# -*- python -*-
# ex: set syntax=python:
# This is a sample buildmaster config file. It must be installed as
# 'master.cfg' in your buildmaster's base directory (although the filename
# can be changed with the --basedir option to 'mktap buildbot master').
# It has one job: define a dictionary named BuildmasterConfig. This
# dictionary has a variety of keys to control different aspects of the
# buildmaster. They are documented in docs/config.xhtml .
# This is the dictionary that the buildmaster pays attention to. We also use
# a shorter alias to save typing.
c = BuildmasterConfig = {}
####### BUILDSLAVES
# the 'slaves' list defines the set of allowable buildslaves. Each element is
# a BuildSlave object, which is created with bot-name, bot-password. These
# correspond to values given to the buildslave's mktap invocation.
from buildbot.buildslave import BuildSlave
c['slaves'] = [BuildSlave("bot1name", "bot1passwd")]
# to limit to two concurrent builds on a slave, use
# c['slaves'] = [BuildSlave("bot1name", "bot1passwd", max_builds=2)]
# 'slavePortnum' defines the TCP port to listen on. This must match the value
# configured into the buildslaves (with their --master option)
c['slavePortnum'] = 9989
####### CHANGESOURCES
# the 'change_source' setting tells the buildmaster how it should find out
# about source code changes. Any class which implements IChangeSource can be
# put here: there are several in buildbot/changes/*.py to choose from.
from buildbot.changes.pb import PBChangeSource
c['change_source'] = PBChangeSource()
# For example, if you had CVSToys installed on your repository, and your
# CVSROOT/freshcfg file had an entry like this:
#pb = ConfigurationSet([
# (None, None, None, PBService(userpass=('foo', 'bar'), port=4519)),
# ])
# then you could use the following buildmaster Change Source to subscribe to
# the FreshCVS daemon and be notified on every commit:
#
#from buildbot.changes.freshcvs import FreshCVSSource
#fc_source = FreshCVSSource("cvs.example.com", 4519, "foo", "bar")
#c['change_source'] = fc_source
# or, use a PBChangeSource, and then have your repository's commit script run
# 'buildbot sendchange', or use contrib/svn_buildbot.py, or
# contrib/arch_buildbot.py :
#
#from buildbot.changes.pb import PBChangeSource
#c['change_source'] = PBChangeSource()
# If you wat to use SVNPoller, it might look something like
# # Where to get source code changes
# from buildbot.changes.svnpoller import SVNPoller
# source_code_svn_url='https://svn.myproject.org/bluejay/trunk'
# svn_poller = SVNPoller(
# svnurl=source_code_svn_url,
# pollinterval=60*60, # seconds
# histmax=10,
# svnbin='/usr/bin/svn',
## )
# c['sources'] = [ svn_poller ]
####### SCHEDULERS
## configure the Schedulers
from buildbot.scheduler import Scheduler
c['schedulers'] = []
c['schedulers'].append(Scheduler(name="all", branch=None,
treeStableTimer=2*60,
builderNames=["buildbot-full"]))
####### BUILDERS
# the 'builders' list defines the Builders. Each one is configured with a
# dictionary, using the following keys:
# name (required): the name used to describe this builder
# slavename (required): which slave to use (must appear in c['bots'])
# builddir (required): which subdirectory to run the builder in
# factory (required): a BuildFactory to define how the build is run
# periodicBuildTime (optional): if set, force a build every N seconds
# buildbot/process/factory.py provides several BuildFactory classes you can
# start with, which implement build processes for common targets (GNU
# autoconf projects, CPAN perl modules, etc). The factory.BuildFactory is the
# base class, and is configured with a series of BuildSteps. When the build
# is run, the appropriate buildslave is told to execute each Step in turn.
# the first BuildStep is typically responsible for obtaining a copy of the
# sources. There are source-obtaining Steps in buildbot/steps/source.py for
# CVS, SVN, and others.
cvsroot = ":pserver:anonymous@cvs.sourceforge.net:/cvsroot/buildbot"
cvsmodule = "buildbot"
from buildbot.process import factory
from buildbot.steps.source import CVS
from buildbot.steps.shell import Compile
from buildbot.steps.python_twisted import Trial
f1 = factory.BuildFactory()
f1.addStep(CVS(cvsroot=cvsroot, cvsmodule=cvsmodule, login="", mode="copy"))
f1.addStep(Compile(command=["python", "./setup.py", "build"]))
f1.addStep(Trial(testChanges=True, testpath="."))
b1 = {'name': "buildbot-full",
'slavename': "bot1name",
'builddir': "full",
'factory': f1,
}
c['builders'] = [b1]
####### STATUS TARGETS
# 'status' is a list of Status Targets. The results of each build will be
# pushed to these targets. buildbot/status/*.py has a variety to choose from,
# including web pages, email senders, and IRC bots.
c['status'] = []
# Use allowForce=True (boolean, not a string. ie: not 'True') to allow
# Forcing Builds in the Web User Interface. The default is False.
# from buildbot.status import html
# c['status'].append(html.WebStatus(http_port=8010,allowForce=True))
from buildbot.status import html
c['status'].append(html.WebStatus(http_port=8010))
# from buildbot.status import mail
# c['status'].append(mail.MailNotifier(fromaddr="buildbot@localhost",
# extraRecipients=["builds@example.com"],
# sendToInterestedUsers=False))
#
# from buildbot.status import words
# c['status'].append(words.IRC(host="irc.example.com", nick="bb",
# channels=["#example"]))
#
# from buildbot.status import client
# c['status'].append(client.PBListener(9988))
####### DEBUGGING OPTIONS
# if you set 'debugPassword', then you can connect to the buildmaster with
# the diagnostic tool in contrib/debugclient.py . From this tool, you can
# manually force builds and inject changes, which may be useful for testing
# your buildmaster without actually committing changes to your repository (or
# before you have a functioning 'sources' set up). The debug tool uses the
# same port number as the slaves do: 'slavePortnum'.
#c['debugPassword'] = "debugpassword"
# if you set 'manhole', you can ssh into the buildmaster and get an
# interactive python shell, which may be useful for debugging buildbot
# internals. It is probably only useful for buildbot developers. You can also
# use an authorized_keys file, or plain telnet.
#from buildbot import manhole
#c['manhole'] = manhole.PasswordManhole("tcp:9999:interface=127.0.0.1",
# "admin", "password")
####### PROJECT IDENTITY
# the 'projectName' string will be used to describe the project that this
# buildbot is working on. For example, it is used as the title of the
# waterfall HTML page. The 'projectURL' string will be used to provide a link
# from buildbot HTML pages to your project's home page.
c['projectName'] = "Buildbot"
c['projectURL'] = "http://buildbot.sourceforge.net/"
# the 'buildbotURL' string should point to the location where the buildbot's
# internal web server (usually the html.Waterfall page) is visible. This
# typically uses the port number set in the Waterfall 'status' entry, but
# with an externally-visible host name which the buildbot cannot figure out
# without some help.
c['buildbotURL'] = "http://localhost:8010/"