* Copyright (c) 2002, 2010, Oracle and/or its affiliates. All rights reserved.
* Use is subject to license terms.
*
- * Copyright (c) 2011, 2012, Whamcloud, Inc.
+ * Copyright (c) 2010, 2012, Intel Corporation.
*/
/*
* This file is part of Lustre, http://www.lustre.org/
/* forward ref */
static int ptlrpc_server_post_idle_rqbds(struct ptlrpc_service_part *svcpt);
-static void ptlrpc_hpreq_fini(struct ptlrpc_request *req);
+static void ptlrpc_server_hpreq_fini(struct ptlrpc_request *req);
+static void ptlrpc_at_remove_timed(struct ptlrpc_request *req);
-static CFS_LIST_HEAD(ptlrpc_all_services);
-cfs_spinlock_t ptlrpc_all_services_lock;
+/** Holds a list of all PTLRPC services */
+CFS_LIST_HEAD(ptlrpc_all_services);
+/** Used to protect the \e ptlrpc_all_services list */
+struct mutex ptlrpc_all_services_mutex;
struct ptlrpc_request_buffer_desc *
ptlrpc_alloc_rqbd(struct ptlrpc_service_part *svcpt)
struct ptlrpc_service *svc = svcpt->scp_service;
struct ptlrpc_request_buffer_desc *rqbd;
- OBD_ALLOC_PTR(rqbd);
+ OBD_CPT_ALLOC_PTR(rqbd, svc->srv_cptable, svcpt->scp_cpt);
if (rqbd == NULL)
return NULL;
rqbd->rqbd_svcpt = svcpt;
- rqbd->rqbd_refcount = 0;
- rqbd->rqbd_cbid.cbid_fn = request_in_callback;
- rqbd->rqbd_cbid.cbid_arg = rqbd;
- CFS_INIT_LIST_HEAD(&rqbd->rqbd_reqs);
- OBD_ALLOC_LARGE(rqbd->rqbd_buffer, svc->srv_buf_size);
-
- if (rqbd->rqbd_buffer == NULL) {
- OBD_FREE_PTR(rqbd);
- return (NULL);
- }
+ rqbd->rqbd_refcount = 0;
+ rqbd->rqbd_cbid.cbid_fn = request_in_callback;
+ rqbd->rqbd_cbid.cbid_arg = rqbd;
+ CFS_INIT_LIST_HEAD(&rqbd->rqbd_reqs);
+ OBD_CPT_ALLOC_LARGE(rqbd->rqbd_buffer, svc->srv_cptable,
+ svcpt->scp_cpt, svc->srv_buf_size);
+ if (rqbd->rqbd_buffer == NULL) {
+ OBD_FREE_PTR(rqbd);
+ return NULL;
+ }
- cfs_spin_lock(&svcpt->scp_lock);
+ spin_lock(&svcpt->scp_lock);
cfs_list_add(&rqbd->rqbd_list, &svcpt->scp_rqbd_idle);
svcpt->scp_nrqbds_total++;
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
return rqbd;
}
LASSERT(rqbd->rqbd_refcount == 0);
LASSERT(cfs_list_empty(&rqbd->rqbd_reqs));
- cfs_spin_lock(&svcpt->scp_lock);
+ spin_lock(&svcpt->scp_lock);
cfs_list_del(&rqbd->rqbd_list);
svcpt->scp_nrqbds_total--;
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
OBD_FREE_LARGE(rqbd->rqbd_buffer, svcpt->scp_service->srv_buf_size);
OBD_FREE_PTR(rqbd);
}
int
-ptlrpc_grow_req_bufs(struct ptlrpc_service_part *svcpt)
+ptlrpc_grow_req_bufs(struct ptlrpc_service_part *svcpt, int post)
{
struct ptlrpc_service *svc = svcpt->scp_service;
struct ptlrpc_request_buffer_desc *rqbd;
int rc = 0;
int i;
+ if (svcpt->scp_rqbd_allocating)
+ goto try_post;
+
+ spin_lock(&svcpt->scp_lock);
+ /* check again with lock */
+ if (svcpt->scp_rqbd_allocating) {
+ /* NB: we might allow more than one thread in the future */
+ LASSERT(svcpt->scp_rqbd_allocating == 1);
+ spin_unlock(&svcpt->scp_lock);
+ goto try_post;
+ }
+
+ svcpt->scp_rqbd_allocating++;
+ spin_unlock(&svcpt->scp_lock);
+
+
for (i = 0; i < svc->srv_nbuf_per_group; i++) {
- /* NB: another thread might be doing this as well, we need to
- * make sure that it wouldn't over-allocate, see LU-1212. */
+ /* NB: another thread might have recycled enough rqbds, we
+ * need to make sure it wouldn't over-allocate, see LU-1212. */
if (svcpt->scp_nrqbds_posted >= svc->srv_nbuf_per_group)
break;
rc = -ENOMEM;
break;
}
-
- if (ptlrpc_server_post_idle_rqbds(svcpt) < 0) {
- rc = -EAGAIN;
- break;
- }
}
+ spin_lock(&svcpt->scp_lock);
+
+ LASSERT(svcpt->scp_rqbd_allocating == 1);
+ svcpt->scp_rqbd_allocating--;
+
+ spin_unlock(&svcpt->scp_lock);
+
CDEBUG(D_RPCTRACE,
"%s: allocate %d new %d-byte reqbufs (%d/%d left), rc = %d\n",
- svc->srv_name, i, svc->srv_buf_size,
- svcpt->scp_nrqbds_posted, svcpt->scp_nrqbds_total, rc);
+ svc->srv_name, i, svc->srv_buf_size, svcpt->scp_nrqbds_posted,
+ svcpt->scp_nrqbds_total, rc);
+
+ try_post:
+ if (post && rc == 0)
+ rc = ptlrpc_server_post_idle_rqbds(svcpt);
return rc;
}
rs->rs_no_ack = !!no_ack;
}
}
+EXPORT_SYMBOL(ptlrpc_save_lock);
#ifdef __KERNEL__
-#define HRT_RUNNING 0
-#define HRT_STOPPING 1
+struct ptlrpc_hr_partition;
struct ptlrpc_hr_thread {
- cfs_spinlock_t hrt_lock;
- unsigned long hrt_flags;
- cfs_waitq_t hrt_wait;
- cfs_list_t hrt_queue;
- cfs_completion_t hrt_completion;
+ int hrt_id; /* thread ID */
+ spinlock_t hrt_lock;
+ cfs_waitq_t hrt_waitq;
+ cfs_list_t hrt_queue; /* RS queue */
+ struct ptlrpc_hr_partition *hrt_partition;
};
+struct ptlrpc_hr_partition {
+ /* # of started threads */
+ cfs_atomic_t hrp_nstarted;
+ /* # of stopped threads */
+ cfs_atomic_t hrp_nstopped;
+ /* cpu partition id */
+ int hrp_cpt;
+ /* round-robin rotor for choosing thread */
+ int hrp_rotor;
+ /* total number of threads on this partition */
+ int hrp_nthrs;
+ /* threads table */
+ struct ptlrpc_hr_thread *hrp_thrs;
+};
+
+#define HRT_RUNNING 0
+#define HRT_STOPPING 1
+
struct ptlrpc_hr_service {
- int hr_index;
- int hr_n_threads;
- int hr_size;
- struct ptlrpc_hr_thread hr_threads[0];
+ /* CPU partition table, it's just cfs_cpt_table for now */
+ struct cfs_cpt_table *hr_cpt_table;
+ /** controller sleep waitq */
+ cfs_waitq_t hr_waitq;
+ unsigned int hr_stopping;
+ /** roundrobin rotor for non-affinity service */
+ unsigned int hr_rotor;
+ /* partition data */
+ struct ptlrpc_hr_partition **hr_partitions;
};
struct rs_batch {
struct ptlrpc_service_part *rsb_svcpt;
};
-/**
- * A pointer to per-node reply handling service.
- */
-static struct ptlrpc_hr_service *ptlrpc_hr = NULL;
+/** reply handling service. */
+static struct ptlrpc_hr_service ptlrpc_hr;
/**
* maximum mumber of replies scheduled in one batch
/**
* Choose an hr thread to dispatch requests to.
*/
-static unsigned int get_hr_thread_index(struct ptlrpc_hr_service *hr)
+static struct ptlrpc_hr_thread *
+ptlrpc_hr_select(struct ptlrpc_service_part *svcpt)
{
- unsigned int idx;
+ struct ptlrpc_hr_partition *hrp;
+ unsigned int rotor;
+
+ if (svcpt->scp_cpt >= 0 &&
+ svcpt->scp_service->srv_cptable == ptlrpc_hr.hr_cpt_table) {
+ /* directly match partition */
+ hrp = ptlrpc_hr.hr_partitions[svcpt->scp_cpt];
- /* Concurrent modification of hr_index w/o any spinlock
- protection is harmless as long as the result fits
- [0..(hr_n_threads-1)] range and each thread gets near equal
- load. */
- idx = hr->hr_index;
- hr->hr_index = (idx >= hr->hr_n_threads - 1) ? 0 : idx + 1;
- return idx;
+ } else {
+ rotor = ptlrpc_hr.hr_rotor++;
+ rotor %= cfs_cpt_number(ptlrpc_hr.hr_cpt_table);
+
+ hrp = ptlrpc_hr.hr_partitions[rotor];
+ }
+
+ rotor = hrp->hrp_rotor++;
+ return &hrp->hrp_thrs[rotor % hrp->hrp_nthrs];
}
/**
*/
static void rs_batch_dispatch(struct rs_batch *b)
{
- if (b->rsb_n_replies != 0) {
- struct ptlrpc_hr_service *hr = ptlrpc_hr;
- int idx;
+ if (b->rsb_n_replies != 0) {
+ struct ptlrpc_hr_thread *hrt;
- idx = get_hr_thread_index(hr);
+ hrt = ptlrpc_hr_select(b->rsb_svcpt);
- cfs_spin_lock(&hr->hr_threads[idx].hrt_lock);
- cfs_list_splice_init(&b->rsb_replies,
- &hr->hr_threads[idx].hrt_queue);
- cfs_spin_unlock(&hr->hr_threads[idx].hrt_lock);
- cfs_waitq_signal(&hr->hr_threads[idx].hrt_wait);
- b->rsb_n_replies = 0;
- }
+ spin_lock(&hrt->hrt_lock);
+ cfs_list_splice_init(&b->rsb_replies, &hrt->hrt_queue);
+ spin_unlock(&hrt->hrt_lock);
+
+ cfs_waitq_signal(&hrt->hrt_waitq);
+ b->rsb_n_replies = 0;
+ }
}
/**
if (svcpt != b->rsb_svcpt || b->rsb_n_replies >= MAX_SCHEDULED) {
if (b->rsb_svcpt != NULL) {
rs_batch_dispatch(b);
- cfs_spin_unlock(&b->rsb_svcpt->scp_rep_lock);
+ spin_unlock(&b->rsb_svcpt->scp_rep_lock);
}
- cfs_spin_lock(&svcpt->scp_rep_lock);
+ spin_lock(&svcpt->scp_rep_lock);
b->rsb_svcpt = svcpt;
- }
- cfs_spin_lock(&rs->rs_lock);
- rs->rs_scheduled_ever = 1;
- if (rs->rs_scheduled == 0) {
- cfs_list_move(&rs->rs_list, &b->rsb_replies);
- rs->rs_scheduled = 1;
- b->rsb_n_replies++;
- }
- rs->rs_committed = 1;
- cfs_spin_unlock(&rs->rs_lock);
+ }
+ spin_lock(&rs->rs_lock);
+ rs->rs_scheduled_ever = 1;
+ if (rs->rs_scheduled == 0) {
+ cfs_list_move(&rs->rs_list, &b->rsb_replies);
+ rs->rs_scheduled = 1;
+ b->rsb_n_replies++;
+ }
+ rs->rs_committed = 1;
+ spin_unlock(&rs->rs_lock);
}
/**
{
if (b->rsb_svcpt != NULL) {
rs_batch_dispatch(b);
- cfs_spin_unlock(&b->rsb_svcpt->scp_rep_lock);
+ spin_unlock(&b->rsb_svcpt->scp_rep_lock);
}
}
void ptlrpc_dispatch_difficult_reply(struct ptlrpc_reply_state *rs)
{
#ifdef __KERNEL__
- struct ptlrpc_hr_service *hr = ptlrpc_hr;
- int idx;
- ENTRY;
+ struct ptlrpc_hr_thread *hrt;
+ ENTRY;
- LASSERT(cfs_list_empty(&rs->rs_list));
+ LASSERT(cfs_list_empty(&rs->rs_list));
- idx = get_hr_thread_index(hr);
- cfs_spin_lock(&hr->hr_threads[idx].hrt_lock);
- cfs_list_add_tail(&rs->rs_list, &hr->hr_threads[idx].hrt_queue);
- cfs_spin_unlock(&hr->hr_threads[idx].hrt_lock);
- cfs_waitq_signal(&hr->hr_threads[idx].hrt_wait);
- EXIT;
+ hrt = ptlrpc_hr_select(rs->rs_svcpt);
+
+ spin_lock(&hrt->hrt_lock);
+ cfs_list_add_tail(&rs->rs_list, &hrt->hrt_queue);
+ spin_unlock(&hrt->hrt_lock);
+
+ cfs_waitq_signal(&hrt->hrt_waitq);
+ EXIT;
#else
cfs_list_add_tail(&rs->rs_list, &rs->rs_svcpt->scp_rep_queue);
#endif
ptlrpc_dispatch_difficult_reply(rs);
EXIT;
}
+EXPORT_SYMBOL(ptlrpc_schedule_difficult_reply);
void ptlrpc_commit_replies(struct obd_export *exp)
{
* to attend to complete them. */
/* CAVEAT EMPTOR: spinlock ordering!!! */
- cfs_spin_lock(&exp->exp_uncommitted_replies_lock);
+ spin_lock(&exp->exp_uncommitted_replies_lock);
cfs_list_for_each_entry_safe(rs, nxt, &exp->exp_uncommitted_replies,
rs_obd_list) {
LASSERT (rs->rs_difficult);
rs_batch_add(&batch, rs);
}
}
- cfs_spin_unlock(&exp->exp_uncommitted_replies_lock);
- rs_batch_fini(&batch);
- EXIT;
+ spin_unlock(&exp->exp_uncommitted_replies_lock);
+ rs_batch_fini(&batch);
+ EXIT;
}
+EXPORT_SYMBOL(ptlrpc_commit_replies);
static int
ptlrpc_server_post_idle_rqbds(struct ptlrpc_service_part *svcpt)
int posted = 0;
for (;;) {
- cfs_spin_lock(&svcpt->scp_lock);
+ spin_lock(&svcpt->scp_lock);
if (cfs_list_empty(&svcpt->scp_rqbd_idle)) {
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
return posted;
}
svcpt->scp_nrqbds_posted++;
cfs_list_add(&rqbd->rqbd_list, &svcpt->scp_rqbd_posted);
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
rc = ptlrpc_register_rqbd(rqbd);
if (rc != 0)
posted = 1;
}
- cfs_spin_lock(&svcpt->scp_lock);
+ spin_lock(&svcpt->scp_lock);
svcpt->scp_nrqbds_posted--;
cfs_list_del(&rqbd->rqbd_list);
/* Don't complain if no request buffers are posted right now; LNET
* won't drop requests because we set the portal lazy! */
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
return -1;
}
}
static void
-ptlrpc_server_nthreads_check(struct ptlrpc_service_conf *conf,
- int *min_p, int *max_p)
+ptlrpc_server_nthreads_check(struct ptlrpc_service *svc,
+ struct ptlrpc_service_conf *conf)
{
#ifdef __KERNEL__
struct ptlrpc_service_thr_conf *tc = &conf->psc_thr;
- int nthrs_min;
- int nthrs;
+ unsigned init;
+ unsigned total;
+ unsigned nthrs;
+ int weight;
- nthrs_min = PTLRPC_NTHRS_MIN + (conf->psc_ops.so_hpreq_handler != NULL);
- nthrs_min = max_t(int, nthrs_min, tc->tc_nthrs_min);
+ /*
+ * Common code for estimating & validating threads number.
+ * CPT affinity service could have percpt thread-pool instead
+ * of a global thread-pool, which means user might not always
+ * get the threads number they give it in conf::tc_nthrs_user
+ * even they did set. It's because we need to validate threads
+ * number for each CPT to guarantee each pool will have enough
+ * threads to keep the service healthy.
+ */
+ init = PTLRPC_NTHRS_INIT + (svc->srv_ops.so_hpreq_handler != NULL);
+ init = max_t(int, init, tc->tc_nthrs_init);
+
+ /* NB: please see comments in lustre_lnet.h for definition
+ * details of these members */
+ LASSERT(tc->tc_nthrs_max != 0);
+
+ if (tc->tc_nthrs_user != 0) {
+ /* In case there is a reason to test a service with many
+ * threads, we give a less strict check here, it can
+ * be up to 8 * nthrs_max */
+ total = min(tc->tc_nthrs_max * 8, tc->tc_nthrs_user);
+ nthrs = total / svc->srv_ncpts;
+ init = max(init, nthrs);
+ goto out;
+ }
- nthrs = tc->tc_nthrs_user;
- if (nthrs != 0) { /* validate it */
- nthrs = min_t(int, nthrs, tc->tc_nthrs_max);
- nthrs = max_t(int, nthrs, nthrs_min);
- *min_p = *max_p = nthrs;
- return;
+ total = tc->tc_nthrs_max;
+ if (tc->tc_nthrs_base == 0) {
+ /* don't care about base threads number per partition,
+ * this is most for non-affinity service */
+ nthrs = total / svc->srv_ncpts;
+ goto out;
}
- /*
- * NB: we will add some common code here for estimating, for example:
- * add a new member ptlrpc_service_thr_conf::tc_factor, and estimate
- * threads number based on:
- * (online_cpus * conf::tc_factor) + conf::tc_nthrs_base.
- *
- * So we can remove code block like estimation in ost_setup, also,
- * we might estimate MDS threads number as well instead of using
- * absolute number, and have more threads on fat servers to improve
- * availability of service.
- *
- * Also, we will need to validate threads number at here for
- * CPT affinity service (CPU ParTion) in the future.
- * A service can have percpt thread-pool instead of a global thread
- * pool for each service, which means user might not always get the
- * threads number they want even they set it in conf::tc_nthrs_user,
- * because we need to adjust threads number for each CPT, instead of
- * just use (conf::tc_nthrs_user / NCPTS), to make sure each pool
- * will be healthy.
- */
- *max_p = tc->tc_nthrs_max;
- *min_p = nthrs_min;
-#else /* __KERNEL__ */
- *max_p = *min_p = 1; /* whatever */
+ nthrs = tc->tc_nthrs_base;
+ if (svc->srv_ncpts == 1) {
+ int i;
+
+ /* NB: Increase the base number if it's single partition
+ * and total number of cores/HTs is larger or equal to 4.
+ * result will always < 2 * nthrs_base */
+ weight = cfs_cpt_weight(svc->srv_cptable, CFS_CPT_ANY);
+ for (i = 1; (weight >> (i + 1)) != 0 && /* >= 4 cores/HTs */
+ (tc->tc_nthrs_base >> i) != 0; i++)
+ nthrs += tc->tc_nthrs_base >> i;
+ }
+
+ if (tc->tc_thr_factor != 0) {
+ int factor = tc->tc_thr_factor;
+ const int fade = 4;
+
+ /*
+ * User wants to increase number of threads with for
+ * each CPU core/HT, most likely the factor is larger then
+ * one thread/core because service threads are supposed to
+ * be blocked by lock or wait for IO.
+ */
+ /*
+ * Amdahl's law says that adding processors wouldn't give
+ * a linear increasing of parallelism, so it's nonsense to
+ * have too many threads no matter how many cores/HTs
+ * there are.
+ */
+ if (cfs_cpu_ht_nsiblings(0) > 1) { /* weight is # of HTs */
+ /* depress thread factor for hyper-thread */
+ factor = factor - (factor >> 1) + (factor >> 3);
+ }
+
+ weight = cfs_cpt_weight(svc->srv_cptable, 0);
+ LASSERT(weight > 0);
+
+ for (; factor > 0 && weight > 0; factor--, weight -= fade)
+ nthrs += min(weight, fade) * factor;
+ }
+
+ if (nthrs * svc->srv_ncpts > tc->tc_nthrs_max) {
+ nthrs = max(tc->tc_nthrs_base,
+ tc->tc_nthrs_max / svc->srv_ncpts);
+ }
+ out:
+ nthrs = max(nthrs, tc->tc_nthrs_init);
+ svc->srv_nthrs_cpt_limit = nthrs;
+ svc->srv_nthrs_cpt_init = init;
+
+ if (nthrs * svc->srv_ncpts > tc->tc_nthrs_max) {
+ LCONSOLE_WARN("%s: This service may have more threads (%d) "
+ "than the given soft limit (%d)\n",
+ svc->srv_name, nthrs * svc->srv_ncpts,
+ tc->tc_nthrs_max);
+ }
#endif
}
*/
static int
ptlrpc_service_part_init(struct ptlrpc_service *svc,
- struct ptlrpc_service_part *svcpt)
+ struct ptlrpc_service_part *svcpt, int cpt)
{
struct ptlrpc_at_array *array;
int size;
int index;
int rc;
+ svcpt->scp_cpt = cpt;
CFS_INIT_LIST_HEAD(&svcpt->scp_threads);
/* rqbd and incoming request queue */
- cfs_spin_lock_init(&svcpt->scp_lock);
+ spin_lock_init(&svcpt->scp_lock);
CFS_INIT_LIST_HEAD(&svcpt->scp_rqbd_idle);
CFS_INIT_LIST_HEAD(&svcpt->scp_rqbd_posted);
CFS_INIT_LIST_HEAD(&svcpt->scp_req_incoming);
CFS_INIT_LIST_HEAD(&svcpt->scp_hist_rqbds);
/* acitve requests and hp requests */
- cfs_spin_lock_init(&svcpt->scp_req_lock);
- CFS_INIT_LIST_HEAD(&svcpt->scp_req_pending);
- CFS_INIT_LIST_HEAD(&svcpt->scp_hreq_pending);
+ spin_lock_init(&svcpt->scp_req_lock);
/* reply states */
- cfs_spin_lock_init(&svcpt->scp_rep_lock);
+ spin_lock_init(&svcpt->scp_rep_lock);
CFS_INIT_LIST_HEAD(&svcpt->scp_rep_active);
#ifndef __KERNEL__
CFS_INIT_LIST_HEAD(&svcpt->scp_rep_queue);
cfs_atomic_set(&svcpt->scp_nreps_difficult, 0);
/* adaptive timeout */
- cfs_spin_lock_init(&svcpt->scp_at_lock);
+ spin_lock_init(&svcpt->scp_at_lock);
array = &svcpt->scp_at_array;
size = at_est2timeout(at_max);
array->paa_deadline = -1;
/* allocate memory for scp_at_array (ptlrpc_at_array) */
- OBD_ALLOC(array->paa_reqs_array, sizeof(cfs_list_t) * size);
+ OBD_CPT_ALLOC(array->paa_reqs_array,
+ svc->srv_cptable, cpt, sizeof(cfs_list_t) * size);
if (array->paa_reqs_array == NULL)
return -ENOMEM;
for (index = 0; index < size; index++)
CFS_INIT_LIST_HEAD(&array->paa_reqs_array[index]);
- OBD_ALLOC(array->paa_reqs_count, sizeof(__u32) * size);
+ OBD_CPT_ALLOC(array->paa_reqs_count,
+ svc->srv_cptable, cpt, sizeof(__u32) * size);
if (array->paa_reqs_count == NULL)
goto failed;
/* assign this before call ptlrpc_grow_req_bufs */
svcpt->scp_service = svc;
/* Now allocate the request buffers, but don't post them now */
- rc = ptlrpc_grow_req_bufs(svcpt);
+ rc = ptlrpc_grow_req_bufs(svcpt, 0);
/* We shouldn't be under memory pressure at startup, so
* fail if we can't allocate all our buffers at this time. */
if (rc != 0)
ptlrpc_register_service(struct ptlrpc_service_conf *conf,
cfs_proc_dir_entry_t *proc_entry)
{
+ struct ptlrpc_service_cpt_conf *cconf = &conf->psc_cpt;
struct ptlrpc_service *service;
+ struct ptlrpc_service_part *svcpt;
+ struct cfs_cpt_table *cptable;
+ __u32 *cpts = NULL;
+ int ncpts;
+ int cpt;
int rc;
+ int i;
ENTRY;
LASSERT(conf->psc_buf.bc_nbufs > 0);
conf->psc_buf.bc_req_max_size + SPTLRPC_MAX_PAYLOAD);
LASSERT(conf->psc_thr.tc_ctx_tags != 0);
- OBD_ALLOC_PTR(service);
- if (service == NULL)
+ cptable = cconf->cc_cptable;
+ if (cptable == NULL)
+ cptable = cfs_cpt_table;
+
+ if (!conf->psc_thr.tc_cpu_affinity) {
+ ncpts = 1;
+ } else {
+ ncpts = cfs_cpt_number(cptable);
+ if (cconf->cc_pattern != NULL) {
+ struct cfs_expr_list *el;
+
+ rc = cfs_expr_list_parse(cconf->cc_pattern,
+ strlen(cconf->cc_pattern),
+ 0, ncpts - 1, &el);
+ if (rc != 0) {
+ CERROR("%s: invalid CPT pattern string: %s",
+ conf->psc_name, cconf->cc_pattern);
+ RETURN(ERR_PTR(-EINVAL));
+ }
+
+ rc = cfs_expr_list_values(el, ncpts, &cpts);
+ cfs_expr_list_free(el);
+ if (rc <= 0) {
+ CERROR("%s: failed to parse CPT array %s: %d\n",
+ conf->psc_name, cconf->cc_pattern, rc);
+ if (cpts != NULL)
+ OBD_FREE(cpts, sizeof(*cpts) * ncpts);
+ RETURN(ERR_PTR(rc < 0 ? rc : -EINVAL));
+ }
+ ncpts = rc;
+ }
+ }
+
+ OBD_ALLOC(service, offsetof(struct ptlrpc_service, srv_parts[ncpts]));
+ if (service == NULL) {
+ if (cpts != NULL)
+ OBD_FREE(cpts, sizeof(*cpts) * ncpts);
RETURN(ERR_PTR(-ENOMEM));
+ }
+
+ service->srv_cptable = cptable;
+ service->srv_cpts = cpts;
+ service->srv_ncpts = ncpts;
+
+ service->srv_cpt_bits = 0; /* it's zero already, easy to read... */
+ while ((1 << service->srv_cpt_bits) < cfs_cpt_number(cptable))
+ service->srv_cpt_bits++;
/* public members */
- cfs_spin_lock_init(&service->srv_lock);
+ spin_lock_init(&service->srv_lock);
service->srv_name = conf->psc_name;
service->srv_watchdog_factor = conf->psc_watchdog_factor;
CFS_INIT_LIST_HEAD(&service->srv_list); /* for safty of cleanup */
conf->psc_buf.bc_rep_max_size + SPTLRPC_MAX_PAYLOAD)
service->srv_max_reply_size <<= 1;
- ptlrpc_server_nthreads_check(conf, &service->srv_threads_min,
- &service->srv_threads_max);
-
service->srv_thread_name = conf->psc_thr.tc_thr_name;
service->srv_ctx_tags = conf->psc_thr.tc_ctx_tags;
- service->srv_cpu_affinity = !!conf->psc_thr.tc_cpu_affinity;
service->srv_hpreq_ratio = PTLRPC_SVC_HP_RATIO;
service->srv_ops = conf->psc_ops;
- OBD_ALLOC_PTR(service->srv_part);
- if (service->srv_part == NULL)
- GOTO(failed, rc = -ENOMEM);
+ for (i = 0; i < ncpts; i++) {
+ if (!conf->psc_thr.tc_cpu_affinity)
+ cpt = CFS_CPT_ANY;
+ else
+ cpt = cpts != NULL ? cpts[i] : i;
- rc = ptlrpc_service_part_init(service, service->srv_part);
- if (rc != 0)
- GOTO(failed, rc);
+ OBD_CPT_ALLOC(svcpt, cptable, cpt, sizeof(*svcpt));
+ if (svcpt == NULL)
+ GOTO(failed, rc = -ENOMEM);
+
+ service->srv_parts[i] = svcpt;
+ rc = ptlrpc_service_part_init(service, svcpt, cpt);
+ if (rc != 0)
+ GOTO(failed, rc);
+ }
+
+ ptlrpc_server_nthreads_check(service, conf);
rc = LNetSetLazyPortal(service->srv_req_portal);
LASSERT(rc == 0);
- cfs_spin_lock (&ptlrpc_all_services_lock);
- cfs_list_add (&service->srv_list, &ptlrpc_all_services);
- cfs_spin_unlock (&ptlrpc_all_services_lock);
+ mutex_lock(&ptlrpc_all_services_mutex);
+ cfs_list_add (&service->srv_list, &ptlrpc_all_services);
+ mutex_unlock(&ptlrpc_all_services_mutex);
- if (proc_entry != NULL)
- ptlrpc_lprocfs_register_service(proc_entry, service);
+ if (proc_entry != NULL)
+ ptlrpc_lprocfs_register_service(proc_entry, service);
- CDEBUG(D_NET, "%s: Started, listening on portal %d\n",
- service->srv_name, service->srv_req_portal);
+ rc = ptlrpc_service_nrs_setup(service);
+ if (rc != 0)
+ GOTO(failed, rc);
+
+ CDEBUG(D_NET, "%s: Started, listening on portal %d\n",
+ service->srv_name, service->srv_req_portal);
#ifdef __KERNEL__
rc = ptlrpc_start_threads(service);
ptlrpc_unregister_service(service);
RETURN(ERR_PTR(rc));
}
+EXPORT_SYMBOL(ptlrpc_register_service);
/**
* to actually free the request, must be called without holding svc_lock.
if (!cfs_atomic_dec_and_test(&req->rq_refcount))
return;
- cfs_spin_lock(&svcpt->scp_at_lock);
if (req->rq_at_linked) {
- struct ptlrpc_at_array *array = &svcpt->scp_at_array;
- __u32 index = req->rq_at_index;
-
- LASSERT(!cfs_list_empty(&req->rq_timed_list));
- cfs_list_del_init(&req->rq_timed_list);
- cfs_spin_lock(&req->rq_lock);
- req->rq_at_linked = 0;
- cfs_spin_unlock(&req->rq_lock);
- array->paa_reqs_count[index]--;
- array->paa_count--;
- } else
- LASSERT(cfs_list_empty(&req->rq_timed_list));
+ spin_lock(&svcpt->scp_at_lock);
+ /* recheck with lock, in case it's unlinked by
+ * ptlrpc_at_check_timed() */
+ if (likely(req->rq_at_linked))
+ ptlrpc_at_remove_timed(req);
+ spin_unlock(&svcpt->scp_at_lock);
+ }
- cfs_spin_unlock(&svcpt->scp_at_lock);
+ LASSERT(cfs_list_empty(&req->rq_timed_list));
/* finalize request */
if (req->rq_export) {
req->rq_export = NULL;
}
- cfs_spin_lock(&svcpt->scp_lock);
+ spin_lock(&svcpt->scp_lock);
cfs_list_add(&req->rq_list, &rqbd->rqbd_reqs);
/* cull some history?
* I expect only about 1 or 2 rqbds need to be recycled here */
- while (svcpt->scp_hist_nrqbds > svc->srv_max_history_rqbds) {
+ while (svcpt->scp_hist_nrqbds > svc->srv_hist_nrqbds_cpt_max) {
rqbd = cfs_list_entry(svcpt->scp_hist_rqbds.next,
struct ptlrpc_request_buffer_desc,
rqbd_list);
cfs_list_del(&req->rq_history_list);
}
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
cfs_list_for_each_safe(tmp, nxt, &rqbd->rqbd_reqs) {
req = cfs_list_entry(rqbd->rqbd_reqs.next,
ptlrpc_server_free_request(req);
}
- cfs_spin_lock(&svcpt->scp_lock);
+ spin_lock(&svcpt->scp_lock);
/*
* now all reqs including the embedded req has been
* disposed, schedule request buffer for re-use.
&svcpt->scp_rqbd_idle);
}
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
} else if (req->rq_reply_state && req->rq_reply_state->rs_prealloc) {
/* If we are low on memory, we are not interested in history */
cfs_list_del(&req->rq_list);
cfs_list_del_init(&req->rq_history_list);
- cfs_spin_unlock(&svcpt->scp_lock);
+ /* Track the highest culled req seq */
+ if (req->rq_history_seq > svcpt->scp_hist_seq_culled)
+ svcpt->scp_hist_seq_culled = req->rq_history_seq;
+
+ spin_unlock(&svcpt->scp_lock);
ptlrpc_server_free_request(req);
} else {
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
}
}
static void ptlrpc_server_finish_request(struct ptlrpc_service_part *svcpt,
struct ptlrpc_request *req)
{
- ptlrpc_hpreq_fini(req);
+ ptlrpc_server_hpreq_fini(req);
- cfs_spin_lock(&svcpt->scp_req_lock);
+ spin_lock(&svcpt->scp_req_lock);
+ ptlrpc_nrs_req_stop_nolock(req);
svcpt->scp_nreqs_active--;
if (req->rq_hp)
svcpt->scp_nhreqs_active--;
- cfs_spin_unlock(&svcpt->scp_req_lock);
+ spin_unlock(&svcpt->scp_req_lock);
+
+ ptlrpc_nrs_req_finalize(req);
ptlrpc_server_drop_request(req);
}
/* exports may get disconnected from the chain even though the
export has references, so we must keep the spin lock while
manipulating the lists */
- cfs_spin_lock(&exp->exp_obd->obd_dev_lock);
+ spin_lock(&exp->exp_obd->obd_dev_lock);
- if (cfs_list_empty(&exp->exp_obd_chain_timed)) {
- /* this one is not timed */
- cfs_spin_unlock(&exp->exp_obd->obd_dev_lock);
+ if (cfs_list_empty(&exp->exp_obd_chain_timed)) {
+ /* this one is not timed */
+ spin_unlock(&exp->exp_obd->obd_dev_lock);
RETURN_EXIT;
}
oldest_exp = cfs_list_entry(exp->exp_obd->obd_exports_timed.next,
struct obd_export, exp_obd_chain_timed);
oldest_time = oldest_exp->exp_last_request_time;
- cfs_spin_unlock(&exp->exp_obd->obd_dev_lock);
+ spin_unlock(&exp->exp_obd->obd_dev_lock);
if (exp->exp_obd->obd_recovering) {
/* be nice to everyone during recovery */
{
int rc = 0;
- if (unlikely(lustre_msg_get_conn_cnt(req->rq_reqmsg) <
- req->rq_export->exp_conn_cnt)) {
- DEBUG_REQ(D_ERROR, req,
- "DROPPING req from old connection %d < %d",
- lustre_msg_get_conn_cnt(req->rq_reqmsg),
- req->rq_export->exp_conn_cnt);
- return -EEXIST;
- }
+ if (unlikely(lustre_msg_get_conn_cnt(req->rq_reqmsg) <
+ req->rq_export->exp_conn_cnt)) {
+ DEBUG_REQ(D_RPCTRACE, req,
+ "DROPPING req from old connection %d < %d",
+ lustre_msg_get_conn_cnt(req->rq_reqmsg),
+ req->rq_export->exp_conn_cnt);
+ return -EEXIST;
+ }
if (unlikely(req->rq_export->exp_obd &&
req->rq_export->exp_obd->obd_fail)) {
/* Failing over, don't handle any more reqs, send
struct ptlrpc_at_array *array = &svcpt->scp_at_array;
__s32 next;
- cfs_spin_lock(&svcpt->scp_at_lock);
if (array->paa_count == 0) {
cfs_timer_disarm(&svcpt->scp_at_timer);
- cfs_spin_unlock(&svcpt->scp_at_lock);
return;
}
CDEBUG(D_INFO, "armed %s at %+ds\n",
svcpt->scp_service->srv_name, next);
}
- cfs_spin_unlock(&svcpt->scp_at_lock);
}
/* Add rpc to early reply check list */
struct ptlrpc_at_array *array = &svcpt->scp_at_array;
struct ptlrpc_request *rq = NULL;
__u32 index;
- int found = 0;
if (AT_OFF)
return(0);
if ((lustre_msghdr_get_flags(req->rq_reqmsg) & MSGHDR_AT_SUPPORT) == 0)
return(-ENOSYS);
- cfs_spin_lock(&svcpt->scp_at_lock);
+ spin_lock(&svcpt->scp_at_lock);
LASSERT(cfs_list_empty(&req->rq_timed_list));
index = (unsigned long)req->rq_deadline % array->paa_size;
cfs_list_add(&req->rq_timed_list,
&array->paa_reqs_array[index]);
- cfs_spin_lock(&req->rq_lock);
- req->rq_at_linked = 1;
- cfs_spin_unlock(&req->rq_lock);
- req->rq_at_index = index;
- array->paa_reqs_count[index]++;
- array->paa_count++;
- if (array->paa_count == 1 || array->paa_deadline > req->rq_deadline) {
- array->paa_deadline = req->rq_deadline;
- found = 1;
- }
- cfs_spin_unlock(&svcpt->scp_at_lock);
-
- if (found)
+ spin_lock(&req->rq_lock);
+ req->rq_at_linked = 1;
+ spin_unlock(&req->rq_lock);
+ req->rq_at_index = index;
+ array->paa_reqs_count[index]++;
+ array->paa_count++;
+ if (array->paa_count == 1 || array->paa_deadline > req->rq_deadline) {
+ array->paa_deadline = req->rq_deadline;
ptlrpc_at_set_timer(svcpt);
+ }
+ spin_unlock(&svcpt->scp_at_lock);
return 0;
}
+static void
+ptlrpc_at_remove_timed(struct ptlrpc_request *req)
+{
+ struct ptlrpc_at_array *array;
+
+ array = &req->rq_rqbd->rqbd_svcpt->scp_at_array;
+
+ /* NB: must call with hold svcpt::scp_at_lock */
+ LASSERT(!cfs_list_empty(&req->rq_timed_list));
+ cfs_list_del_init(&req->rq_timed_list);
+
+ spin_lock(&req->rq_lock);
+ req->rq_at_linked = 0;
+ spin_unlock(&req->rq_lock);
+
+ array->paa_reqs_count[req->rq_at_index]--;
+ array->paa_count--;
+}
+
static int ptlrpc_at_send_early_reply(struct ptlrpc_request *req)
{
struct ptlrpc_service_part *svcpt = req->rq_rqbd->rqbd_svcpt;
int first, counter = 0;
ENTRY;
- cfs_spin_lock(&svcpt->scp_at_lock);
+ spin_lock(&svcpt->scp_at_lock);
if (svcpt->scp_at_check == 0) {
- cfs_spin_unlock(&svcpt->scp_at_lock);
+ spin_unlock(&svcpt->scp_at_lock);
RETURN(0);
}
delay = cfs_time_sub(cfs_time_current(), svcpt->scp_at_checktime);
svcpt->scp_at_check = 0;
if (array->paa_count == 0) {
- cfs_spin_unlock(&svcpt->scp_at_lock);
+ spin_unlock(&svcpt->scp_at_lock);
RETURN(0);
}
first = array->paa_deadline - now;
if (first > at_early_margin) {
/* We've still got plenty of time. Reset the timer. */
- cfs_spin_unlock(&svcpt->scp_at_lock);
ptlrpc_at_set_timer(svcpt);
- RETURN(0);
- }
+ spin_unlock(&svcpt->scp_at_lock);
+ RETURN(0);
+ }
/* We're close to a timeout, and we don't know how much longer the
server will take. Send early replies to everyone expiring soon. */
cfs_list_for_each_entry_safe(rq, n,
&array->paa_reqs_array[index],
rq_timed_list) {
- if (rq->rq_deadline <= now + at_early_margin) {
- cfs_list_del_init(&rq->rq_timed_list);
- /**
- * ptlrpc_server_drop_request() may drop
- * refcount to 0 already. Let's check this and
- * don't add entry to work_list
- */
- if (likely(cfs_atomic_inc_not_zero(&rq->rq_refcount)))
- cfs_list_add(&rq->rq_timed_list, &work_list);
- counter++;
- array->paa_reqs_count[index]--;
- array->paa_count--;
- cfs_spin_lock(&rq->rq_lock);
- rq->rq_at_linked = 0;
- cfs_spin_unlock(&rq->rq_lock);
- continue;
- }
-
- /* update the earliest deadline */
- if (deadline == -1 || rq->rq_deadline < deadline)
- deadline = rq->rq_deadline;
+ if (rq->rq_deadline > now + at_early_margin) {
+ /* update the earliest deadline */
+ if (deadline == -1 ||
+ rq->rq_deadline < deadline)
+ deadline = rq->rq_deadline;
+ break;
+ }
- break;
+ ptlrpc_at_remove_timed(rq);
+ /**
+ * ptlrpc_server_drop_request() may drop
+ * refcount to 0 already. Let's check this and
+ * don't add entry to work_list
+ */
+ if (likely(cfs_atomic_inc_not_zero(&rq->rq_refcount)))
+ cfs_list_add(&rq->rq_timed_list, &work_list);
+ counter++;
}
if (++index >= array->paa_size)
index = 0;
}
array->paa_deadline = deadline;
- cfs_spin_unlock(&svcpt->scp_at_lock);
-
/* we have a new earliest deadline, restart the timer */
ptlrpc_at_set_timer(svcpt);
+ spin_unlock(&svcpt->scp_at_lock);
+
CDEBUG(D_ADAPTTO, "timeout in %+ds, asking for %d secs on %d early "
"replies\n", first, at_extra, counter);
if (first < 0) {
* Put the request to the export list if the request may become
* a high priority one.
*/
-static int ptlrpc_hpreq_init(struct ptlrpc_service *svc,
- struct ptlrpc_request *req)
+static int ptlrpc_server_hpreq_init(struct ptlrpc_service_part *svcpt,
+ struct ptlrpc_request *req)
{
- int rc = 0;
- ENTRY;
+ int rc = 0;
+ ENTRY;
- if (svc->srv_ops.so_hpreq_handler) {
- rc = svc->srv_ops.so_hpreq_handler(req);
- if (rc)
- RETURN(rc);
- }
- if (req->rq_export && req->rq_ops) {
- /* Perform request specific check. We should do this check
- * before the request is added into exp_hp_rpcs list otherwise
- * it may hit swab race at LU-1044. */
- if (req->rq_ops->hpreq_check)
- rc = req->rq_ops->hpreq_check(req);
-
- cfs_spin_lock_bh(&req->rq_export->exp_rpc_lock);
- cfs_list_add(&req->rq_exp_list,
- &req->rq_export->exp_hp_rpcs);
- cfs_spin_unlock_bh(&req->rq_export->exp_rpc_lock);
- }
+ if (svcpt->scp_service->srv_ops.so_hpreq_handler) {
+ rc = svcpt->scp_service->srv_ops.so_hpreq_handler(req);
+ if (rc < 0)
+ RETURN(rc);
+ LASSERT(rc == 0);
+ }
+ if (req->rq_export && req->rq_ops) {
+ /* Perform request specific check. We should do this check
+ * before the request is added into exp_hp_rpcs list otherwise
+ * it may hit swab race at LU-1044. */
+ if (req->rq_ops->hpreq_check) {
+ rc = req->rq_ops->hpreq_check(req);
+ /**
+ * XXX: Out of all current
+ * ptlrpc_hpreq_ops::hpreq_check(), only
+ * ldlm_cancel_hpreq_check() can return an error code;
+ * other functions assert in similar places, which seems
+ * odd. What also does not seem right is that handlers
+ * for those RPCs do not assert on the same checks, but
+ * rather handle the error cases. e.g. see
+ * ost_rw_hpreq_check(), and ost_brw_read(),
+ * ost_brw_write().
+ */
+ if (rc < 0)
+ RETURN(rc);
+ LASSERT(rc == 0 || rc == 1);
+ }
- RETURN(rc);
+ spin_lock_bh(&req->rq_export->exp_rpc_lock);
+ cfs_list_add(&req->rq_exp_list,
+ &req->rq_export->exp_hp_rpcs);
+ spin_unlock_bh(&req->rq_export->exp_rpc_lock);
+ }
+
+ ptlrpc_nrs_req_initialize(svcpt, req, rc);
+
+ RETURN(rc);
}
/** Remove the request from the export list. */
-static void ptlrpc_hpreq_fini(struct ptlrpc_request *req)
+static void ptlrpc_server_hpreq_fini(struct ptlrpc_request *req)
{
ENTRY;
if (req->rq_export && req->rq_ops) {
if (req->rq_ops->hpreq_fini)
req->rq_ops->hpreq_fini(req);
- cfs_spin_lock_bh(&req->rq_export->exp_rpc_lock);
- cfs_list_del_init(&req->rq_exp_list);
- cfs_spin_unlock_bh(&req->rq_export->exp_rpc_lock);
- }
- EXIT;
+ spin_lock_bh(&req->rq_export->exp_rpc_lock);
+ cfs_list_del_init(&req->rq_exp_list);
+ spin_unlock_bh(&req->rq_export->exp_rpc_lock);
+ }
+ EXIT;
}
-/**
- * Make the request a high priority one.
- *
- * All the high priority requests are queued in a separate FIFO
- * ptlrpc_service_part::scp_hpreq_pending list which is parallel to
- * ptlrpc_service_part::scp_req_pending list but has a higher priority
- * for handling.
- *
- * \see ptlrpc_server_handle_request().
- */
-static void ptlrpc_hpreq_reorder_nolock(struct ptlrpc_service_part *svcpt,
- struct ptlrpc_request *req)
+static int ptlrpc_hpreq_check(struct ptlrpc_request *req)
{
- ENTRY;
-
- cfs_spin_lock(&req->rq_lock);
- if (req->rq_hp == 0) {
- int opc = lustre_msg_get_opc(req->rq_reqmsg);
-
- /* Add to the high priority queue. */
- cfs_list_move_tail(&req->rq_list, &svcpt->scp_hreq_pending);
- req->rq_hp = 1;
- if (opc != OBD_PING)
- DEBUG_REQ(D_RPCTRACE, req, "high priority req");
- }
- cfs_spin_unlock(&req->rq_lock);
- EXIT;
+ return 1;
}
-/**
- * \see ptlrpc_hpreq_reorder_nolock
- */
-void ptlrpc_hpreq_reorder(struct ptlrpc_request *req)
-{
- struct ptlrpc_service_part *svcpt = req->rq_rqbd->rqbd_svcpt;
- ENTRY;
-
- cfs_spin_lock(&svcpt->scp_req_lock);
- /* It may happen that the request is already taken for the processing
- * but still in the export list, or the request is not in the request
- * queue but in the export list already, do not add it into the
- * HP list. */
- if (!cfs_list_empty(&req->rq_list))
- ptlrpc_hpreq_reorder_nolock(svcpt, req);
- cfs_spin_unlock(&svcpt->scp_req_lock);
- EXIT;
-}
+static struct ptlrpc_hpreq_ops ptlrpc_hpreq_common = {
+ .hpreq_check = ptlrpc_hpreq_check,
+};
-/** Check if the request is a high priority one. */
-static int ptlrpc_server_hpreq_check(struct ptlrpc_service *svc,
- struct ptlrpc_request *req)
+/* Hi-Priority RPC check by RPC operation code. */
+int ptlrpc_hpreq_handler(struct ptlrpc_request *req)
{
- ENTRY;
+ int opc = lustre_msg_get_opc(req->rq_reqmsg);
- /* Check by request opc. */
- if (OBD_PING == lustre_msg_get_opc(req->rq_reqmsg))
- RETURN(1);
+ /* Check for export to let only reconnects for not yet evicted
+ * export to become a HP rpc. */
+ if ((req->rq_export != NULL) &&
+ (opc == OBD_PING || opc == MDS_CONNECT || opc == OST_CONNECT))
+ req->rq_ops = &ptlrpc_hpreq_common;
- RETURN(ptlrpc_hpreq_init(svc, req));
+ return 0;
}
+EXPORT_SYMBOL(ptlrpc_hpreq_handler);
-/** Check if a request is a high priority one. */
static int ptlrpc_server_request_add(struct ptlrpc_service_part *svcpt,
struct ptlrpc_request *req)
{
int rc;
ENTRY;
- rc = ptlrpc_server_hpreq_check(svcpt->scp_service, req);
+ rc = ptlrpc_server_hpreq_init(svcpt, req);
if (rc < 0)
RETURN(rc);
- cfs_spin_lock(&svcpt->scp_req_lock);
-
- if (rc)
- ptlrpc_hpreq_reorder_nolock(svcpt, req);
- else
- cfs_list_add_tail(&req->rq_list, &svcpt->scp_req_pending);
-
- cfs_spin_unlock(&svcpt->scp_req_lock);
+ ptlrpc_nrs_req_add(svcpt, req, !!rc);
RETURN(0);
}
* User can call it w/o any lock but need to hold
* ptlrpc_service_part::scp_req_lock to get reliable result
*/
-static int ptlrpc_server_allow_high(struct ptlrpc_service_part *svcpt,
- int force)
+static bool ptlrpc_server_allow_high(struct ptlrpc_service_part *svcpt,
+ bool force)
{
+ int running = svcpt->scp_nthrs_running;
+
+ if (!nrs_svcpt_has_hp(svcpt))
+ return false;
+
if (force)
- return 1;
+ return true;
+
+ if (unlikely(svcpt->scp_service->srv_req_portal == MDS_REQUEST_PORTAL &&
+ CFS_FAIL_PRECHECK(OBD_FAIL_PTLRPC_CANCEL_RESEND))) {
+ /* leave just 1 thread for normal RPCs */
+ running = PTLRPC_NTHRS_INIT;
+ if (svcpt->scp_service->srv_ops.so_hpreq_handler != NULL)
+ running += 1;
+ }
- if (svcpt->scp_nreqs_active >= svcpt->scp_nthrs_running - 1)
- return 0;
+ if (svcpt->scp_nreqs_active >= running - 1)
+ return false;
+
+ if (svcpt->scp_nhreqs_active == 0)
+ return true;
- return cfs_list_empty(&svcpt->scp_req_pending) ||
+ return !ptlrpc_nrs_req_pending_nolock(svcpt, false) ||
svcpt->scp_hreq_count < svcpt->scp_service->srv_hpreq_ratio;
}
-static int ptlrpc_server_high_pending(struct ptlrpc_service_part *svcpt,
- int force)
+static bool ptlrpc_server_high_pending(struct ptlrpc_service_part *svcpt,
+ bool force)
{
return ptlrpc_server_allow_high(svcpt, force) &&
- !cfs_list_empty(&svcpt->scp_hreq_pending);
+ ptlrpc_nrs_req_pending_nolock(svcpt, true);
}
/**
* User can call it w/o any lock but need to hold
* ptlrpc_service_part::scp_req_lock to get reliable result
*/
-static int ptlrpc_server_allow_normal(struct ptlrpc_service_part *svcpt,
- int force)
+static bool ptlrpc_server_allow_normal(struct ptlrpc_service_part *svcpt,
+ bool force)
{
+ int running = svcpt->scp_nthrs_running;
#ifndef __KERNEL__
if (1) /* always allow to handle normal request for liblustre */
- return 1;
+ return true;
#endif
+ if (unlikely(svcpt->scp_service->srv_req_portal == MDS_REQUEST_PORTAL &&
+ CFS_FAIL_PRECHECK(OBD_FAIL_PTLRPC_CANCEL_RESEND))) {
+ /* leave just 1 thread for normal RPCs */
+ running = PTLRPC_NTHRS_INIT;
+ if (svcpt->scp_service->srv_ops.so_hpreq_handler != NULL)
+ running += 1;
+ }
+
if (force ||
- svcpt->scp_nreqs_active < svcpt->scp_nthrs_running - 2)
- return 1;
+ svcpt->scp_nreqs_active < running - 2)
+ return true;
- if (svcpt->scp_nreqs_active >= svcpt->scp_nthrs_running - 1)
- return 0;
+ if (svcpt->scp_nreqs_active >= running - 1)
+ return false;
- return svcpt->scp_nhreqs_active > 0 ||
- svcpt->scp_service->srv_ops.so_hpreq_handler == NULL;
+ return svcpt->scp_nhreqs_active > 0 || !nrs_svcpt_has_hp(svcpt);
}
-static int ptlrpc_server_normal_pending(struct ptlrpc_service_part *svcpt,
- int force)
+static bool ptlrpc_server_normal_pending(struct ptlrpc_service_part *svcpt,
+ bool force)
{
return ptlrpc_server_allow_normal(svcpt, force) &&
- !cfs_list_empty(&svcpt->scp_req_pending);
+ ptlrpc_nrs_req_pending_nolock(svcpt, false);
}
/**
* \see ptlrpc_server_allow_normal
* \see ptlrpc_server_allow high
*/
-static inline int
-ptlrpc_server_request_pending(struct ptlrpc_service_part *svcpt, int force)
+static inline bool
+ptlrpc_server_request_pending(struct ptlrpc_service_part *svcpt, bool force)
{
return ptlrpc_server_high_pending(svcpt, force) ||
ptlrpc_server_normal_pending(svcpt, force);
* Returns a pointer to fetched request.
*/
static struct ptlrpc_request *
-ptlrpc_server_request_get(struct ptlrpc_service_part *svcpt, int force)
+ptlrpc_server_request_get(struct ptlrpc_service_part *svcpt, bool force)
{
struct ptlrpc_request *req;
ENTRY;
if (ptlrpc_server_high_pending(svcpt, force)) {
- req = cfs_list_entry(svcpt->scp_hreq_pending.next,
- struct ptlrpc_request, rq_list);
- svcpt->scp_hreq_count++;
- RETURN(req);
+ req = ptlrpc_nrs_req_get_nolock(svcpt, true, force);
+ if (req != NULL) {
+ svcpt->scp_hreq_count++;
+ RETURN(req);
+ }
}
if (ptlrpc_server_normal_pending(svcpt, force)) {
- req = cfs_list_entry(svcpt->scp_req_pending.next,
- struct ptlrpc_request, rq_list);
- svcpt->scp_hreq_count = 0;
- RETURN(req);
+ req = ptlrpc_nrs_req_get_nolock(svcpt, false, force);
+ if (req != NULL) {
+ svcpt->scp_hreq_count = 0;
+ RETURN(req);
+ }
}
RETURN(NULL);
}
int rc;
ENTRY;
- cfs_spin_lock(&svcpt->scp_lock);
+ spin_lock(&svcpt->scp_lock);
if (cfs_list_empty(&svcpt->scp_req_incoming)) {
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
RETURN(0);
}
svcpt->scp_nreqs_incoming--;
/* Consider this still a "queued" request as far as stats are
* concerned */
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
/* go through security check/transform */
rc = sptlrpc_svc_unwrap_request(req);
req->rq_export = class_conn2export(
lustre_msg_get_handle(req->rq_reqmsg));
if (req->rq_export) {
+ class_export_rpc_get(req->rq_export);
rc = ptlrpc_check_req(req);
if (rc == 0) {
rc = sptlrpc_target_export_check(req->rq_export, req);
/* Move it over to the request processing queue */
rc = ptlrpc_server_request_add(svcpt, req);
if (rc) {
- ptlrpc_hpreq_fini(req);
+ ptlrpc_server_hpreq_fini(req);
GOTO(err_req, rc);
}
cfs_waitq_signal(&svcpt->scp_waitq);
RETURN(1);
err_req:
- cfs_spin_lock(&svcpt->scp_req_lock);
+ if (req->rq_export)
+ class_export_rpc_put(req->rq_export);
+ spin_lock(&svcpt->scp_req_lock);
svcpt->scp_nreqs_active++;
- cfs_spin_unlock(&svcpt->scp_req_lock);
+ spin_unlock(&svcpt->scp_req_lock);
ptlrpc_server_finish_request(svcpt, req);
RETURN(1);
int fail_opc = 0;
ENTRY;
- cfs_spin_lock(&svcpt->scp_req_lock);
+ spin_lock(&svcpt->scp_req_lock);
#ifndef __KERNEL__
/* !@%$# liblustre only has 1 thread */
if (cfs_atomic_read(&svcpt->scp_nreps_difficult) != 0) {
- cfs_spin_unlock(&svcpt->scp_req_lock);
+ spin_unlock(&svcpt->scp_req_lock);
RETURN(0);
}
#endif
- request = ptlrpc_server_request_get(svcpt, 0);
- if (request == NULL) {
- cfs_spin_unlock(&svcpt->scp_req_lock);
+ request = ptlrpc_server_request_get(svcpt, false);
+ if (request == NULL) {
+ spin_unlock(&svcpt->scp_req_lock);
RETURN(0);
}
if (unlikely(fail_opc)) {
if (request->rq_export && request->rq_ops) {
- cfs_spin_unlock(&svcpt->scp_req_lock);
+ spin_unlock(&svcpt->scp_req_lock);
OBD_FAIL_TIMEOUT(fail_opc, 4);
- cfs_spin_lock(&svcpt->scp_req_lock);
- request = ptlrpc_server_request_get(svcpt, 0);
- if (request == NULL) {
- cfs_spin_unlock(&svcpt->scp_req_lock);
- RETURN(0);
- }
+ spin_lock(&svcpt->scp_req_lock);
}
}
-
- cfs_list_del_init(&request->rq_list);
svcpt->scp_nreqs_active++;
if (request->rq_hp)
svcpt->scp_nhreqs_active++;
- cfs_spin_unlock(&svcpt->scp_req_lock);
+ spin_unlock(&svcpt->scp_req_lock);
ptlrpc_rqphase_move(request, RQ_PHASE_INTERPRET);
at_get(&svcpt->scp_at_estimate));
}
- rc = lu_context_init(&request->rq_session,
- LCT_SESSION|LCT_REMEMBER|LCT_NOREF);
+ export = request->rq_export;
+ rc = lu_context_init(&request->rq_session, LCT_SESSION | LCT_NOREF);
if (rc) {
CERROR("Failure to initialize session: %d\n", rc);
goto out_req;
request->rq_svc_thread->t_env->le_ses = &request->rq_session;
if (likely(request->rq_export)) {
- if (unlikely(ptlrpc_check_req(request)))
- goto put_conn;
+ if (unlikely(ptlrpc_check_req(request)))
+ goto put_conn;
ptlrpc_update_export_timer(request->rq_export, timediff >> 19);
- export = class_export_rpc_get(request->rq_export);
}
/* Discard requests queued for longer than the deadline.
request->rq_arrival_time.tv_sec),
cfs_time_sub(cfs_time_current_sec(),
request->rq_deadline));
- goto put_rpc_export;
+ goto put_conn;
}
CDEBUG(D_RPCTRACE, "Handling RPC pname:cluuid+ref:pid:xid:nid:opc "
ptlrpc_rqphase_move(request, RQ_PHASE_COMPLETE);
-put_rpc_export:
- if (export != NULL)
- class_export_rpc_put(export);
put_conn:
lu_context_exit(&request->rq_session);
lu_context_fini(&request->rq_session);
- if (unlikely(cfs_time_current_sec() > request->rq_deadline)) {
- DEBUG_REQ(D_WARNING, request, "Request x"LPU64" took longer "
- "than estimated ("CFS_DURATION_T":"CFS_DURATION_T"s);"
- " client may timeout.",
- request->rq_xid, cfs_time_sub(request->rq_deadline,
- request->rq_arrival_time.tv_sec),
- cfs_time_sub(cfs_time_current_sec(),
- request->rq_deadline));
- }
+ if (unlikely(cfs_time_current_sec() > request->rq_deadline)) {
+ DEBUG_REQ(D_WARNING, request, "Request took longer "
+ "than estimated ("CFS_DURATION_T":"CFS_DURATION_T"s);"
+ " client may timeout.",
+ cfs_time_sub(request->rq_deadline,
+ request->rq_arrival_time.tv_sec),
+ cfs_time_sub(cfs_time_current_sec(),
+ request->rq_deadline));
+ }
cfs_gettimeofday(&work_end);
timediff = cfs_timeval_sub(&work_end, &work_start, NULL);
- CDEBUG(D_RPCTRACE, "Handled RPC pname:cluuid+ref:pid:xid:nid:opc "
+ CDEBUG(D_RPCTRACE, "Handled RPC pname:cluuid+ref:pid:xid:nid:opc "
"%s:%s+%d:%d:x"LPU64":%s:%d Request procesed in "
"%ldus (%ldus total) trans "LPU64" rc %d/%d\n",
cfs_curproc_comm(),
}
out_req:
+ if (export != NULL)
+ class_export_rpc_put(export);
ptlrpc_server_finish_request(svcpt, request);
RETURN(1);
LASSERT (rs->rs_scheduled);
LASSERT (cfs_list_empty(&rs->rs_list));
- cfs_spin_lock (&exp->exp_lock);
- /* Noop if removed already */
- cfs_list_del_init (&rs->rs_exp_list);
- cfs_spin_unlock (&exp->exp_lock);
+ spin_lock(&exp->exp_lock);
+ /* Noop if removed already */
+ cfs_list_del_init (&rs->rs_exp_list);
+ spin_unlock(&exp->exp_lock);
/* The disk commit callback holds exp_uncommitted_replies_lock while it
* iterates over newly committed replies, removing them from
* holding rs_lock, we can be sure it has all completed once we hold
* rs_lock, which we do right next.
*/
- if (!rs->rs_committed) {
- cfs_spin_lock(&exp->exp_uncommitted_replies_lock);
- cfs_list_del_init(&rs->rs_obd_list);
- cfs_spin_unlock(&exp->exp_uncommitted_replies_lock);
- }
+ if (!rs->rs_committed) {
+ spin_lock(&exp->exp_uncommitted_replies_lock);
+ cfs_list_del_init(&rs->rs_obd_list);
+ spin_unlock(&exp->exp_uncommitted_replies_lock);
+ }
- cfs_spin_lock(&rs->rs_lock);
+ spin_lock(&rs->rs_lock);
been_handled = rs->rs_handled;
rs->rs_handled = 1;
if (nlocks == 0 && !been_handled) {
/* If we see this, we should already have seen the warning
* in mds_steal_ack_locks() */
- CWARN("All locks stolen from rs %p x"LPD64".t"LPD64
- " o%d NID %s\n",
- rs,
- rs->rs_xid, rs->rs_transno, rs->rs_opc,
- libcfs_nid2str(exp->exp_connection->c_peer.nid));
+ CDEBUG(D_HA, "All locks stolen from rs %p x"LPD64".t"LPD64
+ " o%d NID %s\n",
+ rs,
+ rs->rs_xid, rs->rs_transno, rs->rs_opc,
+ libcfs_nid2str(exp->exp_connection->c_peer.nid));
}
if ((!been_handled && rs->rs_on_net) || nlocks > 0) {
- cfs_spin_unlock(&rs->rs_lock);
+ spin_unlock(&rs->rs_lock);
- if (!been_handled && rs->rs_on_net) {
- LNetMDUnlink(rs->rs_md_h);
- /* Ignore return code; we're racing with
- * completion... */
- }
+ if (!been_handled && rs->rs_on_net) {
+ LNetMDUnlink(rs->rs_md_h);
+ /* Ignore return code; we're racing with completion */
+ }
- while (nlocks-- > 0)
- ldlm_lock_decref(&rs->rs_locks[nlocks],
- rs->rs_modes[nlocks]);
+ while (nlocks-- > 0)
+ ldlm_lock_decref(&rs->rs_locks[nlocks],
+ rs->rs_modes[nlocks]);
- cfs_spin_lock(&rs->rs_lock);
- }
+ spin_lock(&rs->rs_lock);
+ }
- rs->rs_scheduled = 0;
+ rs->rs_scheduled = 0;
- if (!rs->rs_on_net) {
- /* Off the net */
- cfs_spin_unlock(&rs->rs_lock);
+ if (!rs->rs_on_net) {
+ /* Off the net */
+ spin_unlock(&rs->rs_lock);
class_export_put (exp);
rs->rs_export = NULL;
}
/* still on the net; callback will schedule */
- cfs_spin_unlock(&rs->rs_lock);
+ spin_unlock(&rs->rs_lock);
RETURN(1);
}
struct ptlrpc_reply_state *rs = NULL;
ENTRY;
- cfs_spin_lock(&svcpt->scp_rep_lock);
+ spin_lock(&svcpt->scp_rep_lock);
if (!cfs_list_empty(&svcpt->scp_rep_queue)) {
rs = cfs_list_entry(svcpt->scp_rep_queue.prev,
struct ptlrpc_reply_state,
rs_list);
cfs_list_del_init(&rs->rs_list);
}
- cfs_spin_unlock(&svcpt->scp_rep_lock);
+ spin_unlock(&svcpt->scp_rep_lock);
if (rs != NULL)
ptlrpc_handle_rs(rs);
RETURN(rs != NULL);
cfs_list_entry (tmp, struct ptlrpc_service, srv_list);
struct ptlrpc_service_part *svcpt;
- svcpt = svc->srv_part;
+ LASSERT(svc->srv_ncpts == 1);
+ svcpt = svc->srv_parts[0];
if (svcpt->scp_nthrs_running != 0) /* I've recursed */
continue;
* space. */
if (avail <= low_water)
- ptlrpc_grow_req_bufs(svcpt);
+ ptlrpc_grow_req_bufs(svcpt, 1);
if (svcpt->scp_service->srv_stats) {
lprocfs_counter_add(svcpt->scp_service->srv_stats,
ptlrpc_threads_increasable(struct ptlrpc_service_part *svcpt)
{
return svcpt->scp_nthrs_running +
- svcpt->scp_nthrs_starting < svcpt->scp_service->srv_threads_max;
+ svcpt->scp_nthrs_starting <
+ svcpt->scp_service->srv_nthrs_cpt_limit;
}
/**
l_wait_event_exclusive_head(svcpt->scp_waitq,
ptlrpc_thread_stopping(thread) ||
ptlrpc_server_request_incoming(svcpt) ||
- ptlrpc_server_request_pending(svcpt, 0) ||
+ ptlrpc_server_request_pending(svcpt, false) ||
ptlrpc_rqbd_pending(svcpt) ||
ptlrpc_at_check(svcpt), &lwi);
thread->t_pid = cfs_curproc_pid();
cfs_daemonize_ctxt(thread->t_name);
-#if defined(HAVE_NODE_TO_CPUMASK) && defined(CONFIG_NUMA)
- /* we need to do this before any per-thread allocation is done so that
- * we get the per-thread allocations on local node. bug 7342 */
- if (svc->srv_cpu_affinity) {
- int cpu, num_cpu;
-
- for (cpu = 0, num_cpu = 0; cpu < cfs_num_possible_cpus();
- cpu++) {
- if (!cpu_online(cpu))
- continue;
- if (num_cpu == thread->t_id % cfs_num_online_cpus())
- break;
- num_cpu++;
- }
- cfs_set_cpus_allowed(cfs_current(),
- node_to_cpumask(cpu_to_node(cpu)));
- }
-#endif
+ /* NB: we will call cfs_cpt_bind() for all threads, because we
+ * might want to run lustre server only on a subset of system CPUs,
+ * in that case ->scp_cpt is CFS_CPT_ANY */
+ rc = cfs_cpt_bind(svc->srv_cptable, svcpt->scp_cpt);
+ if (rc != 0) {
+ CWARN("%s: failed to bind %s on CPT %d\n",
+ svc->srv_name, thread->t_name, svcpt->scp_cpt);
+ }
#ifdef WITH_GROUP_INFO
ginfo = cfs_groups_alloc(0);
env->le_ctx.lc_thread = thread;
env->le_ctx.lc_cookie = 0x6;
+ while (!cfs_list_empty(&svcpt->scp_rqbd_idle)) {
+ rc = ptlrpc_server_post_idle_rqbds(svcpt);
+ if (rc >= 0)
+ continue;
+
+ CERROR("Failed to post rqbd for %s on CPT %d: %d\n",
+ svc->srv_name, svcpt->scp_cpt, rc);
+ goto out_srv_fini;
+ }
+
/* Alloc reply state structure for this one */
OBD_ALLOC_LARGE(rs, svc->srv_max_reply_size);
if (!rs) {
goto out_srv_fini;
}
- cfs_spin_lock(&svcpt->scp_lock);
+ spin_lock(&svcpt->scp_lock);
LASSERT(thread_is_starting(thread));
thread_clear_flags(thread, SVC_STARTING);
* we are now running, however we will exit as soon as possible */
thread_add_flags(thread, SVC_RUNNING);
svcpt->scp_nthrs_running++;
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
/* wake up our creator in case he's still waiting. */
cfs_waitq_signal(&thread->t_ctl_waitq);
thread->t_watchdog = lc_watchdog_add(ptlrpc_server_get_timeout(svcpt),
NULL, NULL);
- cfs_spin_lock(&svcpt->scp_rep_lock);
+ spin_lock(&svcpt->scp_rep_lock);
cfs_list_add(&rs->rs_list, &svcpt->scp_rep_idle);
cfs_waitq_signal(&svcpt->scp_rep_waitq);
- cfs_spin_unlock(&svcpt->scp_rep_lock);
+ spin_unlock(&svcpt->scp_rep_lock);
CDEBUG(D_NET, "service thread %d (#%d) started\n", thread->t_id,
svcpt->scp_nthrs_running);
if (ptlrpc_at_check(svcpt))
ptlrpc_at_check_timed(svcpt);
- if (ptlrpc_server_request_pending(svcpt, 0)) {
+ if (ptlrpc_server_request_pending(svcpt, false)) {
lu_context_enter(&env->le_ctx);
ptlrpc_server_handle_request(svcpt, thread);
lu_context_exit(&env->le_ctx);
CDEBUG(D_RPCTRACE, "service thread [ %p : %u ] %d exiting: rc %d\n",
thread, thread->t_pid, thread->t_id, rc);
- cfs_spin_lock(&svcpt->scp_lock);
+ spin_lock(&svcpt->scp_lock);
if (thread_test_and_clear_flags(thread, SVC_STARTING))
svcpt->scp_nthrs_starting--;
thread_add_flags(thread, SVC_STOPPED);
cfs_waitq_signal(&thread->t_ctl_waitq);
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
return rc;
}
-struct ptlrpc_hr_args {
- int thread_index;
- int cpu_index;
- struct ptlrpc_hr_service *hrs;
-};
-
-static int hrt_dont_sleep(struct ptlrpc_hr_thread *t,
- cfs_list_t *replies)
+static int hrt_dont_sleep(struct ptlrpc_hr_thread *hrt,
+ cfs_list_t *replies)
{
- int result;
+ int result;
+
+ spin_lock(&hrt->hrt_lock);
- cfs_spin_lock(&t->hrt_lock);
- cfs_list_splice_init(&t->hrt_queue, replies);
- result = cfs_test_bit(HRT_STOPPING, &t->hrt_flags) ||
- !cfs_list_empty(replies);
- cfs_spin_unlock(&t->hrt_lock);
- return result;
+ cfs_list_splice_init(&hrt->hrt_queue, replies);
+ result = ptlrpc_hr.hr_stopping || !cfs_list_empty(replies);
+
+ spin_unlock(&hrt->hrt_lock);
+ return result;
}
/**
*/
static int ptlrpc_hr_main(void *arg)
{
- struct ptlrpc_hr_args * hr_args = arg;
- struct ptlrpc_hr_service *hr = hr_args->hrs;
- struct ptlrpc_hr_thread *t = &hr->hr_threads[hr_args->thread_index];
- char threadname[20];
- CFS_LIST_HEAD(replies);
+ struct ptlrpc_hr_thread *hrt = (struct ptlrpc_hr_thread *)arg;
+ struct ptlrpc_hr_partition *hrp = hrt->hrt_partition;
+ CFS_LIST_HEAD (replies);
+ char threadname[20];
+ int rc;
- snprintf(threadname, sizeof(threadname),
- "ptlrpc_hr_%d", hr_args->thread_index);
+ snprintf(threadname, sizeof(threadname), "ptlrpc_hr%02d_%03d",
+ hrp->hrp_cpt, hrt->hrt_id);
+ cfs_daemonize_ctxt(threadname);
- cfs_daemonize_ctxt(threadname);
-#if defined(CONFIG_NUMA) && defined(HAVE_NODE_TO_CPUMASK)
- cfs_set_cpus_allowed(cfs_current(),
- node_to_cpumask(cpu_to_node(hr_args->cpu_index)));
-#endif
- cfs_set_bit(HRT_RUNNING, &t->hrt_flags);
- cfs_waitq_signal(&t->hrt_wait);
+ rc = cfs_cpt_bind(ptlrpc_hr.hr_cpt_table, hrp->hrp_cpt);
+ if (rc != 0) {
+ CWARN("Failed to bind %s on CPT %d of CPT table %p: rc = %d\n",
+ threadname, hrp->hrp_cpt, ptlrpc_hr.hr_cpt_table, rc);
+ }
- while (!cfs_test_bit(HRT_STOPPING, &t->hrt_flags)) {
+ cfs_atomic_inc(&hrp->hrp_nstarted);
+ cfs_waitq_signal(&ptlrpc_hr.hr_waitq);
+
+ while (!ptlrpc_hr.hr_stopping) {
+ l_wait_condition(hrt->hrt_waitq, hrt_dont_sleep(hrt, &replies));
- l_wait_condition(t->hrt_wait, hrt_dont_sleep(t, &replies));
while (!cfs_list_empty(&replies)) {
struct ptlrpc_reply_state *rs;
}
}
- cfs_clear_bit(HRT_RUNNING, &t->hrt_flags);
- cfs_complete(&t->hrt_completion);
+ cfs_atomic_inc(&hrp->hrp_nstopped);
+ cfs_waitq_signal(&ptlrpc_hr.hr_waitq);
- return 0;
+ return 0;
}
-static int ptlrpc_start_hr_thread(struct ptlrpc_hr_service *hr, int n, int cpu)
+static void ptlrpc_stop_hr_threads(void)
{
- struct ptlrpc_hr_thread *t = &hr->hr_threads[n];
- struct ptlrpc_hr_args args;
- int rc;
- ENTRY;
+ struct ptlrpc_hr_partition *hrp;
+ int i;
+ int j;
- args.thread_index = n;
- args.cpu_index = cpu;
- args.hrs = hr;
+ ptlrpc_hr.hr_stopping = 1;
- rc = cfs_create_thread(ptlrpc_hr_main, (void*)&args, CFS_DAEMON_FLAGS);
- if (rc < 0) {
- cfs_complete(&t->hrt_completion);
- GOTO(out, rc);
- }
- l_wait_condition(t->hrt_wait, cfs_test_bit(HRT_RUNNING, &t->hrt_flags));
- RETURN(0);
- out:
- return rc;
-}
-
-static void ptlrpc_stop_hr_thread(struct ptlrpc_hr_thread *t)
-{
- ENTRY;
-
- cfs_set_bit(HRT_STOPPING, &t->hrt_flags);
- cfs_waitq_signal(&t->hrt_wait);
- cfs_wait_for_completion(&t->hrt_completion);
+ cfs_percpt_for_each(hrp, i, ptlrpc_hr.hr_partitions) {
+ if (hrp->hrp_thrs == NULL)
+ continue; /* uninitialized */
+ for (j = 0; j < hrp->hrp_nthrs; j++)
+ cfs_waitq_broadcast(&hrp->hrp_thrs[j].hrt_waitq);
+ }
- EXIT;
+ cfs_percpt_for_each(hrp, i, ptlrpc_hr.hr_partitions) {
+ if (hrp->hrp_thrs == NULL)
+ continue; /* uninitialized */
+ cfs_wait_event(ptlrpc_hr.hr_waitq,
+ cfs_atomic_read(&hrp->hrp_nstopped) ==
+ cfs_atomic_read(&hrp->hrp_nstarted));
+ }
}
-static void ptlrpc_stop_hr_threads(struct ptlrpc_hr_service *hrs)
+static int ptlrpc_start_hr_threads(void)
{
- int n;
- ENTRY;
-
- for (n = 0; n < hrs->hr_n_threads; n++)
- ptlrpc_stop_hr_thread(&hrs->hr_threads[n]);
-
- EXIT;
-}
+ struct ptlrpc_hr_partition *hrp;
+ int i;
+ int j;
+ ENTRY;
-static int ptlrpc_start_hr_threads(struct ptlrpc_hr_service *hr)
-{
- int rc = -ENOMEM;
- int n, cpu, threads_started = 0;
- ENTRY;
+ cfs_percpt_for_each(hrp, i, ptlrpc_hr.hr_partitions) {
+ int rc = 0;
- LASSERT(hr != NULL);
- LASSERT(hr->hr_n_threads > 0);
+ for (j = 0; j < hrp->hrp_nthrs; j++) {
+ rc = cfs_create_thread(ptlrpc_hr_main,
+ &hrp->hrp_thrs[j],
+ CLONE_VM | CLONE_FILES);
+ if (rc < 0)
+ break;
+ }
+ cfs_wait_event(ptlrpc_hr.hr_waitq,
+ cfs_atomic_read(&hrp->hrp_nstarted) == j);
+ if (rc >= 0)
+ continue;
- for (n = 0, cpu = 0; n < hr->hr_n_threads; n++) {
-#if defined(CONFIG_SMP) && defined(HAVE_NODE_TO_CPUMASK)
- while (!cpu_online(cpu)) {
- cpu++;
- if (cpu >= cfs_num_possible_cpus())
- cpu = 0;
- }
-#endif
- rc = ptlrpc_start_hr_thread(hr, n, cpu);
- if (rc != 0)
- break;
- threads_started++;
- cpu++;
- }
- if (threads_started == 0) {
- CERROR("No reply handling threads started\n");
- RETURN(-ESRCH);
- }
- if (threads_started < hr->hr_n_threads) {
- CWARN("Started only %d reply handling threads from %d\n",
- threads_started, hr->hr_n_threads);
- hr->hr_n_threads = threads_started;
- }
- RETURN(0);
+ CERROR("Reply handling thread %d:%d Failed on starting: "
+ "rc = %d\n", i, j, rc);
+ ptlrpc_stop_hr_threads();
+ RETURN(rc);
+ }
+ RETURN(0);
}
static void ptlrpc_svcpt_stop_threads(struct ptlrpc_service_part *svcpt)
CDEBUG(D_INFO, "Stopping threads for service %s\n",
svcpt->scp_service->srv_name);
- cfs_spin_lock(&svcpt->scp_lock);
+ spin_lock(&svcpt->scp_lock);
/* let the thread know that we would like it to stop asap */
list_for_each_entry(thread, &svcpt->scp_threads, t_link) {
CDEBUG(D_INFO, "Stopping thread %s #%u\n",
cfs_list_add(&thread->t_link, &zombie);
continue;
}
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
CDEBUG(D_INFO, "waiting for stopping-thread %s #%u\n",
svcpt->scp_service->srv_thread_name, thread->t_id);
l_wait_event(thread->t_ctl_waitq,
thread_is_stopped(thread), &lwi);
- cfs_spin_lock(&svcpt->scp_lock);
+ spin_lock(&svcpt->scp_lock);
}
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
while (!cfs_list_empty(&zombie)) {
thread = cfs_list_entry(zombie.next,
*/
void ptlrpc_stop_all_threads(struct ptlrpc_service *svc)
{
+ struct ptlrpc_service_part *svcpt;
+ int i;
ENTRY;
- if (svc != NULL && svc->srv_part != NULL)
- ptlrpc_svcpt_stop_threads(svc->srv_part);
+ ptlrpc_service_for_each_part(svcpt, i, svc) {
+ if (svcpt->scp_service != NULL)
+ ptlrpc_svcpt_stop_threads(svcpt);
+ }
+
EXIT;
}
+EXPORT_SYMBOL(ptlrpc_stop_all_threads);
int ptlrpc_start_threads(struct ptlrpc_service *svc)
{
- int i, rc = 0;
- ENTRY;
+ int rc = 0;
+ int i;
+ int j;
+ ENTRY;
- /* We require 2 threads min - see note in
- ptlrpc_server_handle_request */
- LASSERT(svc->srv_threads_min >= 2);
- for (i = 0; i < svc->srv_threads_min; i++) {
- rc = ptlrpc_start_thread(svc->srv_part, 1);
- /* We have enough threads, don't start more. b=15759 */
- if (rc == -EMFILE) {
- rc = 0;
- break;
- }
- if (rc) {
- CERROR("cannot start %s thread #%d: rc %d\n",
- svc->srv_thread_name, i, rc);
- ptlrpc_stop_all_threads(svc);
- break;
- }
- }
- RETURN(rc);
+ /* We require 2 threads min, see note in ptlrpc_server_handle_request */
+ LASSERT(svc->srv_nthrs_cpt_init >= PTLRPC_NTHRS_INIT);
+
+ for (i = 0; i < svc->srv_ncpts; i++) {
+ for (j = 0; j < svc->srv_nthrs_cpt_init; j++) {
+ rc = ptlrpc_start_thread(svc->srv_parts[i], 1);
+ if (rc == 0)
+ continue;
+
+ if (rc != -EMFILE)
+ goto failed;
+ /* We have enough threads, don't start more. b=15759 */
+ break;
+ }
+ }
+
+ RETURN(0);
+ failed:
+ CERROR("cannot start %s thread #%d_%d: rc %d\n",
+ svc->srv_thread_name, i, j, rc);
+ ptlrpc_stop_all_threads(svc);
+ RETURN(rc);
}
+EXPORT_SYMBOL(ptlrpc_start_threads);
int ptlrpc_start_thread(struct ptlrpc_service_part *svcpt, int wait)
{
struct l_wait_info lwi = { 0 };
struct ptlrpc_thread *thread;
- struct ptlrpc_service *svc = svcpt->scp_service;
+ struct ptlrpc_service *svc;
int rc;
ENTRY;
LASSERT(svcpt != NULL);
- CDEBUG(D_RPCTRACE, "%s started %d min %d max %d\n",
- svc->srv_name, svcpt->scp_nthrs_running,
- svc->srv_threads_min, svc->srv_threads_max);
+ svc = svcpt->scp_service;
+
+ CDEBUG(D_RPCTRACE, "%s[%d] started %d min %d max %d\n",
+ svc->srv_name, svcpt->scp_cpt, svcpt->scp_nthrs_running,
+ svc->srv_nthrs_cpt_init, svc->srv_nthrs_cpt_limit);
again:
if (unlikely(svc->srv_is_stopping))
if (!ptlrpc_threads_increasable(svcpt) ||
(OBD_FAIL_CHECK(OBD_FAIL_TGT_TOOMANY_THREADS) &&
- svcpt->scp_nthrs_running == svc->srv_threads_min - 1))
+ svcpt->scp_nthrs_running == svc->srv_nthrs_cpt_init - 1))
RETURN(-EMFILE);
- OBD_ALLOC_PTR(thread);
+ OBD_CPT_ALLOC_PTR(thread, svc->srv_cptable, svcpt->scp_cpt);
if (thread == NULL)
RETURN(-ENOMEM);
cfs_waitq_init(&thread->t_ctl_waitq);
- cfs_spin_lock(&svcpt->scp_lock);
+ spin_lock(&svcpt->scp_lock);
if (!ptlrpc_threads_increasable(svcpt)) {
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
OBD_FREE_PTR(thread);
RETURN(-EMFILE);
}
/* serialize starting because some modules (obdfilter)
* might require unique and contiguous t_id */
LASSERT(svcpt->scp_nthrs_starting == 1);
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
OBD_FREE_PTR(thread);
if (wait) {
CDEBUG(D_INFO, "Waiting for creating thread %s #%d\n",
thread->t_svcpt = svcpt;
cfs_list_add(&thread->t_link, &svcpt->scp_threads);
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
- snprintf(thread->t_name, PTLRPC_THR_NAME_LEN,
- "%s_%02d", svc->srv_thread_name, thread->t_id);
+ if (svcpt->scp_cpt >= 0) {
+ snprintf(thread->t_name, PTLRPC_THR_NAME_LEN, "%s%02d_%03d",
+ svc->srv_thread_name, svcpt->scp_cpt, thread->t_id);
+ } else {
+ snprintf(thread->t_name, PTLRPC_THR_NAME_LEN, "%s_%04d",
+ svc->srv_thread_name, thread->t_id);
+ }
CDEBUG(D_RPCTRACE, "starting thread '%s'\n", thread->t_name);
/*
if (rc < 0) {
CERROR("cannot start thread '%s': rc %d\n",
thread->t_name, rc);
- cfs_spin_lock(&svcpt->scp_lock);
+ spin_lock(&svcpt->scp_lock);
cfs_list_del(&thread->t_link);
--svcpt->scp_nthrs_starting;
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
OBD_FREE(thread, sizeof(*thread));
RETURN(rc);
int ptlrpc_hr_init(void)
{
- int i;
- int n_cpus = cfs_num_online_cpus();
- struct ptlrpc_hr_service *hr;
- int size;
- int rc;
- ENTRY;
+ struct ptlrpc_hr_partition *hrp;
+ struct ptlrpc_hr_thread *hrt;
+ int rc;
+ int i;
+ int j;
+ ENTRY;
- LASSERT(ptlrpc_hr == NULL);
+ memset(&ptlrpc_hr, 0, sizeof(ptlrpc_hr));
+ ptlrpc_hr.hr_cpt_table = cfs_cpt_table;
- size = offsetof(struct ptlrpc_hr_service, hr_threads[n_cpus]);
- OBD_ALLOC(hr, size);
- if (hr == NULL)
- RETURN(-ENOMEM);
- for (i = 0; i < n_cpus; i++) {
- struct ptlrpc_hr_thread *t = &hr->hr_threads[i];
+ ptlrpc_hr.hr_partitions = cfs_percpt_alloc(ptlrpc_hr.hr_cpt_table,
+ sizeof(*hrp));
+ if (ptlrpc_hr.hr_partitions == NULL)
+ RETURN(-ENOMEM);
- cfs_spin_lock_init(&t->hrt_lock);
- cfs_waitq_init(&t->hrt_wait);
- CFS_INIT_LIST_HEAD(&t->hrt_queue);
- cfs_init_completion(&t->hrt_completion);
- }
- hr->hr_n_threads = n_cpus;
- hr->hr_size = size;
- ptlrpc_hr = hr;
+ cfs_waitq_init(&ptlrpc_hr.hr_waitq);
- rc = ptlrpc_start_hr_threads(hr);
- if (rc) {
- OBD_FREE(hr, hr->hr_size);
- ptlrpc_hr = NULL;
- }
- RETURN(rc);
+ cfs_percpt_for_each(hrp, i, ptlrpc_hr.hr_partitions) {
+ hrp->hrp_cpt = i;
+
+ cfs_atomic_set(&hrp->hrp_nstarted, 0);
+ cfs_atomic_set(&hrp->hrp_nstopped, 0);
+
+ hrp->hrp_nthrs = cfs_cpt_weight(ptlrpc_hr.hr_cpt_table, i);
+ hrp->hrp_nthrs /= cfs_cpu_ht_nsiblings(0);
+
+ LASSERT(hrp->hrp_nthrs > 0);
+ OBD_CPT_ALLOC(hrp->hrp_thrs, ptlrpc_hr.hr_cpt_table, i,
+ hrp->hrp_nthrs * sizeof(*hrt));
+ if (hrp->hrp_thrs == NULL)
+ GOTO(out, rc = -ENOMEM);
+
+ for (j = 0; j < hrp->hrp_nthrs; j++) {
+ hrt = &hrp->hrp_thrs[j];
+
+ hrt->hrt_id = j;
+ hrt->hrt_partition = hrp;
+ cfs_waitq_init(&hrt->hrt_waitq);
+ spin_lock_init(&hrt->hrt_lock);
+ CFS_INIT_LIST_HEAD(&hrt->hrt_queue);
+ }
+ }
+
+ rc = ptlrpc_start_hr_threads();
+out:
+ if (rc != 0)
+ ptlrpc_hr_fini();
+ RETURN(rc);
}
void ptlrpc_hr_fini(void)
{
- if (ptlrpc_hr != NULL) {
- ptlrpc_stop_hr_threads(ptlrpc_hr);
- OBD_FREE(ptlrpc_hr, ptlrpc_hr->hr_size);
- ptlrpc_hr = NULL;
- }
+ struct ptlrpc_hr_partition *hrp;
+ int i;
+
+ if (ptlrpc_hr.hr_partitions == NULL)
+ return;
+
+ ptlrpc_stop_hr_threads();
+
+ cfs_percpt_for_each(hrp, i, ptlrpc_hr.hr_partitions) {
+ if (hrp->hrp_thrs != NULL) {
+ OBD_FREE(hrp->hrp_thrs,
+ hrp->hrp_nthrs * sizeof(hrp->hrp_thrs[0]));
+ }
+ }
+
+ cfs_percpt_free(ptlrpc_hr.hr_partitions);
+ ptlrpc_hr.hr_partitions = NULL;
}
#endif /* __KERNEL__ */
static void
ptlrpc_service_del_atimer(struct ptlrpc_service *svc)
{
- struct ptlrpc_service_part *svcpt;
+ struct ptlrpc_service_part *svcpt;
+ int i;
/* early disarm AT timer... */
- do { /* iterrate over multiple partitions in the future */
- svcpt = svc->srv_part;
- if (svcpt == NULL || svcpt->scp_service == NULL)
- break;
-
- cfs_timer_disarm(&svcpt->scp_at_timer);
- } while (0);
+ ptlrpc_service_for_each_part(svcpt, i, svc) {
+ if (svcpt->scp_service != NULL)
+ cfs_timer_disarm(&svcpt->scp_at_timer);
+ }
}
static void
struct ptlrpc_request_buffer_desc *rqbd;
struct l_wait_info lwi;
int rc;
+ int i;
- /* All history will be culled when the next request buffer is
+ /* All history will be culled when the next request buffer is
* freed in ptlrpc_service_purge_all() */
- svc->srv_max_history_rqbds = 0;
+ svc->srv_hist_nrqbds_cpt_max = 0;
rc = LNetClearLazyPortal(svc->srv_req_portal);
LASSERT(rc == 0);
- do { /* iterrate over multiple partitions in the future */
- svcpt = svc->srv_part;
- if (svcpt == NULL || svcpt->scp_service == NULL)
+ ptlrpc_service_for_each_part(svcpt, i, svc) {
+ if (svcpt->scp_service == NULL)
break;
/* Unlink all the request buffers. This forces a 'final'
rc = LNetMDUnlink(rqbd->rqbd_md_h);
LASSERT(rc == 0 || rc == -ENOENT);
}
- } while (0);
+ }
- do { /* iterrate over multiple partitions in the future */
- svcpt = svc->srv_part;
- if (svcpt == NULL || svcpt->scp_service == NULL)
+ ptlrpc_service_for_each_part(svcpt, i, svc) {
+ if (svcpt->scp_service == NULL)
break;
/* Wait for the network to release any buffers
* it's currently filling */
- cfs_spin_lock(&svcpt->scp_lock);
+ spin_lock(&svcpt->scp_lock);
while (svcpt->scp_nrqbds_posted != 0) {
- cfs_spin_unlock(&svcpt->scp_lock);
+ spin_unlock(&svcpt->scp_lock);
/* Network access will complete in finite time but
* the HUGE timeout lets us CWARN for visibility
* of sluggish NALs */
"request buffers\n",
svcpt->scp_service->srv_name);
}
- cfs_spin_lock(&svcpt->scp_lock);
+ spin_lock(&svcpt->scp_lock);
}
- cfs_spin_unlock(&svcpt->scp_lock);
- } while (0);
+ spin_unlock(&svcpt->scp_lock);
+ }
}
static void
struct ptlrpc_request_buffer_desc *rqbd;
struct ptlrpc_request *req;
struct ptlrpc_reply_state *rs;
+ int i;
- do { /* iterrate over multiple partitions in the future */
- /* schedule all outstanding replies to terminate them */
- svcpt = svc->srv_part;
- if (svcpt == NULL || svcpt->scp_service == NULL)
+ ptlrpc_service_for_each_part(svcpt, i, svc) {
+ if (svcpt->scp_service == NULL)
break;
- cfs_spin_lock(&svcpt->scp_rep_lock);
+ spin_lock(&svcpt->scp_rep_lock);
while (!cfs_list_empty(&svcpt->scp_rep_active)) {
rs = cfs_list_entry(svcpt->scp_rep_active.next,
struct ptlrpc_reply_state, rs_list);
- cfs_spin_lock(&rs->rs_lock);
+ spin_lock(&rs->rs_lock);
ptlrpc_schedule_difficult_reply(rs);
- cfs_spin_unlock(&rs->rs_lock);
+ spin_unlock(&rs->rs_lock);
}
- cfs_spin_unlock(&svcpt->scp_rep_lock);
+ spin_unlock(&svcpt->scp_rep_lock);
/* purge the request queue. NB No new replies (rqbds
* all unlinked) and no service threads, so I'm the only
ptlrpc_server_finish_request(svcpt, req);
}
- while (ptlrpc_server_request_pending(svcpt, 1)) {
- req = ptlrpc_server_request_get(svcpt, 1);
- cfs_list_del(&req->rq_list);
+ while (ptlrpc_server_request_pending(svcpt, true)) {
+ req = ptlrpc_server_request_get(svcpt, true);
svcpt->scp_nreqs_active++;
- ptlrpc_hpreq_fini(req);
+ ptlrpc_server_hpreq_fini(req);
+
+ if (req->rq_export != NULL)
+ class_export_rpc_put(req->rq_export);
ptlrpc_server_finish_request(svcpt, req);
}
cfs_list_del(&rs->rs_list);
OBD_FREE_LARGE(rs, svc->srv_max_reply_size);
}
- } while (0);
+ }
}
static void
{
struct ptlrpc_service_part *svcpt;
struct ptlrpc_at_array *array;
+ int i;
- do { /* iterrate over multiple partitions in the future */
- svcpt = svc->srv_part;
- if (svcpt == NULL || svcpt->scp_service == NULL)
+ ptlrpc_service_for_each_part(svcpt, i, svc) {
+ if (svcpt->scp_service == NULL)
break;
/* In case somebody rearmed this in the meantime */
sizeof(__u32) * array->paa_size);
array->paa_reqs_count = NULL;
}
- svcpt->scp_service = NULL;
- } while (0);
+ }
+
+ ptlrpc_service_for_each_part(svcpt, i, svc)
+ OBD_FREE_PTR(svcpt);
- do { /* iterrate over multiple partitions in the future */
- svcpt = svc->srv_part;
- if (svcpt != NULL)
- OBD_FREE_PTR(svcpt);
- } while (0);
+ if (svc->srv_cpts != NULL)
+ cfs_expr_list_values_free(svc->srv_cpts, svc->srv_ncpts);
- OBD_FREE_PTR(svc);
+ OBD_FREE(svc, offsetof(struct ptlrpc_service,
+ srv_parts[svc->srv_ncpts]));
}
int ptlrpc_unregister_service(struct ptlrpc_service *service)
service->srv_is_stopping = 1;
- cfs_spin_lock(&ptlrpc_all_services_lock);
+ mutex_lock(&ptlrpc_all_services_mutex);
cfs_list_del_init(&service->srv_list);
- cfs_spin_unlock(&ptlrpc_all_services_lock);
-
- ptlrpc_lprocfs_unregister_service(service);
+ mutex_unlock(&ptlrpc_all_services_mutex);
ptlrpc_service_del_atimer(service);
ptlrpc_stop_all_threads(service);
ptlrpc_service_unlink_rqbd(service);
ptlrpc_service_purge_all(service);
+ ptlrpc_service_nrs_cleanup(service);
+
+ ptlrpc_lprocfs_unregister_service(service);
+
ptlrpc_service_free(service);
RETURN(0);
}
+EXPORT_SYMBOL(ptlrpc_unregister_service);
/**
* Returns 0 if the service is healthy.
* Right now, it just checks to make sure that requests aren't languishing
* in the queue. We'll use this health check to govern whether a node needs
* to be shot, so it's intentionally non-aggressive. */
-int ptlrpc_service_health_check(struct ptlrpc_service *svc)
+int ptlrpc_svcpt_health_check(struct ptlrpc_service_part *svcpt)
{
- struct ptlrpc_service_part *svcpt;
- struct ptlrpc_request *request;
+ struct ptlrpc_request *request = NULL;
struct timeval right_now;
long timediff;
- if (svc == NULL || svc->srv_part == NULL)
- return 0;
-
cfs_gettimeofday(&right_now);
- svcpt = svc->srv_part;
- cfs_spin_lock(&svcpt->scp_req_lock);
- if (!ptlrpc_server_request_pending(svcpt, 1)) {
- cfs_spin_unlock(&svcpt->scp_req_lock);
- return 0;
- }
+ spin_lock(&svcpt->scp_req_lock);
+ /* How long has the next entry been waiting? */
+ if (ptlrpc_server_high_pending(svcpt, true))
+ request = ptlrpc_nrs_req_peek_nolock(svcpt, true);
+ else if (ptlrpc_server_normal_pending(svcpt, true))
+ request = ptlrpc_nrs_req_peek_nolock(svcpt, false);
- /* How long has the next entry been waiting? */
- if (cfs_list_empty(&svcpt->scp_req_pending)) {
- request = cfs_list_entry(svcpt->scp_hreq_pending.next,
- struct ptlrpc_request, rq_list);
- } else {
- request = cfs_list_entry(svcpt->scp_req_pending.next,
- struct ptlrpc_request, rq_list);
+ if (request == NULL) {
+ spin_unlock(&svcpt->scp_req_lock);
+ return 0;
}
timediff = cfs_timeval_sub(&right_now, &request->rq_arrival_time, NULL);
- cfs_spin_unlock(&svcpt->scp_req_lock);
+ spin_unlock(&svcpt->scp_req_lock);
if ((timediff / ONE_MILLION) >
(AT_OFF ? obd_timeout * 3 / 2 : at_max)) {
return 0;
}
+
+int
+ptlrpc_service_health_check(struct ptlrpc_service *svc)
+{
+ struct ptlrpc_service_part *svcpt;
+ int i;
+
+ if (svc == NULL)
+ return 0;
+
+ ptlrpc_service_for_each_part(svcpt, i, svc) {
+ int rc = ptlrpc_svcpt_health_check(svcpt);
+
+ if (rc != 0)
+ return rc;
+ }
+ return 0;
+}
+EXPORT_SYMBOL(ptlrpc_service_health_check);
git://git.whamcloud.com / fs / lustre-release.git / blobdiff