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281 строка
12 KiB
ReStructuredText
======================
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TaskGraph Mach Command
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======================
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The task graph is built by linking different kinds of tasks together, pruning
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out tasks that are not required, then optimizing by replacing subgraphs with
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links to already-completed tasks.
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Concepts
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--------
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* *Task Kind* - Tasks are grouped by kind, where tasks of the same kind do not
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have interdependencies but have substantial similarities, and may depend on
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tasks of other kinds. Kinds are the primary means of supporting diversity,
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in that a developer can add a new kind to do just about anything without
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impacting other kinds.
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* *Task Attributes* - Tasks have string attributes by which can be used for
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filtering. Attributes are documented in :doc:`attributes`.
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* *Task Labels* - Each task has a unique identifier within the graph that is
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stable across runs of the graph generation algorithm. Labels are replaced
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with TaskCluster TaskIds at the latest time possible, facilitating analysis
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of graphs without distracting noise from randomly-generated taskIds.
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* *Optimization* - replacement of a task in a graph with an equivalent,
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already-completed task, or a null task, avoiding repetition of work.
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Kinds
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-----
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Kinds are the focal point of this system. They provide an interface between
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the large-scale graph-generation process and the small-scale task-definition
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needs of different kinds of tasks. Each kind may implement task generation
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differently. Some kinds may generate task definitions entirely internally (for
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example, symbol-upload tasks are all alike, and very simple), while other kinds
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may do little more than parse a directory of YAML files.
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A ``kind.yml`` file contains data about the kind, as well as referring to a
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Python class implementing the kind in its ``implementation`` key. That
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implementation may rely on lots of code shared with other kinds, or contain a
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completely unique implementation of some functionality.
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The full list of pre-defined keys in this file is:
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``implementation``
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Class implementing this kind, in the form ``<module-path>:<object-path>``.
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This class should be a subclass of ``taskgraph.kind.base:Kind``.
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``kind-dependencies``
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Kinds which should be loaded before this one. This is useful when the kind
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will use the list of already-created tasks to determine which tasks to
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create, for example adding an upload-symbols task after every build task.
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Any other keys are subject to interpretation by the kind implementation.
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The result is a nice segmentation of implementation so that the more esoteric
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in-tree projects can do their crazy stuff in an isolated kind without making
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the bread-and-butter build and test configuration more complicated.
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Dependencies
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------------
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Dependencies between tasks are represented as labeled edges in the task graph.
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For example, a test task must depend on the build task creating the artifact it
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tests, and this dependency edge is named 'build'. The task graph generation
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process later resolves these dependencies to specific taskIds.
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Decision Task
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-------------
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The decision task is the first task created when a new graph begins. It is
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responsible for creating the rest of the task graph.
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The decision task for pushes is defined in-tree, in ``.taskcluster.yml``. That
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task description invokes ``mach taskcluster decision`` with some metadata about
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the push. That mach command determines the optimized task graph, then calls
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the TaskCluster API to create the tasks.
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Note that this mach command is *not* designed to be invoked directly by humans.
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Instead, use the mach commands described below, supplying ``parameters.yml``
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from a recent decision task. These commands allow testing everything the
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decision task does except the command-line processing and the
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``queue.createTask`` calls.
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Graph Generation
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----------------
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Graph generation, as run via ``mach taskgraph decision``, proceeds as follows:
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#. For all kinds, generate all tasks. The result is the "full task set"
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#. Create dependency links between tasks using kind-specific mechanisms. The
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result is the "full task graph".
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#. Select the target tasks (based on try syntax or a tree-specific
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specification). The result is the "target task set".
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#. Based on the full task graph, calculate the transitive closure of the target
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task set. That is, the target tasks and all requirements of those tasks.
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The result is the "target task graph".
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#. Optimize the target task graph based on kind-specific optimization methods.
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The result is the "optimized task graph" with fewer nodes than the target
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task graph.
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#. Create tasks for all tasks in the optimized task graph.
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Transitive Closure
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..................
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Transitive closure is a fancy name for this sort of operation:
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* start with a set of tasks
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* add all tasks on which any of those tasks depend
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* repeat until nothing changes
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The effect is this: imagine you start with a linux32 test job and a linux64 test job.
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In the first round, each test task depends on the test docker image task, so add that image task.
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Each test also depends on a build, so add the linux32 and linux64 build tasks.
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Then repeat: the test docker image task is already present, as are the build
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tasks, but those build tasks depend on the build docker image task. So add
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that build docker image task. Repeat again: this time, none of the tasks in
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the set depend on a task not in the set, so nothing changes and the process is
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complete.
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And as you can see, the graph we've built now includes everything we wanted
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(the test jobs) plus everything required to do that (docker images, builds).
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Optimization
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------------
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The objective of optimization to remove as many tasks from the graph as
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possible, as efficiently as possible, thereby delivering useful results as
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quickly as possible. For example, ideally if only a test script is modified in
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a push, then the resulting graph contains only the corresponding test suite
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task.
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A task is said to be "optimized" when it is either replaced with an equivalent,
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already-existing task, or dropped from the graph entirely.
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A task can be optimized if all of its dependencies can be optimized and none of
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its inputs have changed. For a task on which no other tasks depend (a "leaf
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task"), the optimizer can determine what has changed by looking at the
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version-control history of the push: if the relevant files are not modified in
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the push, then it considers the inputs unchanged. For tasks on which other
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tasks depend ("non-leaf tasks"), the optimizer must replace the task with
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another, equivalent task, so it generates a hash of all of the inputs and uses
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that to search for a matching, existing task.
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In some cases, such as try pushes, tasks in the target task set have been
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explicitly requested and are thus excluded from optimization. In other cases,
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the target task set is almost the entire task graph, so targetted tasks are
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considered for optimization. This behavior is controlled with the
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``optimize_target_tasks`` parameter.
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Action Tasks
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------------
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Action Tasks are tasks which help you to schedule new jobs via Treeherder's
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"Add New Jobs" feature. The Decision Task creates a YAML file named
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``action.yml`` which can be used to schedule Action Tasks after suitably replacing
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``{{decision_task_id}}`` and ``{{task_labels}}``, which correspond to the decision
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task ID of the push and a comma separated list of task labels which need to be
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scheduled.
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This task invokes ``mach taskgraph action-task`` which builds up a task graph of
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the requested tasks. This graph is optimized using the tasks running initially in
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the same push, due to the decision task.
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So for instance, if you had already requested a build task in the ``try`` command,
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and you wish to add a test which depends on this build, the original build task
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is re-used.
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This feature is only present on ``try`` pushes for now.
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Mach commands
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-------------
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A number of mach subcommands are available aside from ``mach taskgraph
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decision`` to make this complex system more accesssible to those trying to
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understand or modify it. They allow you to run portions of the
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graph-generation process and output the results.
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``mach taskgraph tasks``
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Get the full task set
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``mach taskgraph full``
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Get the full task graph
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``mach taskgraph target``
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Get the target task set
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``mach taskgraph target-graph``
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Get the target task graph
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``mach taskgraph optimized``
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Get the optimized task graph
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Each of these commands taskes a ``--parameters`` option giving a file with
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parameters to guide the graph generation. The decision task helpfully produces
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such a file on every run, and that is generally the easiest way to get a
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parameter file. The parameter keys and values are described in
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:doc:`parameters`; using that information, you may modify an existing
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``parameters.yml`` or create your own.
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Task Parameterization
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---------------------
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A few components of tasks are only known at the very end of the decision task
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-- just before the ``queue.createTask`` call is made. These are specified
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using simple parameterized values, as follows:
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``{"relative-datestamp": "certain number of seconds/hours/days/years"}``
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Objects of this form will be replaced with an offset from the current time
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just before the ``queue.createTask`` call is made. For example, an
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artifact expiration might be specified as ``{"relative-timestamp": "1
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year"}``.
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``{"task-reference": "string containing <dep-name>"}``
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The task definition may contain "task references" of this form. These will
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be replaced during the optimization step, with the appropriate taskId for
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the named dependency substituted for ``<dep-name>`` in the string.
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Multiple labels may be substituted in a single string, and ``<<>`` can be
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used to escape a literal ``<``.
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The ``mach taskgraph action-task`` subcommand is used by Action Tasks to
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create a task graph of the requested jobs and its non-optimized dependencies.
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Action Tasks are currently scheduled by
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[pulse_actions](https://github.com/mozilla/pulse_actions)
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Taskgraph JSON Format
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---------------------
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Task graphs -- both the graph artifacts produced by the decision task and those
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output by the ``--json`` option to the ``mach taskgraph`` commands -- are JSON
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objects, keyed by label, or for optimized task graphs, by taskId. For
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convenience, the decision task also writes out ``label-to-taskid.json``
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containing a mapping from label to taskId. Each task in the graph is
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represented as a JSON object.
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Each task has the following properties:
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``task_id``
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The task's taskId (only for optimized task graphs)
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``label``
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The task's label
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``attributes``
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The task's attributes
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``dependencies``
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The task's in-graph dependencies, represented as an object mapping
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dependency name to label (or to taskId for optimized task graphs)
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``task``
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The task's TaskCluster task definition.
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``kind_implementation``
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The module and the class name which was used to implement this particular task.
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It is always of the form ``<module-path>:<object-path>``
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The results from each command are in the same format, but with some differences
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in the content:
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* The ``tasks`` and ``target`` subcommands both return graphs with no edges.
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That is, just collections of tasks without any dependencies indicated.
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* The ``optimized`` subcommand returns tasks that have been assigned taskIds.
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The dependencies array, too, contains taskIds instead of labels, with
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dependencies on optimized tasks omitted. However, the ``task.dependencies``
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array is populated with the full list of dependency taskIds. All task
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references are resolved in the optimized graph.
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The output of the ``mach taskgraph`` commands are suitable for processing with
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the `jq <https://stedolan.github.io/jq/>`_ utility. For example, to extract all
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tasks' labels and their dependencies:
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.. code-block:: shell
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jq 'to_entries | map({label: .value.label, dependencies: .value.dependencies})'
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