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/*
* Copyright 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_TAG "Gralloc2"
#include <hidl/ServiceManagement.h>
#include <hwbinder/IPCThreadState.h>
#include <ui/Gralloc2.h>
#include <inttypes.h>
#include <log/log.h>
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wzero-length-array"
#include <sync/sync.h>
#pragma clang diagnostic pop
using android::hardware::graphics::allocator::V2_0::IAllocator;
using android::hardware::graphics::common::V1_1::BufferUsage;
using android::hardware::graphics::common::V1_1::PixelFormat;
using android::hardware::graphics::mapper::V2_0::BufferDescriptor;
using android::hardware::graphics::mapper::V2_0::Error;
using android::hardware::graphics::mapper::V2_0::YCbCrLayout;
using android::hardware::graphics::mapper::V2_1::IMapper;
namespace android {
namespace {
static constexpr Error kTransactionError = Error::NO_RESOURCES;
uint64_t getValid10UsageBits() {
static const uint64_t valid10UsageBits = []() -> uint64_t {
using hardware::graphics::common::V1_0::BufferUsage;
uint64_t bits = 0;
for (const auto bit : hardware::hidl_enum_range<BufferUsage>()) {
bits = bits | bit;
}
return bits;
}();
return valid10UsageBits;
}
uint64_t getValid11UsageBits() {
static const uint64_t valid11UsageBits = []() -> uint64_t {
using hardware::graphics::common::V1_1::BufferUsage;
uint64_t bits = 0;
for (const auto bit : hardware::hidl_enum_range<BufferUsage>()) {
bits = bits | bit;
}
return bits;
}();
return valid11UsageBits;
}
static inline IMapper::Rect sGralloc2Rect(const Rect& rect) {
IMapper::Rect outRect{};
outRect.left = rect.left;
outRect.top = rect.top;
outRect.width = rect.width();
outRect.height = rect.height();
return outRect;
}
} // anonymous namespace
void Gralloc2Mapper::preload() {
android::hardware::preloadPassthroughService<hardware::graphics::mapper::V2_0::IMapper>();
}
Gralloc2Mapper::Gralloc2Mapper() {
mMapper = hardware::graphics::mapper::V2_0::IMapper::getService();
if (mMapper == nullptr) {
ALOGW("mapper 2.x is not supported");
return;
}
if (mMapper->isRemote()) {
LOG_ALWAYS_FATAL("gralloc-mapper must be in passthrough mode");
}
// IMapper 2.1 is optional
mMapperV2_1 = IMapper::castFrom(mMapper);
}
bool Gralloc2Mapper::isLoaded() const {
return mMapper != nullptr;
}
status_t Gralloc2Mapper::validateBufferDescriptorInfo(
IMapper::BufferDescriptorInfo* descriptorInfo) const {
uint64_t validUsageBits = getValid10UsageBits();
if (mMapperV2_1 != nullptr) {
validUsageBits = validUsageBits | getValid11UsageBits();
}
if (descriptorInfo->usage & ~validUsageBits) {
ALOGE("buffer descriptor contains invalid usage bits 0x%" PRIx64,
descriptorInfo->usage & ~validUsageBits);
return BAD_VALUE;
}
return NO_ERROR;
}
status_t Gralloc2Mapper::createDescriptor(void* bufferDescriptorInfo,
void* outBufferDescriptor) const {
IMapper::BufferDescriptorInfo* descriptorInfo =
static_cast<IMapper::BufferDescriptorInfo*>(bufferDescriptorInfo);
BufferDescriptor* outDescriptor = static_cast<BufferDescriptor*>(outBufferDescriptor);
status_t status = validateBufferDescriptorInfo(descriptorInfo);
if (status != NO_ERROR) {
return status;
}
Error error;
auto hidl_cb = [&](const auto& tmpError, const auto& tmpDescriptor)
{
error = tmpError;
if (error != Error::NONE) {
return;
}
*outDescriptor = tmpDescriptor;
};
hardware::Return<void> ret;
if (mMapperV2_1 != nullptr) {
ret = mMapperV2_1->createDescriptor_2_1(*descriptorInfo, hidl_cb);
} else {
const hardware::graphics::mapper::V2_0::IMapper::BufferDescriptorInfo info = {
descriptorInfo->width,
descriptorInfo->height,
descriptorInfo->layerCount,
static_cast<hardware::graphics::common::V1_0::PixelFormat>(descriptorInfo->format),
descriptorInfo->usage,
};
ret = mMapper->createDescriptor(info, hidl_cb);
}
return static_cast<status_t>((ret.isOk()) ? error : kTransactionError);
}
status_t Gralloc2Mapper::importBuffer(const hardware::hidl_handle& rawHandle,
buffer_handle_t* outBufferHandle) const {
Error error;
auto ret = mMapper->importBuffer(rawHandle,
[&](const auto& tmpError, const auto& tmpBuffer)
{
error = tmpError;
if (error != Error::NONE) {
return;
}
*outBufferHandle = static_cast<buffer_handle_t>(tmpBuffer);
});
return static_cast<status_t>((ret.isOk()) ? error : kTransactionError);
}
void Gralloc2Mapper::freeBuffer(buffer_handle_t bufferHandle) const {
auto buffer = const_cast<native_handle_t*>(bufferHandle);
auto ret = mMapper->freeBuffer(buffer);
auto error = (ret.isOk()) ? static_cast<Error>(ret) : kTransactionError;
ALOGE_IF(error != Error::NONE, "freeBuffer(%p) failed with %d",
buffer, error);
}
status_t Gralloc2Mapper::validateBufferSize(buffer_handle_t bufferHandle, uint32_t width,
uint32_t height, android::PixelFormat format,
uint32_t layerCount, uint64_t usage,
uint32_t stride) const {
if (mMapperV2_1 == nullptr) {
return NO_ERROR;
}
IMapper::BufferDescriptorInfo descriptorInfo = {};
descriptorInfo.width = width;
descriptorInfo.height = height;
descriptorInfo.layerCount = layerCount;
descriptorInfo.format = static_cast<hardware::graphics::common::V1_1::PixelFormat>(format);
descriptorInfo.usage = usage;
auto buffer = const_cast<native_handle_t*>(bufferHandle);
auto ret = mMapperV2_1->validateBufferSize(buffer, descriptorInfo, stride);
return static_cast<status_t>((ret.isOk()) ? static_cast<Error>(ret) : kTransactionError);
}
void Gralloc2Mapper::getTransportSize(buffer_handle_t bufferHandle, uint32_t* outNumFds,
uint32_t* outNumInts) const {
*outNumFds = uint32_t(bufferHandle->numFds);
*outNumInts = uint32_t(bufferHandle->numInts);
if (mMapperV2_1 == nullptr) {
return;
}
Error error;
auto buffer = const_cast<native_handle_t*>(bufferHandle);
auto ret = mMapperV2_1->getTransportSize(buffer,
[&](const auto& tmpError, const auto& tmpNumFds, const auto& tmpNumInts) {
error = tmpError;
if (error != Error::NONE) {
return;
}
*outNumFds = tmpNumFds;
*outNumInts = tmpNumInts;
});
error = (ret.isOk()) ? error : kTransactionError;
ALOGE_IF(error != Error::NONE, "getTransportSize(%p) failed with %d", buffer, error);
}
status_t Gralloc2Mapper::lock(buffer_handle_t bufferHandle, uint64_t usage, const Rect& bounds,
int acquireFence, void** outData, int32_t* outBytesPerPixel,
int32_t* outBytesPerStride) const {
if (outBytesPerPixel) {
*outBytesPerPixel = -1;
}
if (outBytesPerStride) {
*outBytesPerStride = -1;
}
auto buffer = const_cast<native_handle_t*>(bufferHandle);
IMapper::Rect accessRegion = sGralloc2Rect(bounds);
// put acquireFence in a hidl_handle
hardware::hidl_handle acquireFenceHandle;
NATIVE_HANDLE_DECLARE_STORAGE(acquireFenceStorage, 1, 0);
if (acquireFence >= 0) {
auto h = native_handle_init(acquireFenceStorage, 1, 0);
h->data[0] = acquireFence;
acquireFenceHandle = h;
}
Error error;
auto ret = mMapper->lock(buffer, usage, accessRegion, acquireFenceHandle,
[&](const auto& tmpError, const auto& tmpData)
{
error = tmpError;
if (error != Error::NONE) {
return;
}
*outData = tmpData;
});
// we own acquireFence even on errors
if (acquireFence >= 0) {
close(acquireFence);
}
error = (ret.isOk()) ? error : kTransactionError;
ALOGW_IF(error != Error::NONE, "lock(%p, ...) failed: %d", bufferHandle, error);
return static_cast<status_t>(error);
}
status_t Gralloc2Mapper::lock(buffer_handle_t bufferHandle, uint64_t usage, const Rect& bounds,
int acquireFence, android_ycbcr* ycbcr) const {
auto buffer = const_cast<native_handle_t*>(bufferHandle);
IMapper::Rect accessRegion = sGralloc2Rect(bounds);
// put acquireFence in a hidl_handle
hardware::hidl_handle acquireFenceHandle;
NATIVE_HANDLE_DECLARE_STORAGE(acquireFenceStorage, 1, 0);
if (acquireFence >= 0) {
auto h = native_handle_init(acquireFenceStorage, 1, 0);
h->data[0] = acquireFence;
acquireFenceHandle = h;
}
YCbCrLayout layout;
Error error;
auto ret = mMapper->lockYCbCr(buffer, usage, accessRegion,
acquireFenceHandle,
[&](const auto& tmpError, const auto& tmpLayout)
{
error = tmpError;
if (error != Error::NONE) {
return;
}
layout = tmpLayout;
});
if (error == Error::NONE) {
ycbcr->y = layout.y;
ycbcr->cb = layout.cb;
ycbcr->cr = layout.cr;
ycbcr->ystride = static_cast<size_t>(layout.yStride);
ycbcr->cstride = static_cast<size_t>(layout.cStride);
ycbcr->chroma_step = static_cast<size_t>(layout.chromaStep);
}
// we own acquireFence even on errors
if (acquireFence >= 0) {
close(acquireFence);
}
return static_cast<status_t>((ret.isOk()) ? error : kTransactionError);
}
int Gralloc2Mapper::unlock(buffer_handle_t bufferHandle) const {
auto buffer = const_cast<native_handle_t*>(bufferHandle);
int releaseFence = -1;
Error error;
auto ret = mMapper->unlock(buffer,
[&](const auto& tmpError, const auto& tmpReleaseFence)
{
error = tmpError;
if (error != Error::NONE) {
return;
}
auto fenceHandle = tmpReleaseFence.getNativeHandle();
if (fenceHandle && fenceHandle->numFds == 1) {
int fd = dup(fenceHandle->data[0]);
if (fd >= 0) {
releaseFence = fd;
} else {
ALOGD("failed to dup unlock release fence");
sync_wait(fenceHandle->data[0], -1);
}
}
});
error = (ret.isOk()) ? error : kTransactionError;
if (error != Error::NONE) {
ALOGE("unlock(%p) failed with %d", buffer, error);
}
return releaseFence;
}
Gralloc2Allocator::Gralloc2Allocator(const Gralloc2Mapper& mapper) : mMapper(mapper) {
mAllocator = IAllocator::getService();
if (mAllocator == nullptr) {
ALOGW("allocator 2.x is not supported");
return;
}
}
bool Gralloc2Allocator::isLoaded() const {
return mAllocator != nullptr;
}
std::string Gralloc2Allocator::dumpDebugInfo(bool /*less*/) const {
std::string debugInfo;
mAllocator->dumpDebugInfo([&](const auto& tmpDebugInfo) {
debugInfo = tmpDebugInfo.c_str();
});
return debugInfo;
}
status_t Gralloc2Allocator::allocate(std::string /*requestorName*/, uint32_t width, uint32_t height,
PixelFormat format, uint32_t layerCount, uint64_t usage,
uint32_t bufferCount, uint32_t* outStride,
buffer_handle_t* outBufferHandles, bool importBuffers) const {
IMapper::BufferDescriptorInfo descriptorInfo = {};
descriptorInfo.width = width;
descriptorInfo.height = height;
descriptorInfo.layerCount = layerCount;
descriptorInfo.format = static_cast<hardware::graphics::common::V1_1::PixelFormat>(format);
descriptorInfo.usage = usage;
BufferDescriptor descriptor;
status_t error = mMapper.createDescriptor(static_cast<void*>(&descriptorInfo),
static_cast<void*>(&descriptor));
if (error != NO_ERROR) {
return error;
}
auto ret = mAllocator->allocate(descriptor, bufferCount,
[&](const auto& tmpError, const auto& tmpStride,
const auto& tmpBuffers) {
error = static_cast<status_t>(tmpError);
if (tmpError != Error::NONE) {
return;
}
if (importBuffers) {
for (uint32_t i = 0; i < bufferCount; i++) {
error = mMapper.importBuffer(tmpBuffers[i],
&outBufferHandles[i]);
if (error != NO_ERROR) {
for (uint32_t j = 0; j < i; j++) {
mMapper.freeBuffer(outBufferHandles[j]);
outBufferHandles[j] = nullptr;
}
return;
}
}
} else {
for (uint32_t i = 0; i < bufferCount; i++) {
outBufferHandles[i] = native_handle_clone(
tmpBuffers[i].getNativeHandle());
if (!outBufferHandles[i]) {
for (uint32_t j = 0; j < i; j++) {
auto buffer = const_cast<native_handle_t*>(
outBufferHandles[j]);
native_handle_close(buffer);
native_handle_delete(buffer);
outBufferHandles[j] = nullptr;
}
}
}
}
*outStride = tmpStride;
});
// make sure the kernel driver sees BC_FREE_BUFFER and closes the fds now
hardware::IPCThreadState::self()->flushCommands();
return (ret.isOk()) ? error : static_cast<status_t>(kTransactionError);
}
} // namespace android