/* Cairo - a vector graphics library with display and print output * * Copyright © 2007 Chris Wilson * Copyright © 2009 Intel Corporation * * This library is free software; you can redistribute it and/or * modify it either under the terms of the GNU Lesser General Public * License version 2.1 as published by the Free Software Foundation * (the "LGPL") or, at your option, under the terms of the Mozilla * Public License Version 1.1 (the "MPL"). If you do not alter this * notice, a recipient may use your version of this file under either * the MPL or the LGPL. * * You should have received a copy of the LGPL along with this library * in the file COPYING-LGPL-2.1; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Suite 500, Boston, MA 02110-1335, USA * You should have received a copy of the MPL along with this library * in the file COPYING-MPL-1.1 * * The contents of this file are subject to the Mozilla Public License * Version 1.1 (the "License"); you may not use this file except in * compliance with the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY * OF ANY KIND, either express or implied. See the LGPL or the MPL for * the specific language governing rights and limitations. * * The Original Code is the cairo graphics library. * * The Initial Developer of the Original Code is Red Hat, Inc. * * Contributors(s): * Chris Wilson */ #include "cairoint.h" #if CAIRO_HAS_XCB_SHM_FUNCTIONS #include "cairo-xcb-private.h" #include "cairo-list-inline.h" #include "cairo-mempool-private.h" #include #include #include #include #define CAIRO_MAX_SHM_MEMORY (16*1024*1024) /* a simple buddy allocator for memory pools * XXX fragmentation? use Doug Lea's malloc? */ typedef struct _cairo_xcb_shm_mem_block cairo_xcb_shm_mem_block_t; typedef enum { PENDING_WAIT, PENDING_POLL } shm_wait_type_t; struct _cairo_xcb_shm_mem_pool { int shmid; uint32_t shmseg; void *shm; cairo_mempool_t mem; cairo_list_t link; }; static void _cairo_xcb_shm_mem_pool_destroy (cairo_xcb_shm_mem_pool_t *pool) { cairo_list_del (&pool->link); shmdt (pool->shm); _cairo_mempool_fini (&pool->mem); free (pool); } static void _cairo_xcb_shm_info_finalize (cairo_xcb_shm_info_t *shm_info) { cairo_xcb_connection_t *connection = shm_info->connection; assert (CAIRO_MUTEX_IS_LOCKED (connection->shm_mutex)); _cairo_mempool_free (&shm_info->pool->mem, shm_info->mem); _cairo_freepool_free (&connection->shm_info_freelist, shm_info); /* scan for old, unused pools - hold at least one in reserve */ if (! cairo_list_is_singular (&connection->shm_pools)) { cairo_xcb_shm_mem_pool_t *pool, *next; cairo_list_t head; cairo_list_init (&head); cairo_list_move (connection->shm_pools.next, &head); cairo_list_foreach_entry_safe (pool, next, cairo_xcb_shm_mem_pool_t, &connection->shm_pools, link) { if (pool->mem.free_bytes == pool->mem.max_bytes) { _cairo_xcb_connection_shm_detach (connection, pool->shmseg); _cairo_xcb_shm_mem_pool_destroy (pool); } } cairo_list_move (head.next, &connection->shm_pools); } } static void _cairo_xcb_shm_process_pending (cairo_xcb_connection_t *connection, shm_wait_type_t wait) { cairo_xcb_shm_info_t *info, *next; xcb_get_input_focus_reply_t *reply; assert (CAIRO_MUTEX_IS_LOCKED (connection->shm_mutex)); cairo_list_foreach_entry_safe (info, next, cairo_xcb_shm_info_t, &connection->shm_pending, pending) { switch (wait) { case PENDING_WAIT: reply = xcb_wait_for_reply (connection->xcb_connection, info->sync.sequence, NULL); break; case PENDING_POLL: if (! xcb_poll_for_reply (connection->xcb_connection, info->sync.sequence, (void **) &reply, NULL)) /* We cannot be sure the server finished with this image yet, so * try again later. All other shm info are guaranteed to have a * larger sequence number and thus don't have to be checked. */ return; break; default: /* silence Clang static analyzer warning */ ASSERT_NOT_REACHED; reply = NULL; } free (reply); cairo_list_del (&info->pending); _cairo_xcb_shm_info_finalize (info); } } cairo_int_status_t _cairo_xcb_connection_allocate_shm_info (cairo_xcb_connection_t *connection, size_t size, cairo_bool_t might_reuse, cairo_xcb_shm_info_t **shm_info_out) { cairo_xcb_shm_info_t *shm_info; cairo_xcb_shm_mem_pool_t *pool, *next; size_t bytes, maxbits = 16, minbits = 8; size_t shm_allocated = 0; void *mem = NULL; cairo_status_t status; assert (connection->flags & CAIRO_XCB_HAS_SHM); CAIRO_MUTEX_LOCK (connection->shm_mutex); _cairo_xcb_shm_process_pending (connection, PENDING_POLL); if (might_reuse) { cairo_list_foreach_entry (shm_info, cairo_xcb_shm_info_t, &connection->shm_pending, pending) { if (shm_info->size >= size) { cairo_list_del (&shm_info->pending); CAIRO_MUTEX_UNLOCK (connection->shm_mutex); xcb_discard_reply (connection->xcb_connection, shm_info->sync.sequence); shm_info->sync.sequence = XCB_NONE; *shm_info_out = shm_info; return CAIRO_STATUS_SUCCESS; } } } cairo_list_foreach_entry_safe (pool, next, cairo_xcb_shm_mem_pool_t, &connection->shm_pools, link) { if (pool->mem.free_bytes > size) { mem = _cairo_mempool_alloc (&pool->mem, size); if (mem != NULL) { /* keep the active pools towards the front */ cairo_list_move (&pool->link, &connection->shm_pools); goto allocate_shm_info; } } /* scan for old, unused pools */ if (pool->mem.free_bytes == pool->mem.max_bytes) { _cairo_xcb_connection_shm_detach (connection, pool->shmseg); _cairo_xcb_shm_mem_pool_destroy (pool); } else { shm_allocated += pool->mem.max_bytes; } } if (unlikely (shm_allocated >= CAIRO_MAX_SHM_MEMORY)) { CAIRO_MUTEX_UNLOCK (connection->shm_mutex); return _cairo_error (CAIRO_STATUS_NO_MEMORY); } pool = malloc (sizeof (cairo_xcb_shm_mem_pool_t)); if (unlikely (pool == NULL)) { CAIRO_MUTEX_UNLOCK (connection->shm_mutex); return _cairo_error (CAIRO_STATUS_NO_MEMORY); } bytes = 1 << maxbits; while (bytes <= size) bytes <<= 1, maxbits++; bytes <<= 3; do { pool->shmid = shmget (IPC_PRIVATE, bytes, IPC_CREAT | 0600); if (pool->shmid != -1) break; /* If the allocation failed because we asked for too much memory, we try * again with a smaller request, as long as our allocation still fits. */ bytes >>= 1; if (errno != EINVAL || bytes < size) break; } while (TRUE); if (pool->shmid == -1) { int err = errno; if (! (err == EINVAL || err == ENOMEM)) connection->flags &= ~CAIRO_XCB_HAS_SHM; free (pool); CAIRO_MUTEX_UNLOCK (connection->shm_mutex); return CAIRO_INT_STATUS_UNSUPPORTED; } pool->shm = shmat (pool->shmid, NULL, 0); if (unlikely (pool->shm == (char *) -1)) { shmctl (pool->shmid, IPC_RMID, NULL); free (pool); CAIRO_MUTEX_UNLOCK (connection->shm_mutex); return _cairo_error (CAIRO_STATUS_NO_MEMORY); } status = _cairo_mempool_init (&pool->mem, pool->shm, bytes, minbits, maxbits - minbits + 1); if (unlikely (status)) { shmdt (pool->shm); free (pool); CAIRO_MUTEX_UNLOCK (connection->shm_mutex); return status; } pool->shmseg = _cairo_xcb_connection_shm_attach (connection, pool->shmid, FALSE); shmctl (pool->shmid, IPC_RMID, NULL); cairo_list_add (&pool->link, &connection->shm_pools); mem = _cairo_mempool_alloc (&pool->mem, size); allocate_shm_info: shm_info = _cairo_freepool_alloc (&connection->shm_info_freelist); if (unlikely (shm_info == NULL)) { _cairo_mempool_free (&pool->mem, mem); CAIRO_MUTEX_UNLOCK (connection->shm_mutex); return _cairo_error (CAIRO_STATUS_NO_MEMORY); } shm_info->connection = connection; shm_info->pool = pool; shm_info->shm = pool->shmseg; shm_info->size = size; shm_info->offset = (char *) mem - (char *) pool->shm; shm_info->mem = mem; shm_info->sync.sequence = XCB_NONE; /* scan for old, unused pools */ cairo_list_foreach_entry_safe (pool, next, cairo_xcb_shm_mem_pool_t, &connection->shm_pools, link) { if (pool->mem.free_bytes == pool->mem.max_bytes) { _cairo_xcb_connection_shm_detach (connection, pool->shmseg); _cairo_xcb_shm_mem_pool_destroy (pool); } } CAIRO_MUTEX_UNLOCK (connection->shm_mutex); *shm_info_out = shm_info; return CAIRO_STATUS_SUCCESS; } void _cairo_xcb_shm_info_destroy (cairo_xcb_shm_info_t *shm_info) { cairo_xcb_connection_t *connection = shm_info->connection; /* We can only return shm_info->mem to the allocator when we can be sure * that the X server no longer reads from it. Since the X server processes * requests in order, we send a GetInputFocus here. * _cairo_xcb_shm_process_pending () will later check if the reply for that * request was received and then actually mark this memory area as free. */ CAIRO_MUTEX_LOCK (connection->shm_mutex); assert (shm_info->sync.sequence == XCB_NONE); shm_info->sync = xcb_get_input_focus (connection->xcb_connection); cairo_list_init (&shm_info->pending); cairo_list_add_tail (&shm_info->pending, &connection->shm_pending); CAIRO_MUTEX_UNLOCK (connection->shm_mutex); } void _cairo_xcb_connection_shm_mem_pools_flush (cairo_xcb_connection_t *connection) { CAIRO_MUTEX_LOCK (connection->shm_mutex); _cairo_xcb_shm_process_pending (connection, PENDING_WAIT); CAIRO_MUTEX_UNLOCK (connection->shm_mutex); } void _cairo_xcb_connection_shm_mem_pools_fini (cairo_xcb_connection_t *connection) { assert (cairo_list_is_empty (&connection->shm_pending)); while (! cairo_list_is_empty (&connection->shm_pools)) { _cairo_xcb_shm_mem_pool_destroy (cairo_list_first_entry (&connection->shm_pools, cairo_xcb_shm_mem_pool_t, link)); } } #endif /* CAIRO_HAS_XCB_SHM_FUNCTIONS */