Windows2003-3790/enduser/netmeeting/av/callcont/rtdse.c

332 lines
9.6 KiB
C
Raw Permalink Normal View History

2001-01-01 00:00:00 +01:00
/***********************************************************************
* *
* Filename: rtdse.c *
* Module: H245 Finite State Machine Subsystem *
* *
***********************************************************************
* INTEL Corporation Proprietary Information *
* *
* This listing is supplied under the terms of a license agreement *
* with INTEL Corporation and may not be copied nor disclosed except *
* in accordance with the terms of that agreement. *
* *
* Copyright (c) 1996 Intel Corporation. All rights reserved. *
***********************************************************************
* *
* $Workfile: rtdse.c $
* $Revision: 1.4 $
* $Modtime: Feb 28 1997 13:13:32 $
* $Log: S:/STURGEON/SRC/H245/SRC/VCS/rtdse.c_v $
*
* Rev 1.4 Feb 28 1997 13:14:24 tomitowx
* fixed Roundtripdelay timer problem.
* that occurs when ping peer link is invalid/unvailable
* due to an abnormal application/machine shutdown.
*
* Rev 1.3 09 Dec 1996 13:37:04 EHOWARDX
* Updated copyright notice.
*
* Rev 1.2 04 Jun 1996 13:57:26 EHOWARDX
* Fixed Release build warnings.
*
* Rev 1.1 30 May 1996 23:39:28 EHOWARDX
* Cleanup.
*
* Rev 1.0 09 May 1996 21:06:42 EHOWARDX
* Initial revision.
*
* Rev 1.1 09 May 1996 19:48:24 EHOWARDX
* Change TimerExpiryF function arguements.
*
* Rev 1.0 15 Apr 1996 10:46:40 EHOWARDX
* Initial revision.
* *
***********************************************************************/
#include "precomp.h"
#include "h245api.h"
#include "h245com.h"
#include "h245fsm.h"
#include "rtdse.h"
// Out-going/In-coming RTDSE states
#define RTDSE_IDLE 0 // IDLE
#define RTDSE_WAIT 1 // AWAITING_RESPONSE
extern unsigned int uT105;
/***********************************************************************
*
* LOCAL FUNCTIONS
*
***********************************************************************/
/*
* NAME
* T105ExpiryF - Callback function called by the timer
*
*
* PARAMETERS
* INPUT dwInst current instance of H.245
* INPUT id timer id
* INPUT pObject pointer to a State Entity
*
*
* RETURN VALUE
* OK
*/
int T105ExpiryF(struct InstanceStruct *pInstance, DWORD_PTR dwTimerId, void *pObject)
{
return FsmTimerEvent(pInstance, dwTimerId, pObject, T105Expiry);
} // T105ExpiryF()
static void BuildRoundTripDelayResponse(PDU_t *pOut, BYTE bySequenceNumber)
{
pOut->choice = MSCMg_rspns_chosen;
pOut->u.MSCMg_rspns.choice = roundTripDelayResponse_chosen;
pOut->u.MSCMg_rspns.u.roundTripDelayResponse.sequenceNumber = bySequenceNumber;
} // BuildRoundTripDelayResponse()
/***********************************************************************
*
* FINITE STATE MACHINE FUNCTIONS
*
***********************************************************************/
/*
* NAME
* RTDSE0_TRANSFER_requestF - TRANSFER.request from API in IDLE state
*
*
* PARAMETERS
* INPUT pObject pointer to State Entity
* INPUT pPdu pointer to PDU
*
* RETURN VALUE
* Error return codes defined in h245com.h
*/
HRESULT RTDSE0_TRANSFER_requestF (Object_t *pObject, PDU_t *pPdu)
{
HRESULT lError;
ASSERT(pObject->Entity == RTDSE);
ASSERT(pObject->State == RTDSE_IDLE);
H245TRACE(pObject->dwInst, 2, "RTDSE0_TRANSFER_request:%d", pObject->Key);
pObject->pInstance->StateMachine.byRtdseSequence++;
pPdu->u.MltmdSystmCntrlMssg_rqst.u.roundTripDelayRequest.sequenceNumber =
pObject->pInstance->StateMachine.byRtdseSequence;
// Send RoundTripDelayRequest PDU to remote peer
lError = sendPDU(pObject->pInstance, pPdu);
//tomitowoju@intel.com
if(lError == H245_ERROR_OK)
{
// Set timer T105
pObject->State = RTDSE_WAIT;
FsmStartTimer(pObject, T105ExpiryF, uT105);
}
//tomitowoju@intel.com
// Set timer T105
// pObject->State = RTDSE_WAIT;
// FsmStartTimer(pObject, T105ExpiryF, uT105);
//tomitowoju@intel.com
return lError;
} // RTDSE0_TRANSFER_request
/*
* NAME
* RTDSE0_RoundTripDelayRequestF - RoundTripDelayRequest received in IDLE state
*
*
* PARAMETERS
* INPUT pObject pointer to State Entity
* INPUT pPdu pointer to PDU
*
* RETURN VALUE
* Error return codes defined in h245com.h
*/
HRESULT RTDSE0_RoundTripDelayRequestF (Object_t *pObject, PDU_t *pPdu)
{
PDU_t * pOut;
HRESULT lError;
ASSERT(pObject->Entity == RTDSE);
ASSERT(pObject->State == RTDSE_IDLE);
H245TRACE(pObject->dwInst, 2, "RTDSE0_RoundTripDelayRequest:%d", pObject->Key);
// Send RoundTripDelayResponse to remote peer
pOut = MemAlloc(sizeof(*pOut));
if (pOut == NULL)
{
H245TRACE(pObject->dwInst, 2,
"RTDSE0_RoundTripDelayRequestF: memory allocation failed");
return H245_ERROR_NOMEM;
}
BuildRoundTripDelayResponse(pOut, (BYTE)pPdu->u.MltmdSystmCntrlMssg_rqst.u.roundTripDelayRequest.sequenceNumber);
lError = sendPDU(pObject->pInstance, pOut);
MemFree(pOut);
return lError;
} // RTDSE0_RoundTripDelayRequest
/*
* NAME
* RTDSE1_TRANSFER_requestF - TRANSFER.request from API in AWAITING RESPONSE state
*
*
* PARAMETERS
* INPUT pObject pointer to State Entity
* INPUT pPdu pointer to PDU
*
* RETURN VALUE
* Error return codes defined in h245com.h
*/
HRESULT RTDSE1_TRANSFER_requestF (Object_t *pObject, PDU_t *pPdu)
{
HRESULT lError;
ASSERT(pObject->Entity == RTDSE);
ASSERT(pObject->State == RTDSE_WAIT);
H245TRACE(pObject->dwInst, 2, "RTDSE1_TRANSFER_request:%d", pObject->Key);
// Reset timer T105
FsmStopTimer(pObject);
pObject->pInstance->StateMachine.byRtdseSequence++;
pPdu->u.MltmdSystmCntrlMssg_rqst.u.roundTripDelayRequest.sequenceNumber =
pObject->pInstance->StateMachine.byRtdseSequence;
// Send RoundTripDelayRequest PDU to remote
lError = sendPDU(pObject->pInstance, pPdu);
// Set timer T105
FsmStartTimer(pObject, T105ExpiryF, uT105);
return lError;
} // RTDSE1_TRANSFER_request
/*
* NAME
* RTDSE1_RoundTripDelayRequestF - RoundTripDelayRequest received in AWAITING RESPONSE state
*
*
* PARAMETERS
* INPUT pObject pointer to State Entity
* INPUT pPdu pointer to PDU
*
* RETURN VALUE
* Error return codes defined in h245com.h
*/
HRESULT RTDSE1_RoundTripDelayRequestF (Object_t *pObject, PDU_t *pPdu)
{
PDU_t * pOut;
HRESULT lError;
ASSERT(pObject->Entity == RTDSE);
ASSERT(pObject->State == RTDSE_WAIT);
H245TRACE(pObject->dwInst, 2, "RTDSE1_RoundTripDelayRequest:%d", pObject->Key);
// Send RoundTripDelayResponse to remote peer
pOut = MemAlloc(sizeof(*pOut));
if (pOut == NULL)
{
H245TRACE(pObject->dwInst, 2,
"RTDSE1_RoundTripDelayRequestF: memory allocation failed");
return H245_ERROR_NOMEM;
}
BuildRoundTripDelayResponse(pOut, (BYTE)pPdu->u.MltmdSystmCntrlMssg_rqst.u.roundTripDelayRequest.sequenceNumber);
lError = sendPDU(pObject->pInstance, pOut);
MemFree(pOut);
return lError;
} // RTDSE1_RoundTripDelayRequest
/*
* NAME
* RTDSE1_RoundTripDelayResponseF - RoundTripDelayResponse in AWAITING RESPONSE state
*
*
* PARAMETERS
* INPUT pObject pointer to State Entity
* INPUT pPdu pointer to PDU
*
* RETURN VALUE
* Error return codes defined in h245com.h
*/
HRESULT RTDSE1_RoundTripDelayResponseF (Object_t *pObject, PDU_t *pPdu)
{
ASSERT(pObject->Entity == RTDSE);
ASSERT(pObject->State == RTDSE_WAIT);
H245TRACE(pObject->dwInst, 2, "RTDSE1_RoundTripDelayResponse:%d", pObject->Key);
if (pPdu->u.MSCMg_rspns.u.roundTripDelayResponse.sequenceNumber ==
pObject->pInstance->StateMachine.byRtdseSequence)
{
// Reset timer T105
FsmStopTimer(pObject);
// Send TRANSFER.confirm to H.245 user
pObject->State = RTDSE_IDLE;
H245FsmConfirm(pPdu, H245_CONF_RTDSE, pObject->pInstance, pObject->dwTransId, FSM_OK);
}
return 0;
} // RTDSE1_RoundTripDelayResponse
/*
* NAME
* RTDSE1_T105ExpiryF - timer T105 Expiry in AWAITING RESPONSE state
*
*
* PARAMETERS
* INPUT pObject pointer to State Entity
* INPUT pPdu pointer to PDU
*
* RETURN VALUE
* Error return codes defined in h245com.h
*/
HRESULT RTDSE1_T105ExpiryF (Object_t *pObject, PDU_t *pPdu)
{
ASSERT(pObject->Entity == RTDSE);
ASSERT(pObject->State == RTDSE_WAIT);
ASSERT(pPdu == NULL);
H245TRACE(pObject->dwInst, 2, "RTDSE1_T105Expiry:%d", pObject->Key);
// Send EXPIRY.notification to client
pObject->State = RTDSE_IDLE;
H245FsmConfirm(NULL, H245_CONF_RTDSE_EXPIRED, pObject->pInstance, pObject->dwTransId, FSM_OK);
return 0;
} // RTDSE1_T105Expiry