/* $OpenBSD: radiusd_radius.c,v 1.19 2023/09/04 10:49:20 yasuoka Exp $ */ /* * Copyright (c) 2013 Internet Initiative Japan Inc. * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "radiusd.h" #include "radiusd_module.h" #include "util.h" #include "log.h" struct radius_server { struct module_radius *module; int sock; union { struct sockaddr_in6 sin6; struct sockaddr_in sin4; } addr; union { struct sockaddr_in6 sin6; struct sockaddr_in sin4; } local; struct event ev; u_char req_id_seq; }; struct module_radius { struct module_base *base; struct radius_server server[4]; char secret[RADIUSD_SECRET_MAX]; u_int nserver; u_int curr_server; u_int req_timeout; u_int max_tries; u_int max_failovers; u_int nfailover; TAILQ_HEAD(,module_radius_req) req; }; struct module_radius_req { struct module_radius *module; struct radius_server *server; u_int q_id; RADIUS_PACKET *q_pkt; u_int ntry; u_int nfailover; u_char req_id; struct event ev; TAILQ_ENTRY(module_radius_req) next; }; static void module_radius_init(struct module_radius *); static void module_radius_config_set(void *, const char *, int, char * const *); static void module_radius_start(void *); static void module_radius_stop(void *); static void module_radius_access_request(void *, u_int, const u_char *, size_t); static int radius_server_start(struct radius_server *); static void radius_server_stop(struct radius_server *); static void radius_server_on_event(int, short, void *); static void radius_server_on_fail(struct radius_server *, const char *); static void module_radius_req_send(struct module_radius_req *); static int module_radius_req_reset_event(struct module_radius_req *); static void module_radius_req_on_timeout(int, short, void *); static void module_radius_req_on_success(struct module_radius_req *, const u_char *, size_t); static void module_radius_req_on_failure(struct module_radius_req *); static void module_radius_req_free(struct module_radius_req *); static void module_radius_req_select_server(struct module_radius_req *); static void module_radius_req_reset_msgauth(struct module_radius_req *); static void module_radius_log(struct module_radius *, int, const char *, ...); static struct module_handlers module_radius_handlers = { .config_set = module_radius_config_set, .start = module_radius_start, .stop = module_radius_stop, .access_request = module_radius_access_request }; #ifndef nitems #define nitems(_x) (sizeof((_x)) / sizeof((_x)[0])) #endif int main(int argc, char *argv[]) { static struct module_radius module_radius; module_radius_init(&module_radius); openlog(NULL, LOG_PID, LOG_DAEMON); if ((module_radius.base = module_create( STDIN_FILENO, &module_radius, &module_radius_handlers)) == NULL) err(1, "Could not create a module instance"); module_drop_privilege(module_radius.base); setproctitle("[main]"); module_load(module_radius.base); log_init(0); event_init(); if (pledge("stdio inet", NULL) == -1) err(EXIT_FAILURE, "pledge"); module_start(module_radius.base); event_loop(0); module_destroy(module_radius.base); exit(EXIT_SUCCESS); } static void module_radius_init(struct module_radius *module) { memset(module, 0, sizeof(struct module_radius)); TAILQ_INIT(&module->req); } static void module_radius_config_set(void *ctx, const char *paramname, int paramvalc, char * const * paramvalv) { const char *errmsg = NULL; struct addrinfo *res; struct module_radius *module = ctx; if (strcmp(paramname, "server") == 0) { SYNTAX_ASSERT(paramvalc == 1, "`server' must have just one argument"); SYNTAX_ASSERT(module->nserver < (int)nitems(module->server), "number of server reached limit"); if (addrport_parse(paramvalv[0], IPPROTO_UDP, &res) != 0) SYNTAX_ASSERT(0, "could not parse address and port"); memcpy(&module->server[module->nserver].addr, res->ai_addr, res->ai_addrlen); if (ntohs(module->server[module->nserver].addr.sin4.sin_port) == 0) module->server[module->nserver].addr.sin4.sin_port = htons(RADIUS_DEFAULT_PORT); module->server[module->nserver].sock = -1; module->nserver++; freeaddrinfo(res); } else if (strcmp(paramname, "request-timeout") == 0) { SYNTAX_ASSERT(paramvalc == 1, "`request-timeout' must have just one argument"); module->req_timeout = (int)strtonum(paramvalv[0], 0, UINT16_MAX, &errmsg); if (module->req_timeout == 0 && errmsg != NULL) { module_send_message(module->base, IMSG_NG, "`request-timeout must be 0-%d", UINT16_MAX); return; } } else if (strcmp(paramname, "max-tries") == 0) { SYNTAX_ASSERT(paramvalc == 1, "`max-tries' must have just one argument"); module->max_tries = (int)strtonum(paramvalv[0], 0, UINT16_MAX, &errmsg); if (module->max_tries == 0 && errmsg != NULL) { module_send_message(module->base, IMSG_NG, "`max-tries must be 0-%d", UINT16_MAX); return; } } else if (strcmp(paramname, "max-failovers") == 0) { SYNTAX_ASSERT(paramvalc == 1, "`max-failovers' must have just one argument"); module->max_failovers = (int)strtonum(paramvalv[0], 0, UINT16_MAX, &errmsg); if (module->max_failovers == 0 && errmsg != NULL) { module_send_message(module->base, IMSG_NG, "`max-failovers' must be 0-%d", UINT16_MAX); return; } } else if (strcmp(paramname, "secret") == 0) { SYNTAX_ASSERT(paramvalc == 1, "`secret' must have just one argument"); if (strlcpy(module->secret, paramvalv[0], sizeof(module->secret)) >= sizeof(module->secret)) { module_send_message(module->base, IMSG_NG, "`secret' length must be 0-%lu", (u_long) sizeof(module->secret) - 1); return; } } else if (strcmp(paramname, "_debug") == 0) log_init(1); else if (strncmp(paramname, "_", 1) == 0) /* nothing */; /* ignore all internal messages */ else { module_send_message(module->base, IMSG_NG, "Unknown config parameter name `%s'", paramname); return; } module_send_message(module->base, IMSG_OK, NULL); return; syntax_error: module_send_message(module->base, IMSG_NG, "%s", errmsg); } static void module_radius_start(void *ctx) { u_int i; struct module_radius *module = ctx; if (module->nserver <= 0) { module_send_message(module->base, IMSG_NG, "needs one `server' at least"); return; } if (module->secret[0] == '\0') { module_send_message(module->base, IMSG_NG, "`secret' configuration is required"); return; } for (i = 0; i < module->nserver; i++) { module->server[i].module = module; if (radius_server_start(&module->server[i]) != 0) { module_send_message(module->base, IMSG_NG, "module `radius' failed to start one of " "the servers"); return; } } module_send_message(module->base, IMSG_OK, NULL); module_notify_secret(module->base, module->secret); } static void module_radius_stop(void *ctx) { u_int i; struct module_radius_req *req, *treq; struct module_radius *module = ctx; TAILQ_FOREACH_SAFE(req, &module->req, next, treq) module_radius_req_on_failure(req); for (i = 0; i < module->nserver; i++) radius_server_stop(&module->server[i]); } static void module_radius_access_request(void *ctx, u_int q_id, const u_char *pkt, size_t pktlen) { struct module_radius *module = ctx; struct module_radius_req *req; u_char attrbuf[256]; ssize_t attrlen; req = calloc(1, sizeof(struct module_radius_req)); if (req == NULL) { module_radius_log(module, LOG_WARNING, "%s: Out of memory: %m", __func__); goto on_fail; } req->ntry = 0; req->module = module; req->q_id = q_id; if ((req->q_pkt = radius_convert_packet(pkt, pktlen)) == NULL) { module_radius_log(module, LOG_WARNING, "%s: radius_convert_packet() failed: %m", __func__); goto on_fail; } evtimer_set(&req->ev, module_radius_req_on_timeout, req); TAILQ_INSERT_TAIL(&req->module->req, req, next); /* * radiusd decrypt User-Password attribute. crypt it again with our * secret. */ attrlen = sizeof(attrbuf); if (radius_get_raw_attr(req->q_pkt, RADIUS_TYPE_USER_PASSWORD, attrbuf, &attrlen) == 0) { attrbuf[attrlen] = '\0'; radius_del_attr_all(req->q_pkt, RADIUS_TYPE_USER_PASSWORD); radius_put_user_password_attr(req->q_pkt, attrbuf, module->secret); } /* select current server */ module_radius_req_select_server(req); module_radius_req_send(req); return; on_fail: free(req); module_accsreq_aborted(module->base, q_id); } /* * radius_server */ static int radius_server_start(struct radius_server *server) { socklen_t locallen; char buf0[NI_MAXHOST + NI_MAXSERV + 32]; char buf1[NI_MAXHOST + NI_MAXSERV + 32]; if ((server->sock = socket(AF_INET, SOCK_DGRAM | SOCK_NONBLOCK, 0)) == -1) { module_radius_log(server->module, LOG_WARNING, "%s: socket() failed", __func__); goto on_error; } if (connect(server->sock, (struct sockaddr *)&server->addr, server->addr.sin4.sin_len) != 0) { module_radius_log(server->module, LOG_WARNING, "%s: connect to %s failed", __func__, addrport_tostring((struct sockaddr *)&server->addr, server->addr.sin4.sin_len, buf1, sizeof(buf1))); goto on_error; } locallen = sizeof(server->local); if (getsockname(server->sock, (struct sockaddr *)&server->local, &locallen) != 0) { module_radius_log(server->module, LOG_WARNING, "%s: getsockanme() failed", __func__); goto on_error; } module_radius_log(server->module, LOG_INFO, "Use %s to send requests for %s", addrport_tostring((struct sockaddr *)&server->local, locallen, buf0, sizeof(buf0)), addrport_tostring((struct sockaddr *)&server->addr, server->addr.sin4.sin_len, buf1, sizeof(buf1))); event_set(&server->ev, server->sock, EV_READ | EV_PERSIST, radius_server_on_event, server); if (event_add(&server->ev, NULL)) { module_radius_log(server->module, LOG_WARNING, "%s: event_add() failed", __func__); goto on_error; } return (0); on_error: if (server->sock >= 0) close(server->sock); server->sock = -1; return (-1); } static void radius_server_stop(struct radius_server *server) { event_del(&server->ev); if (server->sock >= 0) close(server->sock); server->sock = -1; } static void radius_server_on_event(int fd, short evmask, void *ctx) { int sz, res_id; u_char pkt[65535]; char buf[NI_MAXHOST + NI_MAXSERV + 32]; struct radius_server *server = ctx; RADIUS_PACKET *radpkt = NULL; struct module_radius_req *req; struct sockaddr *peer; peer = (struct sockaddr *)&server->addr; if ((sz = recv(server->sock, pkt, sizeof(pkt), 0)) == -1) { if (errno == EAGAIN) return; module_radius_log(server->module, LOG_WARNING, "server=%s recv() failed: %m", addrport_tostring(peer, peer->sa_len, buf, sizeof(buf))); return; } if ((radpkt = radius_convert_packet(pkt, sz)) == NULL) { module_radius_log(server->module, LOG_WARNING, "server=%s could not convert the received message to a " "RADIUS packet object: %m", addrport_tostring(peer, peer->sa_len, buf, sizeof(buf))); return; } res_id = radius_get_id(radpkt); TAILQ_FOREACH(req, &server->module->req, next) { if (req->server == server && req->req_id == res_id) break; } if (req == NULL) { module_radius_log(server->module, LOG_WARNING, "server=%s Received radius message has unknown id=%d", addrport_tostring(peer, peer->sa_len, buf, sizeof(buf)), res_id); goto out; } radius_set_request_packet(radpkt, req->q_pkt); if (radius_check_response_authenticator(radpkt, server->module->secret) != 0) { module_radius_log(server->module, LOG_WARNING, "server=%s Received radius message(id=%d) has bad " "authenticator", addrport_tostring(peer, peer->sa_len, buf, sizeof(buf)), res_id); goto out; } if (radius_has_attr(radpkt, RADIUS_TYPE_MESSAGE_AUTHENTICATOR) && radius_check_message_authenticator(radpkt, server->module->secret) != 0) { module_radius_log(server->module, LOG_WARNING, "server=%s Received radius message(id=%d) has bad " "message authenticator", addrport_tostring(peer, peer->sa_len, buf, sizeof(buf)), res_id); goto out; } module_radius_log(server->module, LOG_INFO, "q=%u received a response from server %s", req->q_id, addrport_tostring(peer, peer->sa_len, buf, sizeof(buf))); module_radius_req_on_success(req, radius_get_data(radpkt), radius_get_length(radpkt)); out: if (radpkt != NULL) radius_delete_packet(radpkt); } static void radius_server_on_fail(struct radius_server *server, const char *failmsg) { char buf0[NI_MAXHOST + NI_MAXSERV + 32]; char buf1[NI_MAXHOST + NI_MAXSERV + 32]; struct sockaddr *caddr, *naddr; caddr = (struct sockaddr *)&server->addr; if (server->module->nserver <= 1) { module_radius_log(server->module, LOG_WARNING, "Server %s failed: %s", addrport_tostring(caddr, caddr->sa_len, buf0, sizeof(buf0)), failmsg); return; } server->module->curr_server++; server->module->curr_server %= server->module->nserver; naddr = (struct sockaddr *) &server->module->server[server->module->curr_server].addr; module_radius_log(server->module, LOG_WARNING, "Server %s failed: %s Fail over to %s", addrport_tostring(caddr, caddr->sa_len, buf0, sizeof(buf0)), failmsg, addrport_tostring(naddr, naddr->sa_len, buf1, sizeof(buf1))); } /* module_radius_req */ static void module_radius_req_send(struct module_radius_req *req) { int sz; struct sockaddr *peer; char msg[BUFSIZ]; peer = (struct sockaddr *)&req->server->addr; if ((sz = send(req->server->sock, radius_get_data(req->q_pkt), radius_get_length(req->q_pkt), 0)) < 0) { module_radius_log(req->module, LOG_WARNING, "Sending RADIUS query q=%u to %s failed: %m", req->q_id, addrport_tostring(peer, peer->sa_len, msg, sizeof(msg))); /* retry anyway */ } module_radius_log(req->module, LOG_INFO, "Send RADIUS query q=%u id=%d to %s successfully", req->q_id, req->req_id, addrport_tostring(peer, peer->sa_len, msg, sizeof(msg))); if (module_radius_req_reset_event(req) != -1) req->ntry++; } static int module_radius_req_reset_event(struct module_radius_req *req) { struct timeval tv; static int timeouts[] = { 2, 4, 8 }; tv.tv_usec = 0; if (req->module->req_timeout != 0) tv.tv_sec = req->module->req_timeout; else { if (req->ntry < nitems(timeouts)) tv.tv_sec = timeouts[req->ntry]; else tv.tv_sec = timeouts[nitems(timeouts) - 1]; } if (evtimer_add(&req->ev, &tv) != 0) { module_radius_log(req->module, LOG_WARNING, "Cannot process the request for q=%u: " "evtimer_add() failed: %m", req->q_id); module_radius_req_on_failure(req); return (-1); } return (0); } static void module_radius_req_on_timeout(int fd, short evmask, void *ctx) { struct module_radius_req *req = ctx; char msg[BUFSIZ]; if (req->module->max_tries <= req->ntry) { snprintf(msg, sizeof(msg), "q=%u didn't response RADIUS query " "%d time%s", req->q_id, req->ntry, (req->ntry > 0)? "s" : ""); radius_server_on_fail(req->server, msg); if (++req->nfailover >= req->module->max_failovers) { module_radius_log(req->module, LOG_WARNING, "RADIUS query q=%u time out", req->q_id); module_radius_req_on_failure(req); return; } /* select the next server */ module_radius_req_select_server(req); } module_radius_req_send(req); } static void module_radius_req_on_success(struct module_radius_req *req, const u_char *pkt, size_t pktlen) { module_accsreq_answer(req->module->base, req->q_id, pkt, pktlen); module_radius_req_free(req); } static void module_radius_req_on_failure(struct module_radius_req *req) { module_accsreq_aborted(req->module->base, req->q_id); module_radius_req_free(req); } static void module_radius_req_free(struct module_radius_req *req) { evtimer_del(&req->ev); TAILQ_REMOVE(&req->module->req, req, next); if (req->q_pkt != NULL) radius_delete_packet(req->q_pkt); free(req); } static void module_radius_req_select_server(struct module_radius_req *req) { req->server = &req->module->server[req->module->curr_server]; req->ntry = 0; req->req_id = req->server->req_id_seq++; radius_set_id(req->q_pkt, req->req_id); module_radius_req_reset_msgauth(req); } static void module_radius_req_reset_msgauth(struct module_radius_req *req) { if (radius_has_attr(req->q_pkt, RADIUS_TYPE_MESSAGE_AUTHENTICATOR)) radius_del_attr_all(req->q_pkt, RADIUS_TYPE_MESSAGE_AUTHENTICATOR); radius_put_message_authenticator(req->q_pkt, req->module->secret); } static void module_radius_log(struct module_radius *module, int pri, const char *fmt, ...) { char fmt0[BUFSIZ]; va_list va; snprintf(fmt0, sizeof(fmt0), "radius: %s", fmt); va_start(va, fmt); vlog(pri, fmt0, va); va_end(va); }