/* * Copyright 2022 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 ATRACE_TAG ATRACE_TAG_GRAPHICS #undef LOG_TAG #define LOG_TAG "SurfaceFlinger" #include "LayerSnapshot.h" #include "Layer.h" namespace android::surfaceflinger::frontend { using namespace ftl::flag_operators; namespace { void updateSurfaceDamage(const RequestedLayerState& requested, bool hasReadyFrame, bool forceFullDamage, Region& outSurfaceDamageRegion) { if (!hasReadyFrame) { outSurfaceDamageRegion.clear(); return; } if (forceFullDamage) { outSurfaceDamageRegion = Region::INVALID_REGION; } else { outSurfaceDamageRegion = requested.surfaceDamageRegion; } } std::ostream& operator<<(std::ostream& os, const ui::Transform& transform) { const uint32_t type = transform.getType(); const uint32_t orientation = transform.getOrientation(); if (type == ui::Transform::IDENTITY) { return os; } if (type & ui::Transform::UNKNOWN) { std::string out; transform.dump(out, "", ""); os << out; return os; } if (type & ui::Transform::ROTATE) { switch (orientation) { case ui::Transform::ROT_0: os << "ROT_0"; break; case ui::Transform::FLIP_H: os << "FLIP_H"; break; case ui::Transform::FLIP_V: os << "FLIP_V"; break; case ui::Transform::ROT_90: os << "ROT_90"; break; case ui::Transform::ROT_180: os << "ROT_180"; break; case ui::Transform::ROT_270: os << "ROT_270"; break; case ui::Transform::ROT_INVALID: default: os << "ROT_INVALID"; break; } } if (type & ui::Transform::SCALE) { std::string out; android::base::StringAppendF(&out, " scale x=%.4f y=%.4f ", transform.getScaleX(), transform.getScaleY()); os << out; } if (type & ui::Transform::TRANSLATE) { std::string out; android::base::StringAppendF(&out, " tx=%.4f ty=%.4f ", transform.tx(), transform.ty()); os << out; } return os; } } // namespace LayerSnapshot::LayerSnapshot(const RequestedLayerState& state, const LayerHierarchy::TraversalPath& path) : path(path) { // Provide a unique id for all snapshots. // A front end layer can generate multiple snapshots if its mirrored. // Additionally, if the layer is not reachable, we may choose to destroy // and recreate the snapshot in which case the unique sequence id will // change. The consumer shouldn't tie any lifetimes to this unique id but // register a LayerLifecycleManager::ILifecycleListener or get a list of // destroyed layers from LayerLifecycleManager. if (path.isClone()) { uniqueSequence = LayerCreationArgs::getInternalLayerId(LayerCreationArgs::sInternalSequence++); } else { uniqueSequence = state.id; } sequence = static_cast(state.id); name = state.name; debugName = state.debugName; premultipliedAlpha = state.premultipliedAlpha; inputInfo.name = state.name; inputInfo.id = static_cast(uniqueSequence); inputInfo.ownerUid = gui::Uid{state.ownerUid}; inputInfo.ownerPid = gui::Pid{state.ownerPid}; uid = state.ownerUid; pid = state.ownerPid; changes = RequestedLayerState::Changes::Created; clientChanges = 0; mirrorRootPath = LayerHierarchy::isMirror(path.variant) ? path : LayerHierarchy::TraversalPath::ROOT; reachablilty = LayerSnapshot::Reachablilty::Unreachable; frameRateSelectionPriority = state.frameRateSelectionPriority; layerMetadata = state.metadata; } // As documented in libhardware header, formats in the range // 0x100 - 0x1FF are specific to the HAL implementation, and // are known to have no alpha channel // TODO: move definition for device-specific range into // hardware.h, instead of using hard-coded values here. #define HARDWARE_IS_DEVICE_FORMAT(f) ((f) >= 0x100 && (f) <= 0x1FF) bool LayerSnapshot::isOpaqueFormat(PixelFormat format) { if (HARDWARE_IS_DEVICE_FORMAT(format)) { return true; } switch (format) { case PIXEL_FORMAT_RGBA_8888: case PIXEL_FORMAT_BGRA_8888: case PIXEL_FORMAT_RGBA_FP16: case PIXEL_FORMAT_RGBA_1010102: case PIXEL_FORMAT_R_8: return false; } // in all other case, we have no blending (also for unknown formats) return true; } bool LayerSnapshot::hasBufferOrSidebandStream() const { return ((sidebandStream != nullptr) || (externalTexture != nullptr)); } bool LayerSnapshot::drawShadows() const { return shadowSettings.length > 0.f; } bool LayerSnapshot::fillsColor() const { return !hasBufferOrSidebandStream() && color.r >= 0.0_hf && color.g >= 0.0_hf && color.b >= 0.0_hf; } bool LayerSnapshot::hasBlur() const { return backgroundBlurRadius > 0 || blurRegions.size() > 0; } bool LayerSnapshot::hasEffect() const { return fillsColor() || drawShadows() || hasBlur(); } bool LayerSnapshot::hasSomethingToDraw() const { return hasEffect() || hasBufferOrSidebandStream(); } bool LayerSnapshot::isContentOpaque() const { // if we don't have a buffer or sidebandStream yet, we're translucent regardless of the // layer's opaque flag. if (!hasSomethingToDraw()) { return false; } // if the layer has the opaque flag, then we're always opaque if (layerOpaqueFlagSet) { return true; } // If the buffer has no alpha channel, then we are opaque if (hasBufferOrSidebandStream() && isOpaqueFormat(externalTexture ? externalTexture->getPixelFormat() : PIXEL_FORMAT_NONE)) { return true; } // Lastly consider the layer opaque if drawing a color with alpha == 1.0 return fillsColor() && color.a == 1.0_hf; } bool LayerSnapshot::isHiddenByPolicy() const { return invalidTransform || isHiddenByPolicyFromParent || isHiddenByPolicyFromRelativeParent; } bool LayerSnapshot::getIsVisible() const { if (reachablilty != LayerSnapshot::Reachablilty::Reachable) { return false; } if (handleSkipScreenshotFlag & outputFilter.toInternalDisplay) { return false; } if (!hasSomethingToDraw()) { return false; } if (isHiddenByPolicy()) { return false; } return color.a > 0.0f || hasBlur(); } std::string LayerSnapshot::getIsVisibleReason() const { // not visible if (reachablilty == LayerSnapshot::Reachablilty::Unreachable) return "layer not reachable from root"; if (reachablilty == LayerSnapshot::Reachablilty::ReachableByRelativeParent) return "layer only reachable via relative parent"; if (isHiddenByPolicyFromParent) return "hidden by parent or layer flag"; if (isHiddenByPolicyFromRelativeParent) return "hidden by relative parent"; if (handleSkipScreenshotFlag & outputFilter.toInternalDisplay) return "eLayerSkipScreenshot"; if (invalidTransform) return "invalidTransform"; if (color.a == 0.0f && !hasBlur()) return "alpha = 0 and no blur"; if (!hasSomethingToDraw()) return "nothing to draw"; // visible std::stringstream reason; if (sidebandStream != nullptr) reason << " sidebandStream"; if (externalTexture != nullptr) reason << " buffer=" << externalTexture->getId() << " frame=" << frameNumber; if (fillsColor() || color.a > 0.0f) reason << " color{" << color << "}"; if (drawShadows()) reason << " shadowSettings.length=" << shadowSettings.length; if (backgroundBlurRadius > 0) reason << " backgroundBlurRadius=" << backgroundBlurRadius; if (blurRegions.size() > 0) reason << " blurRegions.size()=" << blurRegions.size(); return reason.str(); } bool LayerSnapshot::canReceiveInput() const { return !isHiddenByPolicy() && (!hasBufferOrSidebandStream() || color.a > 0.0f); } bool LayerSnapshot::isTransformValid(const ui::Transform& t) { float transformDet = t.det(); return transformDet != 0 && !isinf(transformDet) && !isnan(transformDet); } bool LayerSnapshot::hasInputInfo() const { return (inputInfo.token != nullptr || inputInfo.inputConfig.test(gui::WindowInfo::InputConfig::NO_INPUT_CHANNEL)) && reachablilty == Reachablilty::Reachable; } std::string LayerSnapshot::getDebugString() const { std::stringstream debug; debug << "Snapshot{" << path.toString() << name << " isVisible=" << isVisible << " {" << getIsVisibleReason() << "} changes=" << changes.string() << " layerStack=" << outputFilter.layerStack.id << " geomLayerBounds={" << geomLayerBounds.left << "," << geomLayerBounds.top << "," << geomLayerBounds.bottom << "," << geomLayerBounds.right << "}" << " geomLayerTransform={tx=" << geomLayerTransform.tx() << ",ty=" << geomLayerTransform.ty() << "}" << "}"; if (hasInputInfo()) { debug << " input{" << "(" << inputInfo.inputConfig.string() << ")"; if (touchCropId != UNASSIGNED_LAYER_ID) debug << " touchCropId=" << touchCropId; if (inputInfo.replaceTouchableRegionWithCrop) debug << " replaceTouchableRegionWithCrop"; auto touchableRegion = inputInfo.touchableRegion.getBounds(); debug << " touchableRegion={" << touchableRegion.left << "," << touchableRegion.top << "," << touchableRegion.bottom << "," << touchableRegion.right << "}" << "}"; } return debug.str(); } std::ostream& operator<<(std::ostream& out, const LayerSnapshot& obj) { out << "Layer [" << obj.path.id; if (!obj.path.mirrorRootIds.empty()) { out << " mirrored from "; for (auto rootId : obj.path.mirrorRootIds) { out << rootId << ","; } } out << "] " << obj.name << "\n " << (obj.isVisible ? "visible" : "invisible") << " reason=" << obj.getIsVisibleReason(); if (!obj.geomLayerBounds.isEmpty()) { out << "\n bounds={" << obj.transformedBounds.left << "," << obj.transformedBounds.top << "," << obj.transformedBounds.bottom << "," << obj.transformedBounds.right << "}"; } if (obj.geomLayerTransform.getType() != ui::Transform::IDENTITY) { out << " toDisplayTransform={" << obj.geomLayerTransform << "}"; } if (obj.hasInputInfo()) { out << "\n input{" << "(" << obj.inputInfo.inputConfig.string() << ")"; if (obj.inputInfo.canOccludePresentation) out << " canOccludePresentation"; if (obj.touchCropId != UNASSIGNED_LAYER_ID) out << " touchCropId=" << obj.touchCropId; if (obj.inputInfo.replaceTouchableRegionWithCrop) out << " replaceTouchableRegionWithCrop"; auto touchableRegion = obj.inputInfo.touchableRegion.getBounds(); out << " touchableRegion={" << touchableRegion.left << "," << touchableRegion.top << "," << touchableRegion.bottom << "," << touchableRegion.right << "}" << "}"; } return out; } FloatRect LayerSnapshot::sourceBounds() const { if (!externalTexture) { return geomLayerBounds; } return geomBufferSize.toFloatRect(); } bool LayerSnapshot::isFrontBuffered() const { if (!externalTexture) { return false; } return externalTexture->getUsage() & AHARDWAREBUFFER_USAGE_FRONT_BUFFER; } Hwc2::IComposerClient::BlendMode LayerSnapshot::getBlendMode( const RequestedLayerState& requested) const { auto blendMode = Hwc2::IComposerClient::BlendMode::NONE; if (alpha != 1.0f || !contentOpaque) { blendMode = requested.premultipliedAlpha ? Hwc2::IComposerClient::BlendMode::PREMULTIPLIED : Hwc2::IComposerClient::BlendMode::COVERAGE; } return blendMode; } void LayerSnapshot::merge(const RequestedLayerState& requested, bool forceUpdate, bool displayChanges, bool forceFullDamage, uint32_t displayRotationFlags) { clientChanges = requested.what; changes = requested.changes; contentDirty = requested.what & layer_state_t::CONTENT_DIRTY; hasReadyFrame = requested.autoRefresh; sidebandStreamHasFrame = requested.hasSidebandStreamFrame(); updateSurfaceDamage(requested, requested.hasReadyFrame(), forceFullDamage, surfaceDamage); if (forceUpdate || requested.what & layer_state_t::eTransparentRegionChanged) { transparentRegionHint = requested.transparentRegion; } if (forceUpdate || requested.what & layer_state_t::eFlagsChanged) { layerOpaqueFlagSet = (requested.flags & layer_state_t::eLayerOpaque) == layer_state_t::eLayerOpaque; } if (forceUpdate || requested.what & layer_state_t::eBufferTransformChanged) { geomBufferTransform = requested.bufferTransform; } if (forceUpdate || requested.what & layer_state_t::eTransformToDisplayInverseChanged) { geomBufferUsesDisplayInverseTransform = requested.transformToDisplayInverse; } if (forceUpdate || requested.what & layer_state_t::eDataspaceChanged) { dataspace = Layer::translateDataspace(requested.dataspace); } if (forceUpdate || requested.what & layer_state_t::eExtendedRangeBrightnessChanged) { currentHdrSdrRatio = requested.currentHdrSdrRatio; desiredHdrSdrRatio = requested.desiredHdrSdrRatio; } if (forceUpdate || requested.what & layer_state_t::eDesiredHdrHeadroomChanged) { desiredHdrSdrRatio = requested.desiredHdrSdrRatio; } if (forceUpdate || requested.what & layer_state_t::eCachingHintChanged) { cachingHint = requested.cachingHint; } if (forceUpdate || requested.what & layer_state_t::eHdrMetadataChanged) { hdrMetadata = requested.hdrMetadata; } if (forceUpdate || requested.what & layer_state_t::eSidebandStreamChanged) { sidebandStream = requested.sidebandStream; } if (forceUpdate || requested.what & layer_state_t::eShadowRadiusChanged) { shadowSettings.length = requested.shadowRadius; } if (forceUpdate || requested.what & layer_state_t::eFrameRateSelectionPriority) { frameRateSelectionPriority = requested.frameRateSelectionPriority; } if (forceUpdate || requested.what & layer_state_t::eColorSpaceAgnosticChanged) { isColorspaceAgnostic = requested.colorSpaceAgnostic; } if (forceUpdate || requested.what & layer_state_t::eDimmingEnabledChanged) { dimmingEnabled = requested.dimmingEnabled; } if (forceUpdate || requested.what & layer_state_t::eCropChanged) { geomCrop = requested.crop; } if (forceUpdate || requested.what & layer_state_t::eDefaultFrameRateCompatibilityChanged) { const auto compatibility = Layer::FrameRate::convertCompatibility(requested.defaultFrameRateCompatibility); if (defaultFrameRateCompatibility != compatibility) { clientChanges |= layer_state_t::eDefaultFrameRateCompatibilityChanged; } defaultFrameRateCompatibility = compatibility; } if (forceUpdate || requested.what & (layer_state_t::eFlagsChanged | layer_state_t::eBufferChanged | layer_state_t::eSidebandStreamChanged)) { compositionType = requested.getCompositionType(); } if (forceUpdate || requested.what & layer_state_t::eInputInfoChanged) { if (requested.windowInfoHandle) { inputInfo = *requested.windowInfoHandle->getInfo(); } else { inputInfo = {}; // b/271132344 revisit this and see if we can always use the layers uid/pid inputInfo.name = requested.name; inputInfo.ownerUid = requested.ownerUid; inputInfo.ownerPid = requested.ownerPid; } inputInfo.id = static_cast(uniqueSequence); touchCropId = requested.touchCropId; } if (forceUpdate || requested.what & (layer_state_t::eColorChanged | layer_state_t::eBufferChanged | layer_state_t::eSidebandStreamChanged)) { color.rgb = requested.getColor().rgb; } if (forceUpdate || requested.what & layer_state_t::eBufferChanged) { acquireFence = (requested.externalTexture && requested.bufferData->flags.test(BufferData::BufferDataChange::fenceChanged)) ? requested.bufferData->acquireFence : Fence::NO_FENCE; buffer = requested.externalTexture ? requested.externalTexture->getBuffer() : nullptr; externalTexture = requested.externalTexture; frameNumber = (requested.bufferData) ? requested.bufferData->frameNumber : 0; hasProtectedContent = requested.externalTexture && requested.externalTexture->getUsage() & GRALLOC_USAGE_PROTECTED; geomUsesSourceCrop = hasBufferOrSidebandStream(); } if (forceUpdate || requested.what & (layer_state_t::eCropChanged | layer_state_t::eBufferCropChanged | layer_state_t::eBufferTransformChanged | layer_state_t::eTransformToDisplayInverseChanged) || requested.changes.test(RequestedLayerState::Changes::BufferSize) || displayChanges) { bufferSize = requested.getBufferSize(displayRotationFlags); geomBufferSize = bufferSize; croppedBufferSize = requested.getCroppedBufferSize(bufferSize); geomContentCrop = requested.getBufferCrop(); } if ((forceUpdate || requested.what & (layer_state_t::eFlagsChanged | layer_state_t::eDestinationFrameChanged | layer_state_t::ePositionChanged | layer_state_t::eMatrixChanged | layer_state_t::eBufferTransformChanged | layer_state_t::eTransformToDisplayInverseChanged) || requested.changes.test(RequestedLayerState::Changes::BufferSize) || displayChanges) && !ignoreLocalTransform) { localTransform = requested.getTransform(displayRotationFlags); localTransformInverse = localTransform.inverse(); } if (forceUpdate || requested.what & (layer_state_t::eColorChanged) || requested.changes.test(RequestedLayerState::Changes::BufferSize)) { color.rgb = requested.getColor().rgb; } if (forceUpdate || requested.what & (layer_state_t::eBufferChanged | layer_state_t::eDataspaceChanged | layer_state_t::eApiChanged | layer_state_t::eShadowRadiusChanged | layer_state_t::eBlurRegionsChanged | layer_state_t::eStretchChanged)) { forceClientComposition = shadowSettings.length > 0 || stretchEffect.hasEffect(); } if (forceUpdate || requested.what & (layer_state_t::eColorChanged | layer_state_t::eShadowRadiusChanged | layer_state_t::eBlurRegionsChanged | layer_state_t::eBackgroundBlurRadiusChanged | layer_state_t::eCornerRadiusChanged | layer_state_t::eAlphaChanged | layer_state_t::eFlagsChanged | layer_state_t::eBufferChanged | layer_state_t::eSidebandStreamChanged)) { contentOpaque = isContentOpaque(); isOpaque = contentOpaque && !roundedCorner.hasRoundedCorners() && color.a == 1.f; blendMode = getBlendMode(requested); } } } // namespace android::surfaceflinger::frontend