replicant-frameworks_native/include/gui/BufferQueueConsumer.h
Dan Stoza e64a79cd85 Fix PTS handling for buffer replacement
This changes the way that SurfaceFlinger's shadow buffer management
works such that instead of tracking the size of the shadow queue in the
BufferQueue, SF tracks the last frame number it has seen, and passes
that into the acquireBuffer call. BufferQueueConsumer then ensures that
it never returns a buffer newer than that frame number, even if that
means that it must return PRESENT_LATER for an otherwise valid buffer.

Change-Id: I3fcb45f683ed660c3f18a8b85ae1f8a962ba6f0e
(cherry picked from commit a4650a50a0)
2015-05-13 09:43:35 -07:00

188 lines
7.9 KiB
C++

/*
* Copyright 2014 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 ANDROID_GUI_BUFFERQUEUECONSUMER_H
#define ANDROID_GUI_BUFFERQUEUECONSUMER_H
#include <EGL/egl.h>
#include <EGL/eglext.h>
#include <gui/BufferQueueDefs.h>
#include <gui/IGraphicBufferConsumer.h>
namespace android {
class BufferQueueCore;
class BufferQueueConsumer : public BnGraphicBufferConsumer {
public:
BufferQueueConsumer(const sp<BufferQueueCore>& core);
virtual ~BufferQueueConsumer();
// acquireBuffer attempts to acquire ownership of the next pending buffer in
// the BufferQueue. If no buffer is pending then it returns
// NO_BUFFER_AVAILABLE. If a buffer is successfully acquired, the
// information about the buffer is returned in BufferItem. If the buffer
// returned had previously been acquired then the BufferItem::mGraphicBuffer
// field of buffer is set to NULL and it is assumed that the consumer still
// holds a reference to the buffer.
//
// If expectedPresent is nonzero, it indicates the time when the buffer
// will be displayed on screen. If the buffer's timestamp is farther in the
// future, the buffer won't be acquired, and PRESENT_LATER will be
// returned. The presentation time is in nanoseconds, and the time base
// is CLOCK_MONOTONIC.
virtual status_t acquireBuffer(BufferItem* outBuffer,
nsecs_t expectedPresent, uint64_t maxFrameNumber = 0) override;
// See IGraphicBufferConsumer::detachBuffer
virtual status_t detachBuffer(int slot);
// See IGraphicBufferConsumer::attachBuffer
virtual status_t attachBuffer(int* slot, const sp<GraphicBuffer>& buffer);
// releaseBuffer releases a buffer slot from the consumer back to the
// BufferQueue. This may be done while the buffer's contents are still
// being accessed. The fence will signal when the buffer is no longer
// in use. frameNumber is used to indentify the exact buffer returned.
//
// If releaseBuffer returns STALE_BUFFER_SLOT, then the consumer must free
// any references to the just-released buffer that it might have, as if it
// had received a onBuffersReleased() call with a mask set for the released
// buffer.
//
// Note that the dependencies on EGL will be removed once we switch to using
// the Android HW Sync HAL.
virtual status_t releaseBuffer(int slot, uint64_t frameNumber,
const sp<Fence>& releaseFence, EGLDisplay display,
EGLSyncKHR fence);
// connect connects a consumer to the BufferQueue. Only one
// consumer may be connected, and when that consumer disconnects the
// BufferQueue is placed into the "abandoned" state, causing most
// interactions with the BufferQueue by the producer to fail.
// controlledByApp indicates whether the consumer is controlled by
// the application.
//
// consumerListener may not be NULL.
virtual status_t connect(const sp<IConsumerListener>& consumerListener,
bool controlledByApp);
// disconnect disconnects a consumer from the BufferQueue. All
// buffers will be freed and the BufferQueue is placed in the "abandoned"
// state, causing most interactions with the BufferQueue by the producer to
// fail.
virtual status_t disconnect();
// getReleasedBuffers sets the value pointed to by outSlotMask to a bit mask
// indicating which buffer slots have been released by the BufferQueue
// but have not yet been released by the consumer.
//
// This should be called from the onBuffersReleased() callback.
virtual status_t getReleasedBuffers(uint64_t* outSlotMask);
// setDefaultBufferSize is used to set the size of buffers returned by
// dequeueBuffer when a width and height of zero is requested. Default
// is 1x1.
virtual status_t setDefaultBufferSize(uint32_t width, uint32_t height);
// setDefaultMaxBufferCount sets the default value for the maximum buffer
// count (the initial default is 2). If the producer has requested a
// buffer count using setBufferCount, the default buffer count will only
// take effect if the producer sets the count back to zero.
//
// The count must be between 2 and NUM_BUFFER_SLOTS, inclusive.
virtual status_t setDefaultMaxBufferCount(int bufferCount);
// disableAsyncBuffer disables the extra buffer used in async mode
// (when both producer and consumer have set their "isControlledByApp"
// flag) and has dequeueBuffer() return WOULD_BLOCK instead.
//
// This can only be called before connect().
virtual status_t disableAsyncBuffer();
// setMaxAcquiredBufferCount sets the maximum number of buffers that can
// be acquired by the consumer at one time (default 1). This call will
// fail if a producer is connected to the BufferQueue.
virtual status_t setMaxAcquiredBufferCount(int maxAcquiredBuffers);
// setConsumerName sets the name used in logging
virtual void setConsumerName(const String8& name);
// setDefaultBufferFormat allows the BufferQueue to create
// GraphicBuffers of a defaultFormat if no format is specified
// in dequeueBuffer. The initial default is HAL_PIXEL_FORMAT_RGBA_8888.
virtual status_t setDefaultBufferFormat(PixelFormat defaultFormat);
// setDefaultBufferDataSpace allows the BufferQueue to create
// GraphicBuffers of a defaultDataSpace if no data space is specified
// in queueBuffer.
// The initial default is HAL_DATASPACE_UNKNOWN
virtual status_t setDefaultBufferDataSpace(
android_dataspace defaultDataSpace);
// setConsumerUsageBits will turn on additional usage bits for dequeueBuffer.
// These are merged with the bits passed to dequeueBuffer. The values are
// enumerated in gralloc.h, e.g. GRALLOC_USAGE_HW_RENDER; the default is 0.
virtual status_t setConsumerUsageBits(uint32_t usage);
// setTransformHint bakes in rotation to buffers so overlays can be used.
// The values are enumerated in window.h, e.g.
// NATIVE_WINDOW_TRANSFORM_ROT_90. The default is 0 (no transform).
virtual status_t setTransformHint(uint32_t hint);
// Retrieve the sideband buffer stream, if any.
virtual sp<NativeHandle> getSidebandStream() const;
// dump our state in a String
virtual void dump(String8& result, const char* prefix) const;
// Functions required for backwards compatibility.
// These will be modified/renamed in IGraphicBufferConsumer and will be
// removed from this class at that time. See b/13306289.
virtual status_t releaseBuffer(int buf, uint64_t frameNumber,
EGLDisplay display, EGLSyncKHR fence,
const sp<Fence>& releaseFence) {
return releaseBuffer(buf, frameNumber, releaseFence, display, fence);
}
virtual status_t consumerConnect(const sp<IConsumerListener>& consumer,
bool controlledByApp) {
return connect(consumer, controlledByApp);
}
virtual status_t consumerDisconnect() { return disconnect(); }
// End functions required for backwards compatibility
private:
sp<BufferQueueCore> mCore;
// This references mCore->mSlots. Lock mCore->mMutex while accessing.
BufferQueueDefs::SlotsType& mSlots;
// This is a cached copy of the name stored in the BufferQueueCore.
// It's updated during setConsumerName.
String8 mConsumerName;
}; // class BufferQueueConsumer
} // namespace android
#endif