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# Taskgraph Setup

The taskgraph is built from a YAML file. This file has two top-level

properties: `components` and `tasks`. The full list of tasks is

defined by the `tasks` object; each task is an object with a single

property representing the task with the corresponding value an object

representing the task properties. Each task requires the following

top-level properties:

* `provisionerId`: String. Name of Taskcluster provisioner

* `schedulerId`: String. Name of Taskcluster scheduler

* `deadline`: String. Time until the task expires

* `image`: String. Name of docker image to use for task

* `maxRunTime`: Number. Maximum time in seconds for which the task can

  run.

* `artifacts`: Object. List of artifacts and directories to upload; see

  Taskcluster documentation.

* `command`: String. Command to run. This is automatically wrapped in a

  run_tc command

* `options`: Optional Object. Options to pass into run_tc

  - xvfb: Boolean. Enable Xvfb for run

  - oom-killer: Boolean. Enable xvfb for run

  - hosts: Boolean. Update hosts file with wpt hosts before run

  - install-certificates: Boolean. Install wpt certs into OS

    certificate store for run

  - browser: List. List of browser names for run

  - channel: String. Browser channel for run

* `trigger`: Object. Conditions on which to consider task. One or more

  of following properties:

  - branch: List. List of branch names on which to trigger.

  - pull-request: No value. Trigger for pull request actions

* `schedule-if`: Optional Object. Conditions on which task should be

  scheduled given it meets the trigger conditions.

  - `run-job`: List. Job names for which this task should be considered,

    matching the output from `./wpt test-jobs`

* `env`: Optional Object. Environment variables to set when running task.

* `depends-on`: Optional list. List of task names that must be complete

  before the current task is scheduled.

* `description`: String. Task description.

* `name`: Optional String. Name to use for the task overriding the

  property name. This is useful in combination with substitutions

  described below.

* `download-artifacts`: Optional Object. An artifact to download from

  a task that this task depends on. This has the following properties:

  - `task` - Name of the task producing the artifact

  - `glob` - A glob pattern for the filename of the artifact

  - `dest` - A directory reltive to the home directory in which to place

             the artifact

  - `extract` - Optional. A boolean indicating whether an archive artifact

                should be extracted in-place.

## Task Expansions

Using the above syntax it's possble to describe each task

directly. But typically in a taskgraph there are many common

properties between tasks so it's tedious and error prone to repeat

information that's common to multiple tasks. Therefore the taskgraph

format provides several mechanisms to reuse partial task definitions

across multiple tasks.

### Components

The other top-level property in the taskgraph format is

`components`. The value of this property is an object containing named

partial task definitions. Each task definition may contain a property called

`use` which is a list of components to use as the basis for the task

definition. The components list is evaluated in order. If a property

is not previously defined in the output it is added to the output. If

it was previously defined, the value is updated according to the type:

 * Strings and numbers are replaced with a new value

 * Lists are extended with the additional values

 * Objects are updated recursively following the above rules

This means that types must always match between components and the

final value.

For example

```

components:

  example-1:

    list_prop:

      - first

      - second

    object_prop:

      key1: value1

      key2: base_value

  example-2:

    list_prop:

      - third

      - fourth

    object_prop:

      key3:

        - value3-1

tasks:

  - example-task:

      use:

        - example-1

        - example-2

      object_prop:

        key2: value2

        key3:

          - value3-2

```

will evaluate to the following task:

```

example-task:

  list_prop:

    - first

    - second

    - third

    - fourth

  object_prop:

    key1: value1

    key2: value2

    key3:

      - value3-1

      - value3-2

```

Note that components cannot currently define `use` properties of their own.

## Substitutions

Components and tasks can define a property `vars` that holds variables

which are later substituted into the task definition using the syntax

`${vars.property-name}`. For example:

```

components:

  generic-component:

    prop: ${vars.value}

tasks:

  - first:

      use:

        - generic-component

      vars:

        value: value1

  - second:

      use:

        - generic-component

      vars:

        value: value2

```

Results in the following tasks:

```

first:

  prop: value1

second:

  prop: value2

```

## Maps

Instead of defining a task directly, an item in the tasks property may

be an object with a single property `$map`. This object itself has two

child properties; `for` and `do`. The value of `for` is a list of

objects, and the value of `do` is either an object or a list of

objects. For each object in the `for` property, a set of tasks is

created by taking a copy of that object for each task in the `do`

property, updating the object with the properties from the

corresponding `do` object, using the same rules as for components

above, and then processing as for a normal task. `$map` rules can also

be nested.

Note: Although `$map` shares a name with the `$map` used in json-e

(used. in `.taskcluster.yml`), the semantics are different.

For example

```

components: {}

tasks:

  $map:

    for:

      - vars:

          example: value1

      - vars:

          example: value2

do:

      example-${vars.example}

        prop: ${vars.example}

```

Results in the tasks

```

example-value1:

  prop: value1

example-value2:

  prop: value2

```

Note that in combination with `$map`, variable substitutions are

applied *twice*; once after the `$map` is evaluated and once after the

`use` statements are evaluated.

## Chunks

A common requirements for tasks is that they are "chunked" into N

partial tasks. This is handled specially in the syntax. A top level

property `chunks` can be used to define the number of individual

chunks to create for a specific task. Each chunked task is created

with a `chunks` property set to an object containing an `id` property

containing the one-based index of the chunk an a `total` property

containing the total number of chunks. These can be substituted into

the task definition using the same syntax as for `vars` above

e.g. `${chunks.id}`. Note that because task names must be unique, it's

common to specify a `name` property on the task that will override the

property name e.g.

```

components: {}

tasks:

  - chunked-task:

      chunks:2

      command: "task-run --chunk=${chunks.id} --totalChunks=${chunks.total}"

      name: task-chunk-${chunks.id}

```

creates tasks:

```

task-chunk-1:

  command: "task-run --chunk=1 --totalChunks=2"

task-chunk-2:

  command: "task-run --chunk=2 --totalChunks=2"

```

# Overall processing model

The overall processing model for tasks is as follows:

 * Evaluate maps

 * Perform subsitutions

 * Evaluate use statements

 * Expand chunks

 * Perform subsitutions

At each point after maps are evaluated tasks must have a unique name.