/** * collectd - src/ntpd.c * Copyright (C) 2006-2007 Florian octo Forster * * 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; only version 2 of the License is applicable. * * 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 St, Fifth Floor, Boston, MA 02110-1301 USA * * Authors: * Florian octo Forster **/ #define _BSD_SOURCE /* For NI_MAXHOST */ #include "collectd.h" #include "common.h" #include "plugin.h" #include "configfile.h" #if HAVE_STDINT_H # include #endif #if HAVE_NETDB_H # include #endif #if HAVE_SYS_SOCKET_H # include #endif #if HAVE_NETINET_IN_H # include #endif #if HAVE_ARPA_INET_H # include /* inet_ntoa */ #endif #if HAVE_NETINET_TCP_H # include #endif #if HAVE_POLL_H # include #endif static const char *config_keys[] = { "Host", "Port", "ReverseLookups" }; static int config_keys_num = STATIC_ARRAY_SIZE (config_keys); static int do_reverse_lookups = 1; # define NTPD_DEFAULT_HOST "localhost" # define NTPD_DEFAULT_PORT "123" static int sock_descr = -1; static char *ntpd_host = NULL; static char ntpd_port[16]; /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * The following definitions were copied from the NTPd distribution * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ #define MAXFILENAME 128 #define MAXSEQ 127 #define MODE_PRIVATE 7 #define NTP_OLDVERSION ((uint8_t) 1) /* oldest credible version */ #define IMPL_XNTPD 3 #define FP_FRAC 65536.0 #define REFCLOCK_ADDR 0x7f7f0000 /* 127.127.0.0 */ #define REFCLOCK_MASK 0xffff0000 /* 255.255.0.0 */ /* This structure is missing the message authentication code, since collectd * doesn't use it. */ struct req_pkt { uint8_t rm_vn_mode; uint8_t auth_seq; uint8_t implementation; /* implementation number */ uint8_t request; /* request number */ uint16_t err_nitems; /* error code/number of data items */ uint16_t mbz_itemsize; /* item size */ char data[MAXFILENAME + 48]; /* data area [32 prev](176 byte max) */ /* struct conf_peer must fit */ }; #define REQ_LEN_NOMAC (sizeof(struct req_pkt)) /* * A response packet. The length here is variable, this is a * maximally sized one. Note that this implementation doesn't * authenticate responses. */ #define RESP_HEADER_SIZE (8) #define RESP_DATA_SIZE (500) struct resp_pkt { uint8_t rm_vn_mode; /* response, more, version, mode */ uint8_t auth_seq; /* key, sequence number */ uint8_t implementation; /* implementation number */ uint8_t request; /* request number */ uint16_t err_nitems; /* error code/number of data items */ uint16_t mbz_itemsize; /* item size */ char data[RESP_DATA_SIZE]; /* data area */ }; /* * Bit setting macros for multifield items. */ #define RESP_BIT 0x80 #define MORE_BIT 0x40 #define ISRESPONSE(rm_vn_mode) (((rm_vn_mode)&RESP_BIT)!=0) #define ISMORE(rm_vn_mode) (((rm_vn_mode)&MORE_BIT)!=0) #define INFO_VERSION(rm_vn_mode) ((uint8_t)(((rm_vn_mode)>>3)&0x7)) #define INFO_MODE(rm_vn_mode) ((rm_vn_mode)&0x7) #define RM_VN_MODE(resp, more, version) \ ((uint8_t)(((resp)?RESP_BIT:0)\ |((more)?MORE_BIT:0)\ |((version?version:(NTP_OLDVERSION+1))<<3)\ |(MODE_PRIVATE))) #define INFO_IS_AUTH(auth_seq) (((auth_seq) & 0x80) != 0) #define INFO_SEQ(auth_seq) ((auth_seq)&0x7f) #define AUTH_SEQ(auth, seq) ((uint8_t)((((auth)!=0)?0x80:0)|((seq)&0x7f))) #define INFO_ERR(err_nitems) ((uint16_t)((ntohs(err_nitems)>>12)&0xf)) #define INFO_NITEMS(err_nitems) ((uint16_t)(ntohs(err_nitems)&0xfff)) #define ERR_NITEMS(err, nitems) (htons((uint16_t)((((uint16_t)(err)<<12)&0xf000)\ |((uint16_t)(nitems)&0xfff)))) #define INFO_MBZ(mbz_itemsize) ((ntohs(mbz_itemsize)>>12)&0xf) #define INFO_ITEMSIZE(mbz_itemsize) ((uint16_t)(ntohs(mbz_itemsize)&0xfff)) #define MBZ_ITEMSIZE(itemsize) (htons((uint16_t)(itemsize))) /* negate a long float type */ #define M_NEG(v_i, v_f) \ do { \ if ((v_f) == 0) \ (v_i) = -((uint32_t)(v_i)); \ else { \ (v_f) = -((uint32_t)(v_f)); \ (v_i) = ~(v_i); \ } \ } while(0) /* l_fp to double */ #define M_LFPTOD(r_i, r_uf, d) \ do { \ register int32_t i; \ register uint32_t f; \ \ i = (r_i); \ f = (r_uf); \ if (i < 0) { \ M_NEG(i, f); \ (d) = -((double) i + ((double) f) / 4294967296.0); \ } else { \ (d) = (double) i + ((double) f) / 4294967296.0; \ } \ } while (0) #define REQ_PEER_LIST_SUM 1 struct info_peer_summary { uint32_t dstadr; /* local address (zero for undetermined) */ uint32_t srcadr; /* source address */ uint16_t srcport; /* source port */ uint8_t stratum; /* stratum of peer */ int8_t hpoll; /* host polling interval */ int8_t ppoll; /* peer polling interval */ uint8_t reach; /* reachability register */ uint8_t flags; /* flags, from above */ uint8_t hmode; /* peer mode */ int32_t delay; /* peer.estdelay; s_fp */ int32_t offset_int; /* peer.estoffset; integral part */ int32_t offset_frc; /* peer.estoffset; fractional part */ uint32_t dispersion; /* peer.estdisp; u_fp */ uint32_t v6_flag; /* is this v6 or not */ uint32_t unused1; /* (unused) padding for dstadr6 */ struct in6_addr dstadr6; /* local address (v6) */ struct in6_addr srcadr6; /* source address (v6) */ }; #define REQ_SYS_INFO 4 struct info_sys { uint32_t peer; /* system peer address (v4) */ uint8_t peer_mode; /* mode we are syncing to peer in */ uint8_t leap; /* system leap bits */ uint8_t stratum; /* our stratum */ int8_t precision; /* local clock precision */ int32_t rootdelay; /* distance from sync source */ uint32_t rootdispersion; /* dispersion from sync source */ uint32_t refid; /* reference ID of sync source */ uint64_t reftime; /* system reference time */ uint32_t poll; /* system poll interval */ uint8_t flags; /* system flags */ uint8_t unused1; /* unused */ uint8_t unused2; /* unused */ uint8_t unused3; /* unused */ int32_t bdelay; /* default broadcast offset */ int32_t frequency; /* frequency residual (scaled ppm) */ uint64_t authdelay; /* default authentication delay */ uint32_t stability; /* clock stability (scaled ppm) */ int32_t v6_flag; /* is this v6 or not */ int32_t unused4; /* unused, padding for peer6 */ struct in6_addr peer6; /* system peer address (v6) */ }; #define REQ_GET_KERNEL 38 struct info_kernel { int32_t offset; int32_t freq; int32_t maxerror; int32_t esterror; uint16_t status; uint16_t shift; int32_t constant; int32_t precision; int32_t tolerance; /* pps stuff */ int32_t ppsfreq; int32_t jitter; int32_t stabil; int32_t jitcnt; int32_t calcnt; int32_t errcnt; int32_t stbcnt; }; /* List of reference clock names */ static char *refclock_names[] = { "UNKNOWN", "LOCAL", "GPS_TRAK", "WWV_PST", /* 0- 3 */ "SPECTRACOM", "TRUETIME", "IRIG_AUDIO", "CHU_AUDIO", /* 4- 7 */ "GENERIC", "GPS_MX4200", "GPS_AS2201", "GPS_ARBITER", /* 8-11 */ "IRIG_TPRO", "ATOM_LEITCH", "MSF_EES", "GPSTM_TRUE", /* 12-15 */ "GPS_BANC", "GPS_DATUM", "ACTS_NIST", "WWV_HEATH", /* 16-19 */ "GPS_NMEA", "GPS_VME", "PPS", "ACTS_PTB", /* 20-23 */ "ACTS_USNO", "TRUETIME", "GPS_HP", "MSF_ARCRON", /* 24-27 */ "SHM", "GPS_PALISADE", "GPS_ONCORE", "GPS_JUPITER", /* 28-31 */ "CHRONOLOG", "DUMBCLOCK", "ULINK_M320", "PCF", /* 32-35 */ "WWV_AUDIO", "GPS_FG", "HOPF_S", "HOPF_P", /* 36-39 */ "JJY", "TT_IRIG", "GPS_ZYFER", "GPS_RIPENCC", /* 40-43 */ "NEOCLK4X" /* 44 */ }; static int refclock_names_num = STATIC_ARRAY_SIZE (refclock_names); /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * End of the copied stuff.. * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ static int ntpd_config (const char *key, const char *value) { if (strcasecmp (key, "Host") == 0) { if (ntpd_host != NULL) free (ntpd_host); if ((ntpd_host = strdup (value)) == NULL) return (1); } else if (strcasecmp (key, "Port") == 0) { int port = (int) (atof (value)); if ((port > 0) && (port <= 65535)) ssnprintf (ntpd_port, sizeof (ntpd_port), "%i", port); else sstrncpy (ntpd_port, value, sizeof (ntpd_port)); } else if (strcasecmp (key, "ReverseLookups") == 0) { if ((strcasecmp (value, "True") == 0) || (strcasecmp (value, "Yes") == 0) || (strcasecmp (value, "On") == 0)) do_reverse_lookups = 1; else do_reverse_lookups = 0; } else { return (-1); } return (0); } static void ntpd_submit (char *type, char *type_inst, double value) { value_t values[1]; value_list_t vl = VALUE_LIST_INIT; values[0].gauge = value; vl.values = values; vl.values_len = 1; sstrncpy (vl.host, hostname_g, sizeof (vl.host)); sstrncpy (vl.plugin, "ntpd", sizeof (vl.plugin)); sstrncpy (vl.plugin_instance, "", sizeof (vl.plugin_instance)); sstrncpy (vl.type, type, sizeof (vl.type)); sstrncpy (vl.type_instance, type_inst, sizeof (vl.type_instance)); plugin_dispatch_values (&vl); } static int ntpd_connect (void) { char *host; char *port; struct addrinfo ai_hints; struct addrinfo *ai_list; struct addrinfo *ai_ptr; int status; if (sock_descr >= 0) return (sock_descr); DEBUG ("Opening a new socket"); host = ntpd_host; if (host == NULL) host = NTPD_DEFAULT_HOST; port = ntpd_port; if (strlen (port) == 0) port = NTPD_DEFAULT_PORT; memset (&ai_hints, '\0', sizeof (ai_hints)); ai_hints.ai_flags = 0; #ifdef AI_ADDRCONFIG ai_hints.ai_flags |= AI_ADDRCONFIG; #endif ai_hints.ai_family = PF_UNSPEC; ai_hints.ai_socktype = SOCK_DGRAM; ai_hints.ai_protocol = IPPROTO_UDP; if ((status = getaddrinfo (host, port, &ai_hints, &ai_list)) != 0) { char errbuf[1024]; ERROR ("ntpd plugin: getaddrinfo (%s, %s): %s", host, port, (status == EAI_SYSTEM) ? sstrerror (errno, errbuf, sizeof (errbuf)) : gai_strerror (status)); return (-1); } for (ai_ptr = ai_list; ai_ptr != NULL; ai_ptr = ai_ptr->ai_next) { /* create our socket descriptor */ if ((sock_descr = socket (ai_ptr->ai_family, ai_ptr->ai_socktype, ai_ptr->ai_protocol)) < 0) continue; /* connect to the ntpd */ if (connect (sock_descr, ai_ptr->ai_addr, ai_ptr->ai_addrlen)) { close (sock_descr); sock_descr = -1; continue; } break; } freeaddrinfo (ai_list); if (sock_descr < 0) { ERROR ("ntpd plugin: Unable to connect to server."); } return (sock_descr); } /* For a description of the arguments see `ntpd_do_query' below. */ static int ntpd_receive_response (int *res_items, int *res_size, char **res_data, int res_item_size) { int sd; struct pollfd poll_s; struct resp_pkt res; int status; int done; int i; char *items; size_t items_num; struct timeval time_end; struct timeval time_now; int timeout; int pkt_item_num; /* items in this packet */ int pkt_item_len; /* size of the items in this packet */ int pkt_sequence; char pkt_recvd[MAXSEQ+1]; /* sequence numbers that have been received */ int pkt_recvd_num; /* number of packets that have been received */ int pkt_lastseq; /* the last sequence number */ ssize_t pkt_padding; /* Padding in this packet */ if ((sd = ntpd_connect ()) < 0) return (-1); items = NULL; items_num = 0; memset (pkt_recvd, '\0', sizeof (pkt_recvd)); pkt_recvd_num = 0; pkt_lastseq = -1; *res_items = 0; *res_size = 0; *res_data = NULL; if (gettimeofday (&time_end, NULL) < 0) { char errbuf[1024]; ERROR ("ntpd plugin: gettimeofday failed: %s", sstrerror (errno, errbuf, sizeof (errbuf))); return (-1); } time_end.tv_sec++; /* wait for a most one second */ done = 0; while (done == 0) { struct timeval time_left; if (gettimeofday (&time_now, NULL) < 0) { char errbuf[1024]; ERROR ("ntpd plugin: gettimeofday failed: %s", sstrerror (errno, errbuf, sizeof (errbuf))); return (-1); } if (timeval_cmp (time_end, time_now, &time_left) <= 0) timeout = 0; else timeout = 1000 * time_left.tv_sec + ((time_left.tv_usec + 500) / 1000); /* timeout reached */ if (timeout <= 0) break; poll_s.fd = sd; poll_s.events = POLLIN | POLLPRI; poll_s.revents = 0; DEBUG ("Polling for %ims", timeout); status = poll (&poll_s, 1, timeout); if ((status < 0) && ((errno == EAGAIN) || (errno == EINTR))) continue; if (status < 0) { char errbuf[1024]; ERROR ("ntpd plugin: poll failed: %s", sstrerror (errno, errbuf, sizeof (errbuf))); return (-1); } if (status == 0) /* timeout */ { DEBUG ("timeout reached."); break; } memset ((void *) &res, '\0', sizeof (res)); status = recv (sd, (void *) &res, sizeof (res), 0 /* no flags */); if ((status < 0) && ((errno == EAGAIN) || (errno == EINTR))) continue; if (status < 0) { char errbuf[1024]; INFO ("recv(2) failed: %s", sstrerror (errno, errbuf, sizeof (errbuf))); DEBUG ("Closing socket #%i", sd); close (sd); sock_descr = sd = -1; return (-1); } DEBUG ("recv'd %i bytes", status); /* * Do some sanity checks first */ if (status < RESP_HEADER_SIZE) { WARNING ("ntpd plugin: Short (%i bytes) packet received", (int) status); continue; } if (INFO_MODE (res.rm_vn_mode) != MODE_PRIVATE) { NOTICE ("ntpd plugin: Packet received with mode %i", INFO_MODE (res.rm_vn_mode)); continue; } if (INFO_IS_AUTH (res.auth_seq)) { NOTICE ("ntpd plugin: Encrypted packet received"); continue; } if (!ISRESPONSE (res.rm_vn_mode)) { NOTICE ("ntpd plugin: Received request packet, " "wanted response"); continue; } if (INFO_MBZ (res.mbz_itemsize)) { WARNING ("ntpd plugin: Received packet with nonzero " "MBZ field!"); continue; } if (res.implementation != IMPL_XNTPD) { WARNING ("ntpd plugin: Asked for request of type %i, " "got %i", (int) IMPL_XNTPD, (int) res.implementation); continue; } /* Check for error code */ if (INFO_ERR (res.err_nitems) != 0) { ERROR ("ntpd plugin: Received error code %i", (int) INFO_ERR(res.err_nitems)); return ((int) INFO_ERR (res.err_nitems)); } /* extract number of items in this packet and the size of these items */ pkt_item_num = INFO_NITEMS (res.err_nitems); pkt_item_len = INFO_ITEMSIZE (res.mbz_itemsize); DEBUG ("pkt_item_num = %i; pkt_item_len = %i;", pkt_item_num, pkt_item_len); /* Check if the reported items fit in the packet */ if ((pkt_item_num * pkt_item_len) > (status - RESP_HEADER_SIZE)) { ERROR ("ntpd plugin: %i items * %i bytes > " "%i bytes - %i bytes header", (int) pkt_item_num, (int) pkt_item_len, (int) status, (int) RESP_HEADER_SIZE); continue; } if (pkt_item_len > res_item_size) { ERROR ("ntpd plugin: (pkt_item_len = %i) " ">= (res_item_size = %i)", pkt_item_len, res_item_size); continue; } /* If this is the first packet (time wise, not sequence wise), * set `res_size'. If it's not the first packet check if the * items have the same size. Discard invalid packets. */ if (items_num == 0) /* first packet */ { DEBUG ("*res_size = %i", pkt_item_len); *res_size = pkt_item_len; } else if (*res_size != pkt_item_len) { DEBUG ("Error: *res_size = %i; pkt_item_len = %i;", *res_size, pkt_item_len); ERROR ("Item sizes differ."); continue; } /* * Because the items in the packet may be smaller than the * items requested, the following holds true: */ assert ((*res_size == pkt_item_len) && (pkt_item_len <= res_item_size)); /* Calculate the padding. No idea why there might be any padding.. */ pkt_padding = 0; if (pkt_item_len < res_item_size) pkt_padding = res_item_size - pkt_item_len; DEBUG ("res_item_size = %i; pkt_padding = %zi;", res_item_size, pkt_padding); /* Extract the sequence number */ pkt_sequence = INFO_SEQ (res.auth_seq); if ((pkt_sequence < 0) || (pkt_sequence > MAXSEQ)) { ERROR ("ntpd plugin: Received packet with sequence %i", pkt_sequence); continue; } /* Check if this sequence has been received before. If so, discard it. */ if (pkt_recvd[pkt_sequence] != '\0') { NOTICE ("ntpd plugin: Sequence %i received twice", pkt_sequence); continue; } /* If `pkt_lastseq != -1' another packet without `more bit' has * been received. */ if (!ISMORE (res.rm_vn_mode)) { if (pkt_lastseq != -1) { ERROR ("ntpd plugin: Two packets which both " "claim to be the last one in the " "sequence have been received."); continue; } pkt_lastseq = pkt_sequence; DEBUG ("Last sequence = %i;", pkt_lastseq); } /* * Enough with the checks. Copy the data now. * We start by allocating some more memory. */ DEBUG ("realloc (%p, %zu)", (void *) *res_data, (items_num + pkt_item_num) * res_item_size); items = realloc ((void *) *res_data, (items_num + pkt_item_num) * res_item_size); if (items == NULL) { items = *res_data; ERROR ("ntpd plugin: realloc failed."); continue; } items_num += pkt_item_num; *res_data = items; for (i = 0; i < pkt_item_num; i++) { /* dst: There are already `*res_items' items with * res_item_size bytes each in in `*res_data'. Set * dst to the first byte after that. */ void *dst = (void *) (*res_data + ((*res_items) * res_item_size)); /* src: We use `pkt_item_len' to calculate the offset * from the beginning of the packet, because the * items in the packet may be smaller than the * items that were requested. We skip `i' such * items. */ void *src = (void *) (((char *) res.data) + (i * pkt_item_len)); /* Set the padding to zeros */ if (pkt_padding != 0) memset (dst, '\0', res_item_size); memcpy (dst, src, (size_t) pkt_item_len); /* Increment `*res_items' by one, so `dst' will end up * one further in the next round. */ (*res_items)++; } /* for (pkt_item_num) */ pkt_recvd[pkt_sequence] = (char) 1; pkt_recvd_num++; if ((pkt_recvd_num - 1) == pkt_lastseq) done = 1; } /* while (done == 0) */ return (0); } /* int ntpd_receive_response */ /* For a description of the arguments see `ntpd_do_query' below. */ static int ntpd_send_request (int req_code, int req_items, int req_size, char *req_data) { int sd; struct req_pkt req; size_t req_data_len; int status; assert (req_items >= 0); assert (req_size >= 0); if ((sd = ntpd_connect ()) < 0) return (-1); memset ((void *) &req, '\0', sizeof (req)); req.rm_vn_mode = RM_VN_MODE(0, 0, 0); req.auth_seq = AUTH_SEQ (0, 0); req.implementation = IMPL_XNTPD; req.request = (unsigned char) req_code; req_data_len = (size_t) (req_items * req_size); assert (((req_data != NULL) && (req_data_len > 0)) || ((req_data == NULL) && (req_items == 0) && (req_size == 0))); req.err_nitems = ERR_NITEMS (0, req_items); req.mbz_itemsize = MBZ_ITEMSIZE (req_size); if (req_data != NULL) memcpy ((void *) req.data, (const void *) req_data, req_data_len); DEBUG ("req_items = %i; req_size = %i; req_data = %p;", req_items, req_size, (void *) req_data); status = swrite (sd, (const char *) &req, REQ_LEN_NOMAC); if (status < 0) { DEBUG ("`swrite' failed. Closing socket #%i", sd); close (sd); sock_descr = sd = -1; return (status); } return (0); } /* * ntpd_do_query: * * req_code: Type of request packet * req_items: Numver of items in the request * req_size: Size of one item in the request * req_data: Data of the request packet * res_items: Pointer to where the number returned items will be stored. * res_size: Pointer to where the size of one returned item will be stored. * res_data: This is where a pointer to the (allocated) data will be stored. * res_item_size: Size of one returned item. (used to calculate padding) * * returns: zero upon success, non-zero otherwise. */ static int ntpd_do_query (int req_code, int req_items, int req_size, char *req_data, int *res_items, int *res_size, char **res_data, int res_item_size) { int status; status = ntpd_send_request (req_code, req_items, req_size, req_data); if (status != 0) return (status); status = ntpd_receive_response (res_items, res_size, res_data, res_item_size); return (status); } static double ntpd_read_fp (int32_t val_int) { double val_double; val_int = ntohl (val_int); val_double = ((double) val_int) / FP_FRAC; return (val_double); } static int ntpd_read (void) { struct info_kernel *ik; int ik_num; int ik_size; struct info_peer_summary *ps; int ps_num; int ps_size; int status; int i; ik = NULL; ik_num = 0; ik_size = 0; status = ntpd_do_query (REQ_GET_KERNEL, 0, 0, NULL, /* request data */ &ik_num, &ik_size, (char **) ((void *) &ik), /* response data */ sizeof (struct info_kernel)); if (status != 0) { DEBUG ("ntpd_do_query failed with status %i", status); return (-1); } if ((ik == NULL) || (ik_num == 0) || (ik_size == 0)) { DEBUG ("ntpd_do_query returned: ik = %p; ik_num = %i; ik_size = %i;", (void *) ik, ik_num, ik_size); return (-1); } /* kerninfo -> estimated error */ DEBUG ("info_kernel:\n" " pll offset = %.8f\n" " pll frequency = %.8f\n" /* drift compensation */ " est error = %.8f\n", ntpd_read_fp (ik->offset), ntpd_read_fp (ik->freq), ntpd_read_fp (ik->esterror)); ntpd_submit ("frequency_offset", "loop", ntpd_read_fp (ik->freq)); ntpd_submit ("time_offset", "loop", ntpd_read_fp (ik->offset)); ntpd_submit ("time_offset", "error", ntpd_read_fp (ik->esterror)); free (ik); ik = NULL; status = ntpd_do_query (REQ_PEER_LIST_SUM, 0, 0, NULL, /* request data */ &ps_num, &ps_size, (char **) ((void *) &ps), /* response data */ sizeof (struct info_peer_summary)); if (status != 0) { DEBUG ("ntpd_do_query failed with status %i", status); return (-1); } if ((ps == NULL) || (ps_num == 0) || (ps_size == 0)) { DEBUG ("ntpd_do_query returned: ps = %p; ps_num = %i; ps_size = %i;", (void *) ps, ps_num, ps_size); return (-1); } for (i = 0; i < ps_num; i++) { struct info_peer_summary *ptr; double offset; char peername[NI_MAXHOST]; int refclock_id; ptr = ps + i; refclock_id = 0; /* Convert the `long floating point' offset value to double */ M_LFPTOD (ntohl (ptr->offset_int), ntohl (ptr->offset_frc), offset); /* Special IP addresses for hardware clocks and stuff.. */ if (!ptr->v6_flag && ((ntohl (ptr->srcadr) & REFCLOCK_MASK) == REFCLOCK_ADDR)) { struct in_addr addr_obj; char *addr_str; refclock_id = (ntohl (ptr->srcadr) >> 8) & 0x000000FF; if (refclock_id < refclock_names_num) { sstrncpy (peername, refclock_names[refclock_id], sizeof (peername)); } else { memset ((void *) &addr_obj, '\0', sizeof (addr_obj)); addr_obj.s_addr = ptr->srcadr; addr_str = inet_ntoa (addr_obj); sstrncpy (peername, addr_str, sizeof (peername)); } } else /* Normal network host. */ { struct sockaddr_storage sa; socklen_t sa_len; int flags = 0; memset (&sa, '\0', sizeof (sa)); if (ptr->v6_flag) { struct sockaddr_in6 sa6; assert (sizeof (sa) >= sizeof (sa6)); memset (&sa6, 0, sizeof (sa6)); sa6.sin6_family = AF_INET6; sa6.sin6_port = htons (123); memcpy (&sa6.sin6_addr, &ptr->srcadr6, sizeof (struct in6_addr)); sa_len = sizeof (sa6); memcpy (&sa, &sa6, sizeof (sa6)); } else { struct sockaddr_in sa4; assert (sizeof (sa) >= sizeof (sa4)); memset (&sa4, 0, sizeof (sa4)); sa4.sin_family = AF_INET; sa4.sin_port = htons (123); memcpy (&sa4.sin_addr, &ptr->srcadr, sizeof (struct in_addr)); sa_len = sizeof (sa4); memcpy (&sa, &sa4, sizeof (sa4)); } if (do_reverse_lookups == 0) flags |= NI_NUMERICHOST; status = getnameinfo ((const struct sockaddr *) &sa, sa_len, peername, sizeof (peername), NULL, 0, /* No port name */ flags); if (status != 0) { char errbuf[1024]; ERROR ("ntpd plugin: getnameinfo failed: %s", (status == EAI_SYSTEM) ? sstrerror (errno, errbuf, sizeof (errbuf)) : gai_strerror (status)); continue; } } DEBUG ("peer %i:\n" " peername = %s\n" " srcadr = 0x%08x\n" " delay = %f\n" " offset_int = %i\n" " offset_frc = %i\n" " offset = %f\n" " dispersion = %f\n", i, peername, ntohl (ptr->srcadr), ntpd_read_fp (ptr->delay), ntohl (ptr->offset_int), ntohl (ptr->offset_frc), offset, ntpd_read_fp (ptr->dispersion)); if (refclock_id != 1) /* not the system clock (offset will always be zero.. */ ntpd_submit ("time_offset", peername, offset); ntpd_submit ("time_dispersion", peername, ntpd_read_fp (ptr->dispersion)); if (refclock_id == 0) /* not a reference clock */ ntpd_submit ("delay", peername, ntpd_read_fp (ptr->delay)); } free (ps); ps = NULL; return (0); } /* int ntpd_read */ void module_register (void) { plugin_register_config ("ntpd", ntpd_config, config_keys, config_keys_num); plugin_register_read ("ntpd", ntpd_read); } /* void module_register */