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MaxScale/server/core/service.c
Johan Wikman d7f79942be Merge branch '2.0' into develop
2016-09-09 15:12:58 +03:00

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/*
* Copyright (c) 2016 MariaDB Corporation Ab
*
* Use of this software is governed by the Business Source License included
* in the LICENSE.TXT file and at www.mariadb.com/bsl.
*
* Change Date: 2019-07-01
*
* On the date above, in accordance with the Business Source License, use
* of this software will be governed by version 2 or later of the General
* Public License.
*/
/**
* @file service.c - A representation of the service within the gateway.
*
* @verbatim
* Revision History
*
* Date Who Description
* 18/06/13 Mark Riddoch Initial implementation
* 24/06/13 Massimiliano Pinto Added: Loading users from mysql backend in serviceStart
* 06/02/14 Massimiliano Pinto Added: serviceEnableRootUser routine
* 25/02/14 Massimiliano Pinto Added: service refresh limit feature
* 28/02/14 Massimiliano Pinto users_alloc moved from service_alloc to
* serviceStartPort (generic hashable for services)
* 07/05/14 Massimiliano Pinto Added: version_string initialized to NULL
* 23/05/14 Mark Riddoch Addition of service validation call
* 29/05/14 Mark Riddoch Filter API implementation
* 09/09/14 Massimiliano Pinto Added service option for localhost authentication
* 13/10/14 Massimiliano Pinto Added hashtable for resources (i.e database names for MySQL services)
* 06/02/15 Mark Riddoch Added caching of authentication data
* 18/02/15 Mark Riddoch Added result set management
* 03/03/15 Massimiliano Pinto Added config_enable_feedback_task() call in serviceStartAll
* 19/06/15 Martin Brampton More meaningful names for temp variables
* 31/05/16 Martin Brampton Implement connection throttling
*
* @endverbatim
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <errno.h>
#include <session.h>
#include <service.h>
#include <gw_protocol.h>
#include <listener.h>
#include <server.h>
#include <router.h>
#include <spinlock.h>
#include <modules.h>
#include <dcb.h>
#include <users.h>
#include <filter.h>
#include <dbusers.h>
#include <maxscale/poll.h>
#include <skygw_utils.h>
#include <log_manager.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <housekeeper.h>
#include <resultset.h>
#include <gw.h>
#include <gwdirs.h>
#include <math.h>
#include <version.h>
#include <queuemanager.h>
#include <maxscale/alloc.h>
/** To be used with configuration type checks */
typedef struct typelib_st
{
int tl_nelems;
const char* tl_name;
const char** tl_p_elems;
} typelib_t;
/** Set of subsequent false,true pairs */
static const char* bool_strings[11] = {"FALSE", "TRUE", "OFF", "ON", "N", "Y", "0", "1", "NO", "YES", 0};
typelib_t bool_type = {array_nelems(bool_strings) - 1, "bool_type", bool_strings};
/** List of valid values */
static const char* sqlvar_target_strings[4] = {"MASTER", "ALL", 0};
typelib_t sqlvar_target_type =
{
array_nelems(sqlvar_target_strings) - 1,
"sqlvar_target_type",
sqlvar_target_strings
};
static SPINLOCK service_spin = SPINLOCK_INIT;
static SERVICE *allServices = NULL;
static int find_type(typelib_t* tl, const char* needle, int maxlen);
static void service_add_qualified_param(SERVICE* svc,
CONFIG_PARAMETER* param);
static void service_internal_restart(void *data);
static void service_queue_check(void *data);
/**
* Allocate a new service for the gateway to support
*
*
* @param servname The service name
* @param router Name of the router module this service uses
*
* @return The newly created service or NULL if an error occurred
*/
SERVICE *
service_alloc(const char *servname, const char *router)
{
servname = MXS_STRDUP(servname);
router = MXS_STRDUP(router);
SERVICE *service = (SERVICE *)MXS_CALLOC(1, sizeof(*service));
if (!servname || !router || !service)
{
MXS_FREE((void*)servname);
MXS_FREE((void*)router);
MXS_FREE(service);
return NULL;
}
if ((service->router = load_module(router, MODULE_ROUTER)) == NULL)
{
char* home = get_libdir();
char* ldpath = getenv("LD_LIBRARY_PATH");
MXS_ERROR("Unable to load %s module \"%s\".\n\t\t\t"
" Ensure that lib%s.so exists in one of the "
"following directories :\n\t\t\t "
"- %s\n%s%s",
MODULE_ROUTER,
router,
router,
home,
ldpath ? "\t\t\t - " : "",
ldpath ? ldpath : "");
MXS_FREE((void*)servname);
MXS_FREE((void*)router);
MXS_FREE(service);
return NULL;
}
service->client_count = 0;
service->name = (char*)servname;
service->routerModule = (char*)router;
service->users_from_all = false;
service->queued_connections = NULL;
service->localhost_match_wildcard_host = SERVICE_PARAM_UNINIT;
service->retry_start = true;
service->conn_idle_timeout = SERVICE_NO_SESSION_TIMEOUT;
service->weightby = NULL;
service->credentials.authdata = NULL;
service->credentials.name = NULL;
service->version_string = NULL;
service->svc_config_param = NULL;
service->routerOptions = NULL;
service->log_auth_warnings = true;
service->strip_db_esc = true;
if (service->name == NULL || service->routerModule == NULL)
{
if (service->name)
{
MXS_FREE(service->name);
}
MXS_FREE(service);
return NULL;
}
service->stats.started = time(0);
service->stats.n_failed_starts = 0;
service->state = SERVICE_STATE_ALLOC;
spinlock_init(&service->spin);
spinlock_init(&service->users_table_spin);
spinlock_acquire(&service_spin);
service->next = allServices;
allServices = service;
spinlock_release(&service_spin);
return service;
}
/**
* Check to see if a service pointer is valid
*
* @param service The pointer to check
* @return 1 if the service is in the list of all services
*/
int
service_isvalid(SERVICE *service)
{
SERVICE *checkservice;
int rval = 0;
spinlock_acquire(&service_spin);
checkservice = allServices;
while (checkservice)
{
if (checkservice == service)
{
rval = 1;
break;
}
checkservice = checkservice->next;
}
spinlock_release(&service_spin);
return rval;
}
/**
* Start an individual port/protocol pair
*
* @param service The service
* @param port The port to start
* @return The number of listeners started
*/
static int
serviceStartPort(SERVICE *service, SERV_LISTENER *port)
{
const size_t ANY_IPV4_ADDRESS_LEN = 7; // strlen("0:0:0:0");
int listeners = 0;
size_t config_bind_len =
(port->address ? strlen(port->address) : ANY_IPV4_ADDRESS_LEN) + 1 + UINTLEN(port->port);
char config_bind[config_bind_len + 1]; // +1 for NULL
GWPROTOCOL *funcs;
if (service == NULL || service->router == NULL || service->router_instance == NULL)
{
/* Should never happen, this guarantees it can't */
MXS_ERROR("Attempt to start port with null or incomplete service");
goto retblock;
}
port->listener = dcb_alloc(DCB_ROLE_SERVICE_LISTENER, port);
if (port->listener == NULL)
{
MXS_ERROR("Failed to create listener for service %s.", service->name);
goto retblock;
}
port->listener->service = service;
if (port->ssl)
{
listener_init_SSL(port->ssl);
}
if ((funcs = (GWPROTOCOL *)load_module(port->protocol, MODULE_PROTOCOL)) == NULL)
{
dcb_close(port->listener);
port->listener = NULL;
MXS_ERROR("Unable to load protocol module %s. Listener "
"for service %s not started.",
port->protocol,
service->name);
goto retblock;
}
memcpy(&(port->listener->func), funcs, sizeof(GWPROTOCOL));
const char *authenticator_name = "NullAuth";
if (port->authenticator)
{
authenticator_name = port->authenticator;
}
else if (port->listener->func.auth_default)
{
authenticator_name = port->listener->func.auth_default();
}
GWAUTHENTICATOR *authfuncs = (GWAUTHENTICATOR *)load_module(authenticator_name, MODULE_AUTHENTICATOR);
if (authfuncs == NULL)
{
MXS_ERROR("Failed to load authenticator module '%s' for listener '%s'",
authenticator_name, port->name);
dcb_close(port->listener);
port->listener = NULL;
return 0;
}
memcpy(&port->listener->authfunc, authfuncs, sizeof(GWAUTHENTICATOR));
if (port->address)
{
sprintf(config_bind, "%s:%d", port->address, port->port);
}
else
{
sprintf(config_bind, "0.0.0.0:%d", port->port);
}
/** Load the authentication users before before starting the listener */
if (port->listener->authfunc.loadusers &&
(service->router->getCapabilities() & RCAP_TYPE_NO_USERS_INIT) == 0 &&
port->listener->authfunc.loadusers(port) != AUTH_LOADUSERS_OK)
{
MXS_ERROR("[%s] Failed to load users for listener '%s', authentication might not work.",
service->name, port->name);
}
/**
* At service start last update is set to USERS_REFRESH_TIME seconds earlier. This way MaxScale
* could try reloading users just after startup.
*/
service->rate_limit.last = time(NULL) - USERS_REFRESH_TIME;
service->rate_limit.nloads = 1;
if (port->listener->func.listen(port->listener, config_bind))
{
port->listener->session = session_alloc(service, port->listener);
if (port->listener->session != NULL)
{
port->listener->session->state = SESSION_STATE_LISTENER;
listeners += 1;
}
else
{
MXS_ERROR("Failed to create session to service %s.",
service->name);
dcb_close(port->listener);
port->listener = NULL;
goto retblock;
}
}
else
{
MXS_ERROR("Unable to start to listen port %d for %s %s.",
port->port,
port->protocol,
service->name);
dcb_close(port->listener);
port->listener = NULL;
}
retblock:
return listeners;
}
/**
* Start all ports for a service.
* serviceStartAllPorts will try to start all listeners associated with the service.
* If no listeners are started, the starting of ports will be retried after a period of time.
* @param service Service to start
* @return Number of started listeners. This is equal to the number of ports the service
* is listening to.
*/
int serviceStartAllPorts(SERVICE* service)
{
SERV_LISTENER *port = service->ports;
int listeners = 0;
if (port)
{
while (!service->svc_do_shutdown && port)
{
listeners += serviceStartPort(service, port);
port = port->next;
}
if (listeners)
{
service->state = SERVICE_STATE_STARTED;
service->stats.started = time(0);
}
else if (service->retry_start)
{
/** Service failed to start any ports. Try again later. */
service->stats.n_failed_starts++;
char taskname[strlen(service->name) + strlen("_start_retry_") +
(int) ceil(log10(INT_MAX)) + 1];
int retry_after = MIN(service->stats.n_failed_starts * 10, SERVICE_MAX_RETRY_INTERVAL);
snprintf(taskname, sizeof(taskname), "%s_start_retry_%d",
service->name, service->stats.n_failed_starts);
hktask_oneshot(taskname, service_internal_restart,
(void*) service, retry_after);
MXS_NOTICE("Failed to start service %s, retrying in %d seconds.",
service->name, retry_after);
/** This will prevent MaxScale from shutting down if service start is retried later */
listeners = 1;
}
}
else
{
MXS_WARNING("Service '%s' has no listeners defined.", service->name);
listeners = 1; /** Set this to one to suppress errors */
}
return listeners;
}
/** Helper function for copying an array of strings */
static char** copy_string_array(char** original)
{
char **array = NULL;
if (original)
{
int values = 0;
while (original[values])
{
values++;
}
array = MXS_MALLOC(sizeof(char*) * (values + 1));
if (array)
{
for (int i = 0; i < values; i++)
{
array[i] = MXS_STRDUP_A(original[i]);
}
array[values] = NULL;
}
}
return array;
}
/** Helper function for freeing an array of strings */
static void free_string_array(char** array)
{
if (array)
{
for (int i = 0; array[i]; i++)
{
MXS_FREE(array[i]);
}
MXS_FREE(array);
}
}
/**
* Start a service
*
* This function loads the protocol modules for each port on which the
* service listens and starts the listener on that port
*
* Also create the router_instance for the service.
*
* @param service The Service that should be started
* @return Returns the number of listeners created
*/
int
serviceStart(SERVICE *service)
{
int listeners = 0;
if (check_service_permissions(service))
{
char **router_options = copy_string_array(service->routerOptions);
if ((service->router_instance = service->router->createInstance(
service, router_options)))
{
listeners += serviceStartAllPorts(service);
}
else
{
MXS_ERROR("%s: Failed to create router instance for service. Service not started.",
service->name);
service->state = SERVICE_STATE_FAILED;
}
free_string_array(router_options);
}
else
{
MXS_ERROR("%s: Inadequate user permissions for service. Service not started.",
service->name);
service->state = SERVICE_STATE_FAILED;
}
return listeners;
}
/**
* Start an individual listener
*
* @param service The service to start the listener for
* @param protocol The name of the protocol
* @param port The port number
*/
void
serviceStartProtocol(SERVICE *service, char *protocol, int port)
{
SERV_LISTENER *ptr;
ptr = service->ports;
while (ptr)
{
if (strcmp(ptr->protocol, protocol) == 0 && ptr->port == port)
{
serviceStartPort(service, ptr);
}
ptr = ptr->next;
}
}
/**
* Start all the services
*
* @return Return the number of services started
*/
int
serviceStartAll()
{
SERVICE *ptr;
int n = 0, i;
bool error = false;
config_enable_feedback_task();
ptr = allServices;
while (ptr && !ptr->svc_do_shutdown)
{
n += (i = serviceStart(ptr));
if (i == 0)
{
MXS_ERROR("Failed to start service '%s'.", ptr->name);
error = true;
}
ptr = ptr->next;
}
return error ? 0 : n;
}
/**
* Stop a service
*
* This function stops the listener for the service
*
* @param service The Service that should be stopped
* @return Returns the number of listeners restarted
*/
int
serviceStop(SERVICE *service)
{
SERV_LISTENER *port;
int listeners = 0;
port = service->ports;
while (port)
{
if (port->listener && port->listener->session->state == SESSION_STATE_LISTENER)
{
if (poll_remove_dcb(port->listener) == 0)
{
port->listener->session->state = SESSION_STATE_LISTENER_STOPPED;
listeners++;
}
}
port = port->next;
}
service->state = SERVICE_STATE_STOPPED;
return listeners;
}
/**
* Restart a service
*
* This function stops the listener for the service
*
* @param service The Service that should be restarted
* @return Returns the number of listeners restarted
*/
int
serviceRestart(SERVICE *service)
{
SERV_LISTENER *port;
int listeners = 0;
port = service->ports;
while (port)
{
if (port->listener && port->listener->session->state == SESSION_STATE_LISTENER_STOPPED)
{
if (poll_add_dcb(port->listener) == 0)
{
port->listener->session->state = SESSION_STATE_LISTENER;
listeners++;
}
}
port = port->next;
}
service->state = SERVICE_STATE_STARTED;
return listeners;
}
/**
* Deallocate the specified service
*
* @param service The service to deallocate
* @return Returns true if the service was freed
*/
int
service_free(SERVICE *service)
{
SERVICE *ptr;
SERVER_REF *srv;
if (service->stats.n_current)
{
return 0;
}
/* First of all remove from the linked list */
spinlock_acquire(&service_spin);
if (allServices == service)
{
allServices = service->next;
}
else
{
ptr = allServices;
while (ptr && ptr->next != service)
{
ptr = ptr->next;
}
if (ptr)
{
ptr->next = service->next;
}
}
spinlock_release(&service_spin);
/* Clean up session and free the memory */
while (service->dbref)
{
srv = service->dbref;
service->dbref = service->dbref->next;
MXS_FREE(srv);
}
MXS_FREE(service->name);
MXS_FREE(service->routerModule);
MXS_FREE(service->weightby);
MXS_FREE(service->version_string);
MXS_FREE(service->credentials.name);
MXS_FREE(service->credentials.authdata);
free_config_parameter(service->svc_config_param);
serviceClearRouterOptions(service);
MXS_FREE(service);
return 1;
}
/**
* Add a protocol/port pair to the service
*
* @param service The service
* @param protocol The name of the protocol module
* @param address The address to listen with
* @param port The port to listen on
* @param authenticator Name of the authenticator to be used
* @param ssl SSL configuration
* @return TRUE if the protocol/port could be added
*/
int
serviceAddProtocol(SERVICE *service, char *name, char *protocol, char *address, unsigned short port, char *authenticator,
SSL_LISTENER *ssl)
{
SERV_LISTENER *proto = listener_alloc(service, name, protocol, address,
port, authenticator, ssl);
if (proto)
{
spinlock_acquire(&service->spin);
proto->next = service->ports;
service->ports = proto;
spinlock_release(&service->spin);
return 1;
}
return 0;
}
/**
* Check if a protocol/port pair is part of the service
*
* @param service The service
* @param protocol The name of the protocol module
* @param address The address to listen on
* @param port The port to listen on
* @return TRUE if the protocol/port is already part of the service
*/
int serviceHasProtocol(SERVICE *service, const char *protocol,
const char* address, unsigned short port)
{
SERV_LISTENER *proto;
spinlock_acquire(&service->spin);
proto = service->ports;
while (proto)
{
if (strcmp(proto->protocol, protocol) == 0 && proto->port == port &&
((address && proto->address && strcmp(proto->address, address) == 0) ||
(address == NULL && proto->address == NULL)))
{
break;
}
proto = proto->next;
}
spinlock_release(&service->spin);
return proto != NULL;
}
/**
* Add a backend database server to a service
*
* @param service The service to add the server to
* @param server The server to add
*/
void
serviceAddBackend(SERVICE *service, SERVER *server)
{
SERVER_REF *sref = MXS_MALLOC(sizeof(SERVER_REF));
if (sref)
{
sref->next = NULL;
sref->server = server;
spinlock_acquire(&service->spin);
if (service->dbref)
{
SERVER_REF *ref = service->dbref;
while (ref->next)
{
ref = ref->next;
}
ref->next = sref;
}
else
{
service->dbref = sref;
}
spinlock_release(&service->spin);
}
}
/**
* Test if a server is part of a service
*
* @param service The service to add the server to
* @param server The server to add
* @return Non-zero if the server is already part of the service
*/
int
serviceHasBackend(SERVICE *service, SERVER *server)
{
SERVER_REF *ptr;
spinlock_acquire(&service->spin);
ptr = service->dbref;
while (ptr && ptr->server != server)
{
ptr = ptr->next;
}
spinlock_release(&service->spin);
return ptr != NULL;
}
/**
* Add a router option to a service
*
* @param service The service to add the router option to
* @param option The option string
*/
void
serviceAddRouterOption(SERVICE *service, char *option)
{
int i;
spinlock_acquire(&service->spin);
if (service->routerOptions == NULL)
{
service->routerOptions = (char **)MXS_CALLOC(2, sizeof(char *));
MXS_ABORT_IF_NULL(service->routerOptions);
service->routerOptions[0] = MXS_STRDUP_A(option);
service->routerOptions[1] = NULL;
}
else
{
for (i = 0; service->routerOptions[i]; i++)
{
;
}
service->routerOptions = (char **)MXS_REALLOC(service->routerOptions, (i + 2) * sizeof(char *));
MXS_ABORT_IF_NULL(service->routerOptions);
service->routerOptions[i] = MXS_STRDUP_A(option);
service->routerOptions[i + 1] = NULL;
}
spinlock_release(&service->spin);
}
/**
* Remove the router options for the service
*
* @param service The service to remove the options from
*/
void
serviceClearRouterOptions(SERVICE *service)
{
int i;
spinlock_acquire(&service->spin);
if (service->routerOptions != NULL)
{
for (i = 0; service->routerOptions[i]; i++)
{
MXS_FREE(service->routerOptions[i]);
}
MXS_FREE(service->routerOptions);
service->routerOptions = NULL;
}
spinlock_release(&service->spin);
}
/**
* Set the service user that is used to log in to the backebd servers
* associated with this service.
*
* @param service The service we are setting the data for
* @param user The user name to use for connections
* @param auth The authentication data we need, e.g. MySQL SHA1 password
* @return 0 on failure
*/
int
serviceSetUser(SERVICE *service, char *user, char *auth)
{
user = MXS_STRDUP(user);
auth = MXS_STRDUP(auth);
if (!user || !auth)
{
MXS_FREE(user);
MXS_FREE(auth);
return 0;
}
MXS_FREE(service->credentials.name);
MXS_FREE(service->credentials.authdata);
service->credentials.name = user;
service->credentials.authdata = auth;
return 1;
}
/**
* Get the service user that is used to log in to the backebd servers
* associated with this service.
*
* @param service The service we are setting the data for
* @param user The user name to use for connections
* @param auth The authentication data we need, e.g. MySQL SHA1 password
* @return 0 on failure
*/
int
serviceGetUser(SERVICE *service, char **user, char **auth)
{
if (service->credentials.name == NULL || service->credentials.authdata == NULL)
{
return 0;
}
*user = service->credentials.name;
*auth = service->credentials.authdata;
return 1;
}
/**
* Enable/Disable root user for this service
* associated with this service.
*
* @param service The service we are setting the data for
* @param action 1 for root enable, 0 for disable access
* @return 0 on failure
*/
int
serviceEnableRootUser(SERVICE *service, int action)
{
if (action != 0 && action != 1)
{
return 0;
}
service->enable_root = action;
return 1;
}
/**
* Enable/Disable loading the user data from only one server or all of them
*
* @param service The service we are setting the data for
* @param action 1 for all servers, 0 for single server
* @return 0 on failure
*/
int
serviceAuthAllServers(SERVICE *service, int action)
{
if (action != 0 && action != 1)
{
return 0;
}
service->users_from_all = action;
return 1;
}
/**
* Whether to strip escape characters from the name of the database the client
* is connecting to.
* @param service Service to configure
* @param action 0 for disabled, 1 for enabled
* @return 1 if successful, 0 on error
*/
int serviceStripDbEsc(SERVICE* service, int action)
{
if (action != 0 && action != 1)
{
return 0;
}
service->strip_db_esc = action;
return 1;
}
/**
* Sets the session timeout for the service.
* @param service Service to configure
* @param val Timeout in seconds
* @return 1 on success, 0 when the value is invalid
*/
int
serviceSetTimeout(SERVICE *service, int val)
{
if (val < 0)
{
return 0;
}
/** Enable the session timeout checks if and only if at least one service is
* configured with a idle timeout. */
if ((service->conn_idle_timeout = val))
{
enable_session_timeouts();
}
return 1;
}
/**
* Sets the connection limits, if any, for the service.
* @param service Service to configure
* @param max The maximum number of client connections at any one time
* @param queued The maximum number of connections to queue up when
* max_connections clients are already connected
* @return 1 on success, 0 when the values are invalid
*/
int
serviceSetConnectionLimits(SERVICE *service, int max, int queued, int timeout)
{
if (max < 0 || queued < 0)
{
return 0;
}
service->max_connections = max;
if (queued && timeout)
{
char callback_name[100];
sprintf(callback_name, "Check queued connections %p", service);
/* If memory allocation fails, result will be null so no queue */
service->queued_connections = mxs_queue_alloc(queued, timeout);
if (service->queued_connections)
{
hktask_add(callback_name, service_queue_check, (void *)service->queued_connections, 1);
}
}
return 1;
}
/*
* @brief The callback function triggered by housekeeping every second
*
* This function removes any expired connection requests from the queue, and
* sends an error message "too many connections" for them.
*
* @param The parameter provided by the callback is the queue config
*/
static void
service_queue_check(void *data)
{
QUEUE_ENTRY expired;
QUEUE_CONFIG *queue_config = (QUEUE_CONFIG *)data;
/* The queued connections are in a FIFO queue, so we only look at the */
/* start of the queue, and remove any expired entries. As soon as this */
/* returns nothing, we stop. */
while ((mxs_dequeue_if_expired(queue_config, &expired)))
{
DCB *dcb = (DCB *)expired.queued_object;
dcb->func.connlimit(dcb, queue_config->queue_limit);
dcb_close(dcb);
}
}
/**
* Enable or disable the restarting of the service on failure.
* @param service Service to configure
* @param value A string representation of a boolean value
*/
void serviceSetRetryOnFailure(SERVICE *service, char* value)
{
if (value)
{
service->retry_start = config_truth_value(value);
}
}
/**
* Set the filters used by the service
*
* @param service The service itself
* @param filters ASCII string of filters to use
* @return True if loading and creating all filters was successful. False if a
* filter module was not found or the instance creation failed.
*/
bool
serviceSetFilters(SERVICE *service, char *filters)
{
FILTER_DEF **flist;
char *ptr, *brkt;
int n = 0;
bool rval = true;
if ((flist = (FILTER_DEF **) MXS_MALLOC(sizeof(FILTER_DEF *))) == NULL)
{
return false;
}
ptr = strtok_r(filters, "|", &brkt);
while (ptr)
{
n++;
FILTER_DEF **tmp;
if ((tmp = (FILTER_DEF **) MXS_REALLOC(flist,
(n + 1) * sizeof(FILTER_DEF *))) == NULL)
{
rval = false;
break;
}
flist = tmp;
char *filter_name = trim(ptr);
if ((flist[n - 1] = filter_find(filter_name)))
{
if (!filter_load(flist[n - 1]))
{
MXS_ERROR("Failed to load filter '%s' for service '%s'.",
filter_name, service->name);
rval = false;
break;
}
}
else
{
MXS_ERROR("Unable to find filter '%s' for service '%s'",
filter_name, service->name);
rval = false;
break;
}
flist[n] = NULL;
ptr = strtok_r(NULL, "|", &brkt);
}
if (rval)
{
service->filters = flist;
service->n_filters = n;
}
else
{
MXS_FREE(flist);
}
return rval;
}
/**
* Return a named service
*
* @param servname The name of the service to find
* @return The service or NULL if not found
*/
SERVICE *
service_find(char *servname)
{
SERVICE *service;
spinlock_acquire(&service_spin);
service = allServices;
while (service && strcmp(service->name, servname) != 0)
{
service = service->next;
}
spinlock_release(&service_spin);
return service;
}
/**
* Print details of an individual service
*
* @param service Service to print
*/
void
printService(SERVICE *service)
{
SERVER_REF *ptr = service->dbref;
struct tm result;
char time_buf[30];
int i;
printf("Service %p\n", (void *)service);
printf("\tService: %s\n", service->name);
printf("\tRouter: %s (%p)\n",
service->routerModule, (void *)service->router);
printf("\tStarted: %s",
asctime_r(localtime_r(&service->stats.started, &result), time_buf));
printf("\tBackend databases\n");
while (ptr)
{
printf("\t\t%s:%d Protocol: %s\n", ptr->server->name, ptr->server->port, ptr->server->protocol);
ptr = ptr->next;
}
if (service->n_filters)
{
printf("\tFilter chain: ");
for (i = 0; i < service->n_filters; i++)
{
printf("%s %s ", service->filters[i]->name,
i + 1 < service->n_filters ? "|" : "");
}
printf("\n");
}
SERV_LISTENER *port = service->ports;
while (port)
{
printf("\tUsers data: %p\n", (void *)port->users);
port = port->next;
}
printf("\tTotal connections: %d\n", service->stats.n_sessions);
printf("\tCurrently connected: %d\n", service->stats.n_current);
}
/**
* Print all services
*
* Designed to be called within a debugger session in order
* to display all active services within the gateway
*/
void
printAllServices()
{
SERVICE *ptr;
spinlock_acquire(&service_spin);
ptr = allServices;
while (ptr)
{
printService(ptr);
ptr = ptr->next;
}
spinlock_release(&service_spin);
}
/**
* Print all services to a DCB
*
* Designed to be called within a CLI command in order
* to display all active services within the gateway
*/
void
dprintAllServices(DCB *dcb)
{
SERVICE *ptr;
spinlock_acquire(&service_spin);
ptr = allServices;
while (ptr)
{
dprintService(dcb, ptr);
ptr = ptr->next;
}
spinlock_release(&service_spin);
}
/**
* Print details of a single service.
*
* @param dcb DCB to print data to
* @param service The service to print
*/
void dprintService(DCB *dcb, SERVICE *service)
{
SERVER_REF *server = service->dbref;
struct tm result;
char timebuf[30];
int i;
dcb_printf(dcb, "Service %p\n", service);
dcb_printf(dcb, "\tService: %s\n",
service->name);
dcb_printf(dcb, "\tRouter: %s (%p)\n",
service->routerModule, service->router);
switch (service->state)
{
case SERVICE_STATE_STARTED:
dcb_printf(dcb, "\tState: Started\n");
break;
case SERVICE_STATE_STOPPED:
dcb_printf(dcb, "\tState: Stopped\n");
break;
case SERVICE_STATE_FAILED:
dcb_printf(dcb, "\tState: Failed\n");
break;
case SERVICE_STATE_ALLOC:
dcb_printf(dcb, "\tState: Allocated\n");
break;
}
if (service->router && service->router_instance)
{
service->router->diagnostics(service->router_instance, dcb);
}
dcb_printf(dcb, "\tStarted: %s",
asctime_r(localtime_r(&service->stats.started, &result), timebuf));
dcb_printf(dcb, "\tRoot user access: %s\n",
service->enable_root ? "Enabled" : "Disabled");
if (service->n_filters)
{
dcb_printf(dcb, "\tFilter chain: ");
for (i = 0; i < service->n_filters; i++)
{
dcb_printf(dcb, "%s %s ", service->filters[i]->name,
i + 1 < service->n_filters ? "|" : "");
}
dcb_printf(dcb, "\n");
}
dcb_printf(dcb, "\tBackend databases:\n");
while (server)
{
dcb_printf(dcb, "\t\t%s:%d Protocol: %s\n", server->server->name, server->server->port,
server->server->protocol);
server = server->next;
}
if (service->weightby)
{
dcb_printf(dcb, "\tRouting weight parameter: %s\n",
service->weightby);
}
SERV_LISTENER *port = service->ports;
while (port)
{
dcb_printf(dcb, "\tUsers data: %p\n", port->users);
port = port->next;
}
dcb_printf(dcb, "\tTotal connections: %d\n",
service->stats.n_sessions);
dcb_printf(dcb, "\tCurrently connected: %d\n",
service->stats.n_current);
}
/**
* List the defined services in a tabular format.
*
* @param dcb DCB to print the service list to.
*/
void
dListServices(DCB *dcb)
{
SERVICE *service;
spinlock_acquire(&service_spin);
service = allServices;
if (service)
{
dcb_printf(dcb, "Services.\n");
dcb_printf(dcb, "--------------------------+----------------------+--------+---------------\n");
dcb_printf(dcb, "%-25s | %-20s | #Users | Total Sessions\n",
"Service Name", "Router Module");
dcb_printf(dcb, "--------------------------+----------------------+--------+---------------\n");
}
while (service)
{
ss_dassert(service->stats.n_current >= 0);
dcb_printf(dcb, "%-25s | %-20s | %6d | %5d\n",
service->name, service->routerModule,
service->stats.n_current, service->stats.n_sessions);
service = service->next;
}
if (allServices)
{
dcb_printf(dcb, "--------------------------+----------------------+--------+---------------\n\n");
}
spinlock_release(&service_spin);
}
/**
* List the defined listeners in a tabular format.
*
* @param dcb DCB to print the service list to.
*/
void
dListListeners(DCB *dcb)
{
SERVICE *service;
SERV_LISTENER *lptr;
spinlock_acquire(&service_spin);
service = allServices;
if (service)
{
dcb_printf(dcb, "Listeners.\n");
dcb_printf(dcb, "---------------------+--------------------+-----------------+-------+--------\n");
dcb_printf(dcb, "%-20s | %-18s | %-15s | Port | State\n",
"Service Name", "Protocol Module", "Address");
dcb_printf(dcb, "---------------------+--------------------+-----------------+-------+--------\n");
}
while (service)
{
lptr = service->ports;
while (lptr)
{
dcb_printf(dcb, "%-20s | %-18s | %-15s | %5d | %s\n",
service->name, lptr->protocol,
(lptr && lptr->address) ? lptr->address : "*",
lptr->port,
(!lptr->listener ||
!lptr->listener->session ||
lptr->listener->session->state == SESSION_STATE_LISTENER_STOPPED) ?
"Stopped" : "Running");
lptr = lptr->next;
}
service = service->next;
}
if (allServices)
{
dcb_printf(dcb, "---------------------+--------------------+-----------------+-------+--------\n\n");
}
spinlock_release(&service_spin);
}
/**
* Update the definition of a service
*
* @param service The service to update
* @param router The router module to use
* @param user The user to use to extract information from the database
* @param auth The password for the user above
*/
void
service_update(SERVICE *service, char *router, char *user, char *auth)
{
void *router_obj;
if (!strcmp(service->routerModule, router))
{
if ((router_obj = load_module(router, MODULE_ROUTER)) == NULL)
{
MXS_ERROR("Failed to update router "
"for service %s to %s.",
service->name,
router);
}
else
{
MXS_NOTICE("Update router for service %s to %s.",
service->name,
router);
MXS_FREE(service->routerModule);
service->routerModule = MXS_STRDUP_A(router);
service->router = router_obj;
}
}
if (user &&
(strcmp(service->credentials.name, user) != 0 ||
strcmp(service->credentials.authdata, auth) != 0))
{
MXS_NOTICE("Update credentials for service %s.", service->name);
serviceSetUser(service, user, auth);
}
}
/**
* Refresh the database users for the service
* This function replaces the MySQL users used by the service with the latest
* version found on the backend servers. There is a limit on how often the users
* can be reloaded and if this limit is exceeded, the reload will fail.
* @param service Service to reload
* @return 0 on success and 1 on error
*/
int service_refresh_users(SERVICE *service)
{
int ret = 1;
if (spinlock_acquire_nowait(&service->users_table_spin))
{
time_t now = time(NULL);
/* Check if refresh rate limit has been exceeded */
if ((now < service->rate_limit.last + USERS_REFRESH_TIME) ||
(service->rate_limit.nloads > USERS_REFRESH_MAX_PER_TIME))
{
MXS_ERROR("[%s] Refresh rate limit exceeded for load of users' table.", service->name);
}
else
{
service->rate_limit.nloads++;
/** If we have reached the limit on users refreshes, reset refresh time and count */
if (service->rate_limit.nloads > USERS_REFRESH_MAX_PER_TIME)
{
service->rate_limit.nloads = 1;
service->rate_limit.last = now;
}
ret = 0;
for (SERV_LISTENER *port = service->ports; port; port = port->next)
{
if (port->listener->authfunc.loadusers(port) != AUTH_LOADUSERS_OK)
{
MXS_ERROR("[%s] Failed to load users for listener '%s', authentication might not work.",
service->name, port->name);
ret = 1;
}
}
}
spinlock_release(&service->users_table_spin);
}
return ret;
}
bool service_set_param_value(SERVICE* service,
CONFIG_PARAMETER* param,
char* valstr,
count_spec_t count_spec,
config_param_type_t type)
{
char* p;
int valint;
bool valbool;
target_t valtarget;
bool succp = true;
if (PARAM_IS_TYPE(type, PERCENT_TYPE) || PARAM_IS_TYPE(type, COUNT_TYPE))
{
/**
* Find out whether the value is numeric and ends with '%' or '\0'
*/
p = valstr;
while (isdigit(*p))
{
p++;
}
errno = 0;
if (p == valstr || (*p != '%' && *p != '\0'))
{
succp = false;
}
else if (*p == '%')
{
if (*(p + 1) == '\0')
{
*p = '\0';
valint = (int) strtol(valstr, (char **)NULL, 10);
if (valint == 0 && errno != 0)
{
succp = false;
}
else if (PARAM_IS_TYPE(type, PERCENT_TYPE))
{
succp = true;
config_set_qualified_param(param, (void *)&valint, PERCENT_TYPE);
}
else
{
/** Log error */
}
}
else
{
succp = false;
}
}
else if (*p == '\0')
{
valint = (int) strtol(valstr, (char **)NULL, 10);
if (valint == 0 && errno != 0)
{
succp = false;
}
else if (PARAM_IS_TYPE(type, COUNT_TYPE))
{
succp = true;
config_set_qualified_param(param, (void *)&valint, COUNT_TYPE);
}
else
{
/** Log error */
}
}
}
else if (type == BOOL_TYPE)
{
unsigned int rc;
rc = find_type(&bool_type, valstr, strlen(valstr) + 1);
if (rc > 0)
{
succp = true;
if (rc % 2 == 1)
{
valbool = false;
}
else if (rc % 2 == 0)
{
valbool = true;
}
/** add param to config */
config_set_qualified_param(param, (void *)&valbool, BOOL_TYPE);
}
else
{
succp = false;
}
}
else if (type == SQLVAR_TARGET_TYPE)
{
unsigned int rc;
rc = find_type(&sqlvar_target_type, valstr, strlen(valstr) + 1);
if (rc > 0 && rc < 3)
{
succp = true;
if (rc == 1)
{
valtarget = TYPE_MASTER;
}
else if (rc == 2)
{
valtarget = TYPE_ALL;
}
/** add param to config */
config_set_qualified_param(param, (void *)&valtarget, SQLVAR_TARGET_TYPE);
}
else
{
succp = false;
}
}
if (succp)
{
service_add_qualified_param(service, param); /*< add param to svc */
}
return succp;
}
/*
* Function to find a string in typelib_t
* (similar to find_type() of mysys/typelib.c)
*
* SYNOPSIS
* find_type()
* lib typelib_t
* find String to find
* length Length of string to find
* part_match Allow part matching of value
*
* RETURN
* 0 error
* > 0 position in TYPELIB->type_names +1
*/
static int find_type(typelib_t* tl,
const char* needle,
int maxlen)
{
int i;
if (tl == NULL || needle == NULL || maxlen <= 0)
{
return -1;
}
for (i = 0; i < tl->tl_nelems; i++)
{
if (strncasecmp(tl->tl_p_elems[i], needle, maxlen) == 0)
{
return i + 1;
}
}
return 0;
}
/**
* Add qualified config parameter to SERVICE struct.
*/
static void service_add_qualified_param(SERVICE* svc,
CONFIG_PARAMETER* param)
{
spinlock_acquire(&svc->spin);
if (svc->svc_config_param == NULL)
{
svc->svc_config_param = config_clone_param(param);
svc->svc_config_param->next = NULL;
}
else
{
CONFIG_PARAMETER* p = svc->svc_config_param;
CONFIG_PARAMETER* prev = NULL;
while (true)
{
CONFIG_PARAMETER* old;
/** Replace existing parameter in the list, free old */
if (strncasecmp(param->name,
p->name,
strlen(param->name)) == 0)
{
old = p;
p = config_clone_param(param);
p->next = old->next;
if (prev != NULL)
{
prev->next = p;
}
else
{
svc->svc_config_param = p;
}
MXS_FREE(old);
break;
}
prev = p;
p = p->next;
/** Hit end of the list, add new parameter */
if (p == NULL)
{
p = config_clone_param(param);
prev->next = p;
p->next = NULL;
break;
}
}
}
/** Increment service's configuration version */
atomic_add(&svc->svc_config_version, 1);
spinlock_release(&svc->spin);
}
/**
* Return the name of the service
*
* @param svc The service
*/
char *
service_get_name(SERVICE *svc)
{
return svc->name;
}
/**
* Set the weighting parameter for the service
*
* @param service The service pointer
* @param weightby The parameter name to weight the routing by
*/
void
serviceWeightBy(SERVICE *service, char *weightby)
{
if (service->weightby)
{
MXS_FREE(service->weightby);
}
service->weightby = MXS_STRDUP_A(weightby);
}
/**
* Return the parameter the wervice shoudl use to weight connections
* by
* @param service The Service pointer
*/
char *
serviceGetWeightingParameter(SERVICE *service)
{
return service->weightby;
}
/**
* Enable/Disable localhost authentication match criteria
* associated with this service.
*
* @param service The service we are setting the data for
* @param action 1 for enable, 0 for disable access
* @return 0 on failure
*/
int
serviceEnableLocalhostMatchWildcardHost(SERVICE *service, int action)
{
if (action != 0 && action != 1)
{
return 0;
}
service->localhost_match_wildcard_host = action;
return 1;
}
void service_shutdown()
{
SERVICE* svc;
spinlock_acquire(&service_spin);
svc = allServices;
while (svc != NULL)
{
svc->svc_do_shutdown = true;
svc = svc->next;
}
spinlock_release(&service_spin);
}
/**
* Return the count of all sessions active for all services
*
* @return Count of all active sessions
*/
int
serviceSessionCountAll()
{
SERVICE *service;
int rval = 0;
spinlock_acquire(&service_spin);
service = allServices;
while (service)
{
rval += service->stats.n_current;
service = service->next;
}
spinlock_release(&service_spin);
return rval;
}
/**
* Provide a row to the result set that defines the set of service
* listeners
*
* @param set The result set
* @param data The index of the row to send
* @return The next row or NULL
*/
static RESULT_ROW *
serviceListenerRowCallback(RESULTSET *set, void *data)
{
int *rowno = (int *)data;
int i = 0;;
char buf[20];
RESULT_ROW *row;
SERVICE *service;
SERV_LISTENER *lptr = NULL;
spinlock_acquire(&service_spin);
service = allServices;
if (service)
{
lptr = service->ports;
}
while (i < *rowno && service)
{
lptr = service->ports;
while (i < *rowno && lptr)
{
if ((lptr = lptr->next) != NULL)
{
i++;
}
}
if (i < *rowno)
{
service = service->next;
if (service && (lptr = service->ports) != NULL)
{
i++;
}
}
}
if (lptr == NULL)
{
spinlock_release(&service_spin);
MXS_FREE(data);
return NULL;
}
(*rowno)++;
row = resultset_make_row(set);
resultset_row_set(row, 0, service->name);
resultset_row_set(row, 1, lptr->protocol);
resultset_row_set(row, 2, (lptr && lptr->address) ? lptr->address : "*");
sprintf(buf, "%d", lptr->port);
resultset_row_set(row, 3, buf);
resultset_row_set(row, 4,
(!lptr->listener || !lptr->listener->session ||
lptr->listener->session->state == SESSION_STATE_LISTENER_STOPPED) ?
"Stopped" : "Running");
spinlock_release(&service_spin);
return row;
}
/**
* Return a resultset that has the current set of services in it
*
* @return A Result set
*/
RESULTSET *
serviceGetListenerList()
{
RESULTSET *set;
int *data;
if ((data = (int *)MXS_MALLOC(sizeof(int))) == NULL)
{
return NULL;
}
*data = 0;
if ((set = resultset_create(serviceListenerRowCallback, data)) == NULL)
{
MXS_FREE(data);
return NULL;
}
resultset_add_column(set, "Service Name", 25, COL_TYPE_VARCHAR);
resultset_add_column(set, "Protocol Module", 20, COL_TYPE_VARCHAR);
resultset_add_column(set, "Address", 15, COL_TYPE_VARCHAR);
resultset_add_column(set, "Port", 5, COL_TYPE_VARCHAR);
resultset_add_column(set, "State", 8, COL_TYPE_VARCHAR);
return set;
}
/**
* Provide a row to the result set that defines the set of services
*
* @param set The result set
* @param data The index of the row to send
* @return The next row or NULL
*/
static RESULT_ROW *
serviceRowCallback(RESULTSET *set, void *data)
{
int *rowno = (int *)data;
int i = 0;
char buf[20];
RESULT_ROW *row;
SERVICE *service;
spinlock_acquire(&service_spin);
service = allServices;
while (i < *rowno && service)
{
i++;
service = service->next;
}
if (service == NULL)
{
spinlock_release(&service_spin);
MXS_FREE(data);
return NULL;
}
(*rowno)++;
row = resultset_make_row(set);
resultset_row_set(row, 0, service->name);
resultset_row_set(row, 1, service->routerModule);
sprintf(buf, "%d", service->stats.n_current);
resultset_row_set(row, 2, buf);
sprintf(buf, "%d", service->stats.n_sessions);
resultset_row_set(row, 3, buf);
spinlock_release(&service_spin);
return row;
}
/**
* Return a result set that has the current set of services in it
*
* @return A Result set
*/
RESULTSET *
serviceGetList()
{
RESULTSET *set;
int *data;
if ((data = (int *)MXS_MALLOC(sizeof(int))) == NULL)
{
return NULL;
}
*data = 0;
if ((set = resultset_create(serviceRowCallback, data)) == NULL)
{
MXS_FREE(data);
return NULL;
}
resultset_add_column(set, "Service Name", 25, COL_TYPE_VARCHAR);
resultset_add_column(set, "Router Module", 20, COL_TYPE_VARCHAR);
resultset_add_column(set, "No. Sessions", 10, COL_TYPE_VARCHAR);
resultset_add_column(set, "Total Sessions", 10, COL_TYPE_VARCHAR);
return set;
}
/**
* Function called by the housekeeper thread to retry starting of a service
* @param data Service to restart
*/
static void service_internal_restart(void *data)
{
SERVICE* service = (SERVICE*)data;
serviceStartAllPorts(service);
}
/**
* Check that all services have listeners
* @return True if all services have listeners
*/
bool service_all_services_have_listeners()
{
bool rval = true;
spinlock_acquire(&service_spin);
SERVICE* service = allServices;
while (service)
{
if (service->ports == NULL)
{
MXS_ERROR("Service '%s' has no listeners.", service->name);
rval = false;
}
service = service->next;
}
spinlock_release(&service_spin);
return rval;
}
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