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|
/* Copyright (C) 2012 Monty Program 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335 USA */
#include "mariadb.h"
#include <violite.h>
#include <sql_priv.h>
#include <sql_class.h>
#include <my_pthread.h>
#include <scheduler.h>
#ifdef HAVE_POOL_OF_THREADS
#ifdef _WIN32
/* AIX may define this, too ?*/
#define HAVE_IOCP
#endif
#ifdef HAVE_IOCP
#define OPTIONAL_IO_POLL_READ_PARAM this
#else
#define OPTIONAL_IO_POLL_READ_PARAM 0
#endif
#ifdef _WIN32
typedef HANDLE TP_file_handle;
#else
typedef int TP_file_handle;
#define INVALID_HANDLE_VALUE -1
#endif
#include <sql_connect.h>
#include <mysqld.h>
#include <debug_sync.h>
#include <time.h>
#include <sql_plist.h>
#include <threadpool.h>
#include <time.h>
#ifdef __linux__
#include <sys/epoll.h>
typedef struct epoll_event native_event;
#elif defined(HAVE_KQUEUE)
#include <sys/event.h>
typedef struct kevent native_event;
#elif defined (__sun)
#include <port.h>
typedef port_event_t native_event;
#elif defined (HAVE_IOCP)
typedef OVERLAPPED_ENTRY native_event;
#else
#error threadpool is not available on this platform
#endif
static void io_poll_close(TP_file_handle fd)
{
#ifdef _WIN32
CloseHandle(fd);
#else
close(fd);
#endif
}
/** Maximum number of native events a listener can read in one go */
#define MAX_EVENTS 1024
/** Indicates that threadpool was initialized*/
static bool threadpool_started= false;
/*
Define PSI Keys for performance schema.
We have a mutex per group, worker threads, condition per worker thread,
and timer thread with its own mutex and condition.
*/
#ifdef HAVE_PSI_INTERFACE
static PSI_mutex_key key_group_mutex;
static PSI_mutex_key key_timer_mutex;
static PSI_mutex_info mutex_list[]=
{
{ &key_group_mutex, "group_mutex", 0},
{ &key_timer_mutex, "timer_mutex", PSI_FLAG_GLOBAL}
};
static PSI_cond_key key_worker_cond;
static PSI_cond_key key_timer_cond;
static PSI_cond_info cond_list[]=
{
{ &key_worker_cond, "worker_cond", 0},
{ &key_timer_cond, "timer_cond", PSI_FLAG_GLOBAL}
};
static PSI_thread_key key_worker_thread;
static PSI_thread_key key_timer_thread;
static PSI_thread_info thread_list[] =
{
{&key_worker_thread, "worker_thread", 0},
{&key_timer_thread, "timer_thread", PSI_FLAG_GLOBAL}
};
/* Macro to simplify performance schema registration */
#define PSI_register(X) \
if(PSI_server) PSI_server->register_ ## X("threadpool", X ## _list, array_elements(X ## _list))
#else
#define PSI_register(X) /* no-op */
#endif
struct thread_group_t;
/* Per-thread structure for workers */
struct worker_thread_t
{
ulonglong event_count; /* number of request handled by this thread */
thread_group_t* thread_group;
worker_thread_t *next_in_list;
worker_thread_t **prev_in_list;
mysql_cond_t cond;
bool woken;
};
typedef I_P_List<worker_thread_t, I_P_List_adapter<worker_thread_t,
&worker_thread_t::next_in_list,
&worker_thread_t::prev_in_list>
>
worker_list_t;
struct TP_connection_generic:public TP_connection
{
TP_connection_generic(CONNECT *c);
~TP_connection_generic();
virtual int init(){ return 0; };
virtual void set_io_timeout(int sec);
virtual int start_io();
virtual void wait_begin(int type);
virtual void wait_end();
thread_group_t *thread_group;
TP_connection_generic *next_in_queue;
TP_connection_generic **prev_in_queue;
ulonglong abs_wait_timeout;
ulonglong dequeue_time;
TP_file_handle fd;
bool bound_to_poll_descriptor;
int waiting;
#ifdef HAVE_IOCP
OVERLAPPED overlapped;
#endif
#ifdef _WIN32
enum_vio_type vio_type;
#endif
};
typedef I_P_List<TP_connection_generic,
I_P_List_adapter<TP_connection_generic,
&TP_connection_generic::next_in_queue,
&TP_connection_generic::prev_in_queue>,
I_P_List_null_counter,
I_P_List_fast_push_back<TP_connection_generic> >
connection_queue_t;
const int NQUEUES=2; /* We have high and low priority queues*/
struct MY_ALIGNED(CPU_LEVEL1_DCACHE_LINESIZE) thread_group_t
{
mysql_mutex_t mutex;
connection_queue_t queues[NQUEUES];
worker_list_t waiting_threads;
worker_thread_t *listener;
pthread_attr_t *pthread_attr;
TP_file_handle pollfd;
int thread_count;
int active_thread_count;
int connection_count;
/* Stats for the deadlock detection timer routine.*/
int io_event_count;
int queue_event_count;
ulonglong last_thread_creation_time;
int shutdown_pipe[2];
bool shutdown;
bool stalled;
};
static thread_group_t *all_groups;
static uint group_count;
static int32 shutdown_group_count;
/**
Used for printing "pool blocked" message, see
print_pool_blocked_message();
*/
static ulonglong pool_block_start;
/* Global timer for all groups */
struct pool_timer_t
{
mysql_mutex_t mutex;
mysql_cond_t cond;
volatile uint64 current_microtime;
volatile uint64 next_timeout_check;
int tick_interval;
bool shutdown;
pthread_t timer_thread_id;
};
static pool_timer_t pool_timer;
static void queue_put(thread_group_t *thread_group, TP_connection_generic *connection);
static void queue_put(thread_group_t *thread_group, native_event *ev, int cnt);
static int wake_thread(thread_group_t *thread_group);
static int wake_or_create_thread(thread_group_t *thread_group);
static int create_worker(thread_group_t *thread_group);
static void *worker_main(void *param);
static void check_stall(thread_group_t *thread_group);
static void set_next_timeout_check(ulonglong abstime);
static void print_pool_blocked_message(bool);
/**
Asynchronous network IO.
We use native edge-triggered network IO multiplexing facility.
This maps to different APIs on different Unixes.
Supported are currently Linux with epoll, Solaris with event ports,
OSX and BSD with kevent, Windows with IOCP. All those API's are used with one-shot flags
(the event is signalled once client has written something into the socket,
then socket is removed from the "poll-set" until the command is finished,
and we need to re-arm/re-register socket)
No implementation for poll/select is currently provided.
The API closely resembles all of the above mentioned platform APIs
and consists of following functions.
- io_poll_create()
Creates an io_poll descriptor
On Linux: epoll_create()
- io_poll_associate_fd(int poll_fd, TP_file_handle fd, void *data, void *opt)
Associate file descriptor with io poll descriptor
On Linux : epoll_ctl(..EPOLL_CTL_ADD))
- io_poll_disassociate_fd(TP_file_handle pollfd, TP_file_handle fd)
Associate file descriptor with io poll descriptor
On Linux: epoll_ctl(..EPOLL_CTL_DEL)
- io_poll_start_read(int poll_fd,int fd, void *data, void *opt)
The same as io_poll_associate_fd(), but cannot be used before
io_poll_associate_fd() was called.
On Linux : epoll_ctl(..EPOLL_CTL_MOD)
- io_poll_wait (TP_file_handle pollfd, native_event *native_events, int maxevents,
int timeout_ms)
wait until one or more descriptors added with io_poll_associate_fd()
or io_poll_start_read() becomes readable. Data associated with
descriptors can be retrieved from native_events array, using
native_event_get_userdata() function.
On Linux: epoll_wait()
*/
#if defined (__linux__)
#ifndef EPOLLRDHUP
/* Early 2.6 kernel did not have EPOLLRDHUP */
#define EPOLLRDHUP 0
#endif
static TP_file_handle io_poll_create()
{
return epoll_create(1);
}
int io_poll_associate_fd(TP_file_handle pollfd, TP_file_handle fd, void *data, void*)
{
struct epoll_event ev;
ev.data.u64= 0; /* Keep valgrind happy */
ev.data.ptr= data;
ev.events= EPOLLIN|EPOLLET|EPOLLERR|EPOLLRDHUP|EPOLLONESHOT;
return epoll_ctl(pollfd, EPOLL_CTL_ADD, fd, &ev);
}
int io_poll_start_read(TP_file_handle pollfd, TP_file_handle fd, void *data, void *)
{
struct epoll_event ev;
ev.data.u64= 0; /* Keep valgrind happy */
ev.data.ptr= data;
ev.events= EPOLLIN|EPOLLET|EPOLLERR|EPOLLRDHUP|EPOLLONESHOT;
return epoll_ctl(pollfd, EPOLL_CTL_MOD, fd, &ev);
}
int io_poll_disassociate_fd(TP_file_handle pollfd, TP_file_handle fd)
{
struct epoll_event ev;
return epoll_ctl(pollfd, EPOLL_CTL_DEL, fd, &ev);
}
/*
Wrapper around epoll_wait.
NOTE - in case of EINTR, it restarts with original timeout. Since we use
either infinite or 0 timeouts, this is not critical
*/
int io_poll_wait(TP_file_handle pollfd, native_event *native_events, int maxevents,
int timeout_ms)
{
int ret;
do
{
ret = epoll_wait(pollfd, native_events, maxevents, timeout_ms);
}
while(ret == -1 && errno == EINTR);
return ret;
}
static void *native_event_get_userdata(native_event *event)
{
return event->data.ptr;
}
#elif defined(HAVE_KQUEUE)
/*
NetBSD is incompatible with other BSDs , last parameter in EV_SET macro
(udata, user data) needs to be intptr_t, whereas it needs to be void*
everywhere else.
*/
#ifdef __NetBSD__
#define MY_EV_SET(a, b, c, d, e, f, g) EV_SET(a, b, c, d, e, f, (intptr_t)g)
#else
#define MY_EV_SET(a, b, c, d, e, f, g) EV_SET(a, b, c, d, e, f, g)
#endif
TP_file_handle io_poll_create()
{
return kqueue();
}
int io_poll_start_read(TP_file_handle pollfd, TP_file_handle fd, void *data,void *)
{
struct kevent ke;
MY_EV_SET(&ke, fd, EVFILT_READ, EV_ADD|EV_ONESHOT,
0, 0, data);
return kevent(pollfd, &ke, 1, 0, 0, 0);
}
int io_poll_associate_fd(TP_file_handle pollfd, TP_file_handle fd, void *data,void *)
{
struct kevent ke;
MY_EV_SET(&ke, fd, EVFILT_READ, EV_ADD|EV_ONESHOT,
0, 0, data);
return io_poll_start_read(pollfd,fd, data, 0);
}
int io_poll_disassociate_fd(TP_file_handle pollfd, TP_file_handle fd)
{
struct kevent ke;
MY_EV_SET(&ke,fd, EVFILT_READ, EV_DELETE, 0, 0, 0);
return kevent(pollfd, &ke, 1, 0, 0, 0);
}
int io_poll_wait(TP_file_handle pollfd, struct kevent *events, int maxevents, int timeout_ms)
{
struct timespec ts;
int ret;
if (timeout_ms >= 0)
{
ts.tv_sec= timeout_ms/1000;
ts.tv_nsec= (timeout_ms%1000)*1000000;
}
do
{
ret= kevent(pollfd, 0, 0, events, maxevents,
(timeout_ms >= 0)?&ts:NULL);
}
while (ret == -1 && errno == EINTR);
return ret;
}
static void* native_event_get_userdata(native_event *event)
{
return (void *)event->udata;
}
#elif defined (__sun)
static TP_file_handle io_poll_create()
{
return port_create();
}
int io_poll_start_read(TP_file_handle pollfd, TP_file_handle fd, void *data, void *)
{
return port_associate(pollfd, PORT_SOURCE_FD, fd, POLLIN, data);
}
static int io_poll_associate_fd(TP_file_handle pollfd, TP_file_handle fd, void *data, void *)
{
return io_poll_start_read(pollfd, fd, data, 0);
}
int io_poll_disassociate_fd(TP_file_handle pollfd, TP_file_handle fd)
{
return port_dissociate(pollfd, PORT_SOURCE_FD, fd);
}
int io_poll_wait(TP_file_handle pollfd, native_event *events, int maxevents, int timeout_ms)
{
struct timespec ts;
int ret;
uint_t nget= 1;
if (timeout_ms >= 0)
{
ts.tv_sec= timeout_ms/1000;
ts.tv_nsec= (timeout_ms%1000)*1000000;
}
do
{
ret= port_getn(pollfd, events, maxevents, &nget,
(timeout_ms >= 0)?&ts:NULL);
}
while (ret == -1 && errno == EINTR);
DBUG_ASSERT(nget < INT_MAX);
return (int)nget;
}
static void* native_event_get_userdata(native_event *event)
{
return event->portev_user;
}
#elif defined(HAVE_IOCP)
static TP_file_handle io_poll_create()
{
return CreateIoCompletionPort(INVALID_HANDLE_VALUE, 0, 0, 0);
}
int io_poll_start_read(TP_file_handle pollfd, TP_file_handle fd, void *, void *opt)
{
static char c;
TP_connection_generic *con= (TP_connection_generic *)opt;
OVERLAPPED *overlapped= &con->overlapped;
if (con->vio_type == VIO_TYPE_NAMEDPIPE)
{
if (ReadFile(fd, &c, 0, NULL, overlapped))
return 0;
}
else
{
WSABUF buf;
buf.buf= &c;
buf.len= 0;
DWORD flags=0;
if (WSARecv((SOCKET)fd, &buf, 1,NULL, &flags,overlapped, NULL) == 0)
return 0;
}
if (GetLastError() == ERROR_IO_PENDING)
return 0;
return 1;
}
static int io_poll_associate_fd(TP_file_handle pollfd, TP_file_handle fd, void *data, void *opt)
{
HANDLE h= CreateIoCompletionPort(fd, pollfd, (ULONG_PTR)data, 0);
if (!h)
return -1;
return io_poll_start_read(pollfd,fd, 0, opt);
}
int io_poll_disassociate_fd(TP_file_handle pollfd, TP_file_handle fd)
{
/* Not possible to unbind/rebind file descriptor in IOCP. */
return 0;
}
int io_poll_wait(TP_file_handle pollfd, native_event *events, int maxevents, int timeout_ms)
{
ULONG n;
BOOL ok = GetQueuedCompletionStatusEx(pollfd, events,
maxevents, &n, timeout_ms, FALSE);
return ok ? (int)n : -1;
}
static void* native_event_get_userdata(native_event *event)
{
return (void *)event->lpCompletionKey;
}
#endif
/* Dequeue element from a workqueue */
static TP_connection_generic *queue_get(thread_group_t *thread_group)
{
DBUG_ENTER("queue_get");
thread_group->queue_event_count++;
TP_connection_generic *c;
for (int i=0; i < NQUEUES;i++)
{
c= thread_group->queues[i].pop_front();
if (c)
DBUG_RETURN(c);
}
DBUG_RETURN(0);
}
static bool is_queue_empty(thread_group_t *thread_group)
{
for (int i=0; i < NQUEUES; i++)
{
if (!thread_group->queues[i].is_empty())
return false;
}
return true;
}
static void queue_init(thread_group_t *thread_group)
{
for (int i=0; i < NQUEUES; i++)
{
thread_group->queues[i].empty();
}
}
static void queue_put(thread_group_t *thread_group, native_event *ev, int cnt)
{
ulonglong now= pool_timer.current_microtime;
for(int i=0; i < cnt; i++)
{
TP_connection_generic *c = (TP_connection_generic *)native_event_get_userdata(&ev[i]);
c->dequeue_time= now;
thread_group->queues[c->priority].push_back(c);
}
}
/*
Handle wait timeout :
Find connections that have been idle for too long and kill them.
Also, recalculate time when next timeout check should run.
*/
static my_bool timeout_check(THD *thd, pool_timer_t *timer)
{
DBUG_ENTER("timeout_check");
if (thd->net.reading_or_writing == 1)
{
/*
Check if connection does not have scheduler data. This happens for example
if THD belongs to a different scheduler, that is listening to extra_port.
*/
if (auto connection= (TP_connection_generic *) thd->event_scheduler.data)
{
if (connection->abs_wait_timeout < timer->current_microtime)
tp_timeout_handler(connection);
else
set_next_timeout_check(connection->abs_wait_timeout);
}
}
DBUG_RETURN(0);
}
/*
Timer thread.
Periodically, check if one of the thread groups is stalled. Stalls happen if
events are not being dequeued from the queue, or from the network, Primary
reason for stall can be a lengthy executing non-blocking request. It could
also happen that thread is waiting but wait_begin/wait_end is forgotten by
storage engine. Timer thread will create a new thread in group in case of
a stall.
Besides checking for stalls, timer thread is also responsible for terminating
clients that have been idle for longer than wait_timeout seconds.
TODO: Let the timer sleep for long time if there is no work to be done.
Currently it wakes up rather often on and idle server.
*/
static void* timer_thread(void *param)
{
uint i;
pool_timer_t* timer=(pool_timer_t *)param;
my_thread_init();
DBUG_ENTER("timer_thread");
timer->next_timeout_check= ULONGLONG_MAX;
timer->current_microtime= microsecond_interval_timer();
for(;;)
{
struct timespec ts;
int err;
set_timespec_nsec(ts,timer->tick_interval*1000000);
mysql_mutex_lock(&timer->mutex);
err= mysql_cond_timedwait(&timer->cond, &timer->mutex, &ts);
if (timer->shutdown)
{
mysql_mutex_unlock(&timer->mutex);
break;
}
if (err == ETIMEDOUT)
{
timer->current_microtime= microsecond_interval_timer();
/* Check stalls in thread groups */
for (i= 0; i < threadpool_max_size; i++)
{
if(all_groups[i].connection_count)
check_stall(&all_groups[i]);
}
/* Check if any client exceeded wait_timeout */
if (timer->next_timeout_check <= timer->current_microtime)
{
/* Reset next timeout check, it will be recalculated below */
my_atomic_fas64((volatile int64*) &timer->next_timeout_check,
ULONGLONG_MAX);
server_threads.iterate(timeout_check, timer);
}
}
mysql_mutex_unlock(&timer->mutex);
}
mysql_mutex_destroy(&timer->mutex);
my_thread_end();
return NULL;
}
void check_stall(thread_group_t *thread_group)
{
mysql_mutex_lock(&thread_group->mutex);
/*
Bump priority for the low priority connections that spent too much
time in low prio queue.
*/
TP_connection_generic *c;
for (;;)
{
c= thread_group->queues[TP_PRIORITY_LOW].front();
if (c && pool_timer.current_microtime - c->dequeue_time > 1000ULL * threadpool_prio_kickup_timer)
{
thread_group->queues[TP_PRIORITY_LOW].remove(c);
thread_group->queues[TP_PRIORITY_HIGH].push_back(c);
}
else
break;
}
/*
Check if listener is present. If not, check whether any IO
events were dequeued since last time. If not, this means
listener is either in tight loop or thd_wait_begin()
was forgotten. Create a new worker(it will make itself listener).
*/
if (!thread_group->listener && !thread_group->io_event_count)
{
wake_or_create_thread(thread_group);
mysql_mutex_unlock(&thread_group->mutex);
return;
}
/* Reset io event count */
thread_group->io_event_count= 0;
/*
Check whether requests from the workqueue are being dequeued.
The stall detection and resolution works as follows:
1. There is a counter thread_group->queue_event_count for the number of
events removed from the queue. Timer resets the counter to 0 on each run.
2. Timer determines stall if this counter remains 0 since last check
and the queue is not empty.
3. Once timer determined a stall it sets thread_group->stalled flag and
wakes and idle worker (or creates a new one, subject to throttling).
4. The stalled flag is reset, when an event is dequeued.
Q : Will this handling lead to an unbound growth of threads, if queue
stalls permanently?
A : No. If queue stalls permanently, it is an indication for many very long
simultaneous queries. The maximum number of simultanoues queries is
max_connections, further we have threadpool_max_threads limit, upon which no
worker threads are created. So in case there is a flood of very long
queries, threadpool would slowly approach thread-per-connection behavior.
NOTE:
If long queries never wait, creation of the new threads is done by timer,
so it is slower than in real thread-per-connection. However if long queries
do wait and indicate that via thd_wait_begin/end callbacks, thread creation
will be faster.
*/
if (!is_queue_empty(thread_group) && !thread_group->queue_event_count)
{
thread_group->stalled= true;
wake_or_create_thread(thread_group);
}
/* Reset queue event count */
thread_group->queue_event_count= 0;
mysql_mutex_unlock(&thread_group->mutex);
}
static void start_timer(pool_timer_t* timer)
{
DBUG_ENTER("start_timer");
mysql_mutex_init(key_timer_mutex,&timer->mutex, NULL);
mysql_cond_init(key_timer_cond, &timer->cond, NULL);
timer->shutdown = false;
mysql_thread_create(key_timer_thread, &timer->timer_thread_id, NULL,
timer_thread, timer);
DBUG_VOID_RETURN;
}
static void stop_timer(pool_timer_t *timer)
{
DBUG_ENTER("stop_timer");
mysql_mutex_lock(&timer->mutex);
timer->shutdown = true;
mysql_cond_signal(&timer->cond);
mysql_mutex_unlock(&timer->mutex);
pthread_join(timer->timer_thread_id, NULL);
DBUG_VOID_RETURN;
}
/**
Poll for socket events and distribute them to worker threads
In many case current thread will handle single event itself.
@return a ready connection, or NULL on shutdown
*/
static TP_connection_generic * listener(worker_thread_t *current_thread,
thread_group_t *thread_group)
{
DBUG_ENTER("listener");
TP_connection_generic *retval= NULL;
for(;;)
{
native_event ev[MAX_EVENTS];
int cnt;
if (thread_group->shutdown)
break;
cnt = io_poll_wait(thread_group->pollfd, ev, MAX_EVENTS, -1);
if (cnt <=0)
{
DBUG_ASSERT(thread_group->shutdown);
break;
}
mysql_mutex_lock(&thread_group->mutex);
if (thread_group->shutdown)
{
mysql_mutex_unlock(&thread_group->mutex);
break;
}
thread_group->io_event_count += cnt;
/*
We got some network events and need to make decisions : whether
listener hould handle events and whether or not any wake worker
threads so they can handle events.
Q1 : Should listener handle an event itself, or put all events into
queue and let workers handle the events?
Solution :
Generally, listener that handles events itself is preferable. We do not
want listener thread to change its state from waiting to running too
often, Since listener has just woken from poll, it better uses its time
slice and does some work. Besides, not handling events means they go to
the queue, and often to wake another worker must wake up to handle the
event. This is not good, as we want to avoid wakeups.
The downside of listener that also handles queries is that we can
potentially leave thread group for long time not picking the new
network events. It is not a major problem, because this stall will be
detected sooner or later by the timer thread. Still, relying on timer
is not always good, because it may "tick" too slow (large timer_interval)
We use following strategy to solve this problem - if queue was not empty
we suspect flood of network events and listener stays, Otherwise, it
handles a query.
Q2: If queue is not empty, how many workers to wake?
Solution:
We generally try to keep one thread per group active (threads handling
queries are considered active, unless they stuck in inside some "wait")
Thus, we will wake only one worker, and only if there is not active
threads currently,and listener is not going to handle a query. When we
don't wake, we hope that currently active threads will finish fast and
handle the queue. If this does not happen, timer thread will detect stall
and wake a worker.
NOTE: Currently nothing is done to detect or prevent long queuing times.
A solution for the future would be to give up "one active thread per
group" principle, if events stay in the queue for too long, and just wake
more workers.
*/
bool listener_picks_event=is_queue_empty(thread_group);
queue_put(thread_group, ev, cnt);
if (listener_picks_event)
{
/* Handle the first event. */
retval= queue_get(thread_group);
mysql_mutex_unlock(&thread_group->mutex);
break;
}
if(thread_group->active_thread_count==0)
{
/* We added some work items to queue, now wake a worker. */
if(wake_thread(thread_group))
{
/*
Wake failed, hence groups has no idle threads. Now check if there are
any threads in the group except listener.
*/
if(thread_group->thread_count == 1)
{
/*
Currently there is no worker thread in the group, as indicated by
thread_count == 1 (this means listener is the only one thread in
the group).
The queue is not empty, and listener is not going to handle
events. In order to drain the queue, we create a worker here.
Alternatively, we could just rely on timer to detect stall, and
create thread, but waiting for timer would be an inefficient and
pointless delay.
*/
create_worker(thread_group);
}
}
}
mysql_mutex_unlock(&thread_group->mutex);
}
DBUG_RETURN(retval);
}
/**
Adjust thread counters in group or global
whenever thread is created or is about to exit
@param thread_group
@param count - 1, when new thread is created
-1, when thread is about to exit
*/
static void add_thread_count(thread_group_t *thread_group, int32 count)
{
thread_group->thread_count += count;
/* worker starts out and end in "active" state */
thread_group->active_thread_count += count;
my_atomic_add32(&tp_stats.num_worker_threads, count);
}
/**
Creates a new worker thread.
thread_mutex must be held when calling this function
NOTE: in rare cases, the number of threads can exceed
threadpool_max_threads, because we need at least 2 threads
per group to prevent deadlocks (one listener + one worker)
*/
static int create_worker(thread_group_t *thread_group)
{
pthread_t thread_id;
bool max_threads_reached= false;
int err;
DBUG_ENTER("create_worker");
if (tp_stats.num_worker_threads >= (int)threadpool_max_threads
&& thread_group->thread_count >= 2)
{
err= 1;
max_threads_reached= true;
goto end;
}
err= mysql_thread_create(key_worker_thread, &thread_id,
thread_group->pthread_attr, worker_main, thread_group);
if (!err)
{
thread_group->last_thread_creation_time=microsecond_interval_timer();
statistic_increment(thread_created,&LOCK_status);
add_thread_count(thread_group, 1);
}
else
{
my_errno= errno;
}
end:
if (err)
print_pool_blocked_message(max_threads_reached);
else
pool_block_start= 0; /* Reset pool blocked timer, if it was set */
DBUG_RETURN(err);
}
/**
Calculate microseconds throttling delay for thread creation.
The value depends on how many threads are already in the group:
small number of threads means no delay, the more threads the larger
the delay.
The actual values were not calculated using any scientific methods.
They just look right, and behave well in practice.
TODO: Should throttling depend on thread_pool_stall_limit?
*/
static ulonglong microsecond_throttling_interval(thread_group_t *thread_group)
{
int count= thread_group->thread_count;
if (count < 4)
return 0;
if (count < 8)
return 50*1000;
if(count < 16)
return 100*1000;
return 200*1000;
}
/**
Wakes a worker thread, or creates a new one.
Worker creation is throttled, so we avoid too many threads
to be created during the short time.
*/
static int wake_or_create_thread(thread_group_t *thread_group)
{
DBUG_ENTER("wake_or_create_thread");
if (thread_group->shutdown)
DBUG_RETURN(0);
if (wake_thread(thread_group) == 0)
DBUG_RETURN(0);
if (thread_group->thread_count > thread_group->connection_count)
DBUG_RETURN(-1);
if (thread_group->active_thread_count == 0)
{
/*
We're better off creating a new thread here with no delay, either there
are no workers at all, or they all are all blocking and there was no
idle thread to wakeup. Smells like a potential deadlock or very slowly
executing requests, e.g sleeps or user locks.
*/
DBUG_RETURN(create_worker(thread_group));
}
ulonglong now = microsecond_interval_timer();
ulonglong time_since_last_thread_created =
(now - thread_group->last_thread_creation_time);
/* Throttle thread creation. */
if (time_since_last_thread_created >
microsecond_throttling_interval(thread_group))
{
DBUG_RETURN(create_worker(thread_group));
}
DBUG_RETURN(-1);
}
int thread_group_init(thread_group_t *thread_group, pthread_attr_t* thread_attr)
{
DBUG_ENTER("thread_group_init");
thread_group->pthread_attr = thread_attr;
mysql_mutex_init(key_group_mutex, &thread_group->mutex, NULL);
thread_group->pollfd= INVALID_HANDLE_VALUE;
thread_group->shutdown_pipe[0]= -1;
thread_group->shutdown_pipe[1]= -1;
queue_init(thread_group);
DBUG_RETURN(0);
}
void thread_group_destroy(thread_group_t *thread_group)
{
mysql_mutex_destroy(&thread_group->mutex);
if (thread_group->pollfd != INVALID_HANDLE_VALUE)
{
io_poll_close(thread_group->pollfd);
thread_group->pollfd= INVALID_HANDLE_VALUE;
}
#ifndef HAVE_IOCP
for(int i=0; i < 2; i++)
{
if(thread_group->shutdown_pipe[i] != -1)
{
close(thread_group->shutdown_pipe[i]);
thread_group->shutdown_pipe[i]= -1;
}
}
#endif
if (my_atomic_add32(&shutdown_group_count, -1) == 1)
my_free(all_groups);
}
/**
Wake sleeping thread from waiting list
*/
static int wake_thread(thread_group_t *thread_group)
{
DBUG_ENTER("wake_thread");
worker_thread_t *thread = thread_group->waiting_threads.front();
if(thread)
{
thread->woken= true;
thread_group->waiting_threads.remove(thread);
mysql_cond_signal(&thread->cond);
DBUG_RETURN(0);
}
DBUG_RETURN(1); /* no thread in waiter list => missed wakeup */
}
/*
Wake listener thread (during shutdown)
Self-pipe trick is used in most cases,except IOCP.
*/
static int wake_listener(thread_group_t *thread_group)
{
#ifndef HAVE_IOCP
if (pipe(thread_group->shutdown_pipe))
{
return -1;
}
/* Wake listener */
if (io_poll_associate_fd(thread_group->pollfd,
thread_group->shutdown_pipe[0], NULL, NULL))
{
return -1;
}
char c= 0;
if (write(thread_group->shutdown_pipe[1], &c, 1) < 0)
return -1;
#else
PostQueuedCompletionStatus(thread_group->pollfd, 0, 0, 0);
#endif
return 0;
}
/**
Initiate shutdown for thread group.
The shutdown is asynchronous, we only care to wake all threads in here, so
they can finish. We do not wait here until threads terminate. Final cleanup
of the group (thread_group_destroy) will be done by the last exiting threads.
*/
static void thread_group_close(thread_group_t *thread_group)
{
DBUG_ENTER("thread_group_close");
mysql_mutex_lock(&thread_group->mutex);
if (thread_group->thread_count == 0)
{
mysql_mutex_unlock(&thread_group->mutex);
thread_group_destroy(thread_group);
DBUG_VOID_RETURN;
}
thread_group->shutdown= true;
thread_group->listener= NULL;
wake_listener(thread_group);
/* Wake all workers. */
while(wake_thread(thread_group) == 0)
{
}
mysql_mutex_unlock(&thread_group->mutex);
DBUG_VOID_RETURN;
}
/*
Add work to the queue. Maybe wake a worker if they all sleep.
Currently, this function is only used when new connections need to
perform login (this is done in worker threads).
*/
static void queue_put(thread_group_t *thread_group, TP_connection_generic *connection)
{
DBUG_ENTER("queue_put");
connection->dequeue_time= pool_timer.current_microtime;
thread_group->queues[connection->priority].push_back(connection);
if (thread_group->active_thread_count == 0)
wake_or_create_thread(thread_group);
DBUG_VOID_RETURN;
}
/*
Prevent too many threads executing at the same time,if the workload is
not CPU bound.
*/
static bool too_many_threads(thread_group_t *thread_group)
{
return (thread_group->active_thread_count >= 1+(int)threadpool_oversubscribe
&& !thread_group->stalled);
}
/**
Retrieve a connection with pending event.
Pending event in our case means that there is either a pending login request
(if connection is not yet logged in), or there are unread bytes on the socket.
If there are no pending events currently, thread will wait.
If timeout specified in abstime parameter passes, the function returns NULL.
@param current_thread - current worker thread
@param thread_group - current thread group
@param abstime - absolute wait timeout
@return
connection with pending event.
NULL is returned if timeout has expired,or on shutdown.
*/
TP_connection_generic *get_event(worker_thread_t *current_thread,
thread_group_t *thread_group, struct timespec *abstime)
{
DBUG_ENTER("get_event");
TP_connection_generic *connection = NULL;
mysql_mutex_lock(&thread_group->mutex);
DBUG_ASSERT(thread_group->active_thread_count >= 0);
for(;;)
{
int err=0;
bool oversubscribed = too_many_threads(thread_group);
if (thread_group->shutdown)
break;
/* Check if queue is not empty */
if (!oversubscribed)
{
connection = queue_get(thread_group);
if(connection)
break;
}
/* If there is currently no listener in the group, become one. */
if(!thread_group->listener)
{
thread_group->listener= current_thread;
thread_group->active_thread_count--;
mysql_mutex_unlock(&thread_group->mutex);
connection = listener(current_thread, thread_group);
mysql_mutex_lock(&thread_group->mutex);
thread_group->active_thread_count++;
/* There is no listener anymore, it just returned. */
thread_group->listener= NULL;
break;
}
/*
Last thing we try before going to sleep is to
non-blocking event poll, i.e with timeout = 0.
If this returns events, pick one
*/
if (!oversubscribed)
{
native_event ev[MAX_EVENTS];
int cnt = io_poll_wait(thread_group->pollfd, ev, MAX_EVENTS, 0);
if (cnt > 0)
{
queue_put(thread_group, ev, cnt);
connection= queue_get(thread_group);
break;
}
}
/* And now, finally sleep */
current_thread->woken = false; /* wake() sets this to true */
/*
Add current thread to the head of the waiting list and wait.
It is important to add thread to the head rather than tail
as it ensures LIFO wakeup order (hot caches, working inactivity timeout)
*/
thread_group->waiting_threads.push_front(current_thread);
thread_group->active_thread_count--;
if (abstime)
{
err = mysql_cond_timedwait(¤t_thread->cond, &thread_group->mutex,
abstime);
}
else
{
err = mysql_cond_wait(¤t_thread->cond, &thread_group->mutex);
}
thread_group->active_thread_count++;
if (!current_thread->woken)
{
/*
Thread was not signalled by wake(), it might be a spurious wakeup or
a timeout. Anyhow, we need to remove ourselves from the list now.
If thread was explicitly woken, than caller removed us from the list.
*/
thread_group->waiting_threads.remove(current_thread);
}
if (err)
break;
}
thread_group->stalled= false;
mysql_mutex_unlock(&thread_group->mutex);
DBUG_RETURN(connection);
}
/**
Tells the pool that worker starts waiting on IO, lock, condition,
sleep() or similar.
*/
void wait_begin(thread_group_t *thread_group)
{
DBUG_ENTER("wait_begin");
mysql_mutex_lock(&thread_group->mutex);
thread_group->active_thread_count--;
DBUG_ASSERT(thread_group->active_thread_count >=0);
DBUG_ASSERT(thread_group->connection_count > 0);
if ((thread_group->active_thread_count == 0) &&
(is_queue_empty(thread_group) || !thread_group->listener))
{
/*
Group might stall while this thread waits, thus wake
or create a worker to prevent stall.
*/
wake_or_create_thread(thread_group);
}
mysql_mutex_unlock(&thread_group->mutex);
DBUG_VOID_RETURN;
}
/**
Tells the pool has finished waiting.
*/
void wait_end(thread_group_t *thread_group)
{
DBUG_ENTER("wait_end");
mysql_mutex_lock(&thread_group->mutex);
thread_group->active_thread_count++;
mysql_mutex_unlock(&thread_group->mutex);
DBUG_VOID_RETURN;
}
TP_connection * TP_pool_generic::new_connection(CONNECT *c)
{
return new (std::nothrow) TP_connection_generic(c);
}
/**
Add a new connection to thread pool..
*/
void TP_pool_generic::add(TP_connection *c)
{
DBUG_ENTER("tp_add_connection");
TP_connection_generic *connection=(TP_connection_generic *)c;
thread_group_t *thread_group= connection->thread_group;
/*
Add connection to the work queue.Actual logon
will be done by a worker thread.
*/
mysql_mutex_lock(&thread_group->mutex);
queue_put(thread_group, connection);
mysql_mutex_unlock(&thread_group->mutex);
DBUG_VOID_RETURN;
}
/**
MySQL scheduler callback: wait begin
*/
void TP_connection_generic::wait_begin(int type)
{
DBUG_ENTER("wait_begin");
DBUG_ASSERT(!waiting);
waiting++;
if (waiting == 1)
::wait_begin(thread_group);
DBUG_VOID_RETURN;
}
/**
MySQL scheduler callback: wait end
*/
void TP_connection_generic::wait_end()
{
DBUG_ENTER("wait_end");
DBUG_ASSERT(waiting);
waiting--;
if (waiting == 0)
::wait_end(thread_group);
DBUG_VOID_RETURN;
}
static void set_next_timeout_check(ulonglong abstime)
{
DBUG_ENTER("set_next_timeout_check");
while(abstime < pool_timer.next_timeout_check)
{
longlong old= (longlong)pool_timer.next_timeout_check;
my_atomic_cas64((volatile int64*)&pool_timer.next_timeout_check,
&old, abstime);
}
DBUG_VOID_RETURN;
}
TP_connection_generic::TP_connection_generic(CONNECT *c):
TP_connection(c),
thread_group(0),
next_in_queue(0),
prev_in_queue(0),
abs_wait_timeout(ULONGLONG_MAX),
bound_to_poll_descriptor(false),
waiting(false)
#ifdef HAVE_IOCP
, overlapped()
#endif
{
DBUG_ASSERT(c->vio);
#ifdef _WIN32
vio_type= c->vio->type;
fd= (vio_type == VIO_TYPE_NAMEDPIPE) ?
c->vio->hPipe: (TP_file_handle)mysql_socket_getfd(c->vio->mysql_socket);
#else
fd= mysql_socket_getfd(c->vio->mysql_socket);
#endif
/* Assign connection to a group. */
thread_group_t *group=
&all_groups[c->thread_id%group_count];
thread_group=group;
mysql_mutex_lock(&group->mutex);
group->connection_count++;
mysql_mutex_unlock(&group->mutex);
}
TP_connection_generic::~TP_connection_generic()
{
mysql_mutex_lock(&thread_group->mutex);
thread_group->connection_count--;
mysql_mutex_unlock(&thread_group->mutex);
}
/**
Set wait timeout for connection.
*/
void TP_connection_generic::set_io_timeout(int timeout_sec)
{
DBUG_ENTER("set_wait_timeout");
/*
Calculate wait deadline for this connection.
Instead of using microsecond_interval_timer() which has a syscall
overhead, use pool_timer.current_microtime and take
into account that its value could be off by at most
one tick interval.
*/
abs_wait_timeout= pool_timer.current_microtime +
1000LL*pool_timer.tick_interval +
1000000LL*timeout_sec;
set_next_timeout_check(abs_wait_timeout);
DBUG_VOID_RETURN;
}
#ifndef HAVE_IOCP
/**
Handle a (rare) special case,where connection needs to
migrate to a different group because group_count has changed
after thread_pool_size setting.
*/
static int change_group(TP_connection_generic *c,
thread_group_t *old_group,
thread_group_t *new_group)
{
int ret= 0;
DBUG_ASSERT(c->thread_group == old_group);
/* Remove connection from the old group. */
mysql_mutex_lock(&old_group->mutex);
if (c->bound_to_poll_descriptor)
{
io_poll_disassociate_fd(old_group->pollfd,c->fd);
c->bound_to_poll_descriptor= false;
}
c->thread_group->connection_count--;
mysql_mutex_unlock(&old_group->mutex);
/* Add connection to the new group. */
mysql_mutex_lock(&new_group->mutex);
c->thread_group= new_group;
new_group->connection_count++;
/* Ensure that there is a listener in the new group. */
if (!new_group->thread_count)
ret= create_worker(new_group);
mysql_mutex_unlock(&new_group->mutex);
return ret;
}
#endif
int TP_connection_generic::start_io()
{
#ifndef HAVE_IOCP
/*
Usually, connection will stay in the same group for the entire
connection's life. However, we do allow group_count to
change at runtime, which means in rare cases when it changes is
connection should need to migrate to another group, this ensures
to ensure equal load between groups.
So we recalculate in which group the connection should be, based
on thread_id and current group count, and migrate if necessary.
*/
thread_group_t *group =
&all_groups[thd->thread_id%group_count];
if (group != thread_group)
{
if (change_group(this, thread_group, group))
return -1;
}
#endif
/*
Bind to poll descriptor if not yet done.
*/
if (!bound_to_poll_descriptor)
{
bound_to_poll_descriptor= true;
return io_poll_associate_fd(thread_group->pollfd, fd, this, OPTIONAL_IO_POLL_READ_PARAM);
}
return io_poll_start_read(thread_group->pollfd, fd, this, OPTIONAL_IO_POLL_READ_PARAM);
}
/**
Worker thread's main
*/
static void *worker_main(void *param)
{
worker_thread_t this_thread;
pthread_detach_this_thread();
my_thread_init();
DBUG_ENTER("worker_main");
thread_group_t *thread_group = (thread_group_t *)param;
/* Init per-thread structure */
mysql_cond_init(key_worker_cond, &this_thread.cond, NULL);
this_thread.thread_group= thread_group;
this_thread.event_count=0;
/* Run event loop */
for(;;)
{
TP_connection_generic *connection;
struct timespec ts;
set_timespec(ts,threadpool_idle_timeout);
connection = get_event(&this_thread, thread_group, &ts);
if (!connection)
break;
this_thread.event_count++;
tp_callback(connection);
}
/* Thread shutdown: cleanup per-worker-thread structure. */
mysql_cond_destroy(&this_thread.cond);
bool last_thread; /* last thread in group exits */
mysql_mutex_lock(&thread_group->mutex);
add_thread_count(thread_group, -1);
last_thread= ((thread_group->thread_count == 0) && thread_group->shutdown);
mysql_mutex_unlock(&thread_group->mutex);
/* Last thread in group exits and pool is terminating, destroy group.*/
if (last_thread)
thread_group_destroy(thread_group);
my_thread_end();
return NULL;
}
TP_pool_generic::TP_pool_generic()
{}
int TP_pool_generic::init()
{
DBUG_ENTER("TP_pool_generic::TP_pool_generic");
threadpool_max_size= MY_MAX(threadpool_size, 128);
all_groups= (thread_group_t *)
my_malloc(sizeof(thread_group_t) * threadpool_max_size, MYF(MY_WME|MY_ZEROFILL));
if (!all_groups)
{
threadpool_max_size= 0;
sql_print_error("Allocation failed");
DBUG_RETURN(-1);
}
scheduler_init();
threadpool_started= true;
for (uint i= 0; i < threadpool_max_size; i++)
{
thread_group_init(&all_groups[i], get_connection_attrib());
}
set_pool_size(threadpool_size);
if(group_count == 0)
{
/* Something went wrong */
sql_print_error("Can't set threadpool size to %d",threadpool_size);
DBUG_RETURN(-1);
}
PSI_register(mutex);
PSI_register(cond);
PSI_register(thread);
pool_timer.tick_interval= threadpool_stall_limit;
start_timer(&pool_timer);
DBUG_RETURN(0);
}
TP_pool_generic::~TP_pool_generic()
{
DBUG_ENTER("tp_end");
if (!threadpool_started)
DBUG_VOID_RETURN;
stop_timer(&pool_timer);
shutdown_group_count= threadpool_max_size;
for (uint i= 0; i < threadpool_max_size; i++)
{
thread_group_close(&all_groups[i]);
}
threadpool_started= false;
DBUG_VOID_RETURN;
}
/** Ensure that poll descriptors are created when threadpool_size changes */
int TP_pool_generic::set_pool_size(uint size)
{
bool success= true;
for(uint i=0; i< size; i++)
{
thread_group_t *group= &all_groups[i];
mysql_mutex_lock(&group->mutex);
if (group->pollfd == INVALID_HANDLE_VALUE)
{
group->pollfd= io_poll_create();
success= (group->pollfd != INVALID_HANDLE_VALUE);
if(!success)
{
sql_print_error("io_poll_create() failed, errno=%d", errno);
}
}
mysql_mutex_unlock(&group->mutex);
if (!success)
{
group_count= i;
return -1;
}
}
group_count= size;
return 0;
}
int TP_pool_generic::set_stall_limit(uint limit)
{
mysql_mutex_lock(&(pool_timer.mutex));
pool_timer.tick_interval= limit;
mysql_mutex_unlock(&(pool_timer.mutex));
mysql_cond_signal(&(pool_timer.cond));
return 0;
}
/**
Calculate number of idle/waiting threads in the pool.
Sum idle threads over all groups.
Don't do any locking, it is not required for stats.
*/
int TP_pool_generic::get_idle_thread_count()
{
int sum=0;
for (uint i= 0; i < threadpool_max_size && all_groups[i].pollfd != INVALID_HANDLE_VALUE; i++)
{
sum+= (all_groups[i].thread_count - all_groups[i].active_thread_count);
}
return sum;
}
/* Report threadpool problems */
/**
Delay in microseconds, after which "pool blocked" message is printed.
(30 sec == 30 Mio usec)
*/
#define BLOCK_MSG_DELAY (30*1000000)
#define MAX_THREADS_REACHED_MSG \
"Threadpool could not create additional thread to handle queries, because the \
number of allowed threads was reached. Increasing 'thread_pool_max_threads' \
parameter can help in this situation.\n \
If 'extra_port' parameter is set, you can still connect to the database with \
superuser account (it must be TCP connection using extra_port as TCP port) \
and troubleshoot the situation. \
A likely cause of pool blocks are clients that lock resources for long time. \
'show processlist' or 'show engine innodb status' can give additional hints."
#define CREATE_THREAD_ERROR_MSG "Can't create threads in threadpool (errno=%d)."
/**
Write a message when blocking situation in threadpool occurs.
The message is written only when pool blocks for BLOCK_MSG_DELAY (30) seconds.
It will be just a single message for each blocking situation (to prevent
log flood).
*/
static void print_pool_blocked_message(bool max_threads_reached)
{
ulonglong now;
static bool msg_written;
now= microsecond_interval_timer();
if (pool_block_start == 0)
{
pool_block_start= now;
msg_written = false;
return;
}
if (now > pool_block_start + BLOCK_MSG_DELAY && !msg_written)
{
if (max_threads_reached)
sql_print_error(MAX_THREADS_REACHED_MSG);
else
sql_print_error(CREATE_THREAD_ERROR_MSG, my_errno);
sql_print_information("Threadpool has been blocked for %u seconds\n",
(uint)((now- pool_block_start)/1000000));
/* avoid reperated messages for the same blocking situation */
msg_written= true;
}
}
#endif /* HAVE_POOL_OF_THREADS */
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