/* GStreamer * Copyright (C) 2011 Wim Taymans * * gstmemory.c: memory block handling * * 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., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ /** * SECTION:gstmemory * @short_description: refcounted wrapper for memory blocks * @see_also: #GstBuffer * * GstMemory is a lightweight refcounted object that wraps a region of memory. * They are typically used to manage the data of a #GstBuffer. * * Memory is usually created by allocators with a gst_allocator_alloc() * method call. When NULL is used as the allocator, the default allocator will * be used. * * New allocators can be registered with gst_allocator_register(). * Allocators are identified by name and can be retrieved with * gst_allocator_find(). * * New memory can be created with gst_memory_new_wrapped() that wraps the memory * allocated elsewhere. * * Refcounting of the memory block is performed with gst_memory_ref() and * gst_memory_unref(). * * The size of the memory can be retrieved and changed with * gst_memory_get_sizes() and gst_memory_resize() respectively. * * Getting access to the data of the memory is performed with gst_memory_map(). * After the memory access is completed, gst_memory_unmap() should be called. * * Memory can be copied with gst_memory_copy(), which will returnn a writable * copy. gst_memory_share() will create a new memory block that shares the * memory with an existing memory block at a custom offset and with a custom * size. * * Memory can be efficiently merged when gst_memory_is_span() returns TRUE. * * Last reviewed on 2011-06-08 (0.11.0) */ #include "config.h" #include "gst_private.h" #include "gstmemory.h" G_DEFINE_BOXED_TYPE (GstMemory, gst_memory, (GBoxedCopyFunc) gst_memory_ref, (GBoxedFreeFunc) gst_memory_unref); /** * gst_memory_alignment: * * The default memory alignment in bytes - 1 * an alignment of 7 would be the same as what malloc() guarantees. */ #if defined(MEMORY_ALIGNMENT_MALLOC) size_t gst_memory_alignment = 7; #elif defined(MEMORY_ALIGNMENT_PAGESIZE) /* we fill this in in the _init method */ size_t gst_memory_alignment = 0; #elif defined(MEMORY_ALIGNMENT) size_t gst_memory_alignment = MEMORY_ALIGNMENT - 1; #else #error "No memory alignment configured" size_t gst_memory_alignment = 0; #endif struct _GstAllocator { GQuark name; GstMemoryInfo info; }; /* default memory implementation */ typedef struct { GstMemory mem; gsize slice_size; guint8 *data; GFreeFunc free_func; gsize maxsize; gsize offset; gsize size; } GstMemoryDefault; /* the default allocator */ static const GstAllocator *_default_allocator; /* our predefined allocators */ static const GstAllocator *_default_mem_impl; /* initialize the fields */ static void _default_mem_init (GstMemoryDefault * mem, GstMemoryFlags flags, GstMemory * parent, gsize slice_size, gpointer data, GFreeFunc free_func, gsize maxsize, gsize offset, gsize size) { mem->mem.allocator = _default_mem_impl; mem->mem.flags = flags; mem->mem.refcount = 1; mem->mem.parent = parent ? gst_memory_ref (parent) : NULL; mem->slice_size = slice_size; mem->data = data; mem->free_func = free_func; mem->maxsize = maxsize; mem->offset = offset; mem->size = size; } /* create a new memory block that manages the given memory */ static GstMemoryDefault * _default_mem_new (GstMemoryFlags flags, GstMemory * parent, gpointer data, GFreeFunc free_func, gsize maxsize, gsize offset, gsize size) { GstMemoryDefault *mem; gsize slice_size; slice_size = sizeof (GstMemoryDefault); mem = g_slice_alloc (slice_size); _default_mem_init (mem, flags, parent, slice_size, data, free_func, maxsize, offset, size); return mem; } /* allocate the memory and structure in one block */ static GstMemoryDefault * _default_mem_new_block (gsize maxsize, gsize align, gsize offset, gsize size) { GstMemoryDefault *mem; gsize aoffset, slice_size; guint8 *data; /* ensure configured alignment */ align |= gst_memory_alignment; /* allocate more to compensate for alignment */ maxsize += align; /* alloc header and data in one block */ slice_size = sizeof (GstMemoryDefault) + maxsize; mem = g_slice_alloc (slice_size); if (mem == NULL) return NULL; data = (guint8 *) mem + sizeof (GstMemoryDefault); if ((aoffset = ((guintptr) data & align))) aoffset = (align + 1) - aoffset; _default_mem_init (mem, 0, NULL, slice_size, data, NULL, maxsize, aoffset + offset, size); return mem; } static GstMemory * _default_mem_alloc (const GstAllocator * allocator, gsize maxsize, gsize align) { return (GstMemory *) _default_mem_new_block (maxsize, align, 0, maxsize); } static gsize _default_mem_get_sizes (GstMemoryDefault * mem, gsize * offset, gsize * maxsize) { if (offset) *offset = mem->offset; if (maxsize) *maxsize = mem->maxsize; return mem->size; } static void _default_mem_resize (GstMemoryDefault * mem, gssize offset, gsize size) { g_return_if_fail (size + mem->offset + offset <= mem->maxsize); mem->offset += offset; mem->size = size; } static gpointer _default_mem_map (GstMemoryDefault * mem, gsize * size, gsize * maxsize, GstMapFlags flags) { if (size) *size = mem->size; if (maxsize) *maxsize = mem->maxsize; return mem->data + mem->offset; } static gboolean _default_mem_unmap (GstMemoryDefault * mem, gpointer data, gsize size) { if (size != -1) mem->size = size; return TRUE; } static void _default_mem_free (GstMemoryDefault * mem) { if (mem->mem.parent) gst_memory_unref (mem->mem.parent); if (mem->free_func) mem->free_func (mem->data); g_slice_free1 (mem->slice_size, mem); } static GstMemoryDefault * _default_mem_copy (GstMemoryDefault * mem, gssize offset, gsize size) { GstMemoryDefault *copy; if (size == -1) size = mem->size > offset ? mem->size - offset : 0; copy = _default_mem_new_block (mem->maxsize, 0, mem->offset + offset, size); memcpy (copy->data, mem->data, mem->maxsize); return copy; } static GstMemoryDefault * _default_mem_share (GstMemoryDefault * mem, gssize offset, gsize size) { GstMemoryDefault *sub; GstMemory *parent; /* find the real parent */ if ((parent = mem->mem.parent) == NULL) parent = (GstMemory *) mem; if (size == -1) size = mem->size - offset; sub = _default_mem_new (parent->flags, parent, mem->data, NULL, mem->maxsize, mem->offset + offset, size); return sub; } static gboolean _default_mem_is_span (GstMemoryDefault * mem1, GstMemoryDefault * mem2, gsize * offset) { if (offset) { GstMemoryDefault *parent; parent = (GstMemoryDefault *) mem1->mem.parent; *offset = mem1->offset - parent->offset; } /* and memory is contiguous */ return mem1->data + mem1->offset + mem1->size == mem2->data + mem2->offset; } static GstMemory * _fallback_copy (GstMemory * mem, gssize offset, gssize size) { GstMemory *copy; guint8 *data, *dest; gsize msize; data = gst_memory_map (mem, &msize, NULL, GST_MAP_READ); if (size == -1) size = msize > offset ? msize - offset : 0; /* use the same allocator as the memory we copy, FIXME, alignment? */ copy = gst_allocator_alloc (mem->allocator, size, 0); dest = gst_memory_map (copy, NULL, NULL, GST_MAP_WRITE); memcpy (dest, data + offset, size); gst_memory_unmap (copy, dest, size); gst_memory_unmap (mem, data, msize); return (GstMemory *) copy; } static gboolean _fallback_is_span (GstMemory * mem1, GstMemory * mem2, gsize * offset) { return FALSE; } static GStaticRWLock lock = G_STATIC_RW_LOCK_INIT; static GHashTable *allocators; void _priv_gst_memory_initialize (void) { static const GstMemoryInfo _mem_info = { (GstMemoryAllocFunction) _default_mem_alloc, (GstMemoryGetSizesFunction) _default_mem_get_sizes, (GstMemoryResizeFunction) _default_mem_resize, (GstMemoryMapFunction) _default_mem_map, (GstMemoryUnmapFunction) _default_mem_unmap, (GstMemoryFreeFunction) _default_mem_free, (GstMemoryCopyFunction) _default_mem_copy, (GstMemoryShareFunction) _default_mem_share, (GstMemoryIsSpanFunction) _default_mem_is_span, NULL }; allocators = g_hash_table_new (g_str_hash, g_str_equal); #ifdef HAVE_GETPAGESIZE #ifdef MEMORY_ALIGNMENT_PAGESIZE gst_memory_alignment = getpagesize () - 1; #endif #endif GST_DEBUG ("memory alignment: %" G_GSIZE_FORMAT, gst_memory_alignment); _default_mem_impl = gst_allocator_register (GST_ALLOCATOR_SYSMEM, &_mem_info); _default_allocator = _default_mem_impl; } /** * gst_memory_new_wrapped: * @flags: #GstMemoryFlags * @data: data to wrap * @free_func: function to free @data * @maxsize: allocated size of @data * @offset: offset in @data * @size: size of valid data * * Allocate a new memory block that wraps the given @data. * * Returns: a new #GstMemory. */ GstMemory * gst_memory_new_wrapped (GstMemoryFlags flags, gpointer data, GFreeFunc free_func, gsize maxsize, gsize offset, gsize size) { GstMemoryDefault *mem; g_return_val_if_fail (data != NULL, NULL); g_return_val_if_fail (offset + size <= maxsize, NULL); mem = _default_mem_new (flags, NULL, data, free_func, maxsize, offset, size); return (GstMemory *) mem; } /** * gst_memory_ref: * @mem: a #GstMemory * * Increases the refcount of @mem. * * Returns: @mem with increased refcount */ GstMemory * gst_memory_ref (GstMemory * mem) { g_return_val_if_fail (mem != NULL, NULL); g_atomic_int_inc (&mem->refcount); return mem; } /** * gst_memory_unref: * @mem: a #GstMemory * * Decreases the refcount of @mem. When the refcount reaches 0, the free * function of @mem will be called. */ void gst_memory_unref (GstMemory * mem) { g_return_if_fail (mem != NULL); g_return_if_fail (mem->allocator != NULL); if (g_atomic_int_dec_and_test (&mem->refcount)) mem->allocator->info.free (mem); } /** * gst_memory_get_sizes: * @mem: a #GstMemory * @offset: pointer to offset * @maxsize: pointer to maxsize * * Get the current @size, @offset and @maxsize of @mem. * * Returns: the current sizes of @mem */ gsize gst_memory_get_sizes (GstMemory * mem, gsize * offset, gsize * maxsize) { g_return_val_if_fail (mem != NULL, 0); return mem->allocator->info.get_sizes (mem, offset, maxsize); } /** * gst_memory_resize: * @mem: a #GstMemory * @offset: a new offset * @size: a new size * * Resize the memory region. @mem should be writable and offset + size should be * less than the maxsize of @mem. */ void gst_memory_resize (GstMemory * mem, gssize offset, gsize size) { g_return_if_fail (mem != NULL); g_return_if_fail (GST_MEMORY_IS_WRITABLE (mem)); mem->allocator->info.resize (mem, offset, size); } /** * gst_memory_map: * @mem: a #GstMemory * @size: (out) (allow-none): pointer for size * @maxsize: (out) (allow-none): pointer for maxsize * @flags: mapping flags * * Get a pointer to the memory of @mem that can be accessed according to @flags. * * @size and @maxsize will contain the size of the memory and the maximum * allocated memory of @mem respectively. They can be set to NULL. * * Returns: (transfer none): a pointer to the memory of @mem. */ gpointer gst_memory_map (GstMemory * mem, gsize * size, gsize * maxsize, GstMapFlags flags) { g_return_val_if_fail (mem != NULL, NULL); g_return_val_if_fail (!(flags & GST_MAP_WRITE) || GST_MEMORY_IS_WRITABLE (mem), NULL); return mem->allocator->info.map (mem, size, maxsize, flags); } /** * gst_memory_unmap: * @mem: a #GstMemory * @data: data to unmap * @size: new size of @mem, or -1 * * Release the memory pointer obtained with gst_memory_map() and set the size of * the memory to @size. @size can be set to -1 when the size should not be * updated. * * Returns: TRUE when the memory was release successfully. */ gboolean gst_memory_unmap (GstMemory * mem, gpointer data, gssize size) { g_return_val_if_fail (mem != NULL, FALSE); return mem->allocator->info.unmap (mem, data, size); } /** * gst_memory_copy: * @mem: a #GstMemory * @offset: an offset to copy * @size: size to copy or -1 to copy all bytes from offset * * Return a copy of @size bytes from @mem starting from @offset. This copy is * guaranteed to be writable. @size can be set to -1 to return a copy all bytes * from @offset. * * Returns: a new #GstMemory. */ GstMemory * gst_memory_copy (GstMemory * mem, gssize offset, gssize size) { g_return_val_if_fail (mem != NULL, NULL); return mem->allocator->info.copy (mem, offset, size); } /** * gst_memory_share: * @mem: a #GstMemory * @offset: an offset to share * @size: size to share or -1 to share bytes from offset * * Return a shared copy of @size bytes from @mem starting from @offset. No * memory copy is performed and the memory region is simply shared. The result * is guaranteed to be not-writable. @size can be set to -1 to return a share * all bytes from @offset. * * Returns: a new #GstMemory. */ GstMemory * gst_memory_share (GstMemory * mem, gssize offset, gssize size) { g_return_val_if_fail (mem != NULL, NULL); return mem->allocator->info.share (mem, offset, size); } /** * gst_memory_is_span: * @mem1: a #GstMemory * @mem2: a #GstMemory * @offset: a pointer to a result offset * * Check if @mem1 and mem2 share the memory with a common parent memory object * and that the memory is contiguous. * * If this is the case, the memory of @mem1 and @mem2 can be merged * efficiently by performing gst_memory_share() on the parent object from * the returned @offset. * * Returns: %TRUE if the memory is contiguous and of a common parent. */ gboolean gst_memory_is_span (GstMemory * mem1, GstMemory * mem2, gsize * offset) { g_return_val_if_fail (mem1 != NULL, FALSE); g_return_val_if_fail (mem2 != NULL, FALSE); /* need to have the same allocators */ if (mem1->allocator != mem2->allocator) return FALSE; /* need to have the same parent */ if (mem1->parent == NULL || mem1->parent != mem2->parent) return FALSE; /* and memory is contiguous */ if (!mem1->allocator->info.is_span (mem1, mem2, offset)) return FALSE; return TRUE; } /** * gst_allocator_register: * @name: the name of the allocator * @info: #GstMemoryInfo * * Registers the memory allocator with @name and implementation functions * @info. * * All functions in @info are mandatory exept the copy and is_span * functions, which will have a default implementation when left NULL. * * The user_data field in @info will be passed to all calls of the alloc * function. * * Returns: a new #GstAllocator. */ const GstAllocator * gst_allocator_register (const gchar * name, const GstMemoryInfo * info) { GstAllocator *allocator; #define INSTALL_FALLBACK(_t) \ if (allocator->info._t == NULL) allocator->info._t = _fallback_ ##_t; g_return_val_if_fail (name != NULL, NULL); g_return_val_if_fail (info != NULL, NULL); g_return_val_if_fail (info->alloc != NULL, NULL); g_return_val_if_fail (info->get_sizes != NULL, NULL); g_return_val_if_fail (info->resize != NULL, NULL); g_return_val_if_fail (info->map != NULL, NULL); g_return_val_if_fail (info->unmap != NULL, NULL); g_return_val_if_fail (info->free != NULL, NULL); g_return_val_if_fail (info->share != NULL, NULL); allocator = g_slice_new (GstAllocator); allocator->name = g_quark_from_string (name); allocator->info = *info; INSTALL_FALLBACK (copy); INSTALL_FALLBACK (is_span); #undef INSTALL_FALLBACK GST_DEBUG ("registering allocator \"%s\"", name); g_static_rw_lock_writer_lock (&lock); g_hash_table_insert (allocators, (gpointer) name, (gpointer) allocator); g_static_rw_lock_writer_unlock (&lock); return allocator; } /** * gst_allocator_find: * @name: the name of the allocator * * Find a previously registered allocator with @name. When @name is NULL, the * default allocator will be returned. * * Returns: a #GstAllocator or NULL when the allocator with @name was not * registered. */ const GstAllocator * gst_allocator_find (const gchar * name) { const GstAllocator *allocator; g_static_rw_lock_reader_lock (&lock); if (name) { allocator = g_hash_table_lookup (allocators, (gconstpointer) name); } else { allocator = _default_allocator; } g_static_rw_lock_reader_unlock (&lock); return allocator; } /** * gst_allocator_set_default: * @allocator: a #GstAllocator * * Set the default allocator. */ void gst_allocator_set_default (const GstAllocator * allocator) { g_return_if_fail (allocator != NULL); g_static_rw_lock_writer_lock (&lock); _default_allocator = allocator; g_static_rw_lock_writer_unlock (&lock); } /** * gst_allocator_alloc: * @allocator: (transfer none) (allow-none): a #GstAllocator to use * @maxsize: allocated size of @data * @align: alignment for the data * * Use @allocator to allocate a new memory block with memory that is at least * @maxsize big and has the given alignment. * * When @allocator is NULL, the default allocator will be used. * * @align is given as a bitmask so that @align + 1 equals the amount of bytes to * align to. For example, to align to 8 bytes, use an alignment of 7. * * Returns: (transfer full): a new #GstMemory. */ GstMemory * gst_allocator_alloc (const GstAllocator * allocator, gsize maxsize, gsize align) { g_return_val_if_fail (((align + 1) & align) == 0, NULL); if (allocator == NULL) allocator = _default_allocator; return allocator->info.alloc (allocator, maxsize, align, allocator->info.user_data); }