Summary:
We must use FLog instead of android.util.log, this diff moves the current callsites of android.util.log to FLog
changeLog:[internal]
Reviewed By: JoshuaGross
Differential Revision: D19884741
fbshipit-source-id: 300f7d691961aa51f0b525c37da7ae3d64fe5131
Summary:
We read from / write to `CatalystInstanceImpl.mTurboModuleRegistry` from multiple threads. To ensure that we directly read/write from memory, and not a stale cache, we should make this variable `volatile`.
Changelog:
[Android][Fixed] Make TurboModuleRegistry in CatalystInstanceImpl.java volatile
Reviewed By: fkgozali
Differential Revision: D18542954
fbshipit-source-id: 0a47f05e0653b4f7f58503c678bdf31c68eab9bf
Summary:
Looking at the crash reports from T46487253:
1. This crash happens only with TurboModule-compatible NativeModules.
2. Users who experience this crash are in the TurboModules test group.
Therefore, the crash happens while trying to load TurboModules.
The stack trace of the crash includes [this lookup via the NativeModule system](https://fburl.com/diffusion/vxj9goz5). When TurboModules are enabled, we can only start executing this line if one of two things are true:
1. The TurboModuleRegistry is null in CatalystInstanceImpl.
2. The TurboModuleRegistry isn't null but the NativeModule returned by the TurboModuleRegistry is null.
We can protect against 1 by asserting that when `ReactFeatureFlags.useTurboModules` is `true`, `mTurboModuleRegistry` is not null. Once this check lands, unless there's a race with setting `ReactFeatureFlags.useTurboModules`, we should be able to rule out 1.
Changelog:
[Added][Android] - Assert TurboModuleRegistry isn't null before using it in CatalystInstanceImpl
Reviewed By: PeteTheHeat
Differential Revision: D18211935
fbshipit-source-id: de88c033425c474ef80b73386b7182b1d3bb382f
Summary:
CatalystInstanceImpl.destroy does a bunch of stuff in each of the relevant threads (Native Module thread, JS thread, UI thread).
This change creates a V1 destroy method (unchanged) and a V2 destroy method. The goal is to resolve (and catch!) race conditions in native modules and JSI modules that could occur during teardown; and mitigate race conditions that occur in RN teardown, like deallocation of C++ objects (scheduler, JS VM, and UIManager for Fabric).
Changelog:
[Internal] Experiment to fix deallocation race conditions
Reviewed By: mdvacca
Differential Revision: D18001677
fbshipit-source-id: 5955da0a7b726491c7d749642475f0fba74cce5a
Summary:
This already has an assert that `destroy` should only be called on the UI thread. Add an annotation.
Changelog: [Internal]
Reviewed By: mdvacca
Differential Revision: D17989113
fbshipit-source-id: fd44f321cbcb7f0a18383ca6226cce72e5991eea
Summary:
In `CatalystInstanceImpl.destroy()`, we require the TurboModuleManager using the [following lines](https://fburl.com/diffusion/a4y6wbft):
```
final JSIModule turboModuleManager =
ReactFeatureFlags.useTurboModules
? mJSIModuleRegistry.getModule(JSIModuleType.TurboModuleManager)
: null;
```
For some strange reason, even though `ReactFeatureFlags.useTurboModules` is true, the TurboModuleManager isn't registered with mJSIModuleRegistry. I spent some time looking through the code, but I couldn't figure out why. These lines actually aren't necessary, so it's possible to fix the issue by simply working around it, which is what this diff does. We shouldn't have been double requiring the TurboModuleManager anyways, since `CatalystInstance.java` has a method to set the TurboModuleManager, which we call in `ReactInstanceManager.createReactContext`.
## Alternative approach
I could push this diff to the next cut, and instead land a diff that adds debug information to the native crash. At the cost of a week, it may help us figure out why we're seeing the crash. Thoughts? cc fkgozali
Reviewed By: fkgozali
Differential Revision: D17636604
fbshipit-source-id: ecfff593dc6eb4ec4d5e331348b308bc7ab37966
Summary: CatalystInstanceImpl is responsible for creating the NativeModules thread. We therefore expose a method `getNativeCallInvokerHolder()` on this hybrid class to create and give us access to the `CallInvokerHolder` for the NativeModules thread.
Reviewed By: PeteTheHeat
Differential Revision: D17422164
fbshipit-source-id: 316423847518124115643549fa73a8533d493cd0
Summary:
## Motivation
The concept behind JSCallInvoker doesn't necessarily have to apply only to the JS thread. On Android, we need to re-use this abstraction to allow execution of async method calls on the NativeModules thread.
Reviewed By: PeteTheHeat
Differential Revision: D17377313
fbshipit-source-id: 3d9075cbfce0b908d800a366947cfd16a3013d1c
Summary: This was an experiment to patch individual deltas in development instead of reloading the whole JS bundle. With improvements such as Fast Refresh that reduces the need for reloads and bundle splitting that reduces the number of modules and memory by 10x, we won't be needing this complex optimization that we never properly made work. This diff removes that code and I will be removing the JS side of things in Metro in a follow-up diff.
Reviewed By: fkgozali
Differential Revision: D16832709
fbshipit-source-id: 46596a3126d52d7d74f4b9ffc9a6ee9d82ec9522
Summary:
## The Problem
1. `CatalystInstanceImpl` indirectly holds on to the `jsi::Runtime`. When you destroy `CatalystInstanceImpl`, you destroy the `jsi::Runtime`. As a part of reloading React Native, we destroy and re-create `CatalystInstanceImpl`, which destroys and re-creates the `jsi::Runtime`.
2. When JS passes in a callback to a TurboModule method, we take that callback (a `jsi::Function`) and wrap it in a Java `Callback` (implemented by `JCxxCallbackImpl`). This Java `Callback`, when executed, schedules the `jsi::Function` to be invoked on a Java thread at a later point in time. **Note:** The Java NativeModule can hold on to the Java `Callback` (and, by transitivity, the `jsi::Function`) for potentially forever.
3. It is a requirement of `jsi::Runtime` that all objects associated with the Runtime (ex: `jsi::Function`) must be destroyed before the Runtime itself is destroyed. See: https://fburl.com/m3mqk6wt
### jsi.h
```
/// .................................................... In addition, to
/// make shutdown safe, destruction of objects associated with the Runtime
/// must be destroyed before the Runtime is destroyed, or from the
/// destructor of a managed HostObject or HostFunction. Informally, this
/// means that the main source of unsafe behavior is to hold a jsi object
/// in a non-Runtime-managed object, and not clean it up before the Runtime
/// is shut down. If your lifecycle is such that avoiding this is hard,
/// you will probably need to do use your own locks.
class Runtime {
public:
virtual ~Runtime();
```
Therefore, when you delete `CatalystInstanceImpl`, you could end up with a situation where the `jsi::Runtime` is destroyed before all `jsi::Function`s are destroyed. In dev, this leads the program to crash when you reload the app after having used a TurboModule method that uses callbacks.
## The Solution
If the only reference to a `HostObject` or a `HostFunction` is in the JS Heap, then the `HostObject` and `HostFunction` destructors can destroy JSI objects. The TurboModule cache is the only thing, aside from the JS Heap, that holds a reference to all C++ TurboModules. But that cache (and the entire native side of `TurboModuleManager`) is destroyed when we call `mHybridData.resetNative()` in `TurboModuleManager.onCatalystInstanceDestroy()` in D16552730. (I verified this by commenting out `mHybridData.resetNative()` and placing a breakpoint in the destructor of `JavaTurboModule`). So, when we're cleaning up `TurboModuleManager`, the only reference to a Java TurboModule is the JS Heap. Therefore, it's safe and correct for us to destroy all `jsi::Function`s created by the Java TurboModule in `~JavaTurboModule`. So, in this diff, I keep a set of all `CallbackWrappers`, and explicitly call `destroy()` on them in the `JavaTurboModule` destructor. Note that since `~JavaTurboModule` accesses `callbackWrappers_`, it must be executed on the JS Thread, since `createJavaCallbackFromJSIFunction` also accesses `callbackWrappers_` on the JS Thread.
For additional safety, I also eagerly destroyed the `jsi::Function` after it's been invoked once. I'm not yet sure if we only want JS callbacks to only ever be invoked once. So, I've created a Task to document this work: T48128233.
Reviewed By: mdvacca
Differential Revision: D16623340
fbshipit-source-id: 3a4c3efc70b9b3c8d329f19fdf4b4423c489695b
Summary:
## The Problem
1. `CatalystInstanceImpl` indirectly holds on to the `jsi::Runtime`. When you destroy `CatalystInstanceImpl`, you destroy the `jsi::Runtime`. As a part of reloading React Native, we destroy and re-create `CatalystInstanceImpl`, which destroys and re-creates the `jsi::Runtime`.
2. When JS passes in a callback to a TurboModule method, we take that callback (a `jsi::Function`) and wrap it in a Java `Callback` (implemented by `JCxxCallbackImpl`). This Java `Callback`, when executed, schedules the `jsi::Function` to be invoked on a Java thread at a later point in time. **Note:** The Java NativeModule can hold on to the Java `Callback` (and, by transitivity, the `jsi::Function`) for potentially forever.
3. It is a requirement of `jsi::Runtime` that all objects associated with the Runtime (ex: `jsi::Function`) must be destroyed before the Runtime itself is destroyed. See: https://fburl.com/m3mqk6wt
### jsi.h
```
/// .................................................... In addition, to
/// make shutdown safe, destruction of objects associated with the Runtime
/// must be destroyed before the Runtime is destroyed, or from the
/// destructor of a managed HostObject or HostFunction. Informally, this
/// means that the main source of unsafe behavior is to hold a jsi object
/// in a non-Runtime-managed object, and not clean it up before the Runtime
/// is shut down. If your lifecycle is such that avoiding this is hard,
/// you will probably need to do use your own locks.
class Runtime {
public:
virtual ~Runtime();
```
Therefore, when you delete `CatalystInstanceImpl`, you could end up with a situation where the `jsi::Runtime` is destroyed before all `jsi::Function`s are destroyed. In dev, this leads the program to crash when you reload the app after having used a TurboModule method that uses callbacks.
## The Solution
If the only reference to a `HostObject` or a `HostFunction` is in the JS Heap, then the `HostObject` and `HostFunction` destructors can destroy JSI objects. The TurboModule cache is the only thing, aside from the JS Heap, that holds a reference to all C++ TurboModules. But that cache (and the entire native side of `TurboModuleManager`) is destroyed when we call `mHybridData.resetNative()` in `TurboModuleManager.onCatalystInstanceDestroy()` in D16552730. (I verified this by commenting out `mHybridData.resetNative()` and placing a breakpoint in the destructor of `JavaTurboModule`). So, when we're cleaning up `TurboModuleManager`, the only reference to a Java TurboModule is the JS Heap. Therefore, it's safe and correct for us to destroy all `jsi::Function`s created by the Java TurboModule in `~JavaTurboModule`. So, in this diff, I keep a set of all `CallbackWrappers`, and explicitly call `destroy()` on them in the `JavaTurboModule` destructor. Note that since `~JavaTurboModule` accesses `callbackWrappers_`, it must be executed on the JS Thread, since `createJavaCallbackFromJSIFunction` also accesses `callbackWrappers_` on the JS Thread.
For additional safety, I also eagerly destroyed the `jsi::Function` after it's been invoked once. I'm not yet sure if we only want JS callbacks to only ever be invoked once. So, I've created a Task to document this work: T48128233.
Reviewed By: mhorowitz
Differential Revision: D16589168
fbshipit-source-id: a1c0786999c22bef55d416beb0fc40261447a807
Summary:
This diff migrates the usages Nullable and NonNull annotations to AndroidX instead of javax.
The purpose of this change is to bring consistency in the annotations used by the core of RN
Reviewed By: makovkastar
Differential Revision: D16054504
fbshipit-source-id: 21d888854da088d2a14615a90d4dc058e5286b91
Summary:
This diff formats the Java class files inside xplat/js/react-native-github. Since google-java-format was enabled in D16071401 we want to codemode the existing code so that users don't have to deal with formatter lint noise at diff-time.
```arc f --paths-cmd 'hg files -I "**/*.java"'```
drop-conflicts
Reviewed By: cpojer
Differential Revision: D16071725
fbshipit-source-id: fc6e3852e45742c109f0c5ac4065d64201c74204
Summary: Some TM lookup from native will fail assertion if done too early, because TM Manager is not initialized yet.
Reviewed By: mdvacca
Differential Revision: D15872776
fbshipit-source-id: 7616c1424816f73a45aa1d9723e7807ae10392a7
Summary:
To avoid unnecessary class loads, and better modularity, let's use string keys (enum) to access JSIModule's. For now all JSIModule's are all known inside the core infra (only FabricUIManager and TurboModuleManager right now), so let's keep it simple and explicitly list them out.
The only problem here is we lose some form of type safety...
Reviewed By: JoshuaGross
Differential Revision: D15872777
fbshipit-source-id: 9c2de7ef1e88ef3a6dff5888d644f9d8963af2a3
Summary: `ReactContext.getNativeModule` can be used to access NativeModules. With these changes, it can also be used to instantiate (if necessary) and retrieve a TurboModule.
Reviewed By: mdvacca
Differential Revision: D15167631
fbshipit-source-id: 3cb0d9a4be16cbadebbf6648c3f1481ba26513c3
Summary:
JSCallInvoker requires a `std::weak_ptr<Instance>` to create. In our C++, `CatalystInstance` is responsible for creating this `Instance` object. This `CatalystInstance` C++ initialization is separate from the `TurboModuleManager` C++ initialization. Therefore, in this diff, I made `CatalystInstance` responsible for creating the `JSCallInvoker`. It then exposes the `JSCallInvoker` using a hybrid class called `JSCallInvokerHolder`, which contains a `std::shared_ptr<JSCallInvoker>` member variable. Using `CatalystInstance.getJSCallInvokerHolder()` in TurboModuleManager.java, we get a handle to this hybrid container. Then, we pass it this hybrid object to `TurboModuleManager::initHybrid`, which retrieves the `std::shared_ptr<JSCallInvoker>` from the `JavaJSCallInvokerHandler`.
There were a few cyclic dependencies, so I had to break down the buck targets:
- `CatalystInstanceImpl.java` depends on `JSCallInvokerHolderImpl.java`, and `TurboModuleManager.java` depends on classes that are packaged with `CatalystInstanceImpl.java`. So, I had to put `JSCallInvokerHolderImpl.java` in its own buck target.
- `CatalystInstance.cpp` depends on `JavaJSCallInvokerHolder.cpp`, and `TurboModuleManager.cpp` depends on classes that are build with `CatalystInstance.cpp`. So, I had to put `JavaJSCallInvokerHolder.cpp` in its own buck target. To make things simpler, I also moved `JSCallInvoker.{cpp,h}` files into the same buck target as `JavaJSCallInvokerHolder.{cpp,h}`.
I think these steps should be enough to create the TurboModuleManager without needing a bridge:
1. Make `JSCallInvoker` an abstract base class.
2. On Android, create another derived class of `JSCallInvoker` that doesn't depend on Instance.
3. Create `JavaJSCallInvokerHolder` using an instance of this new class somewhere in C++.
4. Pass this instance of `JavaJSCallInvokerHolder` to Java and use it to create/instatiate `TurboModuleManager`.
Regarding steps 1 and 2, we can also make JSCallInvoker accept a lambda.
Reviewed By: mdvacca
Differential Revision: D15055511
fbshipit-source-id: 0ad72a86599819ec35d421dbee7e140959a26ab6
Summary: Right now JSBundleLoader is tightly coupled to CatalystInstanceImpl; this diffs adds an interface, JSBundleLoaderDelegate, that CatalystInstanceImpl implements so that we can use the bundle loader with other classes.
Reviewed By: mdvacca
Differential Revision: D13216752
fbshipit-source-id: fc406ef30f12ed9d3ed13a062dedd7b33f3b7985
Summary: Now that NativeModules are stored based on String keys instead of classnames, the old innterface to getNativeModules(Class moduleInterface) is deprecated. This interface is also incorrect since a native module with the same name may be overridden, causing issues. Getting native modules by name is also similar to what JavaScript does
Reviewed By: achen1
Differential Revision: D9697827
fbshipit-source-id: ff832bd2ea5e1c7cfe7d8c0c3a66f0d755b2c354
Summary:
This diff:
- Disables all tests but one of FabricViewTest
- Disables all tests but one of FabricBenchmarkTest
- Changes ReactAppTestActivity to run with Hermes
The reason there is only one test running in each test class, is because the tear down process of Fabric is still flaky and it produces crashes when restarting RN. We are working on this right now and we will enable the rest of the tests after that's fixed.
Reviewed By: achen1
Differential Revision: D9890700
fbshipit-source-id: a8716481eff15b77bd12b38aaaefd4e282c71f3b
Summary: This change drops the year from the copyright headers and the LICENSE file.
Reviewed By: yungsters
Differential Revision: D9727774
fbshipit-source-id: df4fc1e4390733fe774b1a160dd41b4a3d83302a
Summary:
Added systrace to the following sections
1. When Marketplace Home Fragment is created
2. On initialization of Catalyst Instance
Reviewed By: achen1
Differential Revision: D9665376
fbshipit-source-id: e48e9f50dad42c71fb2151538f65bc54939adc1e
Summary:
Adds `loadScriptFromDeltaBundle` / `jniLoadScriptFromDeltaBundle` methods to `CatalystInstanceImpl`.
These methods allow to run JS coming from a native delta client as RAM bundles, to leverage the RAM bundle mechanism for development / reload scenarios.
Reviewed By: fromcelticpark
Differential Revision: D7845140
fbshipit-source-id: b79b340f36c28939a31eb63a3c463d0792a208f7
Summary:
Includes React Native and its dependencies Fresco, Metro, and Yoga. Excludes samples/examples/docs.
find: ^(?:( *)|( *(?:[\*~#]|::))( )? *)?Copyright (?:\(c\) )?(\d{4})\b.+Facebook[\s\S]+?BSD[\s\S]+?(?:this source tree|the same directory)\.$
replace: $1$2$3Copyright (c) $4-present, Facebook, Inc.\n$2\n$1$2$3This source code is licensed under the MIT license found in the\n$1$2$3LICENSE file in the root directory of this source tree.
Reviewed By: TheSavior, yungsters
Differential Revision: D7007050
fbshipit-source-id: 37dd6bf0ffec0923bfc99c260bb330683f35553e
Summary: It's now unnecessary to declare which JS modules you want to expose on your package. To upgrade, remove all overrides of `createJSModules` and keeping calling your JS modules as before.
Reviewed By: AaaChiuuu
Differential Revision: D5229259
fbshipit-source-id: 1160826c951433722f1fe0421c1200883ba1a348
David Vacca
Ramanpreet Nara
Joshua Gross
Andres Suarez
Christoph Nakazawa
Eric Williamson
Oleksandr Melnykov
Kevin Gozali
Emily Janzer
Ram N
Héctor Ramos
David Aurelio
Sophie Alpert
Dmitry Zakharov
Alex Dvornikov
Charles Dick
Kathy Gray
Pieter De Baets
Aaron Chiu