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/*
* Copyright 2015 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.
*/
// module header
#include "loader.h"
#include "driver.h"
// standard C headers
#include <dirent.h>
#include <dlfcn.h>
#include <inttypes.h>
#include <pthread.h>
#include <stdlib.h>
#include <string.h>
#include <sys/prctl.h>
// standard C++ headers
#include <algorithm>
#include <mutex>
#include <sstream>
#include <string>
#include <unordered_map>
#include <vector>
// platform/library headers
#include <cutils/properties.h>
#include <hardware/hwvulkan.h>
#include <log/log.h>
#include <vulkan/vulkan_loader_data.h>
#include <vulkan/vk_layer_interface.h>
using namespace vulkan;
static const uint32_t kMaxPhysicalDevices = 4;
namespace {
// ----------------------------------------------------------------------------
// Standard-library allocator that delegates to VkAllocationCallbacks.
//
// TODO(jessehall): This class currently always uses
// VK_SYSTEM_ALLOCATION_SCOPE_INSTANCE. The scope to use could be a template
// parameter or a constructor parameter. The former would help catch bugs
// where we use the wrong scope, e.g. adding a command-scope string to an
// instance-scope vector. But that might also be pretty annoying to deal with.
template <class T>
class CallbackAllocator {
public:
typedef T value_type;
CallbackAllocator(const VkAllocationCallbacks* alloc_input)
: alloc(alloc_input) {}
template <class T2>
CallbackAllocator(const CallbackAllocator<T2>& other)
: alloc(other.alloc) {}
T* allocate(std::size_t n) {
void* mem =
alloc->pfnAllocation(alloc->pUserData, n * sizeof(T), alignof(T),
VK_SYSTEM_ALLOCATION_SCOPE_INSTANCE);
if (!mem)
throw std::bad_alloc();
return static_cast<T*>(mem);
}
void deallocate(T* array, std::size_t /*n*/) noexcept {
alloc->pfnFree(alloc->pUserData, array);
}
const VkAllocationCallbacks* alloc;
};
// These are needed in order to move Strings
template <class T>
bool operator==(const CallbackAllocator<T>& alloc1,
const CallbackAllocator<T>& alloc2) {
return alloc1.alloc == alloc2.alloc;
}
template <class T>
bool operator!=(const CallbackAllocator<T>& alloc1,
const CallbackAllocator<T>& alloc2) {
return !(alloc1 == alloc2);
}
template <class T>
using Vector = std::vector<T, CallbackAllocator<T>>;
typedef std::basic_string<char, std::char_traits<char>, CallbackAllocator<char>>
String;
// ----------------------------------------------------------------------------
// Global Data and Initialization
hwvulkan_device_t* g_hwdevice = nullptr;
InstanceExtensionSet g_driver_instance_extensions;
bool LoadVulkanHAL() {
VkResult vkresult;
uint32_t count;
if ((vkresult = g_hwdevice->EnumerateInstanceExtensionProperties(
nullptr, &count, nullptr)) != VK_SUCCESS) {
ALOGE("driver EnumerateInstanceExtensionProperties failed: %d",
vkresult);
return false;
}
VkExtensionProperties* extensions = static_cast<VkExtensionProperties*>(
alloca(count * sizeof(VkExtensionProperties)));
if ((vkresult = g_hwdevice->EnumerateInstanceExtensionProperties(
nullptr, &count, extensions)) != VK_SUCCESS) {
ALOGE("driver EnumerateInstanceExtensionProperties failed: %d",
vkresult);
return false;
}
ALOGV_IF(count > 0, "Driver-supported instance extensions:");
for (uint32_t i = 0; i < count; i++) {
ALOGV(" %s (v%u)", extensions[i].extensionName,
extensions[i].specVersion);
InstanceExtension id =
InstanceExtensionFromName(extensions[i].extensionName);
if (id != kInstanceExtensionCount)
g_driver_instance_extensions.set(id);
}
// Ignore driver attempts to support loader extensions
g_driver_instance_extensions.reset(kKHR_surface);
g_driver_instance_extensions.reset(kKHR_android_surface);
return true;
}
// -----------------------------------------------------------------------------
struct Instance {
Instance(const VkAllocationCallbacks* alloc_callbacks)
: base(*alloc_callbacks),
alloc(&base.allocator),
num_physical_devices(0) {
memset(physical_devices, 0, sizeof(physical_devices));
enabled_extensions.reset();
}
~Instance() {}
driver::InstanceData base;
const VkAllocationCallbacks* alloc;
uint32_t num_physical_devices;
VkPhysicalDevice physical_devices_top[kMaxPhysicalDevices];
VkPhysicalDevice physical_devices[kMaxPhysicalDevices];
DeviceExtensionSet physical_device_driver_extensions[kMaxPhysicalDevices];
DebugReportCallbackList debug_report_callbacks;
InstanceExtensionSet enabled_extensions;
};
template <typename THandle>
struct HandleTraits {};
template <>
struct HandleTraits<VkInstance> {
typedef Instance LoaderObjectType;
};
template <>
struct HandleTraits<VkPhysicalDevice> {
typedef Instance LoaderObjectType;
};
template <typename THandle>
typename HandleTraits<THandle>::LoaderObjectType& GetDispatchParent(
THandle handle) {
// TODO(jessehall): Make Instance and Device POD types (by removing the
// non-default constructors), so that offsetof is actually legal to use.
// The specific case we're using here is safe in gcc/clang (and probably
// most other C++ compilers), but isn't guaranteed by C++.
typedef typename HandleTraits<THandle>::LoaderObjectType ObjectType;
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Winvalid-offsetof"
const size_t kBaseOffset = offsetof(ObjectType, base);
#pragma clang diagnostic pop
const auto& base = driver::GetData(handle);
uintptr_t base_addr = reinterpret_cast<uintptr_t>(&base);
uintptr_t object_addr = base_addr - kBaseOffset;
return *reinterpret_cast<ObjectType*>(object_addr);
}
// -----------------------------------------------------------------------------
/*
* This function will return the pNext pointer of any
* CreateInfo extensions that are not loader extensions.
* This is used to skip past the loader extensions prepended
* to the list during CreateInstance and CreateDevice.
*/
void* StripCreateExtensions(const void* pNext) {
VkLayerInstanceCreateInfo* create_info =
const_cast<VkLayerInstanceCreateInfo*>(
static_cast<const VkLayerInstanceCreateInfo*>(pNext));
while (
create_info &&
(create_info->sType == VK_STRUCTURE_TYPE_LOADER_INSTANCE_CREATE_INFO ||
create_info->sType == VK_STRUCTURE_TYPE_LOADER_DEVICE_CREATE_INFO)) {
create_info = const_cast<VkLayerInstanceCreateInfo*>(
static_cast<const VkLayerInstanceCreateInfo*>(create_info->pNext));
}
return create_info;
}
// Clean up and deallocate an Instance; called from both the failure paths in
// CreateInstance_Top as well as from DestroyInstance_Top. This function does
// not call down the dispatch chain; that should be done before calling this
// function, iff the lower vkCreateInstance call has been made and returned
// successfully.
void DestroyInstance(Instance* instance,
const VkAllocationCallbacks* allocator,
VkInstance vkinstance) {
if (vkinstance != VK_NULL_HANDLE && instance->base.driver.DestroyInstance)
instance->base.driver.DestroyInstance(vkinstance, allocator);
instance->~Instance();
allocator->pfnFree(allocator->pUserData, instance);
}
driver::ProcHook::Extension InstanceExtensionToProcHookExtension(
InstanceExtension id) {
switch (id) {
case kKHR_surface:
return driver::ProcHook::KHR_surface;
case kKHR_android_surface:
return driver::ProcHook::KHR_android_surface;
case kEXT_debug_report:
return driver::ProcHook::EXT_debug_report;
default:
return driver::ProcHook::EXTENSION_UNKNOWN;
}
}
driver::ProcHook::Extension DeviceExtensionToProcHookExtension(
DeviceExtension id) {
switch (id) {
case kKHR_swapchain:
return driver::ProcHook::KHR_swapchain;
case kANDROID_native_buffer:
return driver::ProcHook::ANDROID_native_buffer;
default:
return driver::ProcHook::EXTENSION_UNKNOWN;
}
}
} // anonymous namespace
namespace vulkan {
// -----------------------------------------------------------------------------
// "Bottom" functions. These are called at the end of the instance dispatch
// chain.
VkResult CreateInstance_Bottom(const VkInstanceCreateInfo* create_info,
const VkAllocationCallbacks* allocator,
VkInstance* vkinstance) {
VkResult result;
if (!allocator)
allocator = &driver::GetDefaultAllocator();
void* instance_mem = allocator->pfnAllocation(
allocator->pUserData, sizeof(Instance), alignof(Instance),
VK_SYSTEM_ALLOCATION_SCOPE_INSTANCE);
if (!instance_mem)
return VK_ERROR_OUT_OF_HOST_MEMORY;
Instance& instance = *new (instance_mem) Instance(allocator);
// Check that all enabled extensions are supported
uint32_t num_driver_extensions = 0;
bool enable_kEXT_debug_report = false;
for (uint32_t i = 0; i < create_info->enabledExtensionCount; i++) {
const char* name = create_info->ppEnabledExtensionNames[i];
InstanceExtension id = InstanceExtensionFromName(name);
if (id != kInstanceExtensionCount) {
if (g_driver_instance_extensions[id]) {
num_driver_extensions++;
instance.enabled_extensions.set(id);
continue;
}
if (id == kKHR_surface || id == kKHR_android_surface) {
instance.enabled_extensions.set(id);
continue;
}
// The loader natively supports debug report.
if (id == kEXT_debug_report) {
enable_kEXT_debug_report = true;
continue;
}
}
}
auto& hal_exts = instance.base.hal_extensions;
for (size_t i = 0; i < instance.enabled_extensions.size(); i++) {
if (instance.enabled_extensions[i]) {
auto bit = InstanceExtensionToProcHookExtension(
static_cast<InstanceExtension>(i));
if (bit != driver::ProcHook::EXTENSION_UNKNOWN)
hal_exts.set(bit);
}
}
auto& hook_exts = instance.base.hook_extensions;
hook_exts = hal_exts;
if (enable_kEXT_debug_report)
hook_exts.set(driver::ProcHook::EXT_debug_report);
VkInstanceCreateInfo driver_create_info = *create_info;
driver_create_info.pNext = StripCreateExtensions(create_info->pNext);
driver_create_info.enabledLayerCount = 0;
driver_create_info.ppEnabledLayerNames = nullptr;
driver_create_info.enabledExtensionCount = 0;
driver_create_info.ppEnabledExtensionNames = nullptr;
if (num_driver_extensions > 0) {
const char** names = static_cast<const char**>(
alloca(num_driver_extensions * sizeof(char*)));
for (uint32_t i = 0; i < create_info->enabledExtensionCount; i++) {
const char* name = create_info->ppEnabledExtensionNames[i];
InstanceExtension id = InstanceExtensionFromName(name);
if (id != kInstanceExtensionCount) {
if (g_driver_instance_extensions[id]) {
names[driver_create_info.enabledExtensionCount++] = name;
continue;
}
}
}
driver_create_info.ppEnabledExtensionNames = names;
ALOG_ASSERT(
driver_create_info.enabledExtensionCount == num_driver_extensions,
"counted enabled driver instance extensions twice and got "
"different answers!");
}
VkInstance drv_instance;
result = g_hwdevice->CreateInstance(&driver_create_info, instance.alloc,
&drv_instance);
if (result != VK_SUCCESS) {
DestroyInstance(&instance, allocator, VK_NULL_HANDLE);
return result;
}
if (!driver::SetData(drv_instance, instance.base)) {
DestroyInstance(&instance, allocator, drv_instance);
return VK_ERROR_INITIALIZATION_FAILED;
}
if (!driver::InitDriverTable(drv_instance,
g_hwdevice->GetInstanceProcAddr)) {
DestroyInstance(&instance, allocator, drv_instance);
return VK_ERROR_INITIALIZATION_FAILED;
}
instance.base.get_device_proc_addr =
reinterpret_cast<PFN_vkGetDeviceProcAddr>(
g_hwdevice->GetInstanceProcAddr(drv_instance,
"vkGetDeviceProcAddr"));
if (!instance.base.get_device_proc_addr) {
DestroyInstance(&instance, allocator, drv_instance);
return VK_ERROR_INITIALIZATION_FAILED;
}
uint32_t num_physical_devices = 0;
result = instance.base.driver.EnumeratePhysicalDevices(
drv_instance, &num_physical_devices, nullptr);
if (result != VK_SUCCESS) {
DestroyInstance(&instance, allocator, drv_instance);
return VK_ERROR_INITIALIZATION_FAILED;
}
num_physical_devices = std::min(num_physical_devices, kMaxPhysicalDevices);
result = instance.base.driver.EnumeratePhysicalDevices(
drv_instance, &num_physical_devices, instance.physical_devices);
if (result != VK_SUCCESS) {
DestroyInstance(&instance, allocator, drv_instance);
return VK_ERROR_INITIALIZATION_FAILED;
}
Vector<VkExtensionProperties> extensions(
Vector<VkExtensionProperties>::allocator_type(instance.alloc));
for (uint32_t i = 0; i < num_physical_devices; i++) {
if (!driver::SetData(instance.physical_devices[i], instance.base)) {
DestroyInstance(&instance, allocator, drv_instance);
return VK_ERROR_INITIALIZATION_FAILED;
}
uint32_t count;
if ((result = instance.base.driver.EnumerateDeviceExtensionProperties(
instance.physical_devices[i], nullptr, &count, nullptr)) !=
VK_SUCCESS) {
ALOGW("driver EnumerateDeviceExtensionProperties(%u) failed: %d", i,
result);
continue;
}
try {
extensions.resize(count);
} catch (std::bad_alloc&) {
ALOGE("instance creation failed: out of memory");
DestroyInstance(&instance, allocator, drv_instance);
return VK_ERROR_OUT_OF_HOST_MEMORY;
}
if ((result = instance.base.driver.EnumerateDeviceExtensionProperties(
instance.physical_devices[i], nullptr, &count,
extensions.data())) != VK_SUCCESS) {
ALOGW("driver EnumerateDeviceExtensionProperties(%u) failed: %d", i,
result);
continue;
}
ALOGV_IF(count > 0, "driver gpu[%u] supports extensions:", i);
for (const auto& extension : extensions) {
ALOGV(" %s (v%u)", extension.extensionName, extension.specVersion);
DeviceExtension id =
DeviceExtensionFromName(extension.extensionName);
if (id == kDeviceExtensionCount) {
ALOGW("driver gpu[%u] extension '%s' unknown to loader", i,
extension.extensionName);
} else {
instance.physical_device_driver_extensions[i].set(id);
}
}
// Ignore driver attempts to support loader extensions
instance.physical_device_driver_extensions[i].reset(kKHR_swapchain);
}
instance.num_physical_devices = num_physical_devices;
*vkinstance = drv_instance;
return VK_SUCCESS;
}
VkResult EnumeratePhysicalDevices_Bottom(VkInstance vkinstance,
uint32_t* pdev_count,
VkPhysicalDevice* pdevs) {
Instance& instance = GetDispatchParent(vkinstance);
uint32_t count = instance.num_physical_devices;
if (pdevs) {
count = std::min(count, *pdev_count);
std::copy(instance.physical_devices, instance.physical_devices + count,
pdevs);
}
*pdev_count = count;
return VK_SUCCESS;
}
VKAPI_ATTR
VkResult EnumerateDeviceExtensionProperties_Bottom(
VkPhysicalDevice pdev,
const char* layer_name,
uint32_t* properties_count,
VkExtensionProperties* properties) {
(void)layer_name;
Instance& instance = GetDispatchParent(pdev);
size_t gpu_idx = 0;
while (instance.physical_devices[gpu_idx] != pdev)
gpu_idx++;
const DeviceExtensionSet driver_extensions =
instance.physical_device_driver_extensions[gpu_idx];
// We only support VK_KHR_swapchain if the GPU supports
// VK_ANDROID_native_buffer
VkExtensionProperties* available = static_cast<VkExtensionProperties*>(
alloca(kDeviceExtensionCount * sizeof(VkExtensionProperties)));
uint32_t num_extensions = 0;
if (driver_extensions[kANDROID_native_buffer]) {
available[num_extensions++] = VkExtensionProperties{
VK_KHR_SWAPCHAIN_EXTENSION_NAME, VK_KHR_SWAPCHAIN_SPEC_VERSION};
}
if (!properties || *properties_count > num_extensions)
*properties_count = num_extensions;
if (properties)
std::copy(available, available + *properties_count, properties);
return *properties_count < num_extensions ? VK_INCOMPLETE : VK_SUCCESS;
}
void DestroyInstance_Bottom(VkInstance vkinstance,
const VkAllocationCallbacks* allocator) {
Instance& instance = GetDispatchParent(vkinstance);
VkAllocationCallbacks local_allocator;
if (!allocator) {
local_allocator = *instance.alloc;
allocator = &local_allocator;
}
DestroyInstance(&instance, allocator, vkinstance);
}
// -----------------------------------------------------------------------------
const VkAllocationCallbacks* GetAllocator(VkInstance vkinstance) {
return GetDispatchParent(vkinstance).alloc;
}
const VkAllocationCallbacks* GetAllocator(VkDevice vkdevice) {
return &driver::GetData(vkdevice).allocator;
}
VkInstance GetDriverInstance(VkInstance instance) {
return instance;
}
const driver::InstanceDriverTable& GetDriverDispatch(VkInstance instance) {
return driver::GetData(instance).driver;
}
const driver::DeviceDriverTable& GetDriverDispatch(VkDevice device) {
return driver::GetData(device).driver;
}
const driver::DeviceDriverTable& GetDriverDispatch(VkQueue queue) {
return driver::GetData(queue).driver;
}
DebugReportCallbackList& GetDebugReportCallbacks(VkInstance instance) {
return GetDispatchParent(instance).debug_report_callbacks;
}
bool InitLoader(hwvulkan_device_t* dev) {
if (!g_hwdevice) {
g_hwdevice = dev;
if (!LoadVulkanHAL())
g_hwdevice = nullptr;
}
return (g_hwdevice != nullptr);
}
namespace driver {
VkResult EnumerateInstanceExtensionProperties(
const char* pLayerName,
uint32_t* pPropertyCount,
VkExtensionProperties* pProperties) {
(void)pLayerName;
VkExtensionProperties* available = static_cast<VkExtensionProperties*>(
alloca(kInstanceExtensionCount * sizeof(VkExtensionProperties)));
uint32_t num_extensions = 0;
available[num_extensions++] = VkExtensionProperties{
VK_KHR_SURFACE_EXTENSION_NAME, VK_KHR_SURFACE_SPEC_VERSION};
available[num_extensions++] =
VkExtensionProperties{VK_KHR_ANDROID_SURFACE_EXTENSION_NAME,
VK_KHR_ANDROID_SURFACE_SPEC_VERSION};
if (g_driver_instance_extensions[kEXT_debug_report]) {
available[num_extensions++] =
VkExtensionProperties{VK_EXT_DEBUG_REPORT_EXTENSION_NAME,
VK_EXT_DEBUG_REPORT_SPEC_VERSION};
}
if (!pProperties || *pPropertyCount > num_extensions)
*pPropertyCount = num_extensions;
if (pProperties)
std::copy(available, available + *pPropertyCount, pProperties);
return *pPropertyCount < num_extensions ? VK_INCOMPLETE : VK_SUCCESS;
}
} // namespace driver
} // namespace vulkan
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