A simple tool which allows you to set up a packet-loss/latency, TCP-handshake, or HTTP/HTTPs file transfer monitor against a network host. The monitor will execute a user-defined action if it detects failure to the host.
- Installation
- Command-Line Structure
- Parameters
- Examples and Scenarios
- Tips and Best Practices
- Threshold Logging
# From Linux terminal download the source code from Github
wget https://github.com/secureoptions/threshold/raw/master/threshold-3.2.tar.gz
# Unpack and change into installation directory
tar -xvzf threshold-3.2.tar.gz
cd threshold-3.2/
# Run the installation script
sudo ./install.sh
# Verify installation
threshold --version
-a | --action
The user-defined action to take if the threshold monitor is triggered. This can be just about any command that you can execute from a linux system CLI.
-b | --backoff
Default is 60. Only used when specifying a http:// or https:// as target host (-d). This is the interval in seconds between consecutive download tests. It is sometimes needed if a target webserver throttles consecutive web requests from the same source.
-c | --count
Default is 3. The number of consective pings that must fail before the threshold monitor is considered to be in a failed state. If used with TCP handshakes (-P), it's the number of consecutive handshakes that must fail before the monitor is considered in a failed state.
-d | --destination
The target host IP or DNS hostname that you want to monitor. If this host becomes unresponsive for the parameters you define, then the action (-a "") is taken. Important Note: if you use a prefix of http:// or https:// in the destination, this will create a download monitor which checks the actual download transfer time against the timeout (-t) that you have defined. If the download transfer time exceeds the timeout, then the monitor is considered in a failed state.
-i | --interval
Default is 5. The interval in seconds at which you want to send out individual ping packets. If used with TCP (-P), the interval in seconds that TCP handshakes will be initiated.
-k | --kill
Use to kill either a specific threshold monitor job (ie. threshold -k 3509) or kill ALL jobs (ie. threshold -k)
-l | --list
List the active threshold monitor jobs
-L | --latency
The maximum latency in milliseconds that a ping monitor can average. A ping monitor's average is calculated based on the number of pings it uses (-c). Therefore, its average latency reading is more accurate with the higher number of pings it's configured to use.
-o | --logging
User-defined log location for threshold. This is logging for threshold monitoring (not to be confused with action output). Default location is /var/log/threshold.log
-p | --persist
When setting this argument, your threshold monitor will remain persistent even if it has failed once. In this scenario, the monitor will execute the action you define, and then start itself again with same job parameters.
-P | --port
The TCP port that will be used to establish TCP handshakes on. Using this flag will also cause threshold to use a TCP-handshake monitor rather than a ping monitor.
-t | --timeout
Default is 1. The time in seconds to wait for a response back to ping or TCP SYN/ACK from target. If used with (-P) then timeout is not only the amount of time to wait for response for TCP SYN/ACK, but also the time to wait before sending FIN on successful TCP connections. When used with HTTP/HTTPs monitor, it is the maximum amount of time a download has to complete before placing the monitor into a 'failed' state, triggering the action.
-u | --uninstall
Uninstall threshold from your system. This will also stop any current jobs you have running.
-v | --version
The current version of threshold
-6 | --ipv6
Uses ipv6 rather than ipv4.
(Example: Setting a ping monitor) Client machines have been experiencing sporadic connection timeouts when trying to SSH into a linux server (192.168.3.10). You suspect potential packet loss or high latency somewhere in the network. For troubleshooting you choose to use MTR to check the network path when the issue occurs again (credits:https://github.com/traviscross/mtr). MTR will run from one of the impacted client's machines:
sudo threshold -c 5 -L 50 -d 192.168.3.10 -a "mtr -r -c 100 192.168.3.10 >> mtr-results.txt" -p
The above example sets a simple ping monitor against (-d) 192.168.3.10. If the host fails to respond to 5 consecutive pings (-c) OR if the average latency of the 5 pings exceed 50ms (-L), the MTR tool will execute with its own arguments (-a), etc.
(Example: Setting a TCP handshake monitor) After troubleshooting some application issues, you noticed that you are getting occasional connection timeouts between your app server and database, "mydb.organization.org" (SQL/TCP 1433). You want to determine if this problem is due to a network issue or perhaps something higher up the stack. A packet capture with tcpdump may be appropriate at the next occurence of the issue (credits:http://www.tcpdump.org/):
sudo threshold -c 6 -d mydb.organization.org -P 1433 -a "tcpdump -i eth0 host mydb.organization.org -c 10 -w db_capture.pcap" -p
The above example will continually monitor TCP handshakes with mydb.organization.org. Aside from default values used, if this destination fails to respond to 6 consecutive handshake attempts (-c) on TCP port 1433 (-P) then a tcpdump packet capture will run and export results to a wireshark-readable file (-a). Note that setting the -P argument here is the only factor that tells threshold to use TCP handshakes instead of pings
(Example: Setting an HTTP/HTTPS file transfer monitor) You noticed that when downloading content from your webserver to your workstation, it sometimes takes longer than expected. From your particular network it usually takes about 5 minutes to complete a 100MB, but lately this is less frequently the case.
Since previous ping and TCP-handshake monitors have come back clean, you decided that using a HTTP file transfer monitor in conjunction with an iperf3 test (the action) would be appropriate here. The iperf3 test will give you an idea of the raw throughput capabilities of your network the next time the issue occurs (credits: https://iperf.fr/iperf-download.php)
sudo threshold -d http://mywebserver.com/some/100MBfile.zip -t 300 -b 10 -a "iperf3 -c mywebserver.com -time 300 --logfile iperf3-results.txt" -p
Aside from default values, the above monitor will download a "100MBfile.zip" file from mywebserver.com. The download must complete in 5min or 300 seconds (-t). If this time is exceeded, the iperf3 action will be taken (-a). The interval between downloads is every 10 seconds (-b).
Note that threshold will know that it should use downloads as monitor rather than ping and TCP handshakes since you have prefixed the host with http://, telling it that it's monitoring a webserver.
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Make sure monitors will not fail immediately upon starting them. For example, make sure you can actually ping example.com before setting up a monitor against it
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If you use system variables (ie. $HOME), be sure to enclose the action in double quotes ("") and escape the variable (ie. $HOME)
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Don't make the monitors too aggressive. There is a good chance they will fail based on a false alarm
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Don't make the monitors too tolerant. You could miss critical events. To balance too aggressive vs. too tolerant, research and understand as much about the issue as you can prior to configuring a monitor.
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Consider setting up multiple types of monitoring against one destination, with multiple criteria, settings and actions (followup analysis). This is helpful when you don't know which layer an issue is happening at.
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Match appropriate actions with appropriate monitors. For example, it may make more sense to run a MTR as a followup action to a ping monitor, compared to running an iperf3 test as an action, etc. Conversely, it may make more sense to run an iperf3 test as the followup action to an HTTP file transfer monitor.
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Your actions should have self-contained limits. For example, you might want to specify a max filesize of 10MB on pcaps, or a timelimit on iperf3 test, etc. These limits help reduce overall consumption and load on your system when you're away.
You can specify the path that you want threshold to log information about jobs by using the -o flag. Logging contains information such as when jobs started, when and if they failed, or if they were stopped by a user. This log tells you what happen to threshold jobs NOT the subsequent actions that were executed. If you want the output and results of actions, you will need to define those output parameters within the action itself.
Logging is helpful with all monitors, but especially the HTTP/HTTPs monitor. Not only will it tell you if a download failed to complete within a given timeout (-t), it will also log whether the download failed due to a particular HTTP/HTTPs error response code or if there was a TCP connection error.