platform_hardware_interfaces/graphics/mapper/4.0/IMapper.hal

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/*
* Copyright 2019 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@4.0;
import android.hardware.graphics.common@1.2::BufferUsage;
import android.hardware.graphics.common@1.2::PixelFormat;
import android.hardware.graphics.common@1.2::Rect;
interface IMapper {
struct BufferDescriptorInfo {
/**
* The width specifies how many columns of pixels must be in the
* allocated buffer, but does not necessarily represent the offset in
* columns between the same column in adjacent rows. The rows may be
* padded.
*/
uint32_t width;
/**
* The height specifies how many rows of pixels must be in the
* allocated buffer.
*/
uint32_t height;
/**
* The number of image layers that must be in the allocated buffer.
*/
uint32_t layerCount;
/** Buffer pixel format. */
PixelFormat format;
/**
* Buffer usage mask; valid flags can be found in the definition of
* BufferUsage.
*/
bitfield<BufferUsage> usage;
};
struct Rect {
int32_t left;
int32_t top;
int32_t width;
int32_t height;
};
/**
* Creates a buffer descriptor. The descriptor can be used with IAllocator
* to allocate buffers.
*
* Since the buffer descriptor fully describes a buffer, any device
* dependent or device independent checks must be performed here whenever
* possible. Specifically, when layered buffers are not supported, this
* function must return `UNSUPPORTED` if `description.layers` is great than
* 1.
*
* @param description Attributes of the descriptor.
* @return error Error status of the call, which may be
* - `NONE` upon success.
* - `BAD_VALUE` if any of the specified attributes are invalid or
* inconsistent.
* - `NO_RESOURCES` if the creation cannot be fullfilled due to
* unavailability of resources.
* - `UNSUPPORTED` when any of the specified attributes are not
* supported.
* @return descriptor Newly created buffer descriptor.
*/
createDescriptor(BufferDescriptorInfo description)
generates (Error error,
BufferDescriptor descriptor);
/**
* Imports a raw buffer handle to create an imported buffer handle for use
* with the rest of the mapper or with other in-process libraries.
*
* A buffer handle is considered raw when it is cloned (e.g., with
* `native_handle_clone()`) from another buffer handle locally, or when it
* is received from another HAL server/client or another process. A raw
* buffer handle must not be used to access the underlying graphic
* buffer. It must be imported to create an imported handle first.
*
* This function must at least validate the raw handle before creating the
* imported handle. It must also support importing the same raw handle
* multiple times to create multiple imported handles. The imported handle
* must be considered valid everywhere in the process, including in
* another instance of the mapper.
*
* Because of passthrough HALs, a raw buffer handle received from a HAL
* may actually have been imported in the process. importBuffer() must treat
* such a handle as if it is raw and must not return `BAD_BUFFER`. The
* returned handle is independent from the input handle as usual, and
* freeBuffer() must be called on it when it is no longer needed.
*
* @param rawHandle Raw buffer handle to import.
* @return error Error status of the call, which may be
* - `NONE` upon success.
* - `BAD_BUFFER` if the raw handle is invalid.
* - `NO_RESOURCES` if the raw handle cannot be imported due to
* unavailability of resources.
* @return buffer Imported buffer handle that has the type
* `buffer_handle_t` which is a handle type.
*/
importBuffer(handle rawHandle) generates (Error error, pointer buffer);
/**
* Frees a buffer handle. Buffer handles returned by importBuffer() must be
* freed with this function when no longer needed.
*
* This function must free up all resources allocated by importBuffer() for
* the imported handle. For example, if the imported handle was created
* with `native_handle_create()`, this function must call
* `native_handle_close()` and `native_handle_delete()`.
*
* @param buffer Imported buffer handle.
* @return error Error status of the call, which may be
* - `NONE` upon success.
* - `BAD_BUFFER` if the buffer is invalid.
*/
freeBuffer(pointer buffer) generates (Error error);
/**
* Validates that the buffer can be safely accessed by a caller who assumes
* the specified @p description and @p stride. This must at least validate
* that the buffer size is large enough. Validating the buffer against
* individual buffer attributes is optional.
*
* @param buffer Buffer to validate against.
* @param description Attributes of the buffer.
* @param stride Stride returned by IAllocator::allocate().
* @return error Error status of the call, which may be
* - `NONE` upon success.
* - `BAD_BUFFER` if the buffer is invalid.
* - `BAD_VALUE` if the buffer cannot be safely accessed.
*/
validateBufferSize(pointer buffer,
BufferDescriptorInfo description,
uint32_t stride)
generates (Error error);
/**
* Calculates the transport size of a buffer. An imported buffer handle is a
* raw buffer handle with the process-local runtime data appended. This
* function, for example, allows a caller to omit the process-local runtime
* data at the tail when serializing the imported buffer handle.
*
* Note that a client might or might not omit the process-local runtime data
* when sending an imported buffer handle. The mapper must support both
* cases on the receiving end.
*
* @param buffer Buffer to get the transport size from.
* @return error Error status of the call, which may be
* - `NONE` upon success.
* - `BAD_BUFFER` if the buffer is invalid.
* @return numFds The number of file descriptors needed for transport.
* @return numInts The number of integers needed for transport.
*/
getTransportSize(pointer buffer)
generates (Error error,
uint32_t numFds,
uint32_t numInts);
/**
* Locks the given buffer for the specified CPU usage.
*
* 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.
*
* 1D buffers (width = size in bytes, height = 1, pixel_format = BLOB) must
* "lock in place". The buffers must be directly accessible via mapping.
*
* The client must not modify the content of the buffer outside of
* @p accessRegion, and the device need not guarantee that content outside
* of @p accessRegion is valid for reading. The result of reading or writing
* outside of @p accessRegion is undefined, except that it must not cause
* process termination.
*
* On success, @p data must be filled with a pointer to the locked buffer
* memory. This address will represent the top-left corner of the entire
* buffer, even if @p accessRegion does not begin at the top-left corner.
*
* On success, bytesPerPixel must contain the number of bytes per pixel in
* the buffer. If the bytesPerPixel is unknown or variable, a value of -1
* should be returned. bytesPerStride must contain the bytes per stride of
* the buffer. If the bytesPerStride is unknown or variable, a value of -1
* should be returned.
*
* @param buffer Buffer to lock.
* @param cpuUsage CPU usage flags to request. See +ndk
* libnativewindow#AHardwareBuffer_UsageFlags for possible values.
* @param accessRegion Portion of the buffer that the client intends to
* access.
* @param acquireFence Handle containing a file descriptor referring to a
* sync fence object, which will be signaled when it is safe for the
* mapper to lock the buffer. @p acquireFence may be an empty fence if
* it is already safe to lock.
* @return error Error status of the call, which may be
* - `NONE` upon success.
* - `BAD_BUFFER` if the buffer is invalid or is incompatible with this
* function.
* - `BAD_VALUE` if @p cpuUsage is 0, contains non-CPU usage flags, or
* is incompatible with the buffer.
* - `NO_RESOURCES` if the buffer cannot be locked at this time. Note
* that locking may succeed at a later time.
* @return data CPU-accessible pointer to the buffer data.
* @return bytesPerPixel the number of bytes per pixel in the buffer
* @return bytesPerStride the number of bytes per stride of the buffer
*/
lock(pointer buffer,
uint64_t cpuUsage,
Rect accessRegion,
handle acquireFence)
generates (Error error,
pointer data,
int32_t bytesPerPixel,
int32_t bytesPerStride);
/**
* Locks a YCbCr buffer for the specified CPU usage.
*
* This is largely the same as lock(), except that instead of returning a
* pointer directly to the buffer data, it returns a `YCbCrLayout` struct
* describing how to access the data planes.
*
* This function must work on buffers with
* `AHARDWAREBUFFER_FORMAT_Y8Cb8Cr8_*` 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.
*
* @param buffer Buffer to lock.
* @param cpuUsage CPU usage flags to request. See +ndk
* libnativewindow#AHardwareBuffer_UsageFlags for possible values.
* @param accessRegion Portion of the buffer that the client intends to
* access.
* @param acquireFence Handle containing a file descriptor referring to a
* sync fence object, which will be signaled when it is safe for the
* mapper to lock the buffer. @p acquireFence may be empty if it is
* already safe to lock.
* @return error Error status of the call, which may be
* - `NONE` upon success.
* - `BAD_BUFFER` if the buffer is invalid or is incompatible with this
* function.
* - `BAD_VALUE` if @p cpuUsage is 0, contains non-CPU usage flags, or
* is incompatible with the buffer.
* - `NO_RESOURCES` if the buffer cannot be locked at this time. Note
* that locking may succeed at a later time.
* @return layout Data layout of the locked buffer.
*/
lockYCbCr(pointer buffer,
uint64_t cpuUsage,
Rect accessRegion,
handle acquireFence)
generates (Error error,
YCbCrLayout layout);
/**
* Unlocks a buffer to indicate all CPU accesses to the buffer have
* completed.
*
* @param buffer Buffer to unlock.
* @return error Error status of the call, which may be
* - `NONE` upon success.
* - `BAD_BUFFER` if the buffer is invalid or not locked.
* @return releaseFence Handle containing a file descriptor referring to a
* sync fence object. The sync fence object will be signaled when the
* mapper has completed any pending work. @p releaseFence may be an
* empty fence.
*/
unlock(pointer buffer) generates (Error error, handle releaseFence);
/**
* Test whether the given BufferDescriptorInfo is allocatable.
*
* If this function returns true, it means that a buffer with the given
* description can be allocated on this implementation, unless resource
* exhaustion occurs. If this function returns false, it means that the
* allocation of the given description will never succeed.
*
* @param description the description of the buffer
* @return supported whether the description is supported
*/
isSupported(BufferDescriptorInfo description)
generates (Error error,
bool supported);
};