Code

Fixed indentation to match collectd's coding style
authorClaudius Zingerli <gitmail@zeuz.ch>
Fri, 29 Apr 2016 13:52:53 +0000 (15:52 +0200)
committerClaudius Zingerli <gitmail@zeuz.ch>
Fri, 29 Apr 2016 15:37:49 +0000 (17:37 +0200)
src/chrony.c

index fbcc5797c1f2d719a9985be2b335aa073a572bf7..2bfb806878727b83bb7dbbee6d6c0e53f18b0e57 100644 (file)
@@ -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 <sys/types.h> /* getaddrinfo */
+#  include <sys/types.h>        /* getaddrinfo */
 #endif
 #if HAVE_SYS_SOCKET_H
 #  include <sys/socket.h>
 #  include <netdb.h>
 #endif
 #if HAVE_ARPA_INET_H
-#  include <arpa/inet.h> /* ntohs/ntohl */
+#  include <arpa/inet.h>        /* 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);
 }
-