doc/source/format_intro.rst - buildstream - Git at Google



 Introduction
 ============
 At the core of BuildStream is a data model of :mod:`Elements <buildstream.element>` which
 are parsed from ``.bst`` files in a project directory and configured from a few different
 sources.

 When BuildStream loads your project, various levels of composition occur, allowing
 configuration on various levels with different priority.

 This page provides an introduction to the project directory structure, explains the
 basic *directives* supported inherently throughout the format, and outlines how composition
 occurs and what configurations are considered in which order.

 The meaning of the various constructs expressed in the BuildStream format are covered
 in other sections of the documentation.

 .. _format_structure:


 Directory structure
 -------------------
 A BuildStream project is a directory consisting of:

 * A project configuration file
 * BuildStream element files
 * Optional user defined plugins
 * An optional project.refs file

 A typical project structure may look like this::

   myproject/project.conf
   myproject/project.refs
   myproject/elements/element1.bst
   myproject/elements/element2.bst
   myproject/elements/...
   myproject/plugins/customelement.py
   myproject/plugins/customelement.yaml
   myproject/plugins/...


 Except for the project configuration file, the user is allowed to structure
 their project directory in any way. For documentation on the format of the project
 configuration file, refer to the :ref:`projectconf` documentation.

 Simpler projects may choose to place all element definition files at the
 root of the project directory while more complex projects may decide to
 put stacks in one directory and other floating elements into other directories,
 perhaps placing deployment elements in another directory, this is all fine.

 The important part to remember is that when you declare dependency relationships,
 a project relative path to the element one depends on must be provided.


 .. _format_composition:

 Composition
 -----------
 Below are the various sources of configuration which go into an element or source in the
 order in which they are applied. Configurations which are applied later have a higher
 priority and override configurations which precede them.


 1. Builtin defaults
 ~~~~~~~~~~~~~~~~~~~
 The :ref:`builtin defaults <project_builtin_defaults>` provide a set of builtin
 default default values for ``project.conf``.

 The project wide defaults defined in the builtin project configuration, such as the
 *variables* or *environment* sections, form the base configuration of all elements.


 2. Project configuration
 ~~~~~~~~~~~~~~~~~~~~~~~~
 The :ref:`project wide defaults <project_defaults>` specified in your
 ``project.conf`` are now applied on top of builtin defaults.

 Defaults such as the :ref:`variables <project_defaults_variables>` or
 :ref:`environment <project_defaults_environment>` which are specified in
 your ``project.conf`` override the builtin defaults for elements.

 Note that :ref:`plugin type specific configuration <project_overrides>`
 in ``project.conf`` is not applied until later.


 3. Plugin defaults
 ~~~~~~~~~~~~~~~~~~
 Elements and Sources are all implemented as plugins.

 Each Element plugin installs a ``.yaml`` file along side their plugin to
 define the default *variables*, *environment* and *config*.  The *config*
 is element specific and as such this is the first place where defaults
 can be set on the *config* section.

 The *variables* and *environment* specified in the declaring plugin's
 defaults here override the project configuration defaults for the given
 element ``kind``.

 Source plugins do not have a ``.yaml`` file, and do not have *variables* or
 *environment*.


 4. Project configuration overrides
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 The ``project.conf`` now gives you :ref:`another opportunity <project_overrides>` to
 override configuration on a per plugin basis.

 Configurations specified in the :ref:`elements <project_element_overrides>` or
 :ref:`sources <project_source_overrides>` sections of the ``project.conf``
 will override the given plugin's defaults.

 In this phase, it is possible to override any configurations of a given plugin,
 including configuration in element specific *config* sections.

 See also :ref:`project_overrides`


 5. Plugin declarations
 ~~~~~~~~~~~~~~~~~~~~~~~
 Finally, after having resolved any :ref:`conditionals <format_directives_conditional>`
 in the parsing phase of loading element declarations; the configurations specified in a
 ``.bst`` file have the last word on any configuration in the data model.


 .. _format_directives:

 Directives
 ----------

 .. _format_directives_conditional:

 (?) Conditionals
 ~~~~~~~~~~~~~~~~
 The ``(?)`` directive allows expression of conditional statements which
 test :ref:`project option <project_options>` values.

 The ``(?)`` directive may appear as a key in any dictionary expressed
 in YAML, and its value is a list of conditional expressions. Each conditional
 expression must be a single key dictionary, where the key is the conditional
 expression itself, and the value is a dictionary to be composited into the
 parent dictionary containing the ``(?)`` directive if the expression evaluates
 to a truthy value.

 **Example:**

 .. code:: yaml

    variables:
      prefix: "/usr"
      enable-debug: False
      (?):
      - relocate == True:
          prefix: "/opt"
      - debug == True:
          enable-debug: True


 Expressions are evaluated in the specified order, and each time an expression
 evaluates to a truthy value, its value will be composited to the parent dictionary
 in advance of processing other elements, allowing for logically overriding previous
 decisions in the condition list.

 Nesting of conditional statements is also supported.

 **Example:**

 .. code:: yaml

    variables:
      enable-logging: False
      enable-debug: False
      (?):
      - logging == True:
          enable-logging: True
          (?):
 	 - debugging == True:
              enable-debug: True


 Conditionals are expressed in a pythonic syntax, the specifics for
 testing the individually supported option types are described in
 their :ref:`respective documentation <project_options>`.

 Compound conditionals are also allowed.

 **Example:**

 .. code:: yaml

    variables:
      enable-debug: False
      (?):
      - (logging == True and debugging == True):
          enable-debug: True


 .. _format_directives_assertion:

 (!) Assertions
 ~~~~~~~~~~~~~~
 Assertions allow the project author to abort processing and present
 a custom error message to the user building their project.

 This is only useful when used with conditionals, allowing the project
 author to assert some invalid configurations.


 **Example:**

 .. code:: yaml

    variables:
      (?):
      - (logging == False and debugging == True):

          (!): |

            Impossible to print any debugging information when
 	   logging is disabled.


 .. _format_directives_list_prepend:

 (<) List Prepend
 ~~~~~~~~~~~~~~~~
 Indicates that the list should be prepended to the target list,
 instead of the default behavior which is to replace the target list.

 **Example:**

 .. code:: yaml

    config:
      configure-commands:
        # Before configuring, lets make sure we're using
        # the latest config.sub & config.guess
        (<):
        - cp %{datadir}/automake-*/config.{sub,guess} .


 .. _format_directives_list_append:

 (>) List Append
 ~~~~~~~~~~~~~~~
 Indicates that the list should be appended to the target list, instead
 of the default behavior which is to replace the target list.

 **Example:**

 .. code:: yaml

    public:
      bst:
        split-rules:
          devel:
 	   # This element also adds some extra stubs which
 	   # need to be included in the devel domain
 	   (>):
            - "%{libdir}/*.stub"


 .. _format_directives_list_overwrite:

 (=) List Overwrite
 ~~~~~~~~~~~~~~~~~~
 Indicates that the list should be overwritten completely.

 This exists mostly for completeness, and we recommend using literal
 lists most of the time instead of list overwrite directives when the
 intent is to overwrite a list.

 This has the same behavior as a literal list, except that an
 error will be triggered in the case that there is no underlying
 list to overwrite; whereas a literal list will simply create a new
 list.

 The added error protection can be useful when intentionally
 overwriting a list in an element's *public data*, which is mostly
 free form and not validated.


 **Example:**

 .. code:: yaml

    config:
      install-commands:
        # This element's `make install` is broken, replace it.
        (=):
        - cp src/program %{bindir}


	Introduction
	============
	At the core of BuildStream is a data model of :mod:`Elements <buildstream.element>` which
	are parsed from ``.bst`` files in a project directory and configured from a few different
	sources.

	When BuildStream loads your project, various levels of composition occur, allowing
	configuration on various levels with different priority.

	This page provides an introduction to the project directory structure, explains the
	basic directives supported inherently throughout the format, and outlines how composition
	occurs and what configurations are considered in which order.

	The meaning of the various constructs expressed in the BuildStream format are covered
	in other sections of the documentation.

	.. _format_structure:


	Directory structure
	-------------------
	A BuildStream project is a directory consisting of:

	* A project configuration file
	* BuildStream element files
	* Optional user defined plugins
	* An optional project.refs file

	A typical project structure may look like this::

	myproject/project.conf
	myproject/project.refs
	myproject/elements/element1.bst
	myproject/elements/element2.bst
	myproject/elements/...
	myproject/plugins/customelement.py
	myproject/plugins/customelement.yaml
	myproject/plugins/...


	Except for the project configuration file, the user is allowed to structure
	their project directory in any way. For documentation on the format of the project
	configuration file, refer to the :ref:`projectconf` documentation.

	Simpler projects may choose to place all element definition files at the
	root of the project directory while more complex projects may decide to
	put stacks in one directory and other floating elements into other directories,
	perhaps placing deployment elements in another directory, this is all fine.

	The important part to remember is that when you declare dependency relationships,
	a project relative path to the element one depends on must be provided.


	.. _format_composition:

	Composition
	-----------
	Below are the various sources of configuration which go into an element or source in the
	order in which they are applied. Configurations which are applied later have a higher
	priority and override configurations which precede them.


	1. Builtin defaults
	~~~~~~~~~~~~~~~~~~~
	The :ref:`builtin defaults <project_builtin_defaults>` provide a set of builtin
	default default values for ``project.conf``.

	The project wide defaults defined in the builtin project configuration, such as the
	variables or environment sections, form the base configuration of all elements.


	2. Project configuration
	~~~~~~~~~~~~~~~~~~~~~~~~
	The :ref:`project wide defaults <project_defaults>` specified in your
	``project.conf`` are now applied on top of builtin defaults.

	Defaults such as the :ref:`variables <project_defaults_variables>` or
	:ref:`environment <project_defaults_environment>` which are specified in
	your ``project.conf`` override the builtin defaults for elements.

	Note that :ref:`plugin type specific configuration <project_overrides>`
	in ``project.conf`` is not applied until later.


	3. Plugin defaults
	~~~~~~~~~~~~~~~~~~
	Elements and Sources are all implemented as plugins.

	Each Element plugin installs a ``.yaml`` file along side their plugin to
	define the default variables, environment and config. The config
	is element specific and as such this is the first place where defaults
	can be set on the config section.

	The variables and environment specified in the declaring plugin's
	defaults here override the project configuration defaults for the given
	element ``kind``.

	Source plugins do not have a ``.yaml`` file, and do not have variables or
	environment.


	4. Project configuration overrides
	~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
	The ``project.conf`` now gives you :ref:`another opportunity <project_overrides>` to
	override configuration on a per plugin basis.

	Configurations specified in the :ref:`elements <project_element_overrides>` or
	:ref:`sources <project_source_overrides>` sections of the ``project.conf``
	will override the given plugin's defaults.

	In this phase, it is possible to override any configurations of a given plugin,
	including configuration in element specific config sections.

	See also :ref:`project_overrides`


	5. Plugin declarations
	~~~~~~~~~~~~~~~~~~~~~~~
	Finally, after having resolved any :ref:`conditionals <format_directives_conditional>`
	in the parsing phase of loading element declarations; the configurations specified in a
	``.bst`` file have the last word on any configuration in the data model.


	.. _format_directives:

	Directives
	----------

	.. _format_directives_conditional:

	(?) Conditionals
	~~~~~~~~~~~~~~~~
	The ``(?)`` directive allows expression of conditional statements which
	test :ref:`project option <project_options>` values.

	The ``(?)`` directive may appear as a key in any dictionary expressed
	in YAML, and its value is a list of conditional expressions. Each conditional
	expression must be a single key dictionary, where the key is the conditional
	expression itself, and the value is a dictionary to be composited into the
	parent dictionary containing the ``(?)`` directive if the expression evaluates
	to a truthy value.

	Example:

	.. code:: yaml

	variables:
	prefix: "/usr"
	enable-debug: False
	(?):
	- relocate == True:
	prefix: "/opt"
	- debug == True:
	enable-debug: True


	Expressions are evaluated in the specified order, and each time an expression
	evaluates to a truthy value, its value will be composited to the parent dictionary
	in advance of processing other elements, allowing for logically overriding previous
	decisions in the condition list.

	Nesting of conditional statements is also supported.

	Example:

	.. code:: yaml

	variables:
	enable-logging: False
	enable-debug: False
	(?):
	- logging == True:
	enable-logging: True
	(?):
	- debugging == True:
	enable-debug: True


	Conditionals are expressed in a pythonic syntax, the specifics for
	testing the individually supported option types are described in
	their :ref:`respective documentation <project_options>`.

	Compound conditionals are also allowed.

	Example:

	.. code:: yaml

	variables:
	enable-debug: False
	(?):
	- (logging == True and debugging == True):
	enable-debug: True


	.. _format_directives_assertion:

	(!) Assertions
	~~~~~~~~~~~~~~
	Assertions allow the project author to abort processing and present
	a custom error message to the user building their project.

	This is only useful when used with conditionals, allowing the project
	author to assert some invalid configurations.


	Example:

	.. code:: yaml

	variables:
	(?):
	- (logging == False and debugging == True):

	(!): \|

	Impossible to print any debugging information when
	logging is disabled.


	.. _format_directives_list_prepend:

	(<) List Prepend
	~~~~~~~~~~~~~~~~
	Indicates that the list should be prepended to the target list,
	instead of the default behavior which is to replace the target list.

	Example:

	.. code:: yaml

	config:
	configure-commands:
	# Before configuring, lets make sure we're using
	# the latest config.sub & config.guess
	(<):
	- cp %{datadir}/automake-*/config.{sub,guess} .


	.. _format_directives_list_append:

	(>) List Append
	~~~~~~~~~~~~~~~
	Indicates that the list should be appended to the target list, instead
	of the default behavior which is to replace the target list.

	Example:

	.. code:: yaml

	public:
	bst:
	split-rules:
	devel:
	# This element also adds some extra stubs which
	# need to be included in the devel domain
	(>):
	- "%{libdir}/*.stub"


	.. _format_directives_list_overwrite:

	(=) List Overwrite
	~~~~~~~~~~~~~~~~~~
	Indicates that the list should be overwritten completely.

	This exists mostly for completeness, and we recommend using literal
	lists most of the time instead of list overwrite directives when the
	intent is to overwrite a list.

	This has the same behavior as a literal list, except that an
	error will be triggered in the case that there is no underlying
	list to overwrite; whereas a literal list will simply create a new
	list.

	The added error protection can be useful when intentionally
	overwriting a list in an element's public data, which is mostly
	free form and not validated.


	Example:

	.. code:: yaml

	config:
	install-commands:
	# This element's `make install` is broken, replace it.
	(=):
	- cp src/program %{bindir}