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192.168.1.100 / T108_Public / 8ebeafefe587892c7e6cd1a6af66c3801283f335 / . / mbtk / libmbtk_ril / mbtk_info.c
blob: 7627c0838025924a350fade92812eb1af6870cf6 [file] [log] [blame]
liubin281ac462023-07-19 14:22:54 +0800[diff] [blame]1#include <stdio.h>
2#include <stdlib.h>
3#include <unistd.h>
4#include <errno.h>
5#include <sys/socket.h>
6#include <string.h>
7
8#include "mbtk_info.h"
9#include "mbtk_list.h"
10#include "mbtk_utils.h"
11
12static int sock_read(int fd, uint8 *msg, int data_len)
13{
14 memset(msg, 0, data_len);
15 int len = 0;
16 int read_len = 0;
17 while(1)
18 {
19 len = read(fd, msg + read_len, data_len - read_len);
20 if(len > 0)
21 {
22 read_len += len;
23 }
24 else if(len == 0)
25 {
26 LOG("read() end.");
27 break;
28 }
29 else
30 {
31 if(EAGAIN == errno)
32 {
33 LOG("Read end, lenght = %d", read_len);
34 }
35 else
36 {
37 LOG("read() error[%d].", errno);
38 }
39 break;
40 }
41 }
42
43 if(read_len > 0)
44 {
45 log_hex("DATA_RECV", msg, read_len);
46 return read_len;
47 }
48 else
49 {
50 return -1;
51 }
52}
53
54static int sock_write(int fd, uint8 *msg, int data_len)
55{
56 int len = 0;
57 int write_len = 0;
58 while(write_len < data_len)
59 {
60 len = write(fd, msg + write_len, data_len - write_len);
61 if(len > 0)
62 {
63 write_len += len;
64 }
65 else if(len == 0)
66 {
67 LOG("write() end.");
68 break;
69 }
70 else
71 {
72 LOG("write() error[%d].", errno);
73 break;
74 }
75 }
76
77 if(write_len > 0)
78 {
79 log_hex("DATA_SEND", msg, write_len);
80 return write_len;
81 }
82 else
83 {
84 return -1;
85 }
86}
87
88static int pack_num_check(const void* data, int data_len)
89{
90 int count = 0;
91 int pack_len;
92 const uint8* ptr = (const uint8*)data;
93 while(ptr < (const uint8*)data + data_len)
94 {
95 if(MBTK_INFO_PACKET_FLAG != byte_2_uint32(ptr, true))
96 {
97 LOG("pack_num_check() - TAG error.");
98 break;
99 }
100 ptr += sizeof(uint32);
101
102 pack_len = byte_2_uint16(ptr, false);
103 if(pack_len < SOCK_PACK_LEN_MIN - SOCK_PACK_EXTRA_LEN)
104 {
105 LOG("pack_num_check() - Packet length error.");
106 break;
107 }
108 ptr += sizeof(uint16);
109 ptr += pack_len;
110
111 count++;
112 }
113
114 return count;
115}
116
117char* type2str(mbtk_info_type_enum type)
118{
119 switch(type)
120 {
121 case MBTK_INFO_TYPE_REQ:
122 return "REQ";
123 case MBTK_INFO_TYPE_RSP:
124 return "RSP";
125 case MBTK_INFO_TYPE_IND:
126 return "IND";
127 default:
128 {
129 return "UNKNOWN";
130 }
131 }
132}
133
134char* apn2str(mbtk_ip_type_enum type)
135{
136 switch(type)
137 {
138 case MBTK_IP_TYPE_IP:
139 return "IP";
140 case MBTK_IP_TYPE_IPV6:
141 return "IPV6";
142 case MBTK_IP_TYPE_IPV4V6:
143 return "IPV4V6";
144 case MBTK_IP_TYPE_PPP:
145 return "PPP";
146 default:
147 {
148 return "UNKNOWN";
149 }
150 }
151}
152
153/*
154IPv6 : 254.128.0.0.0.0.0.0.0.1.0.2.144.5.212.239 -> uint128
155*/
156int str_2_ipv6(const void *ip_str, void *ipv6)
157{
158 const uint8 *ptr = (const uint8*)ip_str;
159 uint8 *ipv6_ptr = (uint8*)ipv6;
160 ipv6_ptr[0] = (uint8)atoi(ptr);
161 int i = 1;
162 while(i < 16) {
163 ptr = (const uint8*)strstr(ptr, ".");
164 if(ptr == NULL)
165 return -1;
166 ptr++;
167 ipv6_ptr[i] = (uint8)atoi(ptr);
168 i++;
169 }
170
171 return 0;
172}
173
174/*
175IPv6 : uint128 -> fe80::215:1dff:fe81:484c
176*/
177int ipv6_2_str(const void *ipv6, void *ipv6_str)
178{
179 const uint8 *ptr = (const uint8*)ipv6;
180 uint8 *ipv6_ptr = (uint8*)ipv6_str;
181 int i = 0;
182 int index = 0;
183 while(i < 16) {
184 index += sprintf(ipv6_ptr + index, "%02x%02x", ptr[i], ptr[i + 1]);
185 index += sprintf(ipv6_ptr + index, ":");
186 i += 2;
187 }
188
189 ipv6_ptr[index - 1] = '\0'; // Delete last ':'
190
191 return 0;
192}
193
194
195
196char* id2str(int id)
197{
198 switch(id)
199 {
200 // <string> IMEI
201 case MBTK_INFO_ID_DEV_IMEI_REQ:
202 case MBTK_INFO_ID_DEV_IMEI_RSP:
203 return "IMEI";
204 // <string> SN
205 case MBTK_INFO_ID_DEV_SN_REQ:
206 case MBTK_INFO_ID_DEV_SN_RSP:
207 return "SN";
208 // <string> MEID
209 case MBTK_INFO_ID_DEV_MEID_REQ:
210 case MBTK_INFO_ID_DEV_MEID_RSP:
211 return "MEID";
212 // <string> VERSION
213 case MBTK_INFO_ID_DEV_VERSION_REQ:
214 case MBTK_INFO_ID_DEV_VERSION_RSP:
215 return "VERSION";
216 // <uint8> 0:Close 1:Open
217 case MBTK_INFO_ID_DEV_VOLTE_REQ:
218 case MBTK_INFO_ID_DEV_VOLTE_RSP:
219 return "VOLTE";
220 // <string> Temperature
221 case MBTK_INFO_ID_DEV_TEMP_REQ: // Temperature
222 case MBTK_INFO_ID_DEV_TEMP_RSP:
223 return "TEMPERATURE";
224 case MBTK_INFO_ID_DEV_TIME_REQ: // Time
225 case MBTK_INFO_ID_DEV_TIME_RSP:
226 return "Time";
227 // Sim Information
228 // <uint8> 0:NOT_EXIST 1:READY ...
229 case MBTK_INFO_ID_SIM_STATE_REQ:
230 case MBTK_INFO_ID_SIM_STATE_RSP:
231 return "SIM_STATE";
232 // <string> PIN
233 case MBTK_INFO_ID_SIM_PIN_REQ:
234 case MBTK_INFO_ID_SIM_PIN_RSP:
235 return "SIM_PIN";
236 // <string> PUK
237 case MBTK_INFO_ID_SIM_PUK_REQ:
238 case MBTK_INFO_ID_SIM_PUK_RSP:
239 return "SIM_PUK";
240 // <string> IMSI
241 case MBTK_INFO_ID_SIM_IMSI_REQ:
242 case MBTK_INFO_ID_SIM_IMSI_RSP:
243 return "IMSI";
244 // <string> ICCID
245 case MBTK_INFO_ID_SIM_ICCID_REQ:
246 case MBTK_INFO_ID_SIM_ICCID_RSP:
247 return "ICCID";
248 // <string> Phone Number
249 case MBTK_INFO_ID_SIM_PN_REQ:
250 case MBTK_INFO_ID_SIM_PN_RSP:
251 return "PHONE_NUMBER";
252 // Network Information
253 // <uint8> 0:OFF 1:ON
254 case MBTK_INFO_ID_NET_RADIO_REQ:
255 case MBTK_INFO_ID_NET_RADIO_RSP:
256 return "RADIO_STATE";
257 case MBTK_INFO_ID_NET_AVAILABLE_REQ:
258 case MBTK_INFO_ID_NET_AVAILABLE_RSP:
259 return "NET_AVAILABLE";
260 case MBTK_INFO_ID_NET_SEL_MODE_REQ:
261 case MBTK_INFO_ID_NET_SEL_MODE_RSP:
262 return "NET_SEL_MODE";
263 case MBTK_INFO_ID_NET_BAND_REQ:
264 case MBTK_INFO_ID_NET_BAND_RSP:
265 return "NET_BNAD";
266 // <uint16>[4] rssi,rscp,rsrp,snr
267 case MBTK_INFO_ID_NET_SIGNAL_REQ:
268 case MBTK_INFO_ID_NET_SIGNAL_RSP:
269 return "SIGNAL";
270 case MBTK_INFO_ID_NET_REG_REQ:
271 case MBTK_INFO_ID_NET_REG_RSP:
272 return "NET_REG";
273 // <string> cmnet/ctnet/3gnet/...
274 case MBTK_INFO_ID_NET_APN_REQ:
275 case MBTK_INFO_ID_NET_APN_RSP:
276 return "APN";
277 // Lock net/cell/frequency
278 case MBTK_INFO_ID_NET_CELL_REQ:
279 case MBTK_INFO_ID_NET_CELL_RSP:
280 return "NET_CELL";
281 case MBTK_INFO_ID_NET_DATA_CALL_REQ:
282 case MBTK_INFO_ID_NET_DATA_CALL_RSP:
283 return "DATA_CALL";
r.xiao06db9a12024-04-14 18:51:15 -0700[diff] [blame]284 //ims
285 case MBTK_INFO_ID_NET_IMS_REQ:
286 case MBTK_INFO_ID_NET_IMS_RSP:
287 return "IMS";
liubin281ac462023-07-19 14:22:54 +0800[diff] [blame]288 // Call Information
289 case MBTK_INFO_ID_CALL_STATE_REQ:
290 case MBTK_INFO_ID_CALL_STATE_RSP:
291 return "CALL_STATE";
292 // SMS Information
293 case MBTK_INFO_ID_SMS_STATE_REQ:
294 case MBTK_INFO_ID_SMS_STATE_RSP:
295 return "SMS_STATE";
296 // PhoneBook Information
297 case MBTK_INFO_ID_PB_STATE_REQ:
298 case MBTK_INFO_ID_PB_STATE_RSP:
299 return "PB_STATE";
wangyouqiang38e53362024-01-23 10:53:48 +0800[diff] [blame]300 //led
301 case MBTK_INFO_ID_LED_REQ:
302 case MBTK_INFO_ID_LED_RSP:
303 return "LED";
liubin281ac462023-07-19 14:22:54 +0800[diff] [blame]304 // IND Information
305 // <uint8> State
306 case MBTK_INFO_ID_IND_NET_STATE_CHANGE:
307 return "IND_NET_STATE";
308 // <uint8> State
309 case MBTK_INFO_ID_IND_CALL_STATE_CHANGE:
310 return "IND_CALL_STATE";
311 // <uint8> State
312 case MBTK_INFO_ID_IND_SMS_STATE_CHANGE:
313 return "IND_SMS_STATE";
314 // <uint8> State
315 case MBTK_INFO_ID_IND_RADIO_STATE_CHANGE:
316 return "IND_RADIO_STATE";
317 // <uint8> State
318 case MBTK_INFO_ID_IND_SIM_STATE_CHANGE:
319 return "IND_SIM_STATE";
320 // <uint8> State
321 case MBTK_INFO_ID_IND_PDP_STATE_CHANGE:
322 return "IND_PDP_STATE";
323 // <uint8> State
324 case MBTK_INFO_ID_IND_SERVER_STATE_CHANGE:
325 return "IND_SERVER_STATE";
326 default:
327 {
328 return "UNKNOWN";
329 }
330 }
331}
332
333char* err2str(mbtk_info_err_enum err)
334{
335 switch(err)
336 {
337 case MBTK_INFO_ERR_SUCCESS:
338 return "SUCCESS";
339 case MBTK_INFO_ERR_FORMAT:
340 return "ERR_FORMAT";
341 case MBTK_INFO_ERR_REQ_UNKNOWN:
342 return "ERR_REQ_UNKNOWN";
343 case MBTK_INFO_ERR_REQ_PARAMETER:
344 return "ERR_REQ_PARAMETER";
345 case MBTK_INFO_ERR_UNSUPPORTED:
346 return "ERR_UNSUPPORTED";
347 case MBTK_INFO_ERR_MEMORY:
348 return "ERR_MEMORY";
349 case MBTK_INFO_ERR_IND_FULL:
350 return "ERR_IND_FULL";
351 case MBTK_INFO_ERR_IND_UNKNOWN:
352 return "ERR_IND_UNKNOWN";
353 case MBTK_INFO_ERR_CID_EXIST:
354 return "ERR_CID_EXIS";
355 case MBTK_INFO_ERR_CID_NO_EXIST:
356 return "ERR_CID_NO_EXIST";
357 case MBTK_INFO_ERR_NET_NO_INIT:
wangyouqiang8ebeafe2024-04-15 10:07:44 +0800[diff] [blame^]358 return "ERR_CID_NO_NET";
liubin281ac462023-07-19 14:22:54 +0800[diff] [blame]359 default:
360 {
361 if(err >= MBTK_INFO_ERR_CME) {
362 return "CME ERROR";
363 }
364
365 return "UNKNOWN";
366 }
367 }
368}
369
370/*
3710 GSM
3721 GSM_COMPACT
3732 UTRAN
3743 GSM_EGPRS
3754 UTRAN_HSDPA
3765 UTRAN_HSUPA
3776 UTRAN_HSDPA_HSUPA
3787 EUTRAN
3798 ECGSM
380*/
381mbtk_net_type_enum mbtk_net_type_get(mbtk_radio_technology_enum radio_tech)
382{
383 switch(radio_tech)
384 {
385 case MBTK_RADIO_TECH_GSM:
386 case MBTK_RADIO_TECH_GSM_COMPACT:
387 case MBTK_RADIO_TECH_GSM_EGPRS:
388 case MBTK_RADIO_TECH_UTRAN_HSPA:
389 {
390 return MBTK_NET_TYPE_GSM;
391 }
392 case MBTK_RADIO_TECH_UTRAN:
393 case MBTK_RADIO_TECH_UTRAN_HSDPA:
394 case MBTK_RADIO_TECH_UTRAN_HSUPA:
395 case MBTK_RADIO_TECH_UTRAN_HSDPA_HSUPA:
396 {
397 return MBTK_NET_TYPE_UMTS;
398 }
399 case MBTK_RADIO_TECH_E_UTRAN:
400 {
401 return MBTK_NET_TYPE_LTE;
402 }
403 default:
404 {
405 return MBTK_NET_TYPE_UNKNOWN;
406 }
407 }
408}
409
410
411#if 0
412void net_list_free(void *data)
413{
414 if (data)
415 {
416 mbtk_net_info_t *info = (mbtk_net_info_t*) data;
417 LOG("Free net [%s].", info->plmn);
418 free(info);
419 }
420}
421#endif
422
423mbtk_info_type_enum mbtk_info_type_get(int info_id)
424{
425 if(info_id > MBTK_INFO_ID_IND_BEGIN && info_id < MBTK_INFO_ID_IND_END)
426 {
427 return MBTK_INFO_TYPE_IND;
428 }
429 else if(info_id == MBTK_INFO_ID_DEV_BEGIN ||
430 info_id == MBTK_INFO_ID_DEV_END ||
431 info_id == MBTK_INFO_ID_SIM_BEGIN ||
432 info_id == MBTK_INFO_ID_SIM_END ||
433 info_id == MBTK_INFO_ID_NET_BEGIN ||
434 info_id == MBTK_INFO_ID_NET_END ||
435 info_id == MBTK_INFO_ID_CALL_BEGIN ||
436 info_id == MBTK_INFO_ID_CALL_END ||
437 info_id == MBTK_INFO_ID_SMS_BEGIN ||
438 info_id == MBTK_INFO_ID_SMS_END ||
439 info_id == MBTK_INFO_ID_PB_BEGIN ||
440 info_id == MBTK_INFO_ID_PB_END ||
wangyouqiang38e53362024-01-23 10:53:48 +0800[diff] [blame]441 info_id == MBTK_INFO_ID_LED_BEGIN ||
442 info_id == MBTK_INFO_ID_LED_END ||
r.xiaocfd7c682024-01-22 03:59:46 -0800[diff] [blame]443 info_id == MBTK_INFO_ID_WAKEUP_STA_BEGIN ||
444 info_id == MBTK_INFO_ID_WAKEUP_STA_END ||
445 info_id == MBTK_INFO_ID_OOS_STA_BEGIN ||
446 info_id == MBTK_INFO_ID_OOS_STA_END ||
liubin281ac462023-07-19 14:22:54 +0800[diff] [blame]447 info_id == MBTK_INFO_ID_REQ_UNKNOWN)
448 {
449 return MBTK_INFO_TYPE_UNKNOWN;
450 }
451 else if(info_id % 2 == 1)
452 {
453 return MBTK_INFO_TYPE_REQ;
454 }
455 else
456 {
457 return MBTK_INFO_TYPE_RSP;
458 }
459}
460
461mbtk_info_pack_t* mbtk_info_pack_creat(int info_id)
462{
463 mbtk_info_pack_t *pack = (mbtk_info_pack_t *)malloc(sizeof(mbtk_info_pack_t));
464 if(!pack)
465 {
466 LOG("malloc() error[%d]", errno);
467 return NULL;
468 }
469
470 pack->info_id = (uint16)info_id;
471 pack->info_err = (uint16)0;
472 pack->data_len = (uint16)0;
473 pack->data = NULL;
474
475 return pack;
476}
477
478#if 0
479int mbtk_info_pack_data_set(mbtk_info_pack_t *pack, const void *data, int data_len)
480{
481 if(!pack)
482 {
483 LOG("Packet is NULL.");
484 return -1;
485 }
486
487 mbtk_info_type_enum info_type = mbtk_info_type_get(pack->info_id);
488 // IND
489 if(info_type == MBTK_INFO_TYPE_IND)
490 {
491 switch(pack->info_id)
492 {
493 // <uint8> State
494 case MBTK_INFO_ID_IND_NET_STATE_CHANGE:
495 case MBTK_INFO_ID_IND_CALL_STATE_CHANGE:
496 case MBTK_INFO_ID_IND_SMS_STATE_CHANGE:
497 case MBTK_INFO_ID_IND_RADIO_STATE_CHANGE:
498 case MBTK_INFO_ID_IND_SIM_STATE_CHANGE:
499 {
500 pack->data_len = (uint16)data_len;
501 pack->data = (uint8*)memdup(data, pack->data_len);
502 break;
503 }
504 default:
505 {
506 LOG("Unknown IND : %s", id2str(pack->info_id));
507 break;
508 }
509 }
510 }
511 //else if(pack->info_id % 2 == 1) // REQ (Set Data)
512 else if(info_type == MBTK_INFO_TYPE_REQ || info_type == MBTK_INFO_TYPE_RSP) // REQ or RSP
513 {
514 switch(pack->info_id)
515 {
516 case MBTK_INFO_ID_DEV_VOLTE_REQ: // <uint8> 0:Close 1:Open
517 case MBTK_INFO_ID_DEV_VOLTE_RSP:
518 case MBTK_INFO_ID_SIM_STATE_REQ: // <uint8> 0:NOT_EXIST 1:READY ...
519 case MBTK_INFO_ID_SIM_STATE_RSP:
520 case MBTK_INFO_ID_NET_RADIO_REQ: // <uint8> 0:OFF 1:ON
521 case MBTK_INFO_ID_NET_RADIO_RSP:
522 case MBTK_INFO_ID_NET_BAND_REQ: // mbtk_band_info_t
523 case MBTK_INFO_ID_NET_BAND_RSP:
524 case MBTK_INFO_ID_NET_CELL_REQ: // Lock net/cell/frequency
525 case MBTK_INFO_ID_NET_CELL_RSP:
526 case MBTK_INFO_ID_DEV_IMEI_REQ: // <string> SN
527 case MBTK_INFO_ID_DEV_IMEI_RSP:
528 case MBTK_INFO_ID_DEV_SN_REQ: // <string> SN
529 case MBTK_INFO_ID_DEV_SN_RSP:
530 case MBTK_INFO_ID_DEV_MEID_REQ: // <string> MEID
531 case MBTK_INFO_ID_DEV_MEID_RSP:
532 case MBTK_INFO_ID_DEV_VERSION_REQ: // <string> VERSION
533 case MBTK_INFO_ID_DEV_VERSION_RSP:
534 case MBTK_INFO_ID_DEV_TEMP_REQ: // <string> Temperature
535 case MBTK_INFO_ID_DEV_TEMP_RSP:
536 case MBTK_INFO_ID_SIM_PIN_REQ: // <string> PIN
537 case MBTK_INFO_ID_SIM_PIN_RSP:
538 case MBTK_INFO_ID_SIM_PUK_REQ: // <string> PUK
539 case MBTK_INFO_ID_SIM_PUK_RSP:
540 case MBTK_INFO_ID_SIM_IMSI_REQ: // <string> IMSI
541 case MBTK_INFO_ID_SIM_IMSI_RSP:
542 case MBTK_INFO_ID_SIM_ICCID_REQ: // <string> ICCID
543 case MBTK_INFO_ID_SIM_ICCID_RSP:
544 case MBTK_INFO_ID_NET_APN_REQ: // <string> cmnet/ctnet/3gnet/...
545 case MBTK_INFO_ID_NET_APN_RSP:
546 case MBTK_INFO_ID_NET_SEL_MODE_REQ: // mbtk_net_info_t
547 case MBTK_INFO_ID_NET_SEL_MODE_RSP:
548 case MBTK_INFO_ID_NET_AVAILABLE_REQ: // mbtk_net_info_t[]
549 case MBTK_INFO_ID_NET_AVAILABLE_RSP:
550 {
551 pack->data_len = (uint16)data_len;
552#if 1
553 pack->data = (uint8*)memdup(data, pack->data_len);
554#else
555 LOG("%d -> %d", data_len, pack->data_len);
556 log_hex("pack1", pack, sizeof(mbtk_info_pack_t));
557 #if 0
558 pack->data = (uint8*)memdup(data, pack->data_len);
559 #else
560
561 LOG("1 pack->%p,data->%p", pack, pack->data);
562 pack->data = (uint8*)calloc(pack->data_len, sizeof(uint8));
563 LOG("2 pack->%p,data->%p", pack, pack->data);
564
565 memcpy(pack->data, data, data_len);
566 #endif
567
568 LOG("data_len - %d", pack->data_len);
569 log_hex("pack2", pack, sizeof(mbtk_info_pack_t));
570#endif
571 break;
572 }
573 case MBTK_INFO_ID_NET_SIGNAL_REQ: // <sint16>[4] rssi,rscp,rsrp,snr
574 case MBTK_INFO_ID_NET_SIGNAL_RSP:
575 {
576 // const mbtk_net_signal_t* signal = (const mbtk_net_signal_t*)data;
577 pack->data_len = (uint16)sizeof(mbtk_net_signal_t);
578 pack->data = (uint8*)memdup(data, pack->data_len);
579 break;
580 }
581 case MBTK_INFO_ID_NET_IPV4_DNS_REQ: // <uint32>[2] Preferred DNS,Alternate DNS
582 case MBTK_INFO_ID_NET_IPV4_DNS_RSP:
583 {
584 // const mbtk_net_dns_ipv4_t* dns_ipv4 = (const mbtk_net_dns_ipv4_t*)data;
585 pack->data_len = (uint16)sizeof(mbtk_net_dns_ipv4_t);
586 pack->data = (uint8*)memdup(data, pack->data_len);
587 break;
588 }
589 case MBTK_INFO_ID_NET_IPV6_DNS_REQ: // <uint32>[8] Preferred DNS,Alternate DNS
590 case MBTK_INFO_ID_NET_IPV6_DNS_RSP:
591 {
592 // const mbtk_net_dns_ipv6_t* dns_ipv6 = (const mbtk_net_dns_ipv6_t*)data;
593 pack->data_len = (uint16)sizeof(mbtk_net_dns_ipv6_t);
594 pack->data = (uint8*)memdup(data, pack->data_len);
595 break;
596 }
597 case MBTK_INFO_ID_NET_IPV4_REQ: // <uint32> IPv4
598 case MBTK_INFO_ID_NET_IPV4_RSP:
599 {
600 pack->data_len = (uint16)sizeof(uint32);
601 pack->data = (uint8*)memdup(data, pack->data_len);
602 break;
603 }
604 case MBTK_INFO_ID_NET_IPV6_REQ: // <uint32>[4] IPv6
605 case MBTK_INFO_ID_NET_IPV6_RSP:
606 {
607 pack->data_len = (uint16)(sizeof(uint32) * 4);
608 pack->data = (uint8*)memdup(data, pack->data_len);
609 break;
610 }
611 case MBTK_INFO_ID_NET_LOCAL_REQ: // <uint16>[2] tag,earfcn
612 case MBTK_INFO_ID_NET_LOCAL_RSP:
613 {
614 pack->data_len = (uint16)sizeof(mbtk_local_info_t);
615 pack->data = (uint8*)memdup(data, pack->data_len);
616 break;
617 }
618#if 0
619 case MBTK_INFO_ID_NET_SEL_MODE_REQ:
620 case MBTK_INFO_ID_NET_SEL_MODE_RSP: // sel_mode(uint8)type(uint8)plmn(uint32)
621 {
622 const mbtk_net_info_t* net = (const mbtk_net_info_t*)data;
623 pack->data_len = sizeof(uint8) + sizeof(uint8) + sizeof(uint32);
624 pack->data = (uint8*)malloc(pack->data_len);
625 if(pack->data == NULL) {
626 LOG("malloc() fail.");
627 return -1;
628 }
629
630 pack->data[0] = net->net_sel_mode;
631 pack->data[1] = net->net_type;
632 uint32_2_byte((uint32)atoi((char*)net->plmn), pack->data + 2,false);
633 break;
634 }
635#endif
636#if 0
637 case MBTK_INFO_ID_NET_AVAILABLE_REQ:
638 case MBTK_INFO_ID_NET_AVAILABLE_RSP: // sel_mode(uint8)type(uint8)plmn(uint32)...sel_mode(uint8)type(uint8)plmn(uint32)
639 {
640 const mbtk_net_array_info_t* nets = (const mbtk_net_array_info_t*)data;
641 mbtk_net_info_t *net = NULL;
642 //LOG("MBTK_INFO_ID_NET_AVAILABLE_RSP set");
643 //sleep(1);
644 list_first(nets->net_list);
645 pack->data_len = nets->count * sizeof(mbtk_net_info_t);
646 if(pack->data_len > 0) {
647 int i = 0;
648 pack->data = (uint8*)malloc(pack->data_len);
649 if(pack->data == NULL) {
650 LOG("malloc() fail.");
651 return -1;
652 }
653 memset(pack->data, 0, pack->data_len);
654
655 while ((net = (mbtk_net_info_t*) list_next(nets->net_list)))
656 {
657 #if 0
658 memcpy(pack->data + i, net, sizeof(mbtk_net_info_t));
659 i += sizeof(mbtk_net_info_t);
660 #else
661 pack->data[i++] = net->net_sel_mode;
662 pack->data[i++] = net->net_type;
663 //uint32_2_byte((uint32)atoi((char*)net->plmn), pack->data + i,false);
664 uint32_2_byte(net->plmn, pack->data + i,false);
665 i += sizeof(uint32);
666 #endif
667 }
668 }
669 break;
670 }
671#endif
672 default:
673 {
674 LOG("Unknown REQ/RSP : %s", id2str(pack->info_id));
675 break;
676 }
677 }
678 }
679 else
680 {
681 LOG("Unknown info : %s", id2str(pack->info_id));
682 return -1;
683 }
684 return 0;
685}
686
687void* mbtk_info_pack_data_get(mbtk_info_pack_t *pack, int *data_len)
688{
689 if(pack == NULL || pack->data_len == 0 || pack->data == NULL)
690 {
691 LOG("Packet is NULL.");
692 return NULL;
693 }
694
695 mbtk_info_type_enum info_type = mbtk_info_type_get(pack->info_id);
696 // IND
697 if(info_type == MBTK_INFO_TYPE_IND)
698 {
699 switch(pack->info_id)
700 {
701 // <uint8> State
702 case MBTK_INFO_ID_IND_NET_STATE_CHANGE:
703 case MBTK_INFO_ID_IND_CALL_STATE_CHANGE:
704 case MBTK_INFO_ID_IND_SMS_STATE_CHANGE:
705 case MBTK_INFO_ID_IND_RADIO_STATE_CHANGE:
706 case MBTK_INFO_ID_IND_SIM_STATE_CHANGE:
707 {
708 return pack->data;
709 }
710 default:
711 {
712 LOG("Unknown IND : %s", id2str(pack->info_id));
713 break;
714 }
715 }
716 }
717 //else if(pack->info_id % 2 == 1) // REQ (Set Data)
718 else if(info_type == MBTK_INFO_TYPE_REQ || info_type == MBTK_INFO_TYPE_RSP) // REQ or RSP
719 {
720 switch(pack->info_id)
721 {
722 case MBTK_INFO_ID_DEV_VOLTE_REQ: // <uint8> 0:Close 1:Open
723 case MBTK_INFO_ID_DEV_VOLTE_RSP:
724 case MBTK_INFO_ID_SIM_STATE_REQ: // <uint8> 0:NOT_EXIST 1:READY ...
725 case MBTK_INFO_ID_SIM_STATE_RSP:
726 case MBTK_INFO_ID_NET_RADIO_REQ: // <uint8> 0:OFF 1:ON
727 case MBTK_INFO_ID_NET_RADIO_RSP:
728 case MBTK_INFO_ID_DEV_IMEI_REQ: // <string> SN
729 case MBTK_INFO_ID_DEV_IMEI_RSP:
730 case MBTK_INFO_ID_DEV_SN_REQ: // <string> SN
731 case MBTK_INFO_ID_DEV_SN_RSP:
732 case MBTK_INFO_ID_DEV_MEID_REQ: // <string> MEID
733 case MBTK_INFO_ID_DEV_MEID_RSP:
734 case MBTK_INFO_ID_DEV_VERSION_REQ: // <string> VERSION
735 case MBTK_INFO_ID_DEV_VERSION_RSP:
736 case MBTK_INFO_ID_DEV_TEMP_REQ: // <string> Temperature
737 case MBTK_INFO_ID_DEV_TEMP_RSP:
738 case MBTK_INFO_ID_SIM_PIN_REQ: // <string> PIN
739 case MBTK_INFO_ID_SIM_PIN_RSP:
740 case MBTK_INFO_ID_SIM_PUK_REQ: // <string> PUK
741 case MBTK_INFO_ID_SIM_PUK_RSP:
742 case MBTK_INFO_ID_SIM_IMSI_REQ: // <string> IMSI
743 case MBTK_INFO_ID_SIM_IMSI_RSP:
744 case MBTK_INFO_ID_SIM_ICCID_REQ: // <string> ICCID
745 case MBTK_INFO_ID_SIM_ICCID_RSP:
746 case MBTK_INFO_ID_NET_APN_REQ: // <string> cmnet/ctnet/3gnet/...
747 case MBTK_INFO_ID_NET_APN_RSP:
748 case MBTK_INFO_ID_NET_BAND_REQ: // mbtk_band_info_t
749 case MBTK_INFO_ID_NET_BAND_RSP:
750 case MBTK_INFO_ID_NET_CELL_REQ: // Lock net/cell/frequency
751 case MBTK_INFO_ID_NET_CELL_RSP:
752 case MBTK_INFO_ID_NET_SEL_MODE_REQ: // mbtk_net_info_t
753 case MBTK_INFO_ID_NET_SEL_MODE_RSP:
754 case MBTK_INFO_ID_NET_AVAILABLE_REQ: // mbtk_net_info_t[]
755 case MBTK_INFO_ID_NET_AVAILABLE_RSP:
756 {
757 return pack->data;
758 }
759 case MBTK_INFO_ID_NET_SIGNAL_REQ: // <sint16>[4] rssi,rscp,rsrp,snr
760 case MBTK_INFO_ID_NET_SIGNAL_RSP:
761 {
762 mbtk_net_signal_t* signal = (mbtk_net_signal_t*)malloc(sizeof(mbtk_net_signal_t));
763 if(!signal)
764 {
765 LOG("malloc() error[%d]", errno);
766 return NULL;
767 }
768
769 signal->rssi = (sint16)byte_2_uint16(pack->data, false);
770 signal->rscp = (sint16)byte_2_uint16(pack->data + sizeof(uint16), false);
771 signal->rsrp = (sint16)byte_2_uint16(pack->data + sizeof(uint16) * 2, false);
772 signal->snr = (sint16)byte_2_uint16(pack->data + sizeof(uint16) * 3, false);
773 return signal;
774 }
775 case MBTK_INFO_ID_NET_IPV4_DNS_REQ: // <uint32>[2] Preferred DNS,Alternate DNS
776 case MBTK_INFO_ID_NET_IPV4_DNS_RSP:
777 {
778 mbtk_net_dns_ipv4_t* dns_ipv4 = (mbtk_net_dns_ipv4_t*)malloc(sizeof(mbtk_net_dns_ipv4_t));
779 if(!dns_ipv4)
780 {
781 LOG("malloc() error[%d]", errno);
782 return NULL;
783 }
784
785 dns_ipv4->preferred_dns = byte_2_uint32(pack->data, false);
786 dns_ipv4->alternate_dns = byte_2_uint32(pack->data + sizeof(uint32), false);
787 return dns_ipv4;
788 }
789 case MBTK_INFO_ID_NET_IPV6_DNS_REQ: // <uint32>[8] Preferred DNS,Alternate DNS
790 case MBTK_INFO_ID_NET_IPV6_DNS_RSP:
791 {
792 return memdup(pack->data, sizeof(mbtk_net_dns_ipv6_t));
793 }
794 case MBTK_INFO_ID_NET_IPV4_REQ: // <uint32> IPv4
795 case MBTK_INFO_ID_NET_IPV4_RSP:
796 {
797 return memdup(pack->data, sizeof(uint32));
798 break;
799 }
800 case MBTK_INFO_ID_NET_IPV6_REQ: // <uint32>[4] IPv6
801 case MBTK_INFO_ID_NET_IPV6_RSP:
802 {
803 return memdup(pack->data, sizeof(uint32) * 4);
804 break;
805 }
806 case MBTK_INFO_ID_NET_LOCAL_REQ: // <uint16>[2] tag,earfcn
807 case MBTK_INFO_ID_NET_LOCAL_RSP:
808 {
809 mbtk_local_info_t* local = (mbtk_local_info_t*)malloc(sizeof(mbtk_local_info_t));
810 if(!local)
811 {
812 LOG("malloc() error[%d]", errno);
813 return NULL;
814 }
815
816 local->tag = (sint16)byte_2_uint16(pack->data, false);
817 local->earfcn = (sint16)byte_2_uint16(pack->data + sizeof(uint16), false);
818 return local;
819 }
820#if 0
821 case MBTK_INFO_ID_NET_SEL_MODE_REQ:
822 case MBTK_INFO_ID_NET_SEL_MODE_RSP: // sel_mode(uint8)type(uint8)plmn(uint32)
823 {
824 mbtk_net_info_t* net = (mbtk_net_info_t*)malloc(sizeof(mbtk_net_info_t));
825 if(!net)
826 {
827 LOG("malloc() error[%d]", errno);
828 return NULL;
829 }
830 memset(net, 0, sizeof(mbtk_net_info_t));
831 net->net_sel_mode = pack->data[0];
832 net->net_type = pack->data[1];
833 //itoa(byte_2_uint32(pack->data + 2, false), net->plmn, 10);
834 sprintf(net->plmn, "%d", byte_2_uint32(pack->data + 2, false));
835
836 return net;
837 }
838#endif
839#if 0
840 case MBTK_INFO_ID_NET_AVAILABLE_REQ:
841 case MBTK_INFO_ID_NET_AVAILABLE_RSP: // sel_mode(uint8)type(uint8)plmn(uint32)...sel_mode(uint8)type(uint8)plmn(uint32)
842 {
843 mbtk_net_array_info_t* nets = (mbtk_net_array_info_t*)malloc(sizeof(mbtk_net_array_info_t));
844 if(!nets)
845 {
846 LOG("malloc() error[%d]", errno);
847 return NULL;
848 }
849 nets->count = 0;
850 nets->net_list = list_create(NULL);
851 if(nets->net_list == NULL)
852 {
853 LOG("list_create() fail.");
854 free(nets);
855 return NULL;
856 }
857
858 int i = 0;
859 while(i < pack->data_len) {
860 LOG("MBTK_INFO_ID_NET_AVAILABLE_RSP get 1");
861 sleep(1);
862 mbtk_net_info_t* net = (mbtk_net_info_t*)malloc(sizeof(mbtk_net_info_t));
863 LOG("MBTK_INFO_ID_NET_AVAILABLE_RSP get 2");
864 sleep(1);
865 if(!net)
866 {
867 LOG("malloc() error[%d]", errno);
868 sleep(3);
869 //list_free(nets->net_list);
870 //free(nets);
871 return NULL;
872 }
873 memset(net, 0, sizeof(mbtk_net_info_t));
874
875 LOG("MBTK_INFO_ID_NET_AVAILABLE_RSP get 3");
876 sleep(1);
877#if 1
878 #if 1
879 #if 0
880 memcpy(net, pack->data + i, sizeof(mbtk_net_info_t));
881 i += sizeof(mbtk_net_info_t);
882 #else
883 net->net_sel_mode = pack->data[i++];
884 net->net_type = pack->data[i++];
885 //sprintf(net->plmn, "%d", byte_2_uint32(pack->data + i, false));
886 net->plmn = byte_2_uint32(pack->data + i, false);
887 i += sizeof(uint32);
888 #endif
889 #endif
890
891 LOG("MBTK_INFO_ID_NET_AVAILABLE_RSP get 5");
892 log_hex("NET 2", net, sizeof(mbtk_net_info_t));
893 sleep(1);
894
895 list_add(nets->net_list, net);
896
897#endif
898 LOG("list_add");
899 sleep(1);
900 }
901
902 sleep(10);
903
904 // Data lenght changed.
905 *data_len = sizeof(mbtk_net_array_info_t);
906 return nets;
907 }
908#endif
909 default:
910 {
911 LOG("Unknown REQ/RSP : %s", id2str(pack->info_id));
912 break;
913 }
914 }
915 }
916 else
917 {
918 LOG("Unknown info : %s", id2str(pack->info_id));
919 }
920
921 return NULL;
922}
923#endif
924
925int mbtk_info_pack_send(int fd, mbtk_info_pack_t *pack)
926{
927 if(!pack)
928 {
929 LOG("Packet is NULL.");
930 return -1;
931 }
932 uint8 data[SOCK_MSG_LEN_MAX] = {0};
933 uint8* data_ptr = data + SOCK_PACK_EXTRA_LEN;
934
935 data_ptr += uint16_2_byte(pack->info_id, data_ptr, false);
936 data_ptr += uint16_2_byte(pack->info_err, data_ptr, false);
937 data_ptr += uint16_2_byte(pack->data_len, data_ptr, false);
938 //log_hex("DATA1", data, 40);
939 if(pack->data_len > 0)
940 {
941 memcpy(data_ptr, pack->data, pack->data_len);
942 data_ptr += pack->data_len;
943 //log_hex("DATA2", data, 40);
944 }
945
946 // Set flag and packet length.
947 uint32_2_byte(MBTK_INFO_PACKET_FLAG, data, true);
948 uint16_2_byte(data_ptr - data - SOCK_PACK_EXTRA_LEN, data + sizeof(uint32), false);
949
950 //log_hex("DATA3", data, 40);
951 return sock_write(fd, data, data_ptr - data);
952}
953
954mbtk_info_pack_t** mbtk_info_pack_recv(int fd, bool is_server, mbtk_info_err_enum *err)
955{
956 uint8 msg[SOCK_MSG_LEN_MAX + 1];
957 *err = MBTK_INFO_ERR_SUCCESS;
958 int len = sock_read(fd, msg, SOCK_MSG_LEN_MAX + 1);
959 if(len < SOCK_PACK_LEN_MIN)
960 {
961 if(len > 0)
962 {
963 *err = MBTK_INFO_ERR_FORMAT;
964 LOG("Insufficient packet data.");
965 }
966 return NULL;
967 }
968
969 int pack_count = pack_num_check(msg, len);
970 LOG("Packet number : %d", pack_count);
971 if(pack_count < 1)
972 {
973 *err = MBTK_INFO_ERR_FORMAT;
974 LOG("Packet not found.");
975 return NULL;
976 }
977 uint8 *ptr = msg;
978 mbtk_info_pack_t** packs = (mbtk_info_pack_t**)malloc(sizeof(mbtk_info_pack_t*) * (pack_count + 1));
979 int i = 0;
980 while(i < pack_count)
981 {
982 // TAG
983 if(MBTK_INFO_PACKET_FLAG != byte_2_uint32(ptr, true))
984 {
985 *err = MBTK_INFO_ERR_FORMAT;
986 LOG("Packet TAG error.");
987 goto error;
988 }
989 ptr += sizeof(uint32);
990
991 // Jump packet length.
992 ptr += sizeof(uint16);
993
994 mbtk_info_id_enum info_id = (mbtk_info_id_enum)byte_2_uint16(ptr, false);
995 mbtk_info_type_enum info_type = mbtk_info_type_get(info_id);
996 if(is_server)
997 {
998 // For server,"info_type" must by REQ or IND(Register IND).
999 if(info_type != MBTK_INFO_TYPE_REQ && info_type != MBTK_INFO_TYPE_IND)
1000 {
1001 *err = MBTK_INFO_ERR_FORMAT;
1002 LOG("Packet Type error.");
1003 goto error;
1004 }
1005 }
1006 else
1007 {
1008 // For client,"info_type" must by RSP or IND.
1009 if(info_type != MBTK_INFO_TYPE_RSP && info_type != MBTK_INFO_TYPE_IND)
1010 {
1011 *err = MBTK_INFO_ERR_FORMAT;
1012 LOG("Packet Type error.");
1013 goto error;
1014 }
1015 }
1016 ptr += sizeof(uint16);
1017
1018 mbtk_info_pack_t* pack = mbtk_info_pack_creat(info_id);
1019 if(pack == NULL)
1020 {
1021 *err = MBTK_INFO_ERR_MEMORY;
1022 LOG("Packet malloc() fail.");
1023 goto error;
1024 }
1025
1026 // "info_err"
1027 pack->info_err = byte_2_uint16(ptr, false);
1028 ptr += sizeof(uint16);
1029
1030 // "data_len"
1031 pack->data_len = byte_2_uint16(ptr, false);
1032 ptr += sizeof(uint16);
1033
1034 if(pack->data_len > 0)
1035 {
1036 pack->data = (uint8*)memdup(ptr, pack->data_len);
1037 ptr += pack->data_len;
1038 }
1039
1040 packs[i++] = pack;
1041 }
1042 packs[i] = NULL;
1043
1044 return packs;
1045
1046error:
1047 LOG("mbtk_info_pack_recv error, will free().");
1048 if(packs)
1049 {
1050 mbtk_info_pack_t** pack_ptr = packs;
1051 while(*pack_ptr)
1052 {
1053 mbtk_info_pack_free(pack_ptr);
1054 pack_ptr++;
1055 }
1056
1057 free(packs);
1058 }
1059 return NULL;
1060}
1061
1062int mbtk_info_pack_free(mbtk_info_pack_t **pack)
1063{
1064 if(pack == NULL || *pack == NULL)
1065 {
1066 LOG("Packet is NULL.");
1067 return -1;
1068 }
1069
1070 // LOG("Free packet : %s", id2str((*pack)->info_id));
1071#if 0
1072 if((*pack)->data)
1073 {
1074 free((*pack)->data);
1075 }
1076#endif
1077 free(*pack);
1078 *pack = NULL;
1079 return 0;
1080}
1081
1082