#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "events.h" #include "list.h" #include "triton.h" #include "log.h" #include "mempool.h" #include "utils.h" #include "cli.h" #include "ap_session.h" #include "pwdb.h" #include "ipdb.h" #include "iputils.h" #include "ipset.h" #include "connlimit.h" #ifdef RADIUS #include "radius.h" #endif #include "ipoe.h" #include "memdebug.h" #define USERNAME_IFNAME 0 #define USERNAME_LUA 1 #define MODE_L2 0 #define MODE_L3 1 struct ifaddr { struct list_head entry; in_addr_t addr; int refs; }; struct iplink_arg { pcre *re; const char *opt; long *arg1; int arg2; }; struct unit_cache { struct list_head entry; int ifindex; }; struct l4_redirect { struct list_head entry; int ifindex; in_addr_t addr; time_t timeout; }; struct gw_addr { struct list_head entry; in_addr_t addr; int mask; int mask1; }; struct disc_item { struct list_head entry; struct dhcpv4_packet *pack; struct timespec ts; }; struct delay { struct list_head entry; unsigned int conn_cnt; int delay; }; static int conf_dhcpv4 = 1; static int conf_up = 0; static int conf_mode = 0; static int conf_shared = 1; static int conf_ifcfg = 1; static int conf_nat = 0; static int conf_arp = 0; static uint32_t conf_src; //static int conf_dhcpv6; static int conf_username; static int conf_unit_cache; static int conf_noauth; #ifdef RADIUS static int conf_attr_dhcp_client_ip; static int conf_attr_dhcp_router_ip; static int conf_attr_dhcp_mask; static int conf_attr_l4_redirect; #endif static int conf_l4_redirect_table; static int conf_l4_redirect_on_reject; static const char *conf_l4_redirect_ipset; static int conf_vlan_timeout = 30; static const char *conf_relay; #ifdef USE_LUA static const char *conf_lua_username_func; #endif static int conf_offer_timeout = 3; static LIST_HEAD(conf_gw_addr); static int conf_netmask = 24; static int conf_lease_time = 600; static int conf_lease_timeout = 660; static int conf_verbose; static const char *conf_agent_remote_id; static int conf_proto; static LIST_HEAD(conf_offer_delay); static unsigned int stat_starting; static unsigned int stat_active; static unsigned int stat_delayed_offer; static mempool_t ses_pool; static mempool_t disc_item_pool; static LIST_HEAD(serv_list); static pthread_mutex_t serv_lock = PTHREAD_MUTEX_INITIALIZER; static pthread_mutex_t uc_lock = PTHREAD_MUTEX_INITIALIZER; static LIST_HEAD(uc_list); static int uc_size; static mempool_t uc_pool; static pthread_rwlock_t l4_list_lock = PTHREAD_RWLOCK_INITIALIZER; static LIST_HEAD(l4_redirect_list); static struct triton_timer_t l4_redirect_timer; static struct triton_context_t l4_redirect_ctx; static void ipoe_session_finished(struct ap_session *s); static void ipoe_drop_sessions(struct ipoe_serv *serv, struct ipoe_session *skip); static void ipoe_serv_release(struct ipoe_serv *serv); static void __ipoe_session_activate(struct ipoe_session *ses); static void ipoe_ses_recv_dhcpv4(struct dhcpv4_serv *dhcpv4, struct dhcpv4_packet *pack); static void __ipoe_recv_dhcpv4(struct dhcpv4_serv *dhcpv4, struct dhcpv4_packet *pack, int force); static void ipoe_session_keepalive(struct dhcpv4_packet *pack); static void add_interface(const char *ifname, int ifindex, const char *opt, int parent_ifindex, int vid); static int get_offer_delay(); static struct ipoe_session *ipoe_session_lookup(struct ipoe_serv *serv, struct dhcpv4_packet *pack, struct ipoe_session **opt82_ses) { struct ipoe_session *ses, *res = NULL; uint8_t *agent_circuit_id = NULL; uint8_t *agent_remote_id = NULL; int opt82_match; if (opt82_ses) *opt82_ses = NULL; if (pack->relay_agent && dhcpv4_parse_opt82(pack->relay_agent, &agent_circuit_id, &agent_remote_id)) { agent_circuit_id = NULL; agent_remote_id = NULL; } list_for_each_entry(ses, &serv->sessions, entry) { opt82_match = 1; if (agent_circuit_id && !ses->agent_circuit_id) opt82_match = 0; if (opt82_match && agent_remote_id && !ses->agent_remote_id) opt82_match = 0; if (opt82_match && !agent_circuit_id && ses->agent_circuit_id) opt82_match = 0; if (opt82_match && !agent_remote_id && ses->agent_remote_id) opt82_match = 0; if (opt82_match && agent_circuit_id) { if (*agent_circuit_id != *ses->agent_circuit_id) opt82_match = 0; if (memcmp(agent_circuit_id + 1, ses->agent_circuit_id + 1, *agent_circuit_id)) opt82_match = 0; } if (opt82_match && agent_remote_id) { if (*agent_remote_id != *ses->agent_remote_id) opt82_match = 0; if (memcmp(agent_remote_id + 1, ses->agent_remote_id + 1, *agent_remote_id)) opt82_match = 0; } if (opt82_match && opt82_ses) *opt82_ses = ses; if (memcmp(pack->hdr->chaddr, ses->hwaddr, ETH_ALEN)) continue; res = ses; break; /*if (pack->client_id && !ses->client_id) continue; if (!pack->client_id && ses->client_id) continue; if (pack->client_id) { if (pack->client_id->len != ses->client_id->len) continue; if (memcmp(pack->client_id->data, ses->client_id->data, pack->client_id->len)) continue; } ses1 = ses; if (pack->hdr->xid != ses->xid) continue; return ses;*/ } if (!res || !pack->relay_agent || !opt82_ses || *opt82_ses) return res; list_for_each_entry(ses, &serv->sessions, entry) { if (agent_circuit_id && !ses->agent_circuit_id) continue; if (opt82_match && agent_remote_id && !ses->agent_remote_id) continue; if (opt82_match && !agent_circuit_id && ses->agent_circuit_id) continue; if (opt82_match && !agent_remote_id && ses->agent_remote_id) continue; if (opt82_match && agent_circuit_id) { if (*agent_circuit_id != *ses->agent_circuit_id) continue; if (memcmp(agent_circuit_id + 1, ses->agent_circuit_id + 1, *agent_circuit_id)) continue; } if (opt82_match && agent_remote_id) { if (*agent_remote_id != *ses->agent_remote_id) continue; if (memcmp(agent_remote_id + 1, ses->agent_remote_id + 1, *agent_remote_id)) continue; } *opt82_ses = ses; break; } return res; } static void ipoe_session_timeout(struct triton_timer_t *t) { struct ipoe_session *ses = container_of(t, typeof(*ses), timer); triton_timer_del(t); log_ppp_info2("ipoe: session timed out\n"); ap_session_terminate(&ses->ses, TERM_LOST_CARRIER, 0); } static void ipoe_session_set_username(struct ipoe_session *ses) { #ifdef USE_LUA if (conf_username == USERNAME_LUA) { ipoe_lua_set_username(ses, conf_lua_username_func); } else #endif ses->ses.username = _strdup(ses->ses.ifname); } static void l4_redirect_list_add(in_addr_t addr, int ifindex) { struct l4_redirect *n = _malloc(sizeof(*n)); struct timespec ts; if (!n) return; clock_gettime(CLOCK_MONOTONIC, &ts); memset(n, 0, sizeof(*n)); n->addr = addr; n->ifindex = ifindex; n->timeout = ts.tv_sec + conf_l4_redirect_on_reject; ipoe_nl_modify(ifindex, addr, 1, NULL, NULL); if (conf_l4_redirect_table) iprule_add(addr, conf_l4_redirect_table); if (conf_l4_redirect_ipset) ipset_add(conf_l4_redirect_ipset, addr); pthread_rwlock_wrlock(&l4_list_lock); list_add_tail(&n->entry, &l4_redirect_list); if (!l4_redirect_timer.tpd) triton_timer_add(&l4_redirect_ctx, &l4_redirect_timer, 0); pthread_rwlock_unlock(&l4_list_lock); } static int l4_redirect_list_check(in_addr_t addr) { struct l4_redirect *n; pthread_rwlock_rdlock(&l4_list_lock); list_for_each_entry(n, &l4_redirect_list, entry) { if (n->addr == addr) { pthread_rwlock_unlock(&l4_list_lock); return 1; } } pthread_rwlock_unlock(&l4_list_lock); return 0; } static void l4_redirect_list_timer(struct triton_timer_t *t) { struct l4_redirect *n; struct timespec ts; struct unit_cache *uc; clock_gettime(CLOCK_MONOTONIC, &ts); pthread_rwlock_wrlock(&l4_list_lock); while (!list_empty(&l4_redirect_list)) { n = list_entry(l4_redirect_list.next, typeof(*n), entry); if (ts.tv_sec > n->timeout) { list_del(&n->entry); pthread_rwlock_unlock(&l4_list_lock); if (conf_l4_redirect_table) iprule_del(n->addr, conf_l4_redirect_table); if (conf_l4_redirect_ipset) ipset_del(conf_l4_redirect_ipset, n->addr); if (uc_size < conf_unit_cache && ipoe_nl_modify(n->ifindex, 0, 0, "", NULL)) { uc = mempool_alloc(uc_pool); uc->ifindex = n->ifindex; pthread_mutex_lock(&uc_lock); list_add_tail(&uc->entry, &uc_list); ++uc_size; pthread_mutex_unlock(&uc_lock); } else ipoe_nl_delete(n->ifindex); _free(n); pthread_rwlock_wrlock(&l4_list_lock); } else break; } if (list_empty(&l4_redirect_list) && l4_redirect_timer.tpd) triton_timer_del(&l4_redirect_timer); pthread_rwlock_unlock(&l4_list_lock); } static void ipoe_change_l4_redirect(struct ipoe_session *ses, int del) { in_addr_t addr; if (ses->ses.ipv4) addr = ses->ses.ipv4->addr; else addr = ses->yiaddr; if (conf_l4_redirect_table) { if (del) { iprule_del(addr, conf_l4_redirect_table); ses->l4_redirect_set = 0; } else { iprule_add(addr, conf_l4_redirect_table); ses->l4_redirect_set = 1; } } if (conf_l4_redirect_ipset) { if (del) { ipset_del(conf_l4_redirect_ipset, addr); ses->l4_redirect_set = 0; } else { ipset_add(conf_l4_redirect_ipset, addr); ses->l4_redirect_set = 1; } } } static void ipoe_change_addr(struct ipoe_session *ses, in_addr_t newaddr) { } static void __ipoe_session_start(struct ipoe_session *ses); static void ipoe_session_start(struct ipoe_session *ses) { int r; char *passwd; struct ifreq ifr; struct unit_cache *uc; __sync_add_and_fetch(&stat_starting, 1); if (!ses->ses.username) { strncpy(ses->ses.ifname, ses->serv->ifname, AP_IFNAME_LEN); ipoe_session_set_username(ses); if (!ses->ses.username) { ipoe_session_finished(&ses->ses); return; } } ses->ses.unit_idx = ses->serv->ifindex; triton_event_fire(EV_CTRL_STARTING, &ses->ses); triton_event_fire(EV_CTRL_STARTED, &ses->ses); ap_session_starting(&ses->ses); if (!conf_noauth) { r = pwdb_check(&ses->ses, ses->ses.username, PPP_PAP, ses->ses.username); if (r == PWDB_NO_IMPL) { passwd = pwdb_get_passwd(&ses->ses, ses->ses.username); if (!passwd) r = PWDB_DENIED; else { r = PWDB_SUCCESS; _free(passwd); } } if (r == PWDB_DENIED) { if (conf_ppp_verbose) log_ppp_warn("authentication failed\n"); if (conf_l4_redirect_on_reject && !ses->dhcpv4_request && ses->ifindex != -1) { l4_redirect_list_add(ses->yiaddr, ses->ifindex); ses->ifindex = -1; } ap_session_terminate(&ses->ses, TERM_AUTH_ERROR, 0); return; } } log_ppp_info1("%s: authentication succeeded\n", ses->ses.username); triton_event_fire(EV_SES_AUTHORIZED, &ses->ses); if (ses->serv->opt_nat) ses->ses.ipv4 = ipdb_get_ipv4(&ses->ses); if (ses->serv->opt_shared == 0 && (!ses->ses.ipv4 || ses->ses.ipv4->peer_addr == ses->yiaddr)) { strncpy(ses->ses.ifname, ses->serv->ifname, AP_IFNAME_LEN); ses->ses.ifindex = ses->serv->ifindex; } else if (ses->ifindex == -1) { pthread_mutex_lock(&uc_lock); if (!list_empty(&uc_list)) { uc = list_entry(uc_list.next, typeof(*uc), entry); ses->ifindex = uc->ifindex; list_del(&uc->entry); --uc_size; pthread_mutex_unlock(&uc_lock); mempool_free(uc); } else { pthread_mutex_unlock(&uc_lock); ses->ifindex = ipoe_nl_create(0, 0, ses->serv->opt_mode == MODE_L2 ? ses->serv->ifname : NULL, ses->hwaddr); if (ses->ifindex == -1) { log_ppp_error("ipoe: failed to create interface\n"); ipoe_session_finished(&ses->ses); return; } } memset(&ifr, 0, sizeof(ifr)); ifr.ifr_ifindex = ses->ifindex; if (ioctl(sock_fd, SIOCGIFNAME, &ifr, sizeof(ifr))) { log_ppp_error("ipoe: failed to get interface name\n"); ses->ifindex = -1; ipoe_session_finished(&ses->ses); return; } strncpy(ses->ses.ifname, ifr.ifr_name, AP_IFNAME_LEN); ses->ses.ifindex = ses->ifindex; ses->ses.unit_idx = ses->ifindex; ses->ctrl.dont_ifcfg = 0; } ap_session_set_ifindex(&ses->ses); if (ses->dhcpv4_request && ses->serv->dhcpv4_relay) { dhcpv4_relay_send(ses->serv->dhcpv4_relay, ses->dhcpv4_request, ses->relay_server_id, ses->serv->ifname, conf_agent_remote_id); ses->timer.expire = ipoe_session_timeout; ses->timer.expire_tv.tv_sec = conf_offer_timeout; triton_timer_add(&ses->ctx, &ses->timer, 0); } else __ipoe_session_start(ses); } static void find_gw_addr(struct ipoe_session *ses) { struct gw_addr *a; list_for_each_entry(a, &conf_gw_addr, entry) { if ((ntohl(ses->yiaddr) & (a->mask1)) == (ntohl(a->addr) & (a->mask1))) { ses->siaddr = a->addr; ses->mask = a->mask; return; } } } static void __ipoe_session_start(struct ipoe_session *ses) { if (!ses->yiaddr) { dhcpv4_get_ip(ses->serv->dhcpv4, &ses->yiaddr, &ses->router, &ses->mask); if (ses->yiaddr) ses->dhcp_addr = 1; } if (!ses->yiaddr && !ses->serv->opt_nat) ses->ses.ipv4 = ipdb_get_ipv4(&ses->ses); if (!ses->mask) ses->mask = conf_netmask; if (ses->ses.ipv4) { if (!ses->mask) ses->mask = ses->ses.ipv4->mask; if (!ses->yiaddr) ses->yiaddr = ses->ses.ipv4->peer_addr; if (!ses->router) ses->router = ses->ses.ipv4->addr; } /*else if (ses->yiaddr) { ses->ses.ipv4 = &ses->ipv4; ses->ipv4.addr = ses->siaddr; ses->ipv4.peer_addr = ses->yiaddr; ses->ipv4.mask = ses->mask; ses->ipv4.owner = NULL; }*/ if (ses->dhcpv4_request) { if (!ses->yiaddr) { log_ppp_error("no free IPv4 address\n"); ap_session_terminate(&ses->ses, TERM_NAS_REQUEST, 0); return; } if (!ses->siaddr && ses->router != ses->yiaddr) ses->siaddr = ses->router; if (!ses->siaddr) find_gw_addr(ses); if (!ses->siaddr) ses->siaddr = ses->serv->opt_src; if (!ses->siaddr && ses->serv->dhcpv4_relay) ses->siaddr = ses->serv->dhcpv4_relay->giaddr; if (!ses->siaddr) { log_ppp_error("can't determine Server-ID\n"); ap_session_terminate(&ses->ses, TERM_NAS_ERROR, 0); return; } if (!ses->router) ses->router = ses->siaddr; if (!ses->mask) ses->mask = 32; dhcpv4_send_reply(DHCPOFFER, ses->serv->dhcpv4, ses->dhcpv4_request, ses->yiaddr, ses->siaddr, ses->router, ses->mask, ses->lease_time, ses->dhcpv4_relay_reply); dhcpv4_packet_free(ses->dhcpv4_request); ses->dhcpv4_request = NULL; ses->timer.expire = ipoe_session_timeout; ses->timer.expire_tv.tv_sec = conf_offer_timeout; triton_timer_add(&ses->ctx, &ses->timer, 0); } else __ipoe_session_activate(ses); } static void ipoe_serv_add_addr(struct ipoe_serv *serv, in_addr_t addr) { struct ifaddr *a; pthread_mutex_lock(&serv->lock); list_for_each_entry(a, &serv->addr_list, entry) { if (a->addr == addr) { a->refs++; pthread_mutex_unlock(&serv->lock); return; } } a = _malloc(sizeof(*a)); a->addr = addr; a->refs = 1; list_add_tail(&a->entry, &serv->addr_list); if (ipaddr_add(serv->ifindex, a->addr, 32)) log_warn("ipoe: failed to add addess to interface '%s'\n", serv->ifname); pthread_mutex_unlock(&serv->lock); } static void ipoe_serv_del_addr(struct ipoe_serv *serv, in_addr_t addr) { struct ifaddr *a; pthread_mutex_lock(&serv->lock); list_for_each_entry(a, &serv->addr_list, entry) { if (a->addr == addr) { if (--a->refs == 0) { if (ipaddr_del(serv->ifindex, a->addr)) log_warn("ipoe: failed to delete addess from interface '%s'\n", serv->ifname); list_del(&a->entry); _free(a); } break; } } pthread_mutex_unlock(&serv->lock); } static void ipoe_ifcfg_add(struct ipoe_session *ses) { struct ipoe_serv *serv = ses->serv; if (ses->serv->opt_ifcfg) { if (ses->serv->opt_shared) ipoe_serv_add_addr(ses->serv, ses->siaddr); else { pthread_mutex_lock(&serv->lock); if (ipaddr_add(serv->ifindex, ses->siaddr, 32)) log_ppp_warn("ipoe: failed to add addess to interface '%s'\n", serv->ifname); pthread_mutex_unlock(&serv->lock); } if (iproute_add(serv->ifindex, ses->serv->opt_src ? ses->serv->opt_src : ses->router, ses->yiaddr, conf_proto)) log_ppp_warn("ipoe: failed to add route to interface '%s'\n", serv->ifname); } else if (iproute_add(serv->ifindex, ses->serv->opt_src ? ses->serv->opt_src : ses->router, ses->yiaddr, conf_proto)) log_ppp_warn("ipoe: failed to add route to interface '%s'\n", serv->ifname); ses->ifcfg = 1; } static void ipoe_ifcfg_del(struct ipoe_session *ses) { struct ipoe_serv *serv = ses->serv; if (iproute_del(serv->ifindex, ses->yiaddr, conf_proto)) log_ppp_warn("ipoe: failed to delete route from interface '%s'\n", serv->ifname); if (ses->serv->opt_ifcfg) { if (ses->serv->opt_shared) { ipoe_serv_del_addr(ses->serv, ses->siaddr); } else { pthread_mutex_lock(&serv->lock); if (ipaddr_del(serv->ifindex, ses->siaddr)) log_ppp_warn("ipoe: failed to remove addess from interface '%s'\n", serv->ifname); pthread_mutex_unlock(&serv->lock); } } } static void __ipoe_session_activate(struct ipoe_session *ses) { uint32_t addr; if (ses->terminating) return; if (ses->ifindex != -1) { addr = 0; if (!ses->ses.ipv4) { if (ses->serv->opt_mode == MODE_L3) { addr = 1; ses->ctrl.dont_ifcfg = 1; } } else if (ses->ses.ipv4->peer_addr != ses->yiaddr) addr = ses->ses.ipv4->peer_addr; if (ipoe_nl_modify(ses->ifindex, ses->yiaddr, addr, NULL, NULL)) { ap_session_terminate(&ses->ses, TERM_NAS_ERROR, 0); return; } } if (!ses->ses.ipv4) { ses->ses.ipv4 = &ses->ipv4; ses->ipv4.owner = NULL; ses->ipv4.peer_addr = ses->yiaddr; ses->ipv4.addr = ses->siaddr; } if (ses->ifindex == -1 && (ses->serv->opt_ifcfg || (ses->serv->opt_mode == MODE_L2))) ipoe_ifcfg_add(ses); if (ses->l4_redirect) ipoe_change_l4_redirect(ses, 0); __sync_sub_and_fetch(&stat_starting, 1); __sync_add_and_fetch(&stat_active, 1); ses->started = 1; ap_session_activate(&ses->ses); if (ses->dhcpv4_request) { if (ses->ses.state == AP_STATE_ACTIVE) dhcpv4_send_reply(DHCPACK, ses->serv->dhcpv4, ses->dhcpv4_request, ses->yiaddr, ses->siaddr, ses->router, ses->mask, ses->lease_time, ses->dhcpv4_relay_reply); else dhcpv4_send_nak(ses->serv->dhcpv4, ses->dhcpv4_request); dhcpv4_packet_free(ses->dhcpv4_request); ses->dhcpv4_request = NULL; } ses->timer.expire = ipoe_session_timeout; ses->timer.expire_tv.tv_sec = conf_lease_timeout ? conf_lease_timeout : ses->lease_time; if (ses->timer.tpd) triton_timer_mod(&ses->timer, 0); } static void ipoe_session_activate(struct dhcpv4_packet *pack) { struct ipoe_session *ses = container_of(triton_context_self(), typeof(*ses), ctx); if (ses->ses.state == AP_STATE_ACTIVE) { ipoe_session_keepalive(pack); return; } if (ses->dhcpv4_request) dhcpv4_packet_free(ses->dhcpv4_request); ses->dhcpv4_request = pack; if (ses->serv->dhcpv4_relay) dhcpv4_relay_send(ses->serv->dhcpv4_relay, ses->dhcpv4_request, ses->relay_server_id, ses->serv->ifname, conf_agent_remote_id); else __ipoe_session_activate(ses); } static void ipoe_session_keepalive(struct dhcpv4_packet *pack) { struct ipoe_session *ses = container_of(triton_context_self(), typeof(*ses), ctx); if (ses->dhcpv4_request) dhcpv4_packet_free(ses->dhcpv4_request); ses->dhcpv4_request = pack; if (ses->timer.tpd) triton_timer_mod(&ses->timer, 0); ses->xid = ses->dhcpv4_request->hdr->xid; if (/*ses->ses.state == AP_STATE_ACTIVE &&*/ ses->serv->dhcpv4_relay) { dhcpv4_relay_send(ses->serv->dhcpv4_relay, ses->dhcpv4_request, ses->relay_server_id, ses->serv->ifname, conf_agent_remote_id); return; } if (ses->ses.state == AP_STATE_ACTIVE) { dhcpv4_send_reply(DHCPACK, ses->serv->dhcpv4, ses->dhcpv4_request, ses->yiaddr, ses->siaddr, ses->router, ses->mask, ses->lease_time, ses->dhcpv4_relay_reply); } else dhcpv4_send_nak(ses->serv->dhcpv4, ses->dhcpv4_request); dhcpv4_packet_free(ses->dhcpv4_request); ses->dhcpv4_request = NULL; } static void ipoe_session_decline(struct dhcpv4_packet *pack) { struct ipoe_session *ses = container_of(triton_context_self(), typeof(*ses), ctx); if (conf_verbose) { log_ppp_info2("recv "); dhcpv4_print_packet(pack, 0, log_ppp_info2); } if (pack->msg_type == DHCPDECLINE && ses->serv->dhcpv4_relay) dhcpv4_relay_send(ses->serv->dhcpv4_relay, pack, 0, ses->serv->ifname, conf_agent_remote_id); dhcpv4_packet_free(pack); ap_session_terminate(&ses->ses, TERM_USER_REQUEST, 0); } static void ipoe_session_started(struct ap_session *s) { struct ipoe_session *ses = container_of(s, typeof(*ses), ses); log_ppp_info1("ipoe: session started\n"); if (ses->timer.tpd) triton_timer_mod(&ses->timer, 0); if (ses->ifindex != -1 && ses->xid) { ses->dhcpv4 = dhcpv4_create(ses->ctrl.ctx, ses->ses.ifname, ""); if (!ses->dhcpv4) { //terminate return; } ses->dhcpv4->recv = ipoe_ses_recv_dhcpv4; } } static void ipoe_session_free(struct ipoe_session *ses) { if (ses->started) __sync_sub_and_fetch(&stat_active, 1); else __sync_sub_and_fetch(&stat_starting, 1); if (ses->timer.tpd) triton_timer_del(&ses->timer); if (ses->dhcpv4_request) dhcpv4_packet_free(ses->dhcpv4_request); if (ses->ctrl.called_station_id) _free(ses->ctrl.called_station_id); if (ses->ctrl.calling_station_id) _free(ses->ctrl.calling_station_id); triton_context_unregister(&ses->ctx); if (ses->data) _free(ses->data); mempool_free(ses); } static void ipoe_session_finished(struct ap_session *s) { struct ipoe_session *ses = container_of(s, typeof(*ses), ses); struct unit_cache *uc; log_ppp_info1("ipoe: session finished\n"); pthread_mutex_lock(&ses->serv->lock); list_del(&ses->entry); if ((ses->serv->vid || ses->serv->need_close) && list_empty(&ses->serv->sessions)) triton_context_call(&ses->serv->ctx, (triton_event_func)ipoe_serv_release, ses->serv); pthread_mutex_unlock(&ses->serv->lock); if (ses->ifindex != -1) { if (uc_size < conf_unit_cache && ipoe_nl_modify(ses->ifindex, 0, 0, "", NULL)) { uc = mempool_alloc(uc_pool); uc->ifindex = ses->ifindex; pthread_mutex_lock(&uc_lock); list_add_tail(&uc->entry, &uc_list); ++uc_size; pthread_mutex_unlock(&uc_lock); } else ipoe_nl_delete(ses->ifindex); } if (ses->dhcp_addr) dhcpv4_put_ip(ses->serv->dhcpv4, ses->yiaddr); if (ses->relay_addr && ses->serv->dhcpv4_relay) dhcpv4_relay_send_release(ses->serv->dhcpv4_relay, ses->hwaddr, ses->xid, ses->yiaddr, ses->client_id, ses->relay_agent, ses->serv->ifname, conf_agent_remote_id); if (ses->ifcfg) ipoe_ifcfg_del(ses); if (ses->dhcpv4) dhcpv4_free(ses->dhcpv4); triton_event_fire(EV_CTRL_FINISHED, s); triton_context_call(&ses->ctx, (triton_event_func)ipoe_session_free, ses); } static void ipoe_session_terminate(struct ap_session *s, int hard) { struct ipoe_session *ses = container_of(s, typeof(*ses), ses); if (ses->l4_redirect_set) ipoe_change_l4_redirect(ses, 1); ap_session_finished(s); } static void ipoe_session_close(struct triton_context_t *ctx) { struct ipoe_session *ses = container_of(ctx, typeof(*ses), ctx); if (ses->ses.state) ap_session_terminate(&ses->ses, TERM_ADMIN_RESET, 1); else ipoe_session_finished(&ses->ses); } static struct ipoe_session *ipoe_session_create_dhcpv4(struct ipoe_serv *serv, struct dhcpv4_packet *pack) { struct ipoe_session *ses; int dlen = 0; uint8_t *ptr = NULL; ses = mempool_alloc(ses_pool); if (!ses) { log_emerg("out of memery\n"); return NULL; } memset(ses, 0, sizeof(*ses)); ap_session_init(&ses->ses); ses->serv = serv; ses->ifindex = -1; ses->dhcpv4_request = pack; ses->xid = pack->hdr->xid; memcpy(ses->hwaddr, pack->hdr->chaddr, 6); ses->giaddr = pack->hdr->giaddr; ses->lease_time = conf_lease_time; if (pack->client_id) dlen += sizeof(struct dhcpv4_option) + pack->client_id->len; if (pack->relay_agent) dlen += sizeof(struct dhcpv4_option) + pack->relay_agent->len; if (dlen) { ses->data = _malloc(dlen); if (!ses->data) { log_emerg("out of memery\n"); mempool_free(ses); return NULL; } ptr = ses->data; } if (pack->client_id) { ses->client_id = (struct dhcpv4_option *)ptr; ses->client_id->len = pack->client_id->len; ses->client_id->data = (uint8_t *)(ses->client_id + 1); memcpy(ses->client_id->data, pack->client_id->data, pack->client_id->len); ptr += sizeof(struct dhcpv4_option) + pack->client_id->len; } if (pack->relay_agent) { ses->relay_agent = (struct dhcpv4_option *)ptr; ses->relay_agent->len = pack->relay_agent->len; ses->relay_agent->data = (uint8_t *)(ses->relay_agent + 1); memcpy(ses->relay_agent->data, pack->relay_agent->data, pack->relay_agent->len); ptr += sizeof(struct dhcpv4_option) + pack->relay_agent->len; if (dhcpv4_parse_opt82(ses->relay_agent, &ses->agent_circuit_id, &ses->agent_remote_id)) ses->relay_agent = NULL; } ses->ctx.before_switch = log_switch; ses->ctx.close = ipoe_session_close; ses->ctrl.ctx = &ses->ctx; ses->ctrl.started = ipoe_session_started; ses->ctrl.finished = ipoe_session_finished; ses->ctrl.terminate = ipoe_session_terminate; ses->ctrl.type = CTRL_TYPE_IPOE; ses->ctrl.name = "ipoe"; ses->ctrl.dont_ifcfg = 1; ses->ctrl.calling_station_id = _malloc(19); ses->ctrl.called_station_id = _strdup(serv->ifname); ptr = ses->hwaddr; sprintf(ses->ctrl.calling_station_id, "%02x:%02x:%02x:%02x:%02x:%02x", ptr[0], ptr[1], ptr[2], ptr[3], ptr[4], ptr[5]); ses->ses.ctrl = &ses->ctrl; ses->ses.chan_name = ses->ctrl.calling_station_id; triton_context_register(&ses->ctx, &ses->ses); triton_context_wakeup(&ses->ctx); //pthread_mutex_lock(&serv->lock); list_add_tail(&ses->entry, &serv->sessions); //pthread_mutex_unlock(&serv->lock); if (serv->timer.tpd) triton_timer_del(&serv->timer); triton_context_call(&ses->ctx, (triton_event_func)ipoe_session_start, ses); return ses; } static void __ipoe_session_terminate(struct ap_session *ses) { ap_session_terminate(ses, TERM_USER_REQUEST, 0); } static void ipoe_ses_recv_dhcpv4(struct dhcpv4_serv *dhcpv4, struct dhcpv4_packet *pack) { struct ipoe_session *ses = container_of(dhcpv4->ctx, typeof(*ses), ctx); int opt82_match; uint8_t *agent_circuit_id = NULL; uint8_t *agent_remote_id = NULL; if (ap_shutdown) return; if (conf_verbose) { log_ppp_info2("recv "); dhcpv4_print_packet(pack, 0, log_info2); } if (pack->relay_agent && dhcpv4_parse_opt82(pack->relay_agent, &agent_circuit_id, &agent_remote_id)) { agent_circuit_id = NULL; agent_remote_id = NULL; } opt82_match = 1; if (agent_circuit_id && !ses->agent_circuit_id) opt82_match = 0; if (opt82_match && agent_remote_id && !ses->agent_remote_id) opt82_match = 0; if (opt82_match && !agent_circuit_id && ses->agent_circuit_id) opt82_match = 0; if (opt82_match && !agent_remote_id && ses->agent_remote_id) opt82_match = 0; if (opt82_match && agent_circuit_id) { if (*agent_circuit_id != *ses->agent_circuit_id) opt82_match = 0; if (memcmp(agent_circuit_id + 1, ses->agent_circuit_id + 1, *agent_circuit_id)) opt82_match = 0; } if (opt82_match && agent_remote_id) { if (*agent_remote_id != *ses->agent_remote_id) opt82_match = 0; if (memcmp(agent_remote_id + 1, ses->agent_remote_id + 1, *agent_remote_id)) opt82_match = 0; } if (!opt82_match) { log_ppp_info2("port change detected\n"); if (pack->msg_type == DHCPREQUEST) dhcpv4_send_nak(dhcpv4, pack); triton_context_call(ses->ctrl.ctx, (triton_event_func)__ipoe_session_terminate, &ses->ses); return; } if (pack->msg_type == DHCPDISCOVER) { if (ses->yiaddr) { if (ses->serv->dhcpv4_relay) { dhcpv4_packet_ref(pack); ipoe_session_keepalive(pack); } else dhcpv4_send_reply(DHCPOFFER, dhcpv4, pack, ses->yiaddr, ses->siaddr, ses->router, ses->mask, ses->lease_time, ses->dhcpv4_relay_reply); } } else if (pack->msg_type == DHCPREQUEST) { if (pack->hdr->ciaddr == ses->yiaddr && pack->hdr->xid != ses->xid) ses->xid = pack->hdr->xid; if ((pack->server_id && (pack->server_id != ses->siaddr || pack->request_ip != ses->yiaddr)) || (pack->hdr->ciaddr && (pack->hdr->xid != ses->xid || pack->hdr->ciaddr != ses->yiaddr))) { if (pack->server_id == ses->siaddr) dhcpv4_send_nak(dhcpv4, pack); else if (ses->serv->dhcpv4_relay) dhcpv4_relay_send(ses->serv->dhcpv4_relay, pack, 0, ses->serv->ifname, conf_agent_remote_id); triton_context_call(ses->ctrl.ctx, (triton_event_func)__ipoe_session_terminate, &ses->ses); } else { dhcpv4_packet_ref(pack); ipoe_session_keepalive(pack); } } else if (pack->msg_type == DHCPDECLINE || pack->msg_type == DHCPRELEASE) { dhcpv4_packet_ref(pack); triton_context_call(ses->ctrl.ctx, (triton_event_func)ipoe_session_decline, pack); } } static void ipoe_serv_disc_timer(struct triton_timer_t *t) { struct ipoe_serv *serv = container_of(t, typeof(*serv), disc_timer); struct disc_item *d; struct timespec ts; int delay, offer_delay; clock_gettime(CLOCK_MONOTONIC, &ts); while (!list_empty(&serv->disc_list)) { d = list_entry(serv->disc_list.next, typeof(*d), entry); delay = (ts.tv_sec - d->ts.tv_sec) * 1000 + (ts.tv_nsec - d->ts.tv_nsec) / 1000000; offer_delay = get_offer_delay(); if (delay < offer_delay - 1) { delay = offer_delay - delay; t->expire_tv.tv_sec = delay / 1000; t->expire_tv.tv_usec = (delay % 1000) * 1000; triton_timer_mod(t, 0); return; } __ipoe_recv_dhcpv4(serv->dhcpv4, d->pack, 1); list_del(&d->entry); dhcpv4_packet_free(d->pack); mempool_free(d); __sync_sub_and_fetch(&stat_delayed_offer, 1); } triton_timer_del(t); } static void ipoe_serv_add_disc(struct ipoe_serv *serv, struct dhcpv4_packet *pack, int offer_delay) { struct disc_item *d = mempool_alloc(disc_item_pool); if (!d) return; __sync_add_and_fetch(&stat_delayed_offer, 1); dhcpv4_packet_ref(pack); d->pack = pack; clock_gettime(CLOCK_MONOTONIC, &d->ts); list_add_tail(&d->entry, &serv->disc_list); if (!serv->disc_timer.tpd) { serv->disc_timer.expire_tv.tv_sec = offer_delay / 1000; serv->disc_timer.expire_tv.tv_usec = (offer_delay % 1000) * 1000; triton_timer_add(&serv->ctx, &serv->disc_timer, 0); } } static void ipoe_serv_check_disc(struct ipoe_serv *serv, struct dhcpv4_packet *pack) { struct disc_item *d; list_for_each_entry(d, &serv->disc_list, entry) { if (d->pack->hdr->xid != pack->hdr->xid) continue; if (memcmp(d->pack->hdr->chaddr, pack->hdr->chaddr, ETH_ALEN)) continue; list_del(&d->entry); dhcpv4_packet_free(d->pack); mempool_free(d); __sync_sub_and_fetch(&stat_delayed_offer, 1); break; } } static void __ipoe_recv_dhcpv4(struct dhcpv4_serv *dhcpv4, struct dhcpv4_packet *pack, int force) { struct ipoe_serv *serv = container_of(dhcpv4->ctx, typeof(*serv), ctx); struct ipoe_session *ses, *opt82_ses; int offer_delay; //struct dhcpv4_packet *reply; if (serv->timer.tpd) triton_timer_mod(&serv->timer, 0); if (ap_shutdown) return; pthread_mutex_lock(&serv->lock); if (pack->msg_type == DHCPDISCOVER) { ses = ipoe_session_lookup(serv, pack, &opt82_ses); if (!ses) { if (serv->opt_shared == 0) ipoe_drop_sessions(serv, NULL); else if (opt82_ses) { if (conf_verbose) log_ppp_warn("mac change detected\n"); triton_context_call(&opt82_ses->ctx, (triton_event_func)__ipoe_session_terminate, &opt82_ses->ses); } offer_delay = get_offer_delay(); if (offer_delay == -1) goto out; if (offer_delay && !force) { ipoe_serv_add_disc(serv, pack, offer_delay); goto out; } ses = ipoe_session_create_dhcpv4(serv, pack); if (ses) { dhcpv4_packet_ref(pack); if (conf_verbose) { log_switch(dhcpv4->ctx, &ses->ses); log_ppp_info2("recv "); dhcpv4_print_packet(pack, 0, log_ppp_info2); } } } else { if ((opt82_ses && ses != opt82_ses) || (!opt82_ses && pack->relay_agent)) { if (conf_verbose) { log_switch(dhcpv4->ctx, &ses->ses); log_ppp_info2("recv "); dhcpv4_print_packet(pack, 0, log_ppp_info2); log_ppp_warn("port change detected\n"); } triton_context_call(&ses->ctx, (triton_event_func)__ipoe_session_terminate, &ses->ses); goto out; } log_switch(dhcpv4->ctx, &ses->ses); if (conf_verbose) { log_ppp_info2("recv "); dhcpv4_print_packet(pack, 0, log_ppp_info2); } if (ses->yiaddr) { if (ses->serv->dhcpv4_relay) { dhcpv4_packet_ref(pack); triton_context_call(&ses->ctx, (triton_event_func)ipoe_session_keepalive, pack); } else dhcpv4_send_reply(DHCPOFFER, dhcpv4, pack, ses->yiaddr, ses->siaddr, ses->router, ses->mask, ses->lease_time, ses->dhcpv4_relay_reply); } } } else if (pack->msg_type == DHCPREQUEST) { ipoe_serv_check_disc(serv, pack); ses = ipoe_session_lookup(serv, pack, &opt82_ses); if (!ses) { if (conf_verbose) { log_debug("recv "); dhcpv4_print_packet(pack, 0, log_debug); } if (!pack->server_id) dhcpv4_send_nak(dhcpv4, pack); if (serv->opt_shared == 0) ipoe_drop_sessions(serv, NULL); else if (opt82_ses) { if (conf_verbose) { log_switch(dhcpv4->ctx, &opt82_ses->ses); log_ppp_warn("mac change detected\n"); } triton_context_call(&opt82_ses->ctx, (triton_event_func)__ipoe_session_terminate, &opt82_ses->ses); } } else { if (pack->hdr->ciaddr == ses->yiaddr && pack->hdr->xid != ses->xid) ses->xid = pack->hdr->xid; if ((pack->server_id && (pack->server_id != ses->siaddr || pack->request_ip != ses->yiaddr)) || (pack->hdr->ciaddr && (pack->hdr->xid != ses->xid || pack->hdr->ciaddr != ses->yiaddr)) || (opt82_ses && ses != opt82_ses) || (!opt82_ses && pack->relay_agent)) { if (conf_verbose) { log_switch(dhcpv4->ctx, &ses->ses); log_ppp_info2("recv "); dhcpv4_print_packet(pack, 0, log_info2); if ((opt82_ses && ses != opt82_ses) || (!opt82_ses && pack->relay_agent)) log_ppp_warn("port change detected\n"); } if (pack->server_id == ses->siaddr) dhcpv4_send_nak(dhcpv4, pack); if (ses->serv->dhcpv4_relay) dhcpv4_relay_send(ses->serv->dhcpv4_relay, pack, 0, ses->serv->ifname, conf_agent_remote_id); triton_context_call(&ses->ctx, (triton_event_func)__ipoe_session_terminate, &ses->ses); } else { if (conf_verbose) { log_switch(dhcpv4->ctx, &ses->ses); log_ppp_info2("recv "); dhcpv4_print_packet(pack, 0, log_ppp_info2); } if (serv->opt_shared == 0) ipoe_drop_sessions(serv, ses); if (ses->ses.state == AP_STATE_STARTING && ses->yiaddr) { dhcpv4_packet_ref(pack); triton_context_call(&ses->ctx, (triton_event_func)ipoe_session_activate, pack); } else if (ses->ses.state == AP_STATE_ACTIVE) { dhcpv4_packet_ref(pack); triton_context_call(&ses->ctx, (triton_event_func)ipoe_session_keepalive, pack); } } } } else if (pack->msg_type == DHCPDECLINE || pack->msg_type == DHCPRELEASE) { ses = ipoe_session_lookup(serv, pack, &opt82_ses); if (ses) { dhcpv4_packet_ref(pack); triton_context_call(&ses->ctx, (triton_event_func)ipoe_session_decline, pack); } } out: pthread_mutex_unlock(&serv->lock); } static void ipoe_recv_dhcpv4(struct dhcpv4_serv *dhcpv4, struct dhcpv4_packet *pack) { __ipoe_recv_dhcpv4(dhcpv4, pack, 0); } static int parse_dhcpv4_mask(uint32_t mask) { int i; for (i = 31; i >= 0 && (mask & (1 << i)); i--); return 32 - (i + 1); } static void ipoe_ses_recv_dhcpv4_relay(struct dhcpv4_packet *pack) { struct ipoe_session *ses = container_of(triton_context_self(), typeof(*ses), ctx); struct dhcpv4_option *opt; if (ses->dhcpv4_relay_reply) dhcpv4_packet_free(ses->dhcpv4_relay_reply); if (!ses->dhcpv4_request) { ses->dhcpv4_relay_reply = NULL; return; } ses->dhcpv4_relay_reply = pack; if (conf_verbose) { log_ppp_info2("recv "); dhcpv4_print_packet(pack, 1, log_ppp_info2); } opt = dhcpv4_packet_find_opt(pack, 51); if (opt) ses->lease_time = ntohl(*(uint32_t *)opt->data); opt = dhcpv4_packet_find_opt(pack, 1); if (opt) ses->mask = parse_dhcpv4_mask(ntohl(*(uint32_t *)opt->data)); opt = dhcpv4_packet_find_opt(pack, 3); if (opt) ses->router = *(uint32_t *)opt->data; if (pack->msg_type == DHCPOFFER) { if (ses->ses.state == AP_STATE_STARTING) { triton_timer_del(&ses->timer); ses->relay_server_id = pack->server_id; if (!ses->yiaddr) { ses->yiaddr = pack->hdr->yiaddr; ses->relay_addr = 1; } __ipoe_session_start(ses); } else dhcpv4_send_reply(DHCPOFFER, ses->serv->dhcpv4, ses->dhcpv4_request, ses->yiaddr, ses->siaddr, ses->router, ses->mask, ses->lease_time, ses->dhcpv4_relay_reply); } else if (pack->msg_type == DHCPACK) { if (ses->ses.state == AP_STATE_STARTING) __ipoe_session_activate(ses); else dhcpv4_send_reply(DHCPACK, ses->serv->dhcpv4, ses->dhcpv4_request, ses->yiaddr, ses->siaddr, ses->router, ses->mask, ses->lease_time, ses->dhcpv4_relay_reply); } else if (pack->msg_type == DHCPNAK) { dhcpv4_send_nak(ses->serv->dhcpv4, ses->dhcpv4_request); ap_session_terminate(&ses->ses, TERM_NAS_REQUEST, 0); return; } dhcpv4_packet_free(ses->dhcpv4_relay_reply); ses->dhcpv4_relay_reply = NULL; } static void ipoe_recv_dhcpv4_relay(struct dhcpv4_packet *pack) { struct ipoe_serv *serv = container_of(triton_context_self(), typeof(*serv), ctx); struct ipoe_session *ses; int found = 0; //struct dhcpv4_packet *reply; if (ap_shutdown) { dhcpv4_packet_free(pack); return; } pthread_mutex_lock(&serv->lock); list_for_each_entry(ses, &serv->sessions, entry) { if (ses->xid != pack->hdr->xid) continue; if (memcmp(ses->hwaddr, pack->hdr->chaddr, 6)) continue; found = 1; break; } if (found) { triton_context_call(&ses->ctx, (triton_event_func)ipoe_ses_recv_dhcpv4_relay, pack); } else dhcpv4_packet_free(pack); pthread_mutex_unlock(&serv->lock); } static struct ipoe_session *ipoe_session_create_up(struct ipoe_serv *serv, struct ethhdr *eth, struct iphdr *iph) { struct ipoe_session *ses; if (ap_shutdown) return NULL; if (l4_redirect_list_check(iph->saddr)) return NULL; ses = mempool_alloc(ses_pool); if (!ses) { log_emerg("out of memery\n"); return NULL; } memset(ses, 0, sizeof(*ses)); ap_session_init(&ses->ses); ses->serv = serv; ses->ifindex = -1; memcpy(ses->hwaddr, eth->h_source, 6); ses->ctx.before_switch = log_switch; ses->ctx.close = ipoe_session_close; ses->ctrl.ctx = &ses->ctx; ses->ctrl.started = ipoe_session_started; ses->ctrl.finished = ipoe_session_finished; ses->ctrl.terminate = ipoe_session_terminate; ses->ctrl.type = CTRL_TYPE_IPOE; ses->ctrl.name = "ipoe"; ses->yiaddr = iph->saddr; ses->ctrl.calling_station_id = _malloc(17); ses->ctrl.called_station_id = _malloc(17); u_inet_ntoa(iph->saddr, ses->ctrl.calling_station_id); u_inet_ntoa(iph->daddr, ses->ctrl.called_station_id); ses->ses.username = _strdup(ses->ctrl.calling_station_id); ses->ses.ctrl = &ses->ctrl; ses->ses.chan_name = ses->ctrl.calling_station_id; triton_context_register(&ses->ctx, &ses->ses); triton_context_wakeup(&ses->ctx); //pthread_mutex_lock(&serv->lock); list_add_tail(&ses->entry, &serv->sessions); //pthread_mutex_unlock(&serv->lock); if (serv->timer.tpd) triton_timer_del(&serv->timer); triton_context_call(&ses->ctx, (triton_event_func)ipoe_session_start, ses); return ses; } struct ipoe_session *ipoe_session_alloc(void) { struct ipoe_session *ses; ses = mempool_alloc(ses_pool); if (!ses) { log_emerg("out of memery\n"); return NULL; } memset(ses, 0, sizeof(*ses)); ap_session_init(&ses->ses); ses->ifindex = -1; ses->ctx.before_switch = log_switch; ses->ctx.close = ipoe_session_close; ses->ctrl.ctx = &ses->ctx; ses->ctrl.started = ipoe_session_started; ses->ctrl.finished = ipoe_session_finished; ses->ctrl.terminate = ipoe_session_terminate; ses->ctrl.type = CTRL_TYPE_IPOE; ses->ctrl.name = "ipoe"; ses->ses.ctrl = &ses->ctrl; ses->ses.chan_name = ses->ctrl.calling_station_id; return ses; } void ipoe_recv_up(int ifindex, struct ethhdr *eth, struct iphdr *iph) { struct ipoe_serv *serv; struct ipoe_session *ses; list_for_each_entry(serv, &serv_list, entry) { if (serv->ifindex != ifindex) continue; if (!serv->opt_up) return; pthread_mutex_lock(&serv->lock); list_for_each_entry(ses, &serv->sessions, entry) { if (ses->yiaddr == iph->saddr) { pthread_mutex_unlock(&serv->lock); return; } } pthread_mutex_unlock(&serv->lock); ipoe_session_create_up(serv, eth, iph); break; } } #ifdef RADIUS static void ev_radius_access_accept(struct ev_radius_t *ev) { struct ipoe_session *ses = container_of(ev->ses, typeof(*ses), ses); struct rad_attr_t *attr; if (ev->ses->ctrl->type != CTRL_TYPE_IPOE) return; list_for_each_entry(attr, &ev->reply->attrs, entry) { if (attr->attr->id == conf_attr_dhcp_client_ip) ses->yiaddr = attr->val.ipaddr; else if (attr->attr->id == conf_attr_dhcp_router_ip) ses->router = attr->val.ipaddr; else if (attr->attr->id == conf_attr_dhcp_mask) { if (attr->attr->type == ATTR_TYPE_INTEGER) { if (attr->val.integer > 0 && attr->val.integer < 31) ses->mask = attr->val.integer; } else if (attr->attr->type == ATTR_TYPE_IPADDR) { #if __BYTE_ORDER == __LITTLE_ENDIAN ses->mask = ffs(~attr->val.ipaddr) - 1; #else ses->mask = ffs(~htole32(attr->val.ipaddr)) - 1; #endif } } else if (attr->attr->id == conf_attr_l4_redirect) { if (attr->attr->type == ATTR_TYPE_STRING) { if (attr->len && attr->val.string[0] != '0') ses->l4_redirect = 1; } else if (attr->val.integer != 0) ses->l4_redirect = 1; } } } static void ev_radius_coa(struct ev_radius_t *ev) { struct ipoe_session *ses = container_of(ev->ses, typeof(*ses), ses); struct rad_attr_t *attr; int l4_redirect; if (ev->ses->ctrl->type != CTRL_TYPE_IPOE) return; l4_redirect = ses->l4_redirect; list_for_each_entry(attr, &ev->request->attrs, entry) { if (attr->attr->id == conf_attr_l4_redirect) { if (attr->attr->type == ATTR_TYPE_STRING) ses->l4_redirect = attr->len && attr->val.string[0] != '0'; else ses->l4_redirect = ((unsigned int)attr->val.integer) > 0; } else if (strcmp(attr->attr->name, "Framed-IP-Address") == 0) { if (ses->ses.ipv4 && ses->ses.ipv4->peer_addr != attr->val.ipaddr) ipoe_change_addr(ses, attr->val.ipaddr); } } //if (l4_redirect && !ses->l4_redirect) || (!l4_redirect && ses->l4_redirect)) if (l4_redirect != ses->l4_redirect && ev->ses->state == AP_STATE_ACTIVE) ipoe_change_l4_redirect(ses, l4_redirect); } #endif static void ipoe_serv_release(struct ipoe_serv *serv) { pthread_mutex_lock(&serv->lock); if (!list_empty(&serv->sessions)) { pthread_mutex_unlock(&serv->lock); return; } pthread_mutex_unlock(&serv->lock); if (serv->vid && !serv->need_close) { if (serv->timer.tpd) triton_timer_mod(&serv->timer, 0); else triton_timer_add(&serv->ctx, &serv->timer, 0); return; } log_info2("ipoe: stop interface %s\n", serv->ifname); pthread_mutex_lock(&serv_lock); list_del(&serv->entry); pthread_mutex_unlock(&serv_lock); if (serv->dhcpv4) dhcpv4_free(serv->dhcpv4); if (serv->dhcpv4_relay) { ipoe_serv_del_addr(serv, serv->dhcpv4_relay->giaddr); dhcpv4_relay_free(serv->dhcpv4_relay, &serv->ctx); } if (serv->arp) arpd_stop(serv->arp); while (!list_empty(&serv->disc_list)) { struct disc_item *d = list_entry(serv->disc_list.next, typeof(*d), entry); list_del(&d->entry); dhcpv4_packet_free(d->pack); mempool_free(d); __sync_sub_and_fetch(&stat_delayed_offer, 1); } if (serv->disc_timer.tpd) triton_timer_del(&serv->disc_timer); if (serv->timer.tpd) triton_timer_del(&serv->timer); if (serv->vid) { log_info2("ipoe: remove vlan %s\n", serv->ifname); iplink_vlan_del(serv->ifindex); ipoe_nl_add_vlan_mon_vid(serv->parent_ifindex, serv->vid); } triton_context_unregister(&serv->ctx); _free(serv->ifname); _free(serv); } static void ipoe_serv_close(struct triton_context_t *ctx) { struct ipoe_serv *serv = container_of(ctx, typeof(*serv), ctx); pthread_mutex_lock(&serv->lock); if (!list_empty(&serv->sessions)) { serv->need_close = 1; pthread_mutex_unlock(&serv->lock); return; } pthread_mutex_unlock(&serv->lock); ipoe_serv_release(serv); } static void l4_redirect_ctx_close(struct triton_context_t *ctx) { struct l4_redirect *n; pthread_rwlock_wrlock(&l4_list_lock); while (!list_empty(&l4_redirect_list)) { n = list_entry(l4_redirect_list.next, typeof(*n), entry); list_del(&n->entry); if (conf_l4_redirect_table) iprule_del(n->addr, conf_l4_redirect_table); if (conf_l4_redirect_ipset) ipset_del(conf_l4_redirect_ipset, n->addr); ipoe_nl_delete(n->ifindex); _free(n); } pthread_rwlock_unlock(&l4_list_lock); if (l4_redirect_timer.tpd) triton_timer_del(&l4_redirect_timer); triton_context_unregister(&l4_redirect_ctx); } static int show_stat_exec(const char *cmd, char * const *fields, int fields_cnt, void *client) { cli_send(client, "ipoe:\r\n"); cli_sendv(client," starting: %u\r\n", stat_starting); cli_sendv(client," active: %u\r\n", stat_active); cli_sendv(client," delayed: %u\r\n", stat_delayed_offer); return CLI_CMD_OK; } void __export ipoe_get_stat(unsigned int **starting, unsigned int **active) { *starting = &stat_starting; *active = &stat_active; } static void __terminate(struct ap_session *ses) { ap_session_terminate(ses, TERM_NAS_REQUEST, 0); } static void ipoe_drop_sessions(struct ipoe_serv *serv, struct ipoe_session *skip) { struct ipoe_session *ses; list_for_each_entry(ses, &serv->sessions, entry) { if (ses == skip) continue; ses->terminating = 1; if (ses->ifcfg) { ipoe_ifcfg_del(ses); ses->ifcfg = 0; } if (ses->ses.state == AP_STATE_ACTIVE) ap_session_ifdown(&ses->ses); triton_context_call(&ses->ctx, (triton_event_func)__terminate, &ses->ses); } } struct ipoe_serv *ipoe_find_serv(const char *ifname) { struct ipoe_serv *serv; list_for_each_entry(serv, &serv_list, entry) { if (strcmp(serv->ifname, ifname) == 0) return serv; } return NULL; } static int get_offer_delay() { struct delay *r, *prev = NULL; list_for_each_entry(r, &conf_offer_delay, entry) { if (!prev || stat_active >= r->conn_cnt) { prev = r; continue; } break; } if (prev) return prev->delay; return 0; } void ipoe_vlan_notify(int ifindex, int vid) { struct conf_sect_t *sect = conf_get_section("ipoe"); struct conf_option_t *opt; struct ifreq ifr; char *ptr; int len, r; pcre *re = NULL; const char *pcre_err; char *pattern; int pcre_offset; if (!sect) return; memset(&ifr, 0, sizeof(ifr)); ifr.ifr_ifindex = ifindex; if (ioctl(sock_fd, SIOCGIFNAME, &ifr, sizeof(ifr))) { log_error("ipoe: vlan-mon: failed to get interface name, ifindex=%i\n", ifindex); return; } if (strlen(ifr.ifr_name) + 5 >= sizeof(ifr.ifr_name)) { log_error("ipoe: vlan-mon: %s.%i: interface name is too long\n", ifr.ifr_name, vid); return; } sprintf(ifr.ifr_name + strlen(ifr.ifr_name), ".%i", vid); len = strlen(ifr.ifr_name); log_info2("ipoe: create vlan %s\n", ifr.ifr_name); if (iplink_vlan_add(ifr.ifr_name, ifindex, vid)) log_warn("ipoe: vlan-mon: %s: failed to add vlan\n", ifr.ifr_name); if (ioctl(sock_fd, SIOCGIFINDEX, &ifr, sizeof(ifr))) { log_error("ipoe: vlan-mon: %s: failed to get interface index\n", ifr.ifr_name); return; } list_for_each_entry(opt, §->items, entry) { if (strcmp(opt->name, "interface")) continue; if (!opt->val) continue; ptr = strchr(opt->val, ','); if (!ptr) ptr = strchr(opt->val, 0); if (ptr - opt->val > 3 && memcmp(opt->val, "re:", 3) == 0) { pattern = _malloc(ptr - (opt->val + 3) + 1); memcpy(pattern, opt->val + 3, ptr - (opt->val + 3)); pattern[ptr - (opt->val + 3)] = 0; re = pcre_compile2(pattern, 0, NULL, &pcre_err, &pcre_offset, NULL); _free(pattern); if (!re) continue; r = pcre_exec(re, NULL, ifr.ifr_name, len, 0, 0, NULL, 0); pcre_free(re); if (r < 0) continue; add_interface(ifr.ifr_name, ifr.ifr_ifindex, opt->val, ifindex, vid); } else if (ptr - opt->val == len && memcmp(opt->val, ifr.ifr_name, len) == 0) add_interface(ifr.ifr_name, ifr.ifr_ifindex, opt->val, ifindex, vid); } } static void ipoe_serv_timeout(struct triton_timer_t *t) { struct ipoe_serv *serv = container_of(t, typeof(*serv), timer); serv->need_close = 1; ipoe_serv_release(serv); } static void add_interface(const char *ifname, int ifindex, const char *opt, int parent_ifindex, int vid) { char *str0 = NULL, *str, *ptr1, *ptr2; int end; struct ipoe_serv *serv; int opt_shared = conf_shared; int opt_dhcpv4 = 0; int opt_up = 0; int opt_mode = conf_mode; int opt_ifcfg = conf_ifcfg; int opt_nat = conf_nat; const char *opt_relay = conf_relay; const char *opt_giaddr = NULL; in_addr_t relay_addr = 0; in_addr_t giaddr = 0; in_addr_t opt_src = conf_src; int opt_arp = conf_arp; struct ifreq ifr; str0 = strchr(opt, ','); if (str0) { str0 = _strdup(str0 + 1); str = str0; while (1) { for (ptr1 = str + 1; *ptr1 && *ptr1 != '='; ptr1++); if (!*ptr1) goto parse_err; *ptr1 = 0; for (ptr2 = ++ptr1; *ptr2 && *ptr2 != ','; ptr2++); end = *ptr2 == 0; if (!end) *ptr2 = 0; if (ptr2 == ptr1) goto parse_err; if (strcmp(str, "start") == 0) { if (!strcmp(ptr1, "up")) opt_up = 1; else if (!strcmp(ptr1, "dhcpv4")) opt_dhcpv4 = 1; else goto parse_err; } else if (strcmp(str, "shared") == 0) { opt_shared = atoi(ptr1); } else if (strcmp(str, "mode") == 0) { if (!strcmp(ptr1, "L2")) opt_mode = MODE_L2; else if (!strcmp(ptr1, "L3")) opt_mode = MODE_L3; else goto parse_err; } else if (strcmp(str, "ifcfg") == 0) { opt_ifcfg = atoi(ptr1); } else if (strcmp(str, "relay") == 0) { opt_relay = ptr1; relay_addr = inet_addr(ptr1); } else if (strcmp(str, "giaddr") == 0) { opt_giaddr = ptr1; giaddr = inet_addr(ptr1); } else if (strcmp(str, "nat") == 0) { opt_nat = atoi(ptr1); } else if (strcmp(str, "src") == 0) { opt_src = inet_addr(ptr1); } else if (strcmp(str, "proxy-arp") == 0) { opt_arp = atoi(ptr1); } if (end) break; str = ptr2 + 1; } } if (!opt_up && !opt_dhcpv4) { opt_up = conf_up; opt_dhcpv4 = conf_dhcpv4; } if (opt_up) ipoe_nl_add_interface(ifindex); list_for_each_entry(serv, &serv_list, entry) { if (strcmp(ifname, serv->ifname)) continue; serv->active = 1; serv->ifindex = ifindex; if ((opt_shared && !serv->opt_shared) || (!opt_shared && serv->opt_shared)) { ipoe_drop_sessions(serv, NULL); serv->opt_shared = opt_shared; } if (opt_dhcpv4 && !serv->dhcpv4) { serv->dhcpv4 = dhcpv4_create(&serv->ctx, serv->ifname, opt); if (serv->dhcpv4) serv->dhcpv4->recv = ipoe_recv_dhcpv4; } else if (!opt_dhcpv4 && serv->dhcpv4) { dhcpv4_free(serv->dhcpv4); serv->dhcpv4 = NULL; } if (serv->dhcpv4_relay && (serv->dhcpv4_relay->addr != relay_addr || serv->dhcpv4_relay->giaddr != giaddr)) { if (serv->opt_ifcfg) ipoe_serv_del_addr(serv, serv->dhcpv4_relay->giaddr); dhcpv4_relay_free(serv->dhcpv4_relay, &serv->ctx); serv->dhcpv4_relay = NULL; } if (serv->opt_dhcpv4 && opt_relay) { if (opt_ifcfg) ipoe_serv_add_addr(serv, giaddr); serv->dhcpv4_relay = dhcpv4_relay_create(opt_relay, opt_giaddr, &serv->ctx, (triton_event_func)ipoe_recv_dhcpv4_relay); } if (serv->arp && !conf_arp) { arpd_stop(serv->arp); serv->arp = NULL; } else if (!serv->arp && conf_arp) serv->arp = arpd_start(serv); serv->opt_up = opt_up; serv->opt_mode = opt_mode; serv->opt_ifcfg = opt_ifcfg; serv->opt_nat = opt_nat; serv->opt_src = opt_src; serv->opt_arp = opt_arp; if (str0) _free(str0); return; } opt = strchr(opt, ','); if (opt) opt++; log_info2("ipoe: start interface %s (%s)\n", ifname, opt ? opt : ""); memset(&ifr, 0, sizeof(ifr)); strcpy(ifr.ifr_name, ifname); if (ioctl(sock_fd, SIOCGIFHWADDR, &ifr)) { log_error("ipoe: '%s': ioctl(SIOCGIFHWADDR): %s\n", ifname, strerror(errno)); return; } ioctl(sock_fd, SIOCGIFFLAGS, &ifr); if (!(ifr.ifr_flags & IFF_UP)) { ifr.ifr_flags |= IFF_UP; ioctl(sock_fd, SIOCSIFFLAGS, &ifr); } serv = _malloc(sizeof(*serv)); memset(serv, 0, sizeof(*serv)); serv->ctx.close = ipoe_serv_close; pthread_mutex_init(&serv->lock, NULL); serv->ifname = _strdup(ifname); serv->ifindex = ifindex; serv->opt_shared = opt_shared; serv->opt_dhcpv4 = opt_dhcpv4; serv->opt_up = opt_up; serv->opt_mode = opt_mode; serv->opt_ifcfg = opt_ifcfg; serv->opt_nat = opt_nat; serv->opt_src = opt_src; serv->opt_arp = opt_arp; serv->parent_ifindex = parent_ifindex = parent_ifindex; serv->vid = vid; serv->active = 1; INIT_LIST_HEAD(&serv->sessions); INIT_LIST_HEAD(&serv->addr_list); INIT_LIST_HEAD(&serv->disc_list); memcpy(serv->hwaddr, ifr.ifr_hwaddr.sa_data, ETH_ALEN); serv->disc_timer.expire = ipoe_serv_disc_timer; triton_context_register(&serv->ctx, NULL); if (serv->opt_dhcpv4) { serv->dhcpv4 = dhcpv4_create(&serv->ctx, serv->ifname, opt); if (serv->dhcpv4) serv->dhcpv4->recv = ipoe_recv_dhcpv4; if (opt_relay) { if (opt_ifcfg) ipoe_serv_add_addr(serv, giaddr); serv->dhcpv4_relay = dhcpv4_relay_create(opt_relay, opt_giaddr, &serv->ctx, (triton_event_func)ipoe_recv_dhcpv4_relay); } } if (serv->opt_arp) serv->arp = arpd_start(serv); if (vid) { serv->timer.expire = ipoe_serv_timeout; serv->timer.expire_tv.tv_sec = conf_vlan_timeout; triton_timer_add(&serv->ctx, &serv->timer, 0); } triton_context_wakeup(&serv->ctx); list_add_tail(&serv->entry, &serv_list); if (str0) _free(str0); return; parse_err: log_error("ipoe: failed to parse '%s'\n", opt); _free(str0); } static void load_interface(const char *opt) { const char *ptr; struct ifreq ifr; for (ptr = opt; *ptr && *ptr != ','; ptr++); if (ptr - opt >= sizeof(ifr.ifr_name)) return; memcpy(ifr.ifr_name, opt, ptr - opt); ifr.ifr_name[ptr - opt] = 0; if (ioctl(sock_fd, SIOCGIFINDEX, &ifr)) { log_error("ipoe: '%s': ioctl(SIOCGIFINDEX): %s\n", ifr.ifr_name, strerror(errno)); return; } add_interface(ifr.ifr_name, ifr.ifr_ifindex, opt, 0, 0); } static int __load_interface_re(int index, int flags, const char *name, struct iplink_arg *arg) { if (pcre_exec(arg->re, NULL, name, strlen(name), 0, 0, NULL, 0) < 0) return 0; add_interface(name, index, arg->opt, 0, 0); return 0; } static void load_interface_re(const char *opt) { pcre *re = NULL; const char *pcre_err; char *pattern; const char *ptr; int pcre_offset; struct iplink_arg arg; for (ptr = opt; *ptr && *ptr != ','; ptr++); pattern = _malloc(ptr - (opt + 3) + 1); memcpy(pattern, opt + 3, ptr - (opt + 3)); pattern[ptr - (opt + 3)] = 0; re = pcre_compile2(pattern, 0, NULL, &pcre_err, &pcre_offset, NULL); if (!re) { log_error("ipoe: '%s': %s at %i\r\n", pattern, pcre_err, pcre_offset); return; } arg.re = re; arg.opt = opt; iplink_list((iplink_list_func)__load_interface_re, &arg); pcre_free(re); _free(pattern); } static void load_interfaces(struct conf_sect_t *sect) { struct ipoe_serv *serv; struct conf_option_t *opt; ipoe_nl_delete_interfaces(); list_for_each_entry(serv, &serv_list, entry) serv->active = 0; list_for_each_entry(opt, §->items, entry) { if (strcmp(opt->name, "interface")) continue; if (!opt->val) continue; if (strlen(opt->val) > 3 && memcmp(opt->val, "re:", 3) == 0) load_interface_re(opt->val); else load_interface(opt->val); } list_for_each_entry(serv, &serv_list, entry) { if (!serv->active && !serv->vid) { ipoe_drop_sessions(serv, NULL); triton_context_call(&serv->ctx, (triton_event_func)ipoe_serv_release, serv); } } } static void parse_local_net(const char *opt) { const char *ptr; char str[17]; in_addr_t addr; int mask; char *endptr; ptr = strchr(opt, '/'); if (ptr) { memcpy(str, opt, ptr - opt); str[ptr - opt] = 0; addr = inet_addr(str); if (addr == INADDR_NONE) goto out_err; mask = strtoul(ptr + 1, &endptr, 10); if (mask > 32) goto out_err; } else { addr = inet_addr(opt); if (addr == INADDR_NONE) goto out_err; mask = 24; } if (mask == 32) mask = 0xffffffff; else mask = (1 << (32-mask)) - 1; addr = ntohl(addr); mask = ~mask; //printf("%x/%x %x\n", htonl(addr), ~mask, htonl(addr)&(~mask)); ipoe_nl_add_net(addr & mask, mask); return; out_err: log_error("ipoe: failed to parse 'local-net=%s'\n", opt); } static void load_local_nets(struct conf_sect_t *sect) { struct conf_option_t *opt; ipoe_nl_delete_nets(); list_for_each_entry(opt, §->items, entry) { if (strcmp(opt->name, "local-net")) continue; if (!opt->val) continue; parse_local_net(opt->val); } } static void load_gw_addr(struct conf_sect_t *sect) { struct conf_option_t *opt; struct gw_addr *a; char addr[17]; char *ptr; while (!list_empty(&conf_gw_addr)) { a = list_entry(conf_gw_addr.next, typeof(*a), entry); list_del(&a->entry); _free(a); } list_for_each_entry(opt, §->items, entry) { if (strcmp(opt->name, "gw-ip-address")) continue; if (!opt->val) continue; a = _malloc(sizeof(*a)); ptr = strchr(opt->val, '/'); if (ptr) { memcpy(addr, opt->val, ptr - opt->val); addr[ptr - opt->val] = 0; a->addr = inet_addr(addr); a->mask = atoi(ptr + 1); } else { a->addr = inet_addr(opt->val); a->mask = 32; } if (a->addr == 0xffffffff || a->mask < 1 || a->mask > 32) { log_error("ipoe: failed to parse '%s=%s'\n", opt->name, opt->val); _free(a); continue; } a->mask1 = ((1 << a->mask) - 1) << (32 - a->mask); list_add_tail(&a->entry, &conf_gw_addr); } } #ifdef RADIUS static void parse_conf_rad_attr(const char *opt, int *val) { struct rad_dict_attr_t *attr; opt = conf_get_opt("ipoe", opt); if (opt) { if (atoi(opt) > 0) *val = atoi(opt); else { attr = rad_dict_find_attr(opt); if (attr) *val = attr->id; else log_emerg("ipoe: couldn't find '%s' in dictionary\n", opt); } } else *val = -1; } static void load_radius_attrs(void) { parse_conf_rad_attr("attr-dhcp-client-ip", &conf_attr_dhcp_client_ip); parse_conf_rad_attr("attr-dhcp-router-ip", &conf_attr_dhcp_router_ip); parse_conf_rad_attr("attr-dhcp-mask", &conf_attr_dhcp_mask); parse_conf_rad_attr("attr-l4-redirect", &conf_attr_l4_redirect); } #endif static void strip(char *str) { char *ptr = str; char *endptr = strchr(str, 0); while (1) { ptr = strchr(ptr, ' '); if (ptr) memmove(ptr, ptr + 1, endptr - ptr - 1); else break; } } int parse_offer_delay(const char *str) { char *str1; char *ptr1, *ptr2, *ptr3, *endptr; struct delay *r; while (!list_empty(&conf_offer_delay)) { r = list_entry(conf_offer_delay.next, typeof(*r), entry); list_del(&r->entry); _free(r); } if (!str) return 0; str1 = _strdup(str); strip(str1); ptr1 = str1; while (1) { ptr2 = strchr(ptr1, ','); if (ptr2) *ptr2 = 0; ptr3 = strchr(ptr1, ':'); if (ptr3) *ptr3 = 0; r = _malloc(sizeof(*r)); memset(r, 0, sizeof(*r)); r->delay = strtol(ptr1, &endptr, 10); if (*endptr) goto out_err; if (list_empty(&conf_offer_delay)) r->conn_cnt = 0; else { if (!ptr3) goto out_err; r->conn_cnt = strtol(ptr3 + 1, &endptr, 10); if (*endptr) goto out_err; } list_add_tail(&r->entry, &conf_offer_delay); if (!ptr2) break; ptr1 = ptr2 + 1; } _free(str1); return 0; out_err: _free(str1); log_error("ipoe: failed to parse offer-delay\n"); return -1; } static int parse_vlan_mon(const char *opt, long *mask) { char *ptr, *ptr2; int vid, vid2; ptr = strchr(opt, ','); if (!ptr) ptr = strchr(opt, 0); if (*ptr == ',') memset(mask, 0xff, 4096/8/sizeof(long)); else if (*ptr == 0) { memset(mask, 0, 4096/8/sizeof(long)); return 0; } else goto out_err; while (1) { vid = strtol(ptr + 1, &ptr2, 10); if (vid <= 0 || vid >= 4096) { log_error("ipoe: vlan-mon=%s: invalid vlan %i\n", opt, vid); return -1; } if (*ptr2 == '-') { vid2 = strtol(ptr2 + 1, &ptr2, 10); if (vid2 <= 0 || vid2 >= 4096) { log_error("ipoe: vlan-mon=%s: invalid vlan %i\n", opt, vid2); return -1; } for (; vid < vid2; vid++) mask[vid / (8*sizeof(long))] &= ~(1 << (vid % (8*sizeof(long)))); } mask[vid / (8*sizeof(long))] &= ~(1 << (vid % (8*sizeof(long)))); if (*ptr2 == 0) break; if (*ptr2 != ',') goto out_err; ptr = ptr2; } return 0; out_err: log_error("ipoe: vlan-mon=%s: failed to parse\n", opt); return -1; } static void add_vlan_mon(const char *opt, long *mask, int len) { const char *ptr; struct ifreq ifr; int ifindex; for (ptr = opt; *ptr && *ptr != ','; ptr++); if (ptr - opt >= sizeof(ifr.ifr_name)) { log_error("ipoe: vlan-mon=%s: interface name is too long\n", opt); return; } memset(&ifr, 0, sizeof(ifr)); memcpy(ifr.ifr_name, opt, ptr - opt); ifr.ifr_name[ptr - opt] = 0; if (ioctl(sock_fd, SIOCGIFINDEX, &ifr)) { log_error("ipoe: '%s': ioctl(SIOCGIFINDEX): %s\n", ifr.ifr_name, strerror(errno)); return; } ifindex = ifr.ifr_ifindex; ioctl(sock_fd, SIOCGIFFLAGS, &ifr); if (!(ifr.ifr_flags & IFF_UP)) { ifr.ifr_flags |= IFF_UP; ioctl(sock_fd, SIOCSIFFLAGS, &ifr); } ipoe_nl_add_vlan_mon(ifindex, mask, len); } static int __load_vlan_mon_re(int index, int flags, const char *name, struct iplink_arg *arg) { struct ifreq ifr; if (pcre_exec(arg->re, NULL, name, strlen(name), 0, 0, NULL, 0) < 0) return 0; memset(&ifr, 0, sizeof(ifr)); strcpy(ifr.ifr_name, name); ioctl(sock_fd, SIOCGIFFLAGS, &ifr); if (!(ifr.ifr_flags & IFF_UP)) { ifr.ifr_flags |= IFF_UP; ioctl(sock_fd, SIOCSIFFLAGS, &ifr); } ipoe_nl_add_vlan_mon(index, arg->arg1, arg->arg2); return 0; } static void load_vlan_mon_re(const char *opt, long *mask, int len) { pcre *re = NULL; const char *pcre_err; char *pattern; const char *ptr; int pcre_offset; struct iplink_arg arg; for (ptr = opt; *ptr && *ptr != ','; ptr++); pattern = _malloc(ptr - (opt + 3) + 1); memcpy(pattern, opt + 3, ptr - (opt + 3)); pattern[ptr - (opt + 3)] = 0; re = pcre_compile2(pattern, 0, NULL, &pcre_err, &pcre_offset, NULL); if (!re) { log_error("ipoe: '%s': %s at %i\r\n", pattern, pcre_err, pcre_offset); return; } arg.re = re; arg.opt = opt; arg.arg1 = mask; arg.arg2 = len; iplink_list((iplink_list_func)__load_vlan_mon_re, &arg); pcre_free(re); _free(pattern); } static void load_vlan_mon(struct conf_sect_t *sect) { struct conf_option_t *opt; long mask[4096/8/sizeof(long)]; ipoe_nl_del_vlan_mon(-1); list_for_each_entry(opt, §->items, entry) { if (strcmp(opt->name, "vlan-mon")) continue; if (!opt->val) continue; if (parse_vlan_mon(opt->val, mask)) continue; if (strlen(opt->val) > 3 && !memcmp(opt->val, "re:", 3)) load_vlan_mon_re(opt->val, mask, sizeof(mask)); else add_vlan_mon(opt->val, mask, sizeof(mask)); } } static void load_config(void) { const char *opt; struct conf_sect_t *s = conf_get_section("ipoe"); struct conf_option_t *opt1; if (!s) return; opt = conf_get_opt("ipoe", "username"); if (opt) { if (strcmp(opt, "ifname") == 0) conf_username = USERNAME_IFNAME; #ifdef USE_LUA else if (strlen(opt) > 4 && memcmp(opt, "lua:", 4) == 0) { conf_username = USERNAME_LUA; conf_lua_username_func = opt + 4; } #endif else log_emerg("ipoe: unknown username value '%s'\n", opt); } opt = conf_get_opt("ipoe", "netmask"); if (opt) { conf_netmask = atoi(opt); if (conf_netmask <= 0 || conf_netmask > 32) { log_error("ipoe: invalid netmask %s\n", opt); conf_netmask = 0; } } else conf_netmask = 0; opt = conf_get_opt("ipoe", "verbose"); if (opt) conf_verbose = atoi(opt); opt = conf_get_opt("ipoe", "lease-time"); if (opt) conf_lease_time = atoi(opt); else conf_lease_time = 600; opt = conf_get_opt("ipoe", "max-lease-time"); if (opt) conf_lease_timeout = atoi(opt); else conf_lease_timeout = 660; opt = conf_get_opt("ipoe", "unit-cache"); if (opt) conf_unit_cache = atoi(opt); opt = conf_get_opt("ipoe", "l4-redirect-table"); if (opt && atoi(opt) > 0) conf_l4_redirect_table = atoi(opt); else conf_l4_redirect_table = 0; conf_l4_redirect_ipset = conf_get_opt("ipoe", "l4-redirect-ipset"); opt = conf_get_opt("ipoe", "l4-redirect-on-reject"); if (opt) { conf_l4_redirect_on_reject = atoi(opt); } else conf_l4_redirect_on_reject = 0; if (conf_l4_redirect_on_reject) { l4_redirect_timer.period = conf_l4_redirect_on_reject / 10 * 1000; if (l4_redirect_timer.tpd) triton_timer_mod(&l4_redirect_timer, 0); } opt = conf_get_opt("ipoe", "shared"); if (opt) conf_shared = atoi(opt); else conf_shared = 1; opt = conf_get_opt("ipoe", "ifcfg"); if (opt) conf_ifcfg = atoi(opt); else conf_ifcfg = 1; opt = conf_get_opt("ipoe", "nat"); if (opt) conf_nat = atoi(opt); else conf_nat = 0; opt = conf_get_opt("ipoe", "src"); if (opt) conf_src = inet_addr(opt); else conf_src = 0; opt = conf_get_opt("ipoe", "proxy-arp"); if (opt) conf_arp = atoi(opt); else conf_arp = 0; if (conf_arp < 0 || conf_arp > 2) { log_error("ipoe: arp=%s: invalid value\n", opt); conf_arp = 0; } opt = conf_get_opt("ipoe", "mode"); if (opt) { if (!strcmp(opt, "L2")) conf_mode = MODE_L2; else if (!strcmp(opt, "L3")) conf_mode = MODE_L3; else log_emerg("ipoe: failed to parse 'mode=%s'\n", opt); } else conf_mode = MODE_L2; conf_relay = conf_get_opt("ipoe", "relay"); opt = conf_get_opt("ipoe", "agent-remote-id"); if (opt) conf_agent_remote_id = opt; else conf_agent_remote_id = "accel-pppd"; opt = conf_get_opt("ipoe", "noauth"); if (opt) conf_noauth = atoi(opt); else conf_noauth = 0; conf_dhcpv4 = 0; conf_up = 0; list_for_each_entry(opt1, &s->items, entry) { if (strcmp(opt1->name, "start")) continue; if (!strcmp(opt1->val, "dhcpv4")) conf_dhcpv4 = 1; else if (!strcmp(opt1->val, "up")) conf_up = 1; } if (!conf_dhcpv4 && !conf_up) conf_dhcpv4 = 1; opt = conf_get_opt("ipoe", "proto"); if (opt && atoi(opt) > 0) conf_proto = atoi(opt); else conf_proto = 3; opt = conf_get_opt("ipoe", "vlan-timeout"); if (opt && atoi(opt) > 0) conf_vlan_timeout = atoi(opt); else conf_vlan_timeout = 60; #ifdef RADIUS if (triton_module_loaded("radius")) load_radius_attrs(); #endif parse_offer_delay(conf_get_opt("ipoe", "offer-delay")); load_interfaces(s); load_local_nets(s); load_vlan_mon(s); load_gw_addr(s); } static struct triton_context_t l4_redirect_ctx = { .close = l4_redirect_ctx_close, }; static struct triton_timer_t l4_redirect_timer = { .expire = l4_redirect_list_timer, }; static void ipoe_init(void) { ses_pool = mempool_create(sizeof(struct ipoe_session)); disc_item_pool = mempool_create(sizeof(struct disc_item)); uc_pool = mempool_create(sizeof(struct unit_cache)); triton_context_register(&l4_redirect_ctx, NULL); triton_context_wakeup(&l4_redirect_ctx); load_config(); if (conf_l4_redirect_ipset) ipset_flush(conf_l4_redirect_ipset); cli_register_simple_cmd2(show_stat_exec, NULL, 2, "show", "stat"); triton_event_register_handler(EV_CONFIG_RELOAD, (triton_event_func)load_config); #ifdef RADIUS if (triton_module_loaded("radius")) { triton_event_register_handler(EV_RADIUS_ACCESS_ACCEPT, (triton_event_func)ev_radius_access_accept); triton_event_register_handler(EV_RADIUS_COA, (triton_event_func)ev_radius_coa); } #endif } DEFINE_INIT(52, ipoe_init);