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/*-
* Copyright (c) 2014-2016 MongoDB, Inc.
* Copyright (c) 2008-2014 WiredTiger, Inc.
* All rights reserved.
*
* See the file LICENSE for redistribution information.
*/
#include "wt_internal.h"
static int __session_dhandle_sweep(WT_SESSION_IMPL *);
/*
* __session_add_dhandle --
* Add a handle to the session's cache.
*/
static int
__session_add_dhandle(
WT_SESSION_IMPL *session, WT_DATA_HANDLE_CACHE **dhandle_cachep)
{
WT_DATA_HANDLE_CACHE *dhandle_cache;
uint64_t bucket;
WT_RET(__wt_calloc_one(session, &dhandle_cache));
dhandle_cache->dhandle = session->dhandle;
bucket = dhandle_cache->dhandle->name_hash % WT_HASH_ARRAY_SIZE;
TAILQ_INSERT_HEAD(&session->dhandles, dhandle_cache, q);
TAILQ_INSERT_HEAD(&session->dhhash[bucket], dhandle_cache, hashq);
if (dhandle_cachep != NULL)
*dhandle_cachep = dhandle_cache;
/* Sweep the handle list to remove any dead handles. */
return (__session_dhandle_sweep(session));
}
/*
* __session_discard_dhandle --
* Remove a data handle from the session cache.
*/
static void
__session_discard_dhandle(
WT_SESSION_IMPL *session, WT_DATA_HANDLE_CACHE *dhandle_cache)
{
uint64_t bucket;
bucket = dhandle_cache->dhandle->name_hash % WT_HASH_ARRAY_SIZE;
TAILQ_REMOVE(&session->dhandles, dhandle_cache, q);
TAILQ_REMOVE(&session->dhhash[bucket], dhandle_cache, hashq);
(void)__wt_atomic_sub32(&dhandle_cache->dhandle->session_ref, 1);
__wt_overwrite_and_free(session, dhandle_cache);
}
/*
* __session_find_dhandle --
* Search for a data handle in the session cache.
*/
static void
__session_find_dhandle(WT_SESSION_IMPL *session,
const char *uri, const char *checkpoint,
WT_DATA_HANDLE_CACHE **dhandle_cachep)
{
WT_DATA_HANDLE *dhandle;
WT_DATA_HANDLE_CACHE *dhandle_cache;
uint64_t bucket;
dhandle = NULL;
bucket = __wt_hash_city64(uri, strlen(uri)) % WT_HASH_ARRAY_SIZE;
retry: TAILQ_FOREACH(dhandle_cache, &session->dhhash[bucket], hashq) {
dhandle = dhandle_cache->dhandle;
if (WT_DHANDLE_INACTIVE(dhandle) &&
!WT_IS_METADATA(session, dhandle)) {
__session_discard_dhandle(session, dhandle_cache);
/* We deleted our entry, retry from the start. */
goto retry;
}
if (strcmp(uri, dhandle->name) != 0)
continue;
if (checkpoint == NULL && dhandle->checkpoint == NULL)
break;
if (checkpoint != NULL && dhandle->checkpoint != NULL &&
strcmp(checkpoint, dhandle->checkpoint) == 0)
break;
}
*dhandle_cachep = dhandle_cache;
}
/*
* __wt_session_lock_dhandle --
* Return when the current data handle is either (a) open with the
* requested lock mode; or (b) closed and write locked. If exclusive
* access is requested and cannot be granted immediately because the
* handle is in use, fail with EBUSY.
*
* Here is a brief summary of how different operations synchronize using
* either the schema lock, handle locks or handle flags:
*
* open -- one thread gets the handle exclusive, reverts to a shared
* handle lock once the handle is open;
* bulk load -- sets bulk and exclusive;
* salvage, truncate, update, verify -- hold the schema lock,
* get the handle exclusive, set a "special" flag;
* sweep -- gets a write lock on the handle, doesn't set exclusive
*
* The principle is that some application operations can cause other
* application operations to fail (so attempting to open a cursor on a
* file while it is being bulk-loaded will fail), but internal or
* database-wide operations should not prevent application-initiated
* operations. For example, attempting to verify a file should not fail
* because the sweep server happens to be in the process of closing that
* file.
*/
int
__wt_session_lock_dhandle(
WT_SESSION_IMPL *session, uint32_t flags, bool *is_deadp)
{
WT_BTREE *btree;
WT_DATA_HANDLE *dhandle;
WT_DECL_RET;
bool is_open, lock_busy, want_exclusive;
*is_deadp = 0;
dhandle = session->dhandle;
btree = dhandle->handle;
lock_busy = false;
want_exclusive = LF_ISSET(WT_DHANDLE_EXCLUSIVE);
/*
* If this session already has exclusive access to the handle, there is
* no point trying to lock it again.
*
* This should only happen if a checkpoint handle is locked multiple
* times during a checkpoint operation, or the handle is already open
* without any special flags. In particular, it must fail if
* attempting to checkpoint a handle opened for a bulk load, even in
* the same session.
*/
if (dhandle->excl_session == session) {
if (!LF_ISSET(WT_DHANDLE_LOCK_ONLY) &&
(!F_ISSET(dhandle, WT_DHANDLE_OPEN) ||
F_ISSET(btree, WT_BTREE_SPECIAL_FLAGS)))
return (EBUSY);
++dhandle->excl_ref;
return (0);
}
/*
* Check that the handle is open. We've already incremented
* the reference count, so once the handle is open it won't be
* closed by another thread.
*
* If we can see the WT_DHANDLE_OPEN flag set while holding a
* lock on the handle, then it's really open and we can start
* using it. Alternatively, if we can get an exclusive lock
* and WT_DHANDLE_OPEN is still not set, we need to do the open.
*/
for (;;) {
/* If the handle is dead, give up. */
if (F_ISSET(dhandle, WT_DHANDLE_DEAD)) {
*is_deadp = 1;
return (0);
}
/*
* If the handle is already open for a special operation,
* give up.
*/
if (F_ISSET(btree, WT_BTREE_SPECIAL_FLAGS))
return (EBUSY);
/*
* If the handle is open, get a read lock and recheck.
*
* Wait for a read lock if we want exclusive access and failed
* to get it: the sweep server may be closing this handle, and
* we need to wait for it to release its lock. If we want
* exclusive access and find the handle open once we get the
* read lock, give up: some other thread has it locked for real.
*/
if (F_ISSET(dhandle, WT_DHANDLE_OPEN) &&
(!want_exclusive || lock_busy)) {
WT_RET(__wt_readlock(session, dhandle->rwlock));
if (F_ISSET(dhandle, WT_DHANDLE_DEAD)) {
*is_deadp = 1;
return (
__wt_readunlock(session, dhandle->rwlock));
}
is_open = F_ISSET(dhandle, WT_DHANDLE_OPEN);
if (is_open && !want_exclusive)
return (0);
WT_RET(__wt_readunlock(session, dhandle->rwlock));
} else
is_open = false;
/*
* It isn't open or we want it exclusive: try to get an
* exclusive lock. There is some subtlety here: if we race
* with another thread that successfully opens the file, we
* don't want to block waiting to get exclusive access.
*/
if ((ret = __wt_try_writelock(session, dhandle->rwlock)) == 0) {
if (F_ISSET(dhandle, WT_DHANDLE_DEAD)) {
*is_deadp = 1;
return (
__wt_writeunlock(session, dhandle->rwlock));
}
/*
* If it was opened while we waited, drop the write
* lock and get a read lock instead.
*/
if (F_ISSET(dhandle, WT_DHANDLE_OPEN) &&
!want_exclusive) {
lock_busy = false;
WT_RET(
__wt_writeunlock(session, dhandle->rwlock));
continue;
}
/* We have an exclusive lock, we're done. */
F_SET(dhandle, WT_DHANDLE_EXCLUSIVE);
WT_ASSERT(session,
dhandle->excl_session == NULL &&
dhandle->excl_ref == 0);
dhandle->excl_session = session;
dhandle->excl_ref = 1;
WT_ASSERT(session, !F_ISSET(dhandle, WT_DHANDLE_DEAD));
return (0);
}
if (ret != EBUSY || (is_open && want_exclusive))
return (ret);
lock_busy = true;
/* Give other threads a chance to make progress. */
__wt_yield();
}
}
/*
* __wt_session_release_btree --
* Unlock a btree handle.
*/
int
__wt_session_release_btree(WT_SESSION_IMPL *session)
{
WT_BTREE *btree;
WT_DATA_HANDLE *dhandle;
WT_DATA_HANDLE_CACHE *dhandle_cache;
WT_DECL_RET;
bool locked, write_locked;
btree = S2BT(session);
dhandle = session->dhandle;
write_locked = F_ISSET(dhandle, WT_DHANDLE_EXCLUSIVE);
locked = true;
/*
* If we had special flags set, close the handle so that future access
* can get a handle without special flags.
*/
if (F_ISSET(dhandle, WT_DHANDLE_DISCARD | WT_DHANDLE_DISCARD_FORCE)) {
__session_find_dhandle(session,
dhandle->name, dhandle->checkpoint, &dhandle_cache);
if (dhandle_cache != NULL)
__session_discard_dhandle(session, dhandle_cache);
}
if (F_ISSET(dhandle, WT_DHANDLE_DISCARD_FORCE)) {
ret = __wt_conn_btree_sync_and_close(session, false, true);
F_CLR(dhandle, WT_DHANDLE_DISCARD_FORCE);
} else if (F_ISSET(dhandle, WT_DHANDLE_DISCARD) ||
F_ISSET(btree, WT_BTREE_SPECIAL_FLAGS)) {
WT_ASSERT(session, F_ISSET(dhandle, WT_DHANDLE_EXCLUSIVE));
ret = __wt_conn_btree_sync_and_close(session, false, false);
F_CLR(dhandle, WT_DHANDLE_DISCARD);
}
if (session == dhandle->excl_session) {
if (--dhandle->excl_ref == 0)
dhandle->excl_session = NULL;
else
locked = false;
}
if (locked) {
if (write_locked)
F_CLR(dhandle, WT_DHANDLE_EXCLUSIVE);
WT_TRET(write_locked ?
__wt_writeunlock(session, dhandle->rwlock):
__wt_readunlock(session, dhandle->rwlock));
}
session->dhandle = NULL;
return (ret);
}
/*
* __wt_session_get_btree_ckpt --
* Check the configuration strings for a checkpoint name, get a btree
* handle for the given name, set session->dhandle.
*/
int
__wt_session_get_btree_ckpt(WT_SESSION_IMPL *session,
const char *uri, const char *cfg[], uint32_t flags)
{
WT_CONFIG_ITEM cval;
WT_DECL_RET;
bool last_ckpt;
const char *checkpoint;
last_ckpt = false;
checkpoint = NULL;
/*
* This function exists to handle checkpoint configuration. Callers
* that never open a checkpoint call the underlying function directly.
*/
WT_RET_NOTFOUND_OK(
__wt_config_gets_def(session, cfg, "checkpoint", 0, &cval));
if (cval.len != 0) {
/*
* The internal checkpoint name is special, find the last
* unnamed checkpoint of the object.
*/
if (WT_STRING_MATCH(WT_CHECKPOINT, cval.str, cval.len)) {
last_ckpt = true;
retry: WT_RET(__wt_meta_checkpoint_last_name(
session, uri, &checkpoint));
} else
WT_RET(__wt_strndup(
session, cval.str, cval.len, &checkpoint));
}
ret = __wt_session_get_btree(session, uri, checkpoint, cfg, flags);
__wt_free(session, checkpoint);
/*
* There's a potential race: we get the name of the most recent unnamed
* checkpoint, but if it's discarded (or locked so it can be discarded)
* by the time we try to open it, we'll fail the open. Retry in those
* cases, a new "last" checkpoint should surface, and we can't return an
* error, the application will be justifiably upset if we can't open the
* last checkpoint instance of an object.
*
* The check against WT_NOTFOUND is correct: if there was no checkpoint
* for the object (that is, the object has never been in a checkpoint),
* we returned immediately after the call to search for that name.
*/
if (last_ckpt && (ret == WT_NOTFOUND || ret == EBUSY))
goto retry;
return (ret);
}
/*
* __wt_session_close_cache --
* Close any cached handles in a session.
*/
void
__wt_session_close_cache(WT_SESSION_IMPL *session)
{
WT_DATA_HANDLE_CACHE *dhandle_cache;
while ((dhandle_cache = TAILQ_FIRST(&session->dhandles)) != NULL)
__session_discard_dhandle(session, dhandle_cache);
}
/*
* __session_dhandle_sweep --
* Discard any session dhandles that are not open.
*/
static int
__session_dhandle_sweep(WT_SESSION_IMPL *session)
{
WT_CONNECTION_IMPL *conn;
WT_DATA_HANDLE *dhandle;
WT_DATA_HANDLE_CACHE *dhandle_cache, *dhandle_cache_next;
time_t now;
conn = S2C(session);
/*
* Periodically sweep for dead handles; if we've swept recently, don't
* do it again.
*/
WT_RET(__wt_seconds(session, &now));
if (difftime(now, session->last_sweep) < conn->sweep_interval)
return (0);
session->last_sweep = now;
WT_STAT_FAST_CONN_INCR(session, dh_session_sweeps);
dhandle_cache = TAILQ_FIRST(&session->dhandles);
while (dhandle_cache != NULL) {
dhandle_cache_next = TAILQ_NEXT(dhandle_cache, q);
dhandle = dhandle_cache->dhandle;
if (dhandle != session->dhandle &&
dhandle->session_inuse == 0 &&
(WT_DHANDLE_INACTIVE(dhandle) ||
(dhandle->timeofdeath != 0 &&
difftime(now, dhandle->timeofdeath) >
conn->sweep_idle_time))) {
WT_STAT_FAST_CONN_INCR(session, dh_session_handles);
WT_ASSERT(session, !WT_IS_METADATA(session, dhandle));
__session_discard_dhandle(session, dhandle_cache);
}
dhandle_cache = dhandle_cache_next;
}
return (0);
}
/*
* __session_find_shared_dhandle --
* Search for a data handle in the connection and add it to a session's
* cache. Since the data handle isn't locked, this must be called holding
* the handle list lock, and we must increment the handle's reference
* count before releasing it.
*/
static int
__session_find_shared_dhandle(
WT_SESSION_IMPL *session, const char *uri, const char *checkpoint)
{
WT_RET(__wt_conn_dhandle_find(session, uri, checkpoint));
(void)__wt_atomic_add32(&session->dhandle->session_ref, 1);
return (0);
}
/*
* __session_get_dhandle --
* Search for a data handle, first in the session cache, then in the
* connection.
*/
static int
__session_get_dhandle(
WT_SESSION_IMPL *session, const char *uri, const char *checkpoint)
{
WT_DATA_HANDLE_CACHE *dhandle_cache;
WT_DECL_RET;
__session_find_dhandle(session, uri, checkpoint, &dhandle_cache);
if (dhandle_cache != NULL) {
session->dhandle = dhandle_cache->dhandle;
return (0);
}
/*
* We didn't find a match in the session cache, search the shared
* handle list and cache the handle we find.
*/
WT_WITH_HANDLE_LIST_LOCK(session, ret =
__session_find_shared_dhandle(session, uri, checkpoint));
if (ret == 0)
ret = __session_add_dhandle(session, NULL);
return (ret);
}
/*
* __wt_session_get_btree --
* Get a btree handle for the given name, set session->dhandle.
*/
int
__wt_session_get_btree(WT_SESSION_IMPL *session,
const char *uri, const char *checkpoint, const char *cfg[], uint32_t flags)
{
WT_DATA_HANDLE *dhandle;
WT_DECL_RET;
bool is_dead;
WT_ASSERT(session, !F_ISSET(session, WT_SESSION_NO_DATA_HANDLES));
for (;;) {
WT_RET(__session_get_dhandle(session, uri, checkpoint));
dhandle = session->dhandle;
/* Try to lock the handle. */
WT_RET(__wt_session_lock_dhandle(session, flags, &is_dead));
if (is_dead)
continue;
/* If the handle is open in the mode we want, we're done. */
if (LF_ISSET(WT_DHANDLE_LOCK_ONLY) ||
(F_ISSET(dhandle, WT_DHANDLE_OPEN) &&
!LF_ISSET(WT_BTREE_SPECIAL_FLAGS)))
break;
WT_ASSERT(session, F_ISSET(dhandle, WT_DHANDLE_EXCLUSIVE));
/*
* For now, we need the schema lock and handle list locks to
* open a file for real.
*
* Code needing exclusive access (such as drop or verify)
* assumes that it can close all open handles, then open an
* exclusive handle on the active tree and no other threads can
* reopen handles in the meantime. A combination of the schema
* and handle list locks are used to enforce this.
*/
if (!F_ISSET(session, WT_SESSION_LOCKED_SCHEMA) ||
!F_ISSET(session, WT_SESSION_LOCKED_HANDLE_LIST)) {
dhandle->excl_session = NULL;
dhandle->excl_ref = 0;
F_CLR(dhandle, WT_DHANDLE_EXCLUSIVE);
WT_RET(__wt_writeunlock(session, dhandle->rwlock));
WT_WITH_SCHEMA_LOCK(session,
WT_WITH_HANDLE_LIST_LOCK(session, ret =
__wt_session_get_btree(
session, uri, checkpoint, cfg, flags)));
return (ret);
}
/* Open the handle. */
if ((ret = __wt_conn_btree_open(session, cfg, flags)) == 0 &&
LF_ISSET(WT_DHANDLE_EXCLUSIVE))
break;
/*
* If we got the handle exclusive to open it but only want
* ordinary access, drop our lock and retry the open.
*/
dhandle->excl_session = NULL;
dhandle->excl_ref = 0;
F_CLR(dhandle, WT_DHANDLE_EXCLUSIVE);
WT_TRET(__wt_writeunlock(session, dhandle->rwlock));
WT_RET(ret);
}
WT_ASSERT(session, !F_ISSET(dhandle, WT_DHANDLE_DEAD));
WT_ASSERT(session, LF_ISSET(WT_DHANDLE_LOCK_ONLY) ||
F_ISSET(dhandle, WT_DHANDLE_OPEN));
WT_ASSERT(session, LF_ISSET(WT_DHANDLE_EXCLUSIVE) ==
F_ISSET(dhandle, WT_DHANDLE_EXCLUSIVE) || dhandle->excl_ref > 1);
return (0);
}
/*
* __wt_session_lock_checkpoint --
* Lock the btree handle for the given checkpoint name.
*/
int
__wt_session_lock_checkpoint(WT_SESSION_IMPL *session, const char *checkpoint)
{
WT_DATA_HANDLE *dhandle, *saved_dhandle;
WT_DECL_RET;
WT_ASSERT(session, WT_META_TRACKING(session));
saved_dhandle = session->dhandle;
/*
* Get the checkpoint handle exclusive, so no one else can access it
* while we are creating the new checkpoint.
*/
WT_ERR(__wt_session_get_btree(session, saved_dhandle->name,
checkpoint, NULL, WT_DHANDLE_EXCLUSIVE | WT_DHANDLE_LOCK_ONLY));
/*
* Flush any pages in this checkpoint from the cache (we are about to
* re-write the checkpoint which will mean cached pages no longer have
* valid contents). This is especially noticeable with memory mapped
* files, since changes to the underlying file are visible to the in
* memory pages.
*/
WT_ERR(__wt_cache_op(session, NULL, WT_SYNC_DISCARD));
/*
* We lock checkpoint handles that we are overwriting, so the handle
* must be closed when we release it.
*/
dhandle = session->dhandle;
F_SET(dhandle, WT_DHANDLE_DISCARD);
WT_ERR(__wt_meta_track_handle_lock(session, false));
/* Restore the original btree in the session. */
err: session->dhandle = saved_dhandle;
return (ret);
}
|