[Mesa-dev] [PATCH v2] util/slab: re-design to allow migration between pools (v2)
Nicolai Hähnle
nhaehnle at gmail.com
Wed Sep 28 07:47:55 UTC 2016
From: Nicolai Hähnle <nicolai.haehnle at amd.com>
This is basically a re-write of the slab allocator into a design where
multiple child pools are linked to a parent pool. The intention is that
every (GL, pipe) context has its own child pool, while the corresponding
parent pool is held by the winsys or screen, or possibly the GL share group.
The fast path is still used when objects are freed by the same child pool
that allocated them. However, it is now also possible to free an object in a
different pool, as long as they belong to the same parent. Objects also
survive the destruction of the (child) pool from which they were allocated.
The slow path will return freed objects to the child pool from which they
were originally allocated. If that child pool was destroyed, the corresponding
page is considered an orphan and will be freed once all objects in it have
been freed.
This allocation pattern is required for pipe_transfers that correspond to
(GL) buffer object mappings when the mapping is created in one context
which is later destroyed while other contexts of the same share group live
on -- see the bug report referenced below.
Note that individual drivers do need to migrate to the new interface in
order to benefit and fix the bug.
v2: use singly-linked lists everywhere
Bugzilla: https://bugs.freedesktop.org/show_bug.cgi?id=97894
---
src/util/slab.c | 285 +++++++++++++++++++++++++++++++++++++++++---------------
src/util/slab.h | 62 +++++++++---
2 files changed, 258 insertions(+), 89 deletions(-)
diff --git a/src/util/slab.c b/src/util/slab.c
index af75152..35540bd 100644
--- a/src/util/slab.c
+++ b/src/util/slab.c
@@ -16,166 +16,303 @@
* 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 AUTHOR(S) AND/OR THEIR 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. */
#include "slab.h"
#include "macros.h"
-#include "simple_list.h"
+#include "u_atomic.h"
#include <stdint.h>
#include <stdbool.h>
#include <string.h>
#define ALIGN(value, align) (((value) + (align) - 1) & ~((align) - 1))
+#define SLAB_MAGIC_ALLOCATED 0xcafe4321
+#define SLAB_MAGIC_FREE 0x7ee01234
+
#ifdef DEBUG
-#define SLAB_MAGIC 0xcafe4321
-#define SET_MAGIC(element) (element)->magic = SLAB_MAGIC
-#define CHECK_MAGIC(element) assert((element)->magic == SLAB_MAGIC)
+#define SET_MAGIC(element, value) (element)->magic = (value)
+#define CHECK_MAGIC(element, value) assert((element)->magic == (value))
#else
-#define SET_MAGIC(element)
-#define CHECK_MAGIC(element)
+#define SET_MAGIC(element, value)
+#define CHECK_MAGIC(element, value)
#endif
/* One array element within a big buffer. */
struct slab_element_header {
- /* The next free element. */
- struct slab_element_header *next_free;
+ /* The next element in the free or migrated list. */
+ struct slab_element_header *next;
+
+ /* This is either
+ * - a pointer to the child pool to which this element belongs, or
+ * - a pointer to the orphaned page of the element, with the least
+ * significant bit set to 1.
+ */
+ intptr_t owner;
#ifdef DEBUG
- /* Use intptr_t to keep the header aligned to a pointer size. */
intptr_t magic;
#endif
};
+/* The page is an array of allocations in one block. */
+struct slab_page_header {
+ union {
+ /* Next page in the same child pool. */
+ struct slab_page_header *next;
+
+ /* Number of remaining, non-freed elements (for orphaned pages). */
+ unsigned num_remaining;
+ } u;
+ /* Memory after the last member is dedicated to the page itself.
+ * The allocated size is always larger than this structure.
+ */
+};
+
+
static struct slab_element_header *
-slab_get_element(struct slab_mempool *pool,
+slab_get_element(struct slab_parent_pool *parent,
struct slab_page_header *page, unsigned index)
{
return (struct slab_element_header*)
- ((uint8_t*)&page[1] + (pool->element_size * index));
+ ((uint8_t*)&page[1] + (parent->element_size * index));
+}
+
+/* The given object/element belongs to an orphaned page (i.e. the owning child
+ * pool has been destroyed). Mark the element as freed and free the whole page
+ * when no elements are left in it.
+ */
+static void
+slab_free_orphaned(struct slab_element_header *elt)
+{
+ struct slab_page_header *page;
+
+ assert(elt->owner & 1);
+
+ page = (struct slab_page_header *)(elt->owner & ~(intptr_t)1);
+ if (!p_atomic_dec_return(&page->u.num_remaining))
+ free(page);
+}
+
+/**
+ * Create a parent pool for the allocation of same-sized objects.
+ *
+ * \param item_size Size of one object.
+ * \param num_items Number of objects to allocate at once.
+ */
+void
+slab_create_parent(struct slab_parent_pool *parent,
+ unsigned item_size,
+ unsigned num_items)
+{
+ mtx_init(&parent->mutex, mtx_plain);
+ parent->element_size = ALIGN(sizeof(struct slab_element_header) + item_size,
+ sizeof(intptr_t));
+ parent->num_elements = num_items;
+}
+
+void
+slab_destroy_parent(struct slab_parent_pool *parent)
+{
+ mtx_destroy(&parent->mutex);
+}
+
+/**
+ * Create a child pool linked to the given parent.
+ */
+void slab_create_child(struct slab_child_pool *pool,
+ struct slab_parent_pool *parent)
+{
+ pool->parent = parent;
+ pool->pages = NULL;
+ pool->free = NULL;
+ pool->migrated = NULL;
+}
+
+/**
+ * Destroy the child pool.
+ *
+ * Pages associated to the pool will be orphaned. They are eventually freed
+ * when all objects in them are freed.
+ */
+void slab_destroy_child(struct slab_child_pool *pool)
+{
+ mtx_lock(&pool->parent->mutex);
+
+ while (pool->pages) {
+ struct slab_page_header *page = pool->pages;
+ pool->pages = page->u.next;
+ page->u.num_remaining = pool->parent->num_elements;
+
+ for (unsigned i = 0; i < pool->parent->num_elements; ++i) {
+ struct slab_element_header *elt = slab_get_element(pool->parent, page, i);
+ p_atomic_set(&elt->owner, (intptr_t)page | 1);
+ }
+ }
+
+ while (pool->migrated) {
+ struct slab_element_header *elt = pool->migrated;
+ pool->migrated = elt->next;
+ slab_free_orphaned(elt);
+ }
+
+ mtx_unlock(&pool->parent->mutex);
+
+ while (pool->free) {
+ struct slab_element_header *elt = pool->free;
+ pool->free = elt->next;
+ slab_free_orphaned(elt);
+ }
+
+ /* Guard against use-after-free. */
+ pool->parent = NULL;
}
static bool
-slab_add_new_page(struct slab_mempool *pool)
+slab_add_new_page(struct slab_child_pool *pool)
{
struct slab_page_header *page;
- struct slab_element_header *element;
unsigned i;
page = malloc(sizeof(struct slab_page_header) +
- pool->num_elements * pool->element_size);
+ pool->parent->num_elements * pool->parent->element_size);
if (!page)
return false;
- if (!pool->list.prev)
- make_empty_list(&pool->list);
-
- insert_at_tail(&pool->list, page);
+ for (unsigned i = 0; i < pool->parent->num_elements; ++i) {
+ struct slab_element_header *elt = slab_get_element(pool->parent, page, i);
+ elt->owner = (intptr_t)pool;
+ assert(!(elt->owner & 1));
- /* Mark all elements as free. */
- for (i = 0; i < pool->num_elements-1; i++) {
- element = slab_get_element(pool, page, i);
- element->next_free = slab_get_element(pool, page, i + 1);
- SET_MAGIC(element);
+ elt->next = pool->free;
+ pool->free = elt;
+ SET_MAGIC(elt, SLAB_MAGIC_FREE);
}
- element = slab_get_element(pool, page, pool->num_elements - 1);
- element->next_free = pool->first_free;
- SET_MAGIC(element);
- pool->first_free = slab_get_element(pool, page, 0);
+ page->u.next = pool->pages;
+ pool->pages = page;
+
return true;
}
/**
- * Allocate an object from the slab. Single-threaded (no mutex).
+ * Allocate an object from the child pool. Single-threaded (i.e. the caller
+ * must ensure that no operation happens on the same child pool in another
+ * thread).
*/
void *
-slab_alloc_st(struct slab_mempool *pool)
+slab_alloc(struct slab_child_pool *pool)
{
- struct slab_element_header *element;
+ struct slab_element_header *elt;
- /* Allocate a new page. */
- if (!pool->first_free &&
- !slab_add_new_page(pool))
- return NULL;
+ if (!pool->free) {
+ /* First, collect elements that belong to us but were freed from a
+ * different child pool.
+ */
+ mtx_lock(&pool->parent->mutex);
+ pool->free = pool->migrated;
+ pool->migrated = NULL;
+ mtx_unlock(&pool->parent->mutex);
+
+ /* Now allocate a new page. */
+ if (!pool->free && !slab_add_new_page(pool))
+ return NULL;
+ }
- element = pool->first_free;
- CHECK_MAGIC(element);
- pool->first_free = element->next_free;
- return &element[1];
+ elt = pool->free;
+ pool->free = elt->next;
+
+ CHECK_MAGIC(elt, SLAB_MAGIC_FREE);
+ SET_MAGIC(elt, SLAB_MAGIC_ALLOCATED);
+
+ return &elt[1];
}
/**
- * Free an object allocated from the slab. Single-threaded (no mutex).
+ * Free an object allocated from the slab. Single-threaded (i.e. the caller
+ * must ensure that no operation happens on the same child pool in another
+ * thread).
+ *
+ * Freeing an object in a different child pool from the one where it was
+ * allocated is allowed, as long the pool belong to the same parent. No
+ * additional locking is required in this case.
*/
-void
-slab_free_st(struct slab_mempool *pool, void *ptr)
+void slab_free(struct slab_child_pool *pool, void *ptr)
{
- struct slab_element_header *element =
- ((struct slab_element_header*)ptr - 1);
+ struct slab_element_header *elt = ((struct slab_element_header*)ptr - 1);
+ intptr_t owner_int;
+
+ CHECK_MAGIC(elt, SLAB_MAGIC_ALLOCATED);
+ SET_MAGIC(elt, SLAB_MAGIC_FREE);
+
+ if (p_atomic_read(&elt->owner) == (intptr_t)pool) {
+ /* This is the simple case: The caller guarantees that we can safely
+ * access the free list.
+ */
+ elt->next = pool->free;
+ pool->free = elt;
+ return;
+ }
- CHECK_MAGIC(element);
- element->next_free = pool->first_free;
- pool->first_free = element;
+ /* The slow case: migration or an orphaned page. */
+ mtx_lock(&pool->parent->mutex);
+
+ /* Note: we _must_ re-read elt->owner here because the owning child pool
+ * may have been destroyed by another thread in the meantime.
+ */
+ owner_int = p_atomic_read(&elt->owner);
+
+ if (!(owner_int & 1)) {
+ struct slab_child_pool *owner = (struct slab_child_pool *)owner_int;
+ elt->next = owner->migrated;
+ owner->migrated = elt;
+ mtx_unlock(&pool->parent->mutex);
+ } else {
+ mtx_unlock(&pool->parent->mutex);
+
+ slab_free_orphaned(elt);
+ }
}
/**
- * Allocate an object from the slab. Thread-safe.
+ * Allocate an object from the slab. Single-threaded (no mutex).
*/
void *
-slab_alloc_mt(struct slab_mempool *pool)
+slab_alloc_st(struct slab_mempool *pool)
{
- void *mem;
-
- mtx_lock(&pool->mutex);
- mem = slab_alloc_st(pool);
- mtx_unlock(&pool->mutex);
- return mem;
+ return slab_alloc(&pool->child);
}
/**
- * Free an object allocated from the slab. Thread-safe.
+ * Free an object allocated from the slab. Single-threaded (no mutex).
*/
void
-slab_free_mt(struct slab_mempool *pool, void *ptr)
+slab_free_st(struct slab_mempool *pool, void *ptr)
{
- mtx_lock(&pool->mutex);
- slab_free_st(pool, ptr);
- mtx_unlock(&pool->mutex);
+ slab_free(&pool->child, ptr);
}
void
slab_destroy(struct slab_mempool *pool)
{
- struct slab_page_header *page, *temp;
-
- if (pool->list.next) {
- foreach_s(page, temp, &pool->list) {
- remove_from_list(page);
- free(page);
- }
- }
-
- mtx_destroy(&pool->mutex);
+ slab_destroy_child(&pool->child);
+ slab_destroy_parent(&pool->parent);
}
/**
* Create an allocator for same-sized objects.
*
* \param item_size Size of one object.
* \param num_items Number of objects to allocate at once.
*/
void
slab_create(struct slab_mempool *pool,
unsigned item_size,
unsigned num_items)
{
- mtx_init(&pool->mutex, mtx_plain);
- pool->element_size = ALIGN(sizeof(struct slab_element_header) + item_size,
- sizeof(intptr_t));
- pool->num_elements = num_items;
- pool->first_free = NULL;
+ slab_create_parent(&pool->parent, item_size, num_items);
+ slab_create_child(&pool->child, &pool->parent);
}
diff --git a/src/util/slab.h b/src/util/slab.h
index 9d13f6a..e83f8ec 100644
--- a/src/util/slab.h
+++ b/src/util/slab.h
@@ -16,47 +16,79 @@
* 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 AUTHOR(S) AND/OR THEIR 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. */
/**
* Slab allocator for equally sized memory allocations.
- * The thread-safe path ("*_mt" functions) is usually slower than malloc/free.
- * The single-threaded path ("*_st" functions) is faster than malloc/free.
+ *
+ * Objects are allocated from "child" pools that are connected to a "parent"
+ * pool.
+ *
+ * Calls to slab_alloc/slab_free for the same child pool must not occur from
+ * multiple threads simultaneously.
+ *
+ * Allocations obtained from one child pool should usually be freed in the
+ * same child pool. Freeing an allocation in a different child pool associated
+ * to the same parent is allowed (and requires no locking by the caller), but
+ * it is discouraged because it implies a performance penalty.
+ *
+ * For convenience and to ease the transition, there is also a set of wrapper
+ * functions around a single parent-child pair.
*/
#ifndef SLAB_H
#define SLAB_H
#include "c11/threads.h"
-/* The page is an array of allocations in one block. */
-struct slab_page_header {
- /* The header (linked-list pointers). */
- struct slab_page_header *prev, *next;
+struct slab_element_header;
+struct slab_page_header;
+
+struct slab_parent_pool {
+ mtx_t mutex;
+ unsigned element_size;
+ unsigned num_elements;
+};
+
+struct slab_child_pool {
+ struct slab_parent_pool *parent;
+
+ struct slab_page_header *pages;
+
+ /* Free elements. */
+ struct slab_element_header *free;
- /* Memory after the last member is dedicated to the page itself.
- * The allocated size is always larger than this structure.
+ /* Elements that are owned by this pool but were freed with a different
+ * pool as the argument to slab_free.
+ *
+ * This list is protected by the parent mutex.
*/
+ struct slab_element_header *migrated;
};
+void slab_create_parent(struct slab_parent_pool *parent,
+ unsigned item_size,
+ unsigned num_items);
+void slab_destroy_parent(struct slab_parent_pool *parent);
+void slab_create_child(struct slab_child_pool *pool,
+ struct slab_parent_pool *parent);
+void slab_destroy_child(struct slab_child_pool *pool);
+void *slab_alloc(struct slab_child_pool *pool);
+void slab_free(struct slab_child_pool *pool, void *ptr);
+
struct slab_mempool {
- mtx_t mutex;
- unsigned element_size;
- unsigned num_elements;
- struct slab_element_header *first_free;
- struct slab_page_header list;
+ struct slab_parent_pool parent;
+ struct slab_child_pool child;
};
void slab_create(struct slab_mempool *pool,
unsigned item_size,
unsigned num_items);
void slab_destroy(struct slab_mempool *pool);
void *slab_alloc_st(struct slab_mempool *pool);
void slab_free_st(struct slab_mempool *pool, void *ptr);
-void *slab_alloc_mt(struct slab_mempool *pool);
-void slab_free_mt(struct slab_mempool *pool, void *ptr);
#endif
--
2.7.4
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