFER_H
18 #define ANDROID_HARDWARE_GRAPHICS_COMPOSER_COMMAND_BUFFER_H
19 
20 #ifndef LOG_TAG
21 #warn "ComposerCommandBuffer.h included without LOG_TAG"
22 #endif
23 
24 #undef LOG_NDEBUG
25 #define LOG_NDEBUG 0
26 
27 #include <algorithm>
28 #include <limits>
29 #include <memory>
30 #include <vector>
31 
32 #include <inttypes.h>
33 #include <string.h>
34 
35 #include <android/hardware/graphics/composer/2.1/IComposer.h>
36 #include <fmq/MessageQueue.h>
37 #include <log/log.h>
38 #include <sync/sync.h>
39 
40 namespace android {
41 namespace hardware {
42 namespace graphics {
43 namespace composer {
44 namespace V2_1 {
45 
46 using android::hardware::graphics::common::V1_0::ColorTransform;
47 using android::hardware::graphics::common::V1_0::Dataspace;
48 using android::hardware::graphics::common::V1_0::Transform;
49 using android::hardware::MessageQueue;
50 
51 using CommandQueueType = MessageQueue<uint32_t, kSynchronizedReadWrite>;
52 
53 // This class helps build a command queue.  Note that all sizes/lengths are in
54 // units of uint32_t's.
55 class CommandWriterBase {
56    public:
CommandWriterBase(uint32_t initialMaxSize)57     CommandWriterBase(uint32_t initialMaxSize) : mDataMaxSize(initialMaxSize) {
58         mData = std::make_unique<uint32_t[]>(mDataMaxSize);
59         reset();
60     }
61 
~CommandWriterBase()62     virtual ~CommandWriterBase() { reset(); }
63 
reset()64     void reset() {
65         mDataWritten = 0;
66         mCommandEnd = 0;
67 
68         // handles in mDataHandles are owned by the caller
69         mDataHandles.clear();
70 
71         // handles in mTemporaryHandles are owned by the writer
72         for (auto handle : mTemporaryHandles) {
73             native_handle_close(handle);
74             native_handle_delete(handle);
75         }
76         mTemporaryHandles.clear();
77     }
78 
getCommand(uint32_t offset)79     IComposerClient::Command getCommand(uint32_t offset) {
80         uint32_t val = (offset < mDataWritten) ? mData[offset] : 0;
81         return static_cast<IComposerClient::Command>(
82             val & static_cast<uint32_t>(IComposerClient::Command::OPCODE_MASK));
83     }
84 
writeQueue(bool * outQueueChanged,uint32_t * outCommandLength,hidl_vec<hidl_handle> * outCommandHandles)85     bool writeQueue(bool* outQueueChanged, uint32_t* outCommandLength,
86                     hidl_vec<hidl_handle>* outCommandHandles) {
87         if (mDataWritten == 0) {
88             *outQueueChanged = false;
89             *outCommandLength = 0;
90             outCommandHandles->setToExternal(nullptr, 0);
91             return true;
92         }
93 
94         // After data are written to the queue, it may not be read by the
95         // remote reader when
96         //
97         //  - the writer does not send them (because of other errors)
98         //  - the hwbinder transaction fails
99         //  - the reader does not read them (because of other errors)
100         //
101         // Discard the stale data here.
102         size_t staleDataSize = mQueue ? mQueue->availableToRead() : 0;
103         if (staleDataSize > 0) {
104             ALOGW("discarding stale data from message queue");
105             CommandQueueType::MemTransaction tx;
106             if (mQueue->beginRead(staleDataSize, &tx)) {
107                 mQueue->commitRead(staleDataSize);
108             }
109         }
110 
111         // write data to queue, optionally resizing it
112         if (mQueue && (mDataMaxSize <= mQueue->getQuantumCount())) {
113             if (!mQueue->write(mData.get(), mDataWritten)) {
114                 ALOGE("failed to write commands to message queue");
115                 return false;
116             }
117 
118             *outQueueChanged = false;
119         } else {
120             auto newQueue = std::make_unique<CommandQueueType>(mDataMaxSize);
121             if (!newQueue->isValid() || !newQueue->write(mData.get(), mDataWritten)) {
122                 ALOGE("failed to prepare a new message queue ");
123                 return false;
124             }
125 
126             mQueue = std::move(newQueue);
127             *outQueueChanged = true;
128         }
129 
130         *outCommandLength = mDataWritten;
131         outCommandHandles->setToExternal(const_cast<hidl_handle*>(mDataHandles.data()),
132                                          mDataHandles.size());
133 
134         return true;
135     }
136 
getMQDescriptor()137     const MQDescriptorSync<uint32_t>* getMQDescriptor() const {
138         return (mQueue) ? mQueue->getDesc() : nullptr;
139     }
140 
141     static constexpr uint16_t kSelectDisplayLength = 2;
selectDisplay(Display display)142     void selectDisplay(Display display) {
143         beginCommand(IComposerClient::Command::SELECT_DISPLAY, kSelectDisplayLength);
144         write64(display);
145         endCommand();
146     }
147 
148     static constexpr uint16_t kSelectLayerLength = 2;
selectLayer(Layer layer)149     void selectLayer(Layer layer) {
150         beginCommand(IComposerClient::Command::SELECT_LAYER, kSelectLayerLength);
151         write64(layer);
152         endCommand();
153     }
154 
155     static constexpr uint16_t kSetErrorLength = 2;
setError(uint32_t location,Error error)156     void setError(uint32_t location, Error error) {
157         beginCommand(IComposerClient::Command::SET_ERROR, kSetErrorLength);
158         write(location);
159         writeSigned(static_cast<int32_t>(error));
160         endCommand();
161     }
162 
163     static constexpr uint32_t kPresentOrValidateDisplayResultLength = 1;
setPresentOrValidateResult(uint32_t state)164     void setPresentOrValidateResult(uint32_t state) {
165         beginCommand(IComposerClient::Command::SET_PRESENT_OR_VALIDATE_DISPLAY_RESULT,
166                      kPresentOrValidateDisplayResultLength);
167         write(state);
168         endCommand();
169     }
170 
setChangedCompositionTypes(const std::vector<Layer> & layers,const std::vector<IComposerClient::Composition> & types)171     void setChangedCompositionTypes(const std::vector<Layer>& layers,
172                                     const std::vector<IComposerClient::Composition>& types) {
173         size_t totalLayers = std::min(layers.size(), types.size());
174         size_t currentLayer = 0;
175 
176         while (currentLayer < totalLayers) {
177             size_t count =
178                 std::min(totalLayers - currentLayer, static_cast<size_t>(kMaxLength) / 3);
179 
180             beginCommand(IComposerClient::Command::SET_CHANGED_COMPOSITION_TYPES, count * 3);
181             for (size_t i = 0; i < count; i++) {
182                 write64(layers[currentLayer + i]);
183                 writeSigned(static_cast<int32_t>(types[currentLayer + i]));
184             }
185             endCommand();
186 
187             currentLayer += count;
188         }
189     }
190 
setDisplayRequests(uint32_t displayRequestMask,const std::vector<Layer> & layers,const std::vector<uint32_t> & layerRequestMasks)191     void setDisplayRequests(uint32_t displayRequestMask, const std::vector<Layer>& layers,
192                             const std::vector<uint32_t>& layerRequestMasks) {
193         size_t totalLayers = std::min(layers.size(), layerRequestMasks.size());
194         size_t currentLayer = 0;
195 
196         while (currentLayer < totalLayers) {
197             size_t count =
198                 std::min(totalLayers - currentLayer, static_cast<size_t>(kMaxLength - 1) / 3);
199 
200             beginCommand(IComposerClient::Command::SET_DISPLAY_REQUESTS, 1 + count * 3);
201             write(displayRequestMask);
202             for (size_t i = 0; i < count; i++) {
203                 write64(layers[currentLayer + i]);
204                 write(static_cast<int32_t>(layerRequestMasks[currentLayer + i]));
205             }
206             endCommand();
207 
208             currentLayer += count;
209         }
210     }
211 
212     static constexpr uint16_t kSetPresentFenceLength = 1;
setPresentFence(int presentFence)213     void setPresentFence(int presentFence) {
214         beginCommand(IComposerClient::Command::SET_PRESENT_FENCE, kSetPresentFenceLength);
215         writeFence(presentFence);
216         endCommand();
217     }
218 
setReleaseFences(const std::vector<Layer> & layers,const std::vector<int> & releaseFences)219     void setReleaseFences(const std::vector<Layer>& layers, const std::vector<int>& releaseFences) {
220         size_t totalLayers = std::min(layers.size(), releaseFences.size());
221         size_t currentLayer = 0;
222 
223         while (currentLayer < totalLayers) {
224             size_t count =
225                 std::min(totalLayers - currentLayer, static_cast<size_t>(kMaxLength) / 3);
226 
227             beginCommand(IComposerClient::Command::SET_RELEASE_FENCES, count * 3);
228             for (size_t i = 0; i < count; i++) {
229                 write64(layers[currentLayer + i]);
230                 writeFence(releaseFences[currentLayer + i]);
231             }
232             endCommand();
233 
234             currentLayer += count;
235         }
236     }
237 
238     static constexpr uint16_t kSetColorTransformLength = 17;
setColorTransform(const float * matrix,ColorTransform hint)239     void setColorTransform(const float* matrix, ColorTransform hint) {
240         beginCommand(IComposerClient::Command::SET_COLOR_TRANSFORM, kSetColorTransformLength);
241         for (int i = 0; i < 16; i++) {
242             writeFloat(matrix[i]);
243         }
244         writeSigned(static_cast<int32_t>(hint));
245         endCommand();
246     }
247 
setClientTarget(uint32_t slot,const native_handle_t * target,int acquireFence,Dataspace dataspace,const std::vector<IComposerClient::Rect> & damage)248     void setClientTarget(uint32_t slot, const native_handle_t* target, int acquireFence,
249                          Dataspace dataspace, const std::vector<IComposerClient::Rect>& damage) {
250         setClientTargetInternal(slot, target, acquireFence, static_cast<int32_t>(dataspace),
251                                 damage);
252     }
253 
254     static constexpr uint16_t kSetOutputBufferLength = 3;
setOutputBuffer(uint32_t slot,const native_handle_t * buffer,int releaseFence)255     void setOutputBuffer(uint32_t slot, const native_handle_t* buffer, int releaseFence) {
256         beginCommand(IComposerClient::Command::SET_OUTPUT_BUFFER, kSetOutputBufferLength);
257         write(slot);
258         writeHandle(buffer, true);
259         writeFence(releaseFence);
260         endCommand();
261     }
262 
263     static constexpr uint16_t kValidateDisplayLength = 0;
validateDisplay()264     void validateDisplay() {
265         beginCommand(IComposerClient::Command::VALIDATE_DISPLAY, kValidateDisplayLength);
266         endCommand();
267     }
268 
269     static constexpr uint16_t kPresentOrValidateDisplayLength = 0;
presentOrvalidateDisplay()270     void presentOrvalidateDisplay() {
271         beginCommand(IComposerClient::Command::PRESENT_OR_VALIDATE_DISPLAY,
272                      kPresentOrValidateDisplayLength);
273         endCommand();
274     }
275 
276     static constexpr uint16_t kAcceptDisplayChangesLength = 0;
acceptDisplayChanges()277     void acceptDisplayChanges() {
278         beginCommand(IComposerClient::Command::ACCEPT_DISPLAY_CHANGES, kAcceptDisplayChangesLength);
279         endCommand();
280     }
281 
282     static constexpr uint16_t kPresentDisplayLength = 0;
presentDisplay()283     void presentDisplay() {
284         beginCommand(IComposerClient::Command::PRESENT_DISPLAY, kPresentDisplayLength);
285         endCommand();
286     }
287 
288     static constexpr uint16_t kSetLayerCursorPositionLength = 2;
setLayerCursorPosition(int32_t x,int32_t y)289     void setLayerCursorPosition(int32_t x, int32_t y) {
290         beginCommand(IComposerClient::Command::SET_LAYER_CURSOR_POSITION,
291                      kSetLayerCursorPositionLength);
292         writeSigned(x);
293         writeSigned(y);
294         endCommand();
295     }
296 
297     static constexpr uint16_t kSetLayerBufferLength = 3;
setLayerBuffer(uint32_t slot,const native_handle_t * buffer,int acquireFence)298     void setLayerBuffer(uint32_t slot, const native_handle_t* buffer, int acquireFence) {
299         beginCommand(IComposerClient::Command::SET_LAYER_BUFFER, kSetLayerBufferLength);
300         write(slot);
301         writeHandle(buffer, true);
302         writeFence(acquireFence);
303         endCommand();
304     }
305 
setLayerSurfaceDamage(const std::vector<IComposerClient::Rect> & damage)306     void setLayerSurfaceDamage(const std::vector<IComposerClient::Rect>& damage) {
307         bool doWrite = (damage.size() <= kMaxLength / 4);
308         size_t length = (doWrite) ? damage.size() * 4 : 0;
309 
310         beginCommand(IComposerClient::Command::SET_LAYER_SURFACE_DAMAGE, length);
311         // When there are too many rectangles in the damage region and doWrite
312         // is false, we write no rectangle at all which means the entire
313         // layer is damaged.
314         if (doWrite) {
315             writeRegion(damage);
316         }
317         endCommand();
318     }
319 
320     static constexpr uint16_t kSetLayerBlendModeLength = 1;
setLayerBlendMode(IComposerClient::BlendMode mode)321     void setLayerBlendMode(IComposerClient::BlendMode mode) {
322         beginCommand(IComposerClient::Command::SET_LAYER_BLEND_MODE, kSetLayerBlendModeLength);
323         writeSigned(static_cast<int32_t>(mode));
324         endCommand();
325     }
326 
327     static constexpr uint16_t kSetLayerColorLength = 1;
setLayerColor(IComposerClient::Color color)328     void setLayerColor(IComposerClient::Color color) {
329         beginCommand(IComposerClient::Command::SET_LAYER_COLOR, kSetLayerColorLength);
330         writeColor(color);
331         endCommand();
332     }
333 
334     static constexpr uint16_t kSetLayerCompositionTypeLength = 1;
setLayerCompositionType(IComposerClient::Composition type)335     void setLayerCompositionType(IComposerClient::Composition type) {
336         beginCommand(IComposerClient::Command::SET_LAYER_COMPOSITION_TYPE,
337                      kSetLayerCompositionTypeLength);
338         writeSigned(static_cast<int32_t>(type));
339         endCommand();
340     }
341 
342     static constexpr uint16_t kSetLayerDataspaceLength = 1;
setLayerDataspace(Dataspace dataspace)343     void setLayerDataspace(Dataspace dataspace) {
344         setLayerDataspaceInternal(static_cast<int32_t>(dataspace));
345     }
346 
347     static constexpr uint16_t kSetLayerDisplayFrameLength = 4;
setLayerDisplayFrame(const IComposerClient::Rect & frame)348     void setLayerDisplayFrame(const IComposerClient::Rect& frame) {
349         beginCommand(IComposerClient::Command::SET_LAYER_DISPLAY_FRAME,
350                      kSetLayerDisplayFrameLength);
351         writeRect(frame);
352         endCommand();
353     }
354 
355     static constexpr uint16_t kSetLayerPlaneAlphaLength = 1;
setLayerPlaneAlpha(float alpha)356     void setLayerPlaneAlpha(float alpha) {
357         beginCommand(IComposerClient::Command::SET_LAYER_PLANE_ALPHA, kSetLayerPlaneAlphaLength);
358         writeFloat(alpha);
359         endCommand();
360     }
361 
362     static constexpr uint16_t kSetLayerSidebandStreamLength = 1;
setLayerSidebandStream(const native_handle_t * stream)363     void setLayerSidebandStream(const native_handle_t* stream) {
364         beginCommand(IComposerClient::Command::SET_LAYER_SIDEBAND_STREAM,
365                      kSetLayerSidebandStreamLength);
366         writeHandle(stream);
367         endCommand();
368     }
369 
370     static constexpr uint16_t kSetLayerSourceCropLength = 4;
setLayerSourceCrop(const IComposerClient::FRect & crop)371     void setLayerSourceCrop(const IComposerClient::FRect& crop) {
372         beginCommand(IComposerClient::Command::SET_LAYER_SOURCE_CROP, kSetLayerSourceCropLength);
373         writeFRect(crop);
374         endCommand();
375     }
376 
377     static constexpr uint16_t kSetLayerTransformLength = 1;
setLayerTransform(Transform transform)378     void setLayerTransform(Transform transform) {
379         beginCommand(IComposerClient::Command::SET_LAYER_TRANSFORM, kSetLayerTransformLength);
380         writeSigned(static_cast<int32_t>(transform));
381         endCommand();
382     }
383 
setLayerVisibleRegion(const std::vector<IComposerClient::Rect> & visible)384     void setLayerVisibleRegion(const std::vector<IComposerClient::Rect>& visible) {
385         bool doWrite = (visible.size() <= kMaxLength / 4);
386         size_t length = (doWrite) ? visible.size() * 4 : 0;
387 
388         beginCommand(IComposerClient::Command::SET_LAYER_VISIBLE_REGION, length);
389         // When there are too many rectangles in the visible region and
390         // doWrite is false, we write no rectangle at all which means the
391         // entire layer is visible.
392         if (doWrite) {
393             writeRegion(visible);
394         }
395         endCommand();
396     }
397 
398     static constexpr uint16_t kSetLayerZOrderLength = 1;
setLayerZOrder(uint32_t z)399     void setLayerZOrder(uint32_t z) {
400         beginCommand(IComposerClient::Command::SET_LAYER_Z_ORDER, kSetLayerZOrderLength);
401         write(z);
402         endCommand();
403     }
404 
405    protected:
setClientTargetInternal(uint32_t slot,const native_handle_t * target,int acquireFence,int32_t dataspace,const std::vector<IComposerClient::Rect> & damage)406     void setClientTargetInternal(uint32_t slot, const native_handle_t* target, int acquireFence,
407                                  int32_t dataspace,
408                                  const std::vector<IComposerClient::Rect>& damage) {
409         bool doWrite = (damage.size() <= (kMaxLength - 4) / 4);
410         size_t length = 4 + ((doWrite) ? damage.size() * 4 : 0);
411 
412         beginCommand(IComposerClient::Command::SET_CLIENT_TARGET, length);
413         write(slot);
414         writeHandle(target, true);
415         writeFence(acquireFence);
416         writeSigned(dataspace);
417         // When there are too many rectangles in the damage region and doWrite
418         // is false, we write no rectangle at all which means the entire
419         // client target is damaged.
420         if (doWrite) {
421             writeRegion(damage);
422         }
423         endCommand();
424     }
425 
setLayerDataspaceInternal(int32_t dataspace)426     void setLayerDataspaceInternal(int32_t dataspace) {
427         beginCommand(IComposerClient::Command::SET_LAYER_DATASPACE, kSetLayerDataspaceLength);
428         writeSigned(dataspace);
429         endCommand();
430     }
431 
beginCommand(IComposerClient::Command command,uint16_t length)432     void beginCommand(IComposerClient::Command command, uint16_t length) {
433         if (mCommandEnd) {
434             LOG_FATAL("endCommand was not called before command 0x%x", command);
435         }
436 
437         growData(1 + length);
438         write(static_cast<uint32_t>(command) | length);
439 
440         mCommandEnd = mDataWritten + length;
441     }
442 
endCommand()443     void endCommand() {
444         if (!mCommandEnd) {
445             LOG_FATAL("beginCommand was not called");
446         } else if (mDataWritten > mCommandEnd) {
447             LOG_FATAL("too much data written");
448             mDataWritten = mCommandEnd;
449         } else if (mDataWritten < mCommandEnd) {
450             LOG_FATAL("too little data written");
451             while (mDataWritten < mCommandEnd) {
452                 write(0);
453             }
454         }
455 
456         mCommandEnd = 0;
457     }
458 
write(uint32_t val)459     void write(uint32_t val) { mData[mDataWritten++] = val; }
460 
writeSigned(int32_t val)461     void writeSigned(int32_t val) { memcpy(&mData[mDataWritten++], &val, sizeof(val)); }
462 
writeFloat(float val)463     void writeFloat(float val) { memcpy(&mData[mDataWritten++], &val, sizeof(val)); }
464 
write64(uint64_t val)465     void write64(uint64_t val) {
466         uint32_t lo = static_cast<uint32_t>(val & 0xffffffff);
467         uint32_t hi = static_cast<uint32_t>(val >> 32);
468         write(lo);
469         write(hi);
470     }
471 
writeRect(const IComposerClient::Rect & rect)472     void writeRect(const IComposerClient::Rect& rect) {
473         writeSigned(rect.left);
474         writeSigned(rect.top);
475         writeSigned(rect.right);
476         writeSigned(rect.bottom);
477     }
478 
writeRegion(const std::vector<IComposerClient::Rect> & region)479     void writeRegion(const std::vector<IComposerClient::Rect>& region) {
480         for (const auto& rect : region) {
481             writeRect(rect);
482         }
483     }
484 
writeFRect(const IComposerClient::FRect & rect)485     void writeFRect(const IComposerClient::FRect& rect) {
486         writeFloat(rect.left);
487         writeFloat(rect.top);
488         writeFloat(rect.right);
489         writeFloat(rect.bottom);
490     }
491 
writeColor(const IComposerClient::Color & color)492     void writeColor(const IComposerClient::Color& color) {
493         write((color.r << 0) | (color.g << 8) | (color.b << 16) | (color.a << 24));
494     }
495 
496     // ownership of handle is not transferred
writeHandle(const native_handle_t * handle,bool useCache)497     void writeHandle(const native_handle_t* handle, bool useCache) {
498         if (!handle) {
499             writeSigned(static_cast<int32_t>((useCache) ? IComposerClient::HandleIndex::CACHED
500                                                         : IComposerClient::HandleIndex::EMPTY));
501             return;
502         }
503 
504         mDataHandles.push_back(handle);
505         writeSigned(mDataHandles.size() - 1);
506     }
507 
writeHandle(const native_handle_t * handle)508     void writeHandle(const native_handle_t* handle) { writeHandle(handle, false); }
509 
510     // ownership of fence is transferred
writeFence(int fence)511     void writeFence(int fence) {
512         native_handle_t* handle = nullptr;
513         if (fence >= 0) {
514             handle = getTemporaryHandle(1, 0);
515             if (handle) {
516                 handle->data[0] = fence;
517             } else {
518                 ALOGW("failed to get temporary handle for fence %d", fence);
519                 sync_wait(fence, -1);
520                 close(fence);
521             }
522         }
523 
524         writeHandle(handle);
525     }
526 
getTemporaryHandle(int numFds,int numInts)527     native_handle_t* getTemporaryHandle(int numFds, int numInts) {
528         native_handle_t* handle = native_handle_create(numFds, numInts);
529         if (handle) {
530             mTemporaryHandles.push_back(handle);
531         }
532         return handle;
533     }
534 
535     static constexpr uint16_t kMaxLength = std::numeric_limits<uint16_t>::max();
536 
537     std::unique_ptr<uint32_t[]> mData;
538     uint32_t mDataWritten;
539 
540    private:
growData(uint32_t grow)541     void growData(uint32_t grow) {
542         uint32_t newWritten = mDataWritten + grow;
543         if (newWritten < mDataWritten) {
544             LOG_ALWAYS_FATAL("buffer overflowed; data written %" PRIu32 ", growing by %" PRIu32,
545                              mDataWritten, grow);
546         }
547 
548         if (newWritten <= mDataMaxSize) {
549             return;
550         }
551 
552         uint32_t newMaxSize = mDataMaxSize << 1;
553         if (newMaxSize < newWritten) {
554             newMaxSize = newWritten;
555         }
556 
557         auto newData = std::make_unique<uint32_t[]>(newMaxSize);
558         std::copy_n(mData.get(), mDataWritten, newData.get());
559         mDataMaxSize = newMaxSize;
560         mData = std::move(newData);
561     }
562 
563     uint32_t mDataMaxSize;
564     // end offset of the current command
565     uint32_t mCommandEnd;
566 
567     std::vector<hidl_handle> mDataHandles;
568     std::vector<native_handle_t*> mTemporaryHandles;
569 
570     std::unique_ptr<CommandQueueType> mQueue;
571 };
572 
573 // This class helps parse a command queue.  Note that all sizes/lengths are in
574 // units of uint32_t's.
575 class CommandReaderBase {
576    public:
CommandReaderBase()577     CommandReaderBase() : mDataMaxSize(0) { reset(); }
578 
setMQDescriptor(const MQDescriptorSync<uint32_t> & descriptor)579     bool setMQDescriptor(const MQDescriptorSync<uint32_t>& descriptor) {
580         mQueue = std::make_unique<CommandQueueType>(descriptor, false);
581         if (mQueue->isValid()) {
582             return true;
583         } else {
584             mQueue = nullptr;
585             return false;
586         }
587     }
588 
readQueue(uint32_t commandLength,const hidl_vec<hidl_handle> & commandHandles)589     bool readQueue(uint32_t commandLength, const hidl_vec<hidl_handle>& commandHandles) {
590         if (!mQueue) {
591             return false;
592         }
593 
594         auto quantumCount = mQueue->getQuantumCount();
595         if (mDataMaxSize < quantumCount) {
596             mDataMaxSize = quantumCount;
597             mData = std::make_unique<uint32_t[]>(mDataMaxSize);
598         }
599 
600         if (commandLength > mDataMaxSize || !mQueue->read(mData.get(), commandLength)) {
601             ALOGE("failed to read commands from message queue");
602             return false;
603         }
604 
605         mDataSize = commandLength;
606         mDataRead = 0;
607         mCommandBegin = 0;
608         mCommandEnd = 0;
609         mDataHandles.setToExternal(const_cast<hidl_handle*>(commandHandles.data()),
610                                    commandHandles.size());
611 
612         return true;
613     }
614 
reset()615     void reset() {
616         mDataSize = 0;
617         mDataRead = 0;
618         mCommandBegin = 0;
619         mCommandEnd = 0;
620         mDataHandles.setToExternal(nullptr, 0);
621     }
622 
623    protected:
isEmpty()624     bool isEmpty() const { return (mDataRead >= mDataSize); }
625 
beginCommand(IComposerClient::Command * outCommand,uint16_t * outLength)626     bool beginCommand(IComposerClient::Command* outCommand, uint16_t* outLength) {
627         if (mCommandEnd) {
628             LOG_FATAL("endCommand was not called for last command");
629         }
630 
631         constexpr uint32_t opcode_mask =
632             static_cast<uint32_t>(IComposerClient::Command::OPCODE_MASK);
633         constexpr uint32_t length_mask =
634             static_cast<uint32_t>(IComposerClient::Command::LENGTH_MASK);
635 
636         uint32_t val = read();
637         *outCommand = static_cast<IComposerClient::Command>(val & opcode_mask);
638         *outLength = static_cast<uint16_t>(val & length_mask);
639 
640         if (mDataRead + *outLength > mDataSize) {
641             ALOGE("command 0x%x has invalid command length %" PRIu16, *outCommand, *outLength);
642             // undo the read() above
643             mDataRead--;
644             return false;
645         }
646 
647         mCommandEnd = mDataRead + *outLength;
648 
649         return true;
650     }
651 
endCommand()652     void endCommand() {
653         if (!mCommandEnd) {
654             LOG_FATAL("beginCommand was not called");
655         } else if (mDataRead > mCommandEnd) {
656             LOG_FATAL("too much data read");
657             mDataRead = mCommandEnd;
658         } else if (mDataRead < mCommandEnd) {
659             LOG_FATAL("too little data read");
660             mDataRead = mCommandEnd;
661         }
662 
663         mCommandBegin = mCommandEnd;
664         mCommandEnd = 0;
665     }
666 
getCommandLoc()667     uint32_t getCommandLoc() const { return mCommandBegin; }
668 
read()669     uint32_t read() { return mData[mDataRead++]; }
670 
readSigned()671     int32_t readSigned() {
672         int32_t val;
673         memcpy(&val, &mData[mDataRead++], sizeof(val));
674         return val;
675     }
676 
readFloat()677     float readFloat() {
678         float val;
679         memcpy(&val, &mData[mDataRead++], sizeof(val));
680         return val;
681     }
682 
read64()683     uint64_t read64() {
684         uint32_t lo = read();
685         uint32_t hi = read();
686         return (static_cast<uint64_t>(hi) << 32) | lo;
687     }
688 
readColor()689     IComposerClient::Color readColor() {
690         uint32_t val = read();
691         return IComposerClient::Color{
692             static_cast<uint8_t>((val >> 0) & 0xff), static_cast<uint8_t>((val >> 8) & 0xff),
693             static_cast<uint8_t>((val >> 16) & 0xff), static_cast<uint8_t>((val >> 24) & 0xff),
694         };
695     }
696 
697     // ownership of handle is not transferred
readHandle(bool * outUseCache)698     const native_handle_t* readHandle(bool* outUseCache) {
699         const native_handle_t* handle = nullptr;
700 
701         int32_t index = readSigned();
702         switch (index) {
703             case static_cast<int32_t>(IComposerClient::HandleIndex::EMPTY):
704                 *outUseCache = false;
705                 break;
706             case static_cast<int32_t>(IComposerClient::HandleIndex::CACHED):
707                 *outUseCache = true;
708                 break;
709             default:
710                 if (static_cast<size_t>(index) < mDataHandles.size()) {
711                     handle = mDataHandles[index].getNativeHandle();
712                 } else {
713                     ALOGE("invalid handle index %zu", static_cast<size_t>(index));
714                 }
715                 *outUseCache = false;
716                 break;
717         }
718 
719         return handle;
720     }
721 
readHandle()722     const native_handle_t* readHandle() {
723         bool useCache;
724         return readHandle(&useCache);
725     }
726 
727     // ownership of fence is transferred
readFence()728     int readFence() {
729         auto handle = readHandle();
730         if (!handle || handle->numFds == 0) {
731             return -1;
732         }
733 
734         if (handle->numFds != 1) {
735             ALOGE("invalid fence handle with %d fds", handle->numFds);
736             return -1;
737         }
738 
739         int fd = dup(handle->data[0]);
740         if (fd < 0) {
741             ALOGW("failed to dup fence %d", handle->data[0]);
742             sync_wait(handle->data[0], -1);
743             fd = -1;
744         }
745 
746         return fd;
747     }
748 
749     std::unique_ptr<uint32_t[]> mData;
750     uint32_t mDataRead;
751 
752    private:
753     std::unique_ptr<CommandQueueType> mQueue;
754     uint32_t mDataMaxSize;
755 
756     uint32_t mDataSize;
757 
758     // begin/end offsets of the current command
759     uint32_t mCommandBegin;
760     uint32_t mCommandEnd;
761 
762     hidl_vec<hidl_handle> mDataHandles;
763 };
764 
765 }  // namespace V2_1
766 }  // namespace composer
767 }  // namespace graphics
768 }  // namespace hardware
769 }  // namespace android
770 
771 #endif  // ANDROID_HARDWARE_GRAPHICS_COMPOSER_COMMAND_BUFFER_H
772