// Copyright (C) 2024 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 "ExtendedRenderControl.h" using gfxstream::guest::ChecksumCalculator; const std::string& ExtendedRCEncoderContext::queryHostExtensions() { if (!m_hostExtensions.empty()) { return m_hostExtensions; } // Extensions strings are usually quite long, preallocate enough here. std::string extensionsBuffer(1023, '\0'); // Returns the required size including the 0-terminator, so // account it when passing/using the sizes. int extensionSize = this->rcGetHostExtensionsString(this, extensionsBuffer.size() + 1, &extensionsBuffer[0]); if (extensionSize < 0) { extensionsBuffer.resize(-extensionSize); extensionSize = this->rcGetHostExtensionsString(this, -extensionSize + 1, &extensionsBuffer[0]); } if (extensionSize > 0) { extensionsBuffer.resize(extensionSize - 1); m_hostExtensions.swap(extensionsBuffer); } return m_hostExtensions; } void ExtendedRCEncoderContext::queryAndSetHostCompositionImpl() { const std::string& hostExtensions = queryHostExtensions(); // make sure V2 is checked first before V1, as host may declare supporting both if (hostExtensions.find(kHostCompositionV2) != std::string::npos) { this->setHostComposition(HOST_COMPOSITION_V2); } else if (hostExtensions.find(kHostCompositionV1) != std::string::npos) { this->setHostComposition(HOST_COMPOSITION_V1); } else { this->setHostComposition(HOST_COMPOSITION_NONE); } } void ExtendedRCEncoderContext::setChecksumHelper(ChecksumCalculator* calculator) { const std::string& hostExtensions = queryHostExtensions(); // check the host supported version uint32_t checksumVersion = 0; const char* checksumPrefix = ChecksumCalculator::getMaxVersionStrPrefix(); const char* glProtocolStr = strstr(hostExtensions.c_str(), checksumPrefix); if (glProtocolStr) { uint32_t maxVersion = ChecksumCalculator::getMaxVersion(); sscanf(glProtocolStr + strlen(checksumPrefix), "%d", &checksumVersion); if (maxVersion < checksumVersion) { checksumVersion = maxVersion; } // The ordering of the following two commands matters! // Must tell the host first before setting it in the guest this->rcSelectChecksumHelper(this, checksumVersion, 0); calculator->setVersion(checksumVersion); } } void ExtendedRCEncoderContext::queryAndSetSyncImpl() { const std::string& hostExtensions = queryHostExtensions(); if (hostExtensions.find(kRCNativeSyncV4) != std::string::npos) { this->setSyncImpl(SYNC_IMPL_NATIVE_SYNC_V4); } else if (hostExtensions.find(kRCNativeSyncV3) != std::string::npos) { this->setSyncImpl(SYNC_IMPL_NATIVE_SYNC_V3); } else if (hostExtensions.find(kRCNativeSyncV2) != std::string::npos) { this->setSyncImpl(SYNC_IMPL_NATIVE_SYNC_V2); } else { this->setSyncImpl(SYNC_IMPL_NONE); } } void ExtendedRCEncoderContext::queryAndSetDmaImpl() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kDmaExtStr_v1) != std::string::npos) { this->setDmaImpl(DMA_IMPL_v1); } else { this->setDmaImpl(DMA_IMPL_NONE); } } void ExtendedRCEncoderContext::queryAndSetGLESMaxVersion() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kGLESMaxVersion_2) != std::string::npos) { this->setGLESMaxVersion(GLES_MAX_VERSION_2); } else if (hostExtensions.find(kGLESMaxVersion_3_0) != std::string::npos) { this->setGLESMaxVersion(GLES_MAX_VERSION_3_0); } else if (hostExtensions.find(kGLESMaxVersion_3_1) != std::string::npos) { this->setGLESMaxVersion(GLES_MAX_VERSION_3_1); } else if (hostExtensions.find(kGLESMaxVersion_3_2) != std::string::npos) { this->setGLESMaxVersion(GLES_MAX_VERSION_3_2); } else { ALOGW("Unrecognized GLES max version string in extensions: %s", hostExtensions.c_str()); this->setGLESMaxVersion(GLES_MAX_VERSION_2); } } void ExtendedRCEncoderContext::queryAndSetNoErrorState(bool& hostError) { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kGLESUseHostError) != std::string::npos) { hostError = false; } } void ExtendedRCEncoderContext::queryAndSetDirectMemSupport() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kGLDirectMem) != std::string::npos) { this->featureInfo()->hasDirectMem = true; } } void ExtendedRCEncoderContext::queryAndSetVulkanSupport() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kVulkan) != std::string::npos) { this->featureInfo()->hasVulkan = true; } } void ExtendedRCEncoderContext::queryAndSetDeferredVulkanCommandsSupport() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kDeferredVulkanCommands) != std::string::npos) { this->featureInfo()->hasDeferredVulkanCommands = true; } } void ExtendedRCEncoderContext::queryAndSetVulkanNullOptionalStringsSupport() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kVulkanNullOptionalStrings) != std::string::npos) { this->featureInfo()->hasVulkanNullOptionalStrings = true; } } void ExtendedRCEncoderContext::queryAndSetVulkanCreateResourcesWithRequirementsSupport() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kVulkanCreateResourcesWithRequirements) != std::string::npos) { this->featureInfo()->hasVulkanCreateResourcesWithRequirements = true; } } void ExtendedRCEncoderContext::queryAndSetVulkanIgnoredHandles() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kVulkanIgnoredHandles) != std::string::npos) { this->featureInfo()->hasVulkanIgnoredHandles = true; } } void ExtendedRCEncoderContext::queryAndSetYUVCache() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kYUVCache) != std::string::npos) { this->featureInfo()->hasYUVCache = true; } } void ExtendedRCEncoderContext::queryAndSetAsyncUnmapBuffer() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kAsyncUnmapBuffer) != std::string::npos) { this->featureInfo()->hasAsyncUnmapBuffer = true; } } void ExtendedRCEncoderContext::queryAndSetVirtioGpuNext() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kVirtioGpuNext) != std::string::npos) { this->featureInfo()->hasVirtioGpuNext = true; } } void ExtendedRCEncoderContext::queryHasSharedSlotsHostMemoryAllocator() { const std::string& hostExtensions = queryHostExtensions(); if (hostExtensions.find(kHasSharedSlotsHostMemoryAllocator) != std::string::npos) { this->featureInfo()->hasSharedSlotsHostMemoryAllocator = true; } } void ExtendedRCEncoderContext::queryAndSetVulkanFreeMemorySync() { const std::string& hostExtensions = queryHostExtensions(); if (hostExtensions.find(kVulkanFreeMemorySync) != std::string::npos) { this->featureInfo()->hasVulkanFreeMemorySync = true; } } void ExtendedRCEncoderContext::queryAndSetVirtioGpuNativeSync() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kVirtioGpuNativeSync) != std::string::npos) { this->featureInfo()->hasVirtioGpuNativeSync = true; } } void ExtendedRCEncoderContext::queryAndSetVulkanShaderFloat16Int8Support() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kVulkanShaderFloat16Int8) != std::string::npos) { this->featureInfo()->hasVulkanShaderFloat16Int8 = true; } } void ExtendedRCEncoderContext::queryAndSetVulkanAsyncQueueSubmitSupport() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kVulkanAsyncQueueSubmit) != std::string::npos) { this->featureInfo()->hasVulkanAsyncQueueSubmit = true; } } void ExtendedRCEncoderContext::queryAndSetHostSideTracingSupport() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kHostSideTracing) != std::string::npos) { this->featureInfo()->hasHostSideTracing = true; } } void ExtendedRCEncoderContext::queryAndSetAsyncFrameCommands() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kAsyncFrameCommands) != std::string::npos) { this->featureInfo()->hasAsyncFrameCommands = true; } } void ExtendedRCEncoderContext::queryAndSetVulkanQueueSubmitWithCommandsSupport() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kVulkanQueueSubmitWithCommands) != std::string::npos) { this->featureInfo()->hasVulkanQueueSubmitWithCommands = true; } } void ExtendedRCEncoderContext::queryAndSetVulkanBatchedDescriptorSetUpdateSupport() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kVulkanBatchedDescriptorSetUpdate) != std::string::npos) { this->featureInfo()->hasVulkanBatchedDescriptorSetUpdate = true; } } void ExtendedRCEncoderContext::queryAndSetSyncBufferData() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kSyncBufferData) != std::string::npos) { this->featureInfo()->hasSyncBufferData = true; } } void ExtendedRCEncoderContext::queryAndSetVulkanAsyncQsri() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kVulkanAsyncQsri) != std::string::npos) { this->featureInfo()->hasVulkanAsyncQsri = true; } } void ExtendedRCEncoderContext::queryAndSetReadColorBufferDma() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kReadColorBufferDma) != std::string::npos) { this->featureInfo()->hasReadColorBufferDma = true; } } void ExtendedRCEncoderContext::queryAndSetHWCMultiConfigs() { std::string hostExtensions = queryHostExtensions(); if (hostExtensions.find(kHWCMultiConfigs) != std::string::npos) { this->featureInfo()->hasHWCMultiConfigs = true; } } void ExtendedRCEncoderContext::queryAndSetVulkanAuxCommandBufferMemory() { std::string hostExtensions = queryHostExtensions(); this->featureInfo()->hasVulkanAuxCommandMemory = hostExtensions.find(kVulkanAuxCommandMemory) != std::string::npos; } GLint ExtendedRCEncoderContext::queryVersion() { GLint version = this->rcGetRendererVersion(this); return version; } void ExtendedRCEncoderContext::setVulkanFeatureInfo(void* info) { struct EmulatorGfxStreamVkFeatureInfo* featureInfo = (struct EmulatorGfxStreamVkFeatureInfo*)info; featureInfo->hasDirectMem = this->featureInfo()->hasDirectMem; featureInfo->hasVulkan = this->featureInfo()->hasVulkan; featureInfo->hasDeferredVulkanCommands = this->featureInfo()->hasDeferredVulkanCommands; featureInfo->hasVulkanNullOptionalStrings = this->featureInfo()->hasVulkanNullOptionalStrings; featureInfo->hasVulkanCreateResourcesWithRequirements = this->featureInfo()->hasVulkanCreateResourcesWithRequirements; featureInfo->hasVulkanIgnoredHandles = this->featureInfo()->hasVulkanIgnoredHandles; featureInfo->hasVirtioGpuNext = this->featureInfo()->hasVirtioGpuNext; featureInfo->hasVulkanFreeMemorySync = this->featureInfo()->hasVulkanFreeMemorySync; featureInfo->hasVirtioGpuNativeSync = this->featureInfo()->hasVirtioGpuNativeSync; featureInfo->hasVulkanShaderFloat16Int8 = this->featureInfo()->hasVulkanShaderFloat16Int8; featureInfo->hasVulkanAsyncQueueSubmit = this->featureInfo()->hasVulkanAsyncQueueSubmit; featureInfo->hasVulkanQueueSubmitWithCommands = this->featureInfo()->hasVulkanQueueSubmitWithCommands; featureInfo->hasVulkanBatchedDescriptorSetUpdate = this->featureInfo()->hasVulkanBatchedDescriptorSetUpdate; featureInfo->hasVulkanAsyncQsri = this->featureInfo()->hasVulkanAsyncQsri; featureInfo->hasVulkanAuxCommandMemory = this->featureInfo()->hasVulkanAuxCommandMemory; }