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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/**********************************************************************
THIS FILE IS OBSOLETE AND UNMAINTAINED.
The functionality in this file has moved to a proper Gradle plugin
However, this file must remain on the master branch indefinitely so that
Glean-using applications can continue to build historical revisions from
prior to the existence of the plugin.
**********************************************************************/
/*
* IMPORTANT DEVELOPER'S NOTE:
*
* Because of how Fenix and &-browser include this file, any time this file
* is updated, we need to publish an android-components snapshot immediately
* to avoid breaking the build.
*
* (This comment will become irrelevant when Fenix starts using tagged releases
* of android-components rather than tracking snapshots.)
*/
import groovy.json.JsonOutput
import java.util.logging.Logger
import org.apache.tools.ant.taskdefs.condition.Os
import org.gradle.api.internal.artifacts.ArtifactAttributes
Logger logger = Logger.getLogger("Glean sdk_generator.gradle")
logger.warning("The Glean sdk_generator.gradle script is deprecated. Use the Glean Gradle plugin instead")
// This installs a Miniconda3 environment into the gradle user home directory
// so that it will be shared between all libraries that use Glean. This is
// important because it is approximately 300MB in installed size.
///////////////////////////////////////////////////////////////////////////
// NOTE: SINCE THIS FILE HAS BEEN DEPRECATED, THIS VERSION SHOULD NO LONGER BE
// UPDATED. THE CANONICAL SOURCE FOR THE glean_parser VERSION IS IN THE
// glean-gradle-plugin IN https://github.com/mozilla/glean
///////////////////////////////////////////////////////////////////////////
String GLEAN_PARSER_VERSION = "1.18.2"
// The version of Miniconda is explicitly specified.
// Miniconda3-4.5.12 is known to not work on Windows.
String MINICONDA_VERSION = "4.5.11"
File GLEAN_BOOTSTRAP_DIR = new File(
project.getGradle().gradleUserHomeDir,
"glean/bootstrap-${MINICONDA_VERSION}"
)
File GLEAN_MINICONDA_DIR = new File(
GLEAN_BOOTSTRAP_DIR,
"Miniconda3"
)
// Define the path to the Miniconda3 installation as a buildConfig variable so
// that tests that need to run JSON through our JSON schema can do so.
android {
defaultConfig {
buildConfigField(
"String",
"GLEAN_MINICONDA_DIR",
// Carefully escape the string here so it will support `\` in
// Windows paths correctly.
JsonOutput.toJson(GLEAN_MINICONDA_DIR.path)
)
}
}
/* This script runs a given Python module as a "main" module, like
* `python -m module`. However, it first checks that the installed
* package is at the desired version, and if not, upgrades it using `pip`.
*/
String runPythonScript = """
import importlib
import subprocess
import sys
module_name = sys.argv[1]
expected_version = sys.argv[2]
try:
module = importlib.import_module(module_name)
except ImportError:
found_version = None
else:
found_version = getattr(module, '__version__')
if found_version != expected_version:
subprocess.check_call([
sys.executable,
'-m',
'pip',
'install',
'--upgrade',
f'{module_name}=={expected_version}'
])
subprocess.check_call([
sys.executable,
'-m',
module_name
] + sys.argv[3:])
"""
// Even though we are installing the Miniconda environment to the gradle user
// home directory, the gradle-python-envs plugin is hardcoded to download the
// installer to the project's build directory. Doing so will fail if the
// project's build directory doesn't already exist. This task ensures that
// the project's build directory exists before downloading and installing the
// Miniconda environment.
// The fix in the above is not actually sufficient -- we need to add createBuildDir
// as a dependency of Bootstrap_CONDA (where conda is installed), as the preBuild
// task alone isn't early enough.
task createBuildDir {
description = "Make sure the build dir exists before creating the Python Environments"
onlyIf {
!file(buildDir).exists()
}
doLast {
project.logger.lifecycle("Creating build directory:" + buildDir.getPath())
buildDir.mkdir()
}
}
// Configure the Python environments
envs {
bootstrapDirectory = GLEAN_BOOTSTRAP_DIR
pipInstallOptions = "--trusted-host pypi.python.org --no-cache-dir"
// Setup a miniconda environment. conda is used because it works
// non-interactively on Windows, unlike the other options
conda "Miniconda3", "Miniconda3-${MINICONDA_VERSION}", "64", ["glean_parser==${GLEAN_PARSER_VERSION}"]
}
tasks.whenTaskAdded { task ->
if (task.name.startsWith('Bootstrap_CONDA')) {
task.dependsOn(createBuildDir)
}
}
preBuild.dependsOn(createBuildDir)
preBuild.finalizedBy("build_envs")
clean {
delete GLEAN_BOOTSTRAP_DIR
}
// Support for extracting metrics.yaml from artifact files.
// This is how to extract `metrics.yaml` and `pings.yaml` from AAR files: an "artifact transform"
// identifies the files in an "exploded AAR" directory. See
// This is exactly how elements of AAR files are consumed by the Android-Gradle plugin; see the
// transforms defined in
// and their usage at
//
// Note that this mechanism only applies to `module` dependencies (i.e., AAR files downloaded from
// Maven) and not to `project` dependencies in the same root project or substituted as part of a
// Gradle composite build.
class GleanMetricsYamlTransform extends ArtifactTransform {
List<File> transform(File file) {
def f = new File(file, "metrics.yaml")
if (f.exists()) {
return [f]
}
return []
}
}
if (project.ext.has("allowMetricsFromAAR")) {
dependencies {
registerTransform { reg ->
// The type here should be
// `com.android.build.gradle.internal.publishing.AndroidArtifacts.ArtifactType.EXPLODED_AAR.getType())`,
// but there's no good way to access the including script's classpath from `apply from:`
// scripts. See https://stackoverflow.com/a/37060550. The 'android-exploded-aar' string is
// very unlikely to change, so it's just hard-coded.
reg.getFrom().attribute(
ArtifactAttributes.ARTIFACT_FORMAT,
'android-exploded-aar')
reg.getTo().attribute(
ArtifactAttributes.ARTIFACT_FORMAT,
'glean-metrics-yaml')
reg.artifactTransform(GleanMetricsYamlTransform.class)
}
}
}
def gleanTaskNamePrefix = "gleanGenerateMetrics"
// A shared function to get the Python command line executable.
ext.gleanGetPythonCommand = {
// Note that the command line is OS dependant: on linux/mac is Miniconda3/bin/python.
if (Os.isFamily(Os.FAMILY_WINDOWS)) {
return new File(GLEAN_MINICONDA_DIR, "python")
}
return new File(GLEAN_MINICONDA_DIR, "bin/python")
}
// Generate the various Glean SDK artifacts.
ext.gleanAttachGeneratingTasks = {
variant ->
def sourceOutputDir = "$buildDir/generated/source/glean/${variant.dirName}/kotlin"
// Get the name of the package as if it were to be used in the R or BuildConfig
// files. This is required since applications can define different application ids
// depending on the variant type: the generated API definitions don't need to be
// different due to that.
TaskProvider buildConfigProvider = variant.getGenerateBuildConfigProvider()
def originalPackageName = buildConfigProvider.get().getBuildConfigPackageName()
def fullNamespace = "${originalPackageName}.GleanMetrics"
def generateKotlinAPI = task("${gleanTaskNamePrefix}SourceFor${variant.name.capitalize()}", type: Exec) {
description = "Generate the Kotlin code for the Metrics API"
if (project.ext.has("allowMetricsFromAAR")) {
// This is sufficiently lazy to be valid at configuration time. See the model at
inputs.files variant.compileConfiguration.incoming.artifactView {
attributes {
it.attribute(ArtifactAttributes.ARTIFACT_FORMAT, 'glean-metrics-yaml')
}
}.files
}
outputs.dir sourceOutputDir
workingDir rootDir
commandLine gleanGetPythonCommand()
def gleanNamespace = "mozilla.components.service.glean"
if (project.ext.has("gleanNamespace")) {
gleanNamespace = project.ext.get("gleanNamespace")
}
args "-c"
args runPythonScript
args "glean_parser"
args GLEAN_PARSER_VERSION
args "translate"
args "-f"
args "kotlin"
args "-o"
args "$sourceOutputDir"
args "-s"
args "namespace=$fullNamespace"
args "-s"
args "glean_namespace=$gleanNamespace"
// We intentionally don't let out the local metrics.yaml, even if another one will
// be extracted from the AAR file. The parser will just ignore this one, if not present.
args "$projectDir/metrics.yaml"
args "$projectDir/pings.yaml"
// If we're building the Glean library itself (rather than an
// application using Glean) pass the --allow-reserved flag so we can
// use metrics in the "glean..." category
if (project.name == 'service-glean' || project.ext.has("allowGleanInternal")) {
args "--allow-reserved"
}
doFirst {
// Add the potential 'metrics.yaml' files at evaluation-time, rather than
// configuration-time. Otherwise the Gradle build will fail.
if (project.ext.has("allowMetricsFromAAR")) {
inputs.files.forEach{ file ->
project.logger.lifecycle("Glean SDK - generating API from ${file.path}")
args file.path
}
}
}
// Only show the output if something went wrong.
ignoreExitValue = true
standardOutput = new ByteArrayOutputStream()
errorOutput = standardOutput
doLast {
if (executionResult.exitValue != 0) {
throw new GradleException("Process '${commandLine}' finished with non-zero exit value ${executionResult.exitValue}:\n\n${standardOutput.toString()}")
}
}
}
// Create the task for generating Glean SDK docs.
def generateDocsTask = task("${gleanTaskNamePrefix}DocsFor${variant.name.capitalize()}", type: Exec) {
description = "Generate the Markdown docs for the collected metrics"
def gleanDocsDirectory = "$projectDir/docs"
if (project.ext.has("gleanDocsDirectory")) {
gleanDocsDirectory = project.ext.get("gleanDocsDirectory")
}
if (project.ext.has("allowMetricsFromAAR")) {
// This is sufficiently lazy to be valid at configuration time. See the model at
inputs.files variant.compileConfiguration.incoming.artifactView {
attributes {
it.attribute(ArtifactAttributes.ARTIFACT_FORMAT, 'glean-metrics-yaml')
}
}.files
}
outputs.dir gleanDocsDirectory
workingDir rootDir
commandLine gleanGetPythonCommand()
args "-c"
args runPythonScript
args "glean_parser"
args GLEAN_PARSER_VERSION
args "translate"
args "-f"
args "markdown"
args "-o"
args gleanDocsDirectory
args "$projectDir/metrics.yaml"
args "$projectDir/pings.yaml"
// If we're building the Glean library itself (rather than an
// application using Glean) pass the --allow-reserved flag so we can
// use metrics in the "glean..." category
if (project.name == 'service-glean' || project.ext.has("allowGleanInternal")) {
args "--allow-reserved"
}
doFirst {
// Add the potential 'metrics.yaml' files at evaluation-time, rather than
// configuration-time. Otherwise the Gradle build will fail.
if (project.ext.has("allowMetricsFromAAR")) {
inputs.files.forEach{ file ->
project.logger.lifecycle("Glean SDK - generating docs for ${file.path} in $gleanDocsDirectory")
args file.path
}
}
}
// Only show the output if something went wrong.
ignoreExitValue = true
standardOutput = new ByteArrayOutputStream()
errorOutput = standardOutput
doLast {
if (executionResult.exitValue != 0) {
throw new GradleException("Process '${commandLine}' finished with non-zero exit value ${executionResult.exitValue}:\n\n${standardOutput.toString()}")
}
}
}
// Only attach the generation task if the metrics file is available or we're requested
// to fetch them from AAR files. We don't need to fail hard otherwise, as some 3rd party
// project might just want metrics included in Glean and nothing more.
if (file("$projectDir/metrics.yaml").exists()
|| file("$projectDir/pings.yaml").exists()
|| project.ext.has("allowMetricsFromAAR")) {
// Generate the Metrics docs, if requested.
if (project.ext.has("gleanGenerateMarkdownDocs")) {
// Attach the docs generation task to the code generation task, to make sure
// we generate docs, if we're asked for it.
generateKotlinAPI.dependsOn(generateDocsTask)
}
// This is an Android-Gradle plugin 3+-ism. Culted from reading the source,
// searching for "registerJavaGeneratingTask", and finding
// The added directory doesn't appear in the paths listed by the
// `sourceSets` task, for reasons unknown.
variant.registerJavaGeneratingTask(generateKotlinAPI, new File(sourceOutputDir))
}
}
if (android.hasProperty('applicationVariants')) {
android.applicationVariants.all(ext.gleanAttachGeneratingTasks)
} else {
android.libraryVariants.all(ext.gleanAttachGeneratingTasks)
}