chrony: use time_offset type for last measured offset

The last measured offset from the source report should be more useful
for monitoring than the current estimated offset from the sourcestats
report.

diff --git a/src/chrony.c b/src/chrony.c
index a4dd59f..988fc3b 100644 (file)
--- a/src/chrony.c
+++ b/src/chrony.c
@@ -892,6 +892,8 @@ static int chrony_request_source_data(int p_src_idx, char *src_addr,
                          ntohs(chrony_resp.body.source_data.f_reachability));
   chrony_push_data_valid("clock_last_meas", src_addr, is_reachable,
                          ntohl(chrony_resp.body.source_data.f_since_sample));
+  chrony_push_data_valid("time_offset", src_addr, is_reachable,
+                  ntohf(chrony_resp.body.source_data.f_origin_latest_meas));
 
   return CHRONY_RC_OK;
 }
@@ -903,12 +905,11 @@ static int chrony_request_source_stats(int p_src_idx, const char *src_addr,
   size_t chrony_resp_size;
   tChrony_Request chrony_req;
   tChrony_Response chrony_resp;
-  double skew_ppm, frequency_error, time_offset;
+  double skew_ppm, frequency_error;
 
   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);
@@ -923,7 +924,6 @@ static int chrony_request_source_stats(int p_src_idx, const char *src_addr,
 
     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);
 
     DEBUG(PLUGIN_NAME
           ": Source[%d] stat: .addr = %s, .ref_id= %u, .n_samples = %u, "
@@ -935,7 +935,8 @@ static int chrony_request_source_stats(int p_src_idx, const char *src_addr,
           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,
+          frequency_error, skew_ppm,
+          ntohf(chrony_resp.body.source_stats.f_est_offset),
           ntohf(chrony_resp.body.source_stats.f_est_offset_err));
 
   } /* if (*is_reachable) */
@@ -944,8 +945,6 @@ static int chrony_request_source_stats(int p_src_idx, const char *src_addr,
   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;
 }