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MaxScale/server/modules/monitor/ndbcluster_mon.c

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/*
* This file is distributed as part of the MariaDB Corporation MaxScale. It 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.
*
* 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 02110-1301 USA.
*
* Copyright MariaDB Corporation Ab 2013-2014
*/
/**
* @file ndbcluster_mon.c - A MySQL cluster SQL node monitor
*
* @verbatim
* Revision History
*
* Date Who Description
* 25/07/14 Massimiliano Pinto Initial implementation
* 10/11/14 Massimiliano Pinto Added setNetworkTimeout for connect,read,write
*
* @endverbatim
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <monitor.h>
#include <mysqlmon.h>
#include <thread.h>
#include <mysql.h>
#include <mysqld_error.h>
#include <skygw_utils.h>
#include <log_manager.h>
#include <secrets.h>
#include <dcb.h>
#include <modinfo.h>
#include <maxconfig.h>
/** Defined in log_manager.cc */
extern int lm_enabled_logfiles_bitmask;
extern size_t log_ses_count[];
extern __thread log_info_t tls_log_info;
static void monitorMain(void *);
static char *version_str = "V1.1.0";
MODULE_INFO info = {
MODULE_API_MONITOR,
MODULE_BETA_RELEASE,
MONITOR_VERSION,
"A MySQL cluster SQL node monitor"
};
static void *startMonitor(void *,void*);
static void stopMonitor(void *);
static void registerServer(void *, SERVER *);
static void unregisterServer(void *, SERVER *);
static void defaultUsers(void *, char *, char *);
static void diagnostics(DCB *, void *);
static void setInterval(void *, size_t);
static void setNetworkTimeout(void *arg, int type, int value);
static MONITOR_OBJECT MyObject = {
startMonitor,
stopMonitor,
registerServer,
unregisterServer,
defaultUsers,
diagnostics,
setInterval,
setNetworkTimeout
};
/**
* Implementation of the mandatory version entry point
*
* @return version string of the module
*/
char *
version()
{
return version_str;
}
/**
* The module initialisation routine, called when the module
* is first loaded.
*/
void
ModuleInit()
{
LOGIF(LM, (skygw_log_write(
LOGFILE_MESSAGE,
"Initialise the MySQL Cluster Monitor module %s.\n",
version_str)));
}
/**
* The module entry point routine. It is this routine that
* must populate the structure that is referred to as the
* "module object", this is a structure with the set of
* external entry points for this module.
*
* @return The module object
*/
MONITOR_OBJECT *
GetModuleObject()
{
return &MyObject;
}
/**
* Start the instance of the monitor, returning a handle on the monitor.
*
* This function creates a thread to execute the actual monitoring.
*
* @return A handle to use when interacting with the monitor
*/
static void *
startMonitor(void *arg,void* opt)
{
MYSQL_MONITOR *handle;
CONFIG_PARAMETER* params = (CONFIG_PARAMETER*)opt;
if (arg != NULL)
{
handle = (MYSQL_MONITOR *)arg;
handle->shutdown = 0;
}
else
{
if ((handle = (MYSQL_MONITOR *)malloc(sizeof(MYSQL_MONITOR))) == NULL)
return NULL;
handle->databases = NULL;
handle->shutdown = 0;
handle->defaultUser = NULL;
handle->defaultPasswd = NULL;
handle->id = MONITOR_DEFAULT_ID;
handle->interval = MONITOR_INTERVAL;
handle->connect_timeout=DEFAULT_CONNECT_TIMEOUT;
handle->read_timeout=DEFAULT_READ_TIMEOUT;
handle->write_timeout=DEFAULT_WRITE_TIMEOUT;
spinlock_init(&handle->lock);
}
handle->tid = (THREAD)thread_start(monitorMain, handle);
return handle;
}
/**
* Stop a running monitor
*
* @param arg Handle on thr running monior
*/
static void
stopMonitor(void *arg)
{
MYSQL_MONITOR *handle = (MYSQL_MONITOR *)arg;
handle->shutdown = 1;
thread_wait((void *)handle->tid);
}
/**
* Register a server that must be added to the monitored servers for
* a monitoring module.
*
* @param arg A handle on the running monitor module
* @param server The server to add
*/
static void
registerServer(void *arg, SERVER *server)
{
MYSQL_MONITOR *handle = (MYSQL_MONITOR *)arg;
MONITOR_SERVERS *ptr, *db;
if ((db = (MONITOR_SERVERS *)malloc(sizeof(MONITOR_SERVERS))) == NULL)
return;
db->server = server;
db->con = NULL;
db->next = NULL;
spinlock_acquire(&handle->lock);
if (handle->databases == NULL)
handle->databases = db;
else
{
ptr = handle->databases;
while (ptr->next != NULL)
ptr = ptr->next;
ptr->next = db;
}
spinlock_release(&handle->lock);
}
/**
* Remove a server from those being monitored by a monitoring module
*
* @param arg A handle on the running monitor module
* @param server The server to remove
*/
static void
unregisterServer(void *arg, SERVER *server)
{
MYSQL_MONITOR *handle = (MYSQL_MONITOR *)arg;
MONITOR_SERVERS *ptr, *lptr;
spinlock_acquire(&handle->lock);
if (handle->databases == NULL)
{
spinlock_release(&handle->lock);
return;
}
if (handle->databases->server == server)
{
ptr = handle->databases;
handle->databases = handle->databases->next;
free(ptr);
}
else
{
ptr = handle->databases;
while (ptr->next != NULL && ptr->next->server != server)
ptr = ptr->next;
if (ptr->next)
{
lptr = ptr->next;
ptr->next = ptr->next->next;
free(lptr);
}
}
spinlock_release(&handle->lock);
}
/**
* Diagnostic interface
*
* @param dcb DCB to send output
* @param arg The monitor handle
*/
static void
diagnostics(DCB *dcb, void *arg)
{
MYSQL_MONITOR *handle = (MYSQL_MONITOR *)arg;
MONITOR_SERVERS *db;
char *sep;
switch (handle->status)
{
case MONITOR_RUNNING:
dcb_printf(dcb, "\tMonitor running\n");
break;
case MONITOR_STOPPING:
dcb_printf(dcb, "\tMonitor stopping\n");
break;
case MONITOR_STOPPED:
dcb_printf(dcb, "\tMonitor stopped\n");
break;
}
dcb_printf(dcb,"\tSampling interval:\t%lu milliseconds\n", handle->interval);
dcb_printf(dcb,"\tConnect Timeout:\t%i seconds\n", handle->connect_timeout);
dcb_printf(dcb,"\tRead Timeout:\t\t%i seconds\n", handle->read_timeout);
dcb_printf(dcb,"\tWrite Timeout:\t\t%i seconds\n", handle->write_timeout);
dcb_printf(dcb, "\tMonitored servers: ");
db = handle->databases;
sep = "";
while (db)
{
dcb_printf(dcb, "%s%s:%d", sep, db->server->name, db->server->port);
sep = ", ";
db = db->next;
}
dcb_printf(dcb, "\n");
}
/**
* Set the default username and password to use to monitor if the server does not
* override this.
*
* @param arg The handle allocated by startMonitor
* @param uname The default user name
* @param passwd The default password
*/
static void
defaultUsers(void *arg, char *uname, char *passwd)
{
MYSQL_MONITOR *handle = (MYSQL_MONITOR *)arg;
if (handle->defaultUser)
free(handle->defaultUser);
if (handle->defaultPasswd)
free(handle->defaultPasswd);
handle->defaultUser = strdup(uname);
handle->defaultPasswd = strdup(passwd);
}
/**
* Monitor an individual server
*
* @param database The database to probe
*/
static void
monitorDatabase(MONITOR_SERVERS *database, char *defaultUser, char *defaultPasswd, MYSQL_MONITOR *handle)
{
MYSQL_ROW row;
MYSQL_RES *result;
int num_fields;
int isjoined = 0;
char *uname = defaultUser, *passwd = defaultPasswd;
unsigned long int server_version = 0;
char *server_string;
if (database->server->monuser != NULL)
{
uname = database->server->monuser;
passwd = database->server->monpw;
}
if (uname == NULL)
return;
/* Don't even probe server flagged as in maintenance */
if (SERVER_IN_MAINT(database->server))
return;
if (database->con == NULL || mysql_ping(database->con) != 0)
{
char *dpwd = decryptPassword(passwd);
int rc;
int connect_timeout = handle->connect_timeout;
int read_timeout = handle->read_timeout;
int write_timeout = handle->write_timeout;
if(database->con)
mysql_close(database->con);
database->con = mysql_init(NULL);
rc = mysql_options(database->con, MYSQL_OPT_CONNECT_TIMEOUT, (void *)&connect_timeout);
rc = mysql_options(database->con, MYSQL_OPT_READ_TIMEOUT, (void *)&read_timeout);
rc = mysql_options(database->con, MYSQL_OPT_WRITE_TIMEOUT, (void *)&write_timeout);
if (mysql_real_connect(database->con, database->server->name,
uname, dpwd, NULL, database->server->port, NULL, 0) == NULL)
{
LOGIF(LE, (skygw_log_write_flush(
LOGFILE_ERROR,
"Error : Monitor was unable to connect to "
"server %s:%d : \"%s\"",
database->server->name,
database->server->port,
mysql_error(database->con))));
server_clear_status(database->server, SERVER_RUNNING);
if (mysql_errno(database->con) == ER_ACCESS_DENIED_ERROR)
{
server_set_status(database->server, SERVER_AUTH_ERROR);
}
database->server->node_id = -1;
free(dpwd);
return;
}
else
{
server_clear_status(database->server, SERVER_AUTH_ERROR);
}
free(dpwd);
}
/* If we get this far then we have a working connection */
server_set_status(database->server, SERVER_RUNNING);
/* get server version from current server */
server_version = mysql_get_server_version(database->con);
/* get server version string */
server_string = (char *)mysql_get_server_info(database->con);
if (server_string) {
database->server->server_string = realloc(database->server->server_string, strlen(server_string)+1);
if (database->server->server_string)
strcpy(database->server->server_string, server_string);
}
/* Check if the the SQL node is able to contact one or more data nodes */
if (mysql_query(database->con, "SHOW STATUS LIKE 'Ndb_number_of_ready_data_nodes'") == 0
&& (result = mysql_store_result(database->con)) != NULL)
{
num_fields = mysql_num_fields(result);
while ((row = mysql_fetch_row(result)))
{
if (atoi(row[1]) > 0)
isjoined = 1;
}
mysql_free_result(result);
}
/* Check the the SQL node id in the MySQL cluster */
if (mysql_query(database->con, "SHOW STATUS LIKE 'Ndb_cluster_node_id'") == 0
&& (result = mysql_store_result(database->con)) != NULL)
{
long cluster_node_id = -1;
num_fields = mysql_num_fields(result);
while ((row = mysql_fetch_row(result)))
{
cluster_node_id = strtol(row[1], NULL, 10);
if ((errno == ERANGE && (cluster_node_id == LONG_MAX
|| cluster_node_id == LONG_MIN)) || (errno != 0 && cluster_node_id == 0))
{
cluster_node_id = -1;
}
database->server->node_id = cluster_node_id;
}
mysql_free_result(result);
}
if (isjoined) {
server_set_status(database->server, SERVER_NDB);
database->server->depth = 0;
} else {
server_clear_status(database->server, SERVER_NDB);
database->server->depth = -1;
}
}
/**
* The entry point for the monitoring module thread
*
* @param arg The handle of the monitor
*/
static void
monitorMain(void *arg)
{
MYSQL_MONITOR *handle = (MYSQL_MONITOR *)arg;
MONITOR_SERVERS *ptr;
long master_id;
size_t nrounds = 0;
if (mysql_thread_init())
{
LOGIF(LE, (skygw_log_write_flush(
LOGFILE_ERROR,
"Fatal : mysql_thread_init failed in monitor "
"module. Exiting.\n")));
return;
}
handle->status = MONITOR_RUNNING;
while (1)
{
if (handle->shutdown)
{
handle->status = MONITOR_STOPPING;
mysql_thread_end();
handle->status = MONITOR_STOPPED;
return;
}
/** Wait base interval */
thread_millisleep(MON_BASE_INTERVAL_MS);
/**
* Calculate how far away the monitor interval is from its full
* cycle and if monitor interval time further than the base
* interval, then skip monitoring checks. Excluding the first
* round.
*/
if (nrounds != 0 &&
((nrounds*MON_BASE_INTERVAL_MS)%handle->interval) >=
MON_BASE_INTERVAL_MS)
{
nrounds += 1;
continue;
}
nrounds += 1;
master_id = -1;
ptr = handle->databases;
while (ptr)
{
unsigned int prev_status = ptr->server->status;
monitorDatabase(ptr, handle->defaultUser, handle->defaultPasswd,handle);
if (ptr->server->status != prev_status ||
SERVER_IS_DOWN(ptr->server))
{
LOGIF(LD, (skygw_log_write_flush(
LOGFILE_DEBUG,
"Backend server %s:%d state : %s",
ptr->server->name,
ptr->server->port,
STRSRVSTATUS(ptr->server))));
}
ptr = ptr->next;
}
}
}
/**
* Set the monitor sampling interval.
*
* @param arg The handle allocated by startMonitor
* @param interval The interval to set in monitor struct, in milliseconds
*/
static void
setInterval(void *arg, size_t interval)
{
MYSQL_MONITOR *handle = (MYSQL_MONITOR *)arg;
memcpy(&handle->interval, &interval, sizeof(unsigned long));
}
/**
* Set the timeouts to use in the monitor.
*
* @param arg The handle allocated by startMonitor
* @param type The connect timeout type
* @param value The timeout value to set
*/
static void
setNetworkTimeout(void *arg, int type, int value)
{
MYSQL_MONITOR *handle = (MYSQL_MONITOR *)arg;
int max_timeout = (int)(handle->interval/1000);
int new_timeout = max_timeout -1;
if (new_timeout <= 0)
new_timeout = DEFAULT_CONNECT_TIMEOUT;
switch(type) {
case MONITOR_CONNECT_TIMEOUT:
if (value < max_timeout) {
memcpy(&handle->connect_timeout, &value, sizeof(int));
} else {
memcpy(&handle->connect_timeout, &new_timeout, sizeof(int));
LOGIF(LE, (skygw_log_write_flush(
LOGFILE_ERROR,
"warning : Monitor Connect Timeout %i is greater than monitor interval ~%i seconds"
", lowering to %i seconds", value, max_timeout, new_timeout)));
}
break;
case MONITOR_READ_TIMEOUT:
if (value < max_timeout) {
memcpy(&handle->read_timeout, &value, sizeof(int));
} else {
memcpy(&handle->read_timeout, &new_timeout, sizeof(int));
LOGIF(LE, (skygw_log_write_flush(
LOGFILE_ERROR,
"warning : Monitor Read Timeout %i is greater than monitor interval ~%i seconds"
", lowering to %i seconds", value, max_timeout, new_timeout)));
}
break;
case MONITOR_WRITE_TIMEOUT:
if (value < max_timeout) {
memcpy(&handle->write_timeout, &value, sizeof(int));
} else {
memcpy(&handle->write_timeout, &new_timeout, sizeof(int));
LOGIF(LE, (skygw_log_write_flush(
LOGFILE_ERROR,
"warning : Monitor Write Timeout %i is greater than monitor interval ~%i seconds"
", lowering to %i seconds", value, max_timeout, new_timeout)));
}
break;
default:
LOGIF(LE, (skygw_log_write_flush(
LOGFILE_ERROR,
"Error : Monitor setNetworkTimeout received an unsupported action type %i", type)));
break;
}
}
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