Gitiles
Code Review Sign In
review.blissroms.org / platform_hardware_interfaces / b0abafbf0a6174e8c8933cc5fb19501a2d22c53b / . / graphics / mapper / 2.0 / IMapper.hal
blob: 21a6dfac62f48f60a6bfa45467330c86cfd3f847 [file] [log] [blame]
/*
* Copyright (C) 2016 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.
*/
package android.hardware.graphics.mapper@2.0;
import android.hardware.graphics.common@1.0::PixelFormat;
import android.hardware.graphics.allocator@2.0;
interface IMapper {
struct Rect {
int32_t left;
int32_t top;
int32_t width;
int32_t height;
};
/*
* Adds a reference to the given buffer handle.
*
* A buffer handle received from a remote process or exported by
* IAllocator::exportHandle is unknown to the mapper. There is also no
* guarantee that the buffer's backing store will stay alive. This
* function must be called at least once in both cases to intrdouce the
* buffer handle to the mapper and to secure the backing store. It may
* also be called more than once to increase the reference count if two
* components in the same process want to interact with the buffer
* independently.
*
* @param bufferHandle is the buffer to which a reference must be added.
* @return error is NONE upon success. Otherwise,
* BAD_BUFFER when the buffer handle is invalid
* NO_RESOURCES when it is not possible to add a
* reference to this buffer at this time
*/
@entry
@callflow(next="*")
retain(handle bufferHandle) generates (Error error);
/*
* Removes a reference from the given buffer buffer.
*
* If no references remain, the buffer handle must be freed with
* native_handle_close/native_handle_delete by the mapper. When the last
* buffer handle referring to a particular backing store is freed, that
* backing store must also be freed.
*
* @param bufferHandle is the buffer from which a reference must be
* removed.
* @return error is NONE upon success. Otherwise,
* BAD_BUFFER when the buffer handle is invalid.
*/
@exit
release(handle bufferHandle) generates (Error error);
/*
* Gets the width and height of the buffer in pixels.
*
* See IAllocator::BufferDescriptorInfo for more information.
*
* @param bufferHandle is the buffer from which to get the dimensions.
* @return error is NONE upon success. Otherwise,
* BAD_BUFFER when the buffer handle is invalid.
* @return width is the width of the buffer in pixels.
* @return height is the height of the buffer in pixels.
*/
@callflow(next="*")
getDimensions(handle bufferHandle)
generates (Error error,
uint32_t width,
uint32_t height);
/*
* Gets the format of the buffer.
*
* See IAllocator::BufferDescriptorInfo for more information.
*
* @param bufferHandle is the buffer from which to get format.
* @return error is NONE upon success. Otherwise,
* BAD_BUFFER when the buffer handle is invalid.
* @return format is the format of the buffer.
*/
@callflow(next="*")
getFormat(handle bufferHandle)
generates (Error error,
PixelFormat format);
/*
* Gets the number of layers of the buffer.
*
* See IAllocator::BufferDescriptorInfo for more information.
*
* @param bufferHandle is the buffer from which to get format.
* @return error is NONE upon success. Otherwise,
* BAD_BUFFER when the buffer handle is invalid.
* @return layerCount is the number of layers of the buffer.
*/
@callflow(next="*")
getLayerCount(handle bufferHandle)
generates (Error error,
uint32_t layerCount);
/*
* Gets the producer usage flags which were used to allocate this buffer.
*
* See IAllocator::BufferDescriptorInfo for more information.
*
* @param bufferHandle is the buffer from which to get the producer usage
* flags.
* @return error is NONE upon success. Otherwise,
* BAD_BUFFER when the buffer handle is invalid.
* @return usageMask contains the producer usage flags of the buffer.
*/
@callflow(next="*")
getProducerUsageMask(handle bufferHandle)
generates (Error error,
uint64_t usageMask);
/*
* Gets the consumer usage flags which were used to allocate this buffer.
*
* See IAllocator::BufferDescriptorInfo for more information.
*
* @param bufferHandle is the buffer from which to get the consumer usage
* flags.
* @return error is NONE upon success. Otherwise,
* BAD_BUFFER when the buffer handle is invalid.
* @return usageMask contains the consumer usage flags of the buffer.
*/
@callflow(next="*")
getConsumerUsageMask(handle bufferHandle)
generates (Error error,
uint64_t usageMask);
/*
* Gets a value that uniquely identifies the backing store of the given
* buffer.
*
* Buffers which share a backing store should return the same value from
* this function. If the buffer is present in more than one process, the
* backing store value for that buffer is not required to be the same in
* every process.
*
* @param device is the mapper device.
* @param bufferHandle is the buffer from which to get the backing store
* identifier.
* @return error is NONE upon success. Otherwise,
* BAD_BUFFER when the buffer handle is invalid.
* @return store is the backing store identifier for this buffer.
*/
@callflow(next="*")
getBackingStore(handle bufferHandle)
generates (Error error,
BackingStore store);
/*
* Gets the stride of the buffer in pixels.
*
* The stride is the offset in pixel-sized elements between the same
* column in two adjacent rows of pixels. This may not be equal to the
* width of the buffer.
*
* @param device is the mapper device.
* @param bufferHandle is the buffer from which to get the stride.
* @return error is NONE upon success. Otherwise,
* BAD_BUFFER when the buffer handle is invalid.
* UNDEFINED when the notion of a stride is not
* meaningful for the buffer format.
* @return store is the stride in pixels.
*/
@callflow(next="*")
getStride(handle bufferHandle)
generates (Error error,
uint32_t stride);
/*
* Locks the given buffer for the specified CPU usage.
*
* Exactly one of producerUsageMask and consumerUsageMask must be 0. The
* usage which is not 0 must be one of the *Usage::CPU* values, as
* applicable. Locking a buffer for a non-CPU usage is not supported.
*
* Locking the same buffer simultaneously from multiple threads is
* permitted, but if any of the threads attempt to lock the buffer for
* writing, the behavior is undefined, except that it must not cause
* process termination or block the client indefinitely. Leaving the
* buffer content in an indeterminate state or returning an error are both
* acceptable.
*
* The client must not modify the content of the buffer outside of
* accessRegion, and the device need not guarantee that content outside of
* accessRegion is valid for reading. The result of reading or writing
* outside of accessRegion is undefined, except that it must not cause
* process termination.
*
* data will be filled with a pointer to the locked buffer memory. This
* address will represent the top-left corner of the entire buffer, even
* if accessRegion does not begin at the top-left corner.
*
* acquireFence is a file descriptor referring to a acquire sync fence
* object, which will be signaled when it is safe for the device to access
* the contents of the buffer (prior to locking). If it is already safe to
* access the buffer contents, -1 may be passed instead.
*
* @param bufferHandle is the buffer to lock.
* @param producerUsageMask contains the producer usage flags to request;
* either this or consumerUsagemask must be 0, and the other must
* be a CPU usage.
* @param consumerUsageMask contains the consumer usage flags to request;
* either this or producerUsageMask must be 0, and the other must
* be a CPU usage.
* @param accessRegion is the portion of the buffer that the client
* intends to access.
* @param acquireFence is a sync fence file descriptor as described above.
* @return error is NONE upon success. Otherwise,
* BAD_BUFFER when the buffer handle is invalid.
* BAD_VALUE when neither or both of producerUsageMask
* and consumerUsageMask were 0, or the usage
* which was not 0 was not a CPU usage.
* NO_RESOURCES when the buffer cannot be locked at this
* time, but locking may succeed at a future
* time.
* UNSUPPORTED when the buffer cannot be locked with the
* given usage, and any future attempts at
* locking will also fail.
* @return data will be filled with a CPU-accessible pointer to the buffer
* data.
*/
@callflow(next="unlock")
lock(handle bufferHandle,
uint64_t producerUsageMask,
uint64_t consumerUsageMask,
Rect accessRegion,
handle acquireFence)
generates (Error error,
pointer data);
/*
* This is largely the same as lock(), except that instead of returning a
* pointer directly to the buffer data, it returns an FlexLayout struct
* describing how to access the data planes.
*
* This function must work on buffers with PixelFormat::YCbCr_*_888 if
* supported by the device, as well as with any other formats requested by
* multimedia codecs when they are configured with a
* flexible-YUV-compatible color format.
*
* This function may also be called on buffers of other formats, including
* non-YUV formats, but if the buffer format is not compatible with a
* flexible representation, it may return UNSUPPORTED.
*
* @param device is the mapper device.
* @param bufferHandle is the buffer to lock.
* @param producerUsageMask contains the producer usage flags to request;
* either this or consumerUsagemask must be 0, and the other must
* be a CPU usage.
* @param consumerUsageMask contains the consumer usage flags to request;
* either this or producerUsageMask must be 0, and the other must
* be a CPU usage.
* @param accessRegion is the portion of the buffer that the client
* intends to access.
* @param acquireFence is a sync fence file descriptor as described in
* lock().
* @return error is NONE upon success. Otherwise,
* BAD_BUFFER when the buffer handle is invalid.
* BAD_VALUE when neither or both of producerUsageMask
* and consumerUsageMask were 0, or the usage
* which was not 0 was not a CPU usage.
* NO_RESOURCES when the buffer cannot be locked at this
* time, but locking may succeed at a future
* time.
* UNSUPPORTED when the buffer cannot be locked with the
* given usage, and any future attempts at
* locking will also fail.
* @return flexLayout will be filled with the description of the planes in
* the buffer.
*/
@callflow(next="unlock")
lockFlex(handle bufferHandle,
uint64_t producerUsageMask,
uint64_t consumerUsageMask,
Rect accessRegion,
handle acquireFence)
generates (Error error,
FlexLayout layout);
/*
* This function indicates to the device that the client will be done with
* the buffer when releaseFence signals.
*
* releaseFence will be filled with a file descriptor referring to a
* release sync fence object, which will be signaled when it is safe to
* access the contents of the buffer (after the buffer has been unlocked).
* If it is already safe to access the buffer contents, then -1 may be
* returned instead.
*
* This function is used to unlock both buffers locked by lock() and those
* locked by lockFlex().
*
* @param device is the mapper device.
* @param bufferHandle is the buffer to unlock.
* @return error is NONE upon success. Otherwise,
* BAD_BUFFER when the buffer handle is invalid.
* @return releaseFence is a sync fence file descriptor as described
* above.
*/
@callflow(next="*")
unlock(handle bufferHandle)
generates (Error error,
handle releaseFence);
};