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* lidep.h
*
* Line Interface Device EndPoint
*
* Open Phone Abstraction Library
*
* Copyright (c) 2001 Equivalence Pty. Ltd.
*
* The contents of this file are subject to the Mozilla Public License
* Version 1.0 (the "License"); you may not use this file except in
* compliance with the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS"
* basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
* the License for the specific language governing rights and limitations
* under the License.
*
* The Original Code is Open H323 Library.
*
* The Initial Developer of the Original Code is Equivalence Pty. Ltd.
*
* Portions of this code were written with the assisance of funding from
* Quicknet Technologies, Inc. http://www.quicknet.net.
*
* Contributor(s): ______________________________________.
*
* $Revision: 27149 $
* $Author: rjongbloed $
* $Date: 2012-03-07 18:32:36 -0600 (Wed, 07 Mar 2012) $
*/
#ifndef OPAL_LIDS_LIDEP_H
#define OPAL_LIDS_LIDEP_H
#ifdef P_USE_PRAGMA
#pragma interface
#endif
#include <opal/buildopts.h>
#include <opal/endpoint.h>
#include <lids/lid.h>
#include <codec/silencedetect.h>
class OpalLineConnection;
/**This class describes and endpoint that handles LID lines.
This is the ancestor class to the LID endpoints that handle PSTN lines
and POTS lines respectively.
*/
class OpalLineEndPoint : public OpalEndPoint
{
PCLASSINFO(OpalLineEndPoint, OpalEndPoint);
public:
/**@name Construction */
//@{
/**Create a new endpoint.
*/
OpalLineEndPoint(
OpalManager & manager ///< Manager of all endpoints.
);
/// Make sure thread has stopped before exiting.
~OpalLineEndPoint();
//@}
/**@name Overrides from OpalEndPoint */
//@{
/**Set up a connection to a remote party.
This is called from the OpalManager::MakeConnection() function once
it has determined that this is the endpoint for the protocol.
The general form for this party parameter is:
[proto:][alias@][transport$]address[:port]
where the various fields will have meanings specific to the endpoint
type. For example, with H.323 it could be "h323:Fred@site.com" which
indicates a user Fred at gatekeeper size.com. Whereas for the PSTN
endpoint it could be "pstn:5551234" which is to call 5551234 on the
first available PSTN line.
The proto field is optional when passed to a specific endpoint. If it
is present, however, it must agree with the endpoints protocol name or
false is returned.
This function usually returns almost immediately with the connection
continuing to occur in a new background thread.
If false is returned then the connection could not be established. For
example if a PSTN endpoint is used and the assiciated line is engaged
then it may return immediately. Returning a non-NULL value does not
mean that the connection will succeed, only that an attempt is being
made.
The default behaviour is pure.
*/
virtual PSafePtr<OpalConnection> MakeConnection(
OpalCall & call, ///< Owner of connection
const PString & party, ///< Remote party to call
void * userData = NULL, ///< Arbitrary data to pass to connection
unsigned int options = 0, ///< options to pass to conneciton
OpalConnection::StringOptions * stringOptions = NULL ///< Options to pass to connection
);
/**Get the data formats this endpoint is capable of operating.
This provides a list of media data format names that may be used by an
OpalMediaStream may be created by a connection from this endpoint.
Note that a specific connection may not actually support all of the
media formats returned here, but should return no more.
The default behaviour is pure.
*/
virtual OpalMediaFormatList GetMediaFormats() const;
//@}
/**@name Connection management */
//@{
virtual OpalLineConnection * CreateConnection(
OpalCall & call, ///< Call that owns the connection
OpalLine & line, ///< Line connection is to use
void * userData, ///< Arbitrary user data from MakeConnection
const PString & number ///< Number to dial in outgoing call
);
//@}
/**@name LID management */
//@{
/**Find a connection that uses the specified token.
This searches the endpoint for the connection that contains the token
as provided by functions such as MakeConnection().
*/
PSafePtr<OpalLineConnection> GetLIDConnectionWithLock(
const PString & token, ///< Token to identify connection
PSafetyMode mode = PSafeReadWrite ///< Lock mode
) { return PSafePtrCast<OpalConnection, OpalLineConnection>(GetConnectionWithLock(token, mode)); }
/**Add a line to the endpoint.
Note that once the line is added it is "owned" by the endpoint and
should not be deleted directly. Use the RemoveLine() function to
delete the line.
Returns true if the lines device was open and the line was added.
*/
PBoolean AddLine(
OpalLine * line
);
/**Remove a line from the endpoint.
The line is removed from the endpoints processing and deleted.
*/
void RemoveLine(
OpalLine * line
);
/**
* get all lines of the endpopint
* @return the constant list of all lines belonged to the endpoint
*/
const PList<OpalLine> & GetLines() const { return lines;};
/**Remove a line from the endpoint.
The line is removed from the endpoints processing and deleted.
*/
void RemoveLine(
const PString & token
);
/**Remove all lines from the endpoint.
The line is removed from the endpoints processing and deleted. All
devices are also deleted from the endpoint
*/
void RemoveAllLines();
/**Add all lines on a device to the endpoint.
Note that once the line is added it is "owned" by the endpoint and
should not be deleted directly. Use the RemoveLine() function to
delete the line.
Note the device should already be open or no lines are added.
Returns true if at least one line was added.
*/
virtual PBoolean AddLinesFromDevice(
OpalLineInterfaceDevice & device ///< Device to add lines
);
/**Remove all lines on a device from the endpoint.
The lines are removed from the endpoints processing and deleted.
*/
void RemoveLinesFromDevice(
OpalLineInterfaceDevice & device ///< Device to remove lines
);
/**Add a line interface devices to the endpoint by name.
This calls AddDeviceName() for each entry in the array.
Returns true if at least one line from one device was added.
*/
PBoolean AddDeviceNames(
const PStringArray & descriptors ///< Device descritptions to add
);
/**Add a line interface device to the endpoint by name.
This will add the registered OpalLineInterfaceDevice descendent and
all of the lines that it has to the endpoint. The parameter is a string
as would be returned from the OpalLineInterfaceDevice::GetAllDevices()
function.
Returns true if at least one line was added or the descriptor was
already present.
*/
PBoolean AddDeviceName(
const PString & descriptor ///< Device descritption to add
);
/**Indicate if the line interface device is in use by the endpoint.
*/
const OpalLineInterfaceDevice * GetDeviceByName(
const PString & descriptor ///< Device descritption to add
);
/**Add a line interface device to the endpoint.
This will add the OpalLineInterfaceDevice descendent and all of the
lines that it has to the endpoint.
The lid is then "owned" by the endpoint and will be deleted
automatically when the endpoint is destroyed.
Note the device should already be open or no lines are added.
Returns true if at least one line was added.
*/
virtual PBoolean AddDevice(
OpalLineInterfaceDevice * device ///< Device to add
);
/**Remove the device and all its lines from the endpoint.
The device will be automatically deleted.
*/
void RemoveDevice(
OpalLineInterfaceDevice * device ///< Device to remove
);
/**Remove all devices from the endpoint.
*/
void RemoveDevices() { RemoveAllLines(); }
/**Get the line by name.
The lineName parameter may be "*" to matche the first line.
If the enableAudio flag is true then the EnableAudio() function is
called on the line and it is returns only if successful. This
effectively locks the line for exclusive use of the caller.
*/
OpalLine * GetLine(
const PString & lineName, ///< Name of line to get.
bool enableAudio = false, ///< Flag to enable audio on the line.
bool terminating = true ///< Flag to indicate should be a terminating line
);
/**Set the default line to be used on call.
If the lineName is "*" then the first available line is used.
*/
void SetDefaultLine(
const PString & lineName ///< Name of line to set to default.
);
/**Set the country code set for the device.
This may change the line analogue coefficients, ring detect, call
disconnect detect and call progress tones to fit the countries
telephone network.
*/
bool SetCountryCode(
OpalLineInterfaceDevice::T35CountryCodes country ///< Country code for device
);
/**Set the country code set for the device.
*/
bool SetCountryCodeName(
const PString & countryName ///< Country code for device
);
//@}
protected:
PDECLARE_NOTIFIER(PThread, OpalLineEndPoint, MonitorLines);
virtual void MonitorLine(OpalLine & line);
OpalLIDList devices;
OpalLineList lines;
PString defaultLine;
PMutex linesMutex;
PThread * monitorThread;
PSyncPoint exitFlag;
};
/**This class describes the LID based codec capability.
*/
class OpalLineConnection : public OpalConnection
{
PCLASSINFO(OpalLineConnection, OpalConnection);
public:
/**@name Construction */
//@{
/**Create a new connection.
*/
OpalLineConnection(
OpalCall & call, ///< Owner calll for connection
OpalLineEndPoint & endpoint, ///< Endpoint for LID connection
OpalLine & line, ///< Line to make connection on
const PString & number ///< Number to call on line
);
//@}
/**@name Overrides from OpalConnection */
//@{
/**Get this connections protocol prefix for URLs.
*/
virtual PString GetPrefixName() const;
/**Get indication of connection being to a "network".
This indicates the if the connection may be regarded as a "network"
connection. The distinction is about if there is a concept of a "remote"
party being connected to and is best described by example: sip, h323,
iax and pstn are all "network" connections as they connect to something
"remote". While pc, pots and ivr are not as the entity being connected
to is intrinsically local.
*/
virtual bool IsNetworkConnection() const { return !line.IsTerminal(); }
/**Start an outgoing connection.
This function will initiate the connection to the remote entity, for
example in H.323 it sends a SETUP, in SIP it sends an INVITE etc.
The default behaviour does.
*/
virtual PBoolean SetUpConnection();
/**Indicate to remote endpoint an alert is in progress.
If this is an incoming connection and the AnswerCallResponse is in a
AnswerCallDeferred or AnswerCallPending state, then this function is
used to indicate to that endpoint that an alert is in progress. This is
usually due to another connection which is in the call (the B party)
has received an OnAlerting() indicating that its remoteendpoint is
"ringing".
The default behaviour starts the ring back tone.
*/
virtual PBoolean SetAlerting(
const PString & calleeName, ///< Name of endpoint being alerted.
PBoolean withMedia ///< Open media with alerting
);
/**Indicate to remote endpoint we are connected.
The default behaviour stops the ring back tone.
*/
virtual PBoolean SetConnected();
/**Clean up the termination of the connection.
This function can do any internal cleaning up and waiting on background
threads that may be using the connection object.
Note that there is not a one to one relationship with the
OnEstablishedConnection() function. This function may be called without
that function being called. For example if SetUpConnection() was used
but the call never completed.
Classes that override this function should make sure they call the
ancestor version for correct operation.
An application will not typically call this function as it is used by
the OpalManager during a release of the connection.
The default behaviour calls starts playing the busy tone and calls the
ancestor function.
*/
virtual void OnReleased();
/**Get the destination address of an incoming connection.
The default behaviour collects a DTMF number terminated with a '#' or
if no digits were entered for a time (default 3 seconds). If no digits
are entered within a longer time time (default 30 seconds), then an
empty string is returned.
*/
virtual PString GetDestinationAddress();
/**Get the data formats this connection is capable of operating.
This provides a list of media data format names that a
OpalMediaStream may be created in within this connection.
The default behaviour returns the capabilities of the LID line.
*/
virtual OpalMediaFormatList GetMediaFormats() const;
/**Open a new media stream.
This will create a media stream of an appropriate subclass as required
by the underlying connection protocol. For instance H.323 would create
an OpalRTPStream.
The sessionID parameter may not be needed by a particular media stream
and may be ignored. In the case of an OpalRTPStream it us used.
Note that media streams may be created internally to the underlying
protocol. This function is not the only way a stream can come into
existance.
The default behaviour is pure.
*/
virtual OpalMediaStream * CreateMediaStream(
const OpalMediaFormat & mediaFormat, ///< Media format for stream
unsigned sessionID, ///< Session number for stream
PBoolean isSource ///< Is a source stream
);
/**Call back when opening a media stream.
This function is called when a connection has created a new media
stream according to the logic of its underlying protocol.
The usual requirement is that media streams are created on all other
connections participating in the call and all of the media streams are
attached to an instance of an OpalMediaPatch object that will read from
one of the media streams passing data to the other media streams.
The default behaviour calls the ancestor and adds a LID silence
detector filter.
*/
virtual PBoolean OnOpenMediaStream(
OpalMediaStream & stream ///< New media stream being opened
);
/**Call back for closed a media stream.
Note that this is called while the OpalMediaStream is locked. Care needs to be
taken to avoid deadlocks.
The default behaviour calls the OpalEndPoint function of the same name.
*/
virtual void OnClosedMediaStream(
const OpalMediaStream & stream ///< Media stream being closed
);
/**Set the volume (gain) for the audio media channel to the specified percentage.
*/
virtual PBoolean SetAudioVolume(
PBoolean source, ///< true for source (microphone), false for sink (speaker)
unsigned percentage ///< Gain, 0=silent, 100=maximun
);
/**Get the average signal level (0..32767) for the audio media channel.
A return value of UINT_MAX indicates no valid signal, eg no audio channel opened.
*/
virtual unsigned GetAudioSignalLevel(
PBoolean source ///< true for source (microphone), false for sink (speaker)
);
/**Send a user input indication to the remote endpoint.
This sends an arbitrary string as a user indication. If DTMF tones in
particular are required to be sent then the SendIndicationTone()
function should be used.
The default behaviour plays the DTMF tones on the line.
*/
virtual PBoolean SendUserInputString(
const PString & value ///< String value of indication
);
/**Send a user input indication to the remote endpoint.
This sends DTMF emulation user input. If something other than the
standard tones need be sent use the SendUserInputString() function.
The default behaviour plays the DTMF tone on the line.
*/
virtual PBoolean SendUserInputTone(
char tone, ///< DTMF tone code
int duration ///< Duration of tone in milliseconds
);
/**Play a prompt to the connection before rading user indication string.
For example the LID connection would play a dial tone.
The default behaviour does nothing.
*/
virtual PBoolean PromptUserInput(
PBoolean play ///< Flag to start or stop playing the prompt
);
//@}
/**@name Call handling functions */
//@{
/**Handle a new connection from the LID line.
*/
void StartIncoming();
/**Check for line hook state, DTMF tone for user indication etc.
*/
virtual void Monitor();
//@}
/**@name Member variable access */
//@{
/**Get the line being used by this media stream.
*/
OpalLine & GetLine() { return line; }
/** Get the prompt tone used on POTS lines.
Defaults to OpalLineInterfaceDevice::DialTone.
*/
OpalLineInterfaceDevice::CallProgressTones GetPromptTone() const { return m_promptTone; }
/** Set the prompt tone used on POTS lines.
*/
void SetPromptTone(OpalLineInterfaceDevice::CallProgressTones tone) { m_promptTone = tone; }
/** Delay in msec to wait between the dial tone detection and dialing the dtmf
*/
void setDialDelay(
unsigned int uiDialDelay ///< Dialing delay
) { m_dialParams.m_dialStartDelay = uiDialDelay;}
/** Delay in msec to wait between the dial tone detection and dialing the dtmf
* @return uiDialDelay the dial delay to get
*/
unsigned int getDialDelay() const { return m_dialParams.m_dialStartDelay; }
//@}
protected:
OpalLineEndPoint & endpoint;
OpalLine & line;
bool wasOffHook;
unsigned minimumRingCount;
OpalLineInterfaceDevice::DialParams m_dialParams;
OpalLineInterfaceDevice::CallProgressTones m_promptTone;
PDECLARE_NOTIFIER(PThread, OpalLineConnection, HandleIncoming);
PThread * handlerThread;
};
/**This class describes a media stream that transfers data to/from a Line
Interface Device.
*/
class OpalLineMediaStream : public OpalMediaStream
{
PCLASSINFO(OpalLineMediaStream, OpalMediaStream);
public:
/**@name Construction */
//@{
/**Construct a new media stream for Line Interface Devices.
*/
OpalLineMediaStream(
OpalLineConnection & conn, ///< Owner connection
const OpalMediaFormat & mediaFormat, ///< Media format for stream
unsigned sessionID, ///< Session number for stream
PBoolean isSource, ///< Is a source stream
OpalLine & line ///< LID line to stream to/from
);
//@}
~OpalLineMediaStream();
/**@name Overrides of OpalMediaStream class */
//@{
/**Open the media stream.
The default behaviour sets the OpalLineInterfaceDevice format and
calls Resume() on the associated OpalMediaPatch thread.
*/
virtual PBoolean Open();
/**Read an RTP frame of data from the source media stream.
The default behaviour simply calls ReadData() on the data portion of the
RTP_DataFrame and sets the frames timestamp and marker from the internal
member variables of the media stream class.
*/
virtual PBoolean ReadPacket(
RTP_DataFrame & packet
);
/**Write an RTP frame of data to the sink media stream.
The default behaviour simply calls WriteData() on the data portion of the
RTP_DataFrame and and sets the internal timestamp and marker from the
member variables of the media stream class.
*/
virtual PBoolean WritePacket(
RTP_DataFrame & packet
);
/**Read raw media data from the source media stream.
The default behaviour reads from the OpalLine object.
*/
virtual PBoolean ReadData(
BYTE * data, ///< Data buffer to read to
PINDEX size, ///< Size of buffer
PINDEX & length ///< Length of data actually read
);
/**Write raw media data to the sink media stream.
The default behaviour writes to the OpalLine object.
*/
virtual PBoolean WriteData(
const BYTE * data, ///< Data to write
PINDEX length, ///< Length of data to read.
PINDEX & written ///< Length of data actually written
);
/**Set the data size in bytes that is expected to be used. Some media
streams can make use of this information to perform optimisations.
The default behaviour does nothing.
*/
virtual PBoolean SetDataSize(
PINDEX dataSize, ///< New data size (in total)
PINDEX frameTime ///< Individual frame time (if applicable)
);
/**Indicate if the media stream is synchronous.
Returns true for LID streams.
*/
virtual PBoolean IsSynchronous() const;
/**Indicate if the media stream requires a OpalMediaPatch thread (active patch).
This is called on the source/sink stream and is passed the sink/source
stream that the patch will initially be using. The function could
conditionally require the patch thread to execute a thread reading and
writing data, or prevent it from doing so as it can do so in hardware
in some way.
The default behaviour here determines if both streams are on the same
OpalLineInterfaceDevice and returns false if so.
*/
virtual PBoolean RequiresPatchThread(
OpalMediaStream * stream ///< Other stream in patch
) const;
//@}
/**@name Member variable access */
//@{
/**Get the line being used by this media stream.
*/
OpalLine & GetLine() { return line; }
//@}
protected:
virtual void InternalClose();
OpalLine & line;
bool notUsingRTP;
bool useDeblocking;
unsigned missedCount;
BYTE lastSID[4];
bool lastFrameWasSignal;
unsigned directLineNumber;
};
class OpalLineSilenceDetector : public OpalSilenceDetector
{
PCLASSINFO(OpalLineSilenceDetector, OpalSilenceDetector);
public:
/**@name Construction */
//@{
/**Create a new silence detector for a LID.
*/
OpalLineSilenceDetector(
OpalLine & line, ///< Line to detect silence on
const Params & newParam ///< New parameters for silence detector
);
//@}
/**@name Overrides from OpalSilenceDetector */
//@{
/**Get the average signal level in the stream.
This is called from within the silence detection algorithm to
calculate the average signal level of the last data frame read from
the stream.
The default behaviour returns UINT_MAX which indicates that the
average signal has no meaning for the stream.
*/
virtual unsigned GetAverageSignalLevel(
const BYTE * buffer, ///< RTP payload being detected
PINDEX size ///< Size of payload buffer
);
//@}
protected:
OpalLine & line;
};
#endif // OPAL_LIDS_LIDEP_H
// End of File ///////////////////////////////////////////////////////////////
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