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test2/source/blender/gpu/vulkan/vk_vertex_buffer.cc
Jeroen Bakker 96c9153c5e Fix: Vulkan: Use after free of VkBufferView 
VkBufferViews could be used after they were freed. The reason is that
they were not managed by the discard pool. Detected when looking in
failing render tests (pointcloud_motion.blend).

This part of the API is used by motion blur in EEVEE. Fixes the next
render tests

- `eevee_next_motion_blur_vulkan`
- `eevee_next_pointcloud_vulkan`
- `eevee_next_hair_vulkan`

Related: #133546
Pull Request: https://projects.blender.org/blender/blender/pulls/133856
2025-01-31 11:41:39 +01:00

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/* SPDX-FileCopyrightText: 2022 Blender Authors
*
* SPDX-License-Identifier: GPL-2.0-or-later */
/** \file
* \ingroup gpu
*/
#include "MEM_guardedalloc.h"
#include "vk_data_conversion.hh"
#include "vk_shader.hh"
#include "vk_shader_interface.hh"
#include "vk_staging_buffer.hh"
#include "vk_state_manager.hh"
#include "vk_vertex_buffer.hh"
namespace blender::gpu {
VKVertexBuffer::~VKVertexBuffer()
{
release_data();
}
void VKVertexBuffer::bind_as_ssbo(uint binding)
{
VKContext &context = *VKContext::get();
VKStateManager &state_manager = context.state_manager_get();
state_manager.storage_buffer_bind(BindSpaceStorageBuffers::Type::VertexBuffer, this, binding);
}
void VKVertexBuffer::bind_as_texture(uint binding)
{
VKContext &context = *VKContext::get();
VKStateManager &state_manager = context.state_manager_get();
state_manager.texel_buffer_bind(*this, binding);
}
void VKVertexBuffer::ensure_updated()
{
upload_data();
}
void VKVertexBuffer::ensure_buffer_view()
{
if (vk_buffer_view_ != VK_NULL_HANDLE) {
return;
}
VkBufferViewCreateInfo buffer_view_info = {};
eGPUTextureFormat texture_format = to_texture_format(&format);
buffer_view_info.sType = VK_STRUCTURE_TYPE_BUFFER_VIEW_CREATE_INFO;
buffer_view_info.buffer = buffer_.vk_handle();
buffer_view_info.format = to_vk_format(texture_format);
buffer_view_info.range = buffer_.size_in_bytes();
const VKDevice &device = VKBackend::get().device;
vkCreateBufferView(device.vk_handle(), &buffer_view_info, nullptr, &vk_buffer_view_);
debug::object_label(vk_buffer_view_, "VertexBufferView");
}
void VKVertexBuffer::wrap_handle(uint64_t /*handle*/)
{
NOT_YET_IMPLEMENTED
}
void VKVertexBuffer::update_sub(uint /*start*/, uint /*len*/, const void * /*data*/)
{
NOT_YET_IMPLEMENTED
}
void VKVertexBuffer::read(void *data) const
{
VKContext &context = *VKContext::get();
if (buffer_.is_mapped()) {
buffer_.read(context, data);
return;
}
VKStagingBuffer staging_buffer(buffer_, VKStagingBuffer::Direction::DeviceToHost);
staging_buffer.copy_from_device(context);
staging_buffer.host_buffer_get().read(context, data);
}
void VKVertexBuffer::acquire_data()
{
if (usage_ == GPU_USAGE_DEVICE_ONLY) {
return;
}
/* Discard previous data if any. */
/* TODO: Use mapped memory. */
MEM_SAFE_FREE(data_);
data_ = (uchar *)MEM_mallocN(sizeof(uchar) * this->size_alloc_get(), __func__);
}
void VKVertexBuffer::resize_data()
{
if (usage_ == GPU_USAGE_DEVICE_ONLY) {
return;
}
data_ = (uchar *)MEM_reallocN(data_, sizeof(uchar) * this->size_alloc_get());
}
void VKVertexBuffer::release_data()
{
if (vk_buffer_view_ != VK_NULL_HANDLE) {
VKDiscardPool::discard_pool_get().discard_buffer_view(vk_buffer_view_);
vk_buffer_view_ = VK_NULL_HANDLE;
}
MEM_SAFE_FREE(data_);
}
void VKVertexBuffer::upload_data_direct(const VKBuffer &host_buffer)
{
device_format_ensure();
if (vertex_format_converter.needs_conversion()) {
if (G.debug & G_DEBUG_GPU) {
std::cout << "PERFORMANCE: Vertex buffer requires conversion.\n";
}
vertex_format_converter.convert(host_buffer.mapped_memory_get(), data_, vertex_len);
host_buffer.flush();
}
else {
host_buffer.update_immediately(data_);
}
}
void VKVertexBuffer::upload_data_via_staging_buffer(VKContext &context)
{
VKStagingBuffer staging_buffer(buffer_, VKStagingBuffer::Direction::HostToDevice);
upload_data_direct(staging_buffer.host_buffer_get());
staging_buffer.copy_to_device(context);
}
void VKVertexBuffer::upload_data()
{
if (!buffer_.is_allocated()) {
allocate();
}
if (!ELEM(usage_, GPU_USAGE_STATIC, GPU_USAGE_STREAM, GPU_USAGE_DYNAMIC)) {
return;
}
if (flag & GPU_VERTBUF_DATA_DIRTY) {
device_format_ensure();
if (buffer_.is_mapped() && !data_uploaded_) {
upload_data_direct(buffer_);
}
else {
VKContext &context = *VKContext::get();
upload_data_via_staging_buffer(context);
}
if (usage_ == GPU_USAGE_STATIC) {
MEM_SAFE_FREE(data_);
}
data_uploaded_ = true;
flag &= ~GPU_VERTBUF_DATA_DIRTY;
flag |= GPU_VERTBUF_DATA_UPLOADED;
}
}
void VKVertexBuffer::duplicate_data(VertBuf * /*dst*/)
{
NOT_YET_IMPLEMENTED
}
void VKVertexBuffer::device_format_ensure()
{
if (!vertex_format_converter.is_initialized()) {
const VKWorkarounds &workarounds = VKBackend::get().device.workarounds_get();
vertex_format_converter.init(&format, workarounds);
}
}
const GPUVertFormat &VKVertexBuffer::device_format_get() const
{
return vertex_format_converter.device_format_get();
}
void VKVertexBuffer::allocate()
{
VkBufferUsageFlags vk_buffer_usage = VK_BUFFER_USAGE_TRANSFER_SRC_BIT |
VK_BUFFER_USAGE_STORAGE_BUFFER_BIT |
VK_BUFFER_USAGE_VERTEX_BUFFER_BIT |
VK_BUFFER_USAGE_UNIFORM_TEXEL_BUFFER_BIT |
VK_BUFFER_USAGE_TRANSFER_DST_BIT;
buffer_.create(size_alloc_get(),
vk_buffer_usage,
VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT,
VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT,
VmaAllocationCreateFlags(0));
debug::object_label(buffer_.vk_handle(), "VertexBuffer");
}
} // namespace blender::gpu
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