sdk/lib/_http/http_session.dart - sdk.git - Git at Google

 // Copyright (c) 2013, 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.

 part of dart._http;

 const String _DART_SESSION_ID = "DARTSESSID";

 // A _HttpSession is a node in a double-linked list, with _next and _prev being
 // the previous and next pointers.
 class _HttpSession implements HttpSession {
   // Destroyed marked. Used by the http connection to see if a session is valid.
   bool _destroyed = false;
   bool _isNew = true;
   DateTime _lastSeen;
   void Function()? _timeoutCallback;
   final _HttpSessionManager _sessionManager;
   // Pointers in timeout queue.
   _HttpSession? _prev;
   _HttpSession? _next;
   final String id;

   final Map _data = HashMap();

   _HttpSession(this._sessionManager, this.id) : _lastSeen = DateTime.now();

   void destroy() {
     assert(!_destroyed);
     _destroyed = true;
     _sessionManager._removeFromTimeoutQueue(this);
     _sessionManager._sessions.remove(id);
   }

   // Mark the session as seen. This will reset the timeout and move the node to
   // the end of the timeout queue.
   void _markSeen() {
     _lastSeen = DateTime.now();
     _sessionManager._bumpToEnd(this);
   }

   DateTime get lastSeen => _lastSeen;

   bool get isNew => _isNew;

   void set onTimeout(void Function()? callback) {
     _timeoutCallback = callback;
   }

   // Map implementation:
   bool containsValue(value) => _data.containsValue(value);
   bool containsKey(key) => _data.containsKey(key);
   operator [](key) => _data[key];
   void operator []=(key, value) {
     _data[key] = value;
   }

   putIfAbsent(key, ifAbsent) => _data.putIfAbsent(key, ifAbsent);
   addAll(Map other) => _data.addAll(other);
   remove(key) => _data.remove(key);
   void clear() {
     _data.clear();
   }

   void forEach(void f(key, value)) {
     _data.forEach(f);
   }

   Iterable<MapEntry> get entries => _data.entries;

   void addEntries(Iterable<MapEntry> entries) {
     _data.addEntries(entries);
   }

   Map<K, V> map<K, V>(MapEntry<K, V> transform(key, value)) =>
       _data.map(transform);

   void removeWhere(bool test(key, value)) {
     _data.removeWhere(test);
   }

   Map<K, V> cast<K, V>() => _data.cast<K, V>();
   update(key, update(value), {Function()? ifAbsent}) =>
       _data.update(key, update, ifAbsent: ifAbsent);

   void updateAll(update(key, value)) {
     _data.updateAll(update);
   }

   Iterable get keys => _data.keys;
   Iterable get values => _data.values;
   int get length => _data.length;
   bool get isEmpty => _data.isEmpty;
   bool get isNotEmpty => _data.isNotEmpty;

   String toString() => 'HttpSession id:$id $_data';
 }

 // Private class used to manage all the active sessions. The sessions are stored
 // in two ways:
 //
 //  * In a map, mapping from ID to HttpSession.
 //  * In a linked list, used as a timeout queue.
 class _HttpSessionManager {
   final Map<String, _HttpSession> _sessions;
   int _sessionTimeout = 20 * 60; // 20 mins.
   _HttpSession? _head;
   _HttpSession? _tail;
   Timer? _timer;

   _HttpSessionManager() : _sessions = {};

   String createSessionId() {
     const int _KEY_LENGTH = 16; // 128 bits.
     var data = _CryptoUtils.getRandomBytes(_KEY_LENGTH);
     return _CryptoUtils.bytesToHex(data);
   }

   _HttpSession? getSession(String id) => _sessions[id];

   _HttpSession createSession() {
     var id = createSessionId();
     // TODO(ajohnsen): Consider adding a limit and throwing an exception.
     // Should be very unlikely however.
     while (_sessions.containsKey(id)) {
       id = createSessionId();
     }
     var session = _sessions[id] = _HttpSession(this, id);
     _addToTimeoutQueue(session);
     return session;
   }

   void set sessionTimeout(int timeout) {
     _sessionTimeout = timeout;
     _stopTimer();
     _startTimer();
   }

   void close() {
     _stopTimer();
   }

   void _bumpToEnd(_HttpSession session) {
     _removeFromTimeoutQueue(session);
     _addToTimeoutQueue(session);
   }

   void _addToTimeoutQueue(_HttpSession session) {
     if (_head == null) {
       assert(_tail == null);
       _tail = _head = session;
       _startTimer();
     } else {
       assert(_timer != null);
       var tail = _tail!;
       // Add to end.
       tail._next = session;
       session._prev = tail;
       _tail = session;
     }
   }

   void _removeFromTimeoutQueue(_HttpSession session) {
     var next = session._next;
     var prev = session._prev;
     session._next = session._prev = null;
     next?._prev = prev;
     prev?._next = next;
     if (_tail == session) {
       _tail = prev;
     }
     if (_head == session) {
       _head = next;
       // We removed the head element, start new timer.
       _stopTimer();
       _startTimer();
     }
   }

   void _timerTimeout() {
     _stopTimer(); // Clear timer.
     var session = _head!;
     session.destroy(); // Will remove the session from timeout queue and map.
     session._timeoutCallback?.call();
   }

   void _startTimer() {
     assert(_timer == null);
     var head = _head;
     if (head != null) {
       int seconds = DateTime.now().difference(head.lastSeen).inSeconds;
       _timer =
           Timer(Duration(seconds: _sessionTimeout - seconds), _timerTimeout);
     }
   }

   void _stopTimer() {
     var timer = _timer;
     if (timer != null) {
       timer.cancel();
       _timer = null;
     }
   }
 }
	// Copyright (c) 2013, 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.

	part of dart._http;

	const String _DART_SESSION_ID = "DARTSESSID";

	// A _HttpSession is a node in a double-linked list, with _next and _prev being
	// the previous and next pointers.
	class _HttpSession implements HttpSession {
	// Destroyed marked. Used by the http connection to see if a session is valid.
	bool _destroyed = false;
	bool _isNew = true;
	DateTime _lastSeen;
	void Function()? _timeoutCallback;
	final _HttpSessionManager _sessionManager;
	// Pointers in timeout queue.
	_HttpSession? _prev;
	_HttpSession? _next;
	final String id;

	final Map _data = HashMap();

	_HttpSession(this._sessionManager, this.id) : _lastSeen = DateTime.now();

	void destroy() {
	assert(!_destroyed);
	_destroyed = true;
	_sessionManager._removeFromTimeoutQueue(this);
	_sessionManager._sessions.remove(id);
	}

	// Mark the session as seen. This will reset the timeout and move the node to
	// the end of the timeout queue.
	void _markSeen() {
	_lastSeen = DateTime.now();
	_sessionManager._bumpToEnd(this);
	}

	DateTime get lastSeen => _lastSeen;

	bool get isNew => _isNew;

	void set onTimeout(void Function()? callback) {
	_timeoutCallback = callback;
	}

	// Map implementation:
	bool containsValue(value) => _data.containsValue(value);
	bool containsKey(key) => _data.containsKey(key);
	operator [](key) => _data[key];
	void operator []=(key, value) {
	_data[key] = value;
	}

	putIfAbsent(key, ifAbsent) => _data.putIfAbsent(key, ifAbsent);
	addAll(Map other) => _data.addAll(other);
	remove(key) => _data.remove(key);
	void clear() {
	_data.clear();
	}

	void forEach(void f(key, value)) {
	_data.forEach(f);
	}

	Iterable<MapEntry> get entries => _data.entries;

	void addEntries(Iterable<MapEntry> entries) {
	_data.addEntries(entries);
	}

	Map<K, V> map<K, V>(MapEntry<K, V> transform(key, value)) =>
	_data.map(transform);

	void removeWhere(bool test(key, value)) {
	_data.removeWhere(test);
	}

	Map<K, V> cast<K, V>() => _data.cast<K, V>();
	update(key, update(value), {Function()? ifAbsent}) =>
	_data.update(key, update, ifAbsent: ifAbsent);

	void updateAll(update(key, value)) {
	_data.updateAll(update);
	}

	Iterable get keys => _data.keys;
	Iterable get values => _data.values;
	int get length => _data.length;
	bool get isEmpty => _data.isEmpty;
	bool get isNotEmpty => _data.isNotEmpty;

	String toString() => 'HttpSession id:$id $_data';
	}

	// Private class used to manage all the active sessions. The sessions are stored
	// in two ways:
	//
	// * In a map, mapping from ID to HttpSession.
	// * In a linked list, used as a timeout queue.
	class _HttpSessionManager {
	final Map<String, _HttpSession> _sessions;
	int _sessionTimeout = 20 * 60; // 20 mins.
	_HttpSession? _head;
	_HttpSession? _tail;
	Timer? _timer;

	_HttpSessionManager() : _sessions = {};

	String createSessionId() {
	const int _KEY_LENGTH = 16; // 128 bits.
	var data = _CryptoUtils.getRandomBytes(_KEY_LENGTH);
	return _CryptoUtils.bytesToHex(data);
	}

	_HttpSession? getSession(String id) => _sessions[id];

	_HttpSession createSession() {
	var id = createSessionId();
	// TODO(ajohnsen): Consider adding a limit and throwing an exception.
	// Should be very unlikely however.
	while (_sessions.containsKey(id)) {
	id = createSessionId();
	}
	var session = _sessions[id] = _HttpSession(this, id);
	_addToTimeoutQueue(session);
	return session;
	}

	void set sessionTimeout(int timeout) {
	_sessionTimeout = timeout;
	_stopTimer();
	_startTimer();
	}

	void close() {
	_stopTimer();
	}

	void _bumpToEnd(_HttpSession session) {
	_removeFromTimeoutQueue(session);
	_addToTimeoutQueue(session);
	}

	void _addToTimeoutQueue(_HttpSession session) {
	if (_head == null) {
	assert(_tail == null);
	_tail = _head = session;
	_startTimer();
	} else {
	assert(_timer != null);
	var tail = _tail!;
	// Add to end.
	tail._next = session;
	session._prev = tail;
	_tail = session;
	}
	}

	void _removeFromTimeoutQueue(_HttpSession session) {
	var next = session._next;
	var prev = session._prev;
	session._next = session._prev = null;
	next?._prev = prev;
	prev?._next = next;
	if (_tail == session) {
	_tail = prev;
	}
	if (_head == session) {
	_head = next;
	// We removed the head element, start new timer.
	_stopTimer();
	_startTimer();
	}
	}

	void _timerTimeout() {
	_stopTimer(); // Clear timer.
	var session = _head!;
	session.destroy(); // Will remove the session from timeout queue and map.
	session._timeoutCallback?.call();
	}

	void _startTimer() {
	assert(_timer == null);
	var head = _head;
	if (head != null) {
	int seconds = DateTime.now().difference(head.lastSeen).inSeconds;
	_timer =
	Timer(Duration(seconds: _sessionTimeout - seconds), _timerTimeout);
	}
	}

	void _stopTimer() {
	var timer = _timer;
	if (timer != null) {
	timer.cancel();
	_timer = null;
	}
	}
	}