/* * Ouroboros - Copyright (C) 2016 * * RIB manager of the IPC Process * * Sander Vrijders * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * 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 #include #include #include #include #include #include #include #include #include #include "ribmgr.h" #include "dt_const.h" #include "frct.h" #include "ipcp.h" #include "cdap_request.h" #include "static_info.pb-c.h" typedef StaticInfoMsg static_info_msg_t; #define ENROLLMENT "enrollment" #define STATIC_INFO "static DIF information" struct mgmt_flow { struct cdap * instance; int fd; struct list_head next; }; struct { struct dt_const dtc; uint32_t address; struct list_head flows; pthread_rwlock_t flows_lock; struct list_head cdap_reqs; pthread_mutex_t cdap_reqs_lock; } rib; /* Call while holding cdap_reqs_lock */ /* FIXME: better not to call blocking functions under any lock */ int cdap_result_wait(struct cdap * instance, enum cdap_opcode code, char * name, int invoke_id) { struct cdap_request * req; int ret; char * name_dup = strdup(name); if (name_dup == NULL) return -1; req = cdap_request_create(code, name_dup, invoke_id, instance); if (req == NULL) { free(name_dup); return -1; } list_add(&req->next, &rib.cdap_reqs); pthread_mutex_unlock(&rib.cdap_reqs_lock); ret = cdap_request_wait(req); pthread_mutex_lock(&rib.cdap_reqs_lock); if (ret == -1) /* should only be on ipcp shutdown */ LOG_DBG("Waiting CDAP request destroyed."); if (ret == -ETIMEDOUT) LOG_ERR("CDAP Request timed out."); if (ret) LOG_DBG("Unknown error code: %d.", ret); if (!ret) ret = req->result; list_del(&req->next); cdap_request_destroy(req); return ret; } int ribmgr_init() { INIT_LIST_HEAD(&rib.flows); INIT_LIST_HEAD(&rib.cdap_reqs); if (pthread_rwlock_init(&rib.flows_lock, NULL)) { LOG_ERR("Failed to initialize rwlock."); return -1; } if (pthread_mutex_init(&rib.cdap_reqs_lock, NULL)) { LOG_ERR("Failed to initialize mutex."); return -1; } return 0; } int ribmgr_fini() { struct list_head * pos = NULL; struct list_head * n = NULL; pthread_mutex_lock(&rib.cdap_reqs_lock); list_for_each_safe(pos, n, &rib.cdap_reqs) { struct cdap_request * req = list_entry(pos, struct cdap_request, next); free(req->name); list_del(&req->next); free(req); } pthread_mutex_unlock(&rib.cdap_reqs_lock); pthread_rwlock_wrlock(&rib.flows_lock); list_for_each_safe(pos, n, &rib.flows) { struct mgmt_flow * flow = list_entry(pos, struct mgmt_flow, next); if (cdap_destroy(flow->instance)) LOG_ERR("Failed to destroy CDAP instance."); list_del(&flow->next); free(flow); } pthread_rwlock_unlock(&rib.flows_lock); pthread_mutex_destroy(&rib.cdap_reqs_lock); pthread_rwlock_destroy(&rib.flows_lock); return 0; } int ribmgr_cdap_reply(struct cdap * instance, int invoke_id, int result, uint8_t * data, size_t len) { struct list_head * pos, * n = NULL; (void) data; (void) len; pthread_mutex_lock(&rib.cdap_reqs_lock); list_for_each_safe(pos, n, &rib.cdap_reqs) { struct cdap_request * req = list_entry(pos, struct cdap_request, next); if (req->instance == instance && req->invoke_id == invoke_id && req->state == REQ_PENDING) { if (result != 0) LOG_ERR("CDAP command with code %d and name %s " "failed with error %d", req->code, req->name, result); else LOG_DBG("CDAP command with code %d and name %s " "executed succesfully", req->code, req->name); pthread_mutex_unlock(&rib.cdap_reqs_lock); /* FIXME: In case of a read, update values here */ cdap_request_respond(req, result); pthread_mutex_lock(&rib.cdap_reqs_lock); } } pthread_mutex_unlock(&rib.cdap_reqs_lock); return 0; } int ribmgr_cdap_read(struct cdap * instance, int invoke_id, char * name) { LOG_MISSING; (void) instance; (void) invoke_id; (void) name; return -1; } int ribmgr_cdap_write(struct cdap * instance, int invoke_id, char * name, uint8_t * data, size_t len, uint32_t flags) { static_info_msg_t * msg; int ret = 0; (void) flags; pthread_rwlock_wrlock(&ipcpi.state_lock); if (ipcp_get_state() == IPCP_PENDING_ENROLL && strcmp(name, STATIC_INFO) == 0) { LOG_DBG("Received static DIF information."); msg = static_info_msg__unpack(NULL, len, data); if (msg == NULL) { ipcp_set_state(IPCP_INIT); pthread_rwlock_unlock(&ipcpi.state_lock); cdap_send_reply(instance, invoke_id, -1, NULL, 0); LOG_ERR("Failed to unpack static info message."); return -1; } rib.dtc.addr_size = msg->addr_size; rib.dtc.cep_id_size = msg->cep_id_size; rib.dtc.pdu_length_size = msg->pdu_length_size; rib.dtc.seqno_size = msg->seqno_size; rib.dtc.has_ttl = msg->has_ttl; rib.dtc.has_chk = msg->has_chk; rib.dtc.min_pdu_size = msg->min_pdu_size; rib.dtc.max_pdu_size = msg->max_pdu_size; rib.address = msg->address; if (frct_init()) { ipcp_set_state(IPCP_INIT); pthread_rwlock_unlock(&ipcpi.state_lock); cdap_send_reply(instance, invoke_id, -1, NULL, 0); static_info_msg__free_unpacked(msg, NULL); LOG_ERR("Failed to init FRCT"); return -1; } static_info_msg__free_unpacked(msg, NULL); } else { ret = -1; } pthread_rwlock_unlock(&ipcpi.state_lock); if (cdap_send_reply(instance, invoke_id, ret, NULL, 0)) { LOG_ERR("Failed to send reply to write request."); return -1; } return 0; } int ribmgr_cdap_create(struct cdap * instance, int invoke_id, char * name, uint8_t * data, size_t len) { LOG_MISSING; (void) instance; (void) invoke_id; (void) name; (void) data; (void) len; return -1; } int ribmgr_cdap_delete(struct cdap * instance, int invoke_id, char * name, uint8_t * data, size_t len) { LOG_MISSING; (void) instance; (void) invoke_id; (void) name; (void) data; (void) len; return -1; } int ribmgr_cdap_start(struct cdap * instance, int invoke_id, char * name) { static_info_msg_t stat_info = STATIC_INFO_MSG__INIT; uint8_t * data = NULL; size_t len = 0; int iid = 0; pthread_rwlock_wrlock(&ipcpi.state_lock); if (ipcp_get_state() == IPCP_ENROLLED && strcmp(name, ENROLLMENT) == 0) { LOG_DBG("New enrollment request."); if (cdap_send_reply(instance, invoke_id, 0, NULL, 0)) { pthread_rwlock_unlock(&ipcpi.state_lock); LOG_ERR("Failed to send reply to enrollment request."); return -1; } stat_info.addr_size = rib.dtc.addr_size; stat_info.cep_id_size = rib.dtc.cep_id_size; stat_info.pdu_length_size = rib.dtc.pdu_length_size; stat_info.seqno_size = rib.dtc.seqno_size; stat_info.has_ttl = rib.dtc.has_ttl; stat_info.has_chk = rib.dtc.has_chk; stat_info.min_pdu_size = rib.dtc.min_pdu_size; stat_info.max_pdu_size = rib.dtc.max_pdu_size; /* FIXME: Hand out an address. */ stat_info.address = 0; len = static_info_msg__get_packed_size(&stat_info); if (len == 0) { pthread_rwlock_unlock(&ipcpi.state_lock); LOG_ERR("Failed to get size of static information."); return -1; } data = malloc(len); if (data == NULL) { pthread_rwlock_unlock(&ipcpi.state_lock); LOG_ERR("Failed to allocate memory."); return -1; } static_info_msg__pack(&stat_info, data); LOG_DBGF("Sending static info..."); pthread_mutex_lock(&rib.cdap_reqs_lock); iid = cdap_send_write(instance, STATIC_INFO, data, len, 0); if (iid < 0) { pthread_mutex_unlock(&rib.cdap_reqs_lock); pthread_rwlock_unlock(&ipcpi.state_lock); free(data); LOG_ERR("Failed to send static information."); return -1; } if (cdap_result_wait(instance, WRITE, STATIC_INFO, iid)) { pthread_mutex_unlock(&rib.cdap_reqs_lock); pthread_rwlock_unlock(&ipcpi.state_lock); free(data); LOG_ERR("Remote did not receive static information."); return -1; } pthread_mutex_unlock(&rib.cdap_reqs_lock); /* FIXME: Send neighbors here. */ LOG_DBGF("Sending stop enrollment..."); pthread_mutex_lock(&rib.cdap_reqs_lock); iid = cdap_send_stop(instance, ENROLLMENT); if (iid < 0) { pthread_mutex_unlock(&rib.cdap_reqs_lock); pthread_rwlock_unlock(&ipcpi.state_lock); free(data); LOG_ERR("Failed to send stop of enrollment."); return -1; } if (cdap_result_wait(instance, STOP, ENROLLMENT, iid)) { pthread_mutex_unlock(&rib.cdap_reqs_lock); pthread_rwlock_unlock(&ipcpi.state_lock); free(data); LOG_ERR("Remote failed to complete enrollment."); return -1; } pthread_mutex_unlock(&rib.cdap_reqs_lock); free(data); } else { if (cdap_send_reply(instance, invoke_id, -1, NULL, 0)) { pthread_rwlock_unlock(&ipcpi.state_lock); LOG_ERR("Failed to send reply to start request."); return -1; } } pthread_rwlock_unlock(&ipcpi.state_lock); return 0; } int ribmgr_cdap_stop(struct cdap * instance, int invoke_id, char * name) { int ret = 0; pthread_rwlock_wrlock(&ipcpi.state_lock); if (ipcp_get_state() == IPCP_PENDING_ENROLL && strcmp(name, ENROLLMENT) == 0) { LOG_DBG("Stop enrollment received."); ipcp_set_state(IPCP_ENROLLED); } else ret = -1; if (cdap_send_reply(instance, invoke_id, ret, NULL, 0)) { pthread_rwlock_unlock(&ipcpi.state_lock); LOG_ERR("Failed to send reply to stop request."); return -1; } pthread_rwlock_unlock(&ipcpi.state_lock); return 0; } static struct cdap_ops ribmgr_ops = { .cdap_reply = ribmgr_cdap_reply, .cdap_read = ribmgr_cdap_read, .cdap_write = ribmgr_cdap_write, .cdap_create = ribmgr_cdap_create, .cdap_delete = ribmgr_cdap_delete, .cdap_start = ribmgr_cdap_start, .cdap_stop = ribmgr_cdap_stop }; int ribmgr_add_flow(int fd) { struct cdap * instance = NULL; struct mgmt_flow * flow; int iid = 0; flow = malloc(sizeof(*flow)); if (flow == NULL) return -1; instance = cdap_create(&ribmgr_ops, fd); if (instance == NULL) { LOG_ERR("Failed to create CDAP instance"); free(flow); return -1; } INIT_LIST_HEAD(&flow->next); flow->instance = instance; flow->fd = fd; pthread_rwlock_wrlock(&ipcpi.state_lock); pthread_rwlock_wrlock(&rib.flows_lock); if (list_empty(&rib.flows) && ipcp_get_state() == IPCP_INIT) { ipcp_set_state(IPCP_PENDING_ENROLL); pthread_mutex_lock(&rib.cdap_reqs_lock); iid = cdap_send_start(instance, ENROLLMENT); if (iid < 0) { pthread_mutex_unlock(&rib.cdap_reqs_lock); pthread_rwlock_unlock(&rib.flows_lock); pthread_rwlock_unlock(&ipcpi.state_lock); LOG_ERR("Failed to start enrollment."); cdap_destroy(instance); free(flow); return -1; } if (cdap_result_wait(instance, START, ENROLLMENT, iid)) { pthread_mutex_unlock(&rib.cdap_reqs_lock); pthread_rwlock_unlock(&rib.flows_lock); pthread_rwlock_unlock(&ipcpi.state_lock); LOG_ERR("Failed to start enrollment."); cdap_destroy(instance); free(flow); return -1; } pthread_mutex_unlock(&rib.cdap_reqs_lock); } list_add(&flow->next, &rib.flows); pthread_rwlock_unlock(&rib.flows_lock); pthread_rwlock_unlock(&ipcpi.state_lock); return 0; } int ribmgr_remove_flow(int fd) { struct list_head * pos, * n = NULL; pthread_rwlock_wrlock(&rib.flows_lock); list_for_each_safe(pos, n, &rib.flows) { struct mgmt_flow * flow = list_entry(pos, struct mgmt_flow, next); if (flow->fd == fd) { if (cdap_destroy(flow->instance)) LOG_ERR("Failed to destroy CDAP instance."); list_del(&flow->next); pthread_rwlock_unlock(&rib.flows_lock); free(flow); return 0; } } pthread_rwlock_unlock(&rib.flows_lock); return -1; } int ribmgr_bootstrap(struct dif_config * conf) { if (conf == NULL || conf->type != IPCP_NORMAL) { LOG_ERR("Bad DIF configuration."); return -1; } rib.dtc.addr_size = conf->addr_size; rib.dtc.cep_id_size = conf->cep_id_size; rib.dtc.pdu_length_size = conf->pdu_length_size; rib.dtc.seqno_size = conf->seqno_size; rib.dtc.has_ttl = conf->has_ttl; rib.dtc.has_chk = conf->has_chk; rib.dtc.min_pdu_size = conf->min_pdu_size; rib.dtc.max_pdu_size = conf->max_pdu_size; /* FIXME: Set correct address. */ rib.address = 0; if (frct_init()) { LOG_ERR("Failed to initialize FRCT."); return -1; } LOG_DBG("Bootstrapped RIB Manager."); return 0; } struct dt_const * ribmgr_dt_const() { return &(rib.dtc); } uint32_t ribmgr_address() { return rib.address; }