/*
* 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 "HwcPassthrough"
#include "Hwc.h"
#include <type_traits>
#include <log/log.h>
#include "ComposerClient.h"
#include "hardware/hwcomposer.h"
#include "hwc2on1adapter/HWC2On1Adapter.h"
namespace android {
namespace hardware {
namespace graphics {
namespace composer {
namespace V2_1 {
namespace implementation {
HwcHal::HwcHal(const hw_module_t* module)
: mDevice(nullptr), mDispatch(), mAdapter()
{
// Determine what kind of module is available (HWC2 vs HWC1.X).
hw_device_t* device = nullptr;
int error = module->methods->open(module, HWC_HARDWARE_COMPOSER, &device);
if (error != 0) {
ALOGE("Failed to open HWC device (%s), aborting", strerror(-error));
abort();
}
uint32_t majorVersion = (device->version >> 24) & 0xF;
// If we don't have a HWC2, we need to wrap whatever we have in an adapter.
if (majorVersion != 2) {
uint32_t minorVersion = device->version & HARDWARE_API_VERSION_2_MAJ_MIN_MASK;
minorVersion = (minorVersion >> 16) & 0xF;
ALOGI("Found HWC implementation v%d.%d", majorVersion, minorVersion);
if (minorVersion < 1) {
ALOGE("Cannot adapt to HWC version %d.%d. Minimum supported is 1.1",
majorVersion, minorVersion);
abort();
}
mAdapter = std::make_unique<HWC2On1Adapter>(
reinterpret_cast<hwc_composer_device_1*>(device));
// Place the adapter in front of the device module.
mDevice = mAdapter.get();
} else {
mDevice = reinterpret_cast<hwc2_device_t*>(device);
}
initCapabilities();
if (majorVersion >= 2 &&
hasCapability(Capability::PRESENT_FENCE_IS_NOT_RELIABLE)) {
ALOGE("Present fence must be reliable from HWC2 on.");
abort();
}
initDispatch();
}
HwcHal::~HwcHal()
{
hwc2_close(mDevice);
}
void HwcHal::initCapabilities()
{
uint32_t count = 0;
mDevice->getCapabilities(mDevice, &count, nullptr);
std::vector<Capability> caps(count);
mDevice->getCapabilities(mDevice, &count, reinterpret_cast<
std::underlying_type<Capability>::type*>(caps.data()));
caps.resize(count);
mCapabilities.insert(caps.cbegin(), caps.cend());
}
template<typename T>
void HwcHal::initDispatch(hwc2_function_descriptor_t desc, T* outPfn)
{
auto pfn = mDevice->getFunction(mDevice, desc);
if (!pfn) {
LOG_ALWAYS_FATAL("failed to get hwcomposer2 function %d", desc);
}
*outPfn = reinterpret_cast<T>(pfn);
}
void HwcHal::initDispatch()
{
initDispatch(HWC2_FUNCTION_ACCEPT_DISPLAY_CHANGES,
&mDispatch.acceptDisplayChanges);
initDispatch(HWC2_FUNCTION_CREATE_LAYER, &mDispatch.createLayer);
initDispatch(HWC2_FUNCTION_CREATE_VIRTUAL_DISPLAY,
&mDispatch.createVirtualDisplay);
initDispatch(HWC2_FUNCTION_DESTROY_LAYER, &mDispatch.destroyLayer);
initDispatch(HWC2_FUNCTION_DESTROY_VIRTUAL_DISPLAY,
&mDispatch.destroyVirtualDisplay);
initDispatch(HWC2_FUNCTION_DUMP, &mDispatch.dump);
initDispatch(HWC2_FUNCTION_GET_ACTIVE_CONFIG, &mDispatch.getActiveConfig);
initDispatch(HWC2_FUNCTION_GET_CHANGED_COMPOSITION_TYPES,
&mDispatch.getChangedCompositionTypes);
initDispatch(HWC2_FUNCTION_GET_CLIENT_TARGET_SUPPORT,
&mDispatch.getClientTargetSupport);
initDispatch(HWC2_FUNCTION_GET_COLOR_MODES, &mDispatch.getColorModes);
initDispatch(HWC2_FUNCTION_GET_DISPLAY_ATTRIBUTE,
&mDispatch.getDisplayAttribute);
initDispatch(HWC2_FUNCTION_GET_DISPLAY_CONFIGS,
&mDispatch.getDisplayConfigs);
initDispatch(HWC2_FUNCTION_GET_DISPLAY_NAME, &mDispatch.getDisplayName);
initDispatch(HWC2_FUNCTION_GET_DISPLAY_REQUESTS,
&mDispatch.getDisplayRequests);
initDispatch(HWC2_FUNCTION_GET_DISPLAY_TYPE, &mDispatch.getDisplayType);
initDispatch(HWC2_FUNCTION_GET_DOZE_SUPPORT, &mDispatch.getDozeSupport);
initDispatch(HWC2_FUNCTION_GET_HDR_CAPABILITIES,
&mDispatch.getHdrCapabilities);
initDispatch(HWC2_FUNCTION_GET_MAX_VIRTUAL_DISPLAY_COUNT,
&mDispatch.getMaxVirtualDisplayCount);
initDispatch(HWC2_FUNCTION_GET_RELEASE_FENCES,
&mDispatch.getReleaseFences);
initDispatch(HWC2_FUNCTION_PRESENT_DISPLAY, &mDispatch.presentDisplay);
initDispatch(HWC2_FUNCTION_REGISTER_CALLBACK,
&mDispatch.registerCallback);
initDispatch(HWC2_FUNCTION_SET_ACTIVE_CONFIG, &mDispatch.setActiveConfig);
initDispatch(HWC2_FUNCTION_SET_CLIENT_TARGET, &mDispatch.setClientTarget);
initDispatch(HWC2_FUNCTION_SET_COLOR_MODE, &mDispatch.setColorMode);
initDispatch(HWC2_FUNCTION_SET_COLOR_TRANSFORM,
&mDispatch.setColorTransform);
initDispatch(HWC2_FUNCTION_SET_CURSOR_POSITION,
&mDispatch.setCursorPosition);
initDispatch(HWC2_FUNCTION_SET_LAYER_BLEND_MODE,
&mDispatch.setLayerBlendMode);
initDispatch(HWC2_FUNCTION_SET_LAYER_BUFFER, &mDispatch.setLayerBuffer);
initDispatch(HWC2_FUNCTION_SET_LAYER_COLOR, &mDispatch.setLayerColor);
initDispatch(HWC2_FUNCTION_SET_LAYER_COMPOSITION_TYPE,
&mDispatch.setLayerCompositionType);
initDispatch(HWC2_FUNCTION_SET_LAYER_DATASPACE,
&mDispatch.setLayerDataspace);
initDispatch(HWC2_FUNCTION_SET_LAYER_DISPLAY_FRAME,
&mDispatch.setLayerDisplayFrame);
initDispatch(HWC2_FUNCTION_SET_LAYER_PLANE_ALPHA,
&mDispatch.setLayerPlaneAlpha);
if (hasCapability(Capability::SIDEBAND_STREAM)) {
initDispatch(HWC2_FUNCTION_SET_LAYER_SIDEBAND_STREAM,
&mDispatch.setLayerSidebandStream);
}
initDispatch(HWC2_FUNCTION_SET_LAYER_SOURCE_CROP,
&mDispatch.setLayerSourceCrop);
initDispatch(HWC2_FUNCTION_SET_LAYER_SURFACE_DAMAGE,
&mDispatch.setLayerSurfaceDamage);
initDispatch(HWC2_FUNCTION_SET_LAYER_TRANSFORM,
&mDispatch.setLayerTransform);
initDispatch(HWC2_FUNCTION_SET_LAYER_VISIBLE_REGION,
&mDispatch.setLayerVisibleRegion);
initDispatch(HWC2_FUNCTION_SET_LAYER_Z_ORDER, &mDispatch.setLayerZOrder);
initDispatch(HWC2_FUNCTION_SET_OUTPUT_BUFFER, &mDispatch.setOutputBuffer);
initDispatch(HWC2_FUNCTION_SET_POWER_MODE, &mDispatch.setPowerMode);
initDispatch(HWC2_FUNCTION_SET_VSYNC_ENABLED, &mDispatch.setVsyncEnabled);
initDispatch(HWC2_FUNCTION_VALIDATE_DISPLAY, &mDispatch.validateDisplay);
}
bool HwcHal::hasCapability(Capability capability) const
{
return (mCapabilities.count(capability) > 0);
}
Return<void> HwcHal::getCapabilities(getCapabilities_cb hidl_cb)
{
std::vector<Capability> caps(
mCapabilities.cbegin(), mCapabilities.cend());
hidl_vec<Capability> caps_reply;
caps_reply.setToExternal(caps.data(), caps.size());
hidl_cb(caps_reply);
return Void();
}
Return<void> HwcHal::dumpDebugInfo(dumpDebugInfo_cb hidl_cb)
{
uint32_t len = 0;
mDispatch.dump(mDevice, &len, nullptr);
std::vector<char> buf(len + 1);
mDispatch.dump(mDevice, &len, buf.data());
buf.resize(len + 1);
buf[len] = '\0';
hidl_string buf_reply;
buf_reply.setToExternal(buf.data(), len);
hidl_cb(buf_reply);
return Void();
}
Return<void> HwcHal::createClient(createClient_cb hidl_cb)
{
Error err = Error::NONE;
sp<ComposerClient> client;
{
std::lock_guard<std::mutex> lock(mClientMutex);
// only one client is allowed
if (mClient == nullptr) {
client = new ComposerClient(*this);
client->initialize();
mClient = client;
} else {
err = Error::NO_RESOURCES;
}
}
hidl_cb(err, client);
return Void();
}
sp<ComposerClient> HwcHal::getClient()
{
std::lock_guard<std::mutex> lock(mClientMutex);
return (mClient != nullptr) ? mClient.promote() : nullptr;
}
void HwcHal::removeClient()
{
std::lock_guard<std::mutex> lock(mClientMutex);
mClient = nullptr;
}
void HwcHal::hotplugHook(hwc2_callback_data_t callbackData,
hwc2_display_t display, int32_t connected)
{
auto hal = reinterpret_cast<HwcHal*>(callbackData);
auto client = hal->getClient();
if (client != nullptr) {
client->onHotplug(display,
static_cast<IComposerCallback::Connection>(connected));
}
}
void HwcHal::refreshHook(hwc2_callback_data_t callbackData,
hwc2_display_t display)
{
auto hal = reinterpret_cast<HwcHal*>(callbackData);
auto client = hal->getClient();
if (client != nullptr) {
client->onRefresh(display);
}
}
void HwcHal::vsyncHook(hwc2_callback_data_t callbackData,
hwc2_display_t display, int64_t timestamp)
{
auto hal = reinterpret_cast<HwcHal*>(callbackData);
auto client = hal->getClient();
if (client != nullptr) {
client->onVsync(display, timestamp);
}
}
void HwcHal::enableCallback(bool enable)
{
if (enable) {
mDispatch.registerCallback(mDevice, HWC2_CALLBACK_HOTPLUG, this,
reinterpret_cast<hwc2_function_pointer_t>(hotplugHook));
mDispatch.registerCallback(mDevice, HWC2_CALLBACK_REFRESH, this,
reinterpret_cast<hwc2_function_pointer_t>(refreshHook));
mDispatch.registerCallback(mDevice, HWC2_CALLBACK_VSYNC, this,
reinterpret_cast<hwc2_function_pointer_t>(vsyncHook));
} else {
mDispatch.registerCallback(mDevice, HWC2_CALLBACK_HOTPLUG, this,
nullptr);
mDispatch.registerCallback(mDevice, HWC2_CALLBACK_REFRESH, this,
nullptr);
mDispatch.registerCallback(mDevice, HWC2_CALLBACK_VSYNC, this,
nullptr);
}
}
uint32_t HwcHal::getMaxVirtualDisplayCount()
{
return mDispatch.getMaxVirtualDisplayCount(mDevice);
}
Error HwcHal::createVirtualDisplay(uint32_t width, uint32_t height,
PixelFormat* format, Display* outDisplay)
{
int32_t hwc_format = static_cast<int32_t>(*format);
int32_t err = mDispatch.createVirtualDisplay(mDevice, width, height,
&hwc_format, outDisplay);
*format = static_cast<PixelFormat>(hwc_format);
return static_cast<Error>(err);
}
Error HwcHal::destroyVirtualDisplay(Display display)
{
int32_t err = mDispatch.destroyVirtualDisplay(mDevice, display);
return static_cast<Error>(err);
}
Error HwcHal::createLayer(Display display, Layer* outLayer)
{
int32_t err = mDispatch.createLayer(mDevice, display, outLayer);
return static_cast<Error>(err);
}
Error HwcHal::destroyLayer(Display display, Layer layer)
{
int32_t err = mDispatch.destroyLayer(mDevice, display, layer);
return static_cast<Error>(err);
}
Error HwcHal::getActiveConfig(Display display, Config* outConfig)
{
int32_t err = mDispatch.getActiveConfig(mDevice, display, outConfig);
return static_cast<Error>(err);
}
Error HwcHal::getClientTargetSupport(Display display,
uint32_t width, uint32_t height,
PixelFormat format, Dataspace dataspace)
{
int32_t err = mDispatch.getClientTargetSupport(mDevice, display,
width, height, static_cast<int32_t>(format),
static_cast<int32_t>(dataspace));
return static_cast<Error>(err);
}
Error HwcHal::getColorModes(Display display, hidl_vec<ColorMode>* outModes)
{
uint32_t count = 0;
int32_t err = mDispatch.getColorModes(mDevice, display, &count, nullptr);
if (err != HWC2_ERROR_NONE) {
return static_cast<Error>(err);
}
outModes->resize(count);
err = mDispatch.getColorModes(mDevice, display, &count,
reinterpret_cast<std::underlying_type<ColorMode>::type*>(
outModes->data()));
if (err != HWC2_ERROR_NONE) {
*outModes = hidl_vec<ColorMode>();
return static_cast<Error>(err);
}
return Error::NONE;
}
Error HwcHal::getDisplayAttribute(Display display, Config config,
IComposerClient::Attribute attribute, int32_t* outValue)
{
int32_t err = mDispatch.getDisplayAttribute(mDevice, display, config,
static_cast<int32_t>(attribute), outValue);
return static_cast<Error>(err);
}
Error HwcHal::getDisplayConfigs(Display display, hidl_vec<Config>* outConfigs)
{
uint32_t count = 0;
int32_t err = mDispatch.getDisplayConfigs(mDevice, display,
&count, nullptr);
if (err != HWC2_ERROR_NONE) {
return static_cast<Error>(err);
}
outConfigs->resize(count);
err = mDispatch.getDisplayConfigs(mDevice, display,
&count, outConfigs->data());
if (err != HWC2_ERROR_NONE) {
*outConfigs = hidl_vec<Config>();
return static_cast<Error>(err);
}
return Error::NONE;
}
Error HwcHal::getDisplayName(Display display, hidl_string* outName)
{
uint32_t count = 0;
int32_t err = mDispatch.getDisplayName(mDevice, display, &count, nullptr);
if (err != HWC2_ERROR_NONE) {
return static_cast<Error>(err);
}
std::vector<char> buf(count + 1);
err = mDispatch.getDisplayName(mDevice, display, &count, buf.data());
if (err != HWC2_ERROR_NONE) {
return static_cast<Error>(err);
}
buf.resize(count + 1);
buf[count] = '\0';
*outName = buf.data();
return Error::NONE;
}
Error HwcHal::getDisplayType(Display display,
IComposerClient::DisplayType* outType)
{
int32_t hwc_type = HWC2_DISPLAY_TYPE_INVALID;
int32_t err = mDispatch.getDisplayType(mDevice, display, &hwc_type);
*outType = static_cast<IComposerClient::DisplayType>(hwc_type);
return static_cast<Error>(err);
}
Error HwcHal::getDozeSupport(Display display, bool* outSupport)
{
int32_t hwc_support = 0;
int32_t err = mDispatch.getDozeSupport(mDevice, display, &hwc_support);
*outSupport = hwc_support;
return static_cast<Error>(err);
}
Error HwcHal::getHdrCapabilities(Display display, hidl_vec<Hdr>* outTypes,
float* outMaxLuminance, float* outMaxAverageLuminance,
float* outMinLuminance)
{
uint32_t count = 0;
int32_t err = mDispatch.getHdrCapabilities(mDevice, display, &count,
nullptr, outMaxLuminance, outMaxAverageLuminance,
outMinLuminance);
if (err != HWC2_ERROR_NONE) {
return static_cast<Error>(err);
}
outTypes->resize(count);
err = mDispatch.getHdrCapabilities(mDevice, display, &count,
reinterpret_cast<std::underlying_type<Hdr>::type*>(
outTypes->data()), outMaxLuminance,
outMaxAverageLuminance, outMinLuminance);
if (err != HWC2_ERROR_NONE) {
*outTypes = hidl_vec<Hdr>();
return static_cast<Error>(err);
}
return Error::NONE;
}
Error HwcHal::setActiveConfig(Display display, Config config)
{
int32_t err = mDispatch.setActiveConfig(mDevice, display, config);
return static_cast<Error>(err);
}
Error HwcHal::setColorMode(Display display, ColorMode mode)
{
int32_t err = mDispatch.setColorMode(mDevice, display,
static_cast<int32_t>(mode));
return static_cast<Error>(err);
}
Error HwcHal::setPowerMode(Display display, IComposerClient::PowerMode mode)
{
int32_t err = mDispatch.setPowerMode(mDevice, display,
static_cast<int32_t>(mode));
return static_cast<Error>(err);
}
Error HwcHal::setVsyncEnabled(Display display, IComposerClient::Vsync enabled)
{
int32_t err = mDispatch.setVsyncEnabled(mDevice, display,
static_cast<int32_t>(enabled));
return static_cast<Error>(err);
}
Error HwcHal::setColorTransform(Display display, const float* matrix,
int32_t hint)
{
int32_t err = mDispatch.setColorTransform(mDevice, display, matrix, hint);
return static_cast<Error>(err);
}
Error HwcHal::setClientTarget(Display display, buffer_handle_t target,
int32_t acquireFence, int32_t dataspace,
const std::vector<hwc_rect_t>& damage)
{
hwc_region region = { damage.size(), damage.data() };
int32_t err = mDispatch.setClientTarget(mDevice, display, target,
acquireFence, dataspace, region);
return static_cast<Error>(err);
}
Error HwcHal::setOutputBuffer(Display display, buffer_handle_t buffer,
int32_t releaseFence)
{
int32_t err = mDispatch.setOutputBuffer(mDevice, display, buffer,
releaseFence);
// unlike in setClientTarget, releaseFence is owned by us
if (err == HWC2_ERROR_NONE && releaseFence >= 0) {
close(releaseFence);
}
return static_cast<Error>(err);
}
Error HwcHal::validateDisplay(Display display,
std::vector<Layer>* outChangedLayers,
std::vector<IComposerClient::Composition>* outCompositionTypes,
uint32_t* outDisplayRequestMask,
std::vector<Layer>* outRequestedLayers,
std::vector<uint32_t>* outRequestMasks)
{
uint32_t types_count = 0;
uint32_t reqs_count = 0;
int32_t err = mDispatch.validateDisplay(mDevice, display,
&types_count, &reqs_count);
if (err != HWC2_ERROR_NONE && err != HWC2_ERROR_HAS_CHANGES) {
return static_cast<Error>(err);
}
err = mDispatch.getChangedCompositionTypes(mDevice, display,
&types_count, nullptr, nullptr);
if (err != HWC2_ERROR_NONE) {
return static_cast<Error>(err);
}
outChangedLayers->resize(types_count);
outCompositionTypes->resize(types_count);
err = mDispatch.getChangedCompositionTypes(mDevice, display,
&types_count, outChangedLayers->data(),
reinterpret_cast<
std::underlying_type<IComposerClient::Composition>::type*>(
outCompositionTypes->data()));
if (err != HWC2_ERROR_NONE) {
outChangedLayers->clear();
outCompositionTypes->clear();
return static_cast<Error>(err);
}
int32_t display_reqs = 0;
err = mDispatch.getDisplayRequests(mDevice, display, &display_reqs,
&reqs_count, nullptr, nullptr);
if (err != HWC2_ERROR_NONE) {
outChangedLayers->clear();
outCompositionTypes->clear();
return static_cast<Error>(err);
}
outRequestedLayers->resize(reqs_count);
outRequestMasks->resize(reqs_count);
err = mDispatch.getDisplayRequests(mDevice, display, &display_reqs,
&reqs_count, outRequestedLayers->data(),
reinterpret_cast<int32_t*>(outRequestMasks->data()));
if (err != HWC2_ERROR_NONE) {
outChangedLayers->clear();
outCompositionTypes->clear();
outRequestedLayers->clear();
outRequestMasks->clear();
return static_cast<Error>(err);
}
*outDisplayRequestMask = display_reqs;
return static_cast<Error>(err);
}
Error HwcHal::acceptDisplayChanges(Display display)
{
int32_t err = mDispatch.acceptDisplayChanges(mDevice, display);
return static_cast<Error>(err);
}
Error HwcHal::presentDisplay(Display display, int32_t* outPresentFence,
std::vector<Layer>* outLayers, std::vector<int32_t>* outReleaseFences)
{
*outPresentFence = -1;
int32_t err = mDispatch.presentDisplay(mDevice, display, outPresentFence);
if (err != HWC2_ERROR_NONE) {
return static_cast<Error>(err);
}
uint32_t count = 0;
err = mDispatch.getReleaseFences(mDevice, display, &count,
nullptr, nullptr);
if (err != HWC2_ERROR_NONE) {
ALOGW("failed to get release fences");
return Error::NONE;
}
outLayers->resize(count);
outReleaseFences->resize(count);
err = mDispatch.getReleaseFences(mDevice, display, &count,
outLayers->data(), outReleaseFences->data());
if (err != HWC2_ERROR_NONE) {
ALOGW("failed to get release fences");
outLayers->clear();
outReleaseFences->clear();
return Error::NONE;
}
return static_cast<Error>(err);
}
Error HwcHal::setLayerCursorPosition(Display display, Layer layer,
int32_t x, int32_t y)
{
int32_t err = mDispatch.setCursorPosition(mDevice, display, layer, x, y);
return static_cast<Error>(err);
}
Error HwcHal::setLayerBuffer(Display display, Layer layer,
buffer_handle_t buffer, int32_t acquireFence)
{
int32_t err = mDispatch.setLayerBuffer(mDevice, display, layer,
buffer, acquireFence);
return static_cast<Error>(err);
}
Error HwcHal::setLayerSurfaceDamage(Display display, Layer layer,
const std::vector<hwc_rect_t>& damage)
{
hwc_region region = { damage.size(), damage.data() };
int32_t err = mDispatch.setLayerSurfaceDamage(mDevice, display, layer,
region);
return static_cast<Error>(err);
}
Error HwcHal::setLayerBlendMode(Display display, Layer layer, int32_t mode)
{
int32_t err = mDispatch.setLayerBlendMode(mDevice, display, layer, mode);
return static_cast<Error>(err);
}
Error HwcHal::setLayerColor(Display display, Layer layer,
IComposerClient::Color color)
{
hwc_color_t hwc_color{color.r, color.g, color.b, color.a};
int32_t err = mDispatch.setLayerColor(mDevice, display, layer, hwc_color);
return static_cast<Error>(err);
}
Error HwcHal::setLayerCompositionType(Display display, Layer layer,
int32_t type)
{
int32_t err = mDispatch.setLayerCompositionType(mDevice, display, layer,
type);
return static_cast<Error>(err);
}
Error HwcHal::setLayerDataspace(Display display, Layer layer,
int32_t dataspace)
{
int32_t err = mDispatch.setLayerDataspace(mDevice, display, layer,
dataspace);
return static_cast<Error>(err);
}
Error HwcHal::setLayerDisplayFrame(Display display, Layer layer,
const hwc_rect_t& frame)
{
int32_t err = mDispatch.setLayerDisplayFrame(mDevice, display, layer,
frame);
return static_cast<Error>(err);
}
Error HwcHal::setLayerPlaneAlpha(Display display, Layer layer, float alpha)
{
int32_t err = mDispatch.setLayerPlaneAlpha(mDevice, display, layer,
alpha);
return static_cast<Error>(err);
}
Error HwcHal::setLayerSidebandStream(Display display, Layer layer,
buffer_handle_t stream)
{
int32_t err = mDispatch.setLayerSidebandStream(mDevice, display, layer,
stream);
return static_cast<Error>(err);
}
Error HwcHal::setLayerSourceCrop(Display display, Layer layer,
const hwc_frect_t& crop)
{
int32_t err = mDispatch.setLayerSourceCrop(mDevice, display, layer, crop);
return static_cast<Error>(err);
}
Error HwcHal::setLayerTransform(Display display, Layer layer,
int32_t transform)
{
int32_t err = mDispatch.setLayerTransform(mDevice, display, layer,
transform);
return static_cast<Error>(err);
}
Error HwcHal::setLayerVisibleRegion(Display display, Layer layer,
const std::vector<hwc_rect_t>& visible)
{
hwc_region_t region = { visible.size(), visible.data() };
int32_t err = mDispatch.setLayerVisibleRegion(mDevice, display, layer,
region);
return static_cast<Error>(err);
}
Error HwcHal::setLayerZOrder(Display display, Layer layer, uint32_t z)
{
int32_t err = mDispatch.setLayerZOrder(mDevice, display, layer, z);
return static_cast<Error>(err);
}
IComposer* HIDL_FETCH_IComposer(const char*)
{
const hw_module_t* module = nullptr;
int err = hw_get_module(HWC_HARDWARE_MODULE_ID, &module);
if (err) {
ALOGE("failed to get hwcomposer module");
return nullptr;
}
return new HwcHal(module);
}
} // namespace implementation
} // namespace V2_1
} // namespace composer
} // namespace graphics
} // namespace hardware
} // namespace android