comparison chipsetsw/services/atp/atp_uart_handle_msg.c @ 0:509db1a7b7b8

initial import: leo2moko-r1
author Space Falcon <falcon@ivan.Harhan.ORG>
date Mon, 01 Jun 2015 03:24:05 +0000
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-1:000000000000 0:509db1a7b7b8
1 /********************************************************************************/
2 /* */
3 /* File Name: atp_uart_handle_msg.c */
4 /* */
5 /* Purpose: This file contains the internal function related to */
6 /* the ATP-UART interface and used to handle incoming */
7 /* messages */
8 /* */
9 /* Note: None. */
10 /* */
11 /* Revision History: */
12 /* 10/04/01 Pascal Pompei */
13 /* - Create. */
14 /* */
15 /* (C) Copyright 2001 by Texas Instruments Incorporated, All Rights Reserved. */
16 /* */
17 /********************************************************************************/
18 #include "atp/atp_i.h"
19 #include "atp/atp_uart_i.h"
20 #include "rvm/rvm_use_id_list.h"
21
22
23 /********************************************************************************/
24 /* */
25 /* Function Name: atp_uart_handle_msg */
26 /* */
27 /* Purpose: This function handles incoming messages available from */
28 /* the mailbox dedicated to the ATP-UART interface. */
29 /* */
30 /* Input Parameters: None. */
31 /* */
32 /* Output Parameters: None. */
33 /* */
34 /* Global Parameters: None. */
35 /* */
36 /* Notes: The GSM protocol stack must be started first. */
37 /* Nevertheless, note that incoming data calls are not */
38 /* supported for now. Moreover, the AT Parser is alerted */
39 /* that the call is terminated by receiving an 'Ok' or a */
40 /* 'No Carrier' final result code only. At last, the GSM */
41 /* protocol stack is initialized by invoking the */
42 /* following AT commands: */
43 /* ATE0 : Echo mode switched off, */
44 /* AT+CFUN=1 : Set Phone Functionality (Full), */
45 /* AT+COPS=0 : Operator Selection. */
46 /* */
47 /* Revision History: */
48 /* 10/04/01 Pascal Pompei */
49 /* - Create. */
50 /* */
51 /********************************************************************************/
52 T_ATP_UART_ERROR_CODES atp_uart_handle_msg (void)
53 {
54 /* Declare local variables. */
55 UINT16 event_pending = 0x0000;
56 UINT32 in_buffer_size = 0x00000000;
57 BOOLEAN echo_mode_switched_off = FALSE;
58 BOOLEAN error_occurred = FALSE;
59 T_ATP_CALLBACK return_path = {0x00, \
60 NULL};
61 T_ATP_ENTITY_MODE mode = {CMD_SUPPORT_ON, \
62 TXT_MODE, \
63 COPY_ON};
64 T_ATP_SW_ENTITY_NAME name = ATP_GSM_NAME;
65
66 /********************** atp_uart_handle_msg function begins *********************/
67
68 /* First, wait until the COM port is activated. */
69 while ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).com_port_handle == INVALID_HANDLE_VALUE)
70 {
71
72 /* Wait for the next event(s) of interest. */
73 event_pending = rvf_wait (ATP_UART_ALL_EVENT_FLAGS,
74 0x00000000);
75
76 /* If an expected event occurred, then get the associated message from */
77 /* the mailbox dedicated to the ATP-UART interface. */
78 if (event_pending & ATP_UART_EXPECTED_EVENT)
79 {
80
81 /* Declare a local block variable. */
82 T_RV_HDR *incoming_message_p = NULL;
83
84 /* Get the incoming message from the mailbox dedicated to the */
85 /* ATP-UART interface. */
86 incoming_message_p = (T_RV_HDR *) rvf_read_mbox (ATP_UART_MAILBOX);
87
88 /* Check whether the incoming message is valid. */
89 if (incoming_message_p == NULL)
90 {
91 ATP_UART_UNRECOVERABLE_ERROR (RVM_INTERNAL_ERR,
92 " ATP-UART (handle_msg). Invalid event occurred ");
93 return (RVM_INTERNAL_ERR);
94 }
95 switch (incoming_message_p->msg_id)
96 {
97
98 /* 'ATP-UART Open COM Port'. */
99 case ATP_UART_OPEN_COM_PORT:
100 {
101
102 /* Declare a local block variable. */
103 UINT8 gsm_basic_init_p[] = {'A', 'T', 'E', '0', \
104 ATP_CR_CHARACTER};
105
106 /* Open the COM port whose number and baud rate are */
107 /* specified. If any error occurred, then call the */
108 /* function used whenever any unrecoverable error */
109 /* occurs and abort. */
110 if (atp_uart_create_com_port ((unsigned char) (((T_ATP_UART_OPEN_COM_PORT *) (incoming_message_p))->com_port), \
111 ((T_ATP_UART_OPEN_COM_PORT *) (incoming_message_p))->baud_rate) != RV_OK)
112 {
113 ATP_UART_UNRECOVERABLE_ERROR (RVM_INTERNAL_ERR,
114 " ATP-UART (handle_msg). Unable to activate the COM port ");
115 return (RVM_INTERNAL_ERR);
116 }
117 rvf_send_trace (" ATP-UART (handle_msg). COM port properly opened ",
118 50,
119 NULL_PARAM,
120 RV_TRACE_LEVEL_DEBUG_LOW,
121 ATP_USE_ID);
122
123 /* Configure the GSM especially not to echo characters */
124 /* during 'Command State' and 'Online Command State'. */
125 /* If any error occurred, then call the function used */
126 /* whenever any unrecoverable error occurs and abort. */
127 if (atp_uart_write_com_port (gsm_basic_init_p, \
128 sizeof (gsm_basic_init_p)) != RV_OK)
129 {
130 ATP_UART_UNRECOVERABLE_ERROR (RVM_INTERNAL_ERR,
131 " ATP-UART (handle_msg). GSM configuration failed ");
132 return (RVM_INTERNAL_ERR);
133 }
134 break;
135 }
136
137 /* Unexpected message. */
138 default:
139 {
140 rvf_send_trace (" ATP-UART (handle_msg). Unexpected message received ",
141 53,
142 incoming_message_p->msg_id,
143 RV_TRACE_LEVEL_WARNING,
144 ATP_USE_ID);
145 break;
146 }
147 }
148 (void) rvf_free_buf ((T_RVF_BUFFER *) (incoming_message_p));
149 }
150 }
151
152 /* Then, wait for the echo mode being switched off. */
153 while (echo_mode_switched_off == FALSE)
154 {
155
156 /* Wait for the next event(s) of interest. */
157 event_pending = rvf_wait (ATP_UART_ALL_EVENT_FLAGS,
158 0x00000001);
159
160 /* If an expected event occurred, then get the associated message from */
161 /* the mailbox dedicated to the ATP-UART interface. */
162 if (event_pending & ATP_UART_EXPECTED_EVENT)
163 {
164
165 /* Declare a local block variable. */
166 T_RV_HDR *incoming_message_p = NULL;
167
168 /* Get the incoming message from the mailbox dedicated to the */
169 /* ATP-UART interface. */
170 incoming_message_p = (T_RV_HDR *) rvf_read_mbox (ATP_UART_MAILBOX);
171
172 /* Check whether the incoming message is valid. */
173 if (incoming_message_p == NULL)
174 {
175 ATP_UART_UNRECOVERABLE_ERROR (RVM_INTERNAL_ERR,
176 " ATP-UART (handle_msg). Invalid event occurred ");
177 return (RVM_INTERNAL_ERR);
178 }
179 rvf_send_trace (" ATP-UART (handle_msg). Unexpected message received ",
180 53,
181 incoming_message_p->msg_id,
182 RV_TRACE_LEVEL_WARNING,
183 ATP_USE_ID);
184 (void) rvf_free_buf ((T_RVF_BUFFER *) (incoming_message_p));
185 }
186
187 /* Now, attempt forwarding data to the AT Parser. Thus, initialize the */
188 /* amount of data to be forwarded. */
189 in_buffer_size = (UINT32) (ATP_UART_MAX_PACKET_SIZE - \
190 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).nb_bytes_left);
191
192 /* Then, wait for data from the COM port. If any error occurred, then */
193 /* abort. */
194 if (atp_uart_read_com_port (&((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[(gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).nb_bytes_left]), \
195 &in_buffer_size) == RV_OK)
196 {
197
198 /* Declare local block variables. */
199 UINT32 in_buffer_begin = 0x00000000;
200 UINT32 in_buffer_end = 0x00000000;
201 T_ATP_CMD *cmd_info_p = NULL;
202 T_ATP_CMD_NB cmd_nb = 0x0000;
203 T_ATP_CMD_TYPE cmd_type = UNKNOWN;
204
205 /* Send every 'Text Command' to the AT Parser separately. */
206 while (in_buffer_end < in_buffer_size)
207 {
208
209 /* Skip leading <CR> and <LF> characters. */
210 for (in_buffer_begin = in_buffer_end;
211 (in_buffer_begin < in_buffer_size) && \
212 (((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_begin] == ATP_LF_CHARACTER) || \
213 ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_begin] == ATP_CR_CHARACTER));
214 in_buffer_begin++)
215 {
216 }
217
218 /* Get the 'Text Command' length by searching for the ending */
219 /* <CR> character. */
220 for (in_buffer_end = in_buffer_begin;
221 (in_buffer_end < in_buffer_size) && \
222 ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_end] != ATP_CR_CHARACTER);
223 in_buffer_end++)
224 {
225 }
226
227 /* Abort whether no ending <CR> character found. */
228 if ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_end] != ATP_CR_CHARACTER)
229 {
230
231 /* Update the number of bytes left. */
232 in_buffer_size -= in_buffer_begin;
233
234 /* Defrag. */
235 memcpy ((void *) ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p),
236 (void *) (&((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_begin])),
237 in_buffer_size);
238
239 /* Update the number of bytes left. */
240 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).nb_bytes_left = in_buffer_size;
241 break;
242 }
243
244 /* Otherwise, replace the ending <CR> character by NULL. */
245 /* Indeed, such a 'Text Command' must be a NULL-terminated */
246 /* string. */
247 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_end++] = '\x00';
248 rvf_send_trace (&((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_begin]),
249 (UINT8) (in_buffer_end - in_buffer_begin - 0x01),
250 NULL_PARAM,
251 RV_TRACE_LEVEL_DEBUG_LOW,
252 ATP_USE_ID);
253
254 /* Check whether the 'Text Command' is a final result code. */
255 if ((atp_translate_txt_to_cmd (&((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_begin]), \
256 UNKNOWN, \
257 &cmd_type, \
258 &cmd_nb, \
259 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).atp_id, \
260 &cmd_info_p) == RV_OK) && \
261 (cmd_type == RESULT_CODE))
262 {
263
264 /* If needed, de-allocate the command-related information. */
265 if (cmd_info_p != NULL)
266 {
267 (void) rvf_free_buf ((T_RVF_BUFFER *) (cmd_info_p));
268 }
269
270 /* Check whether the 'Text Command' corresponds to the 'OK' */
271 /* final result code. */
272 if (cmd_nb == ATP_OK_NB)
273 {
274 rvf_send_trace (" ATP-UART (handle_msg). Echo mode switched off ",
275 48,
276 NULL_PARAM,
277 RV_TRACE_LEVEL_DEBUG_LOW,
278 ATP_USE_ID);
279
280 /* The echo mode is properly switched off. */
281 echo_mode_switched_off = TRUE;
282 break;
283 }
284 ATP_UART_UNRECOVERABLE_ERROR (RVM_INTERNAL_ERR,
285 " ATP-UART (handle_msg). Echo mode not switched off ");
286 return (RVM_INTERNAL_ERR);
287 }
288
289 /* If needed, de-allocate the command-related information. */
290 if (cmd_info_p != NULL)
291 {
292 (void) rvf_free_buf ((T_RVF_BUFFER *) (cmd_info_p));
293 }
294 }
295 continue;
296 }
297 rvf_send_trace (" ATP-UART (handle_msg). Failed in getting data from the COM port ",
298 66,
299 NULL_PARAM,
300 RV_TRACE_LEVEL_WARNING,
301 ATP_USE_ID);
302 }
303
304 /* At last, initialize the remainder of the return path in order to receive */
305 /* events from the AT parser. */
306 return_path.addr_id = gbl_atp_uart_ctrl_blk_p->addr_id;
307
308 /* Register the ATP-UART interface to the AT Parser. If any error occurred, */
309 /* then call the function used whenever any unrecoverable error occurs and */
310 /* abort. */
311 if (atp_reg (name, \
312 return_path, \
313 mode, \
314 &((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).atp_id)) != RV_OK)
315 {
316 ATP_UART_UNRECOVERABLE_ERROR (RVM_INTERNAL_ERR,
317 " ATP-UART (handle_msg). Registration failed ");
318 return (RVM_INTERNAL_ERR);
319 }
320 rvf_send_trace (" ATP-UART (handle_msg). Registration completed ",
321 48,
322 NULL_PARAM,
323 RV_TRACE_LEVEL_DEBUG_LOW,
324 ATP_USE_ID);
325
326 /* Now, wait for the next events to be handled as long as no error occurs. */
327 while (error_occurred == FALSE)
328 {
329
330 /* Wait for the next event(s) of interest. */
331 event_pending = rvf_wait (ATP_UART_ALL_EVENT_FLAGS,
332 0x00000001);
333
334 /* If an expected event occurred, then get the associated message from */
335 /* the mailbox dedicated to the ATP-UART interface. */
336 if (event_pending & ATP_UART_EXPECTED_EVENT)
337 {
338
339 /* Declare a local block variable. */
340 T_RV_HDR *incoming_message_p = NULL;
341
342 /* Get the incoming message from the mailbox dedicated to the */
343 /* ATP-UART interface. */
344 incoming_message_p = (T_RV_HDR *) rvf_read_mbox (ATP_UART_MAILBOX);
345
346 /* Check whether the incoming message is valid. */
347 if (incoming_message_p == NULL)
348 {
349 ATP_UART_UNRECOVERABLE_ERROR (RVM_INTERNAL_ERR,
350 " ATP-UART (handle_msg). Invalid event occurred ");
351 return (RVM_INTERNAL_ERR);
352 }
353 switch (incoming_message_p->msg_id)
354 {
355
356 /* 'ATP Open Port Indication'. */
357 case ATP_OPEN_PORT_IND:
358 {
359
360 /* Declare local block variables. */
361 T_ATP_PORT_INFO gsm_port_info = {NOT_DEFINED_CONFIG, \
362 ATP_NO_RING_TYPE, \
363 ATP_ALL_THE_SIGNAL_UNMASK, \
364 0x0000};
365 T_ATP_NO_COPY_INFO gsm_no_copy_info = {RVF_INVALID_MB_ID, \
366 RVF_INVALID_MB_ID, \
367 TX_HEADER_OFF, \
368 0x00, \
369 0x00, \
370 RX_HEADER_OFF, \
371 0x00, \
372 0x00, \
373 NORMAL_PACKET};
374 T_ATP_CUSTOM_FROM_GSM_INFO *gsm_custom_info_p = NULL;
375
376 rvf_send_trace (" ATP-UART (handle_msg). 'ATP Open Port Indication' received ",
377 61,
378 NULL_PARAM,
379 RV_TRACE_LEVEL_DEBUG_MEDIUM,
380 ATP_USE_ID);
381
382 /* Set custom information associated with the pseudo */
383 /* GSM Software Entity. If insufficient resources, then */
384 /* call the function used whenever any unrecoverable */
385 /* error occurs and abort. */
386 if (rvf_get_buf (gbl_atp_uart_ctrl_blk_p->mb_id, \
387 sizeof (T_ATP_CUSTOM_FROM_GSM_INFO), \
388 (T_RVF_BUFFER **) (&gsm_custom_info_p)) == RVF_RED)
389 {
390 ATP_UART_UNRECOVERABLE_ERROR (RVM_MEMORY_ERR,
391 " ATP-UART (handle_msg). Insufficient resources ");
392 return (RVM_MEMORY_ERR);
393 }
394 gsm_custom_info_p->custom_type = ATP_FROM_GSM_INFO;
395 gsm_custom_info_p->optimal_gsm_max_packet_size = ATP_UART_MAX_PACKET_SIZE;
396
397 /* Open the virtual modem port with the AT Parser. If */
398 /* any error occurred, then de-allocate custom */
399 /* information associated with the pseudo GSM Software */
400 /* Entity, call the function used whenever any */
401 /* unrecoverable error occurs and abort. */
402 if (atp_open_port_rsp (((T_ATP_OPEN_PORT_IND *) (incoming_message_p))->initiator_id, \
403 ((T_ATP_OPEN_PORT_IND *) (incoming_message_p))->initiator_port_nb, \
404 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).atp_id, \
405 ATP_UART_GSM_PORT_NB, \
406 gsm_port_info, \
407 gsm_no_copy_info, \
408 (T_ATP_CUSTOM_INFO *) (gsm_custom_info_p), \
409 OPEN_PORT_OK) != RV_OK)
410 {
411 (void) rvf_free_buf ((T_RVF_BUFFER *) (gsm_custom_info_p));
412 ATP_UART_UNRECOVERABLE_ERROR (RVM_INTERNAL_ERR,
413 " ATP-UART (handle_msg). Unable to open the virtual modem port with the AT Parser ");
414 return (RVM_INTERNAL_ERR);
415 }
416 rvf_send_trace (" ATP-UART (handle_msg). Virtual modem port properly established with the AT Parser ",
417 84,
418 NULL_PARAM,
419 RV_TRACE_LEVEL_DEBUG_LOW,
420 ATP_USE_ID);
421
422 /* The virtual modem port opened with the AT Parser is */
423 /* now properly initialized. */
424 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).virtual_modem_port_established = TRUE;
425
426 /* If needed, de-allocate custom information contained */
427 /* in the 'ATP Open Port Indication'. */
428 if (((T_ATP_OPEN_PORT_IND *) incoming_message_p)->custom_info_p != NULL)
429 {
430 rvf_free_buf ((T_RVF_BUFFER *) (((T_ATP_OPEN_PORT_IND *) (incoming_message_p))->custom_info_p));
431 }
432 break;
433 }
434
435 /* 'ATP Text Command Ready'. */
436 case ATP_TXT_CMD_RDY:
437 {
438
439 /* Declare local block variables. */
440 UINT8 txt_cmd_length = 0x00;
441 T_ATP_TXT_CMD_RDY *txt_cmd_rdy_p = (T_ATP_TXT_CMD_RDY *) (incoming_message_p);
442
443 rvf_send_trace (" ATP-UART (handle_msg). 'ATP Text Command Ready' received ",
444 59,
445 NULL_PARAM,
446 RV_TRACE_LEVEL_DEBUG_MEDIUM,
447 ATP_USE_ID);
448
449 /* If any error occurred, then abort. */
450 if ((txt_cmd_rdy_p->port_nb != ATP_UART_GSM_PORT_NB) || \
451 (txt_cmd_rdy_p->txt_cmd_p == NULL))
452 {
453 rvf_send_trace (" ATP-UART (handle_msg). 'Text Command' transfer failed ",
454 56,
455 NULL_PARAM,
456 RV_TRACE_LEVEL_WARNING,
457 ATP_USE_ID);
458 break;
459 }
460
461 /* Get the length of the 'Text Command'. Note that such */
462 /* a 'Text Command' is a NULL-terminated string. */
463 txt_cmd_length = (UINT8) (strlen (txt_cmd_rdy_p->txt_cmd_p));
464 rvf_send_trace (txt_cmd_rdy_p->txt_cmd_p,
465 txt_cmd_length,
466 NULL_PARAM,
467 RV_TRACE_LEVEL_DEBUG_LOW,
468 ATP_USE_ID);
469
470 /* Forward the 'Text Command' to the COM port. If any */
471 /* error occurred, then proceed. */
472 txt_cmd_rdy_p->txt_cmd_p[txt_cmd_length] = ATP_CR_CHARACTER;
473 if (atp_uart_write_com_port ((UINT8 *) (txt_cmd_rdy_p->txt_cmd_p), \
474 (txt_cmd_length + 0x00000001)) != RV_OK)
475 {
476 rvf_send_trace (" ATP-UART (handle_msg). 'Text Command' transfer failed ",
477 56,
478 NULL_PARAM,
479 RV_TRACE_LEVEL_WARNING,
480 ATP_USE_ID);
481 }
482
483 /* De-allocate the data buffer provided with the 'ATP */
484 /* Command Ready'. */
485 (void) rvf_free_buf ((T_RVF_BUFFER *) (txt_cmd_rdy_p->txt_cmd_p));
486 break;
487 }
488
489 /* 'ATP No Copy Data Ready'. */
490 case ATP_NO_COPY_DATA_RDY:
491 {
492
493 /* Declare a local block variable. */
494 T_ATP_NO_COPY_DATA_RDY *no_copy_data_rdy_p = (T_ATP_NO_COPY_DATA_RDY *) (incoming_message_p);
495
496 rvf_send_trace (" ATP-UART (handle_msg). 'ATP No Copy Data Ready' received ",
497 59,
498 NULL_PARAM,
499 RV_TRACE_LEVEL_DEBUG_MEDIUM,
500 ATP_USE_ID);
501
502 /* If any error occurred, then abort. */
503 if ((no_copy_data_rdy_p->port_nb != ATP_UART_GSM_PORT_NB) || \
504 (no_copy_data_rdy_p->atp_buffer_p == NULL))
505 {
506 rvf_send_trace (" ATP-UART (handle_msg). Data transfer to the COM port failed ",
507 62,
508 NULL_PARAM,
509 RV_TRACE_LEVEL_WARNING,
510 ATP_USE_ID);
511 break;
512 }
513 rvf_send_trace (" ATP-UART (handle_msg). Data size ",
514 35,
515 no_copy_data_rdy_p->buffer_size,
516 RV_TRACE_LEVEL_DEBUG_LOW,
517 ATP_USE_ID);
518
519 /* Forward data to the COM port. If any error occurred, */
520 /* then proceed. */
521 if (atp_uart_write_com_port (no_copy_data_rdy_p->atp_buffer_p, \
522 no_copy_data_rdy_p->buffer_size) != RV_OK)
523 {
524 rvf_send_trace (" ATP-UART (handle_msg). Data transfer to the COM port failed ",
525 62,
526 NULL_PARAM,
527 RV_TRACE_LEVEL_WARNING,
528 ATP_USE_ID);
529 }
530
531 /* De-allocate the data buffer provided with the 'ATP */
532 /* No Copy Data Ready'. */
533 (void) rvf_free_buf ((T_RVF_BUFFER *) (no_copy_data_rdy_p->atp_buffer_p));
534 break;
535 }
536
537 /* 'ATP Signal Changed'. */
538 case ATP_SIGNAL_CHANGED:
539 {
540
541 /* Declare a local block variable. */
542 T_ATP_SIGNAL_CHANGED *signal_changed_p = (T_ATP_SIGNAL_CHANGED *) (incoming_message_p);
543
544 rvf_send_trace (" ATP-UART (handle_msg). 'ATP Signal Changed' received ",
545 55,
546 NULL_PARAM,
547 RV_TRACE_LEVEL_DEBUG_MEDIUM,
548 ATP_USE_ID);
549
550 /* If any error occurred, then abort. */
551 if (signal_changed_p->port_nb != ATP_UART_GSM_PORT_NB)
552 {
553 rvf_send_trace (" ATP-UART (handle_msg). Invalid port number ",
554 45,
555 NULL_PARAM,
556 RV_TRACE_LEVEL_WARNING,
557 ATP_USE_ID);
558 break;
559 }
560 rvf_send_trace (" ATP-UART (handle_msg). Bit mask ",
561 34,
562 signal_changed_p->signal,
563 RV_TRACE_LEVEL_DEBUG_LOW,
564 ATP_USE_ID);
565
566 /* Update the RS232 control signals associated with the */
567 /* virtual modem port. */
568 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).control_signals = signal_changed_p->signal;
569 break;
570 }
571
572 /* 'ATP Port Mode Changed'. */
573 case ATP_PORT_MODE_CHANGED:
574 {
575
576 /* Declare a local block variable. */
577 T_ATP_PORT_MODE_CHANGED *port_mode_changed_p = (T_ATP_PORT_MODE_CHANGED *) (incoming_message_p);
578
579 rvf_send_trace (" ATP-UART (handle_msg). 'ATP Port Mode Changed' received ",
580 58,
581 NULL_PARAM,
582 RV_TRACE_LEVEL_DEBUG_MEDIUM,
583 ATP_USE_ID);
584
585 /* If any error occurred, then abort. */
586 if (port_mode_changed_p->port_nb != ATP_UART_GSM_PORT_NB)
587 {
588 rvf_send_trace (" ATP-UART (handle_msg). Invalid port number ",
589 45,
590 NULL_PARAM,
591 RV_TRACE_LEVEL_WARNING,
592 ATP_USE_ID);
593 break;
594 }
595 rvf_send_trace (" ATP-UART (handle_msg). Mode ",
596 30,
597 port_mode_changed_p->mode,
598 RV_TRACE_LEVEL_DEBUG_LOW,
599 ATP_USE_ID);
600
601 /* If the virtual modem port is in 'Data' mode, then */
602 /* send the escape sequence first. */
603 if ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).virtual_modem_port_mode == ATP_PORT_DATA_MODE)
604 {
605
606 /* Forward the escape sequence to the COM port. If */
607 /* any error occurred, then call the function used */
608 /* whenever any unrecoverable error occurs and */
609 /* abort. */
610 if (atp_uart_write_com_port ((UINT8 *) (ATP_ESCAPE_SEQUENCE), \
611 (sizeof (ATP_ESCAPE_SEQUENCE) - 0x00000001)) != RV_OK)
612 {
613 ATP_UART_UNRECOVERABLE_ERROR (RVM_INTERNAL_ERR,
614 " ATP-UART (handle_msg). 'Escape sequence' not transmitted ");
615 return (RVM_INTERNAL_ERR);
616 }
617 rvf_send_trace (" ATP-UART (handle_msg). 'Escape sequence' properly transmitted ",
618 64,
619 NULL_PARAM,
620 RV_TRACE_LEVEL_DEBUG_LOW,
621 ATP_USE_ID);
622 }
623
624 /* Update the mode of the virtual modem port. */
625 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).virtual_modem_port_mode = port_mode_changed_p->mode;
626 break;
627 }
628
629 /* 'ATP Port Closed'. */
630 case ATP_PORT_CLOSED:
631 {
632 rvf_send_trace (" ATP-UART (handle_msg). 'ATP Port Closed' received ",
633 52,
634 NULL_PARAM,
635 RV_TRACE_LEVEL_DEBUG_MEDIUM,
636 ATP_USE_ID);
637
638 /* If any error occurred, then abort. */
639 if (((T_ATP_PORT_CLOSED *) (incoming_message_p))->port_nb != ATP_UART_GSM_PORT_NB)
640 {
641 rvf_send_trace (" ATP-UART (handle_msg). Invalid port number ",
642 45,
643 NULL_PARAM,
644 RV_TRACE_LEVEL_WARNING,
645 ATP_USE_ID);
646 break;
647 }
648
649 /* The virtual modem port opened with the AT Parser is */
650 /* now closed. */
651 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).virtual_modem_port_established = FALSE;
652 break;
653 }
654
655 /* 'ATP-UART Start GSM'. */
656 case ATP_UART_START_GSM:
657 {
658
659 /* Declare a local block variable. */
660 UINT8 gsm_init_p[] = {'A', 'T', '+', 'C', 'F', 'U', 'N', '=', '1', ';', '+', 'C', 'O', 'P', 'S', '=', '0', \
661 ATP_CR_CHARACTER};
662
663 rvf_send_trace (" ATP-UART (handle_msg). 'ATP-UART Start GSM' received ",
664 55,
665 NULL_PARAM,
666 RV_TRACE_LEVEL_DEBUG_MEDIUM,
667 ATP_USE_ID);
668
669 /* If any error occurred, then abort. */
670 if (atp_uart_write_com_port (gsm_init_p, \
671 sizeof (gsm_init_p)) != RV_OK)
672 {
673 rvf_send_trace (" ATP-UART (handle_msg). Unable to start the GSM protocol stack ",
674 64,
675 NULL_PARAM,
676 RV_TRACE_LEVEL_WARNING,
677 ATP_USE_ID);
678 break;
679 }
680 break;
681 }
682
683 /* Unexpected message. */
684 default:
685 {
686 rvf_send_trace (" ATP-UART (handle_msg). Unexpected message received ",
687 53,
688 incoming_message_p->msg_id,
689 RV_TRACE_LEVEL_WARNING,
690 ATP_USE_ID);
691 break;
692 }
693 }
694 (void) rvf_free_buf ((T_RVF_BUFFER *) (incoming_message_p));
695 }
696
697 /* Now, if the flow control is activated, then proceed without getting */
698 /* any data from the COM port. */
699 if (((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).control_signals & ATP_RX_FLOW_UNMASK) == ATP_RX_FLOW_ON)
700 {
701 continue;
702 }
703
704 /* Otherwise, attempt forwarding data to the AT Parser. Thus, */
705 /* initialize the amount of data to be forwarded. */
706 in_buffer_size = (UINT32) (ATP_UART_MAX_PACKET_SIZE - \
707 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).nb_bytes_left);
708
709 /* Then, wait for data from the COM port. If any error occurred, then */
710 /* abort. */
711 if (atp_uart_read_com_port (&((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[(gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).nb_bytes_left]), \
712 &in_buffer_size) != RV_OK)
713 {
714 rvf_send_trace (" ATP-UART (handle_msg). Failed in getting data from the COM port ",
715 66,
716 NULL_PARAM,
717 RV_TRACE_LEVEL_WARNING,
718 ATP_USE_ID);
719 continue;
720 }
721
722 /* Take new data into account. */
723 in_buffer_size = (UINT32) ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).nb_bytes_left + \
724 in_buffer_size);
725
726 /* If no virtual modem port established with the AT Parser or if no */
727 /* data pending for transmission to the AT Parser, then update the */
728 /* number of bytes left and proceed. */
729 if (((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).virtual_modem_port_established == FALSE) || \
730 (in_buffer_size == 0x00000000))
731 {
732 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).nb_bytes_left = in_buffer_size;
733 continue;
734 }
735
736 /* Otherwise, re-initialize the number of bytes left. */
737 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).nb_bytes_left = 0x00000000;
738 rvf_send_trace (" ATP-UART (handle_msg). Get data from the COM port ",
739 52,
740 in_buffer_size,
741 RV_TRACE_LEVEL_DEBUG_LOW,
742 ATP_USE_ID);
743
744 /* At last, depending on the mode, transfert data from the COM port as */
745 /* 'Text Command' or 'Data'. */
746 if ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).virtual_modem_port_mode == ATP_PORT_CMD_MODE)
747 {
748
749 /* Declare local block variables. */
750 UINT32 in_buffer_begin = 0x00000000;
751 UINT32 in_buffer_end = 0x00000000;
752 T_ATP_CMD *cmd_info_p = NULL;
753 T_ATP_CMD_NB cmd_nb = 0x0000;
754 T_ATP_TXT_CMD txt_cmd_p = NULL;
755 T_ATP_CMD_TYPE cmd_type = UNKNOWN;
756
757 /* Send every 'Text Command' to the AT Parser separately. */
758 while (in_buffer_end < in_buffer_size)
759 {
760
761 /* Skip leading <CR> and <LF> characters. */
762 for (in_buffer_begin = in_buffer_end;
763 (in_buffer_begin < in_buffer_size) && \
764 (((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_begin] == ATP_LF_CHARACTER) || \
765 ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_begin] == ATP_CR_CHARACTER));
766 in_buffer_begin++)
767 {
768 }
769
770 /* Get the 'Text Command' length by searching for the ending */
771 /* <CR> character. */
772 for (in_buffer_end = in_buffer_begin;
773 (in_buffer_end < in_buffer_size) && \
774 ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_end] != ATP_CR_CHARACTER);
775 in_buffer_end++)
776 {
777 }
778
779 /* Abort whether no ending <CR> character found. */
780 if ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_end] != ATP_CR_CHARACTER)
781 {
782
783 /* Update the number of bytes left. */
784 in_buffer_size -= in_buffer_begin;
785
786 /* Defrag. */
787 memcpy ((void *) ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p),
788 (void *) (&((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_begin])),
789 in_buffer_size);
790
791 /* Update the number of bytes left. */
792 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).nb_bytes_left = in_buffer_size;
793 break;
794 }
795
796 /* Otherwise, replace the ending <CR> character by NULL. */
797 /* Indeed, such a 'Text Command' must be a NULL-terminated */
798 /* string. */
799 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_end++] = '\x00';
800
801 /* Allocate memory in order to forward the 'Text Command' to */
802 /* the AT Parser. If insufficient resources, then call the */
803 /* function used whenever any unrecoverable error occurs and */
804 /* abort. */
805 if (rvf_get_buf (gbl_atp_uart_ctrl_blk_p->mb_id, \
806 (in_buffer_end - in_buffer_begin), \
807 (T_RVF_BUFFER **) (&txt_cmd_p)) == RVF_RED)
808 {
809 ATP_UART_UNRECOVERABLE_ERROR (RVM_MEMORY_ERR,
810 " ATP-UART (handle_msg). Insufficient resources ");
811 break;
812 }
813
814 /* Copy the 'Text Command'. */
815 memcpy ((void *) (txt_cmd_p),
816 (void *) (&((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_begin])),
817 (in_buffer_end - in_buffer_begin));
818 rvf_send_trace (txt_cmd_p,
819 (UINT8) (in_buffer_end - in_buffer_begin - 0x01),
820 NULL_PARAM,
821 RV_TRACE_LEVEL_DEBUG_LOW,
822 ATP_USE_ID);
823
824 /* Check whether the 'Text Command' is a final or an */
825 /* unsolicited result code. */
826 if ((atp_translate_txt_to_cmd (txt_cmd_p, \
827 UNKNOWN, \
828 &cmd_type, \
829 &cmd_nb, \
830 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).atp_id, \
831 &cmd_info_p) == RV_OK) && \
832 (cmd_type == RESULT_CODE))
833 {
834
835 /* If the 'Text Command' corresponds to the 'Connect' final */
836 /* result code, then turn the 'Data Carrier Detect' on */
837 /* before sending it to the AT Parser (See ITU-T */
838 /* Recommendation V.250 ter page 32). If any error */
839 /* occurred, then de-allocate the 'Text Command' and abort. */
840 if (cmd_nb == ATP_CONNECT_NB)
841 {
842 if (atp_set_signal ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).atp_id, \
843 ATP_UART_GSM_PORT_NB, \
844 ATP_DCD_1, \
845 ATP_DCD_UNMASK) != RV_OK)
846 {
847 (void) rvf_free_buf ((T_RVF_BUFFER *) (txt_cmd_p));
848
849 /* If needed, de-allocate the command-related */
850 /* information. */
851 if (cmd_info_p != NULL)
852 {
853 (void) rvf_free_buf ((T_RVF_BUFFER *) (cmd_info_p));
854 }
855 rvf_send_trace (" ATP-UART (handle_msg). 'Data Carrier Detect' not turned on ",
856 61,
857 NULL_PARAM,
858 RV_TRACE_LEVEL_WARNING,
859 ATP_USE_ID);
860 break;
861 }
862 rvf_send_trace (" ATP-UART (handle_msg). 'Data Carrier Detect' properly turned on ",
863 66,
864 NULL_PARAM,
865 RV_TRACE_LEVEL_DEBUG_LOW,
866 ATP_USE_ID);
867 }
868 }
869
870 /* Otherwise, the 'Text Command' is recognized as a preliminary */
871 /* result code. */
872 else
873 {
874 cmd_type = PRELIMINARY_RESULT_CODE;
875 }
876
877 /* If needed, de-allocate the command-related information. */
878 if (cmd_info_p != NULL)
879 {
880 (void) rvf_free_buf ((T_RVF_BUFFER *) (cmd_info_p));
881 }
882
883 /* Forward the 'Text Command' to the AT Parser. If any error */
884 /* occurred, then de-allocate the 'Text Command' and abort. */
885 if (atp_send_txt_cmd ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).atp_id, \
886 ATP_UART_GSM_PORT_NB, \
887 cmd_type, \
888 txt_cmd_p) != RV_OK)
889 {
890 (void) rvf_free_buf ((T_RVF_BUFFER *) (txt_cmd_p));
891 rvf_send_trace (" ATP-UART (handle_msg). 'Text Command' failed ",
892 47,
893 NULL_PARAM,
894 RV_TRACE_LEVEL_WARNING,
895 ATP_USE_ID);
896 break;
897 }
898 }
899 }
900 else
901 {
902
903 /* Declare local block variables. */
904 UINT8 no_carrier_count = 0x00;
905 UINT8 no_carrier_p[] = {ATP_CR_CHARACTER, \
906 ATP_LF_CHARACTER, \
907 'N', 'O', ' ', 'C', 'A', 'R', 'R', 'I', 'E', 'R', \
908 ATP_CR_CHARACTER, \
909 ATP_LF_CHARACTER};
910 UINT8 ok_count = 0x00;
911 UINT8 ok_p[] = {ATP_CR_CHARACTER, \
912 ATP_LF_CHARACTER, \
913 'O', 'K', \
914 ATP_CR_CHARACTER, \
915 ATP_LF_CHARACTER};
916 UINT32 in_buffer_count = 0x00000000;
917 UINT32 in_data_size = 0x00000000;
918 T_ATP_CMD_NB result_code_nb = ATP_MAX_NB_OF_RESULT_CODES;
919
920 /* First, search for 'Ok' or 'No Carrier' final result codes. */
921 for (in_buffer_count = 0x00000000, \
922 in_data_size = in_buffer_size;
923 in_buffer_count < in_buffer_size;
924 in_buffer_count++)
925 {
926
927 /* Search for an 'Ok' final result code. */
928 if ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_count] == ok_p[ok_count])
929 {
930
931 /* 'Ok' final result code detected. */
932 if (++ok_count == sizeof (ok_p))
933 {
934 result_code_nb = ATP_OK_NB;
935 rvf_send_trace (" ATP-UART (handle_msg). 'Ok' final result code detected ",
936 57,
937 NULL_PARAM,
938 RV_TRACE_LEVEL_DEBUG_LOW,
939 ATP_USE_ID);
940
941 /* Send the remainder to the AT Parser. */
942 in_data_size = in_buffer_count - (sizeof (ok_p) - 0x00000001);
943 break;
944 }
945 }
946 else
947 {
948 ok_count = 0x00;
949 }
950
951 /* Search for a 'No Carrier' final result code. */
952 if ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_count] == no_carrier_p[no_carrier_count])
953 {
954
955 /* 'No Carrier' final result code detected. */
956 if (++no_carrier_count == sizeof (no_carrier_p))
957 {
958 result_code_nb = ATP_NO_CARRIER_NB;
959 rvf_send_trace (" ATP-UART (handle_msg). 'No Carrier' final result code detected ",
960 65,
961 NULL_PARAM,
962 RV_TRACE_LEVEL_DEBUG_LOW,
963 ATP_USE_ID);
964
965 /* Send the remainder to the AT Parser. */
966 in_data_size = in_buffer_count - (sizeof (no_carrier_p) - 0x00000001);
967 break;
968 }
969 }
970 else
971 {
972 no_carrier_count = 0x00;
973 }
974 }
975
976 /* Then, check for some bytes to be forwarded data to the AT */
977 /* Parser. */
978 if (in_data_size > 0x00000000)
979 {
980
981 /* Forward data to the AT Parser. If any error occurred, then */
982 /* proceed. */
983 if (atp_send_data ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).atp_id, \
984 ATP_UART_GSM_PORT_NB, \
985 (void *) ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p), \
986 in_data_size, \
987 &((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).nb_bytes_left)) != RV_OK)
988 {
989 rvf_send_trace (" ATP-UART (handle_msg). Data transfer to the AT Parser failed ",
990 63,
991 NULL_PARAM,
992 RV_TRACE_LEVEL_WARNING,
993 ATP_USE_ID);
994 }
995
996 /* Update the number of bytes left. */
997 in_data_size -= (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).nb_bytes_left;
998 in_buffer_size -= in_data_size;
999
1000 /* Check whether some bytes left to be sent to the AT Parser. */
1001 if ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).nb_bytes_left > 0x00000000)
1002 {
1003
1004 /* Defrag. */
1005 memcpy ((void *) ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p),
1006 (void *) (&((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_data_size])),
1007 in_buffer_size);
1008
1009 /* Update the number of bytes left. */
1010 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).nb_bytes_left = in_buffer_size;
1011 continue;
1012 }
1013 }
1014
1015 /* At last, check whether an 'Ok' or a 'No Carrier' final result */
1016 /* code was detected. */
1017 if (result_code_nb != ATP_MAX_NB_OF_RESULT_CODES)
1018 {
1019
1020 /* Turn the 'Data Carrier Detect' off before sending it to the */
1021 /* AT Parser (See ITU-T Recommendation V.250 ter page 37). */
1022 /* However, proceed whether any error occurred. */
1023 if (((atp_set_signal ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).atp_id, \
1024 ATP_UART_GSM_PORT_NB, \
1025 ATP_DCD_0, \
1026 ATP_DCD_UNMASK) != RV_OK) || \
1027 (atp_send_cmd ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).atp_id, \
1028 ATP_UART_GSM_PORT_NB, \
1029 RESULT_CODE, \
1030 result_code_nb, \
1031 NULL) != RV_OK)))
1032 {
1033 rvf_send_trace (" ATP-UART (handle_msg). Final result code not transmitted ",
1034 59,
1035 NULL_PARAM,
1036 RV_TRACE_LEVEL_WARNING,
1037 ATP_USE_ID);
1038 }
1039
1040 /* Update the number of bytes left. */
1041 in_buffer_size -= in_buffer_count;
1042
1043 /* Update the mode of the virtual modem port. */
1044 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).virtual_modem_port_mode = ATP_PORT_CMD_MODE;
1045 }
1046
1047 /* If some data left, then defrag. */
1048 memcpy ((void *) ((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p),
1049 (void *) (&((gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).in_buffer_p[in_buffer_count])),
1050 in_buffer_size);
1051
1052 /* Update the number of bytes left. */
1053 (gbl_atp_uart_ctrl_blk_p->conn_ctrl_blk).nb_bytes_left = in_buffer_size;
1054 }
1055 }
1056 return (RVM_OK);
1057
1058 } /********************* End of atp_uart_handle_msg function ********************/