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vk_memory_manager: Implement memory manager

A memory manager object handles the memory allocations for a device. It
allocates chunks of Vulkan memory objects and then suballocates.
This commit is contained in:
ReinUsesLisp 2019-02-19 00:46:06 -03:00
parent 4bce08d497
commit b675c97cdd
4 changed files with 343 additions and 1 deletions

@ -1 +1 @@
Subproject commit 7f02d9bb810f371de0fe833c80004c34f7ff8c57
Subproject commit 15e5c4db7500b936ae758236f2e72fc1aec22020

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@ -106,6 +106,8 @@ if (ENABLE_VULKAN)
renderer_vulkan/declarations.h
renderer_vulkan/vk_device.cpp
renderer_vulkan/vk_device.h
renderer_vulkan/vk_memory_manager.cpp
renderer_vulkan/vk_memory_manager.h
renderer_vulkan/vk_resource_manager.cpp
renderer_vulkan/vk_resource_manager.h)

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@ -0,0 +1,253 @@
// Copyright 2018 yuzu Emulator Project
// Licensed under GPLv2 or any later version
// Refer to the license.txt file included.
#include <algorithm>
#include <optional>
#include <tuple>
#include <vector>
#include "common/alignment.h"
#include "common/assert.h"
#include "common/common_types.h"
#include "common/logging/log.h"
#include "video_core/renderer_vulkan/declarations.h"
#include "video_core/renderer_vulkan/vk_device.h"
#include "video_core/renderer_vulkan/vk_memory_manager.h"
namespace Vulkan {
// TODO(Rodrigo): Fine tune this number
constexpr u64 ALLOC_CHUNK_SIZE = 64 * 1024 * 1024;
class VKMemoryAllocation final {
public:
explicit VKMemoryAllocation(const VKDevice& device, vk::DeviceMemory memory,
vk::MemoryPropertyFlags properties, u64 alloc_size, u32 type)
: device{device}, memory{memory}, properties{properties}, alloc_size{alloc_size},
shifted_type{ShiftType(type)}, is_mappable{properties &
vk::MemoryPropertyFlagBits::eHostVisible} {
if (is_mappable) {
const auto dev = device.GetLogical();
const auto& dld = device.GetDispatchLoader();
base_address = static_cast<u8*>(dev.mapMemory(memory, 0, alloc_size, {}, dld));
}
}
~VKMemoryAllocation() {
const auto dev = device.GetLogical();
const auto& dld = device.GetDispatchLoader();
if (is_mappable)
dev.unmapMemory(memory, dld);
dev.free(memory, nullptr, dld);
}
VKMemoryCommit Commit(vk::DeviceSize commit_size, vk::DeviceSize alignment) {
auto found = TryFindFreeSection(free_iterator, alloc_size, static_cast<u64>(commit_size),
static_cast<u64>(alignment));
if (!found) {
found = TryFindFreeSection(0, free_iterator, static_cast<u64>(commit_size),
static_cast<u64>(alignment));
if (!found) {
// Signal out of memory, it'll try to do more allocations.
return nullptr;
}
}
u8* address = is_mappable ? base_address + *found : nullptr;
auto commit = std::make_unique<VKMemoryCommitImpl>(this, memory, address, *found,
*found + commit_size);
commits.push_back(commit.get());
// Last commit's address is highly probable to be free.
free_iterator = *found + commit_size;
return commit;
}
void Free(const VKMemoryCommitImpl* commit) {
ASSERT(commit);
const auto it =
std::find_if(commits.begin(), commits.end(),
[&](const auto& stored_commit) { return stored_commit == commit; });
if (it == commits.end()) {
LOG_CRITICAL(Render_Vulkan, "Freeing unallocated commit!");
UNREACHABLE();
return;
}
commits.erase(it);
}
/// Returns whether this allocation is compatible with the arguments.
bool IsCompatible(vk::MemoryPropertyFlags wanted_properties, u32 type_mask) const {
return (wanted_properties & properties) != vk::MemoryPropertyFlagBits(0) &&
(type_mask & shifted_type) != 0;
}
private:
static constexpr u32 ShiftType(u32 type) {
return 1U << type;
}
/// A memory allocator, it may return a free region between "start" and "end" with the solicited
/// requeriments.
std::optional<u64> TryFindFreeSection(u64 start, u64 end, u64 size, u64 alignment) const {
u64 iterator = start;
while (iterator + size < end) {
const u64 try_left = Common::AlignUp(iterator, alignment);
const u64 try_right = try_left + size;
bool overlap = false;
for (const auto& commit : commits) {
const auto [commit_left, commit_right] = commit->interval;
if (try_left < commit_right && commit_left < try_right) {
// There's an overlap, continue the search where the overlapping commit ends.
iterator = commit_right;
overlap = true;
break;
}
}
if (!overlap) {
// A free address has been found.
return try_left;
}
}
// No free regions where found, return an empty optional.
return std::nullopt;
}
const VKDevice& device; ///< Vulkan device.
const vk::DeviceMemory memory; ///< Vulkan memory allocation handler.
const vk::MemoryPropertyFlags properties; ///< Vulkan properties.
const u64 alloc_size; ///< Size of this allocation.
const u32 shifted_type; ///< Stored Vulkan type of this allocation, shifted.
const bool is_mappable; ///< Whether the allocation is mappable.
/// Base address of the mapped pointer.
u8* base_address{};
/// Hints where the next free region is likely going to be.
u64 free_iterator{};
/// Stores all commits done from this allocation.
std::vector<const VKMemoryCommitImpl*> commits;
};
VKMemoryManager::VKMemoryManager(const VKDevice& device)
: device{device}, props{device.GetPhysical().getMemoryProperties(device.GetDispatchLoader())},
is_memory_unified{GetMemoryUnified(props)} {}
VKMemoryManager::~VKMemoryManager() = default;
VKMemoryCommit VKMemoryManager::Commit(const vk::MemoryRequirements& reqs, bool host_visible) {
ASSERT(reqs.size < ALLOC_CHUNK_SIZE);
// When a host visible commit is asked, search for host visible and coherent, otherwise search
// for a fast device local type.
const vk::MemoryPropertyFlags wanted_properties =
host_visible
? vk::MemoryPropertyFlagBits::eHostVisible | vk::MemoryPropertyFlagBits::eHostCoherent
: vk::MemoryPropertyFlagBits::eDeviceLocal;
const auto TryCommit = [&]() -> VKMemoryCommit {
for (auto& alloc : allocs) {
if (!alloc->IsCompatible(wanted_properties, reqs.memoryTypeBits))
continue;
if (auto commit = alloc->Commit(reqs.size, reqs.alignment); commit) {
return commit;
}
}
return {};
};
if (auto commit = TryCommit(); commit) {
return commit;
}
// Commit has failed, allocate more memory.
if (!AllocMemory(wanted_properties, reqs.memoryTypeBits, ALLOC_CHUNK_SIZE)) {
// TODO(Rodrigo): Try to use host memory.
LOG_CRITICAL(Render_Vulkan, "Ran out of memory!");
UNREACHABLE();
}
// Commit again, this time it won't fail since there's a fresh allocation above. If it does,
// there's a bug.
auto commit = TryCommit();
ASSERT(commit);
return commit;
}
VKMemoryCommit VKMemoryManager::Commit(vk::Buffer buffer, bool host_visible) {
const auto dev = device.GetLogical();
const auto& dld = device.GetDispatchLoader();
const auto requeriments = dev.getBufferMemoryRequirements(buffer, dld);
auto commit = Commit(requeriments, host_visible);
dev.bindBufferMemory(buffer, commit->GetMemory(), commit->GetOffset(), dld);
return commit;
}
VKMemoryCommit VKMemoryManager::Commit(vk::Image image, bool host_visible) {
const auto dev = device.GetLogical();
const auto& dld = device.GetDispatchLoader();
const auto requeriments = dev.getImageMemoryRequirements(image, dld);
auto commit = Commit(requeriments, host_visible);
dev.bindImageMemory(image, commit->GetMemory(), commit->GetOffset(), dld);
return commit;
}
bool VKMemoryManager::AllocMemory(vk::MemoryPropertyFlags wanted_properties, u32 type_mask,
u64 size) {
const u32 type = [&]() {
for (u32 type_index = 0; type_index < props.memoryTypeCount; ++type_index) {
const auto flags = props.memoryTypes[type_index].propertyFlags;
if ((type_mask & (1U << type_index)) && (flags & wanted_properties)) {
// The type matches in type and in the wanted properties.
return type_index;
}
}
LOG_CRITICAL(Render_Vulkan, "Couldn't find a compatible memory type!");
UNREACHABLE();
return 0u;
}();
const auto dev = device.GetLogical();
const auto& dld = device.GetDispatchLoader();
// Try to allocate found type.
const vk::MemoryAllocateInfo memory_ai(size, type);
vk::DeviceMemory memory;
if (const vk::Result res = dev.allocateMemory(&memory_ai, nullptr, &memory, dld);
res != vk::Result::eSuccess) {
LOG_CRITICAL(Render_Vulkan, "Device allocation failed with code {}!", vk::to_string(res));
return false;
}
allocs.push_back(
std::make_unique<VKMemoryAllocation>(device, memory, wanted_properties, size, type));
return true;
}
/*static*/ bool VKMemoryManager::GetMemoryUnified(const vk::PhysicalDeviceMemoryProperties& props) {
for (u32 heap_index = 0; heap_index < props.memoryHeapCount; ++heap_index) {
if (!(props.memoryHeaps[heap_index].flags & vk::MemoryHeapFlagBits::eDeviceLocal)) {
// Memory is considered unified when heaps are device local only.
return false;
}
}
return true;
}
VKMemoryCommitImpl::VKMemoryCommitImpl(VKMemoryAllocation* allocation, vk::DeviceMemory memory,
u8* data, u64 begin, u64 end)
: allocation{allocation}, memory{memory}, data{data},
interval(std::make_pair(begin, begin + end)) {}
VKMemoryCommitImpl::~VKMemoryCommitImpl() {
allocation->Free(this);
}
u8* VKMemoryCommitImpl::GetData() const {
ASSERT_MSG(data != nullptr, "Trying to access an unmapped commit.");
return data;
}
} // namespace Vulkan

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// Copyright 2019 yuzu Emulator Project
// Licensed under GPLv2 or any later version
// Refer to the license.txt file included.
#pragma once
#include <memory>
#include <utility>
#include <vector>
#include "common/common_types.h"
#include "video_core/renderer_vulkan/declarations.h"
namespace Vulkan {
class VKDevice;
class VKMemoryAllocation;
class VKMemoryCommitImpl;
using VKMemoryCommit = std::unique_ptr<VKMemoryCommitImpl>;
class VKMemoryManager final {
public:
explicit VKMemoryManager(const VKDevice& device);
~VKMemoryManager();
/**
* Commits a memory with the specified requeriments.
* @param reqs Requeriments returned from a Vulkan call.
* @param host_visible Signals the allocator that it *must* use host visible and coherent
* memory. When passing false, it will try to allocate device local memory.
* @returns A memory commit.
*/
VKMemoryCommit Commit(const vk::MemoryRequirements& reqs, bool host_visible);
/// Commits memory required by the buffer and binds it.
VKMemoryCommit Commit(vk::Buffer buffer, bool host_visible);
/// Commits memory required by the image and binds it.
VKMemoryCommit Commit(vk::Image image, bool host_visible);
/// Returns true if the memory allocations are done always in host visible and coherent memory.
bool IsMemoryUnified() const {
return is_memory_unified;
}
private:
/// Allocates a chunk of memory.
bool AllocMemory(vk::MemoryPropertyFlags wanted_properties, u32 type_mask, u64 size);
/// Returns true if the device uses an unified memory model.
static bool GetMemoryUnified(const vk::PhysicalDeviceMemoryProperties& props);
const VKDevice& device; ///< Device handler.
const vk::PhysicalDeviceMemoryProperties props; ///< Physical device properties.
const bool is_memory_unified; ///< True if memory model is unified.
std::vector<std::unique_ptr<VKMemoryAllocation>> allocs; ///< Current allocations.
};
class VKMemoryCommitImpl final {
friend VKMemoryAllocation;
public:
explicit VKMemoryCommitImpl(VKMemoryAllocation* allocation, vk::DeviceMemory memory, u8* data,
u64 begin, u64 end);
~VKMemoryCommitImpl();
/// Returns the writeable memory map. The commit has to be mappable.
u8* GetData() const;
/// Returns the Vulkan memory handler.
vk::DeviceMemory GetMemory() const {
return memory;
}
/// Returns the start position of the commit relative to the allocation.
vk::DeviceSize GetOffset() const {
return static_cast<vk::DeviceSize>(interval.first);
}
private:
std::pair<u64, u64> interval{}; ///< Interval where the commit exists.
vk::DeviceMemory memory; ///< Vulkan device memory handler.
VKMemoryAllocation* allocation{}; ///< Pointer to the large memory allocation.
u8* data{}; ///< Pointer to the host mapped memory, it has the commit offset included.
};
} // namespace Vulkan