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dart / sdk.git / df31d872aa633ab47145eaff10b48693797ed698 / . / pkg / analysis_server / lib / src / server / http_server.dart
blob: 9826d89da0d62c2cd92a58ebd7e5bf862b67a17f [file] [log] [blame]
// Copyright (c) 2014, the Dart project authors. Please see the AUTHORS file
// for details. 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:io';
import 'package:analysis_server/src/socket_server.dart';
import 'package:analysis_server/src/status/diagnostics.dart';
/// Instances of the class [AbstractGetHandler] handle GET requests.
abstract class AbstractGetHandler {
/// Handle a GET request received by the HTTP server.
void handleGetRequest(HttpRequest request);
}
/// Instances of the class [HttpServer] implement a simple HTTP server. The
/// server:
///
/// - listens for an UPGRADE request in order to start an analysis server
/// - serves diagnostic information as html pages
class HttpAnalysisServer {
/// Number of lines of print output to capture.
static const int MAX_PRINT_BUFFER_LENGTH = 1000;
/// An object that can handle either a WebSocket connection or a connection
/// to the client over stdio.
AbstractSocketServer socketServer;
/// An object that can handle GET requests.
AbstractGetHandler? getHandler;
/// Future that is completed with the HTTP server once it is running.
Future<HttpServer>? _serverFuture;
/// Last PRINT_BUFFER_LENGTH lines printed.
final List<String> _printBuffer = <String>[];
/// Initialize a newly created HTTP server.
HttpAnalysisServer(this.socketServer);
/// Return the port this server is bound to.
Future<int?> get boundPort async {
return (await _serverFuture)?.port;
}
void close() {
_serverFuture?.then((HttpServer server) {
server.close();
});
}
/// Record that the given line was printed out by the analysis server.
void recordPrint(String line) {
_printBuffer.add(line);
if (_printBuffer.length > MAX_PRINT_BUFFER_LENGTH) {
_printBuffer.removeRange(
0, _printBuffer.length - MAX_PRINT_BUFFER_LENGTH);
}
}
/// Begin serving HTTP requests over the given port.
Future<int?> serveHttp([int? initialPort]) async {
if (_serverFuture != null) {
return boundPort;
}
try {
_serverFuture =
HttpServer.bind(InternetAddress.loopbackIPv4, initialPort ?? 0);
var server = (await _serverFuture)!;
_handleServer(server);
return server.port;
} catch (ignore) {
// If we can't bind to the specified port, don't remember the broken
// server.
_serverFuture = null;
return null;
}
}
/// Handle a GET request received by the HTTP server.
Future<void> _handleGetRequest(HttpRequest request) async {
getHandler ??= DiagnosticsSite(socketServer, _printBuffer);
// TODO(brianwilkerson) Determine if await is necessary, if so, change the
// return type of [AbstractGetHandler.handleGetRequest] to `Future<void>`.
await (getHandler!.handleGetRequest(request) as dynamic);
}
/// Attach a listener to a newly created HTTP server.
void _handleServer(HttpServer httpServer) {
httpServer.listen((HttpRequest request) async {
var updateValues = request.headers[HttpHeaders.upgradeHeader];
if (request.method == 'GET') {
await _handleGetRequest(request);
} else if (updateValues != null && updateValues.contains('websocket')) {
// We no longer support serving analysis server communications over
// WebSocket connections.
var response = request.response;
response.statusCode = HttpStatus.notFound;
response.headers.contentType = ContentType.text;
response.write(
'WebSocket connections not supported (${request.uri.path}).');
response.close();
} else {
_returnUnknownRequest(request);
}
});
}
/// Return an error in response to an unrecognized request received by the
/// HTTP server.
void _returnUnknownRequest(HttpRequest request) {
var response = request.response;
response.statusCode = HttpStatus.notFound;
response.headers.contentType = ContentType.text;
response.write('Not found');
response.close();
}
}