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android / platform / hardware / google / av / cc52dc9c66b650bc5994edac8a27a2bc2092522d / . / codec2 / vndk / C2AllocatorGralloc.cpp
blob: b0ec5f147cc588274e71b42ef757c92a205342cb [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.
*/
//#define LOG_NDEBUG 0
#define LOG_TAG "C2AllocatorGralloc"
#include <utils/Log.h>
#include <android/hardware/graphics/allocator/2.0/IAllocator.h>
#include <android/hardware/graphics/mapper/2.0/IMapper.h>
#include <cutils/native_handle.h>
#include <hardware/gralloc.h>
#include <C2AllocatorGralloc.h>
#include <C2Buffer.h>
#include <C2PlatformSupport.h>
namespace android {
namespace {
enum : uint64_t {
/**
* Usage mask that is passed through from gralloc to Codec 2.0 usage.
*/
PASSTHROUGH_USAGE_MASK =
~(GRALLOC_USAGE_SW_READ_MASK | GRALLOC_USAGE_SW_WRITE_MASK | GRALLOC_USAGE_PROTECTED)
};
// verify that passthrough mask is within the platform mask
static_assert((~C2MemoryUsage::PLATFORM_MASK & PASSTHROUGH_USAGE_MASK) == 0, "");
}
C2MemoryUsage C2AndroidMemoryUsage::FromGrallocUsage(uint64_t usage) {
// gralloc does not support WRITE_PROTECTED
return C2MemoryUsage(
((usage & GRALLOC_USAGE_SW_READ_MASK) ? C2MemoryUsage::CPU_READ : 0) |
((usage & GRALLOC_USAGE_SW_WRITE_MASK) ? C2MemoryUsage::CPU_WRITE : 0) |
((usage & GRALLOC_USAGE_PROTECTED) ? C2MemoryUsage::READ_PROTECTED : 0) |
(usage & PASSTHROUGH_USAGE_MASK));
}
uint64_t C2AndroidMemoryUsage::asGrallocUsage() const {
// gralloc does not support WRITE_PROTECTED
return (((expected & C2MemoryUsage::CPU_READ) ? GRALLOC_USAGE_SW_READ_OFTEN : 0) |
((expected & C2MemoryUsage::CPU_WRITE) ? GRALLOC_USAGE_SW_WRITE_OFTEN : 0) |
((expected & C2MemoryUsage::READ_PROTECTED) ? GRALLOC_USAGE_PROTECTED : 0) |
(expected & PASSTHROUGH_USAGE_MASK));
}
using ::android::hardware::graphics::allocator::V2_0::IAllocator;
using ::android::hardware::graphics::common::V1_0::BufferUsage;
using ::android::hardware::graphics::common::V1_0::PixelFormat;
using ::android::hardware::graphics::mapper::V2_0::BufferDescriptor;
using ::android::hardware::graphics::mapper::V2_0::Error;
using ::android::hardware::graphics::mapper::V2_0::IMapper;
using ::android::hardware::graphics::mapper::V2_0::YCbCrLayout;
using ::android::hardware::hidl_handle;
using ::android::hardware::hidl_vec;
namespace {
struct BufferDescriptorInfo {
IMapper::BufferDescriptorInfo mapperInfo;
uint32_t stride;
};
}
/* ===================================== GRALLOC ALLOCATION ==================================== */
static c2_status_t maperr2error(Error maperr) {
switch (maperr) {
case Error::NONE: return C2_OK;
case Error::BAD_DESCRIPTOR: return C2_BAD_VALUE;
case Error::BAD_BUFFER: return C2_BAD_VALUE;
case Error::BAD_VALUE: return C2_BAD_VALUE;
case Error::NO_RESOURCES: return C2_NO_MEMORY;
case Error::UNSUPPORTED: return C2_CANNOT_DO;
}
return C2_CORRUPTED;
}
static
bool native_handle_is_invalid(const native_handle_t *const handle) {
// perform basic validation of a native handle
if (handle == nullptr) {
// null handle is considered valid
return false;
}
return ((size_t)handle->version != sizeof(native_handle_t) ||
handle->numFds < 0 ||
handle->numInts < 0 ||
// for sanity assume handles must occupy less memory than INT_MAX bytes
handle->numFds > int((INT_MAX - handle->version) / sizeof(int)) - handle->numInts);
}
class C2HandleGralloc : public C2Handle {
private:
struct ExtraData {
uint32_t width;
uint32_t height;
uint32_t format;
uint32_t usage_lo;
uint32_t usage_hi;
uint32_t stride;
uint32_t generation;
uint32_t igbp_id_lo;
uint32_t igbp_id_hi;
uint32_t igbp_slot;
uint32_t magic;
};
enum {
NUM_INTS = sizeof(ExtraData) / sizeof(int),
};
const static uint32_t MAGIC = '\xc2gr\x00';
static
const ExtraData* getExtraData(const C2Handle *const handle) {
if (handle == nullptr
|| native_handle_is_invalid(handle)
|| handle->numInts < NUM_INTS) {
return nullptr;
}
return reinterpret_cast<const ExtraData*>(
&handle->data[handle->numFds + handle->numInts - NUM_INTS]);
}
static
ExtraData *getExtraData(C2Handle *const handle) {
return const_cast<ExtraData *>(getExtraData(const_cast<const C2Handle *const>(handle)));
}
public:
void getIgbpData(uint32_t *generation, uint64_t *igbp_id, uint32_t *igbp_slot) const {
const ExtraData *ed = getExtraData(this);
*generation = ed->generation;
*igbp_id = unsigned(ed->igbp_id_lo) | uint64_t(unsigned(ed->igbp_id_hi)) << 32;
*igbp_slot = ed->igbp_slot;
}
static bool isValid(const C2Handle *const o) {
if (o == nullptr) { // null handle is always valid
return true;
}
const ExtraData *xd = getExtraData(o);
// we cannot validate width/height/format/usage without accessing gralloc driver
return xd != nullptr && xd->magic == MAGIC;
}
static C2HandleGralloc* WrapNativeHandle(
const native_handle_t *const handle,
uint32_t width, uint32_t height, uint32_t format, uint64_t usage,
uint32_t stride, uint32_t generation, uint64_t igbp_id = 0, uint32_t igbp_slot = 0) {
//CHECK(handle != nullptr);
if (native_handle_is_invalid(handle) ||
handle->numInts > int((INT_MAX - handle->version) / sizeof(int)) - NUM_INTS - handle->numFds) {
return nullptr;
}
ExtraData xd = {
width, height, format, uint32_t(usage & 0xFFFFFFFF), uint32_t(usage >> 32),
stride, generation, uint32_t(igbp_id & 0xFFFFFFFF), uint32_t(igbp_id >> 32),
igbp_slot, MAGIC
};
native_handle_t *res = native_handle_create(handle->numFds, handle->numInts + NUM_INTS);
if (res != nullptr) {
memcpy(&res->data, &handle->data, sizeof(int) * (handle->numFds + handle->numInts));
*getExtraData(res) = xd;
}
return reinterpret_cast<C2HandleGralloc *>(res);
}
static native_handle_t* UnwrapNativeHandle(
const C2Handle *const handle) {
const ExtraData *xd = getExtraData(handle);
if (xd == nullptr || xd->magic != MAGIC) {
return nullptr;
}
native_handle_t *res = native_handle_create(handle->numFds, handle->numInts - NUM_INTS);
if (res != nullptr) {
memcpy(&res->data, &handle->data, sizeof(int) * (res->numFds + res->numInts));
}
return res;
}
static native_handle_t* UnwrapNativeHandle(
const C2Handle *const handle,
uint32_t *generation, uint64_t *igbp_id, uint32_t *igbp_slot) {
const ExtraData *xd = getExtraData(handle);
if (xd == nullptr || xd->magic != MAGIC) {
return nullptr;
}
*generation = xd->generation;
*igbp_id = unsigned(xd->igbp_id_lo) | uint64_t(unsigned(xd->igbp_id_hi)) << 32;
*igbp_slot = xd->igbp_slot;
native_handle_t *res = native_handle_create(handle->numFds, handle->numInts - NUM_INTS);
if (res != nullptr) {
memcpy(&res->data, &handle->data, sizeof(int) * (res->numFds + res->numInts));
}
return res;
}
static const C2HandleGralloc* Import(
const C2Handle *const handle,
uint32_t *width, uint32_t *height, uint32_t *format,
uint64_t *usage, uint32_t *stride,
uint32_t *generation, uint64_t *igbp_id, uint32_t *igbp_slot) {
const ExtraData *xd = getExtraData(handle);
if (xd == nullptr) {
return nullptr;
}
*width = xd->width;
*height = xd->height;
*format = xd->format;
*usage = xd->usage_lo | (uint64_t(xd->usage_hi) << 32);
*stride = xd->stride;
*generation = xd->generation;
*igbp_id = xd->igbp_id_lo | (uint64_t(xd->igbp_id_hi) << 32);
*igbp_slot = xd->igbp_slot;
return reinterpret_cast<const C2HandleGralloc *>(handle);
}
};
native_handle_t *UnwrapNativeCodec2GrallocHandle(const C2Handle *const handle) {
return C2HandleGralloc::UnwrapNativeHandle(handle);
}
native_handle_t *UnwrapNativeCodec2GrallocHandle(
const C2Handle *const handle,
uint32_t *generation, uint64_t *igbp_id, uint32_t *igbp_slot) {
return C2HandleGralloc::UnwrapNativeHandle(handle, generation, igbp_id, igbp_slot);
}
C2Handle *WrapNativeCodec2GrallocHandle(
const native_handle_t *const handle,
uint32_t width, uint32_t height, uint32_t format, uint64_t usage, uint32_t stride,
uint32_t generation, uint64_t igbp_id, uint32_t igbp_slot) {
return C2HandleGralloc::WrapNativeHandle(handle, width, height, format, usage, stride,
generation, igbp_id, igbp_slot);
}
class C2AllocationGralloc : public C2GraphicAllocation {
public:
virtual ~C2AllocationGralloc() override;
virtual c2_status_t map(
C2Rect rect, C2MemoryUsage usage, C2Fence *fence,
C2PlanarLayout *layout /* nonnull */, uint8_t **addr /* nonnull */) override;
virtual c2_status_t unmap(
uint8_t **addr /* nonnull */, C2Rect rect, C2Fence *fence /* nullable */) override;
virtual C2Allocator::id_t getAllocatorId() const override { return mAllocatorId; }
virtual const C2Handle *handle() const override { return mLockedHandle ? : mHandle; }
virtual bool equals(const std::shared_ptr<const C2GraphicAllocation> &other) const override;
// internal methods
// |handle| will be moved.
C2AllocationGralloc(
const BufferDescriptorInfo &info,
const sp<IMapper> &mapper,
hidl_handle &hidlHandle,
const C2HandleGralloc *const handle,
C2Allocator::id_t allocatorId);
int dup() const;
c2_status_t status() const;
private:
const BufferDescriptorInfo mInfo;
const sp<IMapper> mMapper;
const hidl_handle mHidlHandle;
const C2HandleGralloc *mHandle;
buffer_handle_t mBuffer;
const C2HandleGralloc *mLockedHandle;
bool mLocked;
C2Allocator::id_t mAllocatorId;
};
C2AllocationGralloc::C2AllocationGralloc(
const BufferDescriptorInfo &info,
const sp<IMapper> &mapper,
hidl_handle &hidlHandle,
const C2HandleGralloc *const handle,
C2Allocator::id_t allocatorId)
: C2GraphicAllocation(info.mapperInfo.width, info.mapperInfo.height),
mInfo(info),
mMapper(mapper),
mHidlHandle(std::move(hidlHandle)),
mHandle(handle),
mBuffer(nullptr),
mLockedHandle(nullptr),
mLocked(false),
mAllocatorId(allocatorId) {
}
C2AllocationGralloc::~C2AllocationGralloc() {
if (mBuffer && mLocked) {
// implementation ignores addresss and rect
uint8_t* addr[C2PlanarLayout::MAX_NUM_PLANES] = {};
unmap(addr, C2Rect(), nullptr);
}
if (mBuffer) {
mMapper->freeBuffer(const_cast<native_handle_t *>(mBuffer));
}
if (mHandle) {
native_handle_delete(
const_cast<native_handle_t *>(reinterpret_cast<const native_handle_t *>(mHandle)));
}
}
c2_status_t C2AllocationGralloc::map(
C2Rect rect, C2MemoryUsage usage, C2Fence *fence,
C2PlanarLayout *layout /* nonnull */, uint8_t **addr /* nonnull */) {
uint64_t grallocUsage = static_cast<C2AndroidMemoryUsage>(usage).asGrallocUsage();
ALOGV("mapping buffer with usage %#llx => %#llx",
(long long)usage.expected, (long long)grallocUsage);
// TODO
(void) fence;
if (mBuffer && mLocked) {
ALOGD("already mapped");
return C2_DUPLICATE;
}
if (!layout || !addr) {
ALOGD("wrong param");
return C2_BAD_VALUE;
}
c2_status_t err = C2_OK;
if (!mBuffer) {
mMapper->importBuffer(
mHidlHandle, [&err, this](const auto &maperr, const auto &buffer) {
err = maperr2error(maperr);
if (err == C2_OK) {
mBuffer = static_cast<buffer_handle_t>(buffer);
}
});
if (err != C2_OK) {
ALOGD("importBuffer failed: %d", err);
return err;
}
if (mBuffer == nullptr) {
ALOGD("importBuffer returned null buffer");
return C2_CORRUPTED;
}
uint32_t generation = 0;
uint64_t igbp_id = 0;
uint32_t igbp_slot = 0;
if (mHandle) {
mHandle->getIgbpData(&generation, &igbp_id, &igbp_slot);
}
mLockedHandle = C2HandleGralloc::WrapNativeHandle(
mBuffer, mInfo.mapperInfo.width, mInfo.mapperInfo.height,
(uint32_t)mInfo.mapperInfo.format, mInfo.mapperInfo.usage, mInfo.stride,
generation, igbp_id, igbp_slot);
}
// UGLY HACK: assume YCbCr 4:2:0 8-bit format (and lockable via lockYCbCr) if we don't
// recognize the format
PixelFormat format = mInfo.mapperInfo.format;
if (format != PixelFormat::RGBA_8888 && format != PixelFormat::RGBX_8888) {
format = PixelFormat::YCBCR_420_888;
}
switch (format) {
case PixelFormat::YCBCR_420_888:
case PixelFormat::YV12: {
YCbCrLayout ycbcrLayout;
mMapper->lockYCbCr(
const_cast<native_handle_t *>(mBuffer), grallocUsage,
{ (int32_t)rect.left, (int32_t)rect.top, (int32_t)rect.width, (int32_t)rect.height },
// TODO: fence
hidl_handle(),
[&err, &ycbcrLayout](const auto &maperr, const auto &mapLayout) {
err = maperr2error(maperr);
if (err == C2_OK) {
ycbcrLayout = mapLayout;
}
});
if (err != C2_OK) {
ALOGD("lockYCbCr failed: %d", err);
return err;
}
addr[C2PlanarLayout::PLANE_Y] = (uint8_t *)ycbcrLayout.y;
addr[C2PlanarLayout::PLANE_U] = (uint8_t *)ycbcrLayout.cb;
addr[C2PlanarLayout::PLANE_V] = (uint8_t *)ycbcrLayout.cr;
layout->type = C2PlanarLayout::TYPE_YUV;
layout->numPlanes = 3;
layout->rootPlanes = 3;
layout->planes[C2PlanarLayout::PLANE_Y] = {
C2PlaneInfo::CHANNEL_Y, // channel
1, // colInc
(int32_t)ycbcrLayout.yStride, // rowInc
1, // mColSampling
1, // mRowSampling
8, // allocatedDepth
8, // bitDepth
0, // rightShift
C2PlaneInfo::NATIVE, // endianness
C2PlanarLayout::PLANE_Y, // rootIx
0, // offset
};
layout->planes[C2PlanarLayout::PLANE_U] = {
C2PlaneInfo::CHANNEL_CB, // channel
(int32_t)ycbcrLayout.chromaStep, // colInc
(int32_t)ycbcrLayout.cStride, // rowInc
2, // mColSampling
2, // mRowSampling
8, // allocatedDepth
8, // bitDepth
0, // rightShift
C2PlaneInfo::NATIVE, // endianness
C2PlanarLayout::PLANE_U, // rootIx
0, // offset
};
layout->planes[C2PlanarLayout::PLANE_V] = {
C2PlaneInfo::CHANNEL_CR, // channel
(int32_t)ycbcrLayout.chromaStep, // colInc
(int32_t)ycbcrLayout.cStride, // rowInc
2, // mColSampling
2, // mRowSampling
8, // allocatedDepth
8, // bitDepth
0, // rightShift
C2PlaneInfo::NATIVE, // endianness
C2PlanarLayout::PLANE_V, // rootIx
0, // offset
};
// handle interleaved formats
intptr_t uvOffset = addr[C2PlanarLayout::PLANE_V] - addr[C2PlanarLayout::PLANE_U];
if (uvOffset > 0 && uvOffset < (intptr_t)ycbcrLayout.chromaStep) {
layout->rootPlanes = 2;
layout->planes[C2PlanarLayout::PLANE_V].rootIx = C2PlanarLayout::PLANE_U;
layout->planes[C2PlanarLayout::PLANE_V].offset = uvOffset;
} else if (uvOffset < 0 && uvOffset > -(intptr_t)ycbcrLayout.chromaStep) {
layout->rootPlanes = 2;
layout->planes[C2PlanarLayout::PLANE_U].rootIx = C2PlanarLayout::PLANE_V;
layout->planes[C2PlanarLayout::PLANE_U].offset = -uvOffset;
}
break;
}
case PixelFormat::RGBA_8888:
// TODO: alpha channel
// fall-through
case PixelFormat::RGBX_8888: {
void *pointer = nullptr;
mMapper->lock(
const_cast<native_handle_t *>(mBuffer),
grallocUsage,
{ (int32_t)rect.left, (int32_t)rect.top, (int32_t)rect.width, (int32_t)rect.height },
// TODO: fence
hidl_handle(),
[&err, &pointer](const auto &maperr, const auto &mapPointer) {
err = maperr2error(maperr);
if (err == C2_OK) {
pointer = mapPointer;
}
});
if (err != C2_OK) {
ALOGD("lock failed: %d", err);
return err;
}
addr[C2PlanarLayout::PLANE_R] = (uint8_t *)pointer;
addr[C2PlanarLayout::PLANE_G] = (uint8_t *)pointer + 1;
addr[C2PlanarLayout::PLANE_B] = (uint8_t *)pointer + 2;
layout->type = C2PlanarLayout::TYPE_RGB;
layout->numPlanes = 3;
layout->rootPlanes = 1;
layout->planes[C2PlanarLayout::PLANE_R] = {
C2PlaneInfo::CHANNEL_R, // channel
4, // colInc
4 * (int32_t)mInfo.stride, // rowInc
1, // mColSampling
1, // mRowSampling
8, // allocatedDepth
8, // bitDepth
0, // rightShift
C2PlaneInfo::NATIVE, // endianness
C2PlanarLayout::PLANE_R, // rootIx
0, // offset
};
layout->planes[C2PlanarLayout::PLANE_G] = {
C2PlaneInfo::CHANNEL_G, // channel
4, // colInc
4 * (int32_t)mInfo.stride, // rowInc
1, // mColSampling
1, // mRowSampling
8, // allocatedDepth
8, // bitDepth
0, // rightShift
C2PlaneInfo::NATIVE, // endianness
C2PlanarLayout::PLANE_R, // rootIx
1, // offset
};
layout->planes[C2PlanarLayout::PLANE_B] = {
C2PlaneInfo::CHANNEL_B, // channel
4, // colInc
4 * (int32_t)mInfo.stride, // rowInc
1, // mColSampling
1, // mRowSampling
8, // allocatedDepth
8, // bitDepth
0, // rightShift
C2PlaneInfo::NATIVE, // endianness
C2PlanarLayout::PLANE_R, // rootIx
2, // offset
};
break;
}
default: {
ALOGD("unsupported pixel format: %d", mInfo.mapperInfo.format);
return C2_OMITTED;
}
}
mLocked = true;
return C2_OK;
}
c2_status_t C2AllocationGralloc::unmap(
uint8_t **addr, C2Rect rect, C2Fence *fence /* nullable */) {
// TODO: check addr and size, use fence
(void)addr;
(void)rect;
c2_status_t err = C2_OK;
mMapper->unlock(
const_cast<native_handle_t *>(mBuffer),
[&err, &fence](const auto &maperr, const auto &releaseFence) {
// TODO
(void) fence;
(void) releaseFence;
err = maperr2error(maperr);
if (err == C2_OK) {
// TODO: fence
}
});
if (err == C2_OK) {
mLocked = false;
}
return err;
}
bool C2AllocationGralloc::equals(const std::shared_ptr<const C2GraphicAllocation> &other) const {
return other && other->handle() == handle();
}
/* ===================================== GRALLOC ALLOCATOR ==================================== */
class C2AllocatorGralloc::Impl {
public:
Impl(id_t id, bool bufferQueue);
id_t getId() const {
return mTraits->id;
}
C2String getName() const {
return mTraits->name;
}
std::shared_ptr<const C2Allocator::Traits> getTraits() const {
return mTraits;
}
c2_status_t newGraphicAllocation(
uint32_t width, uint32_t height, uint32_t format, const C2MemoryUsage &usage,
std::shared_ptr<C2GraphicAllocation> *allocation);
c2_status_t priorGraphicAllocation(
const C2Handle *handle,
std::shared_ptr<C2GraphicAllocation> *allocation);
c2_status_t status() const { return mInit; }
private:
std::shared_ptr<C2Allocator::Traits> mTraits;
c2_status_t mInit;
sp<IAllocator> mAllocator;
sp<IMapper> mMapper;
const bool mBufferQueue;
};
void _UnwrapNativeCodec2GrallocMetadata(
const C2Handle *const handle,
uint32_t *width, uint32_t *height, uint32_t *format,uint64_t *usage, uint32_t *stride,
uint32_t *generation, uint64_t *igbp_id, uint32_t *igbp_slot) {
(void)C2HandleGralloc::Import(handle, width, height, format, usage, stride,
generation, igbp_id, igbp_slot);
}
C2AllocatorGralloc::Impl::Impl(id_t id, bool bufferQueue)
: mInit(C2_OK), mBufferQueue(bufferQueue) {
// TODO: get this from allocator
C2MemoryUsage minUsage = { 0, 0 }, maxUsage = { ~(uint64_t)0, ~(uint64_t)0 };
Traits traits = { "android.allocator.gralloc", id, C2Allocator::GRAPHIC, minUsage, maxUsage };
mTraits = std::make_shared<C2Allocator::Traits>(traits);
// gralloc allocator is a singleton, so all objects share a global service
mAllocator = IAllocator::getService();
mMapper = IMapper::getService();
if (mAllocator == nullptr || mMapper == nullptr) {
mInit = C2_CORRUPTED;
}
}
c2_status_t C2AllocatorGralloc::Impl::newGraphicAllocation(
uint32_t width, uint32_t height, uint32_t format, const C2MemoryUsage &usage,
std::shared_ptr<C2GraphicAllocation> *allocation) {
uint64_t grallocUsage = static_cast<C2AndroidMemoryUsage>(usage).asGrallocUsage();
ALOGV("allocating buffer with usage %#llx => %#llx",
(long long)usage.expected, (long long)grallocUsage);
BufferDescriptorInfo info = {
{
width,
height,
1u, // layerCount
(PixelFormat)format,
grallocUsage,
},
0u, // stride placeholder
};
c2_status_t err = C2_OK;
BufferDescriptor desc;
mMapper->createDescriptor(
info.mapperInfo, [&err, &desc](const auto &maperr, const auto &descriptor) {
err = maperr2error(maperr);
if (err == C2_OK) {
desc = descriptor;
}
});
if (err != C2_OK) {
return err;
}
// IAllocator shares IMapper error codes.
hidl_handle buffer;
mAllocator->allocate(
desc,
1u,
[&err, &buffer, &info](const auto &maperr, const auto &stride, auto &buffers) {
err = maperr2error(maperr);
if (err != C2_OK) {
return;
}
if (buffers.size() != 1u) {
err = C2_CORRUPTED;
return;
}
info.stride = stride;
buffer = std::move(buffers[0]);
});
if (err != C2_OK) {
return err;
}
allocation->reset(new C2AllocationGralloc(
info, mMapper, buffer,
C2HandleGralloc::WrapNativeHandle(
buffer.getNativeHandle(),
info.mapperInfo.width, info.mapperInfo.height,
(uint32_t)info.mapperInfo.format, info.mapperInfo.usage, info.stride,
0, 0, mBufferQueue ? ~0 : 0),
mTraits->id));
return C2_OK;
}
c2_status_t C2AllocatorGralloc::Impl::priorGraphicAllocation(
const C2Handle *handle,
std::shared_ptr<C2GraphicAllocation> *allocation) {
BufferDescriptorInfo info;
info.mapperInfo.layerCount = 1u;
uint32_t generation;
uint64_t igbp_id;
uint32_t igbp_slot;
const C2HandleGralloc *grallocHandle = C2HandleGralloc::Import(
handle,
&info.mapperInfo.width, &info.mapperInfo.height,
(uint32_t *)&info.mapperInfo.format, (uint64_t *)&info.mapperInfo.usage, &info.stride,
&generation, &igbp_id, &igbp_slot);
if (grallocHandle == nullptr) {
return C2_BAD_VALUE;
}
hidl_handle hidlHandle;
hidlHandle.setTo(C2HandleGralloc::UnwrapNativeHandle(grallocHandle), true);
allocation->reset(new C2AllocationGralloc(info, mMapper, hidlHandle, grallocHandle, mTraits->id));
return C2_OK;
}
C2AllocatorGralloc::C2AllocatorGralloc(id_t id, bool bufferQueue)
: mImpl(new Impl(id, bufferQueue)) {}
C2AllocatorGralloc::~C2AllocatorGralloc() { delete mImpl; }
C2Allocator::id_t C2AllocatorGralloc::getId() const {
return mImpl->getId();
}
C2String C2AllocatorGralloc::getName() const {
return mImpl->getName();
}
std::shared_ptr<const C2Allocator::Traits> C2AllocatorGralloc::getTraits() const {
return mImpl->getTraits();
}
c2_status_t C2AllocatorGralloc::newGraphicAllocation(
uint32_t width, uint32_t height, uint32_t format, C2MemoryUsage usage,
std::shared_ptr<C2GraphicAllocation> *allocation) {
return mImpl->newGraphicAllocation(width, height, format, usage, allocation);
}
c2_status_t C2AllocatorGralloc::priorGraphicAllocation(
const C2Handle *handle,
std::shared_ptr<C2GraphicAllocation> *allocation) {
return mImpl->priorGraphicAllocation(handle, allocation);
}
c2_status_t C2AllocatorGralloc::status() const {
return mImpl->status();
}
bool C2AllocatorGralloc::isValid(const C2Handle* const o) {
return C2HandleGralloc::isValid(o);
}
} // namespace android