blob: e15fb5c7dd155f91a7c325090577e3116fa58500 [file] [log] [blame]
// Copyright 2016 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
import 'dart:async';
import 'package:json_rpc_2/json_rpc_2.dart' as rpc;
import 'package:meta/meta.dart';
import 'asset.dart';
import 'base/context.dart';
import 'base/file_system.dart';
import 'base/io.dart';
import 'build_info.dart';
import 'bundle.dart';
import 'compile.dart';
import 'convert.dart' show base64, utf8;
import 'dart/package_map.dart';
import 'globals.dart';
import 'vmservice.dart';
class DevFSConfig {
/// Should DevFS assume that symlink targets are stable?
bool cacheSymlinks = false;
/// Should DevFS assume that there are no symlinks to directories?
bool noDirectorySymlinks = false;
}
DevFSConfig get devFSConfig => context.get<DevFSConfig>();
/// Common superclass for content copied to the device.
abstract class DevFSContent {
/// Return true if this is the first time this method is called
/// or if the entry has been modified since this method was last called.
bool get isModified;
/// Return true if this is the first time this method is called
/// or if the entry has been modified after the given time
/// or if the given time is null.
bool isModifiedAfter(DateTime time);
int get size;
Future<List<int>> contentsAsBytes();
Stream<List<int>> contentsAsStream();
Stream<List<int>> contentsAsCompressedStream() {
return contentsAsStream().cast<List<int>>().transform<List<int>>(gzip.encoder);
}
/// Return the list of files this content depends on.
List<String> get fileDependencies => <String>[];
}
// File content to be copied to the device.
class DevFSFileContent extends DevFSContent {
DevFSFileContent(this.file);
final FileSystemEntity file;
FileSystemEntity _linkTarget;
FileStat _fileStat;
File _getFile() {
if (_linkTarget != null) {
return _linkTarget;
}
if (file is Link) {
// The link target.
return fs.file(file.resolveSymbolicLinksSync());
}
return file;
}
void _stat() {
if (_linkTarget != null) {
// Stat the cached symlink target.
final FileStat fileStat = _linkTarget.statSync();
if (fileStat.type == FileSystemEntityType.notFound) {
_linkTarget = null;
} else {
_fileStat = fileStat;
return;
}
}
final FileStat fileStat = file.statSync();
_fileStat = fileStat.type == FileSystemEntityType.notFound ? null : fileStat;
if (_fileStat != null && _fileStat.type == FileSystemEntityType.link) {
// Resolve, stat, and maybe cache the symlink target.
final String resolved = file.resolveSymbolicLinksSync();
final FileSystemEntity linkTarget = fs.file(resolved);
// Stat the link target.
final FileStat fileStat = linkTarget.statSync();
if (fileStat.type == FileSystemEntityType.notFound) {
_fileStat = null;
_linkTarget = null;
} else if (devFSConfig.cacheSymlinks) {
_linkTarget = linkTarget;
}
}
if (_fileStat == null) {
printError('Unable to get status of file "${file.path}": file not found.');
}
}
@override
List<String> get fileDependencies => <String>[_getFile().path];
@override
bool get isModified {
final FileStat _oldFileStat = _fileStat;
_stat();
if (_oldFileStat == null && _fileStat == null)
return false;
return _oldFileStat == null || _fileStat == null || _fileStat.modified.isAfter(_oldFileStat.modified);
}
@override
bool isModifiedAfter(DateTime time) {
final FileStat _oldFileStat = _fileStat;
_stat();
if (_oldFileStat == null && _fileStat == null)
return false;
return time == null
|| _oldFileStat == null
|| _fileStat == null
|| _fileStat.modified.isAfter(time);
}
@override
int get size {
if (_fileStat == null)
_stat();
// Can still be null if the file wasn't found.
return _fileStat?.size ?? 0;
}
@override
Future<List<int>> contentsAsBytes() => _getFile().readAsBytes();
@override
Stream<List<int>> contentsAsStream() => _getFile().openRead();
}
/// Byte content to be copied to the device.
class DevFSByteContent extends DevFSContent {
DevFSByteContent(this._bytes);
List<int> _bytes;
bool _isModified = true;
DateTime _modificationTime = DateTime.now();
List<int> get bytes => _bytes;
set bytes(List<int> value) {
_bytes = value;
_isModified = true;
_modificationTime = DateTime.now();
}
/// Return true only once so that the content is written to the device only once.
@override
bool get isModified {
final bool modified = _isModified;
_isModified = false;
return modified;
}
@override
bool isModifiedAfter(DateTime time) {
return time == null || _modificationTime.isAfter(time);
}
@override
int get size => _bytes.length;
@override
Future<List<int>> contentsAsBytes() async => _bytes;
@override
Stream<List<int>> contentsAsStream() =>
Stream<List<int>>.fromIterable(<List<int>>[_bytes]);
}
/// String content to be copied to the device.
class DevFSStringContent extends DevFSByteContent {
DevFSStringContent(String string)
: _string = string,
super(utf8.encode(string));
String _string;
String get string => _string;
set string(String value) {
_string = value;
super.bytes = utf8.encode(_string);
}
@override
set bytes(List<int> value) {
string = utf8.decode(value);
}
}
/// Abstract DevFS operations interface.
abstract class DevFSOperations {
Future<Uri> create(String fsName);
Future<dynamic> destroy(String fsName);
Future<dynamic> writeFile(String fsName, Uri deviceUri, DevFSContent content);
}
/// An implementation of [DevFSOperations] that speaks to the
/// vm service.
class ServiceProtocolDevFSOperations implements DevFSOperations {
ServiceProtocolDevFSOperations(this.vmService);
final VMService vmService;
@override
Future<Uri> create(String fsName) async {
final Map<String, dynamic> response = await vmService.vm.createDevFS(fsName);
return Uri.parse(response['uri']);
}
@override
Future<dynamic> destroy(String fsName) async {
await vmService.vm.deleteDevFS(fsName);
}
@override
Future<dynamic> writeFile(String fsName, Uri deviceUri, DevFSContent content) async {
List<int> bytes;
try {
bytes = await content.contentsAsBytes();
} catch (e) {
return e;
}
final String fileContents = base64.encode(bytes);
try {
return await vmService.vm.invokeRpcRaw(
'_writeDevFSFile',
params: <String, dynamic>{
'fsName': fsName,
'uri': deviceUri.toString(),
'fileContents': fileContents,
},
);
} catch (error) {
printTrace('DevFS: Failed to write $deviceUri: $error');
}
}
}
class DevFSException implements Exception {
DevFSException(this.message, [this.error, this.stackTrace]);
final String message;
final dynamic error;
final StackTrace stackTrace;
}
class _DevFSHttpWriter {
_DevFSHttpWriter(this.fsName, VMService serviceProtocol)
: httpAddress = serviceProtocol.httpAddress;
final String fsName;
final Uri httpAddress;
static const int kMaxInFlight = 6;
int _inFlight = 0;
Map<Uri, DevFSContent> _outstanding;
Completer<void> _completer;
final HttpClient _client = HttpClient();
Future<void> write(Map<Uri, DevFSContent> entries) async {
_client.maxConnectionsPerHost = kMaxInFlight;
_completer = Completer<void>();
_outstanding = Map<Uri, DevFSContent>.from(entries);
_scheduleWrites();
await _completer.future;
}
void _scheduleWrites() {
while ((_inFlight < kMaxInFlight) && (!_completer.isCompleted) && _outstanding.isNotEmpty) {
final Uri deviceUri = _outstanding.keys.first;
final DevFSContent content = _outstanding.remove(deviceUri);
_startWrite(deviceUri, content);
_inFlight += 1;
}
if ((_inFlight == 0) && (!_completer.isCompleted) && _outstanding.isEmpty)
_completer.complete();
}
Future<void> _startWrite(
Uri deviceUri,
DevFSContent content, [
int retry = 0,
]) async {
try {
final HttpClientRequest request = await _client.putUrl(httpAddress);
request.headers.removeAll(HttpHeaders.acceptEncodingHeader);
request.headers.add('dev_fs_name', fsName);
request.headers.add('dev_fs_uri_b64', base64.encode(utf8.encode('$deviceUri')));
final Stream<List<int>> contents = content.contentsAsCompressedStream();
await request.addStream(contents);
final HttpClientResponse response = await request.close();
await response.drain<void>();
} catch (error, trace) {
if (!_completer.isCompleted) {
printTrace('Error writing "$deviceUri" to DevFS: $error');
_completer.completeError(error, trace);
}
}
_inFlight -= 1;
_scheduleWrites();
}
}
// Basic statistics for DevFS update operation.
class UpdateFSReport {
UpdateFSReport({
bool success = false,
int invalidatedSourcesCount = 0,
int syncedBytes = 0,
}) {
_success = success;
_invalidatedSourcesCount = invalidatedSourcesCount;
_syncedBytes = syncedBytes;
}
bool get success => _success;
int get invalidatedSourcesCount => _invalidatedSourcesCount;
int get syncedBytes => _syncedBytes;
void incorporateResults(UpdateFSReport report) {
if (!report._success) {
_success = false;
}
_invalidatedSourcesCount += report._invalidatedSourcesCount;
_syncedBytes += report._syncedBytes;
}
bool _success;
int _invalidatedSourcesCount;
int _syncedBytes;
}
class DevFS {
/// Create a [DevFS] named [fsName] for the local files in [rootDirectory].
DevFS(
VMService serviceProtocol,
this.fsName,
this.rootDirectory, {
String packagesFilePath,
}) : _operations = ServiceProtocolDevFSOperations(serviceProtocol),
_httpWriter = _DevFSHttpWriter(fsName, serviceProtocol),
_packagesFilePath = packagesFilePath ?? fs.path.join(rootDirectory.path, kPackagesFileName);
DevFS.operations(
this._operations,
this.fsName,
this.rootDirectory, {
String packagesFilePath,
}) : _httpWriter = null,
_packagesFilePath = packagesFilePath ?? fs.path.join(rootDirectory.path, kPackagesFileName);
final DevFSOperations _operations;
final _DevFSHttpWriter _httpWriter;
final String fsName;
final Directory rootDirectory;
String _packagesFilePath;
final Set<String> assetPathsToEvict = <String>{};
List<Uri> sources = <Uri>[];
DateTime lastCompiled;
Uri _baseUri;
Uri get baseUri => _baseUri;
Uri deviceUriToHostUri(Uri deviceUri) {
final String deviceUriString = deviceUri.toString();
final String baseUriString = baseUri.toString();
if (deviceUriString.startsWith(baseUriString)) {
final String deviceUriSuffix = deviceUriString.substring(baseUriString.length);
return rootDirectory.uri.resolve(deviceUriSuffix);
}
return deviceUri;
}
Future<Uri> create() async {
printTrace('DevFS: Creating new filesystem on the device ($_baseUri)');
try {
_baseUri = await _operations.create(fsName);
} on rpc.RpcException catch (rpcException) {
// 1001 is kFileSystemAlreadyExists in //dart/runtime/vm/json_stream.h
if (rpcException.code != 1001)
rethrow;
printTrace('DevFS: Creating failed. Destroying and trying again');
await destroy();
_baseUri = await _operations.create(fsName);
}
printTrace('DevFS: Created new filesystem on the device ($_baseUri)');
return _baseUri;
}
Future<void> destroy() async {
printTrace('DevFS: Deleting filesystem on the device ($_baseUri)');
await _operations.destroy(fsName);
printTrace('DevFS: Deleted filesystem on the device ($_baseUri)');
}
/// Updates files on the device.
///
/// Returns the number of bytes synced.
Future<UpdateFSReport> update({
@required String mainPath,
String target,
AssetBundle bundle,
DateTime firstBuildTime,
bool bundleFirstUpload = false,
@required ResidentCompiler generator,
String dillOutputPath,
@required bool trackWidgetCreation,
bool fullRestart = false,
String projectRootPath,
@required String pathToReload,
@required List<Uri> invalidatedFiles,
}) async {
assert(trackWidgetCreation != null);
assert(generator != null);
// Update modified files
final String assetBuildDirPrefix = _asUriPath(getAssetBuildDirectory());
final Map<Uri, DevFSContent> dirtyEntries = <Uri, DevFSContent>{};
int syncedBytes = 0;
if (bundle != null) {
printTrace('Scanning asset files');
// We write the assets into the AssetBundle working dir so that they
// are in the same location in DevFS and the iOS simulator.
final String assetDirectory = getAssetBuildDirectory();
bundle.entries.forEach((String archivePath, DevFSContent content) {
final Uri deviceUri = fs.path.toUri(fs.path.join(assetDirectory, archivePath));
if (deviceUri.path.startsWith(assetBuildDirPrefix)) {
archivePath = deviceUri.path.substring(assetBuildDirPrefix.length);
}
// Only update assets if they have been modified, or if this is the
// first upload of the asset bundle.
if (content.isModified || (bundleFirstUpload && archivePath != null)) {
dirtyEntries[deviceUri] = content;
syncedBytes += content.size;
if (archivePath != null && !bundleFirstUpload) {
assetPathsToEvict.add(archivePath);
}
}
});
}
if (fullRestart) {
generator.reset();
}
printTrace('Compiling dart to kernel with ${invalidatedFiles.length} updated files');
lastCompiled = DateTime.now();
final CompilerOutput compilerOutput = await generator.recompile(
mainPath,
invalidatedFiles,
outputPath: dillOutputPath ?? getDefaultApplicationKernelPath(trackWidgetCreation: trackWidgetCreation),
packagesFilePath : _packagesFilePath,
);
if (compilerOutput == null) {
return UpdateFSReport(success: false);
}
// list of sources that needs to be monitored are in [compilerOutput.sources]
sources = compilerOutput.sources;
//
// Don't send full kernel file that would overwrite what VM already
// started loading from.
if (!bundleFirstUpload) {
final String compiledBinary = compilerOutput?.outputFilename;
if (compiledBinary != null && compiledBinary.isNotEmpty) {
final Uri entryUri = fs.path.toUri(projectRootPath != null
? fs.path.relative(pathToReload, from: projectRootPath)
: pathToReload,
);
final DevFSFileContent content = DevFSFileContent(fs.file(compiledBinary));
syncedBytes += content.size;
dirtyEntries[entryUri] = content;
}
}
printTrace('Updating files');
if (dirtyEntries.isNotEmpty) {
try {
await _httpWriter.write(dirtyEntries);
} on SocketException catch (socketException, stackTrace) {
printTrace('DevFS sync failed. Lost connection to device: $socketException');
throw DevFSException('Lost connection to device.', socketException, stackTrace);
} catch (exception, stackTrace) {
printError('Could not update files on device: $exception');
throw DevFSException('Sync failed', exception, stackTrace);
}
}
printTrace('DevFS: Sync finished');
return UpdateFSReport(success: true, syncedBytes: syncedBytes,
invalidatedSourcesCount: invalidatedFiles.length);
}
}
/// Converts a platform-specific file path to a platform-independent Uri path.
String _asUriPath(String filePath) => fs.path.toUri(filePath).path + '/';