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fenix/app/src/main/java/org/mozilla/fenix/FenixApplication.kt

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Kotlin
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2019-01-24 22:07:52 +01:00
/* 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/. */
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package org.mozilla.fenix
import android.annotation.SuppressLint
import android.app.Application
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import android.os.Build
import android.os.Build.VERSION.SDK_INT
import android.os.StrictMode
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import androidx.appcompat.app.AppCompatDelegate
import io.reactivex.plugins.RxJavaPlugins
import kotlinx.coroutines.Deferred
import kotlinx.coroutines.Dispatchers
import kotlinx.coroutines.GlobalScope
import kotlinx.coroutines.async
import kotlinx.coroutines.runBlocking
import mozilla.components.concept.fetch.Client
import mozilla.components.lib.fetch.httpurlconnection.HttpURLConnectionClient
import mozilla.components.service.fretboard.Fretboard
import mozilla.components.service.fretboard.source.kinto.KintoExperimentSource
import mozilla.components.service.fretboard.storage.flatfile.FlatFileExperimentStorage
import mozilla.components.support.base.log.Log
import mozilla.components.support.base.log.logger.Logger
import mozilla.components.support.base.log.sink.AndroidLogSink
import mozilla.components.support.ktx.android.content.isMainProcess
import mozilla.components.support.ktx.android.content.runOnlyInMainProcess
import mozilla.components.support.rustlog.RustLog
import org.mozilla.fenix.components.Components
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import org.mozilla.fenix.utils.Settings
import java.io.File
@SuppressLint("Registered")
@Suppress("TooManyFunctions")
open class FenixApplication : Application() {
lateinit var fretboard: Fretboard
lateinit var experimentLoader: Deferred<Boolean>
var experimentLoaderComplete: Boolean = false
open val components by lazy { Components(this) }
override fun onCreate() {
super.onCreate()
setupApplication()
}
open fun setupApplication() {
// loadExperiments does things that run in parallel with the rest of setup.
// Call the function as early as possible so there's maximum overlap.
experimentLoader = loadExperiments()
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setDayNightTheme()
val megazordEnabled = setupMegazord()
setupLogging(megazordEnabled)
registerRxExceptionHandling()
setupCrashReporting()
enableStrictMode()
if (!isMainProcess()) {
// If this is not the main process then do not continue with the initialization here. Everything that
// follows only needs to be done in our app's main process and should not be done in other processes like
// a GeckoView child process or the crash handling process. Most importantly we never want to end up in a
// situation where we create a GeckoRuntime from the Gecko child process (
return
}
setupLeakCanary()
if (Settings.getInstance(this).isTelemetryEnabled) {
components.analytics.metrics.start()
}
}
private fun registerRxExceptionHandling() {
RxJavaPlugins.setErrorHandler {
it.cause?.run {
throw this
} ?: throw it
}
}
/**
* Wait until all experiments are loaded
*
* This function will cause the caller to block until the experiments are loaded.
* It could be used in any number of reasons, but the most likely scenario is that
* a calling function needs to access the loaded experiments and wants to
* make sure that the experiments are loaded from the server before doing so.
*
* Because this function is synchronized, it can only be accessed by one thread
* at a time. Anyone trying to check the loaded status will wait if someone is
* already waiting. This is okay because the thread waiting for access to the
* function will immediately see that the loader is complete upon gaining the
* opportunity to run the function.
*/
@Synchronized
public fun waitForExperimentsToLoad() {
// Do we know that we are already complete?
if (!experimentLoaderComplete) {
// No? Have we completed since the last call?
if (!experimentLoader.isCompleted) {
// No? Well, let's wait.
runBlocking {
experimentLoader.await()
}
}
// Set this so we don't have to wait on the next call.
experimentLoaderComplete = true
}
}
protected open fun setupLeakCanary() {
// no-op, LeakCanary is disabled by default
}
open fun toggleLeakCanary(newValue: Boolean) {
// no-op, LeakCanary is disabled by default
}
private fun setupLogging(megazordEnabled: Boolean) {
// We want the log messages of all builds to go to Android logcat
Log.addSink(AndroidLogSink())
if (megazordEnabled) {
// We want rust logging to go through the log sinks.
// This has to happen after initializing the megazord, and
// it's only worth doing in the case that we are a megazord.
RustLog.enable()
}
}
private fun loadExperiments(): Deferred<Boolean> {
return GlobalScope.async(Dispatchers.IO) {
val experimentsFile = File(filesDir, EXPERIMENTS_JSON_FILENAME)
val experimentSource = KintoExperimentSource(
EXPERIMENTS_BASE_URL,
EXPERIMENTS_BUCKET_NAME,
EXPERIMENTS_COLLECTION_NAME,
// TODO Switch back to components.core.client (see https://github.com/mozilla-mobile/fenix/issues/1329)
HttpURLConnectionClient()
)
// TODO add ValueProvider to keep clientID in sync with Glean when ready
fretboard = Fretboard(experimentSource, FlatFileExperimentStorage(experimentsFile))
fretboard.loadExperiments()
Logger.debug("Bucket is ${fretboard.getUserBucket(this@FenixApplication)}")
Logger.debug("Experiments active: ${fretboard.getExperimentsMap(this@FenixApplication)}")
fretboard.updateExperiments()
return@async true
}
}
private fun setupCrashReporting() {
components
.analytics
.crashReporter
.install(this)
}
/**
* Initiate Megazord sequence! Megazord Battle Mode!
*
* Mozilla Application Services publishes many native (Rust) code libraries that stand alone: each published Android
* ARchive (AAR) contains managed code (classes.jar) and multiple .so library files (one for each supported
* architecture). That means consuming multiple such libraries entails at least two .so libraries, and each of those
* libraries includes the entire Rust standard library as well as (potentially many) duplicated dependencies. To
* save space and allow cross-component native-code Link Time Optimization (LTO, i.e., inlining, dead code
* elimination, etc).
* Application Services also publishes composite libraries -- so called megazord libraries or just megazords -- that
* compose multiple Rust components into a single optimized .so library file.
*
* @return Boolean indicating if we're in a megazord.
*/
private fun setupMegazord(): Boolean {
// mozilla.appservices.FenixMegazord will be missing if we're doing an application-services
// dependency substitution locally. That class is supplied dynamically by the org.mozilla.appservices
// gradle plugin, and that won't happen if we're not megazording. We won't megazord if we're
// locally substituting every module that's part of the megazord's definition, which is what
// happens during a local substitution of application-services.
// As a workaround, use reflections to conditionally initialize the megazord in case it's present.
return try {
val megazordClass = Class.forName("mozilla.appservices.FenixMegazord")
val megazordInitMethod = megazordClass.getDeclaredMethod("init", Lazy::class.java)
val client: Lazy<Client> = lazy { components.core.client }
megazordInitMethod.invoke(megazordClass, client)
true
} catch (e: ClassNotFoundException) {
Logger.info("mozilla.appservices.FenixMegazord not found; skipping megazord init.")
false
}
}
override fun onTrimMemory(level: Int) {
super.onTrimMemory(level)
runOnlyInMainProcess {
components.core.sessionManager.onLowMemory()
}
}
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@SuppressLint("WrongConstant")
// Suppressing erroneous lint warning about using MODE_NIGHT_AUTO_BATTERY, a likely library bug
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private fun setDayNightTheme() {
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val settings = Settings.getInstance(this)
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when {
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settings.shouldUseLightTheme -> {
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AppCompatDelegate.setDefaultNightMode(
AppCompatDelegate.MODE_NIGHT_NO
)
}
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settings.shouldUseDarkTheme -> {
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AppCompatDelegate.setDefaultNightMode(
AppCompatDelegate.MODE_NIGHT_YES
)
}
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SDK_INT < Build.VERSION_CODES.P && settings.shouldUseAutoBatteryTheme -> {
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AppCompatDelegate.setDefaultNightMode(
AppCompatDelegate.MODE_NIGHT_AUTO_BATTERY
)
}
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SDK_INT >= Build.VERSION_CODES.P && settings.shouldFollowDeviceTheme -> {
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AppCompatDelegate.setDefaultNightMode(
AppCompatDelegate.MODE_NIGHT_FOLLOW_SYSTEM
)
}
// First run of app no default set, set the default to Follow System for 28+ and Normal Mode otherwise
else -> {
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if (SDK_INT >= Build.VERSION_CODES.P) {
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AppCompatDelegate.setDefaultNightMode(
AppCompatDelegate.MODE_NIGHT_FOLLOW_SYSTEM
)
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settings.setFollowDeviceTheme(true)
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} else {
AppCompatDelegate.setDefaultNightMode(
AppCompatDelegate.MODE_NIGHT_NO
)
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settings.setLightTheme(true)
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}
}
}
}
private fun enableStrictMode() {
if (BuildConfig.DEBUG) {
StrictMode.setThreadPolicy(
StrictMode.ThreadPolicy.Builder()
.detectAll()
.penaltyLog()
.build()
)
var builder = StrictMode.VmPolicy.Builder()
.detectLeakedSqlLiteObjects()
.detectLeakedClosableObjects()
.detectLeakedRegistrationObjects()
.detectActivityLeaks()
.detectFileUriExposure()
.penaltyLog()
if (SDK_INT >= Build.VERSION_CODES.O) builder = builder.detectContentUriWithoutPermission()
if (SDK_INT >= Build.VERSION_CODES.P) builder = builder.detectNonSdkApiUsage()
StrictMode.setVmPolicy(builder.build())
}
}
}