lib/http_multi_server.dart - http_multi_server - Git at Google

 // 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:async';
 import 'dart:io';

 import 'package:async/async.dart';

 import 'src/multi_headers.dart';
 import 'src/utils.dart';

 /// The error code for an error caused by a port already being in use.
 final _addressInUseErrno = _computeAddressInUseErrno();
 int _computeAddressInUseErrno() {
   if (Platform.isWindows) return 10048;
   if (Platform.isMacOS) return 48;
   assert(Platform.isLinux);
   return 98;
 }

 /// An implementation of `dart:io`'s [HttpServer] that wraps multiple servers
 /// and forwards methods to all of them.
 ///
 /// This is useful for serving the same application on multiple network
 /// interfaces while still having a unified way of controlling the servers. In
 /// particular, it supports serving on both the IPv4 and IPv6 loopback addresses
 /// using [HttpMultiServer.loopback].
 class HttpMultiServer extends StreamView<HttpRequest> implements HttpServer {
   /// The wrapped servers.
   final Set<HttpServer> _servers;

   /// Returns the default value of the `Server` header for all responses
   /// generated by each server.
   ///
   /// If the wrapped servers have different default values, it's not defined
   /// which value is returned.
   String get serverHeader => _servers.first.serverHeader;
   set serverHeader(String value) {
     for (var server in _servers) {
       server.serverHeader = value;
     }
   }

   /// Returns the default set of headers added to all response objects.
   ///
   /// If the wrapped servers have different default headers, it's not defined
   /// which header is returned for accessor methods.
   final HttpHeaders defaultResponseHeaders;

   Duration get idleTimeout => _servers.first.idleTimeout;
   set idleTimeout(Duration value) {
     for (var server in _servers) {
       server.idleTimeout = value;
     }
   }

   bool get autoCompress => _servers.first.autoCompress;
   set autoCompress(bool value) {
     for (var server in _servers) {
       server.autoCompress = value;
     }
   }

   /// Returns the port that one of the wrapped servers is listening on.
   ///
   /// If the wrapped servers are listening on different ports, it's not defined
   /// which port is returned.
   int get port => _servers.first.port;

   /// Returns the address that one of the wrapped servers is listening on.
   ///
   /// If the wrapped servers are listening on different addresses, it's not
   /// defined which address is returned.
   InternetAddress get address => _servers.first.address;

   set sessionTimeout(int value) {
     for (var server in _servers) {
       server.sessionTimeout = value;
     }
   }

   /// Creates an [HttpMultiServer] wrapping [servers].
   ///
   /// All [servers] should have the same configuration and none should be
   /// listened to when this is called.
   HttpMultiServer(Iterable<HttpServer> servers)
       : _servers = servers.toSet(),
         defaultResponseHeaders = new MultiHeaders(
             servers.map((server) => server.defaultResponseHeaders)),
         super(StreamGroup.merge(servers));

   /// Creates an [HttpServer] listening on all available loopback addresses for
   /// this computer.
   ///
   /// See [HttpServer.bind].
   static Future<HttpServer> loopback(int port, {int backlog, bool v6Only: false,
         bool shared: false}) {
     if (backlog == null) backlog = 0;

     return _loopback(port, (address, port) =>
         HttpServer.bind(address, port,
             backlog: backlog, v6Only: v6Only, shared: shared));
   }

   /// Like [loopback], but supports HTTPS requests.
   ///
   /// See [HttpServer.bindSecure].
   static Future<HttpServer> loopbackSecure(int port, SecurityContext context,
       {int backlog, bool v6Only: false, bool requestClientCertificate: false,
       bool shared: false}) {
     if (backlog == null) backlog = 0;

     return _loopback(port, (address, port) =>
         HttpServer.bindSecure(address, port, context,
             backlog: backlog, v6Only: v6Only, shared: shared,
             requestClientCertificate: requestClientCertificate));
   }

   /// A helper method for initializing loopback servers.
   ///
   /// [bind] should forward to either [HttpServer.bind] or
   /// [HttpServer.bindSecure].
   static Future<HttpServer> _loopback(int port,
       Future<HttpServer> bind(InternetAddress address, int port),
       [int remainingRetries]) async {
     if (remainingRetries == null) remainingRetries = 5;

     var v4Server = await bind(InternetAddress.LOOPBACK_IP_V4, port);
     if (!await supportsIpV6) return v4Server;

     try {
       // Reuse the IPv4 server's port so that if [port] is 0, both servers use
       // the same ephemeral port.
       var v6Server = await bind(InternetAddress.LOOPBACK_IP_V6, v4Server.port);
       return new HttpMultiServer([v4Server, v6Server]);
     } on SocketException catch (error) {
       if (error.osError.errorCode != _addressInUseErrno) rethrow;
       if (port != 0) rethrow;
       if (remainingRetries == 0) rethrow;

       // A port being available on IPv4 doesn't necessarily mean that the same
       // port is available on IPv6. If it's not (which is rare in practice),
       // we try again until we find one that's available on both.
       v4Server.close();
       return await _loopback(port, bind, remainingRetries - 1);
     }
   }

   Future close({bool force: false}) =>
       Future.wait(_servers.map((server) => server.close(force: force)));

   /// Returns an HttpConnectionsInfo object summarizing the total number of
   /// current connections handled by all the servers.
   HttpConnectionsInfo connectionsInfo() {
     var info = new HttpConnectionsInfo();
     for (var server in _servers) {
       var subInfo = server.connectionsInfo();
       info.total += subInfo.total;
       info.active += subInfo.active;
       info.idle += subInfo.idle;
       info.closing += subInfo.closing;
     }
     return info;
   }
 }
	// 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:async';
	import 'dart:io';

	import 'package:async/async.dart';

	import 'src/multi_headers.dart';
	import 'src/utils.dart';

	/// The error code for an error caused by a port already being in use.
	final _addressInUseErrno = _computeAddressInUseErrno();
	int _computeAddressInUseErrno() {
	if (Platform.isWindows) return 10048;
	if (Platform.isMacOS) return 48;
	assert(Platform.isLinux);
	return 98;
	}

	/// An implementation of `dart:io`'s [HttpServer] that wraps multiple servers
	/// and forwards methods to all of them.
	///
	/// This is useful for serving the same application on multiple network
	/// interfaces while still having a unified way of controlling the servers. In
	/// particular, it supports serving on both the IPv4 and IPv6 loopback addresses
	/// using [HttpMultiServer.loopback].
	class HttpMultiServer extends StreamView<HttpRequest> implements HttpServer {
	/// The wrapped servers.
	final Set<HttpServer> _servers;

	/// Returns the default value of the `Server` header for all responses
	/// generated by each server.
	///
	/// If the wrapped servers have different default values, it's not defined
	/// which value is returned.
	String get serverHeader => _servers.first.serverHeader;
	set serverHeader(String value) {
	for (var server in _servers) {
	server.serverHeader = value;
	}
	}

	/// Returns the default set of headers added to all response objects.
	///
	/// If the wrapped servers have different default headers, it's not defined
	/// which header is returned for accessor methods.
	final HttpHeaders defaultResponseHeaders;

	Duration get idleTimeout => _servers.first.idleTimeout;
	set idleTimeout(Duration value) {
	for (var server in _servers) {
	server.idleTimeout = value;
	}
	}

	bool get autoCompress => _servers.first.autoCompress;
	set autoCompress(bool value) {
	for (var server in _servers) {
	server.autoCompress = value;
	}
	}

	/// Returns the port that one of the wrapped servers is listening on.
	///
	/// If the wrapped servers are listening on different ports, it's not defined
	/// which port is returned.
	int get port => _servers.first.port;

	/// Returns the address that one of the wrapped servers is listening on.
	///
	/// If the wrapped servers are listening on different addresses, it's not
	/// defined which address is returned.
	InternetAddress get address => _servers.first.address;

	set sessionTimeout(int value) {
	for (var server in _servers) {
	server.sessionTimeout = value;
	}
	}

	/// Creates an [HttpMultiServer] wrapping [servers].
	///
	/// All [servers] should have the same configuration and none should be
	/// listened to when this is called.
	HttpMultiServer(Iterable<HttpServer> servers)
	: _servers = servers.toSet(),
	defaultResponseHeaders = new MultiHeaders(
	servers.map((server) => server.defaultResponseHeaders)),
	super(StreamGroup.merge(servers));

	/// Creates an [HttpServer] listening on all available loopback addresses for
	/// this computer.
	///
	/// See [HttpServer.bind].
	static Future<HttpServer> loopback(int port, {int backlog, bool v6Only: false,
	bool shared: false}) {
	if (backlog == null) backlog = 0;

	return _loopback(port, (address, port) =>
	HttpServer.bind(address, port,
	backlog: backlog, v6Only: v6Only, shared: shared));
	}

	/// Like [loopback], but supports HTTPS requests.
	///
	/// See [HttpServer.bindSecure].
	static Future<HttpServer> loopbackSecure(int port, SecurityContext context,
	{int backlog, bool v6Only: false, bool requestClientCertificate: false,
	bool shared: false}) {
	if (backlog == null) backlog = 0;

	return _loopback(port, (address, port) =>
	HttpServer.bindSecure(address, port, context,
	backlog: backlog, v6Only: v6Only, shared: shared,
	requestClientCertificate: requestClientCertificate));
	}

	/// A helper method for initializing loopback servers.
	///
	/// [bind] should forward to either [HttpServer.bind] or
	/// [HttpServer.bindSecure].
	static Future<HttpServer> _loopback(int port,
	Future<HttpServer> bind(InternetAddress address, int port),
	[int remainingRetries]) async {
	if (remainingRetries == null) remainingRetries = 5;

	var v4Server = await bind(InternetAddress.LOOPBACK_IP_V4, port);
	if (!await supportsIpV6) return v4Server;

	try {
	// Reuse the IPv4 server's port so that if [port] is 0, both servers use
	// the same ephemeral port.
	var v6Server = await bind(InternetAddress.LOOPBACK_IP_V6, v4Server.port);
	return new HttpMultiServer([v4Server, v6Server]);
	} on SocketException catch (error) {
	if (error.osError.errorCode != _addressInUseErrno) rethrow;
	if (port != 0) rethrow;
	if (remainingRetries == 0) rethrow;

	// A port being available on IPv4 doesn't necessarily mean that the same
	// port is available on IPv6. If it's not (which is rare in practice),
	// we try again until we find one that's available on both.
	v4Server.close();
	return await _loopback(port, bind, remainingRetries - 1);
	}
	}

	Future close({bool force: false}) =>
	Future.wait(_servers.map((server) => server.close(force: force)));

	/// Returns an HttpConnectionsInfo object summarizing the total number of
	/// current connections handled by all the servers.
	HttpConnectionsInfo connectionsInfo() {
	var info = new HttpConnectionsInfo();
	for (var server in _servers) {
	var subInfo = server.connectionsInfo();
	info.total += subInfo.total;
	info.active += subInfo.active;
	info.idle += subInfo.idle;
	info.closing += subInfo.closing;
	}
	return info;
	}
	}