comparison src/g23m-aci/aci/cmh_ccf.c @ 1:fa8dc04885d8

src/g23m-*: import from Magnetite
author Mychaela Falconia <falcon@freecalypso.org>
date Fri, 16 Oct 2020 06:25:50 +0000
parents
children
comparison
equal deleted inserted replaced
0:4e78acac3d88 1:fa8dc04885d8
1 /*
2 +-----------------------------------------------------------------------------
3 | Project : GSM-PS (6147)
4 | Modul : CMH_CCF
5 +-----------------------------------------------------------------------------
6 | Copyright 2002 Texas Instruments Berlin, AG
7 | All rights reserved.
8 |
9 | This file is confidential and a trade secret of Texas
10 | Instruments Berlin, AG
11 | The receipt of or possession of this file does not convey
12 | any rights to reproduce or disclose its contents or to
13 | manufacture, use, or sell anything it may describe, in
14 | whole, or in part, without the specific written consent of
15 | Texas Instruments Berlin, AG.
16 +-----------------------------------------------------------------------------
17 | Purpose : This module defines the functions used by the command
18 | handler for call control.
19 +-----------------------------------------------------------------------------
20 */
21
22 #ifndef CMH_CCF_C
23 #define CMH_CCF_C
24 #endif
25
26 #include "aci_all.h"
27
28 /*==== INCLUDES ===================================================*/
29
30 #include "aci_cmh.h"
31 #include "ati_cmd.h"
32 #include "aci_cmd.h"
33 #include "aci_mem.h"
34
35 #ifdef FAX_AND_DATA
36 #include "aci_fd.h"
37 #endif
38
39 #ifdef FF_TTY
40 #include "audio.h"
41 #endif
42
43 #include "aci_io.h"
44
45 #include "phb.h"
46 #include "ksd.h"
47 #include "aoc.h"
48 #include "aci.h"
49 #include "psa.h"
50 #include "psa_cc.h"
51 #include "psa_ss.h"
52 #include "psa_util.h"
53 #include "cmh.h"
54 #include "cmh_cc.h"
55 #include "cmh_ss.h"
56 #include "cmh_phb.h"
57
58 #include "aci_lst.h"
59
60 #ifdef DTI
61 #include "dti.h" /* functionality of the dti library */
62 #include "dti_conn_mng.h"
63 #include "dti_cntrl_mng.h"
64 #endif
65
66 #ifdef UART
67 #include "psa_uart.h"
68 #include "cmh_uart.h"
69 #endif
70
71 #ifdef FAX_AND_DATA
72
73 #include "psa_ra.h"
74 #include "cmh_ra.h"
75 #include "psa_l2r.h"
76 #include "cmh_l2r.h"
77
78 #ifdef FF_FAX
79 #include "psa_t30.h"
80 #include "cmh_t30.h"
81 #endif /* FF_FAX */
82
83 #endif /* FAX_AND_DATA */
84
85 #if defined (FF_WAP) || defined (FF_PPP) || defined(FF_GPF_TCPIP) || defined (FF_SAT_E)
86 #include "wap_aci.h"
87 #include "psa_ppp_w.h"
88 #include "cmh_ppp.h"
89 #endif /* of FF_WAP or FF_PPP || (FF_GPF_TCPIP)|| (FF_SAT_E)*/
90
91 #ifdef FF_GPF_TCPIP
92 #include "dcm_utils.h"
93 #include "dcm_state.h"
94 #include "dcm_env.h"
95 #endif
96
97 #ifdef SIM_TOOLKIT
98 #include "psa_sat.h"
99 #include "cmh_sat.h"
100 #include "psa_sim.h"
101 #endif
102
103 #ifdef FF_PSI
104 #include "psa_psi.h"
105 #include "cmh_psi.h"
106 #endif /*FF_PSI*/
107 #include "l4_tim.h"
108
109 #if defined(_TARGET_)
110 #include "ffs/ffs.h"
111 #include "ffs_coat.h"
112 #endif /* _TARGET_ */
113
114 #include "dcm_f.h"
115
116 /*==== CONSTANTS ==================================================*/
117 #define ACI_MAX_DIAL_SHORT_STRING_LEN 2
118 #ifdef TI_PS_FF_AT_P_CMD_RDLB
119 EXTERN T_ACI_CC_REDIAL_BLACKL * cc_blacklist_ptr;
120 #endif /* TI_PS_FF_AT_P_CMD_RDLB */
121 /*==== TYPES ======================================================*/
122
123 /*==== EXPORT =====================================================*/
124
125 /*==== VARIABLES ==================================================*/
126 GLOBAL T_ACI_CUSCFG_PARAMS cuscfgParams;
127
128 /* Implements Measure#32: Row 73, 74, 103, 114 & 1071 */
129 const char * const gsm_com_path="/gsm/com";
130 const char * const gsm_com_redialmode_path="/gsm/com/redialMode";
131 const char * const gsm_com_alslock_path="/gsm/com/ALSlock";
132 const char * const gsm_com_rfcap_path="/gsm/com/rfcap";
133 /*==== FUNCTIONS ==================================================*/
134 /* Implements Measure 197, 198 and 199 */
135 LOCAL void cmhCC_redialAttempt( SHORT cId, UBYTE rdlCnt );
136
137 /*
138 +-------------------------------------------------------------------+
139 | PROJECT : GSM-PS (6147) MODULE : CMH |
140 | ROUTINE : cmhCC_PrepareCmdEnd |
141 +-------------------------------------------------------------------+
142
143 PURPOSE : Prepares the end of a CC related AT command.
144 cId describes a valid (non-NULL) call table entry.
145
146 */
147
148 GLOBAL void cmhCC_PrepareCmdEnd (SHORT cId, UBYTE *cmdBuf, UBYTE *srcBuf)
149 {
150 T_CC_CALL_TBL *ctb = ccShrdPrm.ctb[cId];
151
152 if (cmdBuf NEQ NULL)
153 *cmdBuf = ctb->curCmd;
154 if (srcBuf NEQ NULL)
155 *srcBuf = ctb->curSrc;
156 ctb->curCmd = AT_CMD_NONE;
157 ctb->curSrc = CMD_SRC_NONE;
158 }
159
160
161 GLOBAL UBYTE cmhCC_set_speech_serv (T_CC_CMD_PRM *pCCCmdPrm)
162 {
163 #ifdef FF_TTY
164 UBYTE ctmReq;
165
166 /* check temporary inversion of CTM service request */
167 if (!ccShrdPrm.ctmOvwr)
168 {
169 ctmReq = ccShrdPrm.ctmReq;
170 }
171 else
172 {
173 if (ccShrdPrm.ctmReq EQ MNCC_CTM_ENABLED)
174 {
175 ctmReq = MNCC_CTM_DISABLED;
176 ccShrdPrm.ttyCmd = (UBYTE)TTY_OFF;
177 }
178 else
179 {
180 ctmReq = MNCC_CTM_ENABLED;
181 ccShrdPrm.ttyCmd = (UBYTE)TTY_ALL;
182 }
183 /* reset temporary inversion */
184 ccShrdPrm.ctmOvwr = FALSE;
185 }
186 #endif /* FF_TTY */
187 #ifdef FF_TTY
188 if (ctmReq EQ MNCC_CTM_ENABLED)
189 {
190 if (ccShrdPrm.ctmState EQ TTY_STATE_NONE)
191 {
192 ccShrdPrm.ctmState = TTY_STATE_IDLE;
193 }
194 if (pCCCmdPrm->ALSmode EQ ALS_MOD_AUX_SPEECH)
195 {
196 return MNCC_BEARER_SERV_AUX_SPEECH_CTM;
197 }
198 else
199 {
200 return MNCC_BEARER_SERV_SPEECH_CTM;
201 }
202 }
203 else
204 #endif /* FF_TTY */
205 {
206 #ifdef FF_TTY
207 if (ccShrdPrm.ctmState EQ TTY_STATE_IDLE)
208 {
209 ccShrdPrm.ctmState = TTY_STATE_NONE;
210 }
211 #endif /* FF_TTY */
212 if (pCCCmdPrm->ALSmode EQ ALS_MOD_AUX_SPEECH)
213 {
214 return MNCC_BEARER_SERV_AUX_SPEECH;
215 }
216 }
217 return MNCC_BEARER_SERV_SPEECH;
218 }
219
220 GLOBAL T_ACI_RETURN cmhCC_chkShortString (T_ACI_CMD_SRC srcId,
221 SHORT cId,
222 T_CLPTY_PRM *cldPty)
223 {
224 USHORT num_len;
225 T_ACI_KSD_USSD_PRM ksdString;
226
227 num_len = strlen (cldPty->num);
228
229 /* check the length */
230 if (!num_len OR (num_len > ACI_MAX_DIAL_SHORT_STRING_LEN))
231 {
232 return (AT_EXCT);
233 }
234
235 ksdString.ussd = (UBYTE*)cldPty->num;
236
237 /* check if MS is in a call */
238 if (cId NEQ NO_ENTRY)
239 {
240 /* call is active */
241 return (cmhSS_ksdUSSD (srcId, &ksdString));
242 }
243
244 /* check if input string is 2 digit starting with a 1 */
245 if ((num_len EQ ACI_MAX_DIAL_SHORT_STRING_LEN) AND
246 (*(cldPty->num) EQ '1') OR cuscfgParams.Two_digit_MO_Call)
247 {
248 /* normal dial */
249 return (AT_EXCT);
250 }
251
252 return (cmhSS_ksdUSSD (srcId, &ksdString));
253 }
254
255 /*
256 +-------------------------------------------------------------------+
257 | PROJECT : GSM-PS (6147) MODULE : CMH |
258 | ROUTINE : cmhCC_find_call_for_DTMF|
259 +-------------------------------------------------------------------+
260
261 PURPOSE :searches for a call where it is possible to
262 send DTMF tones.
263 */
264 GLOBAL BOOL is_call_ok_for_dtmf( SHORT cId )
265 {
266 T_CC_CALL_TYPE calltype = cmhCC_getcalltype(cId);
267
268 if(calltype NEQ VOICE_CALL)
269 {
270 TRACE_EVENT_P1("calltype NEQ VOICE_CALL: %d", calltype);
271 return(FALSE);
272 }
273
274 if (ccShrdPrm.ctb[cId] EQ NULL)
275 {
276 TRACE_EVENT("ccShrdPrm.ctb[cId] EQ NULL");
277 return(FALSE);
278 }
279
280 switch(psaCC_ctb(cId)->calStat)
281 {
282 case(CS_ACT):
283 case(CS_ACT_REQ):
284 case(CS_DSC_REQ):
285 case(CS_CPL_REQ):
286 return(TRUE);
287
288 default:
289 TRACE_EVENT_P1("unexpected call status: %d", psaCC_ctb(cId)->calStat);
290 return(FALSE);
291 }
292 }
293
294 GLOBAL SHORT cmhCC_find_call_for_DTMF( void )
295 {
296 SHORT ctbIdx; /* holds call table index */
297
298 TRACE_FUNCTION("cmhCC_find_call_for_DTMF");
299
300 for( ctbIdx = 0; ctbIdx < MAX_CALL_NR; ctbIdx++ )
301 {
302 if( is_call_ok_for_dtmf(ctbIdx) )
303 {
304 return(ctbIdx);
305 }
306 }
307 return( NO_ENTRY );
308 }
309
310 /*
311 +-------------------------------------------------------------------+
312 | PROJECT : GSM-PS (6147) MODULE : CMH |
313 | ROUTINE : cmhCC_SendDTMFdig |
314 +-------------------------------------------------------------------+
315
316 PURPOSE : send a DTMF digit for that call.
317 return value: TRUE if digit has been correctly proceeded.
318 FALSE if an error occured.
319 */
320
321 GLOBAL BOOL cmhCC_SendDTMFdig( T_ACI_AT_CMD cmd, SHORT cId, CHAR digit, UBYTE mode)
322 {
323 TRACE_FUNCTION("cmhCC_SendDTMFdig");
324
325 TRACE_EVENT_P1("Sending DTMF tone: %d", digit);
326
327 switch( digit )
328 {
329 case( '0' ):
330 case( '1' ):
331 case( '2' ):
332 case( '3' ):
333 case( '4' ):
334 case( '5' ):
335 case( '6' ):
336 case( '7' ):
337 case( '8' ):
338 case( '9' ):
339 case( '*' ):
340 case( '#' ):
341 case( 'A' ):
342 case( 'B' ):
343 case( 'C' ):
344 case( 'D' ):
345 psaCC_SendDTMF( cId, digit, mode );
346 return( TRUE );
347
348 case( 'W' ): /* FIXME: w should prompt the user for starting sending the following DTMF tones */
349 case( 'w' ): /* since BMI does not support 'w' we assume to be the same as 'p' */
350 case( 'P' ):
351 case( 'p' ):
352 if(cmd NEQ AT_CMD_VTS) /* this is only valid within a number to dial */
353 {
354 /* p within a number string: this is a 3 seconds pause */
355 TRACE_EVENT("DTMF pause requested: 3 seconds");
356 #if defined (NEW_FRAME)
357 TIMERSTART( TDTMF_VALUE, ACI_TDTMF );
358 #else
359 TIMERSTART( TDTMF_VALUE, t_dtmf_handle );
360 #endif
361 return( TRUE );
362 }
363 /* fallthrough for else */
364 /*lint -fallthrough*/
365 default:
366 TRACE_EVENT_P1("Invalid DTMF digit: %d", digit);
367 }
368 return( FALSE );
369 }
370
371
372 #ifdef FAX_AND_DATA
373 /*
374 +-------------------------------------------------------------------+
375 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
376 | ROUTINE : cmhCC_SelRate |
377 +-------------------------------------------------------------------+
378
379 PURPOSE : select the user rate out of the current speed setting
380
381 */
382
383 GLOBAL UBYTE cmhCC_SelRate ( T_ACI_BS_SPEED speed )
384 {
385 switch( speed )
386 {
387 case( BS_SPEED_300_V21 ):
388 case( BS_SPEED_300_V110 ): return( MNCC_UR_0_3_KBIT );
389 case( BS_SPEED_1200_V22 ):
390 case( BS_SPEED_1200_V120 ):
391 case( BS_SPEED_1200_V110 ): return( MNCC_UR_1_2_KBIT );
392 case( BS_SPEED_1200_75_V23 ): return( MNCC_UR_1_2_KBIT_V23 );
393 case( BS_SPEED_2400_V22bis ):
394 case( BS_SPEED_2400_V26ter ):
395 case( BS_SPEED_2400_V120 ):
396 case( BS_SPEED_2400_V110 ): return( MNCC_UR_2_4_KBIT );
397 case( BS_SPEED_4800_V32 ):
398 case( BS_SPEED_4800_V120 ):
399 case( BS_SPEED_4800_V110 ): return( MNCC_UR_4_8_KBIT );
400 case( BS_SPEED_AUTO ):
401 case( BS_SPEED_9600_V32 ):
402 case( BS_SPEED_9600_V34 ):
403 case( BS_SPEED_9600_V120 ):
404 case( BS_SPEED_9600_V110 ): return( MNCC_UR_9_6_KBIT );
405 case( BS_SPEED_14400_V34 ):
406 case( BS_SPEED_14400_V120 ):
407 case( BS_SPEED_14400_V110 ): return( MNCC_UR_14_4_KBIT );
408 default: return( MNCC_UR_NOT_PRES );
409 }
410 }
411
412 /*
413 +-------------------------------------------------------------------+
414 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
415 | ROUTINE : cmhCC_SelMT |
416 +-------------------------------------------------------------------+
417
418 PURPOSE : select the modem type out of the current speed setting
419
420 */
421
422 GLOBAL UBYTE cmhCC_SelMT ( T_ACI_BS_SPEED speed )
423 {
424 switch( speed )
425 {
426 case( BS_SPEED_300_V21 ): return( MNCC_MT_V21 );
427 case( BS_SPEED_1200_V22 ): return( MNCC_MT_V22 );
428 case( BS_SPEED_2400_V22bis ): return( MNCC_MT_V22_BIS );
429 case( BS_SPEED_1200_75_V23 ): return( MNCC_MT_V23 );
430 case( BS_SPEED_2400_V26ter ): return( MNCC_MT_V26_TER );
431 case( BS_SPEED_9600_V32 ):
432 case( BS_SPEED_4800_V32 ): return( MNCC_MT_V32 );
433 case( BS_SPEED_1200_V120 ):
434 case( BS_SPEED_2400_V120 ):
435 case( BS_SPEED_4800_V120 ):
436 case( BS_SPEED_9600_V120 ):
437 case( BS_SPEED_14400_V120 ):
438 case( BS_SPEED_2400_V110 ):
439 case( BS_SPEED_4800_V110 ):
440 case( BS_SPEED_9600_V110 ):
441 case( BS_SPEED_14400_V110 ):
442 case( BS_SPEED_300_V110 ):
443 case( BS_SPEED_1200_V110 ): return( MNCC_MT_NONE );
444 case( BS_SPEED_9600_V34 ):
445 case( BS_SPEED_14400_V34 ): return( MNCC_MT_V34 );
446 default: return( MNCC_MT_AUTOBAUD );
447 }
448 }
449
450
451 /*
452 +-------------------------------------------------------------------+
453 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
454 | ROUTINE : cmhCC_SelTransferCap |
455 +-------------------------------------------------------------------+
456
457 PURPOSE : select the transfer capabilty on basis of speed
458
459 */
460
461 GLOBAL UBYTE cmhCC_SelTransferCap ( T_ACI_BS_SPEED speed )
462 {
463 TRACE_FUNCTION("cmhCC_SelTransferCap()");
464
465 if (speed <= BS_SPEED_14400_V34)
466 {
467 return MNCC_ITC_NONE;
468 }
469 else
470 {
471 return MNCC_ITC_UDI;
472 }
473 }
474
475 /*
476 +-------------------------------------------------------------------+
477 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
478 | ROUTINE : cmhCC_SelRateAdaption |
479 +-------------------------------------------------------------------+
480
481 PURPOSE : select the rate adaption on basis of speed selection
482
483 */
484
485 GLOBAL UBYTE cmhCC_SelRateAdaption ( T_ACI_BS_SPEED speed)
486 {
487 TRACE_FUNCTION("cmhCC_SelRateAdaption()");
488
489 if ((speed >= BS_SPEED_1200_V120) AND (speed <= BS_SPEED_14400_V120))
490 {
491 return MNCC_RATE_ADAPT_V120;
492 }
493 else if ((speed >= BS_SPEED_300_V110) AND (speed <= BS_SPEED_14400_V110))
494 {
495 return MNCC_RATE_ADAPT_V110;
496 }
497 else
498 {
499 return MNCC_RATE_ADAPT_NONE;
500 }
501 }
502 /*
503 +-------------------------------------------------------------------+
504 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
505 | ROUTINE : cmhCC_SelServ |
506 +-------------------------------------------------------------------+
507
508 PURPOSE : select the bearer service out of the current name setting
509
510 */
511
512 GLOBAL UBYTE cmhCC_SelServ ( T_ACI_CBST_NAM name )
513 {
514 switch( name )
515 {
516 case( CBST_NAM_Asynch ): return( MNCC_BEARER_SERV_ASYNC );
517 case( CBST_NAM_Synch ): return( MNCC_BEARER_SERV_SYNC );
518 default: return( MNCC_BEARER_SERV_NOT_PRES );
519 }
520
521 }
522
523 /*
524 +-------------------------------------------------------------------+
525 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
526 | ROUTINE : cmhCC_SelCE |
527 +-------------------------------------------------------------------+
528
529 PURPOSE : select the connection element out of the current ce setting
530
531 */
532
533 GLOBAL UBYTE cmhCC_SelCE ( T_ACI_CBST_CE ce )
534 {
535 switch( ce )
536 {
537 case( CBST_CE_Transparent ): return( MNCC_CONN_ELEM_TRANS );
538 case( CBST_CE_NonTransparent ): return( MNCC_CONN_ELEM_NON_TRANS );
539 case( CBST_CE_BothTransPref ): return( MNCC_CONN_ELEM_TRANS_PREF );
540 case( CBST_CE_BothNonTransPref ): return( MNCC_CONN_ELEM_NON_TRANS_PREF );
541 default: return( MNCC_CONN_ELEM_NOT_PRES );
542 }
543 }
544
545 /*
546 +-------------------------------------------------------------------+
547 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
548 | ROUTINE : cmhCC_SelStopBit |
549 +-------------------------------------------------------------------+
550
551 PURPOSE : select the stop bits out of the current character framing
552 setting
553
554 */
555
556 GLOBAL UBYTE cmhCC_SelStopBit ( T_ACI_CMD_SRC srcId )
557 {
558 #ifdef UART
559 if (UART_IO_SB_2 EQ cmhUART_GetStopBitOverSrcID( (UBYTE) srcId ))
560 {
561 return( MNCC_STOP_2_BIT );
562 }
563 #endif /*UART*/
564 #if defined (FF_PSI) AND defined (DTI)
565 if (UART_IO_SB_2 EQ cmhPSI_GetStopBitOverSrcID( (UBYTE) srcId ))
566 {
567 return( MNCC_STOP_2_BIT );
568 }
569 #endif /*FF_PSI*/
570
571 return( MNCC_STOP_1_BIT );
572 }
573
574
575 /*
576 +-------------------------------------------------------------------+
577 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
578 | ROUTINE : cmhCC_SelDataBit |
579 +-------------------------------------------------------------------+
580
581 PURPOSE : select the data bits out of the current character framing
582 setting
583
584 */
585
586 GLOBAL UBYTE cmhCC_SelDataBit ( T_ACI_CMD_SRC srcId )
587 {
588 #ifdef UART
589 if ( UART_IO_BPC_7 EQ cmhUART_GetDataBitOverSrcID( (UBYTE) srcId ))
590
591 {
592 return( MNCC_DATA_7_BIT );
593 }
594 #endif /*UART*/
595
596 #if defined (FF_PSI) AND defined (DTI)
597 if ( UART_IO_BPC_7 EQ cmhPSI_GetDataBitOverSrcID( (UBYTE) srcId ) )
598 {
599 return( MNCC_DATA_7_BIT );
600 }
601 #endif /*FF_PSI*/
602
603 return( MNCC_DATA_8_BIT );
604 }
605
606
607 /*
608 +-------------------------------------------------------------------+
609 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
610 | ROUTINE : cmhCC_SelParity |
611 +-------------------------------------------------------------------+
612
613 PURPOSE : select the data bits out of the current character framing
614 setting
615
616 */
617
618 GLOBAL UBYTE cmhCC_SelParity ( T_ACI_CMD_SRC srcId )
619 {
620 UBYTE parity=0;
621 #if defined (FF_PSI) AND defined (DTI)
622 T_ACI_DTI_PRC_PSI *src_infos = find_element (psi_src_params,
623 (UBYTE)srcId, cmhPSItest_srcId);
624
625 if (src_infos EQ NULL)
626 #endif /*FF_PSI*/
627
628 #ifdef UART
629 parity = cmhUART_GetParityOverSrcID( (UBYTE) srcId );
630 #else /*UART*/
631 parity=0;
632 #endif /*UART*/
633
634 #if defined (FF_PSI) AND defined (DTI)
635 else
636 parity = cmhPSI_GetParityOverSrcID( (UBYTE) srcId );
637 #endif /*FF_PSI*/
638 #ifdef UART
639 switch( parity )
640 {
641 case UART_IO_PA_NONE: return( MNCC_PARITY_NONE );
642 case UART_IO_PA_EVEN: return( MNCC_PARITY_EVEN );
643 case UART_IO_PA_ODD: return( MNCC_PARITY_ODD );
644 case UART_IO_PA_SPACE: return( MNCC_PARITY_FORCED_TO_0 );
645 case NOT_SUPPORTED_UART_IO_PA_MARK: return( MNCC_PARITY_FORCED_TO_1 );
646 default: TRACE_EVENT( "UNEXP PARITY IN ICF" );
647 }
648 #endif /*UART*/
649 return( MNCC_PARITY_NONE );
650
651 }
652 #endif /* FAX_AND_DATA */
653 /*
654 +-------------------------------------------------------------------+
655 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
656 | ROUTINE : cmhCC_GetCallType |
657 +-------------------------------------------------------------------+
658
659 PURPOSE : get call type out of bearer capabilities
660
661 */
662
663 GLOBAL SHORT cmhCC_GetCallType_from_bearer ( void * bearCap )
664 {
665 T_MNCC_bcpara * pBC = (T_MNCC_bcpara*) bearCap;
666
667 switch( pBC->bearer_serv )
668 {
669 case( MNCC_BEARER_SERV_SYNC ):
670 switch( pBC -> conn_elem )
671 {
672 case( MNCC_CONN_ELEM_TRANS ): return( CRING_SERV_TYP_Sync );
673 case( MNCC_CONN_ELEM_NON_TRANS ): return( CRING_SERV_TYP_RelSync );
674 default: TRACE_EVENT( "UNEXP CONN ELEMENT IN CTB" );
675 /*lint -fallthrough*/
676 case( MNCC_CONN_ELEM_NOT_PRES ): return( CRING_SERV_TYP_NotPresent );
677 }
678
679 case( MNCC_BEARER_SERV_ASYNC ):
680 switch( pBC -> conn_elem )
681 {
682 case( MNCC_CONN_ELEM_TRANS ): return( CRING_SERV_TYP_Async );
683 case( MNCC_CONN_ELEM_NON_TRANS ): return( CRING_SERV_TYP_RelAsync );
684 default: TRACE_EVENT( "UNEXP CONN ELEMENT IN CTB" );
685 /*lint -fallthrough*/
686 case( MNCC_CONN_ELEM_NOT_PRES ): return( CRING_SERV_TYP_NotPresent );
687 }
688
689 case( MNCC_BEARER_SERV_FAX ): return( CRING_SERV_TYP_Fax );
690
691 case( MNCC_BEARER_SERV_SPEECH_CTM ):
692 case( MNCC_BEARER_SERV_SPEECH ): return( CRING_SERV_TYP_Voice );
693
694 case( MNCC_BEARER_SERV_AUX_SPEECH_CTM):
695 case( MNCC_BEARER_SERV_AUX_SPEECH ): return( CRING_SERV_TYP_AuxVoice );
696
697 default: TRACE_EVENT( "UNEXP BEARER SERVICE IN CTB" );
698 /*lint -fallthrough*/
699 case( MNCC_BEARER_SERV_PAD_ACCESS ):
700 case( MNCC_BEARER_SERV_PACKET_ACCESS ):
701 case( MNCC_BEARER_SERV_NOT_PRES ): return( CRING_SERV_TYP_NotPresent );
702
703 }
704 }
705
706 #ifdef FAX_AND_DATA
707 /*
708 +-------------------------------------------------------------------+
709 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
710 | ROUTINE : cmhCC_GetSrvType |
711 +-------------------------------------------------------------------+
712
713 PURPOSE : get service type out of bearer capabilities
714
715 */
716
717 GLOBAL SHORT cmhCC_GetSrvType ( void * bearCap )
718 {
719 T_MNCC_bcpara * pBC = (T_MNCC_bcpara*) bearCap;
720
721 switch( pBC->bearer_serv )
722 {
723 case( MNCC_BEARER_SERV_SYNC ):
724 switch( pBC -> conn_elem )
725 {
726 case( MNCC_CONN_ELEM_TRANS ): return( CRING_SERV_TYP_Sync );
727 case( MNCC_CONN_ELEM_NON_TRANS ): return( CRING_SERV_TYP_RelSync );
728 default: TRACE_EVENT( "UNEXP CONN ELEMENT IN CTB" );
729 /*lint -fallthrough*/
730 case( MNCC_CONN_ELEM_NOT_PRES ): return( CRING_SERV_TYP_NotPresent );
731 }
732
733 case( MNCC_BEARER_SERV_ASYNC ):
734 switch( pBC -> conn_elem )
735 {
736 case( MNCC_CONN_ELEM_TRANS ): return( CRING_SERV_TYP_Async );
737 case( MNCC_CONN_ELEM_NON_TRANS ): return( CRING_SERV_TYP_RelAsync );
738 default: TRACE_EVENT( "UNEXP CONN ELEMENT IN CTB" );
739 /*lint -fallthrough*/
740 case( MNCC_CONN_ELEM_NOT_PRES ): return( CRING_SERV_TYP_NotPresent );
741 }
742
743 default: TRACE_EVENT( "UNEXP BEARER SERVICE IN CTB" );
744 /*lint -fallthrough*/
745 case( MNCC_BEARER_SERV_FAX ):
746 case( MNCC_BEARER_SERV_SPEECH_CTM ):
747 case( MNCC_BEARER_SERV_AUX_SPEECH_CTM):
748 case( MNCC_BEARER_SERV_SPEECH ):
749 case( MNCC_BEARER_SERV_AUX_SPEECH ):
750 case( MNCC_BEARER_SERV_PAD_ACCESS ):
751 case( MNCC_BEARER_SERV_PACKET_ACCESS ):
752 case( MNCC_BEARER_SERV_NOT_PRES ): return( CRING_SERV_TYP_NotPresent );
753
754 }
755 }
756
757 /*
758 +-------------------------------------------------------------------+
759 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
760 | ROUTINE : cmhCC_GetDataRate |
761 +-------------------------------------------------------------------+
762
763 PURPOSE : get user data rate out of bearer capabilities
764
765 */
766
767 GLOBAL SHORT cmhCC_GetDataRate ( void * bearCap )
768 {
769 T_MNCC_bcpara * pBC = (T_MNCC_bcpara*) bearCap;
770
771 switch( pBC->rate )
772 {
773 case( MNCC_UR_0_3_KBIT ): return( BS_SPEED_300_V110 );
774 case( MNCC_UR_1_2_KBIT ): return( BS_SPEED_1200_V110 );
775 case( MNCC_UR_2_4_KBIT ): return( BS_SPEED_2400_V110 );
776 case( MNCC_UR_4_8_KBIT ): return( BS_SPEED_4800_V110 );
777 case( MNCC_UR_9_6_KBIT ): return( BS_SPEED_9600_V110 );
778 case( MNCC_UR_14_4_KBIT ): return( BS_SPEED_14400_V110 );
779 default: return( BS_SPEED_NotPresent );
780 }
781
782 }
783
784 /*
785 +-------------------------------------------------------------------+
786 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
787 | ROUTINE : cmhCC_GetFormat |
788 +-------------------------------------------------------------------+
789
790 PURPOSE : get character format out of bearer capabilities
791
792 */
793
794 GLOBAL SHORT cmhCC_GetFormat ( void * bearCap )
795 {
796 T_MNCC_bcpara * pBC = (T_MNCC_bcpara*) bearCap;
797
798 if( pBC->data_bits EQ MNCC_DATA_7_BIT)
799 {
800 if( pBC->stop_bits EQ MNCC_STOP_1_BIT )
801 {
802 if( pBC->parity EQ MNCC_PARITY_NONE ) return( BS_FRM_Dat7_Par0_St1 );
803 else return( BS_FRM_Dat7_Par1_St1 );
804 }
805 else return( BS_FRM_Dat7_Par0_St2 );
806 }
807 else
808 {
809 if( pBC->stop_bits EQ MNCC_STOP_1_BIT )
810 {
811 if( pBC->parity EQ MNCC_PARITY_NONE ) return( BS_FRM_Dat8_Par0_St1 );
812 else return( BS_FRM_Dat8_Par1_St1 );
813 }
814 else return( BS_FRM_Dat8_Par0_St2 );
815 }
816 }
817
818
819 /*
820 +-------------------------------------------------------------------+
821 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
822 | ROUTINE : cmhCC_GetParity |
823 +-------------------------------------------------------------------+
824
825 PURPOSE : get parity out of bearer capabilities
826
827 */
828
829 GLOBAL SHORT cmhCC_GetParity ( void * bearCap )
830 {
831 T_MNCC_bcpara * pBC = (T_MNCC_bcpara*) bearCap;
832
833 switch( pBC->parity )
834 {
835 case( MNCC_PARITY_ODD ): return( BS_PAR_Odd );
836 case( MNCC_PARITY_EVEN ): return( BS_PAR_Even );
837 case( MNCC_PARITY_FORCED_TO_0 ): return( BS_PAR_Space );
838 case( MNCC_PARITY_FORCED_TO_1 ): return( BS_PAR_Mark );
839 case( MNCC_PARITY_NONE ):
840 default: return( BS_PAR_NotPresent );
841 }
842
843 }
844 #endif /* FAX_AND_DATA */
845 /*
846 +-------------------------------------------------------------------+
847 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
848 | ROUTINE : cmhCC_GetCallClass |
849 +-------------------------------------------------------------------+
850
851 PURPOSE : get call class out of bearer service
852
853 */
854
855 GLOBAL T_ACI_CLASS cmhCC_GetCallClass ( SHORT cId )
856 {
857 T_CC_CALL_TBL *ctb = ccShrdPrm.ctb[cId];
858
859 switch( ctb->BC[ctb->curBC].bearer_serv )
860 {
861 case( MNCC_BEARER_SERV_SPEECH_CTM ):
862 case( MNCC_BEARER_SERV_SPEECH ): return( CLASS_Vce );
863 case( MNCC_BEARER_SERV_AUX_SPEECH_CTM ):
864 case( MNCC_BEARER_SERV_AUX_SPEECH ): return( CLASS_AuxVce );
865 case( MNCC_BEARER_SERV_FAX ): return( CLASS_Fax );
866 case( MNCC_BEARER_SERV_SYNC ): return( CLASS_Dat );
867 case( MNCC_BEARER_SERV_ASYNC ): return( CLASS_Dat );
868 default: return( CLASS_NotPresent );
869 }
870
871 }
872
873 /*
874 +-------------------------------------------------------------------+
875 | PROJECT : GSM-PS (6147) MODULE : PSA_CCF |
876 | ROUTINE : cmhCC_ctbGetCldNumTyp |
877 +-------------------------------------------------------------------+
878
879 PURPOSE : this function builds the type of address information out
880 of the called party information.
881 */
882
883 GLOBAL T_ACI_TOA* cmhCC_ctbGetCldNumTyp ( SHORT cId, T_ACI_TOA* pToaBuf )
884 {
885 T_CC_CALL_TBL *ctb = ccShrdPrm.ctb[cId];
886 /*
887 *-------------------------------------------------------------------
888 * build type of address information
889 *-------------------------------------------------------------------
890 */
891 if (ctb->cldPty.ton EQ MNCC_TON_NOT_PRES )
892
893 return( NULL );
894
895 pToaBuf -> ton = (T_ACI_TOA_TON)ctb->cldPty.ton;
896 pToaBuf -> npi = (T_ACI_TOA_NPI)ctb->cldPty.npi;
897
898 return( pToaBuf );
899 }
900
901 /*
902 +-------------------------------------------------------------------+
903 | PROJECT : GSM-PS (6147) MODULE : PSA_CCF |
904 | ROUTINE : cmhCC_ctbGetCldSubTyp |
905 +-------------------------------------------------------------------+
906
907 PURPOSE : this function builds the type of subaddress information
908 out of the called party information.
909 */
910
911 GLOBAL T_ACI_TOS* cmhCC_ctbGetCldSubTyp ( SHORT cId, T_ACI_TOS * pTosBuf )
912 {
913 T_CC_CALL_TBL *ctb = ccShrdPrm.ctb[cId];
914 /*
915 *-------------------------------------------------------------------
916 * build type of subaddress information
917 *-------------------------------------------------------------------
918 */
919 if( ctb->cldPtySub.tos EQ MNCC_TOS_NOT_PRES )
920
921 return( NULL );
922
923 pTosBuf -> tos = (T_ACI_TOS_TOS)ctb->cldPtySub.tos;
924 pTosBuf -> oe = (T_ACI_TOS_OE)ctb->cldPtySub.odd_even;
925
926 return( pTosBuf );
927 }
928
929 /*
930 +-------------------------------------------------------------------+
931 | PROJECT : GSM-PS (6147) MODULE : PSA_CCF |
932 | ROUTINE : cmhCC_ctbGetClrNumTyp |
933 +-------------------------------------------------------------------+
934
935 PURPOSE : this function builds the type of address information out
936 of the calling party information.
937 */
938
939 GLOBAL T_ACI_TOA* cmhCC_ctbGetClrNumTyp ( SHORT cId, T_ACI_TOA* pToaBuf )
940 {
941 T_CC_CALL_TBL *ctb = ccShrdPrm.ctb[cId];
942 /*
943 *-------------------------------------------------------------------
944 * build type of address information
945 *-------------------------------------------------------------------
946 */
947 if (ctb->clgPty.ton EQ MNCC_TON_NOT_PRES )
948
949 return( NULL );
950
951 pToaBuf -> ton = (T_ACI_TOA_TON)ctb->clgPty.ton;
952 pToaBuf -> npi = (T_ACI_TOA_NPI)ctb->clgPty.npi;
953
954 return( pToaBuf );
955 }
956
957 /*
958 +-------------------------------------------------------------------+
959 | PROJECT : GSM-PS (6147) MODULE : PSA_CCF |
960 | ROUTINE : cmhCC_ctbGetClrSubTyp |
961 +-------------------------------------------------------------------+
962
963 PURPOSE : this function builds the type of subaddress information
964 out of the calling party information.
965 */
966
967 GLOBAL T_ACI_TOS* cmhCC_ctbGetClrSubTyp ( SHORT cId, T_ACI_TOS * pTosBuf )
968 {
969 T_CC_CALL_TBL *ctb = ccShrdPrm.ctb[cId];
970 /*
971 *-------------------------------------------------------------------
972 * build type of subaddress information
973 *-------------------------------------------------------------------
974 */
975 if( ctb->clgPtySub.tos EQ MNCC_TOS_NOT_PRES )
976
977 return( NULL );
978
979 pTosBuf -> tos = (T_ACI_TOS_TOS)ctb->clgPtySub.tos;
980 pTosBuf -> oe = (T_ACI_TOS_OE)ctb->clgPtySub.odd_even;
981
982 return( pTosBuf );
983 }
984
985 /*
986 +-------------------------------------------------------------------+
987 | PROJECT : GSM-PS (6147) MODULE : PSA_CCF |
988 | ROUTINE : cmhCC_ctbGetRdrNumTyp |
989 +-------------------------------------------------------------------+
990
991 PURPOSE : this function builds the type of address information out
992 of the redirecting party information.
993 */
994
995 GLOBAL T_ACI_TOA* cmhCC_ctbGetRdrNumTyp ( SHORT cId, T_ACI_TOA* pToaBuf )
996 {
997 T_CC_CALL_TBL *ctb = ccShrdPrm.ctb[cId];
998 /*
999 *-------------------------------------------------------------------
1000 * build type of address information
1001 *-------------------------------------------------------------------
1002 */
1003 if( ctb->rdrPty.ton EQ MNCC_TON_NOT_PRES )
1004
1005 return( NULL );
1006
1007 pToaBuf -> ton = (T_ACI_TOA_TON)ctb->rdrPty.ton;
1008 pToaBuf -> npi = (T_ACI_TOA_NPI)ctb->rdrPty.npi;
1009
1010 return( pToaBuf );
1011 }
1012
1013 /*
1014 +-------------------------------------------------------------------+
1015 | PROJECT : GSM-PS (6147) MODULE : PSA_CCF |
1016 | ROUTINE : cmhCC_ctbGetRdrSubTyp |
1017 +-------------------------------------------------------------------+
1018
1019 PURPOSE : this function builds the type of subaddress information
1020 out of the redirecting party information.
1021 */
1022
1023 GLOBAL T_ACI_TOS* cmhCC_ctbGetRdrSubTyp ( SHORT cId, T_ACI_TOS * pTosBuf )
1024 {
1025 T_CC_CALL_TBL *ctb = ccShrdPrm.ctb[cId];
1026 /*
1027 *-------------------------------------------------------------------
1028 * build type of subaddress information
1029 *-------------------------------------------------------------------
1030 */
1031 if( ctb->rdrPtySub.tos EQ MNCC_TOS_NOT_PRES )
1032
1033 return( NULL );
1034
1035 pTosBuf -> tos = (T_ACI_TOS_TOS)ctb->rdrPtySub.tos;
1036 pTosBuf -> oe = (T_ACI_TOS_OE)ctb->rdrPtySub.odd_even;
1037
1038 return( pTosBuf );
1039 }
1040
1041 /*
1042 +-------------------------------------------------------------------+
1043 | PROJECT : GSM-PS (6147) MODULE : CMH_CCR |
1044 | ROUTINE : cmhrat_no_carrier |
1045 +-------------------------------------------------------------------+
1046
1047 PURPOSE : Send NO CARRIER to user (saves memory in comparaison to R_AT).
1048 It also send a log to MFW, and sends NO CARRIER to the owner
1049 of the call if it is necessary (owner different from call killer).
1050
1051 It also sends a DCD off to UART.
1052
1053 */
1054
1055 GLOBAL void cmhrat_calldisc( RAT_ID response, UBYTE srcId, T_ACI_AT_CMD cmdId, SHORT cId )
1056 {
1057 T_CC_CALL_TBL *ctb = ccShrdPrm.ctb[cId];
1058
1059 TRACE_FUNCTION("cmhrat_calldisc");
1060
1061 /* CHECK response: THIS ONLY WORKS BECAUSE R_AT has the same parameters
1062 for RAT_NO_CARRIER, RAT_BUSY and RAT_NO_ANSWER */
1063 switch( response )
1064 {
1065 case( RAT_NO_CARRIER ):
1066 case( RAT_BUSY ):
1067 case( RAT_NO_ANSWER ):
1068 break;
1069 default:
1070 return;
1071 }
1072
1073 if( srcId EQ (UBYTE)CMD_SRC_NONE OR
1074 srcId EQ ctb->calOwn )
1075 {
1076 /* inform only call owner */
1077
1078 R_AT( response, (T_ACI_CMD_SRC)ctb->calOwn ) ( AT_CMD_NONE, cId+1 );
1079 }
1080 else
1081 {
1082 /* inform both call owner and call killer */
1083 R_AT( response, (T_ACI_CMD_SRC)ctb->calOwn ) ( AT_CMD_NONE, cId+1 );
1084 R_AT( response, (T_ACI_CMD_SRC)srcId ) ( cmdId, cId+1 );
1085 }
1086
1087 #ifdef FF_ATI
1088 /* tlu:io_setDCD (ctb->calOwn, IO_DCD_OFF); */ /* V.24 DCD Line */
1089 #endif
1090
1091 cmh_logRslt ( (T_ACI_CMD_SRC)srcId, response, cmdId, (SHORT)(cId+1),
1092 BS_SPEED_NotPresent,CME_ERR_NotPresent);
1093 }
1094
1095 /*
1096 +-------------------------------------------------------------------+
1097 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
1098 | ROUTINE : cmhCC_SndDiscRsn |
1099 +-------------------------------------------------------------------+
1100
1101 PURPOSE : Find out the reason for disconnection and send it to the
1102 caller.
1103
1104 */
1105
1106 GLOBAL void cmhCC_SndDiscRsn ( SHORT cId )
1107 {
1108 T_CC_CALL_TBL *ctb = ccShrdPrm.ctb[cId];
1109 UBYTE cmdBuf; /* buffers current command */
1110 UBYTE srcBuf; /* buffers current command source */
1111
1112 TRACE_FUNCTION ("cmhCC_SndDiscRsn()");
1113
1114 cmdBuf = ctb->curCmd;
1115 srcBuf = ctb->curSrc;
1116
1117 if (rdlPrm.rdlcId EQ NO_ENTRY)
1118 {
1119 cmhCC_PrepareCmdEnd (cId, NULL, NULL);
1120 }
1121
1122 if( cmdBuf EQ AT_CMD_NONE )
1123 {
1124 srcBuf = ctb->calOwn; /* call owner is the only one that
1125 could possibly be informed */
1126 }
1127
1128 if( cmdBuf EQ AT_CMD_ABRT )
1129 {
1130 R_AT( RAT_OK, (T_ACI_CMD_SRC)srcBuf )( cmdBuf );
1131 /* log result */
1132 cmh_logRslt ( (T_ACI_CMD_SRC)srcBuf, RAT_OK,
1133 (T_ACI_AT_CMD)cmdBuf, (SHORT)(cId+1), BS_SPEED_NotPresent,CME_ERR_NotPresent );
1134 return;
1135 }
1136
1137 /*
1138 *-------------------------------------------------------------------
1139 * check for reject cause
1140 *-------------------------------------------------------------------
1141 */
1142 /*
1143 * Make use of ctb here or die. Problem with TI compiler 1.22e.
1144 * Seen. Exactly here. GET_CAUSE_VALUE() expression seems to become too
1145 * complicated without the help of this variable. You may get a wrong
1146 * ARM instruction otherwise in the generated code.
1147 */
1148 if(GET_CAUSE_VALUE(ctb->rejCs) NEQ NOT_PRESENT_8BIT)
1149 {
1150 /* when there is no SIM error, send the NO CARRIER command,
1151 otherwise cmhSIM_GetSIMError send the error command (CME) */
1152 if (GET_CAUSE_ORIGIN_ENTITY(ctb->rejCs) NEQ SIM_ORIGINATING_ENTITY OR
1153 cmhSIM_GetSIMError((T_ACI_CMD_SRC)srcBuf, (T_ACI_AT_CMD)cmdBuf) EQ AT_FAIL )
1154 {
1155 cmhrat_calldisc(RAT_NO_CARRIER, srcBuf, (T_ACI_AT_CMD)cmdBuf, cId);
1156 return;
1157 }
1158 else
1159 {
1160 cmh_logRslt ( (T_ACI_CMD_SRC)srcBuf, RAT_CME,
1161 (T_ACI_AT_CMD)cmdBuf, (SHORT)(cId+1), BS_SPEED_NotPresent,CME_ERR_NotPresent );
1162 }
1163 return;
1164 }
1165
1166 /*
1167 *-------------------------------------------------------------------
1168 * otherwise check for normal cause
1169 *-------------------------------------------------------------------
1170 */
1171 switch( ctb->nrmCs )
1172 {
1173 case( MNCC_CAUSE_USER_BUSY ):
1174 cmhrat_calldisc(RAT_BUSY, srcBuf, (T_ACI_AT_CMD)cmdBuf, cId);
1175 break;
1176
1177 case( MNCC_CAUSE_NO_RESPONSE ):
1178 case( MNCC_CAUSE_ALERT_NO_ANSWER ):
1179 cmhrat_calldisc(RAT_NO_ANSWER, srcBuf, (T_ACI_AT_CMD)cmdBuf, cId);
1180 break;
1181
1182 default:
1183 cmhrat_calldisc(RAT_NO_CARRIER, srcBuf, (T_ACI_AT_CMD)cmdBuf, cId);
1184 }
1185 }
1186
1187 /*
1188 +-------------------------------------------------------------------+
1189 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
1190 | ROUTINE : cmhCC_ChckInCallMdfy |
1191 +-------------------------------------------------------------------+
1192
1193 PURPOSE : check the case of in-call modification. The function
1194 returns TRUE or FALSE, whether a modification is allowed
1195 or not.
1196
1197 */
1198
1199 GLOBAL BOOL cmhCC_ChckInCallMdfy ( SHORT cId, UBYTE cmd )
1200 {
1201 #ifdef FAX_AND_DATA
1202 T_CC_CALL_TYPE calltype = cmhCC_getcalltype(cId);
1203
1204 TRACE_FUNCTION ("cmhCC_ChckInCallMdfy()");
1205
1206 #ifdef CO_UDP_IP
1207 if(calltype EQ UDPIP_CALL)
1208 {
1209 /* modifying a Wap Call should not be allowed */
1210 return( FALSE);
1211 }
1212 #endif /* CO_UDP_IP */
1213
1214 /* check call mode */
1215 switch( psaCC_ctb(cId)->rptInd )
1216 {
1217 /* single call */
1218 case( MNCC_RI_NOT_PRES ):
1219 return( FALSE );
1220
1221 /* voice followed by data */
1222 case( MNCC_RI_SEQUENTIAL ):
1223 if(calltype EQ VOICE_CALL)
1224 {
1225 switch( cmd )
1226 {
1227 case( AT_CMD_D ): /* modify commands */
1228 case( AT_CMD_A ):
1229
1230 TRACE_EVENT( "MODIFY FROM SPEECH" );
1231 return( TRUE );
1232 }
1233 }
1234 return( FALSE );
1235
1236 /* alternating call */
1237 case( MNCC_RI_CIRCULAR ):
1238 switch(calltype)
1239 {
1240 case(VOICE_CALL):
1241 switch( cmd )
1242 {
1243 case( AT_CMD_D ): /* modify commands */
1244 case( AT_CMD_A ):
1245
1246 TRACE_EVENT( "MODIFY FROM SPEECH" );
1247 return( TRUE );
1248 }
1249 return( FALSE );
1250
1251 case( TRANS_CALL ):
1252 case( NON_TRANS_CALL ):
1253 case( FAX_CALL ):
1254 if(cmd EQ AT_CMD_H ) /* modify commands */
1255 {
1256 TRACE_EVENT( "MODIFY FROM DATA/FAX" );
1257 return( TRUE );
1258 }
1259 break;
1260 }
1261 return( FALSE );
1262 }
1263 #endif /* FAX_AND_DATA */
1264 return(FALSE);
1265 }
1266
1267 /*
1268 +-------------------------------------------------------------------+
1269 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
1270 | ROUTINE : cmhCC_atdsendok |
1271 +-------------------------------------------------------------------+
1272
1273 PURPOSE : returns TRUE if OK is to be sent directly: in case of ATD,
1274 if COLP is not set and source is neither LCL nor SAT nor CSSN ...
1275 */
1276
1277 GLOBAL BOOL cmhCC_atdsendok ( SHORT cId )
1278 {
1279 T_CC_CALL_TYPE calltype = cmhCC_getcalltype(cId);
1280 T_ACI_AT_CMD cmd = (T_ACI_AT_CMD)psaCC_ctb(cId)->curCmd;
1281 SHORT srcId = psaCC_ctb(cId)->curSrc;
1282
1283 #ifdef FF_ATI
1284 TRACE_EVENT_P6("cmhCC_atdsendok(): cmd: %d, calltype: %d, srcId: %d, COLP_stat: %d, SATinv: %d, CSSI_stat: %d",
1285 cmd, calltype, srcId, at.flags.COLP_stat, psaCC_ctb(cId)->SATinv,
1286 ati_user_output_cfg[srcId].CSSI_stat);
1287 #endif /* FF_ATI */
1288
1289 #ifdef FF_ATI
1290 if(cmd NEQ AT_CMD_D) /* can happen ONLY to ATD */
1291 return(FALSE);
1292
1293 if (calltype NEQ VOICE_CALL OR
1294 srcId EQ CMD_SRC_LCL OR
1295 at.flags.COLP_stat EQ 1 OR
1296 ati_user_output_cfg[srcId].CSSI_stat EQ 1 OR
1297 ati_is_src_type((UBYTE)srcId, ATI_SRC_TYPE_SAT) OR /* SAT run at cmd */
1298 psaCC_ctb(cId)->SATinv ) /* call started by SAT */
1299 {
1300 TRACE_EVENT("send OK normally: at the end");
1301 return(FALSE); /* OK sent normally: after MNCC_SETUP_CNF has been received */
1302 }
1303 else
1304 {
1305 TRACE_EVENT("send OK directly after ATD");
1306 return(TRUE); /* OK sent as soon as MNCC_SETUP_REQ has been sent (see ITU. V25ter) */
1307 }
1308 #else
1309 return(FALSE);
1310 #endif /* AT INTERPRETER */
1311
1312 }
1313
1314 /*
1315 +-------------------------------------------------------------------+
1316 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
1317 | ROUTINE : cmhCC_flagCall |
1318 +-------------------------------------------------------------------+
1319
1320 PURPOSE : flag a call for multy-call operation
1321
1322 */
1323
1324 GLOBAL void cmhCC_flagCall ( SHORT cId, USHORT * flags )
1325 {
1326 *flags |= (0x1 << cId);
1327 }
1328
1329 /*
1330 +-------------------------------------------------------------------+
1331 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
1332 | ROUTINE : cmhCC_tstAndUnflagCall |
1333 +-------------------------------------------------------------------+
1334
1335 PURPOSE : test and unflag a call for multy-call operation. Return
1336 the test result.
1337
1338 */
1339
1340 GLOBAL BOOL cmhCC_tstAndUnflagCall ( SHORT cId, USHORT * flags )
1341 {
1342 if( *flags & (1u << cId))
1343 {
1344 *flags &= ~(1u << cId);
1345 return( TRUE );
1346 }
1347 return( FALSE );
1348 }
1349
1350
1351 /*
1352 +-------------------------------------------------------------------+
1353 | PROJECT : GSM-PS (6147) MODULE : CMH_CC |
1354 | ROUTINE : cmhCC_getcalltype |
1355 +-------------------------------------------------------------------+
1356
1357 PURPOSE : returns the type of call of cId (voice, data, fax...).
1358
1359 */
1360
1361 GLOBAL T_CC_CALL_TYPE cmhCC_getcalltype(SHORT cId)
1362 {
1363 T_CC_CALL_TBL *ctb = ccShrdPrm.ctb[cId];
1364
1365 /* First the call table is checked before the checking for the valid CID */
1366 if (ctb EQ NULL)
1367 return (T_CC_CALL_TYPE)ccShrdPrm.callType[cId]; /* Call already gone */
1368
1369 /* Check whether the cId is valid or not, if not return NO_VLD_CC_CALL_TYPE */
1370 if (!psaCC_ctbIsValid (cId))
1371 return(NO_VLD_CC_CALL_TYPE);
1372
1373 /* determine type of call */
1374 switch( ctb->BC[ctb->curBC].bearer_serv )
1375 {
1376 default:
1377 return(NO_VLD_CC_CALL_TYPE);
1378
1379 case( MNCC_BEARER_SERV_AUX_SPEECH ):
1380 case( MNCC_BEARER_SERV_SPEECH ): /* voice call */
1381 case( MNCC_BEARER_SERV_AUX_SPEECH_CTM ):
1382 case( MNCC_BEARER_SERV_SPEECH_CTM ): /* voice call with CTM */
1383 return(VOICE_CALL);
1384
1385 #ifdef FAX_AND_DATA
1386 case( MNCC_BEARER_SERV_ASYNC ): /* asynchronous data call */
1387 switch( ctb->BC[ctb->curBC].conn_elem )
1388 {
1389 case( MNCC_CONN_ELEM_TRANS ): /* transparent data call */
1390 case( MNCC_CONN_ELEM_NON_TRANS ): /* non transparent data call */
1391 /* check if a WAP call is in process... If yes then end call */
1392 #if defined(CO_UDP_IP) OR defined(FF_GPF_TCPIP)
1393 if (Wap_Call)
1394 {
1395 if (cId EQ wapId)
1396 {
1397 if(is_gpf_tcpip_call()) {
1398 GPF_TCPIP_STATEMENT(return(TCPIP_CALL));
1399 }
1400 else {
1401 UDPIP_STATEMENT(return(UDPIP_CALL));
1402 }
1403 }
1404 }
1405 #endif /* CO_UDP_IP || FF_GPF_TCPIP */
1406 #ifdef FF_PPP
1407 if (pppShrdPrm.is_PPP_CALL EQ TRUE)
1408 {
1409 return (PPP_CALL);
1410 }
1411 #endif
1412 if( ctb->BC[ctb->curBC].conn_elem EQ MNCC_CONN_ELEM_TRANS )
1413 {
1414 return(TRANS_CALL);
1415 }
1416 else
1417 return(NON_TRANS_CALL);
1418 }
1419 return(NO_VLD_CC_CALL_TYPE);
1420
1421 case( MNCC_BEARER_SERV_FAX ): /* fax call */
1422 return(FAX_CALL);
1423
1424 case( MNCC_BEARER_SERV_SYNC ):
1425 case( MNCC_BEARER_SERV_PAD_ACCESS ):
1426 case( MNCC_BEARER_SERV_PACKET_ACCESS ):
1427 return(UNSUP_DATA_CALL);
1428 #endif /* of #ifdef FAX_AND_DATA */
1429 }
1430 }
1431
1432 /*
1433 +-------------------------------------------------------------------+
1434 | PROJECT : GSM-PS (6147) MODULE : CMH_CCF |
1435 | ROUTINE : cmhCC_AcceptCall |
1436 +-------------------------------------------------------------------+
1437
1438 PURPOSE : accept a call.
1439 */
1440
1441 GLOBAL void cmhCC_AcceptCall(SHORT cId, T_ACI_CMD_SRC srcId, T_ACI_AT_CMD cmd)
1442 {
1443 T_CC_CALL_TBL *ctb = ccShrdPrm.ctb[cId];
1444 UBYTE idx; /* holds index value */
1445
1446 TRACE_FUNCTION("cmhCC_AcceptCall( )");
1447
1448 if (ctb EQ NULL OR ctb->calStat NEQ CS_ACT_REQ)
1449 {
1450 ACI_ERR_DESC( ACI_ERR_CLASS_Cme, CME_ERR_Unknown );
1451 R_AT(RAT_CME, srcId)(cmd, CME_ERR_Unknown);
1452 return;
1453 }
1454
1455 CHLDaddInfo = NO_CHLD_ADD_INFO;
1456 ctb->curCmd = cmd;
1457 ctb->calOwn = (T_OWN) srcId;
1458 ctb->curSrc = srcId;
1459
1460 /*
1461 * ETSI 11.10 26.12.4 requires "that for speech calls, the mobile station
1462 * shall attach the user connection at latest when sending the connect
1463 * message, except if there is no compatible radio resource available at
1464 * this time."
1465 */
1466
1467 psaCC_phbAddNtry ( LRN, cId, CT_MTC, NULL ); /* add call to LRN PB */
1468
1469 #ifdef FF_ATI
1470 io_setRngInd ( IO_RING_OFF, CRING_SERV_TYP_NotPresent, CRING_SERV_TYP_NotPresent ); /* V.24 Ring Indicator Line */
1471 #endif
1472
1473 for( idx = 0; idx < CMD_SRC_MAX; idx++ )
1474 {
1475 R_AT( RAT_CRING_OFF,(T_ACI_CMD_SRC) idx )( cId+1 );
1476 }
1477
1478 psaCC_AcceptCall(cId);
1479 }
1480
1481 /*
1482 +-------------------------------------------------------------------+
1483 | PROJECT : GSM-PS (6147) MODULE : CMH_CCF |
1484 | ROUTINE : cmhCC_RetrieveCall |
1485 +-------------------------------------------------------------------+
1486
1487 PURPOSE : Retrieve either a Multyparty or a Normal Call
1488 */
1489 GLOBAL void cmhCC_RetrieveCall(SHORT cId, T_ACI_CMD_SRC srcId)
1490 {
1491 T_CC_CALL_TBL *ctb = ccShrdPrm.ctb[cId];
1492
1493 TRACE_FUNCTION("cmhCC_RetrieveCall( )");
1494
1495 if (ctb EQ NULL OR ctb->calStat NEQ CS_HLD)
1496 {
1497 return;
1498 }
1499
1500 CHLDaddInfo = NO_CHLD_ADD_INFO;
1501 ctb->curCmd = AT_CMD_CHLD;
1502 ctb->curSrc = srcId;
1503
1504 if (ctb->mptyStat EQ CS_ACT )
1505 {
1506 psaCC_Hold_RetrieveMPTY (cId, CS_HLD, CS_ACT_REQ, MNCC_MPTY_RETRIEVE_SENT,
1507 OPC_RETRIEVE_MPTY);
1508 }
1509 else
1510 {
1511 psaCC_RetrieveCall (cId);
1512 }
1513 }
1514
1515 /*
1516 +-------------------------------------------------------------------+
1517 | PROJECT : GSM-PS (6147) MODULE : CMH_CCF |
1518 | ROUTINE : cmhCC_NewCall |
1519 +-------------------------------------------------------------------+
1520
1521 PURPOSE : Initiate a new call.
1522 */
1523 GLOBAL void cmhCC_NewCall(SHORT cId, T_ACI_CMD_SRC srcId, T_ACI_AT_CMD cmd)
1524 {
1525 T_CC_CALL_TBL *ctb = ccShrdPrm.ctb[cId];
1526
1527 TRACE_FUNCTION("cmhCC_NewCall( )");
1528
1529 CHLDaddInfo = NO_CHLD_ADD_INFO;
1530 ctb->curCmd = cmd;
1531 ctb->calOwn = (T_OWN)srcId;
1532 ctb->curSrc = srcId;
1533
1534 psaCC_NewCall(cId);
1535 }
1536
1537 /*
1538 +-------------------------------------------------------------------+
1539 | PROJECT : GSM-PS (6147) MODULE : CMH_CCF |
1540 | ROUTINE : cmhCC_HoldCall |
1541 +-------------------------------------------------------------------+
1542
1543 PURPOSE : Put a call on hold (multyparty or normal call)
1544 */
1545 GLOBAL void cmhCC_HoldCall(SHORT cId, T_ACI_CMD_SRC srcId, T_ACI_AT_CMD cmd)
1546 {
1547 T_CC_CALL_TBL *ctb; /* points to CC call table */
1548 T_CC_CMD_PRM *pCCCmdPrm; /* points to CC command parameters */
1549
1550 TRACE_FUNCTION("cmhCC_HoldCall( )");
1551
1552 ctb = ccShrdPrm.ctb[cId];
1553 pCCCmdPrm = &cmhPrm[srcId].ccCmdPrm;
1554
1555 cmhCC_flagCall( cId, &(pCCCmdPrm->mltyCncFlg));
1556 ctb->curCmd = cmd;
1557 ctb->curSrc = srcId;
1558
1559 if (ctb->mptyStat EQ CS_ACT)
1560 {
1561 psaCC_Hold_RetrieveMPTY (cId, CS_ACT, CS_HLD_REQ, MNCC_MPTY_HOLD_SENT,
1562 OPC_HOLD_MPTY);
1563 }
1564 else
1565 {
1566 psaCC_HoldCall(cId);
1567 }
1568 }
1569 /*
1570 +-------------------------------------------------------------------+
1571 | PROJECT : GSM-PS (6147) MODULE : CMH_CCF |
1572 | ROUTINE : cmhCC_ClearCall |
1573 +-------------------------------------------------------------------+
1574
1575 PURPOSE : disconnect a call.
1576 */
1577
1578 GLOBAL void cmhCC_ClearCall ( SHORT cId,
1579 USHORT cs,
1580 T_ACI_CMD_SRC srcId,
1581 UBYTE cmd,
1582 SHORT *waitId )
1583 {
1584 T_CC_CMD_PRM *pCCCmdPrm = NULL; /* points to CC command parameters */
1585 T_CC_CALL_TYPE calltype = cmhCC_getcalltype(cId);
1586 T_CC_CALL_TBL *ctb = ccShrdPrm.ctb[cId];
1587
1588 TRACE_FUNCTION( "cmhCC_ClearCall()" );
1589
1590 if(srcId > CMD_SRC_NONE AND
1591 srcId < CMD_SRC_MAX)
1592 {
1593 pCCCmdPrm = &cmhPrm[srcId].ccCmdPrm;
1594 }
1595
1596 if (ccShrdPrm.ctb[cId] EQ NULL)
1597 {
1598 TRACE_EVENT("cmhCC_ClearCall(): Not a valid cId");
1599 return;
1600 }
1601
1602 TRACE_EVENT_P2("Clear Call ==> calStat: %d, calType: %d", ctb->calStat, ctb->calType NEQ CT_MOC);
1603
1604 if(cmd NEQ AT_CMD_NONE) /* for instance +CHUP / H / Z */
1605 {
1606 /* Check whether an incoming call is rejected by the user. */
1607 if( ctb->calStat EQ CS_ACT_REQ AND
1608 ctb->calType EQ CT_MTC)
1609 {
1610 psaCC_phbAddNtry ( LRN, cId, CT_MTC, NULL ); /* Add call to Last Received Number (LRN) PB */
1611 }
1612
1613 /* Check whether call is a waiting call */
1614 if(waitId NEQ NULL)
1615 {
1616 if( ctb->calStat EQ CS_ACT_REQ AND
1617 ctb->calType EQ CT_MTC AND
1618 ctb->calOwn EQ ((T_OWN)CMD_SRC_NONE) )
1619 {
1620 /* tag a found waiting call */
1621 TRACE_EVENT_P1("Waiting Call Found ! waitId=%d", cId);
1622 *waitId = cId;
1623 return;
1624 }
1625 }
1626 }
1627
1628 ccShrdPrm.cIdFail = cId;
1629 if ( cmd NEQ AT_CMD_NONE ) /* this will decide whether a result is sent to the user or not */
1630 {
1631 /* ATZ and ATH or AT+CHUP for instance */
1632 if(pCCCmdPrm NEQ NULL)
1633 {
1634 cmhCC_flagCall( cId, &(pCCCmdPrm -> mltyDscFlg));
1635 }
1636 ctb->curCmd = cmd;
1637 ctb->curSrc = srcId;
1638 }
1639 else
1640 {
1641 /* AOC for instance */
1642 cmhCC_SndDiscRsn(cId);
1643 }
1644 ctb->nrmCs = cs;
1645
1646 /* determine call status */
1647 switch( ctb->calStat )
1648 {
1649 /* active calls */
1650 case( CS_ACT ):
1651 switch( calltype )
1652 {
1653 case( VOICE_CALL ):
1654 psaCC_ClearCall (cId);
1655 break;
1656
1657 #if defined FAX_AND_DATA AND defined (DTI)
1658
1659 case( TRANS_CALL ):
1660 ccShrdPrm.datStat = DS_DSC_REQ;
1661 cmhTRA_Deactivate ();
1662 break;
1663
1664 case( NON_TRANS_CALL ):
1665 ccShrdPrm.datStat = DS_DSC_REQ;
1666 cmhL2R_Deactivate ();
1667 break;
1668
1669 #ifdef FF_FAX
1670 case( FAX_CALL ):
1671 ccShrdPrm.datStat = DS_DSC_REQ;
1672 cmhT30_Deactivate ();
1673 break;
1674 #endif /* FF_FAX */
1675
1676 #if defined(CO_UDP_IP) OR defined(FF_GPF_TCPIP)
1677
1678 #ifdef CO_UDP_IP
1679 case( UDPIP_CALL ):
1680 #endif
1681
1682 #ifdef FF_GPF_TCPIP
1683 case( TCPIP_CALL ):
1684 {
1685 T_DCM_STATUS_IND_MSG msg;
1686 msg.hdr.msg_id = DCM_ERROR_IND_MSG;
1687 msg.result = DCM_PS_CONN_BROKEN;
1688 dcm_send_message(msg, DCM_SUB_WAIT_SATDN_CNF);
1689 }
1690 #endif
1691 ccShrdPrm.datStat = DS_DSC_REQ;
1692 /* also test whether a SAT E connection has to be shut down */
1693 if ( (cmd NEQ AT_CMD_NONE)
1694 #ifdef FF_SAT_E
1695 OR (satShrdPrm.opchAcptSrc EQ srcId)
1696 #endif
1697 )
1698 {
1699 /* set the last possible state for the next "else if" statement */
1700 T_ACI_WAP_STATES last_state = Wap_Not_Init;
1701 if(is_gpf_tcpip_call()) {
1702 GPF_TCPIP_STATEMENT(last_state = TCPIP_Deactivation);
1703 }
1704 else {
1705 last_state = UDPA_Deactivation;
1706 }
1707
1708 /* Terminate PPP if established. UP indicate that entities under PPP are still activ. */
1709 if((pppShrdPrm.state EQ PPP_ESTABLISHED) OR
1710 (pppShrdPrm.state EQ PPP_ESTABLISH))
1711 {
1712 cmhPPP_Terminate(UP);
1713 }
1714 else if (wap_state > Wap_Not_Init AND
1715 wap_state <= last_state)
1716 {
1717 cmhPPP_Terminated(); /* Trigger termination of SCPIP if PPP did not yet start (ACI-FIX-9317) */
1718 }
1719 }
1720 break;
1721 #endif /* defined(CO_UDP_IP) OR defined(FF_GPF_TCPIP) */
1722 #if defined (FF_PPP) AND defined (DTI)
1723 case( PPP_CALL ):
1724 ccShrdPrm.datStat = DS_DSC_REQ;
1725 if (pppShrdPrm.is_PPP_CALL EQ TRUE)
1726 {
1727 dti_cntrl_close_dpath_from_src_id((UBYTE)srcId);
1728 }
1729 #endif /* DTI */
1730 #endif /* of #ifdef FAX_AND_DATA */
1731 default:
1732 TRACE_ERROR("Wrong call type");
1733 }
1734 break;
1735
1736 /* other present calls */
1737 case( CS_HLD ):
1738 case( CS_HLD_REQ ):
1739 case( CS_MDF_REQ ):
1740 case( CS_DSC_REQ ):
1741 case( CS_ACT_REQ ):
1742 case( CS_CPL_REQ ):
1743 psaCC_ClearCall (cId);
1744 break;
1745 }
1746 }
1747
1748 /*
1749 +--------------------------------------------------------------------+
1750 | PROJECT : GSM-PS (6147) MODULE : CMH_CCF |
1751 | STATE : code ROUTINE : cmhCC_chkDTMFDig |
1752 +--------------------------------------------------------------------+
1753
1754 PURPOSE : This function is used extract DTMF digits from the dialled
1755 number. The DTMF digits, including separators, are stored
1756 in the DTMF parameters and will be send automatically after
1757 the connection is established.
1758 BOOL within_dial_string parameter to tell if DTMF tones are
1759 within a dial string or directly given.
1760 USHROT length: possibility to give the number of dtmf to be
1761 sent (relevant only if not within a dial string).
1762 */
1763
1764 /* next function fills up dtmf structure with extracted prms */
1765 LOCAL void cmhCC_fillDTMFDig ( SHORT cId, CHAR *dtmf, USHORT dtmf_length )
1766 {
1767 TRACE_FUNCTION("cmhCC_fillDTMFDig()");
1768
1769 if( dtmf NEQ NULL )
1770 {
1771 ccShrdPrm.dtmf.cnt = MINIMUM( dtmf_length, MAX_DTMF_DIG );
1772
1773 strncpy( (char *)ccShrdPrm.dtmf.dig, dtmf, ccShrdPrm.dtmf.cnt );
1774 ccShrdPrm.dtmf.dig[dtmf_length] = '\0';
1775
1776 ccShrdPrm.dtmf.cur = 0;
1777 ccShrdPrm.dtmf.cId = cId;
1778 TRACE_EVENT_P2("ccShrdPrm.dtmf.cnt: %d, ccShrdPrm.dtmf.cId: %d", ccShrdPrm.dtmf.cnt, ccShrdPrm.dtmf.cId);
1779 }
1780 else
1781 {
1782 ccShrdPrm.dtmf.cnt = 0;
1783 ccShrdPrm.dtmf.cur = 0;
1784 ccShrdPrm.dtmf.cId = NO_ENTRY;
1785 }
1786 }
1787
1788 GLOBAL BOOL is_digit_dtmf_separator(CHAR digit)
1789 {
1790 switch(digit)
1791 {
1792 case('P'): /* PHB_DIAL_PAUSE, PHB_DTMF_SEP */
1793 case('p'):
1794 case('W'): /* PHB_DIAL_WAIT */
1795 case('w'):
1796 TRACE_EVENT("DTMF Separator Found");
1797 return(TRUE);
1798 }
1799 return(FALSE);
1800 }
1801
1802 LOCAL CHAR * find_dtmf_separator(CHAR *number_string, USHORT length)
1803 {
1804 int i;
1805
1806 TRACE_FUNCTION("find_dtmf_separator()");
1807
1808 for(i=0; i<length; i++)
1809 {
1810 if(is_digit_dtmf_separator(*number_string))
1811 {
1812 return(number_string);
1813 }
1814 number_string++;
1815 }
1816 return(NULL);
1817 }
1818
1819 GLOBAL void cmhCC_chkDTMFDig ( CHAR* num,
1820 SHORT cId,
1821 USHORT length,
1822 BOOL within_dial_string )
1823 {
1824 CHAR *dtmf = num;
1825 USHORT len = length;
1826
1827 TRACE_FUNCTION("cmhCC_chkDTMFDig()");
1828
1829 if( within_dial_string )
1830 {
1831 dtmf = find_dtmf_separator(num, (USHORT)strlen(num)); /*strchr( num, PHB_DTMF_SEP ); */
1832
1833 if(dtmf NEQ NULL)
1834 {
1835 len = strlen(dtmf);
1836 TRACE_EVENT_P1("Call number string contains %d DTMF tones", len);
1837 }
1838 }
1839 else
1840 {
1841 /* already inialized for the case "not within a phone call" (e.g SAT Send DTMF) */
1842 }
1843
1844 cmhCC_fillDTMFDig ( cId, dtmf, len );
1845
1846 if(dtmf NEQ NULL)
1847 {
1848 *dtmf = '\0'; /* split dial string from DTMF tones */
1849 }
1850
1851 }
1852
1853 /*
1854 +--------------------------------------------------------------------+
1855 | PROJECT : GSM-PS (6147) MODULE : CMH_CCF |
1856 | STATE : code ROUTINE : cmhCC_chkKeySeq |
1857 +--------------------------------------------------------------------+
1858
1859 PURPOSE : This function is used to decode a keystroke sequence and
1860 to initiate an appropriate action.
1861 */
1862 GLOBAL T_ACI_RETURN cmhCC_chkKeySeq ( T_ACI_CMD_SRC srcId,
1863 T_CLPTY_PRM *cldPty,
1864 T_ACI_D_TOC *callType,
1865 T_ACI_D_CLIR_OVRD *CLIRovrd,
1866 T_CC_SIM_QLF ccSIMQlf )
1867 {
1868 T_KSD_SEQGRP seqGrp = SEQGRP_UNKNOWN;
1869 T_KSD_SEQPARAM seqPrm;
1870 CHAR *restSeq = NULL;
1871 T_ACI_RETURN retVal;
1872 T_PHB_RECORD phbNtry;
1873 T_PHB_TYPE slctPHB;
1874 #ifdef SIM_TOOLKIT
1875 T_sat_ussd SATussd; /* to hold USSD string in case of SAT Control */
1876 #endif /* of SIM_TOOLKIT */
1877
1878 TRACE_FUNCTION ("cmhCC_chkKeySeq ()");
1879
1880 if( cldPty EQ NULL OR
1881 strlen (cldPty->num) EQ 0 )
1882 {
1883 return( AT_CMPL );
1884 }
1885
1886 restSeq = cldPty->num;
1887 seqGrp = SEQGRP_UNKNOWN;
1888
1889 #ifdef SIM_TOOLKIT
1890 /* check for SAT SIM Call Control of SS strings */
1891 if (ccSIMQlf EQ CC_SIM_YES)
1892 {
1893 if ( !ksd_isFDNCheckSeq ( cldPty-> num ) )
1894 ; /* bypass *#06# from SSCntrlBySIM */
1895 else
1896 {
1897 retVal = AT_CMPL; /* init */
1898 if( ksd_isSATSscs (cldPty->num) )
1899 {
1900 retVal = cmhSAT_SSCntrlBySIM( cldPty, (UBYTE)srcId );
1901 }
1902 else if( ksd_isUSSD (cldPty->num) )
1903 {
1904 if (psaSIM_ChkSIMSrvSup(SRV_USSDsupportInCC))
1905 {
1906 SATussd.dcs = 0x0F; /* default alphabet see GSM 03.38 Cell Broadcast dcs */
1907 SATussd.c_ussd_str = strlen(cldPty->num);
1908 SATussd.ussd_str = (UBYTE *)cldPty->num;
1909
1910 retVal = cmhSAT_USSDCntrlBySIM( &SATussd, (UBYTE)srcId );
1911 }
1912 else
1913 {
1914 retVal = cmhSAT_SSCntrlBySIM( cldPty, (UBYTE)srcId );
1915 }
1916 }
1917
1918 if( retVal NEQ AT_CMPL )
1919 return( retVal );
1920 }
1921 }
1922 #endif
1923
1924 /*
1925 *-------------------------------------------------------------
1926 * decode SS string
1927 *-------------------------------------------------------------
1928 */
1929 if (ksd_decode (cldPty->num,
1930 psaCC_ctbAnyCallInUse(), /* is there any call??? */
1931 &seqGrp,
1932 &restSeq,
1933 &seqPrm) EQ TRUE)
1934 {
1935 retVal = AT_FAIL;
1936
1937 /*
1938 *-------------------------------------------------------------
1939 * perform desired action
1940 *-------------------------------------------------------------
1941 */
1942 switch (seqGrp)
1943 {
1944 /*
1945 *---------------------------------------------------------
1946 * handling of sequence group SEQGRP_IMEI
1947 *---------------------------------------------------------
1948 */
1949 case ( SEQGRP_PRSNT_IMEI ):
1950 retVal = cmhSS_ksdIMEI( srcId );
1951 break;
1952
1953 /*
1954 *---------------------------------------------------------
1955 * handling of sequence group SEQGRP_DIAL
1956 *---------------------------------------------------------
1957 */
1958 case (SEQGRP_DIAL):
1959 strncpy(cldPty->num, seqPrm.dial.number, sizeof (cldPty->num) - 1);
1960 cldPty->num[sizeof(cldPty->num) - 1] = '\0';
1961 return ((T_ACI_RETURN) AT_CONT);
1962
1963 /*
1964 *---------------------------------------------------------
1965 * handling of sequence group SEQGRP_CHLD
1966 *---------------------------------------------------------
1967 */
1968 case (SEQGRP_CHLD):
1969 retVal = sAT_PlusCHLD( srcId, seqPrm.chld.mode, seqPrm.chld.call );
1970 if (retVal NEQ AT_FAIL)
1971 break; /* successfull CHLD */
1972
1973 /* else handle as USSD if this CHLD was unexpected/illegal */
1974
1975 seqPrm.ussd.ussd = (UBYTE *)cldPty->num;
1976 seqGrp = SEQGRP_USSD;
1977 restSeq = cldPty->num + strlen (cldPty->num);
1978 /* fallthrough */
1979 /*lint -fallthrough*/
1980 /*
1981 *---------------------------------------------------------
1982 * handling of sequence group SEQGRP_USSD
1983 *---------------------------------------------------------
1984 */
1985 case (SEQGRP_USSD):
1986 retVal = cmhSS_ksdUSSD( srcId, &seqPrm.ussd );
1987 break;
1988
1989 /*
1990 *---------------------------------------------------------
1991 * handling of sequence group SEQGRP_DIAL_IDX
1992 *---------------------------------------------------------
1993 */
1994 case (SEQGRP_DIAL_IDX):
1995
1996 if( !cmhPHB_cvtPhbType(cmhPrm[srcId].phbCmdPrm.cmhStor,
1997 &slctPHB ))
1998 return( AT_FAIL );
1999
2000 #ifdef TI_PS_FFS_PHB
2001 if (pb_read_record (slctPHB,
2002 seqPrm.dialIdx.index,
2003 &phbNtry) EQ PHB_OK)
2004 #else
2005 if( pb_read_phys_record( slctPHB, seqPrm.dialIdx.index, &phbNtry )
2006 EQ PHB_OK )
2007 #endif
2008 {
2009 cmhPHB_getAdrStr( cldPty->num, sizeof (cldPty->num) - 1,
2010 phbNtry.number, phbNtry.len );
2011
2012 cmh_demergeTOA ( phbNtry.ton_npi, &cldPty->ton, &cldPty->npi );
2013
2014 /*
2015 *---------------------------------------------------------
2016 * as long as the bearer capabilities are not read from
2017 * the phonebook only voice calls are supported
2018 *---------------------------------------------------------
2019 */
2020 *callType = D_TOC_Voice;
2021
2022 return((T_ACI_RETURN) AT_CONT);
2023 }
2024
2025 return( AT_FAIL );
2026
2027 /*
2028 *---------------------------------------------------------
2029 * handling of sequence groups which relates
2030 * to call forwarding parameter
2031 *---------------------------------------------------------
2032 */
2033 case (SEQGRP_CF):
2034 /* type of address has already been set,
2035 and a possible "+" already been removed... */
2036 if(seqPrm.cf.num NEQ NULL AND
2037 seqPrm.cf.num[0] NEQ 0) /* only set if there is actually a number */
2038 {
2039 seqPrm.cf.ton = cldPty->ton;
2040 seqPrm.cf.npi = cldPty->npi;
2041 }
2042 else
2043 {
2044 seqPrm.cf.ton = MNCC_TON_NOT_PRES;
2045 seqPrm.cf.npi = MNCC_NPI_NOT_PRES;
2046 }
2047
2048 /* subaddress has also already been split up if existing */
2049 if(cldPty->sub[0] NEQ 0)
2050 {
2051 seqPrm.cf.sub = (UBYTE *)cldPty->sub;
2052 seqPrm.cf.tos = cldPty->tos;
2053 seqPrm.cf.oe = cldPty->oe;
2054 }
2055 else
2056 seqPrm.cf.sub = NULL;
2057
2058 retVal = cmhSS_ksdCF( srcId, &seqPrm.cf );
2059 break;
2060
2061 /*
2062 *---------------------------------------------------------
2063 * handling of sequence groups which relates to
2064 * call barring parameter
2065 *---------------------------------------------------------
2066 */
2067 case (SEQGRP_CB):
2068 retVal = cmhSS_ksdCWCBStartTrans(srcId, KSD_CMD_CB, &seqPrm);
2069 break;
2070
2071 /*
2072 *---------------------------------------------------------
2073 * handling of sequence groups which results in a change
2074 * of CLIR parameter
2075 * in temporary mode a call is set up
2076 *---------------------------------------------------------
2077 */
2078
2079 case (SEQGRP_SUP_COLR):
2080 case (SEQGRP_INV_COLR):
2081 case (SEQGRP_SUP_COLP):
2082 case (SEQGRP_INV_COLP):
2083 case (SEQGRP_SUP_CLIP):
2084 case (SEQGRP_INV_CLIP):
2085 if (strlen (restSeq) EQ 0)
2086 {
2087 T_ACI_KSD_USSD_PRM ksdString;
2088
2089 ksdString.ussd = (UBYTE*)cldPty->num;
2090 retVal = cmhSS_ksdUSSD( srcId, &ksdString );
2091 }
2092 else
2093 {
2094 /*
2095 *-----------------------------------------------------
2096 * temporary mode nonexistant on CLIR, COLR and COLP!!
2097 * So ignore USSD and continue calling: "Number not assigned"
2098 * will be indicated to the user by the network
2099 * This is the common behaviour as found on other phones
2100 *-----------------------------------------------------
2101 */
2102 return((T_ACI_RETURN) AT_CONT);
2103 }
2104 break;
2105
2106 case (SEQGRP_SUP_CLIR):
2107 case (SEQGRP_INV_CLIR):
2108 if (strlen (restSeq) EQ 0)
2109 {
2110 #if defined(MFW) OR defined(FF_MMI_RIV)
2111 if (srcId EQ CMD_SRC_LCL) /* VO: temp solution because MFW uses sAT_Dn to set CLIR */
2112 retVal = sAT_PlusCLIR(srcId, seqPrm.Clir.mode);
2113 else
2114 #endif
2115 {
2116 T_ACI_KSD_USSD_PRM ksdString;
2117
2118 ksdString.ussd = (UBYTE*)cldPty->num;
2119 retVal = cmhSS_ksdUSSD( srcId, &ksdString );
2120 }
2121 }
2122 else
2123 {
2124 /*
2125 *-----------------------------------------------------
2126 * in temporary mode a call is set up
2127 *-----------------------------------------------------
2128 */
2129 T_KSD_CLIR Clir;
2130 T_KSD_SEQGRP nextGrp = SEQGRP_UNKNOWN;
2131 CHAR* remSeq = NULL;
2132
2133 Clir.mode = seqPrm.Clir.mode;
2134
2135 if (ksd_decode (restSeq, FALSE,
2136 &nextGrp, &remSeq,
2137 &seqPrm)
2138 AND
2139 nextGrp EQ SEQGRP_DIAL)
2140 {
2141 *CLIRovrd = (Clir.mode EQ CLIR_MOD_Supp)?
2142 D_CLIR_OVRD_Supp: D_CLIR_OVRD_Invoc;
2143 strncpy(cldPty->num, seqPrm.dial.number, sizeof(cldPty->num) - 1);
2144 cldPty->num[sizeof(cldPty->num) - 1] = '\0';
2145 return((T_ACI_RETURN) AT_CONT);
2146 }
2147 }
2148 break;
2149
2150 /*
2151 *---------------------------------------------------------
2152 * handling of sequence group for TTY service
2153 *---------------------------------------------------------
2154 */
2155 case (SEQGRP_TTY_SERV):
2156 if (strlen (restSeq) EQ 0)
2157 {
2158 #ifdef FF_TTY
2159 retVal = sAT_PercentCTTY (srcId, CTTY_MOD_NotPresent,
2160 seqPrm.ctty.req);
2161 #else
2162 retVal = AT_FAIL;
2163 #endif /* FF_TTY */
2164 }
2165 else
2166 {
2167 T_KSD_SEQGRP nextGrp = SEQGRP_UNKNOWN;
2168 CHAR* remSeq = NULL;
2169 #ifdef FF_TTY
2170 if (seqPrm.ctty.req EQ CTTY_REQ_Off
2171 AND ccShrdPrm.ctmReq EQ MNCC_CTM_ENABLED)
2172 {
2173 ccShrdPrm.ctmOvwr = TRUE;
2174 }
2175 else if (seqPrm.ctty.req EQ CTTY_REQ_On
2176 AND ccShrdPrm.ctmReq EQ MNCC_CTM_DISABLED)
2177 {
2178 ccShrdPrm.ctmOvwr = TRUE;
2179 }
2180 else
2181 {
2182 ccShrdPrm.ctmOvwr = FALSE;
2183 }
2184 #endif /* FF_TTY */
2185 if (ksd_decode (restSeq, FALSE,
2186 &nextGrp, &remSeq,
2187 &seqPrm)
2188 AND
2189 nextGrp EQ SEQGRP_DIAL)
2190 {
2191 strncpy(cldPty->num, seqPrm.dial.number, sizeof(cldPty->num) - 1);
2192 cldPty->num[sizeof(cldPty->num) - 1] = '\0';
2193 return((T_ACI_RETURN) AT_CONT);
2194 }
2195 }
2196 break;
2197
2198 /*
2199 *---------------------------------------------------------
2200 * handling of sequence group which relates to
2201 * calling line supplementary services
2202 *---------------------------------------------------------
2203 */
2204 case (SEQGRP_CL):
2205 retVal = cmhSS_ksdCL( srcId, &seqPrm.cl );
2206 break;
2207
2208 /*
2209 *---------------------------------------------------------
2210 * handling of sequence groups which results in a
2211 * registration of passwords
2212 *---------------------------------------------------------
2213 */
2214 case (SEQGRP_PWD):
2215 retVal = cmhSS_ksdPW( srcId, &seqPrm.pwd );
2216 break;
2217
2218 /*
2219 *---------------------------------------------------------
2220 * handling of sequence groups which results in a
2221 * registration of passwords
2222 *---------------------------------------------------------
2223 */
2224 case (SEQGRP_UBLK):
2225 retVal = cmhSS_ksdUBLK( srcId, &seqPrm.ublk );
2226 break;
2227
2228 /*
2229 *---------------------------------------------------------
2230 * handling of sequence groups which relates to
2231 * call waiting
2232 *---------------------------------------------------------
2233 */
2234 case (SEQGRP_CW):
2235 retVal = cmhSS_ksdCWCBStartTrans(srcId, KSD_CMD_CW, &seqPrm);
2236 break;
2237
2238 /*
2239 *---------------------------------------------------------
2240 * handling of sequence group SEQGRP_CCBS
2241 *---------------------------------------------------------
2242 */
2243 case (SEQGRP_CCBS):
2244 retVal = cmhSS_ksdCCBS( srcId, &seqPrm.ccbs );
2245 break;
2246
2247 /*
2248 *---------------------------------------------------------
2249 * handling of sequence group SEQGRP_UNKNOWN
2250 *---------------------------------------------------------
2251 */
2252 case (SEQGRP_UNKNOWN):
2253 TRACE_EVENT ("sequence group unknown");
2254 break;
2255 }
2256 }
2257 else
2258 {
2259 TRACE_EVENT ("ksd_decode failed");
2260 return( AT_FAIL );
2261 }
2262
2263 return( retVal );
2264 }
2265
2266 /*
2267 +--------------------------------------------------------------------+
2268 | PROJECT : GSM-PS (6147) MODULE : CMH_CCF |
2269 | STATE : code ROUTINE : cmhCC_fillSetupPrm |
2270 +--------------------------------------------------------------------+
2271
2272 PURPOSE : This function fills the call table entry with the
2273 necessary setup parameters.
2274 */
2275
2276 GLOBAL T_ACI_RETURN cmhCC_fillSetupPrm ( SHORT cId,
2277 T_ACI_CMD_SRC srcId,
2278 T_CLPTY_PRM *cldPty,
2279 T_MNCC_bcpara *bc,
2280 UBYTE prio,
2281 T_ACI_D_CLIR_OVRD clirOvrd,
2282 T_ACI_D_CUG_CTRL cugCtrl,
2283 T_ACI_D_TOC callType )
2284 {
2285 T_CC_CALL_TBL *pfilled_ctb;
2286 T_CC_CMD_PRM *pCCCmdPrm; /* points to CC command parameters */
2287 #ifdef FF_FAX
2288 T_T30_CMD_PRM *pT30CmdPrm; /* points to T30 command parameters */
2289 #endif
2290
2291 TRACE_FUNCTION ("cmhCC_fillSetupPrm()");
2292
2293 /* initializing local pointers: */
2294 pCCCmdPrm = &cmhPrm[srcId].ccCmdPrm;
2295
2296 #ifdef FF_FAX
2297 pT30CmdPrm = &fnd_cmhPrm[srcId].t30CmdPrm;
2298 #endif
2299
2300 pfilled_ctb = ccShrdPrm.ctb[cId];
2301
2302 /*
2303 *-----------------------------------------------------------------
2304 * check data capabilities
2305 *-----------------------------------------------------------------
2306 */
2307 #ifndef FAX_AND_DATA
2308 if( callType NEQ D_TOC_Voice )
2309 {
2310 TRACE_EVENT("No data calls supported");
2311 ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_NoDataCallSup );
2312 return( AT_FAIL ); /* no data calls allowed */
2313 }
2314 #endif /* of #ifndef FAX_AND_DATA */
2315
2316 /*
2317 *-----------------------------------------------------------------
2318 * called address
2319 *-----------------------------------------------------------------
2320 */
2321 if( cldPty EQ NULL )
2322 {
2323 ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_Parameter );
2324 return( AT_FAIL ); /* no number */
2325 }
2326
2327 /* priority */
2328 pfilled_ctb->prio = prio;
2329
2330 if ((prio EQ MNCC_PRIO_NORM_CALL) AND
2331 (aoc_check_moc() EQ FALSE))
2332 /*
2333 * check ACM exceeds ACMmax
2334 * for non-emergency calls
2335 */
2336 {
2337 ACI_ERR_DESC( ACI_ERR_CLASS_Ceer, CAUSE_MAKE(DEFBY_STD,
2338 ORIGSIDE_MS, MNCC_ACI_ORIGINATING_ENTITY, CEER_ACM_Max ));
2339 return( AT_FAIL );
2340 }
2341
2342 /* subaddress */
2343 pfilled_ctb->cldPtySub.tos = cldPty->tos;
2344 pfilled_ctb->cldPtySub.odd_even = cldPty->oe;
2345 pfilled_ctb->cldPtySub.c_subaddr
2346 = (UBYTE)utl_dialStr2BCD (cldPty->sub,
2347 pfilled_ctb->cldPtySub.subaddr,
2348 MNCC_SUB_LENGTH);
2349
2350 /* address */
2351 if( pCCCmdPrm -> CSTAdef NEQ TRUE )
2352 {
2353 pfilled_ctb->cldPty.npi = pCCCmdPrm -> CSTAtoa.npi;
2354 pfilled_ctb->cldPty.ton = pCCCmdPrm -> CSTAtoa.ton;
2355 }
2356 else
2357 {
2358 pfilled_ctb->cldPty.npi = cldPty->npi;
2359 pfilled_ctb->cldPty.ton = cldPty->ton;
2360 }
2361
2362 if (pfilled_ctb->cldPty.called_num NEQ NULL)
2363 {
2364 ACI_MFREE (pfilled_ctb->cldPty.called_num);
2365 pfilled_ctb->cldPty.called_num = NULL;
2366 }
2367 pfilled_ctb->cldPty.c_called_num =
2368 (UBYTE)utl_dialStr2BCD (cldPty->num, NULL, MNCC_MAX_CC_CALLED_NUMBER);
2369 if (pfilled_ctb->cldPty.c_called_num NEQ 0)
2370 {
2371 ACI_MALLOC (pfilled_ctb->cldPty.called_num,
2372 pfilled_ctb->cldPty.c_called_num);
2373 (void)utl_dialStr2BCD (cldPty->num,
2374 pfilled_ctb->cldPty.called_num,
2375 pfilled_ctb->cldPty.c_called_num);
2376 }
2377
2378 psaCC_phbSrchNum( cId, CT_MOC); /* get alpha identifier */
2379
2380 /*
2381 *-----------------------------------------------------------------
2382 * CLIR setting
2383 *-----------------------------------------------------------------
2384 */
2385 switch( clirOvrd )
2386 {
2387 case( D_CLIR_OVRD_Supp ):
2388 pfilled_ctb->CLIRsup = MNCC_CLR_SUP;
2389 break;
2390
2391 case( D_CLIR_OVRD_Invoc ):
2392 pfilled_ctb->CLIRsup = MNCC_CLR_SUP_NOT;
2393 break;
2394
2395 case( D_CLIR_OVRD_Default ):
2396
2397 switch( pCCCmdPrm -> CLIRmode )
2398 {
2399 case( CLIR_MOD_Subscript ):
2400 pfilled_ctb->CLIRsup = MNCC_CLR_NOT_PRES;
2401 break;
2402 case( CLIR_MOD_Invoc ):
2403 pfilled_ctb->CLIRsup = MNCC_CLR_SUP_NOT;
2404 break;
2405 case( CLIR_MOD_Supp ):
2406 pfilled_ctb->CLIRsup = MNCC_CLR_SUP;
2407 break;
2408 }
2409 break;
2410
2411 default:
2412 ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_Parameter );
2413 return( AT_FAIL );
2414 }
2415
2416 /*
2417 *-----------------------------------------------------------------
2418 * CUG setting
2419 *-----------------------------------------------------------------
2420 */
2421 if ( cugCtrl EQ D_CUG_CTRL_Present OR
2422 pCCCmdPrm -> CCUGmode EQ CCUG_MOD_EnableTmp )
2423 {
2424 pfilled_ctb->CUGidx = pCCCmdPrm -> CCUGidx;
2425
2426 switch( pCCCmdPrm -> CCUGinfo )
2427 {
2428 case( CCUG_INFO_No ):
2429 break;
2430 case( CCUG_INFO_SuppOa ):
2431 pfilled_ctb->OAsup = TRUE;
2432 break;
2433 case( CCUG_INFO_SuppPrefCug ):
2434 pfilled_ctb->CUGprf = TRUE;
2435 break;
2436 case( CCUG_INFO_SuppBoth ):
2437 pfilled_ctb->OAsup = TRUE;
2438 pfilled_ctb->CUGprf = TRUE;
2439 break;
2440 }
2441 }
2442
2443 #ifdef SIM_TOOLKIT
2444 /*
2445 *-----------------------------------------------------------------
2446 * SAT settings
2447 *-----------------------------------------------------------------
2448 */
2449
2450 /* decides if a disconnect event for a call has already been sent to SAT */
2451 pfilled_ctb->SatDiscEvent = FALSE;
2452 #endif
2453
2454 /*
2455 *-----------------------------------------------------------------
2456 * bearer services
2457 *-----------------------------------------------------------------
2458 */
2459 switch( callType )
2460 {
2461 /*
2462 *-----------------------------------------------------------------
2463 * start with a voice call
2464 *-----------------------------------------------------------------
2465 */
2466 case( D_TOC_Voice ):
2467
2468 pfilled_ctb->BC[0].rate = MNCC_UR_NOT_PRES;
2469 pfilled_ctb->BC[0].bearer_serv = cmhCC_set_speech_serv (pCCCmdPrm);
2470 pfilled_ctb->BC[0].conn_elem = MNCC_CONN_ELEM_NOT_PRES;
2471
2472 switch( ccShrdPrm.CMODmode )
2473 {
2474
2475 case( CMOD_MOD_Single ): /* single voice call */
2476 pfilled_ctb->rptInd = MNCC_RI_NOT_PRES;
2477
2478 pfilled_ctb->BC[1].rate = MNCC_UR_NOT_PRES;
2479 pfilled_ctb->BC[1].bearer_serv = MNCC_BEARER_SERV_NOT_PRES;
2480 pfilled_ctb->BC[1].conn_elem = MNCC_CONN_ELEM_NOT_PRES;
2481 break;
2482 #if defined (UART) AND defined (FAX_AND_DATA)
2483 case( CMOD_MOD_VoiceDat ): /* alternating voice/data call */
2484 pfilled_ctb->rptInd = MNCC_RI_CIRCULAR;
2485
2486 pfilled_ctb->BC[1].rate = cmhCC_SelRate( ccShrdPrm.CBSTspeed );
2487 pfilled_ctb->BC[1].bearer_serv = cmhCC_SelServ( ccShrdPrm.CBSTname );
2488 pfilled_ctb->BC[1].conn_elem = cmhCC_SelCE ( ccShrdPrm.CBSTce );
2489 pfilled_ctb->BC[1].modem_type = cmhCC_SelMT ( ccShrdPrm.CBSTspeed );
2490
2491 pfilled_ctb->BC[1].stop_bits = cmhCC_SelStopBit( srcId );
2492 pfilled_ctb->BC[1].data_bits = cmhCC_SelDataBit( srcId );
2493 pfilled_ctb->BC[1].parity = cmhCC_SelParity ( srcId );
2494 break;
2495
2496 case( CMOD_MOD_VoiceFlwdDat ): /* voice followed by data */
2497 pfilled_ctb->rptInd = MNCC_RI_CIRCULAR;
2498
2499 pfilled_ctb->BC[1].rate = cmhCC_SelRate( ccShrdPrm.CBSTspeed );
2500 pfilled_ctb->BC[1].bearer_serv = cmhCC_SelServ( ccShrdPrm.CBSTname );
2501 pfilled_ctb->BC[1].conn_elem = cmhCC_SelCE( ccShrdPrm.CBSTce );
2502 pfilled_ctb->BC[1].modem_type = cmhCC_SelMT ( ccShrdPrm.CBSTspeed );
2503
2504 pfilled_ctb->BC[1].stop_bits = cmhCC_SelStopBit( srcId );
2505 pfilled_ctb->BC[1].data_bits = cmhCC_SelDataBit( srcId );
2506 pfilled_ctb->BC[1].parity = cmhCC_SelParity ( srcId );
2507 break;
2508
2509 case( CMOD_MOD_VoiceFax ): /* alternating voice/fax call */
2510 pfilled_ctb->rptInd = MNCC_RI_CIRCULAR;
2511
2512 pfilled_ctb->BC[1].rate = cmhCC_SelRate( ccShrdPrm.CBSTspeed );
2513 pfilled_ctb->BC[1].bearer_serv = MNCC_BEARER_SERV_FAX;
2514 pfilled_ctb->BC[1].conn_elem = MNCC_CONN_ELEM_TRANS;
2515 pfilled_ctb->BC[1].modem_type = MNCC_MT_NONE;
2516 break;
2517 #endif
2518 default: /* unexpected call mode */
2519 ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_DataCorrupt );
2520 return( AT_FAIL );
2521 }
2522 break;
2523
2524
2525 /*
2526 *-----------------------------------------------------------------
2527 * start with a data call
2528 *-----------------------------------------------------------------
2529 */
2530 #ifdef FAX_AND_DATA
2531
2532 case( D_TOC_Data ):
2533
2534 switch( ccShrdPrm.CMODmode )
2535 {
2536 case( CMOD_MOD_Single ): /* single data call */
2537 pfilled_ctb->rptInd = MNCC_RI_NOT_PRES;
2538
2539 pfilled_ctb->BC[0].rate = cmhCC_SelRate( ccShrdPrm.CBSTspeed );
2540
2541 #ifdef FF_FAX
2542 if( pT30CmdPrm -> FCLASSclass EQ FCLASS_CLASS_Fax20 )
2543 {
2544 pfilled_ctb->BC[0].bearer_serv = MNCC_BEARER_SERV_FAX;
2545 pfilled_ctb->BC[0].conn_elem = MNCC_CONN_ELEM_TRANS;
2546 pfilled_ctb->BC[0].modem_type = MNCC_MT_NONE;
2547 }
2548 else
2549 #endif /* FF_FAX */
2550 {
2551 pfilled_ctb->BC[0].bearer_serv = cmhCC_SelServ( ccShrdPrm.CBSTname );
2552 pfilled_ctb->BC[0].conn_elem = cmhCC_SelCE( ccShrdPrm.CBSTce );
2553 pfilled_ctb->BC[0].modem_type = cmhCC_SelMT ( ccShrdPrm.CBSTspeed );
2554
2555 pfilled_ctb->BC[0].rate_adaption = cmhCC_SelRateAdaption
2556 (ccShrdPrm.CBSTspeed);
2557
2558 pfilled_ctb->BC[0].transfer_cap = cmhCC_SelTransferCap
2559 (ccShrdPrm.CBSTspeed);
2560
2561 pfilled_ctb->BC[0].stop_bits = cmhCC_SelStopBit( srcId );
2562 pfilled_ctb->BC[0].data_bits = cmhCC_SelDataBit( srcId );
2563 pfilled_ctb->BC[0].parity = cmhCC_SelParity ( srcId );
2564 }
2565
2566 pfilled_ctb->BC[1].rate = MNCC_UR_NOT_PRES;
2567 pfilled_ctb->BC[1].bearer_serv = MNCC_BEARER_SERV_NOT_PRES;
2568 pfilled_ctb->BC[1].conn_elem = MNCC_CONN_ELEM_NOT_PRES;
2569 break;
2570
2571 case( CMOD_MOD_VoiceDat ): /* alternating data/voice call */
2572 pfilled_ctb->rptInd = MNCC_RI_CIRCULAR;
2573
2574 pfilled_ctb->BC[0].rate = cmhCC_SelRate( ccShrdPrm.CBSTspeed );
2575 pfilled_ctb->BC[0].bearer_serv = cmhCC_SelServ( ccShrdPrm.CBSTname );
2576 pfilled_ctb->BC[0].conn_elem = cmhCC_SelCE( ccShrdPrm.CBSTce );
2577 pfilled_ctb->BC[0].modem_type = cmhCC_SelMT ( ccShrdPrm.CBSTspeed );
2578
2579 pfilled_ctb->BC[0].stop_bits = cmhCC_SelStopBit( srcId );
2580 pfilled_ctb->BC[0].data_bits = cmhCC_SelDataBit( srcId );
2581 pfilled_ctb->BC[0].parity = cmhCC_SelParity ( srcId );
2582
2583 pfilled_ctb->BC[1].rate = MNCC_UR_NOT_PRES;
2584 pfilled_ctb->BC[1].bearer_serv = cmhCC_set_speech_serv (pCCCmdPrm);
2585 pfilled_ctb->BC[1].conn_elem = MNCC_CONN_ELEM_NOT_PRES;
2586 break;
2587
2588 case( CMOD_MOD_VoiceFlwdDat ): /* voice followed by data call */
2589
2590 ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_Parameter );
2591 return( AT_FAIL ); /* operation not allowed */
2592
2593 case( CMOD_MOD_VoiceFax ): /* alternating fax/voice call */
2594 pfilled_ctb->rptInd = MNCC_RI_CIRCULAR;
2595
2596 pfilled_ctb->BC[0].rate = cmhCC_SelRate( ccShrdPrm.CBSTspeed );
2597 pfilled_ctb->BC[0].bearer_serv = MNCC_BEARER_SERV_FAX;
2598 pfilled_ctb->BC[0].conn_elem = MNCC_CONN_ELEM_TRANS;
2599 pfilled_ctb->BC[0].modem_type = MNCC_MT_NONE;
2600
2601 pfilled_ctb->BC[1].rate = MNCC_UR_NOT_PRES;
2602 pfilled_ctb->BC[1].bearer_serv = cmhCC_set_speech_serv (pCCCmdPrm);
2603 pfilled_ctb->BC[1].conn_elem = MNCC_CONN_ELEM_NOT_PRES;
2604 break;
2605
2606 default: /* unexpected call mode */
2607 ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_DataCorrupt );
2608 return( AT_FAIL );
2609 }
2610 break;
2611 #endif /* of #ifdef FAX_AND_DATA */
2612
2613 default: /* unexpected call type */
2614 ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_DataCorrupt );
2615 return( AT_FAIL );
2616 }
2617
2618 return( AT_CMPL );
2619 }
2620
2621 #ifdef FF_TTY
2622 /*
2623 +--------------------------------------------------------------------+
2624 | PROJECT : GSM-PS (6147) MODULE : CMH_CCF |
2625 | STATE : code ROUTINE : cmhCC_notifyTTY |
2626 +--------------------------------------------------------------------+
2627
2628 PURPOSE : This function converts the TTY activity to the trx state
2629 to be provided by '%CTYI: ...'.
2630 */
2631
2632 GLOBAL T_ACI_CTTY_TRX cmhCC_getTTYtrx_state (int ttyTrxState)
2633 {
2634 switch (ttyTrxState)
2635 {
2636 case TTY_OFF:
2637 return CTTY_TRX_Off;
2638 case TTY_HCO:
2639 return CTTY_TRX_SendOn;
2640 case TTY_VCO:
2641 return CTTY_TRX_RcvOn;
2642 case TTY_ALL:
2643 return CTTY_TRX_RcvSendOn;
2644 default:
2645 break;
2646 }
2647 return CTTY_TRX_Unknown;
2648 }
2649
2650 /*
2651 +--------------------------------------------------------------------+
2652 | PROJECT : GSM-PS (6147) MODULE : CMH_CCF |
2653 | STATE : code ROUTINE : cmhCC_notifyTTY |
2654 +--------------------------------------------------------------------+
2655
2656 PURPOSE : This function generates the unsolicited message '%CTYI: ...'
2657 for any logical channel having registered for.
2658 */
2659
2660 GLOBAL void cmhCC_notifyTTY (T_ACI_CTTY_NEG neg,
2661 T_ACI_CTTY_TRX trx)
2662 {
2663 int i;
2664
2665 for (i = CMD_SRC_LCL; i < CMD_SRC_MAX; i++)
2666 {
2667 if (cmhPrm[i].ccCmdPrm.CTTYmode EQ CTTY_MOD_Enable)
2668 {
2669 R_AT (RAT_CTYI, (T_ACI_CMD_SRC)i) (neg, trx);
2670 }
2671 }
2672 }
2673 #endif /* FF_TTY */
2674
2675 /*
2676 +--------------------------------------------------------------------+
2677 | PROJECT : GSM-PS (6147) MODULE : CMH_CCF |
2678 | STATE : code ROUTINE : cmhCC_checkALS_Support |
2679 +--------------------------------------------------------------------+
2680
2681 PURPOSE : These function checks for ALS support in two steps
2682 */
2683
2684 GLOBAL void cmhCC_checkALS_Support()
2685 {
2686 TRACE_FUNCTION ("cmhCC_checkALS_Support()");
2687
2688 /* Step #1: read CPHS info first */
2689 cmhSIM_ReadTranspEF( CMD_SRC_NONE,
2690 AT_CMD_NONE,
2691 FALSE,
2692 NULL,
2693 SIM_CPHS_CINF,
2694 0,
2695 ACI_CPHS_INFO_SIZE,
2696 NULL,
2697 cmhCC_checkALS_Support_cb );
2698 }
2699
2700 GLOBAL void cmhCC_checkALS_Support_2()
2701 {
2702 TRACE_FUNCTION ("cmhCC_checkALS_Support_2()");
2703
2704 /* Step #2: then read the actual CSP */
2705 cmhSIM_ReadTranspEF( CMD_SRC_NONE,
2706 AT_CMD_NONE,
2707 FALSE,
2708 NULL,
2709 SIM_CPHS_CSP,
2710 0,
2711 0,
2712 NULL,
2713 cmhCC_checkALS_Support_cb_2 );
2714 }
2715
2716 /*
2717 +--------------------------------------------------------------------+
2718 | PROJECT : GSM-PS (6147) MODULE : CMH_CCF |
2719 | STATE : code ROUTINE : cmhCC_redialCheck |
2720 +--------------------------------------------------------------------+
2721
2722 PURPOSE : This function evaluates conditions for redialling
2723 */
2724
2725 GLOBAL void cmhCC_redialCheck(SHORT cId)
2726 {
2727 T_CC_CALL_TBL *ctbFail = ccShrdPrm.ctb[ccShrdPrm.cIdFail];
2728 T_CC_CALL_TBL *ctb = ccShrdPrm.ctb[cId];
2729 SHORT error_indication;
2730 int i;
2731
2732 TRACE_FUNCTION ("cmhCC_redialCheck()");
2733
2734 /* check conditions for error_indication check */
2735 if((rdlPrm.rdlMod EQ AUTOM_REPEAT_ON) AND (rdlPrm.rdlcId EQ NO_ENTRY))
2736 {/* if black list is full no further redial attempts; user has to delete the black list */
2737 #ifdef TI_PS_FF_AT_P_CMD_RDLB
2738 if(cmhCC_redialChkBlackl(cId) EQ AT_CMPL)
2739 {
2740 if(cc_blacklist_ptr->blCount NEQ MAX_NUM_ENTR_BLACK_LIST)
2741 {
2742 #endif /* TI_PS_FF_AT_P_CMD_RDLB */
2743 if( ccShrdPrm.cIdFail < 0 OR ccShrdPrm.cIdFail > MAX_CALL_NR )
2744 {
2745 error_indication = GET_CAUSE_VALUE(CAUSE_MAKE(DEFBY_STD,
2746 ORIGSIDE_MS,
2747 MNCC_ACI_ORIGINATING_ENTITY,
2748 NOT_PRESENT_8BIT));
2749 }
2750 else if( GET_CAUSE_VALUE(ctbFail->rejCs) NEQ NOT_PRESENT_8BIT )
2751 {
2752 error_indication = GET_CAUSE_VALUE(ctbFail->rejCs);
2753 }
2754 else if( GET_CAUSE_VALUE(ctbFail->nrmCs) NEQ NOT_PRESENT_8BIT )
2755 {
2756 error_indication = GET_CAUSE_VALUE(ctbFail->nrmCs);
2757 }
2758 else if( GET_CAUSE_VALUE(ctbFail->rslt) NEQ NOT_PRESENT_8BIT )
2759 {
2760 error_indication = GET_CAUSE_VALUE(ctbFail->rslt);
2761 }
2762 else
2763 {/* in case network has sent no extended report */
2764 error_indication = GET_CAUSE_VALUE(CAUSE_MAKE(DEFBY_STD,
2765 ORIGSIDE_MS,
2766 MNCC_ACI_ORIGINATING_ENTITY,
2767 NOT_PRESENT_8BIT));
2768 }
2769
2770 /* check error_indication (ETSI 2.07, Annex A) and redial counter */
2771 switch (error_indication)
2772 {
2773 /*** indications of category 1 ***/
2774 case 17: /* user busy */
2775 /*** indications of category 2 ***/
2776 case 18: /* no user responding */
2777 case 19: /* user alterting, no answer */
2778 case 27: /* destination out of order */
2779 case 34: /* no circuit/channel available */
2780 case 41: /* temporary failure */
2781 case 42: /* switching equipment congestion */
2782 case 44: /* requested circuit/channel available */
2783 case 47: /*esources unavailable, unspecified */
2784
2785 /* Implements Measure 197, 198 and 199 */
2786 if( (ctb->rdlCnt >= 4) AND (ctb->rdlCnt < MAX_NUM_REPEAT_ATT) )
2787 {
2788 #ifndef _SIMULATION_
2789 ctb->rdlTimIndex = 1;
2790 #endif
2791 }
2792 cmhCC_redialAttempt( cId, ctb->rdlCnt );
2793 /* else : ctb->rdlCnt = MAX_NUM_REPEAT_ATT -> entry is black list */
2794 break;
2795 /*** indications of category 3 -> only one redial attempt is allowed ***/
2796 case 28: /* invalid number format */
2797 ctb->rdlCnt = 0;
2798 break; /* for incorrect number we do not start redialling */
2799 case 1: /* unassigned (unallocated) number */
2800 case 3: /* no route to destination */
2801 case 22: /* number changed */
2802 case 38: /* network out of order */
2803 if(!ctb->rdlCnt)
2804 {/* first redial attempt */
2805 ctb->rdlCnt = MAX_NUM_REPEAT_ATT - 1;
2806 rdlPrm.rdlcId = cId;
2807 /* 5+5 sec for first (= only) call attempt */
2808 TIMERSTART(ACI_REPEAT_1+ACI_DELAY_TIMER,ACI_REPEAT_HND);
2809 for(i = 0; i < CMD_SRC_MAX; i++)
2810 {
2811 R_AT(RAT_RDL, (T_ACI_CMD_SRC)i)(CALL_ATTEMPT_FAILED);
2812 R_AT(RAT_RDL, (T_ACI_CMD_SRC)i)(REDIAL_TIM_START);
2813 }
2814 }
2815 else
2816 {/* more than one attempt is not allowed --> entry in blacklist */
2817 ctb->rdlCnt = MAX_NUM_REPEAT_ATT;
2818 for(i = 0; i < CMD_SRC_MAX; i++)
2819 {
2820 R_AT(RAT_RDL,(T_ACI_CMD_SRC) i)(CALL_ATTEMPT_FAILED);
2821 }
2822 }
2823 break;
2824 default:
2825 ctb->rdlCnt = 0;
2826 break;
2827 }
2828 #ifdef TI_PS_FF_AT_P_CMD_RDLB
2829 }
2830 #endif /* TI_PS_FF_AT_P_CMD_RDLB */
2831 #ifdef TI_PS_FF_AT_P_CMD_RDLB
2832 /* check redial counter against black list: add entry if the list is not full yet */
2833 if(ctb->rdlCnt EQ MAX_NUM_REPEAT_ATT)
2834 {
2835 if (cc_blacklist_ptr->blCount< MAX_NUM_ENTR_BLACK_LIST)
2836 {
2837 /* add entry in black list */
2838 cc_blacklist_ptr->blCount++;
2839 cc_blacklist_ptr->blNum[cc_blacklist_ptr->blCount-1].numb_len =
2840 ctb->cldPty.c_called_num;
2841 memcpy(cc_blacklist_ptr->blNum[cc_blacklist_ptr->blCount-1].number,
2842 ctb->cldPty.called_num,
2843 ctb->cldPty.c_called_num);
2844 cc_blacklist_ptr->blNum[cc_blacklist_ptr->blCount-1].type.ton =
2845 (T_ACI_TOA_TON)ctb->cldPty.ton;
2846 cc_blacklist_ptr->blNum[cc_blacklist_ptr->blCount-1].type.npi =
2847 (T_ACI_TOA_NPI)ctb->cldPty.npi;
2848
2849 ctb->rdlCnt = 0; /* reset redial counter in call table */
2850 ctb->rdlTimIndex = RDL_TIM_INDEX_NOT_PRESENT;
2851 if(cc_blacklist_ptr->blCount EQ MAX_NUM_ENTR_BLACK_LIST)
2852 {
2853 for(i = 0; i < CMD_SRC_MAX; i++)
2854 {
2855 R_AT(RAT_RDLB, (T_ACI_CMD_SRC)i)(BLACKLIST_FULL);
2856 }
2857 }
2858 else
2859 {
2860 for(i = 0; i < CMD_SRC_MAX; i++)
2861 {
2862 R_AT(RAT_RDLB, (T_ACI_CMD_SRC)i)(ENTRY_BLACKLISTED);
2863 }
2864 }
2865 }
2866 }
2867 else
2868 {
2869 return;
2870 }
2871 } /* End of if (cc_blacklist_ptr->blCount< MAX_NUM_ENTR_BLACK_LIST) */
2872 #ifdef SIM_TOOLKIT
2873 cmhSAT_NtwErr( (UBYTE)((GET_CAUSE_VALUE(ccShrdPrm.ctb[cId]->nrmCs) NEQ NOT_PRESENT_8BIT)?
2874 (ccShrdPrm.ctb[cId]->nrmCs|0x80) : ADD_NO_CAUSE));
2875 /*
2876 * If cId is blacklisted, We need to stop the SAT Max duration timer
2877 * and reset the SAT max duration
2878 */
2879 if(satShrdPrm.dur)
2880 {
2881 TIMERSTOP(ACI_SAT_MAX_DUR_HND);
2882 satShrdPrm.dur = -1;
2883 }
2884 #endif /* SIM_TOOKIT */
2885 #endif /* TI_PS_FF_AT_P_CMD_RDLB */
2886 }
2887 }
2888
2889 #ifdef TI_PS_FF_AT_P_CMD_RDLB
2890 /*
2891 +--------------------------------------------------------------------+
2892 | PROJECT : GSM-PS (6147) MODULE : CMH_CCF |
2893 | STATE : code ROUTINE : cmhCC_redialChkBlackl |
2894 +--------------------------------------------------------------------+
2895
2896 PURPOSE : This function checks the new cId against the black list
2897 */
2898
2899 GLOBAL T_ACI_RETURN cmhCC_redialChkBlackl(SHORT cId)
2900 {
2901 UBYTE bl_index = 0;
2902 int i;
2903
2904 TRACE_FUNCTION ("cmhCC_redialChkBlackl()");
2905
2906 if(cc_blacklist_ptr NEQ NULL)
2907 {
2908 for(bl_index=0; bl_index<cc_blacklist_ptr->blCount;bl_index++)
2909 {
2910 T_CC_CALL_TBL *ctb = ccShrdPrm.ctb[cId];
2911
2912 if (memcmp (cc_blacklist_ptr->blNum[bl_index].number,
2913 ctb->cldPty.called_num,
2914 ctb->cldPty.c_called_num) EQ 0)
2915 {
2916 for(i = 0; i < CMD_SRC_MAX; i++)
2917 {
2918 R_AT(RAT_RDLB, (T_ACI_CMD_SRC)i)(ENTRY_IN_BLACKLIST);
2919 }
2920 return( AT_FAIL );
2921 }
2922 }
2923 }
2924 return( AT_CMPL );
2925 }
2926 #endif /* TI_PS_FF_AT_P_CMD_RDLB */
2927 #if defined(_TARGET_)
2928 /*
2929 +--------------------------------------------------------------------+
2930 | PROJECT : GSM-PS (6147) MODULE : CMH_CCF |
2931 | STATE : code ROUTINE : cmhCC_rd_mode_FFS |
2932 +--------------------------------------------------------------------+
2933
2934 PURPOSE : This function writes redial_mode in FFS
2935 */
2936
2937 GLOBAL T_ACI_RETURN cmhCC_rd_mode_FFS(T_ACI_CC_REDIAL_MODE rdl_mode,
2938 T_ACI_CC_RDL_FFS ffs_mode)
2939 {
2940 T_ACI_CC_REDIAL_MODE redial_mode;
2941
2942 TRACE_FUNCTION ("cmhCC_rd_mode_FFS()");
2943
2944 /* Implements Measure#32: Row 73 */
2945 switch(FFS_mkdir(gsm_com_path))
2946 {/* create/check ffs directory */
2947 case EFFS_OK:
2948 case EFFS_EXISTS:
2949 break;
2950 default:
2951 ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_Parameter );
2952 return ( AT_FAIL );
2953 }
2954
2955 if(ffs_mode EQ WRITE_RDLmode)
2956 {
2957 /* Implements Measure#32: Row 74 */
2958 if(FFS_fwrite(gsm_com_redialmode_path,&rdl_mode, sizeof(T_ACI_CC_REDIAL_MODE)) NEQ EFFS_OK)
2959 {
2960 ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_Parameter );
2961 return ( AT_FAIL );
2962 }
2963 return AT_CMPL;
2964 }
2965 else if(ffs_mode EQ READ_RDLmode)
2966 {
2967 /* Implements Measure#32: Row 74 */
2968 FFS_fread(gsm_com_redialmode_path,&redial_mode, sizeof(T_ACI_CC_REDIAL_MODE));
2969 switch(redial_mode)
2970 {
2971 case AUTOM_REP_NOT_PRESENT:
2972 rdlPrm.rdlMod = AUTOM_REPEAT_OFF;
2973 return AT_CMPL;
2974 case AUTOM_REPEAT_OFF:
2975 case AUTOM_REPEAT_ON:
2976 rdlPrm.rdlMod = redial_mode;
2977 return AT_CMPL;
2978 default:
2979 ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_Parameter );
2980 return ( AT_FAIL );
2981 }
2982 }
2983 else
2984 {
2985 ACI_ERR_DESC( ACI_ERR_CLASS_Ext, EXT_ERR_Parameter );
2986 return ( AT_FAIL );
2987 }
2988 }
2989 #endif /* _TARGET_ */
2990
2991 /* Implements Measure 197, 198 and 199 */
2992 /*
2993 +------------------------------------------------------------------------------
2994 | Function : cmhCC_redialAttempt
2995 +------------------------------------------------------------------------------
2996 | Purpose : This Function will Attempt for Redialling.
2997 |
2998 | Parameters : srcId - AT command source identifier.
2999 | rdlCnt - Redial Counter
3000 |
3001 | Return : void
3002 +------------------------------------------------------------------------------
3003 */
3004
3005 LOCAL void cmhCC_redialAttempt( SHORT cId, UBYTE rdlCnt )
3006 {
3007 int i;
3008
3009 TRACE_FUNCTION ("cmhCC_redialAttempt()");
3010
3011 if(!rdlCnt)
3012 {
3013 rdlPrm.rdlcId = cId;
3014 #ifdef SIM_TOOLKIT
3015 if (satShrdPrm.dur NEQ -1)
3016 {
3017 /* Start the SAT max duration timer before the first redial attempt*/
3018 TIMERSTART(satShrdPrm.dur,ACI_SAT_MAX_DUR_HND);
3019 }
3020 #endif /* SIM_TOOLKIT */
3021
3022 /* first redial attempt */
3023 TIMERSTART( ACI_REPEAT_1 + ACI_DELAY_TIMER, ACI_REPEAT_HND );
3024 }
3025 else if ( rdlCnt < MAX_NUM_REPEAT_ATT )
3026 {
3027 rdlPrm.rdlcId = cId;
3028 /* from 2nd to 4th redial attempt and from 5th to 10th redial attempt */
3029 #ifdef _SIMULATION_
3030 TIMERSTART( ACI_REPEAT_1, ACI_REPEAT_HND );
3031 #else
3032 TIMERSTART( ACI_REPEAT_2_4 + ACI_DELAY_TIMER, ACI_REPEAT_HND );
3033 #endif
3034 }
3035 else
3036 {
3037 return;
3038 }
3039
3040 for(i = 0; i < CMD_SRC_MAX; i++)
3041 {
3042 R_AT(RAT_RDL, (T_ACI_CMD_SRC)i)(CALL_ATTEMPT_FAILED);
3043 R_AT(RAT_RDL, (T_ACI_CMD_SRC)i)(REDIAL_TIM_START);
3044 }
3045 }
3046
3047
3048
3049 /*==== EOF ========================================================*/
3050