/* Copyright (C) 2007-2008 The Android Open Source Project ** ** This software is licensed under the terms of the GNU General Public ** License version 2, as published by the Free Software Foundation, and ** may be copied, distributed, and modified under those terms. ** ** This program 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. */ #include "android/android.h" #include "android_modem.h" #include "android/config.h" #include "android/config/config.h" #include "android/snapshot.h" #include "android/utils/debug.h" #include "android/utils/timezone.h" #include "android/utils/system.h" #include "android/utils/bufprint.h" #include "android/utils/path.h" #include "hw/hw.h" #include "qemu-common.h" #include "sim_card.h" #include "sysdeps.h" #include #include #include #include #include #include "sms.h" #include "remote_call.h" #define DEBUG 1 #if 1 # define D_ACTIVE VERBOSE_CHECK(modem) #else # define D_ACTIVE DEBUG #endif #if 1 # define R_ACTIVE VERBOSE_CHECK(radio) #else # define R_ACTIVE DEBUG #endif #if DEBUG # define D(...) do { if (D_ACTIVE) fprintf( stderr, __VA_ARGS__ ); } while (0) # define R(...) do { if (R_ACTIVE) fprintf( stderr, __VA_ARGS__ ); } while (0) #else # define D(...) ((void)0) # define R(...) ((void)0) #endif #define CALL_DELAY_DIAL 1000 #define CALL_DELAY_ALERT 1000 /* the Android GSM stack checks that the operator's name has changed * when roaming is on. If not, it will not update the Roaming status icon * * this means that we need to emulate two distinct operators: * - the first one for the 'home' registration state, must also correspond * to the emulated user's IMEI * * - the second one for the 'roaming' registration state, must have a * different name and MCC/MNC */ #define OPERATOR_HOME_INDEX 0 #define OPERATOR_HOME_MCC 310 #define OPERATOR_HOME_MNC 260 #define OPERATOR_HOME_NAME "Android" #define OPERATOR_HOME_MCCMNC STRINGIFY(OPERATOR_HOME_MCC) \ STRINGIFY(OPERATOR_HOME_MNC) #define OPERATOR_ROAMING_INDEX 1 #define OPERATOR_ROAMING_MCC 310 #define OPERATOR_ROAMING_MNC 295 #define OPERATOR_ROAMING_NAME "TelKila" #define OPERATOR_ROAMING_MCCMNC STRINGIFY(OPERATOR_ROAMING_MCC) \ STRINGIFY(OPERATOR_ROAMING_MNC) static const char* _amodem_switch_technology(AModem modem, AModemTech newtech, int32_t newpreferred); static int _amodem_set_cdma_subscription_source( AModem modem, ACdmaSubscriptionSource ss); static int _amodem_set_cdma_prl_version( AModem modem, int prlVersion); #if DEBUG static const char* quote( const char* line ) { static char temp[1024]; const char* hexdigits = "0123456789abcdef"; char* p = temp; int c; while ((c = *line++) != 0) { c &= 255; if (c >= 32 && c < 127) { *p++ = c; } else if (c == '\r') { memcpy( p, "", 4 ); p += 4; } else if (c == '\n') { memcpy( p, "", 4 );strcat( p, "" ); p += 4; } else { p[0] = '\\'; p[1] = 'x'; p[2] = hexdigits[ (c) >> 4 ]; p[3] = hexdigits[ (c) & 15 ]; p += 4; } } *p = 0; return temp; } #endif extern AModemTech android_parse_modem_tech( const char * tech ) { const struct { const char* name; AModemTech tech; } techs[] = { { "gsm", A_TECH_GSM }, { "wcdma", A_TECH_WCDMA }, { "cdma", A_TECH_CDMA }, { "evdo", A_TECH_EVDO }, { "lte", A_TECH_LTE }, { NULL, 0 } }; int nn; for (nn = 0; techs[nn].name; nn++) { if (!strcmp(tech, techs[nn].name)) return techs[nn].tech; } /* not found */ return A_TECH_UNKNOWN; } extern ADataNetworkType android_parse_network_type( const char* speed ) { const struct { const char* name; ADataNetworkType type; } types[] = { { "gprs", A_DATA_NETWORK_GPRS }, { "edge", A_DATA_NETWORK_EDGE }, { "umts", A_DATA_NETWORK_UMTS }, { "hsdpa", A_DATA_NETWORK_UMTS }, /* not handled yet by Android GSM framework */ { "full", A_DATA_NETWORK_UMTS }, { "lte", A_DATA_NETWORK_LTE }, { "cdma", A_DATA_NETWORK_CDMA1X }, { "evdo", A_DATA_NETWORK_EVDO }, { NULL, 0 } }; int nn; for (nn = 0; types[nn].name; nn++) { if (!strcmp(speed, types[nn].name)) return types[nn].type; } /* not found, be conservative */ return A_DATA_NETWORK_GPRS; } /* 'mode' for +CREG/+CGREG commands */ typedef enum { A_REGISTRATION_UNSOL_DISABLED = 0, A_REGISTRATION_UNSOL_ENABLED = 1, A_REGISTRATION_UNSOL_ENABLED_FULL = 2 } ARegistrationUnsolMode; /* Operator selection mode, see +COPS commands */ typedef enum { A_SELECTION_AUTOMATIC, A_SELECTION_MANUAL, A_SELECTION_DEREGISTRATION, A_SELECTION_SET_FORMAT, A_SELECTION_MANUAL_AUTOMATIC } AOperatorSelection; /* Operator status, see +COPS commands */ typedef enum { A_STATUS_UNKNOWN = 0, A_STATUS_AVAILABLE, A_STATUS_CURRENT, A_STATUS_DENIED } AOperatorStatus; typedef struct { AOperatorStatus status; char name[3][16]; } AOperatorRec, *AOperator; typedef struct AVoiceCallRec { ACallRec call; SysTimer timer; AModem modem; char is_remote; } AVoiceCallRec, *AVoiceCall; #define MAX_OPERATORS 4 typedef enum { A_DATA_IP = 0, A_DATA_PPP } ADataType; #define A_DATA_APN_SIZE 32 typedef struct { int id; int active; ADataType type; char apn[ A_DATA_APN_SIZE ]; } ADataContextRec, *ADataContext; /* the spec says that there can only be a max of 4 contexts */ #define MAX_DATA_CONTEXTS 4 #define MAX_CALLS 4 #define MAX_EMERGENCY_NUMBERS 16 #define A_MODEM_SELF_SIZE 3 typedef struct AModemRec_ { /* Legacy support */ char supportsNetworkDataType; /* Radio state */ ARadioState radio_state; int area_code; int cell_id; int base_port; int rssi; int ber; /* SMS */ int wait_sms; /* SIM card */ ASimCard sim; /* voice and data network registration */ ARegistrationUnsolMode voice_mode; ARegistrationState voice_state; ARegistrationUnsolMode data_mode; ARegistrationState data_state; ADataNetworkType data_network; /* operator names */ AOperatorSelection oper_selection_mode; ANameIndex oper_name_index; int oper_index; int oper_count; AOperatorRec operators[ MAX_OPERATORS ]; /* data connection contexts */ ADataContextRec data_contexts[ MAX_DATA_CONTEXTS ]; /* active calls */ AVoiceCallRec calls[ MAX_CALLS ]; int call_count; /* unsolicited callback */ /* XXX: TODO: use this */ AModemUnsolFunc unsol_func; void* unsol_opaque; SmsReceiver sms_receiver; int out_size; char out_buff[1024]; /* * Hold non-volatile ram configuration for modem */ AConfig *nvram_config; char *nvram_config_filename; AModemTech technology; /* * This is are really 4 byte-sized prioritized masks. * Byte order gives the priority for the specific bitmask. * Each bit position in each of the masks is indexed by the different * A_TECH_XXXX values. * e.g. 0x01 means only GSM is set (bit index 0), whereas 0x0f * means that GSM,WCDMA,CDMA and EVDO are set */ int32_t preferred_mask; ACdmaSubscriptionSource subscription_source; ACdmaRoamingPref roaming_pref; int in_emergency_mode; int prl_version; const char *emergency_numbers[MAX_EMERGENCY_NUMBERS]; } AModemRec; static void amodem_unsol( AModem modem, const char* format, ... ) { if (modem->unsol_func) { va_list args; va_start(args, format); vsnprintf( modem->out_buff, sizeof(modem->out_buff), format, args ); va_end(args); modem->unsol_func( modem->unsol_opaque, modem->out_buff ); } } void amodem_receive_sms( AModem modem, SmsPDU sms ) { #define SMS_UNSOL_HEADER "+CMT: 0\r\n" if (modem->unsol_func) { int len, max; char* p; strcpy( modem->out_buff, SMS_UNSOL_HEADER ); p = modem->out_buff + (sizeof(SMS_UNSOL_HEADER)-1); max = sizeof(modem->out_buff) - 3 - (sizeof(SMS_UNSOL_HEADER)-1); len = smspdu_to_hex( sms, p, max ); if (len > max) /* too long */ return; p[len] = '\r'; p[len+1] = '\n'; p[len+2] = 0; R( "SMS>> %s\n", p ); modem->unsol_func( modem->unsol_opaque, modem->out_buff ); } } static const char* amodem_printf( AModem modem, const char* format, ... ) { va_list args; va_start(args, format); vsnprintf( modem->out_buff, sizeof(modem->out_buff), format, args ); va_end(args); return modem->out_buff; } static void amodem_begin_line( AModem modem ) { modem->out_size = 0; } static void amodem_add_line( AModem modem, const char* format, ... ) { va_list args; va_start(args, format); modem->out_size += vsnprintf( modem->out_buff + modem->out_size, sizeof(modem->out_buff) - modem->out_size, format, args ); va_end(args); } static const char* amodem_end_line( AModem modem ) { modem->out_buff[ modem->out_size ] = 0; return modem->out_buff; } #define NV_OPER_NAME_INDEX "oper_name_index" #define NV_OPER_INDEX "oper_index" #define NV_SELECTION_MODE "selection_mode" #define NV_OPER_COUNT "oper_count" #define NV_MODEM_TECHNOLOGY "modem_technology" #define NV_PREFERRED_MODE "preferred_mode" #define NV_CDMA_SUBSCRIPTION_SOURCE "cdma_subscription_source" #define NV_CDMA_ROAMING_PREF "cdma_roaming_pref" #define NV_IN_ECBM "in_ecbm" #define NV_EMERGENCY_NUMBER_FMT "emergency_number_%d" #define NV_PRL_VERSION "prl_version" #define NV_SREGISTER "sregister" #define MAX_KEY_NAME 40 static AConfig * amodem_load_nvram( AModem modem ) { AConfig* root = aconfig_node(NULL, NULL); D("Using config file: %s\n", modem->nvram_config_filename); if (aconfig_load_file(root, modem->nvram_config_filename)) { D("Unable to load config\n"); aconfig_set(root, NV_MODEM_TECHNOLOGY, "gsm"); aconfig_save_file(root, modem->nvram_config_filename); } return root; } static int amodem_nvram_get_int( AModem modem, const char *nvname, int defval) { int value; char strval[MAX_KEY_NAME + 1]; char *newvalue; value = aconfig_int(modem->nvram_config, nvname, defval); snprintf(strval, MAX_KEY_NAME, "%d", value); D("Setting value of %s to %d (%s)",nvname, value, strval); newvalue = strdup(strval); if (!newvalue) { newvalue = ""; } aconfig_set(modem->nvram_config, nvname, newvalue); return value; } const char * amodem_nvram_get_str( AModem modem, const char *nvname, const char *defval) { const char *value; value = aconfig_str(modem->nvram_config, nvname, defval); if (!value) { if (!defval) return NULL; value = defval; } aconfig_set(modem->nvram_config, nvname, value); return value; } static ACdmaSubscriptionSource _amodem_get_cdma_subscription_source( AModem modem ) { int iss = -1; iss = amodem_nvram_get_int( modem, NV_CDMA_SUBSCRIPTION_SOURCE, A_SUBSCRIPTION_RUIM ); if (iss >= A_SUBSCRIPTION_UNKNOWN || iss < 0) { iss = A_SUBSCRIPTION_RUIM; } return iss; } static ACdmaRoamingPref _amodem_get_cdma_roaming_preference( AModem modem ) { int rp = -1; rp = amodem_nvram_get_int( modem, NV_CDMA_ROAMING_PREF, A_ROAMING_PREF_ANY ); if (rp >= A_ROAMING_PREF_UNKNOWN || rp < 0) { rp = A_ROAMING_PREF_ANY; } return rp; } static void amodem_reset( AModem modem ) { const char *tmp; int i; modem->nvram_config = amodem_load_nvram(modem); modem->radio_state = A_RADIO_STATE_OFF; modem->wait_sms = 0; modem->rssi= 7; // Two signal strength bars modem->ber = 99; // Means 'unknown' modem->oper_name_index = amodem_nvram_get_int(modem, NV_OPER_NAME_INDEX, 2); modem->oper_selection_mode = amodem_nvram_get_int(modem, NV_SELECTION_MODE, A_SELECTION_AUTOMATIC); modem->oper_index = amodem_nvram_get_int(modem, NV_OPER_INDEX, 0); modem->oper_count = amodem_nvram_get_int(modem, NV_OPER_COUNT, 2); modem->in_emergency_mode = amodem_nvram_get_int(modem, NV_IN_ECBM, 0); modem->prl_version = amodem_nvram_get_int(modem, NV_PRL_VERSION, 0); modem->emergency_numbers[0] = "911"; char key_name[MAX_KEY_NAME + 1]; for (i = 1; i < MAX_EMERGENCY_NUMBERS; i++) { snprintf(key_name,MAX_KEY_NAME, NV_EMERGENCY_NUMBER_FMT, i); modem->emergency_numbers[i] = amodem_nvram_get_str(modem,key_name, NULL); } modem->area_code = -1; modem->cell_id = -1; strcpy( modem->operators[0].name[0], OPERATOR_HOME_NAME ); strcpy( modem->operators[0].name[1], OPERATOR_HOME_NAME ); strcpy( modem->operators[0].name[2], OPERATOR_HOME_MCCMNC ); modem->operators[0].status = A_STATUS_AVAILABLE; strcpy( modem->operators[1].name[0], OPERATOR_ROAMING_NAME ); strcpy( modem->operators[1].name[1], OPERATOR_ROAMING_NAME ); strcpy( modem->operators[1].name[2], OPERATOR_ROAMING_MCCMNC ); modem->operators[1].status = A_STATUS_AVAILABLE; modem->voice_mode = A_REGISTRATION_UNSOL_ENABLED_FULL; modem->voice_state = A_REGISTRATION_HOME; modem->data_mode = A_REGISTRATION_UNSOL_ENABLED_FULL; modem->data_state = A_REGISTRATION_HOME; modem->data_network = A_DATA_NETWORK_UMTS; tmp = amodem_nvram_get_str( modem, NV_MODEM_TECHNOLOGY, "gsm" ); modem->technology = android_parse_modem_tech( tmp ); if (modem->technology == A_TECH_UNKNOWN) { modem->technology = aconfig_int( modem->nvram_config, NV_MODEM_TECHNOLOGY, A_TECH_GSM ); } // Support GSM, WCDMA, CDMA, EvDo modem->preferred_mask = amodem_nvram_get_int( modem, NV_PREFERRED_MODE, 0x0f ); modem->subscription_source = _amodem_get_cdma_subscription_source( modem ); modem->roaming_pref = _amodem_get_cdma_roaming_preference( modem ); } static AVoiceCall amodem_alloc_call( AModem modem ); static void amodem_free_call( AModem modem, AVoiceCall call ); #define MODEM_DEV_STATE_SAVE_VERSION 1 static void android_modem_state_save(QEMUFile *f, void *opaque) { AModem modem = opaque; // TODO: save more than just calls and call_count - rssi, power, etc. qemu_put_byte(f, modem->call_count); int nn; for (nn = modem->call_count - 1; nn >= 0; nn--) { AVoiceCall vcall = modem->calls + nn; // Note: not saving timers or remote calls. ACall call = &vcall->call; qemu_put_byte( f, call->dir ); qemu_put_byte( f, call->state ); qemu_put_byte( f, call->mode ); qemu_put_be32( f, call->multi ); qemu_put_buffer( f, (uint8_t *)call->number, A_CALL_NUMBER_MAX_SIZE+1 ); } } static int android_modem_state_load(QEMUFile *f, void *opaque, int version_id) { if (version_id != MODEM_DEV_STATE_SAVE_VERSION) return -1; AModem modem = opaque; // In case there are timers or remote calls. int nn; for (nn = modem->call_count - 1; nn >= 0; nn--) { amodem_free_call( modem, modem->calls + nn); } int call_count = qemu_get_byte(f); for (nn = call_count; nn > 0; nn--) { AVoiceCall vcall = amodem_alloc_call( modem ); ACall call = &vcall->call; call->dir = qemu_get_byte( f ); call->state = qemu_get_byte( f ); call->mode = qemu_get_byte( f ); call->multi = qemu_get_be32( f ); qemu_get_buffer( f, (uint8_t *)call->number, A_CALL_NUMBER_MAX_SIZE+1 ); } return 0; // >=0 Happy } static AModemRec _android_modem[1]; AModem amodem_create( int base_port, AModemUnsolFunc unsol_func, void* unsol_opaque ) { AModem modem = _android_modem; char nvfname[MAX_PATH]; char *start = nvfname; char *end = start + sizeof(nvfname); modem->base_port = base_port; start = bufprint_config_file( start, end, "modem-nv-ram-" ); start = bufprint( start, end, "%d", modem->base_port ); modem->nvram_config_filename = strdup( nvfname ); amodem_reset( modem ); modem->supportsNetworkDataType = 1; modem->unsol_func = unsol_func; modem->unsol_opaque = unsol_opaque; modem->sim = asimcard_create(base_port); sys_main_init(); register_savevm( "android_modem", 0, MODEM_DEV_STATE_SAVE_VERSION, android_modem_state_save, android_modem_state_load, modem); aconfig_save_file( modem->nvram_config, modem->nvram_config_filename ); return modem; } void amodem_set_legacy( AModem modem ) { modem->supportsNetworkDataType = 0; } void amodem_destroy( AModem modem ) { asimcard_destroy( modem->sim ); modem->sim = NULL; } static int amodem_has_network( AModem modem ) { return !(modem->radio_state == A_RADIO_STATE_OFF || modem->oper_index < 0 || modem->oper_index >= modem->oper_count || modem->oper_selection_mode == A_SELECTION_DEREGISTRATION ); } ARadioState amodem_get_radio_state( AModem modem ) { return modem->radio_state; } void amodem_set_radio_state( AModem modem, ARadioState state ) { modem->radio_state = state; } ASimCard amodem_get_sim( AModem modem ) { return modem->sim; } ARegistrationState amodem_get_voice_registration( AModem modem ) { return modem->voice_state; } void amodem_set_voice_registration( AModem modem, ARegistrationState state ) { modem->voice_state = state; if (state == A_REGISTRATION_HOME) modem->oper_index = OPERATOR_HOME_INDEX; else if (state == A_REGISTRATION_ROAMING) modem->oper_index = OPERATOR_ROAMING_INDEX; switch (modem->voice_mode) { case A_REGISTRATION_UNSOL_ENABLED: amodem_unsol( modem, "+CREG: %d,%d\r", modem->voice_mode, modem->voice_state ); break; case A_REGISTRATION_UNSOL_ENABLED_FULL: amodem_unsol( modem, "+CREG: %d,%d, \"%04x\", \"%04x\"\r", modem->voice_mode, modem->voice_state, modem->area_code & 0xffff, modem->cell_id & 0xffff); break; default: ; } } ARegistrationState amodem_get_data_registration( AModem modem ) { return modem->data_state; } void amodem_set_data_registration( AModem modem, ARegistrationState state ) { modem->data_state = state; switch (modem->data_mode) { case A_REGISTRATION_UNSOL_ENABLED: amodem_unsol( modem, "+CGREG: %d,%d\r", modem->data_mode, modem->data_state ); break; case A_REGISTRATION_UNSOL_ENABLED_FULL: if (modem->supportsNetworkDataType) amodem_unsol( modem, "+CGREG: %d,%d,\"%04x\",\"%04x\",\"%04x\"\r", modem->data_mode, modem->data_state, modem->area_code & 0xffff, modem->cell_id & 0xffff, modem->data_network ); else amodem_unsol( modem, "+CGREG: %d,%d,\"%04x\",\"%04x\"\r", modem->data_mode, modem->data_state, modem->area_code & 0xffff, modem->cell_id & 0xffff ); break; default: ; } } static int amodem_nvram_set( AModem modem, const char *name, const char *value ) { aconfig_set(modem->nvram_config, name, value); return 0; } static AModemTech tech_from_network_type( ADataNetworkType type ) { switch (type) { case A_DATA_NETWORK_GPRS: case A_DATA_NETWORK_EDGE: case A_DATA_NETWORK_UMTS: // TODO: Add A_TECH_WCDMA return A_TECH_GSM; case A_DATA_NETWORK_LTE: return A_TECH_LTE; case A_DATA_NETWORK_CDMA1X: case A_DATA_NETWORK_EVDO: return A_TECH_CDMA; case A_DATA_NETWORK_UNKNOWN: return A_TECH_UNKNOWN; } return A_TECH_UNKNOWN; } void amodem_set_data_network_type( AModem modem, ADataNetworkType type ) { AModemTech modemTech; modem->data_network = type; amodem_set_data_registration( modem, modem->data_state ); modemTech = tech_from_network_type(type); if (modem->unsol_func && modemTech != A_TECH_UNKNOWN) { if (_amodem_switch_technology( modem, modemTech, modem->preferred_mask )) { modem->unsol_func( modem->unsol_opaque, modem->out_buff ); } } } int amodem_get_operator_name ( AModem modem, ANameIndex index, char* buffer, int buffer_size ) { AOperator oper; int len; if ( (unsigned)modem->oper_index >= (unsigned)modem->oper_count || (unsigned)index > 2 ) return 0; oper = modem->operators + modem->oper_index; len = strlen(oper->name[index]) + 1; if (buffer_size > len) buffer_size = len; if (buffer_size > 0) { memcpy( buffer, oper->name[index], buffer_size-1 ); buffer[buffer_size] = 0; } return len; } /* reset one operator name from a user-provided buffer, set buffer_size to -1 for zero-terminated strings */ void amodem_set_operator_name( AModem modem, ANameIndex index, const char* buffer, int buffer_size ) { AOperator oper; int avail; if ( (unsigned)modem->oper_index >= (unsigned)modem->oper_count || (unsigned)index > 2 ) return; oper = modem->operators + modem->oper_index; avail = sizeof(oper->name[0]); if (buffer_size < 0) buffer_size = strlen(buffer); if (buffer_size > avail-1) buffer_size = avail-1; memcpy( oper->name[index], buffer, buffer_size ); oper->name[index][buffer_size] = 0; } /** CALLS **/ int amodem_get_call_count( AModem modem ) { return modem->call_count; } ACall amodem_get_call( AModem modem, int index ) { if ((unsigned)index >= (unsigned)modem->call_count) return NULL; return &modem->calls[index].call; } static AVoiceCall amodem_alloc_call( AModem modem ) { AVoiceCall call = NULL; int count = modem->call_count; if (count < MAX_CALLS) { int id; /* find a valid id for this call */ for (id = 0; id < modem->call_count; id++) { int found = 0; int nn; for (nn = 0; nn < count; nn++) { if ( modem->calls[nn].call.id == (id+1) ) { found = 1; break; } } if (!found) break; } call = modem->calls + count; call->call.id = id + 1; call->modem = modem; modem->call_count += 1; } return call; } static void amodem_free_call( AModem modem, AVoiceCall call ) { int nn; if (call->timer) { sys_timer_destroy( call->timer ); call->timer = NULL; } if (call->is_remote) { remote_call_cancel( call->call.number, modem->base_port ); call->is_remote = 0; } for (nn = 0; nn < modem->call_count; nn++) { if ( modem->calls + nn == call ) break; } assert( nn < modem->call_count ); memmove( modem->calls + nn, modem->calls + nn + 1, (modem->call_count - 1 - nn)*sizeof(*call) ); modem->call_count -= 1; } static AVoiceCall amodem_find_call( AModem modem, int id ) { int nn; for (nn = 0; nn < modem->call_count; nn++) { AVoiceCall call = modem->calls + nn; if (call->call.id == id) return call; } return NULL; } static void amodem_send_calls_update( AModem modem ) { /* despite its name, this really tells the system that the call * state has changed */ amodem_unsol( modem, "RING\r" ); } int amodem_add_inbound_call( AModem modem, const char* number ) { AVoiceCall vcall = amodem_alloc_call( modem ); ACall call = &vcall->call; int len; if (call == NULL) return -1; call->dir = A_CALL_INBOUND; call->state = A_CALL_INCOMING; call->mode = A_CALL_VOICE; call->multi = 0; vcall->is_remote = (remote_number_string_to_port(number) > 0); len = strlen(number); if (len >= sizeof(call->number)) len = sizeof(call->number)-1; memcpy( call->number, number, len ); call->number[len] = 0; amodem_send_calls_update( modem ); return 0; } ACall amodem_find_call_by_number( AModem modem, const char* number ) { AVoiceCall vcall = modem->calls; AVoiceCall vend = vcall + modem->call_count; if (!number) return NULL; for ( ; vcall < vend; vcall++ ) if ( !strcmp(vcall->call.number, number) ) return &vcall->call; return NULL; } void amodem_set_signal_strength( AModem modem, int rssi, int ber ) { modem->rssi = rssi; modem->ber = ber; } static void acall_set_state( AVoiceCall call, ACallState state ) { if (state != call->call.state) { if (call->is_remote) { const char* number = call->call.number; int port = call->modem->base_port; switch (state) { case A_CALL_HELD: remote_call_other( number, port, REMOTE_CALL_HOLD ); break; case A_CALL_ACTIVE: remote_call_other( number, port, REMOTE_CALL_ACCEPT ); break; default: ; } } call->call.state = state; } } int amodem_update_call( AModem modem, const char* fromNumber, ACallState state ) { AVoiceCall vcall = (AVoiceCall) amodem_find_call_by_number(modem, fromNumber); if (vcall == NULL) return -1; acall_set_state( vcall, state ); amodem_send_calls_update(modem); return 0; } int amodem_disconnect_call( AModem modem, const char* number ) { AVoiceCall vcall = (AVoiceCall) amodem_find_call_by_number(modem, number); if (!vcall) return -1; amodem_free_call( modem, vcall ); amodem_send_calls_update(modem); return 0; } /** COMMAND HANDLERS **/ static const char* unknownCommand( const char* cmd, AModem modem ) { modem=modem; fprintf(stderr, ">>> unknown command '%s'\n", cmd ); return "ERROR: unknown command\r"; } /* * Tell whether the specified tech is valid for the preferred mask. * @pmask: The preferred mask * @tech: The AModemTech we try to validate * return: If the specified technology is not set in any of the 4 * bitmasks, return 0. * Otherwise, return a non-zero value. */ static int matchPreferredMask( int32_t pmask, AModemTech tech ) { int ret = 0; int i; for ( i=3; i >= 0 ; i-- ) { if (pmask & (1 << (tech + i*8 ))) { ret = 1; break; } } return ret; } static AModemTech chooseTechFromMask( AModem modem, int32_t preferred ) { int i, j; /* TODO: Current implementation will only return the highest priority, * lowest numbered technology that is set in the mask. * However the implementation could be changed to consider currently * available networks set from the console (or somewhere else) */ for ( i=3 ; i >= 0; i-- ) { for ( j=0 ; j < A_TECH_UNKNOWN ; j++ ) { if (preferred & (1 << (j + 8 * i))) return (AModemTech) j; } } assert("This should never happen" == 0); // This should never happen. Just to please the compiler. return A_TECH_UNKNOWN; } static const char* _amodem_switch_technology( AModem modem, AModemTech newtech, int32_t newpreferred ) { D("_amodem_switch_technology: oldtech: %d, newtech %d, preferred: %d. newpreferred: %d\n", modem->technology, newtech, modem->preferred_mask,newpreferred); const char *ret = "+CTEC: DONE"; assert( modem ); if (!newpreferred) { return "ERROR: At least one technology must be enabled"; } if (modem->preferred_mask != newpreferred) { char value[MAX_KEY_NAME + 1]; modem->preferred_mask = newpreferred; snprintf(value, MAX_KEY_NAME, "%d", newpreferred); amodem_nvram_set(modem, NV_PREFERRED_MODE, value); if (!matchPreferredMask(modem->preferred_mask, newtech)) { newtech = chooseTechFromMask(modem, newpreferred); } } if (modem->technology != newtech) { modem->technology = newtech; ret = amodem_printf(modem, "+CTEC: %d", modem->technology); } return ret; } static int parsePreferred( const char *str, int *preferred ) { char *endptr = NULL; int result = 0; if (!str || !*str) { *preferred = 0; return 0; } if (*str == '"') str ++; if (!*str) return 0; result = strtol(str, &endptr, 16); if (*endptr && *endptr != '"') { return 0; } if (preferred) *preferred = result; return 1; } void amodem_set_cdma_prl_version( AModem modem, int prlVersion) { D("amodem_set_prl_version()\n"); if (!_amodem_set_cdma_prl_version( modem, prlVersion)) { amodem_unsol(modem, "+WPRL: %d", prlVersion); } } static int _amodem_set_cdma_prl_version( AModem modem, int prlVersion) { D("_amodem_set_cdma_prl_version"); if (modem->prl_version != prlVersion) { modem->prl_version = prlVersion; return 0; } return -1; } void amodem_set_cdma_subscription_source( AModem modem, ACdmaSubscriptionSource ss) { D("amodem_set_cdma_subscription_source()\n"); if (!_amodem_set_cdma_subscription_source( modem, ss)) { amodem_unsol(modem, "+CCSS: %d", (int)ss); } } #define MAX_INT_DIGITS 10 static int _amodem_set_cdma_subscription_source( AModem modem, ACdmaSubscriptionSource ss) { D("_amodem_set_cdma_subscription_source()\n"); char value[MAX_INT_DIGITS + 1]; if (ss != modem->subscription_source) { snprintf( value, MAX_INT_DIGITS + 1, "%d", ss ); amodem_nvram_set( modem, NV_CDMA_SUBSCRIPTION_SOURCE, value ); modem->subscription_source = ss; return 0; } return -1; } static const char* handleSubscriptionSource( const char* cmd, AModem modem ) { int newsource; // TODO: Actually change subscription depending on source D("handleSubscriptionSource(%s)\n",cmd); assert( !memcmp( "+CCSS", cmd, 5 ) ); cmd += 5; if (cmd[0] == '?') { return amodem_printf( modem, "+CCSS: %d", modem->subscription_source ); } else if (cmd[0] == '=') { switch (cmd[1]) { case '0': case '1': newsource = (ACdmaSubscriptionSource)cmd[1] - '0'; _amodem_set_cdma_subscription_source( modem, newsource ); return amodem_printf( modem, "+CCSS: %d", modem->subscription_source ); break; } } return amodem_printf( modem, "ERROR: Invalid subscription source"); } static const char* handleRoamPref( const char * cmd, AModem modem ) { int roaming_pref = -1; char *endptr = NULL; D("handleRoamPref(%s)\n", cmd); assert( !memcmp( "+WRMP", cmd, 5 ) ); cmd += 5; if (cmd[0] == '?') { return amodem_printf( modem, "+WRMP: %d", modem->roaming_pref ); } if (!strcmp( cmd, "=?")) { return amodem_printf( modem, "+WRMP: 0,1,2" ); } else if (cmd[0] == '=') { cmd ++; roaming_pref = strtol( cmd, &endptr, 10 ); // Make sure the rest of the command is the number // (if *endptr is null, it means strtol processed the whole string as a number) if(endptr && !*endptr) { modem->roaming_pref = roaming_pref; aconfig_set( modem->nvram_config, NV_CDMA_ROAMING_PREF, cmd ); aconfig_save_file( modem->nvram_config, modem->nvram_config_filename ); return NULL; } } return amodem_printf( modem, "ERROR"); } static const char* handleTech( const char* cmd, AModem modem ) { AModemTech newtech = modem->technology; int pt = modem->preferred_mask; int havenewtech = 0; D("handleTech. cmd: %s\n", cmd); assert( !memcmp( "+CTEC", cmd, 5 ) ); cmd += 5; if (cmd[0] == '?') { return amodem_printf( modem, "+CTEC: %d,%x",modem->technology, modem->preferred_mask ); } amodem_begin_line( modem ); if (!strcmp( cmd, "=?")) { return amodem_printf( modem, "+CTEC: 0,1,2,3" ); } else if (cmd[0] == '=') { switch (cmd[1]) { case '0': case '1': case '2': case '3': havenewtech = 1; newtech = cmd[1] - '0'; cmd += 1; break; } cmd += 1; } if (havenewtech) { D( "cmd: %s\n", cmd ); if (cmd[0] == ',' && ! parsePreferred( ++cmd, &pt )) return amodem_printf( modem, "ERROR: invalid preferred mode" ); return _amodem_switch_technology( modem, newtech, pt ); } return amodem_printf( modem, "ERROR: %s: Unknown Technology", cmd + 1 ); } static const char* handleEmergencyMode( const char* cmd, AModem modem ) { long arg; char *endptr = NULL; assert ( !memcmp( "+WSOS", cmd, 5 ) ); cmd += 5; if (cmd[0] == '?') { return amodem_printf( modem, "+WSOS: %d", modem->in_emergency_mode); } if (cmd[0] == '=') { if (cmd[1] == '?') { return amodem_printf(modem, "+WSOS: (0)"); } if (cmd[1] == 0) { return amodem_printf(modem, "ERROR"); } arg = strtol(cmd+1, &endptr, 10); if (!endptr || endptr[0] != 0) { return amodem_printf(modem, "ERROR"); } arg = arg? 1 : 0; if ((!arg) != (!modem->in_emergency_mode)) { modem->in_emergency_mode = arg; return amodem_printf(modem, "+WSOS: %d", arg); } } return amodem_printf(modem, "ERROR"); } static const char* handlePrlVersion( const char* cmd, AModem modem ) { assert ( !memcmp( "+WPRL", cmd, 5 ) ); cmd += 5; if (cmd[0] == '?') { return amodem_printf( modem, "+WPRL: %d", modem->prl_version); } return amodem_printf(modem, "ERROR"); } static const char* handleRadioPower( const char* cmd, AModem modem ) { if ( !strcmp( cmd, "+CFUN=0" ) ) { /* turn radio off */ modem->radio_state = A_RADIO_STATE_OFF; } else if ( !strcmp( cmd, "+CFUN=1" ) ) { /* turn radio on */ modem->radio_state = A_RADIO_STATE_ON; } return NULL; } static const char* handleRadioPowerReq( const char* cmd, AModem modem ) { if (modem->radio_state != A_RADIO_STATE_OFF) return "+CFUN: 1"; else return "+CFUN: 0"; } static const char* handleSIMStatusReq( const char* cmd, AModem modem ) { const char* answer = NULL; switch (asimcard_get_status(modem->sim)) { case A_SIM_STATUS_ABSENT: answer = "+CPIN: ABSENT"; break; case A_SIM_STATUS_READY: answer = "+CPIN: READY"; break; case A_SIM_STATUS_NOT_READY: answer = "+CMERROR: NOT READY"; break; case A_SIM_STATUS_PIN: answer = "+CPIN: SIM PIN"; break; case A_SIM_STATUS_PUK: answer = "+CPIN: SIM PUK"; break; case A_SIM_STATUS_NETWORK_PERSONALIZATION: answer = "+CPIN: PH-NET PIN"; break; default: answer = "ERROR: internal error"; } return answer; } /* TODO: Will we need this? static const char* handleSRegister( const char * cmd, AModem modem ) { char *end; assert( cmd[0] == 'S' || cmd[0] == 's' ); ++ cmd; int l = strtol(cmd, &end, 10); } */ static const char* handleNetworkRegistration( const char* cmd, AModem modem ) { if ( !memcmp( cmd, "+CREG", 5 ) ) { cmd += 5; if (cmd[0] == '?') { if (modem->voice_mode == A_REGISTRATION_UNSOL_ENABLED_FULL) return amodem_printf( modem, "+CREG: %d,%d, \"%04x\", \"%04x\"", modem->voice_mode, modem->voice_state, modem->area_code, modem->cell_id ); else return amodem_printf( modem, "+CREG: %d,%d", modem->voice_mode, modem->voice_state ); } else if (cmd[0] == '=') { switch (cmd[1]) { case '0': modem->voice_mode = A_REGISTRATION_UNSOL_DISABLED; break; case '1': modem->voice_mode = A_REGISTRATION_UNSOL_ENABLED; break; case '2': modem->voice_mode = A_REGISTRATION_UNSOL_ENABLED_FULL; break; case '?': return "+CREG: (0-2)"; default: return "ERROR: BAD COMMAND"; } } else { assert( 0 && "unreachable" ); } } else if ( !memcmp( cmd, "+CGREG", 6 ) ) { cmd += 6; if (cmd[0] == '?') { if (modem->supportsNetworkDataType) return amodem_printf( modem, "+CGREG: %d,%d,\"%04x\",\"%04x\",\"%04x\"", modem->data_mode, modem->data_state, modem->area_code, modem->cell_id, modem->data_network ); else return amodem_printf( modem, "+CGREG: %d,%d,\"%04x\",\"%04x\"", modem->data_mode, modem->data_state, modem->area_code, modem->cell_id ); } else if (cmd[0] == '=') { switch (cmd[1]) { case '0': modem->data_mode = A_REGISTRATION_UNSOL_DISABLED; break; case '1': modem->data_mode = A_REGISTRATION_UNSOL_ENABLED; break; case '2': modem->data_mode = A_REGISTRATION_UNSOL_ENABLED_FULL; break; case '?': return "+CGREG: (0-2)"; default: return "ERROR: BAD COMMAND"; } } else { assert( 0 && "unreachable" ); } } return NULL; } static const char* handleSetDialTone( const char* cmd, AModem modem ) { /* XXX: TODO */ return NULL; } static const char* handleDeleteSMSonSIM( const char* cmd, AModem modem ) { /* XXX: TODO */ return NULL; } static const char* handleSIM_IO( const char* cmd, AModem modem ) { return asimcard_io( modem->sim, cmd ); } static const char* handleOperatorSelection( const char* cmd, AModem modem ) { assert( !memcmp( "+COPS", cmd, 5 ) ); cmd += 5; if (cmd[0] == '?') { /* ask for current operator */ AOperator oper = &modem->operators[ modem->oper_index ]; if ( !amodem_has_network( modem ) ) { /* this error code means "no network" */ return amodem_printf( modem, "+CME ERROR: 30" ); } oper = &modem->operators[ modem->oper_index ]; if ( modem->oper_name_index == 2 ) return amodem_printf( modem, "+COPS: %d,2,%s", modem->oper_selection_mode, oper->name[2] ); return amodem_printf( modem, "+COPS: %d,%d,\"%s\"", modem->oper_selection_mode, modem->oper_name_index, oper->name[ modem->oper_name_index ] ); } else if (cmd[0] == '=' && cmd[1] == '?') { /* ask for all available operators */ const char* comma = "+COPS: "; int nn; amodem_begin_line( modem ); for (nn = 0; nn < modem->oper_count; nn++) { AOperator oper = &modem->operators[nn]; amodem_add_line( modem, "%s(%d,\"%s\",\"%s\",\"%s\")", comma, oper->status, oper->name[0], oper->name[1], oper->name[2] ); comma = ", "; } return amodem_end_line( modem ); } else if (cmd[0] == '=') { switch (cmd[1]) { case '0': modem->oper_selection_mode = A_SELECTION_AUTOMATIC; return NULL; case '1': { int format, nn, len, found = -1; if (cmd[2] != ',') goto BadCommand; format = cmd[3] - '0'; if ( (unsigned)format > 2 ) goto BadCommand; if (cmd[4] != ',') goto BadCommand; cmd += 5; len = strlen(cmd); if (*cmd == '"') { cmd++; len -= 2; } if (len <= 0) goto BadCommand; for (nn = 0; nn < modem->oper_count; nn++) { AOperator oper = modem->operators + nn; char* name = oper->name[ format ]; if ( !memcpy( name, cmd, len ) && name[len] == 0 ) { found = nn; break; } } if (found < 0) { /* Selection failed */ return "+CME ERROR: 529"; } else if (modem->operators[found].status == A_STATUS_DENIED) { /* network not allowed */ return "+CME ERROR: 32"; } modem->oper_index = found; /* set the voice and data registration states to home or roaming * depending on the operator index */ if (found == OPERATOR_HOME_INDEX) { modem->voice_state = A_REGISTRATION_HOME; modem->data_state = A_REGISTRATION_HOME; } else if (found == OPERATOR_ROAMING_INDEX) { modem->voice_state = A_REGISTRATION_ROAMING; modem->data_state = A_REGISTRATION_ROAMING; } return NULL; } case '2': modem->oper_selection_mode = A_SELECTION_DEREGISTRATION; return NULL; case '3': { int format; if (cmd[2] != ',') goto BadCommand; format = cmd[3] - '0'; if ( (unsigned)format > 2 ) goto BadCommand; modem->oper_name_index = format; return NULL; } default: ; } } BadCommand: return unknownCommand(cmd,modem); } static const char* handleRequestOperator( const char* cmd, AModem modem ) { AOperator oper; cmd=cmd; if ( !amodem_has_network(modem) ) return "+CME ERROR: 30"; oper = modem->operators + modem->oper_index; modem->oper_name_index = 2; return amodem_printf( modem, "+COPS: 0,0,\"%s\"\r" "+COPS: 0,1,\"%s\"\r" "+COPS: 0,2,\"%s\"", oper->name[0], oper->name[1], oper->name[2] ); } static const char* handleSendSMStoSIM( const char* cmd, AModem modem ) { /* XXX: TODO */ return "ERROR: unimplemented"; } static const char* handleSendSMS( const char* cmd, AModem modem ) { modem->wait_sms = 1; return "> "; } #if 0 static void sms_address_dump( SmsAddress address, FILE* out ) { int nn, len = address->len; if (address->toa == 0x91) { fprintf( out, "+" ); } for (nn = 0; nn < len; nn += 2) { static const char dialdigits[16] = "0123456789*#,N%"; int c = address->data[nn/2]; fprintf( out, "%c", dialdigits[c & 0xf] ); if (nn+1 >= len) break; fprintf( out, "%c", dialdigits[(c >> 4) & 0xf] ); } } static void smspdu_dump( SmsPDU pdu, FILE* out ) { SmsAddressRec address; unsigned char temp[256]; int len; if (pdu == NULL) { fprintf( out, "SMS PDU is (null)\n" ); return; } fprintf( out, "SMS PDU type: " ); switch (smspdu_get_type(pdu)) { case SMS_PDU_DELIVER: fprintf(out, "DELIVER"); break; case SMS_PDU_SUBMIT: fprintf(out, "SUBMIT"); break; case SMS_PDU_STATUS_REPORT: fprintf(out, "STATUS_REPORT"); break; default: fprintf(out, "UNKNOWN"); } fprintf( out, "\n sender: " ); if (smspdu_get_sender_address(pdu, &address) < 0) fprintf( out, "(N/A)" ); else sms_address_dump(&address, out); fprintf( out, "\n receiver: " ); if (smspdu_get_receiver_address(pdu, &address) < 0) fprintf(out, "(N/A)"); else sms_address_dump(&address, out); fprintf( out, "\n text: " ); len = smspdu_get_text_message( pdu, temp, sizeof(temp)-1 ); if (len > sizeof(temp)-1 ) len = sizeof(temp)-1; fprintf( out, "'%.*s'\n", len, temp ); } #endif static const char* handleSendSMSText( const char* cmd, AModem modem ) { #if 1 SmsAddressRec address; char temp[16]; char number[16]; int numlen; int len = strlen(cmd); SmsPDU pdu; /* get rid of trailing escape */ if (len > 0 && cmd[len-1] == 0x1a) len -= 1; pdu = smspdu_create_from_hex( cmd, len ); if (pdu == NULL) { D("%s: invalid SMS PDU ?: '%s'\n", __FUNCTION__, cmd); return "+CMS ERROR: INVALID SMS PDU"; } if (smspdu_get_receiver_address(pdu, &address) < 0) { D("%s: could not get SMS receiver address from '%s'\n", __FUNCTION__, cmd); return "+CMS ERROR: BAD SMS RECEIVER ADDRESS"; } do { int index; numlen = sms_address_to_str( &address, temp, sizeof(temp) ); if (numlen > sizeof(temp)-1) break; temp[numlen] = 0; /* Converts 4, 7, and 10 digits number to 11 digits */ if (numlen == 10 && !strncmp(temp, PHONE_PREFIX+1, 6)) { memcpy( number, PHONE_PREFIX, 1 ); memcpy( number+1, temp, numlen ); number[numlen+1] = 0; } else if (numlen == 7 && !strncmp(temp, PHONE_PREFIX+4, 3)) { memcpy( number, PHONE_PREFIX, 4 ); memcpy( number+4, temp, numlen ); number[numlen+4] = 0; } else if (numlen == 4) { memcpy( number, PHONE_PREFIX, 7 ); memcpy( number+7, temp, numlen ); number[numlen+7] = 0; } else { memcpy( number, temp, numlen ); number[numlen] = 0; } if ( remote_number_string_to_port( number ) < 0 ) break; if (modem->sms_receiver == NULL) { modem->sms_receiver = sms_receiver_create(); if (modem->sms_receiver == NULL) { D( "%s: could not create SMS receiver\n", __FUNCTION__ ); break; } } index = sms_receiver_add_submit_pdu( modem->sms_receiver, pdu ); if (index < 0) { D( "%s: could not add submit PDU\n", __FUNCTION__ ); break; } /* the PDU is now owned by the receiver */ pdu = NULL; if (index > 0) { SmsAddressRec from[1]; char temp[12]; SmsPDU* deliver; int nn; snprintf( temp, sizeof(temp), PHONE_PREFIX "%d", modem->base_port ); sms_address_from_str( from, temp, strlen(temp) ); deliver = sms_receiver_create_deliver( modem->sms_receiver, index, from ); if (deliver == NULL) { D( "%s: could not create deliver PDUs for SMS index %d\n", __FUNCTION__, index ); break; } for (nn = 0; deliver[nn] != NULL; nn++) { if ( remote_call_sms( number, modem->base_port, deliver[nn] ) < 0 ) { D( "%s: could not send SMS PDU to remote emulator\n", __FUNCTION__ ); break; } } smspdu_free_list(deliver); } } while (0); if (pdu != NULL) smspdu_free(pdu); #elif 1 SmsAddressRec address; char number[16]; int numlen; int len = strlen(cmd); SmsPDU pdu; /* get rid of trailing escape */ if (len > 0 && cmd[len-1] == 0x1a) len -= 1; pdu = smspdu_create_from_hex( cmd, len ); if (pdu == NULL) { D("%s: invalid SMS PDU ?: '%s'\n", __FUNCTION__, cmd); return "+CMS ERROR: INVALID SMS PDU"; } if (smspdu_get_receiver_address(pdu, &address) < 0) { D("%s: could not get SMS receiver address from '%s'\n", __FUNCTION__, cmd); return "+CMS ERROR: BAD SMS RECEIVER ADDRESS"; } do { numlen = sms_address_to_str( &address, number, sizeof(number) ); if (numlen > sizeof(number)-1) break; number[numlen] = 0; if ( remote_number_string_to_port( number ) < 0 ) break; if ( remote_call_sms( number, modem->base_port, pdu ) < 0 ) { D("%s: could not send SMS PDU to remote emulator\n", __FUNCTION__); return "+CMS ERROR: NO EMULATOR RECEIVER"; } } while (0); #else fprintf(stderr, "SMS<< %s\n", cmd); SmsPDU pdu = smspdu_create_from_hex( cmd, strlen(cmd) ); if (pdu == NULL) { fprintf(stderr, "invalid SMS PDU ?: '%s'\n", cmd); } else { smspdu_dump(pdu, stderr); } #endif return "+CMGS: 0\rOK\r"; } static const char* handleChangeOrEnterPIN( const char* cmd, AModem modem ) { assert( !memcmp( cmd, "+CPIN=", 6 ) ); cmd += 6; switch (asimcard_get_status(modem->sim)) { case A_SIM_STATUS_ABSENT: return "+CME ERROR: SIM ABSENT"; case A_SIM_STATUS_NOT_READY: return "+CME ERROR: SIM NOT READY"; case A_SIM_STATUS_READY: /* this may be a request to change the PIN */ { if (strlen(cmd) == 9 && cmd[4] == ',') { char pin[5]; memcpy( pin, cmd, 4 ); pin[4] = 0; if ( !asimcard_check_pin( modem->sim, pin ) ) return "+CME ERROR: BAD PIN"; memcpy( pin, cmd+5, 4 ); asimcard_set_pin( modem->sim, pin ); return "+CPIN: READY"; } } break; case A_SIM_STATUS_PIN: /* waiting for PIN */ if ( asimcard_check_pin( modem->sim, cmd ) ) return "+CPIN: READY"; else return "+CME ERROR: BAD PIN"; case A_SIM_STATUS_PUK: if (strlen(cmd) == 9 && cmd[4] == ',') { char puk[5]; memcpy( puk, cmd, 4 ); puk[4] = 0; if ( asimcard_check_puk( modem->sim, puk, cmd+5 ) ) return "+CPIN: READY"; else return "+CME ERROR: BAD PUK"; } return "+CME ERROR: BAD PUK"; default: return "+CPIN: PH-NET PIN"; } return "+CME ERROR: BAD FORMAT"; } static const char* handleListCurrentCalls( const char* cmd, AModem modem ) { int nn; amodem_begin_line( modem ); for (nn = 0; nn < modem->call_count; nn++) { AVoiceCall vcall = modem->calls + nn; ACall call = &vcall->call; if (call->mode == A_CALL_VOICE) amodem_add_line( modem, "+CLCC: %d,%d,%d,%d,%d,\"%s\",%d\r\n", call->id, call->dir, call->state, call->mode, call->multi, call->number, 129 ); } return amodem_end_line( modem ); } /* Add a(n unsolicited) time response. * * retrieve the current time and zone in a format suitable * for %CTZV: unsolicited message * "yy/mm/dd,hh:mm:ss(+/-)tz" * mm is 0-based * tz is in number of quarter-hours * * it seems reference-ril doesn't parse the comma (,) as anything else than a token * separator, so use a column (:) instead, the Java parsing code won't see a difference * */ static void amodem_addTimeUpdate( AModem modem ) { time_t now = time(NULL); struct tm utc, local; long e_local, e_utc; long tzdiff; char tzname[64]; tzset(); utc = *gmtime( &now ); local = *localtime( &now ); e_local = local.tm_min + 60*(local.tm_hour + 24*local.tm_yday); e_utc = utc.tm_min + 60*(utc.tm_hour + 24*utc.tm_yday); if ( utc.tm_year < local.tm_year ) e_local += 24*60; else if ( utc.tm_year > local.tm_year ) e_utc += 24*60; tzdiff = e_local - e_utc; /* timezone offset in minutes */ /* retrieve a zoneinfo-compatible name for the host timezone */ { char* end = tzname + sizeof(tzname); char* p = bufprint_zoneinfo_timezone( tzname, end ); if (p >= end) strcpy(tzname, "Unknown/Unknown"); /* now replace every / in the timezone name by a "!" * that's because the code that reads the CTZV line is * dumb and treats a / as a field separator... */ p = tzname; while (1) { p = strchr(p, '/'); if (p == NULL) break; *p = '!'; p += 1; } } /* as a special extension, we append the name of the host's time zone to the * string returned with %CTZ. the system should contain special code to detect * and deal with this case (since it normally relied on the operator's country code * which is hard to simulate on a general-purpose computer */ amodem_add_line( modem, "%%CTZV: %02d/%02d/%02d:%02d:%02d:%02d%c%d:%d:%s\r\n", (utc.tm_year + 1900) % 100, utc.tm_mon + 1, utc.tm_mday, utc.tm_hour, utc.tm_min, utc.tm_sec, (tzdiff >= 0) ? '+' : '-', (tzdiff >= 0 ? tzdiff : -tzdiff) / 15, (local.tm_isdst > 0), tzname ); } static const char* handleEndOfInit( const char* cmd, AModem modem ) { amodem_begin_line( modem ); amodem_addTimeUpdate( modem ); return amodem_end_line( modem ); } static const char* handleListPDPContexts( const char* cmd, AModem modem ) { int nn; assert( !memcmp( cmd, "+CGACT?", 7 ) ); amodem_begin_line( modem ); for (nn = 0; nn < MAX_DATA_CONTEXTS; nn++) { ADataContext data = modem->data_contexts + nn; if (!data->active) continue; amodem_add_line( modem, "+CGACT: %d,%d\r\n", data->id, data->active ); } return amodem_end_line( modem ); } static const char* handleDefinePDPContext( const char* cmd, AModem modem ) { assert( !memcmp( cmd, "+CGDCONT=", 9 ) ); cmd += 9; if (cmd[0] == '?') { /* +CGDCONT=? is used to query the ranges of supported PDP Contexts. * We only really support IP ones in the emulator, so don't try to * fake PPP ones. */ return "+CGDCONT: (1-1),\"IP\",,,(0-2),(0-4)\r\n"; } else { /* template is +CGDCONT=,"","",,0,0 */ int id = cmd[0] - '1'; ADataType type; char apn[32]; ADataContext data; if ((unsigned)id > 3) goto BadCommand; if ( !memcmp( cmd+1, ",\"IP\",\"", 7 ) ) { type = A_DATA_IP; cmd += 8; } else if ( !memcmp( cmd+1, ",\"PPP\",\"", 8 ) ) { type = A_DATA_PPP; cmd += 9; } else goto BadCommand; { const char* p = strchr( cmd, '"' ); int len; if (p == NULL) goto BadCommand; len = (int)( p - cmd ); if (len > sizeof(apn)-1 ) len = sizeof(apn)-1; memcpy( apn, cmd, len ); apn[len] = 0; } data = modem->data_contexts + id; data->id = id + 1; data->active = 1; data->type = type; memcpy( data->apn, apn, sizeof(data->apn) ); } return NULL; BadCommand: return "ERROR: BAD COMMAND"; } static const char* handleQueryPDPContext( const char* cmd, AModem modem ) { int nn; amodem_begin_line(modem); for (nn = 0; nn < MAX_DATA_CONTEXTS; nn++) { ADataContext data = modem->data_contexts + nn; if (!data->active) continue; amodem_add_line( modem, "+CGDCONT: %d,\"%s\",\"%s\",\"%s\",0,0\r\n", data->id, data->type == A_DATA_IP ? "IP" : "PPP", data->apn, /* Note: For now, hard-code the IP address of our * network interface */ data->type == A_DATA_IP ? "10.0.2.15" : ""); } return amodem_end_line(modem); } static const char* handleStartPDPContext( const char* cmd, AModem modem ) { /* XXX: TODO: handle PDP start appropriately */ return NULL; } static void remote_voice_call_event( void* _vcall, int success ) { AVoiceCall vcall = _vcall; AModem modem = vcall->modem; /* NOTE: success only means we could send the "gsm in new" command * to the remote emulator, nothing more */ if (!success) { /* aargh, the remote emulator probably quitted at that point */ amodem_free_call(modem, vcall); amodem_send_calls_update(modem); } } static void voice_call_event( void* _vcall ) { AVoiceCall vcall = _vcall; ACall call = &vcall->call; switch (call->state) { case A_CALL_DIALING: call->state = A_CALL_ALERTING; if (vcall->is_remote) { if ( remote_call_dial( call->number, vcall->modem->base_port, remote_voice_call_event, vcall ) < 0 ) { /* we could not connect, probably because the corresponding * emulator is not running, so simply destroy this call. * XXX: should we send some sort of message to indicate BAD NUMBER ? */ /* it seems the Android code simply waits for changes in the list */ amodem_free_call( vcall->modem, vcall ); } } else { /* this is not a remote emulator number, so just simulate * a small ringing delay */ sys_timer_set( vcall->timer, sys_time_ms() + CALL_DELAY_ALERT, voice_call_event, vcall ); } break; case A_CALL_ALERTING: call->state = A_CALL_ACTIVE; break; default: assert( 0 && "unreachable event call state" ); } amodem_send_calls_update(vcall->modem); } static int amodem_is_emergency( AModem modem, const char *number ) { int i; if (!number) return 0; for (i = 0; i < MAX_EMERGENCY_NUMBERS; i++) { if ( modem->emergency_numbers[i] && !strcmp( number, modem->emergency_numbers[i] )) break; } if (i < MAX_EMERGENCY_NUMBERS) return 1; return 0; } static const char* handleDial( const char* cmd, AModem modem ) { AVoiceCall vcall = amodem_alloc_call( modem ); ACall call = &vcall->call; int len; if (call == NULL) return "ERROR: TOO MANY CALLS"; assert( cmd[0] == 'D' ); call->dir = A_CALL_OUTBOUND; call->state = A_CALL_DIALING; call->mode = A_CALL_VOICE; call->multi = 0; cmd += 1; len = strlen(cmd); if (len > 0 && cmd[len-1] == ';') len--; if (len >= sizeof(call->number)) len = sizeof(call->number)-1; /* Converts 4, 7, and 10 digits number to 11 digits */ if (len == 10 && !strncmp(cmd, PHONE_PREFIX+1, 6)) { memcpy( call->number, PHONE_PREFIX, 1 ); memcpy( call->number+1, cmd, len ); call->number[len+1] = 0; } else if (len == 7 && !strncmp(cmd, PHONE_PREFIX+4, 3)) { memcpy( call->number, PHONE_PREFIX, 4 ); memcpy( call->number+4, cmd, len ); call->number[len+4] = 0; } else if (len == 4) { memcpy( call->number, PHONE_PREFIX, 7 ); memcpy( call->number+7, cmd, len ); call->number[len+7] = 0; } else { memcpy( call->number, cmd, len ); call->number[len] = 0; } amodem_begin_line( modem ); if (amodem_is_emergency(modem, call->number)) { modem->in_emergency_mode = 1; amodem_add_line( modem, "+WSOS: 1" ); } vcall->is_remote = (remote_number_string_to_port(call->number) > 0); vcall->timer = sys_timer_create(); sys_timer_set( vcall->timer, sys_time_ms() + CALL_DELAY_DIAL, voice_call_event, vcall ); return amodem_end_line( modem ); } static const char* handleAnswer( const char* cmd, AModem modem ) { int nn; for (nn = 0; nn < modem->call_count; nn++) { AVoiceCall vcall = modem->calls + nn; ACall call = &vcall->call; if (cmd[0] == 'A') { if (call->state == A_CALL_INCOMING) { acall_set_state( vcall, A_CALL_ACTIVE ); } else if (call->state == A_CALL_ACTIVE) { acall_set_state( vcall, A_CALL_HELD ); } } else if (cmd[0] == 'H') { /* ATH: hangup, since user is busy */ if (call->state == A_CALL_INCOMING) { amodem_free_call( modem, vcall ); break; } } } return NULL; } int android_snapshot_update_time = 1; int android_snapshot_update_time_request = 0; static const char* handleSignalStrength( const char* cmd, AModem modem ) { amodem_begin_line( modem ); /* Sneak time updates into the SignalStrength request, because it's periodic. * Ideally, we'd be able to prod the guest into asking immediately on restore * from snapshot, but that'd require a driver. */ if ( android_snapshot_update_time && android_snapshot_update_time_request ) { amodem_addTimeUpdate( modem ); android_snapshot_update_time_request = 0; } // rssi = 0 (<-113dBm) 1 (<-111) 2-30 (<-109--53) 31 (>=-51) 99 (?!) // ber (bit error rate) - always 99 (unknown), apparently. // TODO: return 99 if modem->radio_state==A_RADIO_STATE_OFF, once radio_state is in snapshot. int rssi = modem->rssi; int ber = modem->ber; rssi = (0 > rssi && rssi > 31) ? 99 : rssi ; ber = (0 > ber && ber > 7 ) ? 99 : ber; amodem_add_line( modem, "+CSQ: %i,%i,85,130,90,6,4,25,9,50,68,12\r\n", rssi, ber ); return amodem_end_line( modem ); } static const char* handleHangup( const char* cmd, AModem modem ) { if ( !memcmp(cmd, "+CHLD=", 6) ) { int nn; cmd += 6; switch (cmd[0]) { case '0': /* release all held, and set busy for waiting calls */ for (nn = 0; nn < modem->call_count; nn++) { AVoiceCall vcall = modem->calls + nn; ACall call = &vcall->call; if (call->mode != A_CALL_VOICE) continue; if (call->state == A_CALL_HELD || call->state == A_CALL_WAITING || call->state == A_CALL_INCOMING) { amodem_free_call(modem, vcall); nn--; } } break; case '1': if (cmd[1] == 0) { /* release all active, accept held one */ for (nn = 0; nn < modem->call_count; nn++) { AVoiceCall vcall = modem->calls + nn; ACall call = &vcall->call; if (call->mode != A_CALL_VOICE) continue; if (call->state == A_CALL_ACTIVE) { amodem_free_call(modem, vcall); nn--; } else if (call->state == A_CALL_HELD || call->state == A_CALL_WAITING) { acall_set_state( vcall, A_CALL_ACTIVE ); } } } else { /* release specific call */ int id = cmd[1] - '0'; AVoiceCall vcall = amodem_find_call( modem, id ); if (vcall != NULL) amodem_free_call( modem, vcall ); } break; case '2': if (cmd[1] == 0) { /* place all active on hold, accept held or waiting one */ for (nn = 0; nn < modem->call_count; nn++) { AVoiceCall vcall = modem->calls + nn; ACall call = &vcall->call; if (call->mode != A_CALL_VOICE) continue; if (call->state == A_CALL_ACTIVE) { acall_set_state( vcall, A_CALL_HELD ); } else if (call->state == A_CALL_HELD || call->state == A_CALL_WAITING) { acall_set_state( vcall, A_CALL_ACTIVE ); } } } else { /* place all active on hold, except a specific one */ int id = cmd[1] - '0'; for (nn = 0; nn < modem->call_count; nn++) { AVoiceCall vcall = modem->calls + nn; ACall call = &vcall->call; if (call->mode != A_CALL_VOICE) continue; if (call->state == A_CALL_ACTIVE && call->id != id) { acall_set_state( vcall, A_CALL_HELD ); } } } break; case '3': /* add a held call to the conversation */ for (nn = 0; nn < modem->call_count; nn++) { AVoiceCall vcall = modem->calls + nn; ACall call = &vcall->call; if (call->mode != A_CALL_VOICE) continue; if (call->state == A_CALL_HELD) { acall_set_state( vcall, A_CALL_ACTIVE ); break; } } break; case '4': /* connect the two calls */ for (nn = 0; nn < modem->call_count; nn++) { AVoiceCall vcall = modem->calls + nn; ACall call = &vcall->call; if (call->mode != A_CALL_VOICE) continue; if (call->state == A_CALL_HELD) { acall_set_state( vcall, A_CALL_ACTIVE ); break; } } break; } } else return "ERROR: BAD COMMAND"; return NULL; } /* a function used to deal with a non-trivial request */ typedef const char* (*ResponseHandler)(const char* cmd, AModem modem); static const struct { const char* cmd; /* command coming from libreference-ril.so, if first character is '!', then the rest is a prefix only */ const char* answer; /* default answer, NULL if needs specific handling or if OK is good enough */ ResponseHandler handler; /* specific handler, ignored if 'answer' is not NULL, NULL if OK is good enough */ } sDefaultResponses[] = { /* see onRadioPowerOn() */ { "%CPHS=1", NULL, NULL }, { "%CTZV=1", NULL, NULL }, /* see onSIMReady() */ { "+CSMS=1", "+CSMS: 1, 1, 1", NULL }, { "+CNMI=1,2,2,1,1", NULL, NULL }, /* see requestRadioPower() */ { "+CFUN=0", NULL, handleRadioPower }, { "+CFUN=1", NULL, handleRadioPower }, { "+CTEC=?", "+CTEC: 0,1,2,3", NULL }, /* Query available Techs */ { "!+CTEC", NULL, handleTech }, /* Set/get current Technology and preferred mode */ { "+WRMP=?", "+WRMP: 0,1,2", NULL }, /* Query Roam Preference */ { "!+WRMP", NULL, handleRoamPref }, /* Set/get Roam Preference */ { "+CCSS=?", "+CTEC: 0,1", NULL }, /* Query available subscription sources */ { "!+CCSS", NULL, handleSubscriptionSource }, /* Set/Get current subscription source */ { "+WSOS=?", "+WSOS: 0", NULL}, /* Query supported +WSOS values */ { "!+WSOS=", NULL, handleEmergencyMode }, { "+WPRL?", NULL, handlePrlVersion }, /* Query the current PRL version */ /* see requestOrSendPDPContextList() */ { "+CGACT?", NULL, handleListPDPContexts }, /* see requestOperator() */ { "+COPS=3,0;+COPS?;+COPS=3,1;+COPS?;+COPS=3,2;+COPS?", NULL, handleRequestOperator }, /* see requestQueryNetworkSelectionMode() */ { "!+COPS", NULL, handleOperatorSelection }, /* see requestGetCurrentCalls() */ { "+CLCC", NULL, handleListCurrentCalls }, /* see requestWriteSmsToSim() */ { "!+CMGW=", NULL, handleSendSMStoSIM }, /* see requestHangup() */ { "!+CHLD=", NULL, handleHangup }, /* see requestSignalStrength() */ { "+CSQ", NULL, handleSignalStrength }, /* see requestRegistrationState() */ { "!+CREG", NULL, handleNetworkRegistration }, { "!+CGREG", NULL, handleNetworkRegistration }, /* see requestSendSMS() */ { "!+CMGS=", NULL, handleSendSMS }, /* see requestSetupDefaultPDP() */ { "%CPRIM=\"GMM\",\"CONFIG MULTISLOT_CLASS=<10>\"", NULL, NULL }, { "%DATA=2,\"UART\",1,,\"SER\",\"UART\",0", NULL, NULL }, { "!+CGDCONT=", NULL, handleDefinePDPContext }, { "+CGDCONT?", NULL, handleQueryPDPContext }, { "+CGQREQ=1", NULL, NULL }, { "+CGQMIN=1", NULL, NULL }, { "+CGEREP=1,0", NULL, NULL }, { "+CGACT=1,0", NULL, NULL }, { "D*99***1#", NULL, handleStartPDPContext }, /* see requestDial() */ { "!D", NULL, handleDial }, /* the code says that success/error is ignored, the call state will be polled through +CLCC instead */ /* see requestSMSAcknowledge() */ { "+CNMA=1", NULL, NULL }, { "+CNMA=2", NULL, NULL }, /* see requestSIM_IO() */ { "!+CRSM=", NULL, handleSIM_IO }, /* see onRequest() */ { "+CHLD=0", NULL, handleHangup }, { "+CHLD=1", NULL, handleHangup }, { "+CHLD=2", NULL, handleHangup }, { "+CHLD=3", NULL, handleHangup }, { "A", NULL, handleAnswer }, /* answer the call */ { "H", NULL, handleAnswer }, /* user is busy */ { "!+VTS=", NULL, handleSetDialTone }, { "+CIMI", OPERATOR_HOME_MCCMNC "000000000", NULL }, /* request internation subscriber identification number */ { "+CGSN", "000000000000000", NULL }, /* request model version */ { "+CUSD=2",NULL, NULL }, /* Cancel USSD */ { "+COPS=0", NULL, handleOperatorSelection }, /* set network selection to automatic */ { "!+CMGD=", NULL, handleDeleteSMSonSIM }, /* delete SMS on SIM */ { "!+CPIN=", NULL, handleChangeOrEnterPIN }, /* see getSIMStatus() */ { "+CPIN?", NULL, handleSIMStatusReq }, { "+CNMI?", "+CNMI: 1,2,2,1,1", NULL }, /* see isRadioOn() */ { "+CFUN?", NULL, handleRadioPowerReq }, /* see initializeCallback() */ { "E0Q0V1", NULL, NULL }, { "S0=0", NULL, NULL }, { "+CMEE=1", NULL, NULL }, { "+CCWA=1", NULL, NULL }, { "+CMOD=0", NULL, NULL }, { "+CMUT=0", NULL, NULL }, { "+CSSN=0,1", NULL, NULL }, { "+COLP=0", NULL, NULL }, { "+CSCS=\"HEX\"", NULL, NULL }, { "+CUSD=1", NULL, NULL }, { "+CGEREP=1,0", NULL, NULL }, { "+CMGF=0", NULL, handleEndOfInit }, /* now is a goof time to send the current tme and timezone */ { "%CPI=3", NULL, NULL }, { "%CSTAT=1", NULL, NULL }, /* end of list */ {NULL, NULL, NULL} }; #define REPLY(str) do { const char* s = (str); R(">> %s\n", quote(s)); return s; } while (0) const char* amodem_send( AModem modem, const char* cmd ) { const char* answer; if ( modem->wait_sms != 0 ) { modem->wait_sms = 0; R( "SMS<< %s\n", quote(cmd) ); answer = handleSendSMSText( cmd, modem ); REPLY(answer); } /* everything that doesn't start with 'AT' is not a command, right ? */ if ( cmd[0] != 'A' || cmd[1] != 'T' || cmd[2] == 0 ) { /* R( "-- %s\n", quote(cmd) ); */ return NULL; } R( "<< %s\n", quote(cmd) ); cmd += 2; /* TODO: implement command handling */ { int nn, found = 0; for (nn = 0; ; nn++) { const char* scmd = sDefaultResponses[nn].cmd; if (!scmd) /* end of list */ break; if (scmd[0] == '!') { /* prefix match */ int len = strlen(++scmd); if ( !memcmp( scmd, cmd, len ) ) { found = 1; break; } } else { /* full match */ if ( !strcmp( scmd, cmd ) ) { found = 1; break; } } } if ( !found ) { D( "** UNSUPPORTED COMMAND **\n" ); REPLY( "ERROR: UNSUPPORTED" ); } else { const char* answer = sDefaultResponses[nn].answer; ResponseHandler handler = sDefaultResponses[nn].handler; if ( answer != NULL ) { REPLY( amodem_printf( modem, "%s\rOK", answer ) ); } if (handler == NULL) { REPLY( "OK" ); } answer = handler( cmd, modem ); if (answer == NULL) REPLY( "OK" ); if ( !memcmp( answer, "> ", 2 ) || !memcmp( answer, "ERROR", 5 ) || !memcmp( answer, "+CME ERROR", 6 ) ) { REPLY( answer ); } if (answer != modem->out_buff) REPLY( amodem_printf( modem, "%s\rOK", answer ) ); strcat( modem->out_buff, "\rOK" ); REPLY( answer ); } } }