.. index:: Properties .. _Properties: Properties ========== Build properties are a generalized way to provide configuration information to build steps; see :ref:`Build-Properties` for the conceptual overview of properties. Some build properties come from external sources and are set before the build begins; others are set during the build, and available for later steps. The sources for properties are: * :bb:cfg:`global configuration ` -- These properties apply to all builds. * :ref:`schedulers ` -- A scheduler can specify properties that become available to all builds it starts. * :ref:`changes ` -- A change can have properties attached to it, supplying extra information gathered by the change source. This is most commonly used with the :bb:cmdline:`sendchange` command. * :bb:status:`forced builds ` -- The "Force Build" form allows users to specify properties * :bb:cfg:`buildslaves ` -- A buildslave can pass properties on to the builds it performs. * :ref:`builds ` -- A build automatically sets a number of properties on itself. * :bb:cfg:`builders ` -- A builder can set properties on all the builds it runs. * :ref:`steps ` -- The steps of a build can set properties that are available to subsequent steps. In particular, source steps set the `got_revision` property. If the same property is supplied in multiple places, the final appearance takes precedence. For example, a property set in a builder configuration will override one supplied by a scheduler. Properties are stored internally in JSON format, so they are limited to basic types of data: numbers, strings, lists, and dictionaries. .. index:: single: Properties; Common Properties .. _Common-Build-Properties: Common Build Properties ----------------------- The following build properties are set when the build is started, and are available to all steps. .. index:: single: Properties; got_revision ``got_revision`` This property is set when a :class:`Source` step checks out the source tree, and provides the revision that was actually obtained from the VC system. In general this should be the same as ``revision``, except for non-absolute sourcestamps, where ``got_revision`` indicates what revision was current when the checkout was performed. This can be used to rebuild the same source code later. .. note:: For some VC systems (Darcs in particular), the revision is a large string containing newlines, and is not suitable for interpolation into a filename. For multi-codebase builds (where codebase is not the default `''`), this property is a dictionary, keyed by codebase. .. index:: single: Properties; buildername ``buildername`` This is a string that indicates which :class:`Builder` the build was a part of. The combination of buildername and buildnumber uniquely identify a build. .. index:: single: Properties; buildnumber ``buildnumber`` Each build gets a number, scoped to the :class:`Builder` (so the first build performed on any given :class:`Builder` will have a build number of 0). This integer property contains the build's number. .. index:: single: Properties; slavename ``slavename`` This is a string which identifies which buildslave the build is running on. .. index:: single: Properties; scheduler ``scheduler`` If the build was started from a scheduler, then this property will contain the name of that scheduler. ``workdir`` The absolute path of the base working directory on the slave, of the current builder. .. index:: single: Properties; workdir For single codebase builds, where the codebase is `''`, the following :ref:`Source-Stamp-Attributes` are also available as properties: ``branch``, ``revision``, ``repository``, and ``project`` . .. _Source-Stamp-Attributes: Source Stamp Attributes ----------------------- .. index:: single: Properties; branch ``branch`` ``revision`` ``repository`` ``project`` ``codebase`` For details of these attributes see :doc:`/manual/concepts`. ``changes`` This attribute is a list of dictionaries reperesnting the changes that make up this sourcestamp. ``has_patch`` ``patch_level`` ``patch_body`` ``patch_subdir`` ``patch_author`` ``patch_comment`` These attributes are set if the source stamp was created by a :ref:`try scheduler`. Using Properties in Steps ------------------------- For the most part, properties are used to alter the behavior of build steps during a build. This is done by annotating the step definition in ``master.cfg`` with placeholders. When the step is executed, these placeholders will be replaced using the current values of the build properties. .. note:: Properties are defined while a build is in progress; their values are not available when the configuration file is parsed. This can sometimes confuse newcomers to Buildbot! In particular, the following is a common error:: if Property('release_train') == 'alpha': f.addStep(...) This does not work because the value of the property is not available when the ``if`` statement is executed. However, Python will not detect this as an error - you will just never see the step added to the factory. You can use build properties in most step parameters. Please file bugs for any parameters which do not accept properties. .. index:: single: Properties; Property .. _Property: Property ++++++++ The simplest form of annotation is to wrap the property name with :class:`Property`:: from buildbot.steps.shell import ShellCommand from buildbot.process.properties import Property f.addStep(ShellCommand(command=[ 'echo', 'buildername:', Property('buildername') ])) You can specify a default value by passing a ``default`` keyword argument:: f.addStep(ShellCommand(command=[ 'echo', 'warnings:', Property('warnings', default='none') ])) The default value is used when the property doesn't exist, or when the value is something Python regards as ``False``. The ``defaultWhenFalse`` argument can be set to ``False`` to force buildbot to use the default argument only if the parameter is not set:: f.addStep(ShellCommand(command=[ 'echo', 'warnings:', Property('warnings', default='none', defaultWhenFalse=False) ])) The default value can reference other properties, e.g., :: command=Property('command', default=Property('default-command')) .. index:: single: Properties; Interpolate .. _Interpolate: Interpolate +++++++++++ :class:`Property` can only be used to replace an entire argument: in the example above, it replaces an argument to ``echo``. Often, properties need to be interpolated into strings, instead. The tool for that job is :ref:`Interpolate`. The more common pattern is to use Python dictionary-style string interpolation by using the ``%(prop:)s`` syntax. In this form, the property name goes in the parentheses, as above. A common mistake is to omit the trailing "s", leading to a rather obscure error from Python ("ValueError: unsupported format character"). :: from buildbot.steps.shell import ShellCommand from buildbot.process.properties import Interpolate f.addStep(ShellCommand(command=[ 'make', Interpolate('REVISION=%(prop:got_revision)s'), 'dist' ])) This example will result in a ``make`` command with an argument like ``REVISION=12098``. .. _Interpolate-DictStyle: The syntax of dictionary-style interpolation is a selector, followed by a colon, followed by a selector specific key, optionally followed by a colon and a string indicating how to interpret the value produced by the key. The following selectors are supported. ``prop`` The key is the name of a property. ``src`` The key is a codebase and source stamp attribute, separated by a colon. ``kw`` The key refers to a keyword argument passed to ``Interpolate``. The following ways of interpreting the value are available. ``-replacement`` If the key exists, substitute its value; otherwise, substitute ``replacement``. ``replacement`` may be empty (``%(prop:propname:-)s``). This is the default. ``~replacement`` Like ``-replacement``, but only substitutes the value of the key if it is something Python regards as ``True``. Python considers ``None``, 0, empty lists, and the empty string to be false, so such values will be replaced by ``replacement``. ``+replacement`` If the key exists, substitute ``replacement``; otherwise, substitute an empty string. ``?|sub_if_exists|sub_if_missing`` ``#?|sub_if_true|sub_if_false`` Ternary substitution, depending on either the key being present (with ``?``, similar to ``+``) or being ``True`` (with ``#?``, like ``~``). Notice that there is a pipe immediately following the question mark *and* between the two substitution alternatives. The character that follows the question mark is used as the delimiter between the two alternatives. In the above examples, it is a pipe, but any character other than ``(`` can be used. Although these are similar to shell substitutions, no other substitutions are currently supported. Example :: from buildbot.steps.shell import ShellCommand from buildbot.process.properties import Interpolate f.addStep(ShellCommand(command=[ 'make', Interpolate('REVISION=%(prop:got_revision:-%(src::revision:-unknown)s)s') 'dist' ])) In addition, ``Interpolate`` supports using positional string interpolation. Here, ``%s`` is used as a placeholder, and the substitutions (which may themselves be placeholders), are given as subsequent arguments:: .. note: Like Python, you can use either positional interpolation *or* dictionary-style interpolation, not both. Thus you cannot use a string like ``Interpolate("foo-%(src::revision)s-%s", "branch")``. .. index:: single: Properties; Renderer .. _Renderer: Renderer ++++++++ While Interpolate can handle many simple cases, and even some common conditionals, more complex cases are best handled with Python code. The ``renderer`` decorator creates a renderable object that will be replaced with the result of the function, called when the step it's passed to begins. The function receives an :class:`~buildbot.interfaces.IProperties` object, which it can use to examine the values of any and all properties. For example:: @properties.renderer def makeCommand(props): command = [ 'make' ] cpus = props.getProperty('CPUs') if cpus: command += [ '-j', str(cpus+1) ] else: command += [ '-j', '2' ] command += [ 'all' ] return command f.addStep(ShellCommand(command=makeCommand)) You can think of ``renderer`` as saying "call this function when the step starts". .. index:: single: Properties; WithProperties .. _WithProperties: WithProperties ++++++++++++++ .. warning:: This placeholder is deprecated. It is an older version of :ref:`Interpolate`. It exists for compatibility with older configs. The simplest use of this class is with positional string interpolation. Here, ``%s`` is used as a placeholder, and property names are given as subsequent arguments:: from buildbot.steps.shell import ShellCommand from buildbot.process.properties import WithProperties f.addStep(ShellCommand( command=["tar", "czf", WithProperties("build-%s-%s.tar.gz", "branch", "revision"), "source"])) If this :class:`BuildStep` were used in a tree obtained from Git, it would create a tarball with a name like :file:`build-master-a7d3a333db708e786edb34b6af646edd8d4d3ad9.tar.gz`. .. index:: unsupported format character The more common pattern is to use Python dictionary-style string interpolation by using the ``%(propname)s`` syntax. In this form, the property name goes in the parentheses, as above. A common mistake is to omit the trailing "s", leading to a rather obscure error from Python ("ValueError: unsupported format character"). :: from buildbot.steps.shell import ShellCommand from buildbot.process.properties import WithProperties f.addStep(ShellCommand(command=[ 'make', WithProperties('REVISION=%(got_revision)s'), 'dist' ])) This example will result in a ``make`` command with an argument like ``REVISION=12098``. .. _WithProperties-DictStyle: The dictionary-style interpolation supports a number of more advanced syntaxes in the parentheses. ``propname:-replacement`` If ``propname`` exists, substitute its value; otherwise, substitute ``replacement``. ``replacement`` may be empty (``%(propname:-)s``) ``propname:~replacement`` Like ``propname:-replacement``, but only substitutes the value of property ``propname`` if it is something Python regards as ``True``. Python considers ``None``, 0, empty lists, and the empty string to be false, so such values will be replaced by ``replacement``. ``propname:+replacement`` If ``propname`` exists, substitute ``replacement``; otherwise, substitute an empty string. Although these are similar to shell substitutions, no other substitutions are currently supported, and ``replacement`` in the above cannot contain more substitutions. Note: like Python, you can use either positional interpolation *or* dictionary-style interpolation, not both. Thus you cannot use a string like ``WithProperties("foo-%(revision)s-%s", "branch")``. Custom Renderables ++++++++++++++++++ If the options described above are not sufficient, more complex substitutions can be achieved by writing custom renderables. Renderables are objects providing the :class:`~buildbot.interfaces.IRenderable` interface. That interface is simple - objects must provide a `getRenderingFor` method. The method should take one argument - an :class:`~buildbot.interfaces.IProperties` provider - and should return a string or a deferred firing with a string. Pass instances of the class anywhere other renderables are accepted. For example:: class DetermineFoo(object): implements(IRenderable) def getRenderingFor(self, props) if props.hasProperty('bar'): return props['bar'] elif props.hasProperty('baz'): return props['baz'] return 'qux' ShellCommand(command=['echo', DetermineFoo()]) or, more practically, :: class Now(object): implements(IRenderable) def getRenderingFor(self, props) return time.clock() ShellCommand(command=['make', Interpolate('TIME=%(kw:now)', now=Now())]) This is equivalent to:: @renderer def now(props): return time.clock() ShellCommand(command=['make', Interpolate('TIME=%(kw:now)', now=now)]) Note that a custom renderable must be instantiated (and its constructor can take whatever arguments you'd like), whereas a function decorated with :func:`renderer` can be used directly.