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/*
* Conditions Of Use
*
* This software was developed by employees of the National Institute of
* Standards and Technology (NIST), an agency of the Federal Government.
* Pursuant to title 15 Untied States Code Section 105, works of NIST
* employees are not subject to copyright protection in the United States
* and are considered to be in the public domain. As a result, a formal
* license is not needed to use the software.
*
* This software is provided by NIST as a service and is expressly
* provided "AS IS." NIST MAKES NO WARRANTY OF ANY KIND, EXPRESS, IMPLIED
* OR STATUTORY, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTY OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, NON-INFRINGEMENT
* AND DATA ACCURACY. NIST does not warrant or make any representations
* regarding the use of the software or the results thereof, including but
* not limited to the correctness, accuracy, reliability or usefulness of
* the software.
*
* Permission to use this software is contingent upon your acceptance
* of the terms of this agreement
*
* .
*
*/
package android.gov.nist.javax.sip.stack;
import android.gov.nist.javax.sip.ReleaseReferencesStrategy;
import android.gov.nist.javax.sip.SipProviderImpl;
import android.gov.nist.javax.sip.TransactionExt;
import android.gov.nist.javax.sip.header.Via;
import android.gov.nist.javax.sip.message.SIPMessage;
import android.gov.nist.javax.sip.message.SIPRequest;
import android.gov.nist.javax.sip.message.SIPResponse;
import java.io.IOException;
import java.net.InetAddress;
import java.util.List;
import javax.net.ssl.SSLPeerUnverifiedException;
import android.javax.sip.Dialog;
import android.javax.sip.TransactionState;
import android.javax.sip.message.Request;
import android.javax.sip.message.Response;
public interface SIPTransaction extends TransactionExt {
/**
* One timer tick.
*/
public static final int T1 = 1;
/**
* INVITE request retransmit interval, for UDP only
*/
public static final int TIMER_A = 1;
/**
* INVITE transaction timeout timer
*/
public static final int TIMER_B = 64;
public static final int TIMER_J = 64;
public static final int TIMER_F = 64;
public static final int TIMER_H = 64;
/**
* Initialized but no state assigned.
*/
public static final TransactionState INITIAL_STATE = null;
/**
* Trying state.
*/
public static final TransactionState TRYING_STATE = TransactionState.TRYING;
/**
* CALLING State.
*/
public static final TransactionState CALLING_STATE = TransactionState.CALLING;
/**
* Proceeding state.
*/
public static final TransactionState PROCEEDING_STATE = TransactionState.PROCEEDING;
/**
* Completed state.
*/
public static final TransactionState COMPLETED_STATE = TransactionState.COMPLETED;
/**
* Confirmed state.
*/
public static final TransactionState CONFIRMED_STATE = TransactionState.CONFIRMED;
/**
* Terminated state.
*/
public static final TransactionState TERMINATED_STATE = TransactionState.TERMINATED;
public String getBranchId();
public void cleanUp();
/**
* Sets the request message that this transaction handles.
*
* @param newOriginalRequest
* Request being handled.
*/
public void setOriginalRequest(SIPRequest newOriginalRequest);
/**
* Gets the request being handled by this transaction.
*
* @return -- the original Request associated with this transaction.
*/
public SIPRequest getOriginalRequest();
/**
* Get the original request but cast to a Request structure.
*
* @return the request that generated this transaction.
*/
public Request getRequest();
/**
* Returns a flag stating whether this transaction is for a request that creates a dialog.
*
* @return -- true if this is a request that creates a dialog, false if not.
*/
public boolean isDialogCreatingTransaction();
/**
* Returns a flag stating whether this transaction is for an INVITE request
* or not.
*
* @return -- true if this is an INVITE request, false if not.
*/
public boolean isInviteTransaction();
/**
* Return true if the transaction corresponds to a CANCEL message.
*
* @return -- true if the transaciton is a CANCEL transaction.
*/
public boolean isCancelTransaction();
/**
* Return a flag that states if this is a BYE transaction.
*
* @return true if the transaciton is a BYE transaction.
*/
public boolean isByeTransaction();
/**
* Returns the message channel used for transmitting/receiving messages for
* this transaction. Made public in support of JAIN dual transaction model.
*
* @return Encapsulated MessageChannel.
*
*/
public MessageChannel getMessageChannel();
/**
* Sets the Via header branch parameter used to identify this transaction.
*
* @param newBranch
* New string used as the branch for this transaction.
*/
public void setBranch(String newBranch);
/**
* Gets the current setting for the branch parameter of this transaction.
*
* @return Branch parameter for this transaction.
*/
public String getBranch();
/**
* Get the method of the request used to create this transaction.
*
* @return the method of the request for the transaction.
*/
public String getMethod();
/**
* Get the Sequence number of the request used to create the transaction.
*
* @return the cseq of the request used to create the transaction.
*/
public long getCSeq();
/**
* Changes the state of this transaction.
*
* @param newState
* New state of this transaction.
*/
public void setState(int newState);
/**
* Gets the current state of this transaction.
*
* @return Current state of this transaction.
*/
public int getInternalState();
/**
* Gets the current state of this transaction.
*
* @return Current state of this transaction.
*/
public TransactionState getState();
/**
* Tests if this transaction has terminated.
*
* @return Trus if this transaction is terminated, false if not.
*/
public boolean isTerminated();
public String getHost();
public String getKey();
public int getPort();
public SIPTransactionStack getSIPStack();
public String getPeerAddress();
public int getPeerPort();
public String getPeerProtocol();
// @@@ hagai
public int getPeerPacketSourcePort();
public InetAddress getPeerPacketSourceAddress();
public String getTransport();
public boolean isReliable();
/**
* Returns the Via header for this channel. Gets the Via header of the
* underlying message channel, and adds a branch parameter to it for this
* transaction.
*/
public Via getViaHeader();
/**
* Process the message through the transaction and sends it to the SIP peer.
*
* @param messageToSend
* Message to send to the SIP peer.
*/
public void sendMessage(SIPMessage messageToSend) throws IOException;
/**
* Adds a new event listener to this transaction.
*
* @param newListener
* Listener to add.
*/
public void addEventListener(SIPTransactionEventListener newListener);
/**
* Removed an event listener from this transaction.
*
* @param oldListener
* Listener to remove.
*/
public void removeEventListener(SIPTransactionEventListener oldListener);
/**
* Gets the dialog object of this Transaction object. This object returns
* null if no dialog exists. A dialog only exists for a transaction when a
* session is setup between a User Agent Client and a User Agent Server,
* either by a 1xx Provisional Response for an early dialog or a 200OK
* Response for a committed dialog.
*
* @return the Dialog Object of this Transaction object.
* @see Dialog
*/
public Dialog getDialog();
/**
* set the dialog object.
*
* @param sipDialog --
* the dialog to set.
* @param dialogId --
* the dialog id ot associate with the dialog.s
*/
public void setDialog(SIPDialog sipDialog, String dialogId);
/**
* Returns the current value of the retransmit timer in milliseconds used to
* retransmit messages over unreliable transports.
*
* @return the integer value of the retransmit timer in milliseconds.
*/
public int getRetransmitTimer();
/**
* Get the host to assign for an outgoing Request via header.
*/
public String getViaHost();
/**
* Get the last response. This is used internally by the implementation.
* Dont rely on it.
*
* @return the last response received (for client transactions) or sent (for
* server transactions).
*/
public SIPResponse getLastResponse();
/**
* Get the JAIN interface response
*/
public Response getResponse();
/**
* Get the transaction Id.
*/
public String getTransactionId();
/**
* Hashcode method for fast hashtable lookup.
*/
public int hashCode();
/**
* Get the port to assign for the via header of an outgoing message.
*/
public int getViaPort();
/**
* A method that can be used to test if an incoming request belongs to this
* transction. This does not take the transaction state into account when
* doing the check otherwise it is identical to isMessagePartOfTransaction.
* This is useful for checking if a CANCEL belongs to this transaction.
*
* @param requestToTest
* is the request to test.
* @return true if the the request belongs to the transaction.
*
*/
public boolean doesCancelMatchTransaction(SIPRequest requestToTest);
/**
* Sets the value of the retransmit timer to the newly supplied timer value.
* The retransmit timer is expressed in milliseconds and its default value
* is 500ms. This method allows the application to change the transaction
* retransmit behavior for different networks. Take the gateway proxy as an
* example. The internal intranet is likely to be reatively uncongested and
* the endpoints will be relatively close. The external network is the
* general Internet. This functionality allows different retransmit times
* for either side.
*
* @param retransmitTimer -
* the new integer value of the retransmit timer in milliseconds.
*/
public void setRetransmitTimer(int retransmitTimer);
/**
* Close the encapsulated channel.
*/
public void close();
public boolean isSecure();
public MessageProcessor getMessageProcessor();
/**
* Set the application data pointer. This is un-interpreted by the stack.
* This is provided as a conveniant way of keeping book-keeping data for
* applications. Note that null clears the application data pointer
* (releases it).
*
* @param applicationData --
* application data pointer to set. null clears the applicationd
* data pointer.
*
*/
public void setApplicationData(Object applicationData);
/**
* Get the application data associated with this transaction.
*
* @return stored application data.
*/
public Object getApplicationData();
/**
* Set the encapsuated channel. The peer inet address and port are set equal
* to the message channel.
*/
public void setEncapsulatedChannel(MessageChannel messageChannel);
/**
* Return the SipProvider for which the transaction is assigned.
*
* @return the SipProvider for the transaction.
*/
public SipProviderImpl getSipProvider();
/**
* Raise an IO Exception event - this is used for reporting asynchronous IO
* Exceptions that are attributable to this transaction.
*
*/
public void raiseIOExceptionEvent();
/**
* A given tx can process only a single outstanding event at a time. This
* semaphore gaurds re-entrancy to the transaction.
*
*/
public boolean acquireSem();
/**
* Release the transaction semaphore.
*
*/
public void releaseSem();
/**
* Set true to pass the request up to the listener. False otherwise.
*
*/
public boolean passToListener();
/**
* Set the passToListener flag to true.
*/
public void setPassToListener();
public String getCipherSuite() throws UnsupportedOperationException;
public java.security.cert.Certificate[] getLocalCertificates()
throws UnsupportedOperationException;
public java.security.cert.Certificate[] getPeerCertificates() throws SSLPeerUnverifiedException;
/**
* Extract identities from certificates exchanged over TLS, based on guidelines
* from rfc5922.
*
* @return list of authenticated identities
*/
public List extractCertIdentities() throws SSLPeerUnverifiedException;
/**
* Tests a message to see if it is part of this transaction.
*
* @return True if the message is part of this transaction, false if not.
*/
public boolean isMessagePartOfTransaction(SIPMessage messageToTest);
/*
* (non-Javadoc)
*
* @see android.gov.nist.javax.sip.DialogExt#isReleaseReferences()
*/
public ReleaseReferencesStrategy getReleaseReferencesStrategy();
/*
* (non-Javadoc)
*
* @see android.gov.nist.javax.sip.DialogExt#setReleaseReferences(ReleaseReferencesStrategy)
*/
public void setReleaseReferencesStrategy(ReleaseReferencesStrategy releaseReferenceStrategy);
/*
* (non-Javadoc)
*
* @see android.gov.nist.javax.sip.TransactionExt#getTimerD()
*/
public int getTimerD();
/*
* (non-Javadoc)
*
* @see android.gov.nist.javax.sip.TransactionExt#getTimerT2()
*/
public int getTimerT2();
/*
* (non-Javadoc)
*
* @see android.gov.nist.javax.sip.TransactionExt#getTimerT4()
*/
public int getTimerT4();
/*
* (non-Javadoc)
*
* @see android.gov.nist.javax.sip.TransactionExt#setTimerD(int)
*/
public void setTimerD(int interval);
/*
* (non-Javadoc)
*
* @see android.gov.nist.javax.sip.TransactionExt#setTimerT2(int)
*/
public void setTimerT2(int interval);
/*
* (non-Javadoc)
*
* @see android.gov.nist.javax.sip.TransactionExt#setTimerT4(int)
*/
public void setTimerT4(int interval);
/**
* Sets the fork id for the transaction.
*
* @param forkId
*/
public void setForkId(String forkId);
/**
* Retrieves the fork id for the transaction.
*
* @return
*/
public String getForkId();
public void cancelMaxTxLifeTimeTimer();
/**
* @return the mergeId
*/
public String getMergeId();
public long getAuditTag();
public void setAuditTag(long auditTag);
public void semRelease();
boolean isTransactionMapped();
void setTransactionMapped(boolean transactionMapped);
/**
* This method is called when this transaction's timeout timer has fired.
*/
void fireTimeoutTimer();
/**
* Creates a SIPTransactionErrorEvent and sends it to all of the listeners
* of this transaction. This method also flags the transaction as
* terminated.
*
* @param errorEventID
* ID of the error to raise.
*/
void raiseErrorEvent(int errorEventID);
/**
* Fired after each timer tick. Checks the retransmission and timeout timers
* of this transaction, and fired these events if necessary.
*/
void fireTimer();
/**
* A shortcut way of telling if we are a server transaction.
*/
boolean isServerTransaction();
/**
* Start the timer that runs the transaction state machine.
*/
void startTransactionTimer();
/**
* Called by the transaction stack when a retransmission timer fires. This retransmits the
* last response when the retransmission filter is enabled.
*/
void fireRetransmissionTimer();
/**
* Flag to test if the terminated event is delivered.
*
* @return
*/
boolean testAndSetTransactionTerminatedEvent();
void scheduleMaxTxLifeTimeTimer();
void setCollectionTime(int collectionTime);
/**
* Turns off retransmission events for this transaction.
*/
void disableRetransmissionTimer();
/**
* Disabled the timeout timer.
*/
void disableTimeoutTimer();
int getTimerK();
int getTimerI();
int getT2();
int getT4();
int getBaseTimerInterval();
}