X-Git-Url: https://git.whamcloud.com/?a=blobdiff_plain;f=lnet%2Flnet%2Fnet_fault.c;h=04c98d5f40d11cd203737b9bec1ba82ad75fff8d;hb=8cb7ccf54e2d34010bea9a71fe0eff708545ab78;hp=18101218366237682dba5315dff974f97f3272d0;hpb=a3488d2f33e3ba4ae1d9c127132a6b75b5bb0112;p=fs%2Flustre-release.git diff --git a/lnet/lnet/net_fault.c b/lnet/lnet/net_fault.c index 1810121..04c98d5 100644 --- a/lnet/lnet/net_fault.c +++ b/lnet/lnet/net_fault.c @@ -21,7 +21,7 @@ * GPL HEADER END */ /* - * Copyright (c) 2014, Intel Corporation. + * Copyright (c) 2014, 2017, Intel Corporation. */ /* * This file is part of Lustre, http://www.lustre.org/ @@ -37,7 +37,7 @@ #define DEBUG_SUBSYSTEM S_LNET #include -#include +#include #define LNET_MSG_MASK (LNET_PUT_BIT | LNET_ACK_BIT | \ LNET_GET_BIT | LNET_REPLY_BIT) @@ -57,9 +57,9 @@ struct lnet_drop_rule { /** * seconds to drop the next message, it's exclusive with dr_drop_at */ - cfs_time_t dr_drop_time; + time64_t dr_drop_time; /** baseline to caculate dr_drop_time */ - cfs_time_t dr_time_base; + time64_t dr_time_base; /** statistic of dropped messages */ struct lnet_fault_stat dr_stat; }; @@ -137,6 +137,10 @@ lnet_fault_stat_inc(struct lnet_fault_stat *stat, unsigned int type) } /** + * LNet message drop simulation + */ + +/** * Add a new drop rule to LNet * There is no check for duplicated drop rule, all rules will be checked for * incoming message. @@ -147,8 +151,10 @@ lnet_drop_rule_add(struct lnet_fault_attr *attr) struct lnet_drop_rule *rule; ENTRY; - if ((attr->u.drop.da_rate == 0) == (attr->u.drop.da_interval == 0)) { - CDEBUG(D_NET, "invalid rate %d or interval %d\n", + if (!((attr->u.drop.da_rate == 0) ^ (attr->u.drop.da_interval == 0))) { + CDEBUG(D_NET, + "please provide either drop rate or drop interval, " + "but not both at the same time %d/%d\n", attr->u.drop.da_rate, attr->u.drop.da_interval); RETURN(-EINVAL); } @@ -164,9 +170,9 @@ lnet_drop_rule_add(struct lnet_fault_attr *attr) rule->dr_attr = *attr; if (attr->u.drop.da_interval != 0) { - rule->dr_time_base = cfs_time_shift(attr->u.drop.da_interval); - rule->dr_drop_time = cfs_time_shift(cfs_rand() % - attr->u.drop.da_interval); + rule->dr_time_base = ktime_get_seconds() + attr->u.drop.da_interval; + rule->dr_drop_time = ktime_get_seconds() + + cfs_rand() % attr->u.drop.da_interval; } else { rule->dr_drop_at = cfs_rand() % attr->u.drop.da_rate; } @@ -277,10 +283,9 @@ lnet_drop_rule_reset(void) if (attr->u.drop.da_rate != 0) { rule->dr_drop_at = cfs_rand() % attr->u.drop.da_rate; } else { - rule->dr_drop_time = cfs_time_shift(cfs_rand() % - attr->u.drop.da_interval); - rule->dr_time_base = cfs_time_shift(attr->u.drop. - da_interval); + rule->dr_drop_time = ktime_get_seconds() + + cfs_rand() % attr->u.drop.da_interval; + rule->dr_time_base = ktime_get_seconds() + attr->u.drop.da_interval; } spin_unlock(&rule->dr_lock); } @@ -289,13 +294,58 @@ lnet_drop_rule_reset(void) EXIT; } +static void +lnet_fault_match_health(enum lnet_msg_hstatus *hstatus, __u32 mask) +{ + unsigned int random; + int choice; + int delta; + int best_delta; + int i; + + /* assign a random failure */ + random = cfs_rand(); + choice = random % (LNET_MSG_STATUS_END - LNET_MSG_STATUS_OK); + if (choice == 0) + choice++; + + if (mask == HSTATUS_RANDOM) { + *hstatus = choice; + return; + } + + if (mask & (1 << choice)) { + *hstatus = choice; + return; + } + + /* round to the closest ON bit */ + i = HSTATUS_END; + best_delta = HSTATUS_END; + while (i > 0) { + if (mask & (1 << i)) { + delta = choice - i; + if (delta < 0) + delta *= -1; + if (delta < best_delta) { + best_delta = delta; + choice = i; + } + } + i--; + } + + *hstatus = choice; +} + /** * check source/destination NID, portal, message type and drop rate, * decide whether should drop this message or not */ static bool drop_rule_match(struct lnet_drop_rule *rule, lnet_nid_t src, - lnet_nid_t dst, unsigned int type, unsigned int portal) + lnet_nid_t dst, unsigned int type, unsigned int portal, + enum lnet_msg_hstatus *hstatus) { struct lnet_fault_attr *attr = &rule->dr_attr; bool drop; @@ -303,34 +353,47 @@ drop_rule_match(struct lnet_drop_rule *rule, lnet_nid_t src, if (!lnet_fault_attr_match(attr, src, dst, type, portal)) return false; + /* + * if we're trying to match a health status error but it hasn't + * been set in the rule, then don't match + */ + if ((hstatus && !attr->u.drop.da_health_error_mask) || + (!hstatus && attr->u.drop.da_health_error_mask)) + return false; + /* match this rule, check drop rate now */ spin_lock(&rule->dr_lock); - if (rule->dr_drop_time != 0) { /* time based drop */ - cfs_time_t now = cfs_time_current(); + if (attr->u.drop.da_random) { + int value = cfs_rand() % attr->u.drop.da_interval; + if (value >= (attr->u.drop.da_interval / 2)) + drop = true; + else + drop = false; + } else if (rule->dr_drop_time != 0) { /* time based drop */ + time64_t now = ktime_get_seconds(); rule->dr_stat.fs_count++; - drop = cfs_time_aftereq(now, rule->dr_drop_time); + drop = now >= rule->dr_drop_time; if (drop) { - if (cfs_time_after(now, rule->dr_time_base)) + if (now > rule->dr_time_base) rule->dr_time_base = now; rule->dr_drop_time = rule->dr_time_base + - cfs_time_seconds(cfs_rand() % - attr->u.drop.da_interval); - rule->dr_time_base += cfs_time_seconds(attr->u.drop. - da_interval); - - CDEBUG(D_NET, "Drop Rule %s->%s: next drop : " - CFS_TIME_T"\n", - libcfs_nid2str(attr->fa_src), - libcfs_nid2str(attr->fa_dst), - rule->dr_drop_time); + cfs_rand() % attr->u.drop.da_interval; + rule->dr_time_base += attr->u.drop.da_interval; + + CDEBUG(D_NET, "Drop Rule %s->%s: next drop : %lld\n", + libcfs_nid2str(attr->fa_src), + libcfs_nid2str(attr->fa_dst), + rule->dr_drop_time); } } else { /* rate based drop */ - drop = rule->dr_stat.fs_count++ == rule->dr_drop_at; + __u64 count; - if (rule->dr_stat.fs_count % attr->u.drop.da_rate == 0) { + drop = rule->dr_stat.fs_count++ == rule->dr_drop_at; + count = rule->dr_stat.fs_count; + if (do_div(count, attr->u.drop.da_rate) == 0) { rule->dr_drop_at = rule->dr_stat.fs_count + cfs_rand() % attr->u.drop.da_rate; CDEBUG(D_NET, "Drop Rule %s->%s: next drop: %lu\n", @@ -340,6 +403,9 @@ drop_rule_match(struct lnet_drop_rule *rule, lnet_nid_t src, } if (drop) { /* drop this message, update counters */ + if (hstatus) + lnet_fault_match_health(hstatus, + attr->u.drop.da_health_error_mask); lnet_fault_stat_inc(&rule->dr_stat, type); rule->dr_stat.u.drop.ds_dropped++; } @@ -352,15 +418,15 @@ drop_rule_match(struct lnet_drop_rule *rule, lnet_nid_t src, * Check if message from \a src to \a dst can match any existed drop rule */ bool -lnet_drop_rule_match(lnet_hdr_t *hdr) +lnet_drop_rule_match(struct lnet_hdr *hdr, enum lnet_msg_hstatus *hstatus) { - struct lnet_drop_rule *rule; - lnet_nid_t src = le64_to_cpu(hdr->src_nid); - lnet_nid_t dst = le64_to_cpu(hdr->dest_nid); - unsigned int typ = le32_to_cpu(hdr->type); - unsigned int ptl = -1; - bool drop = false; - int cpt; + lnet_nid_t src = le64_to_cpu(hdr->src_nid); + lnet_nid_t dst = le64_to_cpu(hdr->dest_nid); + unsigned int typ = le32_to_cpu(hdr->type); + struct lnet_drop_rule *rule; + unsigned int ptl = -1; + bool drop = false; + int cpt; /* NB: if Portal is specified, then only PUT and GET will be * filtered by drop rule */ @@ -371,15 +437,567 @@ lnet_drop_rule_match(lnet_hdr_t *hdr) cpt = lnet_net_lock_current(); list_for_each_entry(rule, &the_lnet.ln_drop_rules, dr_link) { - drop = drop_rule_match(rule, src, dst, typ, ptl); + drop = drop_rule_match(rule, src, dst, typ, ptl, + hstatus); if (drop) break; } - lnet_net_unlock(cpt); + return drop; } +/** + * LNet Delay Simulation + */ +/** timestamp (second) to send delayed message */ +#define msg_delay_send msg_ev.hdr_data + +struct lnet_delay_rule { + /** link chain on the_lnet.ln_delay_rules */ + struct list_head dl_link; + /** link chain on delay_dd.dd_sched_rules */ + struct list_head dl_sched_link; + /** attributes of this rule */ + struct lnet_fault_attr dl_attr; + /** lock to protect \a below members */ + spinlock_t dl_lock; + /** refcount of delay rule */ + atomic_t dl_refcount; + /** + * the message sequence to delay, which means message is delayed when + * dl_stat.fs_count == dl_delay_at + */ + unsigned long dl_delay_at; + /** + * seconds to delay the next message, it's exclusive with dl_delay_at + */ + time64_t dl_delay_time; + /** baseline to caculate dl_delay_time */ + time64_t dl_time_base; + /** jiffies to send the next delayed message */ + unsigned long dl_msg_send; + /** delayed message list */ + struct list_head dl_msg_list; + /** statistic of delayed messages */ + struct lnet_fault_stat dl_stat; + /** timer to wakeup delay_daemon */ + struct timer_list dl_timer; +}; + +struct delay_daemon_data { + /** serialise rule add/remove */ + struct mutex dd_mutex; + /** protect rules on \a dd_sched_rules */ + spinlock_t dd_lock; + /** scheduled delay rules (by timer) */ + struct list_head dd_sched_rules; + /** deamon thread sleeps at here */ + wait_queue_head_t dd_waitq; + /** controler (lctl command) wait at here */ + wait_queue_head_t dd_ctl_waitq; + /** deamon is running */ + unsigned int dd_running; + /** deamon stopped */ + unsigned int dd_stopped; +}; + +static struct delay_daemon_data delay_dd; + +static void +delay_rule_decref(struct lnet_delay_rule *rule) +{ + if (atomic_dec_and_test(&rule->dl_refcount)) { + LASSERT(list_empty(&rule->dl_sched_link)); + LASSERT(list_empty(&rule->dl_msg_list)); + LASSERT(list_empty(&rule->dl_link)); + + CFS_FREE_PTR(rule); + } +} + +/** + * check source/destination NID, portal, message type and delay rate, + * decide whether should delay this message or not + */ +static bool +delay_rule_match(struct lnet_delay_rule *rule, lnet_nid_t src, + lnet_nid_t dst, unsigned int type, unsigned int portal, + struct lnet_msg *msg) +{ + struct lnet_fault_attr *attr = &rule->dl_attr; + bool delay; + + if (!lnet_fault_attr_match(attr, src, dst, type, portal)) + return false; + + /* match this rule, check delay rate now */ + spin_lock(&rule->dl_lock); + if (rule->dl_delay_time != 0) { /* time based delay */ + time64_t now = ktime_get_seconds(); + + rule->dl_stat.fs_count++; + delay = now >= rule->dl_delay_time; + if (delay) { + if (now > rule->dl_time_base) + rule->dl_time_base = now; + + rule->dl_delay_time = rule->dl_time_base + + cfs_rand() % attr->u.delay.la_interval; + rule->dl_time_base += attr->u.delay.la_interval; + + CDEBUG(D_NET, "Delay Rule %s->%s: next delay : %lld\n", + libcfs_nid2str(attr->fa_src), + libcfs_nid2str(attr->fa_dst), + rule->dl_delay_time); + } + + } else { /* rate based delay */ + __u64 count; + + delay = rule->dl_stat.fs_count++ == rule->dl_delay_at; + /* generate the next random rate sequence */ + count = rule->dl_stat.fs_count; + if (do_div(count, attr->u.delay.la_rate) == 0) { + rule->dl_delay_at = rule->dl_stat.fs_count + + cfs_rand() % attr->u.delay.la_rate; + CDEBUG(D_NET, "Delay Rule %s->%s: next delay: %lu\n", + libcfs_nid2str(attr->fa_src), + libcfs_nid2str(attr->fa_dst), rule->dl_delay_at); + } + } + + if (!delay) { + spin_unlock(&rule->dl_lock); + return false; + } + + /* delay this message, update counters */ + lnet_fault_stat_inc(&rule->dl_stat, type); + rule->dl_stat.u.delay.ls_delayed++; + + list_add_tail(&msg->msg_list, &rule->dl_msg_list); + msg->msg_delay_send = ktime_get_seconds() + attr->u.delay.la_latency; + if (rule->dl_msg_send == -1) { + rule->dl_msg_send = msg->msg_delay_send; + mod_timer(&rule->dl_timer, rule->dl_msg_send); + } + + spin_unlock(&rule->dl_lock); + return true; +} + +/** + * check if \a msg can match any Delay Rule, receiving of this message + * will be delayed if there is a match. + */ +bool +lnet_delay_rule_match_locked(struct lnet_hdr *hdr, struct lnet_msg *msg) +{ + struct lnet_delay_rule *rule; + lnet_nid_t src = le64_to_cpu(hdr->src_nid); + lnet_nid_t dst = le64_to_cpu(hdr->dest_nid); + unsigned int typ = le32_to_cpu(hdr->type); + unsigned int ptl = -1; + + /* NB: called with hold of lnet_net_lock */ + + /* NB: if Portal is specified, then only PUT and GET will be + * filtered by delay rule */ + if (typ == LNET_MSG_PUT) + ptl = le32_to_cpu(hdr->msg.put.ptl_index); + else if (typ == LNET_MSG_GET) + ptl = le32_to_cpu(hdr->msg.get.ptl_index); + + list_for_each_entry(rule, &the_lnet.ln_delay_rules, dl_link) { + if (delay_rule_match(rule, src, dst, typ, ptl, msg)) + return true; + } + + return false; +} + +/** check out delayed messages for send */ +static void +delayed_msg_check(struct lnet_delay_rule *rule, bool all, + struct list_head *msg_list) +{ + struct lnet_msg *msg; + struct lnet_msg *tmp; + time64_t now = ktime_get_seconds(); + + if (!all && cfs_time_seconds(rule->dl_msg_send) > now) + return; + + spin_lock(&rule->dl_lock); + list_for_each_entry_safe(msg, tmp, &rule->dl_msg_list, msg_list) { + if (!all && msg->msg_delay_send > now) + break; + + msg->msg_delay_send = 0; + list_move_tail(&msg->msg_list, msg_list); + } + + if (list_empty(&rule->dl_msg_list)) { + del_timer(&rule->dl_timer); + rule->dl_msg_send = -1; + + } else if (!list_empty(msg_list)) { + /* dequeued some timedout messages, update timer for the + * next delayed message on rule */ + msg = list_entry(rule->dl_msg_list.next, + struct lnet_msg, msg_list); + rule->dl_msg_send = msg->msg_delay_send; + mod_timer(&rule->dl_timer, rule->dl_msg_send); + } + spin_unlock(&rule->dl_lock); +} + +static void +delayed_msg_process(struct list_head *msg_list, bool drop) +{ + struct lnet_msg *msg; + + while (!list_empty(msg_list)) { + struct lnet_ni *ni; + int cpt; + int rc; + + msg = list_entry(msg_list->next, struct lnet_msg, msg_list); + LASSERT(msg->msg_rxpeer != NULL); + LASSERT(msg->msg_rxni != NULL); + + ni = msg->msg_rxni; + cpt = msg->msg_rx_cpt; + + list_del_init(&msg->msg_list); + if (drop) { + rc = -ECANCELED; + + } else if (!msg->msg_routing) { + rc = lnet_parse_local(ni, msg); + if (rc == 0) + continue; + + } else { + lnet_net_lock(cpt); + rc = lnet_parse_forward_locked(ni, msg); + lnet_net_unlock(cpt); + + switch (rc) { + case LNET_CREDIT_OK: + lnet_ni_recv(ni, msg->msg_private, msg, 0, + 0, msg->msg_len, msg->msg_len); + case LNET_CREDIT_WAIT: + continue; + default: /* failures */ + break; + } + } + + lnet_drop_message(ni, cpt, msg->msg_private, msg->msg_len, + msg->msg_type); + lnet_finalize(msg, rc); + } +} + +/** + * Process delayed messages for scheduled rules + * This function can either be called by delay_rule_daemon, or by lnet_finalise + */ +void +lnet_delay_rule_check(void) +{ + struct lnet_delay_rule *rule; + struct list_head msgs; + + INIT_LIST_HEAD(&msgs); + while (1) { + if (list_empty(&delay_dd.dd_sched_rules)) + break; + + spin_lock_bh(&delay_dd.dd_lock); + if (list_empty(&delay_dd.dd_sched_rules)) { + spin_unlock_bh(&delay_dd.dd_lock); + break; + } + + rule = list_entry(delay_dd.dd_sched_rules.next, + struct lnet_delay_rule, dl_sched_link); + list_del_init(&rule->dl_sched_link); + spin_unlock_bh(&delay_dd.dd_lock); + + delayed_msg_check(rule, false, &msgs); + delay_rule_decref(rule); /* -1 for delay_dd.dd_sched_rules */ + } + + if (!list_empty(&msgs)) + delayed_msg_process(&msgs, false); +} + +/** deamon thread to handle delayed messages */ +static int +lnet_delay_rule_daemon(void *arg) +{ + delay_dd.dd_running = 1; + wake_up(&delay_dd.dd_ctl_waitq); + + while (delay_dd.dd_running) { + wait_event_interruptible(delay_dd.dd_waitq, + !delay_dd.dd_running || + !list_empty(&delay_dd.dd_sched_rules)); + lnet_delay_rule_check(); + } + + /* in case more rules have been enqueued after my last check */ + lnet_delay_rule_check(); + delay_dd.dd_stopped = 1; + wake_up(&delay_dd.dd_ctl_waitq); + + return 0; +} + +static void +delay_timer_cb(cfs_timer_cb_arg_t data) +{ + struct lnet_delay_rule *rule = cfs_from_timer(rule, data, dl_timer); + + spin_lock_bh(&delay_dd.dd_lock); + if (list_empty(&rule->dl_sched_link) && delay_dd.dd_running) { + atomic_inc(&rule->dl_refcount); + list_add_tail(&rule->dl_sched_link, &delay_dd.dd_sched_rules); + wake_up(&delay_dd.dd_waitq); + } + spin_unlock_bh(&delay_dd.dd_lock); +} + +/** + * Add a new delay rule to LNet + * There is no check for duplicated delay rule, all rules will be checked for + * incoming message. + */ +int +lnet_delay_rule_add(struct lnet_fault_attr *attr) +{ + struct lnet_delay_rule *rule; + int rc = 0; + ENTRY; + + if (!((attr->u.delay.la_rate == 0) ^ + (attr->u.delay.la_interval == 0))) { + CDEBUG(D_NET, + "please provide either delay rate or delay interval, " + "but not both at the same time %d/%d\n", + attr->u.delay.la_rate, attr->u.delay.la_interval); + RETURN(-EINVAL); + } + + if (attr->u.delay.la_latency == 0) { + CDEBUG(D_NET, "delay latency cannot be zero\n"); + RETURN(-EINVAL); + } + + if (lnet_fault_attr_validate(attr) != 0) + RETURN(-EINVAL); + + CFS_ALLOC_PTR(rule); + if (rule == NULL) + RETURN(-ENOMEM); + + mutex_lock(&delay_dd.dd_mutex); + if (!delay_dd.dd_running) { + struct task_struct *task; + + /* NB: although LND threads will process delayed message + * in lnet_finalize, but there is no guarantee that LND + * threads will be waken up if no other message needs to + * be handled. + * Only one daemon thread, performance is not the concern + * of this simualation module. + */ + task = kthread_run(lnet_delay_rule_daemon, NULL, "lnet_dd"); + if (IS_ERR(task)) { + rc = PTR_ERR(task); + GOTO(failed, rc); + } + wait_event(delay_dd.dd_ctl_waitq, delay_dd.dd_running); + } + + cfs_timer_setup(&rule->dl_timer, delay_timer_cb, + (unsigned long)rule, 0); + + spin_lock_init(&rule->dl_lock); + INIT_LIST_HEAD(&rule->dl_msg_list); + INIT_LIST_HEAD(&rule->dl_sched_link); + + rule->dl_attr = *attr; + if (attr->u.delay.la_interval != 0) { + rule->dl_time_base = ktime_get_seconds() + + attr->u.delay.la_interval; + rule->dl_delay_time = ktime_get_seconds() + + cfs_rand() % attr->u.delay.la_interval; + } else { + rule->dl_delay_at = cfs_rand() % attr->u.delay.la_rate; + } + + rule->dl_msg_send = -1; + + lnet_net_lock(LNET_LOCK_EX); + atomic_set(&rule->dl_refcount, 1); + list_add(&rule->dl_link, &the_lnet.ln_delay_rules); + lnet_net_unlock(LNET_LOCK_EX); + + CDEBUG(D_NET, "Added delay rule: src %s, dst %s, rate %d\n", + libcfs_nid2str(attr->fa_src), libcfs_nid2str(attr->fa_src), + attr->u.delay.la_rate); + + mutex_unlock(&delay_dd.dd_mutex); + RETURN(0); + failed: + mutex_unlock(&delay_dd.dd_mutex); + CFS_FREE_PTR(rule); + return rc; +} + +/** + * Remove matched Delay Rules from lnet, if \a shutdown is true or both \a src + * and \a dst are zero, all rules will be removed, otherwise only matched rules + * will be removed. + * If \a src is zero, then all rules have \a dst as destination will be remove + * If \a dst is zero, then all rules have \a src as source will be removed + * + * When a delay rule is removed, all delayed messages of this rule will be + * processed immediately. + */ +int +lnet_delay_rule_del(lnet_nid_t src, lnet_nid_t dst, bool shutdown) +{ + struct lnet_delay_rule *rule; + struct lnet_delay_rule *tmp; + struct list_head rule_list; + struct list_head msg_list; + int n = 0; + bool cleanup; + ENTRY; + + INIT_LIST_HEAD(&rule_list); + INIT_LIST_HEAD(&msg_list); + + if (shutdown) + src = dst = 0; + + mutex_lock(&delay_dd.dd_mutex); + lnet_net_lock(LNET_LOCK_EX); + + list_for_each_entry_safe(rule, tmp, &the_lnet.ln_delay_rules, dl_link) { + if (rule->dl_attr.fa_src != src && src != 0) + continue; + + if (rule->dl_attr.fa_dst != dst && dst != 0) + continue; + + CDEBUG(D_NET, "Remove delay rule: src %s->dst: %s (1/%d, %d)\n", + libcfs_nid2str(rule->dl_attr.fa_src), + libcfs_nid2str(rule->dl_attr.fa_dst), + rule->dl_attr.u.delay.la_rate, + rule->dl_attr.u.delay.la_interval); + /* refcount is taken over by rule_list */ + list_move(&rule->dl_link, &rule_list); + } + + /* check if we need to shutdown delay_daemon */ + cleanup = list_empty(&the_lnet.ln_delay_rules) && + !list_empty(&rule_list); + lnet_net_unlock(LNET_LOCK_EX); + + list_for_each_entry_safe(rule, tmp, &rule_list, dl_link) { + list_del_init(&rule->dl_link); + + del_timer_sync(&rule->dl_timer); + delayed_msg_check(rule, true, &msg_list); + delay_rule_decref(rule); /* -1 for the_lnet.ln_delay_rules */ + n++; + } + + if (cleanup) { /* no more delay rule, shutdown delay_daemon */ + LASSERT(delay_dd.dd_running); + delay_dd.dd_running = 0; + wake_up(&delay_dd.dd_waitq); + + while (!delay_dd.dd_stopped) + wait_event(delay_dd.dd_ctl_waitq, delay_dd.dd_stopped); + } + mutex_unlock(&delay_dd.dd_mutex); + + if (!list_empty(&msg_list)) + delayed_msg_process(&msg_list, shutdown); + + RETURN(n); +} + +/** + * List Delay Rule at position of \a pos + */ +int +lnet_delay_rule_list(int pos, struct lnet_fault_attr *attr, + struct lnet_fault_stat *stat) +{ + struct lnet_delay_rule *rule; + int cpt; + int i = 0; + int rc = -ENOENT; + ENTRY; + + cpt = lnet_net_lock_current(); + list_for_each_entry(rule, &the_lnet.ln_delay_rules, dl_link) { + if (i++ < pos) + continue; + + spin_lock(&rule->dl_lock); + *attr = rule->dl_attr; + *stat = rule->dl_stat; + spin_unlock(&rule->dl_lock); + rc = 0; + break; + } + + lnet_net_unlock(cpt); + RETURN(rc); +} + +/** + * reset counters for all Delay Rules + */ +void +lnet_delay_rule_reset(void) +{ + struct lnet_delay_rule *rule; + int cpt; + ENTRY; + + cpt = lnet_net_lock_current(); + + list_for_each_entry(rule, &the_lnet.ln_delay_rules, dl_link) { + struct lnet_fault_attr *attr = &rule->dl_attr; + + spin_lock(&rule->dl_lock); + + memset(&rule->dl_stat, 0, sizeof(rule->dl_stat)); + if (attr->u.delay.la_rate != 0) { + rule->dl_delay_at = cfs_rand() % attr->u.delay.la_rate; + } else { + rule->dl_delay_time = ktime_get_seconds() + + cfs_rand() % attr->u.delay.la_interval; + rule->dl_time_base = ktime_get_seconds() + + attr->u.delay.la_interval; + } + spin_unlock(&rule->dl_lock); + } + + lnet_net_unlock(cpt); + EXIT; +} + int lnet_fault_ctl(int opc, struct libcfs_ioctl_data *data) { @@ -416,6 +1034,31 @@ lnet_fault_ctl(int opc, struct libcfs_ioctl_data *data) return -EINVAL; return lnet_drop_rule_list(data->ioc_count, attr, stat); + + case LNET_CTL_DELAY_ADD: + if (attr == NULL) + return -EINVAL; + + return lnet_delay_rule_add(attr); + + case LNET_CTL_DELAY_DEL: + if (attr == NULL) + return -EINVAL; + + data->ioc_count = lnet_delay_rule_del(attr->fa_src, + attr->fa_dst, false); + return 0; + + case LNET_CTL_DELAY_RESET: + lnet_delay_rule_reset(); + return 0; + + case LNET_CTL_DELAY_LIST: + stat = (struct lnet_fault_stat *)data->ioc_inlbuf2; + if (attr == NULL || stat == NULL) + return -EINVAL; + + return lnet_delay_rule_list(data->ioc_count, attr, stat); } } @@ -427,6 +1070,12 @@ lnet_fault_init(void) CLASSERT(LNET_GET_BIT == 1 << LNET_MSG_GET); CLASSERT(LNET_REPLY_BIT == 1 << LNET_MSG_REPLY); + mutex_init(&delay_dd.dd_mutex); + spin_lock_init(&delay_dd.dd_lock); + init_waitqueue_head(&delay_dd.dd_waitq); + init_waitqueue_head(&delay_dd.dd_ctl_waitq); + INIT_LIST_HEAD(&delay_dd.dd_sched_rules); + return 0; } @@ -434,6 +1083,9 @@ void lnet_fault_fini(void) { lnet_drop_rule_del(0, 0); + lnet_delay_rule_del(0, 0, true); LASSERT(list_empty(&the_lnet.ln_drop_rules)); + LASSERT(list_empty(&the_lnet.ln_delay_rules)); + LASSERT(list_empty(&delay_dd.dd_sched_rules)); }