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authorJosé Fonseca <[email protected]>2008-09-02 02:16:43 +0900
committerJosé Fonseca <[email protected]>2008-09-02 02:16:58 +0900
commit5c198f660a1812d9b3970408695d04bdd74a5d1e (patch)
treea0ebf23acbbd21796ae564100b9dd3fa94cc7797 /src/gallium
parenta6c725839482f3d0f2af0eb15e5b6ab80184fb6c (diff)
pipebuffer: Comment the slab code. Remove the freeSlabs list.
The freeSlabs list is not really needed as we free empty slabs immediately. Time based cached is done separately.
Diffstat (limited to 'src/gallium')
-rw-r--r--src/gallium/auxiliary/pipebuffer/pb_bufmgr_slab.c104
1 files changed, 77 insertions, 27 deletions
diff --git a/src/gallium/auxiliary/pipebuffer/pb_bufmgr_slab.c b/src/gallium/auxiliary/pipebuffer/pb_bufmgr_slab.c
index ac0296b26a8..8698c4cff62 100644
--- a/src/gallium/auxiliary/pipebuffer/pb_bufmgr_slab.c
+++ b/src/gallium/auxiliary/pipebuffer/pb_bufmgr_slab.c
@@ -30,6 +30,8 @@
* @file
* S-lab pool implementation.
*
+ * @sa http://en.wikipedia.org/wiki/Slab_allocation
+ *
* @author Thomas Hellstrom <thomas-at-tungstengraphics-dot-com>
* @author Jose Fonseca <[email protected]>
*/
@@ -49,46 +51,96 @@
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;
- struct list_head freeSlabs;
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.
*/
@@ -97,12 +149,17 @@ 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;
};
@@ -156,29 +213,15 @@ pb_slab_buffer_destroy(struct pb_buffer *_buf)
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_DEL(list);
- LIST_ADDTAIL(list, &mgr->freeSlabs);
+ LIST_DELINIT(list);
+ pb_reference(&slab->bo, NULL);
+ FREE(slab->buffers);
+ FREE(slab);
}
- if (mgr->slabs.next == &mgr->slabs || slab->numFree
- != slab->numBuffers) {
-
- struct list_head *next;
-
- for (list = mgr->freeSlabs.next, next = list->next; list
- != &mgr->freeSlabs; list = next, next = list->next) {
-
- slab = LIST_ENTRY(struct pb_slab, list, head);
-
- LIST_DELINIT(list);
- pb_reference(&slab->bo, NULL);
- FREE(slab->buffers);
- FREE(slab);
- }
- }
-
pipe_mutex_unlock(mgr->mutex);
}
@@ -225,6 +268,11 @@ pb_slab_buffer_vtbl = {
};
+/**
+ * Create a new slab.
+ *
+ * Called when we ran out of free slabs.
+ */
static enum pipe_error
pb_slab_create(struct pb_slab_manager *mgr)
{
@@ -238,17 +286,14 @@ pb_slab_create(struct pb_slab_manager *mgr)
if (!slab)
return PIPE_ERROR_OUT_OF_MEMORY;
- /*
- * FIXME: We should perhaps allow some variation in slabsize in order
- * to efficiently reuse slabs.
- */
-
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);
@@ -256,7 +301,6 @@ pb_slab_create(struct pb_slab_manager *mgr)
ret = PIPE_ERROR_OUT_OF_MEMORY;
goto out_err1;
}
-
pb_unmap(slab->bo);
numBuffers = slab->bo->base.size / mgr->bufSize;
@@ -289,6 +333,7 @@ pb_slab_create(struct pb_slab_manager *mgr)
buf++;
}
+ /* Add this slab to the list of partial slabs */
LIST_ADDTAIL(&slab->head, &mgr->slabs);
return PIPE_OK;
@@ -329,6 +374,8 @@ pb_slab_manager_create_buffer(struct pb_manager *_mgr,
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) {
@@ -336,8 +383,12 @@ pb_slab_manager_create_buffer(struct pb_manager *_mgr,
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);
@@ -386,7 +437,6 @@ pb_slab_manager_create(struct pb_manager *provider,
mgr->desc = *desc;
LIST_INITHEAD(&mgr->slabs);
- LIST_INITHEAD(&mgr->freeSlabs);
pipe_mutex_init(mgr->mutex);