Le 2020-10-01 11:33, Oliver R. a ?crit?:
I've tested even more combinations trying to escape the asterisk with no success:
SPLITNCV_nvme="temperature:GAUGE" SPLITNCV_nvme="*temperature:GAUGE" SPLITNCV_nvme="*temperature*:GAUGE" SPLITNCV_nvme="\*temperature:GAUGE" SPLITNCV_nvme="@RRDIDX at _temperature:GAUGE" SPLITNCV_nvme="p at RRDIDX@_temperature:GAUGE" SPLITNCV_nvme=".*temperature:GAUGE" SPLITNCV_nvme="%.*temperature:GAUGE" SPLITNCV_nvme="(.*)temperature:GAUGE" SPLITNCV_nvme="\.\*temperature:GAUGE" SPLITNCV_nvme="\\*temperature:GAUGE" SPLITNCV_nvme="\\\*temperature:GAUGE" SPLITNCV_nvme="\\\\*temperature:GAUGE" SPLITNCV_nvme="\\\\\*temperature:GAUGE" SPLITNCV_nvme="\\\\\\*temperature:GAUGE" SPLITNCV_nvme="\\\\\\\\*temperature:GAUGE" SPLITNCV_nvme="\\.\\*temperature:GAUGE"
On the xymon side I think this information above is processed in "do_ncv.c", but I still could not find, where the string above gets parsed.
Any help is appreciated.
Regards
Oliver
Am 29.09.20 um 16:24 schrieb Oliver R.:
Dear All,
I have a custom test that reports data from nvme disks from the command:
nvme smart-log /dev/nvme2n1 -o json
The output is processed so that the client reports the following to the server:
S3ESNX0J951626N-critical_warning : 0 S3ESNX0J951626N-temperature : 318 S3ESNX0J951626N-avail_spare : 100 S3ESNX0J951626N-spare_thresh : 10 S3ESNX0J951626N-percent_used : 92 S3ESNX0J951626N-data_units_read : 27832088 S3ESNX0J951626N-data_units_written : 93877408 S3ESNX0J951626N-host_read_commands : 180442558 S3ESNX0J951626N-host_write_commands : 916278700 S3ESNX0J951626N-controller_busy_time : 4028 S3ESNX0J951626N-power_cycles : 218 S3ESNX0J951626N-power_on_hours : 2995 S3ESNX0J951626N-unsafe_shutdowns : 86 S3ESNX0J951626N-media_errors : 0 S3ESNX0J951626N-num_err_log_entries : 0 S3ESNX0J951626N-warning_temp_time : 0 S3ESNX0J951626N-critical_comp_time : 0 S3ESNX0J951626N-temperature_sensor_1 : 318 S3ESNX0J951626N-temperature_sensor_2 : 323 S3ESNX0J951626N-thm_temp1_trans_count : 0 S3ESNX0J951626N-thm_temp2_trans_count : 0 S3ESNX0J951626N-thm_temp1_total_time : 0 S3ESNX0J951626N-thm_temp2_total_time : 0 2J4520102682-critical_warning : 0 2J4520102682-temperature : 314 2J4520102682-avail_spare : 100 2J4520102682-spare_thresh : 32 2J4520102682-percent_used : 2 2J4520102682-data_units_read : 9450966 2J4520102682-data_units_written : 24105094 2J4520102682-host_read_commands : 137338588 2J4520102682-host_write_commands : 284702582 2J4520102682-controller_busy_time : 0 2J4520102682-power_cycles : 46 2J4520102682-power_on_hours : 1107 2J4520102682-unsafe_shutdowns : 10 2J4520102682-media_errors : 0 2J4520102682-num_err_log_entries : 0 2J4520102682-warning_temp_time : 0 2J4520102682-critical_comp_time : 0 2J4520102682-thm_temp1_trans_count : 0 2J4520102682-thm_temp2_trans_count : 0 2J4520102682-thm_temp1_total_time : 0 2J4520102682-thm_temp2_total_time : 0 S3ESNX0J951635M-critical_warning : 0 S3ESNX0J951635M-temperature : 310 S3ESNX0J951635M-avail_spare : 100 S3ESNX0J951635M-spare_thresh : 10 S3ESNX0J951635M-percent_used : 92 S3ESNX0J951635M-data_units_read : 32693378 S3ESNX0J951635M-data_units_written : 95742837 S3ESNX0J951635M-host_read_commands : 213266959 S3ESNX0J951635M-host_write_commands : 918085461 S3ESNX0J951635M-controller_busy_time : 4280 S3ESNX0J951635M-power_cycles : 218 S3ESNX0J951635M-power_on_hours : 3072 S3ESNX0J951635M-unsafe_shutdowns : 86 S3ESNX0J951635M-media_errors : 0 S3ESNX0J951635M-num_err_log_entries : 1 S3ESNX0J951635M-warning_temp_time : 0 S3ESNX0J951635M-critical_comp_time : 0 S3ESNX0J951635M-temperature_sensor_1 : 310 S3ESNX0J951635M-temperature_sensor_2 : 320 S3ESNX0J951635M-thm_temp1_trans_count : 0 S3ESNX0J951635M-thm_temp2_trans_count : 0 S3ESNX0J951635M-thm_temp1_total_time : 0 S3ESNX0J951635M-thm_temp2_total_time : 0
As you can see, there are three disks, that have the same metrics with different values. Now I started with a xymonserver.d/nvme.cfg looking like this:
TEST2RRD="$TEST2RRD,nvme=ncv" SPLITNCV_nvme="*:GAUGE" GRAPHS_nvme="nvmecriticalwarning,nvmetemperature,nvmeavailspare,nvmesparethresh,nvmepercentused,nvmedataunitsread,nvmedataunitswritten,nvmehostreadcommands,nvmehostwritecommands,nvmecontrollerbusytime,nvmepowercycles,nvmepoweronhours,nvmeunsafeshutdowns,nvmemediaerrors,nvmenumerrlogentries,nvmewarningtemptime,nvmecriticalcomptime,nvmetemperaturesensor1,nvmetemperaturesensor2,nvmethmtemp1transcount,nvmethmtemp2transcount,nvmethmtemp1totaltime,nvmethmtemp2totaltime"
This causes all rrd files beeing created correctly like this:
$ ls -1 /var/lib/xymon/rrd/wsrbreb/nvme*temperature.rrd /var/lib/xymon/rrd/wsrbreb/nvme,2J4520102682_temperature.rrd /var/lib/xymon/rrd/wsrbreb/nvme,S3ESNX0J951626N_temperature.rrd /var/lib/xymon/rrd/wsrbreb/nvme,S3ESNX0J951635M_temperature.rrd
Unfortunately all datasets are now saved as datatype "GAUGE", but most need to have "DERIVE", but I cannot figure out how to do this. Here is what I've tried:
SPLITNCV_nvme="temperture:GAUGE" SPLITNCV_nvme="*temperture:GAUGE" SPLITNCV_nvme=".*temperture:GAUGE" SPLITNCV_nvme="%.*temperture:GAUGE"
One thing that does work is the following:
SPLITNCV_nvme="S3ESNX0J951626N_temperature:GAUGE"
But as you can see it requieres the name of the SSD, which cancels out all dynamics.
How can I work with wildcards in SPLITNCV scenarios?
Thank you for your help!
Regards
Xymon mailing list Xymon at xymon.com http://lists.xymon.com/mailman/listinfo/xymon
Hello Oliver,
On my side, I'm using the following entry: SPLITNCV_postfix="*:GAUGE"
This config creates the following files: postfix,Corrupt_Mails.rrd postfix,Mails_active.rrd postfix,Mails_in_deferred_State.rrd postfix,Incoming_Mails.rrd postfix,Mails_bouncing.rrd
In a general manner, the SPLITNCV will create files based on test name (1st param), item name (2nd param) whith the following name structure: $test$,$item$.rrd
Then you can work dynamically from these values.