4 * Copyright (c) 2012 Samsung Electronics Co., Ltd. All rights reserved.
6 * Contact: Madhavi Akella <madhavi.a@samsung.com>
8 * Licensed under the Apache License, Version 2.0 (the "License");
9 * you may not use this file except in compliance with the License.
10 * You may obtain a copy of the License at
12 * http://www.apache.org/licenses/LICENSE-2.0
14 * Unless required by applicable law or agreed to in writing, software
15 * distributed under the License is distributed on an "AS IS" BASIS,
16 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
17 * See the License for the specific language governing permissions and
18 * limitations under the License.
30 #include <core_object.h>
35 #include <user_request.h>
43 #include "common/TelErr.h"
47 /*=============================================================
49 ==============================================================*/
50 #define MAX_GSM_SMS_TPDU_SIZE 244
51 #define MAX_GSM_SMS_MSG_NUM 255
52 #define MAX_GSM_SMS_SERVICE_CENTER_ADDR 12 /* Maximum number of bytes of service center address */
53 #define MAX_GSM_SMS_CBMI_LIST_SIZE 100 /* Maximum number of CBMI list size for CBS 30*2=60 */
54 #define MAX_GSM_SMS_PARAM_RECORD_SIZE 156 /* Maximum number of bytes SMSP Record size (Y + 28), y : 0 ~ 128 */
55 #define MAX_GSM_SMS_STATUS_FILE_SIZE 2 /* Last Used TP-MR + SMS "Memory Cap. Exceeded" Noti Flag */
56 #define TAPI_SIM_SMSP_ADDRESS_LEN 20
58 /*=============================================================
60 ==============================================================*/
61 #define SMS_DEVICE_READY 1 /* Telephony device ready */
62 #define SMS_DEVICE_NOT_READY 0 /* Telephony device not ready */
64 /*=============================================================
66 ==============================================================*/
67 #define SMS_CBMI_SELECTED_SOME 0x02 /* Some CBMIs are selected */
68 #define SMS_CBMI_SELECTED_ALL 0x01 /* All CBMIs are selected */
70 /*=============================================================
72 ==============================================================*/
73 #define AT_REC_UNREAD 0 /* Received and Unread */
74 #define AT_REC_READ 1 /* Received and Read */
75 #define AT_STO_UNSENT 2 /* Unsent */
76 #define AT_STO_SENT 3 /* Sent */
77 #define AT_ALL 4 /* Unknown */
79 /*=============================================================
81 ==============================================================*/
82 #define AT_MEMORY_AVAILABLE 0 /* Memory Available */
83 #define AT_MEMORY_FULL 1 /* Memory Full */
85 /*=============================================================
86 SIM CRSM SW1 and Sw2 Error definitions */
88 #define AT_SW1_SUCCESS 0x90
89 #define AT_SW2_SUCCESS 0
90 #define AT_SW1_LEN_RESP 0x9F
92 #define AT_MAX_RECORD_LEN 256
93 /* SCA 12 bytes long and TDPU is 164 bytes long */
94 #define PDU_LEN_MAX 176
95 #define HEX_PDU_LEN_MAX ((PDU_LEN_MAX * 2) + 1)
97 /*=============================================================
99 ==============================================================*/
100 #define CR '\r' /* Carriage Return */
102 /*=============================================================
104 ==============================================================*/
105 #define SMS_SWAPBYTES16(x) (((x) & 0xffff0000) | (((x) & 0x0000ff00) >> 8) | (((x) & 0x000000ff) << 8))
107 void print_glib_list_elem(gpointer data, gpointer user_data);
109 static void on_response_class2_read_msg(TcorePending *pending, int data_len, const void *data, void *user_data);
112 gboolean util_byte_to_hex(const char *byte_pdu, char *hex_pdu, int num_bytes);
114 void print_glib_list_elem(gpointer data, gpointer user_data)
116 char *item = (char *)data;
118 dbg("item: [%s]", item);
121 /*=============================================================
123 ==============================================================*/
124 static void on_confirmation_sms_message_send(TcorePending *p, gboolean result, void *user_data)
126 dbg("Entered Function. Request message out from queue");
128 dbg("TcorePending: [%p]", p);
129 dbg("result: [%02x]", result);
130 dbg("user_data: [%p]", user_data);
132 if (result == TRUE) {
134 } else { /* Failed */
138 dbg("Exiting Function. Nothing to return");
141 /*=============================================================
143 ==============================================================*/
144 static void util_sms_free_memory(void *sms_ptr)
148 if (NULL != sms_ptr) {
149 dbg("Freeing memory location: [%p]", sms_ptr);
153 err("Invalid memory location. Nothing to do.");
160 static int util_sms_decode_smsParameters(unsigned char *incoming, unsigned int length, struct telephony_sms_Params *params)
162 int alpha_id_len = 0;
166 dbg(" RecordLen = %d", length);
168 if(incoming == NULL || params == NULL)
171 alpha_id_len = length -SMS_SMSP_PARAMS_MAX_LEN;
173 if (alpha_id_len > 0) {
174 if (alpha_id_len > SMS_SMSP_ALPHA_ID_LEN_MAX) {
175 alpha_id_len = SMS_SMSP_ALPHA_ID_LEN_MAX;
178 for (i = 0; i < alpha_id_len; i++) {
179 if (0xff == incoming[i]) {
185 memcpy(params->szAlphaId, incoming, i);
187 params->alphaIdLen = i;
189 dbg(" Alpha id length = %d", i);
191 params->alphaIdLen = 0;
192 dbg(" Alpha id length is zero");
195 params->paramIndicator = incoming[alpha_id_len];
197 dbg(" Param Indicator = %02x", params->paramIndicator);
199 if ((params->paramIndicator & SMSPValidDestAddr) == 0) {
200 nOffset = nDestAddrOffset;
202 if (0x00 == incoming[alpha_id_len + nOffset] || 0xff == incoming[alpha_id_len + nOffset]) {
203 params->tpDestAddr.dialNumLen = 0;
205 dbg("DestAddr Length is 0");
207 if (0 < (int) incoming[alpha_id_len + nOffset]) {
208 params->tpDestAddr.dialNumLen = (int) (incoming[alpha_id_len + nOffset] - 1);
210 if (params->tpDestAddr.dialNumLen > SMS_SMSP_ADDRESS_LEN)
211 params->tpDestAddr.dialNumLen = SMS_SMSP_ADDRESS_LEN;
213 params->tpDestAddr.dialNumLen = 0;
216 params->tpDestAddr.numPlanId = incoming[alpha_id_len + (++nOffset)] & 0x0f;
217 params->tpDestAddr.typeOfNum = (incoming[alpha_id_len + nOffset] & 0x70) >> 4;
219 memcpy(params->tpDestAddr.diallingNum, &incoming[alpha_id_len + (++nOffset)], (params->tpDestAddr.dialNumLen));
221 dbg("Dest TON is %d", params->tpDestAddr.typeOfNum);
222 dbg("Dest NPI is %d", params->tpDestAddr.numPlanId);
223 dbg("Dest Length = %d", params->tpDestAddr.dialNumLen);
224 dbg("Dest Addr = %s", params->tpDestAddr.diallingNum);
227 params->tpDestAddr.dialNumLen = 0;
230 if ((params->paramIndicator & SMSPValidSvcAddr) == 0) {
231 nOffset = nSCAAddrOffset;
233 if (0x00 == (int) incoming[alpha_id_len + nOffset] || 0xff == (int) incoming[alpha_id_len + nOffset]) {
234 params->tpSvcCntrAddr.dialNumLen = 0;
236 dbg(" SCAddr Length is 0");
238 if (0 < (int) incoming[alpha_id_len + nOffset]) {
239 params->tpSvcCntrAddr.dialNumLen = (int) (incoming[alpha_id_len + nOffset] - 1);
241 if (params->tpSvcCntrAddr.dialNumLen > SMS_SMSP_ADDRESS_LEN)
242 params->tpSvcCntrAddr.dialNumLen = SMS_SMSP_ADDRESS_LEN;
244 params->tpSvcCntrAddr.numPlanId = incoming[alpha_id_len + (++nOffset)] & 0x0f;
245 params->tpSvcCntrAddr.typeOfNum = (incoming[alpha_id_len + nOffset] & 0x70) >> 4;
247 memcpy(params->tpSvcCntrAddr.diallingNum, &incoming[alpha_id_len + (++nOffset)], (params->tpSvcCntrAddr.dialNumLen));
249 dbg("SCAddr Length = %d ", params->tpSvcCntrAddr.dialNumLen);
250 dbg("SCAddr TON is %d", params->tpSvcCntrAddr.typeOfNum);
251 dbg("SCAddr NPI is %d", params->tpSvcCntrAddr.numPlanId);
253 for (i = 0; i < (int) params->tpSvcCntrAddr.dialNumLen; i++)
254 dbg("SCAddr = %d [%02x]", i, params->tpSvcCntrAddr.diallingNum[i]);
256 params->tpSvcCntrAddr.dialNumLen = 0;
259 } else if ((0x00 < (int) incoming[alpha_id_len + nSCAAddrOffset] && (int) incoming[alpha_id_len + nSCAAddrOffset] <= 12)
260 || 0xff != (int) incoming[alpha_id_len + nSCAAddrOffset]) {
261 nOffset = nSCAAddrOffset;
263 if (0x00 == (int) incoming[alpha_id_len + nOffset] || 0xff == (int) incoming[alpha_id_len + nOffset]) {
264 params->tpSvcCntrAddr.dialNumLen = 0;
265 dbg("SCAddr Length is 0");
267 if (0 < (int) incoming[alpha_id_len + nOffset]) {
268 params->tpSvcCntrAddr.dialNumLen = (int) (incoming[alpha_id_len + nOffset] - 1);
270 params->tpSvcCntrAddr.dialNumLen = incoming[alpha_id_len + nOffset] - 1;
272 if (params->tpSvcCntrAddr.dialNumLen > SMS_SMSP_ADDRESS_LEN)
273 params->tpSvcCntrAddr.dialNumLen = SMS_SMSP_ADDRESS_LEN;
275 params->tpSvcCntrAddr.numPlanId = incoming[alpha_id_len + (++nOffset)] & 0x0f;
276 params->tpSvcCntrAddr.typeOfNum = (incoming[alpha_id_len + nOffset] & 0x70) >> 4;
278 memcpy(params->tpSvcCntrAddr.diallingNum, &incoming[alpha_id_len + (++nOffset)],
279 (params->tpSvcCntrAddr.dialNumLen));
281 dbg("SCAddr Length = %d ", params->tpSvcCntrAddr.dialNumLen);
282 dbg("SCAddr TON is %d", params->tpSvcCntrAddr.typeOfNum);
283 dbg("SCAddr NPI is %d", params->tpSvcCntrAddr.numPlanId);
285 for (i = 0; i < (int) params->tpSvcCntrAddr.dialNumLen; i++)
286 dbg("SCAddr = %d [%02x]", i, params->tpSvcCntrAddr.diallingNum[i]);
288 params->tpSvcCntrAddr.dialNumLen = 0;
292 params->tpSvcCntrAddr.dialNumLen = 0;
295 if ((params->paramIndicator & SMSPValidPID) == 0 && (alpha_id_len + nPIDOffset) < MAX_GSM_SMS_PARAM_RECORD_SIZE) {
296 params->tpProtocolId = incoming[alpha_id_len + nPIDOffset];
298 if ((params->paramIndicator & SMSPValidDCS) == 0 && (alpha_id_len + nDCSOffset) < MAX_GSM_SMS_PARAM_RECORD_SIZE) {
299 params->tpDataCodingScheme = incoming[alpha_id_len + nDCSOffset];
301 if ((params->paramIndicator & SMSPValidVP) == 0 && (alpha_id_len + nVPOffset) < MAX_GSM_SMS_PARAM_RECORD_SIZE) {
302 params->tpValidityPeriod = incoming[alpha_id_len + nVPOffset];
305 dbg(" Alpha Id(Len) = %d", (int) params->alphaIdLen);
307 for (i = 0; i < (int) params->alphaIdLen; i++) {
308 dbg(" Alpha Id = [%d] [%c]", i, params->szAlphaId[i]);
310 dbg(" PID = %d",params->tpProtocolId);
311 dbg(" DCS = %d",params->tpDataCodingScheme);
312 dbg(" VP = %d",params->tpValidityPeriod);
317 /*=============================================================
319 ==============================================================*/
320 static gboolean on_event_class2_sms_incom_msg(CoreObject *obj,
321 const void *event_info, void *user_data)
323 //+CMTI: <mem>,<index>
325 GSList *tokens = NULL , *lines = NULL;
326 char *line = NULL, *cmd_str = NULL;
327 int index = 0, mem_type = 0;
328 TcoreHal *hal = NULL;
329 TcoreATRequest *atreq = NULL;
330 TcorePending *pending = NULL;
332 dbg("Entered Function");
334 lines = (GSList *)event_info;
335 line = (char *)g_slist_nth_data(lines, 0); /* Fetch Line 1 */
337 dbg("Line 1: [%s]", line);
340 err("Line 1 is invalid");
344 tokens = tcore_at_tok_new(line); /* Split Line 1 into tokens */
345 mem_type = atoi(g_slist_nth_data(tokens, 0)); // Type of Memory stored
346 index = atoi((char *) g_slist_nth_data(tokens, 1));
348 hal = tcore_object_get_hal(obj);
350 err("NULL input. Unable to proceed");
351 dbg("readMsg: hal: [%p]", hal);
354 return TCORE_RETURN_EINVAL;
357 dbg("index: [%d]", index);
359 cmd_str = g_strdup_printf("AT+CMGR=%d", index);
360 atreq = tcore_at_request_new((const char *)cmd_str, "+CMGR", TCORE_AT_PDU);
361 pending = tcore_pending_new(obj, 0);
363 if (NULL == cmd_str || NULL == atreq || NULL == pending) {
364 err("Out of memory. Unable to proceed");
365 dbg("cmd_str: [%p], atreq: [%p], pending: [%p]", cmd_str, atreq, pending);
369 util_sms_free_memory(atreq);
370 util_sms_free_memory(pending);
373 return TCORE_RETURN_ENOMEM;
376 util_hex_dump(" ", strlen(cmd_str), (void *)cmd_str);
378 tcore_pending_set_request_data(pending, 0, atreq);
379 tcore_pending_set_response_callback(pending, on_response_class2_read_msg, (void *)(uintptr_t)index); //storing index as user data for response
380 tcore_pending_link_user_request(pending, NULL);
381 tcore_pending_set_send_callback(pending, on_confirmation_sms_message_send, NULL);
382 tcore_hal_send_request(hal, pending);
386 tcore_at_tok_free(tokens);
391 static gboolean on_event_sms_incom_msg(CoreObject *o, const void *event_info, void *user_data)
393 //+CMT: [<alpha>],<length><CR><LF><pdu> (PDU mode enabled);
396 GSList *tokens = NULL;
397 GSList *lines = NULL;
399 int pdu_len = 0, no_of_tokens = 0;
400 unsigned char *bytePDU = NULL;
401 struct tnoti_sms_umts_msg gsmMsgInfo;
404 dbg("Entered Function");
406 lines = (GSList *)event_info;
407 memset(&gsmMsgInfo, 0x00, sizeof(struct tnoti_sms_umts_msg));
409 if (2 != g_slist_length(lines)) {
410 err("Invalid number of lines for +CMT. Must be 2");
414 line = (char *)g_slist_nth_data(lines, 0); /* Fetch Line 1 */
416 dbg("Line 1: [%s]", line);
419 err("Line 1 is invalid");
423 tokens = tcore_at_tok_new(line); /* Split Line 1 into tokens */
425 no_of_tokens = g_slist_length(tokens);
427 if (no_of_tokens == 2) { // in case of incoming SMS +CMT
428 dbg("Alpha ID: [%02x]", g_slist_nth_data(tokens, 0)); /* 0: Alpha ID */
429 pdu_len = atoi((char *)g_slist_nth_data(tokens, 1));
430 dbg("pdu_len: [%d]", pdu_len); /* 1: PDU Length */
431 } else if (no_of_tokens == 1) { // in case of incoming status report +CDS
432 pdu_len = atoi((char *)g_slist_nth_data(tokens, 0));
433 dbg("pdu_len: [%d]", pdu_len); /* 1: PDU Length */
436 line = (char *)g_slist_nth_data(lines, 1); /* Fetch Line 2 */
438 dbg("Line 2: [%s]", line);
441 err("Line 2 is invalid");
445 /* Convert to Bytes */
446 bytePDU = (unsigned char *)util_hexStringToBytes(line);
448 sca_length = bytePDU[0];
450 dbg("SCA length = %d", sca_length);
452 gsmMsgInfo.msgInfo.msgLength = pdu_len;
454 if (sca_length == 0) {
455 memcpy(gsmMsgInfo.msgInfo.tpduData, &bytePDU[1], gsmMsgInfo.msgInfo.msgLength);
457 memcpy(gsmMsgInfo.msgInfo.sca, &bytePDU[1], sca_length);
458 memcpy(gsmMsgInfo.msgInfo.tpduData, &bytePDU[sca_length+1], gsmMsgInfo.msgInfo.msgLength);
461 util_hex_dump(" ", strlen(line)/2, bytePDU);
462 util_hex_dump(" ", sca_length, gsmMsgInfo.msgInfo.sca);
463 util_hex_dump(" ", gsmMsgInfo.msgInfo.msgLength,gsmMsgInfo.msgInfo.tpduData);
465 rtn = tcore_server_send_notification(tcore_plugin_ref_server(tcore_object_ref_plugin(o)), o, TNOTI_SMS_INCOM_MSG, sizeof(struct tnoti_sms_umts_msg), &gsmMsgInfo);
468 tcore_at_tok_free(tokens);
477 static gboolean on_event_sms_memory_status(CoreObject *o, const void *event_info, void *user_data)
479 struct tnoti_sms_memory_status memStatusInfo = {0,};
481 int rtn = -1 ,memoryStatus = -1;
484 char *line = NULL , *pResp = NULL;
488 lines = (GSList *)event_info;
489 if (1 != g_slist_length(lines)) {
490 dbg("unsolicited msg but multiple line");
493 line = (char*)(lines->data);
497 tokens = tcore_at_tok_new(line);
498 pResp = g_slist_nth_data(tokens, 0);
501 memoryStatus = atoi(pResp);
502 dbg("memoryStatus is %d",memoryStatus);
503 if (memoryStatus == 0) {//SIM Full condition
504 memStatusInfo.status = SMS_PHONE_MEMORY_STATUS_FULL;
506 rtn = tcore_server_send_notification(tcore_plugin_ref_server(tcore_object_ref_plugin(o)), o, TNOTI_SMS_MEMORY_STATUS, sizeof(struct tnoti_sms_memory_status), &memStatusInfo);
508 tcore_at_tok_free(tokens);
517 static gboolean on_event_sms_cb_incom_msg(CoreObject *o, const void *event_info, void *user_data)
519 //+CBM: <length><CR><LF><pdu>
521 struct tnoti_sms_cellBroadcast_msg cbMsgInfo;
523 int rtn = -1 , length = 0;
524 char * line = NULL, *pdu = NULL, *pResp = NULL;
525 GSList *tokens = NULL;
526 GSList *lines = NULL;
528 dbg(" Func Entrance");
530 lines = (GSList *)event_info;
532 memset(&cbMsgInfo, 0, sizeof(struct tnoti_sms_cellBroadcast_msg));
534 line = (char *)(lines->data);
538 dbg("Noti line is %s",line);
539 tokens = tcore_at_tok_new(line); /* Split Line 1 into tokens */
541 pResp = g_slist_nth_data(tokens, 0);
543 length = atoi(pResp);
545 dbg("token 0 is null");
548 pdu = g_slist_nth_data(lines, 1);
550 cbMsgInfo.cbMsg.length = length;
551 cbMsgInfo.cbMsg.cbMsgType = SMS_CB_MSG_GSM;
553 dbg("CB Msg LENGTH [%2x]", length);
555 if ((cbMsgInfo.cbMsg.length >0) && (SMS_CB_SIZE_MAX >= cbMsgInfo.cbMsg.length)) {
556 unsigned char *byte_pdu = NULL;
558 byte_pdu = (unsigned char *)util_hexStringToBytes(pdu);
560 memcpy(cbMsgInfo.cbMsg.msgData, (char*)byte_pdu, cbMsgInfo.cbMsg.length);
561 rtn = tcore_server_send_notification(tcore_plugin_ref_server(tcore_object_ref_plugin(o)), o, TNOTI_SMS_CB_INCOM_MSG, sizeof(struct tnoti_sms_cellBroadcast_msg), &cbMsgInfo);
564 dbg("Invalid Message Length");
567 dbg("Recieved NULL pdu");
573 dbg(" Return value [%d]",rtn);
576 tcore_at_tok_free(tokens);
582 /*=============================================================
584 ==============================================================*/
585 static void on_response_sms_delete_msg(TcorePending *p, int data_len, const void *data, void *user_data)
587 struct tresp_sms_delete_msg delMsgInfo = {0,};
588 UserRequest *ur = NULL;
589 const TcoreATResponse *atResp = data;
592 int index = (int) user_data;
594 dbg(" Func Entrance");
596 ur = tcore_pending_ref_user_request(p);
597 if (atResp->success) {
599 delMsgInfo.index = index;
600 delMsgInfo.result = SMS_SENDSMS_SUCCESS;
603 delMsgInfo.index = index;
604 delMsgInfo.result = SMS_DEVICE_FAILURE;
607 rtn = tcore_user_request_send_response(ur, TRESP_SMS_DELETE_MSG, sizeof(struct tresp_sms_delete_msg), &delMsgInfo);
612 static void on_response_sms_save_msg(TcorePending *p, int data_len, const void *data, void *user_data)
614 struct tresp_sms_save_msg saveMsgInfo = {0,};
615 UserRequest *ur = NULL;
616 const TcoreATResponse *atResp = data;
617 GSList *tokens = NULL;
622 ur = tcore_pending_ref_user_request(p);
623 if (atResp->success) {
626 line = (char *)atResp->lines->data;
627 tokens = tcore_at_tok_new(line);
628 pResp = g_slist_nth_data(tokens, 0);
631 saveMsgInfo.index = (atoi(pResp) - 1); /* IMC index starts from 1 */
632 saveMsgInfo.result = SMS_SENDSMS_SUCCESS;
635 saveMsgInfo.index = -1;
636 saveMsgInfo.result = SMS_DEVICE_FAILURE;
638 tcore_at_tok_free(tokens);
642 saveMsgInfo.index = -1;
643 saveMsgInfo.result = SMS_DEVICE_FAILURE;
646 rtn = tcore_user_request_send_response(ur, TRESP_SMS_SAVE_MSG, sizeof(struct tresp_sms_save_msg), &saveMsgInfo);
647 dbg("Return value [%d]", rtn);
651 static void on_response_send_umts_msg(TcorePending *pending, int data_len, const void *data, void *user_data)
653 const TcoreATResponse *at_response = data;
654 struct tresp_sms_send_umts_msg resp_umts;
655 UserRequest *user_req = NULL;
658 GSList *tokens = NULL;
659 char *gslist_line = NULL, *line_token = NULL;
663 user_req = tcore_pending_ref_user_request(pending);
665 if (NULL == user_req) {
666 err("No user request");
672 memset(&resp_umts, 0x00, sizeof(resp_umts));
673 resp_umts.result = SMS_DEVICE_FAILURE;
675 if (at_response->success > 0) { // success
677 if (at_response->lines) { // lines present in at_response
678 gslist_line = (char *)at_response->lines->data;
679 dbg("gslist_line: [%s]", gslist_line);
681 tokens = tcore_at_tok_new(gslist_line); //extract tokens
683 line_token = g_slist_nth_data(tokens, 0);
684 if (line_token != NULL) {
685 msg_ref = atoi(line_token);
686 dbg("Message Reference: [%d]", msg_ref);
688 resp_umts.result = SMS_SENDSMS_SUCCESS;
690 dbg("No Message Reference received");
692 tcore_at_tok_free(tokens);
693 } else { // no lines in at_response
700 tcore_user_request_send_response(user_req, TRESP_SMS_SEND_UMTS_MSG, sizeof(resp_umts), &resp_umts);
706 static void on_response_class2_read_msg(TcorePending *pending, int data_len, const void *data, void *user_data)
708 const TcoreATResponse *at_response = data;
710 char *gslist_line = NULL, *line_token = NULL, *hex_pdu = NULL;
711 int pdu_len = 0, rtn = 0;
712 unsigned char *bytePDU = NULL;
713 struct tnoti_sms_umts_msg gsmMsgInfo;
717 dbg("lines: [%p]", at_response->lines);
718 g_slist_foreach(at_response->lines, print_glib_list_elem, NULL); //for debug log
720 if (at_response->success > 0) {
722 if (at_response->lines) {
724 gslist_line = (char *)at_response->lines->data;
726 dbg("gslist_line: [%s]", gslist_line);
728 tokens = tcore_at_tok_new(gslist_line);
729 dbg("Number of tokens: [%d]", g_slist_length(tokens));
730 g_slist_foreach(tokens, print_glib_list_elem, NULL); //for debug log
732 line_token = g_slist_nth_data(tokens, 2); //Third Token: Length
733 if (line_token != NULL) {
734 pdu_len = atoi(line_token);
735 dbg("Length: [%d]", pdu_len);
739 gslist_line = (char *)at_response->lines->next->data;
741 dbg("gslist_line: [%s]", gslist_line);
743 //free the consumed token
744 tcore_at_tok_free(tokens);
746 tokens = tcore_at_tok_new(gslist_line);
747 dbg("Number of tokens: [%d]", g_slist_length(tokens));
748 g_slist_foreach(tokens, print_glib_list_elem, NULL); //for debug log
750 hex_pdu = g_slist_nth_data(tokens, 0); //Fetch SMS PDU
752 //free the consumed token
753 tcore_at_tok_free(tokens);
761 /* Convert to Bytes */
762 bytePDU = (unsigned char *)util_hexStringToBytes(hex_pdu);
764 sca_length = bytePDU[0];
766 dbg("SCA length = %d", sca_length);
768 gsmMsgInfo.msgInfo.msgLength = pdu_len;
770 if (sca_length == 0) {
771 memcpy(gsmMsgInfo.msgInfo.tpduData, &bytePDU[1], gsmMsgInfo.msgInfo.msgLength);
773 memcpy(gsmMsgInfo.msgInfo.sca, bytePDU, sca_length);
774 memcpy(gsmMsgInfo.msgInfo.tpduData, &bytePDU[sca_length+1], gsmMsgInfo.msgInfo.msgLength);
777 util_hex_dump(" ", strlen(hex_pdu)/2, bytePDU);
778 util_hex_dump(" ", sca_length, gsmMsgInfo.msgInfo.sca);
779 util_hex_dump(" ", gsmMsgInfo.msgInfo.msgLength,gsmMsgInfo.msgInfo.tpduData);
781 rtn = tcore_server_send_notification(tcore_plugin_ref_server(tcore_object_ref_plugin(tcore_pending_ref_core_object(pending))), tcore_pending_ref_core_object(pending), TNOTI_SMS_INCOM_MSG, sizeof(struct tnoti_sms_umts_msg), &gsmMsgInfo);
789 static void on_response_read_msg(TcorePending *pending, int data_len, const void *data, void *user_data)
791 const TcoreATResponse *at_response = data;
792 struct tresp_sms_read_msg resp_read_msg;
793 UserRequest *user_req = NULL;
796 char *gslist_line = NULL, *line_token = NULL, *byte_pdu = NULL, *hex_pdu = NULL;
798 int msg_status = 0, alpha_id = 0, pdu_len = 0;
799 int index = (int)(uintptr_t)user_data;
802 dbg("index: [%d]", index);
803 g_slist_foreach(at_response->lines, print_glib_list_elem, NULL); //for debug log
805 user_req = tcore_pending_ref_user_request(pending);
806 if (NULL == user_req) {
807 err("No user request");
813 memset(&resp_read_msg, 0x00, sizeof(resp_read_msg));
814 resp_read_msg.result = SMS_PHONE_FAILURE;
816 if (at_response->success > 0) {
818 if (at_response->lines) {
820 gslist_line = (char *)at_response->lines->data;
822 dbg("gslist_line: [%s]", gslist_line);
824 tokens = tcore_at_tok_new(gslist_line);
825 dbg("Number of tokens: [%d]", g_slist_length(tokens));
826 g_slist_foreach(tokens, print_glib_list_elem, NULL); //for debug log
828 line_token = g_slist_nth_data(tokens, 0); //First Token: Message Status
829 if (line_token != NULL) {
830 msg_status = atoi(line_token);
831 dbg("msg_status is %d",msg_status);
832 switch (msg_status) {
834 resp_read_msg.dataInfo.msgStatus = SMS_STATUS_UNREAD;
838 resp_read_msg.dataInfo.msgStatus = SMS_STATUS_READ;
842 resp_read_msg.dataInfo.msgStatus = SMS_STATUS_UNSENT;
846 resp_read_msg.dataInfo.msgStatus = SMS_STATUS_SENT;
849 case AT_ALL: //Fall Through
850 default: //Fall Through
851 resp_read_msg.dataInfo.msgStatus = SMS_STATUS_RESERVED;
856 line_token = g_slist_nth_data(tokens, 1); //Second Token: AlphaID
857 if (line_token != NULL) {
858 alpha_id = atoi(line_token);
859 dbg("AlphaID: [%d]", alpha_id);
862 line_token = g_slist_nth_data(tokens, 2); //Third Token: Length
863 if (line_token != NULL) {
864 pdu_len = atoi(line_token);
865 dbg("Length: [%d]", pdu_len);
869 hex_pdu = (char *) at_response->lines->next->data;
871 dbg("EF-SMS PDU: [%s]", hex_pdu);
873 //free the consumed token
874 tcore_at_tok_free(tokens);
876 if (NULL != hex_pdu) {
877 util_hex_dump(" ", sizeof(hex_pdu), (void *)hex_pdu);
879 byte_pdu = util_hexStringToBytes(hex_pdu);
881 sca_length = (int)byte_pdu[0];
883 resp_read_msg.dataInfo.simIndex = index; //Retrieving index stored as user_data
885 dbg("SCA Length : %d", sca_length);
887 resp_read_msg.dataInfo.smsData.msgLength = pdu_len;
888 dbg("msgLength: [%d]", resp_read_msg.dataInfo.smsData.msgLength);
890 if(0 == sca_length) {
891 if ((resp_read_msg.dataInfo.smsData.msgLength > 0)
892 && (resp_read_msg.dataInfo.smsData.msgLength <= SMS_SMDATA_SIZE_MAX)) {
893 memset(resp_read_msg.dataInfo.smsData.sca, 0, TAPI_SIM_SMSP_ADDRESS_LEN);
894 memcpy(resp_read_msg.dataInfo.smsData.tpduData, &byte_pdu[1], resp_read_msg.dataInfo.smsData.msgLength);
896 resp_read_msg.result = SMS_SUCCESS;
898 dbg("Invalid Message Length");
899 resp_read_msg.result = SMS_INVALID_PARAMETER_FORMAT;
902 if ((resp_read_msg.dataInfo.smsData.msgLength > 0)
903 && (resp_read_msg.dataInfo.smsData.msgLength <= SMS_SMDATA_SIZE_MAX)) {
904 memcpy(resp_read_msg.dataInfo.smsData.sca, (char *)byte_pdu, (sca_length+1));
905 memcpy(resp_read_msg.dataInfo.smsData.tpduData, &byte_pdu[sca_length+1], resp_read_msg.dataInfo.smsData.msgLength);
907 util_hex_dump(" ", SMS_SMSP_ADDRESS_LEN, (void *)resp_read_msg.dataInfo.smsData.sca);
908 util_hex_dump(" ", (SMS_SMDATA_SIZE_MAX + 1), (void *)resp_read_msg.dataInfo.smsData.tpduData);
909 util_hex_dump(" ", sizeof(byte_pdu), (void *)byte_pdu);
911 resp_read_msg.result = SMS_SUCCESS;
913 dbg("Invalid Message Length");
914 resp_read_msg.result = SMS_INVALID_PARAMETER_FORMAT;
928 tcore_user_request_send_response(user_req, TRESP_SMS_READ_MSG, sizeof(resp_read_msg), &resp_read_msg);
934 static void on_response_get_msg_indices(TcorePending *pending, int data_len, const void *data, void *user_data)
936 const TcoreATResponse *at_response = data;
937 struct tresp_sms_get_storedMsgCnt resp_stored_msg_cnt;
938 UserRequest *user_req = NULL;
939 struct tresp_sms_get_storedMsgCnt *resp_stored_msg_cnt_prev = NULL;
941 GSList *tokens = NULL;
942 char *gslist_line = NULL, *line_token = NULL;
943 int gslist_line_count = 0, ctr_loop = 0;
947 resp_stored_msg_cnt_prev = (struct tresp_sms_get_storedMsgCnt *)user_data;
948 user_req = tcore_pending_ref_user_request(pending);
950 memset(&resp_stored_msg_cnt, 0x00, sizeof(resp_stored_msg_cnt));
951 resp_stored_msg_cnt.result = SMS_DEVICE_FAILURE;
953 if (at_response->success) {
955 if (at_response->lines) {
956 gslist_line_count = g_slist_length(at_response->lines);
958 if (gslist_line_count > SMS_GSM_SMS_MSG_NUM_MAX)
959 gslist_line_count = SMS_GSM_SMS_MSG_NUM_MAX;
961 dbg("Number of lines: [%d]", gslist_line_count);
962 g_slist_foreach(at_response->lines, print_glib_list_elem, NULL); //for debug log
964 for (ctr_loop = 0; ctr_loop < gslist_line_count; ctr_loop++) {
965 gslist_line = (char *)g_slist_nth_data(at_response->lines, ctr_loop); /* Fetch Line i */
967 dbg("gslist_line [%d] is [%s]", ctr_loop, gslist_line);
969 if (NULL != gslist_line) {
970 tokens = tcore_at_tok_new(gslist_line);
972 g_slist_foreach(tokens, print_glib_list_elem, NULL); //for debug log
974 line_token = g_slist_nth_data(tokens, 0);
975 if (NULL != line_token) {
976 resp_stored_msg_cnt.storedMsgCnt.indexList[ctr_loop] = atoi(line_token);
977 resp_stored_msg_cnt.result = SMS_SENDSMS_SUCCESS;
979 dbg("line_token of gslist_line [%d] is NULL", ctr_loop);
982 tcore_at_tok_free(tokens);
984 dbg("gslist_line [%d] is NULL", ctr_loop);
990 if (resp_stored_msg_cnt_prev->storedMsgCnt.usedCount == 0) { // Check if used count is zero
991 resp_stored_msg_cnt.result = SMS_SENDSMS_SUCCESS;
998 resp_stored_msg_cnt.storedMsgCnt.totalCount = resp_stored_msg_cnt_prev->storedMsgCnt.totalCount;
999 resp_stored_msg_cnt.storedMsgCnt.usedCount = resp_stored_msg_cnt_prev->storedMsgCnt.usedCount;
1001 util_sms_free_memory(resp_stored_msg_cnt_prev);
1003 dbg("total: [%d], used: [%d], result: [%d]", resp_stored_msg_cnt.storedMsgCnt.totalCount, resp_stored_msg_cnt.storedMsgCnt.usedCount, resp_stored_msg_cnt.result);
1004 for (ctr_loop = 0; ctr_loop < gslist_line_count; ctr_loop++) {
1005 dbg("index: [%d]", resp_stored_msg_cnt.storedMsgCnt.indexList[ctr_loop]);
1008 tcore_user_request_send_response(user_req, TRESP_SMS_GET_STORED_MSG_COUNT, sizeof(resp_stored_msg_cnt), &resp_stored_msg_cnt);
1014 static void on_response_get_stored_msg_cnt(TcorePending *pending, int data_len, const void *data, void *user_data)
1016 UserRequest *ur = NULL, *ur_dup = NULL;
1017 struct tresp_sms_get_storedMsgCnt *respStoredMsgCnt = NULL;
1018 const TcoreATResponse *atResp = data;
1019 GSList *tokens=NULL;
1020 char *line = NULL , *pResp = NULL , *cmd_str = NULL;
1021 TcoreATRequest *atReq = NULL;
1022 int usedCnt = 0, totalCnt = 0, result = 0;
1024 TcorePending *pending_new = NULL;
1025 CoreObject *o = NULL;
1029 respStoredMsgCnt = malloc(sizeof(struct tresp_sms_get_storedMsgCnt));
1030 result = SMS_DEVICE_FAILURE;
1032 ur = tcore_pending_ref_user_request(pending);
1033 ur_dup = tcore_user_request_ref(ur);
1034 o = tcore_pending_ref_core_object(pending);
1036 if (atResp->success > 0) {
1038 if (NULL != atResp->lines) {
1039 line = (char *)atResp->lines->data;
1040 dbg("line is %s",line);
1042 tokens = tcore_at_tok_new(line);
1043 pResp = g_slist_nth_data(tokens, 0);
1046 usedCnt =atoi(pResp);
1047 dbg("used cnt is %d",usedCnt);
1050 pResp = g_slist_nth_data(tokens, 1);
1052 totalCnt =atoi(pResp);
1053 result = SMS_SENDSMS_SUCCESS;
1055 respStoredMsgCnt->storedMsgCnt.usedCount = usedCnt;
1056 respStoredMsgCnt->storedMsgCnt.totalCount = totalCnt;
1057 respStoredMsgCnt->result = result;
1059 dbg("used %d, total %d, result %d",usedCnt, totalCnt,result);
1061 pending_new = tcore_pending_new(o, 0);
1062 //Get all messages information
1063 cmd_str = g_strdup_printf("AT+CMGL=4");
1064 atReq = tcore_at_request_new((const char *)cmd_str, "+CMGL", TCORE_AT_MULTILINE);
1066 dbg("cmd str is %s",cmd_str);
1068 tcore_pending_set_request_data(pending_new, 0,atReq);
1069 tcore_pending_set_response_callback(pending_new, on_response_get_msg_indices, (void *)respStoredMsgCnt);
1070 tcore_pending_link_user_request(pending_new, ur_dup);
1071 tcore_pending_set_send_callback(pending_new, on_confirmation_sms_message_send, NULL);
1072 tcore_hal_send_request(tcore_object_get_hal(o), pending_new);
1074 //free the consumed token
1075 tcore_at_tok_free(tokens);
1082 //free the consumed token
1084 tcore_at_tok_free(tokens);
1089 err("Response NOK");
1091 respStoredMsgCnt->result = result;
1092 tcore_user_request_send_response(ur, TRESP_SMS_GET_STORED_MSG_COUNT, sizeof(struct tresp_sms_get_storedMsgCnt), &respStoredMsgCnt);
1099 static void on_response_get_sca(TcorePending *pending, int data_len, const void *data, void *user_data)
1101 const TcoreATResponse *at_response = data;
1102 struct tresp_sms_get_sca respGetSca;
1103 UserRequest *user_req = NULL;
1105 GSList *tokens = NULL;
1106 char *gslist_line = NULL, *sca_addr = NULL, *sca_toa = NULL;
1110 memset(&respGetSca, 0, sizeof(respGetSca));
1111 respGetSca.result = SMS_DEVICE_FAILURE;
1113 user_req = tcore_pending_ref_user_request(pending);
1115 if (at_response->success) {
1117 if (at_response->lines) {
1118 gslist_line = (char *)at_response->lines->data;
1120 tokens = tcore_at_tok_new(gslist_line);
1121 sca_addr = g_slist_nth_data(tokens, 0);
1122 sca_toa = g_slist_nth_data(tokens, 1);
1124 if ((NULL != sca_addr)
1125 && (NULL != sca_toa)) {
1126 dbg("sca_addr: [%s]. sca_toa: [%s]", sca_addr, sca_toa);
1128 respGetSca.scaAddress.dialNumLen = strlen(sca_addr);
1130 if (145 == atoi(sca_toa)) {
1131 respGetSca.scaAddress.typeOfNum = SIM_TON_INTERNATIONAL;
1133 respGetSca.scaAddress.typeOfNum = SIM_TON_NATIONAL;
1136 respGetSca.scaAddress.numPlanId = 0;
1138 memcpy(respGetSca.scaAddress.diallingNum, sca_addr, strlen(sca_addr));
1140 dbg("len [%d], sca_addr [%s], TON [%d], NPI [%d]", respGetSca.scaAddress.dialNumLen, respGetSca.scaAddress.diallingNum, respGetSca.scaAddress.typeOfNum, respGetSca.scaAddress.numPlanId);
1142 respGetSca.result = SMS_SENDSMS_SUCCESS;
1144 err("sca_addr OR sca_toa NULL");
1150 dbg("Response NOK");
1153 tcore_user_request_send_response(user_req, TRESP_SMS_GET_SCA, sizeof(respGetSca), &respGetSca);
1156 tcore_at_tok_free(tokens);
1162 static void on_response_set_sca(TcorePending *pending, int data_len, const void *data, void *user_data)
1165 Response is expected in this format
1171 //copies the AT response data to resp
1172 const TcoreATResponse *atResp = data;
1173 struct tresp_sms_set_sca respSetSca;
1175 memset(&respSetSca, 0, sizeof(struct tresp_sms_set_sca));
1177 ur = tcore_pending_ref_user_request(pending);
1179 dbg("no user_request");
1183 if (atResp->success > 0) {
1185 respSetSca.result = SMS_SUCCESS;
1187 dbg("RESPONSE NOK");
1188 respSetSca.result = SMS_DEVICE_FAILURE;
1191 tcore_user_request_send_response(ur, TRESP_SMS_SET_SCA, sizeof(struct tresp_sms_set_sca), &respSetSca);
1196 static void on_response_get_cb_config(TcorePending *p, int data_len, const void *data, void *user_data)
1199 struct tresp_sms_get_cb_config respGetCbConfig;
1200 const TcoreATResponse *atResp = data;
1201 GSList *tokens=NULL;
1203 char *pResp = NULL, *line = NULL;
1206 memset(&respGetCbConfig, 0, sizeof(struct tresp_sms_get_cb_config));
1207 respGetCbConfig.result = SMS_DEVICE_FAILURE;
1209 ur = tcore_pending_ref_user_request(p);
1211 dbg("no user_request");
1215 respGetCbConfig.cbConfig.net3gppType = SMS_NETTYPE_3GPP;
1217 if (atResp->success) {
1219 if (atResp->lines) {
1220 line = (char*)atResp->lines->data;
1222 dbg("line is %s",line);
1223 tokens = tcore_at_tok_new(line);
1224 pResp = g_slist_nth_data(tokens, 0);
1227 respGetCbConfig.cbConfig.cbEnabled = mode;
1229 pResp = g_slist_nth_data(tokens, 1);
1231 GSList *cb_tokens = NULL;
1232 char *cb_mid_str = NULL;
1233 int num_cb_tokens = 0;
1234 char *mid_tok = NULL;
1235 char *first_tok = NULL, *second_tok = NULL;
1237 // 0,1,5,320-478,922
1238 cb_mid_str = util_removeQuotes(pResp);
1239 cb_tokens = tcore_at_tok_new((const char *) cb_mid_str);
1241 num_cb_tokens = g_slist_length(cb_tokens);
1242 dbg("num_cb_tokens = %d", num_cb_tokens);
1244 if (num_cb_tokens == 0) {
1245 if (mode == 1) { // Enable all CBs
1246 respGetCbConfig.cbConfig.msgIdRangeCount = 1;
1247 respGetCbConfig.cbConfig.msgIDs[0].net3gpp.fromMsgId = 0x0000;
1248 respGetCbConfig.cbConfig.msgIDs[0].net3gpp.toMsgId = SMS_GSM_SMS_CBMI_LIST_SIZE_MAX + 1;
1249 respGetCbConfig.cbConfig.msgIDs[0].net3gpp.selected = TRUE;
1250 respGetCbConfig.result = SMS_SENDSMS_SUCCESS;
1251 } else { // all CBs disabled
1252 respGetCbConfig.cbConfig.msgIdRangeCount = 0;
1253 respGetCbConfig.cbConfig.msgIDs[0].net3gpp.selected = FALSE;
1254 respGetCbConfig.result = SMS_SENDSMS_SUCCESS;
1258 for (i = 0; i < num_cb_tokens; i++) {
1259 respGetCbConfig.cbConfig.msgIDs[i].net3gpp.selected = TRUE;
1260 respGetCbConfig.cbConfig.msgIdRangeCount++;
1262 mid_tok = tcore_at_tok_nth(cb_tokens, i);
1263 first_tok = strtok(mid_tok, delim);
1264 second_tok = strtok(NULL, delim);
1266 if ((first_tok != NULL) && (second_tok != NULL)) { // mids in range (320-478)
1267 dbg("inside if mid_range");
1268 respGetCbConfig.cbConfig.msgIDs[i].net3gpp.fromMsgId = atoi(first_tok);
1269 respGetCbConfig.cbConfig.msgIDs[i].net3gpp.toMsgId = atoi(second_tok);
1270 } // single mid value (0,1,5, 922)
1272 respGetCbConfig.cbConfig.msgIDs[i].net3gpp.fromMsgId = atoi(mid_tok);
1273 respGetCbConfig.cbConfig.msgIDs[i].net3gpp.toMsgId = atoi(mid_tok);
1279 respGetCbConfig.cbConfig.msgIdRangeCount = 1;
1280 respGetCbConfig.cbConfig.msgIDs[0].net3gpp.fromMsgId = 0x0000;
1281 respGetCbConfig.cbConfig.msgIDs[0].net3gpp.toMsgId = SMS_GSM_SMS_CBMI_LIST_SIZE_MAX + 1;
1282 respGetCbConfig.cbConfig.msgIDs[0].net3gpp.selected = TRUE;
1283 respGetCbConfig.result = SMS_SENDSMS_SUCCESS;
1285 respGetCbConfig.cbConfig.msgIdRangeCount = 0;
1286 respGetCbConfig.cbConfig.msgIDs[0].net3gpp.selected = FALSE;
1287 respGetCbConfig.result = SMS_SENDSMS_SUCCESS;
1291 dbg("line is NULL");
1294 dbg("atresp->lines is NULL");
1297 dbg("RESPONSE NOK");
1300 tcore_user_request_send_response(ur, TRESP_SMS_GET_CB_CONFIG, sizeof(struct tresp_sms_get_cb_config), &respGetCbConfig);
1303 tcore_at_tok_free(tokens);
1308 static void on_response_set_cb_config(TcorePending *pending, int data_len, const void *data, void *user_data)
1311 Response is expected in this format
1318 const TcoreATResponse *resp = data;
1320 const char *line = NULL;
1321 GSList *tokens=NULL;
1323 struct tresp_sms_set_cb_config respSetCbConfig = {0,};
1325 memset(&respSetCbConfig, 0, sizeof(struct tresp_sms_set_cb_config));
1327 ur = tcore_pending_ref_user_request(pending);
1328 respSetCbConfig.result = SMS_SENDSMS_SUCCESS;
1330 if (resp->success > 0) {
1333 dbg("RESPONSE NOK");
1334 line = (const char*)resp->final_response;
1335 tokens = tcore_at_tok_new(line);
1337 if (g_slist_length(tokens) < 1) {
1338 dbg("err cause not specified or string corrupted");
1339 respSetCbConfig.result = SMS_DEVICE_FAILURE;
1341 response = atoi(g_slist_nth_data(tokens, 0));
1342 /* TODO: CMEE error mapping is required. */
1343 respSetCbConfig.result = SMS_DEVICE_FAILURE;
1347 dbg("no user_request");
1351 tcore_user_request_send_response(ur, TRESP_SMS_SET_CB_CONFIG, sizeof(struct tresp_sms_set_cb_config), &respSetCbConfig);
1354 tcore_at_tok_free(tokens);
1359 static void on_response_set_mem_status(TcorePending *p, int data_len, const void *data, void *user_data)
1362 struct tresp_sms_set_mem_status respSetMemStatus = {0,};
1363 const TcoreATResponse *resp = data;
1365 memset(&respSetMemStatus, 0, sizeof(struct tresp_sms_set_mem_status));
1367 if (resp->success > 0) {
1369 respSetMemStatus.result = SMS_SENDSMS_SUCCESS;
1371 dbg("RESPONSE NOK");
1372 respSetMemStatus.result = SMS_DEVICE_FAILURE;
1375 ur = tcore_pending_ref_user_request(p);
1377 dbg("no user_request");
1381 tcore_user_request_send_response(ur, TRESP_SMS_SET_MEM_STATUS, sizeof(struct tresp_sms_set_mem_status), &respSetMemStatus);
1386 static void on_response_set_msg_status(TcorePending *pending, int data_len, const void *data, void *user_data)
1389 struct tresp_sms_set_msg_status respMsgStatus = {0, };
1390 const TcoreATResponse *atResp = data;
1391 int response = 0, sw1 = 0, sw2 = 0;
1392 const char *line = NULL;
1394 GSList *tokens = NULL;
1398 memset(&respMsgStatus, 0, sizeof(struct tresp_sms_set_msg_status));
1399 respMsgStatus.result = SMS_DEVICE_FAILURE;
1401 ur = tcore_pending_ref_user_request(pending);
1403 if (atResp->success > 0) {
1406 if (atResp->lines) {
1407 line = (const char *) atResp->lines->data;
1408 tokens = tcore_at_tok_new(line);
1409 pResp = g_slist_nth_data(tokens, 0);
1410 if (pResp != NULL) {
1415 pResp = g_slist_nth_data(tokens, 1);
1416 if (pResp != NULL) {
1418 if ((sw1 == AT_SW1_SUCCESS) && (sw2 == 0)) {
1419 respMsgStatus.result = SMS_SENDSMS_SUCCESS;
1424 pResp = g_slist_nth_data(tokens, 3);
1426 if (pResp != NULL) {
1427 response = atoi(pResp);
1428 dbg("response is %s", response);
1434 dbg("RESPONSE NOK");
1437 tcore_user_request_send_response(ur, TRESP_SMS_SET_MSG_STATUS , sizeof(struct tresp_sms_set_msg_status), &respMsgStatus);
1440 tcore_at_tok_free(tokens);
1446 static void on_response_get_sms_params(TcorePending *pending, int data_len, const void *data, void *user_data)
1449 struct tresp_sms_get_params respGetParams ;
1450 const TcoreATResponse *atResp = data;
1451 int sw1 = 0, sw2 = 0;
1452 const char *line = NULL;
1454 GSList *tokens=NULL;
1455 char *hexData = NULL;
1456 char *recordData = NULL;
1459 memset(&respGetParams, 0, sizeof(struct tresp_sms_get_params));
1460 respGetParams.result = SMS_DEVICE_FAILURE;
1462 ur = tcore_pending_ref_user_request(pending);
1464 if (atResp->success > 0) {
1467 if (atResp->lines) {
1468 line = (const char *) atResp->lines->data;
1469 tokens = tcore_at_tok_new(line);
1470 pResp = g_slist_nth_data(tokens, 0);
1471 if (pResp != NULL) {
1473 dbg("sw1 is %d", sw1);
1477 pResp = g_slist_nth_data(tokens, 1);
1478 if (pResp != NULL) {
1480 dbg("sw2 is %d", sw2);
1481 if ((sw1 == 0x90 && sw2 == 0x00) || sw1 == 0x91) {
1482 respGetParams.result = SMS_SENDSMS_SUCCESS;
1487 pResp = g_slist_nth_data(tokens, 2);
1488 if (pResp != NULL) {
1489 hexData = util_removeQuotes(pResp);
1491 recordData = util_hexStringToBytes(hexData);
1492 util_hex_dump(" ", strlen(hexData) / 2, recordData);
1494 respGetParams.paramsInfo.recordLen = strlen(hexData) / 2;
1496 util_sms_decode_smsParameters((unsigned char *) recordData, strlen(hexData) / 2, &(respGetParams.paramsInfo));
1497 respGetParams.result = SMS_SENDSMS_SUCCESS;
1499 for (i = 0; i < (int) respGetParams.paramsInfo.tpSvcCntrAddr.dialNumLen; i++)
1500 dbg("SCAddr = %d [%02x]", i, respGetParams.paramsInfo.tpSvcCntrAddr.diallingNum[i]);
1507 tcore_at_tok_free(tokens);
1510 dbg("RESPONSE NOK");
1513 tcore_user_request_send_response(ur, TRESP_SMS_GET_PARAMS, sizeof(struct tresp_sms_get_params), &respGetParams);
1519 static void on_response_set_sms_params(TcorePending *pending, int data_len, const void *data, void *user_data)
1522 struct tresp_sms_set_params respSetParams = {0, };
1523 const TcoreATResponse *atResp = data;
1524 int sw1 =0 , sw2 = 0;
1525 const char *line = NULL;
1527 GSList *tokens=NULL;
1530 memset(&respSetParams, 0, sizeof(struct tresp_sms_set_params));
1531 ur = tcore_pending_ref_user_request(pending);
1533 respSetParams.result = SMS_DEVICE_FAILURE;
1535 if (atResp->success > 0) {
1538 if (atResp->lines) {
1539 line = (const char *) atResp->lines->data;
1540 tokens = tcore_at_tok_new(line);
1541 pResp = g_slist_nth_data(tokens, 0);
1542 if (pResp != NULL) {
1548 pResp = g_slist_nth_data(tokens, 1);
1549 if (pResp != NULL) {
1551 if (((sw1 == AT_SW1_SUCCESS) && (sw2 == AT_SW2_SUCCESS)) || (sw1 == 0x91)) {
1552 respSetParams.result = SMS_SENDSMS_SUCCESS;
1561 dbg("RESPONSE NOK");
1564 tcore_user_request_send_response(ur, TRESP_SMS_SET_PARAMS , sizeof(struct tresp_sms_set_params), &respSetParams);
1567 tcore_at_tok_free(tokens);
1573 static void on_response_get_paramcnt(TcorePending *p, int data_len, const void *data, void *user_data)
1575 UserRequest *ur = NULL;
1576 struct tresp_sms_get_paramcnt respGetParamCnt = {0, };
1577 const TcoreATResponse *atResp = data;
1578 char *line = NULL , *pResp = NULL;
1579 int sw1 = 0 , sw2 = 0, *smsp_record_len = NULL;
1581 GSList *tokens=NULL;
1582 CoreObject *co_sim = NULL; //need this to get the sim type GSM/USIM
1583 TcorePlugin *plugin = NULL;
1587 ur = tcore_pending_ref_user_request(p);
1588 respGetParamCnt.result = SMS_DEVICE_FAILURE;
1590 if (atResp->success > 0) {
1593 if (atResp->lines) {
1594 line = (char *) atResp->lines->data;
1596 dbg("line is %s", line);
1598 tokens = tcore_at_tok_new(line);
1599 pResp = g_slist_nth_data(tokens, 0);
1600 if (pResp != NULL) {
1605 pResp = g_slist_nth_data(tokens, 1);
1606 if (pResp != NULL) {
1608 if ((sw1 == 144) && (sw2 == 0)) {
1609 respGetParamCnt.result = SMS_SENDSMS_SUCCESS;
1614 pResp = g_slist_nth_data(tokens, 2);
1615 if (pResp != NULL) {
1616 char *hexData = NULL;
1617 char *recordData = NULL;
1618 hexData = util_removeQuotes(pResp);
1620 /*1. SIM access success case*/
1621 if ((sw1 == 0x90 && sw2 == 0x00) || sw1 == 0x91) {
1622 unsigned char tag_len = 0; /* 1 or 2 bytes ??? */
1624 char num_of_records = 0;
1625 unsigned char file_id_len = 0;
1626 unsigned short file_id = 0;
1627 unsigned short file_size = 0;
1628 unsigned short file_type = 0;
1629 unsigned short arr_file_id = 0;
1630 int arr_file_id_rec_num = 0;
1632 /* handling only last 3 bits */
1633 unsigned char file_type_tag = 0x07;
1634 unsigned char *ptr_data;
1636 recordData = util_hexStringToBytes(hexData);
1637 util_hex_dump(" ", strlen(hexData)/2, recordData);
1639 ptr_data = (unsigned char *)recordData;
1641 co_sim = tcore_plugin_ref_core_object(tcore_pending_ref_plugin(p), CORE_OBJECT_TYPE_SIM);
1642 sim_type = tcore_sim_get_type(co_sim);
1643 dbg("sim type is %d",sim_type);
1645 if (sim_type == SIM_TYPE_USIM) {
1647 ETSI TS 102 221 v7.9.0
1649 '62' FCP template tag
1650 - Response for an EF
1651 '82' M File Descriptor
1652 '83' M File Identifier
1653 'A5' O Proprietary information
1654 '8A' M Life Cycle Status Integer
1655 '8B', '8C' or 'AB' C1 Security attributes
1657 '81' O Total file size
1658 '88' O Short File Identifier (SFI)
1661 /* rsim.res_len has complete data length received */
1663 /* FCP template tag - File Control Parameters tag*/
1664 if (*ptr_data == 0x62) {
1665 /* parse complete FCP tag*/
1666 /* increment to next byte */
1668 tag_len = *ptr_data++;
1669 /* FCP file descriptor - file type, accessibility, DF, ADF etc*/
1670 if (*ptr_data == 0x82) {
1671 /* increment to next byte */
1675 /* unsigned char file_desc_len = *ptr_data++;*/
1676 /* dbg("file descriptor length: [%d]", file_desc_len);*/
1677 /* TBD: currently capture only file type : ignore sharable, non sharable, working, internal etc*/
1678 /* consider only last 3 bits*/
1679 file_type_tag = file_type_tag & (*ptr_data);
1681 switch (file_type_tag) {
1682 /* increment to next byte */
1686 dbg("Getting FileType: [Transparent file type]");
1687 /* increment to next byte */
1689 file_type = 0x01; //SIM_FTYPE_TRANSPARENT
1690 /* data coding byte - value 21 */
1695 dbg("Getting FileType: [Linear fixed file type]");
1696 /* increment to next byte */
1698 /* data coding byte - value 21 */
1701 memcpy(&record_len, ptr_data, 2);
1703 record_len = SMS_SWAPBYTES16(record_len);
1704 ptr_data = ptr_data + 2;
1705 num_of_records = *ptr_data++;
1706 /* Data lossy conversation from enum (int) to unsigned char */
1707 file_type = 0x02; // SIM_FTYPE_LINEAR_FIXED
1711 dbg(" Cyclic fixed file type");
1712 /* increment to next byte */
1714 /* data coding byte - value 21 */
1717 memcpy(&record_len, ptr_data, 2);
1719 record_len = SMS_SWAPBYTES16(record_len);
1720 ptr_data = ptr_data + 2;
1721 num_of_records = *ptr_data++;
1722 file_type = 0x04; //SIM_FTYPE_CYCLIC
1726 dbg("not handled file type [0x%x]", *ptr_data);
1730 dbg("INVALID FCP received - DEbug!");
1733 tcore_at_tok_free(tokens);
1737 /*File identifier - file id?? */ // 0x84,0x85,0x86 etc are currently ignored and not handled
1738 if (*ptr_data == 0x83) {
1739 /* increment to next byte */
1741 file_id_len = *ptr_data++;
1742 memcpy(&file_id, ptr_data, file_id_len);
1744 file_id = SMS_SWAPBYTES16(file_id);
1745 ptr_data = ptr_data + 2;
1746 dbg("Getting FileID=[0x%x]", file_id);
1748 dbg("INVALID FCP received - DEbug!");
1751 tcore_at_tok_free(tokens);
1755 /* proprietary information */
1756 if (*ptr_data == 0xA5) {
1757 unsigned short prop_len;
1758 /* increment to next byte */
1761 prop_len = *ptr_data;
1763 ptr_data = ptr_data + prop_len + 1;
1765 dbg("INVALID FCP received - DEbug!");
1768 /* life cycle status integer [8A][length:0x01][status]*/
1771 00000000 : No information given
1772 00000001 : creation state
1773 00000011 : initialization state
1774 000001-1 : operation state -activated
1775 000001-0 : operation state -deactivated
1776 000011-- : Termination state
1777 b8~b5 !=0, b4~b1=X : Proprietary
1778 Any other value : RFU
1780 if (*ptr_data == 0x8A) {
1781 /* increment to next byte */
1783 /* length - value 1 */
1786 switch (*ptr_data) {
1789 dbg("<IPC_RX> operation state -deactivated");
1795 dbg("<IPC_RX> operation state -activated");
1800 dbg("<IPC_RX> DEBUG! LIFE CYCLE STATUS =[0x%x]",*ptr_data);
1806 /* related to security attributes : currently not handled*/
1807 if (*ptr_data == 0x86 || *ptr_data == 0x8B || *ptr_data == 0x8C || *ptr_data == 0xAB) {
1808 /* increment to next byte */
1810 /* if tag length is 3 */
1811 if (*ptr_data == 0x03) {
1812 /* increment to next byte */
1815 memcpy(&arr_file_id, ptr_data, 2);
1817 arr_file_id = SMS_SWAPBYTES16(arr_file_id);
1818 ptr_data = ptr_data + 2;
1819 arr_file_id_rec_num = *ptr_data++;
1821 /* if tag length is not 3 */
1822 /* ignoring bytes */
1823 // ptr_data = ptr_data + 4;
1824 dbg("Useless security attributes, so jump to next tag");
1825 ptr_data = ptr_data + (*ptr_data + 1);
1828 dbg("INVALID FCP received[0x%x] - DEbug!", *ptr_data);
1831 tcore_at_tok_free(tokens);
1835 dbg("Current ptr_data value is [%x]", *ptr_data);
1837 /* file size excluding structural info*/
1838 if (*ptr_data == 0x80) {
1839 /* for EF file size is body of file and for Linear or cyclic it is
1840 * number of recXsizeof(one record)
1842 /* increment to next byte */
1844 /* length is 1 byte - value is 2 bytes or more */
1846 memcpy(&file_size, ptr_data, 2);
1848 file_size = SMS_SWAPBYTES16(file_size);
1849 ptr_data = ptr_data + 2;
1851 dbg("INVALID FCP received - DEbug!");
1854 tcore_at_tok_free(tokens);
1858 /* total file size including structural info*/
1859 if (*ptr_data == 0x81) {
1861 /* increment to next byte */
1866 ptr_data = ptr_data + 3;
1868 dbg("INVALID FCP received - DEbug!");
1869 /* 0x81 is optional tag?? check out! so do not return -1 from here! */
1872 /*short file identifier ignored*/
1873 if (*ptr_data == 0x88) {
1874 dbg("0x88: Do Nothing");
1878 dbg("INVALID FCP received - DEbug!");
1881 tcore_at_tok_free(tokens);
1884 } else if (sim_type == SIM_TYPE_GSM) {
1885 unsigned char gsm_specific_file_data_len = 0;
1886 /* ignore RFU byte1 and byte2 */
1890 //file_size = p_info->response_len;
1891 memcpy(&file_size, ptr_data, 2);
1893 file_size = SMS_SWAPBYTES16(file_size);
1894 /* parsed file size */
1895 ptr_data = ptr_data + 2;
1897 memcpy(&file_id, ptr_data, 2);
1898 file_id = SMS_SWAPBYTES16(file_id);
1899 dbg(" FILE id --> [%x]", file_id);
1900 ptr_data = ptr_data + 2;
1901 /* save file type - transparent, linear fixed or cyclic */
1902 file_type_tag = (*(ptr_data + 7));
1904 switch (*ptr_data) {
1907 dbg(" RFU file type- not handled - Debug!");
1912 dbg(" MF file type - not handled - Debug!");
1917 dbg(" DF file type - not handled - Debug!");
1922 dbg(" EF file type [%d] ", file_type_tag);
1923 /* increment to next byte */
1926 if (file_type_tag == 0x00 || file_type_tag == 0x01) {
1927 /* increament to next byte as this byte is RFU */
1930 (file_type_tag == 0x00) ? 0x01 : 0x02; // SIM_FTYPE_TRANSPARENT:SIM_FTYPE_LINEAR_FIXED;
1932 /* increment to next byte */
1934 /* For a cyclic EF all bits except bit 7 are RFU; b7=1 indicates that */
1935 /* the INCREASE command is allowed on the selected cyclic file. */
1936 file_type = 0x04; // SIM_FTYPE_CYCLIC;
1938 /* bytes 9 to 11 give SIM file access conditions */
1940 /* byte 10 has one nibble that is RF U and another for INCREASE which is not used currently */
1942 /* byte 11 is invalidate and rehabilate nibbles */
1944 /* byte 12 - file status */
1946 /* byte 13 - GSM specific data */
1947 gsm_specific_file_data_len = *ptr_data;
1949 /* byte 14 - structure of EF - transparent or linear or cyclic , already saved above */
1951 /* byte 15 - length of record for linear and cyclic , for transparent it is set to 0x00. */
1952 record_len = *ptr_data;
1953 dbg("record length[%d], file size[%d]", record_len, file_size);
1955 if (record_len != 0)
1956 num_of_records = (file_size / record_len);
1958 dbg("Number of records [%d]", num_of_records);
1962 dbg(" not handled file type");
1966 dbg(" Card Type - UNKNOWN [%d]", sim_type);
1969 dbg("EF[0x%x] size[%ld] Type[0x%x] NumOfRecords[%ld] RecordLen[%ld]", file_id, file_size, file_type, num_of_records, record_len);
1971 respGetParamCnt.recordCount = num_of_records;
1972 respGetParamCnt.result = SMS_SUCCESS;
1974 //TO Store smsp record length in the property
1975 plugin = tcore_pending_ref_plugin(p);
1976 smsp_record_len = tcore_plugin_ref_property(plugin, "SMSPRECORDLEN");
1977 memcpy(smsp_record_len, &record_len, sizeof(int));
1982 /*2. SIM access fail case*/
1983 dbg("SIM access fail");
1984 respGetParamCnt.result = SMS_UNKNOWN;
1987 dbg("presp is NULL");
1990 dbg("line is blank");
1993 dbg("RESPONSE NOK");
1996 tcore_user_request_send_response(ur, TRESP_SMS_GET_PARAMCNT, sizeof(struct tresp_sms_get_paramcnt), &respGetParamCnt);
1999 tcore_at_tok_free(tokens);
2005 static void _response_get_efsms_data(TcorePending *p, int data_len, const void *data, void *user_data)
2007 UserRequest *ur = NULL;
2008 UserRequest *dup_ur = NULL;
2009 struct tresp_sms_set_msg_status resp_msg_status = {0,};
2010 const struct treq_sms_set_msg_status *req_msg_status = NULL ;
2012 const TcoreATResponse *resp = data;
2013 char *encoded_data = NULL;
2014 char msg_status = 0;
2016 GSList *tokens=NULL;
2017 const char *line = NULL;
2021 TcoreHal *hal = NULL;
2022 TcoreATRequest *atreq = NULL;
2023 TcorePending *pending = NULL;
2024 gchar *cmd_str = NULL;
2026 ur = tcore_pending_ref_user_request(p);
2028 req_msg_status = tcore_user_request_ref_data(ur, NULL);
2030 resp_msg_status.result = SMS_DEVICE_FAILURE;
2032 hal = tcore_object_get_hal(tcore_pending_ref_core_object(pending));
2033 dbg("msgStatus: [%x], index [%x]", req_msg_status->msgStatus, req_msg_status->index);
2035 if (resp->success <= 0) {
2042 line = (const char *) resp->lines->data;
2043 tokens = tcore_at_tok_new(line);
2044 if (g_slist_length(tokens) != 3) {
2045 msg("invalid message");
2049 sw1 = atoi(g_slist_nth_data(tokens, 0));
2050 sw2 = atoi(g_slist_nth_data(tokens, 1));
2051 pResp = g_slist_nth_data(tokens, 2);
2053 if ((sw1 == 0x90 && sw2 == 0x00) || sw1 == 0x91) {
2054 switch (req_msg_status->msgStatus) {
2055 case SMS_STATUS_READ:
2059 case SMS_STATUS_UNREAD:
2063 case SMS_STATUS_UNSENT:
2067 case SMS_STATUS_SENT:
2071 case SMS_STATUS_DELIVERED:
2075 case SMS_STATUS_DELIVERY_UNCONFIRMED:
2079 case SMS_STATUS_MESSAGE_REPLACED:
2080 case SMS_STATUS_RESERVED:
2086 encoded_data = util_removeQuotes(pResp);
2088 //overwrite Status byte information
2089 util_byte_to_hex((const char *)&msg_status, (char *)encoded_data, 1);
2091 //Update EF-SMS with just status byte overwritten, rest 175 bytes are same as received in read information
2092 cmd_str = g_strdup_printf("AT+CRSM=220,28476,%d, 4, %d, \"%s\"", (req_msg_status->index+1), PDU_LEN_MAX, encoded_data);
2093 atreq = tcore_at_request_new((const char *)cmd_str, "+CRSM", TCORE_AT_SINGLELINE);
2094 pending = tcore_pending_new(tcore_pending_ref_core_object(pending), 0);
2095 if (NULL == cmd_str || NULL == atreq || NULL == pending) {
2096 err("Out of memory. Unable to proceed");
2097 dbg("cmd_str: [%p], atreq: [%p], pending: [%p]", cmd_str, atreq, pending);
2099 //free memory we own
2102 util_sms_free_memory(atreq);
2103 util_sms_free_memory(pending);
2108 util_hex_dump(" ", strlen(cmd_str), (void *)cmd_str);
2110 dup_ur = tcore_user_request_ref(ur);
2112 tcore_pending_set_request_data(pending, 0, atreq);
2113 tcore_pending_set_response_callback(pending, on_response_set_msg_status, NULL);
2114 tcore_pending_link_user_request(pending, dup_ur);
2115 tcore_pending_set_send_callback(pending, on_confirmation_sms_message_send, NULL);
2116 tcore_hal_send_request(hal, pending);
2125 tcore_at_tok_free(tokens);
2127 tcore_user_request_send_response(ur, TRESP_SMS_SET_MSG_STATUS , sizeof(struct tresp_sms_set_msg_status), &msg_status);
2134 /*=============================================================
2136 ==============================================================*/
2137 static TReturn send_umts_msg(CoreObject *co_sms, UserRequest *ur)
2139 const struct treq_sms_send_umts_msg *send_msg;
2140 const unsigned char *tpdu_byte_data, *sca_byte_data;
2141 int tpdu_byte_len, pdu_byte_len;
2142 char buf[HEX_PDU_LEN_MAX];
2143 char pdu[PDU_LEN_MAX];
2145 int pdu_hex_len, mms;
2150 send_msg = tcore_user_request_ref_data(ur, NULL);
2152 tpdu_byte_data = send_msg->msgDataPackage.tpduData;
2153 sca_byte_data = send_msg->msgDataPackage.sca;
2156 /* TPDU length is in byte */
2157 tpdu_byte_len = send_msg->msgDataPackage.msgLength;
2159 /* Use same Radio Resource Channel */
2160 mms = send_msg->more;
2162 dbg("TDPU length: [%d]", tpdu_byte_len);
2163 dbg("SCA semi-octet length: [%d]", sca_byte_data[0]);
2165 /* Prepare PDU for hex encoding */
2166 pdu_byte_len = tcore_util_pdu_encode(sca_byte_data, tpdu_byte_data,
2167 tpdu_byte_len, pdu);
2169 pdu_hex_len = (int) tcore_util_encode_hex((unsigned char *) pdu,
2172 dbg("PDU hexadecimal length: [%d]", pdu_hex_len);
2175 cmd_str = g_strdup_printf("AT+CMMS=%d", mms);
2177 ret = tcore_prepare_and_send_at_request(co_sms, cmd_str, NULL,
2178 TCORE_AT_NO_RESULT, NULL, NULL, NULL,
2179 on_confirmation_sms_message_send,
2181 if (ret != TCORE_RETURN_SUCCESS) {
2182 err("Failed to prepare and send AT request");
2189 cmd_str = g_strdup_printf("AT+CMGS=%d\r%s\x1A", tpdu_byte_len, buf);
2191 ret = tcore_prepare_and_send_at_request(co_sms, cmd_str, "+CMGS:",
2192 TCORE_AT_SINGLELINE, ur,
2193 on_response_send_umts_msg, NULL,
2194 on_confirmation_sms_message_send, NULL);
2195 if (ret != TCORE_RETURN_SUCCESS)
2196 err("Failed to prepare and send AT request");
2206 static TReturn read_msg(CoreObject *obj, UserRequest *ur)
2208 gchar *cmd_str = NULL;
2209 TcoreHal *hal = NULL;
2210 TcoreATRequest *atreq = NULL;
2211 TcorePending *pending = NULL;
2212 const struct treq_sms_read_msg *readMsg = NULL;
2216 readMsg = tcore_user_request_ref_data(ur, NULL);
2217 hal = tcore_object_get_hal(obj);
2218 if (NULL == readMsg || NULL == hal) {
2219 err("NULL input. Unable to proceed");
2220 dbg("readMsg: [%p], hal: [%p]", readMsg, hal);
2223 return TCORE_RETURN_EINVAL;
2226 if(FALSE == tcore_hal_get_power_state(hal)){
2227 dbg("cp not ready/n");
2228 return TCORE_RETURN_ENOSYS;
2230 dbg("index: [%d]", readMsg->index);
2232 cmd_str = g_strdup_printf("AT+CMGR=%d", (readMsg->index + 1)); //IMC index is one ahead of TAPI
2233 atreq = tcore_at_request_new((const char *)cmd_str, "+CMGR", TCORE_AT_PDU);
2234 pending = tcore_pending_new(obj, 0);
2236 if (NULL == cmd_str || NULL == atreq || NULL == pending) {
2237 err("Out of memory. Unable to proceed");
2238 dbg("cmd_str: [%p], atreq: [%p], pending: [%p]", cmd_str, atreq, pending);
2240 //free memory we own
2242 util_sms_free_memory(atreq);
2243 util_sms_free_memory(pending);
2246 return TCORE_RETURN_ENOMEM;
2249 util_hex_dump(" ", strlen(cmd_str), (void *)cmd_str);
2251 tcore_pending_set_request_data(pending, 0, atreq);
2252 tcore_pending_set_response_callback(pending, on_response_read_msg, (void *)(uintptr_t)(readMsg->index)); //storing index as user data for response
2253 tcore_pending_link_user_request(pending, ur);
2254 tcore_pending_set_send_callback(pending, on_confirmation_sms_message_send, NULL);
2255 tcore_hal_send_request(hal, pending);
2260 return TCORE_RETURN_SUCCESS;
2263 static TReturn save_msg(CoreObject *obj, UserRequest *ur)
2265 gchar *cmd_str = NULL;
2266 TcoreHal *hal = NULL;
2267 TcoreATRequest *atreq = NULL;
2268 TcorePending *pending = NULL;
2269 const struct treq_sms_save_msg *saveMsg = NULL;
2270 int ScLength = 0, pdu_len = 0, stat = 0;
2271 char buf[2*(SMS_SMSP_ADDRESS_LEN+SMS_SMDATA_SIZE_MAX)+1] = {0};
2272 char *hex_pdu = NULL;
2276 saveMsg = tcore_user_request_ref_data(ur, NULL);
2277 hal = tcore_object_get_hal(obj);
2278 if (NULL == saveMsg || NULL == hal) {
2279 err("NULL input. Unable to proceed");
2280 dbg("saveMsg: [%p], hal: [%p]", saveMsg, hal);
2283 return TCORE_RETURN_EINVAL;
2285 if(FALSE == tcore_hal_get_power_state(hal)){
2286 dbg("cp not ready/n");
2287 return TCORE_RETURN_ENOSYS;
2290 dbg("msgStatus: %x, msgLength: [%d]", saveMsg->msgStatus, saveMsg->msgDataPackage.msgLength);
2291 util_hex_dump(" ", (SMS_SMDATA_SIZE_MAX+1), (void *)saveMsg->msgDataPackage.tpduData);
2292 util_hex_dump(" ", SMS_SMSP_ADDRESS_LEN, (void *)saveMsg->msgDataPackage.sca);
2294 switch (saveMsg->msgStatus) {
2295 case SMS_STATUS_READ:
2299 case SMS_STATUS_UNREAD:
2300 stat = AT_REC_UNREAD;
2303 case SMS_STATUS_SENT:
2307 case SMS_STATUS_UNSENT:
2308 stat = AT_STO_UNSENT;
2312 err("Invalid msgStatus");
2314 return TCORE_RETURN_EINVAL;
2317 if ((saveMsg->msgDataPackage.msgLength > 0)
2318 && (saveMsg->msgDataPackage.msgLength <= SMS_SMDATA_SIZE_MAX)) {
2319 ScLength = (int)saveMsg->msgDataPackage.sca[0];
2322 dbg("ScLength = %d", ScLength);
2327 memcpy(&buf[1], saveMsg->msgDataPackage.sca, ScLength);
2330 memcpy(&buf[ScLength+1], saveMsg->msgDataPackage.tpduData, saveMsg->msgDataPackage.msgLength);
2332 pdu_len= saveMsg->msgDataPackage.msgLength + ScLength + 1;
2333 dbg("pdu_len: [%d]", pdu_len);
2335 hex_pdu = malloc(pdu_len * 2 + 1);
2336 util_hex_dump(" ", sizeof(buf), (void *)buf);
2338 memset (hex_pdu, 0x00, pdu_len * 2 + 1);
2340 util_byte_to_hex((const char *)buf, (char *)hex_pdu, pdu_len);
2342 //AT+CMGW=<length>[,<stat>]<CR>PDU is given<ctrl-Z/ESC>
2343 cmd_str = g_strdup_printf("AT+CMGW=%d,%d%s%s\x1A", saveMsg->msgDataPackage.msgLength, stat, "\r", hex_pdu);
2344 pending = tcore_pending_new(obj, 0);
2345 atreq = tcore_at_request_new((const char *)cmd_str, "+CMGW", TCORE_AT_SINGLELINE);
2347 if(NULL == cmd_str || NULL == atreq || NULL == pending) {
2348 err("Out of memory. Unable to proceed");
2349 dbg("cmd_str: [%p], atreq: [%p], pending: [%p]", cmd_str, atreq, pending);
2351 //free memory we own
2353 util_sms_free_memory(atreq);
2354 util_sms_free_memory(pending);
2355 util_sms_free_memory(hex_pdu);
2358 return TCORE_RETURN_ENOMEM;
2361 util_hex_dump(" ", strlen(cmd_str), (void *)cmd_str);
2363 tcore_pending_set_request_data(pending, 0, atreq);
2364 tcore_pending_set_response_callback(pending, on_response_sms_save_msg, NULL);
2365 tcore_pending_link_user_request(pending, ur);
2366 tcore_pending_set_send_callback(pending, on_confirmation_sms_message_send, NULL);
2367 tcore_hal_send_request(hal, pending);
2373 return TCORE_RETURN_SUCCESS;
2376 err("Invalid Data len");
2378 return TCORE_RETURN_SMS_INVALID_DATA_LEN;
2381 static TReturn delete_msg(CoreObject *obj, UserRequest *ur)
2383 gchar *cmd_str = NULL;
2384 TcoreHal *hal = NULL;
2385 TcoreATRequest *atreq = NULL;
2386 TcorePending *pending = NULL;
2387 const struct treq_sms_delete_msg *delete_msg = NULL;
2391 delete_msg = tcore_user_request_ref_data(ur, NULL);
2392 hal = tcore_object_get_hal(obj);
2393 if (NULL == delete_msg || NULL == hal) {
2394 err("NULL input. Unable to proceed");
2395 dbg("deleteMsg: [%p], hal: [%p]", delete_msg, hal);
2398 return TCORE_RETURN_EINVAL;
2401 if(FALSE == tcore_hal_get_power_state(hal)){
2402 dbg("cp not ready/n");
2403 return TCORE_RETURN_ENOSYS;
2406 dbg("index: %d", delete_msg->index);
2408 if (delete_msg->index == -1) {
2409 cmd_str = g_strdup_printf("AT+CMGD=0,4"); // Delete All Messages
2411 cmd_str = g_strdup_printf("AT+CMGD=%d,0", delete_msg->index + 1); // Delete specified index
2414 pending = tcore_pending_new(obj, 0);
2415 atreq = tcore_at_request_new((const char *)cmd_str, NULL, TCORE_AT_NO_RESULT);
2416 if (NULL == cmd_str || NULL == atreq || NULL == pending) {
2417 err("Out of memory. Unable to proceed");
2418 dbg("cmd_str: [%p], atreq: [%p], pending: [%p]", cmd_str, atreq, pending);
2420 //free memory we own
2422 util_sms_free_memory(atreq);
2423 util_sms_free_memory(pending);
2426 return TCORE_RETURN_ENOMEM;
2429 util_hex_dump(" ", strlen(cmd_str), (void *)cmd_str);
2431 tcore_pending_set_request_data(pending, 0, atreq);
2432 tcore_pending_set_response_callback(pending, on_response_sms_delete_msg, (void *) (uintptr_t) (delete_msg->index)); // storing index as user data for response
2433 tcore_pending_link_user_request(pending, ur);
2434 tcore_pending_set_send_callback(pending, on_confirmation_sms_message_send, NULL);
2435 tcore_hal_send_request(hal, pending);
2440 return TCORE_RETURN_SUCCESS;
2443 static TReturn get_stored_msg_cnt(CoreObject *obj, UserRequest *ur)
2445 gchar *cmd_str = NULL;
2446 TcoreHal *hal = NULL;
2447 TcoreATRequest *atreq = NULL;
2448 TcorePending *pending = NULL;
2452 hal = tcore_object_get_hal(obj);
2454 err("NULL HAL. Unable to proceed");
2457 return TCORE_RETURN_EINVAL;
2460 if(FALSE == tcore_hal_get_power_state(hal)){
2461 dbg("cp not ready/n");
2462 return TCORE_RETURN_ENOSYS;
2465 cmd_str = g_strdup_printf("AT+CPMS=\"SM\"");
2466 pending = tcore_pending_new(obj, 0);
2467 atreq = tcore_at_request_new((const char *)cmd_str, "+CPMS", TCORE_AT_SINGLELINE);
2469 if (NULL == cmd_str || NULL == atreq || NULL == pending) {
2470 err("Out of memory. Unable to proceed");
2471 dbg("cmd_str: [%p], atreq: [%p], pending: [%p]", cmd_str, atreq, pending);
2473 //free memory we own
2475 util_sms_free_memory(atreq);
2476 util_sms_free_memory(pending);
2479 return TCORE_RETURN_ENOMEM;
2482 util_hex_dump(" ", strlen(cmd_str), (void *)cmd_str);
2484 tcore_pending_set_request_data(pending, 0, atreq);
2485 tcore_pending_set_response_callback(pending, on_response_get_stored_msg_cnt, NULL);
2486 tcore_pending_link_user_request(pending, ur);
2487 tcore_pending_set_send_callback(pending, on_confirmation_sms_message_send, NULL);
2488 tcore_hal_send_request(hal, pending);
2493 return TCORE_RETURN_SUCCESS;
2496 static TReturn get_sca(CoreObject *obj, UserRequest *ur)
2498 gchar * cmd_str = NULL;
2499 TcoreHal *hal = NULL;
2500 TcoreATRequest *atreq = NULL;
2501 TcorePending *pending = NULL;
2505 hal = tcore_object_get_hal(obj);
2507 err("HAL NULL. Unable to proceed");
2510 return TCORE_RETURN_EINVAL;
2512 if(FALSE == tcore_hal_get_power_state(hal)){
2513 dbg("cp not ready/n");
2514 return TCORE_RETURN_ENOSYS;
2517 cmd_str = g_strdup_printf("AT+CSCA?");
2518 pending = tcore_pending_new(obj, 0);
2519 atreq = tcore_at_request_new((const char *)cmd_str, "+CSCA", TCORE_AT_SINGLELINE);
2521 if (NULL == cmd_str || NULL == atreq || NULL == pending) {
2522 err("Out of memory. Unable to proceed");
2523 dbg("cmd_str: [%p], atreq: [%p], pending: [%p]", cmd_str, atreq, pending);
2525 //free memory we own
2527 util_sms_free_memory(atreq);
2528 util_sms_free_memory(pending);
2531 return TCORE_RETURN_ENOMEM;
2534 util_hex_dump(" ", strlen(cmd_str), (void *)cmd_str);
2536 tcore_pending_set_request_data(pending, 0, atreq);
2537 tcore_pending_set_response_callback(pending, on_response_get_sca, NULL);
2538 tcore_pending_link_user_request(pending, ur);
2539 tcore_pending_set_send_callback(pending, on_confirmation_sms_message_send, NULL);
2540 tcore_hal_send_request(hal, pending);
2545 return TCORE_RETURN_SUCCESS;
2548 static TReturn set_sca(CoreObject *obj, UserRequest *ur)
2550 gchar *cmd_str = NULL;
2551 TcoreHal *hal = NULL;
2552 TcoreATRequest *atreq = NULL;
2553 TcorePending *pending = NULL;
2554 const struct treq_sms_set_sca *setSca = NULL;
2559 setSca = tcore_user_request_ref_data(ur, NULL);
2560 hal = tcore_object_get_hal(obj);
2561 if (NULL == setSca || NULL == hal) {
2562 err("NULL input. Unable to proceed");
2563 dbg("setSca: [%p], hal: [%p]", setSca, hal);
2566 return TCORE_RETURN_EINVAL;
2568 if(FALSE == tcore_hal_get_power_state(hal)){
2569 dbg("cp not ready/n");
2570 return TCORE_RETURN_ENOSYS;
2573 dbg("dialNumLen: %u, typeOfNum: %d, numPlanId: %d, ", setSca->scaInfo.dialNumLen, setSca->scaInfo.typeOfNum, setSca->scaInfo.numPlanId);
2575 util_hex_dump(" ", (SMS_SMSP_ADDRESS_LEN+1), (void *)setSca->scaInfo.diallingNum);
2577 addrType = ((setSca->scaInfo.typeOfNum << 4) | setSca->scaInfo.numPlanId) | 0x80;
2579 cmd_str = g_strdup_printf("AT+CSCA=\"%s\",%d", setSca->scaInfo.diallingNum, addrType);
2580 pending = tcore_pending_new(obj, 0);
2581 atreq = tcore_at_request_new((const char *)cmd_str, NULL, TCORE_AT_NO_RESULT);
2583 if (NULL == cmd_str || NULL == atreq || NULL == pending) {
2584 err("Out of memory. Unable to proceed");
2585 dbg("cmd_str: [%p], atreq: [%p], pending: [%p]", cmd_str, atreq, pending);
2587 //free memory we own
2589 util_sms_free_memory(atreq);
2590 util_sms_free_memory(pending);
2593 return TCORE_RETURN_ENOMEM;
2596 util_hex_dump(" ", strlen(cmd_str), (void *)cmd_str);
2598 tcore_pending_set_request_data(pending, 0, atreq);
2599 tcore_pending_set_response_callback(pending, on_response_set_sca, NULL);
2600 tcore_pending_link_user_request(pending, ur);
2601 tcore_pending_set_send_callback(pending, on_confirmation_sms_message_send, NULL);
2602 tcore_hal_send_request(hal, pending);
2607 return TCORE_RETURN_SUCCESS;
2610 static TReturn get_cb_config(CoreObject *obj, UserRequest *ur)
2612 gchar *cmd_str = NULL;
2613 TcoreHal *hal = NULL;
2614 TcoreATRequest *atreq = NULL;
2615 TcorePending *pending = NULL;
2619 hal = tcore_object_get_hal(obj);
2621 err("NULL HAL. Unable to proceed");
2624 return TCORE_RETURN_EINVAL;
2626 if(FALSE == tcore_hal_get_power_state(hal)){
2627 dbg("cp not ready/n");
2628 return TCORE_RETURN_ENOSYS;
2631 cmd_str = g_strdup_printf("AT+CSCB?");
2632 pending = tcore_pending_new(obj, 0);
2633 atreq = tcore_at_request_new((const char *)cmd_str, "+CSCB", TCORE_AT_SINGLELINE);
2634 if (NULL == cmd_str || NULL == atreq || NULL == pending) {
2635 err("Out of memory. Unable to proceed");
2636 dbg("cmd_str: [%p], atreq: [%p], pending: [%p]", cmd_str, atreq, pending);
2638 //free memory we own
2640 util_sms_free_memory(atreq);
2641 util_sms_free_memory(pending);
2644 return TCORE_RETURN_ENOMEM;
2647 util_hex_dump(" ", strlen(cmd_str), (void *)cmd_str);
2649 tcore_pending_set_request_data(pending, 0, atreq);
2650 tcore_pending_set_response_callback(pending, on_response_get_cb_config, NULL);
2651 tcore_pending_set_send_callback(pending, on_confirmation_sms_message_send, NULL);
2652 tcore_pending_link_user_request(pending, ur);
2653 tcore_hal_send_request(hal, pending);
2658 return TCORE_RETURN_SUCCESS;
2661 static TReturn set_cb_config(CoreObject *obj, UserRequest *ur)
2663 gchar *cmd_str = NULL;
2664 gchar *mids_str = NULL;
2665 GString *mids_GString = NULL;
2667 TcoreHal *hal = NULL;
2668 TcoreATRequest *atreq = NULL;
2669 TcorePending *pending = NULL;
2670 const struct treq_sms_set_cb_config *setCbConfig = NULL;
2671 int ctr1= 0, ctr2 =0;
2672 unsigned short appendMsgId = 0;
2676 setCbConfig = tcore_user_request_ref_data(ur, NULL);
2677 hal = tcore_object_get_hal(obj);
2678 if (NULL == setCbConfig || NULL == hal) {
2679 err("NULL input. Unable to proceed");
2680 dbg("setCbConfig: [%p], hal: [%p]", setCbConfig, hal);
2683 return TCORE_RETURN_EINVAL;
2685 if(FALSE == tcore_hal_get_power_state(hal)){
2686 dbg("cp not ready/n");
2687 return TCORE_RETURN_ENOSYS;
2690 dbg("bCBEnabled: %d, msgIdCount: %d", setCbConfig->cbEnabled, setCbConfig->msgIdRangeCount);
2692 if (setCbConfig->cbEnabled == 2) { //Enable all CBS
2693 cmd_str = g_strdup_printf("AT+CSCB=1");
2694 } else if ((setCbConfig->cbEnabled == 1) && (setCbConfig->msgIdRangeCount == 0)) { // Special case: Enable all CBS
2695 cmd_str = g_strdup_printf("AT+CSCB=1");
2696 } else if (setCbConfig->cbEnabled == 0) {//AT+CSCB=0: Disable CBS
2697 cmd_str = g_strdup_printf("AT+CSCB=0");
2699 mids_GString = g_string_new("AT+CSCB=0,\"");
2701 for(ctr1 = 0; ctr1 < setCbConfig->msgIdRangeCount; ctr1++ ) {
2702 if( setCbConfig->msgIDs[ctr1].net3gpp.selected == FALSE )
2705 if( SMS_GSM_SMS_CBMI_LIST_SIZE_MAX <= (setCbConfig->msgIDs[ctr1].net3gpp.toMsgId - setCbConfig->msgIDs[ctr1].net3gpp.fromMsgId) ) {
2706 mids_GString = g_string_new("AT+CSCB=1");
2710 appendMsgId = setCbConfig->msgIDs[ctr1].net3gpp.fromMsgId;
2712 for( ctr2 = 0; (ctr2 <= ((setCbConfig->msgIDs[ctr1].net3gpp.toMsgId) - (setCbConfig->msgIDs[ctr1].net3gpp.fromMsgId))); ctr2++ ) {
2713 dbg( "%x", appendMsgId);
2714 mids_GString = g_string_append(mids_GString, g_strdup_printf("%d", appendMsgId));
2716 if (ctr2 == ((setCbConfig->msgIDs[ctr1].net3gpp.toMsgId) - (setCbConfig->msgIDs[ctr1].net3gpp.fromMsgId))) {
2717 mids_GString = g_string_append(mids_GString, "\""); //Mids string termination
2719 mids_GString = g_string_append(mids_GString, ",");
2725 mids_str = g_string_free(mids_GString, FALSE);
2726 cmd_str = g_strdup_printf("%s", mids_str);
2730 pending = tcore_pending_new(obj, 0);
2731 atreq = tcore_at_request_new((const char *)cmd_str, NULL, TCORE_AT_NO_RESULT);
2732 if(NULL == cmd_str || NULL == atreq || NULL == pending) {
2733 err("Out of memory. Unable to proceed");
2734 dbg("cmd_str: [%p], atreq: [%p], pending: [%p]", cmd_str, atreq, pending);
2736 //free memory we own
2738 util_sms_free_memory(atreq);
2739 util_sms_free_memory(pending);
2742 return TCORE_RETURN_ENOMEM;
2745 util_hex_dump(" ", strlen(cmd_str), (void *)cmd_str);
2747 tcore_pending_set_request_data(pending, 0, atreq);
2748 tcore_pending_set_response_callback(pending, on_response_set_cb_config, NULL);
2749 tcore_pending_link_user_request(pending, ur);
2750 tcore_pending_set_send_callback(pending, on_confirmation_sms_message_send, NULL);
2751 tcore_hal_send_request(hal, pending);
2756 return TCORE_RETURN_SUCCESS;
2759 static TReturn set_mem_status(CoreObject *obj, UserRequest *ur)
2761 gchar *cmd_str = NULL;
2762 TcoreHal *hal = NULL;
2763 TcoreATRequest *atreq = NULL;
2764 TcorePending *pending = NULL;
2765 const struct treq_sms_set_mem_status *setMemStatus = NULL;
2766 int memoryStatus = 0;
2770 setMemStatus = tcore_user_request_ref_data(ur, NULL);
2771 hal = tcore_object_get_hal(obj);
2772 if (NULL == setMemStatus || NULL == hal) {
2773 err("NULL input. Unable to proceed");
2774 dbg("setMemStatus: [%p], hal: [%p]", setMemStatus, hal);
2777 return TCORE_RETURN_EINVAL;
2779 if(FALSE == tcore_hal_get_power_state(hal)){
2780 dbg("cp not ready/n");
2781 return TCORE_RETURN_ENOSYS;
2784 dbg("memory_status: %d", setMemStatus->memory_status);
2786 if(setMemStatus->memory_status < SMS_PDA_MEMORY_STATUS_AVAILABLE
2787 || setMemStatus->memory_status > SMS_PDA_MEMORY_STATUS_FULL) {
2788 err("Invalid memory_status");
2791 return TCORE_RETURN_EINVAL;
2794 switch (setMemStatus->memory_status) {
2795 case SMS_PDA_MEMORY_STATUS_AVAILABLE:
2796 memoryStatus = AT_MEMORY_AVAILABLE;
2799 case SMS_PDA_MEMORY_STATUS_FULL:
2800 memoryStatus = AT_MEMORY_FULL;
2804 err("Invalid memory_status");
2806 return TCORE_RETURN_EINVAL;
2809 cmd_str = g_strdup_printf("AT+XTESM=%d", memoryStatus);
2810 pending = tcore_pending_new(obj, 0);
2811 atreq = tcore_at_request_new((const char *)cmd_str, NULL, TCORE_AT_NO_RESULT);
2813 if (NULL == cmd_str || NULL == atreq || NULL == pending) {
2814 err("Out of memory. Unable to proceed");
2815 dbg("cmd_str: [%p], atreq: [%p], pending: [%p]", cmd_str, atreq, pending);
2817 //free memory we own
2819 util_sms_free_memory(atreq);
2820 util_sms_free_memory(pending);
2823 return TCORE_RETURN_ENOMEM;
2826 util_hex_dump(" ", strlen(cmd_str), (void *)cmd_str);
2828 tcore_pending_set_request_data(pending, 0, atreq);
2829 tcore_pending_set_response_callback(pending, on_response_set_mem_status, NULL);
2830 tcore_pending_link_user_request(pending, ur);
2831 tcore_pending_set_send_callback(pending, on_confirmation_sms_message_send, NULL);
2832 tcore_hal_send_request(hal, pending);
2837 return TCORE_RETURN_SUCCESS;
2840 static TReturn set_delivery_report(CoreObject *obj, UserRequest *ur)
2842 struct tresp_sms_set_delivery_report respSetDeliveryReport = {0,};
2844 respSetDeliveryReport.result = SMS_SUCCESS;
2847 if(FALSE == tcore_hal_get_power_state(tcore_object_get_hal(obj))){
2848 dbg("cp not ready/n");
2849 return TCORE_RETURN_ENOSYS;
2852 dbg("CP takes care of sending SMS ack to network for all classes of SMS. Sending default success.");
2854 tcore_user_request_send_response(ur, TRESP_SMS_SET_DELIVERY_REPORT, sizeof(struct tresp_sms_set_delivery_report), &respSetDeliveryReport);
2857 return TCORE_RETURN_SUCCESS;
2860 static TReturn set_msg_status(CoreObject *obj, UserRequest *ur)
2862 gchar *cmd_str = NULL;
2863 TcoreHal *hal = NULL;
2864 TcoreATRequest *atreq = NULL;
2865 TcorePending *pending = NULL;
2866 const struct treq_sms_set_msg_status *msg_status = NULL;
2869 hal = tcore_object_get_hal(obj);
2870 if(FALSE == tcore_hal_get_power_state(hal)){
2871 dbg("cp not ready/n");
2872 return TCORE_RETURN_ENOSYS;
2874 msg_status = tcore_user_request_ref_data(ur, NULL);
2876 cmd_str = g_strdup_printf("AT+CRSM=178,28476,%d,4,%d", (msg_status->index+1), PDU_LEN_MAX);
2877 atreq = tcore_at_request_new((const char *)cmd_str, "+CRSM", TCORE_AT_SINGLELINE);
2878 pending = tcore_pending_new(obj, 0);
2879 if (NULL == cmd_str || NULL == atreq || NULL == pending) {
2880 err("Out of memory. Unable to proceed");
2881 dbg("cmd_str: [%p], atreq: [%p], pending: [%p]", cmd_str, atreq, pending);
2883 //free memory we own
2885 util_sms_free_memory(atreq);
2886 util_sms_free_memory(pending);
2889 return TCORE_RETURN_ENOMEM;
2892 util_hex_dump(" ", strlen(cmd_str), (void *)cmd_str);
2894 tcore_pending_set_request_data(pending, 0, atreq);
2895 tcore_pending_set_response_callback(pending, _response_get_efsms_data, NULL);
2896 tcore_pending_link_user_request(pending, ur);
2897 tcore_pending_set_send_callback(pending, on_confirmation_sms_message_send, NULL);
2898 tcore_hal_send_request(hal, pending);
2903 return TCORE_RETURN_SUCCESS;
2906 static TReturn get_sms_params(CoreObject *obj, UserRequest *ur)
2908 gchar *cmd_str = NULL;
2909 TcoreHal *hal = NULL;
2910 TcoreATRequest *atreq = NULL;
2911 TcorePending *pending = NULL;
2912 const struct treq_sms_get_params *getSmsParams = NULL;
2913 int record_len = 0 , *smsp_record_len = NULL;
2917 getSmsParams = tcore_user_request_ref_data(ur, NULL);
2918 hal = tcore_object_get_hal(obj);
2919 if (NULL == getSmsParams || NULL == hal) {
2920 err("NULL input. Unable to proceed");
2921 dbg("getSmsParams: [%p], hal: [%p]", getSmsParams, hal);
2924 return TCORE_RETURN_EINVAL;
2926 if(FALSE == tcore_hal_get_power_state(hal)){
2927 dbg("cp not ready/n");
2928 return TCORE_RETURN_ENOSYS;
2931 smsp_record_len = tcore_plugin_ref_property(tcore_object_ref_plugin(obj), "SMSPRECORDLEN");
2932 record_len = *smsp_record_len;
2933 dbg("record len from property %d", record_len);
2935 //AT+CRSM=command>[,<fileid>[,<P1>,<P2>,<P3>[,<data>[,<pathid>]]]]
2936 cmd_str = g_strdup_printf("AT+CRSM=178,28482,%d,4,%d", (getSmsParams->index + 1), record_len);
2938 dbg("cmd_str is %s",cmd_str);
2940 atreq = tcore_at_request_new((const char *)cmd_str, "+CRSM", TCORE_AT_SINGLELINE);
2941 pending = tcore_pending_new(obj, 0);
2942 if (NULL == cmd_str || NULL == atreq || NULL == pending) {
2943 err("Out of memory. Unable to proceed");
2944 dbg("cmd_str: [%p], atreq: [%p], pending: [%p]", cmd_str, atreq, pending);
2946 //free memory we own
2948 util_sms_free_memory(atreq);
2949 util_sms_free_memory(pending);
2952 return TCORE_RETURN_ENOMEM;
2955 util_hex_dump(" ", strlen(cmd_str), (void *)cmd_str);
2957 tcore_pending_set_request_data(pending, 0, atreq);
2958 tcore_pending_set_response_callback(pending, on_response_get_sms_params, NULL);
2959 tcore_pending_link_user_request(pending, ur);
2960 tcore_pending_set_send_callback(pending, on_confirmation_sms_message_send, NULL);
2961 tcore_hal_send_request(hal, pending);
2966 return TCORE_RETURN_SUCCESS;
2969 static TReturn set_sms_params(CoreObject *obj, UserRequest *ur)
2971 gchar *cmd_str = NULL;
2972 char *encoded_data = NULL;
2973 unsigned char *temp_data = NULL;
2974 int SMSPRecordLen = 0;
2976 TcoreHal *hal = NULL;
2977 TcoreATRequest *atreq = NULL;
2978 TcorePending *pending = NULL;
2979 const struct treq_sms_set_params *setSmsParams = NULL;
2980 int encoded_data_len = 0;
2984 setSmsParams = tcore_user_request_ref_data(ur, NULL);
2985 hal = tcore_object_get_hal(obj);
2986 if (NULL == setSmsParams || NULL == hal) {
2987 err("NULL input. Unable to proceed");
2988 dbg("setSmsParams: [%p], hal: [%p]", setSmsParams, hal);
2991 if(FALSE == tcore_hal_get_power_state(hal)){
2992 dbg("cp not ready/n");
2993 return TCORE_RETURN_ENOSYS;
2996 //EFsmsp file size is 28 +Y bytes (Y is alpha id size)
2997 SMSPRecordLen = 28 + setSmsParams->params.alphaIdLen;
2998 temp_data = calloc(SMSPRecordLen,1);
2999 encoded_data = calloc(SMSPRecordLen*2 + 1,1);
3001 _tcore_util_sms_encode_smsParameters(&(setSmsParams->params), temp_data, SMSPRecordLen);
3003 util_byte_to_hex((const char *)temp_data, (char *)encoded_data,SMSPRecordLen);
3005 encoded_data_len = ((SMSPRecordLen) * 2);
3007 hal = tcore_object_get_hal(obj);
3008 pending = tcore_pending_new(obj, 0);
3010 dbg("alpha id len %d encoded data %s. Encoded data len %d",setSmsParams->params.alphaIdLen,encoded_data, encoded_data_len);
3011 cmd_str = g_strdup_printf("AT+CRSM=220,28482,%d,4,%d,\"%s\"",(setSmsParams->params.recordIndex+1),SMSPRecordLen,encoded_data);
3013 dbg("cmd str is %s",cmd_str);
3014 atreq = tcore_at_request_new(cmd_str, "+CRSM:", TCORE_AT_SINGLELINE);
3016 if (NULL == cmd_str || NULL == atreq || NULL == pending) {
3017 err("Out of memory. Unable to proceed");
3018 dbg("cmd_str: [%p], atreq: [%p], pending: [%p]", cmd_str, atreq, pending);
3020 //free memory we own
3022 util_sms_free_memory(atreq);
3023 util_sms_free_memory(pending);
3025 util_sms_free_memory(temp_data);
3026 util_sms_free_memory(encoded_data);
3029 return TCORE_RETURN_ENOMEM;
3032 util_hex_dump(" ", strlen(cmd_str), (void *)cmd_str);
3034 tcore_pending_set_request_data(pending, 0,atreq);
3035 tcore_pending_set_response_callback(pending, on_response_set_sms_params, NULL);
3036 tcore_pending_link_user_request(pending, ur);
3037 tcore_pending_set_send_callback(pending, on_confirmation_sms_message_send, NULL);
3038 tcore_hal_send_request(hal, pending);
3041 util_sms_free_memory(temp_data);
3042 util_sms_free_memory(encoded_data);
3044 return TCORE_RETURN_SUCCESS;
3047 static TReturn get_paramcnt(CoreObject *obj, UserRequest *ur)
3049 gchar *cmd_str = NULL;
3050 TcoreHal *hal = NULL;
3051 TcoreATRequest *atreq = NULL;
3052 TcorePending *pending = NULL;
3056 hal = tcore_object_get_hal(obj);
3058 err("NULL HAL. Unable to proceed");
3061 return TCORE_RETURN_EINVAL;
3063 if(FALSE == tcore_hal_get_power_state(hal)){
3064 dbg("cp not ready/n");
3065 return TCORE_RETURN_ENOSYS;
3068 //AT+CRSM=command>[,<fileid>[,<P1>,<P2>,<P3>[,<data>[,<pathid>]]]]
3069 cmd_str = g_strdup_printf("AT+CRSM=192,28482");
3070 atreq = tcore_at_request_new((const char *)cmd_str, "+CRSM", TCORE_AT_SINGLELINE);
3071 pending = tcore_pending_new(obj, 0);
3073 if (NULL == cmd_str || NULL == atreq || NULL == pending) {
3074 err("NULL pointer. Unable to proceed");
3075 dbg("cmd_str: [%p], atreq: [%p], pending: [%p]", cmd_str, atreq, pending);
3077 //free memory we own
3079 util_sms_free_memory(atreq);
3080 util_sms_free_memory(pending);
3083 return TCORE_RETURN_FAILURE;
3086 util_hex_dump(" ", strlen(cmd_str), (void *)cmd_str);
3088 tcore_pending_set_request_data(pending, 0, atreq);
3089 tcore_pending_set_response_callback(pending, on_response_get_paramcnt, NULL);
3090 tcore_pending_link_user_request(pending, ur);
3091 tcore_pending_set_send_callback(pending, on_confirmation_sms_message_send, NULL);
3092 tcore_hal_send_request(hal, pending);
3097 return TCORE_RETURN_SUCCESS;
3100 static struct tcore_sms_operations sms_ops = {
3101 .send_umts_msg = send_umts_msg,
3102 .read_msg = read_msg,
3103 .save_msg = save_msg,
3104 .delete_msg = delete_msg,
3105 .get_stored_msg_cnt = get_stored_msg_cnt,
3108 .get_cb_config = get_cb_config,
3109 .set_cb_config = set_cb_config,
3110 .set_mem_status = set_mem_status,
3111 .get_pref_brearer = NULL,
3112 .set_pref_brearer = NULL,
3113 .set_delivery_report = set_delivery_report,
3114 .set_msg_status = set_msg_status,
3115 .get_sms_params = get_sms_params,
3116 .set_sms_params = set_sms_params,
3117 .get_paramcnt = get_paramcnt,
3120 gboolean s_sms_init(TcorePlugin *cp, CoreObject *co_sms)
3122 int *smsp_record_len;
3125 /* Override SMS Operations */
3126 tcore_sms_override_ops(co_sms, &sms_ops);
3128 /* Registering for SMS notifications */
3129 tcore_object_override_callback(co_sms, "\e+CMTI", on_event_class2_sms_incom_msg, NULL);
3130 tcore_object_override_callback(co_sms, "\e+CMT", on_event_sms_incom_msg, NULL);
3132 tcore_object_override_callback(co_sms, "\e+CDS", on_event_sms_incom_msg, NULL);
3133 tcore_object_override_callback(co_sms, "+XSMSMMSTAT", on_event_sms_memory_status, NULL);
3134 tcore_object_override_callback(co_sms, "+CMS", on_event_sms_memory_status, NULL);
3136 tcore_object_override_callback(co_sms, "\e+CBMI", on_event_sms_cb_incom_msg, NULL);
3137 tcore_object_override_callback(co_sms, "\e+CBM", on_event_sms_cb_incom_msg, NULL);
3139 /* Storing SMSP record length */
3140 smsp_record_len = g_new0(int, 1);
3141 tcore_plugin_link_property(cp, "SMSPRECORDLEN", smsp_record_len);
3147 void s_sms_exit(TcorePlugin *cp, CoreObject *co_sms)
3149 int *smsp_record_len;
3151 smsp_record_len = tcore_plugin_ref_property(cp, "SMSPRECORDLEN");
3152 g_free(smsp_record_len);