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android/platform/external/angle/refs/heads/android12-prebuilt-test/./src/common/vulkan/vulkan_icd.cpp
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//
// Copyright 2020 The ANGLE Project Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
//
// vulkan_icd.cpp : Helper for creating vulkan instances & selecting physical device.
#include "common/vulkan/vulkan_icd.h"
#include <functional>
#include <vector>
#include "common/bitset_utils.h"
#include "common/debug.h"
#include "common/system_utils.h"
#include "common/vulkan/vk_google_filtering_precision.h"
namespace
{
void ResetEnvironmentVar(const char *variableName, const Optional<std::string> &value)
{
if (!value.valid())
{
return;
}
if (value.value().empty())
{
angle::UnsetEnvironmentVar(variableName);
}
else
{
angle::SetEnvironmentVar(variableName, value.value().c_str());
}
}
} // namespace
namespace angle
{
namespace vk
{
namespace
{
// This function is unused on Android/Fuschia/GGP
#if !defined(ANGLE_PLATFORM_ANDROID) && !defined(ANGLE_PLATFORM_FUCHSIA) && \
!defined(ANGLE_PLATFORM_GGP)
const std::string WrapICDEnvironment(const char *icdEnvironment)
{
// The libraries are bundled into the module directory
std::string ret = ConcatenatePath(angle::GetModuleDirectory(), icdEnvironment);
return ret;
}
constexpr char kLoaderLayersPathEnv[] = "VK_LAYER_PATH";
#endif
constexpr char kLoaderICDFilenamesEnv[] = "VK_ICD_FILENAMES";
constexpr char kANGLEPreferredDeviceEnv[] = "ANGLE_PREFERRED_DEVICE";
constexpr char kValidationLayersCustomSTypeListEnv[] = "VK_LAYER_CUSTOM_STYPE_LIST";
constexpr uint32_t kMockVendorID = 0xba5eba11;
constexpr uint32_t kMockDeviceID = 0xf005ba11;
constexpr char kMockDeviceName[] = "Vulkan Mock Device";
constexpr uint32_t kGoogleVendorID = 0x1AE0;
constexpr uint32_t kSwiftShaderDeviceID = 0xC0DE;
constexpr char kSwiftShaderDeviceName[] = "SwiftShader Device";
using ICDFilterFunc = std::function<bool(const VkPhysicalDeviceProperties &)>;
ICDFilterFunc GetFilterForICD(vk::ICD preferredICD)
{
switch (preferredICD)
{
case vk::ICD::Mock:
return [](const VkPhysicalDeviceProperties &deviceProperties) {
return ((deviceProperties.vendorID == kMockVendorID) &&
(deviceProperties.deviceID == kMockDeviceID) &&
(strcmp(deviceProperties.deviceName, kMockDeviceName) == 0));
};
case vk::ICD::SwiftShader:
return [](const VkPhysicalDeviceProperties &deviceProperties) {
return ((deviceProperties.vendorID == kGoogleVendorID) &&
(deviceProperties.deviceID == kSwiftShaderDeviceID) &&
(strncmp(deviceProperties.deviceName, kSwiftShaderDeviceName,
strlen(kSwiftShaderDeviceName)) == 0));
};
default:
const std::string anglePreferredDevice =
angle::GetEnvironmentVar(kANGLEPreferredDeviceEnv);
return [anglePreferredDevice](const VkPhysicalDeviceProperties &deviceProperties) {
return (anglePreferredDevice.empty() ||
anglePreferredDevice == deviceProperties.deviceName);
};
}
}
} // namespace
// If we're loading the validation layers, we could be running from any random directory.
// Change to the executable directory so we can find the layers, then change back to the
// previous directory to be safe we don't disrupt the application.
ScopedVkLoaderEnvironment::ScopedVkLoaderEnvironment(bool enableValidationLayers, vk::ICD icd)
: mEnableValidationLayers(enableValidationLayers),
mICD(icd),
mChangedCWD(false),
mChangedICDEnv(false)
{
// Changing CWD and setting environment variables makes no sense on Android,
// since this code is a part of Java application there.
// Android Vulkan loader doesn't need this either.
#if !defined(ANGLE_PLATFORM_ANDROID) && !defined(ANGLE_PLATFORM_FUCHSIA) && \
!defined(ANGLE_PLATFORM_GGP)
if (icd == vk::ICD::Mock)
{
if (!setICDEnvironment(WrapICDEnvironment(ANGLE_VK_MOCK_ICD_JSON).c_str()))
{
ERR() << "Error setting environment for Mock/Null Driver.";
}
}
# if defined(ANGLE_VK_SWIFTSHADER_ICD_JSON)
else if (icd == vk::ICD::SwiftShader)
{
if (!setICDEnvironment(WrapICDEnvironment(ANGLE_VK_SWIFTSHADER_ICD_JSON).c_str()))
{
ERR() << "Error setting environment for SwiftShader.";
}
}
# endif // defined(ANGLE_VK_SWIFTSHADER_ICD_JSON)
if (mEnableValidationLayers || icd != vk::ICD::Default)
{
const auto &cwd = angle::GetCWD();
if (!cwd.valid())
{
ERR() << "Error getting CWD for Vulkan layers init.";
mEnableValidationLayers = false;
mICD = vk::ICD::Default;
}
else
{
mPreviousCWD = cwd.value();
std::string moduleDir = angle::GetModuleDirectory();
mChangedCWD = angle::SetCWD(moduleDir.c_str());
if (!mChangedCWD)
{
ERR() << "Error setting CWD for Vulkan layers init.";
mEnableValidationLayers = false;
mICD = vk::ICD::Default;
}
}
}
// Override environment variable to use the ANGLE layers.
if (mEnableValidationLayers)
{
if (!angle::PrependPathToEnvironmentVar(kLoaderLayersPathEnv, ANGLE_VK_LAYERS_DIR))
{
ERR() << "Error setting environment for Vulkan layers init.";
mEnableValidationLayers = false;
}
if (!setCustomExtensionsEnvironment())
{
ERR() << "Error setting custom list for custom extensions for Vulkan layers init.";
mEnableValidationLayers = false;
}
}
#endif // !defined(ANGLE_PLATFORM_ANDROID)
}
ScopedVkLoaderEnvironment::~ScopedVkLoaderEnvironment()
{
if (mChangedCWD)
{
#if !defined(ANGLE_PLATFORM_ANDROID)
ASSERT(mPreviousCWD.valid());
angle::SetCWD(mPreviousCWD.value().c_str());
#endif // !defined(ANGLE_PLATFORM_ANDROID)
}
if (mChangedICDEnv)
{
ResetEnvironmentVar(kLoaderICDFilenamesEnv, mPreviousICDEnv);
}
ResetEnvironmentVar(kValidationLayersCustomSTypeListEnv, mPreviousCustomExtensionsEnv);
}
bool ScopedVkLoaderEnvironment::setICDEnvironment(const char *icd)
{
// Override environment variable to use built Mock ICD
// ANGLE_VK_ICD_JSON gets set to the built mock ICD in BUILD.gn
mPreviousICDEnv = angle::GetEnvironmentVar(kLoaderICDFilenamesEnv);
mChangedICDEnv = angle::SetEnvironmentVar(kLoaderICDFilenamesEnv, icd);
if (!mChangedICDEnv)
{
mICD = vk::ICD::Default;
}
return mChangedICDEnv;
}
bool ScopedVkLoaderEnvironment::setCustomExtensionsEnvironment()
{
struct CustomExtension
{
VkStructureType type;
size_t size;
};
CustomExtension customExtensions[] = {
{VK_STRUCTURE_TYPE_SAMPLER_FILTERING_PRECISION_GOOGLE,
sizeof(VkSamplerFilteringPrecisionGOOGLE)},
{VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PROVOKING_VERTEX_FEATURES_EXT,
sizeof(VkPhysicalDeviceProvokingVertexFeaturesEXT)},
{VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PROVOKING_VERTEX_PROPERTIES_EXT,
sizeof(VkPhysicalDeviceProvokingVertexPropertiesEXT)},
{VK_STRUCTURE_TYPE_PIPELINE_RASTERIZATION_PROVOKING_VERTEX_STATE_CREATE_INFO_EXT,
sizeof(VkPipelineRasterizationProvokingVertexStateCreateInfoEXT)},
};
mPreviousCustomExtensionsEnv = angle::GetEnvironmentVar(kValidationLayersCustomSTypeListEnv);
std::stringstream strstr;
for (CustomExtension &extension : customExtensions)
{
if (strstr.tellp() != std::streampos(0))
{
strstr << angle::GetPathSeparatorForEnvironmentVar();
}
strstr << extension.type << angle::GetPathSeparatorForEnvironmentVar() << extension.size;
}
return angle::PrependPathToEnvironmentVar(kValidationLayersCustomSTypeListEnv,
strstr.str().c_str());
}
void ChoosePhysicalDevice(const std::vector<VkPhysicalDevice> &physicalDevices,
vk::ICD preferredICD,
VkPhysicalDevice *physicalDeviceOut,
VkPhysicalDeviceProperties *physicalDevicePropertiesOut)
{
ASSERT(!physicalDevices.empty());
ICDFilterFunc filter = GetFilterForICD(preferredICD);
for (const VkPhysicalDevice &physicalDevice : physicalDevices)
{
vkGetPhysicalDeviceProperties(physicalDevice, physicalDevicePropertiesOut);
if (filter(*physicalDevicePropertiesOut))
{
*physicalDeviceOut = physicalDevice;
return;
}
}
WARN() << "Preferred device ICD not found. Using default physicalDevice instead.";
// Fall back to first device.
*physicalDeviceOut = physicalDevices[0];
vkGetPhysicalDeviceProperties(*physicalDeviceOut, physicalDevicePropertiesOut);
}
} // namespace vk
} // namespace angle