6ca0726997
* The Example 13: 1+1=2 Code-Review was broken, the fix was missing in I131e2008ba previous fix. Fix the following error: test output invalid result: submit(label(Code-Review,ok(_535EC2E6))). Reason: A label with the status Code-Review: OK must contain a user. * Example 6: Make change submittable if commit author is "John Doe" was probably missing the user(ID) Change-Id: I4126f01d979b4511faa83d4f779f83599c51c29a
1095 lines
40 KiB
Plaintext
1095 lines
40 KiB
Plaintext
= Gerrit Code Review - Prolog Submit Rules Cookbook
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[[SubmitRule]]
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== Submit Rule
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A _Submit Rule_ in Gerrit is logic that defines when a change is submittable.
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By default, a change is submittable when it gets at least one
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highest vote in each voting category and has no lowest vote (aka veto vote) in
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any category. Typically, this means that a change needs `Code-Review+2`,
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`Verified+1` and has neither `Code-Review-2` nor `Verified-1` to become
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submittable.
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While this rule is a good default, there are projects which need more
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flexibility for defining when a change is submittable. In Gerrit, it is
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possible to use Prolog based rules to provide project specific submit rules and
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replace the default submit rules. Using Prolog based rules, project owners can
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define a set of criteria which must be fulfilled for a change to become
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submittable. For a change that is not submittable, the set of needed criteria
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is displayed in the Gerrit UI.
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[NOTE]
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Loading and executing Prolog submit rules may be disabled by setting
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`rules.enable=false` in the Gerrit config file (see
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link:config-gerrit.html#_a_id_rules_a_section_rules[rules section])
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link:https://groups.google.com/d/topic/repo-discuss/wJxTGhlHZMM/discussion[This
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discussion thread] explains why Prolog was chosen for the purpose of writing
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project specific submit rules.
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link:http://gerrit-documentation.googlecode.com/svn/ReleaseNotes/ReleaseNotes-2.2.2.html[Gerrit
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2.2.2 ReleaseNotes] introduces Prolog support in Gerrit.
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[[SubmitType]]
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== Submit Type
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A _Submit Type_ is a strategy that is used on submit to integrate the
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change into the destination branch. Supported submit types are:
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* `Fast Forward Only`
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* `Merge If Necessary`
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* `Merge Always`
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* `Cherry Pick`
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* `Rebase If Necessary`
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_Submit Type_ is a project global setting. This means that the same submit type
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is used for all changes of one project.
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Projects which need more flexibility in choosing, or enforcing, a submit type
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can use Prolog based submit type which replaces the project's default submit
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type.
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Prolog based submit type computes a submit type for each change. The computed
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submit type is shown on the change screen for each change.
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When submitting changes in a batch using "Submit including ancestors" or "Submit
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whole topic", submit type rules may not be used to mix submit types on a single
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branch, and trying to submit such a batch will fail. This avoids potentially
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confusing behavior and spurious submit failures. It is recommended to only use
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submit type rules to change submit types for an entire branch, which avoids this
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situation.
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== Prolog Language
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This document is not a complete Prolog tutorial.
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link:http://en.wikipedia.org/wiki/Prolog[This Wikipedia page on Prolog] is a
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good starting point for learning the Prolog language. This document will only
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explain some elements of Prolog that are necessary to understand the provided
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examples.
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== Prolog in Gerrit
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Gerrit uses its own link:https://gerrit.googlesource.com/prolog-cafe/[fork] of the
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original link:http://kaminari.istc.kobe-u.ac.jp/PrologCafe/[prolog-cafe]
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project. Gerrit embeds the prolog-cafe library and can interpret Prolog programs
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at runtime.
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== Interactive Prolog Cafe Shell
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For interactive testing and playing with Prolog, Gerrit provides the
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link:pgm-prolog-shell.html[prolog-shell] program which opens an interactive
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Prolog interpreter shell.
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[NOTE]
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The interactive shell is just a prolog shell, it does not load
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a gerrit server environment and thus is not intended for
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xref:TestingSubmitRules[testing submit rules].
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== SWI-Prolog
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Instead of using the link:pgm-prolog-shell.html[prolog-shell] program one can
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also use the link:http://www.swi-prolog.org/[SWI-Prolog] environment. It
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provides a better shell interface and a graphical source-level debugger.
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[[RulesFile]]
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== The rules.pl file
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This section explains how to create and edit project specific submit rules. How
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to actually write the submit rules is explained in the next section.
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Project specific submit rules are stored in the `rules.pl` file in the
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`refs/meta/config` branch of that project. Therefore, we need to fetch and
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checkout the `refs/meta/config` branch in order to create or edit the `rules.pl`
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file:
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----
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$ git fetch origin refs/meta/config:config
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$ git checkout config
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... edit or create the rules.pl file
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$ git add rules.pl
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$ git commit -m "My submit rules"
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$ git push origin HEAD:refs/meta/config
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----
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[[HowToWriteSubmitRules]]
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== How to write submit rules
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Whenever Gerrit needs to evaluate submit rules for a change `C` from project `P`
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it will first initialize the embedded Prolog interpreter by:
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* consulting a set of facts about the change `C`
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* consulting the `rules.pl` from the project `P`
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Conceptually we can imagine that Gerrit adds a set of facts about the change
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`C` on top of the `rules.pl` file and then consults it. The set of facts about
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the change `C` will look like:
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----
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:- package gerrit. <1>
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commit_author(user(1000000), 'John Doe', 'john.doe@example.com'). <2>
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commit_committer(user(1000000), 'John Doe', 'john.doe@example.com'). <3>
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commit_message('Add plugin support to Gerrit'). <4>
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...
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----
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<1> Gerrit will provide its facts in a package named `gerrit`. This means we
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have to use qualified names when writing our code and referencing these facts.
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For example: `gerrit:commit_author(ID, N, M)`
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<2> user ID, full name and email address of the commit author
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<3> user ID, full name and email address of the commit committer
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<4> commit message
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A complete set of facts which Gerrit provides about the change is listed in the
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link:prolog-change-facts.html[Prolog Facts for Gerrit Change].
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By default, Gerrit will search for a `submit_rule/1` predicate in the `rules.pl`
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file, evaluate the `submit_rule(X)` and then inspect the value of `X` in order
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to decide whether the change is submittable or not and also to find the set of
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needed criteria for the change to become submittable. This means that Gerrit has
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an expectation on the format and value of the result of the `submit_rule`
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predicate which is expected to be a `submit` term of the following format:
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----
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submit(label(label-name, status) [, label(label-name, status)]*)
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----
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where `label-name` is usually `'Code-Review'` or `'Verified'` but could also
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be any other string (see examples below). The `status` is one of:
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* `ok(user(ID))`. This status is used to tell that this label/category has been
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met.
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* `need(_)` is used to tell that this label/category is needed for the change to
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become submittable.
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* `reject(user(ID))`. This status is used to tell that this label/category is
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blocking submission of the change.
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* `impossible(_)` is used when the logic knows that the change cannot be submitted
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as-is. This is meant for cases where the logic requires members of a specific
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group to apply a specific label on a change, but no users are in that group.
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This is usually caused by misconfiguration of permissions.
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* `may(_)` allows expression of approval categories that are optional, i.e.
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could either be set or unset without ever influencing whether the change
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could be submitted.
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[NOTE]
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For a change to be submittable all `label` terms contained in the returned
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`submit` term must have either `ok` or `may` status.
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[IMPORTANT]
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Gerrit will let the Prolog engine continue searching for solutions of
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the `submit_rule(X)` query until it finds the first one where all labels in the
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return result have either status `ok` or `may` or there are no more solutions.
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If a solution where all labels have status `ok` is found then all previously
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found solutions are ignored. Otherwise, all labels names with status `need`
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from all solutions will be displayed in the UI indicating the set of conditions
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needed for the change to become submittable.
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Here some examples of possible return values from the `submit_rule` predicate:
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----
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submit(label('Code-Review', ok(user(ID)))) <1>
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submit(label('Code-Review', ok(user(ID))),
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label('Verified', reject(user(ID)))) <2>
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submit(label('Author-is-John-Doe', need(_)) <3>
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----
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<1> label `'Code-Review'` is met. As there are no other labels in the
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return result, the change is submittable.
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<2> label `'Verified'` is rejected. Change is not submittable.
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<3> label `'Author-is-John-Doe'` is needed for the change to become submittable.
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Note that this tells nothing about how this criteria will be met. It is up
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to the implementer of the `submit_rule` to return
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`label('Author-is-John-Doe', ok(user(ID)))` when this criteria is met. Most
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likely, it will have to match against `gerrit:commit_author` in order to
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check if this criteria is met. This will become clear through the examples
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below.
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Of course, when implementing the `submit_rule` we will use the facts about the
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change that are already provided by Gerrit.
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Another aspect of the return result from the `submit_rule` predicate is that
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Gerrit uses it to decide which set of labels to display on the change review
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screen for voting. If the return result contains label `'ABC'` and if the label
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`'ABC'` is link:config-labels.html[defined for the project] then voting for the
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label `'ABC'` will be displayed. Otherwise, it is not displayed. Note that the
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project doesn't need a defined label for each label contained in the result of
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`submit_rule` predicate. For example, the decision whether
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`'Author-is-John-Doe'` label is met will probably not be made by explicit voting
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but, instead, by inspecting the facts about the change.
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[[SubmitFilter]]
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== Submit Filter
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Another mechanism of changing the default submit rules is to implement the
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`submit_filter/2` predicate. While Gerrit will search for the `submit_rule` only
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in the `rules.pl` file of the current project, the `submit_filter` will be
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searched for in the `rules.pl` of all parent projects of the current project,
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but not in the `rules.pl` of the current project. The search will start from the
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immediate parent of the current project, then in the parent project of that
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project and so on until, and including, the `'All-Projects'` project.
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The purpose of the submit filter is, as its name says, to filter the results
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of the `submit_rule`. Therefore, the `submit_filter` predicate has two
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parameters:
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----
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submit_filter(In, Out) :- ...
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----
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Gerrit will invoke `submit_filter` with the `In` parameter containing a `submit`
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structure produced by the `submit_rule` and will take the value of the `Out`
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parameter as the result.
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The `Out` value of a `submit_filter` will become the `In` value for the
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next `submit_filter` in the parent line. The value of the `Out` parameter
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of the top-most `submit_filter` is the final result of the submit rule that
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is used to decide whether a change is submittable or not.
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[IMPORTANT]
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`submit_filter` is a mechanism for Gerrit administrators to implement
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and enforce submit rules that would apply to all projects while `submit_rule` is
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a mechanism for project owners to implement project specific submit rules.
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However, project owners who own several projects could also make use of
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`submit_filter` by using a common parent project for all their projects and
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implementing the `submit_filter` in this common parent project. This way they
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can avoid implementing the same `submit_rule` in all their projects.
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The following "drawing" illustrates the order of the invocation and the chaining
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of the results of the `submit_rule` and `submit_filter` predicates.
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----
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All-Projects
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^ submit_filter(B, S) :- ... <4>
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Parent-3
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^ <no submit filter here>
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Parent-2
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^ submit_filter(A, B) :- ... <3>
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Parent-1
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^ submit_filter(X, A) :- ... <2>
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MyProject
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submit_rule(X) :- ... <1>
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----
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<1> The `submit_rule` of `MyProject` is invoked first.
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<2> The result `X` is filtered through the `submit_filter` from the `Parent-1`
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project.
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<3> The result of `submit_filter` from `Parent-1` project is filtered by the
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`submit_filter` in the `Parent-2` project. Since `Parent-3` project doesn't have
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a `submit_filter` it is skipped.
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<4> The result of `submit_filter` from `Parent-2` project is filtered by the
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`submit_filter` in the `All-Projects` project. The value in `S` is the final
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value of the submit rule evaluation.
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[NOTE]
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If `MyProject` doesn't define its own `submit_rule` Gerrit will invoke the
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default implementation of submit rule that is named `gerrit:default_submit` and
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its result will be filtered as described above.
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[[HowToWriteSubmitType]]
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== How to write submit type
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Writing custom submit type logic in Prolog is similar to
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xref:HowToWriteSubmitRules[writing submit rules]. The only difference is that
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one has to implement a `submit_type` predicate (instead of the `submit_rule`)
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and that the return result of the `submit_type` has to be an atom that
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represents one of the supported submit types:
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* `fast_forward_only`
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* `merge_if_necessary`
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* `merge_always`
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* `cherry_pick`
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* `rebase_if_necessary`
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== Submit Type Filter
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Submit type filter works the same way as the xref:SubmitFilter[Submit Filter]
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where the name of the filter predicate is `submit_type_filter`.
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----
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submit_type_filter(In, Out).
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----
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Gerrit will invoke `submit_type_filter` with the `In` parameter containing a
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result of the `submit_type` and will take the value of the `Out` parameter as
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the result.
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[[TestingSubmitRules]]
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== Testing submit rules
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The prolog environment running the `submit_rule` is loaded with state describing
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the change that is being evaluated. The easiest way to load this state is to
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test your `submit_rule` against a real change on a running gerrit instance. The
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command link:cmd-test-submit-rule.html[test-submit rule] loads a specific change
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and executes the `submit_rule`. It optionally reads the rule from from `stdin`
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to facilitate easy testing.
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----
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$ cat rules.pl | ssh gerrit_srv gerrit test-submit rule I45e080b105a50a625cc8e1fb5b357c0bfabe6d68 -s
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----
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== Prolog vs Gerrit plugin for project specific submit rules
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Since version 2.5 Gerrit supports plugins and extension points. A plugin or an
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extension point could also be used as another means to provide custom submit
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rules. One could ask for a guideline when to use Prolog based submit rules and
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when to go for writing a new plugin. Writing a Prolog program is usually much
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faster than writing a Gerrit plugin. Prolog based submit rules can be pushed
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to a project by project owners while Gerrit plugins could only be installed by
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Gerrit administrators. In addition, Prolog based submit rules can be pushed
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for review by pushing to `refs/for/refs/meta/config` branch.
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On the other hand, Prolog based submit rules get a limited amount of facts about
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the change exposed to them. Gerrit plugins get full access to Gerrit internals
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and can potentially check more things than Prolog based rules.
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From version 2.6 Gerrit plugins can contribute Prolog predicates. This way, we
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can make use of the plugin provided predicates when writing Prolog based rules.
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== Examples - Submit Rule
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The following examples should serve as a cookbook for developing own submit
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rules. Some of them are too trivial to be used in production and their only
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purpose is to provide step by step introduction and understanding.
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Some of the examples will implement the `submit_rule` and some will implement
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the `submit_filter` just to show both possibilities. Remember that
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`submit_rule` is only invoked from the current project and `submit_filter` is
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invoked from all parent projects. This is the most important fact in deciding
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whether to implement `submit_rule` or `submit_filter`.
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=== Example 1: Make every change submittable
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Let's start with a most trivial example where we would make every change
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submittable regardless of the votes it has:
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`rules.pl`
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[source,prolog]
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----
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submit_rule(submit(W)) :-
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W = label('Any-Label-Name', ok(user(1000000))).
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----
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In this case we make no use of facts about the change. We don't need it as we
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are simply making every change submittable. Note that, in this case, the Gerrit
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UI will not show the UI for voting for the standard `'Code-Review'` and
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`'Verified'` categories as labels with these names are not part of the return
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result. The `'Any-Label-Name'` could really be any string.
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The `user(1000000)` represents the user whose account ID is `1000000`.
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[NOTE]
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Instead of the account ID `1000000` we could have used any other account ID.
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The following examples will use `user(ID)` instead of `user(1000000)` because
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it is easier to read and doesn't suggest that there is anything special with
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the account ID `1000000`.
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=== Example 2: Every change submittable and voting in the standard categories possible
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This is continuation of the previous example where, in addition, to making
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every change submittable we want to enable voting in the standard
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`'Code-Review'` and `'Verified'` categories.
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`rules.pl`
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[source,prolog]
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----
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submit_rule(submit(CR, V)) :-
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CR = label('Code-Review', ok(user(ID))),
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V = label('Verified', ok(user(ID))).
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----
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Since for every change all label statuses are `'ok'` every change will be
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submittable. Voting in the standard labels will be shown in the UI as the
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standard label names are included in the return result.
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=== Example 3: Nothing is submittable
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This example shows how to make all changes non-submittable regardless of the
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votes they have.
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`rules.pl`
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[source,prolog]
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----
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submit_rule(submit(R)) :-
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R = label('Any-Label-Name', reject(user(ID))).
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----
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Since for any change we return only one label with status `reject`, no change
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will be submittable. The UI will, however, not indicate what is needed for a
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change to become submittable as we return no labels with status `need`.
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=== Example 4: Nothing is submittable but UI shows several 'Need ...' criteria
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In this example no change is submittable but here we show how to present 'Need
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<label>' information to the user in the UI.
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`rules.pl`
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[source,prolog]
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----
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% In the UI this will show: Need Any-Label-Name
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submit_rule(submit(N)) :-
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N = label('Any-Label-Name', need(_)).
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% We could define more "need" labels by adding more rules
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submit_rule(submit(N)) :-
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N = label('Another-Label-Name', need(_)).
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% or by providing more than one need label in the same rule
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submit_rule(submit(NX, NY)) :-
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NX = label('X-Label-Name', need(_)),
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NY = label('Y-Label-Name', need(_)).
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----
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In the UI this will show:
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* `Need Any-Label-Name`
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* `Need Another-Label-Name`
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* `Need X-Label-Name`
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* `Need Y-Label-Name`
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From the example above we can see a few more things:
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* comment in Prolog starts with the `%` character
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* there could be multiple `submit_rule` predicates. Since Prolog, by default,
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tries to find all solutions for a query, the result will be union of all
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solutions. Therefore, we see all 4 `need` labels in the UI.
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=== Example 5: The 'Need ...' labels not shown when change is submittable
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This example shows that, when there is a solution for `submit_rule(X)` where all
|
|
labels have status `ok` then Gerrit will not show any labels with the `need`
|
|
status from any of the previous `submit_rule(X)` solutions.
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(submit(N)) :-
|
|
N = label('Some-Condition', need(_)).
|
|
|
|
submit_rule(submit(OK)) :-
|
|
OK = label('Another-Condition', ok(user(ID))).
|
|
----
|
|
|
|
The `'Need Some-Condition'` will not be shown in the UI because of the result of
|
|
the second rule.
|
|
|
|
The same is valid if the two rules are swapped:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(submit(OK)) :-
|
|
OK = label('Another-Condition', ok(user(ID))).
|
|
|
|
submit_rule(submit(N)) :-
|
|
N = label('Some-Condition', need(_)).
|
|
----
|
|
|
|
The result of the first rule will stop search for any further solutions.
|
|
|
|
=== Example 6: Make change submittable if commit author is "John Doe"
|
|
This is the first example where we will use the Prolog facts about a change that
|
|
are automatically exposed by Gerrit. Our goal is to make any change submittable
|
|
when the commit author is named `'John Doe'`. In the very first
|
|
step let's make sure Gerrit UI shows `'Need Author-is-John-Doe'` in
|
|
the UI to clearly indicate to the user what is needed for a change to become
|
|
submittable:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(submit(Author)) :-
|
|
Author = label('Author-is-John-Doe', need(_)).
|
|
----
|
|
|
|
This will show:
|
|
|
|
* `Need Author-is-John-Doe`
|
|
|
|
in the UI but no change will be submittable yet. Let's add another rule:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(submit(Author)) :-
|
|
Author = label('Author-is-John-Doe', need(_)).
|
|
|
|
submit_rule(submit(Author)) :-
|
|
gerrit:commit_author(A, 'John Doe', _),
|
|
Author = label('Author-is-John-Doe', ok(A)).
|
|
----
|
|
|
|
In the second rule we return `ok` status for the `'Author-is-John-Doe'` label
|
|
if there is a `commit_author` fact where the full name is `'John Doe'`. If
|
|
author of a change is `'John Doe'` then the second rule will return a solution
|
|
where all labels have `ok` status and the change will become submittable. If
|
|
author of a change is not `'John Doe'` then only the first rule will produce a
|
|
solution. The UI will show `'Need Author-is-John-Doe'` but, as expected, the
|
|
change will not be submittable.
|
|
|
|
Instead of checking by full name we could also check by the email address:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(submit(Author)) :-
|
|
Author = label('Author-is-John-Doe', need(_)).
|
|
|
|
submit_rule(submit(Author)) :-
|
|
gerrit:commit_author(A, _, 'john.doe@example.com'),
|
|
Author = label('Author-is-John-Doe', ok(A)).
|
|
----
|
|
|
|
or by user id (assuming it is `1000000`):
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(submit(Author)) :-
|
|
Author = label('Author-is-John-Doe', need(_)).
|
|
|
|
submit_rule(submit(Author)) :-
|
|
U = user(1000000),
|
|
gerrit:commit_author(U, _, _),
|
|
Author = label('Author-is-John-Doe', ok(U)).
|
|
----
|
|
|
|
or by a combination of these 3 attributes:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(submit(Author)) :-
|
|
Author = label('Author-is-John-Doe', need(_)).
|
|
|
|
submit_rule(submit(Author)) :-
|
|
A = user(1000000),
|
|
gerrit:commit_author(A, 'John Doe', 'john.doe@example.com'),
|
|
Author = label('Author-is-John-Doe', ok(A)).
|
|
----
|
|
|
|
=== Example 7: Make change submittable if commit message starts with "Fix "
|
|
Besides showing how to make use of the commit message text the purpose of this
|
|
example is also to show how to match only a part of a string symbol. Similarly
|
|
like commit author the commit message is provided as a string symbol which is
|
|
an atom in Prolog terms. When working with an atom we could only match against
|
|
the whole value. To match only part of a string symbol we have, at least, two
|
|
options:
|
|
|
|
* convert the string symbol into a list of characters and then perform
|
|
the "classical" list matching
|
|
* use the `regex_matches/2` or, even more convenient, the
|
|
`gerrit:commit_message_matches/1` predicate
|
|
|
|
Let's implement both options:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(submit(Fix)) :-
|
|
Fix = label('Commit-Message-starts-with-Fix', need(_)).
|
|
|
|
submit_rule(submit(Fix)) :-
|
|
gerrit:commit_message(M), name(M, L), starts_with(L, "Fix "),
|
|
gerrit:commit_author(A),
|
|
Fix = label('Commit-Message-starts-with-Fix', ok(A)).
|
|
|
|
starts_with(L, []).
|
|
starts_with([H|T1], [H|T2]) :- starts_with(T1, T2).
|
|
----
|
|
|
|
[NOTE]
|
|
The `name/2` embedded predicate is used to convert a string symbol into a
|
|
list of characters. A string `abc` is converted into a list of characters `[97,
|
|
98, 99]`. A double quoted string in Prolog is just a shortcut for creating a
|
|
list of characters. `"abc"` is a shortcut for `[97, 98, 99]`. This is why we use
|
|
double quotes for the `"Trivial Fix"` in the example above.
|
|
|
|
The `starts_with` predicate is self explaining.
|
|
|
|
Using the `gerrit:commit_message_matches` predicate is probably more efficient:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(submit(Fix)) :-
|
|
Fix = label('Commit-Message-starts-with-Fix', need(_)).
|
|
|
|
submit_rule(submit(Fix)) :-
|
|
gerrit:commit_message_matches('^Fix '),
|
|
gerrit:commit_author(A),
|
|
Fix = label('Commit-Message-starts-with-Fix', ok(A)).
|
|
----
|
|
|
|
The previous example could also be written so that it first checks if the commit
|
|
message starts with 'Fix '. If true then it sets OK for that category and stops
|
|
further backtracking by using the cut `!` operator:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(submit(Fix)) :-
|
|
gerrit:commit_message_matches('^Fix '),
|
|
gerrit:commit_author(A),
|
|
Fix = label('Commit-Message-starts-with-Fix', ok(A)),
|
|
!.
|
|
|
|
% Message does not start with 'Fix ' so Fix is needed to submit
|
|
submit_rule(submit(Fix)) :-
|
|
Fix = label('Commit-Message-starts-with-Fix', need(_)).
|
|
----
|
|
|
|
== The default submit policy
|
|
All examples until now concentrate on one particular aspect of change data.
|
|
However, in real-life scenarios we would rather want to reuse Gerrit's default
|
|
submit policy and extend/change it for our specific purpose. This could be
|
|
done in one of the following ways:
|
|
|
|
* understand how the default submit policy is implemented and use that as a
|
|
template for implementing custom submit rules,
|
|
* invoke the default submit rule implementation and then perform further
|
|
actions on its return result.
|
|
|
|
=== Default submit rule implementation
|
|
The default submit rule with the two default categories, `Code-Review` and
|
|
`Verified`, can be implemented as:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(submit(V, CR)) :-
|
|
gerrit:max_with_block(-2, 2, 'Code-Review', CR),
|
|
gerrit:max_with_block(-1, 1, 'Verified', V).
|
|
----
|
|
|
|
Once this implementation is understood it can be customized to implement
|
|
project specific submit rules. Note, that this implementation hardcodes
|
|
the two default categories. Introducing a new category in the database would
|
|
require introducing the same category here or a `submit_filter` in a parent
|
|
project would have to care about including the new category in the result of
|
|
this `submit_rule`. On the other side, this example is easy to read and
|
|
understand.
|
|
|
|
=== Reusing the default submit policy
|
|
To get results of Gerrit's default submit policy we use the
|
|
`gerrit:default_submit` predicate. The `gerrit:default_submit(X)` includes all
|
|
categories from the database. This means that if we write a submit rule like
|
|
this:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(X) :- gerrit:default_submit(X).
|
|
----
|
|
|
|
it is equivalent to not using `rules.pl` at all. We just delegate to
|
|
default logic. However, once we invoke the `gerrit:default_submit(X)` we can
|
|
perform further actions on the return result `X` and apply our specific
|
|
logic. The following pattern illustrates this technique:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(S) :- gerrit:default_submit(R), project_specific_policy(R, S).
|
|
|
|
project_specific_policy(R, S) :- ...
|
|
----
|
|
|
|
In the following examples both styles will be shown.
|
|
|
|
[[NonAuthorCodeReview]]
|
|
=== Example 8: Make change submittable only if `Code-Review+2` is given by a non author
|
|
In this example we introduce a new label `Non-Author-Code-Review` and make it
|
|
satisfied if there is at least one `Code-Review+2` from a non author. All other
|
|
default policies like the `Verified` category and vetoing changes still apply.
|
|
|
|
==== Reusing the `gerrit:default_submit`
|
|
First, we invoke `gerrit:default_submit` to compute the result for the default
|
|
submit policy and then add the `Non-Author-Code-Review` label to it. The
|
|
`Non-Author-Code-Review` label is added with status `ok` if such an approval
|
|
exists or with status `need` if it doesn't exist.
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(S) :-
|
|
gerrit:default_submit(X),
|
|
X =.. [submit | Ls],
|
|
add_non_author_approval(Ls, R),
|
|
S =.. [submit | R].
|
|
|
|
add_non_author_approval(S1, S2) :-
|
|
gerrit:commit_author(A),
|
|
gerrit:commit_label(label('Code-Review', 2), R),
|
|
R \= A, !,
|
|
S2 = [label('Non-Author-Code-Review', ok(R)) | S1].
|
|
add_non_author_approval(S1, [label('Non-Author-Code-Review', need(_)) | S1]).
|
|
----
|
|
|
|
This example uses the `univ` operator `=..` to "unpack" the result of the
|
|
default_submit, which is a structure of the form `submit(label('Code-Review',
|
|
ok(user(ID))), label('Verified', need(_)), ...)` into a list like `[submit,
|
|
label('Code-Review', ok(user(ID))), label('Verified', need(_)), ...]`. Then we
|
|
process the tail of the list (the list of labels) as a Prolog list, which is
|
|
much easier than processing a structure. In the end we use the same `univ`
|
|
operator to convert the resulting list of labels back into a `submit` structure
|
|
which is expected as a return result. The `univ` operator works both ways.
|
|
|
|
In `add_non_author_approval` we use the `cut` operator `!` to prevent Prolog
|
|
from searching for more solutions once the `cut` point is reached. This is
|
|
important because in the second `add_non_author_approval` rule we just add the
|
|
`label('Non-Author-Code-Review', need(_))` without first checking that there
|
|
is no non author `Code-Review+2`. The second rule will only be reached
|
|
if the `cut` in the first rule is not reached and it only happens if a
|
|
predicate before the `cut` fails.
|
|
|
|
==== Don't use `gerrit:default_submit`
|
|
Let's implement the same submit rule the other way, without reusing the
|
|
`gerrit:default_submit`:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(submit(CR, V)) :-
|
|
base(CR, V),
|
|
CR = label(_, ok(Reviewer)),
|
|
gerrit:commit_author(Author),
|
|
Author \= Reviewer,
|
|
!.
|
|
|
|
submit_rule(submit(CR, V, N)) :-
|
|
base(CR, V),
|
|
N = label('Non-Author-Code-Review', need(_)).
|
|
|
|
base(CR, V) :-
|
|
gerrit:max_with_block(-2, 2, 'Code-Review', CR),
|
|
gerrit:max_with_block(-1, 1, 'Verified', V).
|
|
----
|
|
|
|
The latter implementation is probably easier to understand and the code looks
|
|
cleaner. Note, however, that the latter implementation will always return the
|
|
two standard categories only (`Code-Review` and `Verified`) even if a new
|
|
category has been inserted into the database. To include the new category
|
|
the `rules.pl` would need to be modified or a `submit_filter` in a parent
|
|
project would have to care about including the new category in the result
|
|
of this `submit_rule`.
|
|
|
|
The former example, however, would include any newly added category as it
|
|
invokes the `gerrit:default_submit` and then modifies its result.
|
|
|
|
Which of these two behaviors is desired will always depend on how a particular
|
|
Gerrit server is managed.
|
|
|
|
=== Example 9: Remove the `Verified` category
|
|
A project has no build and test. It consists of only text files and needs only
|
|
code review. We want to remove the `Verified` category from this project so
|
|
that `Code-Review+2` is the only criteria for a change to become submittable.
|
|
We also want the UI to not show the `Verified` category in the table with
|
|
votes and on the voting screen.
|
|
|
|
This is quite simple without reusing the `gerrit:default_submit`:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(submit(CR)) :-
|
|
gerrit:max_with_block(-2, 2, 'Code-Review', CR).
|
|
----
|
|
|
|
Implementing the same rule by reusing `gerrit:default_submit` is a bit more complex:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(S) :-
|
|
gerrit:default_submit(X),
|
|
X =.. [submit | Ls],
|
|
remove_verified_category(Ls, R),
|
|
S =.. [submit | R].
|
|
|
|
remove_verified_category([], []).
|
|
remove_verified_category([label('Verified', _) | T], R) :- remove_verified_category(T, R), !.
|
|
remove_verified_category([H|T], [H|R]) :- remove_verified_category(T, R).
|
|
----
|
|
|
|
=== Example 10: Combine examples 8 and 9
|
|
In this example we want to both remove the verified and have the four eyes
|
|
principle. This means we want a combination of examples 7 and 8.
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(S) :-
|
|
gerrit:default_submit(X),
|
|
X =.. [submit | Ls],
|
|
remove_verified_category(Ls, R1),
|
|
add_non_author_approval(R1, R),
|
|
S =.. [submit | R].
|
|
----
|
|
|
|
The `remove_verified_category` and `add_non_author_approval` predicates are the
|
|
same as defined in the previous two examples.
|
|
|
|
Without reusing the `gerrit:default_submit` the same example may be implemented
|
|
as:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(submit(CR)) :-
|
|
base(CR),
|
|
CR = label(_, ok(Reviewer)),
|
|
gerrit:commit_author(Author),
|
|
Author \= Reviewer,
|
|
!.
|
|
|
|
submit_rule(submit(CR, N)) :-
|
|
base(CR),
|
|
N = label('Non-Author-Code-Review', need(_)).
|
|
|
|
base(CR) :-
|
|
gerrit:max_with_block(-2, 2, 'Code-Review', CR).
|
|
----
|
|
|
|
=== Example 11: Remove the `Verified` category from all projects
|
|
Example 9, implements `submit_rule` that removes the `Verified` category from
|
|
one project. In this example we do the same but we want to remove the `Verified`
|
|
category from all projects. This means we have to implement `submit_filter` and
|
|
we have to do that in the `rules.pl` of the `All-Projects` project.
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_filter(In, Out) :-
|
|
In =.. [submit | Ls],
|
|
remove_verified_category(Ls, R),
|
|
Out =.. [submit | R].
|
|
|
|
remove_verified_category([], []).
|
|
remove_verified_category([label('Verified', _) | T], R) :- remove_verified_category(T, R), !.
|
|
remove_verified_category([H|T], [H|R]) :- remove_verified_category(T, R).
|
|
----
|
|
|
|
=== Example 12: On release branches require DrNo in addition to project rules
|
|
A new category 'DrNo' is added to the database and is required for release
|
|
branches. To mark a branch as a release branch we use
|
|
`drno('refs/heads/branch')`.
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
drno('refs/heads/master').
|
|
drno('refs/heads/stable-2.3').
|
|
drno('refs/heads/stable-2.4').
|
|
drno('refs/heads/stable-2.5').
|
|
drno('refs/heads/stable-2.5').
|
|
|
|
submit_filter(In, Out) :-
|
|
gerrit:change_branch(Branch),
|
|
drno(Branch),
|
|
!,
|
|
In =.. [submit | I],
|
|
gerrit:max_with_block(-1, 1, 'DrNo', DrNo),
|
|
Out =.. [submit, DrNo | I].
|
|
|
|
submit_filter(In, Out) :- In = Out.
|
|
----
|
|
|
|
=== Example 13: 1+1=2 Code-Review
|
|
In this example we introduce accumulative voting to determine if a change is
|
|
submittable or not. We modify the standard `Code-Review` to be accumulative, and
|
|
make the change submittable if the total score is `2` or higher.
|
|
|
|
The code in this example is very similar to Example 8, with the addition of
|
|
`findall/3` and `gerrit:remove_label`.
|
|
|
|
The `findall/3` embedded predicate is used to form a list of all objects that
|
|
satisfy a specified Goal. In this example it is used to get a list of all the
|
|
`Code-Review` scores. `gerrit:remove_label` is a built-in helper that is
|
|
implemented similarly to the `remove_verified_category` as seen in the previous
|
|
example.
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
sum_list([], 0).
|
|
sum_list([H | Rest], Sum) :- sum_list(Rest,Tmp), Sum is H + Tmp.
|
|
|
|
add_category_min_score(In, Category, Min, P) :-
|
|
findall(X, gerrit:commit_label(label(Category,X),R),Z),
|
|
sum_list(Z, Sum),
|
|
Sum >= Min, !,
|
|
gerrit:commit_label(label(Category, V), U),
|
|
V >= 1,
|
|
!,
|
|
P = [label(Category,ok(U)) | In].
|
|
|
|
add_category_min_score(In, Category,Min,P) :-
|
|
P = [label(Category,need(Min)) | In].
|
|
|
|
submit_rule(S) :-
|
|
gerrit:default_submit(X),
|
|
X =.. [submit | Ls],
|
|
gerrit:remove_label(Ls,label('Code-Review',_),NoCR),
|
|
add_category_min_score(NoCR,'Code-Review', 2, Labels),
|
|
S =.. [submit | Labels].
|
|
----
|
|
|
|
Implementing the same example without using `gerrit:default_submit`:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(submit(CR, V)) :-
|
|
sum(2, 'Code-Review', CR),
|
|
gerrit:max_with_block(-1, 1, 'Verified', V).
|
|
|
|
% Sum the votes in a category. Uses a helper function score/2
|
|
% to select out only the score values the given category.
|
|
sum(VotesNeeded, Category, label(Category, ok(_))) :-
|
|
findall(Score, score(Category, Score), All),
|
|
sum_list(All, Sum),
|
|
Sum >= VotesNeeded,
|
|
!.
|
|
sum(VotesNeeded, Category, label(Category, need(VotesNeeded))).
|
|
|
|
score(Category, Score) :-
|
|
gerrit:commit_label(label(Category, Score), User).
|
|
|
|
% Simple Prolog routine to sum a list of integers.
|
|
sum_list(List, Sum) :- sum_list(List, 0, Sum).
|
|
sum_list([X|T], Y, S) :- Z is X + Y, sum_list(T, Z, S).
|
|
sum_list([], S, S).
|
|
----
|
|
|
|
=== Example 14: Master and apprentice
|
|
The master and apprentice example allow you to specify a user (the `master`)
|
|
that must approve all changes done by another user (the `apprentice`).
|
|
|
|
The code first checks if the commit author is in the apprentice database.
|
|
If the commit is done by an `apprentice`, it will check if there is a `+2`
|
|
review by the associated `master`.
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
% master_apprentice(Master, Apprentice).
|
|
% Extend this with appropriate user-id for your master/apprentice setup.
|
|
master_apprentice(user(1000064), user(1000000)).
|
|
|
|
submit_rule(S) :-
|
|
gerrit:default_submit(In),
|
|
In =.. [submit | Ls],
|
|
add_apprentice_master(Ls, R),
|
|
S =.. [submit | R].
|
|
|
|
check_master_approval(S1, S2, Master) :-
|
|
gerrit:commit_label(label('Code-Review', 2), R),
|
|
R = Master, !,
|
|
S2 = [label('Master-Approval', ok(R)) | S1].
|
|
check_master_approval(S1, [label('Master-Approval', need(_)) | S1], _).
|
|
|
|
add_apprentice_master(S1, S2) :-
|
|
gerrit:commit_author(Id),
|
|
master_apprentice(Master, Id),
|
|
!,
|
|
check_master_approval(S1, S2, Master).
|
|
|
|
add_apprentice_master(S, S).
|
|
----
|
|
|
|
=== Example 15: Only allow Author to submit change
|
|
This example adds a new needed category `Only-Author-Can-Submit` for any user
|
|
that is not the author of the patch. This effectively blocks all users except
|
|
the author from submitting the change. This could result in an impossible
|
|
situation if the author does not have permissions for submitting the change.
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(S) :-
|
|
gerrit:default_submit(In),
|
|
In =.. [submit | Ls],
|
|
only_allow_author_to_submit(Ls, R),
|
|
S =.. [submit | R].
|
|
|
|
only_allow_author_to_submit(S, S) :-
|
|
gerrit:commit_author(Id),
|
|
gerrit:current_user(Id),
|
|
!.
|
|
|
|
only_allow_author_to_submit(S1, [label('Only-Author-Can-Submit', need(_)) | S1]).
|
|
----
|
|
|
|
=== Example 16: Make change submittable if all comments have been resolved
|
|
In this example we will use the `unresolved_comments_count` fact about a
|
|
change. Our goal is to block the submission of any change with some
|
|
unresolved comments. Basically, it can be achieved by the following rules:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(submit(R)) :-
|
|
gerrit:unresolved_comments_count(0),
|
|
!,
|
|
gerrit:commit_author(A),
|
|
R = label('All-Comments-Resolved', ok(A)).
|
|
|
|
submit_rule(submit(R)) :-
|
|
gerrit:unresolved_comments_count(U),
|
|
U > 0,
|
|
R = label('All-Comments-Resolved', need(_)).
|
|
----
|
|
|
|
Suppose currently a change is submittable if it gets `+2` for `Code-Review`
|
|
and `+1` for `Verified`. It can be extended to support the above rules as
|
|
follows:
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_rule(submit(CR, V, R)) :-
|
|
base(CR, V),
|
|
gerrit:unresolved_comments_count(0),
|
|
!,
|
|
gerrit:commit_author(A),
|
|
R = label('All-Comments-Resolved', ok(A)).
|
|
|
|
submit_rule(submit(CR, V, R)) :-
|
|
base(CR, V),
|
|
gerrit:unresolved_comments_count(U),
|
|
U > 0,
|
|
R = label('All-Comments-Resolved', need(_)).
|
|
|
|
base(CR, V) :-
|
|
gerrit:max_with_block(-2, 2, 'Code-Review', CR),
|
|
gerrit:max_with_block(-1, 1, 'Verified', V).
|
|
----
|
|
|
|
Note that a new label as `All-Comments-Resolved` should not be configured.
|
|
It's only used to show `'Needs All-Comments-Resolved'` in the UI to clearly
|
|
indicate to the user that all the comments have to be resolved for the
|
|
change to become submittable.
|
|
|
|
== Examples - Submit Type
|
|
The following examples show how to implement own submit type rules.
|
|
|
|
=== Example 1: Set a `Cherry Pick` submit type for all changes
|
|
This example sets the `Cherry Pick` submit type for all changes. It overrides
|
|
whatever is set as project default submit type.
|
|
|
|
rules.pl
|
|
[source,prolog]
|
|
----
|
|
submit_type(cherry_pick).
|
|
----
|
|
|
|
[[SubmitTypePerBranch]]
|
|
=== Example 2: `Fast Forward Only` for all `+refs/heads/stable*+` branches
|
|
For all `+refs/heads/stable*+` branches we would like to enforce the `Fast
|
|
Forward Only` submit type. A reason for this decision may be a need to never
|
|
break the build in the stable branches. For all other branches, those not
|
|
matching the `+refs/heads/stable*+` pattern, we would like to use the project's
|
|
default submit type as defined on the project settings page.
|
|
|
|
`rules.pl`
|
|
[source,prolog]
|
|
----
|
|
submit_type(fast_forward_only) :-
|
|
gerrit:change_branch(B), regex_matches('refs/heads/stable.*', B),
|
|
!.
|
|
submit_type(T) :- gerrit:project_default_submit_type(T).
|
|
----
|
|
|
|
The first `submit_type` predicate defines the `Fast Forward Only` submit type
|
|
for `+refs/heads/stable.*+` branches. The second `submit_type` predicate returns
|
|
the project's default submit type.
|
|
|
|
GERRIT
|
|
------
|
|
Part of link:index.html[Gerrit Code Review]
|
|
|
|
SEARCHBOX
|
|
---------
|