2.2.5. Worker Setup Creating a worker

Typically, you will be adding a worker to an existing buildmaster, to provide additional architecture coverage. The Buildbot administrator will give you several pieces of information necessary to connect to the buildmaster. You should also be somewhat familiar with the project being tested so that you can troubleshoot build problems locally.

Buildbot exists to make sure that the project’s stated how to build it process actually works. To this end, the worker should run in an environment just like that of your regular developers. Typically the project’s build process is documented somewhere (README, INSTALL, etc), in a document that should mention all library dependencies and contain a basic set of build instructions. This document will be useful as you configure the host and account in which worker runs.

Here’s a good checklist for setting up a worker:

  1. Set up the account

It is recommended (although not mandatory) to set up a separate user account for the worker. This account is frequently named buildbot or worker. This serves to isolate your personal working environment from that of the worker’s, and helps to minimize the security threat posed by letting possibly-unknown contributors run arbitrary code on your system. The account should have a minimum of fancy init scripts.

  1. Install the Buildbot code

Follow the instructions given earlier (Installing the code). If you use a separate worker account, and you didn’t install the Buildbot code to a shared location, then you will need to install it with --home=~ for each account that needs it.

  1. Set up the host

Make sure the host can actually reach the buildmaster. Usually the buildmaster is running a status webserver on the same machine, so simply point your web browser at it and see if you can get there. Install whatever additional packages or libraries the project’s INSTALL document advises. (or not: if your worker is supposed to make sure that building without optional libraries still works, then don’t install those libraries.)

Again, these libraries don’t necessarily have to be installed to a site-wide shared location, but they must be available to your build process. Accomplishing this is usually very specific to the build process, so installing them to /usr or /usr/local is usually the best approach.

  1. Test the build process

Follow the instructions in the INSTALL document, in the worker’s account. Perform a full CVS (or whatever) checkout, configure, make, run tests, etc. Confirm that the build works without manual fussing. If it doesn’t work when you do it manually, it will be unlikely to work when Buildbot attempts to do it in an automated fashion.

  1. Choose a base directory

This should be somewhere in the worker’s account, typically named after the project which is being tested. The worker will not touch any file outside of this directory. Something like ~/Buildbot or ~/Workers/fooproject is appropriate.

  1. Get the buildmaster host/port, workername, and password

When the Buildbot admin configures the buildmaster to accept and use your worker, they will provide you with the following pieces of information:

  • your worker’s name

  • the password assigned to your worker

  • the hostname and port number of the buildmaster

  1. Create the worker

Now run the ‘worker’ command as follows:


This will create the base directory and a collection of files inside, including the buildbot.tac file that contains all the information you passed to the buildbot-worker command.

  1. Fill in the hostinfo files

When it first connects, the worker will send a few files up to the buildmaster which describe the host that it is running on. These files are presented on the web status display so that developers have more information to reproduce any test failures that are witnessed by the Buildbot. There are sample files in the info subdirectory of the Buildbot’s base directory. You should edit these to correctly describe you and your host.

BASEDIR/info/admin should contain your name and email address. This is the worker admin address, and will be visible from the build status page (so you may wish to munge it a bit if address-harvesting spambots are a concern).

BASEDIR/info/host should be filled with a brief description of the host: OS, version, memory size, CPU speed, versions of relevant libraries installed, and finally the version of the Buildbot code which is running the worker.

The optional BASEDIR/info/access_uri can specify a URI which will connect a user to the machine. Many systems accept ssh://hostname URIs for this purpose.

If you run many workers, you may want to create a single ~worker/info file and share it among all the workers with symlinks.

Worker Options

There are a handful of options you might want to use when creating the worker with the buildbot-worker create-worker <options> DIR <params> command. You can type buildbot-worker create-worker --help for a summary. To use these, just include them on the buildbot-worker create-worker command line, like this

buildbot-worker create-worker --umask=0o22 ~/worker buildmaster.example.org:42012 \
    {myworkername} {mypasswd}

This is a string representing a protocol to be used when creating master-worker connection. The default option is Perspective Broker (pb).


This disables internal worker log management mechanism. With this option worker does not override the default logfile name and its behaviour giving a possibility to control those with command-line options of twistd daemon.


This is a string (generally an octal representation of an integer) which will cause the worker process’ umask value to be set shortly after initialization. The twistd daemonization utility forces the umask to 077 at startup (which means that all files created by the worker or its child processes will be unreadable by any user other than the worker account). If you want build products to be readable by other accounts, you can add --umask=0o22 to tell the worker to fix the umask after twistd clobbers it. If you want build products to be writable by other accounts too, use --umask=0o000, but this is likely to be a security problem.


This is a number that indicates how frequently keepalive messages should be sent from the worker to the buildmaster, expressed in seconds. The default (600) causes a message to be sent to the buildmaster at least once every 10 minutes. To set this to a lower value, use e.g. --keepalive=120.

If the worker is behind a NAT box or stateful firewall, these messages may help to keep the connection alive: some NAT boxes tend to forget about a connection if it has not been used in a while. When this happens, the buildmaster will think that the worker has disappeared, and builds will time out. Meanwhile the worker will not realize that anything is wrong.


This is a number that indicates the maximum amount of time the worker will wait between connection attempts, expressed in seconds. The default (300) causes the worker to wait at most 5 minutes before trying to connect to the buildmaster again.


This is a number that indicates the maximum number of times the worker will make connection attempts. After that amount, the worker process will stop. This option is useful for Latent Workers to avoid consuming resources in case of misconfiguration or master failure.

For VM based latent workers, the user is responsible for halting the system when the Buildbot worker has exited. This feature is heavily OS dependent, and cannot be managed by the Buildbot worker. For example, with systemd, one can add ExecStopPost=shutdown now to the Buildbot worker service unit configuration.


This is the size in bytes when exceeded to rotate the Twisted log files.


This is the number of log rotations to keep around. You can either specify a number or None to keep all twistd.log files around. The default is 10.


Can also be passed directly to the worker constructor in buildbot.tac. If set, it allows the worker to initiate a graceful shutdown, meaning that it will ask the master to shut down the worker when the current build, if any, is complete.

Setting allow_shutdown to file will cause the worker to watch shutdown.stamp in basedir for updates to its mtime. When the mtime changes, the worker will request a graceful shutdown from the master. The file does not need to exist prior to starting the worker.

Setting allow_shutdown to signal will set up a SIGHUP handler to start a graceful shutdown. When the signal is received, the worker will request a graceful shutdown from the master.

The default value is None, in which case this feature will be disabled.

Both master and worker must be at least version 0.8.3 for this feature to work.


Can also be passed directly to the Worker constructor in buildbot.tac. If set, the generated connection string starts with tls instead of with tcp, allowing encrypted connection to the buildmaster. Make sure the worker trusts the buildmasters certificate. If you have an non-authoritative certificate (CA is self-signed) see option --connection-string and also Worker-TLS-Config below.


Can also be passed directly to the Worker constructor in buildbot.tac. If set, unexpected directories in worker base directory will be removed. Otherwise, a warning will be displayed in twistd.log so that you can manually remove them.


Can also be passed directly to the Worker constructor in buildbot.tac. If set, the worker connection to master will be made using this connection_string. See Worker-TLS-Config below for more details. Note that this option will override required positional argument masterhost[:port] and also option --use-tls.


Can also be passed directly to the Worker constructor in buildbot.tac. If set, the worker connection will be tunneled through a HTTP proxy specified by the option value.

Other Worker Configuration


This represents the encoding that Buildbot should use when converting unicode commandline arguments into byte strings in order to pass to the operating system when spawning new processes.

The default value is what Python’s sys.getfilesystemencoding returns, which on Windows is ‘mbcs’, on Mac OSX is ‘utf-8’, and on Unix depends on your locale settings.

If you need a different encoding, this can be changed in your worker’s buildbot.tac file by adding a unicode_encoding argument to the Worker constructor.

s = Worker(buildmaster_host, port, workername, passwd, basedir,
           keepalive, usepty, umask=umask, maxdelay=maxdelay,
           unicode_encoding='utf-8', allow_shutdown='signal')

Worker TLS Configuration


See --useTls option above as an alternative to setting the conneciton_string manually.


For TLS connections to the master, the connection_string-argument must be passed to the worker constructor. buildmaster_host and port must then be None.

connection_string will be used to create a client endpoint with clientFromString. An example of connection_string is "TLS:buildbot-master.com:9989".

See more about how to formulate the connection string in ConnectionStrings.

Example TLS connection string:

s = Worker(None, None, workername, passwd, basedir, keepalive,

Make sure the worker trusts the certificate of the master. If you have a non-authoritative certificate (CA is self-signed), the trustRoots parameter can be used.

s = Worker(None, None, workername, passwd, basedir, keepalive,

It must point to a directory with PEM-encoded certificates. For example:

$ cat /dir-with-ca-certs/ca.pem

Using TCP in connection_string is the equivalent to using the buildmaster_host and port arguments.

s = Worker(None, None, workername, passwd, basedir, keepalive

is equivalent to

s = Worker('buildbot-master.com', 9989, workername, passwd, basedir,