/** * @file port_private.h * @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 02110-1301 USA. */ #ifndef HAVE_PORT_PRIVATE_H #define HAVE_PORT_PRIVATE_H #include #include "clock.h" #include "fsm.h" #include "msg.h" #include "tmv.h" #define NSEC2SEC 1000000000LL enum syfu_state { SF_EMPTY, SF_HAVE_SYNC, SF_HAVE_FUP, }; enum link_state { LINK_DOWN = (1<<0), LINK_UP = (1<<1), LINK_STATE_CHANGED = (1<<3), TS_LABEL_CHANGED = (1<<4), }; struct nrate_estimator { double ratio; tmv_t origin1; tmv_t ingress1; unsigned int max_count; unsigned int count; int ratio_valid; }; struct tc_txd { TAILQ_ENTRY(tc_txd) list; struct ptp_message *msg; tmv_t residence; int ingress_port; }; struct port { LIST_ENTRY(port) list; char *name; struct interface *iface; struct clock *clock; struct transport *trp; enum timestamp_type timestamping; struct fdarray fda; int fault_fd; int phc_index; void (*dispatch)(struct port *p, enum fsm_event event, int mdiff); enum fsm_event (*event)(struct port *p, int fd_index); int jbod; struct foreign_clock *best; enum syfu_state syfu; struct ptp_message *last_syncfup; TAILQ_HEAD(delay_req, ptp_message) delay_req; struct ptp_message *peer_delay_req; struct ptp_message *peer_delay_resp; struct ptp_message *peer_delay_fup; int peer_portid_valid; struct PortIdentity peer_portid; struct { UInteger16 announce; UInteger16 delayreq; UInteger16 signaling; UInteger16 sync; } seqnum; tmv_t peer_delay; struct tsproc *tsproc; int log_sync_interval; struct nrate_estimator nrate; unsigned int pdr_missing; unsigned int multiple_seq_pdr_count; unsigned int multiple_pdr_detected; enum port_state (*state_machine)(enum port_state state, enum fsm_event event, int mdiff); /* portDS */ struct PortIdentity portIdentity; enum port_state state; /*portState*/ Integer64 asymmetry; int asCapable; Integer8 logMinDelayReqInterval; TimeInterval peerMeanPathDelay; Integer8 logAnnounceInterval; UInteger8 announceReceiptTimeout; int announce_span; UInteger8 syncReceiptTimeout; UInteger8 transportSpecific; UInteger8 localPriority; Integer8 logSyncInterval; Enumeration8 delayMechanism; Integer8 logMinPdelayReqInterval; UInteger32 neighborPropDelayThresh; int follow_up_info; int freq_est_interval; int hybrid_e2e; int master_only; int match_transport_specific; int min_neighbor_prop_delay; int net_sync_monitor; int path_trace_enabled; int tc_spanning_tree; Integer64 rx_timestamp_offset; Integer64 tx_timestamp_offset; int unicast_req_duration; enum link_state link_status; struct fault_interval flt_interval_pertype[FT_CNT]; enum fault_type last_fault_type; unsigned int versionNumber; /*UInteger4*/ /* foreignMasterDS */ LIST_HEAD(fm, foreign_clock) foreign_masters; /* TC book keeping */ TAILQ_HEAD(tct, tc_txd) tc_transmitted; /* unicast client mode */ struct unicast_master_table *unicast_master_table; /* unicast service mode */ struct unicast_service *unicast_service; int inhibit_multicast_service; }; #define portnum(p) (p->portIdentity.portNumber) void e2e_dispatch(struct port *p, enum fsm_event event, int mdiff); enum fsm_event e2e_event(struct port *p, int fd_index); void p2p_dispatch(struct port *p, enum fsm_event event, int mdiff); enum fsm_event p2p_event(struct port *p, int fd_index); int clear_fault_asap(struct fault_interval *faint); void delay_req_prune(struct port *p); void fc_clear(struct foreign_clock *fc); void flush_delay_req(struct port *p); void flush_last_sync(struct port *p); int port_clr_tmo(int fd); int port_delay_request(struct port *p); void port_disable(struct port *p); int port_initialize(struct port *p); int port_is_enabled(struct port *p); void port_link_status(void *ctx, int index, int linkup); int port_set_announce_tmo(struct port *p); int port_set_delay_tmo(struct port *p); int port_set_qualification_tmo(struct port *p); void port_show_transition(struct port *p, enum port_state next, enum fsm_event event); struct ptp_message *port_signaling_construct(struct port *p, struct address *address, struct PortIdentity *tpid); int port_tx_announce(struct port *p, struct address *dst); int port_tx_sync(struct port *p, struct address *dst); int process_announce(struct port *p, struct ptp_message *m); void process_delay_resp(struct port *p, struct ptp_message *m); void process_follow_up(struct port *p, struct ptp_message *m); int process_pdelay_req(struct port *p, struct ptp_message *m); int process_pdelay_resp(struct port *p, struct ptp_message *m); void process_pdelay_resp_fup(struct port *p, struct ptp_message *m); int process_signaling(struct port *p, struct ptp_message *m); void process_sync(struct port *p, struct ptp_message *m); int source_pid_eq(struct ptp_message *m1, struct ptp_message *m2); void ts_add(tmv_t *ts, Integer64 correction); #endif