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|
/*-
* See the file LICENSE for redistribution information.
*
* Copyright (c) 2005, 2015 Oracle and/or its affiliates. All rights reserved.
*
* $Id$
*/
#include "db_config.h"
#include "db_int.h"
/* Convert time-out from microseconds to milliseconds, rounding up. */
#define DB_TIMEOUT_TO_WINDOWS_TIMEOUT(t) (((t) + (US_PER_MS - 1)) / US_PER_MS)
typedef struct __cond_waiter {
HANDLE event;
PREDICATE pred;
void *ctx;
int next_free;
} COND_WAITER;
#define WAITER_SLOT_IN_USE(w) ((w)->pred != NULL)
/*
* Array slots [0:next_avail-1] are initialized, and either in use or on the
* free list. Slots beyond that are virgin territory, whose memory contents
* could be garbage. In particular, note that slots [0:next_avail-1] have a
* Win32 Event Object created for them, which have to be freed when cleaning up
* this data structure.
*
* "first_free" points to a list of not-in-use slots threaded through the first
* section of the array.
*/
struct __cond_waiters_table {
struct __cond_waiter *array;
int size;
int next_avail;
int first_free;
};
/*
* Aggregated control info needed for preparing for WSAWaitForMultipleEvents()
* call.
*/
struct io_info {
REPMGR_CONNECTION **connections;
WSAEVENT *events;
DWORD nevents;
};
static int allocate_wait_slot __P((ENV *, int *, COND_WAITERS_TABLE *));
static void free_wait_slot __P((ENV *, int, COND_WAITERS_TABLE *));
static int handle_completion __P((ENV *, REPMGR_CONNECTION *));
static int prepare_io __P((ENV *, REPMGR_CONNECTION *, void *));
int
__repmgr_thread_start(env, runnable)
ENV *env;
REPMGR_RUNNABLE *runnable;
{
HANDLE event, thread_id;
runnable->finished = FALSE;
runnable->quit_requested = FALSE;
runnable->env = env;
if ((event = CreateEvent(NULL, TRUE, FALSE, NULL)) == NULL)
return (GetLastError());
thread_id = CreateThread(NULL, 0,
(LPTHREAD_START_ROUTINE)runnable->run, runnable, 0, NULL);
if (thread_id == NULL) {
CloseHandle(event);
return (GetLastError());
}
runnable->thread_id = thread_id;
runnable->quit_event = event;
return (0);
}
int
__repmgr_thread_join(thread)
REPMGR_RUNNABLE *thread;
{
int ret;
ret = 0;
if (WaitForSingleObject(thread->thread_id, INFINITE) != WAIT_OBJECT_0)
ret = GetLastError();
if (!CloseHandle(thread->thread_id) && ret == 0)
ret = GetLastError();
if (!CloseHandle(thread->quit_event) && ret == 0)
ret = GetLastError();
return (ret);
}
int
__repmgr_set_nonblocking(s)
SOCKET s;
{
int ret;
u_long onoff;
onoff = 1; /* any non-zero value */
if ((ret = ioctlsocket(s, FIONBIO, &onoff)) == SOCKET_ERROR)
return (WSAGetLastError());
return (0);
}
int
__repmgr_set_nonblock_conn(conn)
REPMGR_CONNECTION *conn;
{
int ret;
if ((ret = __repmgr_set_nonblocking(conn->fd)) != 0)
return (ret);
if ((conn->event_object = WSACreateEvent()) == WSA_INVALID_EVENT) {
ret = net_errno;
return (ret);
}
return (0);
}
/*
* !!!
* Caller must hold the repmgr->mutex, if this thread synchronization is to work
* properly.
*/
int
__repmgr_wake_waiters(env, w)
ENV *env;
waiter_t *w;
{
DB_REP *db_rep;
COND_WAITERS_TABLE *waiters;
COND_WAITER *slot;
int i, ret;
ret = 0;
db_rep = env->rep_handle;
waiters = *w;
for (i = 0; i < waiters->next_avail; i++) {
slot = &waiters->array[i];
if (!WAITER_SLOT_IN_USE(slot))
continue;
if ((*slot->pred)(env, slot->ctx) ||
db_rep->repmgr_status == stopped)
if (!SetEvent(slot->event) && ret == 0)
ret = GetLastError();
}
return (ret);
}
/*
* !!!
* Caller must hold mutex.
*/
int
__repmgr_await_cond(env, pred, ctx, timeout, waiters_p)
ENV *env;
PREDICATE pred;
void *ctx;
db_timeout_t timeout;
waiter_t *waiters_p;
{
COND_WAITERS_TABLE *waiters;
COND_WAITER *waiter;
DB_REP *db_rep;
REP *rep;
DWORD ret, win_timeout;
int i;
db_rep = env->rep_handle;
rep = db_rep->region;
waiters = *waiters_p;
if ((ret = allocate_wait_slot(env, &i, waiters)) != 0)
goto err;
waiter = &waiters->array[i];
win_timeout = timeout > 0 ?
DB_TIMEOUT_TO_WINDOWS_TIMEOUT(timeout) : INFINITE;
waiter->pred = pred;
waiter->ctx = ctx;
if ((ret = SignalObjectAndWait(*db_rep->mutex,
waiter->event, win_timeout, FALSE)) == WAIT_FAILED) {
ret = GetLastError();
} else if (ret == WAIT_TIMEOUT)
ret = DB_TIMEOUT;
else
DB_ASSERT(env, ret == WAIT_OBJECT_0);
LOCK_MUTEX(db_rep->mutex);
free_wait_slot(env, i, waiters);
if (db_rep->repmgr_status == stopped)
ret = DB_REP_UNAVAIL;
err:
return (ret);
}
/*
* !!!
* Caller must hold the mutex.
*/
static int
allocate_wait_slot(env, resultp, table)
ENV *env;
int *resultp;
COND_WAITERS_TABLE *table;
{
COND_WAITER *w;
HANDLE event;
int i, ret;
if (table->first_free == -1) {
if (table->next_avail >= table->size) {
/*
* Grow the array.
*/
table->size *= 2;
w = table->array;
if ((ret = __os_realloc(env, table->size * sizeof(*w),
&w)) != 0)
return (ret);
table->array = w;
}
if ((event = CreateEvent(NULL,
FALSE, FALSE, NULL)) == NULL) {
/* No need to rescind the memory reallocation. */
return (GetLastError());
}
/*
* Here if, one way or another, we're good to go for using the
* next slot (for the first time).
*/
i = table->next_avail++;
w = &table->array[i];
w->event = event;
} else {
i = table->first_free;
w = &table->array[i];
table->first_free = w->next_free;
}
/*
* Make sure this event state is nonsignaled. It is possible that
* late processing could have signaled this event after the end of
* the previous wait but before reacquiring the mutex, and this
* extra signal would incorrectly cause the next wait to return
* immediately.
*/
(void)WaitForSingleObject(w->event, 0);
*resultp = i;
return (0);
}
static void
free_wait_slot(env, slot_index, table)
ENV *env;
int slot_index;
COND_WAITERS_TABLE *table;
{
DB_REP *db_rep;
COND_WAITER *slot;
db_rep = env->rep_handle;
slot = &table->array[slot_index];
slot->pred = NULL; /* show it's not in use */
slot->next_free = table->first_free;
table->first_free = slot_index;
}
int
__repmgr_await_gmdbop(env)
ENV *env;
{
DB_REP *db_rep;
int ret;
db_rep = env->rep_handle;
while (db_rep->gmdb_busy) {
if (!ResetEvent(db_rep->gmdb_idle))
return (GetLastError());
ret = SignalObjectAndWait(*db_rep->mutex,
db_rep->gmdb_idle, INFINITE, FALSE);
LOCK_MUTEX(db_rep->mutex);
if (ret == WAIT_FAILED)
return (GetLastError());
DB_ASSERT(env, ret == WAIT_OBJECT_0);
}
return (0);
}
/* (See requirements described in repmgr_posix.c.) */
int
__repmgr_await_drain(env, conn, timeout)
ENV *env;
REPMGR_CONNECTION *conn;
db_timeout_t timeout;
{
DB_REP *db_rep;
db_timespec deadline, delta, now;
db_timeout_t t;
DWORD duration, ret;
int round_up;
db_rep = env->rep_handle;
__os_gettime(env, &deadline, 1);
TIMESPEC_ADD_DB_TIMEOUT(&deadline, timeout);
while (conn->out_queue_length >= OUT_QUEUE_LIMIT) {
if (!ResetEvent(conn->drained))
return (GetLastError());
/* How long until the deadline? */
__os_gettime(env, &now, 1);
if (timespeccmp(&now, &deadline, >=)) {
conn->state = CONN_CONGESTED;
return (0);
}
delta = deadline;
timespecsub(&delta, &now);
round_up = TRUE;
DB_TIMESPEC_TO_TIMEOUT(t, &delta, round_up);
duration = DB_TIMEOUT_TO_WINDOWS_TIMEOUT(t);
ret = SignalObjectAndWait(*db_rep->mutex,
conn->drained, duration, FALSE);
LOCK_MUTEX(db_rep->mutex);
if (ret == WAIT_FAILED)
return (GetLastError());
else if (ret == WAIT_TIMEOUT) {
conn->state = CONN_CONGESTED;
return (0);
} else
DB_ASSERT(env, ret == WAIT_OBJECT_0);
if (db_rep->repmgr_status == stopped)
return (0);
if (conn->state == CONN_DEFUNCT)
return (DB_REP_UNAVAIL);
}
return (0);
}
/*
* Creates a manual reset event, which is usually our best choice when we may
* have multiple threads waiting on a single event.
*/
int
__repmgr_alloc_cond(c)
cond_var_t *c;
{
HANDLE event;
if ((event = CreateEvent(NULL, TRUE, FALSE, NULL)) == NULL)
return (GetLastError());
*c = event;
return (0);
}
int
__repmgr_free_cond(c)
cond_var_t *c;
{
if (CloseHandle(*c))
return (0);
return (GetLastError());
}
void
__repmgr_env_create_pf(db_rep)
DB_REP *db_rep;
{
}
int
__repmgr_create_mutex_pf(mutex)
mgr_mutex_t *mutex;
{
if ((*mutex = CreateMutex(NULL, FALSE, NULL)) == NULL)
return (GetLastError());
return (0);
}
int
__repmgr_destroy_mutex_pf(mutex)
mgr_mutex_t *mutex;
{
return (CloseHandle(*mutex) ? 0 : GetLastError());
}
int
__repmgr_init(env)
ENV *env;
{
DB_REP *db_rep;
WSADATA wsaData;
int ret;
db_rep = env->rep_handle;
if ((ret = WSAStartup(MAKEWORD(2, 2), &wsaData)) != 0) {
__db_err(env, ret, DB_STR("3589",
"unable to initialize Windows networking"));
return (ret);
}
if ((db_rep->signaler = CreateEvent(NULL, /* security attr */
FALSE, /* (not) of the manual reset variety */
FALSE, /* (not) initially signaled */
NULL)) == NULL) /* name */
goto geterr;
if ((db_rep->msg_avail = CreateEvent(NULL, TRUE, FALSE, NULL))
== NULL)
goto geterr;
if ((db_rep->check_election = CreateEvent(NULL, TRUE, FALSE, NULL))
== NULL)
goto geterr;
if ((db_rep->gmdb_idle = CreateEvent(NULL, TRUE, FALSE, NULL))
== NULL)
goto geterr;
if ((ret = __repmgr_init_waiters(env, &db_rep->ack_waiters)) != 0)
goto err;
return (0);
geterr:
ret = GetLastError();
err:
if (db_rep->gmdb_idle != NULL)
CloseHandle(db_rep->gmdb_idle);
if (db_rep->check_election != NULL)
CloseHandle(db_rep->check_election);
if (db_rep->msg_avail != NULL)
CloseHandle(db_rep->msg_avail);
if (db_rep->signaler != NULL)
CloseHandle(db_rep->signaler);
db_rep->msg_avail =
db_rep->check_election =
db_rep->gmdb_idle =
db_rep->signaler = NULL;
(void)WSACleanup();
return (ret);
}
int
__repmgr_deinit(env)
ENV *env;
{
DB_REP *db_rep;
int ret, t_ret;
db_rep = env->rep_handle;
if (!(REPMGR_INITED(db_rep)))
return (0);
ret = 0;
if (WSACleanup() == SOCKET_ERROR)
ret = WSAGetLastError();
if ((t_ret = __repmgr_destroy_waiters(env, &db_rep->ack_waiters))
!= 0 && ret == 0)
ret = t_ret;
if (!CloseHandle(db_rep->gmdb_idle) && ret == 0)
ret = GetLastError();
if (!CloseHandle(db_rep->check_election) && ret == 0)
ret = GetLastError();
if (!CloseHandle(db_rep->msg_avail) && ret == 0)
ret = GetLastError();
if (!CloseHandle(db_rep->signaler) && ret == 0)
ret = GetLastError();
db_rep->msg_avail =
db_rep->check_election =
db_rep->gmdb_idle =
db_rep->signaler = NULL;
return (ret);
}
int
__repmgr_init_waiters(env, waiters)
ENV *env;
waiter_t *waiters;
{
#define INITIAL_ALLOCATION 5 /* arbitrary size */
COND_WAITERS_TABLE *table;
int ret;
table = NULL;
if ((ret =
__os_calloc(env, 1, sizeof(COND_WAITERS_TABLE), &table)) != 0)
return (ret);
if ((ret = __os_calloc(env, INITIAL_ALLOCATION, sizeof(COND_WAITER),
&table->array)) != 0) {
__os_free(env, table);
return (ret);
}
table->size = INITIAL_ALLOCATION;
table->first_free = -1;
table->next_avail = 0;
/* There's a restaurant joke in there somewhere. */
*waiters = table;
return (0);
}
int
__repmgr_destroy_waiters(env, waitersp)
ENV *env;
waiter_t *waitersp;
{
waiter_t waiters;
int i, ret;
waiters = *waitersp;
ret = 0;
for (i = 0; i < waiters->next_avail; i++) {
if (!CloseHandle(waiters->array[i].event) && ret == 0)
ret = GetLastError();
}
__os_free(env, waiters->array);
__os_free(env, waiters);
return (ret);
}
int
__repmgr_lock_mutex(mutex)
mgr_mutex_t *mutex;
{
if (WaitForSingleObject(*mutex, INFINITE) == WAIT_OBJECT_0)
return (0);
return (GetLastError());
}
int
__repmgr_unlock_mutex(mutex)
mgr_mutex_t *mutex;
{
if (ReleaseMutex(*mutex))
return (0);
return (GetLastError());
}
int
__repmgr_signal(v)
cond_var_t *v;
{
return (SetEvent(*v) ? 0 : GetLastError());
}
int
__repmgr_wake_msngers(env, n)
ENV *env;
u_int n;
{
DB_REP *db_rep;
u_int i;
db_rep = env->rep_handle;
/* Ask all threads beyond index 'n' to shut down. */
for (i = n; i< db_rep->nthreads; i++)
if (!SetEvent(db_rep->messengers[i]->quit_event))
return (GetLastError());
return (0);
}
int
__repmgr_wake_main_thread(env)
ENV *env;
{
if (!SetEvent(env->rep_handle->signaler))
return (GetLastError());
return (0);
}
int
__repmgr_writev(fd, iovec, buf_count, byte_count_p)
socket_t fd;
db_iovec_t *iovec;
int buf_count;
size_t *byte_count_p;
{
DWORD bytes;
if (WSASend(fd, iovec,
(DWORD)buf_count, &bytes, 0, NULL, NULL) == SOCKET_ERROR)
return (net_errno);
*byte_count_p = (size_t)bytes;
return (0);
}
int
__repmgr_readv(fd, iovec, buf_count, xfr_count_p)
socket_t fd;
db_iovec_t *iovec;
int buf_count;
size_t *xfr_count_p;
{
DWORD bytes, flags;
flags = 0;
if (WSARecv(fd, iovec,
(DWORD)buf_count, &bytes, &flags, NULL, NULL) == SOCKET_ERROR)
return (net_errno);
*xfr_count_p = (size_t)bytes;
return (0);
}
int
__repmgr_select_loop(env)
ENV *env;
{
DB_REP *db_rep;
DWORD ret;
DWORD select_timeout;
REPMGR_CONNECTION *connections[WSA_MAXIMUM_WAIT_EVENTS];
WSAEVENT events[WSA_MAXIMUM_WAIT_EVENTS];
db_timespec timeout;
WSAEVENT listen_event;
WSANETWORKEVENTS net_events;
struct io_info io_info;
int accept_connect, i;
db_rep = env->rep_handle;
io_info.connections = connections;
io_info.events = events;
accept_connect = FALSE;
if ((listen_event = WSACreateEvent()) == WSA_INVALID_EVENT) {
__db_err(env, net_errno, DB_STR("3590",
"can't create event for listen socket"));
return (net_errno);
}
LOCK_MUTEX(db_rep->mutex);
if ((ret = __repmgr_first_try_connections(env)) != 0)
goto unlock;
for (;;) {
/*
* Set the event for this process to receive notification of
* incoming connections if this process is or has just taken
* over as the listener process.
*/
if (!IS_SUBORDINATE(db_rep) && !accept_connect) {
if (WSAEventSelect(db_rep->listen_fd, listen_event,
FD_ACCEPT) == SOCKET_ERROR) {
ret = net_errno;
__db_err(env, ret, DB_STR("3700",
"can't enable event for listener"));
(void)WSACloseEvent(listen_event);
goto out;
}
accept_connect = TRUE;
}
/* Start with the two events that we always wait for. */
#define SIGNALER_INDEX 0
#define LISTENER_INDEX 1
events[SIGNALER_INDEX] = db_rep->signaler;
if (IS_SUBORDINATE(db_rep))
io_info.nevents = 1;
else {
events[LISTENER_INDEX] = listen_event;
io_info.nevents = 2;
}
if ((ret = __repmgr_each_connection(env,
prepare_io, &io_info, TRUE)) != 0)
goto unlock;
if (__repmgr_compute_timeout(env, &timeout))
select_timeout =
(DWORD)(timeout.tv_sec * MS_PER_SEC +
timeout.tv_nsec / NS_PER_MS);
else {
/* No time-based events to wake us up. */
select_timeout = WSA_INFINITE;
}
UNLOCK_MUTEX(db_rep->mutex);
ret = WSAWaitForMultipleEvents(
io_info.nevents, events, FALSE, select_timeout, FALSE);
if (db_rep->repmgr_status == stopped) {
ret = 0;
goto out;
}
LOCK_MUTEX(db_rep->mutex);
/*
* !!!
* Note that `ret' remains set as the return code from
* WSAWaitForMultipleEvents, above.
*/
if (ret >= WSA_WAIT_EVENT_0 &&
ret < WSA_WAIT_EVENT_0 + io_info.nevents) {
if ((i = ret - WSA_WAIT_EVENT_0) == SIGNALER_INDEX) {
/* Another thread woke us. */
} else if (!IS_SUBORDINATE(db_rep) &&
i == LISTENER_INDEX) {
if ((ret = WSAEnumNetworkEvents(
db_rep->listen_fd, listen_event,
&net_events)) == SOCKET_ERROR) {
ret = net_errno;
goto unlock;
}
if (net_events.lNetworkEvents == 0)
continue;
DB_ASSERT(env,
net_events.lNetworkEvents & FD_ACCEPT);
if ((ret = net_events.iErrorCode[FD_ACCEPT_BIT])
!= 0)
goto unlock;
if ((ret = __repmgr_accept(env)) != 0)
goto unlock;
} else {
if (connections[i]->state != CONN_DEFUNCT &&
(ret = handle_completion(env,
connections[i])) != 0)
goto unlock;
}
} else if (ret == WSA_WAIT_TIMEOUT) {
if ((ret = __repmgr_check_timeouts(env)) != 0)
goto unlock;
} else if (ret == WSA_WAIT_FAILED) {
ret = net_errno;
goto unlock;
}
}
unlock:
UNLOCK_MUTEX(db_rep->mutex);
out:
if (!CloseHandle(listen_event) && ret == 0)
ret = GetLastError();
if (ret == DB_DELETED)
ret = __repmgr_bow_out(env);
LOCK_MUTEX(db_rep->mutex);
(void)__repmgr_net_close(env);
UNLOCK_MUTEX(db_rep->mutex);
return (ret);
}
static int
prepare_io(env, conn, info_)
ENV *env;
REPMGR_CONNECTION *conn;
void *info_;
{
struct io_info *info;
long desired_events;
int ret;
if (conn->state == CONN_DEFUNCT)
return (__repmgr_cleanup_defunct(env, conn));
/*
* Note that even if we're suffering flow control, we
* nevertheless still read if we haven't even yet gotten
* a handshake. Why? (1) Handshakes are important; and
* (2) they don't hurt anything flow-control-wise.
*/
info = info_;
/*
* If we ever implemented flow control, we would have some conditions to
* examine here. But as it is, we always are willing to accept I/O on
* every connection.
*
* We can only handle as many connections as the number of events the
* WSAWaitForMultipleEvents function allows (minus 2, for our overhead:
* the listener and the signaler).
*/
DB_ASSERT(env, info->nevents < WSA_MAXIMUM_WAIT_EVENTS);
info->events[info->nevents] = conn->event_object;
info->connections[info->nevents++] = conn;
desired_events = FD_READ | FD_CLOSE;
if (!STAILQ_EMPTY(&conn->outbound_queue))
desired_events |= FD_WRITE;
if (WSAEventSelect(conn->fd,
conn->event_object, desired_events) == SOCKET_ERROR) {
ret = net_errno;
__db_err(env, ret, DB_STR_A("3592",
"can't set event bits 0x%lx", "%lx"), desired_events);
} else
ret = 0;
return (ret);
}
static int
handle_completion(env, conn)
ENV *env;
REPMGR_CONNECTION *conn;
{
int error, ret;
WSANETWORKEVENTS events;
if ((ret = WSAEnumNetworkEvents(conn->fd, conn->event_object, &events))
== SOCKET_ERROR) {
error = net_errno;
__db_err(env, error, DB_STR("3593", "EnumNetworkEvents"));
goto report;
}
/* Check both writing and reading. */
if (events.lNetworkEvents & FD_CLOSE) {
error = events.iErrorCode[FD_CLOSE_BIT];
/*
* There could be data for reading when we see FD_CLOSE,
* so we should try reading in this case.
*/
if (error != 0)
goto report;
else if ((ret =
__repmgr_read_from_site(env, conn)) != 0)
goto err;
}
if (events.lNetworkEvents & FD_WRITE) {
if (events.iErrorCode[FD_WRITE_BIT] != 0) {
error = events.iErrorCode[FD_WRITE_BIT];
goto report;
} else if ((ret =
__repmgr_write_some(env, conn)) != 0)
goto err;
}
if (events.lNetworkEvents & FD_READ) {
if (events.iErrorCode[FD_READ_BIT] != 0) {
error = events.iErrorCode[FD_READ_BIT];
goto report;
} else if ((ret =
__repmgr_read_from_site(env, conn)) != 0)
goto err;
}
if (0) {
report:
__repmgr_fire_conn_err_event(env, conn, error);
STAT(env->rep_handle->region->mstat.st_connection_drop++);
ret = DB_REP_UNAVAIL;
}
err:
if (ret == DB_REP_UNAVAIL)
ret = __repmgr_bust_connection(env, conn);
return (ret);
}
|
