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gerrit-public.fairphone.software / platform / frameworks / native / 26ba6d7be3049e04548b34a1d54a0509fa6d0564 / . / libs / gui / LayerState.cpp
blob: f848e4ffdef0b862c982b1592ec91a1c7b06da92 [file] [log] [blame]
/*
* Copyright (C) 2008 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 "LayerState"
#include <apex/window.h>
#include <inttypes.h>
#include <android/native_window.h>
#include <binder/Parcel.h>
#include <gui/IGraphicBufferProducer.h>
#include <gui/ISurfaceComposerClient.h>
#include <gui/LayerState.h>
#include <private/gui/ParcelUtils.h>
#include <utils/Errors.h>
#include <cmath>
namespace android {
using gui::FocusRequest;
using gui::WindowInfoHandle;
layer_state_t::layer_state_t()
: what(0),
x(0),
y(0),
z(0),
w(0),
h(0),
alpha(0),
flags(0),
mask(0),
reserved(0),
cornerRadius(0.0f),
backgroundBlurRadius(0),
transform(0),
transformToDisplayInverse(false),
crop(Rect::INVALID_RECT),
dataspace(ui::Dataspace::UNKNOWN),
surfaceDamageRegion(),
api(-1),
colorTransform(mat4()),
bgColorAlpha(0),
bgColorDataspace(ui::Dataspace::UNKNOWN),
colorSpaceAgnostic(false),
shadowRadius(0.0f),
frameRateSelectionPriority(-1),
frameRate(0.0f),
frameRateCompatibility(ANATIVEWINDOW_FRAME_RATE_COMPATIBILITY_DEFAULT),
changeFrameRateStrategy(ANATIVEWINDOW_CHANGE_FRAME_RATE_ONLY_IF_SEAMLESS),
fixedTransformHint(ui::Transform::ROT_INVALID),
autoRefresh(false),
isTrustedOverlay(false),
bufferCrop(Rect::INVALID_RECT),
destinationFrame(Rect::INVALID_RECT),
dropInputMode(gui::DropInputMode::NONE) {
matrix.dsdx = matrix.dtdy = 1.0f;
matrix.dsdy = matrix.dtdx = 0.0f;
hdrMetadata.validTypes = 0;
}
status_t layer_state_t::write(Parcel& output) const
{
SAFE_PARCEL(output.writeStrongBinder, surface);
SAFE_PARCEL(output.writeInt32, layerId);
SAFE_PARCEL(output.writeUint64, what);
SAFE_PARCEL(output.writeFloat, x);
SAFE_PARCEL(output.writeFloat, y);
SAFE_PARCEL(output.writeInt32, z);
SAFE_PARCEL(output.writeUint32, w);
SAFE_PARCEL(output.writeUint32, h);
SAFE_PARCEL(output.writeUint32, layerStack.id);
SAFE_PARCEL(output.writeFloat, alpha);
SAFE_PARCEL(output.writeUint32, flags);
SAFE_PARCEL(output.writeUint32, mask);
SAFE_PARCEL(matrix.write, output);
SAFE_PARCEL(output.write, crop);
SAFE_PARCEL(SurfaceControl::writeNullableToParcel, output, reparentSurfaceControl);
SAFE_PARCEL(SurfaceControl::writeNullableToParcel, output, relativeLayerSurfaceControl);
SAFE_PARCEL(SurfaceControl::writeNullableToParcel, output, parentSurfaceControlForChild);
SAFE_PARCEL(output.writeFloat, color.r);
SAFE_PARCEL(output.writeFloat, color.g);
SAFE_PARCEL(output.writeFloat, color.b);
SAFE_PARCEL(windowInfoHandle->writeToParcel, &output);
SAFE_PARCEL(output.write, transparentRegion);
SAFE_PARCEL(output.writeUint32, transform);
SAFE_PARCEL(output.writeBool, transformToDisplayInverse);
SAFE_PARCEL(output.writeUint32, static_cast<uint32_t>(dataspace));
SAFE_PARCEL(output.write, hdrMetadata);
SAFE_PARCEL(output.write, surfaceDamageRegion);
SAFE_PARCEL(output.writeInt32, api);
if (sidebandStream) {
SAFE_PARCEL(output.writeBool, true);
SAFE_PARCEL(output.writeNativeHandle, sidebandStream->handle());
} else {
SAFE_PARCEL(output.writeBool, false);
}
SAFE_PARCEL(output.write, colorTransform.asArray(), 16 * sizeof(float));
SAFE_PARCEL(output.writeFloat, cornerRadius);
SAFE_PARCEL(output.writeUint32, backgroundBlurRadius);
SAFE_PARCEL(output.writeParcelable, metadata);
SAFE_PARCEL(output.writeFloat, bgColorAlpha);
SAFE_PARCEL(output.writeUint32, static_cast<uint32_t>(bgColorDataspace));
SAFE_PARCEL(output.writeBool, colorSpaceAgnostic);
SAFE_PARCEL(output.writeVectorSize, listeners);
for (auto listener : listeners) {
SAFE_PARCEL(output.writeStrongBinder, listener.transactionCompletedListener);
SAFE_PARCEL(output.writeParcelableVector, listener.callbackIds);
}
SAFE_PARCEL(output.writeFloat, shadowRadius);
SAFE_PARCEL(output.writeInt32, frameRateSelectionPriority);
SAFE_PARCEL(output.writeFloat, frameRate);
SAFE_PARCEL(output.writeByte, frameRateCompatibility);
SAFE_PARCEL(output.writeByte, changeFrameRateStrategy);
SAFE_PARCEL(output.writeUint32, fixedTransformHint);
SAFE_PARCEL(output.writeBool, autoRefresh);
SAFE_PARCEL(output.writeUint32, blurRegions.size());
for (auto region : blurRegions) {
SAFE_PARCEL(output.writeUint32, region.blurRadius);
SAFE_PARCEL(output.writeFloat, region.cornerRadiusTL);
SAFE_PARCEL(output.writeFloat, region.cornerRadiusTR);
SAFE_PARCEL(output.writeFloat, region.cornerRadiusBL);
SAFE_PARCEL(output.writeFloat, region.cornerRadiusBR);
SAFE_PARCEL(output.writeFloat, region.alpha);
SAFE_PARCEL(output.writeInt32, region.left);
SAFE_PARCEL(output.writeInt32, region.top);
SAFE_PARCEL(output.writeInt32, region.right);
SAFE_PARCEL(output.writeInt32, region.bottom);
}
SAFE_PARCEL(output.write, stretchEffect);
SAFE_PARCEL(output.write, bufferCrop);
SAFE_PARCEL(output.write, destinationFrame);
SAFE_PARCEL(output.writeBool, isTrustedOverlay);
SAFE_PARCEL(output.writeUint32, static_cast<uint32_t>(dropInputMode));
SAFE_PARCEL(bufferData.write, output);
return NO_ERROR;
}
status_t layer_state_t::read(const Parcel& input)
{
SAFE_PARCEL(input.readNullableStrongBinder, &surface);
SAFE_PARCEL(input.readInt32, &layerId);
SAFE_PARCEL(input.readUint64, &what);
SAFE_PARCEL(input.readFloat, &x);
SAFE_PARCEL(input.readFloat, &y);
SAFE_PARCEL(input.readInt32, &z);
SAFE_PARCEL(input.readUint32, &w);
SAFE_PARCEL(input.readUint32, &h);
SAFE_PARCEL(input.readUint32, &layerStack.id);
SAFE_PARCEL(input.readFloat, &alpha);
SAFE_PARCEL(input.readUint32, &flags);
SAFE_PARCEL(input.readUint32, &mask);
SAFE_PARCEL(matrix.read, input);
SAFE_PARCEL(input.read, crop);
SAFE_PARCEL(SurfaceControl::readNullableFromParcel, input, &reparentSurfaceControl);
SAFE_PARCEL(SurfaceControl::readNullableFromParcel, input, &relativeLayerSurfaceControl);
SAFE_PARCEL(SurfaceControl::readNullableFromParcel, input, &parentSurfaceControlForChild);
float tmpFloat = 0;
SAFE_PARCEL(input.readFloat, &tmpFloat);
color.r = tmpFloat;
SAFE_PARCEL(input.readFloat, &tmpFloat);
color.g = tmpFloat;
SAFE_PARCEL(input.readFloat, &tmpFloat);
color.b = tmpFloat;
SAFE_PARCEL(windowInfoHandle->readFromParcel, &input);
SAFE_PARCEL(input.read, transparentRegion);
SAFE_PARCEL(input.readUint32, &transform);
SAFE_PARCEL(input.readBool, &transformToDisplayInverse);
uint32_t tmpUint32 = 0;
SAFE_PARCEL(input.readUint32, &tmpUint32);
dataspace = static_cast<ui::Dataspace>(tmpUint32);
SAFE_PARCEL(input.read, hdrMetadata);
SAFE_PARCEL(input.read, surfaceDamageRegion);
SAFE_PARCEL(input.readInt32, &api);
bool tmpBool = false;
SAFE_PARCEL(input.readBool, &tmpBool);
if (tmpBool) {
sidebandStream = NativeHandle::create(input.readNativeHandle(), true);
}
SAFE_PARCEL(input.read, &colorTransform, 16 * sizeof(float));
SAFE_PARCEL(input.readFloat, &cornerRadius);
SAFE_PARCEL(input.readUint32, &backgroundBlurRadius);
SAFE_PARCEL(input.readParcelable, &metadata);
SAFE_PARCEL(input.readFloat, &bgColorAlpha);
SAFE_PARCEL(input.readUint32, &tmpUint32);
bgColorDataspace = static_cast<ui::Dataspace>(tmpUint32);
SAFE_PARCEL(input.readBool, &colorSpaceAgnostic);
int32_t numListeners = 0;
SAFE_PARCEL_READ_SIZE(input.readInt32, &numListeners, input.dataSize());
listeners.clear();
for (int i = 0; i < numListeners; i++) {
sp<IBinder> listener;
std::vector<CallbackId> callbackIds;
SAFE_PARCEL(input.readNullableStrongBinder, &listener);
SAFE_PARCEL(input.readParcelableVector, &callbackIds);
listeners.emplace_back(listener, callbackIds);
}
SAFE_PARCEL(input.readFloat, &shadowRadius);
SAFE_PARCEL(input.readInt32, &frameRateSelectionPriority);
SAFE_PARCEL(input.readFloat, &frameRate);
SAFE_PARCEL(input.readByte, &frameRateCompatibility);
SAFE_PARCEL(input.readByte, &changeFrameRateStrategy);
SAFE_PARCEL(input.readUint32, &tmpUint32);
fixedTransformHint = static_cast<ui::Transform::RotationFlags>(tmpUint32);
SAFE_PARCEL(input.readBool, &autoRefresh);
uint32_t numRegions = 0;
SAFE_PARCEL(input.readUint32, &numRegions);
blurRegions.clear();
for (uint32_t i = 0; i < numRegions; i++) {
BlurRegion region;
SAFE_PARCEL(input.readUint32, &region.blurRadius);
SAFE_PARCEL(input.readFloat, &region.cornerRadiusTL);
SAFE_PARCEL(input.readFloat, &region.cornerRadiusTR);
SAFE_PARCEL(input.readFloat, &region.cornerRadiusBL);
SAFE_PARCEL(input.readFloat, &region.cornerRadiusBR);
SAFE_PARCEL(input.readFloat, &region.alpha);
SAFE_PARCEL(input.readInt32, &region.left);
SAFE_PARCEL(input.readInt32, &region.top);
SAFE_PARCEL(input.readInt32, &region.right);
SAFE_PARCEL(input.readInt32, &region.bottom);
blurRegions.push_back(region);
}
SAFE_PARCEL(input.read, stretchEffect);
SAFE_PARCEL(input.read, bufferCrop);
SAFE_PARCEL(input.read, destinationFrame);
SAFE_PARCEL(input.readBool, &isTrustedOverlay);
uint32_t mode;
SAFE_PARCEL(input.readUint32, &mode);
dropInputMode = static_cast<gui::DropInputMode>(mode);
SAFE_PARCEL(bufferData.read, input);
return NO_ERROR;
}
status_t ComposerState::write(Parcel& output) const {
return state.write(output);
}
status_t ComposerState::read(const Parcel& input) {
return state.read(input);
}
DisplayState::DisplayState() = default;
status_t DisplayState::write(Parcel& output) const {
SAFE_PARCEL(output.writeStrongBinder, token);
SAFE_PARCEL(output.writeStrongBinder, IInterface::asBinder(surface));
SAFE_PARCEL(output.writeUint32, what);
SAFE_PARCEL(output.writeUint32, flags);
SAFE_PARCEL(output.writeUint32, layerStack.id);
SAFE_PARCEL(output.writeUint32, toRotationInt(orientation));
SAFE_PARCEL(output.write, layerStackSpaceRect);
SAFE_PARCEL(output.write, orientedDisplaySpaceRect);
SAFE_PARCEL(output.writeUint32, width);
SAFE_PARCEL(output.writeUint32, height);
return NO_ERROR;
}
status_t DisplayState::read(const Parcel& input) {
SAFE_PARCEL(input.readStrongBinder, &token);
sp<IBinder> tmpBinder;
SAFE_PARCEL(input.readNullableStrongBinder, &tmpBinder);
surface = interface_cast<IGraphicBufferProducer>(tmpBinder);
SAFE_PARCEL(input.readUint32, &what);
SAFE_PARCEL(input.readUint32, &flags);
SAFE_PARCEL(input.readUint32, &layerStack.id);
uint32_t tmpUint = 0;
SAFE_PARCEL(input.readUint32, &tmpUint);
orientation = ui::toRotation(tmpUint);
SAFE_PARCEL(input.read, layerStackSpaceRect);
SAFE_PARCEL(input.read, orientedDisplaySpaceRect);
SAFE_PARCEL(input.readUint32, &width);
SAFE_PARCEL(input.readUint32, &height);
return NO_ERROR;
}
void DisplayState::merge(const DisplayState& other) {
if (other.what & eSurfaceChanged) {
what |= eSurfaceChanged;
surface = other.surface;
}
if (other.what & eLayerStackChanged) {
what |= eLayerStackChanged;
layerStack = other.layerStack;
}
if (other.what & eFlagsChanged) {
what |= eFlagsChanged;
flags = other.flags;
}
if (other.what & eDisplayProjectionChanged) {
what |= eDisplayProjectionChanged;
orientation = other.orientation;
layerStackSpaceRect = other.layerStackSpaceRect;
orientedDisplaySpaceRect = other.orientedDisplaySpaceRect;
}
if (other.what & eDisplaySizeChanged) {
what |= eDisplaySizeChanged;
width = other.width;
height = other.height;
}
}
void layer_state_t::merge(const layer_state_t& other) {
if (other.what & ePositionChanged) {
what |= ePositionChanged;
x = other.x;
y = other.y;
}
if (other.what & eLayerChanged) {
what |= eLayerChanged;
what &= ~eRelativeLayerChanged;
z = other.z;
}
if (other.what & eSizeChanged) {
what |= eSizeChanged;
w = other.w;
h = other.h;
}
if (other.what & eAlphaChanged) {
what |= eAlphaChanged;
alpha = other.alpha;
}
if (other.what & eMatrixChanged) {
what |= eMatrixChanged;
matrix = other.matrix;
}
if (other.what & eTransparentRegionChanged) {
what |= eTransparentRegionChanged;
transparentRegion = other.transparentRegion;
}
if (other.what & eFlagsChanged) {
what |= eFlagsChanged;
flags &= ~other.mask;
flags |= (other.flags & other.mask);
mask |= other.mask;
}
if (other.what & eLayerStackChanged) {
what |= eLayerStackChanged;
layerStack = other.layerStack;
}
if (other.what & eCornerRadiusChanged) {
what |= eCornerRadiusChanged;
cornerRadius = other.cornerRadius;
}
if (other.what & eBackgroundBlurRadiusChanged) {
what |= eBackgroundBlurRadiusChanged;
backgroundBlurRadius = other.backgroundBlurRadius;
}
if (other.what & eBlurRegionsChanged) {
what |= eBlurRegionsChanged;
blurRegions = other.blurRegions;
}
if (other.what & eRelativeLayerChanged) {
what |= eRelativeLayerChanged;
what &= ~eLayerChanged;
z = other.z;
relativeLayerSurfaceControl = other.relativeLayerSurfaceControl;
}
if (other.what & eReparent) {
what |= eReparent;
parentSurfaceControlForChild = other.parentSurfaceControlForChild;
}
if (other.what & eDestroySurface) {
what |= eDestroySurface;
}
if (other.what & eTransformChanged) {
what |= eTransformChanged;
transform = other.transform;
}
if (other.what & eTransformToDisplayInverseChanged) {
what |= eTransformToDisplayInverseChanged;
transformToDisplayInverse = other.transformToDisplayInverse;
}
if (other.what & eCropChanged) {
what |= eCropChanged;
crop = other.crop;
}
if (other.what & eBufferChanged) {
what |= eBufferChanged;
bufferData = other.bufferData;
}
if (other.what & eDataspaceChanged) {
what |= eDataspaceChanged;
dataspace = other.dataspace;
}
if (other.what & eHdrMetadataChanged) {
what |= eHdrMetadataChanged;
hdrMetadata = other.hdrMetadata;
}
if (other.what & eSurfaceDamageRegionChanged) {
what |= eSurfaceDamageRegionChanged;
surfaceDamageRegion = other.surfaceDamageRegion;
}
if (other.what & eApiChanged) {
what |= eApiChanged;
api = other.api;
}
if (other.what & eSidebandStreamChanged) {
what |= eSidebandStreamChanged;
sidebandStream = other.sidebandStream;
}
if (other.what & eColorTransformChanged) {
what |= eColorTransformChanged;
colorTransform = other.colorTransform;
}
if (other.what & eHasListenerCallbacksChanged) {
what |= eHasListenerCallbacksChanged;
}
if (other.what & eInputInfoChanged) {
what |= eInputInfoChanged;
windowInfoHandle = new WindowInfoHandle(*other.windowInfoHandle);
}
if (other.what & eBackgroundColorChanged) {
what |= eBackgroundColorChanged;
color = other.color;
bgColorAlpha = other.bgColorAlpha;
bgColorDataspace = other.bgColorDataspace;
}
if (other.what & eMetadataChanged) {
what |= eMetadataChanged;
metadata.merge(other.metadata);
}
if (other.what & eShadowRadiusChanged) {
what |= eShadowRadiusChanged;
shadowRadius = other.shadowRadius;
}
if (other.what & eFrameRateSelectionPriority) {
what |= eFrameRateSelectionPriority;
frameRateSelectionPriority = other.frameRateSelectionPriority;
}
if (other.what & eFrameRateChanged) {
what |= eFrameRateChanged;
frameRate = other.frameRate;
frameRateCompatibility = other.frameRateCompatibility;
changeFrameRateStrategy = other.changeFrameRateStrategy;
}
if (other.what & eFixedTransformHintChanged) {
what |= eFixedTransformHintChanged;
fixedTransformHint = other.fixedTransformHint;
}
if (other.what & eAutoRefreshChanged) {
what |= eAutoRefreshChanged;
autoRefresh = other.autoRefresh;
}
if (other.what & eTrustedOverlayChanged) {
what |= eTrustedOverlayChanged;
isTrustedOverlay = other.isTrustedOverlay;
}
if (other.what & eStretchChanged) {
what |= eStretchChanged;
stretchEffect = other.stretchEffect;
}
if (other.what & eBufferCropChanged) {
what |= eBufferCropChanged;
bufferCrop = other.bufferCrop;
}
if (other.what & eDestinationFrameChanged) {
what |= eDestinationFrameChanged;
destinationFrame = other.destinationFrame;
}
if (other.what & eProducerDisconnect) {
what |= eProducerDisconnect;
}
if (other.what & eDropInputModeChanged) {
what |= eDropInputModeChanged;
dropInputMode = other.dropInputMode;
}
if ((other.what & what) != other.what) {
ALOGE("Unmerged SurfaceComposer Transaction properties. LayerState::merge needs updating? "
"other.what=0x%" PRIX64 " what=0x%" PRIX64 " unmerged flags=0x%" PRIX64,
other.what, what, (other.what & what) ^ other.what);
}
}
bool layer_state_t::hasBufferChanges() const {
return what & layer_state_t::eBufferChanged;
}
bool layer_state_t::hasValidBuffer() const {
return bufferData.buffer || bufferData.cachedBuffer.isValid();
}
status_t layer_state_t::matrix22_t::write(Parcel& output) const {
SAFE_PARCEL(output.writeFloat, dsdx);
SAFE_PARCEL(output.writeFloat, dtdx);
SAFE_PARCEL(output.writeFloat, dtdy);
SAFE_PARCEL(output.writeFloat, dsdy);
return NO_ERROR;
}
status_t layer_state_t::matrix22_t::read(const Parcel& input) {
SAFE_PARCEL(input.readFloat, &dsdx);
SAFE_PARCEL(input.readFloat, &dtdx);
SAFE_PARCEL(input.readFloat, &dtdy);
SAFE_PARCEL(input.readFloat, &dsdy);
return NO_ERROR;
}
// ------------------------------- InputWindowCommands ----------------------------------------
bool InputWindowCommands::merge(const InputWindowCommands& other) {
bool changes = false;
changes |= !other.focusRequests.empty();
focusRequests.insert(focusRequests.end(), std::make_move_iterator(other.focusRequests.begin()),
std::make_move_iterator(other.focusRequests.end()));
changes |= other.syncInputWindows && !syncInputWindows;
syncInputWindows |= other.syncInputWindows;
return changes;
}
bool InputWindowCommands::empty() const {
bool empty = true;
empty = focusRequests.empty() && !syncInputWindows;
return empty;
}
void InputWindowCommands::clear() {
focusRequests.clear();
syncInputWindows = false;
}
status_t InputWindowCommands::write(Parcel& output) const {
SAFE_PARCEL(output.writeParcelableVector, focusRequests);
SAFE_PARCEL(output.writeBool, syncInputWindows);
return NO_ERROR;
}
status_t InputWindowCommands::read(const Parcel& input) {
SAFE_PARCEL(input.readParcelableVector, &focusRequests);
SAFE_PARCEL(input.readBool, &syncInputWindows);
return NO_ERROR;
}
bool ValidateFrameRate(float frameRate, int8_t compatibility, int8_t changeFrameRateStrategy,
const char* inFunctionName, bool privileged) {
const char* functionName = inFunctionName != nullptr ? inFunctionName : "call";
int floatClassification = std::fpclassify(frameRate);
if (frameRate < 0 || floatClassification == FP_INFINITE || floatClassification == FP_NAN) {
ALOGE("%s failed - invalid frame rate %f", functionName, frameRate);
return false;
}
if (compatibility != ANATIVEWINDOW_FRAME_RATE_COMPATIBILITY_DEFAULT &&
compatibility != ANATIVEWINDOW_FRAME_RATE_COMPATIBILITY_FIXED_SOURCE &&
(!privileged || compatibility != ANATIVEWINDOW_FRAME_RATE_EXACT)) {
ALOGE("%s failed - invalid compatibility value %d privileged: %s", functionName,
compatibility, privileged ? "yes" : "no");
return false;
}
if (changeFrameRateStrategy != ANATIVEWINDOW_CHANGE_FRAME_RATE_ONLY_IF_SEAMLESS &&
changeFrameRateStrategy != ANATIVEWINDOW_CHANGE_FRAME_RATE_ALWAYS) {
ALOGE("%s failed - invalid change frame rate strategy value %d", functionName,
changeFrameRateStrategy);
}
return true;
}
// ----------------------------------------------------------------------------
status_t CaptureArgs::write(Parcel& output) const {
SAFE_PARCEL(output.writeInt32, static_cast<int32_t>(pixelFormat));
SAFE_PARCEL(output.write, sourceCrop);
SAFE_PARCEL(output.writeFloat, frameScaleX);
SAFE_PARCEL(output.writeFloat, frameScaleY);
SAFE_PARCEL(output.writeBool, captureSecureLayers);
SAFE_PARCEL(output.writeInt32, uid);
SAFE_PARCEL(output.writeInt32, static_cast<int32_t>(dataspace));
SAFE_PARCEL(output.writeBool, allowProtected);
SAFE_PARCEL(output.writeBool, grayscale);
return NO_ERROR;
}
status_t CaptureArgs::read(const Parcel& input) {
int32_t value = 0;
SAFE_PARCEL(input.readInt32, &value);
pixelFormat = static_cast<ui::PixelFormat>(value);
SAFE_PARCEL(input.read, sourceCrop);
SAFE_PARCEL(input.readFloat, &frameScaleX);
SAFE_PARCEL(input.readFloat, &frameScaleY);
SAFE_PARCEL(input.readBool, &captureSecureLayers);
SAFE_PARCEL(input.readInt32, &uid);
SAFE_PARCEL(input.readInt32, &value);
dataspace = static_cast<ui::Dataspace>(value);
SAFE_PARCEL(input.readBool, &allowProtected);
SAFE_PARCEL(input.readBool, &grayscale);
return NO_ERROR;
}
status_t DisplayCaptureArgs::write(Parcel& output) const {
SAFE_PARCEL(CaptureArgs::write, output);
SAFE_PARCEL(output.writeStrongBinder, displayToken);
SAFE_PARCEL(output.writeUint32, width);
SAFE_PARCEL(output.writeUint32, height);
SAFE_PARCEL(output.writeBool, useIdentityTransform);
return NO_ERROR;
}
status_t DisplayCaptureArgs::read(const Parcel& input) {
SAFE_PARCEL(CaptureArgs::read, input);
SAFE_PARCEL(input.readStrongBinder, &displayToken);
SAFE_PARCEL(input.readUint32, &width);
SAFE_PARCEL(input.readUint32, &height);
SAFE_PARCEL(input.readBool, &useIdentityTransform);
return NO_ERROR;
}
status_t LayerCaptureArgs::write(Parcel& output) const {
SAFE_PARCEL(CaptureArgs::write, output);
SAFE_PARCEL(output.writeStrongBinder, layerHandle);
SAFE_PARCEL(output.writeInt32, excludeHandles.size());
for (auto el : excludeHandles) {
SAFE_PARCEL(output.writeStrongBinder, el);
}
SAFE_PARCEL(output.writeBool, childrenOnly);
return NO_ERROR;
}
status_t LayerCaptureArgs::read(const Parcel& input) {
SAFE_PARCEL(CaptureArgs::read, input);
SAFE_PARCEL(input.readStrongBinder, &layerHandle);
int32_t numExcludeHandles = 0;
SAFE_PARCEL_READ_SIZE(input.readInt32, &numExcludeHandles, input.dataSize());
excludeHandles.reserve(numExcludeHandles);
for (int i = 0; i < numExcludeHandles; i++) {
sp<IBinder> binder;
SAFE_PARCEL(input.readStrongBinder, &binder);
excludeHandles.emplace(binder);
}
SAFE_PARCEL(input.readBool, &childrenOnly);
return NO_ERROR;
}
status_t BufferData::write(Parcel& output) const {
SAFE_PARCEL(output.writeInt32, flags.get());
if (buffer) {
SAFE_PARCEL(output.writeBool, true);
SAFE_PARCEL(output.write, *buffer);
} else {
SAFE_PARCEL(output.writeBool, false);
}
if (acquireFence) {
SAFE_PARCEL(output.writeBool, true);
SAFE_PARCEL(output.write, *acquireFence);
} else {
SAFE_PARCEL(output.writeBool, false);
}
SAFE_PARCEL(output.writeUint64, frameNumber);
SAFE_PARCEL(output.writeStrongBinder, IInterface::asBinder(releaseBufferListener));
SAFE_PARCEL(output.writeStrongBinder, releaseBufferEndpoint);
SAFE_PARCEL(output.writeStrongBinder, cachedBuffer.token.promote());
SAFE_PARCEL(output.writeUint64, cachedBuffer.id);
return NO_ERROR;
}
status_t BufferData::read(const Parcel& input) {
int32_t tmpInt32;
SAFE_PARCEL(input.readInt32, &tmpInt32);
flags = Flags<BufferDataChange>(tmpInt32);
bool tmpBool = false;
SAFE_PARCEL(input.readBool, &tmpBool);
if (tmpBool) {
buffer = new GraphicBuffer();
SAFE_PARCEL(input.read, *buffer);
}
SAFE_PARCEL(input.readBool, &tmpBool);
if (tmpBool) {
acquireFence = new Fence();
SAFE_PARCEL(input.read, *acquireFence);
}
SAFE_PARCEL(input.readUint64, &frameNumber);
sp<IBinder> tmpBinder = nullptr;
SAFE_PARCEL(input.readNullableStrongBinder, &tmpBinder);
if (tmpBinder) {
releaseBufferListener = checked_interface_cast<ITransactionCompletedListener>(tmpBinder);
}
SAFE_PARCEL(input.readNullableStrongBinder, &releaseBufferEndpoint);
tmpBinder = nullptr;
SAFE_PARCEL(input.readNullableStrongBinder, &tmpBinder);
cachedBuffer.token = tmpBinder;
SAFE_PARCEL(input.readUint64, &cachedBuffer.id);
return NO_ERROR;
}
}; // namespace android