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vulkan_application.cc
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vulkan_application.cc
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// Copyright 2016 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "flutter/vulkan/vulkan_application.h"
#include <utility>
#include <vector>
#include "flutter/vulkan/vulkan_device.h"
#include "flutter/vulkan/vulkan_proc_table.h"
#include "flutter/vulkan/vulkan_utilities.h"
namespace vulkan {
VulkanApplication::VulkanApplication(
VulkanProcTable& p_vk,
const std::string& application_name,
std::vector<std::string> enabled_extensions,
uint32_t application_version,
uint32_t api_version)
: vk(p_vk), api_version_(api_version), valid_(false) {
// Check if we want to enable debugging.
std::vector<VkExtensionProperties> supported_extensions =
GetSupportedInstanceExtensions(vk);
bool enable_instance_debugging =
IsDebuggingEnabled() &&
ExtensionSupported(supported_extensions,
VulkanDebugReport::DebugExtensionName());
// Configure extensions.
if (enable_instance_debugging) {
enabled_extensions.emplace_back(VulkanDebugReport::DebugExtensionName());
}
#if OS_FUCHSIA
if (ExtensionSupported(supported_extensions,
VK_KHR_EXTERNAL_MEMORY_CAPABILITIES_EXTENSION_NAME)) {
enabled_extensions.emplace_back(
VK_KHR_EXTERNAL_MEMORY_CAPABILITIES_EXTENSION_NAME);
}
#endif
const char* extensions[enabled_extensions.size()];
for (size_t i = 0; i < enabled_extensions.size(); i++) {
extensions[i] = enabled_extensions[i].c_str();
}
// Configure layers.
const std::vector<std::string> enabled_layers = InstanceLayersToEnable(vk);
const char* layers[enabled_layers.size()];
for (size_t i = 0; i < enabled_layers.size(); i++) {
layers[i] = enabled_layers[i].c_str();
}
// Configure init structs.
const VkApplicationInfo info = {
.sType = VK_STRUCTURE_TYPE_APPLICATION_INFO,
.pNext = nullptr,
.pApplicationName = application_name.c_str(),
.applicationVersion = application_version,
.pEngineName = "FlutterEngine",
.engineVersion = VK_MAKE_VERSION(1, 0, 0),
.apiVersion = api_version_,
};
const VkInstanceCreateInfo create_info = {
.sType = VK_STRUCTURE_TYPE_INSTANCE_CREATE_INFO,
.pNext = nullptr,
.flags = 0,
.pApplicationInfo = &info,
.enabledLayerCount = static_cast<uint32_t>(enabled_layers.size()),
.ppEnabledLayerNames = layers,
.enabledExtensionCount = static_cast<uint32_t>(enabled_extensions.size()),
.ppEnabledExtensionNames = extensions,
};
// Perform initialization.
VkInstance instance = VK_NULL_HANDLE;
if (VK_CALL_LOG_ERROR(vk.CreateInstance(&create_info, nullptr, &instance)) !=
VK_SUCCESS) {
FXL_DLOG(INFO) << "Could not create application instance.";
return;
}
// Now that we have an instance, setup instance proc table entries.
if (!vk.SetupInstanceProcAddresses(instance)) {
FXL_DLOG(INFO) << "Could not setup instance proc addresses.";
return;
}
instance_ = {instance, [this](VkInstance i) {
FXL_LOG(INFO) << "Destroying Vulkan instance";
vk.DestroyInstance(i, nullptr);
}};
if (enable_instance_debugging) {
auto debug_report = std::make_unique<VulkanDebugReport>(vk, instance_);
if (!debug_report->IsValid()) {
FXL_LOG(INFO) << "Vulkan debugging was enabled but could not be setup "
"for this instance.";
} else {
debug_report_ = std::move(debug_report);
FXL_DLOG(INFO) << "Debug reporting is enabled.";
}
}
valid_ = true;
}
VulkanApplication::~VulkanApplication() = default;
bool VulkanApplication::IsValid() const {
return valid_;
}
uint32_t VulkanApplication::GetAPIVersion() const {
return api_version_;
}
const VulkanHandle<VkInstance>& VulkanApplication::GetInstance() const {
return instance_;
}
void VulkanApplication::ReleaseInstanceOwnership() {
instance_.ReleaseOwnership();
}
std::vector<VkPhysicalDevice> VulkanApplication::GetPhysicalDevices() const {
if (!IsValid()) {
return {};
}
uint32_t device_count = 0;
if (VK_CALL_LOG_ERROR(vk.EnumeratePhysicalDevices(instance_, &device_count,
nullptr)) != VK_SUCCESS) {
FXL_DLOG(INFO) << "Could not enumerate physical device.";
return {};
}
if (device_count == 0) {
// No available devices.
FXL_DLOG(INFO) << "No physical devices found.";
return {};
}
std::vector<VkPhysicalDevice> physical_devices;
physical_devices.resize(device_count);
if (VK_CALL_LOG_ERROR(vk.EnumeratePhysicalDevices(
instance_, &device_count, physical_devices.data())) != VK_SUCCESS) {
FXL_DLOG(INFO) << "Could not enumerate physical device.";
return {};
}
return physical_devices;
}
std::unique_ptr<VulkanDevice>
VulkanApplication::AcquireFirstCompatibleLogicalDevice() const {
for (auto device_handle : GetPhysicalDevices()) {
auto logical_device = std::make_unique<VulkanDevice>(vk, device_handle);
if (logical_device->IsValid()) {
return logical_device;
}
}
FXL_DLOG(INFO) << "Could not acquire compatible logical device.";
return nullptr;
}
std::vector<VkExtensionProperties>
VulkanApplication::GetSupportedInstanceExtensions(
const VulkanProcTable& vk) const {
if (!vk.EnumerateInstanceExtensionProperties) {
return std::vector<VkExtensionProperties>();
}
uint32_t count = 0;
if (VK_CALL_LOG_ERROR(vk.EnumerateInstanceExtensionProperties(
nullptr, &count, nullptr)) != VK_SUCCESS) {
return std::vector<VkExtensionProperties>();
}
if (count == 0) {
return std::vector<VkExtensionProperties>();
}
std::vector<VkExtensionProperties> properties;
properties.resize(count);
if (VK_CALL_LOG_ERROR(vk.EnumerateInstanceExtensionProperties(
nullptr, &count, properties.data())) != VK_SUCCESS) {
return std::vector<VkExtensionProperties>();
}
return properties;
}
bool VulkanApplication::ExtensionSupported(
const std::vector<VkExtensionProperties>& supported_instance_extensions,
std::string extension_name) {
uint32_t count = supported_instance_extensions.size();
for (size_t i = 0; i < count; i++) {
if (strncmp(supported_instance_extensions[i].extensionName,
extension_name.c_str(), extension_name.size()) == 0) {
return true;
}
}
return false;
}
} // namespace vulkan