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e9c0612fbf
Fix formatting error with underscores
134 lines
5.4 KiB
Python
134 lines
5.4 KiB
Python
"""# Version Stamping
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Bazel is generally only a build tool, and is unaware of your version control system.
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However, when publishing releases, you may want to embed version information in the resulting distribution.
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Bazel supports this with the concept of a "Workspace status" which is evaluated before each build.
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See [the Bazel workspace status docs](https://docs.bazel.build/versions/master/user-manual.html#workspace_status)
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To stamp a build, you pass the `--stamp` argument to Bazel.
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> Note: https://github.com/bazelbuild/bazel/issues/14341 proposes that Bazel enforce this by
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> only giving constant values to rule implementations when stamping isn't enabled.
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Stamping is typically performed on a later action in the graph, like on a linking or packaging rule (`pkg_*`).
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This means that a changed status variable only causes that action, not re-compilation and thus does not cause cascading re-builds.
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Bazel provides a couple of statuses by default, such as `BUILD_EMBED_LABEL` which is the value of the `--embed_label`
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argument, as well as `BUILD_HOST` and `BUILD_USER`. You can supply more with the workspace status script, see below.
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Some rules accept an attribute that uses the status variables.
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They will usually say something like "subject to stamp variable replacements".
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## Stamping with a Workspace status script
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To define additional statuses, pass the `--workspace_status_command` flag to `bazel`.
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This slows down every build, so you should avoid passing this flag unless you need to stamp this build.
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The value of this flag is a path to a script that prints space-separated key/value pairs, one per line, such as
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```bash
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#!/usr/bin/env bash
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echo STABLE_GIT_COMMIT $(git rev-parse HEAD)
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```
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> For a more full-featured script, take a look at this [example in Angular]
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Make sure you set the executable bit, eg. `chmod +x tools/bazel_stamp_vars.sh`.
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> **NOTE** keys that start with `STABLE_` will cause a re-build when they change.
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> Other keys will NOT cause a re-build, so stale values can appear in your app.
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> Non-stable (volatile) keys should typically be things like timestamps that always vary between builds.
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You might like to encode your setup using an entry in `.bazelrc` such as:
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```sh
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# This tells Bazel how to interact with the version control system
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# Enable this with --config=release
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build:release --stamp --workspace_status_command=./tools/bazel_stamp_vars.sh
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```
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[example in Angular]: https://github.com/angular/angular/blob/df274b478e6597cb1a2f31bb9f599281065aa250/dev-infra/release/env-stamp.ts
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## Writing a custom rule which reads stamp variables
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First, load the helpers:
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```starlark
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load("@aspect_bazel_lib//lib:stamping.bzl", "STAMP_ATTRS", "maybe_stamp")
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```
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In your rule implementation, call the `maybe_stamp` function.
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If it returns `None` then this build doesn't have stamping enabled.
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Otherwise you can use the returned struct to access two files.
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1. The `stable_status` file contains the keys which were prefixed with `STABLE_`, see above.
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2. The `volatile_status` file contains the rest of the keys.
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```starlark
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def _rule_impl(ctx):
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args = ctx.actions.args()
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inputs = []
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stamp = maybe_stamp(ctx)
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if stamp:
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args.add("--volatile_status_file", stamp.volatile_status_file.path)
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args.add("--stable_status_file", stamp.stable_status_file.path)
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inputs.extend([stamp.volatile_status_file, stamp.stable_status_file])
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# ... call actions which parse the stamp files and do something with the values ...
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```
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Finally, in the declaration of the rule, include the `STAMP_ATTRS` to declare attributes
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which are read by that `maybe_stamp` function above.
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```starlark
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my_stamp_aware_rule = rule(
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attrs = dict({
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# ... my attributes ...
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}, **STAMP_ATTRS),
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)
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```
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"""
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load("//lib/private:stamping.bzl", "is_stamping_enabled")
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def maybe_stamp(ctx):
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"""Provide the bazel-out/stable_status.txt and bazel-out/volatile_status.txt files.
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Args:
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ctx: The rule context
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Returns:
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If stamping is not enabled for this rule under the current build, returns None.
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Otherwise, returns a struct containing (volatile_status_file, stable_status_file) keys
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"""
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if is_stamping_enabled(ctx.attr):
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return struct(
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volatile_status_file = ctx.version_file,
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stable_status_file = ctx.info_file,
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)
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return None
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STAMP_ATTRS = {
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"stamp": attr.int(
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doc = """\
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Whether to encode build information into the output. Possible values:
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- `stamp = 1`: Always stamp the build information into the output, even in
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[--nostamp](https://docs.bazel.build/versions/main/user-manual.html#flag--stamp) builds.
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This setting should be avoided, since it is non-deterministic.
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It potentially causes remote cache misses for the target and
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any downstream actions that depend on the result.
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- `stamp = 0`: Never stamp, instead replace build information by constant values.
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This gives good build result caching.
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- `stamp = -1`: Embedding of build information is controlled by the
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[--[no]stamp](https://docs.bazel.build/versions/main/user-manual.html#flag--stamp) flag.
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Stamped targets are not rebuilt unless their dependencies change.
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""",
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default = -1,
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values = [1, 0, -1],
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),
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"_stamp_flag": attr.label(
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doc = "Internal use only. A setting used to determine whether or not the `--stamp` flag is enabled.",
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default = Label("//lib:stamp"),
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),
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}
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