/* * Copyright (c) 2017, The Linux Foundation. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials provided * with the distribution. * * Neither the name of The Linux Foundation nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include "hwc_display_external_test.h" #include "hwc_debugger.h" #define __CLASS__ "HWCDisplayExternalTest" namespace sdm { using std::array; int HWCDisplayExternalTest::Create(CoreInterface *core_intf, HWCBufferAllocator *buffer_allocator, HWCCallbacks *callbacks, qService::QService *qservice, uint32_t panel_bpp, uint32_t pattern_type, HWCDisplay **hwc_display) { HWCDisplay *hwc_external_test = new HWCDisplayExternalTest(core_intf, buffer_allocator, callbacks, qservice, panel_bpp, pattern_type); int status = static_cast(hwc_external_test)->Init(); if (status) { delete hwc_external_test; return status; } *hwc_display = hwc_external_test; DLOGE("EXTERNAL panel_bpp %d, pattern_type %d", panel_bpp, pattern_type); return status; } void HWCDisplayExternalTest::Destroy(HWCDisplay *hwc_display) { static_cast(hwc_display)->Deinit(); delete hwc_display; } HWCDisplayExternalTest::HWCDisplayExternalTest(CoreInterface *core_intf, HWCBufferAllocator *buffer_allocator, HWCCallbacks *callbacks, qService::QService *qservice, uint32_t panel_bpp, uint32_t pattern_type) : HWCDisplay(core_intf, callbacks, kHDMI, HWC_DISPLAY_EXTERNAL, false, qservice, DISPLAY_CLASS_EXTERNAL, buffer_allocator), panel_bpp_(panel_bpp), pattern_type_(pattern_type) { } int HWCDisplayExternalTest::Init() { uint32_t external_width = 0; uint32_t external_height = 0; int status = HWCDisplay::Init(); if (status) { DLOGE("HWCDisplayExternalTest::Init status = %d ", status); return status; } status = CreateLayerStack(); if (status) { Deinit(); return status; } DisplayError error = HWCDisplay::GetMixerResolution(&external_width, &external_height); if (error != kErrorNone) { Deinit(); return -EINVAL; } status = HWCDisplay::SetFrameBufferResolution(external_width, external_height); if (status) { Deinit(); DLOGE("HWCDisplayExternalTest:: set fb resolution status = %d ", status); return status; } return status; } int HWCDisplayExternalTest::Deinit() { DestroyLayerStack(); return HWCDisplay::Deinit(); } HWC2::Error HWCDisplayExternalTest::Validate(uint32_t *out_num_types, uint32_t *out_num_requests) { auto status = HWC2::Error::None; if (secure_display_active_) { MarkLayersForGPUBypass(); return status; } if (layer_set_.empty()) { flush_ = true; return status; } if (shutdown_pending_) { return status; } DisplayError error = display_intf_->Prepare(&layer_stack_); if (error != kErrorNone) { if (error == kErrorShutDown) { shutdown_pending_ = true; } else if (error != kErrorPermission) { DLOGE("Prepare failed. Error = %d", error); // To prevent surfaceflinger infinite wait, flush the previous frame during Commit() // so that previous buffer and fences are released, and override the error. flush_ = true; } } MarkLayersForGPUBypass(); return status; } HWC2::Error HWCDisplayExternalTest::Present(int32_t *out_retire_fence) { auto status = HWC2::Error::None; if (secure_display_active_) { return status; } if (shutdown_pending_) { return status; } DumpInputBuffer(); if (!flush_) { DisplayError error = kErrorUndefined; error = display_intf_->Commit(&layer_stack_); if (error == kErrorNone) { // A commit is successfully submitted, start flushing on failure now onwards. flush_on_error_ = true; } else if (error == kErrorShutDown) { shutdown_pending_ = true; status = HWC2::Error::Unsupported; } else if (error == kErrorNotValidated) { status = HWC2::Error::NotValidated; } else if (error != kErrorPermission) { DLOGE("Commit failed. Error = %d", error); // To prevent surfaceflinger infinite wait, flush the previous frame during Commit() // so that previous buffer and fences are released, and override the error. flush_ = true; } } PostCommit(out_retire_fence); return status; } void HWCDisplayExternalTest::SetSecureDisplay(bool secure_display_active) { if (secure_display_active_ != secure_display_active) { secure_display_active_ = secure_display_active; if (secure_display_active_) { DisplayError error = display_intf_->Flush(); if (error != kErrorNone) { DLOGE("Flush failed. Error = %d", error); } } } return; } int HWCDisplayExternalTest::Perform(uint32_t operation, ...) { return 0; } void HWCDisplayExternalTest::DumpInputBuffer() { if (!dump_frame_count_ || flush_ || !dump_input_layers_) { return; } const char *dir_path = "/data/vendor/display/frame_dump_external"; uint32_t width = buffer_info_.alloc_buffer_info.aligned_width; uint32_t height = buffer_info_.alloc_buffer_info.aligned_height; string format_str = GetFormatString(buffer_info_.buffer_config.format); char *buffer = reinterpret_cast(mmap(NULL, buffer_info_.alloc_buffer_info.size, PROT_READ|PROT_WRITE, MAP_SHARED, buffer_info_.alloc_buffer_info.fd, 0)); if (buffer == MAP_FAILED) { DLOGW("mmap failed. err = %d", errno); return; } if (mkdir(dir_path, 0777) != 0 && errno != EEXIST) { DLOGW("Failed to create %s directory errno = %d, desc = %s", dir_path, errno, strerror(errno)); return; } // if directory exists already, need to explicitly change the permission. if (errno == EEXIST && chmod(dir_path, 0777) != 0) { DLOGW("Failed to change permissions on %s directory", dir_path); return; } if (buffer) { std::stringstream dump_file_name; dump_file_name << dir_path; dump_file_name << "/input_layer_" << width << "x" << height << "_" << format_str << ".raw"; std::fstream fs; fs.open(dump_file_name.str().c_str(), std::fstream::in | std::fstream::out | std::fstream::app); if (!fs.is_open()) { DLOGI("File open failed %s", dump_file_name.str().c_str()); return; } fs.write(buffer, (std::streamsize)buffer_info_.alloc_buffer_info.size); fs.close(); DLOGI("Frame Dump %s: is successful", dump_file_name.str().c_str()); } // Dump only once as the content is going to be same for all draw cycles if (dump_frame_count_) { dump_frame_count_ = 0; } if (munmap(buffer, buffer_info_.alloc_buffer_info.size) != 0) { DLOGW("munmap failed. err = %d", errno); return; } } void HWCDisplayExternalTest::CalcCRC(uint32_t color_val, std::bitset<16> *crc_data) { std::bitset<16> color = {}; std::bitset<16> temp_crc = {}; switch (panel_bpp_) { case kDisplayBpp18: color = (color_val & 0xFC) << 8; break; case kDisplayBpp24: color = color_val << 8; break; case kDisplayBpp30: color = color_val << 6; break; default: return; } temp_crc[15] = (*crc_data)[0] ^ (*crc_data)[1] ^ (*crc_data)[2] ^ (*crc_data)[3] ^ (*crc_data)[4] ^ (*crc_data)[5] ^ (*crc_data)[6] ^ (*crc_data)[7] ^ (*crc_data)[8] ^ (*crc_data)[9] ^ (*crc_data)[10] ^ (*crc_data)[11] ^ (*crc_data)[12] ^ (*crc_data)[14] ^ (*crc_data)[15] ^ color[0] ^ color[1] ^ color[2] ^ color[3] ^ color[4] ^ color[5] ^ color[6] ^ color[7] ^ color[8] ^ color[9] ^ color[10] ^ color[11] ^ color[12] ^ color[14] ^ color[15]; temp_crc[14] = (*crc_data)[12] ^ (*crc_data)[13] ^ color[12] ^ color[13]; temp_crc[13] = (*crc_data)[11] ^ (*crc_data)[12] ^ color[11] ^ color[12]; temp_crc[12] = (*crc_data)[10] ^ (*crc_data)[11] ^ color[10] ^ color[11]; temp_crc[11] = (*crc_data)[9] ^ (*crc_data)[10] ^ color[9] ^ color[10]; temp_crc[10] = (*crc_data)[8] ^ (*crc_data)[9] ^ color[8] ^ color[9]; temp_crc[9] = (*crc_data)[7] ^ (*crc_data)[8] ^ color[7] ^ color[8]; temp_crc[8] = (*crc_data)[6] ^ (*crc_data)[7] ^ color[6] ^ color[7]; temp_crc[7] = (*crc_data)[5] ^ (*crc_data)[6] ^ color[5] ^ color[6]; temp_crc[6] = (*crc_data)[4] ^ (*crc_data)[5] ^ color[4] ^ color[5]; temp_crc[5] = (*crc_data)[3] ^ (*crc_data)[4] ^ color[3] ^ color[4]; temp_crc[4] = (*crc_data)[2] ^ (*crc_data)[3] ^ color[2] ^ color[3]; temp_crc[3] = (*crc_data)[1] ^ (*crc_data)[2] ^ (*crc_data)[15] ^ color[1] ^ color[2] ^ color[15]; temp_crc[2] = (*crc_data)[0] ^ (*crc_data)[1] ^ (*crc_data)[14] ^ color[0] ^ color[1] ^ color[14]; temp_crc[1] = (*crc_data)[1] ^ (*crc_data)[2] ^ (*crc_data)[3] ^ (*crc_data)[4] ^ (*crc_data)[5] ^ (*crc_data)[6] ^ (*crc_data)[7] ^ (*crc_data)[8] ^ (*crc_data)[9] ^ (*crc_data)[10] ^ (*crc_data)[11] ^ (*crc_data)[12] ^ (*crc_data)[13] ^ (*crc_data)[14] ^ color[1] ^ color[2] ^ color[3] ^ color[4] ^ color[5] ^ color[6] ^ color[7] ^ color[8] ^ color[9] ^ color[10] ^ color[11] ^ color[12] ^ color[13] ^ color[14]; temp_crc[0] = (*crc_data)[0] ^ (*crc_data)[1] ^ (*crc_data)[2] ^ (*crc_data)[3] ^ (*crc_data)[4] ^ (*crc_data)[5] ^ (*crc_data)[6] ^ (*crc_data)[7] ^ (*crc_data)[8] ^ (*crc_data)[9] ^ (*crc_data)[10] ^ (*crc_data)[11] ^ (*crc_data)[12] ^ (*crc_data)[13] ^ (*crc_data)[15] ^ color[0] ^ color[1] ^ color[2] ^ color[3] ^ color[4] ^ color[5] ^ color[6] ^ color[7] ^ color[8] ^ color[9] ^ color[10] ^ color[11] ^ color[12] ^ color[13] ^ color[15]; (*crc_data) = temp_crc; } int HWCDisplayExternalTest::FillBuffer() { uint8_t *buffer = reinterpret_cast(mmap(NULL, buffer_info_.alloc_buffer_info.size, PROT_READ|PROT_WRITE, MAP_SHARED, buffer_info_.alloc_buffer_info.fd, 0)); if (buffer == MAP_FAILED) { DLOGE("mmap failed. err = %d", errno); return -EFAULT; } switch (pattern_type_) { case kPatternColorRamp: GenerateColorRamp(buffer); break; case kPatternBWVertical: GenerateBWVertical(buffer); break; case kPatternColorSquare: GenerateColorSquare(buffer); break; default: DLOGW("Invalid Pattern type %d", pattern_type_); return -EINVAL; } if (munmap(buffer, buffer_info_.alloc_buffer_info.size) != 0) { DLOGE("munmap failed. err = %d", errno); return -EFAULT; } return 0; } int HWCDisplayExternalTest::GetStride(LayerBufferFormat format, uint32_t width, uint32_t *stride) { switch (format) { case kFormatRGBA8888: case kFormatRGBA1010102: *stride = width * 4; break; case kFormatRGB888: *stride = width * 3; break; default: DLOGE("Unsupported format type %d", format); return -EINVAL; } return 0; } void HWCDisplayExternalTest::PixelCopy(uint32_t red, uint32_t green, uint32_t blue, uint32_t alpha, uint8_t **buffer) { LayerBufferFormat format = buffer_info_.buffer_config.format; switch (format) { case kFormatRGBA8888: *(*buffer)++ = UINT8(red & 0xFF); *(*buffer)++ = UINT8(green & 0xFF); *(*buffer)++ = UINT8(blue & 0xFF); *(*buffer)++ = UINT8(alpha & 0xFF); break; case kFormatRGB888: *(*buffer)++ = UINT8(red & 0xFF); *(*buffer)++ = UINT8(green & 0xFF); *(*buffer)++ = UINT8(blue & 0xFF); break; case kFormatRGBA1010102: // Lower 8 bits of red *(*buffer)++ = UINT8(red & 0xFF); // Upper 2 bits of Red + Lower 6 bits of green *(*buffer)++ = UINT8(((green & 0x3F) << 2) | ((red >> 0x8) & 0x3)); // Upper 4 bits of green + Lower 4 bits of blue *(*buffer)++ = UINT8(((blue & 0xF) << 4) | ((green >> 6) & 0xF)); // Upper 6 bits of blue + Lower 2 bits of alpha *(*buffer)++ = UINT8(((alpha & 0x3) << 6) | ((blue >> 4) & 0x3F)); break; default: DLOGW("format not supported format = %d", format); break; } } void HWCDisplayExternalTest::GenerateColorRamp(uint8_t *buffer) { uint32_t width = buffer_info_.buffer_config.width; uint32_t height = buffer_info_.buffer_config.height; LayerBufferFormat format = buffer_info_.buffer_config.format; uint32_t aligned_width = buffer_info_.alloc_buffer_info.aligned_width; uint32_t buffer_stride = 0; uint32_t color_ramp = 0; uint32_t start_color_val = 0; uint32_t step_size = 1; uint32_t ramp_width = 0; uint32_t ramp_height = 0; uint32_t shift_by = 0; std::bitset<16> crc_red = {}; std::bitset<16> crc_green = {}; std::bitset<16> crc_blue = {}; switch (panel_bpp_) { case kDisplayBpp18: ramp_height = 64; ramp_width = 64; shift_by = 2; break; case kDisplayBpp24: ramp_height = 64; ramp_width = 256; break; case kDisplayBpp30: ramp_height = 32; ramp_width = 256; start_color_val = 0x180; break; default: return; } GetStride(format, aligned_width, &buffer_stride); for (uint32_t loop_height = 0; loop_height < height; loop_height++) { uint32_t color_value = start_color_val; uint8_t *temp = buffer + (loop_height * buffer_stride); for (uint32_t loop_width = 0; loop_width < width; loop_width++) { if (color_ramp == kColorRedRamp) { PixelCopy(color_value, 0, 0, 0, &temp); CalcCRC(color_value, &crc_red); CalcCRC(0, &crc_green); CalcCRC(0, &crc_blue); } if (color_ramp == kColorGreenRamp) { PixelCopy(0, color_value, 0, 0, &temp); CalcCRC(0, &crc_red); CalcCRC(color_value, &crc_green); CalcCRC(0, &crc_blue); } if (color_ramp == kColorBlueRamp) { PixelCopy(0, 0, color_value, 0, &temp); CalcCRC(0, &crc_red); CalcCRC(0, &crc_green); CalcCRC(color_value, &crc_blue); } if (color_ramp == kColorWhiteRamp) { PixelCopy(color_value, color_value, color_value, 0, &temp); CalcCRC(color_value, &crc_red); CalcCRC(color_value, &crc_green); CalcCRC(color_value, &crc_blue); } color_value = (start_color_val + (((loop_width + 1) % ramp_width) * step_size)) << shift_by; } if (panel_bpp_ == kDisplayBpp30 && ((loop_height + 1) % ramp_height) == 0) { if (start_color_val == 0x180) { start_color_val = 0; step_size = 4; } else { start_color_val = 0x180; step_size = 1; color_ramp = (color_ramp + 1) % 4; } continue; } if (((loop_height + 1) % ramp_height) == 0) { color_ramp = (color_ramp + 1) % 4; } } DLOGI("CRC red %x", crc_red.to_ulong()); DLOGI("CRC green %x", crc_green.to_ulong()); DLOGI("CRC blue %x", crc_blue.to_ulong()); } void HWCDisplayExternalTest::GenerateBWVertical(uint8_t *buffer) { uint32_t width = buffer_info_.buffer_config.width; uint32_t height = buffer_info_.buffer_config.height; LayerBufferFormat format = buffer_info_.buffer_config.format; uint32_t aligned_width = buffer_info_.alloc_buffer_info.aligned_width; uint32_t buffer_stride = 0; uint32_t bits_per_component = panel_bpp_ / 3; uint32_t max_color_val = (1 << bits_per_component) - 1; std::bitset<16> crc_red = {}; std::bitset<16> crc_green = {}; std::bitset<16> crc_blue = {}; if (panel_bpp_ == kDisplayBpp18) { max_color_val <<= 2; } GetStride(format, aligned_width, &buffer_stride); for (uint32_t loop_height = 0; loop_height < height; loop_height++) { uint32_t color = 0; uint8_t *temp = buffer + (loop_height * buffer_stride); for (uint32_t loop_width = 0; loop_width < width; loop_width++) { if (color == kColorBlack) { PixelCopy(0, 0, 0, 0, &temp); CalcCRC(0, &crc_red); CalcCRC(0, &crc_green); CalcCRC(0, &crc_blue); } if (color == kColorWhite) { PixelCopy(max_color_val, max_color_val, max_color_val, 0, &temp); CalcCRC(max_color_val, &crc_red); CalcCRC(max_color_val, &crc_green); CalcCRC(max_color_val, &crc_blue); } color = (color + 1) % 2; } } DLOGI("CRC red %x", crc_red.to_ulong()); DLOGI("CRC green %x", crc_green.to_ulong()); DLOGI("CRC blue %x", crc_blue.to_ulong()); } void HWCDisplayExternalTest::GenerateColorSquare(uint8_t *buffer) { uint32_t width = buffer_info_.buffer_config.width; uint32_t height = buffer_info_.buffer_config.height; LayerBufferFormat format = buffer_info_.buffer_config.format; uint32_t aligned_width = buffer_info_.alloc_buffer_info.aligned_width; uint32_t buffer_stride = 0; uint32_t max_color_val = 0; uint32_t min_color_val = 0; std::bitset<16> crc_red = {}; std::bitset<16> crc_green = {}; std::bitset<16> crc_blue = {}; switch (panel_bpp_) { case kDisplayBpp18: max_color_val = 63 << 2; // CEA Dynamic range for 18bpp 0 - 63 min_color_val = 0; break; case kDisplayBpp24: max_color_val = 235; // CEA Dynamic range for 24bpp 16 - 235 min_color_val = 16; break; case kDisplayBpp30: max_color_val = 940; // CEA Dynamic range for 30bpp 64 - 940 min_color_val = 64; break; default: return; } array, 8> colors = {{ {{max_color_val, max_color_val, max_color_val}}, // White Color {{max_color_val, max_color_val, min_color_val}}, // Yellow Color {{min_color_val, max_color_val, max_color_val}}, // Cyan Color {{min_color_val, max_color_val, min_color_val}}, // Green Color {{max_color_val, min_color_val, max_color_val}}, // Megenta Color {{max_color_val, min_color_val, min_color_val}}, // Red Color {{min_color_val, min_color_val, max_color_val}}, // Blue Color {{min_color_val, min_color_val, min_color_val}}, // Black Color }}; GetStride(format, aligned_width, &buffer_stride); for (uint32_t loop_height = 0; loop_height < height; loop_height++) { uint32_t color = 0; uint8_t *temp = buffer + (loop_height * buffer_stride); for (uint32_t loop_width = 0; loop_width < width; loop_width++) { PixelCopy(colors[color][0], colors[color][1], colors[color][2], 0, &temp); CalcCRC(colors[color][0], &crc_red); CalcCRC(colors[color][1], &crc_green); CalcCRC(colors[color][2], &crc_blue); if (((loop_width + 1) % 64) == 0) { color = (color + 1) % colors.size(); } } if (((loop_height + 1) % 64) == 0) { std::reverse(colors.begin(), (colors.end() - 1)); } } DLOGI("CRC red %x", crc_red.to_ulong()); DLOGI("CRC green %x", crc_green.to_ulong()); DLOGI("CRC blue %x", crc_blue.to_ulong()); } int HWCDisplayExternalTest::InitLayer(Layer *layer) { uint32_t active_config = 0; DisplayConfigVariableInfo var_info = {}; GetActiveDisplayConfig(&active_config); GetDisplayAttributesForConfig(INT32(active_config), &var_info); layer->flags.updating = 1; layer->src_rect = LayerRect(0, 0, FLOAT(var_info.x_pixels), FLOAT(var_info.y_pixels)); layer->dst_rect = layer->src_rect; layer->frame_rate = var_info.fps; layer->blending = kBlendingPremultiplied; layer->input_buffer.unaligned_width = var_info.x_pixels; layer->input_buffer.unaligned_height = var_info.y_pixels; buffer_info_.buffer_config.format = kFormatRGBA8888; if (layer->composition != kCompositionGPUTarget) { buffer_info_.buffer_config.width = var_info.x_pixels; buffer_info_.buffer_config.height = var_info.y_pixels; switch (panel_bpp_) { case kDisplayBpp18: case kDisplayBpp24: buffer_info_.buffer_config.format = kFormatRGB888; break; case kDisplayBpp30: buffer_info_.buffer_config.format = kFormatRGBA1010102; break; default: DLOGW("panel bpp not supported %d", panel_bpp_); return -EINVAL; } buffer_info_.buffer_config.buffer_count = 1; int ret = buffer_allocator_->AllocateBuffer(&buffer_info_); if (ret != 0) { DLOGE("Buffer allocation failed. ret: %d", ret); return -ENOMEM; } ret = FillBuffer(); if (ret != 0) { buffer_allocator_->FreeBuffer(&buffer_info_); return ret; } layer->input_buffer.width = buffer_info_.alloc_buffer_info.aligned_width; layer->input_buffer.height = buffer_info_.alloc_buffer_info.aligned_height; layer->input_buffer.size = buffer_info_.alloc_buffer_info.size; layer->input_buffer.planes[0].fd = buffer_info_.alloc_buffer_info.fd; layer->input_buffer.planes[0].stride = buffer_info_.alloc_buffer_info.stride; layer->input_buffer.format = buffer_info_.buffer_config.format; DLOGI("Input buffer WxH %dx%d format %s size %d fd %d stride %d", layer->input_buffer.width, layer->input_buffer.height, GetFormatString(layer->input_buffer.format), layer->input_buffer.size, layer->input_buffer.planes[0].fd, layer->input_buffer.planes[0].stride); } return 0; } int HWCDisplayExternalTest::DeinitLayer(Layer *layer) { if (layer->composition != kCompositionGPUTarget) { int ret = buffer_allocator_->FreeBuffer(&buffer_info_); if (ret != 0) { DLOGE("Buffer deallocation failed. ret: %d", ret); return -ENOMEM; } } return 0; } int HWCDisplayExternalTest::CreateLayerStack() { for (uint32_t i = 0; i < (kTestLayerCnt + 1 /* one dummy gpu_target layer */); i++) { Layer *layer = new Layer(); if (i == kTestLayerCnt) { layer->composition = kCompositionGPUTarget; } DLOGE("External :: CreateLayerStack %d", i); int ret = InitLayer(layer); if (ret != 0) { delete layer; return ret; } layer_stack_.layers.push_back(layer); } return 0; } int HWCDisplayExternalTest::DestroyLayerStack() { for (uint32_t i = 0; i < UINT32(layer_stack_.layers.size()); i++) { Layer *layer = layer_stack_.layers.at(i); int ret = DeinitLayer(layer); if (ret != 0) { return ret; } delete layer; } layer_stack_.layers = {}; return 0; } HWC2::Error HWCDisplayExternalTest::PostCommit(int32_t *out_retire_fence) { auto status = HWC2::Error::None; // Do no call flush on errors, if a successful buffer is never submitted. if (flush_ && flush_on_error_) { display_intf_->Flush(); } if (!flush_) { for (size_t i = 0; i < layer_stack_.layers.size(); i++) { Layer *layer = layer_stack_.layers.at(i); LayerBuffer &layer_buffer = layer->input_buffer; close(layer_buffer.release_fence_fd); layer_buffer.release_fence_fd = -1; } close(layer_stack_.retire_fence_fd); layer_stack_.retire_fence_fd = -1; *out_retire_fence = -1; } flush_ = false; return status; } } // namespace sdm