gstreamer/subprojects/gst-plugins-bad/gst-libs/gst/d3d12/gstd3d12frame.cpp

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/* GStreamer
* Copyright (C) 2024 Seungha Yang <seungha@centricular.com>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include "gstd3d12frame.h"
#include "gstd3d12memory.h"
#include "gstd3d12device.h"
#include "gstd3d12-private.h"
#include <string.h>
#include <directx/d3dx12.h>
#include <vector>
#include <wrl.h>
/* *INDENT-OFF* */
using namespace Microsoft::WRL;
/* *INDENT-ON* */
#ifndef GST_DISABLE_GST_DEBUG
#define GST_CAT_DEFAULT ensure_debug_category()
static GstDebugCategory *
ensure_debug_category (void)
{
static GstDebugCategory *cat = nullptr;
GST_D3D12_CALL_ONCE_BEGIN {
cat = _gst_debug_category_new ("d3d12frame", 0, "d3d12frame");
} GST_D3D12_CALL_ONCE_END;
return cat;
}
#endif
/**
* gst_d3d12_frame_map:
* @frame: (out caller-allocates): pointer to #GstD3D12Frame
* @info: a #GstVideoInfo
* @buffer: the buffer to map
* @map_flags: #GstMapFlags
* @d3d12_flags: #GstD3D12FrameFlags
*
* Executes memory map operation fills @frame with extracted Direct3D12 resource
* information
*
* Returns: %TRUE on success.
*
* Since: 1.26
*/
gboolean
gst_d3d12_frame_map (GstD3D12Frame * frame, const GstVideoInfo * info,
GstBuffer * buffer, GstMapFlags map_flags,
GstD3D12FrameMapFlags d3d12_flags)
{
g_return_val_if_fail (frame, FALSE);
g_return_val_if_fail (info, FALSE);
g_return_val_if_fail (GST_IS_BUFFER (buffer), FALSE);
memset (frame, 0, sizeof (GstD3D12Frame));
auto is_write = (map_flags & GST_MAP_WRITE) != 0;
auto is_writable = gst_buffer_is_writable (buffer);
if (is_write && !is_writable) {
GST_ERROR ("Buffer is not writable");
return FALSE;
}
bool need_map = (map_flags & GST_MAP_READWRITE) != 0;
map_flags = (GstMapFlags) (map_flags | GST_MAP_D3D12);
guint num_mem = gst_buffer_n_memory (buffer);
if (!num_mem) {
GST_ERROR ("Empty buffer");
return FALSE;
}
GstD3D12Device *device = nullptr;
for (guint i = 0; i < num_mem; i++) {
auto mem = gst_buffer_peek_memory (buffer, i);
if (!gst_is_d3d12_memory (mem)) {
GST_LOG ("memory %u is not a d3d12 memory", i);
return FALSE;
}
auto dmem = GST_D3D12_MEMORY_CAST (mem);
if (!device) {
device = dmem->device;
} else if (!gst_d3d12_device_is_equal (device, dmem->device)) {
GST_ERROR ("memory %u belongs to different device", i);
return FALSE;
}
auto resource = gst_d3d12_memory_get_resource_handle (dmem);
D3D12_RESOURCE_DESC desc;
desc = GetDesc (resource);
if ((d3d12_flags & GST_D3D12_FRAME_MAP_FLAG_SRV) != 0) {
if ((desc.Flags & D3D12_RESOURCE_FLAG_DENY_SHADER_RESOURCE) != 0) {
GST_WARNING ("SRV map is requested but SRV is not allowed");
return FALSE;
}
if (!gst_d3d12_memory_get_shader_resource_view_heap (dmem)) {
GST_ERROR ("Couldn't get SRV descriptor heap");
return FALSE;
}
}
if ((d3d12_flags & GST_D3D12_FRAME_MAP_FLAG_UAV) != 0) {
if ((desc.Flags & D3D12_RESOURCE_FLAG_ALLOW_UNORDERED_ACCESS) == 0) {
GST_WARNING ("UAV map is requested but UAV is not allowed");
return FALSE;
}
if (!gst_d3d12_memory_get_unordered_access_view_heap (dmem)) {
GST_ERROR ("Couldn't get UAV descriptor heap");
return FALSE;
}
}
if ((d3d12_flags & GST_D3D12_FRAME_MAP_FLAG_RTV) != 0) {
if ((desc.Flags & D3D12_RESOURCE_FLAG_ALLOW_RENDER_TARGET) == 0) {
GST_WARNING ("RTV map is requested but RTV is not allowed");
return FALSE;
}
if (!gst_d3d12_memory_get_render_target_view_heap (dmem)) {
GST_ERROR ("Couldn't get RTV descriptor heap");
return FALSE;
}
}
}
auto device_handle = gst_d3d12_device_get_device_handle (device);
auto srv_inc_size =
device_handle->GetDescriptorHandleIncrementSize
(D3D12_DESCRIPTOR_HEAP_TYPE_CBV_SRV_UAV);
auto rtv_inc_size =
device_handle->GetDescriptorHandleIncrementSize
(D3D12_DESCRIPTOR_HEAP_TYPE_RTV);
guint plane_idx = 0;
for (guint i = 0; i < num_mem; i++) {
if (plane_idx >= G_N_ELEMENTS (frame->data)) {
GST_ERROR ("Too many planes");
gst_d3d12_frame_unmap (frame);
return FALSE;
}
auto mem = gst_buffer_peek_memory (buffer, i);
GstMemory *new_mem = mem;
if (need_map) {
mem = gst_memory_ref (mem);
new_mem = gst_memory_make_mapped (mem, &frame->map[i], map_flags);
if (!new_mem) {
GST_ERROR ("Couldn't map memory %u", i);
gst_d3d12_frame_unmap (frame);
return FALSE;
}
if (mem != new_mem && is_writable) {
gst_buffer_replace_memory_range (buffer,
i, 1, gst_memory_ref (new_mem));
}
}
auto dmem = GST_D3D12_MEMORY_CAST (new_mem);
auto num_planes = gst_d3d12_memory_get_plane_count (dmem);
auto resource = gst_d3d12_memory_get_resource_handle (dmem);
D3D12_RESOURCE_DESC desc;
desc = GetDesc (resource);
ID3D12DescriptorHeap *srv_heap = nullptr;
ID3D12DescriptorHeap *uav_heap = nullptr;
ID3D12DescriptorHeap *rtv_heap = nullptr;
if ((d3d12_flags & GST_D3D12_FRAME_MAP_FLAG_SRV) != 0)
srv_heap = gst_d3d12_memory_get_shader_resource_view_heap (dmem);
if ((d3d12_flags & GST_D3D12_FRAME_MAP_FLAG_UAV) != 0)
uav_heap = gst_d3d12_memory_get_unordered_access_view_heap (dmem);
if ((d3d12_flags & GST_D3D12_FRAME_MAP_FLAG_RTV) != 0)
rtv_heap = gst_d3d12_memory_get_render_target_view_heap (dmem);
CD3DX12_CPU_DESCRIPTOR_HANDLE srv_handle = { };
if (srv_heap) {
srv_handle =
CD3DX12_CPU_DESCRIPTOR_HANDLE
(GetCPUDescriptorHandleForHeapStart (srv_heap));
}
CD3DX12_CPU_DESCRIPTOR_HANDLE uav_handle = { };
if (uav_heap) {
uav_handle =
CD3DX12_CPU_DESCRIPTOR_HANDLE
(GetCPUDescriptorHandleForHeapStart (uav_heap));
}
CD3DX12_CPU_DESCRIPTOR_HANDLE rtv_handle = { };
if (rtv_heap) {
rtv_handle =
CD3DX12_CPU_DESCRIPTOR_HANDLE
(GetCPUDescriptorHandleForHeapStart (rtv_heap));
}
for (guint j = 0; j < num_planes; j++) {
if (plane_idx >= G_N_ELEMENTS (frame->data)) {
GST_ERROR ("Too many planes");
gst_d3d12_frame_unmap (frame);
return FALSE;
}
frame->data[plane_idx] = resource;
gst_d3d12_memory_get_subresource_index (dmem,
j, &frame->subresource_index[plane_idx]);
gst_d3d12_memory_get_plane_rectangle (dmem, j,
&frame->plane_rect[plane_idx]);
if (srv_heap) {
frame->srv_desc_handle[plane_idx] = srv_handle;
srv_handle.Offset (srv_inc_size);
}
if (rtv_heap) {
frame->rtv_desc_handle[plane_idx] = rtv_handle;
rtv_handle.Offset (rtv_inc_size);
}
if (uav_heap) {
frame->uav_desc_handle[plane_idx] = uav_handle;
uav_handle.Offset (srv_inc_size);
}
gst_d3d12_memory_get_fence (dmem, &frame->fence[plane_idx].fence,
&frame->fence[plane_idx].fence_value);
plane_idx++;
}
}
guint frame_flags = 0;
if (GST_VIDEO_INFO_IS_INTERLACED (info)) {
if (GST_VIDEO_INFO_INTERLACE_MODE (info) == GST_VIDEO_INTERLACE_MODE_MIXED) {
if (GST_BUFFER_FLAG_IS_SET (buffer, GST_VIDEO_BUFFER_FLAG_INTERLACED)) {
frame_flags |= GST_VIDEO_FRAME_FLAG_INTERLACED;
}
} else {
frame_flags |= GST_VIDEO_FRAME_FLAG_INTERLACED;
}
if (GST_VIDEO_INFO_FIELD_ORDER (info) ==
GST_VIDEO_FIELD_ORDER_TOP_FIELD_FIRST) {
frame_flags |= GST_VIDEO_FRAME_FLAG_TFF;
} else {
if (GST_BUFFER_FLAG_IS_SET (buffer, GST_VIDEO_BUFFER_FLAG_TFF))
frame_flags |= GST_VIDEO_FRAME_FLAG_TFF;
if (GST_BUFFER_FLAG_IS_SET (buffer, GST_VIDEO_BUFFER_FLAG_RFF))
frame_flags |= GST_VIDEO_FRAME_FLAG_RFF;
if (GST_BUFFER_FLAG_IS_SET (buffer, GST_VIDEO_BUFFER_FLAG_ONEFIELD))
frame_flags |= GST_VIDEO_FRAME_FLAG_ONEFIELD;
}
}
frame->device = device;
frame->info = *info;
frame->buffer = buffer;
frame->frame_flags = (GstVideoFrameFlags) frame_flags;
frame->d3d12_flags = d3d12_flags;
return TRUE;
}
/**
* gst_d3d12_frame_unmap:
* @frame: a #GstD3D12Frame
*
* Unmap the memory previously mapped with gst_d3d12_frame_map
*
* Since: 1.26
*/
void
gst_d3d12_frame_unmap (GstD3D12Frame * frame)
{
g_return_if_fail (frame);
for (guint i = 0; i < G_N_ELEMENTS (frame->fence); i++) {
if (frame->fence[i].fence)
frame->fence[i].fence->Release ();
}
for (guint i = 0; i < G_N_ELEMENTS (frame->map); i++) {
auto mem = frame->map[i].memory;
if (!mem)
return;
gst_memory_unmap (mem, &frame->map[i]);
gst_memory_unref (mem);
}
}
static void
gst_d3d12_frame_build_copy_args (GstD3D12Frame * dest,
const GstD3D12Frame * src, guint plane,
GstD3D12CopyTextureRegionArgs * args, D3D12_BOX * src_box)
{
src_box->left = 0;
src_box->top = 0;
src_box->right = MIN (dest->plane_rect[plane].right,
src->plane_rect[plane].right);
src_box->bottom = MIN (dest->plane_rect[plane].bottom,
src->plane_rect[plane].bottom);
src_box->front = 0;
src_box->back = 1;
args->dst = CD3DX12_TEXTURE_COPY_LOCATION (dest->data[plane],
dest->subresource_index[plane]);
args->src = CD3DX12_TEXTURE_COPY_LOCATION (src->data[plane],
src->subresource_index[plane]);
}
/**
* gst_d3d12_frame_copy:
* @dest: a #GstD3D12Frame
* @src: a #GstD3D12Frame
* @fence_value: (out): a fence value for the copy operation
*
* Copy the contents from @src to @dest.
*
* Returns: %TRUE on success.
*
* Since: 1.26
*/
gboolean
gst_d3d12_frame_copy (GstD3D12Frame * dest, const GstD3D12Frame * src,
guint64 * fence_value)
{
g_return_val_if_fail (dest, FALSE);
g_return_val_if_fail (src, FALSE);
g_return_val_if_fail (dest->device, FALSE);
g_return_val_if_fail (src->device, FALSE);
g_return_val_if_fail (GST_VIDEO_INFO_FORMAT (&dest->info) ==
GST_VIDEO_INFO_FORMAT (&src->info), FALSE);
if (!gst_d3d12_device_is_equal (dest->device, src->device)) {
GST_ERROR ("Cross device copy is not supported");
return FALSE;
}
GstD3D12CopyTextureRegionArgs args[GST_VIDEO_MAX_PLANES] = { };
D3D12_BOX src_box[GST_VIDEO_MAX_PLANES] = { };
for (guint i = 0; GST_VIDEO_INFO_N_PLANES (&dest->info); i++) {
gst_d3d12_frame_build_copy_args (dest, src, i, &args[i], &src_box[i]);
args[i].src_box = &src_box[i];
}
GstD3D12FenceData *fence_data;
gst_d3d12_device_acquire_fence_data (dest->device, &fence_data);
gst_d3d12_fence_data_push (fence_data,
FENCE_NOTIFY_MINI_OBJECT (gst_buffer_ref (src->buffer)));
std::vector < ID3D12Fence * >fences_to_wait;
std::vector < guint64 > fence_values_to_wait;
for (guint i = 0; i < G_N_ELEMENTS (dest->fence); i++) {
if (dest->fence[i].fence) {
fences_to_wait.push_back (dest->fence[i].fence);
fence_values_to_wait.push_back (dest->fence[i].fence_value);
}
if (src->fence[i].fence) {
fences_to_wait.push_back (src->fence[i].fence);
fence_values_to_wait.push_back (src->fence[i].fence_value);
}
}
return gst_d3d12_device_copy_texture_region (dest->device,
GST_VIDEO_INFO_N_PLANES (&dest->info), args, fence_data,
(guint) fences_to_wait.size (), fences_to_wait.data (),
fence_values_to_wait.data (), D3D12_COMMAND_LIST_TYPE_DIRECT,
fence_value);
}
/**
* gst_video_frame_copy_plane:
* @dest: a #GstD3D12Frame
* @src: a #GstD3D12Frame
* @plane: a plane
* @fence_value: (out): a fence value for the copy operation
*
* Copy the plane with index @plane from @src to @dest.
*
* Returns: %TRUE on success.
*
* Since: 1.26
*/
gboolean
gst_d3d12_frame_copy_plane (GstD3D12Frame * dest, const GstD3D12Frame * src,
guint plane, guint64 * fence_value)
{
g_return_val_if_fail (dest, FALSE);
g_return_val_if_fail (src, FALSE);
g_return_val_if_fail (dest->device, FALSE);
g_return_val_if_fail (src->device, FALSE);
g_return_val_if_fail (GST_VIDEO_INFO_FORMAT (&dest->info) ==
GST_VIDEO_INFO_FORMAT (&src->info), FALSE);
g_return_val_if_fail (plane < GST_VIDEO_INFO_N_PLANES (&dest->info), FALSE);
if (!gst_d3d12_device_is_equal (dest->device, src->device)) {
GST_ERROR ("Cross device copy is not supported");
return FALSE;
}
GstD3D12CopyTextureRegionArgs args = { };
D3D12_BOX src_box = { };
gst_d3d12_frame_build_copy_args (dest, src, plane, &args, &src_box);
args.src_box = &src_box;
GstD3D12FenceData *fence_data;
gst_d3d12_device_acquire_fence_data (dest->device, &fence_data);
gst_d3d12_fence_data_push (fence_data,
FENCE_NOTIFY_MINI_OBJECT (gst_buffer_ref (src->buffer)));
auto cq = gst_d3d12_device_get_command_queue (src->device,
D3D12_COMMAND_LIST_TYPE_DIRECT);
auto cq_handle = gst_d3d12_command_queue_get_handle (cq);
if (src->fence[plane].fence)
cq_handle->Wait (src->fence[plane].fence, src->fence[plane].fence_value);
if (dest->fence[plane].fence)
cq_handle->Wait (dest->fence[plane].fence, dest->fence[plane].fence_value);
return gst_d3d12_device_copy_texture_region (dest->device, 1, &args,
fence_data, 0, nullptr, nullptr, D3D12_COMMAND_LIST_TYPE_DIRECT,
fence_value);
}
/**
* gst_d3d12_frame_fence_gpu_wait:
* @frame: a #GstD3D12Frame
* @queue: a GstD3D12CommandQueue
*
* Executes ID3D12CommandQueue::Wait() if @frame has different fence object
*
* Returns: %TRUE on success.
*
* Since: 1.26
*/
gboolean
gst_d3d12_frame_fence_gpu_wait (const GstD3D12Frame * frame,
GstD3D12CommandQueue * queue)
{
g_return_val_if_fail (frame, FALSE);
g_return_val_if_fail (GST_IS_D3D12_DEVICE (frame->device), FALSE);
g_return_val_if_fail (GST_IS_D3D12_COMMAND_QUEUE (queue), FALSE);
ID3D12Fence *last_fence = nullptr;
guint64 last_fence_val = 0;
auto fence = gst_d3d12_command_queue_get_fence_handle (queue);
for (guint i = 0; i < G_N_ELEMENTS (frame->fence); i++) {
if (frame->fence[i].fence && frame->fence[i].fence != fence) {
if (frame->fence[i].fence == last_fence &&
frame->fence[i].fence_value <= last_fence_val) {
continue;
}
last_fence = frame->fence[i].fence;
last_fence_val = frame->fence[i].fence_value;
auto hr = gst_d3d12_command_queue_execute_wait (queue,
frame->fence[i].fence, frame->fence[i].fence_value);
if (!gst_d3d12_result (hr, frame->device))
return FALSE;
}
}
return TRUE;
}
/**
* gst_d3d12_frame_fence_cpu_wait:
* @frame: a #GstD3D12Frame
*
* Waits for external fence objects
*
* Returns: %TRUE on success.
*
* Since: 1.26
*/
gboolean
gst_d3d12_frame_fence_cpu_wait (const GstD3D12Frame * frame)
{
g_return_val_if_fail (frame, FALSE);
g_return_val_if_fail (GST_IS_D3D12_DEVICE (frame->device), FALSE);
ID3D12Fence *last_fence = nullptr;
guint64 last_fence_val = 0;
std::vector < ID3D12Fence * >fences;
std::vector < UINT64 > fence_vals;
for (guint i = 0; i < G_N_ELEMENTS (frame->fence); i++) {
if (frame->fence[i].fence) {
if (frame->fence[i].fence == last_fence &&
frame->fence[i].fence_value <= last_fence_val) {
continue;
}
last_fence = frame->fence[i].fence;
last_fence_val = frame->fence[i].fence_value;
fences.push_back (frame->fence[i].fence);
fence_vals.push_back (frame->fence[i].fence_value);
}
}
if (fences.empty ())
return TRUE;
ComPtr < ID3D12Device1 > device1;
auto device = gst_d3d12_device_get_device_handle (frame->device);
auto hr = device->QueryInterface (IID_PPV_ARGS (&device1));
if (SUCCEEDED (hr)) {
hr = device1->SetEventOnMultipleFenceCompletion (fences.data (),
fence_vals.data (), fences.size (), D3D12_MULTIPLE_FENCE_WAIT_FLAG_ALL,
nullptr);
} else {
for (size_t i = 0; i < fences.size (); i++) {
hr = fences[i]->SetEventOnCompletion (fence_vals[i], nullptr);
if (FAILED (hr))
break;
}
}
return gst_d3d12_result (hr, frame->device);
}