/* * Copyright (c) 2014-2020, The Linux Foundation. All rights reserved. * Not a Contribution. * * Copyright 2015 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. */ #include "hwc_layers.h" #include #include #include #include #include #include #define __CLASS__ "HWCLayer" namespace sdm { std::atomic HWCLayer::next_id_(1); DisplayError SetCSC(const private_handle_t *pvt_handle, ColorMetaData *color_metadata) { if (getMetaData(const_cast(pvt_handle), GET_COLOR_METADATA, color_metadata) != 0) { ColorSpace_t csc = ITU_R_601; if (getMetaData(const_cast(pvt_handle), GET_COLOR_SPACE, &csc) == 0) { if (csc == ITU_R_601_FR || csc == ITU_R_2020_FR) { color_metadata->range = Range_Full; } color_metadata->transfer = Transfer_sRGB; switch (csc) { case ITU_R_601: case ITU_R_601_FR: // video and display driver uses 601_525 color_metadata->colorPrimaries = ColorPrimaries_BT601_6_525; break; case ITU_R_709: color_metadata->colorPrimaries = ColorPrimaries_BT709_5; break; case ITU_R_2020: case ITU_R_2020_FR: color_metadata->colorPrimaries = ColorPrimaries_BT2020; break; default: DLOGE("Unsupported CSC: %d", csc); return kErrorNotSupported; } } } return kErrorNone; } // Returns true when color primary is supported bool GetColorPrimary(const int32_t &dataspace, ColorPrimaries *color_primary) { auto standard = dataspace & HAL_DATASPACE_STANDARD_MASK; bool supported_csc = true; switch (standard) { case HAL_DATASPACE_STANDARD_BT709: *color_primary = ColorPrimaries_BT709_5; break; case HAL_DATASPACE_STANDARD_BT601_525: case HAL_DATASPACE_STANDARD_BT601_525_UNADJUSTED: *color_primary = ColorPrimaries_BT601_6_525; break; case HAL_DATASPACE_STANDARD_BT601_625: case HAL_DATASPACE_STANDARD_BT601_625_UNADJUSTED: *color_primary = ColorPrimaries_BT601_6_625; break; case HAL_DATASPACE_STANDARD_DCI_P3: *color_primary = ColorPrimaries_DCIP3; break; case HAL_DATASPACE_STANDARD_BT2020: *color_primary = ColorPrimaries_BT2020; break; default: DLOGW_IF(kTagClient, "Unsupported Standard Request = %d", standard); supported_csc = false; } return supported_csc; } bool GetTransfer(const int32_t &dataspace, GammaTransfer *gamma_transfer) { auto transfer = dataspace & HAL_DATASPACE_TRANSFER_MASK; bool supported_transfer = true; switch (transfer) { case HAL_DATASPACE_TRANSFER_SRGB: *gamma_transfer = Transfer_sRGB; break; case HAL_DATASPACE_TRANSFER_SMPTE_170M: *gamma_transfer = Transfer_SMPTE_170M; break; case HAL_DATASPACE_TRANSFER_ST2084: *gamma_transfer = Transfer_SMPTE_ST2084; break; case HAL_DATASPACE_TRANSFER_HLG: *gamma_transfer = Transfer_HLG; break; case HAL_DATASPACE_TRANSFER_LINEAR: *gamma_transfer = Transfer_Linear; break; case HAL_DATASPACE_TRANSFER_GAMMA2_2: *gamma_transfer = Transfer_Gamma2_2; break; case HAL_DATASPACE_TRANSFER_GAMMA2_8: *gamma_transfer = Transfer_Gamma2_8; break; default: DLOGW_IF(kTagClient, "Unsupported Transfer Request = %d", transfer); supported_transfer = false; } return supported_transfer; } bool GetRange(const int32_t &dataspace, ColorRange *color_range) { auto range = dataspace & HAL_DATASPACE_RANGE_MASK; switch (range) { case HAL_DATASPACE_RANGE_FULL: *color_range = Range_Full; break; case HAL_DATASPACE_RANGE_LIMITED: *color_range = Range_Limited; break; case HAL_DATASPACE_RANGE_EXTENDED: *color_range = Range_Extended; return false; default: DLOGW_IF(kTagClient, "Unsupported Range Request = %d", range); return false; } return true; } bool IsBT2020(const ColorPrimaries &color_primary) { switch (color_primary) { case ColorPrimaries_BT2020: return true; break; default: return false; } } int32_t TranslateFromLegacyDataspace(const int32_t &legacy_ds) { int32_t dataspace = legacy_ds; if (dataspace & 0xffff) { switch (dataspace & 0xffff) { case HAL_DATASPACE_SRGB: dataspace = HAL_DATASPACE_V0_SRGB; break; case HAL_DATASPACE_JFIF: dataspace = HAL_DATASPACE_V0_JFIF; break; case HAL_DATASPACE_SRGB_LINEAR: dataspace = HAL_DATASPACE_V0_SRGB_LINEAR; break; case HAL_DATASPACE_BT601_625: dataspace = HAL_DATASPACE_V0_BT601_625; break; case HAL_DATASPACE_BT601_525: dataspace = HAL_DATASPACE_V0_BT601_525; break; case HAL_DATASPACE_BT709: dataspace = HAL_DATASPACE_V0_BT709; break; default: // unknown legacy dataspace DLOGW_IF(kTagClient, "Unsupported dataspace type %d", dataspace); } } if (dataspace == HAL_DATASPACE_UNKNOWN) { dataspace = HAL_DATASPACE_V0_SRGB; } return dataspace; } // Retrieve ColorMetaData from android_data_space_t (STANDARD|TRANSFER|RANGE) bool GetSDMColorSpace(const int32_t &dataspace, ColorMetaData *color_metadata) { bool valid = false; valid = GetColorPrimary(dataspace, &(color_metadata->colorPrimaries)); if (valid) { valid = GetTransfer(dataspace, &(color_metadata->transfer)); } if (valid) { valid = GetRange(dataspace, &(color_metadata->range)); } return valid; } // Layer operations HWCLayer::HWCLayer(hwc2_display_t display_id, HWCBufferAllocator *buf_allocator) : id_(next_id_++), display_id_(display_id), buffer_allocator_(buf_allocator) { layer_ = new Layer(); // Fences are deferred, so the first time this layer is presented, return -1 // TODO(user): Verify that fences are properly obtained on suspend/resume release_fences_.push_back(nullptr); } HWCLayer::~HWCLayer() { // Close any fences left for this layer while (!release_fences_.empty()) { release_fences_.pop_front(); } if (layer_) { if (buffer_fd_ >= 0) { ::close(buffer_fd_); } delete layer_; } } HWC2::Error HWCLayer::SetLayerBuffer(buffer_handle_t buffer, shared_ptr acquire_fence) { if (!buffer) { if (client_requested_ == HWC2::Composition::Device || client_requested_ == HWC2::Composition::Cursor) { DLOGW("Invalid buffer handle: %p on layer: %" PRIu64 " client requested comp type %d", buffer, id_, client_requested_); return HWC2::Error::BadParameter; } else { return HWC2::Error::None; } } const private_handle_t *handle = static_cast(buffer); if (handle->fd < 0) { return HWC2::Error::BadParameter; } LayerBuffer *layer_buffer = &layer_->input_buffer; int aligned_width, aligned_height; buffer_allocator_->GetCustomWidthAndHeight(handle, &aligned_width, &aligned_height); LayerBufferFormat format = GetSDMFormat(handle->format, handle->flags); if ((format != layer_buffer->format) || (UINT32(aligned_width) != layer_buffer->width) || (UINT32(aligned_height) != layer_buffer->height)) { // Layer buffer geometry has changed. geometry_changes_ |= kBufferGeometry; } layer_buffer->format = format; layer_buffer->width = UINT32(aligned_width); layer_buffer->height = UINT32(aligned_height); layer_buffer->unaligned_width = UINT32(handle->unaligned_width); layer_buffer->unaligned_height = UINT32(handle->unaligned_height); layer_buffer->flags.video = (handle->buffer_type == BUFFER_TYPE_VIDEO) ? true : false; if (SetMetaData(const_cast(handle), layer_) != kErrorNone) { return HWC2::Error::BadLayer; } // TZ Protected Buffer - L1 secure_ = (handle->flags & private_handle_t::PRIV_FLAGS_SECURE_BUFFER); bool secure_camera = secure_ && (handle->flags & private_handle_t::PRIV_FLAGS_CAMERA_WRITE); bool secure_display = (handle->flags & private_handle_t::PRIV_FLAGS_SECURE_DISPLAY); if (secure_ != layer_buffer->flags.secure || secure_camera != layer_buffer->flags.secure_camera || secure_display != layer_buffer->flags.secure_display) { // Secure attribute of layer buffer has changed. layer_->update_mask.set(kSecurity); } layer_buffer->flags.secure = secure_; layer_buffer->flags.secure_camera = secure_camera; layer_buffer->flags.secure_display = secure_display; layer_buffer->acquire_fence = acquire_fence; if (buffer_fd_ >= 0) { ::close(buffer_fd_); } buffer_fd_ = ::dup(handle->fd); layer_buffer->planes[0].fd = buffer_fd_; layer_buffer->planes[0].offset = handle->offset; layer_buffer->planes[0].stride = UINT32(handle->width); layer_buffer->size = handle->size; buffer_flipped_ = reinterpret_cast(handle) != layer_buffer->buffer_id; layer_buffer->buffer_id = reinterpret_cast(handle); layer_buffer->handle_id = handle->id; return HWC2::Error::None; } HWC2::Error HWCLayer::SetLayerSurfaceDamage(hwc_region_t damage) { surface_updated_ = true; if ((damage.numRects == 1) && (damage.rects[0].bottom == 0) && (damage.rects[0].right == 0)) { surface_updated_ = false; } if (!layer_->flags.updating && surface_updated_) { layer_->update_mask.set(kSurfaceInvalidate); } if (!partial_update_enabled_) { SetDirtyRegions(damage); return HWC2::Error::None; } // Check if there is an update in SurfaceDamage rects. if (layer_->dirty_regions.size() != damage.numRects) { layer_->update_mask.set(kSurfaceInvalidate); } else { for (uint32_t j = 0; j < damage.numRects; j++) { LayerRect damage_rect; SetRect(damage.rects[j], &damage_rect); if (damage_rect != layer_->dirty_regions.at(j)) { layer_->update_mask.set(kSurfaceDamage); break; } } } SetDirtyRegions(damage); return HWC2::Error::None; } HWC2::Error HWCLayer::SetLayerBlendMode(HWC2::BlendMode mode) { LayerBlending blending = kBlendingPremultiplied; switch (mode) { case HWC2::BlendMode::Coverage: blending = kBlendingCoverage; break; case HWC2::BlendMode::Premultiplied: blending = kBlendingPremultiplied; break; case HWC2::BlendMode::None: blending = kBlendingOpaque; break; default: return HWC2::Error::BadParameter; } if (layer_->blending != blending) { geometry_changes_ |= kBlendMode; layer_->blending = blending; } return HWC2::Error::None; } HWC2::Error HWCLayer::SetLayerColor(hwc_color_t color) { if (client_requested_ != HWC2::Composition::SolidColor) { return HWC2::Error::None; } if (layer_->solid_fill_color != GetUint32Color(color)) { layer_->solid_fill_color = GetUint32Color(color); layer_->update_mask.set(kSurfaceInvalidate); surface_updated_ = true; } else { surface_updated_ = false; } layer_->input_buffer.format = kFormatARGB8888; DLOGV_IF(kTagClient, "[%" PRIu64 "][%" PRIu64 "] Layer color set to %x", display_id_, id_, layer_->solid_fill_color); return HWC2::Error::None; } HWC2::Error HWCLayer::SetLayerCompositionType(HWC2::Composition type) { // Validation is required when the client changes the composition type if (client_requested_ != type) { layer_->update_mask.set(kClientCompRequest); } client_requested_ = type; switch (type) { case HWC2::Composition::Client: break; case HWC2::Composition::Device: // We try and default to this in SDM break; case HWC2::Composition::SolidColor: break; case HWC2::Composition::Cursor: break; case HWC2::Composition::Invalid: return HWC2::Error::BadParameter; default: return HWC2::Error::Unsupported; } return HWC2::Error::None; } HWC2::Error HWCLayer::SetLayerDataspace(int32_t dataspace) { // Map deprecated dataspace values to appropriate new enums dataspace = TranslateFromLegacyDataspace(dataspace); // cache the dataspace, to be used later to update SDM ColorMetaData if (dataspace_ != dataspace) { geometry_changes_ |= kDataspace; dataspace_ = dataspace; if (layer_->input_buffer.buffer_id) { ValidateAndSetCSC(reinterpret_cast(layer_->input_buffer.buffer_id)); } } return HWC2::Error::None; } HWC2::Error HWCLayer::SetLayerDisplayFrame(hwc_rect_t frame) { LayerRect dst_rect = {}; SetRect(frame, &dst_rect); if (dst_rect_ != dst_rect) { geometry_changes_ |= kDisplayFrame; dst_rect_ = dst_rect; } return HWC2::Error::None; } void HWCLayer::ResetPerFrameData() { layer_->dst_rect = dst_rect_; layer_->transform = layer_transform_; } HWC2::Error HWCLayer::SetCursorPosition(int32_t x, int32_t y) { hwc_rect_t frame = {}; frame.left = x; frame.top = y; frame.right = x + INT(layer_->dst_rect.right - layer_->dst_rect.left); frame.bottom = y + INT(layer_->dst_rect.bottom - layer_->dst_rect.top); SetLayerDisplayFrame(frame); return HWC2::Error::None; } HWC2::Error HWCLayer::SetLayerPlaneAlpha(float alpha) { if (alpha < 0.0f || alpha > 1.0f) { return HWC2::Error::BadParameter; } // Conversion of float alpha in range 0.0 to 1.0 similar to the HWC Adapter uint8_t plane_alpha = static_cast(std::round(255.0f * alpha)); if (layer_->plane_alpha != plane_alpha) { geometry_changes_ |= kPlaneAlpha; layer_->plane_alpha = plane_alpha; } return HWC2::Error::None; } HWC2::Error HWCLayer::SetLayerSourceCrop(hwc_frect_t crop) { LayerRect src_rect = {}; SetRect(crop, &src_rect); non_integral_source_crop_ = ((crop.left != roundf(crop.left)) || (crop.top != roundf(crop.top)) || (crop.right != roundf(crop.right)) || (crop.bottom != roundf(crop.bottom))); if (non_integral_source_crop_) { DLOGV_IF(kTagClient, "Crop: LTRB %f %f %f %f", crop.left, crop.top, crop.right, crop.bottom); } if (layer_->src_rect != src_rect) { geometry_changes_ |= kSourceCrop; layer_->src_rect = src_rect; } return HWC2::Error::None; } HWC2::Error HWCLayer::SetLayerTransform(HWC2::Transform transform) { LayerTransform layer_transform = {}; switch (transform) { case HWC2::Transform::FlipH: layer_transform.flip_horizontal = true; break; case HWC2::Transform::FlipV: layer_transform.flip_vertical = true; break; case HWC2::Transform::Rotate90: layer_transform.rotation = 90.0f; break; case HWC2::Transform::Rotate180: layer_transform.flip_horizontal = true; layer_transform.flip_vertical = true; break; case HWC2::Transform::Rotate270: layer_transform.rotation = 90.0f; layer_transform.flip_horizontal = true; layer_transform.flip_vertical = true; break; case HWC2::Transform::FlipHRotate90: layer_transform.rotation = 90.0f; layer_transform.flip_horizontal = true; break; case HWC2::Transform::FlipVRotate90: layer_transform.rotation = 90.0f; layer_transform.flip_vertical = true; break; case HWC2::Transform::None: break; default: // bad transform return HWC2::Error::BadParameter; } if (layer_transform_ != layer_transform) { geometry_changes_ |= kTransform; layer_transform_ = layer_transform; } return HWC2::Error::None; } HWC2::Error HWCLayer::SetLayerVisibleRegion(hwc_region_t visible) { layer_->visible_regions.clear(); for (uint32_t i = 0; i < visible.numRects; i++) { LayerRect rect; SetRect(visible.rects[i], &rect); layer_->visible_regions.push_back(rect); } return HWC2::Error::None; } HWC2::Error HWCLayer::SetLayerZOrder(uint32_t z) { if (z_ != z) { geometry_changes_ |= kZOrder; z_ = z; } return HWC2::Error::None; } HWC2::Error HWCLayer::SetLayerType(IQtiComposerClient::LayerType type) { LayerTypes layer_type = kLayerUnknown; switch (type) { case IQtiComposerClient::LayerType::UNKNOWN: layer_type = kLayerUnknown; break; case IQtiComposerClient::LayerType::APP: layer_type = kLayerApp; break; case IQtiComposerClient::LayerType::GAME: layer_type = kLayerGame; break; case IQtiComposerClient::LayerType::BROWSER: layer_type = kLayerBrowser; break; default: DLOGW("Unsupported layer type %d", layer_type); break; } type_ = layer_type; return HWC2::Error::None; } HWC2::Error HWCLayer::SetLayerColorTransform(const float *matrix) { if (std::memcmp(matrix, layer_->color_transform_matrix, sizeof(layer_->color_transform_matrix))) { std::memcpy(layer_->color_transform_matrix, matrix, sizeof(layer_->color_transform_matrix)); layer_->update_mask.set(kColorTransformUpdate); color_transform_matrix_set_ = true; if (!std::memcmp(matrix, kIdentityMatrix, sizeof(kIdentityMatrix))) { color_transform_matrix_set_ = false; } } return HWC2::Error::None; } HWC2::Error HWCLayer::SetLayerPerFrameMetadata(uint32_t num_elements, const PerFrameMetadataKey *keys, const float *metadata) { auto old_mastering_display = layer_->input_buffer.color_metadata.masteringDisplayInfo; auto old_content_light = layer_->input_buffer.color_metadata.contentLightLevel; auto &mastering_display = layer_->input_buffer.color_metadata.masteringDisplayInfo; auto &content_light = layer_->input_buffer.color_metadata.contentLightLevel; for (uint32_t i = 0; i < num_elements; i++) { switch (keys[i]) { case PerFrameMetadataKey::DISPLAY_RED_PRIMARY_X: mastering_display.colorVolumeSEIEnabled = true; mastering_display.primaries.rgbPrimaries[0][0] = UINT32(metadata[i] * 50000); break; case PerFrameMetadataKey::DISPLAY_RED_PRIMARY_Y: mastering_display.primaries.rgbPrimaries[0][1] = UINT32(metadata[i] * 50000); break; case PerFrameMetadataKey::DISPLAY_GREEN_PRIMARY_X: mastering_display.primaries.rgbPrimaries[1][0] = UINT32(metadata[i] * 50000); break; case PerFrameMetadataKey::DISPLAY_GREEN_PRIMARY_Y: mastering_display.primaries.rgbPrimaries[1][1] = UINT32(metadata[i] * 50000); break; case PerFrameMetadataKey::DISPLAY_BLUE_PRIMARY_X: mastering_display.primaries.rgbPrimaries[2][0] = UINT32(metadata[i] * 50000); break; case PerFrameMetadataKey::DISPLAY_BLUE_PRIMARY_Y: mastering_display.primaries.rgbPrimaries[2][1] = UINT32(metadata[i] * 50000); break; case PerFrameMetadataKey::WHITE_POINT_X: mastering_display.primaries.whitePoint[0] = UINT32(metadata[i] * 50000); break; case PerFrameMetadataKey::WHITE_POINT_Y: mastering_display.primaries.whitePoint[1] = UINT32(metadata[i] * 50000); break; case PerFrameMetadataKey::MAX_LUMINANCE: mastering_display.maxDisplayLuminance = UINT32(metadata[i]); break; case PerFrameMetadataKey::MIN_LUMINANCE: mastering_display.minDisplayLuminance = UINT32(metadata[i] * 10000); break; case PerFrameMetadataKey::MAX_CONTENT_LIGHT_LEVEL: content_light.lightLevelSEIEnabled = true; content_light.maxContentLightLevel = UINT32(metadata[i]); break; case PerFrameMetadataKey::MAX_FRAME_AVERAGE_LIGHT_LEVEL: content_light.minPicAverageLightLevel = UINT32(metadata[i]); break; default: break; } } if ((!SameConfig(&old_mastering_display, &mastering_display, UINT32(sizeof(MasteringDisplay)))) || (!SameConfig(&old_content_light, &content_light, UINT32(sizeof(ContentLightLevel))))) { layer_->update_mask.set(kMetadataUpdate); geometry_changes_ |= kDataspace; } return HWC2::Error::None; } HWC2::Error HWCLayer::SetLayerPerFrameMetadataBlobs(uint32_t num_elements, const PerFrameMetadataKey *keys, const uint32_t *sizes, const uint8_t* metadata) { if (!keys || !sizes || !metadata) { DLOGE("metadata or sizes or keys is null"); return HWC2::Error::BadParameter; } ColorMetaData &color_metadata = layer_->input_buffer.color_metadata; for (uint32_t i = 0; i < num_elements; i++) { switch (keys[i]) { case PerFrameMetadataKey::HDR10_PLUS_SEI: if (sizes[i] > HDR_DYNAMIC_META_DATA_SZ) { DLOGE("Size of HDR10_PLUS_SEI = %d", sizes[i]); return HWC2::Error::BadParameter; } // if dynamic metadata changes, store and set needs validate if (!SameConfig(static_cast(color_metadata.dynamicMetaDataPayload), metadata, sizes[i])) { geometry_changes_ |= kDataspace; color_metadata.dynamicMetaDataValid = true; color_metadata.dynamicMetaDataLen = sizes[i]; std::memcpy(color_metadata.dynamicMetaDataPayload, metadata, sizes[i]); layer_->update_mask.set(kMetadataUpdate); } break; default: DLOGW("Invalid key = %d", keys[i]); return HWC2::Error::BadParameter; } } return HWC2::Error::None; } void HWCLayer::SetRect(const hwc_rect_t &source, LayerRect *target) { target->left = FLOAT(source.left); target->top = FLOAT(source.top); target->right = FLOAT(source.right); target->bottom = FLOAT(source.bottom); } void HWCLayer::SetRect(const hwc_frect_t &source, LayerRect *target) { // Recommended way of rounding as in hwcomposer2.h - SetLayerSourceCrop target->left = std::ceil(source.left); target->top = std::ceil(source.top); target->right = std::floor(source.right); target->bottom = std::floor(source.bottom); } uint32_t HWCLayer::GetUint32Color(const hwc_color_t &source) { // Returns 32 bit ARGB uint32_t a = UINT32(source.a) << 24; uint32_t r = UINT32(source.r) << 16; uint32_t g = UINT32(source.g) << 8; uint32_t b = UINT32(source.b); uint32_t color = a | r | g | b; return color; } LayerBufferFormat HWCLayer::GetSDMFormat(const int32_t &source, const int flags) { LayerBufferFormat format = kFormatInvalid; if (flags & private_handle_t::PRIV_FLAGS_UBWC_ALIGNED) { switch (source) { case HAL_PIXEL_FORMAT_RGBA_8888: format = kFormatRGBA8888Ubwc; break; case HAL_PIXEL_FORMAT_RGBX_8888: format = kFormatRGBX8888Ubwc; break; case HAL_PIXEL_FORMAT_BGR_565: format = kFormatBGR565Ubwc; break; case HAL_PIXEL_FORMAT_YCbCr_420_SP_VENUS: case HAL_PIXEL_FORMAT_YCbCr_420_SP_VENUS_UBWC: case HAL_PIXEL_FORMAT_NV12_ENCODEABLE: format = kFormatYCbCr420SPVenusUbwc; break; case HAL_PIXEL_FORMAT_RGBA_1010102: format = kFormatRGBA1010102Ubwc; break; case HAL_PIXEL_FORMAT_RGBX_1010102: format = kFormatRGBX1010102Ubwc; break; case HAL_PIXEL_FORMAT_YCbCr_420_TP10_UBWC: format = kFormatYCbCr420TP10Ubwc; break; case HAL_PIXEL_FORMAT_YCbCr_420_P010_UBWC: format = kFormatYCbCr420P010Ubwc; break; default: DLOGW("Unsupported format type for UBWC %s", qdutils::GetHALPixelFormatString(source)); return kFormatInvalid; } return format; } switch (source) { case HAL_PIXEL_FORMAT_RGBA_8888: format = kFormatRGBA8888; break; case HAL_PIXEL_FORMAT_RGBA_5551: format = kFormatRGBA5551; break; case HAL_PIXEL_FORMAT_RGBA_4444: format = kFormatRGBA4444; break; case HAL_PIXEL_FORMAT_BGRA_8888: format = kFormatBGRA8888; break; case HAL_PIXEL_FORMAT_RGBX_8888: format = kFormatRGBX8888; break; case HAL_PIXEL_FORMAT_BGRX_8888: format = kFormatBGRX8888; break; case HAL_PIXEL_FORMAT_RGB_888: format = kFormatRGB888; break; case HAL_PIXEL_FORMAT_BGR_888: format = kFormatBGR888; break; case HAL_PIXEL_FORMAT_RGB_565: format = kFormatRGB565; break; case HAL_PIXEL_FORMAT_BGR_565: format = kFormatBGR565; break; case HAL_PIXEL_FORMAT_NV12_ENCODEABLE: case HAL_PIXEL_FORMAT_YCbCr_420_SP_VENUS: format = kFormatYCbCr420SemiPlanarVenus; break; case HAL_PIXEL_FORMAT_YCrCb_420_SP_VENUS: format = kFormatYCrCb420SemiPlanarVenus; break; case HAL_PIXEL_FORMAT_YCbCr_420_SP_VENUS_UBWC: format = kFormatYCbCr420SPVenusUbwc; break; case HAL_PIXEL_FORMAT_YV12: format = kFormatYCrCb420PlanarStride16; break; case HAL_PIXEL_FORMAT_YCrCb_420_SP: case HAL_PIXEL_FORMAT_NV21_ZSL: format = kFormatYCrCb420SemiPlanar; break; case HAL_PIXEL_FORMAT_YCbCr_420_SP: format = kFormatYCbCr420SemiPlanar; break; case HAL_PIXEL_FORMAT_YCbCr_422_SP: format = kFormatYCbCr422H2V1SemiPlanar; break; case HAL_PIXEL_FORMAT_YCbCr_422_I: format = kFormatYCbCr422H2V1Packed; break; case HAL_PIXEL_FORMAT_CbYCrY_422_I: format = kFormatCbYCrY422H2V1Packed; break; case HAL_PIXEL_FORMAT_RGBA_1010102: format = kFormatRGBA1010102; break; case HAL_PIXEL_FORMAT_ARGB_2101010: format = kFormatARGB2101010; break; case HAL_PIXEL_FORMAT_RGBX_1010102: format = kFormatRGBX1010102; break; case HAL_PIXEL_FORMAT_XRGB_2101010: format = kFormatXRGB2101010; break; case HAL_PIXEL_FORMAT_BGRA_1010102: format = kFormatBGRA1010102; break; case HAL_PIXEL_FORMAT_ABGR_2101010: format = kFormatABGR2101010; break; case HAL_PIXEL_FORMAT_BGRX_1010102: format = kFormatBGRX1010102; break; case HAL_PIXEL_FORMAT_XBGR_2101010: format = kFormatXBGR2101010; break; case HAL_PIXEL_FORMAT_YCbCr_420_P010: format = kFormatYCbCr420P010; break; case HAL_PIXEL_FORMAT_YCbCr_420_TP10_UBWC: format = kFormatYCbCr420TP10Ubwc; break; case HAL_PIXEL_FORMAT_YCbCr_420_P010_UBWC: format = kFormatYCbCr420P010Ubwc; break; case HAL_PIXEL_FORMAT_YCbCr_420_P010_VENUS: format = kFormatYCbCr420P010Venus; break; case HAL_PIXEL_FORMAT_RGBA_FP16: format = kFormatInvalid; break; default: DLOGW("Unsupported format type = %s", qdutils::GetHALPixelFormatString(source)); return kFormatInvalid; } return format; } void HWCLayer::GetUBWCStatsFromMetaData(UBWCStats *cr_stats, UbwcCrStatsVector *cr_vec) { // TODO(user): Check if we can use UBWCStats directly // in layer_buffer or copy directly to Vector if (cr_stats->bDataValid) { switch (cr_stats->version) { case UBWC_4_0: case UBWC_3_0: case UBWC_2_0: cr_vec->push_back(std::make_pair(32, cr_stats->ubwc_stats.nCRStatsTile32)); cr_vec->push_back(std::make_pair(64, cr_stats->ubwc_stats.nCRStatsTile64)); cr_vec->push_back(std::make_pair(96, cr_stats->ubwc_stats.nCRStatsTile96)); cr_vec->push_back(std::make_pair(128, cr_stats->ubwc_stats.nCRStatsTile128)); cr_vec->push_back(std::make_pair(160, cr_stats->ubwc_stats.nCRStatsTile160)); cr_vec->push_back(std::make_pair(192, cr_stats->ubwc_stats.nCRStatsTile192)); cr_vec->push_back(std::make_pair(256, cr_stats->ubwc_stats.nCRStatsTile256)); break; default: DLOGW("Invalid UBWC Version %d", cr_stats->version); break; } // switch(cr_stats->version) } // if (cr_stats->bDatvalid) } DisplayError HWCLayer::SetMetaData(const private_handle_t *pvt_handle, Layer *layer) { LayerBuffer *layer_buffer = &layer->input_buffer; private_handle_t *handle = const_cast(pvt_handle); float fps = 0; uint32_t frame_rate = layer->frame_rate; if (getMetaData(handle, GET_REFRESH_RATE, &fps) == 0) { frame_rate = (fps != 0) ? RoundToStandardFPS(fps) : layer->frame_rate; has_metadata_refresh_rate_ = true; } int32_t interlaced = 0; getMetaData(handle, GET_PP_PARAM_INTERLACED, &interlaced); bool interlace = interlaced ? true : false; if (interlace != layer_buffer->flags.interlace) { DLOGI("Layer buffer interlaced metadata has changed. old=%d, new=%d", layer_buffer->flags.interlace, interlace); } uint32_t linear_format = 0; if (getMetaData(handle, GET_LINEAR_FORMAT, &linear_format) == 0) { layer_buffer->format = GetSDMFormat(INT32(linear_format), 0); } if ((interlace != layer_buffer->flags.interlace) || (frame_rate != layer->frame_rate)) { // Layer buffer metadata has changed. layer->frame_rate = frame_rate; layer_buffer->flags.interlace = interlace; layer_->update_mask.set(kMetadataUpdate); } // Check if metadata is set struct UBWCStats cr_stats[NUM_UBWC_CR_STATS_LAYERS] = {}; for (int i = 0; i < NUM_UBWC_CR_STATS_LAYERS; i++) { layer_buffer->ubwc_crstats[i].clear(); } if (getMetaData(handle, GET_UBWC_CR_STATS_INFO, cr_stats) == 0) { // Only copy top layer for now as only top field for interlaced is used GetUBWCStatsFromMetaData(&cr_stats[0], &(layer_buffer->ubwc_crstats[0])); } // if (getMetaData) uint32_t single_buffer = 0; getMetaData(const_cast(handle), GET_SINGLE_BUFFER_MODE, &single_buffer); single_buffer_ = (single_buffer == 1); // Handle colorMetaData / Dataspace handling now ValidateAndSetCSC(handle); return kErrorNone; } bool HWCLayer::IsDataSpaceSupported() { if (client_requested_ != HWC2::Composition::Device && client_requested_ != HWC2::Composition::Cursor) { // Layers marked for GPU can have any dataspace return true; } return dataspace_supported_; } void HWCLayer::ValidateAndSetCSC(const private_handle_t *handle) { LayerBuffer *layer_buffer = &layer_->input_buffer; bool use_color_metadata = true; ColorMetaData csc = {}; if (dataspace_ != HAL_DATASPACE_UNKNOWN) { use_color_metadata = false; bool valid_csc = GetSDMColorSpace(dataspace_, &csc); if (!valid_csc) { dataspace_supported_ = false; return; } if (layer_buffer->color_metadata.transfer != csc.transfer || layer_buffer->color_metadata.colorPrimaries != csc.colorPrimaries || layer_buffer->color_metadata.range != csc.range) { // ColorMetadata updated. Needs validate. layer_->update_mask.set(kMetadataUpdate); // if we are here here, update the sdm layer csc. layer_buffer->color_metadata.transfer = csc.transfer; layer_buffer->color_metadata.colorPrimaries = csc.colorPrimaries; layer_buffer->color_metadata.range = csc.range; } } if (IsBT2020(layer_buffer->color_metadata.colorPrimaries)) { // android_dataspace_t doesnt support mastering display and light levels // so retrieve it from metadata for BT2020(HDR) use_color_metadata = true; } if (use_color_metadata) { ColorMetaData new_metadata = layer_buffer->color_metadata; if (sdm::SetCSC(handle, &new_metadata) == kErrorNone) { // If dataspace is KNOWN, overwrite the gralloc metadata CSC using the previously derived CSC // from dataspace. if (dataspace_ != HAL_DATASPACE_UNKNOWN) { new_metadata.colorPrimaries = layer_buffer->color_metadata.colorPrimaries; new_metadata.transfer = layer_buffer->color_metadata.transfer; new_metadata.range = layer_buffer->color_metadata.range; } if ((layer_buffer->color_metadata.colorPrimaries != new_metadata.colorPrimaries) || (layer_buffer->color_metadata.transfer != new_metadata.transfer) || (layer_buffer->color_metadata.range != new_metadata.range)) { layer_buffer->color_metadata.colorPrimaries = new_metadata.colorPrimaries; layer_buffer->color_metadata.transfer = new_metadata.transfer; layer_buffer->color_metadata.range = new_metadata.range; layer_->update_mask.set(kMetadataUpdate); } if (layer_buffer->color_metadata.matrixCoefficients != new_metadata.matrixCoefficients) { layer_buffer->color_metadata.matrixCoefficients = new_metadata.matrixCoefficients; layer_->update_mask.set(kMetadataUpdate); } DLOGV_IF(kTagClient, "Layer id = %" PRIu64 " ColorVolEnabled = %d ContentLightLevelEnabled = %d " "cRIEnabled = %d Dynamic Metadata valid = %d size = %d", id_, new_metadata.masteringDisplayInfo.colorVolumeSEIEnabled, new_metadata.contentLightLevel.lightLevelSEIEnabled, new_metadata.cRI.criEnabled, new_metadata.dynamicMetaDataValid, new_metadata.dynamicMetaDataLen); // Read color metadata from gralloc handle if it's enabled by clients, this will override the // values set using the Composer API's(SetLayerPerFrameMetaData) if (new_metadata.masteringDisplayInfo.colorVolumeSEIEnabled && !SameConfig(&new_metadata.masteringDisplayInfo, &layer_buffer->color_metadata.masteringDisplayInfo, UINT32(sizeof(MasteringDisplay)))) { layer_buffer->color_metadata.masteringDisplayInfo = new_metadata.masteringDisplayInfo; layer_->update_mask.set(kMetadataUpdate); } if (new_metadata.contentLightLevel.lightLevelSEIEnabled && !SameConfig(&new_metadata.contentLightLevel, &layer_buffer->color_metadata.contentLightLevel, UINT32(sizeof(ContentLightLevel)))) { layer_buffer->color_metadata.contentLightLevel = new_metadata.contentLightLevel; layer_->update_mask.set(kMetadataUpdate); } if (new_metadata.cRI.criEnabled && !SameConfig(&new_metadata.cRI, &layer_buffer->color_metadata.cRI, UINT32(sizeof(ColorRemappingInfo)))) { layer_buffer->color_metadata.cRI = new_metadata.cRI; layer_->update_mask.set(kMetadataUpdate); } if (new_metadata.dynamicMetaDataValid && !SameConfig(layer_buffer->color_metadata.dynamicMetaDataPayload, new_metadata.dynamicMetaDataPayload, HDR_DYNAMIC_META_DATA_SZ)) { layer_buffer->color_metadata.dynamicMetaDataValid = true; layer_buffer->color_metadata.dynamicMetaDataLen = new_metadata.dynamicMetaDataLen; std::memcpy(layer_buffer->color_metadata.dynamicMetaDataPayload, new_metadata.dynamicMetaDataPayload, new_metadata.dynamicMetaDataLen); layer_->update_mask.set(kMetadataUpdate); } } else { dataspace_supported_ = false; return; } } dataspace_supported_ = true; } uint32_t HWCLayer::RoundToStandardFPS(float fps) { static const int32_t standard_fps[4] = {24, 30, 48, 60}; int32_t frame_rate = (uint32_t)(fps); int count = INT(sizeof(standard_fps) / sizeof(standard_fps[0])); for (int i = 0; i < count; i++) { if ((standard_fps[i] - frame_rate) < 2) { // Most likely used for video, the fps can fluctuate // Ex: b/w 29 and 30 for 30 fps clip return standard_fps[i]; } } return frame_rate; } void HWCLayer::SetComposition(const LayerComposition &sdm_composition) { auto hwc_composition = HWC2::Composition::Invalid; switch (sdm_composition) { case kCompositionGPU: hwc_composition = HWC2::Composition::Client; break; case kCompositionCursor: hwc_composition = HWC2::Composition::Cursor; break; default: hwc_composition = HWC2::Composition::Device; break; } // Update solid fill composition if (sdm_composition == kCompositionSDE && layer_->flags.solid_fill != 0) { hwc_composition = HWC2::Composition::SolidColor; } device_selected_ = hwc_composition; return; } void HWCLayer::PushBackReleaseFence(const shared_ptr &fence) { release_fences_.push_back(fence); } void HWCLayer::PopBackReleaseFence(shared_ptr *fence) { if (release_fences_.empty()) { return; } *fence = release_fences_.back(); release_fences_.pop_back(); } void HWCLayer::PopFrontReleaseFence(shared_ptr *fence) { if (release_fences_.empty()) { return; } *fence = release_fences_.front(); release_fences_.pop_front(); } bool HWCLayer::IsRotationPresent() { return ((layer_->transform.rotation != 0.0f) || layer_->transform.flip_horizontal || layer_->transform.flip_vertical); } bool HWCLayer::IsScalingPresent() { uint32_t src_width = static_cast(layer_->src_rect.right - layer_->src_rect.left); uint32_t src_height = static_cast(layer_->src_rect.bottom - layer_->src_rect.top); uint32_t dst_width = static_cast(layer_->dst_rect.right - layer_->dst_rect.left); uint32_t dst_height = static_cast(layer_->dst_rect.bottom - layer_->dst_rect.top); if ((layer_->transform.rotation == 90.0) || (layer_->transform.rotation == 270.0)) { std::swap(src_width, src_height); } return ((src_width != dst_width) || (dst_height != src_height)); } void HWCLayer::SetDirtyRegions(hwc_region_t surface_damage) { layer_->dirty_regions.clear(); for (uint32_t i = 0; i < surface_damage.numRects; i++) { LayerRect rect; SetRect(surface_damage.rects[i], &rect); layer_->dirty_regions.push_back(rect); } } void HWCLayer::SetLayerAsMask() { layer_->input_buffer.flags.mask_layer = true; DLOGV_IF(kTagClient, " Layer Id: ""[%" PRIu64 "]", id_); } } // namespace sdm