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* opal.h
*
* "C" language interface for OPAL
*
* Open Phone Abstraction Library (OPAL)
*
* Copyright (c) 2008 Vox Lucida
*
* 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 Phone Abstraction Library.
*
* The Initial Developer of the Original Code is Vox Lucida (Robert Jongbloed)
*
* This code was initially written with the assisance of funding from
* Stonevoice. http://www.stonevoice.com.
*
* Contributor(s): ______________________________________.
*
* $Revision: 27795 $
* $Author: rjongbloed $
* $Date: 2012-06-07 22:49:21 -0500 (Thu, 07 Jun 2012) $
*/
#ifndef OPAL_OPAL_H
#define OPAL_OPAL_H
#include <stdlib.h>
#ifdef __cplusplus
extern "C" {
#endif
/**\file opal.h
\brief This file contains a simplified API to the OPAL system. It provides a
pure "C" language interface as will as a very simple C++ class and a
contrained set of functions for "late binding".
It should be noted that the simplified API, is sill not very simple. There are
complexities invoved that cannot be avoided. However, this API does remove
some issues with the full API such as multi-threading and advanced C++ concepts.
The other major feature of this API is the ability to be easily "late bound"
using Windows LoadLibrary() or Unix dlopen() at run time. You may look at the
sample code in opal/samples/c_api/main.c for an example of how to do late binding.
Late binding also allows for easier integration of OPAL fucntionality to
interpreted languages such as Java, Perl etc. Systems like "swig" may be used to
produce interface files for such languages.
To make the above easier, there are only four functions: OpalInitialise(),
OpalShutDown(), OpalGetMessage() and OpalSendMessage(). All commands to OPAL and
indications back from OPAL are done through the latter two functions.
This API also provides a basic C++ class OpalContext, which may be used for C++
programmers that do not wish to learn the large number of classes in the full
API. At the cost of minimal extensibility and control.
*/
#ifdef _WIN32
#define OPAL_EXPORT __stdcall
#else
#define OPAL_EXPORT
#endif
/// Handle to initialised OPAL instance.
typedef struct OpalHandleStruct * OpalHandle;
typedef struct OpalMessage OpalMessage;
/// Current API version
#define OPAL_C_API_VERSION 27
///////////////////////////////////////
/** Initialise the OPAL system, returning a "handle" to the system that must
be used in other calls to OPAL.
The version parameter indicates the version of the API being used by the
caller. It should always be set to the constant OPAL_C_API_VERSION. On
return the library will indicate the API version it supports, if it is
lower than that provided by the application.
The C string options are space separated tokens indicating various options
to be enabled, for example the protocols to be available. NULL or an empty
string will load all available protocols. The current protocol tokens are:
<code>
sip sips h323 h323s iax2 pc local pots pstn ivr
</code>
The above protocols are in priority order, so if a protocol is not
explicitly in the address, then the first one of the opposite "category"
s used. There are two categories, network protocols (sip, h323, iax & pstn)
and non-network protocols (pc, local, pots & ivr).
Additional options are:
<table border=0>
<tr><td>TraceLevel=1 <td>Level for tracing.
<tr><td>TraceAppend <td>Append to the trace file.
<tr><td>TraceFile="name" <td>Set the filename for trace output. Note quotes are
required if spaces are in filename.
</table>
It should also be noted that there must not be spaces around the '=' sign
in the above options.
If NULL is returned then an initialisation error occurred. This can only
really occur if the user specifies prefixes which are not supported by
the library.
Example:
<code>
OpalHandle hOPAL;
unsigned version;
version = OPAL_C_API_VERSION;
if ((hOPAL = OpalInitialise(&version,
OPAL_PREFIX_H323 " "
OPAL_PREFIX_SIP " "
OPAL_PREFIX_IAX2 " "
OPAL_PREFIX_PCSS
" TraceLevel=4")) == NULL) {
fputs("Could not initialise OPAL\n", stderr);
return false;
}
</code>
*/
OpalHandle OPAL_EXPORT OpalInitialise(unsigned * version, const char * options);
/** String representation of the OpalIntialise() which may be used for late
binding to the library.
*/
#define OPAL_INITIALISE_FUNCTION "OpalInitialise"
/** Typedef representation of the pointer to the OpalIntialise() function which
may be used for late binding to the library.
*/
typedef OpalHandle (OPAL_EXPORT *OpalInitialiseFunction)(unsigned * version, const char * options);
///////////////////////////////////////
/** Shut down and clean up all resource used by the OPAL system. The parameter
must be the handle returned by OpalInitialise().
Example:
<code>
OpalShutDown(hOPAL);
</code>
*/
void OPAL_EXPORT OpalShutDown(OpalHandle opal);
/** String representation of the OpalShutDown() which may be used for late
binding to the library.
*/
#define OPAL_SHUTDOWN_FUNCTION "OpalShutDown"
/** Typedef representation of the pointer to the OpalShutDown() function which
may be used for late binding to the library.
*/
typedef void (OPAL_EXPORT *OpalShutDownFunction)(OpalHandle opal);
///////////////////////////////////////
/** Get a message from the OPAL system. The first parameter must be the handle
returned by OpalInitialise(). The second parameter is a timeout in
milliseconds. NULL is returned if a timeout occurs. A value of UINT_MAX
will wait forever for a message.
The returned message must be disposed of by a call to OpalFreeMessage().
The OPAL system will serialise all messages returned from this function to
avoid any multi-threading issues. If the application wishes to avoid even
this small delay, there is a callback function that may be configured that
is not thread safe but may be used to get the messages as soon as they are
generated. See OpalCmdSetGeneralParameters.
Note if OpalShutDown() is called from a different thread then this function
will break from its block and return NULL.
Example:
<code>
OpalMessage * message;
while ((message = OpalGetMessage(hOPAL, timeout)) != NULL) {
switch (message->m_type) {
case OpalIndRegistration :
HandleRegistration(message);
break;
case OpalIndIncomingCall :
Ring(message);
break;
case OpalIndCallCleared :
HandleHangUp(message);
break;
}
FreeMessageFunction(message);
}
</code>
*/
OpalMessage * OPAL_EXPORT OpalGetMessage(OpalHandle opal, unsigned timeout);
/** String representation of the OpalGetMessage() which may be used for late
binding to the library.
*/
#define OPAL_GET_MESSAGE_FUNCTION "OpalGetMessage"
/** Typedef representation of the pointer to the OpalGetMessage() function which
may be used for late binding to the library.
*/
typedef OpalMessage * (OPAL_EXPORT *OpalGetMessageFunction)(OpalHandle opal, unsigned timeout);
///////////////////////////////////////
/** Send a message to the OPAL system. The first parameter must be the handle
returned by OpalInitialise(). The second parameter is a constructed message
which is a command to the OPAL system.
Within the command message, generally a NULL or empty string, or zero value
for integral types, indicates the particular parameter is to be ignored.
Documentation on individiual messages will indicate which are mandatory.
The return value is another message which will have a type of
OpalIndCommandError if an error occurs. The OpalMessage::m_commandError field
will contain a string indicating the error that occurred.
If successful, the the type of the message is the same as the command type.
The message fields in the return will generally be set to the previous value
for the field, where relevant. For example in the OpalCmdSetGeneralParameters
command the OpalParamGeneral::m_stunServer would contain the STUN server name
prior to the command.
A NULL is only returned if the either OpalHandle or OpalMessage parameters is NULL.
The returned message must be disposed of by a call to OpalFreeMessage().
Example:
<code>
void SendCommand(OpalMessage * command)
{
OpalMessage * response;
if ((response = OpalSendMessage(hOPAL, command)) == NULL) {
puts("OPAL not initialised.");
else if (response->m_type != OpalIndCommandError)
HandleResponse(response);
else if (response->m_param.m_commandError == NULL || *response->m_param.m_commandError == '\\0')
puts("OPAL error.");
else
printf("OPAL error: %s\n", response->m_param.m_commandError);
FreeMessageFunction(response);
}
</code>
*/
OpalMessage * OPAL_EXPORT OpalSendMessage(OpalHandle opal, const OpalMessage * message);
/** String representation of the OpalSendMessage() which may be used for late
binding to the library.
*/
typedef OpalMessage * (OPAL_EXPORT *OpalSendMessageFunction)(OpalHandle opal, const OpalMessage * message);
/** Typedef representation of the pointer to the OpalSendMessage() function which
may be used for late binding to the library.
*/
#define OPAL_SEND_MESSAGE_FUNCTION "OpalSendMessage"
///////////////////////////////////////
/** Free memeory in message the OPAL system has sent. The parameter must be
the message returned by OpalGetMessage() or OpalSendMessage().
*/
void OPAL_EXPORT OpalFreeMessage(OpalMessage * message);
/** String representation of the OpalFreeMessage() which may be used for late
binding to the library.
*/
#define OPAL_FREE_MESSAGE_FUNCTION "OpalFreeMessage"
/** Typedef representation of the pointer to the OpalFreeMessage() function which
may be used for late binding to the library.
*/
typedef void (OPAL_EXPORT *OpalFreeMessageFunction)(OpalMessage * message);
///////////////////////////////////////
#define OPAL_PREFIX_H323 "h323" ///< H.323 Protocol supported string for OpalInitialise()
#define OPAL_PREFIX_SIP "sip" ///< SIP Protocol supported string for OpalInitialise()
#define OPAL_PREFIX_IAX2 "iax2" ///< IAX2 Protocol supported string for OpalInitialise()
#define OPAL_PREFIX_PCSS "pc" ///< PC sound system supported string for OpalInitialise()
#define OPAL_PREFIX_LOCAL "local" ///< Local endpoint supported string for OpalInitialise()
#define OPAL_PREFIX_POTS "pots" ///< Plain Old Telephone System supported string for OpalInitialise()
#define OPAL_PREFIX_PSTN "pstn" ///< Public Switched Network supported string for OpalInitialise()
#define OPAL_PREFIX_IVR "ivr" ///< Interactive Voice Response supported string for OpalInitialise()
#define OPAL_PREFIX_ALL OPAL_PREFIX_H323 " " \
OPAL_PREFIX_SIP " " \
OPAL_PREFIX_IAX2 " " \
OPAL_PREFIX_PCSS " " \
OPAL_PREFIX_LOCAL " " \
OPAL_PREFIX_POTS " " \
OPAL_PREFIX_PSTN " " \
OPAL_PREFIX_IVR
/**Type code for messages defined by OpalMessage.
*/
typedef enum OpalMessageType {
OpalIndCommandError, /**<An error occurred during a command. This is only returned by
OpalSendMessage(). The details of the error are shown in the
OpalMessage::m_commandError field. */
OpalCmdSetGeneralParameters, /**<Set general parameters command. This configures global settings in OPAL.
See the OpalParamGeneral structure for more information. */
OpalCmdSetProtocolParameters, /**<Set protocol parameters command. This configures settings in OPAL that
may be different for each protocol, e.g. SIP & H.323. See the
OpalParamProtocol structure for more information. */
OpalCmdRegistration, /**<Register/Unregister command. This initiates a registration or
unregistration operation with a protocol dependent server. Currently
only for H.323 and SIP. See the OpalParamRegistration structure for more
information. */
OpalIndRegistration, /**<Status of registration indication. After the OpalCmdRegistration has
initiated a registration, this indication will be returned by the
OpalGetMessage() function when the status of the registration changes,
e.g. successful registration or communications failure etc. See the
OpalStatusRegistration structure for more information. */
OpalCmdSetUpCall, /**<Set up a call command. This starts the outgoing call process. The
OpalIndAlerting, OpalIndEstablished and OpalIndCallCleared messages are
returned by OpalGetMessage() to indicate the call progress. See the
OpalParamSetUpCall structure for more information. */
OpalIndIncomingCall, /**<Incoming call indication. This is returned by the OpalGetMessage() function
at any time after listeners are set up via the OpalCmdSetProtocolParameters
command. See the OpalStatusIncomingCall structure for more information. */
OpalCmdAnswerCall, /**<Answer call command. After a OpalIndIncomingCall is returned by the
OpalGetMessage() function, an application maye indicate that the call is
to be answered with this message. The OpalMessage m_callToken field is
set to the token returned in OpalIndIncomingCall. */
OpalCmdClearCall, /**<Hang Up call command. After a OpalCmdSetUpCall command is executed or a
OpalIndIncomingCall indication is received then this may be used to
"hang up" the call. The OpalIndCallCleared is subsequently returned in
the OpalGetMessage() when the call has completed its hang up operation.
See OpalParamCallCleared structure for more information.*/
OpalIndAlerting, /**<Remote is alerting indication. This message is returned in the
OpalGetMessage() function when the underlying protocol states the remote
telephone is "ringing". See the OpalParamSetUpCall structure for more
information. */
OpalIndEstablished, /**<Call is established indication. This message is returned in the
OpalGetMessage() function when the remote or local endpont has "answered"
the call and there is media flowing. See the OpalParamSetUpCall
structure for more information. */
OpalIndUserInput, /**<User input indication. This message is returned in the OpalGetMessage()
function when, during a call, user indications (aka DTMF tones) are
received. See the OpalStatusUserInput structure for more information. */
OpalIndCallCleared, /**<Call is cleared indication. This message is returned in the
OpalGetMessage() function when the call has completed. The OpalMessage
m_callToken field indicates which call cleared. */
OpalCmdHoldCall, /**<Place call in a hold state. The OpalMessage m_callToken field is set to
the token returned in OpalIndIncomingCall. */
OpalCmdRetrieveCall, /**<Retrieve call from hold state. The OpalMessage m_callToken field is set
to the token for the call. */
OpalCmdTransferCall, /**<Transfer a call to another party. This starts the outgoing call process
for the other party. See the OpalParamSetUpCall structure for more
information.*/
OpalCmdUserInput, /**<User input command. This sends specified user input to the remote
connection. See the OpalStatusUserInput structure for more information. */
OpalIndMessageWaiting, /**<Message Waiting indication. This message is returned in the
OpalGetMessage() function when an MWI is received on any of the supported
protocols. */
OpalIndMediaStream, /**<A media stream has started/stopped. This message is returned in the
OpalGetMessage() function when a media stream is started or stopped. See the
OpalStatusMediaStream structure for more information. */
OpalCmdMediaStream, /**<Execute control on a media stream. See the OpalStatusMediaStream structure
for more information. */
OpalCmdSetUserData, /**<Set the user data field associated with a call */
OpalIndLineAppearance, /**<Line Appearance indication. This message is returned in the
OpalGetMessage() function when any of the supported protocols indicate that
the state of a "line" has changed, e.g. free, busy, on hold etc. */
OpalCmdStartRecording, /**<Start recording an active call. See the OpalParamRecording structure
for more information. */
OpalCmdStopRecording, /**<Stop recording an active call. Only the m_callToken field of the
OpalMessage union is used. */
OpalIndProceeding, /**<Call has been accepted by remote. This message is returned in the
OpalGetMessage() function when the underlying protocol states the remote
endpoint acknowledged that it will route the call. This is distinct from
OpalIndAlerting in that it is not known at this time if anything is
ringing. This indication may be used to distinguish between "transport"
level error, in which case another host may be tried, and that the
responsibility for finalising the call has moved "upstream". See the
OpalParamSetUpCall structure for more information. */
OpalCmdAlerting, /**<Send an indication to the remote that we are "ringing". The OpalMessage
m_callToken field indicates which call is alerting. */
OpalIndOnHold, /**<Indicate a call has been placed on hold by remote. This message is returned
in the OpalGetMessage() function. */
OpalIndOffHold, /**<Indicate a call has been retrieved from hold by remote. This message is
returned in the OpalGetMessage() function. */
OpalIndTransferCall, /**<Status of transfer operation that is under way. This message is returned in
the OpalGetMessage() function. See the OpalStatusTransferCall structure for
more information. */
OpalIndCompletedIVR, /**<Indicates completion of the IVR (VXML) script. This message is returned in
the OpalGetMessage() function. See the OpalStatusIVR structure for
more information. */
// Always add new messages to ethe end to maintain backward compatibility
OpalMessageTypeCount
} OpalMessageType;
/**Type code the silence detect algorithm modes.
This is used by the OpalCmdSetGeneralParameters command in the OpalParamGeneral structure.
*/
typedef enum OpalSilenceDetectMode {
OpalSilenceDetectNoChange, /**< No change to the silence detect mode. */
OpalSilenceDetectDisabled, /**< Indicate silence detect is disabled */
OpalSilenceDetectFixed, /**< Indicate silence detect uses a fixed threshold */
OpalSilenceDetectAdaptive /**< Indicate silence detect uses an adaptive threashold */
} OpalSilenceDetectMode;
/**Type code the echo cancellation algorithm modes.
This is used by the OpalCmdSetGeneralParameters command in the OpalParamGeneral structure.
*/
typedef enum OpalEchoCancelMode {
OpalEchoCancelNoChange, /**< No change to the echo cancellation mode. */
OpalEchoCancelDisabled, /**< Indicate the echo cancellation is disabled */
OpalEchoCancelEnabled /**< Indicate the echo cancellation is enabled */
} OpalEchoCancelMode;
/** Function for reading/writing media data.
Returns size of data actually read or written, or -1 if there is an error
and the media stream should be shut down.
The "write" function, which is taking data from a remote and providing it
to the "C" application for writing, should not be assumed to have a one to
one correspondence with RTP packets. The OPAL jiter buffer may insert
"silence" data for missing or too late packets. In this case the function
is called with the size parameter equal to zero. It is up to the
application what it does in that circumstance.
Note that this function will be called in the context of different threads
so the user must take care of any mutex and synchonisation issues.
*/
typedef int (*OpalMediaDataFunction)(
const char * token, /**< Call token for media data as returned by OpalIndIncomingCall.
This may be used to discriminate between individiual calls. */
const char * stream, /**< Stream identifier for media data. This may be used to
discriminate between media streams within a call, applicable
if there can be more than one stream of a particular format,
e.g. two H.263 video channels. */
const char * format, /**< Format of media data, e.g. "PCM-16" */
void * userData, /**< user data associated with the call */
void * data, /**< Data to read/write */
int size /**< Maximum size of data to read, or size of actual data to write */
);
/** Function called when a message event becomes available.
This function is called before the message is queued for the GetMessage()
function.
A return value of zero indicates that the message is not to be passed on
to the GetMessage(). A non-zero value will pass the message on.
Note that this function will be called in the context of different threads
so the user must take care of any mutex and synchonisation issues. If the
user subsequently uses the GetMessage() then the message will have been
serialised so that there are no multi-threading issues.
A simple use case would be for this function to send a signal or message
to the applications main thread and then return a non-zero value. The
main thread would then wake up and get the message using GetMessage.
*/
typedef int (*OpalMessageAvailableFunction)(
const OpalMessage * message /**< Message that has become available. */
);
/**Type code the media data call back functions data type.
This is used by the OpalCmdSetGeneralParameters command in the
OpalParamGeneral structure.
This controls if the whole RTP data frame or just the paylaod part
is passed to the read/write function.
*/
typedef enum OpalMediaDataType {
OpalMediaDataNoChange, /**< No change to the media data type. */
OpalMediaDataPayloadOnly, /**< Indicate only the RTP payload is passed to the
read/write function */
OpalMediaDataWithHeader /**< Indicate the whole RTP frame including header is
passed to the read/write function */
} OpalMediaDataType;
/**Timing mode for the media data call back functions data type.
This is used by the OpalCmdSetGeneralParameters command in the
OpalParamGeneral structure.
This controls if the read/write function is in control of the real time
aspects of the media flow. If synchronous then the read/write function
is expected to handle the real time "pacing" of the read or written data.
Note this is important both for reads and writes. For example in
synchronous mode you cannot simply read from a file and send, or you will
likely overrun the remotes buffers. Similarly for writing to a file, the
correct operation of the OPAL jitter buffer is dependent on it not being
drained too fast by the "write" function.
If marked as asynchroous then the OPAL stack itself will take care of the
timing and things like read/write to a disk file will work correctly.
*/
typedef enum OpalMediaTiming {
OpalMediaTimingNoChange, /**< No change to the media data type. */
OpalMediaTimingSynchronous, /**< Indicate the read/write function is going to handle
all real time aspects of the media flow. */
OpalMediaTimingAsynchronous, /**< Indicate the read/write function does not require
real time aspects of the media flow. */
OpalMediaTimingSimulated /**< Indicate the read/write function does not handle
the real time aspects of the media flow and they
must be simulated by the OPAL library. */
} OpalMediaTiming;
/**General parameters for the OpalCmdSetGeneralParameters command.
This is only passed to and returned from the OpalSendMessage() function.
Example:
<code>
OpalMessage command;
OpalMessage * response;
memset(&command, 0, sizeof(command));
command.m_type = OpalCmdSetGeneralParameters;
command.m_param.m_general.m_stunServer = "stun.voxgratia.org";
command.m_param.m_general.m_mediaMask = "RFC4175*";
response = OpalSendMessage(hOPAL, &command);
</code>
For m_mediaOrder and m_mediaMask, each '\n' seperated sub-string in the
array is checked using a simple wildcard matching algorithm.
The '*' character indicates substrings, for example: "G.711*" would remove
"G.711-uLaw-64k" and "G.711-ALaw-64k".
The '@' character indicates a type of media format, so say "\@video" would
remove all video codecs.
The '!' character indicates a negative test. That is the entres that do NOT
match the string are removed. The string after the '!' may contain '*' and
'@' characters.
It should be noted that when the ! operator is used, they are combined
differently to the usual application of each entry in turn. Thus, the string
"!A\n!B" will result in keeping <i>both</i> A and B formats.
*/
typedef struct OpalParamGeneral {
const char * m_audioRecordDevice; /**< Audio recording device name */
const char * m_audioPlayerDevice; /**< Audio playback device name */
const char * m_videoInputDevice; /**< Video input (e.g. camera) device name */
const char * m_videoOutputDevice; /**< Video output (e.g. window) device name */
const char * m_videoPreviewDevice; /**< Video preview (e.g. window) device name */
const char * m_mediaOrder; /**< List of media format names to set the preference order for media.
This list of names (e.g. "G.723.1") is separated by the '\n'
character. */
const char * m_mediaMask; /**< List of media format names to set media to be excluded.
This list of names (e.g. "G.723.1") is separated by the '\n'
character. */
const char * m_autoRxMedia; /**< List of media types (e.g. audio, video) separated by spaces
which may automatically be received automatically. If NULL
no change is made, but if "" then all media is prevented from
auto-starting. */
const char * m_autoTxMedia; /**< List of media types (e.g. audio, video) separated by spaces
which may automatically be transmitted automatically. If NULL
no change is made, but if "" then all media is prevented from
auto-starting. */
const char * m_natRouter; /**< The host name or IP address of the Network Address Translation
router which may be between the endpoint and the Internet. */
const char * m_stunServer; /**< The host name or IP address of the STUN server which may be
used to determine the NAT router characteristics automatically. */
unsigned m_tcpPortBase; /**< Base of range of ports to use for TCP communications. This may
be required by some firewalls. */
unsigned m_tcpPortMax; /**< Max of range of ports to use for TCP communications. This may
be required by some firewalls. */
unsigned m_udpPortBase; /**< Base of range of ports to use for UDP communications. This may
be required by some firewalls. */
unsigned m_udpPortMax; /**< Max of range of ports to use for UDP communications. This may
be required by some firewalls. */
unsigned m_rtpPortBase; /**< Base of range of ports to use for RTP/UDP communications. This may
be required by some firewalls. */
unsigned m_rtpPortMax; /**< Max of range of ports to use for RTP/UDP communications. This may
be required by some firewalls. */
unsigned m_rtpTypeOfService; /**< Value for the Type Of Service byte with UDP/IP packets which may
be used by some routers for simple Quality of Service control. */
unsigned m_rtpMaxPayloadSize; /**< Maximum payload size for RTP packets. This may sometimes need to
be set according to the MTU or the underlying network. */
unsigned m_minAudioJitter; /**< Minimum jitter time in milliseconds. For audio RTP data being
received this sets the minimum time of the adaptive jitter buffer
which smooths out irregularities in the transmission of audio
data over the Internet. */
unsigned m_maxAudioJitter; /**< Maximum jitter time in milliseconds. For audio RTP data being
received this sets the maximum time of the adaptive jitter buffer
which smooths out irregularities in the transmission of audio
data over the Internet. */
OpalSilenceDetectMode m_silenceDetectMode; /**< Silence detection mode. This controls the silence
detection algorithm for audio transmission: 0=no change,
1=disabled, 2=fixed, 3=adaptive. */
unsigned m_silenceThreshold; /**< Silence detection threshold value. This applies if
m_silenceDetectMode is fixed (2) and is a PCM-16 value. */
unsigned m_signalDeadband; /**< Time signal is required before audio is transmitted. This is
is RTP timestamp units (8000Hz). */
unsigned m_silenceDeadband; /**< Time silence is required before audio is transmission is stopped.
This is is RTP timestamp units (8000Hz). */
unsigned m_silenceAdaptPeriod; /**< Window for adapting the silence threashold. This applies if
m_silenceDetectMode is adaptive (3). This is is RTP timestamp
units (8000Hz). */
OpalEchoCancelMode m_echoCancellation; /**< Accoustic Echo Cancellation control. 0=no change, 1=disabled,
2=enabled. */
unsigned m_audioBuffers; /**< Set the number of hardware sound buffers to use.
Note the largest of m_audioBuffers and m_audioBufferTime/frametime
will be used. */
OpalMediaDataFunction m_mediaReadData; /**< Callback function for reading raw media data. See
OpalMediaDataFunction for more information. */
OpalMediaDataFunction m_mediaWriteData; /**< Callback function for writing raw media data. See
OpalMediaDataFunction for more information. */
OpalMediaDataType m_mediaDataHeader; /**< Indicate that the media read/write callback function
is passed the full RTP header or just the payload.
0=no change, 1=payload only, 2=with RTP header. */
OpalMessageAvailableFunction m_messageAvailable; /**< If non-null then this function is called before
the message is queued for return in the
GetMessage(). See the
OpalMessageAvailableFunction for more details. */
const char * m_mediaOptions; /**< List of media format options to be set. This is a '\n' separated
list of entries of the form "codec:option=value". Codec is either
a media type (e.g. "Audio" or "Video") or a specific media format,
for example:
<code>
"G.723.1:Tx Frames Per Packet=2\nH.263:Annex T=0\n"
"Video:Max Rx Frame Width=176\nVideo:Max Rx Frame Height=144"
</code>
*/
unsigned m_audioBufferTime; /**< Set the hardware sound buffers to use in milliseconds.
Note the largest of m_audioBuffers and m_audioBufferTime/frametime
will be used. */
unsigned m_manualAlerting; /**< Indicate that an "alerting" message is automatically (value=1)
or manually (value=2) sent to the remote on receipt of an
OpalIndIncomingCall message. If set to manual then it is up
to the application to send a OpalCmdAlerting message to
indicate to the remote system that we are "ringing".
If zero then no change is made. */
OpalMediaTiming m_mediaTiming; /**< Indicate how the media read/write callback function
handles the real time aspects of the media flow.
0=no change, 1=synchronous, 2=asynchronous,
3=simulate synchronous. */
OpalMediaTiming m_videoSourceTiming;/**< Indicate that the video read callback function
handles the real time aspects of the media flow.
This can override the m_mediaTiming. */
} OpalParamGeneral;
/**Product description variables.
*/
typedef struct OpalProductDescription {
const char * m_vendor; /**< Name of the vendor or manufacturer of the application. This is
used to identify the software which can be very useful for
solving interoperability issues. e.g. "Vox Lucida". */
const char * m_name; /**< Name of the product within the vendor name space. This is
used to identify the software which can be very useful for
solving interoperability issues. e.g. "OpenPhone". */
const char * m_version; /**< Version of the product within the vendor/product name space. This
is used to identify the software which can be very useful for
solving interoperability issues. e.g. "2.1.4". */
unsigned m_t35CountryCode; /**< T.35 country code for the name space in which the vendor or
manufacturer is identified. This is the part of the H.221
equivalent of the m_vendor string above and used to identify the
software which can be very useful for solving interoperability
issues. e.g. 9 is for Australia. */
unsigned m_t35Extension; /**< T.35 country extension code for the name space in which the vendor or
manufacturer is identified. This is the part of the H.221
equivalent of the m_vendor string above and used to identify the
software which can be very useful for solving interoperability
issues. Very rarely used. */
unsigned m_manufacturerCode; /**< Manuacturer code for the name space in which the vendor or
manufacturer is identified. This is the part of the H.221
equivalent of the m_vendor string above and used to identify the
software which can be very useful for solving interoperability
issues. e.g. 61 is for Equivalance and was allocated by the
Australian Communications Authority, Oct 2000. */
} OpalProductDescription;
/**Type code for controlling the mode in which user input (DTMF) is sent.
This is used by the OpalCmdSetProtocolParameters command in the OpalParamProtocol structure.
*/
typedef enum OpalUserInputModes {
OpalUserInputDefault, ///< Default mode for protocol
OpalUserInputAsQ931, ///< Use Q.931 Information Elements (H.323 only)
OpalUserInputAsString, ///< Use arbitrary strings (H.245 string, or INFO dtmf)
OpalUserInputAsTone, ///< Use DTMF specific names (H.245 signal, or INFO dtmf-relay)
OpalUserInputAsRFC2833, ///< Use RFC 2833 for DTMF only
OpalUserInputInBand, ///< Use in-band generated audio tones for DTMF
} OpalUserInputModes;
/**Protocol parameters for the OpalCmdSetProtocolParameters command.
This is only passed to and returned from the OpalSendMessage() function.
Example:
<code>
OpalMessage command;
OpalMessage * response;
memset(&command, 0, sizeof(command));
command.m_type = OpalCmdSetProtocolParameters;
command.m_param.m_protocol.m_userName = "robertj";
command.m_param.m_protocol.m_displayName = "Robert Jongbloed";
command.m_param.m_protocol.m_interfaceAddresses = "*";
response = OpalSendMessage(hOPAL, &command);
</code>
*/
typedef struct OpalParamProtocol {
const char * m_prefix; /**< Protocol prefix for parameters, e.g. "h323" or "sip". If this is
NULL or empty string, then the parameters are set for all protocols
where they maybe set. */
const char * m_userName; /**< User name to identify the endpoint. This is usually the protocol
specific name and may interact with the OpalCmdRegistration
command. e.g. "robertj" or 61295552148 */
const char * m_displayName; /**< Display name to be used. This is the human readable form of the
users name, e.g. "Robert Jongbloed". */
OpalProductDescription m_product; /**< Product description data */
const char * m_interfaceAddresses; /**< A list of interfaces to start listening for incoming calls.
This list is separated by the '\n' character. If NULL no
listeners are started or stopped. If and empty string ("")
then all listeners are stopped. If a "*" then listeners
are started for all interfaces in the system.
If the prefix is "ivr", then this is the default VXML script
or URL to execute on incoming calls.*/
OpalUserInputModes m_userInputMode; /**< The mode for user input transmission. Note this only applies if an
explicit protocol is indicated in m_prefix. See OpalUserInputModes
for more information. */
const char * m_defaultOptions; /**< Default options for new calls using the specified protocol. This
string is of the form key=value\nkey=value */
} OpalParamProtocol;
/// Name of SIP event package for Message Waiting events.
#define OPAL_MWI_EVENT_PACKAGE "message-summary"
/// Name of SIP even package fo rmonitoring call status
#define OPAL_LINE_APPEARANCE_EVENT_PACKAGE "dialog;sla;ma"
/**Registration parameters for the OpalCmdRegistration command.
This is only passed to and returned from the OpalSendMessage() function.
Example:
<code>
OpalMessage command;
OpalMessage * response;
// H.323 register with gatekeeper
memset(&command, 0, sizeof(command));
command.m_type = OpalCmdRegistration;
command.m_param.m_registrationInfo.m_protocol = "h323";
command.m_param.m_registrationInfo.m_identifier = "31415";
command.m_param.m_registrationInfo.m_hostName = gk.voxgratia.org;
command.m_param.m_registrationInfo.m_password = "secret";
command.m_param.m_registrationInfo.m_timeToLive = 300;
response = OpalSendMessage(hOPAL, &command);
if (response != NULL && response->m_type == OpalCmdRegistration)
m_AddressOfRecord = response->m_param.m_registrationInfo.m_identifier
// SIP register with regstrar/proxy
memset(&command, 0, sizeof(command));
command.m_type = OpalCmdRegistration;
command.m_param.m_registrationInfo.m_protocol = "sip";
command.m_param.m_registrationInfo.m_identifier = "rjongbloed@ekiga.net";
command.m_param.m_registrationInfo.m_password = "secret";
command.m_param.m_registrationInfo.m_timeToLive = 300;
response = OpalSendMessage(hOPAL, &command);
if (response != NULL && response->m_type == OpalCmdRegistration)
m_AddressOfRecord = response->m_param.m_registrationInfo.m_identifier
// unREGISTER
memset(&command, 0, sizeof(command));
command.m_type = OpalCmdRegistration;
command.m_param.m_registrationInfo.m_protocol = "sip";
command.m_param.m_registrationInfo.m_identifier = m_AddressOfRecord;
command.m_param.m_registrationInfo.m_timeToLive = 0;
response = OpalSendMessage(hOPAL, &command);
// Set event package so do SUBSCRIBE
memset(&command, 0, sizeof(command));
command.m_type = OpalCmdRegistration;
command.m_param.m_registrationInfo.m_protocol = "sip";
command.m_param.m_registrationInfo.m_identifier = "2012@pbx.local";
command.m_param.m_registrationInfo.m_hostName = "sa@pbx.local";
command.m_param.m_registrationInfo.m_eventPackage = OPAL_LINE_APPEARANCE_EVENT_PACKAGE;
command.m_param.m_registrationInfo.m_timeToLive = 300;
response = OpalSendMessage(hOPAL, &command);
if (response != NULL && response->m_type == OpalCmdRegistration)
m_AddressOfRecord = response->m_param.m_registrationInfo.m_identifier
// unSUBSCRIBE
memset(&command, 0, sizeof(command));
command.m_type = OpalCmdRegistration;
command.m_param.m_registrationInfo.m_protocol = "sip";
command.m_param.m_registrationInfo.m_identifier = m_AddressOfRecord;
command.m_param.m_registrationInfo.m_eventPackage = OPAL_LINE_APPEARANCE_EVENT_PACKAGE;
command.m_param.m_registrationInfo.m_timeToLive = 0;
response = OpalSendMessage(hOPAL, &command);
</code>
*/
typedef struct OpalParamRegistration {
const char * m_protocol; /**< Protocol prefix for registration. Currently must be "h323" or
"sip", cannot be NULL. */
const char * m_identifier; /**< Identifier for name to be registered at server. If NULL
or empty then the value provided in the OpalParamProtocol::m_userName
field of the OpalCmdSetProtocolParameters command is used. Note
that for SIP the default value will have "@" and the
OpalParamRegistration::m_hostName field apepnded to it to create
and Address-Of_Record. */
const char * m_hostName; /**< Host or domain name for server. For SIP this cannot be NULL.
For H.323 a NULL value indicates that a broadcast discovery is
be performed. If, for SIP, this contains an "@" and a user part
then a "third party" registration is performed. */
const char * m_authUserName; /**< User name for authentication. */
const char * m_password; ///< Password for authentication with server.
const char * m_adminEntity; /**< Identification of the administrative entity. For H.323 this will
by the gatekeeper identifier. For SIP this is the authentication
realm. */
unsigned m_timeToLive; /**< Time in seconds between registration updates. If this is zero then
the identifier is unregistered from the server. */
unsigned m_restoreTime; /**< Time in seconds between attempts to restore a registration after
registrar/gatekeeper has gone offline. If zero then a default
value is used. */
const char * m_eventPackage; /**< If non-NULL then this indicates that a subscription is made
rather than a registration. The string represents the particular
event package being subscribed too.
A value of OPAL_MWI_EVENT_PACKAGE will cause an
OpalIndMessageWaiting to be sent.
A value of OPAL_LINE_APPEARANCE_EVENT_PACKAGE will cause the
OpalIndLineAppearance to be sent.
Other values are currently not supported. */
} OpalParamRegistration;
/**Type code for media stream status/control.
This is used by the OpalIndRegistration indication in the OpalStatusRegistration structure.
*/
typedef enum OpalRegistrationStates {
OpalRegisterSuccessful, /**< Successfully registered. */
OpalRegisterRemoved, /**< Successfully unregistered. Note that the m_error field may be
non-null if an error occurred during unregistration, however
the unregistration will "complete" as far as the local endpoint
is concerned and no more registration retries are made. */
OpalRegisterFailed, /**< Registration has failed. The m_error field of the
OpalStatusRegistration structure will contain more details. */
OpalRegisterRetrying, /**< Registrar/Gatekeeper has gone offline and a failed retry
has been executed. */
OpalRegisterRestored, /**< Registration has been restored after a succesfull retry. */
} OpalRegistrationStates;
/**Registration status for the OpalIndRegistration indication.
This is only returned from the OpalGetMessage() function.
*/
typedef struct OpalStatusRegistration {
const char * m_protocol; /**< Protocol prefix for registration. Currently must be "h323" or
"sip", is never NULL. */
const char * m_serverName; /**< Nmae of the registration server. The exact format is protocol
specific but generally contains the host or domain name, e.g.
"GkId@gatekeeper.voxgratia.org" or "sip.voxgratia.org". */
const char * m_error; /**< Error message for registration. If any error in the initial
registration or any subsequent registration update occurs, then
this contains a string indicating the type of error. If no
error occured then this will be NULL. */
OpalRegistrationStates m_status; /**< Status of registration, see enum for details. */
OpalProductDescription m_product; /**< Product description data */
} OpalStatusRegistration;
/**Set up call parameters for several command and indication messages.
When establishing a new call via the OpalCmdSetUpCall command, the m_partyA and
m_partyB fields indicate the parties to connect.
For OpalCmdTransferCall, m_partyA indicates the connection to be transferred and
m_partyB is the party to be transferred to. If the call transfer is successful then
a OpalIndCallCleared message will be received clearing the local call.
For OpalIndAlerting and OpalIndEstablished indications the three fields are set
to the data for the call in progress.
Example:
<code>
OpalMessage command;
OpalMessage * response;
memset(&command, 0, sizeof(command));
command.m_type = OpalCmdSetUpCall;
command.m_param.m_callSetUp.m_partyB = "h323:10.0.1.11";
response = OpalSendMessage(hOPAL, &command);
memset(&command, 0, sizeof(command));
command.m_type = OpalCmdSetUpCall;
command.m_param.m_callSetUp.m_partyA = "pots:LINE1";
command.m_param.m_callSetUp.m_partyB = "sip:10.0.1.11";
response = OpalSendMessage(hOPAL, &command);
callToken = strdup(response->m_param.m_callSetUp.m_callToken);
memset(&command, 0, sizeof(command));
command.m_type = OpalCmdTransferCall;
command.m_param.m_callSetUp.m_callToken = callToken;
command.m_param.m_callSetUp.m_partyB = "sip:10.0.1.12";
response = OpalSendMessage(hOPAL, &command);
</code>
*/
typedef struct OpalParamSetUpCall {
const char * m_partyA; /**< A-Party for call.
For OpalCmdSetUpCall, this indicates what subsystem will
be starting the call, e.g. "pots:Handset One". If NULL
or empty string then "pc:*" is used indication that the
standard PC sound system ans screen is to be used.
For OpalCmdTransferCall this indicates the party to be
transferred, e.g. "sip:fred@nurk.com". If NULL then
it is assumed that the party to be transferred is of the
same "protocol" as the m_partyB field, e.g. "pc" or "sip".
For OpalIndAlerting and OpalIndEstablished this indicates
the A-party of the call in progress. */
const char * m_partyB; /**< B-Party for call. This is typically a remote host URL
address with protocol, e.g. "h323:simple.com" or
"sip:fred@nurk.com".
This must be provided in the OpalCmdSetUpCall and
OpalCmdTransferCall commands, and is set by the system
in the OpalIndAlerting and OpalIndEstablished indications.
If used in the OpalCmdTransferCall command, this may be
a valid call token for another call on hold. The remote
is transferred to the call on hold and both calls are
then cleared. */
const char * m_callToken; /**< Value of call token for new call. The user would pass NULL
for this string in OpalCmdSetUpCall, a new value is
returned by the OpalSendMessage() function. The user would
provide the call token for the call being transferred when
OpalCmdTransferCall is being called. */
const char * m_alertingType;/**< The type of "distinctive ringing" for the call. The string
is protocol dependent, so the caller would need to be aware
of the type of call being made. Some protocols may ignore
the field completely.
For SIP this corresponds to the string contained in the
"Alert-Info" header field of the INVITE. This is typically
a URI for the ring file.
For H.323 this must be a string representation of an
integer from 0 to 7 which will be contained in the
Q.931 SIGNAL (0x34) Information Element.
This is only used in OpalCmdSetUpCall to set the string to
be sent to the remote to change the type of ring the remote
may emit.
For other indications this field is NULL. */
const char * m_protocolCallId; /**< ID assigned by the underlying protocol for the call.
Only available in version 18 and above */
OpalParamProtocol m_overrides; /**< Overrides for the default parameters for the protocol.
For example, m_userName and m_displayName can be
changed on a call by call basis. */
} OpalParamSetUpCall;
/**Incoming call information for the OpalIndIncomingCall indication.
This is only returned from the OpalGetMessage() function.
*/
typedef struct OpalStatusIncomingCall {
const char * m_callToken; ///< Call token for new call.
const char * m_localAddress; ///< URL of local interface. e.g. "sip:me@here.com"
const char * m_remoteAddress; ///< URL of calling party. e.g. "sip:them@there.com"
const char * m_remotePartyNumber; ///< This is the E.164 number of the caller, if available.
const char * m_remoteDisplayName; ///< Display name calling party. e.g. "Fred Nurk"
const char * m_calledAddress; ///< URL of called party the remote is trying to contact.
const char * m_calledPartyNumber; ///< This is the E.164 number of the called party, if available.
OpalProductDescription m_product; /**< Product description data */
const char * m_alertingType;/**< The type of "distinctive ringing" for the call. The string
is protocol dependent, so the caller would need to be aware
of the type of call being made. Some protocols may ignore
the field completely.
For SIP this corresponds to the string contained in the
"Alert-Info" header field of the INVITE. This is typically
a URI for the ring file.
For H.323 this must be a string representation of an
integer from 0 to 7 which will be contained in the
Q.931 SIGNAL (0x34) Information Element. */
const char * m_protocolCallId; /**< ID assigned by the underlying protocol for the call.
Only available in version 18 and above */
const char * m_referredByAddress; ///< This is the full address of the party doing transfer, if available.
const char * m_redirectingNumber; ///< This is the E.164 number of the party doing transfer, if available.
} OpalStatusIncomingCall;
/**Incoming call response parameters for OpalCmdAlerting and OpalCmdAnswerCall messages.
When a new call is detected via the OpalIndIncomingCall indication, the application
should respond with OpalCmdClearCall, which does not use this structure, or
OpalCmdAnswerCall, which does. An optional OpalCmdAlerting may also be sent
which also uses this structure to allow for the override of default call parameters
such as suer name or display name on a call by call basis.
*/
typedef struct OpalParamAnswerCall {
const char * m_callToken; ///< Call token for call to be answered.
OpalParamProtocol m_overrides; /**< Overrides for the default parameters for the protocol.
For example, m_userName and m_displayName can be
changed on a call by call basis. */
} OpalParamAnswerCall;
/**Type code for media stream status/control.
This is used by the OpalIndMediaStream indication and OpalCmdMediaStream command
in the OpalStatusMediaStream structure.
*/
typedef enum OpalMediaStates {
OpalMediaStateNoChange, /**< No change to the media stream state. */
OpalMediaStateOpen, /**< Media stream has been opened when indication,
or is to be opened when a command. */
OpalMediaStateClose, /**< Media stream has been closed when indication,
or is to be closed when a command. */
OpalMediaStatePause, /**< Media stream has been paused when indication,
or is to be paused when a command. */
OpalMediaStateResume /**< Media stream has been paused when indication,
or is to be paused when a command. */
} OpalMediaStates;
/**Media stream information for the OpalIndMediaStream indication and
OpalCmdMediaStream command.
This is may be returned from the OpalGetMessage() function or
provided to the OpalSendMessage() function.
*/
typedef struct OpalStatusMediaStream {
const char * m_callToken; ///< Call token for the call the media stream is.
const char * m_identifier; /**< Unique identifier for the media stream. For OpalCmdMediaStream
this may be left empty and the first stream of the type
indicated by m_mediaType is used. */
const char * m_type; /**< Media type and direction for the stream. This is a keyword such
as "audio" or "video" indicating the type of the stream, a space,
then either "in" or "out" indicating the direction. For
OpalCmdMediaStream this may be left empty if m_identifier is
used. */
const char * m_format; /**< Media format for the stream. For OpalIndMediaStream this
shows the format being used. For OpalCmdMediaStream this
is the format to use. In the latter case, if empty or
NULL, then a default is used. */
OpalMediaStates m_state; /**< For OpalIndMediaStream this indicates the status of the stream.
For OpalCmdMediaStream this indicates the state to move to, see
OpalMediaStates for more information. */
int m_volume; /**< Set the volume for the media stream as a percentage. Note this
is dependent on the stream type and may be ignored. Also, a
percentage of zero does not indicate muting, it indicates no
change in volume. Use -1, to mute. */
} OpalStatusMediaStream;
/** Assign a user data field to a call
*/
typedef struct OpalParamSetUserData {
const char * m_callToken; ///< Call token for the call the media stream is.
void * m_userData; ///< user data value to associate with this call
} OpalParamSetUserData;
/**User input information for the OpalIndUserInput/OpalCmdUserInput indication.
This is may be returned from the OpalGetMessage() function or
provided to the OpalSendMessage() function.
*/
typedef struct OpalStatusUserInput {
const char * m_callToken; ///< Call token for the call the User Input was received on.
const char * m_userInput; ///< User input string, e.g. "#".
unsigned m_duration; /**< Duration in milliseconds for tone. For DTMF style user input
the time the tone was detected may be placed in this field.
Generally zero is passed which means the m_userInput is a
single "string" input. If non-zero then m_userInput must
be a single character. */
} OpalStatusUserInput, OpalParamUserInput;
/**Message Waiting information for the OpalIndMessageWaiting indication.
This is only returned from the OpalGetMessage() function.
*/
typedef struct OpalStatusMessageWaiting {
const char * m_party; ///< Party for which the MWI is directed
const char * m_type; ///< Type for MWI, "Voice", "Fax", "Pager", "Multimedia", "Text", "None"
const char * m_extraInfo; /**< Extra information for the MWI, e.g. "SUBSCRIBED",
"UNSUBSCRIBED", "2/8 (0/2)"
*/
} OpalStatusMessageWaiting;
/**Type code for media stream status/control.
This is used by the OpalIndMediaStream indication and OpalCmdMediaStream command
in the OpalStatusMediaStream structure.
*/
typedef enum OpalLineAppearanceStates {
OpalLineTerminated, /**< Line has ended a call. */
OpalLineTrying, /**< Line has been siezed. */
OpalLineProceeding, /**< Line is trying to make a call. */
OpalLineRinging, /**< Line is ringing. */
OpalLineConnected, /**< Line is connected. */
OpalLineSubcribed, /**< Line appearance subscription successful. */
OpalLineUnsubcribed, /**< Line appearance unsubscription successful. */
OpalLineIdle = OpalLineTerminated // Kept for backward compatibility
} OpalLineAppearanceStates;
/**Line Appearance information for the OpalIndLineAppearance indication.
This is only returned from the OpalGetMessage() function.
*/
typedef struct OpalStatusLineAppearance {
const char * m_line; ///< URI for the line whose state is changing
OpalLineAppearanceStates m_state; ///< State the line has just moved to.
int m_appearance; /**< Appearance code, this is an arbitrary integer
and is defined by the remote servers. If negative
then it is undefined. */
const char * m_callId; /**< If line is "in use" then this gives information
that identifies the call. Note that this will
include the from/to "tags" that can identify
the dialog for REFER/Replace. */
const char * m_partyA; /**< A-Party for call. */
const char * m_partyB; /**< B-Party for call. */
} OpalStatusLineAppearance;
/**Type of mixing for video when recording.
This is used by the OpalCmdStartRecording command in the OpalParamRecording structure.
*/
typedef enum OpalVideoRecordMixMode {
OpalSideBySideLetterbox, /**< Two images side by side with black bars top and bottom.
It is expected that the input frames and output are all
the same aspect ratio, e.g. 4:3. Works well if inputs
are QCIF and output is CIF for example. */
OpalSideBySideScaled, /**< Two images side by side, scaled to fit halves of output
frame. It is expected that the output frame be double
the width of the input data to maintain aspect ratio.
e.g. for CIF inputs, output would be 704x288. */
OpalStackedPillarbox, /**< Two images, one on top of the other with black bars down
the sides. It is expected that the input frames and output
are all the same aspect ratio, e.g. 4:3. Works well if
inputs are QCIF and output is CIF for example. */
OpalStackedScaled, /**< Two images, one on top of the other, scaled to fit halves
of output frame. It is expected that the output frame be
double the height of the input data to maintain aspect
ratio. e.g. for CIF inputs, output would be 352x576. */
} OpalVideoRecordMixMode;
/**Call recording information for the OpalCmdStartRecording command.
*/
typedef struct OpalParamRecording {
const char * m_callToken; ///< Call token for call being recorded.
const char * m_file; /**< File to record into. If NULL then a test is done
for if recording is currently active. */
unsigned m_channels; /**< Number of channels in WAV file, 1 for mono (default) or 2 for
stereo where incoming & outgoing audio are in individual
channels. */
const char * m_audioFormat; /**< Audio recording format. This is generally an OpalMediaFormat
name which will be used in the recording file. The exact
values possible is dependent on many factors including the
specific file type and what codecs are loaded as plug ins. */
const char * m_videoFormat; /**< Video recording format. This is generally an OpalMediaFormat
name which will be used in the recording file. The exact
values possible is dependent on many factors including the
specific file type and what codecs are loaded as plug ins. */
unsigned m_videoWidth; /**< Width of image for recording video. */
unsigned m_videoHeight; /**< Height of image for recording video. */
unsigned m_videoRate; /**< Frame rate for recording video. */
OpalVideoRecordMixMode m_videoMixing; /**< How the two images are saved in video recording. */
} OpalParamRecording;
/**Call transfer information for the OpalIndTransferCall indication.
This is only returned from the OpalGetMessage() function.
*/
typedef struct OpalStatusTransferCall {
const char * m_callToken; ///< Call token for call being transferred.
const char * m_protocolCallId; /**< ID assigned by the underlying protocol for the call.
Only available in version 18 and above */
const char * m_result; /**< Result of transfer operation. This is one of:
"progress" transfer of this call is still in progress.
"success" transfer of this call completed, call will
be cleared.
"failed" transfer initiated by this call did not
complete, call remains active.
"started" remote system has asked local connection
to transfer to another target.
"completed" local connection has completed the transfer
to other target.
"forwarded" remote has forwarded call local system has
initiated to another address.
"incoming" this call is the target of an incoming
transfer, e.g. party C in a consultation
transfer scenario. */
const char * m_info; /**< Protocol dependent information in the form:
key=value\n
key=value\n
etc */
} OpalStatusTransferCall;
/**IVR information for the OpalIndCompletedIVR indication.
This is only returned from the OpalGetMessage() function.
*/
typedef struct OpalStatusIVR {
const char * m_callToken; ///< Call token for call being cleared.
const char * m_variables; /**< Final values for variables defined by the script.
These will be in the form:
varname=value\n
varname=value\n
etc */
} OpalStatusIVR;
/**Call clearance information for the OpalIndCallCleared indication.
This is only returned from the OpalGetMessage() function.
*/
typedef struct OpalStatusCallCleared {
const char * m_callToken; ///< Call token for call being cleared.
const char * m_reason; /**< String representing the reason for the call
completing. This string begins with a numeric
code corresponding to values in the
OpalCallEndReason enum, followed by a colon and
an English description. */
} OpalStatusCallCleared;
/**Type code for media stream status/control.
This is used by the OpalIndMediaStream indication and OpalCmdMediaStream command
in the OpalStatusMediaStream structure.
*/
typedef enum OpalCallEndReason {
OpalCallEndedByLocalUser, /// Local endpoint application cleared call
OpalCallEndedByNoAccept, /// Local endpoint did not accept call OnIncomingCall()=PFalse
OpalCallEndedByAnswerDenied, /// Local endpoint declined to answer call
OpalCallEndedByRemoteUser, /// Remote endpoint application cleared call
OpalCallEndedByRefusal, /// Remote endpoint refused call
OpalCallEndedByNoAnswer, /// Remote endpoint did not answer in required time
OpalCallEndedByCallerAbort, /// Remote endpoint stopped calling
OpalCallEndedByTransportFail, /// Transport error cleared call
OpalCallEndedByConnectFail, /// Transport connection failed to establish call
OpalCallEndedByGatekeeper, /// Gatekeeper has cleared call
OpalCallEndedByNoUser, /// Call failed as could not find user (in GK)
OpalCallEndedByNoBandwidth, /// Call failed as could not get enough bandwidth
OpalCallEndedByCapabilityExchange,/// Could not find common capabilities
OpalCallEndedByCallForwarded, /// Call was forwarded using FACILITY message
OpalCallEndedBySecurityDenial, /// Call failed a security check and was ended
OpalCallEndedByLocalBusy, /// Local endpoint busy
OpalCallEndedByLocalCongestion, /// Local endpoint congested
OpalCallEndedByRemoteBusy, /// Remote endpoint busy
OpalCallEndedByRemoteCongestion, /// Remote endpoint congested
OpalCallEndedByUnreachable, /// Could not reach the remote party
OpalCallEndedByNoEndPoint, /// The remote party is not running an endpoint
OpalCallEndedByHostOffline, /// The remote party host off line
OpalCallEndedByTemporaryFailure, /// The remote failed temporarily app may retry
OpalCallEndedByQ931Cause, /// The remote ended the call with unmapped Q.931 cause code
OpalCallEndedByDurationLimit, /// Call cleared due to an enforced duration limit
OpalCallEndedByInvalidConferenceID, /// Call cleared due to invalid conference ID
OpalCallEndedByNoDialTone, /// Call cleared due to missing dial tone
OpalCallEndedByNoRingBackTone, /// Call cleared due to missing ringback tone
OpalCallEndedByOutOfService, /// Call cleared because the line is out of service,
OpalCallEndedByAcceptingCallWaiting, /// Call cleared because another call is answered
OpalCallEndedWithQ931Code = 0x100 /// Q931 code specified in MS byte
} OpalCallEndReason;
/**Call clearance information for the OpalCmdClearCall command.
*/
typedef struct OpalParamCallCleared {
const char * m_callToken; ///< Call token for call being cleared.
OpalCallEndReason m_reason; /**< Code for the call termination to be provided to the
remote system. */
} OpalParamCallCleared;
/** Message to/from OPAL system.
This is passed via the OpalGetMessage() or OpalSendMessage() functions.
*/
struct OpalMessage {
OpalMessageType m_type; ///< Type of message
union {
const char * m_commandError; ///< Used by OpalIndCommandError
OpalParamGeneral m_general; ///< Used by OpalCmdSetGeneralParameters
OpalParamProtocol m_protocol; ///< Used by OpalCmdSetProtocolParameters
OpalParamRegistration m_registrationInfo; ///< Used by OpalCmdRegistration
OpalStatusRegistration m_registrationStatus; ///< Used by OpalIndRegistration
OpalParamSetUpCall m_callSetUp; ///< Used by OpalCmdSetUpCall/OpalIndProceeding/OpalIndAlerting/OpalIndEstablished
const char * m_callToken; ///< Used by OpalCmdHoldcall/OpalCmdRetrieveCall/OpalCmdStopRecording
OpalStatusIncomingCall m_incomingCall; ///< Used by OpalIndIncomingCall
OpalParamAnswerCall m_answerCall; ///< Used by OpalCmdAnswerCall/OpalCmdAlerting
OpalStatusUserInput m_userInput; ///< Used by OpalIndUserInput/OpalCmdUserInput
OpalStatusMessageWaiting m_messageWaiting; ///< Used by OpalIndMessageWaiting
OpalStatusLineAppearance m_lineAppearance; ///< Used by OpalIndLineAppearance
OpalStatusCallCleared m_callCleared; ///< Used by OpalIndCallCleared
OpalParamCallCleared m_clearCall; ///< Used by OpalCmdClearCall
OpalStatusMediaStream m_mediaStream; ///< Used by OpalIndMediaStream/OpalCmdMediaStream
OpalParamSetUserData m_setUserData; ///< Used by OpalCmdSetUserData
OpalParamRecording m_recording; ///< Used by OpalCmdStartRecording
OpalStatusTransferCall m_transferStatus; ///< Used by OpalIndTransferCall
OpalStatusIVR m_ivrStatus; ///< Used by OpalIndCompletedIVR
} m_param;
};
#ifdef __cplusplus
};
#endif
#if defined(__cplusplus) || defined(DOC_PLUS_PLUS)
/// Wrapper around the OpalMessage structure
class OpalMessagePtr
{
public:
OpalMessagePtr(OpalMessageType type = OpalIndCommandError);
~OpalMessagePtr();
OpalMessageType GetType() const;
void SetType(OpalMessageType type);
const char * GetCallToken() const; ///< Used by OpalCmdHoldCall/OpalCmdRetrieveCall/OpalCmdStopRecording
void SetCallToken(const char * token);
const char * GetCommandError() const; ///< Used by OpalIndCommandError
OpalParamGeneral * GetGeneralParams() const; ///< Used by OpalCmdSetGeneralParameters
OpalParamProtocol * GetProtocolParams() const; ///< Used by OpalCmdSetProtocolParameters
OpalParamRegistration * GetRegistrationInfo() const; ///< Used by OpalCmdRegistration
OpalStatusRegistration * GetRegistrationStatus() const; ///< Used by OpalIndRegistration
OpalParamSetUpCall * GetCallSetUp() const; ///< Used by OpalCmdSetUpCall/OpalIndProceeding/OpalIndAlerting/OpalIndEstablished
OpalStatusIncomingCall * GetIncomingCall() const; ///< Used by OpalIndIncomingCall
OpalParamAnswerCall * GetAnswerCall() const; ///< Used by OpalCmdAnswerCall/OpalCmdAlerting
OpalStatusUserInput * GetUserInput() const; ///< Used by OpalIndUserInput/OpalCmdUserInput
OpalStatusMessageWaiting * GetMessageWaiting() const; ///< Used by OpalIndMessageWaiting
OpalStatusLineAppearance * GetLineAppearance() const; ///< Used by OpalIndLineAppearance
OpalStatusCallCleared * GetCallCleared() const; ///< Used by OpalIndCallCleared
OpalParamCallCleared * GetClearCall() const; ///< Used by OpalCmdClearCall
OpalStatusMediaStream * GetMediaStream() const; ///< Used by OpalIndMediaStream/OpalCmdMediaStream
OpalParamSetUserData * GetSetUserData() const; ///< Used by OpalCmdSetUserData
OpalParamRecording * GetRecording() const; ///< Used by OpalCmdStartRecording
OpalStatusTransferCall * GetTransferStatus() const; ///< Used by OpalIndTransferCall
protected:
OpalMessage * m_message;
private:
OpalMessagePtr(const OpalMessagePtr &) { }
void operator=(const OpalMessagePtr &) { }
friend class OpalContext;
};
#ifdef GetMessage
#undef GetMessage
#endif
#ifdef SendMessage
#undef SendMessage
#endif
/** This class is a wrapper around the "C" API.
It may seem odd to have a C++ wrapper around a "C" API which is itself a
wrapper around a C++ API, but sometimes a C++ programmer may wish to
access the OPAL system via this simplified API instead of the quite
complex one in the base OPAL library.
*/
class OpalContext
{
public:
/// Construct an unintialised OPAL context.
OpalContext();
/// Destroy the OPAL context, calls ShutDown().
virtual ~OpalContext();
/// Calls OpalIntialise() to initialise the OPAL context.
/// Returns version of API supported by library, zero if error.
unsigned Initialise(
const char * options, ///< List of options to pass to OpalIntialise()
unsigned version = OPAL_C_API_VERSION ///< Version expected by application
);
/// Indicate if the OPAL context has been initialised.
bool IsInitialised() const { return m_handle != NULL; }
/// Calls OpalShutDown() to dispose of the OPAL context.
void ShutDown();
/// Calls OpalGetMessage() to get next message from the OPAL context.
bool GetMessage(
OpalMessagePtr & message,
unsigned timeout = 0
);
/// Calls OpalSendMessage() to send a message to the OPAL context.
bool SendMessage(
const OpalMessagePtr & message, ///< Message to send to OPAL.
OpalMessagePtr & response ///< Response from OPAL.
);
/// Execute OpalSendMessage() using OpalCmdSetUpCall
bool SetUpCall(
OpalMessagePtr & response, ///< Response from OPAL context on initiating call.
const char * partyB, ///< Destination address, see OpalCmdSetUpCall.
const char * partyA = NULL, ///< Calling sub-system, see OpalCmdSetUpCall.
const char * alertingType = NULL ///< Alerting type code, see OpalCmdSetUpCall.
);
/// Answer a call using OpalCmdAnswerCall via OpalSendMessage()
bool AnswerCall(
const char * callToken ///< Call token for call being answered.
);
/// Clear a call using OpalCmdClearCall via OpalSendMessage()
bool ClearCall(
const char * callToken, ///< Call token for call being cleared.
OpalCallEndReason reason = OpalCallEndedByLocalUser ///< Code for the call termination, see OpalCmdClearCall.
);
/// Send user input using OpalCmdUserInput via OpalSendMessage()
bool SendUserInput(
const char * callToken, ///< Call token for the call, see OpalCmdUserInput.
const char * userInput, ///< User input string, e.g. "#", see OpalCmdUserInput.
unsigned duration = 0 ///< Duration in milliseconds for tone, see OpalCmdUserInput.
);
protected:
OpalHandle m_handle;
};
#endif
#endif // OPAL_OPAL_H
/////////////////////////////////////////////////////////////////////////////
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