/* * This file is part of Samsung-RIL. * * Copyright (C) 2010-2011 Joerie de Gram * Copyright (C) 2011-2013 Paul Kocialkowski * * Samsung-RIL is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * Samsung-RIL is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with Samsung-RIL. If not, see . */ #define LOG_TAG "RIL-NET" #include #include "samsung-ril.h" #include "util.h" #include unsigned char ipc2ril_reg_state(unsigned char reg_state) { switch (reg_state) { case IPC_NET_REGISTRATION_STATE_NONE: return 0; case IPC_NET_REGISTRATION_STATE_HOME: return 1; case IPC_NET_REGISTRATION_STATE_SEARCHING: return 2; case IPC_NET_REGISTRATION_STATE_EMERGENCY: return 10; case IPC_NET_REGISTRATION_STATE_ROAMING: return 5; case IPC_NET_REGISTRATION_STATE_UNKNOWN: return 4; default: LOGE("%s: invalid reg_state: %d", __func__, reg_state); return 0; } } unsigned char ipc2ril_act(unsigned char act) { switch (act) { case IPC_NET_ACCESS_TECHNOLOGY_GPRS: return 1; case IPC_NET_ACCESS_TECHNOLOGY_EDGE: return 2; case IPC_NET_ACCESS_TECHNOLOGY_UMTS: return 3; case IPC_NET_ACCESS_TECHNOLOGY_GSM: case IPC_NET_ACCESS_TECHNOLOGY_GSM2: default: return 0; } } unsigned char ipc2ril_gprs_act(unsigned char act) { switch (act) { case IPC_NET_ACCESS_TECHNOLOGY_GPRS: return 1; case IPC_NET_ACCESS_TECHNOLOGY_EDGE: return 2; case IPC_NET_ACCESS_TECHNOLOGY_UMTS: return 3; case IPC_NET_ACCESS_TECHNOLOGY_GSM: case IPC_NET_ACCESS_TECHNOLOGY_GSM2: default: return 0; } } int ipc2ril_mode_sel(unsigned char mode) { switch (mode) { case 0: return 7; // auto mode case IPC_NET_MODE_SEL_GSM_UMTS: return 0; case IPC_NET_MODE_SEL_GSM_ONLY: return 1; case IPC_NET_MODE_SEL_UMTS_ONLY: return 2; default: return 0; } } unsigned char ril2ipc_mode_sel(int mode) { switch (mode) { case 1: // GSM only return IPC_NET_MODE_SEL_GSM_ONLY; case 2: // WCDMA only return IPC_NET_MODE_SEL_UMTS_ONLY; case 0: default: // GSM/WCDMA + the rest return IPC_NET_MODE_SEL_GSM_UMTS; } } int ipc2ril_plmn_sel(unsigned char mode) { switch (mode) { case IPC_NET_PLMN_SEL_MANUAL: return 1; case IPC_NET_PLMN_SEL_AUTO: return 0; default: return 0; } } unsigned char ril2ipc_plmn_sel(int mode) { switch (mode) { case 0: return IPC_NET_PLMN_SEL_AUTO; case 1: return IPC_NET_PLMN_SEL_MANUAL; default: return 0; } } void ipc2ril_reg_state_resp(struct ipc_net_regist_response *netinfo, char *response[15]) { unsigned char reg_state; unsigned char act; if (netinfo == NULL || response == NULL) return; reg_state = ipc2ril_reg_state(netinfo->reg_state); act = ipc2ril_act(netinfo->act); memset(response, 0, sizeof(response)); asprintf(&response[0], "%d", reg_state); asprintf(&response[1], "%x", netinfo->lac); asprintf(&response[2], "%x", netinfo->cid); asprintf(&response[3], "%d", act); } void ipc2ril_gprs_reg_state_resp(struct ipc_net_regist_response *netinfo, char *response[4]) { unsigned char reg_state; unsigned char act; if (netinfo == NULL || response == NULL) return; reg_state = ipc2ril_reg_state(netinfo->reg_state); act = ipc2ril_gprs_act(netinfo->act); memset(response, 0, sizeof(response)); asprintf(&response[0], "%d", reg_state); asprintf(&response[1], "%x", netinfo->lac); asprintf(&response[2], "%x", netinfo->cid); asprintf(&response[3], "%d", act); } /* * Set all the tokens to data waiting. * For instance when only operator is updated by modem NOTI, we don't need * to ask the modem new NET Regist and GPRS Net Regist states so act like we got * these from modem NOTI too so we don't have to make the requests */ void ril_tokens_net_set_data_waiting(void) { ril_data.tokens.registration_state = RIL_TOKEN_DATA_WAITING; ril_data.tokens.gprs_registration_state = RIL_TOKEN_DATA_WAITING; ril_data.tokens.operator = RIL_TOKEN_DATA_WAITING; } /* * Returns 1 if unsol data is waiting, 0 if not */ int ril_tokens_net_get_data_waiting(void) { return ril_data.tokens.registration_state == RIL_TOKEN_DATA_WAITING || ril_data.tokens.gprs_registration_state == RIL_TOKEN_DATA_WAITING || ril_data.tokens.operator == RIL_TOKEN_DATA_WAITING; } void ril_tokens_net_state_dump(void) { LOGD("ril_tokens_net_state_dump:\n\ \tril_data.tokens.registration_state = %p\n\ \tril_data.tokens.gprs_registration_state = %p\n\ \tril_data.tokens.operator = %p\n", ril_data.tokens.registration_state, ril_data.tokens.gprs_registration_state, ril_data.tokens.operator); } void ril_plmn_split(char *plmn_data, char **plmn, unsigned int *mcc, unsigned int *mnc) { char plmn_t[7]; int i; memset(plmn_t, 0, sizeof(plmn_t)); memcpy(plmn_t, plmn_data, 6); if (plmn_t[5] == '#') plmn_t[5] = '\0'; if (plmn != NULL) { *plmn = malloc(sizeof(plmn_t)); memcpy(*plmn, plmn_t, sizeof(plmn_t)); } if (mcc == NULL || mnc == NULL) return; sscanf(plmn_t, "%3u%2u", mcc, mnc); } void ril_plmn_string(char *plmn_data, char *response[3]) { unsigned int mcc, mnc; char *plmn = NULL; int plmn_entries; int i; if (plmn_data == NULL || response == NULL) return; ril_plmn_split(plmn_data, &plmn, &mcc, &mnc); asprintf(&response[2], "%s", plmn); if (plmn != NULL) free(plmn); plmn_entries = sizeof(plmn_list) / sizeof(struct plmn_list_entry); LOGD("Found %d plmn records", plmn_entries); for (i = 0 ; i < plmn_entries ; i++) { if (plmn_list[i].mcc == mcc && plmn_list[i].mnc == mnc) { asprintf(&response[0], "%s", plmn_list[i].operator_long); asprintf(&response[1], "%s", plmn_list[i].operator_short); return; } } response[0] = NULL; response[1] = NULL; } /* * How to handle NET unsol data from modem: * 1- Rx UNSOL (NOTI) data from modem * 2- copy data in a sized variable stored in radio * 3- make sure no SOL request is going on for this token * 4- copy data to radio structure * 5- if no UNSOL data is already waiting for a token, tell RILJ NETWORK_STATE_CHANGED * 6- set all the net tokens to RIL_TOKEN_DATA_WAITING * 7- RILJ will ask for OPERATOR, GPRS_REG_STATE and REG_STATE * for each request: * 8- if token is RIL_TOKEN_DATA_WAITING it's SOL request for modem UNSOL data * 9- send back modem data and tell E_SUCCESS to RILJ request * 10- set token to 0x00 * * How to handle NET sol requests from RILJ: * 1- if token is 0x00 it's UNSOL RILJ request for modem data * 2- put RIL_Token in token * 3- request data to the modem * 4- Rx SOL (RESP) data from modem * 5- copy data to radio structure * 6- send back data to RILJ with token from modem message * 7- if token != RIL_TOKEN_DATA_WAITING, reset token to 0x00 * * What if both are appening at the same time? * 1- RILJ requests modem data (UNSOL) * 2- token is 0x00 so send request to modem * 3- UNSOL data arrives from modem * 4- set all tokens to RIL_TOKEN_DATA_WAITING * 5- store data, tell RILJ NETWORK_STATE_CHANGED * 6- Rx requested data from modem * 7- copy data to radio structure * 8- token mismatch (is now RIL_TOKEN_DATA_WAITING) * 9- send back data to RIL with token from IPC message * 10- don't reset token to 0x00 * 11- RILJ does SOL request for modem data (we know it's SOL because we didn't reset token) * 12- send back last data we have (from UNSOL RILJ request here) */ void ril_request_operator(RIL_Token t) { char *response[3]; size_t i; // IPC_NET_REGISTRATION_STATE_ROAMING is the biggest valid value if (ril_data.state.netinfo.reg_state == IPC_NET_REGISTRATION_STATE_NONE || ril_data.state.netinfo.reg_state == IPC_NET_REGISTRATION_STATE_SEARCHING || ril_data.state.netinfo.reg_state == IPC_NET_REGISTRATION_STATE_UNKNOWN || ril_data.state.netinfo.reg_state > IPC_NET_REGISTRATION_STATE_ROAMING) { ril_request_complete(t, RIL_E_OP_NOT_ALLOWED_BEFORE_REG_TO_NW, NULL, 0); ril_data.tokens.operator = RIL_TOKEN_NULL; return; } if (ril_data.tokens.operator == RIL_TOKEN_DATA_WAITING) { LOGD("Got RILJ request for UNSOL data"); /* Send back the data we got UNSOL */ ril_plmn_string(ril_data.state.plmndata.plmn, response); ril_request_complete(t, RIL_E_SUCCESS, response, sizeof(response)); for (i = 0; i < sizeof(response) / sizeof(char *) ; i++) { if (response[i] != NULL) free(response[i]); } ril_data.tokens.operator = RIL_TOKEN_NULL; } else if (ril_data.tokens.operator == RIL_TOKEN_NULL) { LOGD("Got RILJ request for SOL data"); /* Request data to the modem */ ril_data.tokens.operator = t; ipc_fmt_send_get(IPC_NET_CURRENT_PLMN, ril_request_get_id(t)); } else { LOGE("Another request is going on, returning UNSOL data"); /* Send back the data we got UNSOL */ ril_plmn_string(ril_data.state.plmndata.plmn, response); ril_request_complete(t, RIL_E_SUCCESS, response, sizeof(response)); for (i = 0; i < sizeof(response) / sizeof(char *) ; i++) { if (response[i] != NULL) free(response[i]); } } ril_tokens_net_state_dump(); } void ipc_net_current_plmn(struct ipc_message_info *info) { struct ipc_net_current_plmn_response *plmndata; RIL_Token t; char *response[3]; size_t i; if (info->data == NULL || info->length < sizeof(struct ipc_net_current_plmn_response)) goto error; plmndata = (struct ipc_net_current_plmn_response *) info->data; t = ril_request_get_token(info->aseq); switch (info->type) { case IPC_TYPE_NOTI: LOGD("Got UNSOL Operator message"); // IPC_NET_REGISTRATION_STATE_ROAMING is the biggest valid value if (ril_data.state.netinfo.reg_state == IPC_NET_REGISTRATION_STATE_NONE || ril_data.state.netinfo.reg_state == IPC_NET_REGISTRATION_STATE_SEARCHING || ril_data.state.netinfo.reg_state == IPC_NET_REGISTRATION_STATE_UNKNOWN || ril_data.state.netinfo.reg_state > IPC_NET_REGISTRATION_STATE_ROAMING) { /* Better keeping it up to date */ memcpy(&(ril_data.state.plmndata), plmndata, sizeof(struct ipc_net_current_plmn_response)); return; } else { if (ril_data.tokens.operator != RIL_TOKEN_NULL && ril_data.tokens.operator != RIL_TOKEN_DATA_WAITING) { LOGE("Another Operator Req is in progress, skipping"); return; } memcpy(&(ril_data.state.plmndata), plmndata, sizeof(struct ipc_net_current_plmn_response)); /* we already told RILJ to get the new data but it wasn't done yet */ if (ril_tokens_net_get_data_waiting() && ril_data.tokens.operator == RIL_TOKEN_DATA_WAITING) { LOGD("Updating Operator data in background"); } else { ril_tokens_net_set_data_waiting(); #if RIL_VERSION >= 6 ril_request_unsolicited(RIL_UNSOL_RESPONSE_VOICE_NETWORK_STATE_CHANGED, NULL, 0); #else ril_request_unsolicited(RIL_UNSOL_RESPONSE_NETWORK_STATE_CHANGED, NULL, 0); #endif } } break; case IPC_TYPE_RESP: LOGD("Got SOL Operator message"); // IPC_NET_REGISTRATION_STATE_ROAMING is the biggest valid value if (ril_data.state.netinfo.reg_state == IPC_NET_REGISTRATION_STATE_NONE || ril_data.state.netinfo.reg_state == IPC_NET_REGISTRATION_STATE_SEARCHING || ril_data.state.netinfo.reg_state == IPC_NET_REGISTRATION_STATE_UNKNOWN || ril_data.state.netinfo.reg_state > IPC_NET_REGISTRATION_STATE_ROAMING) { /* Better keeping it up to date */ memcpy(&(ril_data.state.plmndata), plmndata, sizeof(struct ipc_net_current_plmn_response)); ril_request_complete(t, RIL_E_OP_NOT_ALLOWED_BEFORE_REG_TO_NW, NULL, 0); if (ril_data.tokens.operator != RIL_TOKEN_DATA_WAITING) ril_data.tokens.operator = RIL_TOKEN_NULL; return; } else { if (ril_data.tokens.operator != t) LOGE("Operator tokens mismatch"); /* Better keeping it up to date */ memcpy(&(ril_data.state.plmndata), plmndata, sizeof(struct ipc_net_current_plmn_response)); ril_plmn_string(plmndata->plmn, response); ril_request_complete(t, RIL_E_SUCCESS, response, sizeof(response)); for (i = 0; i < sizeof(response) / sizeof(char *) ; i++) { if (response[i] != NULL) free(response[i]); } if (ril_data.tokens.operator != RIL_TOKEN_DATA_WAITING) ril_data.tokens.operator = RIL_TOKEN_NULL; } break; default: LOGE("%s: unhandled ipc method: %d", __func__, info->type); break; } ril_tokens_net_state_dump(); return; error: if (info != NULL) ril_request_complete(ril_request_get_token(info->aseq), RIL_E_GENERIC_FAILURE, NULL, 0); } #if RIL_VERSION >= 6 void ril_request_voice_registration_state(RIL_Token t) #else void ril_request_registration_state(RIL_Token t) #endif { struct ipc_net_regist_get regist_req; char *response[4]; int i; if (ril_data.tokens.registration_state == RIL_TOKEN_DATA_WAITING) { LOGD("Got RILJ request for UNSOL data"); /* Send back the data we got UNSOL */ ipc2ril_reg_state_resp(&(ril_data.state.netinfo), response); ril_request_complete(t, RIL_E_SUCCESS, response, sizeof(response)); for (i = 0; i < (int) (sizeof(response) / sizeof(char *)) ; i++) { if (response[i] != NULL) free(response[i]); } ril_data.tokens.registration_state = RIL_TOKEN_NULL; } else if (ril_data.tokens.registration_state == RIL_TOKEN_NULL) { LOGD("Got RILJ request for SOL data"); /* Request data to the modem */ ril_data.tokens.registration_state = t; ipc_net_regist_get_setup(®ist_req, IPC_NET_SERVICE_DOMAIN_GSM); ipc_fmt_send(IPC_NET_REGIST, IPC_TYPE_GET, (void *)®ist_req, sizeof(struct ipc_net_regist_get), ril_request_get_id(t)); } else { LOGE("Another request is going on, returning UNSOL data"); /* Send back the data we got UNSOL */ ipc2ril_reg_state_resp(&(ril_data.state.netinfo), response); ril_request_complete(t, RIL_E_SUCCESS, response, sizeof(response)); for (i = 0; i < (int) (sizeof(response) / sizeof(char *)) ; i++) { if (response[i] != NULL) free(response[i]); } } ril_tokens_net_state_dump(); } #if RIL_VERSION >= 6 void ril_request_data_registration_state(RIL_Token t) #else void ril_request_gprs_registration_state(RIL_Token t) #endif { struct ipc_net_regist_get regist_req; char *response[4]; size_t i; if (ril_data.tokens.gprs_registration_state == RIL_TOKEN_DATA_WAITING) { LOGD("Got RILJ request for UNSOL data"); /* Send back the data we got UNSOL */ ipc2ril_gprs_reg_state_resp(&(ril_data.state.gprs_netinfo), response); ril_request_complete(t, RIL_E_SUCCESS, response, sizeof(response)); for (i = 0; i < sizeof(response) / sizeof(char *) ; i++) { if (response[i] != NULL) free(response[i]); } ril_data.tokens.gprs_registration_state = RIL_TOKEN_NULL; } else if (ril_data.tokens.gprs_registration_state == RIL_TOKEN_NULL) { LOGD("Got RILJ request for SOL data"); /* Request data to the modem */ ril_data.tokens.gprs_registration_state = t; ipc_net_regist_get_setup(®ist_req, IPC_NET_SERVICE_DOMAIN_GPRS); ipc_fmt_send(IPC_NET_REGIST, IPC_TYPE_GET, (void *)®ist_req, sizeof(struct ipc_net_regist_get), ril_request_get_id(t)); } else { LOGE("Another request is going on, returning UNSOL data"); /* Send back the data we got UNSOL */ ipc2ril_gprs_reg_state_resp(&(ril_data.state.gprs_netinfo), response); ril_request_complete(t, RIL_E_SUCCESS, response, sizeof(response)); for (i = 0; i < sizeof(response) / sizeof(char *) ; i++) { if (response[i] != NULL) free(response[i]); } } ril_tokens_net_state_dump(); } void ipc_net_regist_unsol(struct ipc_message_info *info) { struct ipc_net_regist_response *netinfo; if (info->data == NULL || info->length < sizeof(struct ipc_net_regist_response)) goto error; netinfo = (struct ipc_net_regist_response *) info->data; LOGD("Got UNSOL NetRegist message"); switch (netinfo->domain) { case IPC_NET_SERVICE_DOMAIN_GSM: if (ril_data.tokens.registration_state != RIL_TOKEN_NULL && ril_data.tokens.registration_state != RIL_TOKEN_DATA_WAITING) { LOGE("Another NetRegist Req is in progress, skipping"); return; } memcpy(&(ril_data.state.netinfo), netinfo, sizeof(struct ipc_net_regist_response)); /* we already told RILJ to get the new data but it wasn't done yet */ if (ril_tokens_net_get_data_waiting() && ril_data.tokens.registration_state == RIL_TOKEN_DATA_WAITING) { LOGD("Updating NetRegist data in background"); } else { ril_tokens_net_set_data_waiting(); #if RIL_VERSION >= 6 ril_request_unsolicited(RIL_UNSOL_RESPONSE_VOICE_NETWORK_STATE_CHANGED, NULL, 0); #else ril_request_unsolicited(RIL_UNSOL_RESPONSE_NETWORK_STATE_CHANGED, NULL, 0); #endif } break; case IPC_NET_SERVICE_DOMAIN_GPRS: if (ril_data.tokens.gprs_registration_state != RIL_TOKEN_NULL && ril_data.tokens.gprs_registration_state != RIL_TOKEN_DATA_WAITING) { LOGE("Another GPRS NetRegist Req is in progress, skipping"); return; } memcpy(&(ril_data.state.gprs_netinfo), netinfo, sizeof(struct ipc_net_regist_response)); /* we already told RILJ to get the new data but it wasn't done yet */ if (ril_tokens_net_get_data_waiting() && ril_data.tokens.gprs_registration_state == RIL_TOKEN_DATA_WAITING) { LOGD("Updating GPRSNetRegist data in background"); } else { ril_tokens_net_set_data_waiting(); #if RIL_VERSION >= 6 ril_request_unsolicited(RIL_UNSOL_RESPONSE_VOICE_NETWORK_STATE_CHANGED, NULL, 0); #else ril_request_unsolicited(RIL_UNSOL_RESPONSE_NETWORK_STATE_CHANGED, NULL, 0); #endif } break; default: LOGE("%s: unhandled service domain: %d", __func__, netinfo->domain); break; } ril_tokens_net_state_dump(); return; error: if (info != NULL) ril_request_complete(ril_request_get_token(info->aseq), RIL_E_GENERIC_FAILURE, NULL, 0); } void ipc_net_regist_sol(struct ipc_message_info *info) { struct ipc_net_regist_response *netinfo; RIL_Token t; char *response[4]; size_t i; if (info->data == NULL || info->length < sizeof(struct ipc_net_regist_response)) goto error; netinfo = (struct ipc_net_regist_response *) info->data; t = ril_request_get_token(info->aseq); LOGD("Got SOL NetRegist message"); switch (netinfo->domain) { case IPC_NET_SERVICE_DOMAIN_GSM: if (ril_data.tokens.registration_state != t) LOGE("Registration state tokens mismatch"); /* Better keeping it up to date */ memcpy(&(ril_data.state.netinfo), netinfo, sizeof(struct ipc_net_regist_response)); ipc2ril_reg_state_resp(netinfo, response); ril_request_complete(t, RIL_E_SUCCESS, response, sizeof(response)); for (i = 0; i < sizeof(response) / sizeof(char *) ; i++) { if (response[i] != NULL) free(response[i]); } if (ril_data.tokens.registration_state != RIL_TOKEN_DATA_WAITING) ril_data.tokens.registration_state = RIL_TOKEN_NULL; break; case IPC_NET_SERVICE_DOMAIN_GPRS: if (ril_data.tokens.gprs_registration_state != t) LOGE("GPRS registration state tokens mismatch"); /* Better keeping it up to date */ memcpy(&(ril_data.state.gprs_netinfo), netinfo, sizeof(struct ipc_net_regist_response)); ipc2ril_gprs_reg_state_resp(netinfo, response); ril_request_complete(t, RIL_E_SUCCESS, response, sizeof(response)); for (i = 0; i < sizeof(response) / sizeof(char *) ; i++) { if (response[i] != NULL) free(response[i]); } if (ril_data.tokens.registration_state != RIL_TOKEN_DATA_WAITING) ril_data.tokens.gprs_registration_state = RIL_TOKEN_NULL; break; default: LOGE("%s: unhandled service domain: %d", __func__, netinfo->domain); break; } ril_tokens_net_state_dump(); return; error: if (info != NULL) ril_request_complete(ril_request_get_token(info->aseq), RIL_E_GENERIC_FAILURE, NULL, 0); } void ipc_net_regist(struct ipc_message_info *info) { if (info == NULL) return; /* Don't consider this if modem isn't in normal power mode. */ if (ril_data.state.power_state != IPC_PWR_PHONE_STATE_NORMAL) return; switch (info->type) { case IPC_TYPE_NOTI: ipc_net_regist_unsol(info); break; case IPC_TYPE_RESP: ipc_net_regist_sol(info); break; default: LOGE("%s: unhandled ipc method: %d", __func__, info->type); break; } } void ril_request_query_available_networks(RIL_Token t) { ipc_fmt_send_get(IPC_NET_PLMN_LIST, ril_request_get_id(t)); } void ipc_net_plmn_list(struct ipc_message_info *info) { struct ipc_net_plmn_entries *entries_info; struct ipc_net_plmn_entry *entries; char **response; int length; int count; int index; int i; if (info->data == NULL || info->length < sizeof(struct ipc_net_plmn_entries)) goto error; entries_info = (struct ipc_net_plmn_entries *) info->data; entries = (struct ipc_net_plmn_entry *) (info->data + sizeof(struct ipc_net_plmn_entries)); LOGD("Listed %d PLMNs\n", entries_info->num); length = sizeof(char *) * 4 * entries_info->num; response = (char **) calloc(1, length); count = 0; for (i = 0 ; i < entries_info->num ; i++) { // Assumed type for 'emergency only' PLMNs if (entries[i].type == 0x01) continue; index = count * 4; ril_plmn_string(entries[i].plmn, &response[index]); index = count * 4 + 3; switch (entries[i].status) { case IPC_NET_PLMN_STATUS_AVAILABLE: response[index] = strdup("available"); break; case IPC_NET_PLMN_STATUS_CURRENT: response[index] = strdup("current"); break; case IPC_NET_PLMN_STATUS_FORBIDDEN: response[index] = strdup("forbidden"); break; default: response[index] = strdup("unknown"); break; } count++; } length = sizeof(char *) * 4 * count; ril_request_complete(ril_request_get_token(info->aseq), RIL_E_SUCCESS, response, length); for (i = 0 ; i < entries_info->num ; i++) if (response[i] != NULL) free(response[i]); free(response); return; error: ril_request_complete(ril_request_get_token(info->aseq), RIL_E_GENERIC_FAILURE, NULL, 0); } void ril_request_get_preferred_network_type(RIL_Token t) { ipc_fmt_send_get(IPC_NET_MODE_SEL, ril_request_get_id(t)); } void ril_request_set_preferred_network_type(RIL_Token t, void *data, size_t length) { int ril_mode; struct ipc_net_mode_sel mode_sel; if (data == NULL || length < (int) sizeof(int)) goto error; ril_mode = *((int *) data); mode_sel.mode_sel = ril2ipc_mode_sel(ril_mode); ipc_gen_phone_res_expect_to_complete(ril_request_get_id(t), IPC_NET_MODE_SEL); ipc_fmt_send(IPC_NET_MODE_SEL, IPC_TYPE_SET, (unsigned char *) &mode_sel, sizeof(mode_sel), ril_request_get_id(t)); return; error: ril_request_complete(t, RIL_E_GENERIC_FAILURE, NULL, 0); } void ipc_net_mode_sel(struct ipc_message_info *info) { struct ipc_net_mode_sel *mode_sel; int ril_mode; if (info->data == NULL || info->length < sizeof(struct ipc_net_mode_sel)) goto error; mode_sel = (struct ipc_net_mode_sel *) info->data; ril_mode = ipc2ril_mode_sel(mode_sel->mode_sel); ril_request_complete(ril_request_get_token(info->aseq), RIL_E_SUCCESS, &ril_mode, sizeof(ril_mode)); return; error: if (info != NULL) ril_request_complete(ril_request_get_token(info->aseq), RIL_E_GENERIC_FAILURE, NULL, 0); } void ril_request_query_network_selection_mode(RIL_Token t) { ipc_fmt_send_get(IPC_NET_PLMN_SEL, ril_request_get_id(t)); } void ipc_net_plmn_sel(struct ipc_message_info *info) { struct ipc_net_plmn_sel_get *plmn_sel; int ril_mode; if (info->data == NULL || info->length < sizeof(struct ipc_net_plmn_sel_get)) goto error; plmn_sel = (struct ipc_net_plmn_sel_get *) info->data; ril_mode = ipc2ril_plmn_sel(plmn_sel->plmn_sel); ril_request_complete(ril_request_get_token(info->aseq), RIL_E_SUCCESS, &ril_mode, sizeof(ril_mode)); return; error: ril_request_complete(ril_request_get_token(info->aseq), RIL_E_GENERIC_FAILURE, NULL, 0); } void ipc_net_plmn_sel_complete(struct ipc_message_info *info) { struct ipc_gen_phone_res *phone_res; int rc; phone_res = (struct ipc_gen_phone_res *) info->data; rc = ipc_gen_phone_res_check(phone_res); if (rc < 0) { if ((phone_res->code & 0x00ff) == 0x6f) { LOGE("Not authorized to register to this network!"); ril_request_complete(ril_request_get_token(info->aseq), RIL_E_ILLEGAL_SIM_OR_ME, NULL, 0); } else { LOGE("There was an error during operator selection!"); ril_request_complete(ril_request_get_token(info->aseq), RIL_E_GENERIC_FAILURE, NULL, 0); } return; } ril_request_complete(ril_request_get_token(info->aseq), RIL_E_SUCCESS, NULL, 0); } void ril_request_set_network_selection_automatic(RIL_Token t) { struct ipc_net_plmn_sel_set plmn_sel; ipc_net_plmn_sel_set_setup(&plmn_sel, IPC_NET_PLMN_SEL_AUTO, NULL, IPC_NET_ACCESS_TECHNOLOGY_UNKNOWN); ipc_gen_phone_res_expect_to_func(ril_request_get_id(t), IPC_NET_PLMN_SEL, ipc_net_plmn_sel_complete); ipc_fmt_send(IPC_NET_PLMN_SEL, IPC_TYPE_SET, (unsigned char *) &plmn_sel, sizeof(plmn_sel), ril_request_get_id(t)); } void ril_request_set_network_selection_manual(RIL_Token t, void *data, size_t length) { struct ipc_net_plmn_sel_set plmn_sel; if (data == NULL || length < (int) sizeof(char *)) return; // FIXME: We always assume UMTS capability ipc_net_plmn_sel_set_setup(&plmn_sel, IPC_NET_PLMN_SEL_MANUAL, data, IPC_NET_ACCESS_TECHNOLOGY_UMTS); ipc_gen_phone_res_expect_to_func(ril_request_get_id(t), IPC_NET_PLMN_SEL, ipc_net_plmn_sel_complete); ipc_fmt_send(IPC_NET_PLMN_SEL, IPC_TYPE_SET, (unsigned char *) &plmn_sel, sizeof(plmn_sel), ril_request_get_id(t)); }