/* * Ouroboros - Copyright (C) 2016 - 2017 * * RIB manager of the IPC Process * * 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., 675 Mass Ave, Cambridge, MA 02139, USA. */ #define OUROBOROS_PREFIX "rib-manager" #include <ouroboros/config.h> #include <ouroboros/logs.h> #include <ouroboros/cdap.h> #include <ouroboros/list.h> #include <ouroboros/time_utils.h> #include <ouroboros/ipcp-dev.h> #include <ouroboros/errno.h> #include <ouroboros/dev.h> #include <ouroboros/fqueue.h> #include <ouroboros/rib.h> #include "ae.h" #include "gam.h" #include "ribconfig.h" #include "ribmgr.h" #include "ipcp.h" #include <stdlib.h> #include <pthread.h> #include <string.h> #include <errno.h> #include <assert.h> #define RIB_SYNC_TIMEOUT 1 enum ribmgr_state { RIBMGR_NULL = 0, RIBMGR_OPERATIONAL, RIBMGR_SHUTDOWN }; struct { struct cdap * cdap; pthread_t reader; pthread_t sync; struct gam * gam; struct nbs * nbs; struct ae * ae; struct nb_notifier nb_notifier; pthread_rwlock_t state_lock; enum ribmgr_state state; } ribmgr; static int ribmgr_neighbor_event(enum nb_event event, struct conn conn) { switch (event) { case NEIGHBOR_ADDED: cdap_add_flow(ribmgr.cdap, conn.flow_info.fd); break; case NEIGHBOR_REMOVED: cdap_del_flow(ribmgr.cdap, conn.flow_info.fd); break; default: /* Don't care about other events */ break; } return 0; } static enum ribmgr_state ribmgr_get_state(void) { enum ribmgr_state state; pthread_rwlock_rdlock(&ribmgr.state_lock); state = ribmgr.state; pthread_rwlock_unlock(&ribmgr.state_lock); return state; } static void ribmgr_set_state(enum ribmgr_state state) { pthread_rwlock_wrlock(&ribmgr.state_lock); ribmgr.state = state; pthread_rwlock_unlock(&ribmgr.state_lock); } static void * reader(void * o) { cdap_key_t key; enum cdap_opcode oc; char * name; uint8_t * data; size_t len; ssize_t slen; uint32_t flags; uint8_t * buf; int rval; (void) o; while (ribmgr_get_state() == RIBMGR_OPERATIONAL) { key = cdap_request_wait(ribmgr.cdap, &oc, &name, &data, (size_t *) &len , &flags); assert(key != -EINVAL); if (key == INVALID_CDAP_KEY) { log_warn("Bad CDAP request."); continue; } assert(name); assert(strlen(name)); switch (oc) { case CDAP_READ: assert(len == 0); slen = rib_pack(name, &buf, PACK_HASH_ROOT); if (slen < 0) { log_err("Failed to pack %s.", name); cdap_reply_send(ribmgr.cdap, key, -1, NULL, 0); free(name); continue; } log_dbg("Packed %s (%zu bytes).", name, slen); free(name); if (cdap_reply_send(ribmgr.cdap, key, 0, buf, slen)) { log_err("Failed to send CDAP reply."); free(buf); continue; } free(buf); break; case CDAP_WRITE: assert(len); assert(data); rval = rib_unpack(data, len, 0); switch(rval) { case 0: break; case -EFAULT: log_warn("Hash mismatch, not in sync."); free(data); break; default: log_warn("Error unpacking %s.", name); cdap_reply_send(ribmgr.cdap, key, -1, NULL, 0); free(name); free(data); continue; } free(name); if (cdap_reply_send(ribmgr.cdap, key, 0, NULL, 0)) { log_err("Failed to send CDAP reply."); continue; } break; case CDAP_CREATE: assert(len); assert(data); rval = rib_unpack(data, len, UNPACK_CREATE); switch(rval) { case 0: break; case -EFAULT: log_warn("Hash mismatch, not yet in sync."); free(data); break; default: log_warn("Error unpacking %s.", name); cdap_reply_send(ribmgr.cdap, key, -1, NULL, 0); free(name); free(data); continue; } free(name); if (cdap_reply_send(ribmgr.cdap, key, 0, NULL, 0)) { log_err("Failed to send CDAP reply."); continue; } break; case CDAP_DELETE: assert(len == 0); if (rib_del(name)) { log_warn("Failed deleting %s.", name); cdap_reply_send(ribmgr.cdap, key, -1, NULL, 0); } free(name); if (cdap_reply_send(ribmgr.cdap, key, 0, NULL, 0)) { log_err("Failed to send CDAP reply."); continue; } break; case CDAP_START: case CDAP_STOP: log_warn("Unsupported CDAP command."); if (len) free(data); break; default: log_err("Bad CDAP command."); if (len) free(data); break; } } return (void *) 0; } char path[RIB_MAX_PATH_LEN + 1]; static void path_reset(void) { path[strlen(RIB_ROOT)] = '\0'; assert(strcmp(path, RIB_ROOT) == 0); } static int ribmgr_sync(const char * path) { uint8_t * buf; ssize_t len; cdap_key_t * keys; len = rib_pack(path, &buf, PACK_HASH_ALL); if (len < 0) { log_warn("Failed to pack %s.", path); return -1; } keys = cdap_request_send(ribmgr.cdap, CDAP_CREATE, path, buf, len, 0); if (keys != NULL) { cdap_key_t * key = keys; while (*key != INVALID_CDAP_KEY) cdap_reply_wait(ribmgr.cdap, *(key++), NULL, NULL); free(keys); } free(buf); return 0; } /* FIXME: Temporary thread, syncs rib with neighbors every second */ static void * sync_rib(void *o) { char ** children; ssize_t ch; (void) o; strcpy(path, RIB_ROOT); while (ribmgr_get_state() == RIBMGR_OPERATIONAL) { sleep(RIB_SYNC_TIMEOUT); ch = rib_children(RIB_ROOT, &children); if (ch <= 0) continue; while (ch > 0) { path_reset(); rib_path_append(path, children[--ch]); free(children[ch]); /* Only sync fsdb and members */ if (strcmp(path, MEMBERS_PATH) == 0 || strcmp(path, ROUTING_PATH) == 0) ribmgr_sync(path); } free(children); } return (void *) 0; } int ribmgr_init(void) { enum pol_gam pg; struct conn_info info; memset(&info, 0, sizeof(info)); strcpy(info.ae_name, MGMT_AE); strcpy(info.protocol, CDAP_PROTO); info.pref_version = 1; info.pref_syntax = PROTO_GPB; /* NOTE: Use the same name as the DT AE of this IPCP */ info.addr = ipcpi.dt_addr; ribmgr.nbs = nbs_create(); if (ribmgr.nbs == NULL) { log_err("Failed to create neighbors."); return -1; } ribmgr.ae = connmgr_ae_create(info); if (ribmgr.ae == NULL) { log_err("Failed to create AE struct."); nbs_destroy(ribmgr.nbs); return -1; } if (rib_read(BOOT_PATH "/rm/gam/type", &pg, sizeof(pg)) != sizeof(pg)) { log_err("Failed to read policy for ribmgr gam."); connmgr_ae_destroy(ribmgr.ae); nbs_destroy(ribmgr.nbs); return -1; } ribmgr.cdap = cdap_create(); if (ribmgr.cdap == NULL) { log_err("Failed to create CDAP instance."); connmgr_ae_destroy(ribmgr.ae); nbs_destroy(ribmgr.nbs); return -1; } ribmgr.nb_notifier.notify_call = ribmgr_neighbor_event; if (nbs_reg_notifier(ribmgr.nbs, &ribmgr.nb_notifier)) { log_err("Failed to register notifier."); cdap_destroy(ribmgr.cdap); connmgr_ae_destroy(ribmgr.ae); nbs_destroy(ribmgr.nbs); return -1; } ribmgr.gam = gam_create(pg, ribmgr.nbs, ribmgr.ae); if (ribmgr.gam == NULL) { log_err("Failed to create gam."); nbs_unreg_notifier(ribmgr.nbs, &ribmgr.nb_notifier); cdap_destroy(ribmgr.cdap); connmgr_ae_destroy(ribmgr.ae); nbs_destroy(ribmgr.nbs); return -1; } pthread_rwlock_init(&ribmgr.state_lock, NULL); ribmgr.state = RIBMGR_OPERATIONAL; pthread_create(&ribmgr.sync, NULL, sync_rib, NULL); pthread_create(&ribmgr.reader, NULL, reader, NULL); return 0; } void ribmgr_fini(void) { ribmgr_set_state(RIBMGR_SHUTDOWN); pthread_cancel(ribmgr.reader); pthread_join(ribmgr.reader, NULL); pthread_join(ribmgr.sync, NULL); nbs_unreg_notifier(ribmgr.nbs, &ribmgr.nb_notifier); cdap_destroy(ribmgr.cdap); gam_destroy(ribmgr.gam); connmgr_ae_destroy(ribmgr.ae); nbs_destroy(ribmgr.nbs); } int ribmgr_disseminate(char * path, enum diss_target target, enum diss_freq freq, size_t delay) { (void) path; (void) target; (void) freq; (void) delay; return 0; }