/* * Copyright 2016 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "vk/GrVkExtensions.h" #include "vk/GrVkUtil.h" #include "SkTSearch.h" #include "SkTSort.h" namespace { // This cannot be static because it is used as a template parameter. inline bool extension_compare(const SkString& a, const SkString& b) { return strcmp(a.c_str(), b.c_str()) < 0; } } // finds the index of ext in strings or a negative result if ext is not found. static int find_string(const SkTArray& strings, const char ext[]) { if (strings.empty()) { return -1; } SkString extensionStr(ext); int idx = SkTSearch(&strings.front(), strings.count(), extensionStr, sizeof(SkString)); return idx; } #define GET_PROC_LOCAL(F, inst, device) PFN_vk ## F F = (PFN_vk ## F) fGetProc("vk" #F, inst, device) static uint32_t remove_patch_version(uint32_t specVersion) { return (specVersion >> 12) << 12; } bool GrVkExtensions::initInstance(uint32_t specVersion) { if (fGetProc == nullptr) { return false; } uint32_t nonPatchVersion = remove_patch_version(specVersion); GET_PROC_LOCAL(EnumerateInstanceExtensionProperties, VK_NULL_HANDLE, VK_NULL_HANDLE); GET_PROC_LOCAL(EnumerateInstanceLayerProperties, VK_NULL_HANDLE, VK_NULL_HANDLE); SkTLessFunctionToFunctorAdaptor cmp; if (!EnumerateInstanceExtensionProperties || !EnumerateInstanceLayerProperties) { return false; } // instance layers uint32_t layerCount = 0; VkResult res = EnumerateInstanceLayerProperties(&layerCount, nullptr); if (VK_SUCCESS != res) { return false; } VkLayerProperties* layers = new VkLayerProperties[layerCount]; res = EnumerateInstanceLayerProperties(&layerCount, layers); if (VK_SUCCESS != res) { delete[] layers; return false; } for (uint32_t i = 0; i < layerCount; ++i) { if (nonPatchVersion <= remove_patch_version(layers[i].specVersion)) { fInstanceLayerStrings->push_back() = layers[i].layerName; } } delete[] layers; if (!fInstanceLayerStrings->empty()) { SkTQSort(&fInstanceLayerStrings->front(), &fInstanceLayerStrings->back(), cmp); } // instance extensions // via Vulkan implementation and implicitly enabled layers uint32_t extensionCount = 0; res = EnumerateInstanceExtensionProperties(nullptr, &extensionCount, nullptr); if (VK_SUCCESS != res) { return false; } VkExtensionProperties* extensions = new VkExtensionProperties[extensionCount]; res = EnumerateInstanceExtensionProperties(nullptr, &extensionCount, extensions); if (VK_SUCCESS != res) { delete[] extensions; return false; } for (uint32_t i = 0; i < extensionCount; ++i) { fInstanceExtensionStrings->push_back() = extensions[i].extensionName; } delete [] extensions; // sort so we can search if (!fInstanceExtensionStrings->empty()) { SkTQSort(&fInstanceExtensionStrings->front(), &fInstanceExtensionStrings->back(), cmp); } // via explicitly enabled layers layerCount = fInstanceLayerStrings->count(); for (uint32_t layerIndex = 0; layerIndex < layerCount; ++layerIndex) { uint32_t extensionCount = 0; res = EnumerateInstanceExtensionProperties((*fInstanceLayerStrings)[layerIndex].c_str(), &extensionCount, nullptr); if (VK_SUCCESS != res) { return false; } VkExtensionProperties* extensions = new VkExtensionProperties[extensionCount]; res = EnumerateInstanceExtensionProperties((*fInstanceLayerStrings)[layerIndex].c_str(), &extensionCount, extensions); if (VK_SUCCESS != res) { delete[] extensions; return false; } for (uint32_t i = 0; i < extensionCount; ++i) { // if not already in the list, add it if (find_string(*fInstanceExtensionStrings, extensions[i].extensionName) < 0) { fInstanceExtensionStrings->push_back() = extensions[i].extensionName; SkTQSort(&fInstanceExtensionStrings->front(), &fInstanceExtensionStrings->back(), cmp); } } delete[] extensions; } return true; } bool GrVkExtensions::initDevice(uint32_t specVersion, VkInstance inst, VkPhysicalDevice physDev) { if (fGetProc == nullptr) { return false; } uint32_t nonPatchVersion = remove_patch_version(specVersion); GET_PROC_LOCAL(EnumerateDeviceExtensionProperties, inst, VK_NULL_HANDLE); GET_PROC_LOCAL(EnumerateDeviceLayerProperties, inst, VK_NULL_HANDLE); SkTLessFunctionToFunctorAdaptor cmp; if (!EnumerateDeviceExtensionProperties || !EnumerateDeviceLayerProperties) { return false; } // device layers uint32_t layerCount = 0; VkResult res = EnumerateDeviceLayerProperties(physDev, &layerCount, nullptr); if (VK_SUCCESS != res) { return false; } VkLayerProperties* layers = new VkLayerProperties[layerCount]; res = EnumerateDeviceLayerProperties(physDev, &layerCount, layers); if (VK_SUCCESS != res) { delete[] layers; return false; } for (uint32_t i = 0; i < layerCount; ++i) { if (nonPatchVersion <= remove_patch_version(layers[i].specVersion)) { fDeviceLayerStrings->push_back() = layers[i].layerName; } } delete[] layers; if (!fDeviceLayerStrings->empty()) { SkTLessFunctionToFunctorAdaptor cmp; SkTQSort(&fDeviceLayerStrings->front(), &fDeviceLayerStrings->back(), cmp); } // device extensions // via Vulkan implementation and implicitly enabled layers uint32_t extensionCount = 0; res = EnumerateDeviceExtensionProperties(physDev, nullptr, &extensionCount, nullptr); if (VK_SUCCESS != res) { return false; } VkExtensionProperties* extensions = new VkExtensionProperties[extensionCount]; res = EnumerateDeviceExtensionProperties(physDev, nullptr, &extensionCount, extensions); if (VK_SUCCESS != res) { delete[] extensions; return false; } for (uint32_t i = 0; i < extensionCount; ++i) { fDeviceExtensionStrings->push_back() = extensions[i].extensionName; } delete[] extensions; if (!fDeviceExtensionStrings->empty()) { SkTLessFunctionToFunctorAdaptor cmp; SkTQSort(&fDeviceExtensionStrings->front(), &fDeviceExtensionStrings->back(), cmp); } // via explicitly enabled layers layerCount = fDeviceLayerStrings->count(); for (uint32_t layerIndex = 0; layerIndex < layerCount; ++layerIndex) { uint32_t extensionCount = 0; res = EnumerateDeviceExtensionProperties(physDev, (*fDeviceLayerStrings)[layerIndex].c_str(), &extensionCount, nullptr); if (VK_SUCCESS != res) { return false; } VkExtensionProperties* extensions = new VkExtensionProperties[extensionCount]; res = EnumerateDeviceExtensionProperties(physDev, (*fDeviceLayerStrings)[layerIndex].c_str(), &extensionCount, extensions); if (VK_SUCCESS != res) { delete[] extensions; return false; } for (uint32_t i = 0; i < extensionCount; ++i) { // if not already in the list, add it if (find_string(*fDeviceExtensionStrings, extensions[i].extensionName) < 0) { fDeviceExtensionStrings->push_back() = extensions[i].extensionName; SkTQSort(&fDeviceExtensionStrings->front(), &fDeviceExtensionStrings->back(), cmp); } } delete[] extensions; } return true; } bool GrVkExtensions::hasInstanceExtension(const char ext[]) const { return find_string(*fInstanceExtensionStrings, ext) >= 0; } bool GrVkExtensions::hasDeviceExtension(const char ext[]) const { return find_string(*fDeviceExtensionStrings, ext) >= 0; } bool GrVkExtensions::hasInstanceLayer(const char ext[]) const { return find_string(*fInstanceLayerStrings, ext) >= 0; } bool GrVkExtensions::hasDeviceLayer(const char ext[]) const { return find_string(*fDeviceLayerStrings, ext) >= 0; } void GrVkExtensions::print(const char* sep) const { if (nullptr == sep) { sep = " "; } int cnt = fInstanceExtensionStrings->count(); SkDebugf("Instance Extensions: "); for (int i = 0; i < cnt; ++i) { SkDebugf("%s%s", (*fInstanceExtensionStrings)[i].c_str(), (i < cnt - 1) ? sep : ""); } cnt = fDeviceExtensionStrings->count(); SkDebugf("\nDevice Extensions: "); for (int i = 0; i < cnt; ++i) { SkDebugf("%s%s", (*fDeviceExtensionStrings)[i].c_str(), (i < cnt - 1) ? sep : ""); } cnt = fInstanceLayerStrings->count(); SkDebugf("\nInstance Layers: "); for (int i = 0; i < cnt; ++i) { SkDebugf("%s%s", (*fInstanceLayerStrings)[i].c_str(), (i < cnt - 1) ? sep : ""); } cnt = fDeviceLayerStrings->count(); SkDebugf("\nDevice Layers: "); for (int i = 0; i < cnt; ++i) { SkDebugf("%s%s", (*fDeviceLayerStrings)[i].c_str(), (i < cnt - 1) ? sep : ""); } }