/* * Ouroboros - Copyright (C) 2016 - 2018 * * Handles connections between components * * Dimitri Staessens <dimitri.staessens@ugent.be> * Sander Vrijders <sander.vrijders@ugent.be> * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., http://www.fsf.org/about/contact/. */ #define _POSIX_C_SOURCE 200112L #define OUROBOROS_PREFIX "connection-manager" #include <ouroboros/dev.h> #include <ouroboros/cacep.h> #include <ouroboros/errno.h> #include <ouroboros/list.h> #include <ouroboros/logs.h> #include <ouroboros/notifier.h> #include "comp.h" #include "connmgr.h" #include "dir.h" #include "enroll.h" #include "ipcp.h" #include <pthread.h> #include <string.h> #include <stdlib.h> #include <assert.h> enum connmgr_state { CONNMGR_NULL = 0, CONNMGR_INIT, CONNMGR_RUNNING }; struct conn_el { struct list_head next; struct conn conn; }; struct comp { struct nbs * nbs; struct conn_info info; struct list_head conns; struct list_head pending; pthread_cond_t cond; pthread_mutex_t lock; }; struct { struct comp comps[COMPID_MAX]; enum connmgr_state state; pthread_t acceptor; } connmgr; static int get_id_by_name(const char * name) { enum comp_id i; for (i = 0; i < COMPID_MAX; ++i) if (strcmp(name, connmgr.comps[i].info.comp_name) == 0) return i; return -1; } static int add_comp_conn(enum comp_id id, int fd, qosspec_t qs, struct conn_info * rcv_info) { struct conn_el * el; el = malloc(sizeof(*el)); if (el == NULL) { log_err("Not enough memory."); return -1; } el->conn.conn_info = *rcv_info; el->conn.flow_info.fd = fd; el->conn.flow_info.qs = qs; pthread_mutex_lock(&connmgr.comps[id].lock); list_add(&el->next, &connmgr.comps[id].pending); pthread_cond_signal(&connmgr.comps[id].cond); pthread_mutex_unlock(&connmgr.comps[id].lock); return 0; } static void * flow_acceptor(void * o) { int fd; qosspec_t qs; struct conn_info rcv_info; struct conn_info fail_info; (void) o; memset(&fail_info, 0, sizeof(fail_info)); while (true) { int id; fd = flow_accept(&qs, NULL); if (fd < 0) { if (fd != -EIRMD) log_warn("Flow accept failed: %d", fd); continue; } if (cacep_rcv(fd, &rcv_info)) { log_dbg("Error establishing application connection."); flow_dealloc(fd); continue; } id = get_id_by_name(rcv_info.comp_name); if (id < 0) { log_dbg("Connection request for unknown component %s.", rcv_info.comp_name); cacep_snd(fd, &fail_info); flow_dealloc(fd); continue; } assert(id < COMPID_MAX); if (cacep_snd(fd, &connmgr.comps[id].info)) { log_dbg("Failed to respond to request."); flow_dealloc(fd); continue; } if (add_comp_conn(id, fd, qs, &rcv_info)) { log_dbg("Failed to add new connection."); flow_dealloc(fd); continue; } } return (void *) 0; } int connmgr_init(void) { connmgr.state = CONNMGR_INIT; return 0; } void connmgr_fini(void) { int i; if (connmgr.state == CONNMGR_RUNNING) pthread_join(connmgr.acceptor, NULL); for (i = 0; i < COMPID_MAX; ++i) connmgr_comp_fini(i); } int connmgr_start(void) { if (pthread_create(&connmgr.acceptor, NULL, flow_acceptor, NULL)) return -1; connmgr.state = CONNMGR_RUNNING; return 0; } void connmgr_stop(void) { if (connmgr.state == CONNMGR_RUNNING) pthread_cancel(connmgr.acceptor); } int connmgr_comp_init(enum comp_id id, const struct conn_info * info) { struct comp * comp; assert(id >= 0 && id < COMPID_MAX); comp = connmgr.comps + id; if (pthread_mutex_init(&comp->lock, NULL)) return -1; if (pthread_cond_init(&comp->cond, NULL)) { pthread_mutex_destroy(&comp->lock); return -1; } list_head_init(&comp->conns); list_head_init(&comp->pending); memcpy(&connmgr.comps[id].info, info, sizeof(connmgr.comps[id].info)); return 0; } void connmgr_comp_fini(enum comp_id id) { struct list_head * p; struct list_head * h; struct comp * comp; assert(id >= 0 && id < COMPID_MAX); if (strlen(connmgr.comps[id].info.comp_name) == 0) return; comp = connmgr.comps + id; pthread_mutex_lock(&comp->lock); list_for_each_safe(p, h, &comp->conns) { struct conn_el * e = list_entry(p, struct conn_el, next); list_del(&e->next); free(e); } list_for_each_safe(p, h, &comp->pending) { struct conn_el * e = list_entry(p, struct conn_el, next); list_del(&e->next); free(e); } pthread_mutex_unlock(&comp->lock); pthread_cond_destroy(&comp->cond); pthread_mutex_destroy(&comp->lock); memset(&connmgr.comps[id].info, 0, sizeof(connmgr.comps[id].info)); } int connmgr_ipcp_connect(const char * dst, const char * component) { struct conn_el * ce; int id; assert(dst); assert(component); ce = malloc(sizeof(*ce)); if (ce == NULL) { log_dbg("Out of memory."); return -1; } id = get_id_by_name(component); if (id < 0) { log_dbg("No such component: %s", component); free(ce); return -1; } /* FIXME: get the correct qos for the component. */ if (connmgr_alloc(id, dst, NULL, &ce->conn)) { free(ce); return -1; } if (strlen(dst) > DST_MAX_STRLEN) { log_warn("Truncating dst length for connection."); memcpy(ce->conn.flow_info.dst, dst, DST_MAX_STRLEN); ce->conn.flow_info.dst[DST_MAX_STRLEN] = '\0'; } else { strcpy(ce->conn.flow_info.dst, dst); } pthread_mutex_lock(&connmgr.comps[id].lock); list_add(&ce->next, &connmgr.comps[id].conns); pthread_mutex_unlock(&connmgr.comps[id].lock); return 0; } int connmgr_ipcp_disconnect(const char * dst, const char * component) { struct list_head * p; struct list_head * h; int id; assert(dst); assert(component); id = get_id_by_name(component); if (id < 0) return -1; pthread_mutex_lock(&connmgr.comps[id].lock); list_for_each_safe(p,h, &connmgr.comps[id].conns) { struct conn_el * el = list_entry(p, struct conn_el, next); if (strcmp(el->conn.flow_info.dst, dst) == 0) { int ret; pthread_mutex_unlock(&connmgr.comps[id].lock); list_del(&el->next); ret = connmgr_dealloc(id, &el->conn); free(el); return ret; } } pthread_mutex_unlock(&connmgr.comps[id].lock); return 0; } int connmgr_alloc(enum comp_id id, const char * dst, qosspec_t * qs, struct conn * conn) { assert(id >= 0 && id < COMPID_MAX); assert(dst); conn->flow_info.fd = flow_alloc(dst, qs, NULL); if (conn->flow_info.fd < 0) { log_dbg("Failed to allocate flow to %s.", dst); return -1; } if (qs != NULL) conn->flow_info.qs = *qs; else memset(&conn->flow_info.qs, 0, sizeof(conn->flow_info.qs)); log_dbg("Sending cacep info for protocol %s to fd %d.", connmgr.comps[id].info.protocol, conn->flow_info.fd); if (cacep_snd(conn->flow_info.fd, &connmgr.comps[id].info)) { log_dbg("Failed to create application connection."); flow_dealloc(conn->flow_info.fd); return -1; } if (cacep_rcv(conn->flow_info.fd, &conn->conn_info)) { log_dbg("Failed to connect to application."); flow_dealloc(conn->flow_info.fd); return -1; } if (strcmp(connmgr.comps[id].info.protocol, conn->conn_info.protocol)) { log_dbg("Unknown protocol (requested %s, got %s).", connmgr.comps[id].info.protocol, conn->conn_info.protocol); flow_dealloc(conn->flow_info.fd); return -1; } if (connmgr.comps[id].info.pref_version != conn->conn_info.pref_version) { log_dbg("Unknown protocol version."); flow_dealloc(conn->flow_info.fd); return -1; } if (connmgr.comps[id].info.pref_syntax != conn->conn_info.pref_syntax) { log_dbg("Unknown protocol syntax."); flow_dealloc(conn->flow_info.fd); return -1; } switch (id) { case COMPID_DT: notifier_event(NOTIFY_DT_CONN_ADD, conn); #ifdef IPCP_CONN_WAIT_DIR dir_wait_running(); #endif break; case COMPID_MGMT: notifier_event(NOTIFY_MGMT_CONN_ADD, conn); break; default: break; } return 0; } int connmgr_dealloc(enum comp_id id, struct conn * conn) { switch (id) { case COMPID_DT: notifier_event(NOTIFY_DT_CONN_DEL, conn); break; case COMPID_MGMT: notifier_event(NOTIFY_MGMT_CONN_DEL, conn); break; default: break; } return flow_dealloc(conn->flow_info.fd); } int connmgr_wait(enum comp_id id, struct conn * conn) { struct conn_el * el; struct comp * comp; assert(id >= 0 && id < COMPID_MAX); assert(conn); comp = connmgr.comps + id; pthread_mutex_lock(&comp->lock); pthread_cleanup_push((void(*)(void *))pthread_mutex_unlock, (void *) &comp->lock); while (list_is_empty(&comp->pending)) pthread_cond_wait(&comp->cond, &comp->lock); pthread_cleanup_pop(false); el = list_first_entry((&comp->pending), struct conn_el, next); if (el == NULL) { pthread_mutex_unlock(&comp->lock); return -1; } *conn = el->conn; list_del(&el->next); free(el); pthread_mutex_unlock(&comp->lock); return 0; }