using System;
using System.Threading;
using System.Collections;
using AsterNET.Manager.Action;
using AsterNET.Manager.Event;
using AsterNET.Manager.Response;
using System.Text.RegularExpressions;
using System.Text;
using System.Collections.Generic;
using System.Reflection;
using AsterNET.IO;
using System.Threading.Tasks;
namespace AsterNET.Manager
{
///
/// Default implemention of the ManagerConnection interface.
///
public class ManagerConnection
{
#region Variables
#if LOGGER
private Logger logger = Logger.Instance();
#endif
private long actionIdCount = 0;
private string hostname;
private int port;
private string username;
private string password;
private SocketConnection mrSocket;
private Thread mrReaderThread;
private ManagerReader mrReader;
private int defaultResponseTimeout = 2000;
private int defaultEventTimeout = 5000;
private int sleepTime = 50;
private bool keepAlive = true;
private bool keepAliveAfterAuthenticationFailure = false;
private string protocolIdentifier;
private AsteriskVersion asteriskVersion;
private Dictionary responseHandlers;
private Dictionary pingHandlers;
private Dictionary responseEventHandlers;
private int pingInterval = 10000;
private object lockSocket = new object();
private object lockSocketWrite = new object();
private object lockHandlers = new object();
private bool enableEvents = true;
private string version = string.Empty;
private Encoding socketEncoding = Encoding.ASCII;
private bool reconnected = false;
private bool reconnectEnable = false;
private int reconnectCount;
private Dictionary registeredEventClasses;
private Dictionary> registeredEventHandlers;
private event EventHandler internalEvent;
private bool fireAllEvents = false;
private Thread callerThread;
/// Default Fast Reconnect retry counter.
private int reconnectRetryFast = 5;
/// Default Maximum Reconnect retry counter.
private int reconnectRetryMax = 10;
/// Default Fast Reconnect interval in milliseconds.
private int reconnectIntervalFast = 5000;
/// Default Slow Reconnect interval in milliseconds.
private int reconnectIntervalMax = 10000;
public char[] VAR_DELIMITER = { '|' };
#endregion
///
/// Allows you to specifiy how events are fired. If false (default) then
/// events will be fired in order. Otherwise events will be fired as they arrive and
/// control logic in your application will need to handle synchronization.
///
public bool UseASyncEvents = false;
#region Events
///
/// An UnhandledEvent is triggered on unknown event.
///
public event EventHandler UnhandledEvent;
///
/// An AgentCallbackLogin is triggered when an agent is successfully logged in.
///
public event EventHandler AgentCallbackLogin;
///
/// An AgentCallbackLogoff is triggered when an agent that previously logged in is logged of.
///
public event EventHandler AgentCallbackLogoff;
///
/// An AgentCalled is triggered when an agent is ring.
/// To enable AgentCalled you have to set eventwhencalled = yes in queues.conf.
///
public event EventHandler AgentCalled;
///
/// An AgentCompleteEvent is triggered when at the end of a call if the caller was connected to an agent.
///
public event EventHandler AgentComplete;
///
/// An AgentConnectEvent is triggered when a caller is connected to an agent.
///
public event EventHandler AgentConnect;
///
/// An AgentDumpEvent is triggered when an agent dumps the caller while listening to the queue announcement.
///
public event EventHandler AgentDump;
///
/// An AgentLoginEvent is triggered when an agent is successfully logged in using AgentLogin.
///
public event EventHandler AgentLogin;
///
/// An AgentCallbackLogoffEvent is triggered when an agent that previously logged in using AgentLogin is logged of.
///
public event EventHandler AgentLogoff;
///
/// An AgentRingNoAnswer is triggered when an agent was rang and did not answer.
/// To enable AgentRingNoAnswer you have to set eventwhencalled = yes in queues.conf.
///
public event EventHandler AgentRingNoAnswer;
///
/// An AgentsCompleteEvent is triggered after the state of all agents has been reported in response to an AgentsAction.
///
public event EventHandler AgentsComplete;
///
/// An AgentsEvent is triggered for each agent in response to an AgentsAction.
///
public event EventHandler Agents;
///
/// An AlarmEvent is triggered when a Zap channel leaves alarm state.
///
public event EventHandler AlarmClear;
///
///
///
public event EventHandler Bridge;
///
/// An AlarmEvent is triggered when a Zap channel enters or changes alarm state.
///
public event EventHandler Alarm;
///
/// A CdrEvent is triggered when a call detail record is generated, usually at the end of a call.
///
public event EventHandler Cdr;
public event EventHandler DBGetResponse;
///
/// A Dial is triggered whenever a phone attempts to dial someone.
///
public event EventHandler Dial;
public event EventHandler DTMF;
///
/// An DTMFBeginEvent is triggered when a DTMF digit has started on a channel.
///
public event EventHandler DTMFBegin;
///
/// An DTMFEndEvent is triggered when a DTMF digit has ended on a channel.
///
public event EventHandler DTMFEnd;
///
/// A DNDStateEvent is triggered by the Zap channel driver when a channel enters or leaves DND (do not disturb) state.
///
public event EventHandler DNDState;
///
/// An ExtensionStatus is triggered when the state of an extension changes.
///
public event EventHandler ExtensionStatus;
///
/// A Hangup is triggered when a channel is hung up.
///
public event EventHandler Hangup;
///
/// A HoldedCall is triggered when a channel is put on hold.
///
public event EventHandler HoldedCall;
///
/// A Hold is triggered by the SIP channel driver when a channel is put on hold.
///
public event EventHandler Hold;
///
/// A Join is triggered when a channel joines a queue.
///
public event EventHandler Join;
///
/// A Leave is triggered when a channel leaves a queue.
///
public event EventHandler Leave;
///
/// A Link is triggered when two voice channels are linked together and voice data exchange commences.
/// Several Link events may be seen for a single call. This can occur when Asterisk fails to setup a
/// native bridge for the call.This is when Asterisk must sit between two telephones and perform
/// CODEC conversion on their behalf.
///
public event EventHandler Link;
///
/// A LogChannel is triggered when logging is turned on or off.
///
public event EventHandler LogChannel;
///
/// A MeetMeJoin is triggered if a channel joins a meet me conference.
///
public event EventHandler MeetMeJoin;
///
/// A MeetMeLeave is triggered if a channel leaves a meet me conference.
///
public event EventHandler MeetMeLeave;
// public event EventHandler MeetMeStopTalking;
///
/// A MeetMeTalkingEvent is triggered when a user starts talking in a meet me conference.
/// To enable talker detection you must pass the option 'T' to the MeetMe application.
///
public event EventHandler MeetMeTalking;
///
/// A MessageWaiting is triggered when someone leaves voicemail.
///
public event EventHandler MessageWaiting;
///
/// A NewCallerId is triggered when the caller id of a channel changes.
///
public event EventHandler NewCallerId;
///
/// A NewChannel is triggered when a new channel is created.
///
public event EventHandler NewChannel;
///
/// A NewExten is triggered when a channel is connected to a new extension.
///
public event EventHandler NewExten;
///
/// A NewState is triggered when the state of a channel has changed.
///
public event EventHandler NewState;
// public event EventHandler Originate;
///
/// An OriginateFailure is triggered when the execution of an OriginateAction failed.
///
// public event EventHandler OriginateFailure;
///
/// An OriginateSuccess is triggered when the execution of an OriginateAction succeeded.
///
// public event EventHandler OriginateSuccess;
///
/// An OriginateResponse is triggered when the execution of an Originate.
///
public event EventHandler OriginateResponse;
///
/// A ParkedCall is triggered when a channel is parked (in this case no
/// action id is set) and in response to a ParkedCallsAction.
///
public event EventHandler ParkedCall;
///
/// A ParkedCallGiveUp is triggered when a channel that has been parked is hung up.
///
public event EventHandler ParkedCallGiveUp;
///
/// A ParkedCallsComplete is triggered after all parked calls have been reported in response to a ParkedCallsAction.
///
public event EventHandler ParkedCallsComplete;
///
/// A ParkedCallTimeOut is triggered when call parking times out for a given channel.
///
public event EventHandler ParkedCallTimeOut;
///
/// A PeerEntry is triggered in response to a SIPPeersAction or SIPShowPeerAction and contains information about a peer.
///
public event EventHandler PeerEntry;
///
/// A PeerlistComplete is triggered after the details of all peers has been reported in response to an SIPPeersAction or SIPShowPeerAction.
///
public event EventHandler PeerlistComplete;
///
/// A PeerStatus is triggered when a SIP or IAX client attempts to registrer at this asterisk server.
///
public event EventHandler PeerStatus;
///
/// A QueueEntryEvent is triggered in response to a QueueStatusAction and contains information about an entry in a queue.
///
public event EventHandler QueueCallerAbandon;
///
/// A QueueEntryEvent is triggered in response to a QueueStatusAction and contains information about an entry in a queue.
///
public event EventHandler QueueEntry;
///
/// A QueueMemberAddedEvent is triggered when a queue member is added to a queue.
///
public event EventHandler QueueMemberAdded;
///
/// A QueueMemberEvent is triggered in response to a QueueStatusAction and contains information about a member of a queue.
///
public event EventHandler QueueMember;
///
/// A QueueMemberPausedEvent is triggered when a queue member is paused or unpaused.
/// Replaced by : since Asterisk 12.
/// Removed since : Asterisk 13.
///
public event EventHandler QueueMemberPaused;
///
/// A QueueMemberRemovedEvent is triggered when a queue member is removed from a queue.
///
public event EventHandler QueueMemberRemoved;
///
/// A QueueMemberStatusEvent shows the status of a QueueMemberEvent.
///
public event EventHandler QueueMemberStatus;
///
/// A QueueParamsEvent is triggered in response to a QueueStatusAction and contains the parameters of a queue.
///
public event EventHandler QueueParams;
///
/// A QueueStatusCompleteEvent is triggered after the state of all queues has been reported in response to a QueueStatusAction.
///
public event EventHandler QueueStatusComplete;
///
/// A Registry is triggered when this asterisk server attempts to register
/// as a client at another SIP or IAX server.
///
public event EventHandler Registry;
///
/// A RenameEvent is triggered when the name of a channel is changed.
///
public event EventHandler Rename;
///
/// A StatusCompleteEvent is triggered after the state of all channels has been reported in response to a StatusAction.
///
public event EventHandler StatusComplete;
///
/// A StatusEvent is triggered for each active channel in response to a StatusAction.
///
public event EventHandler Status;
///
///
///
public event EventHandler Transfer;
///
/// An UnholdEvent is triggered by the SIP channel driver when a channel is no longer put on hold.
///
public event EventHandler Unhold;
///
/// An UnlinkEvent is triggered when a link between two voice channels is discontinued, for example, just before call completion.
///
public event EventHandler Unlink;
///
/// A UnparkedCallEvent is triggered when a channel that has been parked is resumed.
///
public event EventHandler UnparkedCall;
///
/// A ZapShowChannelsEvent is triggered on UserEvent in dialplan.
///
public event EventHandler UserEvents;
///
/// A ZapShowChannelsCompleteEvent is triggered after the state of all zap channels has been reported in response to a ZapShowChannelsAction.
///
public event EventHandler ZapShowChannelsComplete;
///
/// A ZapShowChannelsEvent is triggered in response to a ZapShowChannelsAction and shows the state of a zap channel.
///
public event EventHandler ZapShowChannels;
///
/// A ConnectionState is triggered after Connect/Disconnect/Shutdown events.
///
public event EventHandler ConnectionState;
///
/// A Reload is triggered after Reload events.
///
public event EventHandler Reload;
///
/// When a variable is set
///
public event EventHandler VarSet;
///
/// AgiExec is execute
///
public event EventHandler AGIExec;
///
/// This event is sent when the first user requests a conference and it is instantiated
///
public event EventHandler ConfbridgeStart;
///
/// This event is sent when a user joins a conference - either one already in progress or as the first user to join a newly instantiated bridge.
///
public event EventHandler ConfbridgeJoin;
///
/// This event is sent when a user leaves a conference.
///
public event EventHandler ConfbridgeLeave;
///
/// This event is sent when the last user leaves a conference and it is torn down.
///
public event EventHandler ConfbridgeEnd;
///
/// This event is sent when the conference detects that a user has either begin or stopped talking.
///
public event EventHandler ConfbridgeTalking;
///
///
///
public event EventHandler FailedACL;
public event EventHandler AttendedTransfer;
public event EventHandler BlindTransfer;
public event EventHandler BridgeCreate;
public event EventHandler BridgeDestroy;
public event EventHandler BridgeEnter;
public event EventHandler BridgeLeave;
///
/// Raised when a dial action has started.
///
public event EventHandler DialBegin;
///
/// Raised when a dial action has completed.
///
public event EventHandler DialEnd;
///
/// Raised when a caller joins a Queue.
///
public event EventHandler QueueCallerJoin;
///
/// Raised when a caller leaves a Queue.
///
public event EventHandler QueueCallerLeave;
///
/// A QueueMemberPauseEvent is triggered when a queue member is paused or unpaused.
/// Available since : Asterisk 12.
///
public event EventHandler QueueMemberPause;
///
/// Raised when music on hold has started/stopped on a channel.
/// Available since : Asterisk 1.6.
///
public event EventHandler MusicOnHold;
///
/// Raised when music on hold has started on a channel.
/// Available since : Asterisk 12.
///
public event EventHandler MusicOnHoldStart;
///
/// Raised when music on hold has stopped on a channel.
/// Available since : Asterisk 12.
///
public event EventHandler MusicOnHoldStop;
///
/// A ChallengeResponseFailed is triggered when a request's attempt to authenticate has been challenged, and the request failed the authentication challenge.
///
public event EventHandler ChallengeResponseFailed;
///
/// A InvalidAccountID is triggered when a request fails an authentication check due to an invalid account ID.
///
public event EventHandler InvalidAccountID;
///
/// A DeviceStateChanged is triggered when a device state changes.
///
public event EventHandler DeviceStateChanged;
///
/// A ChallengeSent is triggered when an Asterisk service sends an authentication challenge to a request..
///
public event EventHandler ChallengeSent;
///
/// A SuccessfulAuth is triggered when a request successfully authenticates with a service.
///
public event EventHandler SuccessfulAuth;
///
/// Raised when call queue summary
///
public event EventHandler QueueSummary;
#endregion
#region Constructor - ManagerConnection()
/// Creates a new instance.
public ManagerConnection()
{
callerThread = Thread.CurrentThread;
socketEncoding = Encoding.ASCII;
responseHandlers = new Dictionary();
pingHandlers = new Dictionary();
responseEventHandlers = new Dictionary();
registeredEventClasses = new Dictionary();
Helper.RegisterBuiltinEventClasses(registeredEventClasses);
registeredEventHandlers = new Dictionary>();
#region Event mapping table
Helper.RegisterEventHandler(registeredEventHandlers, typeof(AgentCallbackLoginEvent), arg => fireEvent(AgentCallbackLogin, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(AgentCallbackLogoffEvent), arg => fireEvent(AgentCallbackLogoff, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(AgentCalledEvent), arg => fireEvent(AgentCalled, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(AgentCompleteEvent), arg => fireEvent(AgentComplete, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(AgentConnectEvent), arg => fireEvent(AgentConnect, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(AgentDumpEvent), arg => fireEvent(AgentDump, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(AgentLoginEvent), arg => fireEvent(AgentLogin, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(AgentLogoffEvent), arg => fireEvent(AgentLogoff, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(AgentRingNoAnswerEvent), arg => fireEvent(AgentRingNoAnswer, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(AgentsCompleteEvent), arg => fireEvent(AgentsComplete, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(AgentsEvent), arg => fireEvent(Agents, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(AlarmClearEvent), arg => fireEvent(AlarmClear, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(AlarmEvent), arg => fireEvent(Alarm, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(CdrEvent), arg => fireEvent(Cdr, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(DBGetResponseEvent), arg => fireEvent(DBGetResponse, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(DialEvent), arg => fireEvent(Dial, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(DNDStateEvent), arg => fireEvent(DNDState, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(ExtensionStatusEvent), arg => fireEvent(ExtensionStatus, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(HangupEvent), arg => fireEvent(Hangup, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(HoldedCallEvent), arg => fireEvent(HoldedCall, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(HoldEvent), arg => fireEvent(Hold, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(JoinEvent), arg => fireEvent(Join, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(LeaveEvent), arg => fireEvent(Leave, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(LinkEvent), arg => fireEvent(Link, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(LogChannelEvent), arg => fireEvent(LogChannel, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(MeetmeJoinEvent), arg => fireEvent(MeetMeJoin, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(MeetmeLeaveEvent), arg => fireEvent(MeetMeLeave, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(MeetmeTalkingEvent), arg => fireEvent(MeetMeTalking, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(MessageWaitingEvent), arg => fireEvent(MessageWaiting, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(NewCallerIdEvent), arg => fireEvent(NewCallerId, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(NewChannelEvent), arg => fireEvent(NewChannel, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(NewExtenEvent), arg => fireEvent(NewExten, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(NewStateEvent), arg => fireEvent(NewState, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(OriginateResponseEvent), arg => fireEvent(OriginateResponse, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(ParkedCallEvent), arg => fireEvent(ParkedCall, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(ParkedCallGiveUpEvent), arg => fireEvent(ParkedCallGiveUp, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(ParkedCallsCompleteEvent), arg => fireEvent(ParkedCallsComplete, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(ParkedCallTimeOutEvent), arg => fireEvent(ParkedCallTimeOut, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(PeerEntryEvent), arg => fireEvent(PeerEntry, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(PeerlistCompleteEvent), arg => fireEvent(PeerlistComplete, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(PeerStatusEvent), arg => fireEvent(PeerStatus, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(QueueEntryEvent), arg => fireEvent(QueueEntry, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(QueueMemberAddedEvent), arg => fireEvent(QueueMemberAdded, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(QueueMemberEvent), arg => fireEvent(QueueMember, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(QueueMemberPausedEvent), arg => fireEvent(QueueMemberPaused, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(QueueMemberRemovedEvent), arg => fireEvent(QueueMemberRemoved, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(QueueMemberStatusEvent), arg => fireEvent(QueueMemberStatus, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(QueueParamsEvent), arg => fireEvent(QueueParams, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(QueueStatusCompleteEvent), arg => fireEvent(QueueStatusComplete, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(RegistryEvent), arg => fireEvent(Registry, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(QueueCallerAbandonEvent), arg => fireEvent(QueueCallerAbandon, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(RenameEvent), arg => fireEvent(Rename, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(StatusCompleteEvent), arg => fireEvent(StatusComplete, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(StatusEvent), arg => fireEvent(Status, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(UnholdEvent), arg => fireEvent(Unhold, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(UnlinkEvent), arg => fireEvent(Unlink, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(UnparkedCallEvent), arg => fireEvent(UnparkedCall, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(UserEvent), arg => fireEvent(UserEvents, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(ZapShowChannelsCompleteEvent), arg => fireEvent(ZapShowChannelsComplete, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(ZapShowChannelsEvent), arg => fireEvent(ZapShowChannels, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(ConnectEvent), arg => fireEvent(ConnectionState, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(DisconnectEvent), arg => fireEvent(ConnectionState, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(ReloadEvent), arg => fireEvent(Reload, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(ShutdownEvent), arg => fireEvent(ConnectionState, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(BridgeEvent), arg => fireEvent(Bridge, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(TransferEvent), arg => fireEvent(Transfer, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(DTMFEvent), arg => fireEvent(DTMF, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(DTMFBeginEvent), arg => fireEvent(DTMFBegin, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(DTMFEndEvent), arg => fireEvent(DTMFEnd, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(VarSetEvent), arg => fireEvent(VarSet, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(AGIExecEvent), arg => fireEvent(AGIExec, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(ConfbridgeStartEvent), arg => fireEvent(ConfbridgeStart, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(ConfbridgeJoinEvent), arg => fireEvent(ConfbridgeJoin, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(ConfbridgeLeaveEvent), arg => fireEvent(ConfbridgeLeave, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(ConfbridgeEndEvent), arg => fireEvent(ConfbridgeEnd, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(ConfbridgeTalkingEvent), arg => fireEvent(ConfbridgeTalking, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(FailedACLEvent), arg => fireEvent(FailedACL, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(AttendedTransferEvent), arg => fireEvent(AttendedTransfer, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(BridgeCreateEvent), arg => fireEvent(BridgeCreate, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(BridgeDestroyEvent), arg => fireEvent(BridgeDestroy, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(BridgeEnterEvent), arg => fireEvent(BridgeEnter, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(BridgeLeaveEvent), arg => fireEvent(BridgeLeave, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(BlindTransferEvent), arg => fireEvent(BlindTransfer, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(DialBeginEvent), arg => fireEvent(DialBegin, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(DialEndEvent), arg => fireEvent(DialEnd, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(QueueCallerJoinEvent), arg => fireEvent(QueueCallerJoin, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(QueueCallerLeaveEvent), arg => fireEvent(QueueCallerLeave, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(QueueMemberPauseEvent), arg => fireEvent(QueueMemberPause, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(MusicOnHoldEvent), arg => fireEvent(MusicOnHold, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(MusicOnHoldStartEvent), arg => fireEvent(MusicOnHoldStart, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(MusicOnHoldStopEvent), arg => fireEvent(MusicOnHoldStop, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(ChallengeResponseFailedEvent), arg => fireEvent(ChallengeResponseFailed, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(InvalidAccountIDEvent), arg => fireEvent(InvalidAccountID, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(DeviceStateChangeEvent), arg => fireEvent(DeviceStateChanged, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(ChallengeSentEvent), arg => fireEvent(ChallengeSent, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(SuccessfulAuthEvent), arg => fireEvent(SuccessfulAuth, arg));
Helper.RegisterEventHandler(registeredEventHandlers, typeof(QueueSummaryEvent), arg => fireEvent(QueueSummary, arg));
#endregion
this.internalEvent += new EventHandler(internalEventHandler);
}
#endregion
#region Constructor - ManagerConnection(hostname, port, username, password)
///
/// Creates a new instance with the given connection parameters.
///
/// the hosname of the Asterisk server to connect to.
/// the port where Asterisk listens for incoming Manager API connections, usually 5038.
/// the username to use for login
/// the password to use for login
public ManagerConnection(string hostname, int port, string username, string password)
: this()
{
this.hostname = hostname;
this.port = port;
this.username = username;
this.password = password;
}
#endregion
#region Constructor - ManagerConnection(hostname, port, username, password, Encoding socketEncoding)
///
/// Creates a new instance with the given connection parameters.
///
/// the hosname of the Asterisk server to connect to.
/// the port where Asterisk listens for incoming Manager API connections, usually 5038.
/// the username to use for login
/// the password to use for login
/// text encoding to asterisk input/output stream
public ManagerConnection(string hostname, int port, string username, string password, Encoding encoding)
: this()
{
this.hostname = hostname;
this.port = port;
this.username = username;
this.password = password;
this.socketEncoding = encoding;
}
#endregion
///
/// Default Fast Reconnect retry counter.
///
public int ReconnectRetryFast
{
get { return reconnectRetryFast; }
set { reconnectRetryFast = value; }
}
/// Default Maximum Reconnect retry counter.
public int ReconnectRetryMax
{
get { return reconnectRetryMax; }
set { reconnectRetryMax = value; }
}
/// Default Fast Reconnect interval in milliseconds.
public int ReconnectIntervalFast
{
get { return reconnectIntervalFast; }
set { reconnectIntervalFast = value; }
}
/// Default Slow Reconnect interval in milliseconds.
public int ReconnectIntervalMax
{
get { return reconnectIntervalMax; }
set { reconnectIntervalMax = value; }
}
#region CallerThread
internal Thread CallerThread
{
get { return callerThread; }
}
#endregion
#region internalEventHandler(object sender, ManagerEvent e)
private void internalEventHandler(object sender, ManagerEvent e)
{
int eventHash = e.GetType().Name.GetHashCode();
if (registeredEventHandlers.ContainsKey(eventHash))
{
var currentEvent = registeredEventHandlers[eventHash];
if (currentEvent(e))
{
return;
}
}
if (fireAllEvents)
{
fireEvent(UnhandledEvent, e);
}
}
#endregion
#region FireAllEvents
///
/// If this property set to true then ManagerConnection send all unassigned events to UnhandledEvent handler,
/// if set to false then all unassgned events lost and send only UnhandledEvent.
/// Default: false
///
public bool FireAllEvents
{
get { return this.fireAllEvents; }
set { this.fireAllEvents = value; }
}
#endregion
#region PingInterval
///
/// Timeout from Ping to Pong. If no Pong received send Disconnect event. Set to zero to disable.
///
public int PingInterval
{
get { return pingInterval; }
set { pingInterval = value; }
}
#endregion
#region Hostname
/// Sets the hostname of the asterisk server to connect to.
/// Default is localhost.
///
public string Hostname
{
get { return hostname; }
set { hostname = value; }
}
#endregion
#region Port
///
/// Sets the port to use to connect to the asterisk server. This is the port
/// specified in asterisk's manager.conf file.
/// Default is 5038.
///
public int Port
{
get { return port; }
set { port = value; }
}
#endregion
#region UserName
///
/// Sets the username to use to connect to the asterisk server. This is the
/// username specified in asterisk's manager.conf file.
///
public string Username
{
get { return username; }
set { username = value; }
}
#endregion
#region Password
///
/// Sets the password to use to connect to the asterisk server. This is the
/// password specified in asterisk's manager.conf file.
///
public string Password
{
get { return password; }
set { password = value; }
}
#endregion
#region DefaultResponseTimeout
/// Sets the time in milliseconds the synchronous method
/// will wait for a response before throwing a TimeoutException.
/// Default is 2000.
///
public int DefaultResponseTimeout
{
get { return defaultResponseTimeout; }
set { defaultResponseTimeout = value; }
}
#endregion
#region DefaultEventTimeout
/// Sets the time in milliseconds the synchronous method
/// will wait for a response and the last response event before throwing a TimeoutException.
/// Default is 5000.
///
public int DefaultEventTimeout
{
get { return defaultEventTimeout; }
set { defaultEventTimeout = value; }
}
#endregion
#region SleepTime
/// Sets the time in milliseconds the synchronous methods
/// SendAction(Action.ManagerAction) and
/// SendAction(Action.ManagerAction, long) will sleep between two checks
/// for the arrival of a response. This value should be rather small.
/// The sleepTime attribute is also used when checking for the protocol
/// identifer.
/// Default is 50.
///
/// this has been replaced by an interrupt based response checking approach.
public int SleepTime
{
get { return sleepTime; }
set { sleepTime = value; }
}
#endregion
#region KeepAliveAfterAuthenticationFailure
/// Set to true to try reconnecting to ther asterisk serve
/// even if the reconnection attempt threw an AuthenticationFailedException.
/// Default is false.
///
public bool KeepAliveAfterAuthenticationFailure
{
set { keepAliveAfterAuthenticationFailure = value; }
get { return keepAliveAfterAuthenticationFailure; }
}
#endregion
#region KeepAlive
///
/// Should we attempt to reconnect when the connection is lost?
/// This is set to true after successful login and to false after logoff or after an authentication failure when keepAliveAfterAuthenticationFailure is false.
///
public bool KeepAlive
{
get { return keepAlive; }
set { keepAlive = value; }
}
#endregion
#region SocketEncoding
///
/// Socket Encoding - default ASCII
///
public Encoding SocketEncoding
{
get { return socketEncoding; }
set { socketEncoding = value; }
}
#endregion
#region Version
public string Version
{
get { return version; }
}
#endregion
#region AsteriskVersion
public AsteriskVersion AsteriskVersion
{
get { return asteriskVersion; }
}
#endregion
#region login(timeout)
///
/// Does the real login, following the steps outlined below.
/// Connects to the asterisk server by calling connect() if not already connected
/// Waits until the protocol identifier is received. This is checked every sleepTime ms but not longer than timeout ms in total.
/// Sends a ChallengeAction requesting a challenge for authType MD5.
/// When the ChallengeResponse is received a LoginAction is sent using the calculated key (MD5 hash of the password appended to the received challenge).
///
/// the maximum time to wait for the protocol identifier (in ms)
///
/// AuthenticationFailedException if username or password are incorrect and the login action returns an error or if the MD5
/// hash cannot be computed. The connection is closed in this case.
///
///
/// TimeoutException if a timeout occurs either while waiting for the
/// protocol identifier or when sending the challenge or login
/// action. The connection is closed in this case.
///
private void login(int timeout)
{
enableEvents = false;
if (reconnected)
{
#if LOGGER
logger.Error("Login during reconnect state.");
#endif
throw new AuthenticationFailedException("Unable login during reconnect state.");
}
reconnectEnable = false;
DateTime start = DateTime.Now;
do
{
if (connect())
{
// Increase delay after connection up to 500 ms
Thread.Sleep(10 * sleepTime); // 200 milliseconds delay
}
try
{
Thread.Sleep(4 * sleepTime); // 200 milliseconds delay
}
catch
{ }
if (string.IsNullOrEmpty(protocolIdentifier) && timeout > 0 && Helper.GetMillisecondsFrom(start) > timeout)
{
disconnect(true);
throw new TimeoutException("Timeout waiting for protocol identifier");
}
} while (string.IsNullOrEmpty(protocolIdentifier));
ChallengeAction challengeAction = new ChallengeAction();
Response.ManagerResponse response = SendAction(challengeAction, defaultResponseTimeout * 2);
if (response is ChallengeResponse)
{
ChallengeResponse challengeResponse = (ChallengeResponse)response;
string key, challenge = challengeResponse.Challenge;
try
{
Util.MD5Support md = Util.MD5Support.GetInstance();
if (challenge != null)
md.Update(UTF8Encoding.UTF8.GetBytes(challenge));
if (password != null)
md.Update(UTF8Encoding.UTF8.GetBytes(password));
key = Helper.ToHexString(md.DigestData);
}
catch (Exception ex)
{
disconnect(true);
#if LOGGER
logger.Error("Unable to create login key using MD5 Message Digest.", ex);
#endif
throw new AuthenticationFailedException("Unable to create login key using MD5 Message Digest.", ex);
}
Action.LoginAction loginAction = new Action.LoginAction(username, "MD5", key);
Response.ManagerResponse loginResponse = SendAction(loginAction);
if (loginResponse is Response.ManagerError)
{
disconnect(true);
throw new AuthenticationFailedException(loginResponse.Message);
}
// successfully logged in so assure that we keep trying to reconnect when disconnected
reconnectEnable = keepAlive;
#if LOGGER
logger.Info("Successfully logged in");
#endif
asteriskVersion = determineVersion();
#if LOGGER
logger.Info("Determined Asterisk version: " + asteriskVersion);
#endif
enableEvents = true;
ConnectEvent ce = new ConnectEvent(this);
ce.ProtocolIdentifier = this.protocolIdentifier;
DispatchEvent(ce);
}
else if (response is ManagerError)
throw new ManagerException("Unable login to Asterisk - " + response.Message);
else
throw new ManagerException("Unknown response during login to Asterisk - " + response.GetType().Name + " with message " + response.Message);
}
#endregion
#region determineVersion()
protected internal AsteriskVersion determineVersion()
{
Response.ManagerResponse response;
response = SendAction(new Action.CommandAction("core show version"), defaultResponseTimeout * 2);
if (response is Response.CommandResponse)
{
foreach (string line in ((Response.CommandResponse)response).Result)
{
foreach (Match m in Common.ASTERISK_VERSION.Matches(line))
{
if (m.Groups.Count >= 2)
{
version = m.Groups[1].Value;
if (version.StartsWith("1.4."))
{
VAR_DELIMITER = new char[] { '|' };
return AsteriskVersion.ASTERISK_1_4;
}
else if (version.StartsWith("1.6."))
{
VAR_DELIMITER = new char[] { '|' };
return Manager.AsteriskVersion.ASTERISK_1_6;
}
else if (version.StartsWith("1.8."))
{
VAR_DELIMITER = new char[] { '|' };
return Manager.AsteriskVersion.ASTERISK_1_8;
}
else if (version.StartsWith("10."))
{
VAR_DELIMITER = new char[] { '|' };
return Manager.AsteriskVersion.ASTERISK_10;
}
else if (version.StartsWith("11."))
{
VAR_DELIMITER = new char[] { ',' };
return Manager.AsteriskVersion.ASTERISK_11;
}
else if (version.StartsWith("12."))
{
VAR_DELIMITER = new char[] { ',' };
return Manager.AsteriskVersion.ASTERISK_12;
}
else if (version.StartsWith("13."))
{
VAR_DELIMITER = new char[] { ',' };
return Manager.AsteriskVersion.ASTERISK_13;
}
else
throw new ManagerException("Unknown Asterisk version " + version);
}
}
}
}
Response.ManagerResponse showVersionFilesResponse = SendAction(new Action.CommandAction("show version files"), defaultResponseTimeout * 2);
if (showVersionFilesResponse is Response.CommandResponse)
{
IList showVersionFilesResult = ((Response.CommandResponse)showVersionFilesResponse).Result;
if (showVersionFilesResult != null && showVersionFilesResult.Count > 0)
{
string line1;
line1 = (string)showVersionFilesResult[0];
if (line1 != null && line1.StartsWith("File"))
return AsteriskVersion.ASTERISK_1_2;
}
}
return AsteriskVersion.ASTERISK_1_0;
}
#endregion
#region connect()
protected internal bool connect()
{
bool result = false;
bool startReader = false;
lock (lockSocket)
{
if (mrSocket == null)
{
#if LOGGER
logger.Info("Connecting to {0}:{1}", hostname, port);
#endif
try
{
mrSocket = new SocketConnection(hostname, port, socketEncoding);
result = mrSocket.IsConnected;
}
#if LOGGER
catch (Exception ex)
{
logger.Info("Connect - Exception : {0}", ex.Message);
#else
catch
{
#endif
result = false;
}
if (result)
{
if (mrReader == null)
{
mrReader = new ManagerReader(this);
mrReaderThread = new Thread(mrReader.Run) { IsBackground = true, Name = "ManagerReader-" + DateTime.Now.Second };
mrReader.Socket = mrSocket;
startReader = true;
}
else
{
mrReader.Socket = mrSocket;
}
mrReader.Reinitialize();
}
else
{
mrSocket = null;
}
}
}
if (startReader)
{
mrReaderThread.Start();
}
return IsConnected();
}
#endregion
#region disconnect()
/// Closes the socket connection.
private void disconnect(bool withDie)
{
lock (lockSocket)
{
if (withDie)
{
reconnectEnable = false;
reconnected = false;
enableEvents = true;
}
if (mrReader != null)
{
if (withDie)
{
mrReader.Die = true;
mrReader = null;
}
else
mrReader.Socket = null;
}
if (this.mrSocket != null)
{
mrSocket.Close();
mrSocket = null;
}
responseEventHandlers.Clear();
responseHandlers.Clear();
pingHandlers.Clear();
}
}
#endregion
#region reconnect(bool init)
///
/// Reconnects to the asterisk server when the connection is lost.
/// While keepAlive is true we will try to reconnect.
/// Reconnection attempts will be stopped when the logoff() method
/// is called or when the login after a successful reconnect results in an
/// AuthenticationFailedException suggesting that the manager
/// credentials have changed and keepAliveAfterAuthenticationFailure is not set.
/// This method is called when a DisconnectEvent is received from the reader.
///
private void reconnect(bool init)
{
#if LOGGER
logger.Warning("reconnect (init: {0}), reconnectCount:{1}", init, reconnectCount);
#endif
if (init)
reconnectCount = 0;
else if (reconnectCount++ > reconnectRetryMax)
reconnectEnable = false;
if (reconnectEnable)
{
#if LOGGER
logger.Warning("Try reconnect.");
#endif
enableEvents = false;
reconnected = true;
disconnect(false);
int retryCount = 0;
while (reconnectEnable && !mrReader.Die)
{
if (retryCount >= reconnectRetryMax)
reconnectEnable = false;
else
{
try
{
if (retryCount < reconnectRetryFast)
{
// Try to reconnect quite fast for the first times
// this succeeds if the server has just been restarted
#if LOGGER
logger.Info("Reconnect delay : {0}, retry : {1}", reconnectIntervalFast, retryCount);
#endif
Thread.Sleep(reconnectIntervalFast);
}
else
{
// slow down after unsuccessful attempts assuming a shutdown of the server
#if LOGGER
logger.Info("Reconnect delay : {0}, retry : {1}", reconnectIntervalMax, retryCount);
#endif
Thread.Sleep(reconnectIntervalMax);
}
}
catch (ThreadInterruptedException)
{
continue;
}
#if LOGGER
catch (Exception ex)
{
logger.Info("Reconnect delay exception : ", ex.Message);
#else
catch
{
#endif
continue;
}
try
{
#if LOGGER
logger.Info("Try connect.");
#endif
if (connect())
break;
}
#if LOGGER
catch (Exception ex)
{
logger.Info("Connect exception : ", ex.Message);
#else
catch
{
#endif
}
retryCount++;
}
}
}
if (!reconnectEnable)
{
#if LOGGER
logger.Info("Can't reconnect.");
#endif
enableEvents = true;
reconnected = false;
disconnect(true);
fireEvent(new DisconnectEvent(this));
}
}
#endregion
#region createInternalActionId()
///
/// Creates a new unique internal action id based on the hash code of this connection and a sequence.
///
private string createInternalActionId()
{
return this.GetHashCode() + "_" + (this.actionIdCount++);
}
#endregion
#region Login()
///
/// Logs in to the Asterisk manager using asterisk's MD5 based
/// challenge/response protocol. The login is delayed until the protocol
/// identifier has been received by the reader.
///
/// AuthenticationFailedException if the username and/or password are incorrect
/// TimeoutException if no response is received within the specified timeout period
///
///
public void Login()
{
login(defaultResponseTimeout);
}
///
/// Log in to the Asterisk manager using asterisk's MD5 based
/// challenge/response protocol. The login is delayed until the protocol
/// identifier has been received by the reader.
///
/// Timeout in milliseconds to login.
public void Login(int timeout)
{
login(timeout);
}
#endregion
#region IsConnected()
/// Returns true if there is a socket connection to the
/// asterisk server, false otherwise.
///
///
/// true if there is a socket connection to the
/// asterisk server, false otherwise.
///
public bool IsConnected()
{
bool result = false;
lock (lockSocket)
result = mrSocket != null && mrSocket.IsConnected;
return result;
}
#endregion
#region Logoff()
///
/// Sends a LogoffAction and disconnects from the server.
///
public void Logoff()
{
lock (lockSocket)
{
// stop reconnecting when we got disconnected
reconnectEnable = false;
if (mrReader != null && mrSocket != null)
try
{
mrReader.IsLogoff = true;
SendAction(new Action.LogoffAction());
}
catch
{ }
}
disconnect(true);
}
#endregion
#region SendAction(action)
///
/// Send Action with default timeout.
///
///
///
public Response.ManagerResponse SendAction(Action.ManagerAction action)
{
return SendAction(action, defaultResponseTimeout);
}
#endregion
#region SendAction(action, timeout)
///
/// Send action ans with timeout (milliseconds)
///
/// action to send
/// timeout in milliseconds
///
public Response.ManagerResponse SendAction(ManagerAction action, int timeout)
{
AutoResetEvent autoEvent = new AutoResetEvent(false);
ResponseHandler handler = new ResponseHandler(action, autoEvent);
int hash = SendAction(action, handler);
bool result = autoEvent.WaitOne(timeout <= 0 ? -1 : timeout, true);
RemoveResponseHandler(handler);
if (result)
return handler.Response;
throw new TimeoutException("Timeout waiting for response to " + action.Action);
}
#endregion
#region SendAction(action, responseHandler)
///
/// Send action ans with timeout (milliseconds)
///
/// action to send
/// Response Handler
///
public int SendAction(ManagerAction action, IResponseHandler responseHandler)
{
if (action == null)
throw new ArgumentException("Unable to send action: action is null.");
if (mrSocket == null)
throw new SystemException("Unable to send " + action.Action + " action: not connected.");
// if the responseHandler is null the user is obviously not interested in the response, thats fine.
string internalActionId = string.Empty;
if (responseHandler != null)
{
internalActionId = createInternalActionId();
responseHandler.Hash = internalActionId.GetHashCode();
AddResponseHandler(responseHandler);
}
SendToAsterisk(action, internalActionId);
return responseHandler != null ? responseHandler.Hash : 0;
}
#endregion
#region SendActionAsync(action)
///
/// Asynchronously send Action async with default timeout.
///
/// action to send
public Task SendActionAsync(ManagerAction action)
{
return SendActionAsync(action, null);
}
#endregion
#region SendActionAsync(action, timeout)
///
/// Asynchronously send Action async.
///
/// action to send
/// cancellation Token
public Task SendActionAsync(ManagerAction action, CancellationTokenSource cancellationToken)
{
var handler = new TaskResponseHandler(action);
var source = handler.TaskCompletionSource;
SendAction(action, handler);
if (cancellationToken != null)
cancellationToken.Token.Register(() => { source.TrySetCanceled(); });
return source.Task.ContinueWith(x =>
{
RemoveResponseHandler(handler);
return x.Result;
});
}
#endregion
#region SendEventGeneratingAction(action)
public ResponseEvents SendEventGeneratingAction(ManagerActionEvent action)
{
return SendEventGeneratingAction(action, defaultEventTimeout);
}
#endregion
#region SendEventGeneratingAction(action, timeout)
///
///
///
///
/// wait timeout in milliseconds
///
public ResponseEvents SendEventGeneratingAction(ManagerActionEvent action, int timeout)
{
if (action == null)
throw new ArgumentException("Unable to send action: action is null.");
else if (action.ActionCompleteEventClass() == null)
throw new ArgumentException("Unable to send action: ActionCompleteEventClass is null.");
else if (!typeof(ResponseEvent).IsAssignableFrom(action.ActionCompleteEventClass()))
throw new ArgumentException("Unable to send action: ActionCompleteEventClass is not a ResponseEvent.");
if (mrSocket == null)
throw new SystemException("Unable to send " + action.Action + " action: not connected.");
AutoResetEvent autoEvent = new AutoResetEvent(false);
ResponseEventHandler handler = new ResponseEventHandler(this, action, autoEvent);
string internalActionId = createInternalActionId();
handler.Hash = internalActionId.GetHashCode();
AddResponseHandler(handler);
AddResponseEventHandler(handler);
SendToAsterisk(action, internalActionId);
bool result = autoEvent.WaitOne(timeout <= 0 ? -1 : timeout, true);
RemoveResponseHandler(handler);
RemoveResponseEventHandler(handler);
if (result)
return handler.ResponseEvents;
throw new EventTimeoutException("Timeout waiting for response or response events to " + action.Action, handler.ResponseEvents);
}
#endregion
#region Response Handler helpers
private void AddResponseHandler(IResponseHandler handler)
{
lock (lockHandlers)
{
if (handler.Action is PingAction)
pingHandlers[handler.Hash] = handler;
else
responseHandlers[handler.Hash] = handler;
}
}
private void AddResponseEventHandler(IResponseHandler handler)
{
lock (lockHandlers)
responseEventHandlers[handler.Hash] = handler;
}
///
/// Delete an instance of a class from handlers list.
///
/// Class instance .
public void RemoveResponseHandler(IResponseHandler handler)
{
int hash = handler.Hash;
if (hash != 0)
lock (lockHandlers)
if (responseHandlers.ContainsKey(hash))
responseHandlers.Remove(hash);
}
internal void RemoveResponseEventHandler(IResponseHandler handler)
{
int hash = handler.Hash;
if (hash != 0)
lock (lockHandlers)
if (responseEventHandlers.ContainsKey(hash))
responseEventHandlers.Remove(hash);
}
private IResponseHandler GetRemoveResponseHandler(int hash)
{
IResponseHandler handler = null;
if (hash != 0)
lock (lockHandlers)
if (responseHandlers.ContainsKey(hash))
{
handler = responseHandlers[hash];
responseHandlers.Remove(hash);
}
return handler;
}
private IResponseHandler GetRemoveResponseEventHandler(int hash)
{
IResponseHandler handler = null;
if (hash != 0)
lock (lockHandlers)
if (responseEventHandlers.ContainsKey(hash))
{
handler = responseEventHandlers[hash];
responseEventHandlers.Remove(hash);
}
return handler;
}
private IResponseHandler GetResponseHandler(int hash)
{
IResponseHandler handler = null;
if (hash != 0)
lock (lockHandlers)
if (responseHandlers.ContainsKey(hash))
handler = responseHandlers[hash];
return handler;
}
private IResponseHandler GetResponseEventHandler(int hash)
{
IResponseHandler handler = null;
if (hash != 0)
lock (lockHandlers)
if (responseEventHandlers.ContainsKey(hash))
handler = responseEventHandlers[hash];
return handler;
}
#endregion
#region SendToAsterisk(ManagerAction action, string internalActionId)
internal void SendToAsterisk(ManagerAction action, string internalActionId)
{
if (mrSocket == null)
throw new SystemException("Unable to send action: socket is null");
string buffer = BuildAction(action, internalActionId);
#if LOGGER
logger.Debug("Sent action : '{0}' : {1}", internalActionId, action);
#endif
if (sa == null)
sa = new SendToAsteriskDelegate(sendToAsterisk);
sa.Invoke(buffer);
}
private delegate void SendToAsteriskDelegate(string buffer);
private SendToAsteriskDelegate sa = null;
private void sendToAsterisk(string buffer)
{
lock (lockSocketWrite)
{
mrSocket.Write(buffer);
}
}
#endregion
#region BuildAction(action)
public string BuildAction(Action.ManagerAction action)
{
return BuildAction(action, null);
}
#endregion
#region BuildAction(action, internalActionId)
public string BuildAction(ManagerAction action, string internalActionId)
{
MethodInfo getter;
object value;
StringBuilder sb = new StringBuilder();
string valueAsString = string.Empty;
if (typeof(Action.ProxyAction).IsAssignableFrom(action.GetType()))
sb.Append(string.Concat("ProxyAction: ", action.Action, Common.LINE_SEPARATOR));
else
sb.Append(string.Concat("Action: ", action.Action, Common.LINE_SEPARATOR));
if (string.IsNullOrEmpty(internalActionId))
valueAsString = action.ActionId;
else
valueAsString = string.Concat(internalActionId, Common.INTERNAL_ACTION_ID_DELIMITER, action.ActionId);
if (!string.IsNullOrEmpty(valueAsString))
sb.Append(string.Concat("ActionID: ", valueAsString, Common.LINE_SEPARATOR));
Dictionary getters = Helper.GetGetters(action.GetType());
foreach (string name in getters.Keys)
{
string nameLower = name.ToLower(Helper.CultureInfo);
if (nameLower == "class" || nameLower == "action" || nameLower == "actionid")
continue;
getter = getters[name];
Type propType = getter.ReturnType;
if (!(propType == typeof(string)
|| propType == typeof(bool)
|| propType == typeof(double)
|| propType == typeof(DateTime)
|| propType == typeof(int)
|| propType == typeof(long)
|| propType == typeof(Dictionary)
)
)
continue;
try
{
value = getter.Invoke(action, new object[] { });
}
catch (UnauthorizedAccessException ex)
{
#if LOGGER
logger.Error("Unable to retrieve property '" + name + "' of " + action.GetType(), ex);
continue;
#else
throw new ManagerException("Unable to retrieve property '" + name + "' of " + action.GetType(), ex);
#endif
}
catch (TargetInvocationException ex)
{
#if LOGGER
logger.Error("Unable to retrieve property '" + name + "' of " + action.GetType(), ex);
continue;
#else
throw new ManagerException("Unable to retrieve property '" + name + "' of " + action.GetType(), ex);
#endif
}
if (value == null)
continue;
if (value is string)
{
valueAsString = (string)value;
if (valueAsString.Length == 0)
continue;
}
else if (value is bool)
valueAsString = ((bool)value ? "true" : "false");
else if (value is DateTime)
valueAsString = value.ToString();
else if (value is IDictionary)
{
valueAsString = Helper.JoinVariables((IDictionary)value, Common.LINE_SEPARATOR, ": ");
if (valueAsString.Length == 0)
continue;
sb.Append(valueAsString);
sb.Append(Common.LINE_SEPARATOR);
continue;
}
else
valueAsString = value.ToString();
sb.Append(string.Concat(name, ": ", valueAsString, Common.LINE_SEPARATOR));
}
IActionVariable actionVar = action as IActionVariable;
if (actionVar != null)
{
var variables = actionVar.GetVariables();
if (variables != null && variables.Count > 0)
{
sb.Append(string.Concat("Variable: ", Helper.JoinVariables(actionVar.GetVariables(), VAR_DELIMITER, "="), Common.LINE_SEPARATOR));
}
}
sb.Append(Common.LINE_SEPARATOR);
return sb.ToString();
}
#endregion
#region GetProtocolIdentifier()
public string GetProtocolIdentifier()
{
return this.protocolIdentifier;
}
#endregion
#region RegisterUserEventClass(class)
///
/// Register User Event Class
///
///
public void RegisterUserEventClass(Type userEventClass)
{
Helper.RegisterEventClass(registeredEventClasses, userEventClass);
}
#endregion
#region DispatchResponse(response)
///
/// This method is called by the reader whenever a ManagerResponse is
/// received. The response is dispatched to the associated ManagerResponseHandler.
///
/// the response received by the reader
///
internal void DispatchResponse(Dictionary buffer)
{
#if LOGGER
logger.Debug("Dispatch response packet : {0}", Helper.JoinVariables(buffer, ", ", ": "));
#endif
DispatchResponse(buffer, null);
}
internal void DispatchResponse(ManagerResponse response)
{
#if LOGGER
logger.Debug("Dispatch response : {0}", response);
#endif
DispatchResponse(null, response);
}
internal void DispatchResponse(Dictionary buffer, ManagerResponse response)
{
string responseActionId = string.Empty;
string actionId = string.Empty;
IResponseHandler responseHandler = null;
if (buffer != null)
{
if (buffer["response"].ToLower(Helper.CultureInfo) == "error")
response = new ManagerError(buffer);
else if (buffer.ContainsKey("actionid"))
actionId = buffer["actionid"];
}
if (response != null)
actionId = response.ActionId;
if (!string.IsNullOrEmpty(actionId))
{
int hash = Helper.GetInternalActionId(actionId).GetHashCode();
responseActionId = Helper.StripInternalActionId(actionId);
responseHandler = GetRemoveResponseHandler(hash);
if (response != null)
response.ActionId = responseActionId;
if (responseHandler != null)
{
if (response == null)
{
ManagerActionResponse action = responseHandler.Action as ManagerActionResponse;
if (action == null || (response = action.ActionCompleteResponseClass() as ManagerResponse) == null)
response = Helper.BuildResponse(buffer);
else
Helper.SetAttributes(response, buffer);
response.ActionId = responseActionId;
}
try
{
responseHandler.HandleResponse(response);
}
catch (Exception ex)
{
#if LOGGER
logger.Error("Unexpected exception in responseHandler {0}\n{1}", response, ex);
#else
throw new ManagerException("Unexpected exception in responseHandler " + responseHandler.GetType().FullName, ex);
#endif
}
}
}
if (response == null && buffer.ContainsKey("ping") && buffer["ping"] == "Pong")
{
response = Helper.BuildResponse(buffer);
foreach (ResponseHandler pingHandler in pingHandlers.Values)
pingHandler.HandleResponse(response);
pingHandlers.Clear();
}
if (!reconnected)
return;
if (response == null)
{
response = Helper.BuildResponse(buffer);
response.ActionId = responseActionId;
}
#if LOGGER
logger.Info("Reconnected - DispatchEvent : " + response);
#endif
#region Support background reconnect
if (response is ChallengeResponse)
{
string key = null;
if (response.IsSuccess())
{
ChallengeResponse challengeResponse = (ChallengeResponse)response;
string challenge = challengeResponse.Challenge;
try
{
Util.MD5Support md = Util.MD5Support.GetInstance();
if (challenge != null)
md.Update(UTF8Encoding.UTF8.GetBytes(challenge));
if (password != null)
md.Update(UTF8Encoding.UTF8.GetBytes(password));
key = Helper.ToHexString(md.DigestData);
}
#if LOGGER
catch (Exception ex)
{
logger.Error("Unable to create login key using MD5 Message Digest", ex);
#else
catch
{
#endif
key = null;
}
}
bool fail = true;
if (!string.IsNullOrEmpty(key))
try
{
Action.LoginAction loginAction = new Action.LoginAction(username, "MD5", key);
SendAction(loginAction, null);
fail = false;
}
catch { }
if (fail)
if (keepAliveAfterAuthenticationFailure)
reconnect(true);
else
disconnect(true);
}
else if (response is ManagerError)
{
if (keepAliveAfterAuthenticationFailure)
reconnect(true);
else
disconnect(true);
}
else if (response is ManagerResponse)
{
if (response.IsSuccess())
{
reconnected = false;
enableEvents = true;
reconnectEnable = keepAlive;
ConnectEvent ce = new ConnectEvent(this);
ce.Reconnect = true;
ce.ProtocolIdentifier = protocolIdentifier;
fireEvent(ce);
}
else if (keepAliveAfterAuthenticationFailure)
reconnect(true);
else
disconnect(true);
}
#endregion
}
#endregion
#region DispatchEvent(...)
///
/// This method is called by the reader whenever a ManagerEvent is received.
/// The event is dispatched to all registered ManagerEventHandlers.
///
/// the event received by the reader
///
internal void DispatchEvent(Dictionary buffer)
{
ManagerEvent e = Helper.BuildEvent(registeredEventClasses, this, buffer);
DispatchEvent(e);
}
internal void DispatchEvent(ManagerEvent e)
{
#if LOGGER
logger.Debug("Dispatching event: {0}", e);
#endif
if (e is ResponseEvent)
{
ResponseEvent responseEvent = (ResponseEvent)e;
if (!string.IsNullOrEmpty(responseEvent.ActionId) && !string.IsNullOrEmpty(responseEvent.InternalActionId))
{
ResponseEventHandler eventHandler = (ResponseEventHandler)GetResponseEventHandler(responseEvent.InternalActionId.GetHashCode());
if (eventHandler != null)
try
{
eventHandler.HandleEvent(e);
}
catch (SystemException ex)
{
#if LOGGER
logger.Error("Unexpected exception", ex);
#else
throw ex;
#endif
}
}
}
#region ConnectEvent
if (e is ConnectEvent)
{
string protocol = ((ConnectEvent)e).ProtocolIdentifier;
#if LOGGER
logger.Info("Connected via {0}", protocol);
#endif
if (!string.IsNullOrEmpty(protocol) && protocol.StartsWith("Asterisk Call Manager"))
{
this.protocolIdentifier = protocol;
}
else
{
this.protocolIdentifier = (string.IsNullOrEmpty(protocol) ? "Empty" : protocol);
#if LOGGER
logger.Warning("Unsupported protocol version '{0}'. Use at your own risk.", protocol);
#endif
}
if (reconnected)
{
#if LOGGER
logger.Info("Send Challenge action.");
#endif
ChallengeAction challengeAction = new ChallengeAction();
try
{
SendAction(challengeAction, null);
}
#if LOGGER
catch (Exception ex)
{
logger.Info("Send Challenge fail : ", ex.Message);
#else
catch
{
#endif
disconnect(true);
}
return;
}
}
#endregion
if (reconnected && e is DisconnectEvent)
{
((DisconnectEvent)e).Reconnect = true;
fireEvent(e);
reconnect(false);
}
else if (!reconnected && reconnectEnable && (e is DisconnectEvent || e is ShutdownEvent))
{
((ConnectionStateEvent)e).Reconnect = true;
fireEvent(e);
reconnect(true);
}
else
fireEvent(e);
}
private void eventComplete(IAsyncResult result)
{
}
private void fireEvent(ManagerEvent e)
{
if (enableEvents && internalEvent != null)
if (UseASyncEvents)
internalEvent.BeginInvoke(this, e, new AsyncCallback(eventComplete), null);
else
internalEvent.Invoke(this, e);
}
///
/// This method is called when send event to client if subscribed
///
/// EventHandler argument
/// Event delegate
/// ManagerEvent or inherited class. Argument of eventHandler.
private bool fireEvent(EventHandler asterEvent, ManagerEvent arg) where T : ManagerEvent
{
if (asterEvent != null)
{
asterEvent(this, (T)arg);
return true;
}
return false;
}
#endregion
}
}