From: Mathieu Desnoyers Date: Fri, 12 Oct 2012 13:30:15 +0000 (-0400) Subject: lfstack: implement empty, pop_all and iterators, document API X-Git-Tag: v0.8.0~179 X-Git-Url: https://git.lttng.org./?a=commitdiff_plain;h=7294103b4caaa3487a362ae9925faa7f6821e0b3;p=urcu.git lfstack: implement empty, pop_all and iterators, document API We are changing the ABI by adding a mutex into struct cds_lfs_stack. This ABI has never been exposed in a release so far, so we can change it. Signed-off-by: Mathieu Desnoyers --- diff --git a/lfstack.c b/lfstack.c index 74ffd4f..db2c2cf 100644 --- a/lfstack.c +++ b/lfstack.c @@ -40,12 +40,42 @@ void cds_lfs_init(struct cds_lfs_stack *s) _cds_lfs_init(s); } -int cds_lfs_push(struct cds_lfs_stack *s, struct cds_lfs_node *node) +bool cds_lfs_empty(struct cds_lfs_stack *s) +{ + return _cds_lfs_empty(s); +} + +bool cds_lfs_push(struct cds_lfs_stack *s, struct cds_lfs_node *node) { return _cds_lfs_push(s, node); } -struct cds_lfs_node *cds_lfs_pop(struct cds_lfs_stack *s) +struct cds_lfs_node *cds_lfs_pop_blocking(struct cds_lfs_stack *s) +{ + return _cds_lfs_pop_blocking(s); +} + +struct cds_lfs_head *cds_lfs_pop_all_blocking(struct cds_lfs_stack *s) +{ + return _cds_lfs_pop_all_blocking(s); +} + +void cds_lfs_pop_lock(struct cds_lfs_stack *s) +{ + _cds_lfs_pop_lock(s); +} + +void cds_lfs_pop_unlock(struct cds_lfs_stack *s) +{ + _cds_lfs_pop_unlock(s); +} + +struct cds_lfs_node *__cds_lfs_pop(struct cds_lfs_stack *s) +{ + return ___cds_lfs_pop(s); +} + +struct cds_lfs_head *__cds_lfs_pop_all(struct cds_lfs_stack *s) { - return _cds_lfs_pop(s); + return ___cds_lfs_pop_all(s); } diff --git a/tests/test_urcu_lfs.c b/tests/test_urcu_lfs.c index 9af846d..ec0fa13 100644 --- a/tests/test_urcu_lfs.c +++ b/tests/test_urcu_lfs.c @@ -237,7 +237,7 @@ void *thr_dequeuer(void *_count) struct cds_lfs_node *snode; rcu_read_lock(); - snode = cds_lfs_pop(&s); + snode = __cds_lfs_pop(&s); rcu_read_unlock(); if (snode) { struct test *node; @@ -269,7 +269,7 @@ void test_end(struct cds_lfs_stack *s, unsigned long long *nr_dequeues) struct cds_lfs_node *snode; do { - snode = cds_lfs_pop(s); + snode = __cds_lfs_pop(s); if (snode) { struct test *node; diff --git a/urcu/lfstack.h b/urcu/lfstack.h index d068739..eddff0e 100644 --- a/urcu/lfstack.h +++ b/urcu/lfstack.h @@ -27,12 +27,52 @@ extern "C" { #endif +#include +#include + +/* + * Lock-free stack. + * + * Stack implementing push, pop, pop_all operations, as well as iterator + * on the stack head returned by pop_all. + * + * Synchronization table: + * + * External synchronization techniques described in the API below is + * required between pairs marked with "X". No external synchronization + * required between pairs marked with "-". + * + * cds_lfs_push __cds_lfs_pop __cds_lfs_pop_all + * cds_lfs_push - - - + * __cds_lfs_pop - X X + * __cds_lfs_pop_all - X - + * + * cds_lfs_pop_blocking and cds_lfs_pop_all_blocking use an internal + * mutex to provide synchronization. + */ + +/* + * struct cds_lfs_node is returned by cds_lfs_pop, and also used as + * iterator on stack. It is not safe to dereference the node next + * pointer when returned by cds_lfs_pop. + */ struct cds_lfs_node { struct cds_lfs_node *next; }; +/* + * struct cds_lfs_head is returned by __cds_lfs_pop_all, and can be used + * to begin iteration on the stack. "node" needs to be the first field + * of cds_lfs_head, so the end-of-stack pointer value can be used for + * both types. + */ +struct cds_lfs_head { + struct cds_lfs_node node; +}; + struct cds_lfs_stack { - struct cds_lfs_node *head; + struct cds_lfs_head *head; + pthread_mutex_t lock; }; #ifdef _LGPL_SOURCE @@ -41,14 +81,40 @@ struct cds_lfs_stack { #define cds_lfs_node_init _cds_lfs_node_init #define cds_lfs_init _cds_lfs_init +#define cds_lfs_empty _cds_lfs_empty #define cds_lfs_push _cds_lfs_push -#define cds_lfs_pop _cds_lfs_pop + +/* Locking performed internally */ +#define cds_lfs_pop_blocking _cds_lfs_pop_blocking +#define cds_lfs_pop_all_blocking _cds_lfs_pop_all_blocking + +/* Synchronize pop with internal mutex */ +#define cds_lfs_pop_lock _cds_lfs_pop_lock +#define cds_lfs_pop_unlock _cds_lfs_pop_unlock + +/* Synchronization ensured by the caller. See synchronization table. */ +#define __cds_lfs_pop ___cds_lfs_pop +#define __cds_lfs_pop_all ___cds_lfs_pop_all #else /* !_LGPL_SOURCE */ +/* + * cds_lfs_node_init: initialize lock-free stack node. + */ extern void cds_lfs_node_init(struct cds_lfs_node *node); + +/* + * cds_lfs_init: initialize lock-free stack. + */ extern void cds_lfs_init(struct cds_lfs_stack *s); +/* + * cds_lfs_empty: return whether lock-free stack is empty. + * + * No memory barrier is issued. No mutual exclusion is required. + */ +extern bool cds_lfs_empty(struct cds_lfs_stack *s); + /* * cds_lfs_push: push a node into the stack. * @@ -57,29 +123,102 @@ extern void cds_lfs_init(struct cds_lfs_stack *s); * Returns 0 if the stack was empty prior to adding the node. * Returns non-zero otherwise. */ -extern int cds_lfs_push(struct cds_lfs_stack *s, +extern bool cds_lfs_push(struct cds_lfs_stack *s, struct cds_lfs_node *node); /* - * cds_lfs_pop: pop a node from the stack. + * cds_lfs_pop_blocking: pop a node from the stack. + * + * Calls __cds_lfs_pop with an internal pop mutex held. + */ +extern struct cds_lfs_node *cds_lfs_pop_blocking(struct cds_lfs_stack *s); + +/* + * cds_lfs_pop_all_blocking: pop all nodes from a stack. + * + * Calls __cds_lfs_pop_all with an internal pop mutex held. + */ +extern struct cds_lfs_head *cds_lfs_pop_all_blocking(struct cds_lfs_stack *s); + +/* + * cds_lfs_pop_lock: lock stack pop-protection mutex. + */ +extern void cds_lfs_pop_lock(struct cds_lfs_stack *s); + +/* + * cds_lfs_pop_unlock: unlock stack pop-protection mutex. + */ +extern void cds_lfs_pop_unlock(struct cds_lfs_stack *s); + +/* + * __cds_lfs_pop: pop a node from the stack. * * Returns NULL if stack is empty. * - * cds_lfs_pop needs to be synchronized using one of the following + * __cds_lfs_pop needs to be synchronized using one of the following * techniques: * - * 1) Calling cds_lfs_pop under rcu read lock critical section. The + * 1) Calling __cds_lfs_pop under rcu read lock critical section. The * caller must wait for a grace period to pass before freeing the * returned node or modifying the cds_lfs_node structure. - * 2) Using mutual exclusion (e.g. mutexes) to protect cds_lfs_pop - * callers. - * 3) Ensuring that only ONE thread can call cds_lfs_pop(). - * (multi-provider/single-consumer scheme). + * 2) Using mutual exclusion (e.g. mutexes) to protect __cds_lfs_pop + * and __cds_lfs_pop_all callers. + * 3) Ensuring that only ONE thread can call __cds_lfs_pop() and + * __cds_lfs_pop_all(). (multi-provider/single-consumer scheme). */ -extern struct cds_lfs_node *cds_lfs_pop(struct cds_lfs_stack *s); +extern struct cds_lfs_node *__cds_lfs_pop(struct cds_lfs_stack *s); + +/* + * __cds_lfs_pop_all: pop all nodes from a stack. + * + * __cds_lfs_pop_all does not require any synchronization with other + * push, nor with other __cds_lfs_pop_all, but requires synchronization + * matching the technique used to synchronize __cds_lfs_pop: + * + * 1) If __cds_lfs_pop is called under rcu read lock critical section, + * both __cds_lfs_pop and cds_lfs_pop_all callers must wait for a + * grace period to pass before freeing the returned node or modifying + * the cds_lfs_node structure. However, no RCU read-side critical + * section is needed around __cds_lfs_pop_all. + * 2) Using mutual exclusion (e.g. mutexes) to protect __cds_lfs_pop and + * __cds_lfs_pop_all callers. + * 3) Ensuring that only ONE thread can call __cds_lfs_pop() and + * __cds_lfs_pop_all(). (multi-provider/single-consumer scheme). + */ +extern struct cds_lfs_head *__cds_lfs_pop_all(struct cds_lfs_stack *s); #endif /* !_LGPL_SOURCE */ +/* + * cds_lfs_for_each: Iterate over all nodes returned by + * __cds_lfs_pop_all. + * @__head: node returned by __cds_lfs_pop_all (struct cds_lfs_head pointer). + * @__node: node to use as iterator (struct cds_lfs_node pointer). + * + * Content written into each node before push is guaranteed to be + * consistent, but no other memory ordering is ensured. + */ +#define cds_lfs_for_each(__head, __node) \ + for (__node = &__head->node; \ + __node != NULL; \ + __node = __node->next) + +/* + * cds_lfs_for_each_safe: Iterate over all nodes returned by + * __cds_lfs_pop_all, safe against node deletion. + * @__head: node returned by __cds_lfs_pop_all (struct cds_lfs_head pointer). + * @__node: node to use as iterator (struct cds_lfs_node pointer). + * @__n: struct cds_lfs_node pointer holding the next pointer (used + * internally). + * + * Content written into each node before push is guaranteed to be + * consistent, but no other memory ordering is ensured. + */ +#define cds_lfs_for_each_safe(__head, __node, __n) \ + for (__node = &__head->node, __n = (__node ? __node->next : NULL); \ + __node != NULL; \ + __node = __n, __n = (__node ? __node->next : NULL)) + #ifdef __cplusplus } #endif diff --git a/urcu/static/lfstack.h b/urcu/static/lfstack.h index 7acbf54..77a26dc 100644 --- a/urcu/static/lfstack.h +++ b/urcu/static/lfstack.h @@ -26,6 +26,9 @@ * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ +#include +#include +#include #include #include @@ -33,15 +36,63 @@ extern "C" { #endif +/* + * Lock-free stack. + * + * Stack implementing push, pop, pop_all operations, as well as iterator + * on the stack head returned by pop_all. + * + * Synchronization table: + * + * External synchronization techniques described in the API below is + * required between pairs marked with "X". No external synchronization + * required between pairs marked with "-". + * + * cds_lfs_push __cds_lfs_pop __cds_lfs_pop_all + * cds_lfs_push - - - + * __cds_lfs_pop - X X + * __cds_lfs_pop_all - X - + * + * cds_lfs_pop_blocking and cds_lfs_pop_all_blocking use an internal + * mutex to provide synchronization. + */ + +/* + * cds_lfs_node_init: initialize lock-free stack node. + */ static inline void _cds_lfs_node_init(struct cds_lfs_node *node) { } +/* + * cds_lfs_init: initialize lock-free stack. + */ static inline void _cds_lfs_init(struct cds_lfs_stack *s) { + int ret; + s->head = NULL; + ret = pthread_mutex_init(&s->lock, NULL); + assert(!ret); +} + +static inline +bool ___cds_lfs_empty_head(struct cds_lfs_head *head) +{ + return head == NULL; +} + +/* + * cds_lfs_empty: return whether lock-free stack is empty. + * + * No memory barrier is issued. No mutual exclusion is required. + */ +static inline +bool _cds_lfs_empty(struct cds_lfs_stack *s) +{ + return ___cds_lfs_empty_head(CMM_LOAD_SHARED(s->head)); } /* @@ -74,76 +125,159 @@ void _cds_lfs_init(struct cds_lfs_stack *s) * Returns non-zero otherwise. */ static inline -int _cds_lfs_push(struct cds_lfs_stack *s, +bool _cds_lfs_push(struct cds_lfs_stack *s, struct cds_lfs_node *node) { - struct cds_lfs_node *head = NULL; + struct cds_lfs_head *head = NULL; + struct cds_lfs_head *new_head = + caa_container_of(node, struct cds_lfs_head, node); for (;;) { - struct cds_lfs_node *old_head = head; + struct cds_lfs_head *old_head = head; /* * node->next is still private at this point, no need to * perform a _CMM_STORE_SHARED(). */ - node->next = head; + node->next = &head->node; /* * uatomic_cmpxchg() implicit memory barrier orders earlier * stores to node before publication. */ - head = uatomic_cmpxchg(&s->head, old_head, node); + head = uatomic_cmpxchg(&s->head, old_head, new_head); if (old_head == head) break; } - return (int) !!((unsigned long) head); + return ___cds_lfs_empty_head(head); } /* - * cds_lfs_pop: pop a node from the stack. + * __cds_lfs_pop: pop a node from the stack. * * Returns NULL if stack is empty. * - * cds_lfs_pop needs to be synchronized using one of the following + * __cds_lfs_pop needs to be synchronized using one of the following * techniques: * - * 1) Calling cds_lfs_pop under rcu read lock critical section. The + * 1) Calling __cds_lfs_pop under rcu read lock critical section. The * caller must wait for a grace period to pass before freeing the * returned node or modifying the cds_lfs_node structure. - * 2) Using mutual exclusion (e.g. mutexes) to protect cds_lfs_pop - * callers. - * 3) Ensuring that only ONE thread can call cds_lfs_pop(). - * (multi-provider/single-consumer scheme). + * 2) Using mutual exclusion (e.g. mutexes) to protect __cds_lfs_pop + * and __cds_lfs_pop_all callers. + * 3) Ensuring that only ONE thread can call __cds_lfs_pop() and + * __cds_lfs_pop_all(). (multi-provider/single-consumer scheme). */ static inline -struct cds_lfs_node *_cds_lfs_pop(struct cds_lfs_stack *s) +struct cds_lfs_node *___cds_lfs_pop(struct cds_lfs_stack *s) { for (;;) { - struct cds_lfs_node *head; + struct cds_lfs_head *head, *next_head; + struct cds_lfs_node *next; head = _CMM_LOAD_SHARED(s->head); - if (head) { - struct cds_lfs_node *next; - - /* - * Read head before head->next. Matches the - * implicit memory barrier before - * uatomic_cmpxchg() in cds_lfs_push. - */ - cmm_smp_read_barrier_depends(); - next = _CMM_LOAD_SHARED(head->next); - if (uatomic_cmpxchg(&s->head, head, next) == head) { - return head; - } else { - /* Concurrent modification. Retry. */ - continue; - } - } else { - /* Empty stack */ - return NULL; - } + if (___cds_lfs_empty_head(head)) + return NULL; /* Empty stack */ + + /* + * Read head before head->next. Matches the implicit + * memory barrier before uatomic_cmpxchg() in + * cds_lfs_push. + */ + cmm_smp_read_barrier_depends(); + next = _CMM_LOAD_SHARED(head->node.next); + next_head = caa_container_of(next, + struct cds_lfs_head, node); + if (uatomic_cmpxchg(&s->head, head, next_head) == head) + return &head->node; + /* busy-loop if head changed under us */ } } +/* + * __cds_lfs_pop_all: pop all nodes from a stack. + * + * __cds_lfs_pop_all does not require any synchronization with other + * push, nor with other __cds_lfs_pop_all, but requires synchronization + * matching the technique used to synchronize __cds_lfs_pop: + * + * 1) If __cds_lfs_pop is called under rcu read lock critical section, + * both __cds_lfs_pop and cds_lfs_pop_all callers must wait for a + * grace period to pass before freeing the returned node or modifying + * the cds_lfs_node structure. However, no RCU read-side critical + * section is needed around __cds_lfs_pop_all. + * 2) Using mutual exclusion (e.g. mutexes) to protect __cds_lfs_pop and + * __cds_lfs_pop_all callers. + * 3) Ensuring that only ONE thread can call __cds_lfs_pop() and + * __cds_lfs_pop_all(). (multi-provider/single-consumer scheme). + */ +static inline +struct cds_lfs_head *___cds_lfs_pop_all(struct cds_lfs_stack *s) +{ + /* + * Implicit memory barrier after uatomic_xchg() matches implicit + * memory barrier before uatomic_cmpxchg() in cds_lfs_push. It + * ensures that all nodes of the returned list are consistent. + * There is no need to issue memory barriers when iterating on + * the returned list, because the full memory barrier issued + * prior to each uatomic_cmpxchg, which each write to head, are + * taking care to order writes to each node prior to the full + * memory barrier after this uatomic_xchg(). + */ + return uatomic_xchg(&s->head, NULL); +} + +/* + * cds_lfs_pop_lock: lock stack pop-protection mutex. + */ +static inline void _cds_lfs_pop_lock(struct cds_lfs_stack *s) +{ + int ret; + + ret = pthread_mutex_lock(&s->lock); + assert(!ret); +} + +/* + * cds_lfs_pop_unlock: unlock stack pop-protection mutex. + */ +static inline void _cds_lfs_pop_unlock(struct cds_lfs_stack *s) +{ + int ret; + + ret = pthread_mutex_unlock(&s->lock); + assert(!ret); +} + +/* + * Call __cds_lfs_pop with an internal pop mutex held. + */ +static inline +struct cds_lfs_node * +_cds_lfs_pop_blocking(struct cds_lfs_stack *s) +{ + struct cds_lfs_node *retnode; + + _cds_lfs_pop_lock(s); + retnode = ___cds_lfs_pop(s); + _cds_lfs_pop_unlock(s); + return retnode; +} + +/* + * Call __cds_lfs_pop_all with an internal pop mutex held. + */ +static inline +struct cds_lfs_head * +_cds_lfs_pop_all_blocking(struct cds_lfs_stack *s) +{ + struct cds_lfs_head *rethead; + + _cds_lfs_pop_lock(s); + rethead = ___cds_lfs_pop_all(s); + _cds_lfs_pop_unlock(s); + return rethead; +} + #ifdef __cplusplus } #endif