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https://gitlab.freedesktop.org/gstreamer/gstreamer.git
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783e58fc48
One big restriction of the OMX buffer pool has always been that the GstMemory objects were flagged with NO_SHARE. This was because the buffer pool needed to be sure that when a buffer returned to the pool, it would be safe to release the OMX buffer back to OpenMAX. With this change, this is no longer a restriction. What this commit introduces is a new allocator that allows us to track the GstMemory objects independently. Now, when a buffer returns to the pool, it is not necessary for the memory to be released as well. We simply track the memory's ref count in the allocator and we return the OMX buffer back when the memory's ref count drops to 0. The reason for doing this is to allow implementing zero-copy transfers in situations where we may need to copy or map a certain region of the buffer. For instance, omxh264enc ! h264parse should be possible to be zero-copy by using an OMX buffer pool between them.
552 lines
16 KiB
C
552 lines
16 KiB
C
/*
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* Copyright (C) 2019, Collabora Ltd.
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* Author: George Kiagiadakis <george.kiagiadakis@collabora.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 Lesser General Public
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* License as published by the Free Software Foundation
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* version 2.1 of the License.
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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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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*
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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 "gstomxallocator.h"
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#include <gst/allocators/gstdmabuf.h>
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GST_DEBUG_CATEGORY_STATIC (gst_omx_allocator_debug_category);
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#define GST_CAT_DEFAULT gst_omx_allocator_debug_category
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#define DEBUG_INIT \
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GST_DEBUG_CATEGORY_INIT (gst_omx_allocator_debug_category, "omxallocator", 0, \
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"debug category for gst-omx allocator class");
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G_DEFINE_TYPE_WITH_CODE (GstOMXAllocator, gst_omx_allocator, GST_TYPE_ALLOCATOR,
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DEBUG_INIT);
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enum
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{
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SIG_OMXBUF_RELEASED,
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SIG_FOREIGN_MEM_RELEASED,
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LAST_SIGNAL
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};
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static guint signals[LAST_SIGNAL] = { 0 };
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/* Custom allocator for memory associated with OpenMAX buffers
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*
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* The main purpose of this allocator is to track memory that is associated
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* with OpenMAX buffers, so that we know when the buffers can be released
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* back to OpenMAX.
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*
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* This allocator looks and behaves more like a buffer pool. It allocates
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* the memory objects before starting and sets a miniobject dispose function
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* on them, which allows them to return when their last ref count is dropped.
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*
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* The type of memory that this allocator manages is GstOMXMemory. However, it
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* is possible to manage a different type of memory, in which case the
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* GstOMXMemory object is used only internally. There are two supported cases:
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* - Allocate memory from the dmabuf allocator
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* - Take memory that was allocated externally and manage it here
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*
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* In both cases, this allocator will replace the miniobject dispose function
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* of these memory objects, so if they were acquired from here, they will also
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* return here on their last unref.
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*
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* The caller initially needs to configure how many memory objects will be
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* managed here by calling configure(). After that it needs to call
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* set_active(TRUE) and finally allocate() for each memory. Allocation is done
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* like this to facilitate calling allocate() from the alloc() function of
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* the buffer pool for each OMX buffer on the port.
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*
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* After the allocator has been activated and all buffers have been allocated,
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* the acquire() method can be called to retrieve a memory object. acquire() can
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* be given an OMX buffer index or pointer to locate and return the memory
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* object that corresponds to this OMX buffer. If the buffer is already
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* acquired, this will result in a GST_FLOW_ERROR.
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*
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* When the last reference count is dropped on a memory that was acquired from
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* here, its dispose function will ref it again and allow it to be acquired
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* again. In addition, the omxbuf-released signal is fired to let the caller
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* know that it can return this OMX buffer to the port, as it is no longer
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* used outside this allocator.
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*/
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/******************/
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/** GstOMXMemory **/
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/******************/
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#define GST_OMX_MEMORY_TYPE "openmax"
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GQuark
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gst_omx_memory_quark (void)
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{
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static GQuark quark = 0;
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if (quark == 0)
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quark = g_quark_from_static_string ("GstOMXMemory");
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return quark;
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}
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static GstOMXMemory *
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gst_omx_memory_new (GstOMXAllocator * allocator, GstOMXBuffer * omx_buf,
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GstMemoryFlags flags, GstMemory * parent, gssize offset, gssize size)
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{
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GstOMXMemory *mem;
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gint align;
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gsize maxsize;
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/* GStreamer uses a bitmask for the alignment while
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* OMX uses the alignment itself. So we have to convert
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* here */
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align = allocator->port->port_def.nBufferAlignment;
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if (align > 0)
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align -= 1;
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if (((align + 1) & align) != 0) {
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GST_WARNING ("Invalid alignment that is not a power of two: %u",
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(guint) allocator->port->port_def.nBufferAlignment);
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align = 0;
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}
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maxsize = omx_buf->omx_buf->nAllocLen;
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if (size == -1) {
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size = maxsize - offset;
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}
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mem = g_slice_new0 (GstOMXMemory);
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gst_memory_init (GST_MEMORY_CAST (mem), flags, (GstAllocator *) allocator,
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parent, maxsize, align, offset, size);
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mem->buf = omx_buf;
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return mem;
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}
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static gpointer
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gst_omx_memory_map (GstMemory * mem, gsize maxsize, GstMapFlags flags)
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{
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GstOMXMemory *omem = (GstOMXMemory *) mem;
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/* if we are using foreign_mem, the GstOMXMemory should never appear
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* anywhere outside this allocator, therefore it should never be mapped */
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g_return_val_if_fail (!omem->foreign_mem, NULL);
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return omem->buf->omx_buf->pBuffer;
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}
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static void
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gst_omx_memory_unmap (GstMemory * mem)
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{
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}
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static GstMemory *
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gst_omx_memory_share (GstMemory * mem, gssize offset, gssize size)
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{
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GstOMXMemory *omem = (GstOMXMemory *) mem;
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GstOMXMemory *sub;
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GstMemory *parent;
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/* find the real parent */
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if ((parent = mem->parent) == NULL)
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parent = mem;
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if (size == -1)
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size = mem->size - offset;
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/* the shared memory is always readonly */
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sub = gst_omx_memory_new ((GstOMXAllocator *) mem->allocator, omem->buf,
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GST_MINI_OBJECT_FLAGS (parent) | GST_MINI_OBJECT_FLAG_LOCK_READONLY,
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parent, offset, size);
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return (GstMemory *) sub;
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}
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GstOMXBuffer *
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gst_omx_memory_get_omx_buf (GstMemory * mem)
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{
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GstOMXMemory *omx_mem;
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if (GST_IS_OMX_ALLOCATOR (mem->allocator))
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omx_mem = (GstOMXMemory *) mem;
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else
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omx_mem = gst_mini_object_get_qdata (GST_MINI_OBJECT (mem),
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GST_OMX_MEMORY_QUARK);
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if (!omx_mem)
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return NULL;
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return omx_mem->buf;
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}
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/*********************/
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/** GstOMXAllocator **/
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/*********************/
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static void
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gst_omx_allocator_init (GstOMXAllocator * allocator)
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{
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GstAllocator *alloc = GST_ALLOCATOR_CAST (allocator);
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alloc->mem_type = GST_OMX_MEMORY_TYPE;
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alloc->mem_map = gst_omx_memory_map;
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alloc->mem_unmap = gst_omx_memory_unmap;
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alloc->mem_share = gst_omx_memory_share;
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/* default copy & is_span */
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GST_OBJECT_FLAG_SET (allocator, GST_ALLOCATOR_FLAG_CUSTOM_ALLOC);
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g_mutex_init (&allocator->lock);
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g_cond_init (&allocator->cond);
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}
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GstOMXAllocator *
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gst_omx_allocator_new (GstOMXComponent * component, GstOMXPort * port)
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{
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GstOMXAllocator *allocator;
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allocator = g_object_new (gst_omx_allocator_get_type (), NULL);
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allocator->component = gst_omx_component_ref (component);
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allocator->port = port;
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return allocator;
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}
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static void
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gst_omx_allocator_finalize (GObject * object)
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{
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GstOMXAllocator *allocator = GST_OMX_ALLOCATOR (object);
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gst_omx_component_unref (allocator->component);
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g_mutex_clear (&allocator->lock);
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g_cond_clear (&allocator->cond);
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}
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gboolean
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gst_omx_allocator_configure (GstOMXAllocator * allocator, guint count,
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GstOMXAllocatorForeignMemMode mode)
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{
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/* check if already configured */
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if (allocator->n_memories > 0)
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return FALSE;
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allocator->n_memories = count;
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allocator->foreign_mode = mode;
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if (mode == GST_OMX_ALLOCATOR_FOREIGN_MEM_DMABUF)
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allocator->foreign_allocator = gst_dmabuf_allocator_new ();
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return TRUE;
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}
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/* must be protected with allocator->lock */
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static void
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gst_omx_allocator_dealloc (GstOMXAllocator * allocator)
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{
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/* might be called more than once */
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if (!allocator->memories)
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return;
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/* return foreign memory back to whoever lended it to us.
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* the signal handler is expected to increase the ref count of foreign_mem */
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if (allocator->foreign_mode == GST_OMX_ALLOCATOR_FOREIGN_MEM_OTHER_POOL) {
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gint i;
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GstOMXMemory *m;
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for (i = 0; i < allocator->memories->len; i++) {
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m = g_ptr_array_index (allocator->memories, i);
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/* this should not happen, but let's not crash for this */
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if (!m->foreign_mem) {
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GST_WARNING_OBJECT (allocator, "no foreign_mem to release");
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continue;
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}
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/* restore the original dispose function */
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GST_MINI_OBJECT_CAST (m->foreign_mem)->dispose =
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(GstMiniObjectDisposeFunction) m->foreign_dispose;
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g_signal_emit (allocator, signals[SIG_FOREIGN_MEM_RELEASED], 0, i,
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m->foreign_mem);
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}
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}
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g_ptr_array_foreach (allocator->memories, (GFunc) gst_memory_unref, NULL);
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g_ptr_array_free (allocator->memories, TRUE);
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allocator->memories = NULL;
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allocator->n_memories = 0;
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allocator->foreign_mode = GST_OMX_ALLOCATOR_FOREIGN_MEM_NONE;
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if (allocator->foreign_allocator) {
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g_object_unref (allocator->foreign_allocator);
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allocator->foreign_allocator = NULL;
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}
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g_cond_broadcast (&allocator->cond);
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}
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gboolean
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gst_omx_allocator_set_active (GstOMXAllocator * allocator, gboolean active)
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{
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gboolean changed = FALSE;
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/* on activation, _configure() must be called first */
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g_return_val_if_fail (!active || allocator->n_memories > 0, FALSE);
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g_mutex_lock (&allocator->lock);
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if (allocator->active != active)
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changed = TRUE;
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if (changed) {
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if (active) {
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allocator->memories = g_ptr_array_sized_new (allocator->n_memories);
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g_ptr_array_set_size (allocator->memories, allocator->n_memories);
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} else {
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if (g_atomic_int_get (&allocator->n_outstanding) == 0)
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gst_omx_allocator_dealloc (allocator);
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}
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}
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allocator->active = active;
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g_mutex_unlock (&allocator->lock);
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return changed;
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}
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void
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gst_omx_allocator_wait_inactive (GstOMXAllocator * allocator)
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{
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g_mutex_lock (&allocator->lock);
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while (allocator->memories)
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g_cond_wait (&allocator->cond, &allocator->lock);
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g_mutex_unlock (&allocator->lock);
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}
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static inline void
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dec_outstanding (GstOMXAllocator * allocator)
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{
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if (g_atomic_int_dec_and_test (&allocator->n_outstanding)) {
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/* keep a ref to the allocator because _dealloc() will free
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* all the memories and the memories might be the only thing holding
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* a reference to the allocator; we need to keep it alive until the
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* end of this function call */
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g_object_ref (allocator);
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/* take the lock so that _set_active() is not run concurrently */
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g_mutex_lock (&allocator->lock);
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/* now that we have the lock, check if we have been de-activated with
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* outstanding buffers */
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if (!allocator->active)
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gst_omx_allocator_dealloc (allocator);
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g_mutex_unlock (&allocator->lock);
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g_object_unref (allocator);
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}
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}
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GstFlowReturn
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gst_omx_allocator_acquire (GstOMXAllocator * allocator, GstMemory ** memory,
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gint index, GstOMXBuffer * omx_buf)
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{
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GstFlowReturn ret = GST_FLOW_OK;
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GstOMXMemory *omx_mem = NULL;
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/* ensure memories are not going to disappear concurrently */
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g_atomic_int_inc (&allocator->n_outstanding);
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if (!allocator->active) {
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ret = GST_FLOW_FLUSHING;
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goto beach;
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}
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if (index >= 0 && index < allocator->n_memories)
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omx_mem = g_ptr_array_index (allocator->memories, index);
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else if (omx_buf) {
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for (index = 0; index < allocator->n_memories; index++) {
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omx_mem = g_ptr_array_index (allocator->memories, index);
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if (omx_mem->buf == omx_buf)
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break;
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}
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}
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if (G_UNLIKELY (!omx_mem || index >= allocator->n_memories)) {
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GST_ERROR_OBJECT (allocator, "Failed to find OMX memory");
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ret = GST_FLOW_ERROR;
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goto beach;
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}
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if (G_UNLIKELY (omx_mem->buf->used)) {
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GST_ERROR_OBJECT (allocator,
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"Trying to acquire a buffer that is being used by the OMX port");
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ret = GST_FLOW_ERROR;
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goto beach;
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}
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omx_mem->acquired = TRUE;
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if (omx_mem->foreign_mem)
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*memory = omx_mem->foreign_mem;
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else
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*memory = GST_MEMORY_CAST (omx_mem);
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beach:
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if (ret != GST_FLOW_OK)
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dec_outstanding (allocator);
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return ret;
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}
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/* installed as the GstMiniObject::dispose function of the acquired GstMemory */
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static gboolean
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gst_omx_allocator_memory_dispose (GstMemory * mem)
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{
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GstOMXMemory *omx_mem;
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GstOMXAllocator *allocator;
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/* memory may be from our allocator, but
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* may as well be from the dmabuf allocator */
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if (GST_IS_OMX_ALLOCATOR (mem->allocator))
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omx_mem = (GstOMXMemory *) mem;
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else
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omx_mem = gst_mini_object_get_qdata (GST_MINI_OBJECT (mem),
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GST_OMX_MEMORY_QUARK);
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if (omx_mem->acquired) {
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/* keep the memory alive */
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gst_memory_ref (mem);
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omx_mem->acquired = FALSE;
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allocator = GST_OMX_ALLOCATOR (GST_MEMORY_CAST (omx_mem)->allocator);
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/* inform the upper layer that we are no longer using this GstOMXBuffer */
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g_signal_emit (allocator, signals[SIG_OMXBUF_RELEASED], 0, omx_mem->buf);
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dec_outstanding (allocator);
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/* be careful here, both the memory and the allocator
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* may have been free'd as part of the call to dec_outstanding() */
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return FALSE;
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}
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/* if the foreign memory had a dispose function, let that one decide
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* the fate of this memory. We are no longer going to be using it here */
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if (omx_mem->foreign_dispose)
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return omx_mem->foreign_dispose (GST_MINI_OBJECT_CAST (mem));
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return TRUE;
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}
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static inline void
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install_mem_dispose (GstOMXMemory * mem)
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{
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GstMemory *managed_mem = (GstMemory *) mem;
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if (mem->foreign_mem) {
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managed_mem = mem->foreign_mem;
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mem->foreign_dispose = GST_MINI_OBJECT_CAST (managed_mem)->dispose;
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}
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GST_MINI_OBJECT_CAST (managed_mem)->dispose =
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(GstMiniObjectDisposeFunction) gst_omx_allocator_memory_dispose;
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}
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/* the returned memory is transfer:none, ref still belongs to the allocator */
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GstMemory *
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gst_omx_allocator_allocate (GstOMXAllocator * allocator, gint index,
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GstMemory * foreign_mem)
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{
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GstOMXMemory *mem;
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GstOMXBuffer *omx_buf;
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g_return_val_if_fail (allocator->port->buffers, NULL);
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g_return_val_if_fail (allocator->memories, NULL);
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g_return_val_if_fail (index >= 0 && index < allocator->n_memories, NULL);
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g_return_val_if_fail ((foreign_mem == NULL &&
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allocator->foreign_mode != GST_OMX_ALLOCATOR_FOREIGN_MEM_OTHER_POOL)
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|| (foreign_mem != NULL
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&& allocator->foreign_mode ==
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GST_OMX_ALLOCATOR_FOREIGN_MEM_OTHER_POOL), NULL);
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omx_buf = g_ptr_array_index (allocator->port->buffers, index);
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g_return_val_if_fail (omx_buf != NULL, NULL);
|
|
|
|
mem = gst_omx_memory_new (allocator, omx_buf, 0, NULL, 0, -1);
|
|
|
|
switch (allocator->foreign_mode) {
|
|
case GST_OMX_ALLOCATOR_FOREIGN_MEM_NONE:
|
|
install_mem_dispose (mem);
|
|
break;
|
|
case GST_OMX_ALLOCATOR_FOREIGN_MEM_DMABUF:
|
|
{
|
|
gint fd = GPOINTER_TO_INT (omx_buf->omx_buf->pBuffer);
|
|
mem->foreign_mem =
|
|
gst_dmabuf_allocator_alloc (allocator->foreign_allocator, fd,
|
|
omx_buf->omx_buf->nAllocLen);
|
|
gst_mini_object_set_qdata (GST_MINI_OBJECT (mem->foreign_mem),
|
|
GST_OMX_MEMORY_QUARK, mem, NULL);
|
|
install_mem_dispose (mem);
|
|
break;
|
|
}
|
|
case GST_OMX_ALLOCATOR_FOREIGN_MEM_OTHER_POOL:
|
|
mem->foreign_mem = foreign_mem;
|
|
gst_mini_object_set_qdata (GST_MINI_OBJECT (mem->foreign_mem),
|
|
GST_OMX_MEMORY_QUARK, mem, NULL);
|
|
install_mem_dispose (mem);
|
|
break;
|
|
default:
|
|
g_assert_not_reached ();
|
|
break;
|
|
}
|
|
|
|
g_ptr_array_index (allocator->memories, index) = mem;
|
|
return mem->foreign_mem ? mem->foreign_mem : (GstMemory *) mem;
|
|
}
|
|
|
|
static void
|
|
gst_omx_allocator_free (GstAllocator * allocator, GstMemory * mem)
|
|
{
|
|
GstOMXMemory *omem = (GstOMXMemory *) mem;
|
|
|
|
g_warn_if_fail (!omem->acquired);
|
|
|
|
if (omem->foreign_mem)
|
|
gst_memory_unref (omem->foreign_mem);
|
|
|
|
g_slice_free (GstOMXMemory, omem);
|
|
}
|
|
|
|
static void
|
|
gst_omx_allocator_class_init (GstOMXAllocatorClass * klass)
|
|
{
|
|
GObjectClass *object_class;
|
|
GstAllocatorClass *allocator_class;
|
|
|
|
object_class = (GObjectClass *) klass;
|
|
allocator_class = (GstAllocatorClass *) klass;
|
|
|
|
object_class->finalize = gst_omx_allocator_finalize;
|
|
allocator_class->alloc = NULL;
|
|
allocator_class->free = gst_omx_allocator_free;
|
|
|
|
signals[SIG_OMXBUF_RELEASED] = g_signal_new ("omxbuf-released",
|
|
G_TYPE_FROM_CLASS (klass), G_SIGNAL_RUN_LAST, 0,
|
|
NULL, NULL, NULL, G_TYPE_NONE, 1, G_TYPE_POINTER);
|
|
|
|
signals[SIG_FOREIGN_MEM_RELEASED] = g_signal_new ("foreign-mem-released",
|
|
G_TYPE_FROM_CLASS (klass), G_SIGNAL_RUN_LAST, 0,
|
|
NULL, NULL, NULL, G_TYPE_NONE, 2, G_TYPE_INT, G_TYPE_POINTER);
|
|
}
|