From: Lai Siyao Date: Sun, 18 Sep 2016 20:37:55 +0000 (-0400) Subject: staging: lustre: statahead: use dcache-like interface for sa entry X-Git-Tag: v4.9-rc1~119^2~447 X-Git-Url: https://git.karo-electronics.de/?a=commitdiff_plain;h=e554fbfffcecc0558f891b66719fc933539ceb16;p=karo-tx-linux.git staging: lustre: statahead: use dcache-like interface for sa entry Rename ll_sa_entry to sa_entry, and manage sa_entry cache with dcache-like interfaces. sa_entry is not needed to be refcounted, because only scanner can free it, so after it's put in stat list, statahead thread shouldn't access it any longer. ll_statahead_interpret() doesn't need to take sai refcount, because statahead thread will wait for all inflight RPC to finish. Signed-off-by: Lai Siyao Intel-bug-id: https://jira.hpdd.intel.com/browse/LU-3270 Reviewed-on: http://review.whamcloud.com/9664 Reviewed-by: James Simmons Reviewed-by: Fan Yong Reviewed-by: Oleg Drokin Signed-off-by: James Simmons Signed-off-by: Greg Kroah-Hartman --- diff --git a/drivers/staging/lustre/lustre/include/obd.h b/drivers/staging/lustre/lustre/include/obd.h index 1c884c00d6f7..6758bf4f7b9c 100644 --- a/drivers/staging/lustre/lustre/include/obd.h +++ b/drivers/staging/lustre/lustre/include/obd.h @@ -812,7 +812,7 @@ struct md_enqueue_info { struct inode *mi_dir; int (*mi_cb)(struct ptlrpc_request *req, struct md_enqueue_info *minfo, int rc); - __u64 mi_cbdata; + void *mi_cbdata; }; struct obd_ops { diff --git a/drivers/staging/lustre/lustre/llite/llite_internal.h b/drivers/staging/lustre/lustre/llite/llite_internal.h index 9a9fefd18591..cd639f48ba04 100644 --- a/drivers/staging/lustre/lustre/llite/llite_internal.h +++ b/drivers/staging/lustre/lustre/llite/llite_internal.h @@ -1131,10 +1131,12 @@ struct ll_statahead_info { wait_queue_head_t sai_waitq; /* stat-ahead wait queue */ struct ptlrpc_thread sai_thread; /* stat-ahead thread */ struct ptlrpc_thread sai_agl_thread; /* AGL thread */ - struct list_head sai_entries; /* entry list */ - struct list_head sai_entries_received; /* entries returned */ - struct list_head sai_entries_stated; /* entries stated */ - struct list_head sai_entries_agl; /* AGL entries to be sent */ + struct list_head sai_interim_entries; /* entries which got async + * stat reply, but not + * instantiated + */ + struct list_head sai_entries; /* completed entries */ + struct list_head sai_agls; /* AGLs to be sent */ struct list_head sai_cache[LL_SA_CACHE_SIZE]; spinlock_t sai_cache_lock[LL_SA_CACHE_SIZE]; atomic_t sai_cache_count; /* entry count in cache */ diff --git a/drivers/staging/lustre/lustre/llite/statahead.c b/drivers/staging/lustre/lustre/llite/statahead.c index 5760974e88c5..0d87dc91a72c 100644 --- a/drivers/staging/lustre/lustre/llite/statahead.c +++ b/drivers/staging/lustre/lustre/llite/statahead.c @@ -49,24 +49,26 @@ enum se_stat { SA_ENTRY_INIT = 0, /** init entry */ SA_ENTRY_SUCC = 1, /** stat succeed */ SA_ENTRY_INVA = 2, /** invalid entry */ - SA_ENTRY_DEST = 3, /** entry to be destroyed */ }; -struct ll_sa_entry { - /* link into sai->sai_entries */ - struct list_head se_link; - /* link into sai->sai_entries_{received,stated} */ +/* + * sa_entry is not refcounted: statahead thread allocates it and do async stat, + * and in async stat callback ll_statahead_interpret() will add it into + * sai_cb_entries, later statahead thread will call sa_handle_callback() to + * instantiate entry and move it into sai_entries, and then only scanner process + * can access and free it. + */ +struct sa_entry { + /* link into sai_cb_entries or sai_entries */ struct list_head se_list; /* link into sai hash table locally */ struct list_head se_hash; - /* entry reference count */ - atomic_t se_refcount; /* entry index in the sai */ __u64 se_index; /* low layer ldlm lock handle */ __u64 se_handle; /* entry status */ - enum se_stat se_stat; + enum se_stat se_state; /* entry size, contains name */ int se_size; /* pointer to async getattr enqueue info */ @@ -85,13 +87,13 @@ static DEFINE_SPINLOCK(sai_generation_lock); /* * The entry only can be released by the caller, it is necessary to hold lock. */ -static inline int ll_sa_entry_stated(struct ll_sa_entry *entry) +static inline int sa_ready(struct sa_entry *entry) { smp_rmb(); - return (entry->se_stat != SA_ENTRY_INIT); + return (entry->se_state != SA_ENTRY_INIT); } -static inline int ll_sa_entry_hash(int val) +static inline int sa_hash(int val) { return val & LL_SA_CACHE_MASK; } @@ -100,9 +102,9 @@ static inline int ll_sa_entry_hash(int val) * Insert entry to hash SA table. */ static inline void -ll_sa_entry_enhash(struct ll_statahead_info *sai, struct ll_sa_entry *entry) +sa_rehash(struct ll_statahead_info *sai, struct sa_entry *entry) { - int i = ll_sa_entry_hash(entry->se_qstr.hash); + int i = sa_hash(entry->se_qstr.hash); spin_lock(&sai->sai_cache_lock[i]); list_add_tail(&entry->se_hash, &sai->sai_cache[i]); @@ -113,9 +115,9 @@ ll_sa_entry_enhash(struct ll_statahead_info *sai, struct ll_sa_entry *entry) * Remove entry from SA table. */ static inline void -ll_sa_entry_unhash(struct ll_statahead_info *sai, struct ll_sa_entry *entry) +sa_unhash(struct ll_statahead_info *sai, struct sa_entry *entry) { - int i = ll_sa_entry_hash(entry->se_qstr.hash); + int i = sa_hash(entry->se_qstr.hash); spin_lock(&sai->sai_cache_lock[i]); list_del_init(&entry->se_hash); @@ -133,14 +135,14 @@ static inline int sa_sent_full(struct ll_statahead_info *sai) return atomic_read(&sai->sai_cache_count) >= sai->sai_max; } -static inline int sa_received_empty(struct ll_statahead_info *sai) +static inline int sa_has_callback(struct ll_statahead_info *sai) { - return list_empty(&sai->sai_entries_received); + return !list_empty(&sai->sai_interim_entries); } static inline int agl_list_empty(struct ll_statahead_info *sai) { - return list_empty(&sai->sai_entries_agl); + return list_empty(&sai->sai_agls); } /** @@ -168,17 +170,16 @@ static inline int is_omitted_entry(struct ll_statahead_info *sai, __u64 index) /* * Insert it into sai_entries tail when init. */ -static struct ll_sa_entry * -ll_sa_entry_alloc(struct dentry *parent, - struct ll_statahead_info *sai, __u64 index, - const char *name, int len) +static struct sa_entry * +sa_alloc(struct dentry *parent, struct ll_statahead_info *sai, __u64 index, + const char *name, int len) { struct ll_inode_info *lli; - struct ll_sa_entry *entry; + struct sa_entry *entry; int entry_size; char *dname; - entry_size = sizeof(struct ll_sa_entry) + (len & ~3) + 4; + entry_size = sizeof(struct sa_entry) + (len & ~3) + 4; entry = kzalloc(entry_size, GFP_NOFS); if (unlikely(!entry)) return ERR_PTR(-ENOMEM); @@ -187,34 +188,9 @@ ll_sa_entry_alloc(struct dentry *parent, len, name, entry, index); entry->se_index = index; - - /* - * Statahead entry reference rules: - * - * 1) When statahead entry is initialized, its reference is set as 2. - * One reference is used by the directory scanner. When the scanner - * searches the statahead cache for the given name, it can perform - * lockless hash lookup (only the scanner can remove entry from hash - * list), and once found, it needn't to call "atomic_inc()" for the - * entry reference. So the performance is improved. After using the - * statahead entry, the scanner will call "atomic_dec()" to drop the - * reference held when initialization. If it is the last reference, - * the statahead entry will be freed. - * - * 2) All other threads, including statahead thread and ptlrpcd thread, - * when they process the statahead entry, the reference for target - * should be held to guarantee the entry will not be released by the - * directory scanner. After processing the entry, these threads will - * drop the entry reference. If it is the last reference, the entry - * will be freed. - * - * The second reference when initializes the statahead entry is used - * by the statahead thread, following the rule 2). - */ - atomic_set(&entry->se_refcount, 2); - entry->se_stat = SA_ENTRY_INIT; + entry->se_state = SA_ENTRY_INIT; entry->se_size = entry_size; - dname = (char *)entry + sizeof(struct ll_sa_entry); + dname = (char *)entry + sizeof(struct sa_entry); memcpy(dname, name, len); dname[len] = 0; @@ -224,9 +200,8 @@ ll_sa_entry_alloc(struct dentry *parent, lli = ll_i2info(sai->sai_inode); spin_lock(&lli->lli_sa_lock); - list_add_tail(&entry->se_link, &sai->sai_entries); INIT_LIST_HEAD(&entry->se_list); - ll_sa_entry_enhash(sai, entry); + sa_rehash(sai, entry); spin_unlock(&lli->lli_sa_lock); atomic_inc(&sai->sai_cache_count); @@ -234,151 +209,130 @@ ll_sa_entry_alloc(struct dentry *parent, return entry; } -/* - * Used by the directory scanner to search entry with name. - * - * Only the caller can remove the entry from hash, so it is unnecessary to hold - * hash lock. It is caller's duty to release the init refcount on the entry, so - * it is also unnecessary to increase refcount on the entry. - */ -static struct ll_sa_entry * -ll_sa_entry_get_byname(struct ll_statahead_info *sai, const struct qstr *qstr) +/* free sa_entry, which should have been unhashed and not in any list */ +static void sa_free(struct ll_statahead_info *sai, struct sa_entry *entry) { - struct ll_sa_entry *entry; - int i = ll_sa_entry_hash(qstr->hash); + CDEBUG(D_READA, "free sa entry %.*s(%p) index %llu\n", + entry->se_qstr.len, entry->se_qstr.name, entry, + entry->se_index); - list_for_each_entry(entry, &sai->sai_cache[i], se_hash) { - if (entry->se_qstr.hash == qstr->hash && - entry->se_qstr.len == qstr->len && - memcmp(entry->se_qstr.name, qstr->name, qstr->len) == 0) - return entry; - } - return NULL; + LASSERT(list_empty(&entry->se_list)); + LASSERT(list_empty(&entry->se_hash)); + + kfree(entry); + atomic_dec(&sai->sai_cache_count); } /* - * Used by the async getattr request callback to find entry with index. - * - * Inside lli_sa_lock to prevent others to change the list during the search. - * It needs to increase entry refcount before returning to guarantee that the - * entry cannot be freed by others. + * find sa_entry by name, used by directory scanner, lock is not needed because + * only scanner can remove the entry from cache. */ -static struct ll_sa_entry * -ll_sa_entry_get_byindex(struct ll_statahead_info *sai, __u64 index) +static struct sa_entry * +sa_get(struct ll_statahead_info *sai, const struct qstr *qstr) { - struct ll_sa_entry *entry; + struct sa_entry *entry; + int i = sa_hash(qstr->hash); - list_for_each_entry(entry, &sai->sai_entries, se_link) { - if (entry->se_index == index) { - LASSERT(atomic_read(&entry->se_refcount) > 0); - atomic_inc(&entry->se_refcount); + list_for_each_entry(entry, &sai->sai_cache[i], se_hash) { + if (entry->se_qstr.hash == qstr->hash && + entry->se_qstr.len == qstr->len && + memcmp(entry->se_qstr.name, qstr->name, qstr->len) == 0) return entry; - } - if (entry->se_index > index) - break; } return NULL; } -static void ll_sa_entry_put(struct ll_statahead_info *sai, - struct ll_sa_entry *entry) -{ - if (atomic_dec_and_test(&entry->se_refcount)) { - CDEBUG(D_READA, "free sa entry %.*s(%p) index %llu\n", - entry->se_qstr.len, entry->se_qstr.name, entry, - entry->se_index); - - LASSERT(list_empty(&entry->se_link)); - LASSERT(list_empty(&entry->se_list)); - LASSERT(list_empty(&entry->se_hash)); - - iput(entry->se_inode); - - kfree(entry); - atomic_dec(&sai->sai_cache_count); - } -} - +/* unhash and unlink sa_entry, and then free it */ static inline void -do_sa_entry_fini(struct ll_statahead_info *sai, struct ll_sa_entry *entry) +sa_kill(struct ll_statahead_info *sai, struct sa_entry *entry) { struct ll_inode_info *lli = ll_i2info(sai->sai_inode); LASSERT(!list_empty(&entry->se_hash)); - LASSERT(!list_empty(&entry->se_link)); + LASSERT(!list_empty(&entry->se_list)); + LASSERT(sa_ready(entry)); - ll_sa_entry_unhash(sai, entry); + sa_unhash(sai, entry); spin_lock(&lli->lli_sa_lock); - entry->se_stat = SA_ENTRY_DEST; - list_del_init(&entry->se_link); - if (likely(!list_empty(&entry->se_list))) - list_del_init(&entry->se_list); + list_del_init(&entry->se_list); spin_unlock(&lli->lli_sa_lock); - ll_sa_entry_put(sai, entry); + if (entry->se_inode) + iput(entry->se_inode); + + sa_free(sai, entry); } -/* - * Delete it from sai_entries_stated list when fini. - */ +/* called by scanner after use, sa_entry will be killed */ static void -ll_sa_entry_fini(struct ll_statahead_info *sai, struct ll_sa_entry *entry) +sa_put(struct ll_statahead_info *sai, struct sa_entry *entry) { - struct ll_sa_entry *pos, *next; + struct sa_entry *tmp, *next; + + if (entry && entry->se_state == SA_ENTRY_SUCC) { + struct ll_sb_info *sbi = ll_i2sbi(sai->sai_inode); + + sai->sai_hit++; + sai->sai_consecutive_miss = 0; + sai->sai_max = min(2 * sai->sai_max, sbi->ll_sa_max); + } else { + sai->sai_miss++; + sai->sai_consecutive_miss++; + } if (entry) - do_sa_entry_fini(sai, entry); + sa_kill(sai, entry); - /* drop old entry, only 'scanner' process does this, no need to lock */ - list_for_each_entry_safe(pos, next, &sai->sai_entries, se_link) { - if (!is_omitted_entry(sai, pos->se_index)) + /* + * kill old completed entries, only scanner process does this, no need + * to lock + */ + list_for_each_entry_safe(tmp, next, &sai->sai_entries, se_list) { + if (!is_omitted_entry(sai, tmp->se_index)) break; - /* keep those whose statahead RPC not finished */ - if (pos->se_stat == SA_ENTRY_SUCC || - pos->se_stat == SA_ENTRY_INVA) - do_sa_entry_fini(sai, pos); + sa_kill(sai, tmp); } + wake_up(&sai->sai_thread.t_ctl_waitq); } /* - * Inside lli_sa_lock. + * update state and sort add entry to sai_entries by index, return true if + * scanner is waiting on this entry. */ -static void -__sa_entry_post_stat(struct ll_statahead_info *sai, struct ll_sa_entry *entry, - enum se_stat stat) +static bool +__sa_make_ready(struct ll_statahead_info *sai, struct sa_entry *entry, int ret) { - struct ll_sa_entry *se; - struct list_head *pos = &sai->sai_entries_stated; - - LASSERT(entry->se_stat == SA_ENTRY_INIT); + struct list_head *pos = &sai->sai_entries; + __u64 index = entry->se_index; + struct sa_entry *se; - if (!list_empty(&entry->se_list)) - list_del_init(&entry->se_list); + LASSERT(!sa_ready(entry)); + LASSERT(list_empty(&entry->se_list)); - list_for_each_entry_reverse(se, &sai->sai_entries_stated, se_list) { + list_for_each_entry_reverse(se, &sai->sai_entries, se_list) { if (se->se_index < entry->se_index) { pos = &se->se_list; break; } } - list_add(&entry->se_list, pos); - entry->se_stat = stat; + entry->se_state = ret < 0 ? SA_ENTRY_INVA : SA_ENTRY_SUCC; + + return (index == sai->sai_index_wait); } /* - * Move entry to sai_entries_stated and sort with the index. - * \retval 1 -- entry to be destroyed. - * \retval 0 -- entry is inserted into stated list. + * release resources used in async stat RPC, update entry state and wakeup if + * scanner process it waiting on this entry. */ static void -sa_entry_post_stat(struct ll_statahead_info *sai, struct ll_sa_entry *entry, - enum se_stat stat) +sa_make_ready(struct ll_statahead_info *sai, struct sa_entry *entry, int ret) { struct ll_inode_info *lli = ll_i2info(sai->sai_inode); struct md_enqueue_info *minfo = entry->se_minfo; struct ptlrpc_request *req = entry->se_req; + bool wakeup; /* release resources used in RPC */ if (minfo) { @@ -394,12 +348,15 @@ sa_entry_post_stat(struct ll_statahead_info *sai, struct ll_sa_entry *entry, } spin_lock(&lli->lli_sa_lock); - __sa_entry_post_stat(sai, entry, stat); + wakeup = __sa_make_ready(sai, entry, ret); spin_unlock(&lli->lli_sa_lock); + + if (wakeup) + wake_up(&sai->sai_waitq); } /* - * Insert inode into the list of sai_entries_agl. + * Insert inode into the list of sai_agls. */ static void ll_agl_add(struct ll_statahead_info *sai, struct inode *inode, int index) @@ -417,9 +374,9 @@ static void ll_agl_add(struct ll_statahead_info *sai, igrab(inode); spin_lock(&parent->lli_agl_lock); - if (list_empty(&sai->sai_entries_agl)) + if (list_empty(&sai->sai_agls)) added = 1; - list_add_tail(&child->lli_agl_list, &sai->sai_entries_agl); + list_add_tail(&child->lli_agl_list, &sai->sai_agls); spin_unlock(&parent->lli_agl_lock); } else { spin_unlock(&child->lli_agl_lock); @@ -429,6 +386,7 @@ static void ll_agl_add(struct ll_statahead_info *sai, wake_up(&sai->sai_agl_thread.t_ctl_waitq); } +/* allocate sai */ static struct ll_statahead_info *ll_sai_alloc(void) { struct ll_statahead_info *sai; @@ -452,10 +410,9 @@ static struct ll_statahead_info *ll_sai_alloc(void) init_waitqueue_head(&sai->sai_thread.t_ctl_waitq); init_waitqueue_head(&sai->sai_agl_thread.t_ctl_waitq); + INIT_LIST_HEAD(&sai->sai_interim_entries); INIT_LIST_HEAD(&sai->sai_entries); - INIT_LIST_HEAD(&sai->sai_entries_received); - INIT_LIST_HEAD(&sai->sai_entries_stated); - INIT_LIST_HEAD(&sai->sai_entries_agl); + INIT_LIST_HEAD(&sai->sai_agls); for (i = 0; i < LL_SA_CACHE_SIZE; i++) { INIT_LIST_HEAD(&sai->sai_cache[i]); @@ -486,7 +443,7 @@ static void ll_sai_put(struct ll_statahead_info *sai) if (atomic_dec_and_lock(&sai->sai_refcount, &lli->lli_sa_lock)) { struct ll_sb_info *sbi = ll_i2sbi(sai->sai_inode); - struct ll_sa_entry *entry, *next; + struct sa_entry *entry, *next; lli->lli_sai = NULL; spin_unlock(&lli->lli_sa_lock); @@ -494,14 +451,14 @@ static void ll_sai_put(struct ll_statahead_info *sai) LASSERT(thread_is_stopped(&sai->sai_thread)); LASSERT(thread_is_stopped(&sai->sai_agl_thread)); LASSERT(sai->sai_sent == sai->sai_replied); + LASSERT(!sa_has_callback(sai)); list_for_each_entry_safe(entry, next, &sai->sai_entries, - se_link) - do_sa_entry_fini(sai, entry); + se_list) + sa_kill(sai, entry); LASSERT(atomic_read(&sai->sai_cache_count) == 0); - LASSERT(list_empty(&sai->sai_entries_agl)); - LASSERT(atomic_read(&sai->sai_refcount) == 0); + LASSERT(list_empty(&sai->sai_agls)); iput(sai->sai_inode); kfree(sai); @@ -509,7 +466,7 @@ static void ll_sai_put(struct ll_statahead_info *sai) } } -/* Do NOT forget to drop inode refcount when into sai_entries_agl. */ +/* Do NOT forget to drop inode refcount when into sai_agls. */ static void ll_agl_trigger(struct inode *inode, struct ll_statahead_info *sai) { struct ll_inode_info *lli = ll_i2info(inode); @@ -569,9 +526,12 @@ static void ll_agl_trigger(struct inode *inode, struct ll_statahead_info *sai) iput(inode); } -/* prepare inode for received statahead entry, and add it into agl list */ -static void sa_post_one(struct ll_statahead_info *sai, - struct ll_sa_entry *entry) +/* + * prepare inode for sa entry, add it into agl list, now sa_entry is ready + * to be used by scanner process. + */ +static void sa_instantiate(struct ll_statahead_info *sai, + struct sa_entry *entry) { struct inode *dir = sai->sai_inode; struct inode *child; @@ -629,8 +589,9 @@ static void sa_post_one(struct ll_statahead_info *sai, if (rc) goto out; - CDEBUG(D_DLMTRACE, "%s: setting l_data to inode "DFID"%p\n", + CDEBUG(D_READA, "%s: setting %.*s" DFID " l_data to inode %p\n", ll_get_fsname(child->i_sb, NULL, 0), + entry->se_qstr.len, entry->se_qstr.name, PFID(ll_inode2fid(child)), child); ll_set_lock_data(ll_i2sbi(dir)->ll_md_exp, child, it, NULL); @@ -640,45 +601,42 @@ static void sa_post_one(struct ll_statahead_info *sai, ll_agl_add(sai, child, entry->se_index); out: - /* The "sa_entry_post_stat()" will drop related ldlm ibits lock - * reference count by calling "ll_intent_drop_lock()" in spite of the - * above operations failed or not. Do not worry about calling - * "ll_intent_drop_lock()" more than once. + /* + * sa_make_ready() will drop ldlm ibits lock refcount by calling + * ll_intent_drop_lock() in spite of failures. Do not worry about + * calling ll_intent_drop_lock() more than once. */ - sa_entry_post_stat(sai, entry, rc < 0 ? SA_ENTRY_INVA : SA_ENTRY_SUCC); - if (entry->se_index == sai->sai_index_wait) - wake_up(&sai->sai_waitq); - ll_sa_entry_put(sai, entry); + sa_make_ready(sai, entry, rc); } -static void ll_post_statahead(struct ll_statahead_info *sai) +/* once there are async stat replies, instantiate sa_entry */ +static void sa_handle_callback(struct ll_statahead_info *sai) { struct ll_inode_info *lli; lli = ll_i2info(sai->sai_inode); - while (!sa_received_empty(sai)) { - struct ll_sa_entry *entry; + while (sa_has_callback(sai)) { + struct sa_entry *entry; spin_lock(&lli->lli_sa_lock); - if (unlikely(sa_received_empty(sai))) { + if (unlikely(!sa_has_callback(sai))) { spin_unlock(&lli->lli_sa_lock); break; } - entry = list_entry(sai->sai_entries_received.next, - struct ll_sa_entry, se_list); - atomic_inc(&entry->se_refcount); + entry = list_entry(sai->sai_interim_entries.next, + struct sa_entry, se_list); list_del_init(&entry->se_list); spin_unlock(&lli->lli_sa_lock); - sa_post_one(sai, entry); + sa_instantiate(sai, entry); } spin_lock(&lli->lli_agl_lock); while (!agl_list_empty(sai)) { struct ll_inode_info *clli; - clli = list_entry(sai->sai_entries_agl.next, + clli = list_entry(sai->sai_agls.next, struct ll_inode_info, lli_agl_list); list_del_init(&clli->lli_agl_list); spin_unlock(&lli->lli_agl_lock); @@ -690,29 +648,38 @@ static void ll_post_statahead(struct ll_statahead_info *sai) spin_unlock(&lli->lli_agl_lock); } +/* + * callback for async stat, because this is called in ptlrpcd context, we only + * put sa_entry in sai_cb_entries list, and let sa_handle_callback() to really + * prepare inode and instantiate sa_entry later. + */ static int ll_statahead_interpret(struct ptlrpc_request *req, struct md_enqueue_info *minfo, int rc) { struct lookup_intent *it = &minfo->mi_it; struct inode *dir = minfo->mi_dir; struct ll_inode_info *lli = ll_i2info(dir); - struct ll_statahead_info *sai = NULL; - struct ll_sa_entry *entry; - int wakeup; + struct ll_statahead_info *sai = lli->lli_sai; + struct sa_entry *entry = (struct sa_entry *)minfo->mi_cbdata; + bool wakeup; if (it_disposition(it, DISP_LOOKUP_NEG)) rc = -ENOENT; - sai = ll_sai_get(dir); + /* + * because statahead thread will wait for all inflight RPC to finish, + * sai should be always valid, no need to refcount + */ LASSERT(sai); LASSERT(!thread_is_stopped(&sai->sai_thread)); + LASSERT(entry); + + CDEBUG(D_READA, "sa_entry %.*s rc %d\n", + entry->se_qstr.len, entry->se_qstr.name, rc); spin_lock(&lli->lli_sa_lock); - entry = ll_sa_entry_get_byindex(sai, minfo->mi_cbdata); - LASSERT(entry); if (rc) { - __sa_entry_post_stat(sai, entry, SA_ENTRY_INVA); - wakeup = (entry->se_index == sai->sai_index_wait); + wakeup = __sa_make_ready(sai, entry, rc); } else { entry->se_minfo = minfo; entry->se_req = ptlrpc_request_addref(req); @@ -724,27 +691,24 @@ static int ll_statahead_interpret(struct ptlrpc_request *req, */ entry->se_handle = it->it_lock_handle; ll_intent_drop_lock(it); - wakeup = sa_received_empty(sai); - list_add_tail(&entry->se_list, &sai->sai_entries_received); + wakeup = !sa_has_callback(sai); + list_add_tail(&entry->se_list, &sai->sai_interim_entries); } sai->sai_replied++; - spin_unlock(&lli->lli_sa_lock); - ll_sa_entry_put(sai, entry); if (wakeup) wake_up(&sai->sai_thread.t_ctl_waitq); + spin_unlock(&lli->lli_sa_lock); if (rc) { ll_intent_release(it); iput(dir); kfree(minfo); } - if (sai) - ll_sai_put(sai); return rc; } -static void sa_args_fini(struct md_enqueue_info *minfo, +static void sa_fini_data(struct md_enqueue_info *minfo, struct ldlm_enqueue_info *einfo) { LASSERT(minfo && einfo); @@ -756,8 +720,8 @@ static void sa_args_fini(struct md_enqueue_info *minfo, /** * prepare arguments for async stat RPC. */ -static int sa_args_init(struct inode *dir, struct inode *child, - struct ll_sa_entry *entry, struct md_enqueue_info **pmi, +static int sa_prep_data(struct inode *dir, struct inode *child, + struct sa_entry *entry, struct md_enqueue_info **pmi, struct ldlm_enqueue_info **pei) { const struct qstr *qstr = &entry->se_qstr; @@ -786,7 +750,7 @@ static int sa_args_init(struct inode *dir, struct inode *child, minfo->mi_it.it_op = IT_GETATTR; minfo->mi_dir = igrab(dir); minfo->mi_cb = ll_statahead_interpret; - minfo->mi_cbdata = entry->se_index; + minfo->mi_cbdata = entry; einfo->ei_type = LDLM_IBITS; einfo->ei_mode = it_to_lock_mode(&minfo->mi_it); @@ -801,19 +765,19 @@ static int sa_args_init(struct inode *dir, struct inode *child, return 0; } -static int do_sa_lookup(struct inode *dir, struct ll_sa_entry *entry) +static int sa_lookup(struct inode *dir, struct sa_entry *entry) { struct md_enqueue_info *minfo; struct ldlm_enqueue_info *einfo; int rc; - rc = sa_args_init(dir, NULL, entry, &minfo, &einfo); + rc = sa_prep_data(dir, NULL, entry, &minfo, &einfo); if (rc) return rc; rc = md_intent_getattr_async(ll_i2mdexp(dir), minfo, einfo); if (rc < 0) - sa_args_fini(minfo, einfo); + sa_fini_data(minfo, einfo); return rc; } @@ -824,8 +788,8 @@ static int do_sa_lookup(struct inode *dir, struct ll_sa_entry *entry) * \retval 0 -- will send stat-ahead request * \retval others -- prepare stat-ahead request failed */ -static int do_sa_revalidate(struct inode *dir, struct ll_sa_entry *entry, - struct dentry *dentry) +static int sa_revalidate(struct inode *dir, struct sa_entry *entry, + struct dentry *dentry) { struct inode *inode = d_inode(dentry); struct lookup_intent it = { .it_op = IT_GETATTR, @@ -849,7 +813,7 @@ static int do_sa_revalidate(struct inode *dir, struct ll_sa_entry *entry, return 1; } - rc = sa_args_init(dir, inode, entry, &minfo, &einfo); + rc = sa_prep_data(dir, inode, entry, &minfo, &einfo); if (rc) { entry->se_inode = NULL; iput(inode); @@ -860,32 +824,30 @@ static int do_sa_revalidate(struct inode *dir, struct ll_sa_entry *entry, if (rc < 0) { entry->se_inode = NULL; iput(inode); - sa_args_fini(minfo, einfo); + sa_fini_data(minfo, einfo); } return rc; } -static void ll_statahead_one(struct dentry *parent, const char *name, - const int name_len) +static void sa_statahead(struct dentry *parent, const char *name, int len) { struct inode *dir = d_inode(parent); struct ll_inode_info *lli = ll_i2info(dir); struct ll_statahead_info *sai = lli->lli_sai; struct dentry *dentry = NULL; - struct ll_sa_entry *entry; + struct sa_entry *entry; int rc; - entry = ll_sa_entry_alloc(parent, sai, sai->sai_index, name, - name_len); + entry = sa_alloc(parent, sai, sai->sai_index, name, len); if (IS_ERR(entry)) return; dentry = d_lookup(parent, &entry->se_qstr); if (!dentry) { - rc = do_sa_lookup(dir, entry); + rc = sa_lookup(dir, entry); } else { - rc = do_sa_revalidate(dir, entry, dentry); + rc = sa_revalidate(dir, entry, dentry); if (rc == 1 && agl_should_run(sai, d_inode(dentry))) ll_agl_add(sai, d_inode(dentry), entry->se_index); } @@ -893,18 +855,12 @@ static void ll_statahead_one(struct dentry *parent, const char *name, if (dentry) dput(dentry); - if (rc) { - sa_entry_post_stat(sai, entry, - rc < 0 ? SA_ENTRY_INVA : SA_ENTRY_SUCC); - if (entry->se_index == sai->sai_index_wait) - wake_up(&sai->sai_waitq); - } else { + if (rc) + sa_make_ready(sai, entry, rc); + else sai->sai_sent++; - } sai->sai_index++; - /* drop one refcount on entry by ll_sa_entry_alloc */ - ll_sa_entry_put(sai, entry); } static int ll_agl_thread(void *arg) @@ -938,7 +894,7 @@ static int ll_agl_thread(void *arg) while (1) { l_wait_event(thread->t_ctl_waitq, - !list_empty(&sai->sai_entries_agl) || + !list_empty(&sai->sai_agls) || !thread_is_running(thread), &lwi); @@ -949,8 +905,8 @@ static int ll_agl_thread(void *arg) /* The statahead thread maybe help to process AGL entries, * so check whether list empty again. */ - if (!list_empty(&sai->sai_entries_agl)) { - clli = list_entry(sai->sai_entries_agl.next, + if (!list_empty(&sai->sai_agls)) { + clli = list_entry(sai->sai_agls.next, struct ll_inode_info, lli_agl_list); list_del_init(&clli->lli_agl_list); spin_unlock(&plli->lli_agl_lock); @@ -962,8 +918,8 @@ static int ll_agl_thread(void *arg) spin_lock(&plli->lli_agl_lock); sai->sai_agl_valid = 0; - while (!list_empty(&sai->sai_entries_agl)) { - clli = list_entry(sai->sai_entries_agl.next, + while (!list_empty(&sai->sai_agls)) { + clli = list_entry(sai->sai_agls.next, struct ll_inode_info, lli_agl_list); list_del_init(&clli->lli_agl_list); spin_unlock(&plli->lli_agl_lock); @@ -1118,15 +1074,15 @@ static int ll_statahead_thread(void *arg) do { l_wait_event(thread->t_ctl_waitq, !sa_sent_full(sai) || - !list_empty(&sai->sai_entries_received) || - !list_empty(&sai->sai_entries_agl) || + sa_has_callback(sai) || + !list_empty(&sai->sai_agls) || !thread_is_running(thread), &lwi); - ll_post_statahead(sai); + sa_handle_callback(sai); } while (sa_sent_full(sai) && thread_is_running(thread)); - ll_statahead_one(parent, name, namelen); + sa_statahead(parent, name, namelen); } pos = le64_to_cpu(dp->ldp_hash_end); @@ -1158,12 +1114,12 @@ static int ll_statahead_thread(void *arg) */ while (thread_is_running(thread)) { l_wait_event(thread->t_ctl_waitq, - !sa_received_empty(sai) || + sa_has_callback(sai) || !agl_list_empty(sai) || !thread_is_running(thread), &lwi); - ll_post_statahead(sai); + sa_handle_callback(sai); } out: if (sai->sai_agl_valid) { @@ -1193,8 +1149,8 @@ out: sai->sai_sent == sai->sai_replied, &lwi); } - /* release resources held by received entries. */ - ll_post_statahead(sai); + /* release resources held by statahead RPCs */ + sa_handle_callback(sai); spin_lock(&lli->lli_sa_lock); thread_set_flags(thread, SVC_STOPPED); @@ -1251,7 +1207,7 @@ void ll_deauthorize_statahead(struct inode *dir, void *key) if (sai && thread_is_running(&sai->sai_thread)) { /* * statahead thread may not quit yet because it needs to cache - * stated entries, now it's time to tell it to quit. + * entries, now it's time to tell it to quit. */ thread_set_flags(&sai->sai_thread, SVC_STOPPING); wake_up(&sai->sai_thread.t_ctl_waitq); @@ -1389,29 +1345,12 @@ out: return rc; } -static void -ll_sai_unplug(struct ll_statahead_info *sai, struct ll_sa_entry *entry) -{ - if (entry && entry->se_stat == SA_ENTRY_SUCC) { - struct ll_sb_info *sbi = ll_i2sbi(sai->sai_inode); - - sai->sai_hit++; - sai->sai_consecutive_miss = 0; - sai->sai_max = min(2 * sai->sai_max, sbi->ll_sa_max); - } else { - sai->sai_miss++; - sai->sai_consecutive_miss++; - } - ll_sa_entry_fini(sai, entry); - wake_up(&sai->sai_thread.t_ctl_waitq); -} - static int revalidate_statahead_dentry(struct inode *dir, struct ll_statahead_info *sai, struct dentry **dentryp, int only_unplug) { - struct ll_sa_entry *entry = NULL; + struct sa_entry *entry = NULL; struct l_wait_info lwi = { 0 }; int rc = 0; @@ -1442,31 +1381,31 @@ static int revalidate_statahead_dentry(struct inode *dir, } } - entry = ll_sa_entry_get_byname(sai, &(*dentryp)->d_name); + entry = sa_get(sai, &(*dentryp)->d_name); if (!entry || only_unplug) { - ll_sai_unplug(sai, entry); + sa_put(sai, entry); return entry ? 1 : -EAGAIN; } /* if statahead is busy in readdir, help it do post-work */ - if (!ll_sa_entry_stated(entry) && sai->sai_in_readpage) - ll_post_statahead(sai); + if (!sa_ready(entry) && sai->sai_in_readpage) + sa_handle_callback(sai); - if (!ll_sa_entry_stated(entry)) { + if (!sa_ready(entry)) { sai->sai_index_wait = entry->se_index; lwi = LWI_TIMEOUT_INTR(cfs_time_seconds(30), NULL, LWI_ON_SIGNAL_NOOP, NULL); rc = l_wait_event(sai->sai_waitq, - ll_sa_entry_stated(entry) || + sa_ready(entry) || thread_is_stopped(&sai->sai_thread), &lwi); if (rc < 0) { - ll_sai_unplug(sai, entry); + sa_put(sai, entry); return -EAGAIN; } } - if (entry->se_stat == SA_ENTRY_SUCC && entry->se_inode) { + if (entry->se_state == SA_ENTRY_SUCC && entry->se_inode) { struct inode *inode = entry->se_inode; struct lookup_intent it = { .it_op = IT_GETATTR, .it_lock_handle = entry->se_handle }; @@ -1480,7 +1419,7 @@ static int revalidate_statahead_dentry(struct inode *dir, alias = ll_splice_alias(inode, *dentryp); if (IS_ERR(alias)) { - ll_sai_unplug(sai, entry); + sa_put(sai, entry); return PTR_ERR(alias); } *dentryp = alias; @@ -1507,7 +1446,7 @@ static int revalidate_statahead_dentry(struct inode *dir, } } out_unplug: - ll_sai_unplug(sai, entry); + sa_put(sai, entry); return rc; }