/** * @file unicast_client.c * @brief Unicast client implementation * @note Copyright (C) 2018 Richard Cochran * * 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., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335 USA. */ #include "port.h" #include "port_private.h" #include "print.h" #include "unicast_client.h" #define E2E_SYDY_MASK (1 << ANNOUNCE | 1 << SYNC | 1 << DELAY_RESP) #define P2P_SYDY_MASK (1 << ANNOUNCE | 1 << SYNC) static int attach_ack(struct ptp_message *msg, uint8_t message_type_flags) { struct ack_cancel_unicast_xmit_tlv *ack; struct tlv_extra *extra; extra = msg_tlv_append(msg, sizeof(*ack)); if (!extra) { return -1; } ack = (struct ack_cancel_unicast_xmit_tlv *) extra->tlv; ack->type = TLV_ACKNOWLEDGE_CANCEL_UNICAST_TRANSMISSION; ack->length = sizeof(*ack) - sizeof(ack->type) - sizeof(ack->length); ack->message_type_flags = message_type_flags; return 0; } static int attach_request(struct ptp_message *msg, int log_period, uint8_t message_type, int duration) { struct request_unicast_xmit_tlv *req; struct tlv_extra *extra; extra = msg_tlv_append(msg, sizeof(*req)); if (!extra) { return -1; } req = (struct request_unicast_xmit_tlv *) extra->tlv; req->type = TLV_REQUEST_UNICAST_TRANSMISSION; req->length = sizeof(*req) - sizeof(req->type) - sizeof(req->length); req->message_type = message_type << 4; req->logInterMessagePeriod = log_period; req->durationField = duration; return 0; } static int unicast_client_announce(struct port *p, struct unicast_master_address *dst) { struct ptp_message *msg; int err; msg = port_signaling_uc_construct(p, &dst->address, &dst->portIdentity); if (!msg) { return -1; } err = attach_request(msg, p->logAnnounceInterval, ANNOUNCE, p->unicast_req_duration); if (err) { goto out; } err = port_prepare_and_send(p, msg, TRANS_GENERAL); if (err) { pr_err("port %hu: signaling message failed", portnum(p)); } out: msg_put(msg); return err; } static struct unicast_master_address *unicast_client_ok(struct port *p, struct ptp_message *m) { struct unicast_master_address *ucma; if (!unicast_client_enabled(p)) { return NULL; } STAILQ_FOREACH(ucma, &p->unicast_master_table->addrs, list) { if (addreq(transport_type(p->trp), &ucma->address, &m->address)) { break; } } if (!ucma) { pr_warning("port %d: received rogue unicast grant or cancel", portnum(p)); return NULL; } return ucma; } static int unicast_client_peer_renew(struct port *p) { struct unicast_master_address *peer; struct ptp_message *msg; struct timespec now; int err; if (!p->unicast_master_table->peer_name) { return 0; } err = clock_gettime(CLOCK_MONOTONIC, &now); if (err) { pr_err("clock_gettime failed: %m"); return err; } peer = &p->unicast_master_table->peer_addr; if (now.tv_sec < peer->renewal_tmo) { return 0; } peer->renewal_tmo = 0; pr_debug("port %d: time to renew P2P unicast subscription", portnum(p)); msg = port_signaling_uc_construct(p, &peer->address, &peer->portIdentity); if (!msg) { return -1; } err = attach_request(msg, p->logMinPdelayReqInterval, PDELAY_RESP, p->unicast_req_duration); if (err) { goto out; } err = port_prepare_and_send(p, msg, TRANS_GENERAL); if (err) { pr_err("port %hu: P2P signaling message failed", portnum(p)); } out: msg_put(msg); return err; } static int unicast_client_renew(struct port *p, struct unicast_master_address *dst) { struct ptp_message *msg; struct timespec now; int err; err = clock_gettime(CLOCK_MONOTONIC, &now); if (err) { pr_err("clock_gettime failed: %m"); return err; } if (now.tv_sec < dst->renewal_tmo) { return 0; } dst->renewal_tmo = 0; pr_debug("port %d: time to renew unicast subscriptions", portnum(p)); msg = port_signaling_uc_construct(p, &dst->address, &dst->portIdentity); if (!msg) { return -1; } err = attach_request(msg, p->logAnnounceInterval, ANNOUNCE, p->unicast_req_duration); if (err) { goto out; } if (dst->state == UC_HAVE_SYDY) { err = attach_request(msg, p->logSyncInterval, SYNC, p->unicast_req_duration); if (err) { goto out; } if (p->delayMechanism != DM_P2P) { err = attach_request(msg, p->logMinDelayReqInterval, DELAY_RESP, p->unicast_req_duration); if (err) { goto out; } } } err = port_prepare_and_send(p, msg, TRANS_GENERAL); if (err) { pr_err("port %hu: signaling message failed", portnum(p)); } out: msg_put(msg); return err; } static void unicast_client_set_renewal(struct port *p, struct unicast_master_address *master, long duration) { struct timespec now; long tmo; if (clock_gettime(CLOCK_MONOTONIC, &now)) { pr_err("clock_gettime failed: %m"); return; } duration = (3 * duration) / 4; tmo = now.tv_sec + duration; if (!master->renewal_tmo || tmo < master->renewal_tmo) { master->renewal_tmo = tmo; pr_debug("port %d: renewal timeout at %ld", portnum(p), tmo); } } static int unicast_client_sydy(struct port *p, struct unicast_master_address *dst) { struct ptp_message *msg; int err; msg = port_signaling_uc_construct(p, &dst->address, &dst->portIdentity); if (!msg) { return -1; } err = attach_request(msg, p->logSyncInterval, SYNC, p->unicast_req_duration); if (err) { goto out; } if (p->delayMechanism != DM_P2P) { err = attach_request(msg, p->logMinDelayReqInterval, DELAY_RESP, p->unicast_req_duration); if (err) { goto out; } } err = port_prepare_and_send(p, msg, TRANS_GENERAL); if (err) { pr_err("port %hu: signaling message failed", portnum(p)); } out: msg_put(msg); return err; } /* public methods */ int unicast_client_cancel(struct port *p, struct ptp_message *m, struct tlv_extra *extra) { struct cancel_unicast_xmit_tlv *cancel; struct unicast_master_address *ucma; struct ptp_message *msg; uint8_t mtype; int err; ucma = unicast_client_ok(p, m); if (!ucma) { return 0; } cancel = (struct cancel_unicast_xmit_tlv *) extra->tlv; mtype = cancel->message_type_flags >> 4; switch (mtype) { case ANNOUNCE: case SYNC: case DELAY_RESP: break; default: return 0; } if (cancel->message_type_flags & CANCEL_UNICAST_MAINTAIN_GRANT) { return 0; } pr_warning("port %d: server unilaterally canceled unicast %s grant", portnum(p), msg_type_string(mtype)); ucma->state = unicast_fsm(ucma->state, UC_EV_CANCEL); ucma->granted &= ~(1 << mtype); /* Respond with ACK. */ msg = port_signaling_uc_construct(p, &ucma->address, &ucma->portIdentity); if (!msg) { return -1; } err = attach_ack(msg, cancel->message_type_flags); if (err) { goto out; } err = port_prepare_and_send(p, msg, TRANS_GENERAL); if (err) { pr_err("port %hu: signaling message failed", portnum(p)); } out: msg_put(msg); return err; } int unicast_client_claim_table(struct port *p) { struct unicast_master_address *master, *peer; struct config *cfg = clock_config(p->clock); struct unicast_master_table *table; int table_id; table_id = config_get_int(cfg, p->name, "unicast_master_table"); if (!table_id) { return 0; } STAILQ_FOREACH(table, &cfg->unicast_master_tables, list) { if (table->table_index == table_id) { break; } } if (!table) { pr_err("port %d: no table with id %d", portnum(p), table_id); return -1; } if (table->port) { pr_err("port %d: table %d already claimed by port %d", portnum(p), table_id, table->port); return -1; } peer = &table->peer_addr; if (table->peer_name && str2addr(transport_type(p->trp), table->peer_name, &peer->address)) { pr_err("port %d: bad peer address: %s", portnum(p), table->peer_name); return -1; } STAILQ_FOREACH(master, &table->addrs, list) { if (master->type != transport_type(p->trp)) { pr_warning("port %d: unicast master transport mismatch", portnum(p)); } if (p->delayMechanism == DM_P2P) { master->sydymsk = P2P_SYDY_MASK; } else { master->sydymsk = E2E_SYDY_MASK; } } table->port = portnum(p); p->unicast_master_table = table; p->unicast_req_duration = config_get_int(cfg, p->name, "unicast_req_duration"); return 0; } int unicast_client_enabled(struct port *p) { return p->unicast_master_table ? 1 : 0; } void unicast_client_grant(struct port *p, struct ptp_message *m, struct tlv_extra *extra) { struct unicast_master_address *ucma; struct grant_unicast_xmit_tlv *g; int mtype; ucma = unicast_client_ok(p, m); if (!ucma) { return; } g = (struct grant_unicast_xmit_tlv *) extra->tlv; mtype = g->message_type >> 4; if (!g->durationField) { pr_warning("port %d: unicast grant of %s rejected", portnum(p), msg_type_string(mtype)); if (mtype != PDELAY_RESP) { ucma->state = UC_WAIT; } return; } pr_debug("port %d: unicast %s granted for %u sec", portnum(p), msg_type_string(mtype), g->durationField); if (p->delayMechanism == DM_P2P) { switch (mtype) { case DELAY_RESP: return; case PDELAY_RESP: p->unicast_master_table->peer_addr.portIdentity = m->header.sourcePortIdentity; unicast_client_set_renewal(p, &p->unicast_master_table->peer_addr, g->durationField); p->logMinPdelayReqInterval = g->logInterMessagePeriod; return; default: break; } } ucma->granted |= 1 << mtype; switch (ucma->state) { case UC_WAIT: if (mtype == ANNOUNCE) { ucma->state = unicast_fsm(ucma->state, UC_EV_GRANT_ANN); ucma->portIdentity = m->header.sourcePortIdentity; unicast_client_set_renewal(p, ucma, g->durationField); } break; case UC_HAVE_ANN: break; case UC_NEED_SYDY: switch (mtype) { case DELAY_RESP: if ((ucma->granted & ucma->sydymsk) == ucma->sydymsk) { ucma->state = unicast_fsm(ucma->state, UC_EV_GRANT_SYDY); } unicast_client_set_renewal(p, ucma, g->durationField); p->logMinDelayReqInterval = g->logInterMessagePeriod; break; case SYNC: if ((ucma->granted & ucma->sydymsk) == ucma->sydymsk) { ucma->state = unicast_fsm(ucma->state, UC_EV_GRANT_SYDY); } unicast_client_set_renewal(p, ucma, g->durationField); clock_sync_interval(p->clock, g->logInterMessagePeriod); break; } break; case UC_HAVE_SYDY: switch (mtype) { case ANNOUNCE: case DELAY_RESP: case SYNC: unicast_client_set_renewal(p, ucma, g->durationField); break; } break; } } int unicast_client_set_tmo(struct port *p) { return set_tmo_log(p->fda.fd[FD_UNICAST_REQ_TIMER], 1, p->unicast_master_table->logQueryInterval); } void unicast_client_state_changed(struct port *p) { struct unicast_master_address *ucma; struct PortIdentity pid; if (!unicast_client_enabled(p)) { return; } pid = clock_parent_identity(p->clock); STAILQ_FOREACH(ucma, &p->unicast_master_table->addrs, list) { if (pid_eq(&ucma->portIdentity, &pid)) { ucma->state = unicast_fsm(ucma->state, UC_EV_SELECTED); } else { ucma->state = unicast_fsm(ucma->state, UC_EV_UNSELECTED); } } } int unicast_client_timer(struct port *p) { struct unicast_master_address *master; int err = 0; STAILQ_FOREACH(master, &p->unicast_master_table->addrs, list) { if (master->type != transport_type(p->trp)) { continue; } switch (master->state) { case UC_WAIT: err = unicast_client_announce(p, master); break; case UC_HAVE_ANN: err = unicast_client_renew(p, master); break; case UC_NEED_SYDY: err = unicast_client_sydy(p, master); break; case UC_HAVE_SYDY: err = unicast_client_renew(p, master); break; } if (p->delayMechanism == DM_P2P) { unicast_client_peer_renew(p); } } unicast_client_set_tmo(p); return err; }