view src/aci2/mfw/mfw_cm.c @ 356:984df0753560

gsmcomp.c: voice-only config partition pool sizing fixes from Citrine
author Mychaela Falconia <falcon@freecalypso.org>
date Mon, 25 Dec 2017 02:14:55 +0000
parents 93999a60b835
children
line wrap: on
line source

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	$Workfile:: mfw_cm.c	    $|
| $Author:: Ak				$Revision::  1		    $|
| CREATED: 3.11.98		       $Modtime:: 10.04.00 14:58    $|
| STATE  : code 						     |
+--------------------------------------------------------------------+

   MODULE  : MFW_CM

   PURPOSE : This modul contains call management functions.

   HISTORY:

    Mar 28, 2006    REF:DR OMAPS00072407  x0039928
    Description:   Phone hangs when tried to make an outgoing call
    Solution: Reverting back the changes of issue OMAPS00048894 to stop from stack overflow.

    Feb 27, 2006    REF:DR OMAPS00067884  x0039928
    Description:   Held call released at locosto phone does not release the call at other end
    Solution: if the mode is greater than CHLD_MOD_RelDialCall then sAT_PercentCHLD() is called 
    instead of sAT_PlusCHLD()

    Jan 27, 2006    REF:DR OMAPS00048894  x0039928
    Description:   Outgoing Call: The called number is not displayed while an outgoing call is made
    Solution: The called number is extracted from the parameter of callCmEvent() for event E_CM_MO_RES and is displayed.
	
   Sep 12, 2005   REF: MMI-SMR-34085 x0021334
   Description: RE: Add +CDIP command - MMI Additions
   Solution: Dummy implementation of function "rAT_PlusCDIP()" is done to enable successful compilation.
	Nov 02, 2005    DR OMAPS00052132   xdeepadh
	Bug:Not able to access the SMS inbox and also not able to send SMS in Locosto Lite build
	Fix: The ATI Enums usage has been put under the FF_ATI flag.

   Aug 10, 2005   REF: MMI-SPR-30099 x0018858
   Description: During a held communication, if the user presses 4 and send then there is no response from network.
   Solution: Modified the return value and also added a case statement to handle the response received.

   	Apr 07 2005		REF: CRR 29989	xpradipg
	Description:	Optimisation 3: replace the static global data with dynamic
					allocation / deallocation
	Solution:		The static global variables are dynamically allocated and
					deallocated

   Apr 03, 2005 REF: CRR 29988 - xpradipg
   Description: Optimisation 2: Reduce the keyboard buffer and the dtmf buffer
   size
   Solution : The dtmf buffer is reduced to 20 from 50

	Apr 14, 2005	REF: CRR 29991   xpradipg
	Description:	Optimisation 5: Remove the static allocation and use dynamic 
					allocation/ deallocation for pb_list and black_list
	Solution:	The static definition is removed and replaced with the dynamic
					allocation

   Feb 03, 200   REF: CRR 25960   x0012850
   Description: Call Hold: While one call in Active and other in Held by swapping either of phone is not audible
   Solution: swapping action results in one of the calls getting muted. We attach user connection again.
	
   Aug 23, 2004 REF: CRR 22222  xkundadu
   Bug:  Runaway Call Waiting Tone.
		 Call Waiting tone doesnot stop after ansering waiting call.

   Fix: Handle the AT-Command source id CMD_SRC_ATI_2 also for call control 
    	callback functions.

   Jun 05, 2004	REF: CRR 18262  NISHIKANT KULKARNI 
   Description: The sample sends a STOP DTMF message without release of the key by the user
   Solution: Instead of sending DTMF commands in "VTS_MOD_Auto" mode, on key press DTMF tone is started
  		   using VTS_MOD_ManStart and on key release DTMF tone is stopped using VTS_MOD_ManStop mode.

	//  Apr 26, 2004 REF: CRR 16545 Ajith K P and Side effect of CRR 16545.
	//  Issue description: When the user enters 11SEND and if the first call is 
	//  HELD call,the held call disconnects. This should not happen.
	//  Problem was, though sAT_PlusCHLD(..) is expected to disconnect an ACTIVE
	//  call only, it was disconnecting HELD call rather than returning AT_FAIL.
	//  If sAT_PlusCHLD() Fails, Send the user entered string as USSD to network using sAT-Dn().
	//  So now if the user wants to release a HELD call, in cm_disconect() we are calling the 
	//  sAT_PlusCHLD(..) function with C

*/

#define ENTITY_MFW
 
#include <string.h>
#include <stdio.h>
#include <stdlib.h>

#if defined (NEW_FRAME)

#include "typedefs.h"
#include "vsi.h"
#include "pei.h"
#include "custom.h"
#include "gsm.h"

#else

#include "STDDEFS.H"
#include "custom.h"
#include "gsm.h"
#include "vsi.h"

#endif


#include "mfw_mfw.h"
#include "mfw_phb.h"
#include "mfw_phbi.h"
#include "mfw_cm.h"
#include "mfw_cmi.h"
#include "mfw_nm.h"
#include "mfw_sim.h"
#include "mfw_sima.h"
#include "mfw_nmi.h"
#include "mfw_simi.h"
#include "mfw_win.h"

#include "mfw_tim.h"
#include "mfw_utils.h"

#include "ksd.h"
#include "psa.h"

#if defined (FAX_AND_DATA)
#include "aci_fd.h"
#endif

#include "cmh.h"
#include "phb.h"
#include "cmh_phb.h"

#include "mfw_ss.h"
#include "mfw_ssi.h"
#include "mfw_win.h"
#include "mfw_ffs.h"

#include "prim.h"
#ifndef PCM_2_FFS
#include "pcm.h"
#endif


/*
 * Conditional compilation flag for CCBS testing.
 * When defined, the cm_ccbs_... functions do not call ACI functions but
 * simply set the return value variable to indicate success. Also the body
 * of the rAT_PercentMMITEST function is defined for parsing AT%MMITEST
 * commands and calling ACI/MFW functions as if CCBS events had occured.
 */
// #define CCBS_TEST

/********* current define *******************************************/
//	Apr 14, 2005	REF: CRR 29991   xpradipg
//	remove the static definition
#ifndef FF_MMI_OPTIM
static	 T_MFW_CM_BLACKLIST_LIST    black_list;
#endif

//  Apr 06 2005		REF: CRR 29989	xpradipg
//	The definition of global is removed since it is locally used
#ifndef FF_MMI_OPTIM
static	 T_ACI_CAL_ENTR 	    call_tab[MAX_CALL_NR];
#endif
static	 T_MFW_PHB_LIST 	    entries;
static	 T_MFW_CM_CC_STAT	    cc_stat;	   /* current outgoing call status	    */
static	 T_MFW_CM_COMMAND	    cmd;
static	 T_MFW_CM_NOTIFY	    notify;

static	 UBYTE			    call_type;	   /* indicate an ECC call or normal call   */
static	 UBYTE			    call_stat;	   /* indicate an MO call or MT call	    */
static	 SHORT			    cc_id;	   /* current call index		    */
static	 UBYTE			    redial_stat;
static	 UBYTE			    redial_count;
static	 UBYTE			    cmd_hold;

static	 T_MFW_CM_CW_INFO	    in_call;
static	 T_MFW_CM_MO_INFO	    out_call;
static	 T_MFW_CM_DISCONNECT	    dis_connect;
static	 T_MFW_CM_REDIAL	    rdl;
static	 T_MFW_CM_CPI		    cm_cpi;
/* Marcus: CCBS: 14/11/2002: Start */
static	 T_MFW_CM_CCBS_INFO	    ccbs_info;              // E_CM_CCBS data
static   T_MFW_CM_CCBS_OP       ccbs_op = CM_CCBS_NONE; // Current CCBS operation
/* Marcus: CCBS: 14/11/2002: End */

static	 T_CM_CLI		    cli_prefix;
/*CONQUEST 5998-MC 30/04/02 -initialised timers to zero (prevents corruption) */
static	 MfwHnd 		    redialTim1= NULL;	/* the 1th redialing			 */
static	 MfwHnd 		    redialTim24 = NULL;  /* the 2th to 4st redialing		  */
static	 MfwHnd 		    redialTim5 = NULL;	 /* the 5th or over redialing		  */

static int cmCommand (U32 cmd, void *h); /* handle window commands  */
static int cm_redial_timeout(MfwEvt e, MfwTim *t);
static char currAccepting = 0; /* ES!! 210999 */
static char currConnecting = 0; /* ES!! 290999 */
static T_ACI_AT_CMD currCmd;

void cm_force_disconnect(void); // RAVI

//APR 03 2005 - REF CRR: 29988  xpradipg
//The DTMF buffer is reduced from 50 to 20
#ifdef FF_MMI_REDUCED_KBD_BUFFER
#define MAX_DTMF_Q_ENTRIES 20
#else
#define MAX_DTMF_Q_ENTRIES 50
#endif
#define CPI_CAUSE_MASK 0xFF    /* cq11676 cause mask 17-02-04 MZ */
static UBYTE dtmf_q[MAX_DTMF_Q_ENTRIES];
static SHORT mfw_cm_dtmf_q_id;
//xnkulkar 18262 This BOOL variable is used to determine whether we have received an 
//acknowledegment for command sAT_PlusVTS() to start/stop the previous DTMF tone.
static BOOL expectRatOk = FALSE; 

// MMI-SPR 13873 xkundadu.
// Added this boolean variable to check whether a particular call is in 
// multiparty or not
BOOL bIsMultpty = FALSE;

EXTERN MfwHdr * current_mfw_elem;

LOCAL T_MFW_CM_CALL_STAT cm_cvt_call_status( T_ACI_CAL_STAT stat );


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_init	     |
+--------------------------------------------------------------------+


   PURPOSE :   initialize for call management

*/

void cm_init(void)
{
//	Apr 14, 2005	REF: CRR 29991   xpradipg
//	local variable definition
#ifdef FF_MMI_OPTIM
	T_MFW_CM_BLACKLIST_LIST black_list;
	int8 file;
#endif	
  TRACE_FUNCTION ("cm_init()");
  memset(&black_list, 0, sizeof(T_MFW_CM_BLACKLIST_LIST));
//	Apr 14, 2005	REF: CRR 29991   xpradipg  
//	Since the blacklist is not persistent across powercycles we reset the file
//	contents
#ifdef FF_MMI_OPTIM
	if(	flash_MMI_blackList_write((U8 *)&black_list, sizeof(T_MFW_CM_BLACKLIST_LIST),0) < 0)
		TRACE_EVENT("Error opening the black list file");
#endif  

    currAccepting = 0; /* ES!! 210999 */
    currConnecting = 0; /* ES!! 290999 */

  call_type    = MFW_CALL_FREE;
  call_stat    = MFW_CALL_FREE;
  cc_stat.type = MFW_CALL_FREE;
  cc_id        = 0;

  cmd_hold = 0;
  currCmd = AT_CMD_NONE;

// get prefix from EEPROM
  cli_prefix = 0;

  /* create time event for redialing */
  redialTim1  = timCreate (0, MIN_DURATION_1, (MfwCb)cm_redial_timeout);
  redialTim24 = timCreate (0, MIN_DURATION_2_4, (MfwCb)cm_redial_timeout);
  redialTim5  = timCreate (0, MIN_DURATION_5, (MfwCb)cm_redial_timeout);

	redial_stat = (UBYTE)FFS_flashData.redial_mode;

  mfwCommand[MfwTypCm] = (MfwCb) cmCommand;

/*
** Create a static circular buffer to hold the dtmf tones
*/
  mfw_cm_dtmf_q_id = mfw_cbuf_create(	MAX_DTMF_Q_ENTRIES,
  										sizeof(UBYTE),
  				   						0,
  				   						0xFF,
  										TRUE,
  										(void *)&dtmf_q[0]);

  if (mfw_cm_dtmf_q_id < 0)
  	TRACE_EVENT_P1("ERROR : mfw_cbuf_create failed with error value %d", mfw_cm_dtmf_q_id);
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_exit	     |
+--------------------------------------------------------------------+


   PURPOSE :

*/

void cm_exit(void)
{
  TRACE_FUNCTION ("cm_exit()");

  /* delete time event for redialing */
  timDelete (redialTim5);
  timDelete (redialTim24);
  timDelete (redialTim1);
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_create	     |
+--------------------------------------------------------------------+


   PURPOSE :  create event for call management

*/

T_MFW_HND cm_create(T_MFW_HND hWin, T_MFW_EVENT event, T_MFW_CB cbfunc)
{
  T_MFW_HDR *hdr;
  T_MFW_CM  *cm_para;

  TRACE_FUNCTION ("cm_create()");

  hdr	   = (T_MFW_HDR *) mfwAlloc(sizeof (T_MFW_HDR));
  cm_para  = (T_MFW_CM *) mfwAlloc(sizeof (T_MFW_CM));

  if (!hdr OR !cm_para)
    return FALSE;

  /*
   * initialisation of the handler
   */
  cm_para->emask   = event;
  cm_para->handler = cbfunc;

  hdr->data = cm_para;				 /* store parameter in node	*/
  hdr->type = MFW_TYP_CM;		    /* store type of event handler */

  /*
   * installation of the handler
   */
  return mfwInsert((T_MFW_HDR *)hWin, hdr);
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_delete	     |
+--------------------------------------------------------------------+


   PURPOSE :   delete a event for call management

*/

T_MFW_RES cm_delete(T_MFW_HND h)
{
  TRACE_FUNCTION ("cm_delete()");

  if (!h OR !((T_MFW_HDR *)h)->data)
    return MFW_RES_ILL_HND;

  if (!mfwRemove((T_MFW_HDR *)h))
    return MFW_RES_ILL_HND;

  mfwFree((U8 *)(((T_MFW_HDR *) h)->data),sizeof(T_MFW_CM));
  mfwFree((U8 *)h,sizeof(T_MFW_HDR));

  return MFW_RES_OK;
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_signal	     |
+--------------------------------------------------------------------+

   PURPOSE : send a event signal.

*/

void cm_signal(T_MFW_EVENT event, void * para)
{
	UBYTE temp;



  temp = dspl_Enable(0);


if (mfwSignallingMethod EQ 0)
  {
  /*
   * focus is on a window
   */
  if (mfwFocus)
    /*
     * send event to sim management
     * handler if available
     */
    if (cm_sign_exec (mfwFocus, event, para))
		{
			dspl_Enable(temp);
			return;
		}

  /*
   * acutal focussed window is not available
   * or has no network management registration
   * handler, then search all nodes from the root.
   */
   if (mfwRoot)
     cm_sign_exec (mfwRoot, event, para);
	}
   else
	 {
	   MfwHdr * h = 0;

	   /*
		* Focus set, then start here
		*/
	   if (mfwFocus)
		 h = mfwFocus;
	   /*
		* Focus not set, then start root
		*/
	   if (!h)
		 h = mfwRoot;

	   /*
		* No elements available, return
		*/

	   while (h)


	   {
		 /*
		  * Signal consumed, then return
		  */
		 if (cm_sign_exec (h, event, para))
		{
			dspl_Enable(temp);
			return;
		}

		 /*
		  * All windows tried inclusive root
		  */
		 if (h == mfwRoot)
		{
			dspl_Enable(temp);
			return;
		}

		 /*
		  * get parent window
		  */
		 h = mfwParent(mfwParent(h));
		if(h)
			h = ((MfwWin * )(h->data))->elems;
	   }
	   cm_sign_exec (mfwRoot, event, para);
	}
	dspl_Enable(temp);
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_sign_exec	     |
+--------------------------------------------------------------------+


   PURPOSE : Send a signal if CM management handler.

*/

BOOL cm_sign_exec (T_MFW_HDR * cur_elem, T_MFW_EVENT event, T_MFW_CM_PARA * para)
{
  TRACE_FUNCTION ("cm_sign_exec()");

  while (cur_elem)
  {
    /*
     * event handler is available
     */
    if (cur_elem->type EQ MFW_TYP_CM)
    {
      T_MFW_CM * cm_data;
      /*
       * handler is CM management handler
       */
      cm_data = (T_MFW_CM *)cur_elem->data;
      if (cm_data->emask & event)
      {
	/*
	 * event is expected by the call back function
	 */
	cm_data->event = event;
	switch (event)
	{
	  case E_CM_COLP:
	    memcpy (&cm_data->para.mo_data, para, sizeof (T_MFW_CM_MO_INFO));
	    break;

	  case E_CM_DISCONNECT:
	    memcpy (&cm_data->para.disconnect, para, sizeof (T_MFW_CM_DISCONNECT));
	    break;
	  case E_CM_DISCONNECT_ALL:
	    memcpy (&cm_data->para.disconnect_all, para, sizeof (T_MFW_CM_DISCONNECT_ALL));
	    break;

	  case E_CM_CW:
	    memcpy (&cm_data->para.cw_info, para, sizeof (T_MFW_CM_CW_INFO));
	    break;

	  case E_CM_COMMAND:
	    memcpy (&cm_data->para.command, para, sizeof (T_MFW_CM_COMMAND));
	    break;

	  case E_CM_AOC:
	    memcpy (&cm_data->para.aoc_info, para, sizeof (T_MFW_CM_AOC_INFO));
	    break;

	  case E_CM_REDIAL:
	    memcpy (&cm_data->para.rdl, para, sizeof (T_MFW_CM_REDIAL));
	    break;

	  case E_CM_CONNECT_ACK:
	    memcpy (&cm_data->para.call_id, para, sizeof (SHORT));
	    break;

	  case E_CM_MO_RES:
	    memcpy (&cm_data->para.call_id, para, sizeof (SHORT));
	    break;

	  case E_CM_CPI:
	    memcpy (&cm_data->para.cm_cpi, para, sizeof (T_MFW_CM_CPI));
	    break;

	  case E_CM_RING_OFF:
	    break;

	  case E_CM_AOC_CNF:
	    memcpy (&cm_data->para.aoc_cnf, para, sizeof (T_MFW_CM_AOC_CNF));
	    break;

	  case E_CM_DTMF:
	    memcpy (&cm_data->para.dtmf_tone, para, sizeof (UBYTE));
	    break;

	  case E_CM_NOTIFY:
	    memcpy (&cm_data->para.notify, para, sizeof (T_MFW_CM_NOTIFY));
	    break;
	  /*MC SPR 1392*/
	  case E_CM_CALL_DEFLECT_STATUS:
	  	 memcpy (&cm_data->para.call_deflect_status, para, sizeof (BOOL));
	  break;
      /* Marcus: CCBS: 14/11/2002: Start */
	  case E_CM_CCBS:
	    TRACE_EVENT("E_CM_CCBS");
	    memcpy (&cm_data->para.ccbs, para, sizeof (T_MFW_CM_CCBS_INFO));
	    break;
      /* Marcus: CCBS: 14/11/2002: End */

	   case E_CM_CTYI:
	  	memcpy (&cm_data->para.ctyi, para, sizeof (T_MFW_CM_CTYI));
	  	break;

	}

	/*
	 * if call back defined, call it
	 */
	if (cm_data->handler)
	{
	  // PATCH LE 06.06.00
	  // store current mfw elem
	  current_mfw_elem = cur_elem;
	  // END PATCH LE 06.06.00
	  if ((*(cm_data->handler)) (cm_data->event, (void *)&cm_data->para))
	    return TRUE;
	}
      }
    }
    cur_elem = cur_elem->next;
  }
  return FALSE;
}


/*
+--------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	     |
| STATE   : code			 ROUTINE : cm_callTyp_cvt    |
+--------------------------------------------------------------------+


   PURPOSE : This function is used to convert the type of call class
	     used by MFW to the type of call class used by ACI.

*/

LOCAL T_MFW_CM_CALL_TYPE cm_callTyp_cvt(T_ACI_CLASS cls)
{
    switch ( cls )
    {
	case ( CLASS_Vce ) :	  return VOICE_CALL;
	case ( CLASS_AuxVce):	  return AuxVOICE_CALL;
	case ( CLASS_Dat ) :	  return DATA_CALL;
	case ( CLASS_Fax ) :	  return FAX_CALL;
	case ( CLASS_VceDat ) :
	case ( CLASS_VceFax ) :
	case ( CLASS_DatFax ) :
	case ( CLASS_VceDatFax ): return (T_MFW_CM_CALL_TYPE)cls;
	case ( CLASS_None )	: return NONE_TYPE;
	case (CLASS_NotPresent):	return NONE_TYPE;

	default:		  return NONE_TYPE;
    }
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_search_callId    |
+--------------------------------------------------------------------+


   PURPOSE : find call index from call table

*/

int cm_search_callId(T_ACI_CAL_STAT type, SHORT *id)
{
    int i;
//  Apr 06 2005		REF: CRR 29989	xpradipg    
//	Local definition and allocation
#ifdef FF_MMI_OPTIM
	T_ACI_CAL_ENTR 	    *call_tab;
	*id = 0;
	call_tab = (T_ACI_CAL_ENTR*)mfwAlloc(sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
	if(NULL == call_tab)
		return CM_ERROR;
#else
	*id = 0;
#endif	
    TRACE_FUNCTION("cm_search_callId()");
    

    if (qAT_PercentCAL(CMD_SRC_LCL, call_tab) != AT_CMPL)
	{
//   	Apr 06 2005		REF: CRR 29989	xpradipg
//		deallocation of memory allocated
#ifdef FF_MMI_OPTIM
	    if(call_tab)
	    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
#endif
		return CM_ERROR;
	}		

    for (i=0; i<MAX_CALL_NR; i++)
    {
	if (call_tab[i].index == -1)
	    break;

	if (call_tab[i].status == type)
	{
	    *id = call_tab[i].index;
//   	Apr 06 2005		REF: CRR 29989	xpradipg
//		deallocation of memory
#ifdef FF_MMI_OPTIM
	    if(call_tab)
	    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
#endif	    
	     return CM_OK;
	}

    }
//   	Apr 06 2005		REF: CRR 29989	xpradipg
//		deallocation of memory
#ifdef FF_MMI_OPTIM
	    if(call_tab)
	    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
#endif    
    return CM_ERROR;
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_search_callMode  |
+--------------------------------------------------------------------+


   PURPOSE : find call type from call table

*/

T_ACI_CAL_MODE cm_search_callMode(SHORT id)
{
    int i;
//  Apr 06 2005		REF: CRR 29989	xpradipg
//	allocation of memory, if the memory allocation fails then we return the 
//	error value same as when the qAT_PercentCAL() fails
#ifdef FF_MMI_OPTIM
	T_ACI_CAL_ENTR 	    *call_tab;//[MAX_CALL_NR];
	T_ACI_CAL_MODE		calMode;
	call_tab = (T_ACI_CAL_ENTR*)mfwAlloc(sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
	if(NULL == call_tab)
		return CAL_MODE_Unknown;
#endif	

    TRACE_FUNCTION("cm_search_callMode()");

    if (qAT_PercentCAL(CMD_SRC_LCL, call_tab) != AT_CMPL)
	{
//   	Apr 06 2005		REF: CRR 29989	xpradipg	
//		deallocate memory
#ifdef FF_MMI_OPTIM
	    if(call_tab)
	    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
#endif	
		return CAL_MODE_Unknown;
	}
    for (i=0; i<MAX_CALL_NR; i++)
    {
	if (call_tab[i].index == -1)
	    break;

		if (call_tab[i].index == id)
		{	
//   	Apr 06 2005		REF: CRR 29989	xpradipg
//		deallocate memory
#ifdef FF_MMI_OPTIM
			calMode = call_tab[i].calMode;
		    if(call_tab)
		        mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
		    return calMode;
#else		
		    return call_tab[i].calMode;
#endif		    
		}	    
    }
// 	Apr 06 2005		REF: CRR 29989	xpradipg    
//	deallocate memory
#ifdef FF_MMI_OPTIM
	    if(call_tab)
	    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
#endif
    return CAL_MODE_Unknown;
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_search_mptyId    |


   PURPOSE : find multiparty call index from call table

*/

int cm_search_mptyId(T_ACI_CAL_MPTY type, SHORT *id)
{
    int i;
// 	Apr 06 2005		REF: CRR 29989	xpradipg    
//	allocate memory
#ifdef FF_MMI_OPTIM
	T_ACI_CAL_ENTR 	    *call_tab;//[MAX_CALL_NR];
	call_tab = (T_ACI_CAL_ENTR*)mfwAlloc(sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
	if( NULL == call_tab)
		return CM_ERROR;
#endif	

    TRACE_FUNCTION("cm_search_mptyId()");
    *id = 0;

    if (qAT_PercentCAL(CMD_SRC_LCL, call_tab) != AT_CMPL)
	{
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
//	deallocate memory
#ifdef FF_MMI_OPTIM
	    if(call_tab)
	    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
#endif
		return CM_ERROR;
	}
    for (i=0; i<MAX_CALL_NR; i++)
    {
	if (call_tab[i].index == -1)
	    break;

	if (call_tab[i].mpty == type)
	{
	    *id = call_tab[i].index;
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
//	deallocate memory
#ifdef FF_MMI_OPTIM
	    if(call_tab)
	    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
#endif	    
	    return CM_OK;
	}
    }
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
//	deallocate memory
#ifdef FF_MMI_OPTIM
	    if(call_tab)
	    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
#endif    
    return CM_ERROR;
}


/*
+-------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		    |
| STATE  : code 			ROUTINE: cm_search_numId    |
+-------------------------------------------------------------------+


   PURPOSE : find call index from call table

*/

LOCAL SHORT cm_search_numId(UBYTE *number)
{
	int i;
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
//	allocate memory
#ifdef FF_MMI_OPTIM
	SHORT	index;
	T_ACI_CAL_ENTR 	    *call_tab;//[MAX_CALL_NR];
	call_tab = (T_ACI_CAL_ENTR*)mfwAlloc(sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
	if(NULL == call_tab)
		return 0;
#endif	

    TRACE_FUNCTION("cm_search_numId()");

    if (qAT_PercentCAL(CMD_SRC_LCL, call_tab) != AT_CMPL)
	{
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
//	deallocate memory
#ifdef FF_MMI_OPTIM
	    if(call_tab)
	    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
#endif	
		return 0;
	}		

    for (i=0; i<MAX_CALL_NR; i++)
    {
		if (call_tab[i].index == -1)
		    break;

		if (!strcmp(call_tab[i].number, (char *)number))
		{
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
//	deallocate memory
#ifdef FF_MMI_OPTIM
			index = call_tab[i].index;
		    if(call_tab)
		    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
		    return index;
#else	
		    return call_tab[i].index;
#endif		    
		}	    
    }
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
//	deallocate memory
#ifdef FF_MMI_OPTIM
	    if(call_tab)
	    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
#endif    
    return 0;
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_search_callStat  |
+--------------------------------------------------------------------+


   PURPOSE :  Search the information from call table.

*/

T_MFW cm_search_callStat(SHORT call_number,
			 T_MFW_CM_CALL_STAT *stat,
			 UBYTE *ton,
			 UBYTE *mode)
{
    int i;
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
//	allocat memory
#ifdef FF_MMI_OPTIM
	T_ACI_CAL_ENTR 	    *call_tab;//[MAX_CALL_NR];
	call_tab = (T_ACI_CAL_ENTR*)mfwAlloc(sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
	if( NULL == call_tab)
		return CM_ERROR;
#endif	

    if (qAT_PercentCAL(CMD_SRC_LCL, call_tab) EQ AT_CMPL)
    {
	for (i=0; i<MAX_CALL_NR; i++)
	{
	    if (call_tab[i].index == -1)
	    break;

	    if (call_tab[i].index == call_number)
	    {
		*stat = cm_cvt_call_status(call_tab[i].status);
		*ton = phb_cvtTon(call_tab[i].type.ton);
		*mode = cm_cvt_call_mode(call_tab[i].calMode);
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
//	deallocate memory
#ifdef FF_MMI_OPTIM
			    if(call_tab)
			    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
#endif

		return CM_OK;
	    }
	}
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
//	this will be returned once we get out of the if statement
#ifndef FF_MMI_OPTIM
	return CM_ERROR;
#endif		
    }
// 	Apr 06 2005		REF: CRR 29989	xpradipg	    
//  deallocate memory  
#ifdef FF_MMI_OPTIM
	    if(call_tab)
	    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
#endif    
    return CM_ERROR;
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_check_emergency  |
+--------------------------------------------------------------------+


   PURPOSE : Check emergency call number

*/

T_MFW cm_check_emergency(UBYTE *number)
{
  //UBYTE 	    index; // RAVI
 // T_MFW_PHB_TEXT    findText;  // RAVI
 // T_MFW_PHB_ENTRY   entry;  // RAVI

  TRACE_FUNCTION ("cm_check_emergency()");
  TRACE_EVENT_P1("String being passed = %s", (char*)number);

  if (strlen((char *)number) <= 0 OR strlen((char *)number) > 3)
    return FALSE;

  if(psaCC_phbSrchECC((char*)number, FALSE))
  	{
  		TRACE_EVENT("psaCC_phbSrchECC - returned - TRUE");
  		return TRUE;
	}
  else
  	{
  	  	TRACE_EVENT("psaCC_phbSrchECC - returned - FALSE");
	 	return FALSE;
  	}

}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_mo_prefix	     |
+--------------------------------------------------------------------+


   PURPOSE : set/get CLIP, CLIR, COLP and COLR tempstatus

*/

T_CM_CLI cm_mo_prefix(T_CM_CLI prefix)
{
	UBYTE bits;

  if ((bits = (prefix & 0x0c)) != 0)
    cli_prefix = (cli_prefix & 0xf3) | bits;
  if ((bits = (prefix & 0xc0)) != 0)
    cli_prefix = (cli_prefix & 0x3f) | bits;
	return cli_prefix;
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_set_cmd_status   |
+--------------------------------------------------------------------+


   PURPOSE :

*/

void cm_set_cmd_status(T_ACI_CHLD_MOD mode, CHAR* call)
{
    SHORT id;
    // Added xkundadu MMI-SPR 13873
    // Stores the status of a particular call.
    T_MFW_CM_STATUS status;

    TRACE_FUNCTION("cm_set_cmd_status()");  // Marcus: CCBS: 14/11/2002

    memset(&dis_connect, 0, sizeof(T_MFW_CM_DISCONNECT));
    memset(&cmd, 0, sizeof(T_MFW_CM_COMMAND));
    switch (mode)
    {
	case CHLD_MOD_RelHldOrUdub:
        TRACE_EVENT("CHLD_MOD_RelHldOrUdub");       // Marcus: CCBS: 14/11/2002
	     /*SPR#1965 - DS - Changed from MFW_CM_MT_REJECT to MFW_CM_TERMINATED because
             * the E_CM_DISCONNECT signal is not sent in cm_ok_disconnect() if cmd_hold = MFW_CM_MT_REJECT.
             * Port of 1962.
             */
            cmd_hold = MFW_CM_TERMINATED;

	    if (cm_search_callId(CAL_STAT_Wait, &id) == CM_OK)
	    {
            TRACE_EVENT("cm_search_callId(CAL_STAT_Wait, &id) == CM_OK");       // Marcus: CCBS: 14/11/2002
		    dis_connect.call_number = id;
	    }
	    else
	    {
            	   TRACE_EVENT("cm_search_callId(CAL_STAT_Wait, &id) != CM_OK");       // Marcus: CCBS: 14/11/2002
		    dis_connect.call_number = -1;	// call id?
	    }
				
	    break;
	case CHLD_MOD_RelActAndAcpt:

		TRACE_EVENT("CHLD_MOD_RelActAndAcpt");       // Marcus: CCBS: 14/11/2002
	        cmd_hold = MFW_CM_1_SEND;
	
		// Added xkundadu MMI-SPR 13873
		// Querying if there are any active calls, storing the index of the 
		// call and setting a flag if found to be multiparty.
		if (cm_search_callId(CAL_STAT_Active, &id) == CM_OK)
		{
			// Active call is present.
			dis_connect.call_number = id;	// call id ?
			cm_status(id, &status, 1);
			if (status.mtpy EQ MFW_MTPY_MEMBER)
			{
				bIsMultpty = TRUE;
			}
			else
			{
				bIsMultpty = FALSE;
			}
		
		}
		else
		{
			dis_connect.call_number = -1;	
		}
		// Added xkundadu MMI-SPR 13873
		// Querying if there are any held calls, storing the index of the call
		// to change the status to active call. 
		if (cm_search_callId(CAL_STAT_Held, &id) == CM_OK)
		{
			cmd.command     = CM_RETRIEVE;
			cmd.call_number = id;
		}
		// Added xkundadu MMI-SPR 13873
		// Checking is there any waiting call exists or not.
		if (cm_search_callId(CAL_STAT_Wait, &id) == CM_OK)
		{
			// This variable determines whether to accept/reject the call
			// in the cm_result_cmd().
			cmd.call_number=0;
		}
		else
		{
			cmd.call_number=-1;
		}
		
	    break;
		
	case CHLD_MOD_RelActSpec:
        TRACE_EVENT("CHLD_MOD_RelActSpec");       // Marcus: CCBS: 14/11/2002
	    dis_connect.call_number = (SHORT)atoi(call);
	    if (dis_connect.call_number)
	    {
            TRACE_EVENT("dis_connect.call_number");       // Marcus: CCBS: 14/11/2002
            cmd_hold = MFW_CM_TERMINATED;
	    }
		else
		{
            TRACE_EVENT("!dis_connect.call_number");       // Marcus: CCBS: 14/11/2002
		    cmd_hold = MFW_CM_MPTY_TERMINATED;
		}
	    break;
	case CHLD_MOD_HldActAndAcpt:
        TRACE_EVENT("CHLD_MOD_HldActAndAcpt");       // Marcus: CCBS: 14/11/2002
	    if (cm_search_callId(CAL_STAT_Wait, &id) == CM_OK)
	    {
            TRACE_EVENT("cm_search_callId(CAL_STAT_Wait, &id) == CM_OK");       // Marcus: CCBS: 14/11/2002
    		cmd_hold    = MFW_CM_MT_ACCEPT;
    		/*
    		 * initialize for result event
    		 */
    		cmd.command = CM_HOLD;
    		cc_id	    = id;
	    }
	    else
	    {
            TRACE_EVENT("cm_search_callId(CAL_STAT_Wait, &id) != CM_OK");       // Marcus: CCBS: 14/11/2002
    		if ((cm_search_callId(CAL_STAT_Active, &id) == CM_OK)
    		    AND (cm_search_callId(CAL_STAT_Held, &id) == CM_OK))
    		{
                TRACE_EVENT("cmd.command = CM_SWAP");       // Marcus: CCBS: 14/11/2002
    		    cmd.command = CM_SWAP;
    		}
    		if ((cm_search_callId(CAL_STAT_Active, &id) != CM_OK)
    		    AND (cm_search_callId(CAL_STAT_Held, &id) == CM_OK))
    		{
                TRACE_EVENT("cmd.command = CM_RETRIEVE");       // Marcus: CCBS: 14/11/2002
    		    cmd.command = CM_RETRIEVE;
    		}
    		if ((cm_search_callId(CAL_STAT_Active, &id) == CM_OK)
    		    AND (cm_search_callId(CAL_STAT_Held, &id) != CM_OK))
    		{
                TRACE_EVENT("cmd.command = CM_HOLD");       // Marcus: CCBS: 14/11/2002
    		    cmd.command = CM_HOLD;
    		}
    		cmd.call_number = 0;
	    }
	    break;
	case CHLD_MOD_HldActExc:
        TRACE_EVENT("CHLD_MOD_HldActExc");       // Marcus: CCBS: 14/11/2002
	    cmd.command = CM_SPLIT_MULTIPARTY;
	    cmd.call_number = 0;
	    break;
	case CHLD_MOD_AddHld:
        TRACE_EVENT("CHLD_MOD_AddHld");       // Marcus: CCBS: 14/11/2002
	    cmd.command = CM_BUILD_MULTIPARTY;
	    cmd.call_number = 0;
	    break;
	case CHLD_MOD_Ect:
        TRACE_EVENT("CHLD_MOD_Ect");       // Marcus: CCBS: 14/11/2002
	    cmd.command = CM_ETC;
	    cmd.call_number = 0;
	    break;
	case CHLD_MOD_Ccbs:
        TRACE_EVENT("CHLD_MOD_Ccbs");       // Marcus: CCBS: 14/11/2002
	    cmd.command = CM_CCBS;
	    cmd.call_number = 0;
	    break;
	case CHLD_MOD_HldActDial:
        TRACE_EVENT("CHLD_MOD_HldActDial");       // Marcus: CCBS: 14/11/2002
	    cmd_hold = MFW_CM_HOLD_AND_DIAL;
	    /*
	     * initialize for result event
	     */
	    cmd.command = CM_HOLD;
	    cc_id	= id;
	    break;
    }
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_check_mo_number  |
+--------------------------------------------------------------------+


   PURPOSE : start mobile originated call

*/

T_MFW cm_check_mo_number(UBYTE *number)
{
  UBYTE i;
//	Apr 14, 2005	REF: CRR 29991   xpradipg
//	local definition
  #ifdef FF_MMI_OPTIM
  UBYTE count = 0;
  UBYTE blackListNum[MFW_NUM_LEN];
  int8 file;
  #endif

  /* check whether a redialing exists */
  if (call_stat EQ REDIALING_CALL)
  {
    cm_stop_redialTim();
    rdl.redial_mode = CM_REDIAL_OUTGOING;
    cm_signal(E_CM_REDIAL, &rdl);
  }


  if (!number)
    return CM_OK;
//	Apr 14, 2005	REF: CRR 29991   xpradipg
//	the list is read from the file
#ifdef FF_MMI_OPTIM
	if((	file = flash_MMI_blackList_open()) > 0)
	{
		if(flash_MMI_blackList_read(file,(U8*)&count,1,0) > 0)
		{
			for(i=0; i < (int)count; i++)
			{
				if(flash_MMI_blackList_read(file,(U8*)blackListNum,MFW_NUM_LEN,(i*MFW_NUM_LEN)+1) > 0)
				{
					if(!strcmp((char*)blackListNum, (char*)number))
					{
						flash_MMI_blackList_close(file);
						return CM_BLACKLIST;
					}
				}
			}
		}
		flash_MMI_blackList_close(file);
	}
#else	
	  /* check whether this number is in blacklist */
	  for (i=0; i<black_list.count; i++)
	  {
	    if (!strcmp((char *)black_list.number[i], (char *)number))
	      return CM_BLACKLIST;
	  }
#endif	

  /* check the type of this number */
  if (cm_check_emergency(number) EQ TRUE)
    call_type = MFW_ECC_CALL;
  else
    call_type = MFW_NORMAL_CALL;

  return CM_OK;
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_set_call_mode    |
+--------------------------------------------------------------------+


   PURPOSE : set call mode

*/

void cm_set_call_mode(T_MFW_CM_CALL_TYPE mode)
{
  switch (mode)
  {
    case VOICE_CALL:
    case AuxVOICE_CALL: /*MC, SPR 1026, assume line 2 is handled like line 1*/
    case DATA_CALL:
    case FAX_CALL:
      sAT_PlusCMOD(CMD_SRC_LCL, CMOD_MOD_Single);
      break;
    case VFD_VOICE:
    case VFD_DATA:
      sAT_PlusCMOD(CMD_SRC_LCL, CMOD_MOD_VoiceFlwdDat);
      break;
    case VAD_VOICE:
    case VAD_DATA:
      sAT_PlusCMOD(CMD_SRC_LCL, CMOD_MOD_VoiceDat);
      break;
    case VAF_VOICE:
    case VAF_FAX:
      sAT_PlusCMOD(CMD_SRC_LCL, CMOD_MOD_VoiceFax);
      break;
    default:
      break;
  }
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_mo_idx	     |
+--------------------------------------------------------------------+


   PURPOSE : start mobile originated call

*/

T_MFW cm_mo_idx(T_KSD_SEQPARAM *para, T_MFW_CM_CALL_TYPE mode)
{
  T_MFW_PHB_LIST entries;
  T_MFW_PHB_ENTRY   entry;
  UBYTE 	    res;

//RM 19_09_2000
#ifdef NO_ASCIIZ
  T_ACI_PB_TEXT mfwpbText;
#endif
//RM

  entries.entry = &entry;

  /* search this number from phonebook */
  if ((phb_read_entries(PHB_ADN, (UBYTE)para->dialIdx.index,
			MFW_PHB_INDEX, 1,
			&entries) EQ MFW_PHB_OK)
      AND ((int)entries.num_entries > 0))
  {
    res = cm_check_mo_number(entries.entry->number);
    if (res NEQ CM_OK)
      return res;
  }
  else
  {
    res = cm_check_mo_number(0);
    if (res NEQ CM_OK)
      return res;
  }

  /* set the outgoing call status */
  call_stat	 = OUTGOING_CALL;
  redial_count	 = 0;
  cc_stat.type	 = OUTGOING_CALL;

  cm_set_call_mode(mode);

//RM 19_09_2000 instead change in ksd structure T_KSD_SEQPARAM etc., later to change !!!!
#ifdef NO_ASCIIZ
	if(para->dialIdx.str NEQ NULL)
	{
		mfwpbText.cs = CS_GsmDef;
		mfwpbText.len = strlen(para->dialIdx.str);
		memcpy(mfwpbText.data,para->dialIdx.str,mfwpbText.len);
	}
	else
	{
		mfwpbText.cs = CS_NotPresent;
		mfwpbText.len = 0;
	}
	res = sAT_Dm(CMD_SRC_LCL, &mfwpbText,
			   para->dialIdx.mem, para->dialIdx.index,
			   para->dialIdx.clirOvrd, para->dialIdx.cugCtrl,
			   para->dialIdx.callType);
#else
	res = sAT_Dm(CMD_SRC_LCL, para->dialIdx.str,
			   para->dialIdx.mem, para->dialIdx.index,
			   para->dialIdx.clirOvrd, para->dialIdx.cugCtrl,
			   para->dialIdx.callType);
#endif

  if ((res == AT_FAIL) OR (res == AT_BUSY))
  {
    call_stat	 = MFW_CALL_FREE;
	  return cm_error_code(AT_CMD_D);
  }

  return CM_OK;
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_mo_call	     |
+--------------------------------------------------------------------+


   PURPOSE : start mobile originated call

*/

T_MFW cm_mo_call(UBYTE *number, T_MFW_CM_CALL_TYPE type)
{
  CHAR			   * rest;
  T_KSD_SEQPARAM	     para;
  T_MFW_SS_RETURN	     typ;
  T_MFW_SS_RETURN	     new_typ;
  CHAR			   * string;
  UBYTE 		     cm_grp = 0;  // RAVI
  UBYTE 		     clir_status;
  UBYTE 		     colr_status;
  UBYTE 		     prefix;
  char			     buf[80];
  UBYTE 		     phone[MFW_NUM_LEN];
  UBYTE 		     num_save[MFW_STRING_LEN];
  SHORT 		     id;
  T_ACI_RETURN		     res,aci_result;//aci_result was added to fix the bug MMI-SPR 16545

  TRACE_FUNCTION ("cm_mo_call()");

  strncpy((char *)num_save, (char *)number, MFW_STRING_LEN-1);
  num_save[MFW_STRING_LEN-1] = 0;

  /* check the type of number (key sequence), current no function */
  typ = ss_decode(number, &rest, &para);
  TRACE_EVENT_P1("Type: %d", typ);
  if (typ == MFW_SS_DIAL)
	{
	mfwStrncpy((char *)phone, para.dial.number, MFW_NUM_LEN);

	}

  if (typ == MFW_SS_HOLD)
  {
    cm_set_cmd_status(para.chld.mode, para.chld.call);

    // Feb 27, 2006    REF:DR OMAPS00067884  x0039928	
    // Fix :  sAT_PercentCHLD() is called if the mode > CHLD_MOD_RelDialCall
    if(para.chld.mode > CHLD_MOD_RelDialCall)
	aci_result = sAT_PercentCHLD(CMD_SRC_LCL, para.chld.mode, para.chld.call);
    else
	aci_result = sAT_PlusCHLD(CMD_SRC_LCL, para.chld.mode, para.chld.call);
	
	//  Apr 26, 2004 REF: CRR 16545 Ajith K P
	//  If sAT_PlusCHLD() Fails, Send the user entered string as USSD to network using sAT-Dn().
	//  So if its not failed just return CM_CTRL_STR, otherwise call sAT_Dn().	
    if ( (aci_result  EQ AT_CMPL ) OR (aci_result  EQ AT_EXCT ) OR (aci_result  EQ AT_BUSY ))
    {
		return CM_CTRL_STR;
	}
  }
  //MC 11.04.02
  if (typ == MFW_SS_ECT)
  {
	cm_set_cmd_status(para.chld.mode, para.chld.call);
	if (sAT_PlusCHLD(CMD_SRC_LCL, CHLD_MOD_Ect, 0) != AT_EXCT)
	{
		//Aug 10, 2005   REF: MMI-SPR-30099 x0018858
		//commented this return value.
		//	return CM_ERROR;
	}
	else
		return CM_CTRL_STR;
  }
  //MC

  if (typ == MFW_SS_DIAL_IDX)
  {
      return cm_mo_idx(&para, type);
  }

  switch (typ)
  {

//NM
    case MFW_SS_CLIR: //jgg wrong not CM_OK should be CM_SS, however cm_grp not used after funtion callnumber called

    case MFW_SS_DIAL:
      cm_grp = CM_OK;
      break;

    case MFW_SS_DTMF:
    case MFW_SS_CF:
    case MFW_SS_CB:
    case MFW_SS_CLIP:
    case MFW_SS_COLR:
    case MFW_SS_COLP:
    case MFW_SS_WAIT:
    case MFW_SS_HOLD:
    case MFW_SS_CCBS:
    case MFW_SS_REG_PW:
//Aug 10, 2005   REF: MMI-SPR-30099 x0018858
//Added this case statement.
    case MFW_SS_ECT:
      cm_grp = CM_SS;
      break;

    case MFW_SS_USSD:
      cm_grp = CM_USSD;
      break;

    case MFW_SS_SIM_LOCK:
    case MFW_SS_SIM_REG_PW:
    case MFW_SS_SIM_UNBLCK_PIN:
      cm_grp = CM_SIM;
      break;

    case MFW_SS_MMI:
      cm_grp = CM_MMI;
      break;

/* SPR#1352 - SH - TTY
 * If an SS string has been entered, temporarily enable or disable
 * TTY for this call only. */

	case MFW_SS_TTY_NEXTCALL_ON:
	case MFW_SS_TTY_NEXTCALL_OFF:
		{
			if (typ==MFW_SS_TTY_NEXTCALL_ON)
			{
				cm_tty_enable(TRUE);
			}
			else
			{
				cm_tty_enable(FALSE);
			}

	      	strcpy((char *)num_save, (char *)&num_save[4]); /* Ignore SS string when dialling */
			rest = (char *)&number[4];	/* Look at number following SS string */
		}
		break;
/* SH end */

    default:
      return CM_ERROR;
  }

  string = rest;
  clir_status = 0;
  colr_status = 0;
  buf[0] = '\0';
  cc_stat.prefix[0] = '\0';
  while(strlen(string))
  {
  	TRACE_EVENT("In the while");
    new_typ = ss_decode((UBYTE *)string, &rest, &para);
// /*
    if (new_typ == MFW_SS_CLIR)
    {
      clir_status = 1;
      if (para.Clir.mode == CLIR_MOD_Supp)
	  {
	    strcat((char *)cc_stat.prefix, "*31#");
	    TRACE_EVENT ("CLIR_MOD_Supp");
	  }
      if (para.Clir.mode == CLIR_MOD_Invoc)
	  {
	    strcat((char *)cc_stat.prefix, "#31#");
		TRACE_EVENT ("CLIR_MOD_Invoc");
      }
    }
    if (new_typ == MFW_SS_COLR)
      colr_status = 1;
    if (new_typ == MFW_SS_DIAL)
    {
    	TRACE_EVENT("It's a dial");
	  /* SPR#1352 - SH - only copy string to dial, not whole string */
      if (typ==MFW_SS_TTY_NEXTCALL_ON || typ==MFW_SS_TTY_NEXTCALL_OFF)
      {
      	typ = new_typ;
      	TRACE_EVENT_P1("phone now holds: %s", phone);
      }
      else
      /* end SH */
      {
      	typ = new_typ;
      	mfwStrncpy((char *)phone, para.dial.number, MFW_NUM_LEN);
      }
    }
    string = rest;
  }

  if (!colr_status AND (typ == MFW_SS_DIAL))
  {
    prefix = cli_prefix & 0xc0;
    if (prefix == 0x80)
    {
      strcat(buf, "*77#");
      strcat((char *)cc_stat.prefix, "*77#");
    }
    if (prefix == 0xc0)
    {
      strcat(buf, "#77#");
      strcat((char *)cc_stat.prefix, "#77#");
    }
  }

  if (typ == MFW_SS_DIAL)
  {
    res = (T_ACI_RETURN)cm_check_mo_number(phone);
    if ( res != CM_OK)
	return res;

    /* set the outgoing call status */
    call_stat	   = OUTGOING_CALL;
    redial_count   = 0;
    cc_stat.type   = OUTGOING_CALL;
    cm_grp = CM_OK;
    currConnecting = 1;
    cm_set_call_mode(type);
  }

  strcat(buf, (char *)num_save);
  if (cm_search_callId(CAL_STAT_Active, &id) EQ CM_OK)
  {
    /*
     * at least one active, this must be put on hold
     * by ACI first, then dial
     */
    cm_set_cmd_status(CHLD_MOD_HldActDial, "");
    cc_id = id;
  }
  if (type == DATA_CALL)
	para.dial.callType = D_TOC_Data;

//  Apr 22, 2004        REF: CRR MMI-SPR-16873  Rashmi C N(Sasken) 
//		Using the CLIR status maintained in the flash, while making a call
	if (!FFS_flashData.CLIR)
	{
		res = sAT_Dn(CMD_SRC_LCL, buf, D_CLIR_OVRD_Supp, -1, para.dial.callType);
	}
	else 
	{
		res = sAT_Dn(CMD_SRC_LCL, buf, D_CLIR_OVRD_Invoc, -1, para.dial.callType);
	}
	
  if ((res == AT_FAIL) OR (res == AT_BUSY))
  {
    if (typ == MFW_SS_CLIP)
      return CM_CLI;

    call_stat	 = MFW_CALL_FREE;
	  return cm_error_code(AT_CMD_D);
  }
  if (res == AT_CMPL)
  {
	switch (typ)
	{
	  case MFW_SS_CLIR:
      case MFW_SS_CLIP:
      case MFW_SS_COLR:
      case MFW_SS_COLP:
	return CM_CLI;
      default:
	break;
    }
  }
  return cm_grp;
}


/*
+--------------------------------------------------------------------+
| PROJECT: GSM-MFW (8417)		MODULE:  MFW_CB 	     |
| STATE  : code 			ROUTINE: rAT_PlusCRING_OFF   |
+--------------------------------------------------------------------+


   PURPOSE :   Alert Off indication from ACI

*/

#ifdef FF_2TO1_PS
GLOBAL void rAT_PlusCRING_OFF ( SHORT cId )
{
    T_MFW_CM_CALL_STAT stat;
    UBYTE	       ton;
    T_CAUSE_ps_cause report;  /* Marcus: Extended error reporting: 12/11/2002 */
    UBYTE	       mode;

    TRACE_FUNCTION ("rAT_PlusCRING_OFF()");

    if (cm_search_callStat(cId, &stat, &ton, &mode) == CM_OK)
    {
	call_stat = MFW_CALL_FREE;
	call_type = MFW_CALL_FREE;

	if (stat == CALL_DEACTIVE)
	{
	    dis_connect.call_number = cId;

	    qAT_PlusCEER( CMD_SRC_LCL, &report);
        /* Marcus: Extended error reporting: 12/11/2002: Start */

//        TRACE_EVENT_P1("qAT_PlusCEER(%04X)", report);
        if (report.ctrl_value != CAUSE_is_from_nwcc)
        {
            /* Treat Condat defined cause values as if no cause given */
            dis_connect.cause = NOT_PRESENT_8BIT;
        }
        else
        {
            /* Standards defined cause value is given */
            dis_connect.cause = report.value.nwcc_cause;
        }
        TRACE_EVENT_P1("dis_connect.cause = %02X)", dis_connect.cause);
        /* Marcus: Extended error reporting: 12/11/2002: End */
	    cm_signal(E_CM_DISCONNECT, &dis_connect);
	    return;
	}
	cm_signal(E_CM_RING_OFF, 0);
    }
}
#else
GLOBAL void rAT_PlusCRING_OFF ( SHORT cId )
{
    T_MFW_CM_CALL_STAT stat;
    UBYTE	       ton;
    USHORT	       report;  /* Marcus: Extended error reporting: 12/11/2002 */
    UBYTE	       mode;

    TRACE_FUNCTION ("rAT_PlusCRING_OFF()");

    if (cm_search_callStat(cId, &stat, &ton, &mode) == CM_OK)
    {
	call_stat = MFW_CALL_FREE;
	call_type = MFW_CALL_FREE;

	if (stat == CALL_DEACTIVE)
	{
	    dis_connect.call_number = cId;

	    qAT_PlusCEER( CMD_SRC_LCL, &report);
        /* Marcus: Extended error reporting: 12/11/2002: Start */
        TRACE_EVENT_P1("qAT_PlusCEER(%04X)", report);
        if (GET_CAUSE_DEFBY(report) == DEFBY_CONDAT)
        {
            /* Treat Condat defined cause values as if no cause given */
            dis_connect.cause = NOT_PRESENT_8BIT;
        }
        else
        {
            /* Standards defined cause value is given */
            dis_connect.cause = GET_CAUSE_VALUE(report);
        }
        TRACE_EVENT_P1("dis_connect.cause = %02X)", dis_connect.cause);
        /* Marcus: Extended error reporting: 12/11/2002: End */
	    cm_signal(E_CM_DISCONNECT, &dis_connect);
	    return;
	}
	cm_signal(E_CM_RING_OFF, 0);
    }
}
#endif

/*
+--------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	     |
| STATE   : code			 ROUTINE : rAT_PlusCRING     |
+--------------------------------------------------------------------+


   PURPOSE : Alert indication from ACI

*/

void rAT_PlusCRING(T_ACI_CRING_MOD mode,
		   T_ACI_CRING_TYP type1,
		   T_ACI_CRING_TYP type2)
{
  SHORT call_number;

  TRACE_FUNCTION ("rAT_PlusCRING()");

  in_call.result = Present;

  /* search the call identifier */
  if (cm_search_callId(CAL_STAT_Wait, &call_number) == CM_OK)
    in_call.call_number = call_number;
  else
    in_call.call_number = 0;

  /* If redial is active, it must be stoped. */
  if (call_stat == REDIALING_CALL)
  {
    cm_stop_redialTim();
    rdl.redial_mode = CM_REDIAL_INCOMING;
    cm_signal(E_CM_REDIAL, &rdl);
  }

  if (mode EQ CRING_MOD_Direct)
  {
    switch (type1)
    {
	    /* Voice call */
      case CRING_TYP_Voice:
	if (type2 EQ CRING_TYP_NotPresent)
	{
	  in_call.type = VOICE_CALL;
	  cm_set_call_mode(VOICE_CALL);
	}
	else
	{
	  switch (type2)
	  {
	    case CRING_TYP_Sync:
	    case CRING_TYP_Async:
	    case CRING_TYP_RelSync:
	    case CRING_TYP_RelAsync:
	      in_call.type = VFD_VOICE;
	      cm_bc_parameter(type2);
	      cm_set_call_mode(VFD_VOICE);
	      break;
	      /*MC, SPR 1026, check for line1 and line2*/
	    case CRING_TYP_Voice:
	      in_call.type = VOICE_CALL;
	      cm_set_call_mode(VOICE_CALL);
	      break;
	    case CRING_TYP_AuxVoice:
	      cm_set_call_mode(AuxVOICE_CALL);
	      in_call.type = AuxVOICE_CALL;
	      break;
	      /*MC, end*/
	    default:
	      in_call.type = VOICE_CALL;
	      cm_set_call_mode(VOICE_CALL);
	      break;
	  }
	}
	break;
	/*MC, SPR 1026, Added case of Type1=CRING_TYP_AuxVoice*/
	/*assuming  line 2 is handled like line 1*/
      case CRING_TYP_AuxVoice:
	if (type2 EQ CRING_TYP_NotPresent)
	{
	  in_call.type = AuxVOICE_CALL;
	  cm_set_call_mode(AuxVOICE_CALL);
	}
	else
	{
	  switch (type2)
	  {
	    case CRING_TYP_Sync:
	    case CRING_TYP_Async:
	    case CRING_TYP_RelSync:
	    case CRING_TYP_RelAsync:
	      in_call.type = VFD_VOICE;
	      cm_bc_parameter(type2);
	      cm_set_call_mode(VFD_VOICE);
	      break;
	    case CRING_TYP_Voice:
	      in_call.type = VOICE_CALL;
	      cm_set_call_mode(VOICE_CALL);
	      break;
	    case CRING_TYP_AuxVoice:
	      cm_set_call_mode(AuxVOICE_CALL);
	      in_call.type = AuxVOICE_CALL;
	      break;
	    default:
	      in_call.type = VOICE_CALL;
	      cm_set_call_mode(VOICE_CALL);
	      break;
	  }
	}
	break;
	/*MC, end*/
	    /* Data call */
	    case CRING_TYP_Sync:
      case CRING_TYP_Async:
      case CRING_TYP_RelSync:
      case CRING_TYP_RelAsync:
		    in_call.type = DATA_CALL;
	cm_bc_parameter(type1);
	cm_set_call_mode(DATA_CALL);
		    break;

      case CRING_TYP_Fax:
		    in_call.type = FAX_CALL;
	in_call.bc1.conn_elem	= Transparent;
	cm_set_call_mode(FAX_CALL);
		  break;

      default:
		    in_call.result = NotPresent;
	break;
    }
    call_stat = INCOMING_CALL;
  }

  if (mode EQ CRING_MOD_Alternate)
  {
	  cm_build_callType(type1, type2);
    cm_bc_parameter(type1);
    cm_bc_parameter(type2);
    cm_set_call_mode(in_call.type);
  }
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: rAT_PlusCLIP	     |
+--------------------------------------------------------------------+


   PURPOSE : The calling line identification for an incomming call.

*/

#ifdef NO_ASCIIZ
void rAT_PlusCLIP(T_ACI_CLIP_STAT   stat,
		  CHAR		  * number,
		  T_ACI_TOA	  * type,
		  U8		    validity,
		  CHAR		  * subaddr,
		  T_ACI_TOS	  * satype,
		  T_ACI_PB_TEXT   * alpha)
{
  int flag;

  TRACE_FUNCTION ("rAT_PlusCLIP()");

  flag = 0;

  if (number != NULL)
  {
    mfwStrncpy((char *)in_call.number,  (char *)number, MFW_NUM_LEN);
    in_call.ton = phb_cvtTon(type->ton);
    flag = 1;
  }
  else
    memset(in_call.number, '\0', MFW_NUM_LEN);

  if (alpha != NULL)
  {
    in_call.name.len = alpha->len;
	if (alpha->len)
    {
     memcpy(in_call.name.data,
	    alpha->data,
	    alpha->len);
     flag = 1;
    }
  }
  else
    in_call.name.len = 0;


  if (subaddr != NULL)
  {
    mfwStrncpy((char *)in_call.subaddr, (char *)subaddr, MFW_SUBADR_LEN);
    flag = 1;
  }
  else
    memset(in_call.subaddr, '\0', MFW_SUBADR_LEN);

  if (flag == 1)
    in_call.result = Present;
  else
    in_call.result = 0;

  cm_signal(E_CM_CW, &in_call);
}

#else

void rAT_PlusCLIP(T_ACI_CLIP_STAT   stat,
		  CHAR		  * number,
		  T_ACI_TOA	  * type,
		  U8		    validity,
		  CHAR		  * subaddr,
		  T_ACI_TOS	  * satype,
		  CHAR		  * alpha)
{
  int flag;

  TRACE_FUNCTION ("rAT_PlusCLIP()");

  flag = 0;
//  in_call.result = 0;

  if (number != NULL)
  {
    mfwStrncpy((char *)in_call.number,  (char *)number, MFW_NUM_LEN);
    in_call.ton = phb_cvtTon(type->ton);
    flag = 1;
  }
  else
    memset(in_call.number, '\0', MFW_NUM_LEN);

  if (alpha != NULL)
  {
    mfwStrncpy((char *)in_call.name,    (char *)alpha, MFW_TAG_LEN);
    flag = 1;
  }
  else
    memset(in_call.name, '\0', MFW_TAG_LEN);

  if (subaddr != NULL)
  {
    mfwStrncpy((char *)in_call.subaddr, (char *)subaddr, MFW_SUBADR_LEN);
    flag = 1;
  }
  else
    memset(in_call.subaddr, '\0', MFW_SUBADR_LEN);

  if (flag == 1)
    in_call.result = Present;
  else
    in_call.result = 0;

  cm_signal(E_CM_CW, &in_call);
}
#endif

/*
+--------------------------------------------------------------------+
| PROJECT : GSM-MFW (8417)		 MODULE  :  MFW_CM	     |
| STATE   : code			 ROUTINE : rAT_PlusCOLP      |
+--------------------------------------------------------------------+


   PURPOSE :   Connected line presentation indication from ACI

*/

#ifdef NO_ASCIIZ
GLOBAL void rAT_PlusCOLP  ( T_ACI_COLP_STAT stat,
			    CHAR* number,
			    T_ACI_TOA* type,
			    CHAR* subaddr,
			    T_ACI_TOS* satype,
			    T_ACI_PB_TEXT* alpha)
{

  TRACE_FUNCTION ("rAT_PlusCOLP()");

  if (number != NULL)
  {
    mfwStrncpy((char *)out_call.number, (char *)number, MFW_NUM_LEN);
    out_call.ton = phb_cvtTon(type->ton);
  }
  else
    memset(out_call.number, '\0', MFW_NUM_LEN);

  /*NM, p001  */
  if(alpha != NULL)
  /*NM, p001 end */
  {
  out_call.name.len = MINIMUM(alpha->len, MFW_TAG_LEN);
  if (alpha->len)
    memcpy(out_call.name.data,
	   alpha->data,
	   alpha->len);
  }

  if (subaddr != NULL)
    mfwStrncpy((char *)out_call.subaddr, (char *)subaddr, MFW_SUBADR_LEN);
  else
    memset(out_call.subaddr, '\0', MFW_SUBADR_LEN);

  if (number != NULL)
    cm_signal(E_CM_COLP, &out_call);
}

#else

GLOBAL void rAT_PlusCOLP  ( T_ACI_COLP_STAT stat,
			    CHAR* number,
			    T_ACI_TOA* type,
			    CHAR* subaddr,
			    T_ACI_TOS* satype,
			    CHAR* alpha)
{
  TRACE_FUNCTION ("rAT_PlusCOLP()");

// patch PMA 15 06 99 from Andreas
//  if (stat == -1)
//    return;

  if (number != NULL)
  {
    mfwStrncpy((char *)out_call.number, (char *)number, MFW_NUM_LEN);
    out_call.ton = phb_cvtTon(type->ton);
  }
  else
    memset(out_call.number, '\0', MFW_NUM_LEN);

  if (alpha != NULL)
    mfwStrncpy((char *)out_call.name, (char *)alpha, MFW_TAG_LEN);
  else
    memset(out_call.name, '\0', MFW_TAG_LEN);

  if (subaddr != NULL)
    mfwStrncpy((char *)out_call.subaddr, (char *)subaddr, MFW_SUBADR_LEN);
  else
    memset(out_call.subaddr, '\0', MFW_SUBADR_LEN);

// patch PMA 15 06 99 from Andreas
  if (number != NULL)
	  cm_signal(E_CM_COLP, &out_call);
}
#endif

/*
+--------------------------------------------------------------------+
| PROJECT : GSM-MFW (8417)		 MODULE  : MFW_CM	     |
| STATE   : code			 ROUTINE : rAT_PlusCCWA      |
+--------------------------------------------------------------------+


   PURPOSE :   Connected line presentation indication from ACI

*/

#ifdef NO_ASCIIZ

GLOBAL void rAT_PlusCCWA ( T_ACI_CLSSTAT * clsStatLst,
			   CHAR 	 * number,
			   T_ACI_TOA	 * type,
			   U8		   validity,
			   T_ACI_CLASS	   call_class,
			   T_ACI_PB_TEXT * alpha)
{
    SHORT call_number;

    TRACE_FUNCTION("rAT_PlusCCWA()");

    in_call.result = NotPresent;
    if (clsStatLst == 0)
    {
	if (number != NULL)
	{
	    mfwStrncpy((char *)in_call.number, (char *)number, MFW_NUM_LEN);
	    in_call.ton = phb_cvtTon(type->ton);
	}
	else
	    memset(in_call.number, '\0', MFW_NUM_LEN);

	if (alpha != NULL)
	  in_call.name.len = alpha->len;
	else
	  in_call.name.len = 0;

	if (in_call.name.len)
	{
	    memcpy(in_call.name.data,
		   alpha->data,
		   alpha->len);
	}

	in_call.type = cm_callTyp_cvt(call_class);

	if (number != 0 || in_call.name.len != 0 || in_call.type != NONE_TYPE)
	    in_call.result = Present;

	cm_search_callId(CAL_STAT_Wait, &call_number);
	in_call.call_number = call_number;

	cm_signal(E_CM_CW, &in_call);
    }
}

#else

GLOBAL void rAT_PlusCCWA ( T_ACI_CLSSTAT * clsStatLst,
			   CHAR 	 * number,
			   T_ACI_TOA	 * type,
			   U8		   validity,
			   T_ACI_CLASS	   call_class,
			   CHAR 	 * alpha)
{
    SHORT call_number;

    in_call.result = NotPresent;
    if (clsStatLst == 0)
    {
	if (number != NULL)
	{
	    mfwStrncpy((char *)in_call.number, (char *)number, MFW_NUM_LEN);
	    in_call.ton = phb_cvtTon(type->ton);
	}
	else
	    memset(in_call.number, '\0', MFW_NUM_LEN);

	if (alpha != NULL)
	    mfwStrncpy((char *)in_call.name, (char *)alpha, MFW_TAG_LEN);
	else
	    memset(in_call.name, '\0', MFW_TAG_LEN);

	in_call.type = cm_callTyp_cvt(call_class);

	if (number != 0 || alpha != 0 || in_call.type != NONE_TYPE)
	    in_call.result = Present;

	cm_search_callId(CAL_STAT_Wait, &call_number);
	in_call.call_number = call_number;

	cm_signal(E_CM_CW, &in_call);
    }
}
#endif

/*
+--------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	     |
| STATE   : code			 ROUTINE : cm_mt_reject      |
+--------------------------------------------------------------------+


   PURPOSE : Reject the incoming call.

*/

void cm_mt_reject()
{
    TRACE_FUNCTION ("cm_mt_reject()");

    if (currAccepting)
    {
	currAccepting = 0; /* ES!! 210999 */
	sAT_Abort(CMD_SRC_LCL, AT_CMD_A);
	return;
    }

    cmd_hold = MFW_CM_MT_REJECT;
    cm_search_callId(CAL_STAT_Wait, &dis_connect.call_number);
    sAT_PlusCHLD(CMD_SRC_LCL, CHLD_MOD_RelHldOrUdub, 0);
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_mt_accept	     |
+--------------------------------------------------------------------+


   PURPOSE : Accept the incoming call. If the active call exists,
	     place this active call on hold and accepts the
	     waiting call.

*/

void cm_mt_accept()
{
    SHORT call_number;
    T_MFW_CM_CALL_STAT	stat;	/* SPR#1983 - SH */
    UBYTE		ton;
    UBYTE		mode;

    TRACE_FUNCTION ("cm_mt_accept()");

    if (cm_search_callId(CAL_STAT_Active, &call_number) != CM_OK)
    {
		if (sAT_A(CMD_SRC_LCL) NEQ AT_EXCT)
		{
			TRACE_ERROR("sAT_A error");
		}
		else
		{
		    currAccepting = 1; /* ES!! 210999 */
		}
    }
    else
    {
		cmd_hold = MFW_CM_MT_ACCEPT;

		/* SPR#1983 - SH - Get status of active call */

        cm_search_callStat(call_number, &stat, &ton, &mode);

		if (cm_search_callId(CAL_STAT_Wait, &call_number) EQ CM_OK)
		  cc_id = call_number;

		/* SPR#1983 - SH - If data call is active, end it and accept other call */

		if (mode==DATA_CALL)
		{
			/*
             * Accepting a call when there is an active data call,
             * so drop the active call and accept the waiting call by the
             * equivalent of the AT+CHLD=1 command.
             */
            cm_set_cmd_status(CHLD_MOD_RelActAndAcpt, "");
            if (sAT_PlusCHLD(CMD_SRC_LCL, CHLD_MOD_RelActAndAcpt, 0) NEQ AT_EXCT)
            {
                TRACE_ERROR("sAT_PlusCHLD(CHLD_MOD_RelActAndAcpt) error");
            }
		}

		else	/* SPR#1983 - SH - Important! Acts on next 'if' */

        /* Marcus: issue 1049: 03/09/2002: Start */
        if (cm_search_callId(CAL_STAT_Held, &call_number) EQ CM_OK)
        {
            /*
             * Accepting a call when there is already an active call and a held
             * call, so drop the active call and accept the waiting call by the
             * equivalent of the AT+CHLD=1 command.
             */
            cm_set_cmd_status(CHLD_MOD_RelActAndAcpt, "");
            if (sAT_PlusCHLD(CMD_SRC_LCL, CHLD_MOD_RelActAndAcpt, 0) NEQ AT_EXCT)
            {
                TRACE_ERROR("sAT_PlusCHLD(CHLD_MOD_RelActAndAcpt) error");
            }
        }
        else
        {
            /*
             * Accepting a call when there is already an active call but no held
             * call, so hold the active call and accept the waiting call by the
             * equivalent of the AT+CHLD=2 command.
             */
            cm_set_cmd_status(CHLD_MOD_HldActAndAcpt, "");
            if (sAT_PlusCHLD(CMD_SRC_LCL, CHLD_MOD_HldActAndAcpt, 0) NEQ AT_EXCT)
            {
                TRACE_ERROR("sAT_PlusCHLD(CHLD_MOD_HldActAndAcpt) error");
            }
        }
        /* Marcus: issue 1049: 03/09/2002: End */
	}
}


/*
+--------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)		MODULE  : MFW_CM			 |
| STATE   : code						ROUTINE : cm_end_all		 |
+--------------------------------------------------------------------+


	PURPOSE :  End all calls (Held and Active)

*/

void cm_end_all(void)
{
    T_ACI_RETURN    aci_res;        // The value returned by sAT_H

    TRACE_EVENT("cm_end_all()");

        aci_res = sAT_H(CMD_SRC_LCL);

        if (aci_res == AT_EXCT)
        {
            TRACE_EVENT("sAT_H returned AT_EXCT");
            cmd_hold = MFW_CM_DISCONNECT_ALL;
        }
        else
        {
            TRACE_EVENT_P1("sAT_H returned %d", aci_res);
        }
	return;
}


/*
+--------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)		MODULE  : MFW_CM			 |
| STATE   : code						ROUTINE : cm_ok_connect		 |
+--------------------------------------------------------------------+


	PURPOSE :  The connect is successful.

*/

void cm_ok_connect(void)
{
    SHORT call_number;

    TRACE_FUNCTION ("cm_ok_connect()");

    currAccepting = 0; /* ES!! 210999 */
    currConnecting = 0; /* ES!! 290999 */

    if (cc_stat.type == REDIALING_CALL)
    {
	rdl.redial_mode = CM_REDIAL_SUCCESS;
	cm_signal(E_CM_REDIAL, &rdl);
    }

    cm_search_callId(CAL_STAT_Active, &call_number);

    /* allow a new outgoing */
    call_stat = MFW_CALL_FREE;
    call_type = MFW_CALL_FREE;
    cmd_hold = MFW_CM_NO_FLAG;

    cm_signal(E_CM_CONNECT_ACK, &call_number);
}


/*
+--------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	     |
| STATE   : code			 ROUTINE : cm_rmt_ok_connect |
+--------------------------------------------------------------------+


   PURPOSE :  The connect is successful.

*/

void cm_rmt_ok_connect()
{
    SHORT call_number;

    TRACE_FUNCTION ("cm_rmt_ok_connect()");

    cm_search_callId(CAL_STAT_Active, &call_number);

    cm_signal(E_CM_CONNECT_ACK, &call_number);
}


/*
+--------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	     |
| STATE   : code			 ROUTINE : cm_error_connect  |
+--------------------------------------------------------------------+


   PURPOSE : The connection is not successful

*/

#ifdef FF_2TO1_PS
void cm_error_connect(SHORT call_number)
{
    int i;
    T_CAUSE_ps_cause report; /* Marcus: Extended error reporting: 12/11/2002 */
    USHORT extend_report; /* API - 1564 - 16-01-03 - add this variable to store the new error code */

    TRACE_FUNCTION ("cm_error_connect()");

    currAccepting = 0; /* ES!! 210999 */
    currConnecting = 0; /* ES!! 290999 */

    /* send event */
    dis_connect.call_number = call_number;

    qAT_PlusCEER( CMD_SRC_LCL, &report);
    /* Marcus: Extended error reporting: 12/11/2002: Start */
//    TRACE_EVENT_P1("qAT_PlusCEER(%04X)", report);

	/* API - 1564 - 16-01-03 - store the error value to the new variable & throughout this function replace 'report' with 'extend_report */
    extend_report = report.value.nwcc_cause;

    if (report.ctrl_value != CAUSE_is_from_nwcc)
    {
        /* Treat Condat defined cause values as if no cause given */
        dis_connect.cause = NOT_PRESENT_8BIT;
    }
    else
    {
        /* Standards defined cause value is given */
        dis_connect.cause = report.value.nwcc_cause;
    }
    TRACE_EVENT_P1("dis_connect.cause = %02X)", dis_connect.cause);
    /* Marcus: Extended error reporting: 12/11/2002: End */
    cm_signal(E_CM_DISCONNECT, &dis_connect);
    TRACE_EVENT("passed the E_CM_DISCONNECT point");

    if ((call_stat EQ OUTGOING_CALL)
	AND (call_type NEQ MFW_ECC_CALL)
	AND ((redial_stat EQ CM_REDIAL_AUTO) OR (redial_stat EQ CM_REDIAL_MANU)))
    {
	/* If this call is 2nd outgoing call, redial is not started */
	if (qAT_PercentCAL(CMD_SRC_LCL, call_tab) EQ AT_CMPL)
	{
	    for (i=0; i<MAX_CALL_NR; i++)
	    {
		if (call_tab[i].index == -1)
		    break;

		if ((call_tab[i].status == CAL_STAT_NotPresent)
		    OR (call_tab[i].status == CAL_STAT_DeactiveReq))
		    continue;

		if (call_tab[i].calType == CAL_TYPE_MOC)
		{
		    call_stat = MFW_CALL_FREE;
		    call_type = MFW_CALL_FREE;
		    cmd_hold = MFW_CM_NO_FLAG;
		    return;
		}
	    }
	}

	/* check blacklist whether it is full */
	if (black_list.count == MAX_BLACKLIST_NUM)
	{
			TRACE_EVENT ("blacklist is now full");

			/* Blacklist is now full and
			   MT shall prohibit further automatic call attempts
			*/
		redial_stat = CM_REDIAL_OFF;


	    /* allow a new outgoing */
	    call_stat	 = MFW_CALL_FREE;
	    call_type	 = MFW_CALL_FREE;
	    cc_stat.type = MFW_CALL_FREE;

	    rdl.redial_mode = CM_REDIAL_BLACKLIST;
	    cm_signal(E_CM_REDIAL, &rdl);
	    return;
	}

	/* check the registration staus */
	if (nm_reg_status() == MFW_NO_SERVICE)
	{
	    call_stat	 = MFW_CALL_FREE;
	    call_type	 = MFW_CALL_FREE;
	    cc_stat.type = MFW_CALL_FREE;

	    rdl.redial_mode = CM_REDIAL_NO_SERVICE;
	    cm_signal(E_CM_REDIAL, &rdl);
	    return;
	}

	TRACE_EVENT_P1("report = %d", extend_report);
	switch (extend_report)
	{
		case 28:
        // API - 1480 - Added this code to stop redial on an incorrect number
        if(!redial_count)
        {
			call_stat    = MFW_CALL_FREE;
			call_type    = MFW_CALL_FREE;
			cc_stat.type = MFW_CALL_FREE;

			rdl.redial_mode = CM_REDIAL_ABORTED;
			cm_signal(E_CM_REDIAL, &rdl);
			return;
		}
	    case 1: /* check whether the reason is in category 3 (GSM 02.07) */
	    case 3:
	    case 22:
	    case 38:
		TRACE_EVENT ("category 3");
		if (!redial_count)
		{
			/* redial_count == 0;
			   this is for the first outgoing call and
			   now it is going to start the Auto-redial procedure
			 */
		    cc_stat.type = REDIALING_CALL;
		    cc_stat.call_number = 0;

		    call_stat = REDIALING_CALL;
		    rdl.redial_mode = CM_REDIAL_STARTED;
		    mfwStrncpy((char *)rdl.number, (char *)cc_stat.number, MFW_NUM_LEN);

#ifdef NO_ASCIIZ
		    rdl.name.len = cc_stat.name.len;
		    memcpy(rdl.name.data,
			   cc_stat.name.data,
			   cc_stat.name.len);
#else
		    mfwStrncpy((char *)rdl.name, (char *)cc_stat.name, MFW_TAG_LEN);
//		      strcpy((char *)rdl.subaddr, (char *)cc_stat.subaddr);
#endif
		    rdl.ton = cc_stat.ton;
		    rdl.type = cc_stat.mode;

		    /* reasons in the category 3 have
		       a call repeat attempts of max. 1 !
		     */
		    redial_count = MAX_REDIAL_ATTEMPT-1;
		    cm_signal(E_CM_REDIAL, &rdl);
		    return;
		}
		else
		    redial_count = MAX_REDIAL_ATTEMPT;
		break;

	    case 17: /* check whether the reason is in category 1 and 2 (GSM 02.07) */
	    case 18:
	    case 19:
	    case 27:
	    case 34:
	    case 41:
	    case 42:
	    case 44:
	    case 47:
		TRACE_EVENT ("category 1 & 2");
		if (!redial_count)
		{
			/* redial_count == 0
			   this is for the first outgoing call and
			   now it is going to start the Auto-redial procedure
			 */
		    cc_stat.type = REDIALING_CALL;
		    cc_stat.call_number = 0;

		    call_stat = REDIALING_CALL;
		    rdl.redial_mode = CM_REDIAL_STARTED;
		    mfwStrncpy((char *)rdl.number, (char *)cc_stat.number, MFW_NUM_LEN);
#ifdef NO_ASCIIZ
		    rdl.name.len = cc_stat.name.len;
		    memcpy(rdl.name.data,
			   cc_stat.name.data,
			   cc_stat.name.len);
#else
		    mfwStrncpy((char *)rdl.name, (char *)cc_stat.name, MFW_TAG_LEN);
//		      strcpy((char *)rdl.subaddr, (char *)cc_stat.subaddr);
#endif
		    rdl.ton = cc_stat.ton;
		    rdl.type = cc_stat.mode;

		    /* reasons in the category 1 and 2 have
		       a call repeat attempts of max. 10 !
		     */

		    cm_signal(E_CM_REDIAL, &rdl);
		    return;
		}

		if (redial_count >= 1 AND redial_count <= 3)
		{
		    timStart(redialTim24);
		    call_stat = REDIALING_CALL;
		    cc_stat.call_number = 0;
		    return;
		}

		if (redial_count >= 4 AND redial_count < MAX_REDIAL_ATTEMPT)
		{
		    timStart(redialTim5);
		    call_stat = REDIALING_CALL;
		    cc_stat.call_number = 0;
		    return;
		}
#ifdef CUSTOMER_6366
				// JP PATCH The MMI needs to know if the 'error disconnect' has
				// resulted in redial starting irrespective of whether this was a redial attempt or not
				rdl.redial_mode = CM_REDIAL_STARTED;
				cm_signal(E_CM_REDIAL, &rdl);
				// END JP PATCH
#endif /* CUSTOMER_6366 */
		break;

	    default:
		if (redial_count)
		{
		  rdl.redial_mode = CM_REDIAL_STOP;
		  mfwStrncpy((char *)rdl.number, (char *)cc_stat.number, MFW_NUM_LEN);
#ifdef NO_ASCIIZ
		  rdl.name.len = cc_stat.name.len;
		  memcpy(rdl.name.data,
			 cc_stat.name.data,
			 cc_stat.name.len);
#else
		  mfwStrncpy((char *)rdl.name, (char *)cc_stat.name, MFW_TAG_LEN);//???
//		    strcpy((char *)rdl.subaddr, (char *)cc_stat.subaddr);
#endif
		  rdl.ton = cc_stat.ton;
		  rdl.type = cc_stat.mode;
		  cm_signal(E_CM_REDIAL, &rdl);
		}
		/* allow a new outgoing */
		call_stat    = MFW_CALL_FREE;
		call_type    = MFW_CALL_FREE;
		cc_stat.type = MFW_CALL_FREE;
		return;
	}

	if (redial_count >= MAX_REDIAL_ATTEMPT
	    AND black_list.count < MAX_BLACKLIST_NUM)
	{
		  mfwStrncpy((char *)black_list.number[black_list.count],
		   (char *)cc_stat.number, MFW_NUM_LEN);
	    black_list.count++;

	    rdl.redial_mode   = CM_REDIAL_BLACKLISTED;
	    mfwStrncpy((char *)rdl.number, (char *)cc_stat.number, MFW_NUM_LEN);
#ifdef NO_ASCIIZ
	    rdl.name.len = cc_stat.name.len;
	    memcpy(rdl.name.data,
		   cc_stat.name.data,
		   cc_stat.name.len);
#else
	    mfwStrncpy((char *)rdl.name, (char *)cc_stat.name, MFW_TAG_LEN);
//		strcpy((char *)rdl.subaddr, (char *)cc_stat.subaddr);
#endif
	    rdl.ton = cc_stat.ton;
	    rdl.type = cc_stat.mode;
	    rdl.left_attempts	= 0;
	    cc_stat.call_number = 0;
	    cm_signal(E_CM_REDIAL, &rdl);
	}
    }

    /* allow a new outgoing */
    call_stat	 = MFW_CALL_FREE;
    call_type	 = MFW_CALL_FREE;
    cc_stat.type = MFW_CALL_FREE;
}
#else
void cm_error_connect(SHORT call_number)
{

    int i;
    USHORT report;  /* Marcus: Extended error reporting: 12/11/2002 */
    USHORT extend_report; /* API - 1564 - 16-01-03 - add this variable to store the new error code */
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
//	local definition
#ifdef FF_MMI_OPTIM
	T_ACI_CAL_ENTR 	    *call_tab;//[MAX_CALL_NR];
#endif	
//	Apr 14, 2005	REF: CRR 29991   xpradipg
//	local definition
#ifdef FF_MMI_OPTIM
	UBYTE count;
	UBYTE blackListNum[MFW_NUM_LEN];
	int32 file = 0;
#endif	
    TRACE_FUNCTION ("cm_error_connect()");

    currAccepting = 0; /* ES!! 210999 */
    currConnecting = 0; /* ES!! 290999 */

    /* send event */
    dis_connect.call_number = call_number;

    qAT_PlusCEER( CMD_SRC_LCL, &report);
    /* Marcus: Extended error reporting: 12/11/2002: Start */
    TRACE_EVENT_P1("qAT_PlusCEER(%04X)", report);

	/* API - 1564 - 16-01-03 - store the error value to the new variable & throughout this function replace 'report' with 'extend_report */
    extend_report = GET_CAUSE_VALUE(report);

    if (GET_CAUSE_DEFBY(extend_report) == DEFBY_CONDAT)
    {
        /* Treat Condat defined cause values as if no cause given */
        dis_connect.cause = NOT_PRESENT_8BIT;
    }
    else
    {
        /* Standards defined cause value is given */
        dis_connect.cause = GET_CAUSE_VALUE(extend_report);
    }
    TRACE_EVENT_P1("dis_connect.cause = %02X)", dis_connect.cause);
    /* Marcus: Extended error reporting: 12/11/2002: End */
    cm_signal(E_CM_DISCONNECT, &dis_connect);
    TRACE_EVENT("passed the E_CM_DISCONNECT point");

    if ((call_stat EQ OUTGOING_CALL)
	AND (call_type NEQ MFW_ECC_CALL)
	AND ((redial_stat EQ CM_REDIAL_AUTO) OR (redial_stat EQ CM_REDIAL_MANU)))
    {
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
//	allocate memory
#ifdef FF_MMI_OPTIM
		call_tab = (T_ACI_CAL_ENTR*)mfwAlloc(sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
		if( NULL == call_tab)
			return; 
#endif		
	/* If this call is 2nd outgoing call, redial is not started */
	if (qAT_PercentCAL(CMD_SRC_LCL, call_tab) EQ AT_CMPL)
	{
	    for (i=0; i<MAX_CALL_NR; i++)
	    {
		if (call_tab[i].index == -1)
		    break;

		if ((call_tab[i].status == CAL_STAT_NotPresent)
		    OR (call_tab[i].status == CAL_STAT_DeactiveReq))
		    continue;

		if (call_tab[i].calType == CAL_TYPE_MOC)
		{
		    call_stat = MFW_CALL_FREE;
		    call_type = MFW_CALL_FREE;
		    cmd_hold = MFW_CM_NO_FLAG;
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
//	deallocate memory
#ifdef FF_MMI_OPTIM
			    if(call_tab)
			    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
#endif			    
			    return;
		}
	    }
	}
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
//	deallocate memory
#ifdef FF_MMI_OPTIM
	    if(call_tab)
	    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
#endif
//	Apr 14, 2005	REF: CRR 29991   xpradipg
//	read the list into the variable
#ifdef FF_MMI_OPTIM
	if((file = flash_MMI_blackList_open()) >= 0 )
	{	
		if(flash_MMI_blackList_read(file,(U8*)&count, 1,0) > 0)
		{
			if(count == MAX_BLACKLIST_NUM)		
#else
	/* check blacklist whether it is full */
	if (black_list.count == MAX_BLACKLIST_NUM)
#endif	
	{
			TRACE_EVENT ("blacklist is now full");

			/* Blacklist is now full and
			   MT shall prohibit further automatic call attempts
			*/
		redial_stat = CM_REDIAL_ABORTED;


	    /* allow a new outgoing */
	    call_stat	 = MFW_CALL_FREE;
	    call_type	 = MFW_CALL_FREE;
	    cc_stat.type = MFW_CALL_FREE;

	    rdl.redial_mode = CM_REDIAL_BLACKLIST;
	    cm_signal(E_CM_REDIAL, &rdl);
#ifdef FF_MMI_OPTIM
		flash_MMI_blackList_close(file);
#endif
    	return;
	}
#ifdef FF_MMI_OPTIM
		}
		flash_MMI_blackList_close(file);
	}
#endif	

	/* check the registration staus */
	if (nm_reg_status() == MFW_NO_SERVICE)
	{
	    call_stat	 = MFW_CALL_FREE;
	    call_type	 = MFW_CALL_FREE;
	    cc_stat.type = MFW_CALL_FREE;

	    rdl.redial_mode = CM_REDIAL_NO_SERVICE;
	    cm_signal(E_CM_REDIAL, &rdl);
	    return;
	}

	TRACE_EVENT_P1("report = %d", extend_report);
	switch (extend_report)
	{
		case 28:
        // API - 1480 - Added this code to stop redial on an incorrect number
        if(!redial_count)
        {
			call_stat    = MFW_CALL_FREE;
			call_type    = MFW_CALL_FREE;
			cc_stat.type = MFW_CALL_FREE;

			rdl.redial_mode = CM_REDIAL_ABORTED;
			cm_signal(E_CM_REDIAL, &rdl);
			return;
		}
	    case 1: /* check whether the reason is in category 3 (GSM 02.07) */
	    case 3:
	    case 22:
	    case 38:
		TRACE_EVENT ("category 3");
		if (!redial_count)
		{
			/* redial_count == 0;
			   this is for the first outgoing call and
			   now it is going to start the Auto-redial procedure
			 */
		    cc_stat.type = REDIALING_CALL;
		    cc_stat.call_number = 0;

		    call_stat = REDIALING_CALL;
		    rdl.redial_mode = CM_REDIAL_STARTED;
		    mfwStrncpy((char *)rdl.number, (char *)cc_stat.number, MFW_NUM_LEN);

#ifdef NO_ASCIIZ
		    rdl.name.len = cc_stat.name.len;
		    memcpy(rdl.name.data,
			   cc_stat.name.data,
			   cc_stat.name.len);
#else
		    mfwStrncpy((char *)rdl.name, (char *)cc_stat.name, MFW_TAG_LEN);
//		      strcpy((char *)rdl.subaddr, (char *)cc_stat.subaddr);
#endif
		    rdl.ton = cc_stat.ton;
		    rdl.type = cc_stat.mode;

		    /* reasons in the category 3 have
		       a call repeat attempts of max. 1 !
		     */
		    redial_count = MAX_REDIAL_ATTEMPT-1;
		    cm_signal(E_CM_REDIAL, &rdl);
		    return;
		}
		else
		    redial_count = MAX_REDIAL_ATTEMPT;
		break;

	    case 17: /* check whether the reason is in category 1 and 2 (GSM 02.07) */
	    case 18:
	    case 19:
	    case 27:
	    case 34:
	    case 41:
	    case 42:
	    case 44:
	    case 47:
		TRACE_EVENT ("category 1 & 2");
		if (!redial_count)
		{
			/* redial_count == 0
			   this is for the first outgoing call and
			   now it is going to start the Auto-redial procedure
			 */
		    cc_stat.type = REDIALING_CALL;
		    cc_stat.call_number = 0;

		    call_stat = REDIALING_CALL;
		    rdl.redial_mode = CM_REDIAL_STARTED;
		    mfwStrncpy((char *)rdl.number, (char *)cc_stat.number, MFW_NUM_LEN);
#ifdef NO_ASCIIZ
		    rdl.name.len = cc_stat.name.len;
		    memcpy(rdl.name.data,
			   cc_stat.name.data,
			   cc_stat.name.len);
#else
		    mfwStrncpy((char *)rdl.name, (char *)cc_stat.name, MFW_TAG_LEN);
//		      strcpy((char *)rdl.subaddr, (char *)cc_stat.subaddr);
#endif
		    rdl.ton = cc_stat.ton;
		    rdl.type = cc_stat.mode;

		    /* reasons in the category 1 and 2 have
		       a call repeat attempts of max. 10 !
		     */

		    cm_signal(E_CM_REDIAL, &rdl);
		    return;
		}

		if (redial_count >= 1 AND redial_count <= 3)
		{
		    timStart(redialTim24);
		    call_stat = REDIALING_CALL;
		    cc_stat.call_number = 0;
		    return;
		}

		if (redial_count >= 4 AND redial_count < MAX_REDIAL_ATTEMPT)
		{
		    timStart(redialTim5);
		    call_stat = REDIALING_CALL;
		    cc_stat.call_number = 0;
		    return;
		}
#ifdef CUSTOMER_6366
				// JP PATCH The MMI needs to know if the 'error disconnect' has
				// resulted in redial starting irrespective of whether this was a redial attempt or not
				rdl.redial_mode = CM_REDIAL_STARTED;
				cm_signal(E_CM_REDIAL, &rdl);
				// END JP PATCH
#endif /* CUSTOMER_6366 */
		break;

	    default:
		if (redial_count)
		{
		  rdl.redial_mode = CM_REDIAL_STOP;
		  mfwStrncpy((char *)rdl.number, (char *)cc_stat.number, MFW_NUM_LEN);
#ifdef NO_ASCIIZ
		  rdl.name.len = cc_stat.name.len;
		  memcpy(rdl.name.data,
			 cc_stat.name.data,
			 cc_stat.name.len);
#else
		  mfwStrncpy((char *)rdl.name, (char *)cc_stat.name, MFW_TAG_LEN);//???
//		    strcpy((char *)rdl.subaddr, (char *)cc_stat.subaddr);
#endif
		  rdl.ton = cc_stat.ton;
		  rdl.type = cc_stat.mode;
		  cm_signal(E_CM_REDIAL, &rdl);
		}
		/* allow a new outgoing */
		call_stat    = MFW_CALL_FREE;
		call_type    = MFW_CALL_FREE;
		cc_stat.type = MFW_CALL_FREE;
		return;
	}
#ifdef FF_MMI_OPTIM
	if (redial_count >= MAX_REDIAL_ATTEMPT
	    AND count < MAX_BLACKLIST_NUM)
	{
		  mfwStrncpy((char *)blackListNum,(char *)cc_stat.number, MFW_NUM_LEN);
//	Apr 14, 2005	REF: CRR 29991   xpradipg
//	once there is new addition update it onto the file
		if(flash_MMI_blackList_write((U8*)blackListNum, MFW_NUM_LEN, (count*MFW_NUM_LEN)+1) < 0)
			TRACE_FUNCTION("ERROR OPENING the blacklist file");
		count++;
		if(flash_MMI_blackList_write((U8*)&count,1,0) < 0)
			TRACE_FUNCTION("ERROR OPENING the blacklist file");
#else
	if (redial_count >= MAX_REDIAL_ATTEMPT
	    AND black_list.count < MAX_BLACKLIST_NUM)
	{
		  mfwStrncpy((char *)black_list.number[black_list.count],
		   (char *)cc_stat.number, MFW_NUM_LEN);
	    black_list.count++;
#endif
		rdl.redial_mode   = CM_REDIAL_BLACKLISTED;
	    mfwStrncpy((char *)rdl.number, (char *)cc_stat.number, MFW_NUM_LEN);
#ifdef NO_ASCIIZ
	    rdl.name.len = cc_stat.name.len;
	    memcpy(rdl.name.data,
		   cc_stat.name.data,
		   cc_stat.name.len);
#else
	    mfwStrncpy((char *)rdl.name, (char *)cc_stat.name, MFW_TAG_LEN);
//		strcpy((char *)rdl.subaddr, (char *)cc_stat.subaddr);
#endif
	    rdl.ton = cc_stat.ton;
	    rdl.type = cc_stat.mode;
	    rdl.left_attempts	= 0;
	    cc_stat.call_number = 0;
	    cm_signal(E_CM_REDIAL, &rdl);
	}
    }

    /* allow a new outgoing */
    call_stat	 = MFW_CALL_FREE;
    call_type	 = MFW_CALL_FREE;
    cc_stat.type = MFW_CALL_FREE;
}
#endif


/*
+-----------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM		|
| STATE   : code			 ROUTINE : cm_rmt_error_connect |
+-----------------------------------------------------------------------+


   PURPOSE : The connection is not successful

*/

#ifdef FF_2TO1_PS
void cm_rmt_error_connect(SHORT call_number)
{
    T_CAUSE_ps_cause report;  /* Marcus: Extended error reporting: 12/11/2002 */

    TRACE_FUNCTION ("cm_error_connect()");

    /* send event */
    dis_connect.call_number = call_number;

    qAT_PlusCEER( CMD_SRC_LCL, &report);
    /* Marcus: Extended error reporting: 12/11/2002: Start */
//    TRACE_EVENT_P1("qAT_PlusCEER(%04X)", report);

    if (report.ctrl_value != CAUSE_is_from_nwcc)
    {
        /* Treat Condat defined cause values as if no cause given */
        dis_connect.cause = NOT_PRESENT_8BIT;
    }
    else
    {
       /* Standards defined cause value is given */
       dis_connect.cause = report.value.nwcc_cause;
    }

    TRACE_EVENT_P1("dis_connect.cause = %02X)", dis_connect.cause);
    /* Marcus: Extended error reporting: 12/11/2002: End */

    cm_signal(E_CM_DISCONNECT, &dis_connect);
}
#else
void cm_rmt_error_connect(SHORT call_number)
{
    USHORT report;  /* Marcus: Extended error reporting: 12/11/2002 */

    TRACE_FUNCTION ("cm_error_connect()");

    /* send event */
    dis_connect.call_number = call_number;

    qAT_PlusCEER( CMD_SRC_LCL, &report);
    /* Marcus: Extended error reporting: 12/11/2002: Start */
    TRACE_EVENT_P1("qAT_PlusCEER(%04X)", report);
    if (GET_CAUSE_DEFBY(report) == DEFBY_CONDAT)
    {
        /* Treat Condat defined cause values as if no cause given */
        dis_connect.cause = NOT_PRESENT_8BIT;
    }
    else
    {
        /* Standards defined cause value is given */
        dis_connect.cause = GET_CAUSE_VALUE(report);
    }
    TRACE_EVENT_P1("dis_connect.cause = %02X)", dis_connect.cause);
    /* Marcus: Extended error reporting: 12/11/2002: End */

    cm_signal(E_CM_DISCONNECT, &dis_connect);
}
#endif


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_disconnect	     |
+--------------------------------------------------------------------+


   PURPOSE : Disconnection for outgoing call or active call

*/

T_MFW cm_disconnect(SHORT call_number)
{
    CHAR		callId[5];
    T_MFW_CM_CALL_STAT	stat;
    UBYTE		ton;
    UBYTE		mode;

    TRACE_FUNCTION ("cm_disconnect()");

    dis_connect.call_number = call_number;

    if (!call_number)
    {
	cmd_hold = MFW_CM_MPTY_TERMINATED;
	sprintf(callId, "%d", 0);
	if (sAT_PlusCHLD(CMD_SRC_LCL, CHLD_MOD_RelActSpec, callId) != AT_EXCT)
	    return CM_ERROR;
	return CM_OK;
    }

    cm_search_callStat(call_number, &stat, &ton, &mode);

	TRACE_EVENT_P3("Status %d Ton %d Mode %d",stat,ton,mode);

	/* HANG UP DATA CALL (WAP)
	 * SPR#1983 - SH - Use sAT_Abort() when call has not yet connected,
	 * rather than sAT_H */

    if (mode == DATA_CALL)
	{
		T_ACI_RETURN retval;

		TRACE_EVENT_P1("***Disconnect data call, stat=%d", stat);

		if ((stat == CALL_DIAL) OR (stat == CALL_ALERT))
	    {
			if (sAT_Abort(CMD_SRC_LCL, AT_CMD_D) NEQ AT_CMPL)
				return CM_ERROR;
			return CM_OK;
	    }

	    if (stat == CALL_DEACTIVE && currConnecting)  /* ES/AK 290999 */
	    {
			currConnecting = 0;
			if (sAT_Abort(CMD_SRC_LCL, AT_CMD_D) NEQ AT_CMPL)
				return CM_ERROR;
			return CM_OK;
	    }

		retval = sAT_H(CMD_SRC_LCL);

		TRACE_EVENT_P1("Result of sAT_H = %d", retval);
		if (retval)
		    return CM_ERROR;
		return CM_OK;
	}


    if ((stat == CALL_DIAL) OR (stat == CALL_ALERT))
    {
	if (sAT_Abort(CMD_SRC_LCL, AT_CMD_D) NEQ AT_CMPL)
		return CM_ERROR;
	return CM_OK;
    }

    if (stat == CALL_DEACTIVE && currConnecting)  /* ES/AK 290999 */
    {
	currConnecting = 0;
	if (sAT_Abort(CMD_SRC_LCL, AT_CMD_D) NEQ AT_CMPL)
		return CM_ERROR;
	return CM_OK;
    }

    if ((stat == CALL_ACTIVE) OR (stat == CALL_DEACTIVE))
    {
		cmd_hold = MFW_CM_TERMINATED;
		sprintf(callId, "%d", call_number);
		if (sAT_PlusCHLD(CMD_SRC_LCL, CHLD_MOD_RelActSpec, callId) != AT_EXCT)
			return CM_ERROR;
		return CM_OK;
    }
    else if (stat == CALL_HELD) 
   {
   

                //  Apr 26, 2004 REF: CRR 16545 Ajith K P Side effect of CRR 16545.
                //  CHLD_MOD_RelActSpec no longer releases held calls.
                //  So now if the user wants to release a HELD call, now we are calling the 
                //  sAT_PlusCHLD(..) function with CHLD_MOD_RelAnySpec as the parameter.



		cmd_hold = MFW_CM_TERMINATED;
		sprintf(callId, "%d", call_number);
               // Feb 27, 2006    REF:DR OMAPS00067884  x0039928	 
               // Fix :  sAT_PercentCHLD() is called if the mode > CHLD_MOD_RelDialCall
		if (sAT_PercentCHLD(CMD_SRC_LCL, CHLD_MOD_RelAnySpec, callId) != AT_EXCT)
		    return CM_ERROR;
		return CM_OK;
   	}
	return CM_ERROR;
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_force_disconnect |
+--------------------------------------------------------------------+


   PURPOSE : Disconnection of any call existent needed for Multiparty and some structured procedures
	     call termination in state U9

*/

void cm_force_disconnect(void)
{
  T_ACI_RETURN res;

  TRACE_FUNCTION("cm_force_disconnect()");

  res = sAT_H(CMD_SRC_LCL);
  if (res != AT_EXCT && res != AT_CMPL)
      TRACE_ERROR("satReject() error");

  return;
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_ok_disconnect    |
+--------------------------------------------------------------------+


   PURPOSE : indicates disconnection from called party;
		sends E_CM_DISCONNECT to mmi

*/

#ifdef FF_2TO1_PS
void cm_ok_disconnect(T_ACI_CMD_SRC src, SHORT call_id)
{
    T_CAUSE_ps_cause cause;  /* Marcus: Extended error reporting: 12/11/2002 */
    T_MFW_CM_DISCONNECT_ALL disconnect_all;

    TRACE_FUNCTION("cm_ok_disconnect()");

    TRACE_EVENT_P4("dis_connect.call_number %d, cmd_hold %d, src %d, call_id %d",
                              dis_connect.call_number, cmd_hold, src, call_id);




    /* Marcus: CCBS: 14/11/2002: Start */
    if (cmd_hold == MFW_CM_CCBS_REGISTER)
    {
        /* Rejecting the offered CCBS registration */
        TRACE_EVENT("cmd_hold == MFW_CM_CCBS_REGISTER");
        cmd_hold = 0;
        cm_ccbs_ok();
        return;
    }
    /* Marcus: CCBS: 14/11/2002: End */

    if (cmd_hold == MFW_CM_MPTY_TERMINATED)
	       dis_connect.call_number = 0;
	//Nov 02, 2005    DR OMAPS00052132   xdeepadh	
	//The usage of ATI enum is put under the flag FF_ATI
#if  defined (FF_ATI) || defined (NEPTUNE_BOARD)
        else if (src EQ CMD_SRC_ATI_1) /* NM Berlin/UK integration 21.09.01 */
        {
               dis_connect.call_number = call_id;
        }
#endif 
       

    /* send event */
    qAT_PlusCEER( CMD_SRC_LCL, &cause);
    /* Marcus: Extended error reporting: 12/11/2002: Start */
//    TRACE_EVENT_P1("qAT_PlusCEER(%04X)", cause);

    if (cause.ctrl_value != CAUSE_is_from_nwcc)
    {
        /* Treat Condat defined cause values as if no cause given */
        dis_connect.cause = NOT_PRESENT_8BIT;
    }
    else
    {
        /* Standards defined cause value is given */
        dis_connect.cause = cause.value.nwcc_cause;
    }

    TRACE_EVENT_P1("dis_connect.cause = %02X)", dis_connect.cause);
    /* Marcus: Extended error reporting: 12/11/2002: End */

    /* allow a new outgoing */
    call_stat = MFW_CALL_FREE;
    call_type = MFW_CALL_FREE;

    if (cmd_hold EQ MFW_CM_DISCONNECT_ALL)
    {
        disconnect_all.result = CM_DISCONNECT_ALL_RESULT_OK;
        if (cause.ctrl_value != CAUSE_is_from_nwcc)
        {
            /* Treat Condat defined cause values as if no cause given */
            disconnect_all.cause = NOT_PRESENT_8BIT;
        }
        else
        {
            /* Standards defined cause value is given */
            disconnect_all.cause = cause.value.nwcc_cause;
        }
        cm_signal(E_CM_DISCONNECT_ALL,&disconnect_all);
    }
    else
        cm_signal(E_CM_DISCONNECT, &dis_connect);

    cmd_hold = 0;

}
#else
void cm_ok_disconnect(T_ACI_CMD_SRC src, SHORT call_id)
{
    USHORT cause;  /* Marcus: Extended error reporting: 12/11/2002 */
    T_MFW_CM_DISCONNECT_ALL disconnect_all;

    TRACE_FUNCTION("cm_ok_disconnect()");

    TRACE_EVENT_P4("dis_connect.call_number %d, cmd_hold %d, src %d, call_id %d",
                              dis_connect.call_number, cmd_hold, src, call_id);




    /* Marcus: CCBS: 14/11/2002: Start */
    if (cmd_hold == MFW_CM_CCBS_REGISTER)
    {
        /* Rejecting the offered CCBS registration */
        TRACE_EVENT("cmd_hold == MFW_CM_CCBS_REGISTER");
        cmd_hold = 0;
        cm_ccbs_ok();
        return;
    }
    /* Marcus: CCBS: 14/11/2002: End */

    if (cmd_hold == MFW_CM_MPTY_TERMINATED)
	       dis_connect.call_number = 0;
	//Nov 02, 2005    DR OMAPS00052132   xdeepadh	
	//The usage of ATI enum is put under the flag FF_ATI
#ifdef FF_ATI	
	else if (src EQ CMD_SRC_ATI_1) //NM Berlin/UK integration 21.09.01
	{
		dis_connect.call_number = call_id;
	}
#endif	//FF_ATI  

    /* send event */
    qAT_PlusCEER( CMD_SRC_LCL, &cause);
    /* Marcus: Extended error reporting: 12/11/2002: Start */
    TRACE_EVENT_P1("qAT_PlusCEER(%04X)", cause);
    if (GET_CAUSE_DEFBY(cause) == DEFBY_CONDAT)
    {
        /* Treat Condat defined cause values as if no cause given */
        dis_connect.cause = NOT_PRESENT_8BIT;
    }
    else
    {
        /* Standards defined cause value is given */
        dis_connect.cause = GET_CAUSE_VALUE(cause);
    }
    TRACE_EVENT_P1("dis_connect.cause = %02X)", dis_connect.cause);
    /* Marcus: Extended error reporting: 12/11/2002: End */

    /* allow a new outgoing */
    call_stat = MFW_CALL_FREE;
    call_type = MFW_CALL_FREE;

    if (cmd_hold EQ MFW_CM_DISCONNECT_ALL)
    {
        disconnect_all.result = CM_DISCONNECT_ALL_RESULT_OK;
        if (GET_CAUSE_DEFBY(cause) == DEFBY_CONDAT)
        {
            /* Treat Condat defined cause values as if no cause given */
            disconnect_all.cause = NOT_PRESENT_8BIT;
        }
        else
        {
            /* Standards defined cause value is given */
            disconnect_all.cause = GET_CAUSE_VALUE(cause);
        }
        cm_signal(E_CM_DISCONNECT_ALL,&disconnect_all);
    }
    else
        cm_signal(E_CM_DISCONNECT, &dis_connect);

    cmd_hold = 0;

}
#endif

/* Marcus: CCBS: 14/11/2002: Start */
/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM	        	     |
| STATE  : code 			ROUTINE: cm_error_disconnect             |
+--------------------------------------------------------------------+

   PURPOSE : indicates failed disconnection

*/
void cm_error_disconnect(void)
{
    TRACE_FUNCTION ("cm_error_disconnect()");
    if (cmd_hold == MFW_CM_DISCONNECT_ALL)
    {
        TRACE_EVENT("cmd_hold == MFW_CM_DISCONNECT_ALL");
        cmd_hold = 0;
    }

    /* Marcus: CCBS: 14/11/2002: Start */
    if (cmd_hold == MFW_CM_CCBS_REGISTER)
    {
        TRACE_EVENT("cmd_hold == MFW_CM_CCBS_REGISTER");
        /* Rejecting the offered CCBS registration */
        cmd_hold = 0;
        cm_ccbs_error();
    }
}
/* Marcus: CCBS: 14/11/2002: End */

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_command	     |
+--------------------------------------------------------------------+


   PURPOSE :

*/

T_MFW cm_command(SHORT call_number, UBYTE command, UBYTE crss_string)
{
  CHAR		      callId[5];
  UBYTE 	      res;
  SHORT retVal, modeRetVal; // xnkulkar SPR-18262: Added "modeRetVal"  to store the return value of "mfw_cbuf_put_mode ()"

  TRACE_FUNCTION ("cm_command()");

// JP PATCH
	cmd_hold = 0;
// END PATCH

  cmd.call_number = call_number;
  cmd.command	  = command;

  switch (command)
  {
    case CM_HOLD:
    case CM_SWAP:
    case CM_RETRIEVE:
    case CM_SWAP_MULTIPARTY:
    case CM_HOLD_MULTIPARTY:
    case CM_RETRIEVE_MULTIPARTY:
      /* place all active calls on held and accept held or waiting call */
      if (sAT_PlusCHLD(CMD_SRC_LCL, CHLD_MOD_HldActAndAcpt, 0) != AT_EXCT)
	return FALSE;
      break;

    case CM_BUILD_MULTIPARTY:
      if (sAT_PlusCHLD(CMD_SRC_LCL, CHLD_MOD_AddHld, 0)!= AT_EXCT)
	return FALSE;
      break;

    case CM_SPLIT_MULTIPARTY:
      if (call_number <= 0)
	return FALSE;
      sprintf(callId, "%d", call_number);
      if (sAT_PlusCHLD(CMD_SRC_LCL, CHLD_MOD_HldActExc, callId)!= AT_EXCT)
	return FALSE;
      break;

    case CM_ETC:
      /* connects two calls and disconnects the subsrciber from both calls */
      if (sAT_PlusCHLD(CMD_SRC_LCL, CHLD_MOD_Ect, 0) != AT_EXCT)
	return FALSE;
      break;

    case CM_CALL_DEFLECTION:
      break;

    case CM_CCBS:
        TRACE_EVENT("CM_CCBS");
      sAT_PlusCHLD(CMD_SRC_LCL, CHLD_MOD_Ccbs, 0);
      break;

    case CM_MODIFY:
      break;

    case CM_DTMF_ACTIVE:
	// xnkulkar SPR-18262
	// If there is a DTMF tone command already in the queue, add the current tone also
	// in the queue (with start mode). While attempting to send a tone,  if the request is not successful,
	// add the DTMF request to the queue.  Also, start adding to the queue if we are expecting an acknowledgement 
	// (rAT_OK) for the previous DTMF tone request sent. 
	if (mfw_cbuf_num_elements(mfw_cm_dtmf_q_id) != 0)
    	{
    		/*
    		** There are already DTMF tones queued to be sent, so queue this request too along with the mode (Start).
    		*/
		modeRetVal = mfw_cbuf_put_mode(mfw_cm_dtmf_q_id, VTS_MOD_ManStart);
    		retVal = mfw_cbuf_put(mfw_cm_dtmf_q_id, &crss_string);
		// If the return values are negative, attempt to Queue the DTMF request failed
    		if (retVal < 0 || modeRetVal < 0)
    		{
    			TRACE_EVENT_P1("ERROR : mfw_cbuf_put failed with error %d", retVal);
    			TRACE_EVENT_P1("ERROR : mfw_cbuf_put_mode failed with error %d", modeRetVal);
    			/*
    			** Failed to Queue the DTMF request.
    			*/
    			return(FALSE);
    		}
    	}
    	else
	{
		//xnkulkar 18262
		// While attempting to send a tone,  if the command is not successfully completed, add 
		// the request to the queue. After sending a DTMF tone comand, set the variable expectRatOk to true.
		// This will be reset only when all the DTMF tones in queue are sent.
	    	if ( expectRatOk == TRUE || sAT_PlusVTS(CMD_SRC_LCL, (CHAR)crss_string, VTS_MOD_ManStart) != AT_EXCT)
	      	{
	      		/*
	      		** The attempt to send an immediate DTMF failed.
	      		** Add the failed attempt onto the DTMF queue and wait.
	      		*/
	      		// xnkulkar 18262
	      		// Also store the "mode"(Start), in which the DTMF tone has to be sent.
	      		// This is stored in the queue in an array.
			modeRetVal = mfw_cbuf_put_mode(mfw_cm_dtmf_q_id, VTS_MOD_ManStart);
	      		retVal = mfw_cbuf_put(mfw_cm_dtmf_q_id, &crss_string);
	    		if (retVal < 0 || modeRetVal < 0 )
	    		{
	    			TRACE_EVENT_P1("ERROR : mfw_cbuf_put failed with error %d", retVal);
	    			TRACE_EVENT_P1("ERROR : mfw_cbuf_put_mode failed with error %d", modeRetVal);
	    			/*
	    			** Failed to Queue the DTMF request.
	    			*/
	    			return(FALSE);
	    		}
	      	}
		expectRatOk = TRUE; // xnkulkar SPR-18262: Set this flag to TRUE
	}			
      currCmd = AT_CMD_VTS;
      break;

    case CM_DTMF_INACTIVE:
	// xnkulkar SPR-18262
	// If there is a DTMF tone command already in the queue, add the current tone also
	// in the queue (with stop mode). While attempting to send a tone,  if the request is not successful,
	// add the DTMF request to the queue.  Also, start adding to the queue if we are expecting an acknowledgement 
	// (rAT_OK) for the previous DTMF tone request sent. 
    	if (mfw_cbuf_num_elements(mfw_cm_dtmf_q_id) != 0)
    	{
    		/*
    		** There are already DTMF tones queued to be sent, so queue this request too along with the mode (Stop).
    		*/
		modeRetVal = mfw_cbuf_put_mode(mfw_cm_dtmf_q_id, VTS_MOD_ManStop);
    		retVal = mfw_cbuf_put(mfw_cm_dtmf_q_id, &crss_string);
    		if (retVal < 0 || modeRetVal < 0)
    		{
    			TRACE_EVENT_P1("ERROR : mfw_cbuf_put failed with error %d", retVal);
    			TRACE_EVENT_P1("ERROR : mfw_cbuf_put_mode failed with error %d", modeRetVal);
    			/*
    			** Failed to Queue the DTMF request.
    			*/
    			return(FALSE);
    		}
    	}
    	else
	{
	    	if (expectRatOk  == TRUE || sAT_PlusVTS(CMD_SRC_LCL, (CHAR)crss_string, VTS_MOD_ManStop) != AT_EXCT)
	      	{
	      		/*
	      		** The attempt to send an immediate DTMF failed.
	      		** Add the failed attempt onto the DTMF queue and wait.
	      		*/
			modeRetVal = mfw_cbuf_put_mode(mfw_cm_dtmf_q_id, VTS_MOD_ManStop);
	      		retVal = mfw_cbuf_put(mfw_cm_dtmf_q_id, &crss_string);
	    		if (retVal < 0 || modeRetVal < 0)
	    		{
	    			TRACE_EVENT_P1("ERROR : mfw_cbuf_put failed with error %d", retVal);
	    			TRACE_EVENT_P1("ERROR : mfw_cbuf_put_mode failed with error %d", modeRetVal);
	    			/*
	    			** Failed to Queue the DTMF request.
	    			*/
	    			return(FALSE);
	    		}
	      	}
		expectRatOk = TRUE; //xnkulkar SPR-18262: set this flag to TRUE
      }
      res = TRUE;
      cm_signal(E_CM_DTMF, &res);
      break;

    case CM_DTMF_AUTO:
    	if (mfw_cbuf_num_elements(mfw_cm_dtmf_q_id) != 0)
    	{
    		/*
    		** There are already DTMF tones queued to be sent, so queue this request to.
    		*/
		modeRetVal = mfw_cbuf_put_mode(mfw_cm_dtmf_q_id, VTS_MOD_Auto);
    		retVal = mfw_cbuf_put(mfw_cm_dtmf_q_id, &crss_string);
    		if (retVal < 0  || modeRetVal < 0)
    		{
    			TRACE_EVENT_P1("ERROR : mfw_cbuf_put failed with error %d", retVal);
	    		TRACE_EVENT_P1("ERROR : mfw_cbuf_put_mode failed with error %d", modeRetVal);
    			/*
    			** Failed to Queue the DTMF request.
    			*/
    			return(FALSE);
    		}
    	}
    	else
		{
	    	if (sAT_PlusVTS(CMD_SRC_LCL, (CHAR)crss_string, VTS_MOD_Auto) != AT_EXCT)
	      	{
	      		/*
	      		** The attempt to send an immediate DTMF failed.
	      		** Add the failed attempt onto the DTMF queue and wait.
	      		*/
			modeRetVal = mfw_cbuf_put_mode(mfw_cm_dtmf_q_id, VTS_MOD_Auto);
	      		retVal = mfw_cbuf_put(mfw_cm_dtmf_q_id, &crss_string);
	    		if (retVal < 0 || modeRetVal < 0)
	    		{
	    			TRACE_EVENT_P1("ERROR : mfw_cbuf_put failed with error %d", retVal);
	    			TRACE_EVENT_P1("ERROR : mfw_cbuf_put_mode failed with error %d", modeRetVal);
	    			/*
	    			** Failed to Queue the DTMF request.
	    			*/
	    			return(FALSE);
	    		}
	      	}
		}
      break;

    default:
      break;
  }
  return TRUE;
}


/*
+--------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	     |
| STATE   : code			 ROUTINE : send_queued_dtmf_tone	     |
+--------------------------------------------------------------------+


   PURPOSE : Check the DTMF Queue and if required send the next DTMF Tone Request.

*/
static void send_queued_dtmf_tone(void)
{
	SHORT retVal;
    UBYTE qdtmf;
	//xnkulkar SPR-18262: Added these variables to store the Mode
	T_ACI_VTS_MOD  vts_mode = VTS_MOD_NotPresent; 

    	TRACE_FUNCTION("send_queued_dtmf_tone()");

    // If there are DTMF tones to be sent in the queue
    if (mfw_cbuf_num_elements(mfw_cm_dtmf_q_id) > 0)
    {
    		// Get the mode (Start / Stop) corresponding to the DTMF tone
    		vts_mode = (T_ACI_VTS_MOD)mfw_cbuf_get_mode(mfw_cm_dtmf_q_id);
		// Get the DTMF key for which the tone is to be sent from the queue
	    	retVal = mfw_cbuf_get(mfw_cm_dtmf_q_id, &qdtmf);
	    	if (retVal > 0)
		{
	    		if (sAT_PlusVTS(CMD_SRC_LCL, (CHAR)qdtmf, vts_mode) != AT_EXCT)
		      	{
		      		/*
		      		** The attempt to send an immediate DTMF failed
		      		*/
		      		TRACE_EVENT("ERROR : Attempt to send a queued DTMF tone failed!!!!");
		      	}
		}
    		else
		{
			TRACE_EVENT_P1("ERROR : mfw_cbuf_get failed with error value %d", retVal);
		}
   	}
    	 else
    	 {
	  	// xnkulkar SPR-18262: if number of elements in queue is zero, we can start sending 
	  	// DTMF so reset this variable. 
	 	expectRatOk = FALSE;
    	 }
}

/*
+--------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	     |
| STATE   : code			 ROUTINE : cm_ok_dtmf	     |
+--------------------------------------------------------------------+


   PURPOSE : DTMF activation is successful.

*/

void cm_ok_dtmf(void)
{
    UBYTE res;

    currCmd = AT_CMD_NONE;
    res = TRUE;
    cm_signal(E_CM_DTMF, &res);

	send_queued_dtmf_tone();

	return;
}


/*
+--------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	     |
| STATE   : code			 ROUTINE : cm_error_tdmf     |
+--------------------------------------------------------------------+


   PURPOSE : DTMF activation is failed.

*/

void cm_error_dtmf(void)
{
    UBYTE res;

    currCmd = AT_CMD_NONE;
    res = FALSE;
    cm_signal(E_CM_DTMF, &res);

	send_queued_dtmf_tone();

}


/*
+--------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	     |
| STATE   : code			 ROUTINE : cm_result_cmd     |
+--------------------------------------------------------------------+


   PURPOSE : Acknowledgement for the requested ss command.

*/

void cm_result_cmd(T_ACI_CMD_SRC src, UBYTE result)
{
    SHORT call_number;

	TRACE_EVENT_P1("cm_result_cmd(), cmd_hold = %d", cmd_hold);

	/* MC changed all the "if"s to a switch to allow default 11/04/02*/
    switch (cmd_hold)
    {
	case MFW_CM_MT_REJECT:
		break; /* CONQUEST 6040- MC-  put a break in the case so no action taken*/
	case MFW_CM_MPTY_TERMINATED:
	case MFW_CM_TERMINATED:

    {
      if (result EQ Present)
	cm_ok_disconnect(CMD_SRC_LCL, 0);
      return;
    }
//	break;  // RAVI

    case MFW_CM_MT_ACCEPT:
    {
      /*
       * active call on hold, accept new incoming call
       */
      cmd_hold = 0;
      if (result EQ Present)
	/*
	 * Call on hold was successful
	 */
	cm_ok_connect();

      else
      {
	if (cm_search_callId(CAL_STAT_Active, &call_number) != CM_OK)
	  return;
	cmd.call_number = call_number;
	cc_id = 0; // ???
      }
    }
	break;


	case MFW_CM_HOLD_AND_DIAL:
    {
      /*
       * active call on hold, accept new incoming call
       */
      cmd_hold = 0;
      if (result EQ Present)
	/*
	 * Call on hold was successful
	 */
	 cm_ok_connect();

      else
      {
	if (cm_search_callId(CAL_STAT_Active, &call_number) != CM_OK)
	  return;
	cmd.call_number = call_number;
	cc_id = 0; // ???
      }
    }
	break;

	case MFW_CM_1_SEND:
	{
			
		cmd_hold = 0;
		if (result == Present)
		{
			// MMI-SPR 13873 xkundadu
			// Handling of 1SEND 
			// If the user presses 1SEND, release active calls and accept 
			// the WAITING call
		       if (dis_connect.call_number NEQ -1)
		    	{
		    		// If there is an active call, disconnect it.
				cm_ok_disconnect(CMD_SRC_LCL, 0);
		    	}
	      
	    		if (!cmd.call_number)
		       {
				// If there is waiting call, accept the call
			 	cm_ok_connect();
		       }
		    	cmd.call_number = -1;
		}
		
  	}
	   break;

        /* Marcus: CCBS: 14/11/2002: Start */
        case MFW_CM_CCBS_REGISTER:

            TRACE_EVENT("MFW_CM_CCBS_REGISTER");

            cmd_hold = 0;

            if (result == Present)
            {
                TRACE_EVENT("result == Present");
                cm_ccbs_ok();
            }
            else    /* result is NotPresent */
            {
                TRACE_EVENT("result != Present");
                cm_ccbs_error();
            }
            return;

        case MFW_CM_CCBS_RECALL:

            TRACE_EVENT("MFW_CM_CCBS_RECALL");

            cmd_hold = 0;

            if (result == Present)
            {
                TRACE_EVENT("result == Present");
                cm_ccbs_ok();
            }
            else    /* result is NotPresent */
            {
                TRACE_EVENT("result != Present");
                cm_ccbs_error();
            }
            return;
        /* Marcus: CCBS: 14/11/2002: Start */

	default:/*For other command types ensure correct result is passed up to BMI*/
	{
	    cmd.result = result;
	}
	break;
  }


#if defined (WIN32)
    {
      char buf[40];
      sprintf (buf, "Event CM_COMMAND for %d", cmd.call_number);
      TRACE_EVENT (buf);
      sprintf (buf, "Result %d Command %d",cmd.result, cmd.command);
      TRACE_EVENT (buf);
    }
#endif
    cmd.result = result;
    cm_signal(E_CM_COMMAND, &cmd);
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_cvt_speed_type   |
+--------------------------------------------------------------------+


   PURPOSE :  This function is used to convert the type of data rate
	      used by MFW to the type of data rate used by ACI.

*/

LOCAL T_ACI_BS_SPEED cm_cvt_speed_type ( T_MFW_CM_DATA_SPEED speed )
{
  switch ( speed )
  {
    case ( SPEED_300 ):   return BS_SPEED_300_V110;
    case ( SPEED_1200 ):  return BS_SPEED_1200_V110;
    case ( SPEED_2400 ):  return BS_SPEED_2400_V110;
    case ( SPEED_4800 ):  return BS_SPEED_4800_V110;
    case ( SPEED_9600 ):  return BS_SPEED_9600_V110;
    case ( SPEED_14400 ): return BS_SPEED_14400_V110;
    default:	      return BS_SPEED_NotPresent;
  }
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_cvt_bs_type      |
+--------------------------------------------------------------------+


   PURPOSE :  This function is used to convert the type of bearer service
	      used by MFW to the type of bearer service used by ACI.

*/

LOCAL T_ACI_CBST_NAM cm_cvt_bs_type ( T_MFW_CM_BS bs )
{
  switch ( bs )
  {
    case ( Asynch ): return CBST_NAM_Asynch;
    case ( Synch ):  return CBST_NAM_Synch;
    default:	     return CBST_NAM_NotPresent;
  }
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_cvt_ce_type      |
+--------------------------------------------------------------------+


   PURPOSE :  This function is used to convert the  data mode
	      used by MFW to the data mode used by ACI.

*/

LOCAL T_ACI_CBST_CE cm_cvt_ce_type ( T_MFW_CM_CE ce )
{
  switch ( ce )
  {
    case ( Transparent ):     return CBST_CE_Transparent;
    case ( NonTransparent ):  return CBST_CE_NonTransparent;
    default:	      return CBST_CE_NotPresent;
  }
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_set_bc_para      |
+--------------------------------------------------------------------+


   PURPOSE :  Set bearer parameter for mobile originated calls.

*/

void cm_set_bc_para(T_MFW_CM_BC_PARA * bc, UBYTE ti)
{
  TRACE_FUNCTION ("cm_set_bc_para()");

  sAT_PlusCBST(CMD_SRC_LCL,
	       cm_cvt_speed_type ((T_MFW_CM_DATA_SPEED)bc->rate),
	       cm_cvt_bs_type ((T_MFW_CM_BS)bc->bearer_serv),
	       cm_cvt_ce_type ((T_MFW_CM_CE)bc->conn_elem));
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_notify	     |
+--------------------------------------------------------------------+


   PURPOSE :  Change of SS status from call party.

*/
void cm_notify(T_ACI_CSSU_CODE code,
			   SHORT	   index,
			   UBYTE	  *number)
{	char debug[50];
	sprintf(debug,"cm_notify(), code:%d, index:%d" , code, index);
	TRACE_EVENT(debug);
	if (number)
		notify.call_number = index;

	if (code == CSSU_CODE_OnHold)
		notify.notification = MFW_CM_HOLD;
	if (code == CSSU_CODE_Retrieved)
		notify.notification = MFW_CM_RETRIEVED;

	cm_signal(E_CM_NOTIFY, &notify);
}


/*
+--------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	     |
| STATE   : code			 ROUTINE : cm_get_aoc_value  |
+--------------------------------------------------------------------+


   PURPOSE :  Getting AoC (advice of charge) value.

*/

T_MFW cm_get_aoc_value(UBYTE request_type, T_MFW_CM_AOC_INFO *aoc_info)
{
    T_ACI_RPCT_VAL  rpuct;

    TRACE_FUNCTION ("cm_get_aoc_value()");

    switch (request_type)
    {
	/* Price pro unit and currency table */
	case CM_AOC_PUCT:
	    if (qAT_PlusCPUC(CMD_SRC_LCL,
		(CHAR *)aoc_info->cur,
		(CHAR *)aoc_info->ppu) == AT_CMPL)
	    {
		aoc_info->requested_type = CM_AOC_PUCT;
		return CM_OK;
	    }
	    else
		return CM_NO_AOC;
//	    break;  // RAVI

	/* maximum value of accumulated Call Meter */
	case CM_AOC_ACMMAX:
	    if (qAT_PlusCAMM(CMD_SRC_LCL, &aoc_info->acm_max) == AT_CMPL)
	    {
		aoc_info->requested_type = CM_AOC_ACMMAX;
		return CM_OK;
	    }
	    else
		return CM_NO_AOC;
//	    break;  // RAVI

	/* Accumulated Call Meter */
	case CM_AOC_ACM:
	    if (qAT_PlusCACM(CMD_SRC_LCL, &aoc_info->acm) == AT_CMPL)
	    {
		aoc_info->requested_type = CM_AOC_ACM;
		return CM_OK;
	    }
	    else
		return CM_NO_AOC;
	//     break;  // RAVI

	case CM_AOC_CCM:
	    if (qAT_PlusCAOC(CMD_SRC_LCL, &aoc_info->ccm) == AT_CMPL)
	    {
		aoc_info->requested_type = CM_AOC_CCM;
		return CM_OK;
	    }
	    else
		return CM_NO_AOC;
//	    break;   // RAVI

    case CM_AOC_TIMERS:
	if (qAT_PercentCTV(CMD_SRC_LCL, &aoc_info->actual_call_timer) == AT_CMPL)
	{
	    aoc_info->requested_type = CM_AOC_TIMERS;
	    return CM_OK;
	}
	else
	    return CM_NO_AOC;
//	break;  // RAVI

    case CM_AOC_CCM_PUCT:
	if (qAT_PercentCAOC(CMD_SRC_LCL, (CHAR *)aoc_info->cur, (CHAR *)aoc_info->ccm_puct) == AT_CMPL)
	{
	    aoc_info->requested_type = CM_AOC_CCM_PUCT;
	    return CM_OK;
	}
	else
	    return CM_NO_AOC;
//	break;  // RAVI

    case CM_AOC_ACM_PUCT:
	if (qAT_PercentCACM(CMD_SRC_LCL, (CHAR *)aoc_info->cur, (CHAR *)aoc_info->acm_puct) == AT_CMPL)
	{
	    aoc_info->requested_type = CM_AOC_ACM_PUCT;
	    return CM_OK;
	}
	else
	    return CM_NO_AOC;
    case CM_AOC_RAW_PUCT:
	if (qAT_PercentRPCT(CMD_SRC_LCL, &rpuct) == AT_CMPL)
	{
	    aoc_info->requested_type = CM_AOC_RAW_PUCT;
	    strncpy((char *)aoc_info->cur, (char *)rpuct.currency, MAX_CUR_LEN);
	    aoc_info->eppu = rpuct.eppu;
	    aoc_info->exp  = rpuct.exp;
	    aoc_info->sexp = rpuct.sexp;
	    return CM_OK;
	}
	else
	    return CM_NO_AOC;
//	break;  // RAVI

    default:
	return CM_NO_AOC;
  }
}



/*
+----------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	       |
| STATE   : code			 ROUTINE : cm_reset_aoc_value  |
+----------------------------------------------------------------------+


   PURPOSE :  Setting AoC (advice of charge) value.

*/

T_MFW cm_set_aoc_value(UBYTE request_type,
		       T_MFW_CM_AOC_INFO *aoc_info,
		       UBYTE *pwd)
{
    TRACE_FUNCTION ("cm_reset_aoc_value()");

    switch (request_type)
    {
	case CM_AOC_PUCT:
	    if (sAT_PlusCPUC(CMD_SRC_LCL, (CHAR *)aoc_info->cur,
			     (CHAR *)aoc_info->ppu, (CHAR *)pwd) != AT_EXCT)
		return CM_ERROR;
	    break;

	case CM_AOC_ACMMAX:
	    if (sAT_PlusCAMM(CMD_SRC_LCL, aoc_info->acm_max,
			     (CHAR *)pwd) != AT_EXCT)
		return CM_ERROR;
	    break;

	case CM_AOC_ACM:
	    if (sAT_PlusCACM(CMD_SRC_LCL, (CHAR *)pwd) != AT_EXCT)
		return CM_ERROR;
	    break;

	default:
	    return CM_ERROR;
    }

    return CM_OK;
}


/*
+----------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	       |
| STATE   : code			 ROUTINE : cm_cvt_cmd	       |
+----------------------------------------------------------------------+


   PURPOSE :  Convert AoC command

*/

UBYTE cm_cvt_cmd(T_ACI_AT_CMD cmdId)
{
    switch (cmdId)
    {
	case AT_CMD_CACM:   return CM_AOC_ACM;
	case AT_CMD_CAMM:   return CM_AOC_ACMMAX;
	case AT_CMD_CPUC:   return CM_AOC_PUCT;
	default:	    return CM_AOC_UNKNOWN;
    }
}


/*
+----------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	       |
| STATE   : code			 ROUTINE : cm_ok_aoc	       |
+----------------------------------------------------------------------+


   PURPOSE :  Setting AoC is successful.

*/

void cm_ok_aoc(T_ACI_AT_CMD cmdId)
{
    T_MFW_CM_AOC_CNF aoc_cnf;

    aoc_cnf.requested_type = cm_cvt_cmd(cmdId);
    aoc_cnf.result = CM_AOC_CONF_OK;
    cm_signal(E_CM_AOC_CNF, &aoc_cnf);
}


/*
+----------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	       |
| STATE   : code			 ROUTINE : cm_error_aoc        |
+----------------------------------------------------------------------+


   PURPOSE :  Setting AoC is failure.

*/

void cm_error_aoc(T_ACI_AT_CMD cmdId, T_ACI_CME_ERR reason)
{
    T_MFW_CM_AOC_CNF aoc_cnf;

    aoc_cnf.requested_type = cm_cvt_cmd(cmdId);
    aoc_cnf.result = CM_AOC_CONF_UNKNOWN;

    if (reason EQ CME_ERR_SimPin2Req)
	aoc_cnf.result = CM_AOC_CONF_SIMPIN2REQ;

    if (reason EQ CME_ERR_WrongPasswd)
	aoc_cnf.result = CM_AOC_CONF_WRONGPASSWD;

    if (reason EQ CME_ERR_OpNotAllow)
	aoc_cnf.result = CM_AOC_CONF_OPNOTALLOW;

    if (reason EQ CME_ERR_AcmResetNeeded)
	aoc_cnf.result = CM_AOC_CONF_ACMRESETNEEDED;

    cm_signal(E_CM_AOC_CNF, &aoc_cnf);
}


/*
+-----------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	  |
| STATE   : code			 ROUTINE : rAT_PercentCTV |
+-----------------------------------------------------------------+


   PURPOSE : manage timer in every second

*/

void rAT_PercentCTV()
{
    TRACE_FUNCTION("rAT_PercentCTV()");
    cm_signal(E_CM_TIMER_EVERY_SECOND, 0);
}


/*
+-----------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	  |
| STATE   : code			 ROUTINE : rAT_PlusCCCM   |
+-----------------------------------------------------------------+


   PURPOSE :

*/

void rAT_PlusCCCM(LONG *ccm)
{
    T_MFW_CM_AOC_INFO aoc_info;
    T_ACI_RPCT_VAL    rpuct;

    TRACE_FUNCTION("rAT_PlusCCCM()");

    memset(&aoc_info, 0, sizeof(T_MFW_CM_AOC_INFO));

    qAT_PlusCAMM(CMD_SRC_LCL, &aoc_info.acm_max);
    qAT_PlusCACM(CMD_SRC_LCL, &aoc_info.acm);
    aoc_info.ccm = *ccm;
    qAT_PercentCTV(CMD_SRC_LCL, &aoc_info.actual_call_timer);
    qAT_PercentRPCT(CMD_SRC_LCL, &rpuct);
    strncpy((char *)aoc_info.cur, (char *)rpuct.currency, MAX_CUR_LEN);
    aoc_info.requested_type = CM_AOC_CCM;
    aoc_info.eppu = rpuct.eppu;
    aoc_info.exp  = rpuct.exp;
    aoc_info.sexp = rpuct.sexp;

    cm_signal(E_CM_AOC, &aoc_info);
}


/*
+----------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	 |
| STATE   : code			 ROUTINE : cm_set_redial |
+----------------------------------------------------------------+


   PURPOSE :  Set redial mode (automatic/manual).

*/

void cm_set_redial(UBYTE redial_mode)
{
 // U8 version;  // RAVI
//	Apr 14, 2005	REF: CRR 29991   xpradipg
//	local definition
#ifdef FF_MMI_OPTIM
	T_MFW_CM_BLACKLIST_LIST black_list;
#endif	

  TRACE_FUNCTION ("cm_set_redial()");

  if (redial_mode == CM_REDIAL_BLACKLIST)
  {
	memset(&black_list, 0, sizeof(T_MFW_CM_BLACKLIST_LIST));
//	Apr 14, 2005	REF: CRR 29991   xpradipg
//	reset the file contents
#ifdef FF_MMI_OPTIM
  	if(flash_MMI_blackList_write((U8 *)&black_list, sizeof(T_MFW_CM_BLACKLIST_LIST),0) < 0)
		TRACE_FUNCTION(" Error writing into file");
#endif	
	return;
  }

  if (redial_mode == CM_REDIAL_OFF
	  || redial_mode == CM_REDIAL_AUTO
	  || redial_mode == CM_REDIAL_MANU)
  {
    redial_stat = redial_mode;

    /* write redialing mode to EEPROM */

	FFS_flashData.redial_mode =redial_mode;
	flash_write();

  }
}


/*
+---------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	      |
| STATE   : code			 ROUTINE : cm_get_redial_mode |
+---------------------------------------------------------------------+


   PURPOSE :  Request the setting of redial mode (automatic/manual).

*/

T_MFW cm_get_redial_mode(void)
{
    return redial_stat;
}




/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_stop_redialTim   |
+--------------------------------------------------------------------+


   PURPOSE :  Stop redialing time.

*/

void cm_stop_redialTim(void)
{
    if (!redial_count)
	timStop(redialTim1);

    if (redial_count >= 1 AND redial_count <= 3)
	timStop(redialTim24);

    if (redial_count >= 4 AND redial_count < MAX_REDIAL_ATTEMPT)
	timStop(redialTim5);
	redial_count = 0;
	rdl.left_attempts = 0;

	/*
		reset the counter
	*/

    call_stat	 = MFW_CALL_FREE;
    call_type	 = MFW_CALL_FREE;
    cc_stat.type = MFW_CALL_FREE;
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_redial_abort     |
+--------------------------------------------------------------------+


   PURPOSE :  Stop redialing from MMI.

*/

void cm_redial_abort(void)
{

	TRACE_FUNCTION ("cm_redial_abort()");

    if (call_stat == REDIALING_CALL OR	call_stat  == OUTGOING_CALL)
	cm_stop_redialTim();

    rdl.redial_mode = CM_REDIAL_ABORTED;
    cm_signal(E_CM_REDIAL, &rdl);
}


/*
+---------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		      |
| STATE  : code 			ROUTINE: cm_autoredial_start  |
+---------------------------------------------------------------------+


   PURPOSE :  start autoredial.

*/

void cm_autoredial_start(void)
{
	timStart(redialTim1);
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_redial_timeout   |
+--------------------------------------------------------------------+


   PURPOSE :  Call back from system clock for redialing time interval.

*/

static int cm_redial_timeout(MfwEvt e, MfwTim *t)
{
  CHAR number[MFW_NUM_LEN+MAX_LEN+1];
  int max_num_size = MFW_NUM_LEN+MAX_LEN+1;

  TRACE_FUNCTION ("cm_redial_timeout()");

  memset(number, 0, sizeof(number));
  mfwStrncpy(number, (CHAR *)cc_stat.prefix, max_num_size);
  max_num_size -= strlen((char *)cc_stat.prefix);
  
  if ((cc_stat.ton EQ MFW_TON_INTERNATIONAL) AND (cc_stat.number[0] != '+'))
  {
    strcat(number, "+");
    max_num_size--;
  }
  
  strncat(number, (CHAR *)cc_stat.number, max_num_size);

  switch (redial_stat)
  {
    case CM_REDIAL_AUTO:
      if (sAT_Dn(CMD_SRC_LCL,
			     (CHAR *)number,
			      D_CLIR_OVRD_Default,
			      D_CUG_CTRL_NotPresent,
			      D_TOC_Voice) NEQ AT_EXCT)
      {
	    TRACE_ERROR("sAT_Dn error");
	return 0;
      }

      call_stat    = OUTGOING_CALL;

      cm_search_callId(CAL_STAT_Dial, &cc_stat.call_number);
      cc_stat.type = REDIALING_CALL;

      rdl.redial_mode	= CM_REDIAL_ATTEMPT;
      rdl.call_id	= cc_stat.call_number;
      mfwStrncpy((char *)rdl.number, (char *)cc_stat.number, MFW_NUM_LEN);
#ifdef NO_ASCIIZ
      rdl.name.len = cc_stat.name.len;
      memcpy(rdl.name.data,
	     cc_stat.name.data,
	     cc_stat.name.len);
#else
      mfwStrncpy((char *)rdl.name, (char *)cc_stat.name, MFW_TAG_LEN);
//	strcpy((char *)rdl.subaddr, (char *)cc_stat.subaddr);
#endif
      rdl.ton = cc_stat.ton;
      rdl.type = cc_stat.mode;
      redial_count++;
      rdl.left_attempts = MAX_REDIAL_ATTEMPT - redial_count;
      cm_signal(E_CM_REDIAL, &rdl);
      return 1;

    case CM_REDIAL_MANU:
      rdl.redial_mode	= CM_REDIAL_MANU;
      mfwStrncpy((char *)rdl.number, (char *)cc_stat.number, MFW_NUM_LEN);
#ifdef NO_ASCIIZ
      rdl.name.len = cc_stat.name.len;
      memcpy(rdl.name.data,
	     cc_stat.name.data,
	     cc_stat.name.len);
#else
      mfwStrncpy((char *)rdl.name, (char *)cc_stat.name, MFW_TAG_LEN);
#endif
      rdl.ton = cc_stat.ton;
      rdl.type = cc_stat.mode;
      rdl.left_attempts = MAX_REDIAL_ATTEMPT - redial_count;

      cm_signal(E_CM_REDIAL, &rdl);
      return 1;

    default:
      return 0;
  }
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_redial	     |
+--------------------------------------------------------------------+


   PURPOSE :  Start the manual redialing.

*/

void cm_redial()
{
  char buf[80];

  int max_buf_size = sizeof(buf);

  TRACE_FUNCTION ("cm_redial()");

  buf[0] = '\0';

  mfwStrncpy(buf, (char *)cc_stat.prefix, max_buf_size);
  max_buf_size -= strlen((char *)cc_stat.prefix);
  
  if ((cc_stat.ton EQ MFW_TON_INTERNATIONAL) AND (cc_stat.number[0] != '+'))
  {
      strcat(buf, "+");
      max_buf_size--;
  }

  strncat(buf, (char *)cc_stat.number, max_buf_size);

  if (sAT_Dn(CMD_SRC_LCL, buf, -1, -1, D_TOC_Voice) NEQ AT_EXCT)
  {
	TRACE_ERROR("sAT_Dn error");
  }

  call_stat = OUTGOING_CALL;
  cc_stat.type = REDIALING_CALL;
  redial_count++;
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_redial_get_count	 |
+--------------------------------------------------------------------+


   PURPOSE :  returns the counter of call attempt

*/
UBYTE	cm_redial_get_count(void)
{
	return redial_count;
}



/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_cvt_call_status  |
+--------------------------------------------------------------------+


   PURPOSE :  Convert the call status.

*/

LOCAL T_MFW_CM_CALL_STAT cm_cvt_call_status( T_ACI_CAL_STAT stat )
{
  switch ( stat )
  {
    case ( CAL_STAT_Held ):    return CALL_HELD;
    case ( CAL_STAT_Active ):  return CALL_ACTIVE;
    case ( CAL_STAT_Wait ):    return CALL_WAIT;
    case ( CAL_STAT_Dial ):    return CALL_DIAL;
    case (CAL_STAT_Alerting):  return CALL_ALERT;
    case (CAL_STAT_DeactiveReq): return CALL_DEACTIVE;
    default:		       return NOT_PRESENT;
  }
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_cvt_call_status  |
+--------------------------------------------------------------------+


   PURPOSE :  Request the call status.

*/

T_MFW_CM_CALL_TYPE cm_cvt_call_mode( T_ACI_CAL_MODE type )
{
TRACE_EVENT_P1("cm_cnt_call_mode %d", type);
  switch ( type )
  {
    case ( CAL_MODE_Voice ):	return VOICE_CALL;
    case ( CAL_MODE_Data ):	return DATA_CALL;
    case ( CAL_MODE_Fax ):	return FAX_CALL;
    case (CAL_MODE_VFD_Voice):	return VFD_VOICE;
    case (CAL_MODE_VAD_Voice):	return VAD_VOICE;
    case (CAL_MODE_VAF_Voice):	return VAF_VOICE;
    case (CAL_MODE_VFD_Data):	return VFD_DATA;
    case (CAL_MODE_VAD_Data):	return VAD_DATA;
    case (CAL_MODE_VAF_Fax):	return VAF_FAX;
    default:			return NONE_TYPE;
  }
}

T_MFW_CM_CALL_DIR cm_cvt_call_direction( T_ACI_CAL_TYPE type )
{
TRACE_EVENT_P1("cm_cvt_call_direction %d", type);
  switch ( type )
  {
    case ( CAL_TYPE_NotPresent):	return MFW_CM_INV_DIR;
    case ( CAL_TYPE_MOC):			return MFW_CM_MOC;
    case ( CAL_TYPE_MTC):			return MFW_CM_MTC;
    default:			return MFW_CM_INV_DIR;
  }
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_status	     |
+--------------------------------------------------------------------+


   PURPOSE :  Request the call status.

*/

int cm_status(SHORT call_number, T_MFW_CM_STATUS *status, UBYTE num)
{
    UBYTE cnt;
    int   i;
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
//	define and allocate memory
#ifdef FF_MMI_OPTIM
	T_ACI_CAL_ENTR 	    *call_tab;//[MAX_CALL_NR];
	call_tab = (T_ACI_CAL_ENTR*)mfwAlloc(sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
	if( NULL == call_tab)
		return 0;
#endif


    cnt = 0;
    qAT_PercentCAL(CMD_SRC_LCL, call_tab);

    if (call_number > 0)
    {
      for (i=0; i<MAX_CALL_NR; i++)
      {
	if (call_tab[i].index == call_number)
	{
	  status[0].call_number = call_tab[i].index;
	  status[0].stat =  cm_cvt_call_status(call_tab[i].status);
	  status[0].type = cm_cvt_call_mode(call_tab[i].calMode);
	  status[0].mtpy = (T_MFW_MTPY_MEMBER)call_tab[i].mpty;
	  status[0].call_direction = cm_cvt_call_direction(call_tab[i].calType);

	  if (call_tab[i].number != NULL)
	  {
	    mfwStrncpy((char *)status[0].number, call_tab[i].number, MFW_NUM_LEN);
	    status[0].ton = phb_cvtTon(call_tab[i].type.ton);
	  }
	  else
	    memset(status[0].number, '\0', MFW_NUM_LEN);

#ifdef NO_ASCIIZ
	  status[0].name.len = call_tab[i].alpha.len;
	  if (call_tab[i].alpha.len)
	    memcpy(status[0].name.data,
		   call_tab[i].alpha.data,
		   call_tab[i].alpha.len);
	  else //We'll also zero the string.
	    memset(status[0].name.data, '\0', PHB_MAX_LEN);
#else
	  if (call_tab[i].alpha != NULL)
	    mfwStrncpy((char *)status[0].name, call_tab[i].alpha, MFW_TAG_LEN);
	  else
	    memset(status[0].name, '\0', MFW_TAG_LEN);
#endif
	  cnt = 1;
	  break;
	}
      }
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
//	deallocate memory
#ifdef FF_MMI_OPTIM
	    if(call_tab)
	    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
#endif      
      return cnt;
    }

    if (!call_number)
    {
      for (i=0; i<MAX_CALL_NR; i++)
      {
	if ((call_tab[i].index EQ -1) OR cnt > num)
	    break;

	if (call_tab[i].status != CAL_STAT_NotPresent)
	{
	  status[cnt].call_number = call_tab[i].index;
	  status[cnt].stat = cm_cvt_call_status(call_tab[i].status);
	  status[cnt].type = cm_cvt_call_mode(call_tab[i].calMode);
	  status[cnt].mtpy = (T_MFW_MTPY_MEMBER)call_tab[i].mpty;
	  if (call_tab[i].number != NULL)
	  {
	    mfwStrncpy((char *)status[cnt].number, call_tab[i].number, MFW_NUM_LEN);
	    status[cnt].ton = phb_cvtTon(call_tab[i].type.ton);
	  }
	  else
	    memset(status[cnt].number, '\0', MFW_NUM_LEN);

#ifdef NO_ASCIIZ
	  status[cnt].name.len = call_tab[i].alpha.len;
	  if (call_tab[i].alpha.len != 0)
	    memcpy(status[cnt].name.data,
		   call_tab[i].alpha.data,
		   call_tab[i].alpha.len);
	  else //We'll also zero the string.
	    memset(status[cnt].name.data, '\0', PHB_MAX_LEN);
#else
	  if (call_tab[i].alpha != NULL)
	    mfwStrncpy((char *)status[cnt].name, call_tab[i].alpha, MFW_TAG_LEN);
	  else
	    memset(status[cnt].name, '\0', MFW_TAG_LEN);
#endif
	  cnt++;
	}
      }
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
//	deallocate memory
#ifdef FF_MMI_OPTIM
	    if(call_tab)
	    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
#endif      
      return cnt;
    }
// 	Apr 06 2005		REF: CRR 29989	xpradipg	
// deallocate memory
#ifdef FF_MMI_OPTIM
	    if(call_tab)
	    mfwFree((U8*)call_tab, sizeof(T_ACI_CAL_ENTR)*MAX_CALL_NR);
#endif    
    return 0;
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_AT_CHLD	     |
+--------------------------------------------------------------------+


   PURPOSE :  Notify the CHLD command

*/

void cm_AT_CHLD(T_ACI_CLOG *clog_cmd)
{
    SHORT id;
    T_ACI_CAL_MODE call_mode;
    T_MFW_CM_STATUS status;
    char buf[80];

    TRACE_EVENT("cm_AT_CHLD()");

    /*SPR#1965 - DS - Removed setting of call_number to zero. Port of 1962
     *dis_connect.call_number = 0;
     */
    sprintf(buf, "dis_connect.call_number %d, cmd_hold %d, cId %d, srcId %d, mode %d, act %d",
            dis_connect.call_number, cmd_hold, clog_cmd->cId, clog_cmd->cmdPrm.sCHLD.srcId,
            clog_cmd->cmdPrm.sCHLD.mode, clog_cmd->cmdPrm.sCHLD.act);
    TRACE_EVENT(buf);

    if ((clog_cmd->cmdPrm.sCHLD.act != CHLD_ACT_Retrieve) &&
         (clog_cmd->cmdPrm.sCHLD.act != CHLD_ACT_RetrieveMpty))
    {
         /*SPR#1962 - DS - Set call_number to call Id returned from ACI */
        TRACE_EVENT("Set dis_connect.call_number to clog_cmd->cId");
        dis_connect.call_number = clog_cmd->cId;
    }
    else
    {
        dis_connect.call_number = -1;
    }
    if (clog_cmd->cmdPrm.sCHLD.srcId == CMD_SRC_LCL)
    {
	switch(clog_cmd->cmdPrm.sCHLD.mode)
	{
	    case CHLD_MOD_RelHldOrUdub:

		if (cm_search_callId(CAL_STAT_DeactiveReq, &id) == CM_OK)
		{
		   TRACE_FUNCTION("CAL_STAT_DeactiveReq - 0SEND");
		    if ( cmd_hold EQ MFW_CM_1_SEND )
		    {
		    	TRACE_FUNCTION("cmd_hold EQ MFW_CM_1_SEND");
			cm_status(id, &status, 1);
			if (status.mtpy EQ MFW_MTPY_MEMBER)
			  dis_connect.call_number = 0;
			else
			  dis_connect.call_number = id;
		    }
		}
			
		break;
					
	case CHLD_MOD_RelActAndAcpt:

		// MMI-SPR 13873 xkundadu
		// Handling of 1+SEND - Releases all active calls (if any exist) and 
		// accepts the other (held or waiting) call.

		if( (cm_search_callId(CAL_STAT_DeactiveReq, &id) == CM_OK) OR
		(cm_search_callId(CAL_STAT_Active, &id) == CM_OK))
		{
			// If there is an active call/active call whose disconnection
			// is initiated, store the index of that call.
			dis_connect.call_number = id;
			if(bIsMultpty == TRUE)
			{
				//  Call is in multiparty
				//  1SEND for multiparty will disconnect all the active calls
				//  To clear all calls assign the dis_connect.call_number to 
				//  zero
				dis_connect.call_number = 0;	
				bIsMultpty = FALSE;
			}
		}
		else
		{
			// There is no active calls/active calls whose disconnection is 
			// iniated existing
			dis_connect.call_number = -1;	
		}
		if (cm_search_callId(CAL_STAT_Wait, &id) == CM_OK)
		{
			// Waiting call is existing.
			// In the function cm_result_cmd(), value of cmd.call_number
			// is used to determine whether to call cm_connect() or not
			cmd.call_number=0;
		}
		cmd_hold = MFW_CM_1_SEND; 
		break;
	
	case CHLD_MOD_HldActAndAcpt:
		
		// MMI -SPR 13873 xkundadu
		// Handling of 2+SEND - Places all active calls (if any exist) on hold
		// and accepts the other (held or waiting) call.
		
		switch (clog_cmd->cmdPrm.sCHLD.act)
		{
		
		  case CHLD_ACT_Accept:
		  	   // Accept the incoming call
			    cmd_hold = MFW_CM_MT_ACCEPT;
			    break;
				
		  case CHLD_ACT_Hold:
		  	    // Getting the id of the call which has been put on hold by ACI
			    cmd.command = CM_HOLD;
			    if (cm_search_callId(CAL_STAT_Held, &id) == CM_OK)
			    {
			     	   cmd.call_number = id;
			    }
			    else
			    {
			      	   cmd.call_number = -1;
			    }
			    break;
				
		  case CHLD_ACT_Swap:
		  	   // Swap the call
			    cmd.command = CM_SWAP;
			    break;
				
		  case CHLD_ACT_Retrieve:
		  	    // Getting the id of the call which has been made active by ACI
			    cmd.command = CM_RETRIEVE;
			    if (cm_search_callId(CAL_STAT_Active, &id) == CM_OK)
			    {
			      	   cmd.call_number = id;
			    }
			    else
			    {
			          cmd.call_number = -1;
			    }
			    break;
		  case CHLD_ACT_HoldMpty:
		  	    // Put the calls on HOLD
			    cmd.command = CM_HOLD_MULTIPARTY;
			    break;
				
		  case CHLD_ACT_RetrieveMpty:
		  	    // Retrieve the held calls to active
			    cmd.command = CM_RETRIEVE_MULTIPARTY;
			    break;
				
		   case CHLD_ACT_SwapMpty:
		  	    // Swap muliparty calls
			    cmd.command = CM_SWAP_MULTIPARTY;
			    break;
				
		  default:
			    cmd.command = CM_COMMAND_UNKNOWN;
			    break;
				
		}
		break;
	   case CHLD_MOD_RelActSpec:
		dis_connect.call_number = (SHORT)atoi(clog_cmd->cmdPrm.sCHLD.call);
		break;			
		
	    default:
		break;
	}
    }

//	Aug 23, 2004 REF: CRR 22222  xkundadu
//  Bug:  Runaway Call Waiting Tone.
//  Fix: Handle the AT-Command source id CMD_SRC_ATI_2 also for call control
//  callback functions.Include source Id CMD_SRC_ATI_2 also for checking.

//Nov 02, 2005    DR OMAPS00052132   xdeepadh
//The usage of ATI enum is put under the flag FF_ATI
#ifdef FF_ATI  
    if ((clog_cmd->cmdPrm.sCHLD.srcId == CMD_SRC_ATI_1) //NM Berlin UK integration
		OR (clog_cmd->cmdPrm.sCHLD.srcId == CMD_SRC_ATI_2)) // Added for MMI-SPR 22222 FIX
    {
	switch(clog_cmd->cmdPrm.sCHLD.mode)
	{
	    case CHLD_MOD_RelHldOrUdub:
		if (clog_cmd->cmdPrm.sCHLD.act == CHLD_ACT_Release)
		    dis_connect.call_number = clog_cmd->cId;
		cmd_hold = MFW_CM_TERMINATED;
		break;
	    case CHLD_MOD_RelActAndAcpt:
		switch (clog_cmd->cmdPrm.sCHLD.act)
		{
		    case CHLD_ACT_Release:
			dis_connect.call_number = clog_cmd->cId;
			break;
		    case CHLD_ACT_Accept:
			if (cm_search_callId(CAL_STAT_DeactiveReq, &id) == CM_OK)
			    dis_connect.call_number = id;
			else if (cm_search_callId(CAL_STAT_Active, &id) == CM_OK)
			{
			    call_mode = cm_search_callMode(id);
			    if (call_mode EQ CAL_MODE_Data
				OR call_mode EQ CAL_MODE_Fax)
				dis_connect.call_number = id;
			}
			if (cm_search_callId(CAL_STAT_Wait, &id) == CM_OK)
			    cc_id = id;
			break;
		    case CHLD_ACT_Retrieve:
			if (cm_search_callId(CAL_STAT_Held, &id) == CM_OK)
			{
			    cmd.command     = CM_RETRIEVE;
			    cmd.call_number = id;
			}
			if (cm_search_callId(CAL_STAT_Wait, &id) == CM_OK)
			    cc_id = id;
			break;
		}
		cmd_hold = MFW_CM_1_SEND;
		break;
	    case CHLD_MOD_RelActSpec:
		dis_connect.call_number = clog_cmd->cId;
		if (dis_connect.call_number)
	       cmd_hold = MFW_CM_TERMINATED;
	    else
	       cmd_hold = MFW_CM_MPTY_TERMINATED;
		break;
	    case   CHLD_MOD_HldActAndAcpt:
		switch (clog_cmd->cmdPrm.sCHLD.act)
		{
		  case CHLD_ACT_Accept:
		    cmd_hold = MFW_CM_MT_ACCEPT;
		    break;
		  case CHLD_ACT_Hold:
		    cmd.command = CM_HOLD;
		    if (cm_search_callId(CAL_STAT_Held, &id) == CM_OK)
		      cmd.call_number = id;
		    else
		      cmd.call_number = -1;
		    break;
		  case CHLD_ACT_Swap:
		    cmd.command = CM_SWAP;
		    break;
		  case CHLD_ACT_Retrieve:
		    cmd.command = CM_RETRIEVE;
		    if (cm_search_callId(CAL_STAT_Active, &id) == CM_OK)
		      cmd.call_number = id;
		    else
		      cmd.call_number = -1;
		    break;
		  case CHLD_ACT_SwapMpty:
		    cmd.command = CM_SWAP_MULTIPARTY;
		    break;
		  case CHLD_ACT_HoldMpty:
		    cmd.command = CM_HOLD_MULTIPARTY;
		    break;
		  case CHLD_ACT_RetrieveMpty:
		    cmd.command = CM_RETRIEVE_MULTIPARTY;
		    break;
		  default:
		    cmd.command = CM_COMMAND_UNKNOWN;
		    break;
		}
		break;
	    case CHLD_MOD_HldActExc:
		 if (clog_cmd->cmdPrm.sCHLD.act == CHLD_ACT_SplitMpty)
		  cmd.command = CM_SPLIT_MULTIPARTY;
		else
		  cmd.command = CM_COMMAND_UNKNOWN;
		break;
	    case CHLD_MOD_AddHld:
		if (clog_cmd->cmdPrm.sCHLD.act == CHLD_ACT_BuildMpty)
		  cmd.command = CM_RETRIEVE_MULTIPARTY;
		else
		  cmd.command = CM_COMMAND_UNKNOWN;
		break;
	    case CHLD_MOD_Ect:
		cmd.command = CM_ETC;
		break;
	    case CHLD_MOD_Ccbs:
	        TRACE_EVENT("CHLD_MOD_Ccbs");
		cmd.command = CM_CCBS;
		break;
	    case CHLD_MOD_HldActDial:
		cmd_hold = MFW_CM_HOLD_AND_DIAL;
		cmd.command = CM_HOLD;
		break;
	    default:
		break;
	}
   }
#endif		//FF_ATI  
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_AT_D	     |
+--------------------------------------------------------------------+


   PURPOSE :  Notify the outgoing call command.

*/

void cm_AT_D(T_ACI_CLOG *cmd)
{
    SHORT	       index;
    T_MFW_PHB_ENTRY    entry;
    T_MFW_CM_CALL_STAT stat;
    UBYTE	       ton;
    UBYTE	       mode;
    T_MFW_PHB_TEXT     findText;

    TRACE_FUNCTION("cm_at_d()");
#ifdef NO_ASCIIZ
    entry.name.len = 0;
#else
    memset (entry.name, '\0', MAX_LEN);
#endif
    memset (entry.number, '\0', MAX_LEN);
    entry.index = 0;
    entry.npi = 0;
    entry.ton = 0;
    entries.entry = &entry;

    if (cmd->cmdPrm.sD.srcId == CMD_SRC_LCL)
    {
	out_call.call_id = cmd->cId;
	mfwStrncpy((char *)out_call.number, cmd->cmdPrm.sD.number, MFW_NUM_LEN);
	if (cc_stat.type == OUTGOING_CALL)
	{
	    mfwStrncpy((char *)cc_stat.number, cmd->cmdPrm.sD.number, MFW_NUM_LEN);
#ifdef NO_ASCIIZ
	    cc_stat.name.len = 0;
	    out_call.name.len = 0;
#else
	    cc_stat.name[0] = '\0';
	    out_call.name[0] = '\0';
#endif
	    if (cm_search_callStat(cmd->cId, &stat, &ton, &mode) == CM_OK)
	    {
		out_call.ton = ton;
		out_call.type = mode;
		cc_stat.ton  = ton;
		cc_stat.mode = (T_MFW_CM_CALL_TYPE)mode;
	    }

#ifdef NO_ASCIIZ
	    mfwStrncpy((char *)findText.data, cmd->cmdPrm.sD.number, PHB_MAX_LEN);
	    findText.len = strlen(cmd->cmdPrm.sD.number);
	    if (phb_find_entries (PHB_ADN,
				  &index,
				  MFW_PHB_NUMBER,
				  1,
				  &findText,
				  &entries) EQ MFW_PHB_OK)
	    {
		if (entries.num_entries)
		{
		    cc_stat.name.len = entries.entry[0].name.len;
		    memcpy(cc_stat.name.data,
			   entries.entry[0].name.data,
			   entries.entry[0].name.len);

		    out_call.name.len = entries.entry[0].name.len;
		    memcpy(out_call.name.data,
			   entries.entry[0].name.data,
			   entries.entry[0].name.len);
		}
	    }
#else
	    if (phb_find_entries (PHB_ADN,
				  &index,
				  MFW_PHB_NUMBER,
				  1,
				  cmd->cmdPrm.sD.number,
				  (T_MFW_PHB_LIST *)&entries) EQ MFW_PHB_OK)
	    {
		if (entries.num_entries)
		{
		    mfwStrncpy((char *)cc_stat.name, (char *)entries.entry[0].name, MFW_TAG_LEN);
		    mfwStrncpy((char *)out_call.name, (char *)entries.entry[0].name, PHB_MAX_LEN);
		}
	    }
#endif
	}

	if (cc_stat.type == REDIALING_CALL)
	{
#ifdef NO_ASCIIZ
	    out_call.name.len = cc_stat.name.len;
	    memcpy(out_call.name.data,
		   cc_stat.name.data,
		   cc_stat.name.len);
#else
	    mfwStrncpy((char *)out_call.name, (char *)cc_stat.name, MFW_TAG_LEN);
#endif
	    out_call.ton = cc_stat.ton;
	    out_call.type = cc_stat.mode;
	}
	cm_signal(E_CM_MO_RES, &out_call);
    }
    else if (cmd->cmdPrm.sD.srcId < CMD_SRC_MAX)
    {
	out_call.call_id = cmd->cId;
	mfwStrncpy((char *)out_call.number, (char *)cmd->cmdPrm.sD.number, MFW_NUM_LEN);
#ifdef NO_ASCIIZ
	out_call.name.len = 0;
#else
	out_call.name[0] = '\0';
#endif
	if (cm_search_callStat(cmd->cId, &stat, &ton, &mode) == CM_OK)
	{
	    out_call.ton = ton;
	    out_call.type = mode;
	}

#ifdef NO_ASCIIZ
	mfwStrncpy((char *)findText.data, cmd->cmdPrm.sD.number, PHB_MAX_LEN);
	findText.len = strlen(cmd->cmdPrm.sD.number);
	if (phb_find_entries (PHB_ADN,
			      &index,
			      MFW_PHB_NUMBER,
			      1,
			      &findText,
			      &entries) EQ MFW_PHB_OK)
	{
	    if (entries.num_entries)
	    {
		out_call.name.len = entries.entry[0].name.len;
		memcpy(out_call.name.data,
		       entries.entry[0].name.data,
		       entries.entry[0].name.len);
	    }
	}
#else
	if (phb_find_entries (PHB_ADN,
			      &index,
			      MFW_PHB_NUMBER,
			      1,
			      cmd->cmdPrm.sD.number,
			      (T_MFW_PHB_LIST *)&entries) EQ MFW_PHB_OK)
	{
	    if (entries.num_entries)
	    {
		mfwStrncpy((char *)out_call.name, (char *)entries.entry[0].name, MFW_TAG_LEN);
	    }
	}
#endif
	cm_signal(E_CM_MO_RES, &out_call);
    }
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_cvtCPItype	     |
+--------------------------------------------------------------------+


   PURPOSE :  Convert the type of

*/

T_MFW_CPI_TYPE cm_cvtCPItype(T_ACI_CPI_MSG msg)
{
    switch (msg)
	{
		case CPI_MSG_Setup: return CPI_TYPE_SETUP;
		case CPI_MSG_Disc:  return CPI_TYPE_DISC;
	case CPI_MSG_Alert: return CPI_TYPE_ALERT;
		case CPI_MSG_Proc:  return CPI_TYPE_PROC;
	case CPI_MSG_Sync:  return CPI_TYPE_SYNC;
	 case CPI_MSG_Conn: return CPI_TYPE_CONN;
	 /* CQ11676 Added new messages types in CPi indication. 17-02-04 MZ */
    #ifndef FF_2TO1_PS                      
		case CPI_MSG_Rls:  return CPI_TYPE_RELEASE;
	case CPI_MSG_Rjct:  return CPI_TYPE_REJECT;
    #endif                     
		default:		    return CPI_TYPE_UNKNOWN;
	}
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_cvtIBT	     |
+--------------------------------------------------------------------+


   PURPOSE :  Convert in-band tones indication

*/

T_MFW_CPI_IBT cm_cvtIBT(T_ACI_CPI_IBT ibt)
{
    switch (ibt)
	{
		case CPI_IBT_False: return CPI_IBT_FALSE;
		case CPI_IBT_True:  return CPI_IBT_TRUE;
		default:		    return CPI_IBT_UNKNOWN;
	}
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_cvtTCH	     |
+--------------------------------------------------------------------+


   PURPOSE :  Convert traffic channel indication

*/

T_MFW_CPI_TCH cm_cvtTCH(T_ACI_CPI_TCH tch)
{
    switch (tch)
	{
		case CPI_TCH_False: return CPI_TCH_FALSE;
		case CPI_TCH_True:  return CPI_TCH_TRUE;
		default:		    return CPI_TCH_UNKNOWN;
	}
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: rAT_PercentCPI      |
+--------------------------------------------------------------------+


   PURPOSE :  Call Progress Information

*/
// ADDED BY RAVI - FOR ACI CHANGES - 5-10-2005
#if (defined(FF_2TO1_PS)  &&  BOARD != 61)
void rAT_PercentCPI(SHORT cId,
		    T_ACI_CPI_MSG msgType,
		    T_ACI_CPI_IBT ibt,
		    T_ACI_CPI_TCH tch)

{
    cm_cpi.call_number = cId;
    cm_cpi.type        = cm_cvtCPItype(msgType);
    cm_cpi.inband      = cm_cvtIBT(ibt);
    cm_cpi.tch	       = cm_cvtTCH(tch);
//    cm_cpi.cause = CPI_CAUSE_MASK & cause; /* cq11676 Add cause information to the CPI indication 17-02-04 MZ */
    cm_signal(E_CM_CPI, &cm_cpi);
}
#else
void rAT_PercentCPI(SHORT cId,
		    T_ACI_CPI_MSG msgType,
		    T_ACI_CPI_IBT ibt,
		    T_ACI_CPI_TCH tch,
        	    USHORT        cause )        /*cq11676 Add cause parameter for cpi indication 17-02-04 MZ */
{
    cm_cpi.call_number = cId;
    cm_cpi.type        = cm_cvtCPItype(msgType);
    cm_cpi.inband      = cm_cvtIBT(ibt);
    cm_cpi.tch	       = cm_cvtTCH(tch);
    cm_cpi.cause = CPI_CAUSE_MASK & cause; /* cq11676 Add cause information to the CPI indication 17-02-04 MZ */
    cm_signal(E_CM_CPI, &cm_cpi);
}
#endif
// END OF ADDITION - RAVI - 5-10-2005.

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_error_code	     |
+--------------------------------------------------------------------+


   PURPOSE :

*/

UBYTE cm_error_code(T_ACI_AT_CMD cmd)
{
    ULONG err;

    err = qAT_ErrDesc();
    switch (ACI_ERR_DESC_CLASS( err ))
    {
	case ACI_ERR_CLASS_Cme:
	    break;
	case ACI_ERR_CLASS_Cms:
	    break;
	case ACI_ERR_CLASS_Ceer:
	    switch (ACI_ERR_DESC_NR( err ))
	    {
		case CEER_ACM_Max:	return CM_ACM_MAX;
		default:		return CM_ERROR;
	    }
//	    break;  // RAVI
	case ACI_ERR_CLASS_Ext:
	    switch (ACI_ERR_DESC_NR( err ))
	    {
		case EXT_ERR_FdnCheck:	return CM_CFDN_ERR;
		case EXT_ERR_BdnCheck:	return CM_CBDN_ERR;
		case EXT_ERR_OneCallOnHold:	return CM_2CALLS_ALREADY_ERR;
		//xvilliva 21421 - Handling err code returned by ACI.
#ifndef FF_2TO1_PS
	    case EXT_ERR_AlsLock:	return CM_ALS_ERR;
#endif
		default:		return CM_ERROR;
	    }
	  //  break;  // RAVI
	default:
	    break;
    }
    return CM_ERROR;
}

/*
+--------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	     |
| STATE   : code			 ROUTINE : cm_bc_parameter   |
+--------------------------------------------------------------------+


   PURPOSE : Notice bearer service parameter

*/

void cm_bc_parameter(T_ACI_CRING_TYP type)
{
  TRACE_FUNCTION("cm_cvt_cringType()");

  switch (type)
  {
    case CRING_TYP_Voice:
      break;
    case CRING_TYP_Fax:
      in_call.bc1.conn_elem   = Transparent;
      break;
    case CRING_TYP_Sync:
      in_call.bc1.bearer_serv = Synch;
      in_call.bc1.conn_elem   = Transparent;
      break;
    case CRING_TYP_Async:
      in_call.bc1.bearer_serv = Asynch;
      in_call.bc1.conn_elem   = Transparent;
      break;
    case CRING_TYP_RelSync:
      in_call.bc1.bearer_serv = Synch;
      in_call.bc1.conn_elem   = NonTransparent;
      break;
    case CRING_TYP_RelAsync:
      in_call.bc1.bearer_serv = Asynch;
      in_call.bc1.conn_elem   = NonTransparent;
      break;
    default:
      break;
  }
}

/*
+--------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	 MODULE  : MFW_CM	     |
| STATE   : code			 ROUTINE : cm_build_callType |
+--------------------------------------------------------------------+


   PURPOSE :

*/

void cm_build_callType(T_ACI_CRING_TYP type1, T_ACI_CRING_TYP type2)
{
  if (type1 EQ CRING_TYP_Voice)
  {
    switch (type2)
    {
      case CRING_TYP_Sync:
      case CRING_TYP_Async:
      case CRING_TYP_RelSync:
      case CRING_TYP_RelAsync:
	in_call.type = VAD_VOICE;
	return;
      case CRING_TYP_Fax:
	in_call.type = VAF_VOICE;
	return;
      default:
	break;
    }
  }
  if (type2 EQ CRING_TYP_Voice)
  {
    switch (type1)
    {
      case CRING_TYP_Sync:
      case CRING_TYP_Async:
      case CRING_TYP_RelSync:
      case CRING_TYP_RelAsync:
	in_call.type = VAD_DATA;
	return;
      case CRING_TYP_Fax:
	in_call.type = VAF_FAX;
	return;
      default:
	break;
    }
  }
  in_call.type = NONE_TYPE;
}

/*
+--------------------------------------------------------------------+
| PROJECT : MMI-Framework (8417)	MODULE	: MFW_CM	     |
| STATE   : code			ROUTINE : cmCommand	     |
+--------------------------------------------------------------------+

  PURPOSE : handle mfw windows command

*/

static int cmCommand (U32 cmd, void *h)
{
    switch (cmd)
    {
	case MfwCmdDelete:		/* delete me		    */
	    if (!h)
		return 0;
	    cm_delete(h);
	    return 1;
	default:
	    break;
    }

    return 0;
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_command_abort    |
+--------------------------------------------------------------------+


   PURPOSE :

*/

T_MFW cm_command_abort(UBYTE command)
{
  TRACE_FUNCTION ("cm_command()");

  switch (command)
  {
    case CM_HOLD:
    case CM_SWAP:
    case CM_RETRIEVE:
    case CM_SWAP_MULTIPARTY:
    case CM_HOLD_MULTIPARTY:
    case CM_RETRIEVE_MULTIPARTY:
    case CM_BUILD_MULTIPARTY:
    case CM_SPLIT_MULTIPARTY:
    case CM_ETC:
    case CM_CCBS:
      sAT_Abort(CMD_SRC_LCL, AT_CMD_CHLD);
      break;

    case CM_DTMF_ACTIVE:
    case CM_DTMF_INACTIVE:
    case CM_DTMF_AUTO:
      sAT_Abort(CMD_SRC_LCL, AT_CMD_VTS);
      break;

    default:
      return FALSE;
  }
  return TRUE;
}

/* Marcus: CCBS: 13/11/2002: Start */
/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417)     MODULE: MFW_CM                   |
| STATE  : code     ROUTINE: cm_ccbs_delete_all                      |
+--------------------------------------------------------------------+

   PURPOSE :    Delete all registered CCBS

   Returns:		T_MFW: CM_OK if successful, CM_ERROR if not

   Arguments:   None
*/
T_MFW    cm_ccbs_delete_all(void)
{
    T_MFW           res = CM_ERROR;     // The value to be returned by this function
    T_ACI_RETURN    aci_res;            // The value returned by sAT_PercentCCBS

    TRACE_FUNCTION("cm_ccbs_delete_all()");

    if (ccbs_op == CM_CCBS_NONE)
    {
        TRACE_EVENT("ccbs_op == CM_CCBS_NONE");
        /* No CCBS operation currently in progress */
#ifndef CCBS_TEST
        aci_res = sAT_PercentCCBS(CMD_SRC_LCL, 0);
#else
        aci_res = AT_EXCT;
#endif
        if (aci_res == AT_EXCT)
        {
            TRACE_EVENT("sAT_PercentCCBS returned AT_EXCT");
            ccbs_op = CM_CCBS_DELETE_ALL;
            res = CM_OK;
        }
        else
        {
            TRACE_EVENT_P1("sAT_PercentCCBS returned %d", aci_res);
        }
    }
    else
    {
        TRACE_EVENT_P1("ccbs_op is %d", ccbs_op);
    }

    return res;
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417)     MODULE: MFW_CM                   |
| STATE  : code     ROUTINE: cm_ccbs_delete                          |
+--------------------------------------------------------------------+

   PURPOSE :    Delete a specific registered CCBS

   Returns:		T_MFW: CM_OK if successful, CM_ERROR if not

   Arguments:   SHORT idx: the index to the specific CCBS to be deleted
*/
T_MFW    cm_ccbs_delete(SHORT idx)
{
    T_MFW           res = CM_ERROR; // The value to be returned by this function
    T_ACI_RETURN    aci_res;        // The value returned by sAT_PercentCCBS

    TRACE_FUNCTION("cm_ccbs_delete()");
    TRACE_EVENT_P1("deleting CCBS %d", idx);

    if (ccbs_op == CM_CCBS_NONE)
    {
        TRACE_EVENT("ccbs_op == CM_CCBS_NONE");
        /* No CCBS operation currently in progress */
#ifndef CCBS_TEST
        aci_res = sAT_PercentCCBS(CMD_SRC_LCL, idx);
#else
        aci_res = AT_EXCT;
#endif
        if (aci_res == AT_EXCT)
        {
            TRACE_EVENT("sAT_PercentCCBS returned AT_EXCT");
            ccbs_op = CM_CCBS_DELETE;
            res = CM_OK;
        }
        else
        {
            TRACE_EVENT_P1("sAT_PercentCCBS returned %d", aci_res);
        }
    }
    else
    {
        TRACE_EVENT_P1("ccbs_op is %d", ccbs_op);
    }

    return res;
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417)     MODULE: MFW_CM                   |
| STATE  : code     ROUTINE: cm_ccbs_list                            |
+--------------------------------------------------------------------+

   PURPOSE :    Delete all registered CCBS

   Returns:		T_MFW: CM_OK if successful, CM_ERROR if not

   Arguments:   None
*/
T_MFW    cm_ccbs_list(void)
{
    T_MFW           res = CM_ERROR; // The value to be returned by this function
    T_ACI_RETURN    aci_res;        // The value returned by qAT_PercentCCBS

    TRACE_FUNCTION("cm_ccbs_list()");

    if (ccbs_op == CM_CCBS_NONE)
    {
        /* No CCBS operation currently in progress */
        TRACE_EVENT("ccbs_op == CM_CCBS_NONE");
#ifndef CCBS_TEST
        aci_res = qAT_PercentCCBS(CMD_SRC_LCL);
#else
        aci_res = AT_EXCT;
#endif
        if (aci_res == AT_EXCT)
        {
            TRACE_EVENT("qAT_PercentCCBS returned AT_EXCT");
            ccbs_op = CM_CCBS_LIST;
            res = CM_OK;
        }
        else
        {
            TRACE_EVENT_P1("qAT_PercentCCBS returned %d", aci_res);
        }
    }
    else
    {
        TRACE_EVENT_P1("ccbs_op is %d", ccbs_op);
    }

    return res;
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417)     MODULE: MFW_CM                   |
| STATE  : code     ROUTINE: cm_ccbs_accept_registration             |
+--------------------------------------------------------------------+

   PURPOSE :    Accepts the CCBS registration being offered

   Returns:		T_MFW: CM_OK if successful, CM_ERROR if not

   Arguments:   None
*/
T_MFW    cm_ccbs_accept_registration(void)
{
    T_MFW           res = CM_ERROR; // The value to be returned by this function
    T_ACI_RETURN    aci_res;        // The value returned by sAT_PlusCHLD

    TRACE_FUNCTION("cm_ccbs_accept_registration()");

    if (ccbs_op == CM_CCBS_NONE)
    {
        /* No CCBS operation currently in progress */
        TRACE_EVENT("ccbs_op == CM_CCBS_NONE");
        cm_set_cmd_status(CHLD_MOD_Ccbs, "");
	    cmd_hold = MFW_CM_CCBS_REGISTER;
#ifndef CCBS_TEST
	    aci_res = sAT_PlusCHLD(CMD_SRC_LCL, CHLD_MOD_Ccbs, NULL);
#else
	    aci_res = AT_EXCT;
#endif
        if (aci_res == AT_EXCT)
        {
            TRACE_EVENT("sAT_PlusCHLD returned AT_EXCT");
            ccbs_op = CM_CCBS_ACCEPT_REGISTRATION;
            res = CM_OK;
        }
        else
        {
            TRACE_EVENT_P1("sAT_PlusCHLD returned %d", aci_res);
        }
    }
    else
    {
        TRACE_EVENT_P1("ccbs_op is %d", ccbs_op);
    }

    return res;
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417)     MODULE: MFW_CM                   |
| STATE  : code     ROUTINE: cm_ccbs_reject_registration             |
+--------------------------------------------------------------------+

   PURPOSE :    Rejects the CCBS registration being offered

   Returns:		T_MFW: CM_OK if successful, CM_ERROR if not

   Arguments:   None
*/
T_MFW    cm_ccbs_reject_registration(void)
{
    T_MFW           res = CM_ERROR; // The value to be returned by this function
    T_ACI_RETURN    aci_res;        // The value returned by sAT_H

    TRACE_FUNCTION("cm_ccbs_reject_registration()");

    if (ccbs_op == CM_CCBS_NONE)
    {
        /* No CCBS operation currently in progress */
        TRACE_EVENT("ccbs_op == CM_CCBS_NONE");
        cmd_hold = MFW_CM_CCBS_REGISTER;
#ifndef CCBS_TEST
        aci_res = sAT_H(CMD_SRC_LCL);
#else
        aci_res = AT_EXCT;
#endif
        if (aci_res == AT_EXCT)
        {
            TRACE_EVENT("sAT_H returned AT_EXCT");
            ccbs_op = CM_CCBS_REJECT_REGISTRATION;
            res = CM_OK;
        }
        else
        {
            TRACE_EVENT_P1("sAT_H returned %d", aci_res);
        }
    }
    else
    {
        TRACE_EVENT_P1("ccbs_op is %d", ccbs_op);
    }

    return res;
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417)     MODULE: MFW_CM                   |
| STATE  : code     ROUTINE: cm_ccbs_accept_recall                   |
+--------------------------------------------------------------------+

   PURPOSE :    Accepts the CCBS recall being offered

   Returns:		T_MFW: CM_OK if successful, CM_BLACKIST or CM_ERROR if not

   Arguments:   UBYTE *number           - the number of the phone to call
                T_MFW_CM_CALL_TYPE type - the type of the call to be made
*/
T_MFW    cm_ccbs_accept_recall(UBYTE *number, T_MFW_CM_CALL_TYPE type)
{
    T_MFW           res = CM_ERROR; // The value to be returned by this function
    int             search_res; // The value returned by cm_search_callId
    T_ACI_RETURN    aci_res;    // The value returned by sAT_PlusCHLD
    SHORT           call_number;// The call identity of any held call
    UBYTE           phone[MFW_NUM_LEN];   // Working copy of phone number
  //  CHAR			*rest;      // Parameter for ss_decode  // RAVI
//    T_KSD_SEQPARAM	para;       // Parameter for ss_decode  // RAVI
//    T_MFW_SS_RETURN	ss_res;     // The value returned by ss_decode  // RAVI

    TRACE_FUNCTION("cm_ccbs_accept_recall()");

    if (ccbs_op == CM_CCBS_NONE)
    {
        /* No CCBS operation currently in progress */
        TRACE_EVENT("ccbs_op == CM_CCBS_NONE");
        /* Ensure the number given is an ASCIIZ string thet is not too long */
        mfwStrncpy((char *)phone, (char *)number, MFW_NUM_LEN);
        TRACE_EVENT_P1("ccbs nr: %s", phone);

        /* Make sure that it is OK to call this number */
        if ((res = cm_check_mo_number(phone)) == CM_OK)
        {
            TRACE_EVENT("cm_check_mo_number returned CM_OK");
            /* Set up data as for mobile originated call */
            cm_set_call_mode(type);
            call_stat	   = OUTGOING_CALL;
            redial_count   = 0;
            cc_stat.type   = OUTGOING_CALL;
            currConnecting = 1;

            if ((search_res = cm_search_callId(CAL_STAT_Held, &call_number)) == CM_OK)
            {
                TRACE_EVENT("Held call: CHLD_MOD_RelActAndAcpt");
                /* There is a held call: release active call and accept callback */
                cm_set_cmd_status(CHLD_MOD_RelActAndAcpt, "");
#ifndef CCBS_TEST
                aci_res = sAT_PlusCHLD(CMD_SRC_LCL, CHLD_MOD_RelActAndAcpt, NULL);
#else
                aci_res = AT_EXCT;
#endif
            }
            else
            {
                TRACE_EVENT("No held call: CHLD_MOD_HldActAndAcpt");
                /* There is no held call: hold any active call and accept callback */
                cm_set_cmd_status(CHLD_MOD_HldActAndAcpt, "");
#ifndef CCBS_TEST
                aci_res = sAT_PlusCHLD(CMD_SRC_LCL, CHLD_MOD_HldActAndAcpt, NULL);
#else
                aci_res = AT_EXCT;
#endif
            }

            cmd_hold = MFW_CM_CCBS_RECALL;

            if (aci_res == AT_EXCT)
            {
                TRACE_EVENT("sAT_PlusCHLD returned AT_EXCT");
                ccbs_op = CM_CCBS_ACCEPT_RECALL;
                res = CM_OK;
            }
            else
            {
                /* The attempt to accept the callback failed */
                TRACE_EVENT_P1("sAT_PlusCHLD returned %d", aci_res);
                call_stat = MFW_CALL_FREE;
            }
        }
        else
        {
            /* It is not OK to call this number for some reason */
            TRACE_EVENT_P1("cm_check_mo_number returned %d", res);
        }
    }
    else
    {
        TRACE_EVENT_P1("ccbs_op is %d", ccbs_op);
    }

    return res;
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417)     MODULE: MFW_CM                   |
| STATE  : code     ROUTINE: cm_ccbs_reject_recall                   |
+--------------------------------------------------------------------+

   PURPOSE :    Rejects the CCBS recall being offered

   Returns:		T_MFW: CM_OK if successful, CM_ERROR if not

   Arguments:   None
*/
T_MFW    cm_ccbs_reject_recall(void)
{
    T_MFW           res = CM_ERROR; // The value to be returned by this function
    T_ACI_RETURN    aci_res;        // The value returned by sAT_PlusCHLD

    TRACE_FUNCTION("cm_ccbs_reject_recall()");

    if (ccbs_op == CM_CCBS_NONE)
    {
        /* No CCBS operation currently in progress */
        TRACE_EVENT("ccbs_op == CM_CCBS_NONE");
        cm_set_cmd_status(CHLD_MOD_RelHldOrUdub, "");
        cmd_hold = MFW_CM_CCBS_RECALL;

#ifndef CCBS_TEST
        aci_res = sAT_H(CMD_SRC_LCL);
#else
        aci_res = AT_CMPL;
#endif
        if (aci_res == AT_CMPL)
        {
            TRACE_EVENT("sAT_H returned AT_CMPL");
            ccbs_op = CM_CCBS_REJECT_RECALL;
            res = CM_OK;
        }
        else
        {
            TRACE_EVENT_P1("sAT_H returned %d", aci_res);
        }
    }
    else
    {
        TRACE_EVENT_P1("ccbs_op is %d", ccbs_op);
    }

    return res;
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417)     MODULE: MFW_CM                   |
| STATE  : code     ROUTINE: cm_ccbs_ok                              |
+--------------------------------------------------------------------+

   PURPOSE :    Called by rAT_OK for "OK" result code for %CCBS command

   Returns:		Nothing

   Arguments:   None
*/
void cm_ccbs_ok(void)
{
    TRACE_FUNCTION("cm_ccbs_ok()");

    memset((void *)&ccbs_info, 0, sizeof(ccbs_info));

    ccbs_info.operation = ccbs_op;
    ccbs_op             = CM_CCBS_NONE;
    ccbs_info.type      = CM_CCBS_OK;

    TRACE_EVENT_P2("E_CM_CCBS: op = %d: type = %d",
        ccbs_info.operation, ccbs_info.type);

    cm_signal(E_CM_CCBS, &ccbs_info);
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417)     MODULE: MFW_CM                   |
| STATE  : code     ROUTINE: cm_ccbs_error                           |
+--------------------------------------------------------------------+

   PURPOSE :    Called by rAT_PlusCME for "+CME error" result code for %CCBS command

   Returns:		Nothing

   Arguments:   None
*/
void cm_ccbs_error(void)
{
    TRACE_FUNCTION("cm_ccbs_error()");

    memset((void *)&ccbs_info, 0, sizeof(ccbs_info));

    ccbs_info.operation = ccbs_op;
    ccbs_op             = CM_CCBS_NONE;
    ccbs_info.type      = CM_CCBS_ERROR;

    TRACE_EVENT_P2("E_CM_CCBS: op = %d: type = %d",
        ccbs_info.operation, ccbs_info.type);

    cm_signal(E_CM_CCBS, &ccbs_info);
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417)     MODULE: MFW_CM                   |
| STATE  : code     ROUTINE: rAT_PercentCCBS                         |
+--------------------------------------------------------------------+

   PURPOSE :    Called by ACI for "%CCBS:" result code

   Returns:		Nothing

   Arguments:   T_ACI_CCBS_IND  indct   - type of %CCBS indication
                T_ACI_CCBS_STAT status  - status of %CCBS indication
                T_ACI_CCBS_SET *setting - optiona parameters of %CCBS indication
*/
void rAT_PercentCCBS( T_ACI_CCBS_IND  indct,
                        T_ACI_CCBS_STAT status,
                        T_ACI_CCBS_SET *setting )
{
    TRACE_FUNCTION("rAT_PercentCCBS()");
    TRACE_EVENT_P3("indct = %d: status = %d: setting = %p", indct, status, setting);

    memset((void *)&ccbs_info, 0, sizeof(ccbs_info));

    /* Fill in the fields of the E_CM_CCBS event structure */
    switch (indct)
    {
        case CCBS_IND_Possible:
        case CCBS_IND_Recall:
        case CCBS_IND_PossibilityTimedOut:
        case CCBS_IND_RecallTimedOut:

            /* An asynchronous %CCBS, not in response to a %CCBS command */
            TRACE_EVENT("Unsolicited event");
            ccbs_info.operation = CM_CCBS_ASYNC;
            break;

        default:
            TRACE_EVENT("Solicited event");
            ccbs_info.operation = ccbs_op;
            break;
    }

    ccbs_info.type      = CM_CCBS_INFO;
    ccbs_info.indct     = indct;
    ccbs_info.status    = status;

    TRACE_EVENT_P2("E_CM_CCBS: op = %d: type = %d",
        ccbs_info.operation, ccbs_info.type);
    TRACE_EVENT_P2(" indct = %d: status = %d",
        ccbs_info.indct, ccbs_info.status);

    if (setting == (T_ACI_CCBS_SET *) NULL)
    {
        /* No T_ACI_CCBS_SET structure given. Indicate in the idx field of ccbs_info */
        TRACE_EVENT("setting == NULL");
        ccbs_info.idx = 0;
    }
    else
    {
        /* T_ACI_CCBS_SET structure given. Fill in the remaining field of ccbs_info */
        TRACE_EVENT("setting != NULL");
        ccbs_info.idx = setting->idx;
        strncpy((char *) ccbs_info.number, (char *) setting->number, sizeof(ccbs_info.number)-1);
        ccbs_info.number[sizeof(ccbs_info.number)-1] = '\0';
        ccbs_info.ton = phb_cvtTon(setting->type.ton);
        ccbs_info.call_type = cm_callTyp_cvt(setting->class_type);
        strncpy((char *) ccbs_info.subaddr, (char *) setting->subaddr, sizeof(ccbs_info.subaddr)-1);
        ccbs_info.subaddr[sizeof(ccbs_info.subaddr)-1] = '\0';
        ccbs_info.alrtPtn = setting->alrtPtn;
        TRACE_EVENT_P3(" idx = %d: number = %s: ton = %d",
            ccbs_info.idx, ccbs_info.number, ccbs_info.ton);
        TRACE_EVENT_P3(" call_type = %d: subaddr = %s: alrtPtn = %d",
            ccbs_info.call_type, ccbs_info.subaddr, ccbs_info.alrtPtn);
    }

    cm_signal(E_CM_CCBS, &ccbs_info);
}

/* Marcus: CCBS: 13/11/2002: End */

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_error_dial	     |
+--------------------------------------------------------------------+


   PURPOSE : The call setup is not successful

*/

void cm_error_dial(T_ACI_CME_ERR err)
{
    TRACE_FUNCTION("cm_error_dial()");

    switch (err)
    {
        case CME_ERR_OpNotAllow: /* the active call can not be hold */
            /* allow a new outgoing */
            call_stat = MFW_CALL_FREE;
            call_type = MFW_CALL_FREE;
            cmd.command = CM_HOLD;
            if (cm_search_callId(CAL_STAT_Active, &cmd.call_number) NEQ CM_OK)
              cmd.call_number = -1;
            cmd.result = NotPresent;
            cm_signal(E_CM_COMMAND, &cmd);
            break;

        /*SPR#2235 - DS - If handset is powered-up without a SIM and an emergency
         *call is attempted, the UK networks will reject the call attempt. Send a signal to
         *the BMI to enable it to destroy the call and show an appropriate error message.
         *
         *The ACI calls rAT_PlusCME() - then rAT_PlusCME() calls this funct - for this SIM
         *failure but the ACI doesn't supply the callId. Without the callId, the MFW/BMI
         *cannot close down the call properly. The ACI interface will need to be changed
         *so that it supplies the callId (if there is an active call) when this failure occurs.
         */
        case CME_ERR_SimFail:
            /* allow a new outgoing */
            call_stat = MFW_CALL_FREE;
            call_type = MFW_CALL_FREE;

            /*SPR#2235 - DS - Fake the callId. Workaround needed until the ACI interface is changed */
            cm_error_connect(1);
            break;

        default:
            TRACE_EVENT_P1("Error code: %d. No signal sent.", err);
            break;
    }
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_data_connect     |
+--------------------------------------------------------------------+


   PURPOSE : Fax/Data connect

*/

void cm_data_connect(SHORT callId)
{
  SHORT call_number;

  TRACE_FUNCTION("cm_data_connect()");

  call_number = callId;
  cm_signal(E_CM_CONNECT, &call_number);
}

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_data_connect     |
+--------------------------------------------------------------------+


   PURPOSE : Fax/Data connect

*/

void cm_wap_data_connected(void)
{
 // SHORT call_number;  // RAVI

  TRACE_FUNCTION("cm_wap_data_connected()");

  cm_signal(E_CM_WAP_CALL_CONNECTED, NULL);
}
/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_deflect_incoming_call     |
+--------------------------------------------------------------------+


   PURPOSE : try to deflect a call using AT command CTFR

*/
T_MFW cm_deflect_incoming_call(char* number)
{	T_ACI_RETURN result;
	T_ACI_TOA type;
	T_ACI_TOS subaddr_type;

	type.ton = TON_Unknown;
	type.npi = NPI_Unknown;

	subaddr_type.tos = TOS_NotPresent;
	subaddr_type.oe = OE_NotPresent;

	result = sAT_PlusCTFR(CMD_SRC_LCL, number, &type, NULL, &subaddr_type);

	if ((result == AT_BUSY) || (result == AT_FAIL))
		return FALSE;
	return TRUE;

}
/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_ok_CTFR     |
+--------------------------------------------------------------------+


   PURPOSE : sends call deflect OK event to MMI

*/
void cm_ok_CTFR(void)
{	BOOL status = TRUE;

	cm_signal(E_CM_CALL_DEFLECT_STATUS, &status);

}
/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_error_CTFR     |
+--------------------------------------------------------------------+


   PURPOSE : Sends call deflect failed event to MMI

*/
void cm_error_CTFR(void)
{
	BOOL status = FALSE;

	cm_signal(E_CM_CALL_DEFLECT_STATUS, &status);
}
#ifdef CCBS_TEST
/* Marcus: CCBS testing: 20/11/2002: Start */
static void strlower(char *string)
{
    while(*string)
    {
        *string = (char)tolower((int) *string);
        string++;
    }
}

static BOOL getCmdId(char *token, T_ACI_AT_CMD *cmdId)
{
    BOOL cmdIdOk = FALSE;
    TRACE_FUNCTION("getCmdId()");
    if (token)
    {
        strlower(token);
        TRACE_EVENT_P1("token: %s", token);
        if (strstr(token, "ccbs"))
        {
            *cmdId = AT_CMD_CCBS;
            cmdIdOk = TRUE;
        }
        else if (strstr(token, "chld"))
        {
            *cmdId = AT_CMD_CHLD;
            cmdIdOk = TRUE;
        }
        else if (strcmp("h", token) == 0)
        {
            *cmdId = AT_CMD_H;
            cmdIdOk = TRUE;
        }
        else if ((*cmdId = atoi(token)))
        {
            cmdIdOk = TRUE;
        }
    }
    else
    {
        TRACE_EVENT("No token");
    }

    return cmdIdOk;
}
#endif

void rAT_PercentMMITEST(char *param)
{
    char work[80];
    char *token;    // Current token obtained from strtok
    TRACE_FUNCTION("rAT_PercentMMITEST()");

    strncpy(work, param, sizeof(work)-1);
    work[sizeof(work)-1] = '\0';

    if ((token = strtok(work, ",()")) != NULL)
    {
#ifdef CCBS_TEST
        T_ACI_AT_CMD cmdId;
        strlower(token);
        TRACE_EVENT_P1("token: %s", token);

        if (strcmp("ok", token) == 0)
        {
            TRACE_EVENT("OK");
            if ((token = strtok(NULL, ",()")) != NULL)
            {
                if (getCmdId(token, &cmdId) == TRUE)
                {
                    TRACE_EVENT_P1("rAT_OK(cmdId = %d", cmdId);
                    rAT_OK(cmdId);
                }
                else
                {
                    TRACE_EVENT("Unknown cmdId");
                }
            }
            else
            {
                TRACE_EVENT("No cmdId token");
            }
        }
        else if (strcmp("error", token) == 0)
        {
            TRACE_EVENT("ERROR");
            if ((token = strtok(NULL, ",()")) != NULL)
            {
                if (getCmdId(token, &cmdId) == TRUE)
                {
                    T_ACI_CME_ERR err;
                    if ((token = strtok(NULL, ",()")) != NULL)
                    {
                        err = atoi(token);
                        rAT_PlusCME(cmdId, err);
                    }
                    else
                    {
                        TRACE_EVENT("No err token");
                    }
                }
            }
            else
            {
                TRACE_EVENT("No cmdId token");
            }
        }
        else if (strcmp("info", token) == 0)
        {
            T_ACI_CCBS_IND  indct = CCBS_IND_NotPresent;
            T_ACI_CCBS_STAT status = CCBS_STAT_NotPresent;
            T_ACI_CCBS_SET  setting, *pSetting = NULL;
            TRACE_EVENT("INFO");
            if ((token = strtok(NULL, ",()")) != NULL)
            {
                strlower(token);
                TRACE_EVENT_P1("token: %s", token);
                if (strstr(token, "notpresent"))
                    indct = CCBS_IND_NotPresent;
                else if (strstr(token, "possibility"))
                    indct = CCBS_IND_PossibilityTimedOut;
                else if (strstr(token, "possible"))
                    indct = CCBS_IND_Possible;
                else if (strstr(token, "registered"))
                    indct = CCBS_IND_Registered;
                else if (strstr(token, "recallt"))
                    indct = CCBS_IND_RecallTimedOut;
                else if (strstr(token, "recall"))
                    indct = CCBS_IND_Recall;
                else if (strstr(token, "irgt"))
                    indct = CCBS_IND_IrgtResult;
            }

            if ((token = strtok(NULL, ",()")) != NULL)
            {
                strlower(token);
                TRACE_EVENT_P1("token: %s", token);
                if (strstr(token, "notpresent"))
                    status = CCBS_STAT_NotPresent;
                else if (strstr(token, "notprov"))
                    status = CCBS_STAT_NotProvisioned;
                else if (strstr(token, "prov"))
                    status = CCBS_STAT_Provisioned;
                else if (strstr(token, "active"))
                    status = CCBS_STAT_Active;
            }

            setting.idx = 0;
            if ((token = strtok(NULL, ",()")) != NULL)
            {
                TRACE_EVENT_P1("token: %s", token);
                setting.idx = atoi(token);
            }

            if (setting.idx != 0)
            {
                pSetting = &setting;
                strcpy(setting.number, "01317180538");
                setting.type.ton = TON_National;
                setting.type.npi = NPI_IsdnTelephony;
                setting.subaddr[0] = '\0';
                setting.satype.tos = TOS_NotPresent;
                setting.satype.oe = OE_NotPresent;
                setting.class_type = CLASS_Vce;
                setting.alrtPtn = ALPT_Level_0;

                if ((token = strtok(NULL, ",()")) != NULL)
                {
                    TRACE_EVENT_P1("token: %s", token);
                    strncpy(setting.number, token, sizeof(setting.number)-1);
                    setting.number[sizeof(setting.number)-1] = '\0';
                }

                if ((token = strtok(NULL, ",()")) != NULL)
                {
                    TRACE_EVENT_P1("token: %s", token);
                    setting.type.ton = TON_International;
                }
            }

            TRACE_EVENT_P3("rAT_PercentCCBS(%d, %d, %p)", indct, status, pSetting);
            if (pSetting != NULL)
            {
                TRACE_EVENT_P3("idx = %d: number = %s: ton = %d",
                    setting.idx, setting.number, setting.type.ton);
            }
            rAT_PercentCCBS(indct, status, pSetting);
        }
        else
        {
            TRACE_EVENT("Unrecognised token");
        }
#endif
    }
    else
    {
        TRACE_EVENT("No token");
    }
}
/* Marcus: CCBS testing: 20/11/2002: End */


/* SPR#1985 - SH - Added this function */

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_tty_enable    |
+--------------------------------------------------------------------+


   PURPOSE : Receipt of unsolicited TTY information

*/

void rAT_PercentCTYI(T_ACI_CTTY_NEG neg, T_ACI_CTTY_TRX trx)
{
	T_MFW_CM_CTYI res;

	TRACE_FUNCTION("rAT_PercentCTYI()");

	currCmd = AT_CMD_NONE;
	switch(neg)
	{
		case CTTY_NEG_None:
			res.neg =  CTYI_NONE;
			break;
		case CTTY_NEG_Request:
			res.neg = CTYI_REQUEST;
			break;
		case CTTY_NEG_Reject:
			res.neg = CTYI_REJECT;
			break;
		case CTTY_NEG_Grant:
			res.neg = CTYI_GRANT;
			break;
	}

	cm_signal(E_CM_CTYI, &res);

	return;
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_tty_enable    |
+--------------------------------------------------------------------+


   PURPOSE : Request ACI to switch TTY on or off

*/

void cm_tty_enable(UBYTE enable)
{
	T_ACI_RETURN ret;

	TRACE_FUNCTION("cm_tty_enable()");

	/* SPR#1985 - SH - Now use proper ACI functions.  */

	if (enable)
		ret = sAT_PercentCTTY(CMD_SRC_LCL, CTTY_MOD_Enable, CTTY_REQ_On);
	else
		ret = sAT_PercentCTTY(CMD_SRC_LCL, CTTY_MOD_Enable, CTTY_REQ_Off);

	/* SPR#1985 - SH - Check that TTY status has changed and inform MMI  */

	cm_tty_query();

	return;
}


/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework (8417) 	MODULE: MFW_CM		     |
| STATE  : code 			ROUTINE: cm_tty_query    |
+--------------------------------------------------------------------+


   PURPOSE : Query status of TTY, inform MMI. */
   /*SPR#1985 - SH - Added this function  */

void cm_tty_query(void)
{
	T_MFW_CM_CTYI res;
//	T_ACI_RETURN ret;  // RAVI
	T_ACI_CTTY_MOD mode;
	T_ACI_CTTY_REQ req;
	T_ACI_CTTY_STAT stat;
	T_ACI_CTTY_TRX trx;

	TRACE_FUNCTION("cm_tty_query()");

	qAT_PercentCTTY(CMD_SRC_LCL, &mode, &req, &stat, &trx);

	res.neg = CTYI_REJECT;

	if (req==CTTY_REQ_On)
	{
		if (req)
			res.neg = CTYI_GRANT;
	}

	cm_signal(E_CM_CTYI, &res);

	return;
}

// Feb 03, 2005	REF: CRR 25960   x0012850
// Description: Call Hold: While one call in Active and other in Held by swapping either of phone is not audible

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework        	MODULE: MFW_CM		                               |
| STATE  : code 			              ROUTINE: cm_setSpeechMode                       |
+--------------------------------------------------------------------+


   PURPOSE : MFW function to call psaCC_setSpeechMode() to attach user connection.

*/
void cm_setSpeechMode(void)
{
	TRACE_FUNCTION("cm_setSpeechMode()");
	psaCC_setSpeechMode();
	return;
}


//   Sep 12, 2005   REF: MMI-SMR-34085 x0021334
//   Description: RE: Add +CDIP command - MMI Additions
//   Solution: Dummy implementation of function "rAT_PlusCDIP()" is done to enable successful compilation.

/*
+--------------------------------------------------------------------+
| PROJECT: MMI-Framework        	MODULE: MFW_CM		                               |
| STATE   : code                                ROUTINE : rAT_PlusCDIP                              |
+--------------------------------------------------------------------+

  PURPOSE : Stub implementation
*/

GLOBAL void rAT_PlusCDIP( CHAR   * number,
                             T_ACI_TOA       * type,
                             CHAR            * subaddr,
                             T_ACI_TOS       * satype)
{
	TRACE_FUNCTION ("rAT_PlusCDIP()");
}