From: Claudius Zingerli Date: Fri, 29 Apr 2016 13:52:53 +0000 (+0200) Subject: Fixed indentation to match collectd's coding style X-Git-Tag: collectd-5.6.0~258^2~2 X-Git-Url: https://git.tokkee.org/?a=commitdiff_plain;h=79b3b22b2937bda9295a96d70e85e7d4b37b6036;p=collectd.git Fixed indentation to match collectd's coding style --- diff --git a/src/chrony.c b/src/chrony.c index fbcc5797..2bfb8068 100644 --- a/src/chrony.c +++ b/src/chrony.c @@ -20,7 +20,8 @@ * ********************************************************************** */ -/* TODO: +/* Formated using 'GNU indent -bli0 -ce -ppi 2' and some manual alignment + * TODO: * - More robust udp parsing (using offsets instead of structs?) * -> Currently chrony parses its data the same way as we do (using structs) * - Plausibility checks on values received @@ -30,7 +31,7 @@ #include "config.h" #if HAVE_SYS_TYPES_H -# include /* getaddrinfo */ +# include /* getaddrinfo */ #endif #if HAVE_SYS_SOCKET_H # include @@ -39,35 +40,34 @@ # include #endif #if HAVE_ARPA_INET_H -# include /* ntohs/ntohl */ +# include /* ntohs/ntohl */ #endif #include "collectd.h" -#include "common.h" /* auxiliary functions */ -#include "plugin.h" /* plugin_register_*, plugin_dispatch_values */ +#include "common.h" /* auxiliary functions */ +#include "plugin.h" /* plugin_register_*, plugin_dispatch_values */ #define CONFIG_KEY_HOST "Host" #define CONFIG_KEY_PORT "Port" #define CONFIG_KEY_TIMEOUT "Timeout" -#define URAND_DEVICE_PATH "/dev/urandom" /* Used to initialize seq nr generator*/ -#define RAND_DEVICE_PATH "/dev/random" /* Used to initialize seq nr generator (fall back)*/ +#define URAND_DEVICE_PATH "/dev/urandom" /* Used to initialize seq nr generator */ +#define RAND_DEVICE_PATH "/dev/random" /* Used to initialize seq nr generator (fall back) */ -static const char *g_config_keys[] = -{ - CONFIG_KEY_HOST, - CONFIG_KEY_PORT, - CONFIG_KEY_TIMEOUT +static const char *g_config_keys[] = { + CONFIG_KEY_HOST, + CONFIG_KEY_PORT, + CONFIG_KEY_TIMEOUT }; -static int g_config_keys_num = STATIC_ARRAY_SIZE (g_config_keys); -static int g_is_connected = 0; -static int g_chrony_socket = -1; -static time_t g_chrony_timeout = -1; -static char *g_chrony_host = NULL; -static char *g_chrony_port = NULL; -static char *g_plugin_instance = NULL; -static uint32_t g_chrony_rand = 1; +static int g_config_keys_num = STATIC_ARRAY_SIZE(g_config_keys); +static int g_is_connected = 0; +static int g_chrony_socket = -1; +static time_t g_chrony_timeout = -1; +static char *g_chrony_host = NULL; +static char *g_chrony_port = NULL; +static char *g_plugin_instance = NULL; +static uint32_t g_chrony_rand = 1; static uint32_t g_chrony_seq_is_initialized = 0; #define PLUGIN_NAME_SHORT "chrony" @@ -81,8 +81,7 @@ static uint32_t g_chrony_seq_is_initialized = 0; #define CHRONY_RC_OK 0 #define CHRONY_RC_FAIL 1 -/* Variables adapted from chrony/candm.h (GPL2)*/ -/*BEGIN*/ +/* Chronyd command packet variables adapted from chrony/candm.h (GPL2) */ #define PROTO_VERSION_NUMBER 6 #define IPADDR_UNSPEC 0 #define IPADDR_INET4 1 @@ -91,212 +90,211 @@ static uint32_t g_chrony_seq_is_initialized = 0; typedef enum { - PKT_TYPE_CMD_REQUEST = 1, - PKT_TYPE_CMD_REPLY = 2 + PKT_TYPE_CMD_REQUEST = 1, + PKT_TYPE_CMD_REPLY = 2 } ePacketType; typedef enum { - REQ_N_SOURCES = 14, - REQ_SOURCE_DATA = 15, - REQ_TRACKING = 33, - REQ_SOURCE_STATS = 34 + REQ_N_SOURCES = 14, + REQ_SOURCE_DATA = 15, + REQ_TRACKING = 33, + REQ_SOURCE_STATS = 34 } eDaemonRequests; typedef enum { - RPY_NULL = 1, - RPY_N_SOURCES = 2, - RPY_SOURCE_DATA = 3, - RPY_MANUAL_TIMESTAMP = 4, - RPY_TRACKING = 5, - RPY_SOURCE_STATS = 6, - RPY_RTC = 7 + RPY_NULL = 1, + RPY_N_SOURCES = 2, + RPY_SOURCE_DATA = 3, + RPY_MANUAL_TIMESTAMP = 4, + RPY_TRACKING = 5, + RPY_SOURCE_STATS = 6, + RPY_RTC = 7 } eDaemonReplies; #define ATTRIB_PACKED __attribute__((packed)) typedef struct ATTRIB_PACKED { - int32_t value; + int32_t value; } tFloat; typedef struct ATTRIB_PACKED { - uint32_t tv_sec_high; - uint32_t tv_sec_low; - uint32_t tv_nsec; + uint32_t tv_sec_high; + uint32_t tv_sec_low; + uint32_t tv_nsec; } tTimeval; -/*END*/ typedef enum { - STT_SUCCESS = 0, - STT_FAILED = 1, - STT_UNAUTH = 2, - STT_INVALID = 3, - STT_NOSUCHSOURCE = 4, - STT_INVALIDTS = 5, - STT_NOTENABLED = 6, - STT_BADSUBNET = 7, - STT_ACCESSALLOWED = 8, - STT_ACCESSDENIED = 9, - STT_NOHOSTACCESS = 10, - STT_SOURCEALREADYKNOWN = 11, - STT_TOOMANYSOURCES = 12, - STT_NORTC = 13, - STT_BADRTCFILE = 14, - STT_INACTIVE = 15, - STT_BADSAMPLE = 16, - STT_INVALIDAF = 17, - STT_BADPKTVERSION = 18, - STT_BADPKTLENGTH = 19 + STT_SUCCESS = 0, + STT_FAILED = 1, + STT_UNAUTH = 2, + STT_INVALID = 3, + STT_NOSUCHSOURCE = 4, + STT_INVALIDTS = 5, + STT_NOTENABLED = 6, + STT_BADSUBNET = 7, + STT_ACCESSALLOWED = 8, + STT_ACCESSDENIED = 9, + STT_NOHOSTACCESS = 10, + STT_SOURCEALREADYKNOWN = 11, + STT_TOOMANYSOURCES = 12, + STT_NORTC = 13, + STT_BADRTCFILE = 14, + STT_INACTIVE = 15, + STT_BADSAMPLE = 16, + STT_INVALIDAF = 17, + STT_BADPKTVERSION = 18, + STT_BADPKTLENGTH = 19 } eChrony_Status; /* Chrony client request packets */ typedef struct ATTRIB_PACKED { - uint8_t f_dummy0[80]; //Chrony expects 80bytes dummy data (Avoiding UDP Amplification) + uint8_t f_dummy0[80]; /* Chrony expects 80bytes dummy data (Avoiding UDP Amplification) */ } tChrony_Req_Tracking; typedef struct ATTRIB_PACKED { - uint32_t f_n_sources; + uint32_t f_n_sources; } tChrony_Req_N_Sources; typedef struct ATTRIB_PACKED { - int32_t f_index; - uint8_t f_dummy0[44]; + int32_t f_index; + uint8_t f_dummy0[44]; } tChrony_Req_Source_data; typedef struct ATTRIB_PACKED { - int32_t f_index; - uint8_t f_dummy0[56]; + int32_t f_index; + uint8_t f_dummy0[56]; } tChrony_Req_Source_stats; typedef struct ATTRIB_PACKED { - struct - { - uint8_t f_version; - uint8_t f_type; - uint8_t f_dummy0; - uint8_t f_dummy1; - uint16_t f_cmd; - uint16_t f_cmd_try; - uint32_t f_seq; - - uint32_t f_dummy2; - uint32_t f_dummy3; - } header; /* Packed: 20Bytes */ - union - { - tChrony_Req_N_Sources n_sources; - tChrony_Req_Source_data source_data; - tChrony_Req_Source_stats source_stats; - tChrony_Req_Tracking tracking; - } body; - uint8_t padding[4+16]; /* Padding to match minimal response size */ + struct + { + uint8_t f_version; + uint8_t f_type; + uint8_t f_dummy0; + uint8_t f_dummy1; + uint16_t f_cmd; + uint16_t f_cmd_try; + uint32_t f_seq; + + uint32_t f_dummy2; + uint32_t f_dummy3; + } header; /* Packed: 20Bytes */ + union + { + tChrony_Req_N_Sources n_sources; + tChrony_Req_Source_data source_data; + tChrony_Req_Source_stats source_stats; + tChrony_Req_Tracking tracking; + } body; + uint8_t padding[4 + 16]; /* Padding to match minimal response size */ } tChrony_Request; /* Chrony daemon response packets */ typedef struct ATTRIB_PACKED { - uint32_t f_n_sources; + uint32_t f_n_sources; } tChrony_Resp_N_Sources; typedef struct ATTRIB_PACKED { - union - { - uint32_t ip4; - uint8_t ip6[16]; - } addr; - uint16_t f_family; + union + { + uint32_t ip4; + uint8_t ip6[16]; + } addr; + uint16_t f_family; } tChrony_IPAddr; typedef struct ATTRIB_PACKED { - tChrony_IPAddr addr; - uint16_t dummy; /* FIXME: Strange dummy space. Needed on gcc 4.8.3/clang 3.4.1 on x86_64 */ - int16_t f_poll; /* 2^f_poll = Time between polls (s) */ - uint16_t f_stratum; /* Remote clock stratum */ - uint16_t f_state; /* 0 = RPY_SD_ST_SYNC, 1 = RPY_SD_ST_UNREACH, 2 = RPY_SD_ST_FALSETICKER */ - /* 3 = RPY_SD_ST_JITTERY, 4 = RPY_SD_ST_CANDIDATE, 5 = RPY_SD_ST_OUTLIER */ - uint16_t f_mode; /* 0 = RPY_SD_MD_CLIENT, 1 = RPY_SD_MD_PEER, 2 = RPY_SD_MD_REF */ - uint16_t f_flags; /* unused */ - uint16_t f_reachability; /* Bit mask of successfull tries to reach the source */ - - uint32_t f_since_sample; /* Time since last sample (s) */ - tFloat f_origin_latest_meas; /* */ - tFloat f_latest_meas; /* */ - tFloat f_latest_meas_err; /* */ + tChrony_IPAddr addr; + uint16_t dummy; /* FIXME: Strange dummy space. Needed on gcc 4.8.3/clang 3.4.1 on x86_64 */ + int16_t f_poll; /* 2^f_poll = Time between polls (s) */ + uint16_t f_stratum; /* Remote clock stratum */ + uint16_t f_state; /* 0 = RPY_SD_ST_SYNC, 1 = RPY_SD_ST_UNREACH, 2 = RPY_SD_ST_FALSETICKER */ + /* 3 = RPY_SD_ST_JITTERY, 4 = RPY_SD_ST_CANDIDATE, 5 = RPY_SD_ST_OUTLIER */ + uint16_t f_mode; /* 0 = RPY_SD_MD_CLIENT, 1 = RPY_SD_MD_PEER, 2 = RPY_SD_MD_REF */ + uint16_t f_flags; /* unused */ + uint16_t f_reachability; /* Bit mask of successfull tries to reach the source */ + + uint32_t f_since_sample; /* Time since last sample (s) */ + tFloat f_origin_latest_meas; /* */ + tFloat f_latest_meas; /* */ + tFloat f_latest_meas_err; /* */ } tChrony_Resp_Source_data; typedef struct ATTRIB_PACKED { - uint32_t f_ref_id; - tChrony_IPAddr addr; - uint16_t dummy; /* FIXME: Strange dummy space. Needed on gcc 4.8.3/clang 3.4.1 on x86_64 */ - uint32_t f_n_samples; /* Number of measurements done */ - uint32_t f_n_runs; /* How many measurements to come */ - uint32_t f_span_seconds; /* For how long we're measuring */ - tFloat f_rtc_seconds_fast; /* ??? */ - tFloat f_rtc_gain_rate_ppm; /* Estimated relative frequency error */ - tFloat f_skew_ppm; /* Clock skew (ppm) (worst case freq est error (skew: peak2peak)) */ - tFloat f_est_offset; /* Estimated offset of source */ - tFloat f_est_offset_err; /* Error of estimation */ + uint32_t f_ref_id; + tChrony_IPAddr addr; + uint16_t dummy; /* FIXME: Strange dummy space. Needed on gcc 4.8.3/clang 3.4.1 on x86_64 */ + uint32_t f_n_samples; /* Number of measurements done */ + uint32_t f_n_runs; /* How many measurements to come */ + uint32_t f_span_seconds; /* For how long we're measuring */ + tFloat f_rtc_seconds_fast; /* ??? */ + tFloat f_rtc_gain_rate_ppm; /* Estimated relative frequency error */ + tFloat f_skew_ppm; /* Clock skew (ppm) (worst case freq est error (skew: peak2peak)) */ + tFloat f_est_offset; /* Estimated offset of source */ + tFloat f_est_offset_err; /* Error of estimation */ } tChrony_Resp_Source_stats; typedef struct ATTRIB_PACKED { - uint32_t f_ref_id; - tChrony_IPAddr addr; - uint16_t dummy; /* FIXME: Strange dummy space. Needed on gcc 4.8.3/clang 3.4.1 on x86_64 */ - uint16_t f_stratum; - uint16_t f_leap_status; - tTimeval f_ref_time; - tFloat f_current_correction; - tFloat f_last_offset; - tFloat f_rms_offset; - tFloat f_freq_ppm; - tFloat f_resid_freq_ppm; - tFloat f_skew_ppm; - tFloat f_root_delay; - tFloat f_root_dispersion; - tFloat f_last_update_interval; + uint32_t f_ref_id; + tChrony_IPAddr addr; + uint16_t dummy; /* FIXME: Strange dummy space. Needed on gcc 4.8.3/clang 3.4.1 on x86_64 */ + uint16_t f_stratum; + uint16_t f_leap_status; + tTimeval f_ref_time; + tFloat f_current_correction; + tFloat f_last_offset; + tFloat f_rms_offset; + tFloat f_freq_ppm; + tFloat f_resid_freq_ppm; + tFloat f_skew_ppm; + tFloat f_root_delay; + tFloat f_root_dispersion; + tFloat f_last_update_interval; } tChrony_Resp_Tracking; typedef struct ATTRIB_PACKED { - struct - { - uint8_t f_version; - uint8_t f_type; - uint8_t f_dummy0; - uint8_t f_dummy1; - uint16_t f_cmd; - uint16_t f_reply; - uint16_t f_status; - uint16_t f_dummy2; - uint16_t f_dummy3; - uint16_t f_dummy4; - uint32_t f_seq; - uint32_t f_dummy5; - uint32_t f_dummy6; - } header; /* Packed: 28 Bytes */ - - union - { - tChrony_Resp_N_Sources n_sources; - tChrony_Resp_Source_data source_data; - tChrony_Resp_Source_stats source_stats; - tChrony_Resp_Tracking tracking; - } body; - - uint8_t padding[1024]; + struct + { + uint8_t f_version; + uint8_t f_type; + uint8_t f_dummy0; + uint8_t f_dummy1; + uint16_t f_cmd; + uint16_t f_reply; + uint16_t f_status; + uint16_t f_dummy2; + uint16_t f_dummy3; + uint16_t f_dummy4; + uint32_t f_seq; + uint32_t f_dummy5; + uint32_t f_dummy6; + } header; /* Packed: 28 Bytes */ + + union + { + tChrony_Resp_N_Sources n_sources; + tChrony_Resp_Source_data source_data; + tChrony_Resp_Source_stats source_stats; + tChrony_Resp_Tracking tracking; + } body; + + uint8_t padding[1024]; } tChrony_Response; @@ -306,326 +304,363 @@ typedef struct ATTRIB_PACKED /* connect_client code adapted from: http://long.ccaba.upc.edu/long/045Guidelines/eva/ipv6.html#daytimeClient6 */ /* License granted by Eva M Castro via e-mail on 2016-02-18 under the terms of GPLv3 */ -static int connect_client (const char *p_hostname, - const char *p_service, - int p_family, - int p_socktype) +static int +connect_client(const char *p_hostname, + const char *p_service, int p_family, int p_socktype) { - struct addrinfo hints, *res=NULL, *ressave=NULL; - int n, sockfd; - - memset(&hints, 0, sizeof(struct addrinfo)); - - hints.ai_family = p_family; - hints.ai_socktype = p_socktype; - - n = getaddrinfo(p_hostname, p_service, &hints, &res); - - if (n <0) - { - ERROR (PLUGIN_NAME ": getaddrinfo error:: [%s]", gai_strerror(n)); - return -1; - } - - ressave = res; - - sockfd=-1; - while (res) - { - sockfd = socket(res->ai_family, - res->ai_socktype, - res->ai_protocol); - - if (!(sockfd < 0)) - { - if (connect(sockfd, res->ai_addr, res->ai_addrlen) == 0) - { - /* Success */ - break; - } - - close(sockfd); - sockfd=-1; - } - res=res->ai_next; - } - - freeaddrinfo(ressave); - return sockfd; + struct addrinfo hints, *res = NULL, *ressave = NULL; + int n, sockfd; + + memset(&hints, 0, sizeof(struct addrinfo)); + + hints.ai_family = p_family; + hints.ai_socktype = p_socktype; + + n = getaddrinfo(p_hostname, p_service, &hints, &res); + + if (n < 0) + { + ERROR(PLUGIN_NAME ": getaddrinfo error:: [%s]", gai_strerror(n)); + return -1; + } + + ressave = res; + + sockfd = -1; + while (res) + { + sockfd = socket(res->ai_family, res->ai_socktype, res->ai_protocol); + + if (!(sockfd < 0)) + { + if (connect(sockfd, res->ai_addr, res->ai_addrlen) == 0) + { + /* Success */ + break; + } + + close(sockfd); + sockfd = -1; + } + res = res->ai_next; + } + + freeaddrinfo(ressave); + return sockfd; } + /* niptoha code originally from: git://git.tuxfamily.org/gitroot/chrony/chrony.git:util.c */ /* Original code licensed as GPLv2, by Richard P. Purnow, Miroslav Lichvar */ /* Original name: char * UTI_IPToString(IPAddr *addr)*/ -static char * niptoha(const tChrony_IPAddr *addr,char *p_buf, size_t p_buf_size) +static char * +niptoha(const tChrony_IPAddr * addr, char *p_buf, size_t p_buf_size) { - int rc=1; - unsigned long a, b, c, d, ip; - const uint8_t *ip6; - - switch (ntohs(addr->f_family)) - { - case IPADDR_UNSPEC: - rc=snprintf(p_buf, p_buf_size, "[UNSPEC]"); - break; - case IPADDR_INET4: - ip = ntohl(addr->addr.ip4); - a = (ip>>24) & 0xff; - b = (ip>>16) & 0xff; - c = (ip>> 8) & 0xff; - d = (ip>> 0) & 0xff; - rc=snprintf(p_buf, p_buf_size, "%ld.%ld.%ld.%ld", a, b, c, d); - break; - case IPADDR_INET6: - ip6 = addr->addr.ip6; + int rc = 1; + unsigned long a, b, c, d, ip; + const uint8_t *ip6; + + switch (ntohs(addr->f_family)) + { + case IPADDR_UNSPEC: + rc = snprintf(p_buf, p_buf_size, "[UNSPEC]"); + break; + case IPADDR_INET4: + ip = ntohl(addr->addr.ip4); + a = (ip >> 24) & 0xff; + b = (ip >> 16) & 0xff; + c = (ip >> 8) & 0xff; + d = (ip >> 0) & 0xff; + rc = snprintf(p_buf, p_buf_size, "%ld.%ld.%ld.%ld", a, b, c, d); + break; + case IPADDR_INET6: + ip6 = addr->addr.ip6; #ifdef FEAT_IPV6 - rc=inet_ntop(AF_INET6, ip6, p_buf, p_bug_size); -#else -#if defined(BYTE_ORDER) && (BYTE_ORDER == BIG_ENDIAN) - rc=snprintf(p_buf, p_buf_size, "%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x", - ip6[15], ip6[14], ip6[13], ip6[12], ip6[11], ip6[10], ip6[9], ip6[8], - ip6[7], ip6[6], ip6[5], ip6[4], ip6[3], ip6[2], ip6[1], ip6[0]); + rc = inet_ntop(AF_INET6, ip6, p_buf, p_bug_size); #else - rc=snprintf(p_buf, p_buf_size, "%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x", - ip6[0], ip6[1], ip6[2], ip6[3], ip6[4], ip6[5], ip6[6], ip6[7], - ip6[8], ip6[9], ip6[10], ip6[11], ip6[12], ip6[13], ip6[14], ip6[15]); +# if defined(BYTE_ORDER) && (BYTE_ORDER == BIG_ENDIAN) + rc = + snprintf(p_buf, p_buf_size, + "%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x", + ip6[15], ip6[14], ip6[13], ip6[12], ip6[11], ip6[10], ip6[9], + ip6[8], ip6[7], ip6[6], ip6[5], ip6[4], ip6[3], ip6[2], + ip6[1], ip6[0]); +# else + rc = + snprintf(p_buf, p_buf_size, + "%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x", + ip6[0], ip6[1], ip6[2], ip6[3], ip6[4], ip6[5], ip6[6], + ip6[7], ip6[8], ip6[9], ip6[10], ip6[11], ip6[12], ip6[13], + ip6[14], ip6[15]); +# endif #endif -#endif - break; - default: - rc=snprintf(p_buf, p_buf_size, "[UNKNOWN]"); - } - assert(rc>0); - return p_buf; + break; + default: + rc = snprintf(p_buf, p_buf_size, "[UNKNOWN]"); + } + assert(rc > 0); + return p_buf; } -/*END*/ -static int chrony_set_timeout() + +static int +chrony_set_timeout() { - /*Set the socket's timeout to g_chrony_timeout; a value of 0 signals infinite timeout*/ - /*Returns 0 on success, !0 on error (check errno)*/ - - struct timeval tv; - tv.tv_sec = g_chrony_timeout; - tv.tv_usec = 0; - - assert(g_chrony_socket>=0); - if (setsockopt(g_chrony_socket, SOL_SOCKET, SO_RCVTIMEO, (char *)&tv,sizeof(struct timeval)) < 0) - { - return CHRONY_RC_FAIL; - } - return CHRONY_RC_OK; + /*Set the socket's timeout to g_chrony_timeout; a value of 0 signals infinite timeout */ + /*Returns 0 on success, !0 on error (check errno) */ + + struct timeval tv; + tv.tv_sec = g_chrony_timeout; + tv.tv_usec = 0; + + assert(g_chrony_socket >= 0); + if (setsockopt + (g_chrony_socket, SOL_SOCKET, SO_RCVTIMEO, (char *) &tv, + sizeof(struct timeval)) < 0) + { + return CHRONY_RC_FAIL; + } + return CHRONY_RC_OK; } -static int chrony_connect() + +static int +chrony_connect() { - /*Connects to the chrony daemon*/ - /*Returns 0 on success, !0 on error (check errno)*/ - int socket; - - if (g_chrony_host == NULL) - { - g_chrony_host = strdup(CHRONY_DEFAULT_HOST); - assert(g_chrony_host); - } - if (g_chrony_port == NULL) - { - g_chrony_port = strdup(CHRONY_DEFAULT_PORT); - assert(g_chrony_port); - } - if (g_chrony_timeout < 0) - { - g_chrony_timeout = CHRONY_DEFAULT_TIMEOUT; - assert(g_chrony_timeout>=0); - } - - - DEBUG(PLUGIN_NAME ": Connecting to %s:%s", g_chrony_host, g_chrony_port); - socket = connect_client(g_chrony_host, g_chrony_port, AF_UNSPEC, SOCK_DGRAM); - if (socket < 0) - { - ERROR (PLUGIN_NAME ": Error connecting to daemon. Errno = %d", errno); - return CHRONY_RC_FAIL; - } - DEBUG(PLUGIN_NAME ": Connected"); - g_chrony_socket = socket; - - if (chrony_set_timeout()) - { - ERROR (PLUGIN_NAME ": Error setting timeout to %lds. Errno = %d", g_chrony_timeout, errno); - return CHRONY_RC_FAIL; - } - return CHRONY_RC_OK; + /*Connects to the chrony daemon */ + /*Returns 0 on success, !0 on error (check errno) */ + int socket; + + if (g_chrony_host == NULL) + { + g_chrony_host = strdup(CHRONY_DEFAULT_HOST); + assert(g_chrony_host); + } + if (g_chrony_port == NULL) + { + g_chrony_port = strdup(CHRONY_DEFAULT_PORT); + assert(g_chrony_port); + } + if (g_chrony_timeout < 0) + { + g_chrony_timeout = CHRONY_DEFAULT_TIMEOUT; + assert(g_chrony_timeout >= 0); + } + + DEBUG(PLUGIN_NAME ": Connecting to %s:%s", g_chrony_host, g_chrony_port); + socket = + connect_client(g_chrony_host, g_chrony_port, AF_UNSPEC, SOCK_DGRAM); + if (socket < 0) + { + ERROR(PLUGIN_NAME ": Error connecting to daemon. Errno = %d", errno); + return CHRONY_RC_FAIL; + } + DEBUG(PLUGIN_NAME ": Connected"); + g_chrony_socket = socket; + + if (chrony_set_timeout()) + { + ERROR(PLUGIN_NAME ": Error setting timeout to %lds. Errno = %d", + g_chrony_timeout, errno); + return CHRONY_RC_FAIL; + } + return CHRONY_RC_OK; } -static int chrony_send_request(const tChrony_Request *p_req, size_t p_req_size) + +static int +chrony_send_request(const tChrony_Request * p_req, size_t p_req_size) { - if (send(g_chrony_socket,p_req,p_req_size,0) < 0) - { - ERROR (PLUGIN_NAME ": Error sending packet. Errno = %d", errno); - return CHRONY_RC_FAIL; - } - return CHRONY_RC_OK; + if (send(g_chrony_socket, p_req, p_req_size, 0) < 0) + { + ERROR(PLUGIN_NAME ": Error sending packet. Errno = %d", errno); + return CHRONY_RC_FAIL; + } + return CHRONY_RC_OK; } -static int chrony_recv_response(tChrony_Response *p_resp, size_t p_resp_max_size, size_t *p_resp_size) + +static int +chrony_recv_response(tChrony_Response * p_resp, size_t p_resp_max_size, + size_t * p_resp_size) { - ssize_t rc = recv(g_chrony_socket,p_resp,p_resp_max_size,0); - if (rc <= 0) - { - ERROR (PLUGIN_NAME ": Error receiving packet: %s (%d)", strerror(errno), errno); - return CHRONY_RC_FAIL; - } else { - *p_resp_size = rc; - return CHRONY_RC_OK; - } + ssize_t rc = recv(g_chrony_socket, p_resp, p_resp_max_size, 0); + if (rc <= 0) + { + ERROR(PLUGIN_NAME ": Error receiving packet: %s (%d)", strerror(errno), + errno); + return CHRONY_RC_FAIL; + } else + { + *p_resp_size = rc; + return CHRONY_RC_OK; + } } -static int chrony_query(const int p_command, tChrony_Request *p_req, tChrony_Response *p_resp, size_t *p_resp_size) + +static int +chrony_query(const int p_command, tChrony_Request * p_req, + tChrony_Response * p_resp, size_t * p_resp_size) { - /* Check connection. We simply perform one try as collectd already handles retries */ - assert(p_req); - assert(p_resp); - assert(p_resp_size); - - if (g_is_connected == 0) - { - if (chrony_connect() == 0) - { - g_is_connected = 1; - } else { - ERROR (PLUGIN_NAME ": Unable to connect. Errno = %d", errno); - return CHRONY_RC_FAIL; - } - } - - - do - { - int valid_command = 0; - size_t req_size = sizeof(p_req->header) + sizeof(p_req->padding); - size_t resp_size = sizeof(p_resp->header); - uint16_t resp_code = RPY_NULL; - switch (p_command) - { - case REQ_TRACKING: - req_size += sizeof(p_req->body.tracking); - resp_size += sizeof(p_resp->body.tracking); - resp_code = RPY_TRACKING; - valid_command = 1; - break; - case REQ_N_SOURCES: - req_size += sizeof(p_req->body.n_sources); - resp_size += sizeof(p_resp->body.n_sources); - resp_code = RPY_N_SOURCES; - valid_command = 1; - break; - case REQ_SOURCE_DATA: - req_size += sizeof(p_req->body.source_data); - resp_size += sizeof(p_resp->body.source_data); - resp_code = RPY_SOURCE_DATA; - valid_command = 1; - break; - case REQ_SOURCE_STATS: - req_size += sizeof(p_req->body.source_stats); - resp_size += sizeof(p_resp->body.source_stats); - resp_code = RPY_SOURCE_STATS; - valid_command = 1; - break; - default: - ERROR (PLUGIN_NAME ": Unknown request command (Was: %d)", p_command); - break; - } - - if (valid_command == 0) - { - break; - } - - uint32_t seq_nr = rand_r(&g_chrony_rand); - p_req->header.f_cmd = htons(p_command); - p_req->header.f_cmd_try = 0; - p_req->header.f_seq = seq_nr; - - DEBUG(PLUGIN_NAME ": Sending request (.cmd = %d, .seq = %d)",p_command, seq_nr); - if (chrony_send_request(p_req,req_size) != 0) - { - break; - } - - DEBUG(PLUGIN_NAME ": Waiting for response"); - if (chrony_recv_response(p_resp,resp_size,p_resp_size) != 0) - { - break; - } - DEBUG(PLUGIN_NAME ": Received response: .version = %u, .type = %u, .cmd = %u, .reply = %u, .status = %u, .seq = %u", - p_resp->header.f_version, p_resp->header.f_type, ntohs(p_resp->header.f_cmd), - ntohs(p_resp->header.f_reply), ntohs(p_resp->header.f_status), p_resp->header.f_seq); - - if (p_resp->header.f_version != p_req->header.f_version) - { - ERROR(PLUGIN_NAME ": Wrong protocol version (Was: %d, expected: %d)", p_resp->header.f_version, p_req->header.f_version); - return CHRONY_RC_FAIL; - } - if (p_resp->header.f_type != PKT_TYPE_CMD_REPLY) - { - ERROR(PLUGIN_NAME ": Wrong packet type (Was: %d, expected: %d)", p_resp->header.f_type, PKT_TYPE_CMD_REPLY); - return CHRONY_RC_FAIL; - } - if (p_resp->header.f_seq != seq_nr) - { - /* FIXME: Implement sequence number handling */ - ERROR(PLUGIN_NAME ": Unexpected sequence number (Was: %d, expected: %d)", p_resp->header.f_seq, p_req->header.f_seq); - return CHRONY_RC_FAIL; - } - if (p_resp->header.f_cmd != p_req->header.f_cmd) - { - ERROR(PLUGIN_NAME ": Wrong reply command (Was: %d, expected: %d)", p_resp->header.f_cmd, p_req->header.f_cmd); - return CHRONY_RC_FAIL; - } - - if (ntohs(p_resp->header.f_reply) != resp_code) - { - ERROR(PLUGIN_NAME ": Wrong reply code (Was: %d, expected: %d)", ntohs(p_resp->header.f_reply), resp_code); - return CHRONY_RC_FAIL; - } - - switch (p_resp->header.f_status) - { - case STT_SUCCESS: - DEBUG(PLUGIN_NAME ": Reply packet status STT_SUCCESS"); - break; - default: - ERROR(PLUGIN_NAME ": Reply packet contains error status: %d (expected: %d)", p_resp->header.f_status, STT_SUCCESS); - return CHRONY_RC_FAIL; - } - - /* Good result */ - return CHRONY_RC_OK; - } while (0); - - /* Some error occured */ - return CHRONY_RC_FAIL; + /* Check connection. We simply perform one try as collectd already handles retries */ + assert(p_req); + assert(p_resp); + assert(p_resp_size); + + if (g_is_connected == 0) + { + if (chrony_connect() == 0) + { + g_is_connected = 1; + } else + { + ERROR(PLUGIN_NAME ": Unable to connect. Errno = %d", errno); + return CHRONY_RC_FAIL; + } + } + + do + { + int valid_command = 0; + size_t req_size = sizeof(p_req->header) + sizeof(p_req->padding); + size_t resp_size = sizeof(p_resp->header); + uint16_t resp_code = RPY_NULL; + switch (p_command) + { + case REQ_TRACKING: + req_size += sizeof(p_req->body.tracking); + resp_size += sizeof(p_resp->body.tracking); + resp_code = RPY_TRACKING; + valid_command = 1; + break; + case REQ_N_SOURCES: + req_size += sizeof(p_req->body.n_sources); + resp_size += sizeof(p_resp->body.n_sources); + resp_code = RPY_N_SOURCES; + valid_command = 1; + break; + case REQ_SOURCE_DATA: + req_size += sizeof(p_req->body.source_data); + resp_size += sizeof(p_resp->body.source_data); + resp_code = RPY_SOURCE_DATA; + valid_command = 1; + break; + case REQ_SOURCE_STATS: + req_size += sizeof(p_req->body.source_stats); + resp_size += sizeof(p_resp->body.source_stats); + resp_code = RPY_SOURCE_STATS; + valid_command = 1; + break; + default: + ERROR(PLUGIN_NAME ": Unknown request command (Was: %d)", p_command); + break; + } + + if (valid_command == 0) + { + break; + } + + uint32_t seq_nr = rand_r(&g_chrony_rand); + p_req->header.f_cmd = htons(p_command); + p_req->header.f_cmd_try = 0; + p_req->header.f_seq = seq_nr; + + DEBUG(PLUGIN_NAME ": Sending request (.cmd = %d, .seq = %d)", p_command, + seq_nr); + if (chrony_send_request(p_req, req_size) != 0) + { + break; + } + + DEBUG(PLUGIN_NAME ": Waiting for response"); + if (chrony_recv_response(p_resp, resp_size, p_resp_size) != 0) + { + break; + } + DEBUG(PLUGIN_NAME + ": Received response: .version = %u, .type = %u, .cmd = %u, .reply = %u, .status = %u, .seq = %u", + p_resp->header.f_version, p_resp->header.f_type, + ntohs(p_resp->header.f_cmd), ntohs(p_resp->header.f_reply), + ntohs(p_resp->header.f_status), p_resp->header.f_seq); + + if (p_resp->header.f_version != p_req->header.f_version) + { + ERROR(PLUGIN_NAME ": Wrong protocol version (Was: %d, expected: %d)", + p_resp->header.f_version, p_req->header.f_version); + return CHRONY_RC_FAIL; + } + if (p_resp->header.f_type != PKT_TYPE_CMD_REPLY) + { + ERROR(PLUGIN_NAME ": Wrong packet type (Was: %d, expected: %d)", + p_resp->header.f_type, PKT_TYPE_CMD_REPLY); + return CHRONY_RC_FAIL; + } + if (p_resp->header.f_seq != seq_nr) + { + /* FIXME: Implement sequence number handling */ + ERROR(PLUGIN_NAME + ": Unexpected sequence number (Was: %d, expected: %d)", + p_resp->header.f_seq, p_req->header.f_seq); + return CHRONY_RC_FAIL; + } + if (p_resp->header.f_cmd != p_req->header.f_cmd) + { + ERROR(PLUGIN_NAME ": Wrong reply command (Was: %d, expected: %d)", + p_resp->header.f_cmd, p_req->header.f_cmd); + return CHRONY_RC_FAIL; + } + + if (ntohs(p_resp->header.f_reply) != resp_code) + { + ERROR(PLUGIN_NAME ": Wrong reply code (Was: %d, expected: %d)", + ntohs(p_resp->header.f_reply), resp_code); + return CHRONY_RC_FAIL; + } + + switch (p_resp->header.f_status) + { + case STT_SUCCESS: + DEBUG(PLUGIN_NAME ": Reply packet status STT_SUCCESS"); + break; + default: + ERROR(PLUGIN_NAME + ": Reply packet contains error status: %d (expected: %d)", + p_resp->header.f_status, STT_SUCCESS); + return CHRONY_RC_FAIL; + } + + /* Good result */ + return CHRONY_RC_OK; + } + while (0); + + /* Some error occured */ + return CHRONY_RC_FAIL; } -static void chrony_init_req(tChrony_Request *p_req) + +static void +chrony_init_req(tChrony_Request * p_req) { - memset(p_req,0,sizeof(*p_req)); - p_req->header.f_version = PROTO_VERSION_NUMBER; - p_req->header.f_type = PKT_TYPE_CMD_REQUEST; - p_req->header.f_dummy0 = 0; - p_req->header.f_dummy1 = 0; - p_req->header.f_dummy2 = 0; - p_req->header.f_dummy3 = 0; + memset(p_req, 0, sizeof(*p_req)); + p_req->header.f_version = PROTO_VERSION_NUMBER; + p_req->header.f_type = PKT_TYPE_CMD_REQUEST; + p_req->header.f_dummy0 = 0; + p_req->header.f_dummy1 = 0; + p_req->header.f_dummy2 = 0; + p_req->header.f_dummy3 = 0; } + /* ntohf code originally from: git://git.tuxfamily.org/gitroot/chrony/chrony.git:util.c */ /* Original code licensed as GPLv2, by Richard P. Purnow, Miroslav Lichvar */ /* Original name: double UTI_tFloatNetworkToHost(tFloat f) */ -static double ntohf(tFloat p_float) +static double +ntohf(tFloat p_float) { - /* Convert tFloat in Network-bit-order to double in host-bit-order */ + /* Convert tFloat in Network-bit-order to double in host-bit-order */ #define FLOAT_EXP_BITS 7 #define FLOAT_EXP_MIN (-(1 << (FLOAT_EXP_BITS - 1))) @@ -634,434 +669,479 @@ static double ntohf(tFloat p_float) #define FLOAT_COEF_MIN (-(1 << (FLOAT_COEF_BITS - 1))) #define FLOAT_COEF_MAX (-FLOAT_COEF_MIN - 1) - int32_t exp, coef; - uint32_t uval; - - uval = ntohl(p_float.value); - exp = (uval >> FLOAT_COEF_BITS) - FLOAT_COEF_BITS; - if (exp >= 1 << (FLOAT_EXP_BITS - 1)) - { - exp -= 1 << FLOAT_EXP_BITS; - } - - /* coef = (x << FLOAT_EXP_BITS) >> FLOAT_EXP_BITS; */ - coef = uval % (1U << FLOAT_COEF_BITS); - if (coef >= 1 << (FLOAT_COEF_BITS - 1)) - { - coef -= 1 << FLOAT_COEF_BITS; - } - return coef * pow(2.0, exp); + int32_t exp, coef; + uint32_t uval; + + uval = ntohl(p_float.value); + exp = (uval >> FLOAT_COEF_BITS) - FLOAT_COEF_BITS; + if (exp >= 1 << (FLOAT_EXP_BITS - 1)) + { + exp -= 1 << FLOAT_EXP_BITS; + } + + /* coef = (x << FLOAT_EXP_BITS) >> FLOAT_EXP_BITS; */ + coef = uval % (1U << FLOAT_COEF_BITS); + if (coef >= 1 << (FLOAT_COEF_BITS - 1)) + { + coef -= 1 << FLOAT_COEF_BITS; + } + return coef * pow(2.0, exp); } -static void chrony_push_data(char *p_type, char *p_type_inst, double p_value) -{ - value_t values[1]; - value_list_t vl = VALUE_LIST_INIT; - - values[0].gauge = p_value; /* TODO: Check type??? (counter, gauge, derive, absolute) */ - vl.values = values; - vl.values_len = 1; - - /* XXX: Shall g_chrony_host/g_chrony_port be reflected in the plugin's output? */ - /* hostname_g is set in daemon/collectd.c (from config, via gethostname or by resolving localhost) */ - /* defined as: char hostname_g[DATA_MAX_NAME_LEN]; (never NULL) */ - sstrncpy (vl.host, hostname_g, sizeof (vl.host)); - sstrncpy (vl.plugin, PLUGIN_NAME_SHORT, sizeof (vl.plugin)); - if (g_plugin_instance != NULL) { sstrncpy (vl.plugin_instance, g_plugin_instance, sizeof (vl.plugin_instance)); } - if (p_type != NULL) { sstrncpy (vl.type, p_type, sizeof (vl.type)); } - if (p_type_inst != NULL) { sstrncpy (vl.type_instance, p_type_inst, sizeof (vl.type_instance)); } - - plugin_dispatch_values (&vl); +static void +chrony_push_data(char *p_type, char *p_type_inst, double p_value) +{ + value_t values[1]; + value_list_t vl = VALUE_LIST_INIT; + + values[0].gauge = p_value; /* TODO: Check type??? (counter, gauge, derive, absolute) */ + + vl.values = values; + vl.values_len = 1; + + /* XXX: Shall g_chrony_host/g_chrony_port be reflected in the plugin's output? */ + /* hostname_g is set in daemon/collectd.c (from config, via gethostname or by resolving localhost) */ + /* defined as: char hostname_g[DATA_MAX_NAME_LEN]; (never NULL) */ + sstrncpy(vl.host, hostname_g, sizeof(vl.host)); + sstrncpy(vl.plugin, PLUGIN_NAME_SHORT, sizeof(vl.plugin)); + if (g_plugin_instance != NULL) + { + sstrncpy(vl.plugin_instance, g_plugin_instance, + sizeof(vl.plugin_instance)); + } + if (p_type != NULL) + { + sstrncpy(vl.type, p_type, sizeof(vl.type)); + } + if (p_type_inst != NULL) + { + sstrncpy(vl.type_instance, p_type_inst, sizeof(vl.type_instance)); + } + + plugin_dispatch_values(&vl); } -static void chrony_push_data_valid(char *p_type, char *p_type_inst, const int p_is_valid, double p_value) +static void +chrony_push_data_valid(char *p_type, char *p_type_inst, const int p_is_valid, + double p_value) { - /* Push real value if p_is_valid is true, push NAN if p_is_valid is not true (idea from ntp plugin)*/ - if (p_is_valid == 0) - { - p_value = NAN; - } - chrony_push_data(p_type, p_type_inst, p_value); + /* Push real value if p_is_valid is true, push NAN if p_is_valid is not true (idea from ntp plugin) */ + if (p_is_valid == 0) + { + p_value = NAN; + } + chrony_push_data(p_type, p_type_inst, p_value); } -static int chrony_init_seq() +static int +chrony_init_seq() { - /* Initialize the sequence number generator from /dev/urandom */ - - /* Try urandom */ - int fh = open(URAND_DEVICE_PATH, O_RDONLY); - if (fh >= 0) - { - ssize_t rc = read(fh, &g_chrony_rand, sizeof(g_chrony_rand)); - if (rc != sizeof(g_chrony_rand)) - { - ERROR (PLUGIN_NAME ": Reading from random source \'%s\'failed: %s (%d)", URAND_DEVICE_PATH, strerror(errno), errno); - close(fh); - return CHRONY_RC_FAIL; - } - close(fh); - DEBUG(PLUGIN_NAME ": Seeding RNG from " URAND_DEVICE_PATH); - } else { - if (errno == ENOENT) - { - /* URAND_DEVICE_PATH device not found. Try RAND_DEVICE_PATH as fall-back */ - int fh = open(RAND_DEVICE_PATH, O_RDONLY); - if (fh >= 0) - { - ssize_t rc = read(fh, &g_chrony_rand, sizeof(g_chrony_rand)); - if (rc != sizeof(g_chrony_rand)) - { - ERROR (PLUGIN_NAME ": Reading from random source \'%s\'failed: %s (%d)", RAND_DEVICE_PATH, strerror(errno), errno); - close(fh); - return CHRONY_RC_FAIL; - } - close(fh); - DEBUG(PLUGIN_NAME ": Seeding RNG from " RAND_DEVICE_PATH); - } else { - /* Error opening RAND_DEVICE_PATH. Try time(NULL) as fall-back */ - DEBUG(PLUGIN_NAME ": Seeding RNG from time(NULL)"); - g_chrony_rand = time(NULL) ^ getpid(); - } - } else { - ERROR (PLUGIN_NAME ": Opening random source \'%s\' failed: %s (%d)", URAND_DEVICE_PATH, strerror(errno), errno); - return CHRONY_RC_FAIL; - } - } - - - return CHRONY_RC_OK; + /* Initialize the sequence number generator from /dev/urandom */ + /* Fallbacks: /dev/random and time(NULL) */ + + /* Try urandom */ + int fh = open(URAND_DEVICE_PATH, O_RDONLY); + if (fh >= 0) + { + ssize_t rc = read(fh, &g_chrony_rand, sizeof(g_chrony_rand)); + if (rc != sizeof(g_chrony_rand)) + { + ERROR(PLUGIN_NAME ": Reading from random source \'%s\'failed: %s (%d)", + URAND_DEVICE_PATH, strerror(errno), errno); + close(fh); + return CHRONY_RC_FAIL; + } + close(fh); + DEBUG(PLUGIN_NAME ": Seeding RNG from " URAND_DEVICE_PATH); + } else + { + if (errno == ENOENT) + { + /* URAND_DEVICE_PATH device not found. Try RAND_DEVICE_PATH as fall-back */ + int fh = open(RAND_DEVICE_PATH, O_RDONLY); + if (fh >= 0) + { + ssize_t rc = read(fh, &g_chrony_rand, sizeof(g_chrony_rand)); + if (rc != sizeof(g_chrony_rand)) + { + ERROR(PLUGIN_NAME + ": Reading from random source \'%s\'failed: %s (%d)", + RAND_DEVICE_PATH, strerror(errno), errno); + close(fh); + return CHRONY_RC_FAIL; + } + close(fh); + DEBUG(PLUGIN_NAME ": Seeding RNG from " RAND_DEVICE_PATH); + } else + { + /* Error opening RAND_DEVICE_PATH. Try time(NULL) as fall-back */ + DEBUG(PLUGIN_NAME ": Seeding RNG from time(NULL)"); + g_chrony_rand = time(NULL) ^ getpid(); + } + } else + { + ERROR(PLUGIN_NAME ": Opening random source \'%s\' failed: %s (%d)", + URAND_DEVICE_PATH, strerror(errno), errno); + return CHRONY_RC_FAIL; + } + } + + return CHRONY_RC_OK; } + /*****************************************************************************/ /* Exported functions */ /*****************************************************************************/ -static int chrony_config(const char *p_key, const char *p_value) +static int +chrony_config(const char *p_key, const char *p_value) { - assert(p_key); - assert(p_value); - /* Parse config variables */ - if (strcasecmp(p_key, CONFIG_KEY_HOST) == 0) - { - if (g_chrony_host != NULL) - { - free (g_chrony_host); - } - if ((g_chrony_host = strdup (p_value)) == NULL) - { - ERROR (PLUGIN_NAME ": Error duplicating host name"); - return CHRONY_RC_FAIL; - } - } else if (strcasecmp(p_key, CONFIG_KEY_PORT) == 0) - { - if (g_chrony_port != NULL) - { - free (g_chrony_port); - } - if ((g_chrony_port = strdup (p_value)) == NULL) - { - ERROR (PLUGIN_NAME ": Error duplicating port name"); - return CHRONY_RC_FAIL; - } - } else if (strcasecmp(p_key, CONFIG_KEY_TIMEOUT) == 0) - { - time_t tosec = strtol(p_value,NULL,0); - g_chrony_timeout = tosec; - } else { - WARNING(PLUGIN_NAME ": Unknown configuration variable: %s %s",p_key,p_value); - return CHRONY_RC_FAIL; - } - /* XXX: We could set g_plugin_instance here to "g_chrony_host-g_chrony_port", but as multiple instances aren't yet supported, we skip this for now */ - - return CHRONY_RC_OK; + assert(p_key); + assert(p_value); + /* Parse config variables */ + if (strcasecmp(p_key, CONFIG_KEY_HOST) == 0) + { + if (g_chrony_host != NULL) + { + free(g_chrony_host); + } + if ((g_chrony_host = strdup(p_value)) == NULL) + { + ERROR(PLUGIN_NAME ": Error duplicating host name"); + return CHRONY_RC_FAIL; + } + } else if (strcasecmp(p_key, CONFIG_KEY_PORT) == 0) + { + if (g_chrony_port != NULL) + { + free(g_chrony_port); + } + if ((g_chrony_port = strdup(p_value)) == NULL) + { + ERROR(PLUGIN_NAME ": Error duplicating port name"); + return CHRONY_RC_FAIL; + } + } else if (strcasecmp(p_key, CONFIG_KEY_TIMEOUT) == 0) + { + time_t tosec = strtol(p_value, NULL, 0); + g_chrony_timeout = tosec; + } else + { + WARNING(PLUGIN_NAME ": Unknown configuration variable: %s %s", p_key, + p_value); + return CHRONY_RC_FAIL; + } + /* XXX: We could set g_plugin_instance here to "g_chrony_host-g_chrony_port", but as multiple instances aren't yet supported, we skip this for now */ + + return CHRONY_RC_OK; } -static int chrony_request_daemon_stats() +static int +chrony_request_daemon_stats() { - /* Perform Tracking request */ - int rc; - size_t chrony_resp_size; - tChrony_Request chrony_req; - tChrony_Response chrony_resp; - - chrony_init_req(&chrony_req); - rc = chrony_query(REQ_TRACKING, &chrony_req, &chrony_resp, &chrony_resp_size); - if (rc != 0) - { - ERROR (PLUGIN_NAME ": chrony_query (REQ_TRACKING) failed with status %i", rc); - return rc; - } - + /* Perform Tracking request */ + int rc; + size_t chrony_resp_size; + tChrony_Request chrony_req; + tChrony_Response chrony_resp; + + chrony_init_req(&chrony_req); + rc = + chrony_query(REQ_TRACKING, &chrony_req, &chrony_resp, &chrony_resp_size); + if (rc != 0) + { + ERROR(PLUGIN_NAME ": chrony_query (REQ_TRACKING) failed with status %i", + rc); + return rc; + } #if COLLECT_DEBUG - { - char src_addr[IPV6_STR_MAX_SIZE]; - memset(src_addr, 0, sizeof(src_addr)); - niptoha(&chrony_resp.body.tracking.addr, src_addr, sizeof(src_addr)); - DEBUG(PLUGIN_NAME ": Daemon stat: .addr = %s, .ref_id= %u, .stratum = %u, .leap_status = %u, .ref_time = %u:%u:%u, .current_correction = %f, .last_offset = %f, .rms_offset = %f, .freq_ppm = %f, .skew_ppm = %f, .root_delay = %f, .root_dispersion = %f, .last_update_interval = %f", - src_addr, - ntohs(chrony_resp.body.tracking.f_ref_id), //FIXME: 16bit - ntohs(chrony_resp.body.tracking.f_stratum), - ntohs(chrony_resp.body.tracking.f_leap_status), - ntohl(chrony_resp.body.tracking.f_ref_time.tv_sec_high), - ntohl(chrony_resp.body.tracking.f_ref_time.tv_sec_low), - ntohl(chrony_resp.body.tracking.f_ref_time.tv_nsec), - ntohf(chrony_resp.body.tracking.f_current_correction), - ntohf(chrony_resp.body.tracking.f_last_offset), - ntohf(chrony_resp.body.tracking.f_rms_offset), - ntohf(chrony_resp.body.tracking.f_freq_ppm), - ntohf(chrony_resp.body.tracking.f_skew_ppm), - ntohf(chrony_resp.body.tracking.f_root_delay), - ntohf(chrony_resp.body.tracking.f_root_dispersion), - ntohf(chrony_resp.body.tracking.f_last_update_interval) - ); - } + { + char src_addr[IPV6_STR_MAX_SIZE]; + memset(src_addr, 0, sizeof(src_addr)); + niptoha(&chrony_resp.body.tracking.addr, src_addr, sizeof(src_addr)); + DEBUG(PLUGIN_NAME ": Daemon stat: .addr = %s, .ref_id= %u, .stratum = %u, .leap_status = %u, .ref_time = %u:%u:%u, .current_correction = %f, .last_offset = %f, .rms_offset = %f, .freq_ppm = %f, .skew_ppm = %f, .root_delay = %f, .root_dispersion = %f, .last_update_interval = %f", src_addr, ntohs(chrony_resp.body.tracking.f_ref_id), + ntohs(chrony_resp.body.tracking.f_stratum), + ntohs(chrony_resp.body.tracking.f_leap_status), + ntohl(chrony_resp.body.tracking.f_ref_time.tv_sec_high), + ntohl(chrony_resp.body.tracking.f_ref_time.tv_sec_low), + ntohl(chrony_resp.body.tracking.f_ref_time.tv_nsec), + ntohf(chrony_resp.body.tracking.f_current_correction), + ntohf(chrony_resp.body.tracking.f_last_offset), + ntohf(chrony_resp.body.tracking.f_rms_offset), + ntohf(chrony_resp.body.tracking.f_freq_ppm), + ntohf(chrony_resp.body.tracking.f_skew_ppm), + ntohf(chrony_resp.body.tracking.f_root_delay), + ntohf(chrony_resp.body.tracking.f_root_dispersion), + ntohf(chrony_resp.body.tracking.f_last_update_interval)); + } #endif - double time_ref = ntohl(chrony_resp.body.tracking.f_ref_time.tv_nsec); - time_ref /= 1000000000.0; - time_ref += ntohl(chrony_resp.body.tracking.f_ref_time.tv_sec_low); - if (chrony_resp.body.tracking.f_ref_time.tv_sec_high) - { - double secs_high = ntohl(chrony_resp.body.tracking.f_ref_time.tv_sec_high); - secs_high *= 4294967296.0; - time_ref += secs_high; - } - - /* Forward results to collectd-daemon */ - /* Type_instance is always 'chrony' to tag daemon-wide data */ - /* Type Type_instance Value */ - chrony_push_data("clock_stratum", DAEMON_NAME, ntohs(chrony_resp.body.tracking.f_stratum)); - chrony_push_data("time_ref", DAEMON_NAME, time_ref); /* unit: s */ - chrony_push_data("time_offset_ntp", DAEMON_NAME, ntohf(chrony_resp.body.tracking.f_current_correction)); /* Offset between system time and NTP, unit: s */ - chrony_push_data("time_offset", DAEMON_NAME, ntohf(chrony_resp.body.tracking.f_last_offset)); /* Estimated Offset of the NTP time, unit: s */ - chrony_push_data("time_offset_rms", DAEMON_NAME, ntohf(chrony_resp.body.tracking.f_rms_offset)); /* averaged value of the above, unit: s */ - chrony_push_data("frequency_error", DAEMON_NAME, ntohf(chrony_resp.body.tracking.f_freq_ppm)); /* Frequency error of the local osc, unit: ppm */ - chrony_push_data("clock_skew_ppm", DAEMON_NAME, ntohf(chrony_resp.body.tracking.f_skew_ppm)); - chrony_push_data("root_delay", DAEMON_NAME, ntohf(chrony_resp.body.tracking.f_root_delay)); /* Network latency between local daemon and the current source */ - chrony_push_data("root_dispersion", DAEMON_NAME, ntohf(chrony_resp.body.tracking.f_root_dispersion)); - chrony_push_data("clock_last_update",DAEMON_NAME, ntohf(chrony_resp.body.tracking.f_last_update_interval)); - - return CHRONY_RC_OK; + double time_ref = ntohl(chrony_resp.body.tracking.f_ref_time.tv_nsec); + time_ref /= 1000000000.0; + time_ref += ntohl(chrony_resp.body.tracking.f_ref_time.tv_sec_low); + if (chrony_resp.body.tracking.f_ref_time.tv_sec_high) + { + double secs_high = + ntohl(chrony_resp.body.tracking.f_ref_time.tv_sec_high); + secs_high *= 4294967296.0; + time_ref += secs_high; + } + + /* Forward results to collectd-daemon */ + /* Type_instance is always 'chrony' to tag daemon-wide data */ + /* Type Type_instan Value */ + chrony_push_data("clock_stratum", DAEMON_NAME, ntohs(chrony_resp.body.tracking.f_stratum)); + chrony_push_data("time_ref", DAEMON_NAME, time_ref); /* unit: s */ + chrony_push_data("time_offset_ntp", DAEMON_NAME, ntohf(chrony_resp.body.tracking.f_current_correction)); /* Offset between system time and NTP, unit: s */ + chrony_push_data("time_offset", DAEMON_NAME, ntohf(chrony_resp.body.tracking.f_last_offset)); /* Estimated Offset of the NTP time, unit: s */ + chrony_push_data("time_offset_rms", DAEMON_NAME, ntohf(chrony_resp.body.tracking.f_rms_offset)); /* averaged value of the above, unit: s */ + chrony_push_data("frequency_error", DAEMON_NAME, ntohf(chrony_resp.body.tracking.f_freq_ppm)); /* Frequency error of the local osc, unit: ppm */ + chrony_push_data("clock_skew_ppm", DAEMON_NAME, ntohf(chrony_resp.body.tracking.f_skew_ppm)); + chrony_push_data("root_delay", DAEMON_NAME, ntohf(chrony_resp.body.tracking.f_root_delay)); /* Network latency between local daemon and the current source */ + chrony_push_data("root_dispersion", DAEMON_NAME, ntohf(chrony_resp.body.tracking.f_root_dispersion)); + chrony_push_data("clock_last_update", DAEMON_NAME, ntohf(chrony_resp.body.tracking.f_last_update_interval)); + + return CHRONY_RC_OK; } -static int chrony_request_sources_count(unsigned int *p_count) +static int +chrony_request_sources_count(unsigned int *p_count) { - /* Requests the number of time sources from the chrony daemon */ - int rc; - size_t chrony_resp_size; - tChrony_Request chrony_req; - tChrony_Response chrony_resp; - - DEBUG(PLUGIN_NAME ": Requesting data"); - chrony_init_req(&chrony_req); - rc = chrony_query (REQ_N_SOURCES, &chrony_req, &chrony_resp, &chrony_resp_size); - if (rc != 0) - { - ERROR (PLUGIN_NAME ": chrony_query (REQ_N_SOURCES) failed with status %i", rc); - return rc; - } - - *p_count = ntohl(chrony_resp.body.n_sources.f_n_sources); - DEBUG(PLUGIN_NAME ": Getting data of %d clock sources", *p_count); - - return CHRONY_RC_OK; + /* Requests the number of time sources from the chrony daemon */ + int rc; + size_t chrony_resp_size; + tChrony_Request chrony_req; + tChrony_Response chrony_resp; + + DEBUG(PLUGIN_NAME ": Requesting data"); + chrony_init_req(&chrony_req); + rc = + chrony_query(REQ_N_SOURCES, &chrony_req, &chrony_resp, &chrony_resp_size); + if (rc != 0) + { + ERROR(PLUGIN_NAME ": chrony_query (REQ_N_SOURCES) failed with status %i", + rc); + return rc; + } + + *p_count = ntohl(chrony_resp.body.n_sources.f_n_sources); + DEBUG(PLUGIN_NAME ": Getting data of %d clock sources", *p_count); + + return CHRONY_RC_OK; } -static int chrony_request_source_data(int p_src_idx, int *p_is_reachable) +static int +chrony_request_source_data(int p_src_idx, int *p_is_reachable) { - /* Perform Source data request for source #p_src_idx*/ - int rc; - size_t chrony_resp_size; - tChrony_Request chrony_req; - tChrony_Response chrony_resp; - - char src_addr[IPV6_STR_MAX_SIZE]; - memset(src_addr, 0, sizeof(src_addr)); - - chrony_init_req(&chrony_req); - chrony_req.body.source_data.f_index = htonl(p_src_idx); - rc = chrony_query(REQ_SOURCE_DATA, &chrony_req, &chrony_resp, &chrony_resp_size); - if (rc != 0) - { - ERROR (PLUGIN_NAME ": chrony_query (REQ_SOURCE_DATA) failed with status %i", rc); - return rc; - } - - niptoha(&chrony_resp.body.source_data.addr, src_addr, sizeof(src_addr)); - DEBUG(PLUGIN_NAME ": Source[%d] data: .addr = %s, .poll = %u, .stratum = %u, .state = %u, .mode = %u, .flags = %u, .reach = %u, .latest_meas_ago = %u, .orig_latest_meas = %f, .latest_meas = %f, .latest_meas_err = %f", - p_src_idx, - src_addr, - ntohs(chrony_resp.body.source_data.f_poll), - ntohs(chrony_resp.body.source_data.f_stratum), - ntohs(chrony_resp.body.source_data.f_state), - ntohs(chrony_resp.body.source_data.f_mode), - ntohs(chrony_resp.body.source_data.f_flags), - ntohs(chrony_resp.body.source_data.f_reachability), - ntohl(chrony_resp.body.source_data.f_since_sample), - ntohf(chrony_resp.body.source_data.f_origin_latest_meas), - ntohf(chrony_resp.body.source_data.f_latest_meas), - ntohf(chrony_resp.body.source_data.f_latest_meas_err) - ); - - /* Push NaN if source is currently not reachable */ - int is_reachable = ntohs(chrony_resp.body.source_data.f_reachability) & 0x01; - *p_is_reachable = is_reachable; - - /* Forward results to collectd-daemon */ - chrony_push_data_valid("clock_stratum", src_addr, is_reachable, ntohs(chrony_resp.body.source_data.f_stratum)); - chrony_push_data_valid("clock_state", src_addr, is_reachable, ntohs(chrony_resp.body.source_data.f_state)); - chrony_push_data_valid("clock_mode", src_addr, is_reachable, ntohs(chrony_resp.body.source_data.f_mode)); - chrony_push_data_valid("clock_reachability",src_addr, is_reachable, ntohs(chrony_resp.body.source_data.f_reachability)); - chrony_push_data_valid("clock_last_meas", src_addr, is_reachable, ntohs(chrony_resp.body.source_data.f_since_sample)); - - return CHRONY_RC_OK; + /* Perform Source data request for source #p_src_idx */ + int rc; + size_t chrony_resp_size; + tChrony_Request chrony_req; + tChrony_Response chrony_resp; + + char src_addr[IPV6_STR_MAX_SIZE]; + memset(src_addr, 0, sizeof(src_addr)); + + chrony_init_req(&chrony_req); + chrony_req.body.source_data.f_index = htonl(p_src_idx); + rc = + chrony_query(REQ_SOURCE_DATA, &chrony_req, &chrony_resp, + &chrony_resp_size); + if (rc != 0) + { + ERROR(PLUGIN_NAME + ": chrony_query (REQ_SOURCE_DATA) failed with status %i", rc); + return rc; + } + + niptoha(&chrony_resp.body.source_data.addr, src_addr, sizeof(src_addr)); + DEBUG(PLUGIN_NAME + ": Source[%d] data: .addr = %s, .poll = %u, .stratum = %u, .state = %u, .mode = %u, .flags = %u, .reach = %u, .latest_meas_ago = %u, .orig_latest_meas = %f, .latest_meas = %f, .latest_meas_err = %f", + p_src_idx, src_addr, ntohs(chrony_resp.body.source_data.f_poll), + ntohs(chrony_resp.body.source_data.f_stratum), + ntohs(chrony_resp.body.source_data.f_state), + ntohs(chrony_resp.body.source_data.f_mode), + ntohs(chrony_resp.body.source_data.f_flags), + ntohs(chrony_resp.body.source_data.f_reachability), + ntohl(chrony_resp.body.source_data.f_since_sample), + ntohf(chrony_resp.body.source_data.f_origin_latest_meas), + ntohf(chrony_resp.body.source_data.f_latest_meas), + ntohf(chrony_resp.body.source_data.f_latest_meas_err)); + + /* Push NaN if source is currently not reachable */ + int is_reachable = + ntohs(chrony_resp.body.source_data.f_reachability) & 0x01; + *p_is_reachable = is_reachable; + + /* Forward results to collectd-daemon */ + chrony_push_data_valid("clock_stratum", src_addr, is_reachable, + ntohs(chrony_resp.body.source_data.f_stratum)); + chrony_push_data_valid("clock_state", src_addr, is_reachable, + ntohs(chrony_resp.body.source_data.f_state)); + chrony_push_data_valid("clock_mode", src_addr, is_reachable, + ntohs(chrony_resp.body.source_data.f_mode)); + chrony_push_data_valid("clock_reachability", src_addr, is_reachable, + ntohs(chrony_resp.body.source_data.f_reachability)); + chrony_push_data_valid("clock_last_meas", src_addr, is_reachable, + ntohs(chrony_resp.body.source_data.f_since_sample)); + + return CHRONY_RC_OK; } -static int chrony_request_source_stats(int p_src_idx, const int *p_is_reachable) +static int +chrony_request_source_stats(int p_src_idx, const int *p_is_reachable) { - /* Perform Source stats request for source #p_src_idx */ - int rc; - size_t chrony_resp_size; - tChrony_Request chrony_req; - tChrony_Response chrony_resp; - double skew_ppm, frequency_error, time_offset; - - char src_addr[IPV6_STR_MAX_SIZE]; - memset(src_addr, 0, sizeof(src_addr)); - - if (*p_is_reachable == 0) - { - skew_ppm = 0; - frequency_error = 0; - time_offset = 0; - } else { - chrony_init_req(&chrony_req); - chrony_req.body.source_stats.f_index = htonl(p_src_idx); - rc = chrony_query(REQ_SOURCE_STATS, &chrony_req, &chrony_resp, &chrony_resp_size); - if (rc != 0) - { - ERROR (PLUGIN_NAME ": chrony_query (REQ_SOURCE_STATS) failed with status %i", rc); - return rc; - } - - skew_ppm = ntohf(chrony_resp.body.source_stats.f_skew_ppm); - frequency_error = ntohf(chrony_resp.body.source_stats.f_rtc_gain_rate_ppm); - time_offset = ntohf(chrony_resp.body.source_stats.f_est_offset); - - niptoha(&chrony_resp.body.source_stats.addr, src_addr, sizeof(src_addr)); - DEBUG(PLUGIN_NAME ": Source[%d] stat: .addr = %s, .ref_id= %u, .n_samples = %u, " \ - ".n_runs = %u, .span_seconds = %u, .rtc_seconds_fast = %f, " \ - ".rtc_gain_rate_ppm = %f, .skew_ppm= %f, .est_offset = %f, .est_offset_err = %f", - p_src_idx, - src_addr, - ntohl(chrony_resp.body.source_stats.f_ref_id), - ntohl(chrony_resp.body.source_stats.f_n_samples), - ntohl(chrony_resp.body.source_stats.f_n_runs), - ntohl(chrony_resp.body.source_stats.f_span_seconds), - ntohf(chrony_resp.body.source_stats.f_rtc_seconds_fast), - frequency_error, - skew_ppm, - time_offset, - ntohf(chrony_resp.body.source_stats.f_est_offset_err) - ); - - } //if (*is_reachable) - - /* Forward results to collectd-daemon */ - chrony_push_data_valid("clock_skew_ppm", src_addr, *p_is_reachable, skew_ppm); - chrony_push_data_valid("frequency_error", src_addr, *p_is_reachable, frequency_error); /* unit: ppm */ - chrony_push_data_valid("time_offset", src_addr, *p_is_reachable, time_offset); /* unit: s */ - - return CHRONY_RC_OK; + /* Perform Source stats request for source #p_src_idx */ + int rc; + size_t chrony_resp_size; + tChrony_Request chrony_req; + tChrony_Response chrony_resp; + double skew_ppm, frequency_error, time_offset; + + char src_addr[IPV6_STR_MAX_SIZE]; + memset(src_addr, 0, sizeof(src_addr)); + + if (*p_is_reachable == 0) + { + skew_ppm = 0; + frequency_error = 0; + time_offset = 0; + } else + { + chrony_init_req(&chrony_req); + chrony_req.body.source_stats.f_index = htonl(p_src_idx); + rc = + chrony_query(REQ_SOURCE_STATS, &chrony_req, &chrony_resp, + &chrony_resp_size); + if (rc != 0) + { + ERROR(PLUGIN_NAME + ": chrony_query (REQ_SOURCE_STATS) failed with status %i", rc); + return rc; + } + + skew_ppm = ntohf(chrony_resp.body.source_stats.f_skew_ppm); + frequency_error = + ntohf(chrony_resp.body.source_stats.f_rtc_gain_rate_ppm); + time_offset = ntohf(chrony_resp.body.source_stats.f_est_offset); + + niptoha(&chrony_resp.body.source_stats.addr, src_addr, sizeof(src_addr)); + DEBUG(PLUGIN_NAME + ": Source[%d] stat: .addr = %s, .ref_id= %u, .n_samples = %u, " + ".n_runs = %u, .span_seconds = %u, .rtc_seconds_fast = %f, " + ".rtc_gain_rate_ppm = %f, .skew_ppm= %f, .est_offset = %f, .est_offset_err = %f", + p_src_idx, src_addr, + ntohl(chrony_resp.body.source_stats.f_ref_id), + ntohl(chrony_resp.body.source_stats.f_n_samples), + ntohl(chrony_resp.body.source_stats.f_n_runs), + ntohl(chrony_resp.body.source_stats.f_span_seconds), + ntohf(chrony_resp.body.source_stats.f_rtc_seconds_fast), + frequency_error, skew_ppm, time_offset, + ntohf(chrony_resp.body.source_stats.f_est_offset_err)); + + } /* if (*is_reachable) */ + + /* Forward results to collectd-daemon */ + chrony_push_data_valid("clock_skew_ppm", src_addr, *p_is_reachable, + skew_ppm); + chrony_push_data_valid("frequency_error", src_addr, *p_is_reachable, frequency_error); /* unit: ppm */ + chrony_push_data_valid("time_offset", src_addr, *p_is_reachable, time_offset); /* unit: s */ + + return CHRONY_RC_OK; } -static int chrony_read() + +static int +chrony_read() { - /* collectd read callback: Perform data acquisition */ - int rc; - unsigned int now_src, n_sources; - - if (g_chrony_seq_is_initialized == 0) - { - /* Seed RNG for sequence number generation */ - rc = chrony_init_seq(); - if (rc != CHRONY_RC_OK) - { - return rc; - } - g_chrony_seq_is_initialized = 1; - } - - /* Get daemon stats */ - rc = chrony_request_daemon_stats(); - if (rc != CHRONY_RC_OK) - { - return rc; - } - - /* Get number of time sources, then check every source for status */ - rc = chrony_request_sources_count(&n_sources); - if (rc != CHRONY_RC_OK) - { - return rc; - } - - for (now_src = 0; now_src < n_sources; ++now_src) - { - int is_reachable; - rc = chrony_request_source_data(now_src, &is_reachable); - if (rc != CHRONY_RC_OK) - { - return rc; - } - - rc = chrony_request_source_stats(now_src, &is_reachable); - if (rc != CHRONY_RC_OK) - { - return rc; - } - } - return CHRONY_RC_OK; + /* collectd read callback: Perform data acquisition */ + int rc; + unsigned int now_src, n_sources; + + if (g_chrony_seq_is_initialized == 0) + { + /* Seed RNG for sequence number generation */ + rc = chrony_init_seq(); + if (rc != CHRONY_RC_OK) + { + return rc; + } + g_chrony_seq_is_initialized = 1; + } + + /* Get daemon stats */ + rc = chrony_request_daemon_stats(); + if (rc != CHRONY_RC_OK) + { + return rc; + } + + /* Get number of time sources, then check every source for status */ + rc = chrony_request_sources_count(&n_sources); + if (rc != CHRONY_RC_OK) + { + return rc; + } + + for (now_src = 0; now_src < n_sources; ++now_src) + { + int is_reachable; + rc = chrony_request_source_data(now_src, &is_reachable); + if (rc != CHRONY_RC_OK) + { + return rc; + } + + rc = chrony_request_source_stats(now_src, &is_reachable); + if (rc != CHRONY_RC_OK) + { + return rc; + } + } + return CHRONY_RC_OK; } -static int chrony_shutdown() +static int +chrony_shutdown() { - /* Collectd shutdown callback: Free mem */ - if (g_is_connected != 0) - { - close(g_chrony_socket); - g_is_connected = 0; - } - if (g_chrony_host != NULL) - { - free (g_chrony_host); - g_chrony_host = NULL; - } - if (g_chrony_port != NULL) - { - free (g_chrony_port); - g_chrony_port = NULL; - } - if (g_plugin_instance != NULL) - { - free (g_plugin_instance); - g_plugin_instance = NULL; - } - return CHRONY_RC_OK; + /* Collectd shutdown callback: Free mem */ + if (g_is_connected != 0) + { + close(g_chrony_socket); + g_is_connected = 0; + } + if (g_chrony_host != NULL) + { + free(g_chrony_host); + g_chrony_host = NULL; + } + if (g_chrony_port != NULL) + { + free(g_chrony_port); + g_chrony_port = NULL; + } + if (g_plugin_instance != NULL) + { + free(g_plugin_instance); + g_plugin_instance = NULL; + } + return CHRONY_RC_OK; } -void module_register (void) +void +module_register(void) { - plugin_register_config( PLUGIN_NAME_SHORT, chrony_config, g_config_keys, g_config_keys_num); - plugin_register_read( PLUGIN_NAME_SHORT, chrony_read); - plugin_register_shutdown(PLUGIN_NAME_SHORT, chrony_shutdown); + plugin_register_config(PLUGIN_NAME_SHORT, chrony_config, g_config_keys, + g_config_keys_num); + plugin_register_read(PLUGIN_NAME_SHORT, chrony_read); + plugin_register_shutdown(PLUGIN_NAME_SHORT, chrony_shutdown); } -