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|
/* Copyright (C) 2004-2006 MySQL AB
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#include "mysql_priv.h"
#include "event_queue.h"
#include "event_data_objects.h"
#define EVENT_QUEUE_INITIAL_SIZE 30
#define EVENT_QUEUE_EXTENT 30
#ifdef __GNUC__
#if __GNUC__ >= 2
#define SCHED_FUNC __FUNCTION__
#endif
#else
#define SCHED_FUNC "<unknown>"
#endif
#define LOCK_QUEUE_DATA() lock_data(SCHED_FUNC, __LINE__)
#define UNLOCK_QUEUE_DATA() unlock_data(SCHED_FUNC, __LINE__)
/*
Compares the execute_at members of two Event_queue_element instances.
Used as callback for the prioritized queue when shifting
elements inside.
SYNOPSIS
event_queue_element_data_compare_q()
vptr Not used (set it to NULL)
a First Event_queue_element object
b Second Event_queue_element object
RETURN VALUE
-1 a->execute_at < b->execute_at
0 a->execute_at == b->execute_at
1 a->execute_at > b->execute_at
NOTES
execute_at.second_part is not considered during comparison
*/
static int
event_queue_element_compare_q(void *vptr, byte* a, byte *b)
{
my_time_t lhs = ((Event_queue_element *)a)->execute_at;
my_time_t rhs = ((Event_queue_element *)b)->execute_at;
return (lhs < rhs ? -1 : (lhs > rhs ? 1 : 0));
}
/*
Constructor of class Event_queue.
SYNOPSIS
Event_queue::Event_queue()
*/
Event_queue::Event_queue()
:mutex_last_unlocked_at_line(0), mutex_last_locked_at_line(0),
mutex_last_attempted_lock_at_line(0),
mutex_queue_data_locked(FALSE), mutex_queue_data_attempting_lock(FALSE)
{
mutex_last_unlocked_in_func= mutex_last_locked_in_func=
mutex_last_attempted_lock_in_func= "";
next_activation_at= 0;
}
/*
Inits mutexes.
SYNOPSIS
Event_queue::init_mutexes()
*/
void
Event_queue::init_mutexes()
{
pthread_mutex_init(&LOCK_event_queue, MY_MUTEX_INIT_FAST);
pthread_cond_init(&COND_queue_state, NULL);
}
/*
Destroys mutexes.
SYNOPSIS
Event_queue::deinit_mutexes()
*/
void
Event_queue::deinit_mutexes()
{
pthread_mutex_destroy(&LOCK_event_queue);
pthread_cond_destroy(&COND_queue_state);
}
/*
This is a queue's constructor. Until this method is called, the
queue is unusable. We don't use a C++ constructor instead in
order to be able to check the return value. The queue is
initialized once at server startup. Initialization can fail in
case of a failure reading events from the database or out of
memory.
SYNOPSIS
Event_queue::init()
RETURN VALUE
FALSE OK
TRUE Error
*/
bool
Event_queue::init_queue(THD *thd)
{
DBUG_ENTER("Event_queue::init_queue");
DBUG_PRINT("enter", ("this: 0x%lx", (long) this));
LOCK_QUEUE_DATA();
if (init_queue_ex(&queue, EVENT_QUEUE_INITIAL_SIZE , 0 /*offset*/,
0 /*max_on_top*/, event_queue_element_compare_q,
NULL, EVENT_QUEUE_EXTENT))
{
sql_print_error("Event Scheduler: Can't initialize the execution queue");
goto err;
}
UNLOCK_QUEUE_DATA();
DBUG_RETURN(FALSE);
err:
UNLOCK_QUEUE_DATA();
DBUG_RETURN(TRUE);
}
/*
Deinits the queue. Remove all elements from it and destroys them
too.
SYNOPSIS
Event_queue::deinit_queue()
*/
void
Event_queue::deinit_queue()
{
DBUG_ENTER("Event_queue::deinit_queue");
LOCK_QUEUE_DATA();
empty_queue();
delete_queue(&queue);
UNLOCK_QUEUE_DATA();
DBUG_VOID_RETURN;
}
/**
Adds an event to the queue.
SYNOPSIS
Event_queue::create_event()
dbname The schema of the new event
name The name of the new event
*/
void
Event_queue::create_event(THD *thd, Event_queue_element *new_element)
{
DBUG_ENTER("Event_queue::create_event");
DBUG_PRINT("enter", ("thd: 0x%lx et=%s.%s", (long) thd,
new_element->dbname.str, new_element->name.str));
if ((new_element->status == Event_queue_element::DISABLED)
|| (new_element->status == Event_queue_element::SLAVESIDE_DISABLED))
delete new_element;
else
{
new_element->compute_next_execution_time();
DBUG_PRINT("info", ("new event in the queue: 0x%lx", (long) new_element));
LOCK_QUEUE_DATA();
queue_insert_safe(&queue, (byte *) new_element);
dbug_dump_queue(thd->query_start());
pthread_cond_broadcast(&COND_queue_state);
UNLOCK_QUEUE_DATA();
}
DBUG_VOID_RETURN;
}
/*
Updates an event from the scheduler queue
SYNOPSIS
Event_queue::update_event()
thd Thread
dbname Schema of the event
name Name of the event
new_schema New schema, in case of RENAME TO, otherwise NULL
new_name New name, in case of RENAME TO, otherwise NULL
*/
void
Event_queue::update_event(THD *thd, LEX_STRING dbname, LEX_STRING name,
Event_queue_element *new_element)
{
DBUG_ENTER("Event_queue::update_event");
DBUG_PRINT("enter", ("thd: 0x%lx et=[%s.%s]", (long) thd, dbname.str, name.str));
if ((new_element->status == Event_queue_element::DISABLED) ||
(new_element->status == Event_queue_element::SLAVESIDE_DISABLED))
{
DBUG_PRINT("info", ("The event is disabled."));
/*
Destroy the object but don't skip to end: because we may have to remove
object from the cache.
*/
delete new_element;
new_element= NULL;
}
else
new_element->compute_next_execution_time();
LOCK_QUEUE_DATA();
find_n_remove_event(dbname, name);
/* If not disabled event */
if (new_element)
{
DBUG_PRINT("info", ("new event in the queue: 0x%lx", (long) new_element));
queue_insert_safe(&queue, (byte *) new_element);
pthread_cond_broadcast(&COND_queue_state);
}
dbug_dump_queue(thd->query_start());
UNLOCK_QUEUE_DATA();
DBUG_VOID_RETURN;
}
/*
Drops an event from the queue
SYNOPSIS
Event_queue::drop_event()
thd Thread
dbname Schema of the event to drop
name Name of the event to drop
*/
void
Event_queue::drop_event(THD *thd, LEX_STRING dbname, LEX_STRING name)
{
DBUG_ENTER("Event_queue::drop_event");
DBUG_PRINT("enter", ("thd: 0x%lx db :%s name: %s", (long) thd,
dbname.str, name.str));
LOCK_QUEUE_DATA();
find_n_remove_event(dbname, name);
dbug_dump_queue(thd->query_start());
UNLOCK_QUEUE_DATA();
/*
We don't signal here because the scheduler will catch the change
next time it wakes up.
*/
DBUG_VOID_RETURN;
}
/*
Drops all events from the in-memory queue and disk that match
certain pattern evaluated by a comparator function
SYNOPSIS
Event_queue::drop_matching_events()
thd THD
pattern A pattern string
comparator The function to use for comparing
RETURN VALUE
>=0 Number of dropped events
NOTE
Expected is the caller to acquire lock on LOCK_event_queue
*/
void
Event_queue::drop_matching_events(THD *thd, LEX_STRING pattern,
bool (*comparator)(LEX_STRING, Event_basic *))
{
uint i= 0;
DBUG_ENTER("Event_queue::drop_matching_events");
DBUG_PRINT("enter", ("pattern=%s", pattern.str));
while (i < queue.elements)
{
Event_queue_element *et= (Event_queue_element *) queue_element(&queue, i);
DBUG_PRINT("info", ("[%s.%s]?", et->dbname.str, et->name.str));
if (comparator(pattern, et))
{
/*
The queue is ordered. If we remove an element, then all elements
after it will shift one position to the left, if we imagine it as
an array from left to the right. In this case we should not
increment the counter and the (i < queue.elements) condition is ok.
*/
queue_remove(&queue, i);
delete et;
}
else
i++;
}
/*
We don't call pthread_cond_broadcast(&COND_queue_state);
If we remove the top event:
1. The queue is empty. The scheduler will wake up at some time and
realize that the queue is empty. If create_event() comes inbetween
it will signal the scheduler
2. The queue is not empty, but the next event after the previous top,
won't be executed any time sooner than the element we removed. Hence,
we may not notify the scheduler and it will realize the change when it
wakes up from timedwait.
*/
DBUG_VOID_RETURN;
}
/*
Drops all events from the in-memory queue and disk that are from
certain schema.
SYNOPSIS
Event_queue::drop_schema_events()
thd HD
schema The schema name
*/
void
Event_queue::drop_schema_events(THD *thd, LEX_STRING schema)
{
DBUG_ENTER("Event_queue::drop_schema_events");
LOCK_QUEUE_DATA();
drop_matching_events(thd, schema, event_basic_db_equal);
UNLOCK_QUEUE_DATA();
DBUG_VOID_RETURN;
}
/*
Searches for an event in the queue
SYNOPSIS
Event_queue::find_n_remove_event()
db The schema of the event to find
name The event to find
NOTE
The caller should do the locking also the caller is responsible for
actual signalling in case an event is removed from the queue.
*/
void
Event_queue::find_n_remove_event(LEX_STRING db, LEX_STRING name)
{
uint i;
DBUG_ENTER("Event_queue::find_n_remove_event");
for (i= 0; i < queue.elements; ++i)
{
Event_queue_element *et= (Event_queue_element *) queue_element(&queue, i);
DBUG_PRINT("info", ("[%s.%s]==[%s.%s]?", db.str, name.str,
et->dbname.str, et->name.str));
if (event_basic_identifier_equal(db, name, et))
{
queue_remove(&queue, i);
delete et;
break;
}
}
DBUG_VOID_RETURN;
}
/*
Recalculates activation times in the queue. There is one reason for
that. Because the values (execute_at) by which the queue is ordered are
changed by calls to compute_next_execution_time() on a request from the
scheduler thread, if it is not running then the values won't be updated.
Once the scheduler is started again the values has to be recalculated
so they are right for the current time.
SYNOPSIS
Event_queue::recalculate_activation_times()
thd Thread
*/
void
Event_queue::recalculate_activation_times(THD *thd)
{
uint i;
DBUG_ENTER("Event_queue::recalculate_activation_times");
LOCK_QUEUE_DATA();
DBUG_PRINT("info", ("%u loaded events to be recalculated", queue.elements));
for (i= 0; i < queue.elements; i++)
{
((Event_queue_element*)queue_element(&queue, i))->compute_next_execution_time();
((Event_queue_element*)queue_element(&queue, i))->update_timing_fields(thd);
}
queue_fix(&queue);
UNLOCK_QUEUE_DATA();
DBUG_VOID_RETURN;
}
/*
Empties the queue and destroys the Event_queue_element objects in the
queue.
SYNOPSIS
Event_queue::empty_queue()
NOTE
Should be called with LOCK_event_queue locked
*/
void
Event_queue::empty_queue()
{
uint i;
DBUG_ENTER("Event_queue::empty_queue");
DBUG_PRINT("enter", ("Purging the queue. %u element(s)", queue.elements));
sql_print_information("Event Scheduler: Purging the queue. %u events",
queue.elements);
/* empty the queue */
for (i= 0; i < queue.elements; ++i)
{
Event_queue_element *et= (Event_queue_element *) queue_element(&queue, i);
delete et;
}
resize_queue(&queue, 0);
DBUG_VOID_RETURN;
}
/*
Dumps the queue to the trace log.
SYNOPSIS
Event_queue::dbug_dump_queue()
now Current timestamp
*/
void
Event_queue::dbug_dump_queue(time_t now)
{
#ifndef DBUG_OFF
Event_queue_element *et;
uint i;
DBUG_ENTER("Event_queue::dbug_dump_queue");
DBUG_PRINT("info", ("Dumping queue . Elements=%u", queue.elements));
for (i = 0; i < queue.elements; i++)
{
et= ((Event_queue_element*)queue_element(&queue, i));
DBUG_PRINT("info", ("et: 0x%lx name: %s.%s", (long) et,
et->dbname.str, et->name.str));
DBUG_PRINT("info", ("exec_at: %lu starts: %lu ends: %lu execs_so_far: %u "
"expr: %ld et.exec_at: %ld now: %ld "
"(et.exec_at - now): %d if: %d",
(long) et->execute_at, (long) et->starts,
(long) et->ends, et->execution_count,
(long) et->expression, (long) et->execute_at,
(long) now, (int) (et->execute_at - now),
et->execute_at <= now));
}
DBUG_VOID_RETURN;
#endif
}
static const char *queue_empty_msg= "Waiting on empty queue";
static const char *queue_wait_msg= "Waiting for next activation";
/*
Checks whether the top of the queue is elligible for execution and
returns an Event_job_data instance in case it should be executed.
`now` is compared against `execute_at` of the top element in the queue.
SYNOPSIS
Event_queue::get_top_for_execution_if_time()
thd [in] Thread
event_name [out] The object to execute
RETURN VALUE
FALSE No error. event_name != NULL
TRUE Serious error
*/
bool
Event_queue::get_top_for_execution_if_time(THD *thd,
Event_queue_element_for_exec **event_name)
{
bool ret= FALSE;
*event_name= NULL;
DBUG_ENTER("Event_queue::get_top_for_execution_if_time");
LOCK_QUEUE_DATA();
for (;;)
{
Event_queue_element *top= NULL;
/* Break loop if thd has been killed */
if (thd->killed)
{
DBUG_PRINT("info", ("thd->killed=%d", thd->killed));
goto end;
}
if (!queue.elements)
{
/* There are no events in the queue */
next_activation_at= 0;
/* Wait on condition until signaled. Release LOCK_queue while waiting. */
cond_wait(thd, NULL, queue_empty_msg, SCHED_FUNC, __LINE__);
continue;
}
top= ((Event_queue_element*) queue_element(&queue, 0));
thd->end_time(); /* Get current time */
next_activation_at= top->execute_at;
if (next_activation_at > thd->query_start())
{
/*
Not yet time for top event, wait on condition with
time or until signaled. Release LOCK_queue while waiting.
*/
struct timespec top_time;
set_timespec(top_time, next_activation_at - thd->query_start());
cond_wait(thd, &top_time, queue_wait_msg, SCHED_FUNC, __LINE__);
continue;
}
if (!(*event_name= new Event_queue_element_for_exec()) ||
(*event_name)->init(top->dbname, top->name))
{
ret= TRUE;
break;
}
DBUG_PRINT("info", ("Ready for execution"));
top->mark_last_executed(thd);
if (top->compute_next_execution_time())
top->status= Event_queue_element::DISABLED;
DBUG_PRINT("info", ("event %s status is %d", top->name.str, top->status));
top->execution_count++;
(*event_name)->dropped= top->dropped;
top->update_timing_fields(thd);
if (top->status == Event_queue_element::DISABLED)
{
DBUG_PRINT("info", ("removing from the queue"));
sql_print_information("Event Scheduler: Last execution of %s.%s. %s",
top->dbname.str, top->name.str,
top->dropped? "Dropping.":"");
delete top;
queue_remove(&queue, 0);
}
else
queue_replaced(&queue);
dbug_dump_queue(thd->query_start());
break;
}
end:
UNLOCK_QUEUE_DATA();
DBUG_PRINT("info", ("returning %d et_new: 0x%lx ",
ret, (long) *event_name));
if (*event_name)
DBUG_PRINT("info", ("db: %s name: %s",
(*event_name)->dbname.str, (*event_name)->name.str));
DBUG_RETURN(ret);
}
/*
Auxiliary function for locking LOCK_event_queue. Used by the
LOCK_QUEUE_DATA macro
SYNOPSIS
Event_queue::lock_data()
func Which function is requesting mutex lock
line On which line mutex lock is requested
*/
void
Event_queue::lock_data(const char *func, uint line)
{
DBUG_ENTER("Event_queue::lock_data");
DBUG_PRINT("enter", ("func=%s line=%u", func, line));
mutex_last_attempted_lock_in_func= func;
mutex_last_attempted_lock_at_line= line;
mutex_queue_data_attempting_lock= TRUE;
pthread_mutex_lock(&LOCK_event_queue);
mutex_last_attempted_lock_in_func= "";
mutex_last_attempted_lock_at_line= 0;
mutex_queue_data_attempting_lock= FALSE;
mutex_last_locked_in_func= func;
mutex_last_locked_at_line= line;
mutex_queue_data_locked= TRUE;
DBUG_VOID_RETURN;
}
/*
Auxiliary function for unlocking LOCK_event_queue. Used by the
UNLOCK_QUEUE_DATA macro
SYNOPSIS
Event_queue::unlock_data()
func Which function is requesting mutex unlock
line On which line mutex unlock is requested
*/
void
Event_queue::unlock_data(const char *func, uint line)
{
DBUG_ENTER("Event_queue::unlock_data");
DBUG_PRINT("enter", ("func=%s line=%u", func, line));
mutex_last_unlocked_at_line= line;
mutex_queue_data_locked= FALSE;
mutex_last_unlocked_in_func= func;
pthread_mutex_unlock(&LOCK_event_queue);
DBUG_VOID_RETURN;
}
/*
Wrapper for pthread_cond_wait/timedwait
SYNOPSIS
Event_queue::cond_wait()
thd Thread (Could be NULL during shutdown procedure)
msg Message for thd->proc_info
abstime If not null then call pthread_cond_timedwait()
func Which function is requesting cond_wait
line On which line cond_wait is requested
*/
void
Event_queue::cond_wait(THD *thd, struct timespec *abstime, const char* msg,
const char *func, uint line)
{
DBUG_ENTER("Event_queue::cond_wait");
waiting_on_cond= TRUE;
mutex_last_unlocked_at_line= line;
mutex_queue_data_locked= FALSE;
mutex_last_unlocked_in_func= func;
thd->enter_cond(&COND_queue_state, &LOCK_event_queue, msg);
DBUG_PRINT("info", ("pthread_cond_%swait", abstime? "timed":""));
if (!abstime)
pthread_cond_wait(&COND_queue_state, &LOCK_event_queue);
else
pthread_cond_timedwait(&COND_queue_state, &LOCK_event_queue, abstime);
mutex_last_locked_in_func= func;
mutex_last_locked_at_line= line;
mutex_queue_data_locked= TRUE;
waiting_on_cond= FALSE;
/*
This will free the lock so we need to relock. Not the best thing to
do but we need to obey cond_wait()
*/
thd->exit_cond("");
lock_data(func, line);
DBUG_VOID_RETURN;
}
/*
Dumps the internal status of the queue
SYNOPSIS
Event_queue::dump_internal_status()
*/
void
Event_queue::dump_internal_status()
{
DBUG_ENTER("Event_queue::dump_internal_status");
/* element count */
puts("");
puts("Event queue status:");
printf("Element count : %u\n", queue.elements);
printf("Data locked : %s\n", mutex_queue_data_locked? "YES":"NO");
printf("Attempting lock : %s\n", mutex_queue_data_attempting_lock? "YES":"NO");
printf("LLA : %s:%u\n", mutex_last_locked_in_func,
mutex_last_locked_at_line);
printf("LUA : %s:%u\n", mutex_last_unlocked_in_func,
mutex_last_unlocked_at_line);
if (mutex_last_attempted_lock_at_line)
printf("Last lock attempt at: %s:%u\n", mutex_last_attempted_lock_in_func,
mutex_last_attempted_lock_at_line);
printf("WOC : %s\n", waiting_on_cond? "YES":"NO");
MYSQL_TIME time;
my_tz_UTC->gmt_sec_to_TIME(&time, next_activation_at);
printf("Next activation : %04d-%02d-%02d %02d:%02d:%02d\n",
time.year, time.month, time.day, time.hour, time.minute, time.second);
DBUG_VOID_RETURN;
}
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