/* * This program is 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; either version 2 of the License, or (at * your option) any later version. * * 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 St, Fifth Floor, Boston, MA 02110-1301, USA */ /** * $Id$ * @file rlm_sqlippool.c * @brief Allocates an IP address / prefix from pools stored in SQL. * * @copyright 2002 Globe.Net Communications Limited * @copyright 2006 The FreeRADIUS server project * @copyright 2006 Suntel Communications */ RCSID("$Id$") #include #include #include #include #define MAX_QUERY_LEN 4096 /* * Define a structure for our module configuration. */ typedef struct rlm_sqlippool_t { char const *sql_instance_name; uint32_t lease_duration; rlm_sql_t *sql_inst; char const *pool_name; //!< Name of the attribute in the check VPS for which the value will be used as key bool ipv6; //!< Whether or not we do IPv6 pools. bool allow_duplicates; //!< assign even if it already exists char const *attribute_name; //!< name of the IP address attribute char const *req_attribute_name; //!< name of the requested IP address attribute DICT_ATTR const *framed_ip_address; //!< the attribute for IP address allocation DICT_ATTR const *req_framed_ip_address; //!< the attribute for requested IP address DICT_ATTR const *pool_attribute; //!< the attribute corresponding to the pool_name time_t last_clear; //!< So we only do it once a second. char const *allocate_begin; //!< SQL query to begin. char const *allocate_clear; //!< SQL query to clear an IP. uint32_t allocate_clear_timeout; //!< Number of second between two allocate_clear SQL query char const *allocate_existing; //!< SQL query to find existing IP leased to the device. char const *allocate_requested; //!< SQL query to find requested IP. char const *allocate_find; //!< SQL query to find an unused IP. char const *allocate_update; //!< SQL query to mark an IP as used. char const *allocate_commit; //!< SQL query to commit. char const *pool_check; //!< Query to check for the existence of the pool. char const *start_update; //!< SQL query run on Accounting Start char const *alive_update; //!< SQL query run on Accounting Interim-Update char const *stop_clear; //!< SQL query run on Accounting Stop char const *on_clear; //!< SQL query run on Accounting On char const *off_clear; //!< SQL query run on Accounting Off /* Logging Section */ char const *log_exists; //!< There was an ip address already assigned. char const *log_success; //!< We successfully allocated ip address from pool. char const *log_clear; //!< We successfully deallocated ip address from pool. char const *log_failed; //!< Failed to allocate ip from the pool. char const *log_nopool; //!< There was no Framed-IP-Address but also no Pool-Name. } rlm_sqlippool_t; static CONF_PARSER message_config[] = { { "exists", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT, rlm_sqlippool_t, log_exists), NULL }, { "success", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT, rlm_sqlippool_t, log_success), NULL }, { "clear", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT, rlm_sqlippool_t, log_clear), NULL }, { "failed", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT, rlm_sqlippool_t, log_failed), NULL }, { "nopool", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT, rlm_sqlippool_t, log_nopool), NULL }, CONF_PARSER_TERMINATOR }; /* * A mapping of configuration file names to internal variables. * * Note that the string is dynamically allocated, so it MUST * be freed. When the configuration file parse re-reads the string, * it free's the old one, and strdup's the new one, placing the pointer * to the strdup'd string into 'config.string'. This gets around * buffer over-flows. */ static CONF_PARSER module_config[] = { { "sql-instance-name", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_DEPRECATED, rlm_sqlippool_t, sql_instance_name), NULL }, { "sql_module_instance", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_REQUIRED, rlm_sqlippool_t, sql_instance_name), "sql" }, { "lease-duration", FR_CONF_OFFSET(PW_TYPE_INTEGER | PW_TYPE_DEPRECATED, rlm_sqlippool_t, lease_duration), NULL }, { "lease_duration", FR_CONF_OFFSET(PW_TYPE_INTEGER, rlm_sqlippool_t, lease_duration), "86400" }, { "pool-name", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_DEPRECATED, rlm_sqlippool_t, pool_name), NULL }, { "pool_name", FR_CONF_OFFSET(PW_TYPE_STRING, rlm_sqlippool_t, pool_name), "Pool-Name" }, { "ipv6", FR_CONF_OFFSET(PW_TYPE_BOOLEAN, rlm_sqlippool_t, ipv6), NULL}, { "allow_duplicates", FR_CONF_OFFSET(PW_TYPE_BOOLEAN, rlm_sqlippool_t, allow_duplicates), NULL}, { "attribute_name", FR_CONF_OFFSET(PW_TYPE_STRING, rlm_sqlippool_t, attribute_name), NULL}, { "req_attribute_name", FR_CONF_OFFSET(PW_TYPE_STRING, rlm_sqlippool_t, req_attribute_name), NULL}, { "allocate-begin", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT | PW_TYPE_DEPRECATED, rlm_sqlippool_t, allocate_begin), NULL }, { "allocate_begin", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT, rlm_sqlippool_t, allocate_begin), "START TRANSACTION" }, { "allocate-clear", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT | PW_TYPE_DEPRECATED, rlm_sqlippool_t, allocate_clear), NULL }, { "allocate_clear", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT , rlm_sqlippool_t, allocate_clear), "" }, { "allocate_clear_timeout", FR_CONF_OFFSET(PW_TYPE_INTEGER, rlm_sqlippool_t, allocate_clear_timeout), "1" }, { "allocate-existing", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT | PW_TYPE_DEPRECATED, rlm_sqlippool_t, allocate_existing), NULL }, { "allocate_existing", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT, rlm_sqlippool_t, allocate_existing), "" }, { "allocate-requested", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT | PW_TYPE_DEPRECATED, rlm_sqlippool_t, allocate_requested), NULL }, { "allocate_requested", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT, rlm_sqlippool_t, allocate_requested), "" }, { "allocate-find", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT | PW_TYPE_DEPRECATED, rlm_sqlippool_t, allocate_find), NULL }, { "allocate_find", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT | PW_TYPE_REQUIRED, rlm_sqlippool_t, allocate_find), "" }, { "allocate-update", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT | PW_TYPE_DEPRECATED, rlm_sqlippool_t, allocate_update), NULL }, { "allocate_update", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT , rlm_sqlippool_t, allocate_update), "" }, { "allocate-commit", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT | PW_TYPE_DEPRECATED, rlm_sqlippool_t, allocate_commit), NULL }, { "allocate_commit", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT, rlm_sqlippool_t, allocate_commit), "COMMIT" }, { "pool-check", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT | PW_TYPE_DEPRECATED, rlm_sqlippool_t, pool_check), NULL }, { "pool_check", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT, rlm_sqlippool_t, pool_check), "" }, { "start-update", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT | PW_TYPE_DEPRECATED, rlm_sqlippool_t, start_update), NULL }, { "start_update", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT , rlm_sqlippool_t, start_update), "" }, { "alive-update", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT | PW_TYPE_DEPRECATED, rlm_sqlippool_t, alive_update), NULL }, { "alive_update", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT , rlm_sqlippool_t, alive_update), "" }, { "stop-clear", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT | PW_TYPE_DEPRECATED, rlm_sqlippool_t, stop_clear), NULL }, { "stop_clear", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT , rlm_sqlippool_t, stop_clear), "" }, { "on-clear", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT | PW_TYPE_DEPRECATED, rlm_sqlippool_t, on_clear), NULL }, { "on_clear", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT , rlm_sqlippool_t, on_clear), "" }, { "off-clear", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT | PW_TYPE_DEPRECATED, rlm_sqlippool_t, off_clear), NULL }, { "off_clear", FR_CONF_OFFSET(PW_TYPE_STRING | PW_TYPE_XLAT , rlm_sqlippool_t, off_clear), "" }, { "messages", FR_CONF_POINTER(PW_TYPE_SUBSECTION, NULL), (void const *) message_config }, CONF_PARSER_TERMINATOR }; /* * Replace % in a string. * * %P pool_name * %I param * %J lease_duration * */ static int sqlippool_expand(char * out, int outlen, char const * fmt, rlm_sqlippool_t *data, char * param, int param_len) { char *q; char const *p; char tmp[40]; /* For temporary storing of integers */ q = out; for (p = fmt; *p ; p++) { int freespace; int c; /* Calculate freespace in output */ freespace = outlen - (q - out); if (freespace <= 1) break; c = *p; if (c != '%') { *q++ = *p; continue; } if (*++p == '\0') { break; } if (c == '%') { switch (*p) { case 'P': /* pool name */ strlcpy(q, data->pool_name, freespace); q += strlen(q); break; case 'I': /* IP address */ if (param && param_len > 0) { if (param_len > freespace) { strlcpy(q, param, freespace); q += strlen(q); } else { memcpy(q, param, param_len); q += param_len; } } break; case 'J': /* lease duration */ sprintf(tmp, "%d", data->lease_duration); strlcpy(q, tmp, freespace); q += strlen(q); break; default: *q++ = '%'; *q++ = *p; break; } } } *q = '\0'; #if 0 DEBUG2("sqlippool_expand: \"%s\"", out); #endif return strlen(out); } /** Perform a single sqlippool query * * Mostly wrapper around sql_query which does some special sqlippool sequence substitutions and expands * the format string. * * @param fmt sql query to expand. * @param handle sql connection handle. * @param data Instance of rlm_sqlippool. * @param request Current request. * @param param ip address string. * @param param_len ip address string len. * @return 0 on success or < 0 on error. */ static int sqlippool_command(char const *fmt, rlm_sql_handle_t **handle, rlm_sqlippool_t *data, REQUEST *request, char *param, int param_len) { char query[MAX_QUERY_LEN]; char *expanded = NULL; int ret; int affected; /* * If we don't have a command, do nothing. */ if (!fmt || !*fmt) return 0; /* * No handle? That's an error. */ if (!handle || !*handle) return -1; /* * @todo this needs to die (should just be done in xlat expansion) */ sqlippool_expand(query, sizeof(query), fmt, data, param, param_len); if (radius_axlat(&expanded, request, query, data->sql_inst->sql_escape_func, *handle) < 0) return -1; ret = data->sql_inst->sql_query(data->sql_inst, request, handle, expanded); if (ret < 0){ talloc_free(expanded); return -1; } talloc_free(expanded); /* * No handle, we can't continue. */ if (!*handle) return -1; affected = (data->sql_inst->module->sql_affected_rows)(*handle, data->sql_inst->config); if (*handle) (data->sql_inst->module->sql_finish_query)(*handle, data->sql_inst->config); return affected; } /* * Don't repeat yourself */ #undef DO #define DO(_x) if (sqlippool_command(inst->_x, handle, inst, request, NULL, 0) < 0) return RLM_MODULE_FAIL #define DO_AFFECTED(_x, _affected) _affected = sqlippool_command(inst->_x, handle, inst, request, NULL, 0); if (_affected < 0) return RLM_MODULE_FAIL #define DO_PART(_x) if (sqlippool_command(inst->_x, &handle, inst, request, NULL, 0) < 0) goto error /* * Query the database expecting a single result row */ static int CC_HINT(nonnull (1, 3, 4, 5)) sqlippool_query1(char *out, int outlen, char const *fmt, rlm_sql_handle_t **handle, rlm_sqlippool_t *data, REQUEST *request, char *param, int param_len) { char query[MAX_QUERY_LEN]; char *expanded = NULL; int rlen, retval; /* * @todo this needs to die (should just be done in xlat expansion) */ sqlippool_expand(query, sizeof(query), fmt, data, param, param_len); *out = '\0'; /* * Do an xlat on the provided string * * Note that on an escaping error the handle is still valid! */ if (radius_axlat(&expanded, request, query, data->sql_inst->sql_escape_func, *handle) < 0) { return 0; } retval = data->sql_inst->sql_select_query(data->sql_inst, request, handle, expanded); talloc_free(expanded); if ((retval != 0) || !*handle) { REDEBUG("database query error on '%s'", query); return 0; } if (data->sql_inst->sql_fetch_row(data->sql_inst, request, handle) < 0) { REDEBUG("Failed fetching query result"); goto finish; } if (!(*handle)->row) { RDEBUG2("SQL query did not return any results"); goto finish; } if (!(*handle)->row[0]) { REDEBUG("The first column of the result was NULL"); goto finish; } rlen = strlen((*handle)->row[0]); if (rlen >= outlen) { REDEBUG("The first column of the result was too long (%d)", rlen); goto finish; } strcpy(out, (*handle)->row[0]); retval = rlen; finish: (data->sql_inst->module->sql_finish_select_query)(*handle, data->sql_inst->config); return retval; } /* * Do any per-module initialization that is separate to each * configured instance of the module. e.g. set up connections * to external databases, read configuration files, set up * dictionary entries, etc. * * If configuration information is given in the config section * that must be referenced in later calls, store a handle to it * in *instance otherwise put a null pointer there. */ static int mod_instantiate(CONF_SECTION *conf, void *instance) { module_instance_t *sql_inst; rlm_sqlippool_t *inst = instance; sql_inst = module_instantiate(cf_section_find("modules"), inst->sql_instance_name); if (!sql_inst) { cf_log_err_cs(conf, "failed to find sql instance named %s", inst->sql_instance_name); return -1; } if (inst->pool_name) { DICT_ATTR const *da; da = dict_attrbyname(inst->pool_name); if (!da) { cf_log_err_cs(conf, "Unknown attribute 'pool_name = %s'", inst->pool_name); return -1; } if (da->type != PW_TYPE_STRING) { cf_log_err_cs(conf, "Cannot use non-string attributes for 'pool_name = %s'", inst->pool_name); return -1; } inst->pool_attribute = da; } if (inst->attribute_name) { DICT_ATTR const *da; da = dict_attrbyname(inst->attribute_name); if (!da) { fail: cf_log_err_cs(conf, "Unknown attribute 'attribute_name = %s'", inst->attribute_name); return -1; } switch (da->type) { default: cf_log_err_cs(conf, "Cannot use non-IP attributes for 'attribute_name = %s'", inst->attribute_name); return -1; case PW_TYPE_IPV4_ADDR: case PW_TYPE_IPV6_ADDR: case PW_TYPE_IPV4_PREFIX: case PW_TYPE_IPV6_PREFIX: break; } inst->framed_ip_address = da; } else { if (!inst->ipv6) { inst->attribute_name = "Framed-IP-Address"; inst->framed_ip_address = dict_attrbyvalue(PW_FRAMED_IP_ADDRESS, 0); } else { inst->attribute_name = "Framed-IPv6-Prefix"; inst->framed_ip_address = dict_attrbyvalue(PW_FRAMED_IPV6_PREFIX, 0); } if (!inst->framed_ip_address) goto fail; } if (inst->req_attribute_name) { DICT_ATTR const *da; da = dict_attrbyname(inst->req_attribute_name); if (!da) { cf_log_err_cs(conf, "Unknown attribute 'req_attribute_name = %s'", inst->req_attribute_name); return -1; } switch (da->type) { default: cf_log_err_cs(conf, "Cannot use non-IP attributes for 'req_attribute_name = %s'", inst->req_attribute_name); return -1; case PW_TYPE_IPV4_ADDR: case PW_TYPE_IPV6_ADDR: case PW_TYPE_IPV4_PREFIX: case PW_TYPE_IPV6_PREFIX: break; } inst->req_framed_ip_address = da; } if (strcmp(sql_inst->entry->name, "rlm_sql") != 0) { cf_log_err_cs(conf, "Module \"%s\"" " is not an instance of the rlm_sql module", inst->sql_instance_name); return -1; } if (inst->allocate_clear) { FR_INTEGER_BOUND_CHECK("allocate_clear_timeout", inst->allocate_clear_timeout, >=, 1); FR_INTEGER_BOUND_CHECK("allocate_clear_timeout", inst->allocate_clear_timeout, <=, 2*86400); } inst->sql_inst = (rlm_sql_t *) sql_inst->insthandle; return 0; } /* * If we have something to log, then we log it. * Otherwise we return the retcode as soon as possible */ static int do_logging(REQUEST *request, char const *str, int rcode) { char *expanded = NULL; if (!str || !*str) return rcode; if (radius_axlat(&expanded, request, str, NULL, NULL) < 0) { return rcode; } pair_make_config("Module-Success-Message", expanded, T_OP_SET); talloc_free(expanded); return rcode; } /* * Allocate an IP number from the pool. */ static rlm_rcode_t CC_HINT(nonnull) mod_post_auth(void *instance, REQUEST *request) { rlm_sqlippool_t *inst = (rlm_sqlippool_t *) instance; char allocation[MAX_STRING_LEN]; int allocation_len; VALUE_PAIR *vp = NULL; rlm_sql_handle_t *handle; time_t now; uint32_t diff_time; /* * If there is already an attribute in the reply do nothing */ if (!inst->allow_duplicates && (fr_pair_find_by_num(request->reply->vps, inst->framed_ip_address->attr, inst->framed_ip_address->vendor, TAG_ANY) != NULL)) { RDEBUG("%s already exists", inst->attribute_name); return do_logging(request, inst->log_exists, RLM_MODULE_NOOP); } if (fr_pair_find_by_num(request->config, inst->pool_attribute->attr, inst->pool_attribute->vendor, TAG_ANY) == NULL) { RDEBUG("No %s defined", inst->pool_name); return do_logging(request, inst->log_nopool, RLM_MODULE_NOOP); } handle = fr_connection_get(inst->sql_inst->pool); if (!handle) { REDEBUG("Failed reserving SQL connection"); return RLM_MODULE_FAIL; } if (inst->sql_inst->sql_set_user(inst->sql_inst, request, NULL) < 0) { return RLM_MODULE_FAIL; } /* * Limit the number of clears we do. There are minor * race conditions for the check, but so what. The * actual work is protected by a transaction. The idea * here is that if we're allocating 100 IPs a second, * we're only do 1 CLEAR per allocate_clear_timeout. * * This will avoid having several queries to deadlock and blocking all * the sqlippool module. */ now = time(NULL); diff_time = difftime(now, inst->last_clear); if (inst->allocate_clear && *inst->allocate_clear && (diff_time >= inst->allocate_clear_timeout)) { inst->last_clear = now; DO_PART(allocate_begin); DO_PART(allocate_clear); DO_PART(allocate_commit); } DO_PART(allocate_begin); /* * If we have a query to find an existing IP run that first */ if (inst->allocate_existing && *inst->allocate_existing) { allocation_len = sqlippool_query1(allocation, sizeof(allocation), inst->allocate_existing, &handle, inst, request, (char *) NULL, 0); if (!handle) return RLM_MODULE_FAIL; } else { allocation_len = 0; } /* * If we have a requested IP address and a query to find whether * it is available then run that next */ if (allocation_len == 0 && inst->allocate_requested && *inst->allocate_requested && fr_pair_find_by_num(request->packet->vps, inst->req_framed_ip_address->attr, inst->req_framed_ip_address->vendor, TAG_ANY) != NULL) { allocation_len = sqlippool_query1(allocation, sizeof(allocation), inst->allocate_requested, &handle, inst, request, (char *) NULL, 0); if (!handle) return RLM_MODULE_FAIL; } /* * If no IP found, look for a free one */ if (allocation_len == 0) { allocation_len = sqlippool_query1(allocation, sizeof(allocation), inst->allocate_find, &handle, inst, request, (char *) NULL, 0); if (!handle) return RLM_MODULE_FAIL; } /* * Nothing found... */ if (allocation_len == 0) { DO_PART(allocate_commit); /* *Should we perform pool-check ? */ if (inst->pool_check && *inst->pool_check) { /* *Ok, so the allocate-find query found nothing ... *Let's check if the pool exists at all */ allocation_len = sqlippool_query1(allocation, sizeof(allocation), inst->pool_check, &handle, inst, request, (char *) NULL, 0); if (!handle) return RLM_MODULE_FAIL; fr_connection_release(inst->sql_inst->pool, handle); if (allocation_len) { /* * Pool exists after all... So, * the failure to allocate the IP * address was most likely due to * the depletion of the pool. In * that case, we should return * NOTFOUND */ REDEBUG("pool appears to be full"); return do_logging(request, inst->log_failed, RLM_MODULE_NOTFOUND); } /* * Pool doesn't exist in the table. It * may be handled by some other instance of * sqlippool, so we should just ignore this * allocation failure and return NOOP */ REDEBUG("IP address could not be allocated as no pool exists with that name"); return RLM_MODULE_NOOP; } fr_connection_release(inst->sql_inst->pool, handle); REDEBUG("IP address could not be allocated"); return do_logging(request, inst->log_failed, RLM_MODULE_NOOP); } /* * See if we can create the VP from the returned data. If not, * error out. If so, add it to the list. */ vp = fr_pair_afrom_num(request->reply, inst->framed_ip_address->attr, inst->framed_ip_address->vendor); if (fr_pair_value_from_str(vp, allocation, allocation_len) < 0) { DO_PART(allocate_commit); talloc_free(vp); REDEBUG("Invalid IP address [%s] returned from database query.", allocation); fr_connection_release(inst->sql_inst->pool, handle); return do_logging(request, inst->log_failed, RLM_MODULE_NOOP); } /* * UPDATE */ if (sqlippool_command(inst->allocate_update, &handle, inst, request, allocation, allocation_len) < 0) { error: talloc_free(vp); if (handle) fr_connection_release(inst->sql_inst->pool, handle); return RLM_MODULE_FAIL; } DO_PART(allocate_commit); RDEBUG("Allocated IP %s", allocation); fr_pair_add(&request->reply->vps, vp); if (handle) fr_connection_release(inst->sql_inst->pool, handle); return do_logging(request, inst->log_success, RLM_MODULE_OK); } static int mod_accounting_start(rlm_sql_handle_t **handle, rlm_sqlippool_t *inst, REQUEST *request) { DO(start_update); return RLM_MODULE_OK; } static int mod_accounting_alive(rlm_sql_handle_t **handle, rlm_sqlippool_t *inst, REQUEST *request) { int affected; DO_AFFECTED(alive_update, affected); return (affected == 0 ? RLM_MODULE_NOTFOUND : RLM_MODULE_OK); } static int mod_accounting_stop(rlm_sql_handle_t **handle, rlm_sqlippool_t *inst, REQUEST *request) { DO(stop_clear); return do_logging(request, inst->log_clear, RLM_MODULE_OK); } static int mod_accounting_on(rlm_sql_handle_t **handle, rlm_sqlippool_t *inst, REQUEST *request) { DO(on_clear); return RLM_MODULE_OK; } static int mod_accounting_off(rlm_sql_handle_t **handle, rlm_sqlippool_t *inst, REQUEST *request) { DO(off_clear); return RLM_MODULE_OK; } /* * Check for an Accounting-Stop * If we find one and we have allocated an IP to this nas/port * combination, then deallocate it. */ static rlm_rcode_t CC_HINT(nonnull) mod_accounting(void *instance, REQUEST *request) { int rcode = RLM_MODULE_NOOP; VALUE_PAIR *vp; int acct_status_type; rlm_sqlippool_t *inst = (rlm_sqlippool_t *) instance; rlm_sql_handle_t *handle; vp = fr_pair_find_by_num(request->packet->vps, PW_ACCT_STATUS_TYPE, 0, TAG_ANY); if (!vp) { RDEBUG("Could not find account status type in packet"); return RLM_MODULE_NOOP; } acct_status_type = vp->vp_integer; switch (acct_status_type) { case PW_STATUS_START: case PW_STATUS_ALIVE: case PW_STATUS_STOP: case PW_STATUS_ACCOUNTING_ON: case PW_STATUS_ACCOUNTING_OFF: break; /* continue through to the next section */ default: /* We don't care about any other accounting packet */ return RLM_MODULE_NOOP; } handle = fr_connection_get(inst->sql_inst->pool); if (!handle) { RDEBUG("Failed reserving SQL connection"); return RLM_MODULE_FAIL; } if (inst->sql_inst->sql_set_user(inst->sql_inst, request, NULL) < 0) return RLM_MODULE_FAIL; switch (acct_status_type) { case PW_STATUS_START: rcode = mod_accounting_start(&handle, inst, request); break; case PW_STATUS_ALIVE: rcode = mod_accounting_alive(&handle, inst, request); break; case PW_STATUS_STOP: rcode = mod_accounting_stop(&handle, inst, request); break; case PW_STATUS_ACCOUNTING_ON: rcode = mod_accounting_on(&handle, inst, request); break; case PW_STATUS_ACCOUNTING_OFF: rcode = mod_accounting_off(&handle, inst, request); break; } if (handle) fr_connection_release(inst->sql_inst->pool, handle); return rcode; } /* * The module name should be the only globally exported symbol. * That is, everything else should be 'static'. * * If the module needs to temporarily modify it's instantiation * data, the type should be changed to RLM_TYPE_THREAD_UNSAFE. * The server will then take care of ensuring that the module * is single-threaded. */ extern module_t rlm_sqlippool; module_t rlm_sqlippool = { .magic = RLM_MODULE_INIT, .name = "sqlippool", .type = RLM_TYPE_THREAD_SAFE, .inst_size = sizeof(rlm_sqlippool_t), .config = module_config, .instantiate = mod_instantiate, .methods = { [MOD_ACCOUNTING] = mod_accounting, [MOD_POST_AUTH] = mod_post_auth }, };