* Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved.
* Use is subject to license terms.
*
- * Copyright (c) 2011, 2013, Intel Corporation.
+ * Copyright (c) 2011, 2015, Intel Corporation.
*/
/*
* This file is part of Lustre, http://www.lustre.org/
#include <linux/fs.h>
#include <linux/sched.h>
+#include <linux/kthread.h>
#include <linux/mm.h>
#include <linux/highmem.h>
#include <linux/pagemap.h>
#define DEBUG_SUBSYSTEM S_LLITE
#include <obd_support.h>
-#include <lustre_lite.h>
#include <lustre_dlm.h>
#include "llite_internal.h"
#define SA_OMITTED_ENTRY_MAX 8ULL
typedef enum {
- /** negative values are for error cases */
- 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 */
-} se_stat_t;
-
-struct ll_sa_entry {
- /* link into sai->sai_entries */
- struct list_head se_link;
- /* link into sai->sai_entries_{received,stated} */
+ /** negative values are for error cases */
+ SA_ENTRY_INIT = 0, /** init entry */
+ SA_ENTRY_SUCC = 1, /** stat succeed */
+ SA_ENTRY_INVA = 2, /** invalid entry */
+} se_state_t;
+
+/* 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_interim_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_interim_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;
+ __u64 se_index;
/* low layer ldlm lock handle */
- __u64 se_handle;
+ __u64 se_handle;
/* entry status */
- se_stat_t se_stat;
+ se_state_t se_state;
/* entry size, contains name */
- int se_size;
+ int se_size;
/* pointer to async getattr enqueue info */
struct md_enqueue_info *se_minfo;
/* pointer to the async getattr request */
struct ptlrpc_request *se_req;
/* pointer to the target inode */
- struct inode *se_inode;
+ struct inode *se_inode;
/* entry name */
- struct qstr se_qstr;
+ struct qstr se_qstr;
+ /* entry fid */
+ struct lu_fid se_fid;
};
static unsigned int sai_generation = 0;
static DEFINE_SPINLOCK(sai_generation_lock);
-static inline int ll_sa_entry_unhashed(struct ll_sa_entry *entry)
+static inline int sa_unhashed(struct sa_entry *entry)
{
return list_empty(&entry->se_hash);
}
-/*
- * 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)
+/* sa_entry is ready to use */
+static inline int sa_ready(struct sa_entry *entry)
{
- smp_rmb();
- return (entry->se_stat != SA_ENTRY_INIT);
+ smp_rmb();
+ return (entry->se_state != SA_ENTRY_INIT);
}
-static inline int ll_sa_entry_hash(int val)
+/* hash value to put in sai_cache */
+static inline int sa_hash(int val)
{
- return val & LL_SA_CACHE_MASK;
+ return val & LL_SA_CACHE_MASK;
}
-/*
- * Insert entry to hash SA table.
- */
+/* hash entry into sai_cache */
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]);
spin_unlock(&sai->sai_cache_lock[i]);
}
-/*
- * Remove entry from SA table.
- */
+/* unhash entry from sai_cache */
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);
return (inode != NULL && S_ISREG(inode->i_mode) && sai->sai_agl_valid);
}
-static inline struct ll_sa_entry *
-sa_first_received_entry(struct ll_statahead_info *sai)
-{
- return list_entry(sai->sai_entries_received.next,
- struct ll_sa_entry, se_list);
-}
-
static inline struct ll_inode_info *
agl_first_entry(struct ll_statahead_info *sai)
{
- return list_entry(sai->sai_entries_agl.next,
- struct ll_inode_info, lli_agl_list);
+ return list_entry(sai->sai_agls.next, struct ll_inode_info,
+ lli_agl_list);
}
+/* statahead window is full */
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)
+/* got async stat replies */
+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);
}
/**
}
/*
- * If the given index is behind of statahead window more than
+ * if the given index is behind of statahead window more than
* SA_OMITTED_ENTRY_MAX, then it is old.
*/
static inline int is_omitted_entry(struct ll_statahead_info *sai, __u64 index)
sai->sai_index);
}
-/*
- * Insert it into sai_entries tail when init.
- */
-static struct ll_sa_entry *
-ll_sa_entry_alloc(struct ll_statahead_info *sai, __u64 index, const char *name,
- int len)
+/* allocate sa_entry and hash it to allow scanner process to find it */
+static struct sa_entry *
+sa_alloc(struct ll_statahead_info *sai, __u64 index, const char *name, int len,
+ const struct lu_fid *fid)
{
- struct ll_inode_info *lli;
- struct ll_sa_entry *entry;
- int entry_size;
- char *dname;
- ENTRY;
+ struct ll_inode_info *lli;
+ struct sa_entry *entry;
+ int entry_size;
+ char *dname;
+ ENTRY;
- entry_size = sizeof(struct ll_sa_entry) + (len & ~3) + 4;
- OBD_ALLOC(entry, entry_size);
- if (unlikely(entry == NULL))
- RETURN(ERR_PTR(-ENOMEM));
+ entry_size = sizeof(struct sa_entry) + (len & ~3) + 4;
+ OBD_ALLOC(entry, entry_size);
+ if (unlikely(entry == NULL))
+ RETURN(ERR_PTR(-ENOMEM));
CDEBUG(D_READA, "alloc sa entry %.*s(%p) index "LPU64"\n",
len, name, entry, index);
- entry->se_index = 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;
entry->se_qstr.hash = full_name_hash(name, len);
entry->se_qstr.len = len;
entry->se_qstr.name = dname;
+ entry->se_fid = *fid;
+
+ lli = ll_i2info(sai->sai_dentry->d_inode);
- 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);
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 "LPU64"\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(sa_unhashed(entry));
+
+ OBD_FREE(entry, entry->se_size);
+ 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 "LPU64"\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(ll_sa_entry_unhashed(entry));
-
- if (entry->se_inode)
- iput(entry->se_inode);
-
- OBD_FREE(entry, entry->se_size);
- 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);
+ struct ll_inode_info *lli = ll_i2info(sai->sai_dentry->d_inode);
- LASSERT(!ll_sa_entry_unhashed(entry));
- LASSERT(!list_empty(&entry->se_link));
+ LASSERT(!sa_unhashed(entry));
+ 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 != NULL)
+ 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 != NULL && entry->se_state == SA_ENTRY_SUCC) {
+ struct ll_sb_info *sbi = ll_i2sbi(sai->sai_dentry->d_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);
+ if (entry != NULL)
+ 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.
- */
-static void
-__sa_entry_post_stat(struct ll_statahead_info *sai, struct ll_sa_entry *entry,
- se_stat_t stat)
+/* update state and sort add entry to sai_entries by index, return true if
+ * scanner is waiting on this entry. */
+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 sa_entry *se;
+ struct list_head *pos = &sai->sai_entries;
+ __u64 index = entry->se_index;
- 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,
- se_stat_t 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 ll_inode_info *lli = ll_i2info(sai->sai_dentry->d_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) {
}
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)
{
struct ll_inode_info *child = ll_i2info(inode);
- struct ll_inode_info *parent = ll_i2info(sai->sai_inode);
+ struct ll_inode_info *parent = ll_i2info(sai->sai_dentry->d_inode);
int added = 0;
spin_lock(&child->lli_agl_lock);
spin_lock(&parent->lli_agl_lock);
if (agl_list_empty(sai))
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);
wake_up(&sai->sai_agl_thread.t_ctl_waitq);
}
-static struct ll_statahead_info *ll_sai_alloc(void)
+/* allocate sai */
+static struct ll_statahead_info *ll_sai_alloc(struct dentry *dentry)
{
struct ll_statahead_info *sai;
- int i;
+ struct ll_inode_info *lli = ll_i2info(dentry->d_inode);
+ int i;
ENTRY;
OBD_ALLOC_PTR(sai);
if (!sai)
RETURN(NULL);
+ sai->sai_dentry = dget(dentry);
atomic_set(&sai->sai_refcount, 1);
-
- spin_lock(&sai_generation_lock);
- sai->sai_generation = ++sai_generation;
- if (unlikely(sai_generation == 0))
- sai->sai_generation = ++sai_generation;
- spin_unlock(&sai_generation_lock);
-
sai->sai_max = LL_SA_RPC_MIN;
sai->sai_index = 1;
init_waitqueue_head(&sai->sai_waitq);
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]);
}
atomic_set(&sai->sai_cache_count, 0);
+ spin_lock(&sai_generation_lock);
+ lli->lli_sa_generation = ++sai_generation;
+ if (unlikely(sai_generation == 0))
+ lli->lli_sa_generation = ++sai_generation;
+ spin_unlock(&sai_generation_lock);
+
RETURN(sai);
}
+/* free sai */
+static inline void ll_sai_free(struct ll_statahead_info *sai)
+{
+ LASSERT(sai->sai_dentry != NULL);
+ dput(sai->sai_dentry);
+ OBD_FREE_PTR(sai);
+}
+
+/*
+ * take refcount of sai if sai for @dir exists, which means statahead is on for
+ * this directory.
+ */
static inline struct ll_statahead_info *ll_sai_get(struct inode *dir)
{
struct ll_inode_info *lli = ll_i2info(dir);
return sai;
}
+/*
+ * put sai refcount after use, if refcount reaches zero, free sai and sa_entries
+ * attached to it.
+ */
static void ll_sai_put(struct ll_statahead_info *sai)
{
- struct ll_inode_info *lli = ll_i2info(sai->sai_inode);
+ struct ll_inode_info *lli = ll_i2info(sai->sai_dentry->d_inode);
if (atomic_dec_and_lock(&sai->sai_refcount, &lli->lli_sa_lock)) {
- struct ll_sa_entry *entry, *next;
- struct ll_sb_info *sbi = ll_i2sbi(sai->sai_inode);
+ struct sa_entry *entry, *next;
+ struct ll_sb_info *sbi = ll_i2sbi(sai->sai_dentry->d_inode);
lli->lli_sai = NULL;
spin_unlock(&lli->lli_sa_lock);
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(agl_list_empty(sai));
- LASSERT(atomic_read(&sai->sai_refcount) == 0);
- iput(sai->sai_inode);
- OBD_FREE_PTR(sai);
+ ll_sai_free(sai);
atomic_dec(&sbi->ll_sa_running);
}
}
-/* 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);
- __u64 index = lli->lli_agl_index;
- int rc;
- ENTRY;
+ struct ll_inode_info *lli = ll_i2info(inode);
+ __u64 index = lli->lli_agl_index;
+ int rc;
+ ENTRY;
LASSERT(list_empty(&lli->lli_agl_list));
EXIT;
}
-/* 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;
- struct md_enqueue_info *minfo;
- struct lookup_intent *it;
- struct ptlrpc_request *req;
- struct mdt_body *body;
- int rc = 0;
- ENTRY;
+ struct inode *dir = sai->sai_dentry->d_inode;
+ struct inode *child;
+ struct md_enqueue_info *minfo;
+ struct lookup_intent *it;
+ struct ptlrpc_request *req;
+ struct mdt_body *body;
+ int rc = 0;
+ ENTRY;
LASSERT(entry->se_handle != 0);
if (body == NULL)
GOTO(out, rc = -EFAULT);
- child = entry->se_inode;
- if (child == NULL) {
- /*
- * lookup.
- */
- LASSERT(fid_is_zero(&minfo->mi_data.op_fid2));
-
- /* XXX: No fid in reply, this is probaly cross-ref case.
- * SA can't handle it yet. */
- if (body->mbo_valid & OBD_MD_MDS)
- GOTO(out, rc = -EAGAIN);
- } else {
- /*
- * revalidate.
- */
- /* unlinked and re-created with the same name */
+ child = entry->se_inode;
+ if (child != NULL) {
+ /* revalidate; unlinked and re-created with the same name */
if (unlikely(!lu_fid_eq(&minfo->mi_data.op_fid2,
&body->mbo_fid1))) {
- entry->se_inode = NULL;
- iput(child);
- child = NULL;
- }
- }
+ entry->se_inode = NULL;
+ iput(child);
+ child = NULL;
+ }
+ }
- it->d.lustre.it_lock_handle = entry->se_handle;
+ it->it_lock_handle = entry->se_handle;
rc = md_revalidate_lock(ll_i2mdexp(dir), it, ll_inode2fid(dir), NULL);
if (rc != 1)
GOTO(out, rc = -EAGAIN);
if (rc)
GOTO(out, rc);
- 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);
EXIT;
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_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() 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_make_ready(sai, entry, rc);
}
-static void ll_post_statahead(struct ll_statahead_info *sai)
+/* once there are async stat replies, instantiate sa_entry from replies */
+static void sa_handle_callback(struct ll_statahead_info *sai)
{
struct ll_inode_info *lli;
- lli = ll_i2info(sai->sai_inode);
+ lli = ll_i2info(sai->sai_dentry->d_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 = sa_first_received_entry(sai);
- 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 = agl_first_entry(sai);
- list_del_init(&clli->lli_agl_list);
- spin_unlock(&lli->lli_agl_lock);
-
- ll_agl_trigger(&clli->lli_vfs_inode, sai);
-
- spin_lock(&lli->lli_agl_lock);
- }
- spin_unlock(&lli->lli_agl_lock);
}
+/*
+ * callback for async stat RPC, because this is called in ptlrpcd context, we
+ * only put sa_entry in sai_interim_entries, and wake up statahead thread 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;
- 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;
+ __u64 handle = 0;
+ wait_queue_head_t *waitq = NULL;
ENTRY;
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 != NULL);
LASSERT(!thread_is_stopped(&sai->sai_thread));
+ LASSERT(entry != NULL);
+
+ CDEBUG(D_READA, "sa_entry %.*s rc %d\n",
+ entry->se_qstr.len, entry->se_qstr.name, rc);
+
+ if (rc != 0) {
+ ll_intent_release(it);
+ iput(dir);
+ OBD_FREE_PTR(minfo);
+ } else {
+ /* release ibits lock ASAP to avoid deadlock when statahead
+ * thread enqueues lock on parent in readdir and another
+ * process enqueues lock on child with parent lock held, eg.
+ * unlink. */
+ handle = it->it_lock_handle;
+ ll_intent_drop_lock(it);
+ }
spin_lock(&lli->lli_sa_lock);
- entry = ll_sa_entry_get_byindex(sai, minfo->mi_cbdata);
- LASSERT(entry != NULL);
if (rc != 0) {
- __sa_entry_post_stat(sai, entry, SA_ENTRY_INVA);
- wakeup = (entry->se_index == sai->sai_index_wait);
+ if (__sa_make_ready(sai, entry, rc))
+ waitq = &sai->sai_waitq;
} else {
entry->se_minfo = minfo;
entry->se_req = ptlrpc_request_addref(req);
* when statahead thread tries to enqueue lock on parent
* for readpage and other tries to enqueue lock on child
* with parent's lock held, for example: unlink. */
- entry->se_handle = it->d.lustre.it_lock_handle;
- ll_intent_drop_lock(it);
- wakeup = sa_received_empty(sai);
- list_add_tail(&entry->se_list, &sai->sai_entries_received);
+ entry->se_handle = handle;
+ if (!sa_has_callback(sai))
+ waitq = &sai->sai_thread.t_ctl_waitq;
+
+ list_add_tail(&entry->se_list, &sai->sai_interim_entries);
}
sai->sai_replied++;
+ if (waitq != NULL)
+ wake_up(waitq);
spin_unlock(&lli->lli_sa_lock);
- ll_sa_entry_put(sai, entry);
- if (wakeup)
- wake_up(&sai->sai_thread.t_ctl_waitq);
-
- if (rc != 0) {
- ll_intent_release(it);
- iput(dir);
- OBD_FREE_PTR(minfo);
- }
- ll_sai_put(sai);
RETURN(rc);
}
-static void sa_args_fini(struct md_enqueue_info *minfo,
- struct ldlm_enqueue_info *einfo)
+/* finish async stat RPC arguments */
+static void sa_fini_data(struct md_enqueue_info *minfo)
{
- LASSERT(minfo && einfo);
iput(minfo->mi_dir);
- capa_put(minfo->mi_data.op_capa1);
- capa_put(minfo->mi_data.op_capa2);
OBD_FREE_PTR(minfo);
- OBD_FREE_PTR(einfo);
}
-/**
- * There is race condition between "capa_put" and "ll_statahead_interpret" for
- * accessing "op_data.op_capa[1,2]" as following:
- * "capa_put" releases "op_data.op_capa[1,2]"'s reference count after calling
- * "md_intent_getattr_async". But "ll_statahead_interpret" maybe run first, and
- * fill "op_data.op_capa[1,2]" as POISON, then cause "capa_put" access invalid
- * "ocapa". So here reserve "op_data.op_capa[1,2]" in "pcapa" before calling
- * "md_intent_getattr_async".
+/*
+ * 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,
- struct ldlm_enqueue_info **pei,
- struct obd_capa **pcapa)
+static struct md_enqueue_info *
+sa_prep_data(struct inode *dir, struct inode *child, struct sa_entry *entry)
{
- struct qstr *qstr = &entry->se_qstr;
- struct md_enqueue_info *minfo;
- struct ldlm_enqueue_info *einfo;
- struct md_op_data *op_data;
-
- OBD_ALLOC_PTR(einfo);
- if (einfo == NULL)
- return -ENOMEM;
-
- OBD_ALLOC_PTR(minfo);
- if (minfo == NULL) {
- OBD_FREE_PTR(einfo);
- return -ENOMEM;
- }
+ struct md_enqueue_info *minfo;
+ struct ldlm_enqueue_info *einfo;
+ struct md_op_data *op_data;
- op_data = ll_prep_md_op_data(&minfo->mi_data, dir, child, qstr->name,
- qstr->len, 0, LUSTRE_OPC_ANY, NULL);
- if (IS_ERR(op_data)) {
- OBD_FREE_PTR(einfo);
- OBD_FREE_PTR(minfo);
- return PTR_ERR(op_data);
- }
+ OBD_ALLOC_PTR(minfo);
+ if (minfo == NULL)
+ return ERR_PTR(-ENOMEM);
+
+ op_data = ll_prep_md_op_data(&minfo->mi_data, dir, child, NULL, 0, 0,
+ LUSTRE_OPC_ANY, NULL);
+ if (IS_ERR(op_data)) {
+ OBD_FREE_PTR(minfo);
+ return (struct md_enqueue_info *)op_data;
+ }
+
+ if (child == NULL)
+ op_data->op_fid2 = entry->se_fid;
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);
- einfo->ei_cb_bl = ll_md_blocking_ast;
- einfo->ei_cb_cp = ldlm_completion_ast;
- einfo->ei_cb_gl = NULL;
- einfo->ei_cbdata = NULL;
+ einfo = &minfo->mi_einfo;
+ einfo->ei_type = LDLM_IBITS;
+ einfo->ei_mode = it_to_lock_mode(&minfo->mi_it);
+ einfo->ei_cb_bl = ll_md_blocking_ast;
+ einfo->ei_cb_cp = ldlm_completion_ast;
+ einfo->ei_cb_gl = NULL;
+ einfo->ei_cbdata = NULL;
- *pmi = minfo;
- *pei = einfo;
- pcapa[0] = op_data->op_capa1;
- pcapa[1] = op_data->op_capa2;
-
- return 0;
+ return minfo;
}
-static int do_sa_lookup(struct inode *dir, struct ll_sa_entry *entry)
+/* async stat for file not found in dcache */
+static int sa_lookup(struct inode *dir, struct sa_entry *entry)
{
- struct md_enqueue_info *minfo;
- struct ldlm_enqueue_info *einfo;
- struct obd_capa *capas[2];
- int rc;
- ENTRY;
+ struct md_enqueue_info *minfo;
+ int rc;
+ ENTRY;
- rc = sa_args_init(dir, NULL, entry, &minfo, &einfo, capas);
- if (rc)
- RETURN(rc);
-
- rc = md_intent_getattr_async(ll_i2mdexp(dir), minfo, einfo);
- if (!rc) {
- capa_put(capas[0]);
- capa_put(capas[1]);
- } else {
- sa_args_fini(minfo, einfo);
- }
+ minfo = sa_prep_data(dir, NULL, entry);
+ if (IS_ERR(minfo))
+ RETURN(PTR_ERR(minfo));
+
+ rc = md_intent_getattr_async(ll_i2mdexp(dir), minfo);
+ if (rc < 0)
+ sa_fini_data(minfo);
- RETURN(rc);
+ RETURN(rc);
}
/**
- * similar to ll_revalidate_it().
- * \retval 1 -- dentry valid
- * \retval 0 -- will send stat-ahead request
- * \retval others -- prepare stat-ahead request failed
+ * async stat for file found in dcache, similar to .revalidate
+ *
+ * \retval 1 dentry valid, no RPC sent
+ * \retval 0 dentry invalid, will send async stat RPC
+ * \retval negative number upon error
*/
-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 = dentry->d_inode;
- struct lookup_intent it = { .it_op = IT_GETATTR,
- .d.lustre.it_lock_handle = 0 };
- struct md_enqueue_info *minfo;
- struct ldlm_enqueue_info *einfo;
- struct obd_capa *capas[2];
- int rc;
- ENTRY;
-
- if (unlikely(inode == NULL))
- RETURN(1);
-
- if (d_mountpoint(dentry))
- RETURN(1);
-
- entry->se_inode = igrab(inode);
- rc = md_revalidate_lock(ll_i2mdexp(dir), &it, ll_inode2fid(inode),NULL);
- if (rc == 1) {
- entry->se_handle = it.d.lustre.it_lock_handle;
- ll_intent_release(&it);
- RETURN(1);
- }
+ struct inode *inode = dentry->d_inode;
+ struct lookup_intent it = { .it_op = IT_GETATTR,
+ .it_lock_handle = 0 };
+ struct md_enqueue_info *minfo;
+ int rc;
+ ENTRY;
- rc = sa_args_init(dir, inode, entry, &minfo, &einfo, capas);
- if (rc) {
- entry->se_inode = NULL;
- iput(inode);
- RETURN(rc);
- }
+ if (unlikely(inode == NULL))
+ RETURN(1);
- rc = md_intent_getattr_async(ll_i2mdexp(dir), minfo, einfo);
- if (!rc) {
- capa_put(capas[0]);
- capa_put(capas[1]);
- } else {
- entry->se_inode = NULL;
- iput(inode);
- sa_args_fini(minfo, einfo);
- }
+ if (d_mountpoint(dentry))
+ RETURN(1);
+
+ entry->se_inode = igrab(inode);
+ rc = md_revalidate_lock(ll_i2mdexp(dir), &it, ll_inode2fid(inode),
+ NULL);
+ if (rc == 1) {
+ entry->se_handle = it.it_lock_handle;
+ ll_intent_release(&it);
+ RETURN(1);
+ }
+
+ minfo = sa_prep_data(dir, inode, entry);
+ if (IS_ERR(minfo)) {
+ entry->se_inode = NULL;
+ iput(inode);
+ RETURN(PTR_ERR(minfo));
+ }
- RETURN(rc);
+ rc = md_intent_getattr_async(ll_i2mdexp(dir), minfo);
+ if (rc < 0) {
+ entry->se_inode = NULL;
+ iput(inode);
+ sa_fini_data(minfo);
+ }
+
+ RETURN(rc);
}
-static void ll_statahead_one(struct dentry *parent, const char *name,
- const int namelen)
+/* async stat for file with @name */
+static void sa_statahead(struct dentry *parent, const char *name, int len,
+ const struct lu_fid *fid)
{
- struct inode *dir = parent->d_inode;
- 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;
- int rc;
+ struct inode *dir = parent->d_inode;
+ struct ll_inode_info *lli = ll_i2info(dir);
+ struct ll_statahead_info *sai = lli->lli_sai;
+ struct dentry *dentry = NULL;
+ struct sa_entry *entry;
+ int rc;
ENTRY;
- entry = ll_sa_entry_alloc(sai, sai->sai_index, name,namelen);
+ entry = sa_alloc(sai, sai->sai_index, name, len, fid);
if (IS_ERR(entry))
RETURN_EXIT;
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, dentry->d_inode))
ll_agl_add(sai, dentry->d_inode, entry->se_index);
}
if (dentry != NULL)
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 != 0)
+ 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);
EXIT;
}
+/* async glimpse (agl) thread main function */
static int ll_agl_thread(void *arg)
{
struct dentry *parent = (struct dentry *)arg;
RETURN(0);
}
+/* start agl thread */
static void ll_start_agl(struct dentry *parent, struct ll_statahead_info *sai)
{
struct ptlrpc_thread *thread = &sai->sai_agl_thread;
EXIT;
}
+/* statahead thread main function */
static int ll_statahead_thread(void *arg)
{
struct dentry *parent = (struct dentry *)arg;
struct ll_inode_info *lli = ll_i2info(dir);
struct ll_sb_info *sbi = ll_i2sbi(dir);
struct ll_statahead_info *sai;
- struct ptlrpc_thread *thread;
+ struct ptlrpc_thread *sa_thread;
struct ptlrpc_thread *agl_thread;
int first = 0;
struct md_op_data *op_data;
ENTRY;
sai = ll_sai_get(dir);
- thread = &sai->sai_thread;
+ sa_thread = &sai->sai_thread;
agl_thread = &sai->sai_agl_thread;
- thread->t_pid = current_pid();
+ sa_thread->t_pid = current_pid();
CDEBUG(D_READA, "statahead thread starting: sai %p, parent %.*s\n",
sai, parent->d_name.len, parent->d_name.name);
atomic_inc(&sbi->ll_sa_total);
spin_lock(&lli->lli_sa_lock);
- if (thread_is_init(thread))
+ if (thread_is_init(sa_thread))
/* If someone else has changed the thread state
* (e.g. already changed to SVC_STOPPING), we can't just
* blindly overwrite that setting. */
- thread_set_flags(thread, SVC_RUNNING);
+ thread_set_flags(sa_thread, SVC_RUNNING);
spin_unlock(&lli->lli_sa_lock);
- wake_up(&thread->t_ctl_waitq);
+ wake_up(&sa_thread->t_ctl_waitq);
ll_dir_chain_init(&chain);
- while (pos != MDS_DIR_END_OFF && thread_is_running(thread)) {
+ while (pos != MDS_DIR_END_OFF && thread_is_running(sa_thread)) {
struct lu_dirpage *dp;
struct lu_dirent *ent;
dp = page_address(page);
for (ent = lu_dirent_start(dp);
- ent != NULL && thread_is_running(thread) &&
+ ent != NULL && thread_is_running(sa_thread) &&
!sa_low_hit(sai);
ent = lu_dirent_next(ent)) {
__u64 hash;
int namelen;
char *name;
+ struct lu_fid fid;
hash = le64_to_cpu(ent->lde_hash);
if (unlikely(hash < pos))
if (unlikely(++first == 1))
continue;
+ fid_le_to_cpu(&fid, &ent->lde_fid);
+
/* wait for spare statahead window */
do {
- l_wait_event(thread->t_ctl_waitq,
+ l_wait_event(sa_thread->t_ctl_waitq,
!sa_sent_full(sai) ||
- !sa_received_empty(sai) ||
+ sa_has_callback(sai) ||
!agl_list_empty(sai) ||
- !thread_is_running(thread),
+ !thread_is_running(sa_thread),
&lwi);
- ll_post_statahead(sai);
+ sa_handle_callback(sai);
+
+ spin_lock(&lli->lli_agl_lock);
+ while (sa_sent_full(sai) &&
+ !agl_list_empty(sai)) {
+ struct ll_inode_info *clli;
+
+ clli = agl_first_entry(sai);
+ list_del_init(&clli->lli_agl_list);
+ spin_unlock(&lli->lli_agl_lock);
+
+ ll_agl_trigger(&clli->lli_vfs_inode,
+ sai);
+
+ spin_lock(&lli->lli_agl_lock);
+ }
+ spin_unlock(&lli->lli_agl_lock);
} while (sa_sent_full(sai) &&
- thread_is_running(thread));
+ thread_is_running(sa_thread));
- ll_statahead_one(parent, name, namelen);
+ sa_statahead(parent, name, namelen, &fid);
}
pos = le64_to_cpu(dp->ldp_hash_end);
if (rc < 0) {
spin_lock(&lli->lli_sa_lock);
- thread_set_flags(thread, SVC_STOPPING);
+ thread_set_flags(sa_thread, SVC_STOPPING);
lli->lli_sa_enabled = 0;
spin_unlock(&lli->lli_sa_lock);
}
/* statahead is finished, but statahead entries need to be cached, wait
* for file release to stop me. */
- while (thread_is_running(thread)) {
- l_wait_event(thread->t_ctl_waitq,
- !sa_received_empty(sai) ||
- !agl_list_empty(sai) ||
- !thread_is_running(thread),
+ while (thread_is_running(sa_thread)) {
+ l_wait_event(sa_thread->t_ctl_waitq,
+ sa_has_callback(sai) ||
+ !thread_is_running(sa_thread),
&lwi);
- ll_post_statahead(sai);
+ sa_handle_callback(sai);
}
EXIT;
* safely because statahead RPC will access sai data */
while (sai->sai_sent != sai->sai_replied) {
/* in case we're not woken up, timeout wait */
- lwi = LWI_TIMEOUT(HZ >> 3, NULL, NULL);
- l_wait_event(thread->t_ctl_waitq,
+ lwi = LWI_TIMEOUT(msecs_to_jiffies(MSEC_PER_SEC >> 3),
+ NULL, NULL);
+ l_wait_event(sa_thread->t_ctl_waitq,
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);
+ thread_set_flags(sa_thread, SVC_STOPPED);
spin_unlock(&lli->lli_sa_lock);
- wake_up(&sai->sai_waitq);
- wake_up(&thread->t_ctl_waitq);
- ll_sai_put(sai);
CDEBUG(D_READA, "statahead thread stopped: sai %p, parent %.*s\n",
sai, parent->d_name.len, parent->d_name.name);
- dput(parent);
+
+ wake_up(&sai->sai_waitq);
+ wake_up(&sa_thread->t_ctl_waitq);
+ ll_sai_put(sai);
+
return rc;
}
-/* authorize opened dir handle @key to statahead later */
+/* authorize opened dir handle @key to statahead */
void ll_authorize_statahead(struct inode *dir, void *key)
{
struct ll_inode_info *lli = ll_i2info(dir);
spin_unlock(&lli->lli_sa_lock);
}
-/* deauthorize opened dir handle @key to statahead, but statahead thread may
- * still be running, notify it to quit. */
+/*
+ * deauthorize opened dir handle @key to statahead, and notify statahead thread
+ * to quit if it's running.
+ */
void ll_deauthorize_statahead(struct inode *dir, void *key)
{
struct ll_inode_info *lli = ll_i2info(dir);
if (sai != NULL && 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);
}
enum {
- /**
- * not first dirent, or is "."
- */
- LS_NONE_FIRST_DE = 0,
- /**
- * the first non-hidden dirent
- */
- LS_FIRST_DE,
- /**
- * the first hidden dirent, that is "."
- */
- LS_FIRST_DOT_DE
+ /**
+ * not first dirent, or is "."
+ */
+ LS_NOT_FIRST_DE = 0,
+ /**
+ * the first non-hidden dirent
+ */
+ LS_FIRST_DE,
+ /**
+ * the first hidden dirent, that is "."
+ */
+ LS_FIRST_DOT_DE
};
+/* file is first dirent under @dir */
static int is_first_dirent(struct inode *dir, struct dentry *dentry)
{
struct ll_dir_chain chain;
struct md_op_data *op_data;
int dot_de;
struct page *page = NULL;
- int rc = LS_NONE_FIRST_DE;
+ int rc = LS_NOT_FIRST_DE;
__u64 pos = 0;
ENTRY;
/**
*FIXME choose the start offset of the readdir
*/
- op_data->op_stripe_offset = 0;
op_data->op_max_pages = ll_i2sbi(dir)->ll_md_brw_pages;
ll_dir_chain_init(&chain);
if (target->len != namelen ||
memcmp(target->name, name, namelen) != 0)
- rc = LS_NONE_FIRST_DE;
+ rc = LS_NOT_FIRST_DE;
else if (!dot_de)
rc = LS_FIRST_DE;
else
return rc;
}
-static void
-ll_sai_unplug(struct ll_statahead_info *sai, struct ll_sa_entry *entry)
-{
- if (entry != NULL && 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);
-}
-
+/**
+ * revalidate @dentryp from statahead cache
+ *
+ * \param[in] dir parent directory
+ * \param[in] sai sai structure
+ * \param[out] dentryp pointer to dentry which will be revalidated
+ * \param[in] unplug unplug statahead window only (normally for negative
+ * dentry)
+ * \retval 1 on success, dentry is saved in @dentryp
+ * \retval 0 if revalidation failed (no proper lock on client)
+ * \retval negative number upon error
+ */
static int revalidate_statahead_dentry(struct inode *dir,
struct ll_statahead_info *sai,
struct dentry **dentryp,
- int only_unplug)
+ bool unplug)
{
- struct ll_sa_entry *entry = NULL;
+ struct sa_entry *entry = NULL;
struct l_wait_info lwi = { 0 };
+ struct ll_dentry_data *ldd;
+ struct ll_inode_info *lli = ll_i2info(dir);
int rc = 0;
ENTRY;
}
}
- entry = ll_sa_entry_get_byname(sai, &(*dentryp)->d_name);
- if (entry == NULL || only_unplug) {
- ll_sai_unplug(sai, entry);
- RETURN(entry ? 1 : -EAGAIN);
- }
+ if (unplug)
+ GOTO(out, rc = 1);
+
+ entry = sa_get(sai, &(*dentryp)->d_name);
+ if (entry == NULL)
+ GOTO(out, rc = -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)) {
+ spin_lock(&lli->lli_sa_lock);
sai->sai_index_wait = entry->se_index;
+ spin_unlock(&lli->lli_sa_lock);
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) ||
- thread_is_stopped(&sai->sai_thread),
- &lwi);
+ LWI_ON_SIGNAL_NOOP, NULL);
+ rc = l_wait_event(sai->sai_waitq, sa_ready(entry), &lwi);
if (rc < 0) {
- ll_sai_unplug(sai, entry);
- RETURN(-EAGAIN);
+ /*
+ * entry may not be ready, so it may be used by inflight
+ * statahead RPC, don't free it.
+ */
+ entry = NULL;
+ GOTO(out, rc = -EAGAIN);
}
}
- if (entry->se_stat == SA_ENTRY_SUCC && entry->se_inode != NULL) {
+ if (entry->se_state == SA_ENTRY_SUCC && entry->se_inode != NULL) {
struct inode *inode = entry->se_inode;
struct lookup_intent it = { .it_op = IT_GETATTR,
- .d.lustre.it_lock_handle =
+ .it_lock_handle =
entry->se_handle };
__u64 bits;
alias = ll_splice_alias(inode, *dentryp);
if (IS_ERR(alias)) {
- ll_sai_unplug(sai, entry);
- RETURN(PTR_ERR(alias));
+ ll_intent_release(&it);
+ GOTO(out, rc = PTR_ERR(alias));
}
*dentryp = alias;
+ /* statahead prepared this inode, transfer inode
+ * refcount from sa_entry to dentry */
+ entry->se_inode = NULL;
} else if ((*dentryp)->d_inode != inode) {
/* revalidate, but inode is recreated */
CDEBUG(D_READA,
(*dentryp)->d_name.name,
PFID(ll_inode2fid((*dentryp)->d_inode)),
PFID(ll_inode2fid(inode)));
- ll_sai_unplug(sai, entry);
- RETURN(-ESTALE);
- } else {
- iput(inode);
+ ll_intent_release(&it);
+ GOTO(out, rc = -ESTALE);
}
- entry->se_inode = NULL;
if ((bits & MDS_INODELOCK_LOOKUP) &&
d_lustre_invalid(*dentryp))
ll_intent_release(&it);
}
}
+out:
+ /*
+ * statahead cached sa_entry can be used only once, and will be killed
+ * right after use, so if lookup/revalidate accessed statahead cache,
+ * set dentry ldd_sa_generation to parent lli_sa_generation, later if we
+ * stat this file again, we know we've done statahead before, see
+ * dentry_may_statahead().
+ */
+ ldd = ll_d2d(*dentryp);
+ /* ldd can be NULL if llite lookup failed. */
+ if (ldd != NULL)
+ ldd->lld_sa_generation = lli->lli_sa_generation;
+ sa_put(sai, entry);
- ll_sai_unplug(sai, entry);
RETURN(rc);
}
+/**
+ * start statahead thread
+ *
+ * \param[in] dir parent directory
+ * \param[in] dentry dentry that triggers statahead, normally the first
+ * dirent under @dir
+ * \retval -EAGAIN on success, because when this function is
+ * called, it's already in lookup call, so client should
+ * do it itself instead of waiting for statahead thread
+ * to do it asynchronously.
+ * \retval negative number upon error
+ */
static int start_statahead_thread(struct inode *dir, struct dentry *dentry)
{
struct ll_inode_info *lli = ll_i2info(dir);
struct ll_statahead_info *sai = NULL;
- struct dentry *parent;
+ struct dentry *parent = dentry->d_parent;
struct ptlrpc_thread *thread;
struct l_wait_info lwi = { 0 };
struct task_struct *task;
/* I am the "lli_opendir_pid" owner, only me can set "lli_sai". */
rc = is_first_dirent(dir, dentry);
- if (rc == LS_NONE_FIRST_DE)
+ if (rc == LS_NOT_FIRST_DE)
/* It is not "ls -{a}l" operation, no need statahead for it. */
- GOTO(out, rc = -EAGAIN);
+ GOTO(out, rc = -EFAULT);
- sai = ll_sai_alloc();
+ sai = ll_sai_alloc(parent);
if (sai == NULL)
GOTO(out, rc = -ENOMEM);
sai->sai_ls_all = (rc == LS_FIRST_DOT_DE);
- sai->sai_inode = igrab(dir);
- if (unlikely(sai->sai_inode == NULL)) {
- CWARN("Do not start stat ahead on dying inode "DFID"\n",
- PFID(&lli->lli_fid));
- GOTO(out, rc = -ESTALE);
- }
- /* get parent reference count here, and put it in ll_statahead_thread */
- parent = dget(dentry->d_parent);
- if (unlikely(sai->sai_inode != parent->d_inode)) {
- struct ll_inode_info *nlli = ll_i2info(parent->d_inode);
-
- CWARN("Race condition, someone changed %.*s just now: "
- "old parent "DFID", new parent "DFID"\n",
- dentry->d_name.len, dentry->d_name.name,
- PFID(&lli->lli_fid), PFID(&nlli->lli_fid));
- dput(parent);
- iput(sai->sai_inode);
- GOTO(out, rc = -EAGAIN);
+ /* if current lli_opendir_key was deauthorized, or dir re-opened by
+ * another process, don't start statahead, otherwise the newly spawned
+ * statahead thread won't be notified to quit. */
+ spin_lock(&lli->lli_sa_lock);
+ if (unlikely(lli->lli_sai != NULL ||
+ lli->lli_opendir_key == NULL ||
+ lli->lli_opendir_pid != current->pid)) {
+ spin_unlock(&lli->lli_sa_lock);
+ GOTO(out, rc = -EPERM);
}
+ lli->lli_sai = sai;
+ spin_unlock(&lli->lli_sa_lock);
- CDEBUG(D_READA, "start statahead thread: sai %p, parent %.*s\n",
- sai, parent->d_name.len, parent->d_name.name);
+ atomic_inc(&ll_i2sbi(parent->d_inode)->ll_sa_running);
- lli->lli_sai = sai;
+ CDEBUG(D_READA, "start statahead thread: [pid %d] [parent %.*s]\n",
+ current_pid(), parent->d_name.len, parent->d_name.name);
task = kthread_run(ll_statahead_thread, parent, "ll_sa_%u",
lli->lli_opendir_pid);
thread = &sai->sai_thread;
if (IS_ERR(task)) {
rc = PTR_ERR(task);
- CERROR("cannot start ll_sa thread: rc = %d\n", rc);
- dput(parent);
- lli->lli_opendir_key = NULL;
- thread_set_flags(thread, SVC_STOPPED);
- thread_set_flags(&sai->sai_agl_thread, SVC_STOPPED);
- ll_sai_put(sai);
- LASSERT(lli->lli_sai == NULL);
- RETURN(-EAGAIN);
+ CERROR("can't start ll_sa thread, rc: %d\n", rc);
+ GOTO(out, rc);
}
l_wait_event(thread->t_ctl_waitq,
thread_is_running(thread) || thread_is_stopped(thread),
&lwi);
- atomic_inc(&ll_i2sbi(parent->d_inode)->ll_sa_running);
ll_sai_put(sai);
/*
RETURN(-EAGAIN);
out:
- if (sai != NULL)
- OBD_FREE_PTR(sai);
+ /* once we start statahead thread failed, disable statahead so that
+ * subsequent stat won't waste time to try it. */
spin_lock(&lli->lli_sa_lock);
- lli->lli_opendir_key = NULL;
- lli->lli_opendir_pid = 0;
lli->lli_sa_enabled = 0;
+ lli->lli_sai = NULL;
spin_unlock(&lli->lli_sa_lock);
+ if (sai != NULL)
+ ll_sai_free(sai);
+
RETURN(rc);
}
/**
- * Start statahead thread if this is the first dir entry.
- * Otherwise if a thread is started already, wait it until it is ahead of me.
- * \retval 1 -- find entry with lock in cache, the caller needs to do
- * nothing.
- * \retval 0 -- find entry in cache, but without lock, the caller needs
- * refresh from MDS.
- * \retval others -- the caller need to process as non-statahead.
+ * statahead entry function, this is called when client getattr on a file, it
+ * will start statahead thread if this is the first dir entry, else revalidate
+ * dentry from statahead cache.
+ *
+ * \param[in] dir parent directory
+ * \param[out] dentryp dentry to getattr
+ * \param[in] unplug unplug statahead window only (normally for negative
+ * dentry)
+ * \retval 1 on success
+ * \retval 0 revalidation from statahead cache failed, caller needs
+ * to getattr from server directly
+ * \retval negative number on error, caller often ignores this and
+ * then getattr from server
*/
-int do_statahead_enter(struct inode *dir, struct dentry **dentryp,
- int only_unplug)
+int ll_statahead(struct inode *dir, struct dentry **dentryp, bool unplug)
{
struct ll_statahead_info *sai;
if (sai != NULL) {
int rc;
- rc = revalidate_statahead_dentry(dir, sai, dentryp,
- only_unplug);
+ rc = revalidate_statahead_dentry(dir, sai, dentryp, unplug);
CDEBUG(D_READA, "revalidate statahead %.*s: %d.\n",
(*dentryp)->d_name.len, (*dentryp)->d_name.name, rc);
ll_sai_put(sai);
return rc;
}
-
return start_statahead_thread(dir, *dentryp);
}