Fritzbox Cable Docsis Parameter auslesen: Unterschied zwischen den Versionen
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Kleines Shellscript um von einer Fritzbox Cable | Kleines Shellscript um von einer AVM Fritzbox Cable mit FritzOS 7.20 die Kabel-Informationen (DOCSIS 3.0) auszulesen und in eine Influxdb zu speichern. | ||
Zur Anzeige der Monitoring-Daten in der InfluxxDB verwende ich Grafana. | |||
Hier ist mein [[Cable_Ping_Dashboard | Grafana Dashboard]] inklusive Ping Packet Loss als JSON Export. | |||
[[Datei:CablePingDashboard.jpg|mini|Cable Ping Status Dashboard]] | |||
Skript für InfluxDB '''V2.x''': | |||
Usage: fritz_docsis_2_influx_lines.sh | influx write -b cable6490 | |||
<pre> | |||
#!/bin/bash | |||
# | |||
# fritz_docsis_influx_lines.sh | |||
# | |||
# read DOCSIS informations from Fritzbox Cable Routers | |||
# and write these infos in a format that can be | |||
# written into an influx database | |||
# | |||
# example: fritz_docsis_influx_lines.sh | influx write -b <bucket> | |||
# --------------------------------------------- | |||
# please define your settings for your fritzbox | |||
# --------------------------------------------- | |||
fritzbox=192.168.178.1 | |||
user='<admin>' | |||
pass='<password>' | |||
# | |||
# nothing to be changed from here | |||
# | |||
# -------------------- | |||
# cache Login with SID | |||
# -------------------- | |||
sidfile=/run/shm/$fritzbox.sid | |||
[ ! -f $sidfile ] && echo "0000000000000000" > $sidfile | |||
sid=$(cat $sidfile) | |||
# -------------------- | |||
# check Login with SID | |||
# -------------------- | |||
result=$(curl -s "http://$fritzbox/login_sid.lua?sid=$sid" | grep -c "0000000000000000") | |||
if [ $result -gt 0 -o "$sid" = "0000000000000000" ]; then | |||
challenge=$(curl -s http://$fritzbox/login_sid.lua | grep -o "<Challenge>.*</Challenge>" | sed 's,</*Challenge>,,g') | |||
hash=$(echo -n "$challenge-$pass" | sed -e 's,.,&\n,g' | tr '\n' '\0' | md5sum | grep -o "[0-9a-z]\{32\}") | |||
curl -s "http://$fritzbox/login_sid.lua" -d "response=$challenge-$hash" -d 'username='${user} | grep -o "<SID>[a-z0-9]\{16\}" | cut -d'>' -f 2 > $sidfile | |||
fi | |||
sid=$(cat $sidfile) | |||
# -------------------------------- | |||
# read DOCSIS-Infos (page=docInfo) | |||
# -------------------------------- | |||
docsis=$(curl -s "http://$fritzbox/data.lua" -d "xhr=1&sid=$sid&lang=de&page=docInfo&xhrId=all&no_sidrenew") | |||
# check docsis version 3.0 or 3.1 | |||
docsis_version=docsis30 | |||
if [ "_"$(echo ${docsis} | jq -r ".data.channelUs.${docsis_version}[0].powerLevel") = "_null" ]; then | |||
docsis_version=docsis31 | |||
fi | |||
# AVM may change the modulation entry from 'type' to 'modulation' in later OS version | |||
if [ "_"$(echo ${docsis} | jq -r ".data.channelUs.${docsis_version}[0].type") = "_null" ]; then | |||
qam="modulation" | |||
else | |||
qam="type" | |||
fi | |||
# get nr. of up-/downstream channels | |||
channelUs=$(echo ${docsis} | jq ".data.channelUs.${docsis_version}[].powerLevel" | wc -l) | |||
channelDs=$(echo ${docsis} | jq ".data.channelDs.${docsis_version}[].powerLevel" | wc -l) | |||
#{"powerLevel":"40.0","modulation":"64QAM","multiplex":"ATDMA","channelID":2,"frequency":"41.800"} | |||
# read upstream channels | |||
for (( c=0; c<$channelUs; c++ )); do | |||
channelID[$c]=$(echo ${docsis} | jq -r ".data.channelUs.${docsis_version}[$c].channelID") | |||
modulation[$c]=$(echo ${docsis} | jq -r ".data.channelUs.${docsis_version}[$c].$qam" | sed 's/[^0-9.]//g') | |||
powerLevel[$c]=$(echo ${docsis} | jq -r ".data.channelUs.${docsis_version}[$c].powerLevel") | |||
frequency[$c]=$(echo ${docsis} | jq -r ".data.channelUs.${docsis_version}[$c].frequency") | |||
multiplex[$c]=$(echo ${docsis} | jq -r ".data.channelUs.${docsis_version}[$c].multiplex") | |||
echo "docsis,mode=up,channel=${channelID[$c]} Modulation=${modulation[$c]}" | |||
echo "docsis,mode=up,channel=${channelID[$c]} PowerLevel=${powerLevel[$c]}" | |||
echo "docsis,mode=up,channel=${channelID[$c]} Frequenz=${frequency[$c]}" | |||
done | |||
#{"powerLevel":"-0.2","nonCorrErrors":0,"modulation":"256QAM","corrErrors":16,"latency":0.32,"mse":"-38.6","channelID":5,"frequency":"186.000"} | |||
# read downstream channels | |||
for (( c=0; c<$channelDs; c++ )); do | |||
channelID[$c]=$(echo ${docsis} | jq -r ".data.channelDs.${docsis_version}[$c].channelID") | |||
modulation[$c]=$(echo ${docsis} | jq -r ".data.channelDs.${docsis_version}[$c].$qam" | sed 's/[^0-9.]//g') | |||
powerLevel[$c]=$(echo ${docsis} | jq -r ".data.channelDs.${docsis_version}[$c].powerLevel") | |||
frequency[$c]=$(echo ${docsis} | jq -r ".data.channelDs.${docsis_version}[$c].frequency") | |||
latency[$c]=$(echo ${docsis} | jq -r ".data.channelDs.${docsis_version}[$c].latency") | |||
corrErrors[$c]=$(echo ${docsis} | jq -r ".data.channelDs.${docsis_version}[$c].corrErrors") | |||
nonCorrErrors[$c]=$(echo ${docsis} | jq -r ".data.channelDs.${docsis_version}[$c].nonCorrErrors") | |||
mse[$c]=$(echo ${docsis} | jq -r ".data.channelDs.${docsis_version}[$c].mse") | |||
echo "docsis,mode=down,channel=${channelID[$c]} Modulation=${modulation[$c]}" | |||
echo "docsis,mode=down,channel=${channelID[$c]} PowerLevel=${powerLevel[$c]}" | |||
echo "docsis,mode=down,channel=${channelID[$c]} Frequenz=${frequency[$c]}" | |||
echo "docsis,mode=down,channel=${channelID[$c]} Latenz=${latency[$c]}" | |||
echo "docsis,mode=down,channel=${channelID[$c]} korrFehler=${corrErrors[$c]}" | |||
echo "docsis,mode=down,channel=${channelID[$c]} Fehler=${nonCorrErrors[$c]}" | |||
echo "docsis,mode=down,channel=${channelID[$c]} MSE=${mse[$c]}" | |||
done | |||
</pre> | |||
Skript für InfluxDB '''V1.6''': | |||
<pre>#!/bin/bash | <pre>#!/bin/bash | ||
Aktuelle Version vom 26. April 2023, 15:56 Uhr
Kleines Shellscript um von einer AVM Fritzbox Cable mit FritzOS 7.20 die Kabel-Informationen (DOCSIS 3.0) auszulesen und in eine Influxdb zu speichern.
Zur Anzeige der Monitoring-Daten in der InfluxxDB verwende ich Grafana. Hier ist mein Grafana Dashboard inklusive Ping Packet Loss als JSON Export.
Skript für InfluxDB V2.x: Usage: fritz_docsis_2_influx_lines.sh | influx write -b cable6490
#!/bin/bash # # fritz_docsis_influx_lines.sh # # read DOCSIS informations from Fritzbox Cable Routers # and write these infos in a format that can be # written into an influx database # # example: fritz_docsis_influx_lines.sh | influx write -b <bucket> # --------------------------------------------- # please define your settings for your fritzbox # --------------------------------------------- fritzbox=192.168.178.1 user='<admin>' pass='<password>' # # nothing to be changed from here # # -------------------- # cache Login with SID # -------------------- sidfile=/run/shm/$fritzbox.sid [ ! -f $sidfile ] && echo "0000000000000000" > $sidfile sid=$(cat $sidfile) # -------------------- # check Login with SID # -------------------- result=$(curl -s "http://$fritzbox/login_sid.lua?sid=$sid" | grep -c "0000000000000000") if [ $result -gt 0 -o "$sid" = "0000000000000000" ]; then challenge=$(curl -s http://$fritzbox/login_sid.lua | grep -o "<Challenge>.*</Challenge>" | sed 's,</*Challenge>,,g') hash=$(echo -n "$challenge-$pass" | sed -e 's,.,&\n,g' | tr '\n' '\0' | md5sum | grep -o "[0-9a-z]\{32\}") curl -s "http://$fritzbox/login_sid.lua" -d "response=$challenge-$hash" -d 'username='${user} | grep -o "<SID>[a-z0-9]\{16\}" | cut -d'>' -f 2 > $sidfile fi sid=$(cat $sidfile) # -------------------------------- # read DOCSIS-Infos (page=docInfo) # -------------------------------- docsis=$(curl -s "http://$fritzbox/data.lua" -d "xhr=1&sid=$sid&lang=de&page=docInfo&xhrId=all&no_sidrenew") # check docsis version 3.0 or 3.1 docsis_version=docsis30 if [ "_"$(echo ${docsis} | jq -r ".data.channelUs.${docsis_version}[0].powerLevel") = "_null" ]; then docsis_version=docsis31 fi # AVM may change the modulation entry from 'type' to 'modulation' in later OS version if [ "_"$(echo ${docsis} | jq -r ".data.channelUs.${docsis_version}[0].type") = "_null" ]; then qam="modulation" else qam="type" fi # get nr. of up-/downstream channels channelUs=$(echo ${docsis} | jq ".data.channelUs.${docsis_version}[].powerLevel" | wc -l) channelDs=$(echo ${docsis} | jq ".data.channelDs.${docsis_version}[].powerLevel" | wc -l) #{"powerLevel":"40.0","modulation":"64QAM","multiplex":"ATDMA","channelID":2,"frequency":"41.800"} # read upstream channels for (( c=0; c<$channelUs; c++ )); do channelID[$c]=$(echo ${docsis} | jq -r ".data.channelUs.${docsis_version}[$c].channelID") modulation[$c]=$(echo ${docsis} | jq -r ".data.channelUs.${docsis_version}[$c].$qam" | sed 's/[^0-9.]//g') powerLevel[$c]=$(echo ${docsis} | jq -r ".data.channelUs.${docsis_version}[$c].powerLevel") frequency[$c]=$(echo ${docsis} | jq -r ".data.channelUs.${docsis_version}[$c].frequency") multiplex[$c]=$(echo ${docsis} | jq -r ".data.channelUs.${docsis_version}[$c].multiplex") echo "docsis,mode=up,channel=${channelID[$c]} Modulation=${modulation[$c]}" echo "docsis,mode=up,channel=${channelID[$c]} PowerLevel=${powerLevel[$c]}" echo "docsis,mode=up,channel=${channelID[$c]} Frequenz=${frequency[$c]}" done #{"powerLevel":"-0.2","nonCorrErrors":0,"modulation":"256QAM","corrErrors":16,"latency":0.32,"mse":"-38.6","channelID":5,"frequency":"186.000"} # read downstream channels for (( c=0; c<$channelDs; c++ )); do channelID[$c]=$(echo ${docsis} | jq -r ".data.channelDs.${docsis_version}[$c].channelID") modulation[$c]=$(echo ${docsis} | jq -r ".data.channelDs.${docsis_version}[$c].$qam" | sed 's/[^0-9.]//g') powerLevel[$c]=$(echo ${docsis} | jq -r ".data.channelDs.${docsis_version}[$c].powerLevel") frequency[$c]=$(echo ${docsis} | jq -r ".data.channelDs.${docsis_version}[$c].frequency") latency[$c]=$(echo ${docsis} | jq -r ".data.channelDs.${docsis_version}[$c].latency") corrErrors[$c]=$(echo ${docsis} | jq -r ".data.channelDs.${docsis_version}[$c].corrErrors") nonCorrErrors[$c]=$(echo ${docsis} | jq -r ".data.channelDs.${docsis_version}[$c].nonCorrErrors") mse[$c]=$(echo ${docsis} | jq -r ".data.channelDs.${docsis_version}[$c].mse") echo "docsis,mode=down,channel=${channelID[$c]} Modulation=${modulation[$c]}" echo "docsis,mode=down,channel=${channelID[$c]} PowerLevel=${powerLevel[$c]}" echo "docsis,mode=down,channel=${channelID[$c]} Frequenz=${frequency[$c]}" echo "docsis,mode=down,channel=${channelID[$c]} Latenz=${latency[$c]}" echo "docsis,mode=down,channel=${channelID[$c]} korrFehler=${corrErrors[$c]}" echo "docsis,mode=down,channel=${channelID[$c]} Fehler=${nonCorrErrors[$c]}" echo "docsis,mode=down,channel=${channelID[$c]} MSE=${mse[$c]}" done
Skript für InfluxDB V1.6:
#!/bin/bash fritzbox=<fritz.box> user=<admin> pass=<password> influxdb=<influxdb name> # -------------------- # cache Login with SID # -------------------- sidfile=/dev/shm/$fritzbox.sid [ ! -f $sidfile ] && touch $sidfile sid=$(cat $sidfile) # -------------------- # check Login with SID # -------------------- result=$(curl -s "http://$fritzbox/login_sid.lua?sid=$sid" | grep -c "0000000000000000") if [ $result -gt 0 ]; then challenge=$(curl -s http://$fritzbox/login_sid.lua | grep -o "<Challenge>.*</Challenge>" | sed 's,</*Challenge>,,g') hash=$(echo -n "$challenge-$pass" | sed -e 's,.,&\n,g' | tr '\n' '\0' | md5sum | grep -o "[0-9a-z]\{32\}") curl -s "http://$fritzbox/login_sid.lua" -d "response=$challenge-$hash" -d 'username='${user} | grep -o "<SID>[a-z0-9]\{16\}" | cut -d'>' -f 2 > $sidfile fi sid=$(cat $sidfile) # ----------------- # read DOCSIS-Infos # ----------------- docsis=$(curl -s "http://$fritzbox/data.lua" -d "xhr=1&sid=$sid&lang=de&page=docInfo&xhrId=all&no_sidrenew") # function: write data into influxdb write_influxdb () { curl -i -XPOST 'http://127.0.0.1:8086/write?db='$influxdb --data-binary "$1" } # get nr. of up-/downstream channels channelUs=$(echo ${docsis} | jq ".data.channelUs.docsis30[].powerLevel" | wc -l) channelDs=$(echo ${docsis} | jq ".data.channelDs.docsis30[].powerLevel" | wc -l) # read upstream channels for (( c=0; c<$channelUs; c++ )); do channelID[$c]=$(echo ${docsis} | jq -r ".data.channelUs.docsis30[$c].channelID") channel[$c]=$(echo ${docsis} | jq -r ".data.channelUs.docsis30[$c].channel") qam[$c]=$(echo ${docsis} | jq -r ".data.channelUs.docsis30[$c].type" | sed 's/QAM//g') powerLevel[$c]=$(echo ${docsis} | jq -r ".data.channelUs.docsis30[$c].powerLevel") frequency[$c]=$(echo ${docsis} | jq -r ".data.channelUs.docsis30[$c].frequency") echo "ID ${channelID[$c]}: Channel ${channel[$c]} (${frequency[$c]}) ${qam[$c]} PowerLevel ${powerLevel[$c]}" write_influxdb "docsis,mode=up,channel=${channelID[$c]},param=Modulation value=${qam[$c]}" write_influxdb "docsis,mode=up,channel=${channelID[$c]},param=Power\ Level\ [dBmV] value=${powerLevel[$c]}" write_influxdb "docsis,mode=up,channel=${channelID[$c]},param=Frequenz\ [MHz] value=${frequency[$c]}" done # read downstream channels for (( c=0; c<$channelDs; c++ )); do channelID[$c]=$(echo ${docsis} | jq -r ".data.channelDs.docsis30[$c].channelID") channel[$c]=$(echo ${docsis} | jq -r ".data.channelDs.docsis30[$c].channel") qam[$c]=$(echo ${docsis} | jq -r ".data.channelDs.docsis30[$c].type" | sed 's/QAM//g') powerLevel[$c]=$(echo ${docsis} | jq -r ".data.channelDs.docsis30[$c].powerLevel") frequency[$c]=$(echo ${docsis} | jq -r ".data.channelDs.docsis30[$c].frequency") latency[$c]=$(echo ${docsis} | jq -r ".data.channelDs.docsis30[$c].latency") corrErrors[$c]=$(echo ${docsis} | jq -r ".data.channelDs.docsis30[$c].corrErrors") nonCorrErrors[$c]=$(echo ${docsis} | jq -r ".data.channelDs.docsis30[$c].nonCorrErrors") echo "ID ${channelID[$c]}: Channel ${channel[$c]} (${frequency[$c]}) ${qam[$c]} PowerLevel ${powerLevel[$c]}" write_influxdb "docsis,mode=down,channel=${channelID[$c]},param=Modulation value=${qam[$c]}" write_influxdb "docsis,mode=down,channel=${channelID[$c]},param=Power\ Level\ [dBmV] value=${powerLevel[$c]}" write_influxdb "docsis,mode=down,channel=${channelID[$c]},param=Frequenz\ [MHz] value=${frequency[$c]}" write_influxdb "docsis,mode=down,channel=${channelID[$c]},param=Latenz\ [ms] value=${latency[$c]}" write_influxdb "docsis,mode=down,channel=${channelID[$c]},param=korrigierbare\ Fehler value=${corrErrors[$c]}" write_influxdb "docsis,mode=down,channel=${channelID[$c]},param=nicht\ korrigierbare\ Fehler value=${nonCorrErrors[$c]}" done