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ck/include/ck_rwcohort.h

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11 KiB

/*
* Copyright 2013 Samy Al Bahra.
* Copyright 2013 Brendon Scheinman.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#ifndef _CK_RWCOHORT_H
#define _CK_RWCOHORT_H
/*
* This is an implementation of NUMA-aware reader-writer locks as described in:
* Calciu, I.; Dice, D.; Lev, Y.; Luchangco, V.; Marathe, V.; and Shavit, N. 2013.
* NUMA-Aware Reader-Writer Locks
*/
#include <ck_cc.h>
#include <ck_pr.h>
#include <stddef.h>
#include <ck_cohort.h>
#define CK_RWCOHORT_WP_NAME(N) ck_rwcohort_wp_##N
#define CK_RWCOHORT_WP_INSTANCE(N) struct CK_RWCOHORT_WP_NAME(N)
#define CK_RWCOHORT_WP_INIT(N, RW, WL) ck_rwcohort_wp_##N##_init(RW, WL)
#define CK_RWCOHORT_WP_READ_LOCK(N, RW, C, GC, LC) \
ck_rwcohort_wp_##N##_read_lock(RW, C, GC, LC)
#define CK_RWCOHORT_WP_READ_UNLOCK(N, RW, C, GC, LC) \
ck_rwcohort_wp_##N##_read_unlock(RW)
#define CK_RWCOHORT_WP_WRITE_LOCK(N, RW, C, GC, LC) \
ck_rwcohort_wp_##N##_write_lock(RW, C, GC, LC)
#define CK_RWCOHORT_WP_WRITE_UNLOCK(N, RW, C, GC, LC) \
ck_rwcohort_wp_##N##_write_unlock(RW, C, GC, LC)
#define CK_RWCOHORT_WP_DEFAULT_WAIT_LIMIT 1000
#define CK_RWCOHORT_WP_PROTOTYPE(N) \
CK_RWCOHORT_WP_INSTANCE(N) { \
unsigned int read_counter; \
unsigned int write_barrier; \
unsigned int wait_limit; \
}; \
CK_CC_INLINE static void \
ck_rwcohort_wp_##N##_init(CK_RWCOHORT_WP_INSTANCE(N) *rw_cohort, \
unsigned int wait_limit) \
{ \
\
rw_cohort->read_counter = 0; \
rw_cohort->write_barrier = 0; \
rw_cohort->wait_limit = wait_limit; \
ck_pr_barrier(); \
return; \
} \
CK_CC_INLINE static void \
ck_rwcohort_wp_##N##_write_lock(CK_RWCOHORT_WP_INSTANCE(N) *rw_cohort, \
CK_COHORT_INSTANCE(N) *cohort, void *global_context, \
void *local_context) \
{ \
\
while (ck_pr_load_uint(&rw_cohort->write_barrier) > 0) \
ck_pr_stall(); \
\
CK_COHORT_LOCK(N, cohort, global_context, local_context); \
\
while (ck_pr_load_uint(&rw_cohort->read_counter) > 0) \
ck_pr_stall(); \
\
return; \
} \
CK_CC_INLINE static void \
ck_rwcohort_wp_##N##_write_unlock(CK_RWCOHORT_WP_INSTANCE(N) *rw_cohort, \
CK_COHORT_INSTANCE(N) *cohort, void *global_context, \
void *local_context) \
{ \
\
(void)rw_cohort; \
CK_COHORT_UNLOCK(N, cohort, global_context, local_context); \
return; \
} \
CK_CC_INLINE static void \
ck_rwcohort_wp_##N##_read_lock(CK_RWCOHORT_WP_INSTANCE(N) *rw_cohort, \
CK_COHORT_INSTANCE(N) *cohort, void *global_context, \
void *local_context) \
{ \
unsigned int wait_count = 0; \
bool raised = false; \
\
for (;;) { \
ck_pr_inc_uint(&rw_cohort->read_counter); \
ck_pr_fence_atomic_load(); \
if (CK_COHORT_LOCKED(N, cohort, global_context, \
local_context) == false) \
break; \
\
ck_pr_dec_uint(&rw_cohort->read_counter); \
while (CK_COHORT_LOCKED(N, cohort, global_context, \
local_context) == true) { \
ck_pr_stall(); \
if (++wait_count > rw_cohort->wait_limit && \
raised == false) { \
ck_pr_inc_uint(&rw_cohort->write_barrier); \
raised = true; \
} \
} \
} \
\
if (raised == true) \
ck_pr_dec_uint(&rw_cohort->write_barrier); \
\
return; \
} \
CK_CC_INLINE static void \
ck_rwcohort_wp_##N##_read_unlock(CK_RWCOHORT_WP_INSTANCE(N) *cohort) \
{ \
\
ck_pr_fence_memory(); \
ck_pr_dec_uint(&cohort->read_counter); \
return; \
}
#define CK_RWCOHORT_WP_INITIALIZER { \
.read_counter = 0, \
.write_barrier = 0, \
.wait_limit = 0 \
}
#define CK_RWCOHORT_RP_NAME(N) ck_rwcohort_rp_##N
#define CK_RWCOHORT_RP_INSTANCE(N) struct CK_RWCOHORT_RP_NAME(N)
#define CK_RWCOHORT_RP_INIT(N, RW, WL) ck_rwcohort_rp_##N##_init(RW, WL)
#define CK_RWCOHORT_RP_READ_LOCK(N, RW, C, GC, LC) \
ck_rwcohort_rp_##N##_read_lock(RW, C, GC, LC)
#define CK_RWCOHORT_RP_READ_UNLOCK(N, RW, C, GC, LC) \
ck_rwcohort_rp_##N##_read_unlock(RW)
#define CK_RWCOHORT_RP_WRITE_LOCK(N, RW, C, GC, LC) \
ck_rwcohort_rp_##N##_write_lock(RW, C, GC, LC)
#define CK_RWCOHORT_RP_WRITE_UNLOCK(N, RW, C, GC, LC) \
ck_rwcohort_rp_##N##_write_unlock(RW, C, GC, LC)
#define CK_RWCOHORT_RP_DEFAULT_WAIT_LIMIT 1000
#define CK_RWCOHORT_RP_PROTOTYPE(N) \
CK_RWCOHORT_RP_INSTANCE(N) { \
unsigned int read_counter; \
unsigned int read_barrier; \
unsigned int wait_limit; \
}; \
CK_CC_INLINE static void \
ck_rwcohort_rp_##N##_init(CK_RWCOHORT_RP_INSTANCE(N) *rw_cohort, \
unsigned int wait_limit) \
{ \
\
rw_cohort->read_counter = 0; \
rw_cohort->read_barrier = 0; \
rw_cohort->wait_limit = wait_limit; \
ck_pr_barrier(); \
return; \
} \
CK_CC_INLINE static void \
ck_rwcohort_rp_##N##_write_lock(CK_RWCOHORT_RP_INSTANCE(N) *rw_cohort, \
CK_COHORT_INSTANCE(N) *cohort, void *global_context, \
void *local_context) \
{ \
unsigned int wait_count = 0; \
bool raised = false; \
\
for (;;) { \
CK_COHORT_LOCK(N, cohort, global_context, local_context); \
if (ck_pr_load_uint(&rw_cohort->read_counter) == 0) \
break; \
\
CK_COHORT_UNLOCK(N, cohort, global_context, local_context); \
while (ck_pr_load_uint(&rw_cohort->read_counter) > 0) { \
ck_pr_stall(); \
if (++wait_count > rw_cohort->wait_limit && \
raised == false) { \
ck_pr_inc_uint(&rw_cohort->read_barrier); \
raised = true; \
} \
} \
} \
\
if (raised == true) \
ck_pr_dec_uint(&rw_cohort->read_barrier); \
\
return; \
} \
CK_CC_INLINE static void \
ck_rwcohort_rp_##N##_write_unlock(CK_RWCOHORT_RP_INSTANCE(N) *rw_cohort, \
CK_COHORT_INSTANCE(N) *cohort, void *global_context, void *local_context) \
{ \
\
(void)rw_cohort; \
CK_COHORT_UNLOCK(N, cohort, global_context, local_context); \
return; \
} \
CK_CC_INLINE static void \
ck_rwcohort_rp_##N##_read_lock(CK_RWCOHORT_RP_INSTANCE(N) *rw_cohort, \
CK_COHORT_INSTANCE(N) *cohort, void *global_context, \
void *local_context) \
{ \
\
while (ck_pr_load_uint(&rw_cohort->read_barrier) > 0) \
ck_pr_stall(); \
\
ck_pr_inc_uint(&rw_cohort->read_counter); \
ck_pr_fence_atomic_load(); \
\
while (CK_COHORT_LOCKED(N, cohort, global_context, \
local_context) == true) \
ck_pr_stall(); \
\
return; \
} \
CK_CC_INLINE static void \
ck_rwcohort_rp_##N##_read_unlock(CK_RWCOHORT_RP_INSTANCE(N) *cohort) \
{ \
\
ck_pr_fence_memory(); \
ck_pr_dec_uint(&cohort->read_counter); \
return; \
}
#define CK_RWCOHORT_RP_INITIALIZER { \
.read_counter = 0, \
.read_barrier = 0, \
.wait_limit = 0 \
}
#define CK_RWCOHORT_NEUTRAL_NAME(N) ck_rwcohort_neutral_##N
#define CK_RWCOHORT_NEUTRAL_INSTANCE(N) struct CK_RWCOHORT_NEUTRAL_NAME(N)
#define CK_RWCOHORT_NEUTRAL_INIT(N, RW) ck_rwcohort_neutral_##N##_init(RW)
#define CK_RWCOHORT_NEUTRAL_READ_LOCK(N, RW, C, GC, LC) \
ck_rwcohort_neutral_##N##_read_lock(RW, C, GC, LC)
#define CK_RWCOHORT_NEUTRAL_READ_UNLOCK(N, RW, C, GC, LC) \
ck_rwcohort_neutral_##N##_read_unlock(RW)
#define CK_RWCOHORT_NEUTRAL_WRITE_LOCK(N, RW, C, GC, LC) \
ck_rwcohort_neutral_##N##_write_lock(RW, C, GC, LC)
#define CK_RWCOHORT_NEUTRAL_WRITE_UNLOCK(N, RW, C, GC, LC) \
ck_rwcohort_neutral_##N##_write_unlock(RW, C, GC, LC)
#define CK_RWCOHORT_NEUTRAL_DEFAULT_WAIT_LIMIT 1000
#define CK_RWCOHORT_NEUTRAL_PROTOTYPE(N) \
CK_RWCOHORT_NEUTRAL_INSTANCE(N) { \
unsigned int read_counter; \
}; \
CK_CC_INLINE static void \
ck_rwcohort_neutral_##N##_init(CK_RWCOHORT_NEUTRAL_INSTANCE(N) *rw_cohort) \
{ \
\
rw_cohort->read_counter = 0; \
ck_pr_barrier(); \
return; \
} \
CK_CC_INLINE static void \
ck_rwcohort_neutral_##N##_write_lock(CK_RWCOHORT_NEUTRAL_INSTANCE(N) *rw_cohort,\
CK_COHORT_INSTANCE(N) *cohort, void *global_context, \
void *local_context) \
{ \
\
CK_COHORT_LOCK(N, cohort, global_context, local_context); \
while (ck_pr_load_uint(&rw_cohort->read_counter) > 0) { \
ck_pr_stall(); \
} \
return; \
} \
CK_CC_INLINE static void \
ck_rwcohort_neutral_##N##_write_unlock(CK_RWCOHORT_NEUTRAL_INSTANCE(N) *rw_cohort,\
CK_COHORT_INSTANCE(N) *cohort, void *global_context, void *local_context) \
{ \
\
(void)rw_cohort; \
CK_COHORT_UNLOCK(N, cohort, global_context, local_context); \
return; \
} \
CK_CC_INLINE static void \
ck_rwcohort_neutral_##N##_read_lock(CK_RWCOHORT_NEUTRAL_INSTANCE(N) *rw_cohort, \
CK_COHORT_INSTANCE(N) *cohort, void *global_context, \
void *local_context) \
{ \
\
CK_COHORT_LOCK(N, cohort, global_context, local_context); \
ck_pr_inc_uint(&rw_cohort->read_counter); \
CK_COHORT_UNLOCK(N, cohort, global_context, local_context); \
return; \
} \
CK_CC_INLINE static void \
ck_rwcohort_neutral_##N##_read_unlock(CK_RWCOHORT_NEUTRAL_INSTANCE(N) *cohort) \
{ \
\
ck_pr_fence_memory(); \
ck_pr_dec_uint(&cohort->read_counter); \
return; \
}
#define CK_RWCOHORT_NEUTRAL_INITIALIZER { \
.read_counter = 0, \
}
#endif /* _CK_RWCOHORT_H */