Support for FFI calls with `@Native external` functions through Native assets on Android. This enables bundling native code without any build-system boilerplate code.
For more info see:
* https://github.com/flutter/flutter/issues/129757
### Implementation details for Android.
Mainly follows the design of the previous PRs.
For Android, we detect the compilers inside the NDK inside SDK.
And bundling of the assets is done by the flutter.groovy file.
The `minSdkVersion` is propagated from the flutter.groovy file as well.
The NDK is not part of `flutter doctor`, and users can omit it if no native assets have to be build.
However, if any native assets must be built, flutter throws a tool exit if the NDK is not installed.
Add 2 app is not part of this PR yet, instead `flutter build aar` will tool exit if there are any native assets.
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This was terribly outdated and has long been superseded by `package:flutter_lints`. Also, as of c033718da0 support for this was removed from the analyzer and this file is now even more useless, if that's even possible.
Fixes https://github.com/flutter/flutter/issues/82948.
Pin the dependencies from dart-lang/native to a specific version during testing (rather than having them auto-upgrade during pub resolution). This will prevent tests using the template to start failing if a bad version is published to pub.
Closes: https://github.com/flutter/flutter/issues/137418
Also bumps dep in flutter_tools.
Reverts flutter/flutter#137191
Initiated by: camsim99
This change reverts the following previous change:
Original Description:
Adds support for Android 34 in the following ways:
- Bumps integration tests compile SDK versions 33 --> 34
- Bumps template compile SDK version 33 --> 34
- Also changes deprecated `compileSdkVersion` to `compileSdk`
Part of https://github.com/flutter/flutter/issues/134220
Adds support for Android 34 in the following ways:
- Bumps integration tests compile SDK versions 33 --> 34
- Bumps template compile SDK version 33 --> 34
- Also changes deprecated `compileSdkVersion` to `compileSdk`
Part of https://github.com/flutter/flutter/issues/134220
Fixes https://github.com/flutter/flutter/issues/136698.
Alters how `throwToolExit` creates its matcher. This results is an improved description of the matcher.
The mismatch description isn't improved by this, but I writing an entirely custom matcher to fix this isn't ideal either. We can instead mitigate the issue by augmenting the `toString` implementation of `ToolExit` to include the exit code, if it is non-null.
With these changes, the first few lines of output from a test would look like this:
```
Expected: throws <Instance of 'ToolExit'> with `exitCode`: <42> and `message`: contains 'message'
Actual: <Closure: () => Never>
Which: threw ToolExit:<Exit code: 41232. Error: message>
```
Reverts flutter/flutter#136562
Initiated by: vashworth
This change reverts the following previous change:
Original Description:
Some of our tests in CI are triggering the `NSLocalNetworkUsageDescription` dialog when they're not supposed to (https://github.com/flutter/flutter/issues/129836) since it's disabled via flags (`--no-publish-port` for flutter/flutter and `--disable-vm-service-publication` for flutter/engine).
Normally, we inject `NSLocalNetworkUsageDescription` (and other bonjour settings) to the Info.plist during the project build for debug and profile mode since by default they will publish the VM Service port over mDNS.
To help diagnose the issue, though, this PR changes it so that we don't inject `NSLocalNetworkUsageDescription` (and other bonjour settings) when port publication is disabled since it shouldn't be needed. Hopefully, this will give us better error messages or cause the app to crash and end the test early (rather than timeout after 30 minutes).
Some of our tests in CI are triggering the `NSLocalNetworkUsageDescription` dialog when they're not supposed to (https://github.com/flutter/flutter/issues/129836) since it's disabled via flags (`--no-publish-port` for flutter/flutter and `--disable-vm-service-publication` for flutter/engine).
Normally, we inject `NSLocalNetworkUsageDescription` (and other bonjour settings) to the Info.plist during the project build for debug and profile mode since by default they will publish the VM Service port over mDNS.
To help diagnose the issue, though, this PR changes it so that we don't inject `NSLocalNetworkUsageDescription` (and other bonjour settings) when port publication is disabled since it shouldn't be needed. Hopefully, this will give us better error messages or cause the app to crash and end the test early (rather than timeout after 30 minutes).
Support for FFI calls with `@Native external` functions through Native assets on Windows. This enables bundling native code without any build-system boilerplate code.
For more info see:
* https://github.com/flutter/flutter/issues/129757
### Implementation details for Windows.
Mainly follows the design of https://github.com/flutter/flutter/pull/134031.
Specifically for Windows in this PR is the logic for finding the compiler `cl.exe` and environment variables that contain the paths to the Windows headers `vcvars.bat` based on `vswhere.exe`.
Resolves#81831.
The PR improves the `config` command in below ways:
- Does not print the settings in usages or other options.
- Adds the `--list` flag to print the full settings list.
- Separates usages for settings and analytics.
- Prints the restart tip when clearing features.
Reland of #134031. (Reverted in #135069.) Contains the fix for b/301051367 together with cl/567233346.
Support for FFI calls with `@Native external` functions through Native assets on Linux. This enables bundling native code without any build-system boilerplate code.
For more info see:
* https://github.com/flutter/flutter/issues/129757
### Implementation details for Linux.
Mainly follows the design of https://github.com/flutter/flutter/pull/130494.
Some differences are:
* Linux does not support cross compiling or compiling for multiple architectures, so this has not been implemented.
* Linux has no add2app.
The assets copying is done in the install-phase of the CMake build of a flutter app.
CMake requires the native assets folder to exist, so we create it also when the feature is disabled or there are no assets.
### Tests
This PR adds new tests to cover the various use cases.
* packages/flutter_tools/test/general.shard/linux/native_assets_test.dart
* Unit tests the Linux-specific part of building native assets.
It also extends various existing tests:
* packages/flutter_tools/test/integration.shard/native_assets_test.dart
* Runs (incl hot reload/hot restart), builds, builds frameworks for Linux and flutter-tester.
Reverts flutter/flutter#134031
context: b/301051367
Looked at the error message from the broken TAP target, but seems like the failure might be non trivial to resolve. Would it be okay if we revert this for now while it is being triaged?
Support for FFI calls with `@Native external` functions through Native assets on Linux. This enables bundling native code without any build-system boilerplate code.
For more info see:
* https://github.com/flutter/flutter/issues/129757
### Implementation details for Linux.
Mainly follows the design of https://github.com/flutter/flutter/pull/130494.
Some differences are:
* Linux does not support cross compiling or compiling for multiple architectures, so this has not been implemented.
* Linux has no add2app.
The assets copying is done in the install-phase of the CMake build of a flutter app.
CMake requires the native assets folder to exist, so we create it also when the feature is disabled or there are no assets.
### Tests
This PR adds new tests to cover the various use cases.
* packages/flutter_tools/test/general.shard/linux/native_assets_test.dart
* Unit tests the Linux-specific part of building native assets.
It also extends various existing tests:
* packages/flutter_tools/test/integration.shard/native_assets_test.dart
* Runs (incl hot reload/hot restart), builds, builds frameworks for Linux and flutter-tester.
Support for FFI calls with `@Native external` functions through Native assets on MacOS and iOS. This enables bundling native code without any build-system boilerplate code.
For more info see:
* https://github.com/flutter/flutter/issues/129757
### Implementation details for MacOS and iOS.
Dylibs are bundled by (1) making them fat binaries if multiple architectures are targeted, (2) code signing these, and (3) copying them to the frameworks folder. These steps are done manual rather than via CocoaPods. CocoaPods would have done the same steps, but (a) needs the dylibs to be there before the `xcodebuild` invocation (we could trick it, by having a minimal dylib in the place and replace it during the build process, that works), and (b) can't deal with having no dylibs to be bundled (we'd have to bundle a dummy dylib or include some dummy C code in the build file).
The dylibs are build as a new target inside flutter assemble, as that is the moment we know what build-mode and architecture to target.
The mapping from asset id to dylib-path is passed in to every kernel compilation path. The interesting case is hot-restart where the initial kernel file is compiled by the "inner" flutter assemble, while after hot restart the "outer" flutter run compiled kernel file is pushed to the device. Both kernel files need to contain the mapping. The "inner" flutter assemble gets its mapping from the NativeAssets target which builds the native assets. The "outer" flutter run get its mapping from a dry-run invocation. Since this hot restart can be used for multiple target devices (`flutter run -d all`) it contains the mapping for all known targets.
### Example vs template
The PR includes a new template that uses the new native assets in a package and has an app importing that. Separate discussion in: https://github.com/flutter/flutter/issues/131209.
### Tests
This PR adds new tests to cover the various use cases.
* dev/devicelab/bin/tasks/native_assets_ios.dart
* Runs an example app with native assets in all build modes, doing hot reload and hot restart in debug mode.
* dev/devicelab/bin/tasks/native_assets_ios_simulator.dart
* Runs an example app with native assets, doing hot reload and hot restart.
* packages/flutter_tools/test/integration.shard/native_assets_test.dart
* Runs (incl hot reload/hot restart), builds, builds frameworks for iOS, MacOS and flutter-tester.
* packages/flutter_tools/test/general.shard/build_system/targets/native_assets_test.dart
* Unit tests the new Target in the backend.
* packages/flutter_tools/test/general.shard/ios/native_assets_test.dart
* packages/flutter_tools/test/general.shard/macos/native_assets_test.dart
* Unit tests the native assets being packaged on a iOS/MacOS build.
It also extends various existing tests:
* dev/devicelab/bin/tasks/module_test_ios.dart
* Exercises the add2app scenario.
* packages/flutter_tools/test/general.shard/features_test.dart
* Unit test the new feature flag.
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The deeplink validation tool will become an static app so it can't no longer access vm services.
The goal will be then to turn them into flutter analyze command similar to `flutter analyze --android --[options]` that static app can use on.
This pr only removes vm services and turn the api to dump a output file instead of printing everything to stdout.
1. Remove vm service registration
2. combine print<variant>ApplicationId and print<variant>AppLinkDomain into one task dump<variant>AppLinkSettings, which dump all the data in a json file
The deeplink validation tool will be a static app in devtool instead of regular app. A Static app doesn't require a running app; therefore, we can't call these API through vmservices. I decided to convert these API into flutter analyzer command, which will be done in a separate PR https://github.com/flutter/flutter/pull/131009.
The reason these print tasks are converted into file dumps is to reduce the amount of data encoding and decoding. Instead of passing data through stdout, the devtool can read the files generated by gradle tasks instead.
Partial work towards https://github.com/flutter/flutter/issues/132245.
Other than updating error messages, and passing `$LOCAL_ENGINE_HOST`
downwards, this PR should not change the behavior of any existing
workflows or code (i.e. it's purely additive).
In the legacy VS Code DAP, we would deserialise the Flutter.Error event
and provide some basic colouring (eg. stack frames are faded if not from
user code and the text is split between stdout/stderr to allow the
client to colour it).
In the new DAPs we originally used `renderedErrorText` which didn't
support either of these. This change adds changes to use the structured
data (with some basic parsing because the source classes are in
package:flutter and not accessible here) to provide a similar
experience.
It would be nicer if we could use the real underlying Flutter classes
for this deserialisation, but extracting them from `package:flutter` and
removing all dependencies on Flutter is a much larger job and I don't
think should hold up providing improved error formatting for the new
DAPs.
Some comparisons:
