/* $OpenBSD: ntpd.h,v 1.146 2019/07/16 14:15:40 otto Exp $ */ /* * Copyright (c) 2003, 2004 Henning Brauer * Copyright (c) 2012 Mike Miller * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "ntp.h" #include "log.h" #define MAXIMUM(a, b) ((a) > (b) ? (a) : (b)) #define NTPD_USER "_ntp" #define CONFFILE "/etc/ntpd.conf" #define DRIFTFILE "/var/db/ntpd.drift" #define CTLSOCKET "/var/run/ntpd.sock" #define INTERVAL_QUERY_NORMAL 30 /* sync to peers every n secs */ #define INTERVAL_QUERY_PATHETIC 60 #define INTERVAL_QUERY_AGGRESSIVE 5 #define INTERVAL_QUERY_ULTRA_VIOLENCE 1 /* used at startup for auto */ #define TRUSTLEVEL_BADPEER 6 #define TRUSTLEVEL_PATHETIC 2 #define TRUSTLEVEL_AGGRESSIVE 8 #define TRUSTLEVEL_MAX 10 #define MAX_SERVERS_DNS 8 #define QSCALE_OFF_MIN 0.001 #define QSCALE_OFF_MAX 0.050 #define QUERYTIME_MAX 15 /* single query might take n secs max */ #define OFFSET_ARRAY_SIZE 8 #define SENSOR_OFFSETS 6 #define SETTIME_TIMEOUT 15 /* max seconds to wait with -s */ #define LOG_NEGLIGIBLE_ADJTIME 32 /* negligible drift to not log (ms) */ #define LOG_NEGLIGIBLE_ADJFREQ 0.05 /* negligible rate to not log (ppm) */ #define FREQUENCY_SAMPLES 8 /* samples for est. of permanent drift */ #define MAX_FREQUENCY_ADJUST 128e-5 /* max correction per iteration */ #define MAX_SEND_ERRORS 3 /* max send errors before reconnect */ #define MAX_DISPLAY_WIDTH 80 /* max chars in ctl_show report line */ #define FILTER_ADJFREQ 0x01 /* set after doing adjfreq */ #define AUTO_REPLIES 4 /* # of ntp replies we want for auto */ #define AUTO_THRESHOLD 60 /* dont bother auto setting < this */ #define INTERVAL_AUIO_DNSFAIL 1 /* DNS tmpfail interval for auto */ #define TRIES_AUTO_DNSFAIL 4 /* DNS tmpfail quick retries */ #define SENSOR_DATA_MAXAGE (15*60) #define SENSOR_QUERY_INTERVAL 15 #define SENSOR_QUERY_INTERVAL_SETTIME (SETTIME_TIMEOUT/3) #define SENSOR_SCAN_INTERVAL (1*60) #define SENSOR_DEFAULT_REFID "HARD" #define CONSTRAINT_ERROR_MARGIN (4) #define CONSTRAINT_RETRY_INTERVAL (15) #define CONSTRAINT_SCAN_INTERVAL (15*60) #define CONSTRAINT_SCAN_TIMEOUT (10) #define CONSTRAINT_MARGIN (2.0*60) #define CONSTRAINT_PORT "443" /* HTTPS port */ #define CONSTRAINT_MAXHEADERLENGTH 8192 #define CONSTRAINT_PASSFD (STDERR_FILENO + 1) #define PARENT_SOCK_FILENO CONSTRAINT_PASSFD #define NTP_PROC_NAME "ntp_main" #define NTPDNS_PROC_NAME "ntp_dns" #define CONSTRAINT_PROC_NAME "constraint" enum client_state { STATE_NONE, STATE_DNS_INPROGRESS, STATE_DNS_TEMPFAIL, STATE_DNS_DONE, STATE_QUERY_SENT, STATE_REPLY_RECEIVED, STATE_TIMEOUT, STATE_INVALID }; struct listen_addr { TAILQ_ENTRY(listen_addr) entry; struct sockaddr_storage sa; int fd; int rtable; }; struct ntp_addr { struct ntp_addr *next; struct sockaddr_storage ss; int notauth; }; struct ntp_addr_wrap { char *name; char *path; struct ntp_addr *a; u_int8_t pool; }; struct ntp_addr_msg { struct ntp_addr a; size_t namelen; size_t pathlen; }; struct ntp_status { double rootdelay; double rootdispersion; double reftime; u_int32_t refid; u_int32_t send_refid; u_int8_t synced; u_int8_t leap; int8_t precision; u_int8_t poll; u_int8_t stratum; }; struct ntp_offset { struct ntp_status status; double offset; double delay; double error; time_t rcvd; u_int8_t good; }; struct ntp_peer { TAILQ_ENTRY(ntp_peer) entry; struct ntp_addr_wrap addr_head; struct ntp_addr *addr; struct ntp_query *query; struct ntp_offset reply[OFFSET_ARRAY_SIZE]; struct ntp_offset update; struct sockaddr_in query_addr4; struct sockaddr_in6 query_addr6; enum client_state state; time_t next; time_t deadline; time_t poll; u_int32_t id; u_int8_t shift; u_int8_t trustlevel; u_int8_t weight; int lasterror; int senderrors; }; struct ntp_sensor { TAILQ_ENTRY(ntp_sensor) entry; struct ntp_offset offsets[SENSOR_OFFSETS]; struct ntp_offset update; time_t next; time_t last; char *device; u_int32_t refid; int sensordevid; int correction; u_int8_t stratum; u_int8_t weight; u_int8_t shift; }; struct constraint { TAILQ_ENTRY(constraint) entry; struct ntp_addr_wrap addr_head; struct ntp_addr *addr; int senderrors; enum client_state state; u_int32_t id; int fd; pid_t pid; struct imsgbuf ibuf; time_t last; time_t constraint; int dnstries; }; struct ntp_conf_sensor { TAILQ_ENTRY(ntp_conf_sensor) entry; char *device; char *refstr; int correction; u_int8_t stratum; u_int8_t weight; }; struct ntp_freq { double overall_offset; double x, y; double xx, xy; int samples; u_int num; }; struct ntpd_conf { TAILQ_HEAD(listen_addrs, listen_addr) listen_addrs; TAILQ_HEAD(ntp_peers, ntp_peer) ntp_peers; TAILQ_HEAD(ntp_sensors, ntp_sensor) ntp_sensors; TAILQ_HEAD(ntp_conf_sensors, ntp_conf_sensor) ntp_conf_sensors; TAILQ_HEAD(constraints, constraint) constraints; struct ntp_status status; struct ntp_freq freq; struct sockaddr_in query_addr4; struct sockaddr_in6 query_addr6; u_int32_t scale; int debug; int verbose; u_int8_t listen_all; u_int8_t settime; u_int8_t automatic; u_int8_t noaction; u_int8_t filters; time_t constraint_last; time_t constraint_median; u_int constraint_errors; u_int8_t *ca; size_t ca_len; int tmpfail; }; struct ctl_show_status { u_int peercnt; u_int sensorcnt; u_int valid_peers; u_int valid_sensors; u_int8_t synced; u_int8_t stratum; double clock_offset; time_t constraint_median; time_t constraint_last; u_int constraint_errors; }; struct ctl_show_peer { char peer_desc[MAX_DISPLAY_WIDTH]; u_int8_t syncedto; u_int8_t weight; u_int8_t trustlevel; u_int8_t stratum; time_t next; time_t poll; double offset; double delay; double jitter; }; struct ctl_show_sensor { char sensor_desc[MAX_DISPLAY_WIDTH]; u_int8_t syncedto; u_int8_t weight; u_int8_t good; u_int8_t stratum; time_t next; time_t poll; double offset; double correction; }; struct ctl_conn { TAILQ_ENTRY(ctl_conn) entry; struct imsgbuf ibuf; }; TAILQ_HEAD(ctl_conns, ctl_conn) ; enum imsg_type { IMSG_NONE, IMSG_ADJTIME, IMSG_ADJFREQ, IMSG_SETTIME, IMSG_HOST_DNS, IMSG_CONSTRAINT_DNS, IMSG_CONSTRAINT_QUERY, IMSG_CONSTRAINT_RESULT, IMSG_CONSTRAINT_CLOSE, IMSG_CONSTRAINT_KILL, IMSG_CTL_SHOW_STATUS, IMSG_CTL_SHOW_PEERS, IMSG_CTL_SHOW_PEERS_END, IMSG_CTL_SHOW_SENSORS, IMSG_CTL_SHOW_SENSORS_END, IMSG_CTL_SHOW_ALL, IMSG_CTL_SHOW_ALL_END, IMSG_SYNCED, IMSG_UNSYNCED, IMSG_PROBE_ROOT }; enum ctl_actions { CTL_SHOW_STATUS, CTL_SHOW_PEERS, CTL_SHOW_SENSORS, CTL_SHOW_ALL }; /* prototypes */ /* ntp.c */ void ntp_main(struct ntpd_conf *, struct passwd *, int, char **); void peer_addr_head_clear(struct ntp_peer *); int priv_adjtime(void); void priv_settime(double, char *); void priv_dns(int, char *, u_int32_t); int offset_compare(const void *, const void *); void update_scale(double); time_t scale_interval(time_t); time_t error_interval(void); extern struct ntpd_conf *conf; extern struct ctl_conns ctl_conns; /* parse.y */ int parse_config(const char *, struct ntpd_conf *); /* config.c */ void host(const char *, struct ntp_addr **); int host_dns(const char *, int, struct ntp_addr **); void host_dns_free(struct ntp_addr *); struct ntp_peer *new_peer(void); struct ntp_conf_sensor *new_sensor(char *); struct constraint *new_constraint(void); /* ntp_msg.c */ int ntp_getmsg(struct sockaddr *, char *, ssize_t, struct ntp_msg *); int ntp_sendmsg(int, struct sockaddr *, struct ntp_msg *); /* server.c */ int setup_listeners(struct servent *, struct ntpd_conf *, u_int *); int ntp_reply(int, struct sockaddr *, struct ntp_msg *, int); int server_dispatch(int, struct ntpd_conf *); /* client.c */ int client_peer_init(struct ntp_peer *); int client_addr_init(struct ntp_peer *); int client_nextaddr(struct ntp_peer *); int client_query(struct ntp_peer *); int client_dispatch(struct ntp_peer *, u_int8_t, u_int8_t); void client_log_error(struct ntp_peer *, const char *, int); void set_next(struct ntp_peer *, time_t); /* constraint.c */ void constraint_add(struct constraint *); void constraint_remove(struct constraint *); void constraint_purge(void); void constraint_reset(void); int constraint_init(struct constraint *); int constraint_query(struct constraint *); int constraint_check(double); void constraint_msg_dns(u_int32_t, u_int8_t *, size_t); void constraint_msg_result(u_int32_t, u_int8_t *, size_t); void constraint_msg_close(u_int32_t, u_int8_t *, size_t); void priv_constraint_msg(u_int32_t, u_int8_t *, size_t, int, char **); void priv_constraint_child(const char *, uid_t, gid_t); void priv_constraint_kill(u_int32_t); int priv_constraint_dispatch(struct pollfd *); void priv_constraint_check_child(pid_t, int); char *get_string(u_int8_t *, size_t); /* util.c */ double gettime_corrected(void); double gettime_from_timeval(struct timeval *); double getoffset(void); double gettime(void); time_t getmonotime(void); void d_to_tv(double, struct timeval *); double lfp_to_d(struct l_fixedpt); struct l_fixedpt d_to_lfp(double); double sfp_to_d(struct s_fixedpt); struct s_fixedpt d_to_sfp(double); char *print_rtable(int); const char *log_sockaddr(struct sockaddr *); pid_t start_child(char *, int, int, char **); int sanitize_argv(int *, char ***); /* sensors.c */ void sensor_init(void); int sensor_scan(void); void sensor_query(struct ntp_sensor *); /* ntp_dns.c */ void ntp_dns(struct ntpd_conf *, struct passwd *); /* control.c */ int control_check(char *); int control_init(char *); int control_listen(int); void control_shutdown(int); int control_accept(int); struct ctl_conn *control_connbyfd(int); int control_close(int); int control_dispatch_msg(struct pollfd *, u_int *); void session_socket_nonblockmode(int); void build_show_status(struct ctl_show_status *); void build_show_peer(struct ctl_show_peer *, struct ntp_peer *); void build_show_sensor(struct ctl_show_sensor *, struct ntp_sensor *);