diff options
Diffstat (limited to 'src/gallium/auxiliary/pipebuffer/pb_bufmgr_slab.c')
-rw-r--r-- | src/gallium/auxiliary/pipebuffer/pb_bufmgr_slab.c | 584 |
1 files changed, 584 insertions, 0 deletions
diff --git a/src/gallium/auxiliary/pipebuffer/pb_bufmgr_slab.c b/src/gallium/auxiliary/pipebuffer/pb_bufmgr_slab.c new file mode 100644 index 0000000000..9b9fedccb4 --- /dev/null +++ b/src/gallium/auxiliary/pipebuffer/pb_bufmgr_slab.c @@ -0,0 +1,584 @@ +/************************************************************************** + * + * Copyright 2006-2008 Tungsten Graphics, Inc., Cedar Park, TX., USA + * All Rights Reserved. + * + * Permission is hereby granted, FREE of charge, to any person obtaining a + * copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR + * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, + * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL + * THE COPYRIGHT HOLDERS, AUTHORS AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, + * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR + * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE + * USE OR OTHER DEALINGS IN THE SOFTWARE. + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + * + * + **************************************************************************/ + +/** + * @file + * S-lab pool implementation. + * + * @sa http://en.wikipedia.org/wiki/Slab_allocation + * + * @author Thomas Hellstrom <thomas-at-tungstengraphics-dot-com> + * @author Jose Fonseca <jrfonseca@tungstengraphics.com> + */ + +#include "pipe/p_compiler.h" +#include "pipe/p_error.h" +#include "pipe/p_debug.h" +#include "pipe/p_thread.h" +#include "pipe/p_defines.h" +#include "util/u_memory.h" +#include "util/u_double_list.h" +#include "util/u_time.h" + +#include "pb_buffer.h" +#include "pb_bufmgr.h" + + +struct pb_slab; + + +/** + * Buffer in a slab. + * + * Sub-allocation of a contiguous buffer. + */ +struct pb_slab_buffer +{ + struct pb_buffer base; + + struct pb_slab *slab; + + struct list_head head; + + unsigned mapCount; + + /** Offset relative to the start of the slab buffer. */ + size_t start; + + /** Use when validating, to signal that all mappings are finished */ + /* TODO: Actually validation does not reach this stage yet */ + pipe_condvar event; +}; + + +/** + * Slab -- a contiguous piece of memory. + */ +struct pb_slab +{ + struct list_head head; + struct list_head freeBuffers; + size_t numBuffers; + size_t numFree; + + struct pb_slab_buffer *buffers; + struct pb_slab_manager *mgr; + + /** Buffer from the provider */ + struct pb_buffer *bo; + + void *virtual; +}; + + +/** + * It adds/removes slabs as needed in order to meet the allocation/destruction + * of individual buffers. + */ +struct pb_slab_manager +{ + struct pb_manager base; + + /** From where we get our buffers */ + struct pb_manager *provider; + + /** Size of the buffers we hand on downstream */ + size_t bufSize; + + /** Size of the buffers we request upstream */ + size_t slabSize; + + /** + * Alignment, usage to be used to allocate the slab buffers. + * + * We can only provide buffers which are consistent (in alignment, usage) + * with this description. + */ + struct pb_desc desc; + + /** + * Partial slabs + * + * Full slabs are not stored in any list. Empty slabs are destroyed + * immediatly. + */ + struct list_head slabs; + + pipe_mutex mutex; +}; + + +/** + * Wrapper around several slabs, therefore capable of handling buffers of + * multiple sizes. + * + * This buffer manager just dispatches buffer allocations to the appropriate slab + * manager, according to the requested buffer size, or by passes the slab + * managers altogether for even greater sizes. + * + * The data of this structure remains constant after + * initialization and thus needs no mutex protection. + */ +struct pb_slab_range_manager +{ + struct pb_manager base; + + struct pb_manager *provider; + + size_t minBufSize; + size_t maxBufSize; + + /** @sa pb_slab_manager::desc */ + struct pb_desc desc; + + unsigned numBuckets; + size_t *bucketSizes; + + /** Array of pb_slab_manager, one for each bucket size */ + struct pb_manager **buckets; +}; + + +static INLINE struct pb_slab_buffer * +pb_slab_buffer(struct pb_buffer *buf) +{ + assert(buf); + return (struct pb_slab_buffer *)buf; +} + + +static INLINE struct pb_slab_manager * +pb_slab_manager(struct pb_manager *mgr) +{ + assert(mgr); + return (struct pb_slab_manager *)mgr; +} + + +static INLINE struct pb_slab_range_manager * +pb_slab_range_manager(struct pb_manager *mgr) +{ + assert(mgr); + return (struct pb_slab_range_manager *)mgr; +} + + +/** + * Delete a buffer from the slab delayed list and put + * it on the slab FREE list. + */ +static void +pb_slab_buffer_destroy(struct pb_buffer *_buf) +{ + struct pb_slab_buffer *buf = pb_slab_buffer(_buf); + struct pb_slab *slab = buf->slab; + struct pb_slab_manager *mgr = slab->mgr; + struct list_head *list = &buf->head; + + pipe_mutex_lock(mgr->mutex); + + assert(buf->base.base.refcount == 0); + + buf->mapCount = 0; + + LIST_DEL(list); + LIST_ADDTAIL(list, &slab->freeBuffers); + slab->numFree++; + + if (slab->head.next == &slab->head) + LIST_ADDTAIL(&slab->head, &mgr->slabs); + + /* If the slab becomes totally empty, free it */ + if (slab->numFree == slab->numBuffers) { + list = &slab->head; + LIST_DELINIT(list); + pb_reference(&slab->bo, NULL); + FREE(slab->buffers); + FREE(slab); + } + + pipe_mutex_unlock(mgr->mutex); +} + + +static void * +pb_slab_buffer_map(struct pb_buffer *_buf, + unsigned flags) +{ + struct pb_slab_buffer *buf = pb_slab_buffer(_buf); + + ++buf->mapCount; + return (void *) ((uint8_t *) buf->slab->virtual + buf->start); +} + + +static void +pb_slab_buffer_unmap(struct pb_buffer *_buf) +{ + struct pb_slab_buffer *buf = pb_slab_buffer(_buf); + + --buf->mapCount; + if (buf->mapCount == 0) + pipe_condvar_broadcast(buf->event); +} + + +static enum pipe_error +pb_slab_buffer_validate(struct pb_buffer *_buf, + struct pb_validate *vl, + unsigned flags) +{ + struct pb_slab_buffer *buf = pb_slab_buffer(_buf); + return pb_validate(buf->slab->bo, vl, flags); +} + + +static void +pb_slab_buffer_fence(struct pb_buffer *_buf, + struct pipe_fence_handle *fence) +{ + struct pb_slab_buffer *buf = pb_slab_buffer(_buf); + pb_fence(buf->slab->bo, fence); +} + + +static void +pb_slab_buffer_get_base_buffer(struct pb_buffer *_buf, + struct pb_buffer **base_buf, + unsigned *offset) +{ + struct pb_slab_buffer *buf = pb_slab_buffer(_buf); + pb_get_base_buffer(buf->slab->bo, base_buf, offset); + *offset += buf->start; +} + + +static const struct pb_vtbl +pb_slab_buffer_vtbl = { + pb_slab_buffer_destroy, + pb_slab_buffer_map, + pb_slab_buffer_unmap, + pb_slab_buffer_validate, + pb_slab_buffer_fence, + pb_slab_buffer_get_base_buffer +}; + + +/** + * Create a new slab. + * + * Called when we ran out of free slabs. + */ +static enum pipe_error +pb_slab_create(struct pb_slab_manager *mgr) +{ + struct pb_slab *slab; + struct pb_slab_buffer *buf; + unsigned numBuffers; + unsigned i; + enum pipe_error ret; + + slab = CALLOC_STRUCT(pb_slab); + if (!slab) + return PIPE_ERROR_OUT_OF_MEMORY; + + slab->bo = mgr->provider->create_buffer(mgr->provider, mgr->slabSize, &mgr->desc); + if(!slab->bo) { + ret = PIPE_ERROR_OUT_OF_MEMORY; + goto out_err0; + } + + /* Note down the slab virtual address. All mappings are accessed directly + * through this address so it is required that the buffer is pinned. */ + slab->virtual = pb_map(slab->bo, + PIPE_BUFFER_USAGE_CPU_READ | + PIPE_BUFFER_USAGE_CPU_WRITE); + if(!slab->virtual) { + ret = PIPE_ERROR_OUT_OF_MEMORY; + goto out_err1; + } + pb_unmap(slab->bo); + + numBuffers = slab->bo->base.size / mgr->bufSize; + + slab->buffers = CALLOC(numBuffers, sizeof(*slab->buffers)); + if (!slab->buffers) { + ret = PIPE_ERROR_OUT_OF_MEMORY; + goto out_err1; + } + + LIST_INITHEAD(&slab->head); + LIST_INITHEAD(&slab->freeBuffers); + slab->numBuffers = numBuffers; + slab->numFree = 0; + slab->mgr = mgr; + + buf = slab->buffers; + for (i=0; i < numBuffers; ++i) { + buf->base.base.refcount = 0; + buf->base.base.size = mgr->bufSize; + buf->base.base.alignment = 0; + buf->base.base.usage = 0; + buf->base.vtbl = &pb_slab_buffer_vtbl; + buf->slab = slab; + buf->start = i* mgr->bufSize; + buf->mapCount = 0; + pipe_condvar_init(buf->event); + LIST_ADDTAIL(&buf->head, &slab->freeBuffers); + slab->numFree++; + buf++; + } + + /* Add this slab to the list of partial slabs */ + LIST_ADDTAIL(&slab->head, &mgr->slabs); + + return PIPE_OK; + +out_err1: + pb_reference(&slab->bo, NULL); +out_err0: + FREE(slab); + return ret; +} + + +static struct pb_buffer * +pb_slab_manager_create_buffer(struct pb_manager *_mgr, + size_t size, + const struct pb_desc *desc) +{ + struct pb_slab_manager *mgr = pb_slab_manager(_mgr); + static struct pb_slab_buffer *buf; + struct pb_slab *slab; + struct list_head *list; + + /* check size */ + assert(size <= mgr->bufSize); + if(size > mgr->bufSize) + return NULL; + + /* check if we can provide the requested alignment */ + assert(pb_check_alignment(desc->alignment, mgr->desc.alignment)); + if(!pb_check_alignment(desc->alignment, mgr->desc.alignment)) + return NULL; + assert(pb_check_alignment(desc->alignment, mgr->bufSize)); + if(!pb_check_alignment(desc->alignment, mgr->bufSize)) + return NULL; + + assert(pb_check_usage(desc->usage, mgr->desc.usage)); + if(!pb_check_usage(desc->usage, mgr->desc.usage)) + return NULL; + + pipe_mutex_lock(mgr->mutex); + + /* Create a new slab, if we run out of partial slabs */ + if (mgr->slabs.next == &mgr->slabs) { + (void) pb_slab_create(mgr); + if (mgr->slabs.next == &mgr->slabs) { + pipe_mutex_unlock(mgr->mutex); + return NULL; + } + } + + /* Allocate the buffer from a partial (or just created) slab */ + list = mgr->slabs.next; + slab = LIST_ENTRY(struct pb_slab, list, head); + + /* If totally full remove from the partial slab list */ + if (--slab->numFree == 0) + LIST_DELINIT(list); + + list = slab->freeBuffers.next; + LIST_DELINIT(list); + + pipe_mutex_unlock(mgr->mutex); + buf = LIST_ENTRY(struct pb_slab_buffer, list, head); + + ++buf->base.base.refcount; + buf->base.base.alignment = desc->alignment; + buf->base.base.usage = desc->usage; + + return &buf->base; +} + + +static void +pb_slab_manager_flush(struct pb_manager *_mgr) +{ + struct pb_slab_manager *mgr = pb_slab_manager(_mgr); + + assert(mgr->provider->flush); + if(mgr->provider->flush) + mgr->provider->flush(mgr->provider); +} + + +static void +pb_slab_manager_destroy(struct pb_manager *_mgr) +{ + struct pb_slab_manager *mgr = pb_slab_manager(_mgr); + + /* TODO: cleanup all allocated buffers */ + FREE(mgr); +} + + +struct pb_manager * +pb_slab_manager_create(struct pb_manager *provider, + size_t bufSize, + size_t slabSize, + const struct pb_desc *desc) +{ + struct pb_slab_manager *mgr; + + mgr = CALLOC_STRUCT(pb_slab_manager); + if (!mgr) + return NULL; + + mgr->base.destroy = pb_slab_manager_destroy; + mgr->base.create_buffer = pb_slab_manager_create_buffer; + mgr->base.flush = pb_slab_manager_flush; + + mgr->provider = provider; + mgr->bufSize = bufSize; + mgr->slabSize = slabSize; + mgr->desc = *desc; + + LIST_INITHEAD(&mgr->slabs); + + pipe_mutex_init(mgr->mutex); + + return &mgr->base; +} + + +static struct pb_buffer * +pb_slab_range_manager_create_buffer(struct pb_manager *_mgr, + size_t size, + const struct pb_desc *desc) +{ + struct pb_slab_range_manager *mgr = pb_slab_range_manager(_mgr); + size_t bufSize; + unsigned i; + + bufSize = mgr->minBufSize; + for (i = 0; i < mgr->numBuckets; ++i) { + if(bufSize >= size) + return mgr->buckets[i]->create_buffer(mgr->buckets[i], size, desc); + bufSize *= 2; + } + + /* Fall back to allocate a buffer object directly from the provider. */ + return mgr->provider->create_buffer(mgr->provider, size, desc); +} + + +static void +pb_slab_range_manager_flush(struct pb_manager *_mgr) +{ + struct pb_slab_range_manager *mgr = pb_slab_range_manager(_mgr); + + /* Individual slabs don't hold any temporary buffers so no need to call them */ + + assert(mgr->provider->flush); + if(mgr->provider->flush) + mgr->provider->flush(mgr->provider); +} + + +static void +pb_slab_range_manager_destroy(struct pb_manager *_mgr) +{ + struct pb_slab_range_manager *mgr = pb_slab_range_manager(_mgr); + unsigned i; + + for (i = 0; i < mgr->numBuckets; ++i) + mgr->buckets[i]->destroy(mgr->buckets[i]); + FREE(mgr->buckets); + FREE(mgr->bucketSizes); + FREE(mgr); +} + + +struct pb_manager * +pb_slab_range_manager_create(struct pb_manager *provider, + size_t minBufSize, + size_t maxBufSize, + size_t slabSize, + const struct pb_desc *desc) +{ + struct pb_slab_range_manager *mgr; + size_t bufSize; + unsigned i; + + if(!provider) + return NULL; + + mgr = CALLOC_STRUCT(pb_slab_range_manager); + if (!mgr) + goto out_err0; + + mgr->base.destroy = pb_slab_range_manager_destroy; + mgr->base.create_buffer = pb_slab_range_manager_create_buffer; + mgr->base.flush = pb_slab_range_manager_flush; + + mgr->provider = provider; + mgr->minBufSize = minBufSize; + mgr->maxBufSize = maxBufSize; + + mgr->numBuckets = 1; + bufSize = minBufSize; + while(bufSize < maxBufSize) { + bufSize *= 2; + ++mgr->numBuckets; + } + + mgr->buckets = CALLOC(mgr->numBuckets, sizeof(*mgr->buckets)); + if (!mgr->buckets) + goto out_err1; + + bufSize = minBufSize; + for (i = 0; i < mgr->numBuckets; ++i) { + mgr->buckets[i] = pb_slab_manager_create(provider, bufSize, slabSize, desc); + if(!mgr->buckets[i]) + goto out_err2; + bufSize *= 2; + } + + return &mgr->base; + +out_err2: + for (i = 0; i < mgr->numBuckets; ++i) + if(mgr->buckets[i]) + mgr->buckets[i]->destroy(mgr->buckets[i]); + FREE(mgr->buckets); +out_err1: + FREE(mgr); +out_err0: + return NULL; +} |