mirror of
https://gitlab.freedesktop.org/gstreamer/gstreamer.git
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cf5ef5635f
Introducing CUDA buffer pool with generic CUDA memory support. Likewise GL memory, any elements which are able to access CUDA device memory directly can map this CUDA memory without upload/download overhead via the "GST_MAP_CUDA" map flag. Also usual GstMemory map/unmap is also possible with internal staging memory. For staging, CUDA Host allocated memory is used (see CuMemAllocHost API). The memory is allowing system access but has lower overhead during GPU upload/download than normal system memory. Part-of: <https://gitlab.freedesktop.org/gstreamer/gst-plugins-bad/-/merge_requests/1633>
485 lines
14 KiB
C
485 lines
14 KiB
C
/* GStreamer
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* Copyright (C) <2018-2019> Seungha Yang <seungha.yang@navercorp.com>
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Library General Public
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* License as published by the Free Software Foundation; either
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* version 2 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Library General Public License for more details.
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*
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* You should have received a copy of the GNU Library General Public
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* License along with this library; if not, write to the
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* Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
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* Boston, MA 02110-1301, USA.
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*/
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#ifdef HAVE_CONFIG_H
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#include "config.h"
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#endif
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#include "gstcudamemory.h"
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#include "gstcudautils.h"
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#include <string.h>
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GST_DEBUG_CATEGORY_STATIC (cudaallocator_debug);
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#define GST_CAT_DEFAULT cudaallocator_debug
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GST_DEBUG_CATEGORY_STATIC (GST_CAT_MEMORY);
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#define gst_cuda_allocator_parent_class parent_class
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G_DEFINE_TYPE (GstCudaAllocator, gst_cuda_allocator, GST_TYPE_ALLOCATOR);
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static void gst_cuda_allocator_dispose (GObject * object);
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static void gst_cuda_allocator_free (GstAllocator * allocator,
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GstMemory * memory);
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static gpointer cuda_mem_map (GstCudaMemory * mem, gsize maxsize,
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GstMapFlags flags);
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static void cuda_mem_unmap_full (GstCudaMemory * mem, GstMapInfo * info);
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static GstMemory *cuda_mem_copy (GstMemory * mem, gssize offset, gssize size);
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static GstMemory *
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gst_cuda_allocator_dummy_alloc (GstAllocator * allocator, gsize size,
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GstAllocationParams * params)
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{
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g_return_val_if_reached (NULL);
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}
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static void
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gst_cuda_allocator_class_init (GstCudaAllocatorClass * klass)
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{
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GObjectClass *gobject_class = G_OBJECT_CLASS (klass);
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GstAllocatorClass *allocator_class = GST_ALLOCATOR_CLASS (klass);
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gobject_class->dispose = gst_cuda_allocator_dispose;
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allocator_class->alloc = GST_DEBUG_FUNCPTR (gst_cuda_allocator_dummy_alloc);
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allocator_class->free = GST_DEBUG_FUNCPTR (gst_cuda_allocator_free);
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GST_DEBUG_CATEGORY_INIT (cudaallocator_debug, "cudaallocator", 0,
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"CUDA Allocator");
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GST_DEBUG_CATEGORY_GET (GST_CAT_MEMORY, "GST_MEMORY");
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}
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static void
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gst_cuda_allocator_init (GstCudaAllocator * allocator)
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{
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GstAllocator *alloc = GST_ALLOCATOR_CAST (allocator);
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GST_DEBUG_OBJECT (allocator, "init");
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alloc->mem_type = GST_CUDA_MEMORY_TYPE_NAME;
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alloc->mem_map = (GstMemoryMapFunction) cuda_mem_map;
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alloc->mem_unmap_full = (GstMemoryUnmapFullFunction) cuda_mem_unmap_full;
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alloc->mem_copy = (GstMemoryCopyFunction) cuda_mem_copy;
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GST_OBJECT_FLAG_SET (allocator, GST_ALLOCATOR_FLAG_CUSTOM_ALLOC);
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}
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static void
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gst_cuda_allocator_dispose (GObject * object)
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{
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GstCudaAllocator *self = GST_CUDA_ALLOCATOR_CAST (object);
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GST_DEBUG_OBJECT (self, "dispose");
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gst_clear_object (&self->context);
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G_OBJECT_CLASS (parent_class)->dispose (object);
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}
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GstMemory *
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gst_cuda_allocator_alloc (GstAllocator * allocator, gsize size,
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GstCudaAllocationParams * params)
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{
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GstCudaAllocator *self = GST_CUDA_ALLOCATOR_CAST (allocator);
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gsize maxsize = size + params->parent.prefix + params->parent.padding;
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gsize align = params->parent.align;
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gsize offset = params->parent.prefix;
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GstMemoryFlags flags = params->parent.flags;
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CUdeviceptr data;
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gboolean ret = FALSE;
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GstCudaMemory *mem;
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GstVideoInfo *info = ¶ms->info;
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gint i;
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guint width, height;
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gsize stride, plane_offset;
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if (!gst_cuda_context_push (self->context))
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return NULL;
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/* ensure configured alignment */
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align |= gst_memory_alignment;
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/* allocate more to compensate for alignment */
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maxsize += align;
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GST_CAT_DEBUG_OBJECT (GST_CAT_MEMORY, self, "allocate new cuda memory");
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width = GST_VIDEO_INFO_COMP_WIDTH (info, 0) *
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GST_VIDEO_INFO_COMP_PSTRIDE (info, 0);
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height = 0;
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for (i = 0; i < GST_VIDEO_INFO_N_PLANES (info); i++)
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height += GST_VIDEO_INFO_COMP_HEIGHT (info, i);
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ret = gst_cuda_result (CuMemAllocPitch (&data, &stride, width, height, 16));
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gst_cuda_context_pop (NULL);
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if (G_UNLIKELY (!ret)) {
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GST_CAT_ERROR_OBJECT (GST_CAT_MEMORY, self, "CUDA allocation failure");
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return NULL;
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}
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mem = g_new0 (GstCudaMemory, 1);
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g_mutex_init (&mem->lock);
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mem->data = data;
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mem->alloc_params = *params;
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mem->stride = stride;
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plane_offset = 0;
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for (i = 0; i < GST_VIDEO_INFO_N_PLANES (info); i++) {
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mem->offset[i] = plane_offset;
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plane_offset += stride * GST_VIDEO_INFO_COMP_HEIGHT (info, i);
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}
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mem->context = gst_object_ref (self->context);
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gst_memory_init (GST_MEMORY_CAST (mem),
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flags, GST_ALLOCATOR_CAST (self), NULL, maxsize, align, offset, size);
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return GST_MEMORY_CAST (mem);
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}
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static void
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gst_cuda_allocator_free (GstAllocator * allocator, GstMemory * memory)
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{
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GstCudaAllocator *self = GST_CUDA_ALLOCATOR_CAST (allocator);
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GstCudaMemory *mem = GST_CUDA_MEMORY_CAST (memory);
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GST_CAT_DEBUG_OBJECT (GST_CAT_MEMORY, allocator, "free cuda memory");
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g_mutex_clear (&mem->lock);
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gst_cuda_context_push (self->context);
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if (mem->data)
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gst_cuda_result (CuMemFree (mem->data));
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if (mem->map_alloc_data)
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gst_cuda_result (CuMemFreeHost (mem->map_alloc_data));
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gst_cuda_context_pop (NULL);
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gst_object_unref (mem->context);
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g_free (mem);
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}
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/* called with lock */
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static gboolean
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gst_cuda_memory_upload_transfer (GstCudaMemory * mem)
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{
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gint i;
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GstVideoInfo *info = &mem->alloc_params.info;
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gboolean ret = TRUE;
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if (!mem->map_data) {
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GST_CAT_ERROR (GST_CAT_MEMORY, "no staging memory to upload");
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return FALSE;
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}
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for (i = 0; i < GST_VIDEO_INFO_N_PLANES (info); i++) {
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CUDA_MEMCPY2D param = { 0, };
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param.srcMemoryType = CU_MEMORYTYPE_HOST;
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param.srcHost =
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(guint8 *) mem->map_data + GST_VIDEO_INFO_PLANE_OFFSET (info, i);
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param.srcPitch = GST_VIDEO_INFO_PLANE_STRIDE (info, i);
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param.dstMemoryType = CU_MEMORYTYPE_DEVICE;
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param.dstDevice = mem->data + mem->offset[i];
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param.dstPitch = mem->stride;
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param.WidthInBytes = GST_VIDEO_INFO_COMP_WIDTH (info, i) *
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GST_VIDEO_INFO_COMP_PSTRIDE (info, i);
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param.Height = GST_VIDEO_INFO_COMP_HEIGHT (info, i);
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if (!gst_cuda_result (CuMemcpy2DAsync (¶m, NULL))) {
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GST_CAT_ERROR (GST_CAT_MEMORY, "Failed to copy %dth plane", i);
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ret = FALSE;
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break;
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}
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}
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gst_cuda_result (CuStreamSynchronize (NULL));
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return ret;
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}
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/* called with lock */
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static gboolean
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gst_cuda_memory_download_transfer (GstCudaMemory * mem)
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{
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gint i;
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GstVideoInfo *info = &mem->alloc_params.info;
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if (!mem->map_data) {
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GST_CAT_ERROR (GST_CAT_MEMORY, "no staging memory to upload");
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return FALSE;
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}
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for (i = 0; i < GST_VIDEO_INFO_N_PLANES (info); i++) {
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CUDA_MEMCPY2D param = { 0, };
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param.srcMemoryType = CU_MEMORYTYPE_DEVICE;
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param.srcDevice = mem->data + mem->offset[i];
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param.srcPitch = mem->stride;
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param.dstMemoryType = CU_MEMORYTYPE_HOST;
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param.dstHost =
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(guint8 *) mem->map_data + GST_VIDEO_INFO_PLANE_OFFSET (info, i);
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param.dstPitch = GST_VIDEO_INFO_PLANE_STRIDE (info, i);
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param.WidthInBytes = GST_VIDEO_INFO_COMP_WIDTH (info, i) *
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GST_VIDEO_INFO_COMP_PSTRIDE (info, i);
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param.Height = GST_VIDEO_INFO_COMP_HEIGHT (info, i);
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if (!gst_cuda_result (CuMemcpy2DAsync (¶m, NULL))) {
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GST_CAT_ERROR (GST_CAT_MEMORY, "Failed to copy %dth plane", i);
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CuMemFreeHost (mem->map_alloc_data);
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mem->map_alloc_data = mem->map_data = mem->align_data = NULL;
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break;
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}
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}
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gst_cuda_result (CuStreamSynchronize (NULL));
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return ! !mem->map_data;
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}
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static gpointer
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gst_cuda_memory_device_memory_map (GstCudaMemory * mem)
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{
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GstMemory *memory = GST_MEMORY_CAST (mem);
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gpointer data;
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gsize aoffset;
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gsize align = memory->align;
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if (mem->map_data) {
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return mem->map_data;
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}
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GST_CAT_DEBUG (GST_CAT_MEMORY, "alloc host memory for map");
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if (!mem->map_alloc_data) {
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gsize maxsize;
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guint8 *align_data;
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maxsize = memory->maxsize + align;
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if (!gst_cuda_context_push (mem->context)) {
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GST_CAT_ERROR (GST_CAT_MEMORY, "cannot push cuda context");
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return NULL;
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}
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if (!gst_cuda_result (CuMemAllocHost (&data, maxsize))) {
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GST_CAT_ERROR (GST_CAT_MEMORY, "cannot alloc host memory");
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gst_cuda_context_pop (NULL);
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return NULL;
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}
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if (!gst_cuda_context_pop (NULL)) {
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GST_CAT_WARNING (GST_CAT_MEMORY, "cannot pop cuda context");
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}
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mem->map_alloc_data = data;
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align_data = data;
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/* do align */
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if ((aoffset = ((guintptr) align_data & align))) {
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aoffset = (align + 1) - aoffset;
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align_data += aoffset;
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}
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mem->align_data = align_data;
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/* first memory, always need download to staging */
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GST_MINI_OBJECT_FLAG_SET (mem, GST_CUDA_MEMORY_TRANSFER_NEED_DOWNLOAD);
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}
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mem->map_data = mem->align_data;
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if (GST_MEMORY_FLAG_IS_SET (mem, GST_CUDA_MEMORY_TRANSFER_NEED_DOWNLOAD)) {
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if (!gst_cuda_context_push (mem->context)) {
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GST_CAT_ERROR (GST_CAT_MEMORY, "cannot push cuda context");
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return NULL;
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}
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gst_cuda_memory_download_transfer (mem);
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if (!gst_cuda_context_pop (NULL)) {
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GST_CAT_WARNING (GST_CAT_MEMORY, "cannot pop cuda context");
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}
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}
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return mem->map_data;
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}
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static gpointer
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cuda_mem_map (GstCudaMemory * mem, gsize maxsize, GstMapFlags flags)
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{
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gpointer ret = NULL;
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g_mutex_lock (&mem->lock);
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mem->map_count++;
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if ((flags & GST_MAP_CUDA) == GST_MAP_CUDA) {
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/* upload from staging to device memory if necessary */
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if (GST_MEMORY_FLAG_IS_SET (mem, GST_CUDA_MEMORY_TRANSFER_NEED_UPLOAD)) {
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if (!gst_cuda_context_push (mem->context)) {
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GST_CAT_ERROR (GST_CAT_MEMORY, "cannot push cuda context");
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g_mutex_unlock (&mem->lock);
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return NULL;
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}
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if (!gst_cuda_memory_upload_transfer (mem)) {
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g_mutex_unlock (&mem->lock);
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return NULL;
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}
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gst_cuda_context_pop (NULL);
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}
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GST_MEMORY_FLAG_UNSET (mem, GST_CUDA_MEMORY_TRANSFER_NEED_UPLOAD);
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if ((flags & GST_MAP_WRITE) == GST_MAP_WRITE)
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GST_MINI_OBJECT_FLAG_SET (mem, GST_CUDA_MEMORY_TRANSFER_NEED_DOWNLOAD);
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g_mutex_unlock (&mem->lock);
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return (gpointer) mem->data;
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}
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ret = gst_cuda_memory_device_memory_map (mem);
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if (ret == NULL) {
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mem->map_count--;
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g_mutex_unlock (&mem->lock);
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return NULL;
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}
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if ((flags & GST_MAP_WRITE) == GST_MAP_WRITE)
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GST_MINI_OBJECT_FLAG_SET (mem, GST_CUDA_MEMORY_TRANSFER_NEED_UPLOAD);
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GST_MEMORY_FLAG_UNSET (mem, GST_CUDA_MEMORY_TRANSFER_NEED_DOWNLOAD);
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g_mutex_unlock (&mem->lock);
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return ret;
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}
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static void
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cuda_mem_unmap_full (GstCudaMemory * mem, GstMapInfo * info)
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{
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g_mutex_lock (&mem->lock);
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mem->map_count--;
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GST_CAT_TRACE (GST_CAT_MEMORY,
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"unmap CUDA memory %p, map count %d, have map_data %s",
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mem, mem->map_count, mem->map_data ? "true" : "false");
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if ((info->flags & GST_MAP_CUDA) == GST_MAP_CUDA) {
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if ((info->flags & GST_MAP_WRITE) == GST_MAP_WRITE)
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GST_MINI_OBJECT_FLAG_SET (mem, GST_CUDA_MEMORY_TRANSFER_NEED_DOWNLOAD);
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g_mutex_unlock (&mem->lock);
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return;
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}
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if ((info->flags & GST_MAP_WRITE))
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GST_MINI_OBJECT_FLAG_SET (mem, GST_CUDA_MEMORY_TRANSFER_NEED_UPLOAD);
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if (mem->map_count > 0 || !mem->map_data) {
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g_mutex_unlock (&mem->lock);
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return;
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}
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mem->map_data = NULL;
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g_mutex_unlock (&mem->lock);
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return;
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}
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static GstMemory *
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cuda_mem_copy (GstMemory * mem, gssize offset, gssize size)
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{
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GstMemory *copy;
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GstCudaMemory *src_mem = GST_CUDA_MEMORY_CAST (mem);
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GstCudaMemory *dst_mem;
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GstCudaContext *ctx = GST_CUDA_ALLOCATOR_CAST (mem->allocator)->context;
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gint i;
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GstVideoInfo *info;
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/* offset and size are ignored */
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copy = gst_cuda_allocator_alloc (mem->allocator, mem->size,
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&src_mem->alloc_params);
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dst_mem = GST_CUDA_MEMORY_CAST (copy);
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info = &src_mem->alloc_params.info;
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if (!gst_cuda_context_push (ctx)) {
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GST_CAT_ERROR (GST_CAT_MEMORY, "cannot push cuda context");
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gst_cuda_allocator_free (mem->allocator, copy);
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return NULL;
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}
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for (i = 0; i < GST_VIDEO_INFO_N_PLANES (info); i++) {
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CUDA_MEMCPY2D param = { 0, };
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param.srcMemoryType = CU_MEMORYTYPE_DEVICE;
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param.srcDevice = src_mem->data + src_mem->offset[i];
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param.srcPitch = src_mem->stride;
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param.dstMemoryType = CU_MEMORYTYPE_DEVICE;
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param.dstDevice = dst_mem->data + dst_mem->offset[i];
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param.dstPitch = dst_mem->stride;
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param.WidthInBytes = GST_VIDEO_INFO_COMP_WIDTH (info, i) *
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GST_VIDEO_INFO_COMP_PSTRIDE (info, i);
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param.Height = GST_VIDEO_INFO_COMP_HEIGHT (info, i);
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if (!gst_cuda_result (CuMemcpy2DAsync (¶m, NULL))) {
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GST_CAT_ERROR_OBJECT (GST_CAT_MEMORY,
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mem->allocator, "Failed to copy %dth plane", i);
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gst_cuda_context_pop (NULL);
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gst_cuda_allocator_free (mem->allocator, copy);
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return NULL;
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}
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}
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gst_cuda_result (CuStreamSynchronize (NULL));
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if (!gst_cuda_context_pop (NULL)) {
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GST_CAT_WARNING (GST_CAT_MEMORY, "cannot pop cuda context");
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}
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return copy;
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}
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GstAllocator *
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gst_cuda_allocator_new (GstCudaContext * context)
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{
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GstCudaAllocator *allocator;
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g_return_val_if_fail (GST_IS_CUDA_CONTEXT (context), NULL);
|
|
|
|
allocator = g_object_new (GST_TYPE_CUDA_ALLOCATOR, NULL);
|
|
allocator->context = gst_object_ref (context);
|
|
|
|
return GST_ALLOCATOR_CAST (allocator);
|
|
}
|
|
|
|
gboolean
|
|
gst_is_cuda_memory (GstMemory * mem)
|
|
{
|
|
return mem != NULL && mem->allocator != NULL &&
|
|
GST_IS_CUDA_ALLOCATOR (mem->allocator);
|
|
}
|