.. _debugging: ######### Debugging ######### There are two flags available to aid in debugging configuration scripts. Since configuration loading issues will manifest during boot, the flags are passed as kernel boot parameters. System Startup ============== The system startup can be debugged (like loading in the configuration file from ``/config/config.boot``. This can be achieve by extending the Kernel command-line in the bootloader. Kernel ------ * ``vyos-debug`` - Adding the parameter to the linux boot line will produce timing results for the execution of scripts during commit. If one is seeing an unexpected delay during manual or boot commit, this may be useful in identifying bottlenecks. The internal flag is ``VYOS_DEBUG``, and is found in vyatta-cfg_. Output is directed to ``/var/log/vyatta/cfg-stdout.log``. * ``vyos-config-debug`` - During development, coding errors can lead to a commit failure on boot, possibly resulting in a failed initialization of the CLI. In this circumstance, the kernel boot parameter ``vyos-config-debug`` will ensure access to the system as user ``vyos``, and will log a Python stack trace to the file ``/tmp/boot-config-trace``. File ``boot-config-trace`` will generate only if config loaded with a failure status. Live System =========== A number of flags can be set up to change the behaviour of VyOS at runtime. These flags can be toggled using either environment variables or creating files. For each feature, a file called ``vyos.feature.debug`` can be created to toggle the feature on. If a parameter is required it can be placed inside the file as its first line. The file can be placed in ``/tmp`` for one time debugging (as the file will be removed on reboot) or placed in '/config' to stay permanently. For example, ``/tmp/vyos.ifconfig.debug`` can be created to enable interface debugging. It is also possible to set up the debugging using environment variables. In that case, the name will be (in uppercase) VYOS_FEATURE_DEBUG. For example running, ``export VYOS_IFCONFIG_DEBUG=""`` on your vbash, will have the same effect as ``touch /tmp/vyos.ifconfig.debug``. * ``ifconfig`` - Once set, all commands used, and their responses received from the OS, will be presented on the screen for inspection. * ``command`` - Once set, all commands used, and their responses received from the OS, will be presented on the screen for inspection. * ``developer`` - Should a command fail, instead of printing a message to the user explaining how to report issues, the python interpreter will start a PBD post-mortem session to allow the developer to debug the issue. As the debugger will wait from input from the developer, it has the capacity to prevent a router to boot and therefore should only be permanently set up on production if you are ready to see the OS fail to boot. * ``log`` - In some rare cases, it may be useful to see what the OS is doing, including during boot. This option sends all commands used by VyOS to a file. The default file is ``/tmp/full-log`` but it can be changed. .. note:: In order to retrieve the debug output on the command-line you need to disable ``vyos-configd`` in addition. This can be run either one-time by calling ``sudo systemctl stop vyos-configd`` or make this reboot-safe by calling ``sudo systemctl disable vyos-configd``. Debugging Python Code with PDB ------------------------------ Sometimes it might be useful to debug Python code interactively on the live system rather than a IDE. This can be achieved using pdb. Let us assume you want to debug a Python script that is called by an op-mode command. After you found the script by looking up the op-mode-defitions you can edit the script in the live system using e.g. vi: ``vi /usr/libexec/vyos/op_mode/show_xyz.py`` Insert the following statement right before the section where you want to investigate a problem (e.g. a statement you see in a backtrace): ``import pdb; pdb.set_trace()`` Optionally you can surrounded this statement by an ``if`` which only triggers under the condition you are interested in. Once you run ``show xyz`` and your condition is triggered you should be dropped into the python debugger: .. code-block:: none > /usr/libexec/vyos/op_mode/show_nat_translations.py(109)process() -> rule_type = rule.get('type', '') (Pdb) You can type ``help`` to get an overview of the available commands, and ``help command`` to get more information on each command. Useful commands are: * examine variables using ``pp(var)`` * contine execution using ``cont`` * get a backtrace using ``bt`` Config Migration Scripts ------------------------ When writing a new configuration migrator it may happen that you see an error when you try to invoke it manually on a development system. This error will look like: .. code-block:: none vyos@vyos:~$ /opt/vyatta/etc/config-migrate/migrate/ssh/0-to-1 /tmp/config.boot Traceback (most recent call last): File "/opt/vyatta/etc/config-migrate/migrate/ssh/0-to-1", line 31, in config = ConfigTree(config_file) File "/usr/lib/python3/dist-packages/vyos/configtree.py", line 134, in __init__ raise ValueError("Failed to parse config: {0}".format(msg)) ValueError: Failed to parse config: Syntax error on line 240, character 1: Invalid syntax. The reason is that the configuration migration backend is rewritten and uses a new form of "magic string" which is applied on demand when real config migration is run on boot. When runnint individual migrators for testing, you need to convert the "magic string" on your own by: .. code-block:: none vyos@vyos:~$ /usr/libexec/vyos/run-config-migration.py --virtual --set-vintage vyos /tmp/config.boot Configuration Error on System Boot ---------------------------------- Beeing brave and running the latest rolling releases will sometimes trigger bugs due to corner cases we missed in our design. Those bugs should be filed via Phabricator_ but you can help us to narrow doen the issue. Login to your VyOS system and change into configuration mode by typing ``configure``. Now re-load your boot configuration by simply typing ``load`` followed by return. You shoudl now see a Python backtrace which will help us to handle the issue, please attach it to the Phabricator_ task. Boot Timing ----------- During the migration and extensive rewrite of functionality from Perl into Python a significant increase in the overall system boottime was noticed. The system boot time can be analysed and a graph can be generated in the end which shows in detail who called whom during the system startup phase. This is done by utilizing the ``systemd-bootchart`` package which is now installed by default on the VyOS 1.3 (equuleus) branch. The configuration is also versioned so we get comparable results. ``systemd-bootchart`` is configured using this file: bootchart.conf_ To enable boot time graphing change the Kernel commandline and add the folowing string: ``init=/usr/lib/systemd/systemd-bootchart`` This can also be done permanently by changing ``/boot/grub/grub.cfg``. Priorities ========== VyOS CLI is all about priorities. Every CLI node has a corresponding ``node.def`` file and possibly an attached script that is executed when the node is present. Nodes can have a priority, and on system bootup - or any other ``commit`` to the config all scripts are executed from lowest to higest priority. This is good as this gives a deterministic behavior. To debug issues in priorities or to see what's going on in the background you can use the ``/opt/vyatta/sbin/priority.pl`` script which lists to you the execution order of the scripts. .. stop_vyoslinter .. _vyatta-cfg: https://github.com/vyos/vyatta-cfg .. _bootchart.conf: https://github.com/vyos/vyos-build/blob/current/data/live-build-config/includes.chroot/etc/systemd/bootchart.conf .. include:: /_include/common-references.txt .. start_vyoslinter