#include #include #include #include #include #include #include #include "mempool.h" #include "events.h" #include "log.h" #include "ppp.h" #include "pwdb.h" #include "ipdb.h" #include "ppp_auth.h" #include "radius_p.h" #include "attr_defs.h" #include "memdebug.h" int conf_max_try = 3; int conf_timeout = 3; int conf_acct_timeout = 3; int conf_acct_delay_time; char *conf_nas_identifier; in_addr_t conf_nas_ip_address; in_addr_t conf_gw_ip_address; in_addr_t conf_bind; int conf_verbose; int conf_interim_verbose; in_addr_t conf_dm_coa_server; int conf_dm_coa_port = 3799; char *conf_dm_coa_secret; int conf_sid_in_auth; int conf_require_nas_ident; int conf_acct_interim_interval; int conf_accounting; int conf_fail_time; int conf_req_limit; static const char *conf_default_realm; static int conf_default_realm_len; static LIST_HEAD(sessions); static pthread_rwlock_t sessions_lock = PTHREAD_RWLOCK_INITIALIZER; static void *pd_key; static struct ipdb_t ipdb; static mempool_t rpd_pool; int rad_proc_attrs(struct rad_req_t *req) { struct rad_attr_t *attr; struct ipv6db_addr_t *a; struct ev_dns_t dns; struct ev_wins_t wins; int res = 0; dns.ses = NULL; wins.ses = NULL; req->rpd->acct_interim_interval = conf_acct_interim_interval; list_for_each_entry(attr, &req->reply->attrs, entry) { if (attr->vendor && attr->vendor->id == Vendor_Microsoft) { switch (attr->attr->id) { case MS_Primary_DNS_Server: dns.ses = req->rpd->ses; dns.dns1 = attr->val.ipaddr; break; case MS_Secondary_DNS_Server: dns.ses = req->rpd->ses; dns.dns2 = attr->val.ipaddr; break; case MS_Primary_NBNS_Server: wins.ses = req->rpd->ses; wins.wins1 = attr->val.ipaddr; break; case MS_Secondary_NBNS_Server: wins.ses = req->rpd->ses; wins.wins2 = attr->val.ipaddr; break; } continue; } else if (attr->vendor) continue; switch(attr->attr->id) { case Framed_IP_Address: if (!conf_gw_ip_address && req->rpd->ses->ctrl->ppp) log_ppp_warn("radius: gw-ip-address not specified, cann't assign IP address...\n"); else if (attr->val.ipaddr != 0xfffffffe) { req->rpd->ipv4_addr.owner = &ipdb; req->rpd->ipv4_addr.peer_addr = attr->val.ipaddr; req->rpd->ipv4_addr.addr = conf_gw_ip_address; } break; case Acct_Interim_Interval: req->rpd->acct_interim_interval = attr->val.integer; break; case Session_Timeout: req->rpd->session_timeout.expire_tv.tv_sec = attr->val.integer; break; case Idle_Timeout: req->rpd->idle_timeout.period = attr->val.integer * 1000; break; case Class: if (!req->rpd->attr_class) req->rpd->attr_class = _malloc(attr->len); else if (req->rpd->attr_class_len != attr->len) req->rpd->attr_class = _realloc(req->rpd->attr_class, attr->len); memcpy(req->rpd->attr_class, attr->val.octets, attr->len); req->rpd->attr_class_len = attr->len; break; case State: if (!req->rpd->attr_state) req->rpd->attr_state = _malloc(attr->len); else if (req->rpd->attr_state_len != attr->len) req->rpd->attr_state = _realloc(req->rpd->attr_state, attr->len); memcpy(req->rpd->attr_state, attr->val.octets, attr->len); req->rpd->attr_state_len = attr->len; break; case Termination_Action: req->rpd->termination_action = attr->val.integer; break; case Framed_Interface_Id: req->rpd->ipv6_addr.peer_intf_id = attr->val.ifid; break; case Framed_IPv6_Prefix: a = _malloc(sizeof(*a)); a->prefix_len = attr->val.ipv6prefix.len; a->addr = attr->val.ipv6prefix.prefix; list_add_tail(&a->entry, &req->rpd->ipv6_addr.addr_list); break; case Delegated_IPv6_Prefix: a = _malloc(sizeof(*a)); a->prefix_len = attr->val.ipv6prefix.len; a->addr = attr->val.ipv6prefix.prefix; list_add_tail(&a->entry, &req->rpd->ipv6_dp.prefix_list); break; } } if (dns.ses) triton_event_fire(EV_DNS, &dns); if (wins.ses) triton_event_fire(EV_WINS, &wins); return res; } static int rad_pwdb_check(struct pwdb_t *pwdb, struct ap_session *ses, const char *username, int type, va_list _args) { int r = PWDB_NO_IMPL; va_list args; int chap_type; struct radius_pd_t *rpd = find_pd(ses); char username1[256]; if (conf_default_realm && !strchr(username, '@')) { int len = strlen(username); if (len + conf_default_realm_len >= 256 - 2) { log_ppp_error("radius: username is too large to append realm\n"); return PWDB_DENIED; } memcpy(username1, username, len); username1[len] = '@'; memcpy(username1 + len + 1, conf_default_realm, conf_default_realm_len); username1[len + 1 + conf_default_realm_len] = 0; username = username1; } va_copy(args, _args); switch(type) { case PPP_PAP: r = rad_auth_pap(rpd, username, args); break; case PPP_CHAP: chap_type = va_arg(args, int); switch(chap_type) { case CHAP_MD5: r = rad_auth_chap_md5(rpd, username, args); break; case MSCHAP_V1: r = rad_auth_mschap_v1(rpd, username, args); break; case MSCHAP_V2: r = rad_auth_mschap_v2(rpd, username, args); break; } break; case 0: r = rad_auth_null(rpd, username, args); break; } va_end(args); if (r == PWDB_SUCCESS) rpd->authenticated = 1; return r; } static struct ipv4db_item_t *get_ipv4(struct ap_session *ses) { struct radius_pd_t *rpd = find_pd(ses); if (rpd->ipv4_addr.peer_addr) return &rpd->ipv4_addr; return NULL; } static struct ipv6db_item_t *get_ipv6(struct ap_session *ses) { struct radius_pd_t *rpd = find_pd(ses); rpd->ipv6_addr.intf_id = 0; if (!list_empty(&rpd->ipv6_addr.addr_list)) return &rpd->ipv6_addr; return NULL; } static struct ipv6db_prefix_t *get_ipv6_prefix(struct ap_session *ses) { struct radius_pd_t *rpd = find_pd(ses); if (!list_empty(&rpd->ipv6_dp.prefix_list)) { rpd->ipv6_dp_assigned = 1; return &rpd->ipv6_dp; } return NULL; } static void session_timeout(struct triton_timer_t *t) { struct radius_pd_t *rpd = container_of(t, typeof(*rpd), session_timeout); log_ppp_msg("radius: session timed out\n"); if (rpd->ses->stop_time) return; if (rpd->termination_action == Termination_Action_RADIUS_Request && rpd->ses->ctrl->ppp) { if (ppp_auth_restart(container_of(rpd->ses, struct ppp_t, ses))) ap_session_terminate(rpd->ses, TERM_SESSION_TIMEOUT, 0); } else ap_session_terminate(rpd->ses, TERM_SESSION_TIMEOUT, 0); } static void idle_timeout(struct triton_timer_t *t) { struct radius_pd_t *rpd = container_of(t, typeof(*rpd), idle_timeout); time_t tt; if (rpd->ses->stop_time) return; time(&tt); ap_session_read_stats(rpd->ses, NULL); if (tt - rpd->ses->idle_time > t->period / 1000) { log_ppp_msg("radius: idle timed out\n"); ap_session_terminate(rpd->ses, TERM_IDLE_TIMEOUT, 0); } } static void ses_starting(struct ap_session *ses) { struct radius_pd_t *rpd = mempool_alloc(rpd_pool); memset(rpd, 0, sizeof(*rpd)); rpd->pd.key = &pd_key; rpd->ses = ses; pthread_mutex_init(&rpd->lock, NULL); INIT_LIST_HEAD(&rpd->plugin_list); INIT_LIST_HEAD(&rpd->ipv6_addr.addr_list); INIT_LIST_HEAD(&rpd->ipv6_dp.prefix_list); rpd->ipv4_addr.owner = &ipdb; rpd->ipv6_addr.owner = &ipdb; rpd->ipv6_dp.owner = &ipdb; list_add_tail(&rpd->pd.entry, &ses->pd_list); pthread_rwlock_wrlock(&sessions_lock); list_add_tail(&rpd->entry, &sessions); pthread_rwlock_unlock(&sessions_lock); #ifdef USE_BACKUP if (ses->state == AP_STATE_RESTORE && ses->backup) radius_restore_session(ses, rpd); #endif } static void ses_acct_start(struct ap_session *ses) { struct radius_pd_t *rpd = find_pd(ses); if (!rpd->authenticated) return; if (rad_acct_start(rpd)) { ap_session_terminate(rpd->ses, TERM_NAS_ERROR, 0); return; } if (rpd->session_timeout.expire_tv.tv_sec) { rpd->session_timeout.expire = session_timeout; triton_timer_add(ses->ctrl->ctx, &rpd->session_timeout, 0); } if (rpd->idle_timeout.period) { rpd->idle_timeout.expire = idle_timeout; triton_timer_add(ses->ctrl->ctx, &rpd->idle_timeout, 0); } } static void ses_finishing(struct ap_session *ses) { struct radius_pd_t *rpd = find_pd(ses); if (!rpd->authenticated) return; rad_acct_stop(rpd); } static void ses_finished(struct ap_session *ses) { struct radius_pd_t *rpd = find_pd(ses); struct ipv6db_addr_t *a; pthread_rwlock_wrlock(&sessions_lock); pthread_mutex_lock(&rpd->lock); list_del(&rpd->entry); pthread_mutex_unlock(&rpd->lock); pthread_rwlock_unlock(&sessions_lock); if (rpd->auth_req) rad_req_free(rpd->auth_req); if (rpd->acct_req) rad_req_free(rpd->acct_req); if (rpd->dm_coa_req) dm_coa_cancel(rpd); if (rpd->session_timeout.tpd) triton_timer_del(&rpd->session_timeout); if (rpd->idle_timeout.tpd) triton_timer_del(&rpd->idle_timeout); if (rpd->attr_class) _free(rpd->attr_class); if (rpd->attr_state) _free(rpd->attr_state); while (!list_empty(&rpd->ipv6_addr.addr_list)) { a = list_entry(rpd->ipv6_addr.addr_list.next, typeof(*a), entry); list_del(&a->entry); _free(a); } while (!list_empty(&rpd->ipv6_dp.prefix_list)) { a = list_entry(rpd->ipv6_dp.prefix_list.next, typeof(*a), entry); list_del(&a->entry); _free(a); } list_del(&rpd->pd.entry); mempool_free(rpd); } struct radius_pd_t *find_pd(struct ap_session *ses) { struct ap_private *pd; struct radius_pd_t *rpd; list_for_each_entry(pd, &ses->pd_list, entry) { if (pd->key == &pd_key) { rpd = container_of(pd, typeof(*rpd), pd); return rpd; } } log_emerg("radius:BUG: rpd not found\n"); abort(); } struct radius_pd_t *rad_find_session(const char *sessionid, const char *username, int port_id, in_addr_t ipaddr, const char *csid) { struct radius_pd_t *rpd; pthread_rwlock_rdlock(&sessions_lock); list_for_each_entry(rpd, &sessions, entry) { if (!rpd->ses->username) continue; if (sessionid && strcmp(sessionid, rpd->ses->sessionid)) continue; if (username && strcmp(username, rpd->ses->username)) continue; if (port_id >= 0 && port_id != rpd->ses->unit_idx) continue; if (ipaddr && rpd->ses->ipv4 && ipaddr != rpd->ses->ipv4->peer_addr) continue; if (csid && rpd->ses->ctrl->calling_station_id && strcmp(csid, rpd->ses->ctrl->calling_station_id)) continue; pthread_mutex_lock(&rpd->lock); pthread_rwlock_unlock(&sessions_lock); return rpd; } pthread_rwlock_unlock(&sessions_lock); return NULL; } struct radius_pd_t *rad_find_session_pack(struct rad_packet_t *pack) { struct rad_attr_t *attr; const char *sessionid = NULL; const char *username = NULL; const char *csid = NULL; int port_id = -1; in_addr_t ipaddr = 0; list_for_each_entry(attr, &pack->attrs, entry) { switch(attr->attr->id) { case Acct_Session_Id: sessionid = attr->val.string; break; case User_Name: username = attr->val.string; break; case NAS_Port: port_id = attr->val.integer; break; case Framed_IP_Address: ipaddr = attr->val.ipaddr; break; case Calling_Station_Id: csid = attr->val.string; break; } } if (!sessionid && !username && port_id == -1 && ipaddr == 0 && !csid) return NULL; if (username && !sessionid && port_id == -1 && ipaddr == 0) return NULL; return rad_find_session(sessionid, username, port_id, ipaddr, csid); } int rad_check_nas_pack(struct rad_packet_t *pack) { struct rad_attr_t *attr; const char *ident = NULL; in_addr_t ipaddr = 0; list_for_each_entry(attr, &pack->attrs, entry) { if (!strcmp(attr->attr->name, "NAS-Identifier")) ident = attr->val.string; else if (!strcmp(attr->attr->name, "NAS-IP-Address")) ipaddr = attr->val.ipaddr; } if (conf_require_nas_ident && !ident && !ipaddr) return -1; if (conf_nas_identifier && ident && strcmp(conf_nas_identifier, ident)) return -1; if (conf_nas_ip_address && ipaddr && conf_nas_ip_address != ipaddr) return -1; return 0; } void __export rad_register_plugin(struct ap_session *ses, struct rad_plugin_t *plugin) { struct radius_pd_t *rpd = find_pd(ses); if (!rpd) return; list_add_tail(&plugin->entry, &rpd->plugin_list); } static struct ipdb_t ipdb = { .get_ipv4 = get_ipv4, .get_ipv6 = get_ipv6, .get_ipv6_prefix = get_ipv6_prefix, }; static struct pwdb_t pwdb = { .check = rad_pwdb_check, }; static int parse_server(const char *opt, in_addr_t *addr, int *port, char **secret) { char *str = _strdup(opt); char *p1, *p2; p1 = strstr(str, ":"); p2 = strstr(str, ","); if (p1) *p1 = 0; if (p2) *p2 = 0; else return -1; *addr = inet_addr(str); if (p1) { *port = atoi(p1 + 1); if (*port <=0 ) return -1; } p1 = _strdup(p2 + 1); p2 = *secret; *secret = p1; if (p2) _free(p2); _free(str); return 0; } static int load_config(void) { char *opt; opt = conf_get_opt("radius", "max-try"); if (opt && atoi(opt) > 0) conf_max_try = atoi(opt); opt = conf_get_opt("radius", "timeout"); if (opt && atoi(opt) > 0) conf_timeout = atoi(opt); opt = conf_get_opt("radius", "acct-timeout"); if (opt && atoi(opt) >= 0) conf_acct_timeout = atoi(opt); opt = conf_get_opt("radius", "verbose"); if (opt && atoi(opt) >= 0) conf_verbose = atoi(opt) > 0; opt = conf_get_opt("radius", "interim-verbose"); if (opt && atoi(opt) >= 0) conf_interim_verbose = atoi(opt) > 0; opt = conf_get_opt("radius", "nas-ip-address"); if (opt) conf_nas_ip_address = inet_addr(opt); if (conf_nas_identifier) _free(conf_nas_identifier); opt = conf_get_opt("radius", "nas-identifier"); if (opt) conf_nas_identifier = _strdup(opt); else conf_nas_identifier = NULL; opt = conf_get_opt("radius", "gw-ip-address"); if (opt) conf_gw_ip_address = inet_addr(opt); opt = conf_get_opt("radius", "bind"); if (opt) conf_bind = inet_addr(opt); else if (conf_nas_ip_address) conf_bind = conf_nas_ip_address; opt = conf_get_opt("radius", "dae-server"); if (opt && parse_server(opt, &conf_dm_coa_server, &conf_dm_coa_port, &conf_dm_coa_secret)) { log_emerg("radius: failed to parse dae-server\n"); return -1; } opt = conf_get_opt("radius", "sid_in_auth"); if (opt) conf_sid_in_auth = atoi(opt); opt = conf_get_opt("radius", "require-nas-identification"); if (opt) conf_require_nas_ident = atoi(opt); opt = conf_get_opt("radius", "acct-interim-interval"); if (opt && atoi(opt) > 0) conf_acct_interim_interval = atoi(opt); opt = conf_get_opt("radius", "acct-delay-time"); if (opt) conf_acct_delay_time = atoi(opt); opt = conf_get_opt("radius", "fail-time"); if (opt) conf_fail_time = atoi(opt); opt = conf_get_opt("radius", "req-limit"); if (opt) conf_req_limit = atoi(opt); conf_default_realm = conf_get_opt("radius", "default-realm"); if (conf_default_realm) conf_default_realm_len = strlen(conf_default_realm); return 0; } static void radius_init(void) { const char *dict = NULL; struct conf_sect_t *s = conf_get_section("radius"); struct conf_option_t *opt1; rpd_pool = mempool_create(sizeof(struct radius_pd_t)); if (load_config()) _exit(EXIT_FAILURE); list_for_each_entry(opt1, &s->items, entry) { if (strcmp(opt1->name, "dictionary") || !opt1->val) continue; dict = opt1->val; if (rad_dict_load(dict)) _exit(0); } if (!dict && rad_dict_load(DICTIONARY)) _exit(0); pwdb_register(&pwdb); ipdb_register(&ipdb); triton_event_register_handler(EV_SES_STARTING, (triton_event_func)ses_starting); triton_event_register_handler(EV_SES_ACCT_START, (triton_event_func)ses_acct_start); triton_event_register_handler(EV_SES_FINISHING, (triton_event_func)ses_finishing); triton_event_register_handler(EV_SES_FINISHED, (triton_event_func)ses_finished); triton_event_register_handler(EV_CONFIG_RELOAD, (triton_event_func)load_config); } DEFINE_INIT(51, radius_init);