int btstack_main(int argc, const char * argv[]){
/* Initialize L2CAP */
l2cap_init();
l2cap_register_packet_handler(packet_handler);
/* Initialise BNEP */
bnep_init();
bnep_register_packet_handler(packet_handler);
bnep_register_service(NULL, bnep_local_service_uuid, 1691); /* Minimum L2CAP MTU for bnep is 1691 bytes */
/* Initialize SDP and add PANU record */
sdp_init();
uint16_t network_packet_types[] = { NETWORK_TYPE_IPv4, NETWORK_TYPE_ARP, 0}; // 0 as end of list
#ifdef EMBEDDED
service_record_item_t * service_record_item = (service_record_item_t *) panu_sdp_record;
pan_create_panu_service((uint8_t*) &service_record_item->service_record, network_packet_types, NULL, NULL, BNEP_SECURITY_NONE);
printf("SDP service buffer size: %u\n", (uint16_t) (sizeof(service_record_item_t) + de_get_len((uint8_t*) &service_record_item->service_record)));
sdp_register_service_internal(NULL, service_record_item);
#else
pan_create_panu_service(panu_sdp_record, network_packet_types, NULL, NULL, BNEP_SECURITY_NONE);
printf("SDP service record size: %u\n", de_get_len((uint8_t*) panu_sdp_record));
sdp_register_service_internal(NULL, (uint8_t*)panu_sdp_record);
#endif
/* Turn on the device */
hci_power_control(HCI_POWER_ON);
hci_discoverable_control(1);
btstack_stdin_setup(stdin_process);
return 0;
}
/* LISTING_START(SPPSetup): SPP service setup */
void spp_service_setup(){
l2cap_init();
l2cap_register_packet_handler(packet_handler);
rfcomm_init();
rfcomm_register_packet_handler(packet_handler);
rfcomm_register_service_internal(NULL, RFCOMM_SERVER_CHANNEL, 0xffff); // reserved channel, mtu limited by l2cap
// init SDP, create record for SPP and register with SDP
sdp_init();
memset(spp_service_buffer, 0, sizeof(spp_service_buffer));
/* LISTING_PAUSE */
#ifdef EMBEDDED
/* LISTING_RESUME */
service_record_item_t * service_record_item = (service_record_item_t *) spp_service_buffer;
sdp_create_spp_service( (uint8_t*) &service_record_item->service_record, RFCOMM_SERVER_CHANNEL, "SPP Counter");
printf("SDP service buffer size: %u\n", (uint16_t) (sizeof(service_record_item_t) + de_get_len((uint8_t*) &service_record_item->service_record)));
sdp_register_service_internal(NULL, service_record_item);
/* LISTING_PAUSE */
#else
sdp_create_spp_service( spp_service_buffer, RFCOMM_SERVER_CHANNEL, "SPP Counter");
printf("SDP service record size: %u\n", de_get_len(spp_service_buffer));
sdp_register_service_internal(NULL, spp_service_buffer);
#endif
/* LISTING_RESUME */
}
int btstack_main(int argc, const char * argv[]){
printf("Starting up..\n");
hci_set_class_of_device(0x200404);
hci_disable_l2cap_timeout_check();
hci_ssp_set_io_capability(IO_CAPABILITY_NO_INPUT_NO_OUTPUT);
gap_io_capabilities = "IO_CAPABILITY_NO_INPUT_NO_OUTPUT";
hci_ssp_set_authentication_requirement(0);
hci_ssp_set_auto_accept(0);
// gap_set_bondable_mode(0);
l2cap_init();
l2cap_register_packet_handler(&packet_handler2);
l2cap_register_fixed_channel(&packet_handler, L2CAP_CID_CONNECTIONLESS_CHANNEL);
rfcomm_init();
rfcomm_register_packet_handler(packet_handler2);
rfcomm_register_service_internal(NULL, RFCOMM_SERVER_CHANNEL, 150); // reserved channel, mtu=100
// init SDP, create record for SPP and register with SDP
sdp_init();
memset(spp_service_buffer, 0, sizeof(spp_service_buffer));
sdp_create_spp_service((uint8_t*) spp_service_buffer, RFCOMM_SERVER_CHANNEL, "SPP Counter");
de_dump_data_element((uint8_t*) spp_service_buffer);
printf("SDP service record size: %u\n\r", de_get_len((uint8_t*)spp_service_buffer));
sdp_register_service_internal(NULL, (uint8_t*)spp_service_buffer);
memset(dummy_service_buffer, 0, sizeof(dummy_service_buffer));
sdp_create_dummy_service((uint8_t*)dummy_service_buffer, "UUID128 Test");
de_dump_data_element((uint8_t*)dummy_service_buffer);
printf("Dummy service record size: %u\n\r", de_get_len((uint8_t*)dummy_service_buffer));
sdp_register_service_internal(NULL, (uint8_t*)dummy_service_buffer);
sdp_query_rfcomm_register_callback(handle_query_rfcomm_event, NULL);
hci_discoverable_control(0);
hci_connectable_control(0);
// turn on!
hci_power_control(HCI_POWER_ON);
btstack_stdin_setup(stdin_process);
// set one-shot timer
// timer_source_t heartbeat;
// heartbeat.process = &heartbeat_handler;
// run_loop_set_timer(&heartbeat, HEARTBEAT_PERIOD_MS);
// run_loop_add_timer(&heartbeat);
return 0;
}
int btstack_main(void)
{
hci_discoverable_control(1);
l2cap_init();
l2cap_register_packet_handler(packet_handler);
rfcomm_init();
rfcomm_register_packet_handler(packet_handler);
rfcomm_register_service_internal(NULL, RFCOMM_SERVER_CHANNEL, 0xffff);
// init SDP, create record for SPP and register with SDP
sdp_init();
memset(spp_service_buffer, 0, sizeof(spp_service_buffer));
/* LISTING_PAUSE */
#ifdef EMBEDDED
/* LISTING_RESUME */
service_record_item_t * service_record_item = (service_record_item_t *) spp_service_buffer;
sdp_create_spp_service( (uint8_t*) &service_record_item->service_record, RFCOMM_SERVER_CHANNEL, "SPP Counter");
printf("SDP service buffer size: %u\n", (uint16_t) (sizeof(service_record_item_t) + de_get_len((uint8_t*) &service_record_item->service_record)));
sdp_register_service_internal(NULL, service_record_item);
/* LISTING_PAUSE */
#else
sdp_create_spp_service( spp_service_buffer, RFCOMM_SERVER_CHANNEL, "SPP Counter");
printf("SDP service record size: %u\n", de_get_len(spp_service_buffer));
sdp_register_service_internal(NULL, spp_service_buffer);
#endif
/* LISTING_RESUME */
hci_ssp_set_io_capability(SSP_IO_CAPABILITY_DISPLAY_YES_NO);
// setup le device db
le_device_db_init();
// setup SM: Display only
sm_init();
// setup ATT server
att_server_init(profile_data, att_read_callback, att_write_callback);
att_dump_attributes();
// set one-shot timer
heartbeat.process = &heartbeat_handler;
run_loop_set_timer(&heartbeat, HEARTBEAT_PERIOD_MS);
run_loop_add_timer(&heartbeat);
// turn on!
hci_power_control(HCI_POWER_ON);
return 0;
}
int btstack_main(int argc, const char * argv[]){
hci_set_sco_voice_setting(0x0060); // PCM, 16 bit, 2's complement, MSB Position 0,
setup_audio();
hci_register_sco_packet_handler(&sco_packet_handler);
memset((uint8_t *)hsp_service_buffer, 0, sizeof(hsp_service_buffer));
hsp_hs_create_service((uint8_t *)hsp_service_buffer, rfcomm_channel_nr, hsp_hs_service_name, 0);
hsp_hs_init(rfcomm_channel_nr);
hsp_hs_register_packet_handler(packet_handler);
sdp_init();
sdp_register_service_internal(NULL, (uint8_t *)hsp_service_buffer);
hci_discoverable_control(1);
hci_set_class_of_device(0x200418);
btstack_stdin_setup(stdin_process);
// turn on!
hci_power_control(HCI_POWER_ON);
return 0;
}
int btstack_main(int argc, const char * argv[]){
// init L2CAP
l2cap_init();
rfcomm_init();
// hfp_hf_init(rfcomm_channel_nr, HFP_DEFAULT_HF_SUPPORTED_FEATURES, codecs, sizeof(codecs), indicators, sizeof(indicators)/sizeof(uint16_t), 1);
hfp_hf_init(rfcomm_channel_nr);
hfp_hf_init_supported_features(438 | (1<<HFP_HFSF_ESCO_S4) | (1<<HFP_HFSF_EC_NR_FUNCTION));
hfp_hf_init_hf_indicators(sizeof(indicators)/sizeof(uint16_t), indicators);
hfp_hf_init_codecs(sizeof(codecs), codecs);
hfp_hf_register_packet_handler(packet_handler);
sdp_init();
// init SDP, create record for SPP and register with SDP
memset((uint8_t *)hfp_service_buffer, 0, sizeof(hfp_service_buffer));
hfp_hf_create_sdp_record((uint8_t *)hfp_service_buffer, rfcomm_channel_nr, hfp_hf_service_name, 0);
sdp_register_service_internal(NULL, (uint8_t *)hfp_service_buffer);
// pre-select pts
memcpy(device_addr, pts_addr, 6);
// turn on!
hci_power_control(HCI_POWER_ON);
btstack_stdin_setup(stdin_process);
// printf("Establishing HFP connection to %s...\n", bd_addr_to_str(phone_addr));
// hfp_hf_connect(phone_addr);
return 0;
}
int btstack_main(int argc, const char * argv[]){
// init L2CAP
l2cap_init();
l2cap_register_packet_handler(packet_handler);
// init RFCOMM
rfcomm_init();
rfcomm_register_packet_handler(packet_handler);
rfcomm_register_service_with_initial_credits_internal(NULL, rfcomm_channel_nr, 0xffff, 1); // reserved channel, mtu limited by l2cap, 1 credit
// init SDP, create record for SPP and register with SDP
sdp_init();
memset(spp_service_buffer, 0, sizeof(spp_service_buffer));
service_record_item_t * service_record_item = (service_record_item_t *) spp_service_buffer;
sdp_create_spp_service( (uint8_t*) &service_record_item->service_record, 1, "SPP Counter");
printf("SDP service buffer size: %u\n\r", (uint16_t) (sizeof(service_record_item_t) + de_get_len((uint8_t*) &service_record_item->service_record)));
sdp_register_service_internal(NULL, service_record_item);
// set one-shot timer
heartbeat.process = &heartbeat_handler;
run_loop_set_timer(&heartbeat, HEARTBEAT_PERIOD_MS);
run_loop_add_timer(&heartbeat);
puts("SPP FlowControl Demo: simulates processing on received data...\n\r");
gap_set_local_name("BTstack SPP Flow Control");
hci_discoverable_control(1);
// turn on!
hci_power_control(HCI_POWER_ON);
return 0;
}
int btstack_main(int argc, const char * argv[]){
#ifdef TABLE_SIZE
compute_signal();
#endif
hci_register_sco_packet_handler(&sco_packet_handler);
hci_discoverable_control(1);
hci_ssp_set_io_capability(SSP_IO_CAPABILITY_DISPLAY_YES_NO);
gap_set_local_name("BTstack HSP HS");
hsp_hs_init(rfcomm_channel_nr);
hsp_hs_register_packet_handler(packet_handler);
sdp_init();
memset((uint8_t *)hsp_service_buffer, 0, sizeof(hsp_service_buffer));
hsp_hs_create_service((uint8_t *)hsp_service_buffer, rfcomm_channel_nr, hsp_hs_service_name, 0);
sdp_register_service_internal(NULL, (uint8_t *)hsp_service_buffer);
// turn on!
hci_power_control(HCI_POWER_ON);
return 0;
}
int btstack_main(int argc, const char * argv[]){
// init L2CAP
l2cap_init();
l2cap_register_packet_handler(packet_handler);
// init RFCOMM
rfcomm_init();
rfcomm_register_packet_handler(packet_handler);
rfcomm_register_service_internal(NULL, rfcomm_channel_nr, 100); // reserved channel, mtu=100
// init SDP, create record for SPP and register with SDP
sdp_init();
memset(spp_service_buffer, 0, sizeof(spp_service_buffer));
service_record_item_t * service_record_item = (service_record_item_t *) spp_service_buffer;
sdp_create_spp_service( (uint8_t*) &service_record_item->service_record, 1, "SPP Counter");
printf("SDP service buffer size: %u\n\r", (uint16_t) (sizeof(service_record_item_t) + de_get_len((uint8_t*) &service_record_item->service_record)));
sdp_register_service_internal(NULL, service_record_item);
// set one-shot timer
timer_source_t heartbeat;
heartbeat.process = &heartbeat_handler;
run_loop_set_timer(&heartbeat, HEARTBEAT_PERIOD_MS);
run_loop_add_timer(&heartbeat);
// set local name
gap_set_local_name("BlueMSP-Demo");
// make discoverable
hci_discoverable_control(1);
printf("Run...\n\r");
// turn on!
hci_power_control(HCI_POWER_ON);
return 0;
}
int btstack_main(int argc, const char * argv[]){
// init L2CAP
l2cap_init();
rfcomm_init();
hfp_ag_init(rfcomm_channel_nr);
hfp_ag_init_supported_features(0x3ef | (1<<HFP_AGSF_HF_INDICATORS) | (1<<HFP_AGSF_ESCO_S4));
hfp_ag_init_codecs(sizeof(codecs), codecs);
hfp_ag_init_ag_indicators(ag_indicators_nr, ag_indicators);
hfp_ag_init_hf_indicators(hf_indicators_nr, hf_indicators);
hfp_ag_init_call_hold_services(call_hold_services_nr, call_hold_services);
hfp_ag_set_subcriber_number_information(&subscriber_number, 1);
hfp_ag_register_packet_handler(packet_handler);
sdp_init();
// init SDP, create record for SPP and register with SDP
memset((uint8_t *)hfp_service_buffer, 0, sizeof(hfp_service_buffer));
hfp_ag_create_sdp_record((uint8_t *)hfp_service_buffer, rfcomm_channel_nr, hfp_ag_service_name, 0, 0);
sdp_register_service_internal(NULL, (uint8_t *)hfp_service_buffer);
// pre-select pts
memcpy(device_addr, pts_addr, 6);
// turn on!
hci_power_control(HCI_POWER_ON);
btstack_stdin_setup(stdin_process);
return 0;
}
static void BTAttached() {
btstack_memory_init();
// init HCI
hci_transport_t * transport = hci_transport_mchpusb_instance(bt_buf, bt_buf_size);
bt_control_t * control = NULL;
hci_uart_config_t * config = NULL;
const remote_device_db_t * remote_db = &remote_device_db_memory;
hci_init(transport, config, control, remote_db);
// init L2CAP
l2cap_init();
l2cap_register_packet_handler(PacketHandler);
// init RFCOMM
rfcomm_init();
rfcomm_register_packet_handler(PacketHandler);
rfcomm_register_service_internal(NULL, rfcomm_channel_nr, 100); // reserved channel, mtu=100
// init SDP, create record for SPP and register with SDP
sdp_init();
memset(spp_service_buffer, 0, sizeof (spp_service_buffer));
service_record_item_t * service_record_item = (service_record_item_t *) spp_service_buffer;
sdp_create_spp_service((uint8_t*) & service_record_item->service_record, 1, "IOIO-App");
log_printf("SDP service buffer size: %u\n\r", (uint16_t) (sizeof (service_record_item_t) + de_get_len((uint8_t*) & service_record_item->service_record)));
sdp_register_service_internal(NULL, service_record_item);
hci_power_control(HCI_POWER_ON);
client_callback = DummyCallback;
}
int btstack_main(void){
// init L2CAP
l2cap_init();
l2cap_register_packet_handler(packet_handler);
// init RFCOMM
rfcomm_init();
rfcomm_register_packet_handler(packet_handler);
rfcomm_register_service_internal(NULL, rfcomm_channel_nr, 100); // reserved channel, mtu=100
// init SDP, create record for SPP and register with SDP
sdp_init();
memset(spp_service_buffer, 0, sizeof(spp_service_buffer));
service_record_item_t * service_record_item = (service_record_item_t *) spp_service_buffer;
sdp_create_spp_service( (uint8_t*) &service_record_item->service_record, 1, "SPP Counter");
printf("SDP service buffer size: %u\n\r", (uint16_t) (sizeof(service_record_item_t) + de_get_len((uint8_t*) &service_record_item->service_record)));
sdp_register_service_internal(NULL, service_record_item);
// set one-shot timer
heartbeat.process = &timer_handler;
run_loop_register_timer(&heartbeat, HEARTBEAT_PERIOD_MS);
printf("Run...\n\r");
// turn on!
hci_power_control(HCI_POWER_ON);
// go!
run_loop_execute();
// happy compiler!
return 0;
}
void setup(void){
/// GET STARTED with BTstack ///
btstack_memory_init();
run_loop_init(RUN_LOOP_POSIX);
// use logger: format HCI_DUMP_PACKETLOGGER, HCI_DUMP_BLUEZ or HCI_DUMP_STDOUT
hci_dump_open("/tmp/hci_dump.pklg", HCI_DUMP_PACKETLOGGER);
// init HCI
hci_transport_t * transport = hci_transport_usb_instance();
hci_uart_config_t * config = NULL;
bt_control_t * control = NULL;
remote_device_db_t * remote_db = (remote_device_db_t *) &remote_device_db_memory;
hci_init(transport, config, control, remote_db);
hci_discoverable_control(1);
l2cap_init();
l2cap_register_packet_handler(packet_handler);
rfcomm_init();
rfcomm_register_packet_handler(packet_handler);
rfcomm_register_service_internal(NULL, RFCOMM_SERVER_CHANNEL, 100); // reserved channel, mtu=100
// init SDP, create record for SPP and register with SDP
sdp_init();
memset(spp_service_buffer, 0, sizeof(spp_service_buffer));
// service_record_item_t * service_record_item = (service_record_item_t *) spp_service_buffer;
// sdp_create_spp_service( (uint8_t*) &service_record_item->service_record, RFCOMM_SERVER_CHANNEL, "SPP Counter");
// printf("SDP service buffer size: %u\n\r", (uint16_t) (sizeof(service_record_item_t) + de_get_len((uint8_t*) &service_record_item->service_record)));
// sdp_register_service_internal(NULL, service_record_item);
sdp_create_spp_service( spp_service_buffer, RFCOMM_SERVER_CHANNEL, "SPP Counter");
printf("SDP service record size: %u\n\r", de_get_len(spp_service_buffer));
sdp_register_service_internal(NULL, spp_service_buffer);
}
int btstack_main(int argc, const char * argv[]){
// init L2CAP
l2cap_init();
rfcomm_init();
hfp_ag_init(rfcomm_channel_nr, 438, codecs, sizeof(codecs),
ag_indicators, ag_indicators_nr,
hf_indicators, hf_indicators_nr,
call_hold_services, call_hold_services_nr);
hfp_register_packet_handler(packet_handler);
sdp_init();
// init SDP, create record for SPP and register with SDP
memset((uint8_t *)hfp_service_buffer, 0, sizeof(hfp_service_buffer));
hfp_ag_create_service((uint8_t *)hfp_service_buffer, rfcomm_channel_nr, hfp_ag_service_name, 0, 0);
sdp_register_service_internal(NULL, (uint8_t *)hfp_service_buffer);
// turn on!
hci_power_control(HCI_POWER_ON);
btstack_stdin_setup(stdin_process);
printf("Establishing HFP connection to %s...\n", bd_addr_to_str(speaker));
hfp_ag_connect(speaker);
return 0;
}
int btstack_main(int argc, const char * argv[]){
hci_discoverable_control(1);
l2cap_init();
l2cap_register_packet_handler(packet_handler);
rfcomm_init();
rfcomm_register_packet_handler(packet_handler);
rfcomm_register_service_internal(NULL, RFCOMM_SERVER_CHANNEL, 0xffff); // reserved channel, mtu limited by l2cap
// init SDP, create record for SPP and register with SDP
sdp_init();
memset(spp_service_buffer, 0, sizeof(spp_service_buffer));
#ifdef EMBEDDED
service_record_item_t * service_record_item = (service_record_item_t *) spp_service_buffer;
sdp_create_spp_service( (uint8_t*) &service_record_item->service_record, RFCOMM_SERVER_CHANNEL, "SPP Counter");
printf("SDP service buffer size: %u\n", (uint16_t) (sizeof(service_record_item_t) + de_get_len((uint8_t*) &service_record_item->service_record)));
sdp_register_service_internal(NULL, service_record_item);
#else
sdp_create_spp_service( spp_service_buffer, RFCOMM_SERVER_CHANNEL, "SPP Counter");
printf("SDP service record size: %u\n", de_get_len(spp_service_buffer));
sdp_register_service_internal(NULL, spp_service_buffer);
#endif
hci_ssp_set_io_capability(SSP_IO_CAPABILITY_DISPLAY_YES_NO);
// set one-shot timer
timer_source_t heartbeat;
heartbeat.process = &heartbeat_handler;
run_loop_set_timer(&heartbeat, HEARTBEAT_PERIOD_MS);
run_loop_add_timer(&heartbeat);
// turn on!
hci_power_control(HCI_POWER_ON);
// go!
run_loop_execute();
// happy compiler!
return 0;
}
void deviceid_init()
{
memset(&did_service_record, 0, sizeof(did_service_record));
did_service_record.service_record = (uint8_t*)&did_service_buffer[0];
#if 1
sdp_create_did_service((uint8_t*)did_service_record.service_record);
log_info("SDP service buffer size: %u\n", de_get_len(did_service_record.service_record));
//hexdump((void*)did_service_buffer, de_get_len(did_service_record.service_record));
//de_dump_data_element(did_service_record.service_record);
#endif
sdp_register_service_internal(NULL, &did_service_record);
}
int btstack_main(int argc, const char * argv[]){
// init SDP, create record for SPP and register with SDP
memset((uint8_t *)hsp_service_buffer, 0, sizeof(hsp_service_buffer));
hsp_ag_create_service((uint8_t *)hsp_service_buffer, rfcomm_channel_nr, hsp_ag_service_name);
hsp_ag_init(rfcomm_channel_nr);
hsp_ag_register_packet_handler(packet_handler);
sdp_init();
sdp_register_service_internal(NULL, (uint8_t *)hsp_service_buffer);
// turn on!
hci_power_control(HCI_POWER_ON);
btstack_stdin_setup(stdin_process);
return 0;
}
int btstack_main(int argc, const char * argv[]){
memset((uint8_t *)hsp_service_buffer, 0, sizeof(hsp_service_buffer));
hsp_hs_create_sdp_record((uint8_t *)hsp_service_buffer, rfcomm_channel_nr, hsp_hs_service_name, 0);
hsp_hs_init(rfcomm_channel_nr);
hsp_hs_register_packet_handler(packet_handler);
sdp_init();
sdp_register_service_internal(NULL, (uint8_t *)hsp_service_buffer);
hci_discoverable_control(1);
hci_set_class_of_device(0x200418);
btstack_stdin_setup(stdin_process);
// turn on!
hci_power_control(HCI_POWER_ON);
return 0;
}
static int btstack_command_handler(connection_t *connection, uint8_t *packet, uint16_t size){
bd_addr_t addr;
uint16_t cid;
uint16_t psm;
uint16_t service_channel;
uint16_t mtu;
uint8_t reason;
uint8_t rfcomm_channel;
uint8_t rfcomm_credits;
uint32_t service_record_handle;
client_state_t *client;
uint16_t serviceSearchPatternLen;
uint16_t attributeIDListLen;
// BTstack internal commands - 16 Bit OpCode, 8 Bit ParamLen, Params...
switch (READ_CMD_OCF(packet)){
case BTSTACK_GET_STATE:
log_info("BTSTACK_GET_STATE");
hci_emit_state();
break;
case BTSTACK_SET_POWER_MODE:
log_info("BTSTACK_SET_POWER_MODE %u", packet[3]);
// track client power requests
client = client_for_connection(connection);
if (!client) break;
client->power_mode = packet[3];
// handle merged state
if (!clients_require_power_on()){
start_power_off_timer();
} else if (!power_management_sleep) {
stop_power_off_timer();
hci_power_control(HCI_POWER_ON);
}
break;
case BTSTACK_GET_VERSION:
log_info("BTSTACK_GET_VERSION");
hci_emit_btstack_version();
break;
#ifdef USE_BLUETOOL
case BTSTACK_SET_SYSTEM_BLUETOOTH_ENABLED:
log_info("BTSTACK_SET_SYSTEM_BLUETOOTH_ENABLED %u", packet[3]);
iphone_system_bt_set_enabled(packet[3]);
hci_emit_system_bluetooth_enabled(iphone_system_bt_enabled());
break;
case BTSTACK_GET_SYSTEM_BLUETOOTH_ENABLED:
log_info("BTSTACK_GET_SYSTEM_BLUETOOTH_ENABLED");
hci_emit_system_bluetooth_enabled(iphone_system_bt_enabled());
break;
#else
case BTSTACK_SET_SYSTEM_BLUETOOTH_ENABLED:
case BTSTACK_GET_SYSTEM_BLUETOOTH_ENABLED:
hci_emit_system_bluetooth_enabled(0);
break;
#endif
case BTSTACK_SET_DISCOVERABLE:
log_info("BTSTACK_SET_DISCOVERABLE discoverable %u)", packet[3]);
// track client discoverable requests
client = client_for_connection(connection);
if (!client) break;
client->discoverable = packet[3];
// merge state
hci_discoverable_control(clients_require_discoverable());
break;
case BTSTACK_SET_BLUETOOTH_ENABLED:
log_info("BTSTACK_SET_BLUETOOTH_ENABLED: %u\n", packet[3]);
if (packet[3]) {
// global enable
global_enable = 1;
hci_power_control(HCI_POWER_ON);
} else {
global_enable = 0;
clients_clear_power_request();
hci_power_control(HCI_POWER_OFF);
}
break;
case L2CAP_CREATE_CHANNEL_MTU:
bt_flip_addr(addr, &packet[3]);
psm = READ_BT_16(packet, 9);
mtu = READ_BT_16(packet, 11);
l2cap_create_channel_internal( connection, NULL, addr, psm, mtu);
break;
case L2CAP_CREATE_CHANNEL:
bt_flip_addr(addr, &packet[3]);
psm = READ_BT_16(packet, 9);
l2cap_create_channel_internal( connection, NULL, addr, psm, 150); // until r865
break;
case L2CAP_DISCONNECT:
cid = READ_BT_16(packet, 3);
reason = packet[5];
l2cap_disconnect_internal(cid, reason);
break;
case L2CAP_REGISTER_SERVICE:
psm = READ_BT_16(packet, 3);
mtu = READ_BT_16(packet, 5);
l2cap_register_service_internal(connection, NULL, psm, mtu);
break;
case L2CAP_UNREGISTER_SERVICE:
psm = READ_BT_16(packet, 3);
l2cap_unregister_service_internal(connection, psm);
break;
case L2CAP_ACCEPT_CONNECTION:
cid = READ_BT_16(packet, 3);
l2cap_accept_connection_internal(cid);
break;
case L2CAP_DECLINE_CONNECTION:
cid = READ_BT_16(packet, 3);
reason = packet[7];
l2cap_decline_connection_internal(cid, reason);
break;
case RFCOMM_CREATE_CHANNEL:
bt_flip_addr(addr, &packet[3]);
rfcomm_channel = packet[9];
rfcomm_create_channel_internal( connection, &addr, rfcomm_channel );
break;
case RFCOMM_CREATE_CHANNEL_WITH_CREDITS:
bt_flip_addr(addr, &packet[3]);
rfcomm_channel = packet[9];
rfcomm_credits = packet[10];
rfcomm_create_channel_with_initial_credits_internal( connection, &addr, rfcomm_channel, rfcomm_credits );
break;
case RFCOMM_DISCONNECT:
cid = READ_BT_16(packet, 3);
reason = packet[5];
rfcomm_disconnect_internal(cid);
break;
case RFCOMM_REGISTER_SERVICE:
rfcomm_channel = packet[3];
mtu = READ_BT_16(packet, 4);
rfcomm_register_service_internal(connection, rfcomm_channel, mtu);
break;
case RFCOMM_REGISTER_SERVICE_WITH_CREDITS:
rfcomm_channel = packet[3];
mtu = READ_BT_16(packet, 4);
rfcomm_credits = packet[6];
rfcomm_register_service_with_initial_credits_internal(connection, rfcomm_channel, mtu, rfcomm_credits);
break;
case RFCOMM_UNREGISTER_SERVICE:
service_channel = READ_BT_16(packet, 3);
rfcomm_unregister_service_internal(service_channel);
break;
case RFCOMM_ACCEPT_CONNECTION:
cid = READ_BT_16(packet, 3);
rfcomm_accept_connection_internal(cid);
break;
case RFCOMM_DECLINE_CONNECTION:
cid = READ_BT_16(packet, 3);
reason = packet[7];
rfcomm_decline_connection_internal(cid);
break;
case RFCOMM_GRANT_CREDITS:
cid = READ_BT_16(packet, 3);
rfcomm_credits = packet[5];
rfcomm_grant_credits(cid, rfcomm_credits);
break;
case RFCOMM_PERSISTENT_CHANNEL: {
if (remote_device_db) {
// enforce \0
packet[3+248] = 0;
rfcomm_channel = remote_device_db->persistent_rfcomm_channel((char*)&packet[3]);
} else {
// NOTE: hack for non-iOS platforms
rfcomm_channel = rfcomm_channel_generator++;
}
log_info("RFCOMM_EVENT_PERSISTENT_CHANNEL %u", rfcomm_channel);
uint8_t event[4];
event[0] = RFCOMM_EVENT_PERSISTENT_CHANNEL;
event[1] = sizeof(event) - 2;
event[2] = 0;
event[3] = rfcomm_channel;
hci_dump_packet(HCI_EVENT_PACKET, 0, event, sizeof(event));
socket_connection_send_packet(connection, HCI_EVENT_PACKET, 0, (uint8_t *) event, sizeof(event));
break;
}
case SDP_REGISTER_SERVICE_RECORD:
log_info("SDP_REGISTER_SERVICE_RECORD size %u\n", size);
sdp_register_service_internal(connection, &packet[3]);
break;
case SDP_UNREGISTER_SERVICE_RECORD:
service_record_handle = READ_BT_32(packet, 3);
log_info("SDP_UNREGISTER_SERVICE_RECORD handle 0x%x ", service_record_handle);
sdp_unregister_service_internal(connection, service_record_handle);
break;
case SDP_CLIENT_QUERY_RFCOMM_SERVICES:
bt_flip_addr(addr, &packet[3]);
serviceSearchPatternLen = de_get_len(&packet[9]);
memcpy(serviceSearchPattern, &packet[9], serviceSearchPatternLen);
sdp_query_rfcomm_register_callback(handle_sdp_rfcomm_service_result, connection);
sdp_query_rfcomm_channel_and_name_for_search_pattern(addr, serviceSearchPattern);
break;
case SDP_CLIENT_QUERY_SERVICES:
bt_flip_addr(addr, &packet[3]);
sdp_parser_init();
sdp_parser_register_callback(handle_sdp_client_query_result);
serviceSearchPatternLen = de_get_len(&packet[9]);
memcpy(serviceSearchPattern, &packet[9], serviceSearchPatternLen);
attributeIDListLen = de_get_len(&packet[9+serviceSearchPatternLen]);
memcpy(attributeIDList, &packet[9+serviceSearchPatternLen], attributeIDListLen);
sdp_client_query(addr, (uint8_t*)&serviceSearchPattern[0], (uint8_t*)&attributeIDList[0]);
// sdp_general_query_for_uuid(addr, 0x1002);
break;
default:
log_error("Error: command %u not implemented\n:", READ_CMD_OCF(packet));
break;
}
// verbose log info on command before dumped command unknown to PacketLogger or Wireshark
hci_dump_packet( HCI_COMMAND_DATA_PACKET, 1, packet, size);
return 0;
}
void sdp_test(){
const uint16_t remote_mtu = 48;
uint8_t allAttributeIDs[20]; //
// create an attribute list
de_create_sequence(allAttributeIDs);
de_add_number(allAttributeIDs, DE_UINT, DE_SIZE_32, 0x0000ffff);
// create two records with 2 attributes each
de_create_sequence(record);
de_add_number(record, DE_UINT, DE_SIZE_16, SDP_ServiceRecordHandle);
de_add_number(record, DE_UINT, DE_SIZE_32, 0x10001);
de_add_number(record, DE_UINT, DE_SIZE_16, SDP_ServiceClassIDList);
de_add_number(record, DE_UUID, DE_SIZE_16, 0x0001);
de_add_number(record, DE_UINT, DE_SIZE_16, SDP_BrowseGroupList);
de_add_number(record, DE_UUID, DE_SIZE_16, 0x0001);
uint32_t handle_1 = sdp_register_service_internal(NULL, record);
de_dump_data_element(record);
de_create_sequence(record);
de_add_number(record, DE_UINT, DE_SIZE_16, SDP_ServiceRecordHandle);
de_add_number(record, DE_UINT, DE_SIZE_32, 0x10002);
de_add_number(record, DE_UINT, DE_SIZE_16, SDP_ServiceClassIDList);
de_add_number(record, DE_UUID, DE_SIZE_16, 0x0002);
de_add_number(record, DE_UINT, DE_SIZE_16, SDP_BrowseGroupList);
de_add_number(record, DE_UUID, DE_SIZE_16, 0x0001);
sdp_register_service_internal(NULL, record);
de_dump_data_element(record);
uint16_t size = spd_get_filtered_size(record, allAttributeIDs);
printf("Attribute size %u\n", size);
uint16_t transactionID = 1;
uint8_t * attributeIDList;
uint16_t attributeIDListLen;
uint16_t response_pos;
uint8_t * serviceSearchPattern;
uint16_t serviceSearchPatternLen;
#if 1
// sdp_handle_service_search_request
uint16_t nr_services = 1;
request[0] = SDP_ServiceSearchRequest;
net_store_16(request, 1, transactionID++); // transaction ID
serviceSearchPattern = &request[5];
de_create_sequence(serviceSearchPattern);
{
de_add_number(serviceSearchPattern, DE_UUID, DE_SIZE_16, 0x0001);
}
serviceSearchPatternLen = de_get_len(serviceSearchPattern);
net_store_16(request, 5 + serviceSearchPatternLen, 2); // max
request[5 + serviceSearchPatternLen + 2] = 0; // cont
sdp_handle_service_search_request(request, 16);
dump_service_search_response();
memcpy(request + 5 + serviceSearchPatternLen + 2, sdp_response_buffer + 9 + nr_services*4, 3);
sdp_handle_service_search_request(request, remote_mtu);
dump_service_search_response();
#endif
#if 1
// sdp_handle_service_attribute_request
request[0] = SDP_ServiceAttributeRequest;
net_store_16(request, 1, transactionID++); // transaction ID
net_store_32(request, 5, handle_1); // record handle
net_store_16(request, 9, 11); // max bytes
attributeIDList = request + 11;
de_create_sequence(attributeIDList);
de_add_number(attributeIDList, DE_UINT, DE_SIZE_32, 0x0000ffff);
attributeIDListLen = de_get_len(attributeIDList);
request[11+attributeIDListLen] = 0;
response_pos = 0;
while(1) {
sdp_handle_service_attribute_request(request, remote_mtu);
uint16_t attributeListByteCount = READ_NET_16(sdp_response_buffer, 5);
memcpy( &response[response_pos], &sdp_response_buffer[7], attributeListByteCount);
response_pos += attributeListByteCount;
printf("attributeListByteCount %u\n", attributeListByteCount);
printf("Continuation %u\n", sdp_response_buffer[7+attributeListByteCount]);
if (sdp_response_buffer[7+attributeListByteCount] == 0) break;
printf("Continuation {%u}\n", READ_NET_16(sdp_response_buffer, 7+attributeListByteCount+1));
memcpy(request+11+attributeIDListLen, sdp_response_buffer+7+attributeListByteCount, 3);
}
de_dump_data_element(response);
#endif
#if 1
// sdp_handle_service_search_attribute_request
request[0] = SDP_ServiceSearchAttributeRequest;
net_store_16(request, 1, transactionID++); // transaction ID
serviceSearchPattern = &request[5];
de_create_sequence(serviceSearchPattern);
{
de_add_number(serviceSearchPattern, DE_UUID, DE_SIZE_16, 0x0001);
}
serviceSearchPatternLen = de_get_len(serviceSearchPattern);
net_store_16(request, 5 + serviceSearchPatternLen, 11); // MaximumAttributeByteCount:
attributeIDList = request + 5 + serviceSearchPatternLen + 2;
de_create_sequence(attributeIDList);
de_add_number(attributeIDList, DE_UINT, DE_SIZE_32, 0x0000ffff);
attributeIDListLen = de_get_len(attributeIDList);
request[5 + serviceSearchPatternLen + 2 + attributeIDListLen] = 0;
response_pos = 0;
while (1) {
sdp_handle_service_search_attribute_request(request, remote_mtu);
uint16_t attributeListByteCount = READ_NET_16(sdp_response_buffer, 5);
memcpy( &response[response_pos], &sdp_response_buffer[7], attributeListByteCount);
response_pos += attributeListByteCount;
printf("attributeListByteCount %u\n", attributeListByteCount);
printf("Continuation %u\n", sdp_response_buffer[7+attributeListByteCount]);
if (sdp_response_buffer[7+attributeListByteCount] == 0) break;
printf("Continuation {%u,%u}\n", READ_NET_16(sdp_response_buffer, 7+attributeListByteCount+1),
READ_NET_16(sdp_response_buffer, 7+attributeListByteCount+3));
memcpy(request+5 + serviceSearchPatternLen + 2 + attributeIDListLen, sdp_response_buffer+7+attributeListByteCount, 5);
}
de_dump_data_element(response);
#endif
exit(0);
}
// main
int main(void)
{
// stop watchdog timer
WDTCTL = WDTPW + WDTHOLD;
//Initialize clock and peripherals
halBoardInit();
halBoardStartXT1();
halBoardSetSystemClock(SYSCLK_16MHZ);
// init debug UART
halUsbInit();
// init LEDs
LED_PORT_OUT |= LED_1 | LED_2;
LED_PORT_DIR |= LED_1 | LED_2;
/// GET STARTED with BTstack ///
btstack_memory_init();
run_loop_init(RUN_LOOP_EMBEDDED);
// init HCI
hci_transport_t * transport = hci_transport_h4_dma_instance();
bt_control_t * control = bt_control_cc256x_instance();
hci_uart_config_t * config = hci_uart_config_cc256x_instance();
remote_device_db_t * remote_db = (remote_device_db_t *) &remote_device_db_memory;
hci_init(transport, config, control, remote_db);
// use eHCILL
bt_control_cc256x_enable_ehcill(1);
// init L2CAP
l2cap_init();
l2cap_register_packet_handler(packet_handler);
// init RFCOMM
rfcomm_init();
rfcomm_register_packet_handler(packet_handler);
rfcomm_register_service_with_initial_credits_internal(NULL, rfcomm_channel_nr, 100, 1); // reserved channel, mtu=100, 1 credit
// init SDP, create record for SPP and register with SDP
sdp_init();
memset(spp_service_buffer, 0, sizeof(spp_service_buffer));
service_record_item_t * service_record_item = (service_record_item_t *) spp_service_buffer;
sdp_create_spp_service( (uint8_t*) &service_record_item->service_record, 1, "SPP Counter");
printf("SDP service buffer size: %u\n\r", (uint16_t) (sizeof(service_record_item_t) + de_get_len((uint8_t*) &service_record_item->service_record)));
sdp_register_service_internal(NULL, service_record_item);
// set one-shot timer
timer_source_t heartbeat;
heartbeat.process = &heartbeat_handler;
run_loop_set_timer(&heartbeat, HEARTBEAT_PERIOD_MS);
run_loop_add_timer(&heartbeat);
puts("SPP FlowControl Demo: simulates processing on received data...\n\r");
// ready - enable irq used in h4 task
__enable_interrupt();
// turn on!
hci_power_control(HCI_POWER_ON);
// go!
run_loop_execute();
// happy compiler!
return 0;
}
// main
int main ( void )
{
// Initialize the processor and peripherals.
// Init Clock
// CPU 32MHz
// Peripheral 8MHz
CLKDIV = 0x0000;
unsigned int pll_startup_counter = 600;
CLKDIVbits.PLLEN = 1;
while(pll_startup_counter--);
// Configure U2RX - put on pin 17 (RP8)
RPINR19bits.U2RXR = 8;
// Configure U2TX - put on pin 16 (RP7)
RPOR3bits.RP7R = 5;
// Analog IN Disable
AD1PCFG = 0xffff;
EnablePullUpCN12;
// Port output setup
mPORTBOutputConfig(0x8000);
// Init UART
UART2Init();
// Init USB
if ( USBHostInit(0) != TRUE )
{
UART2PrintString( "ERR USBHostInit\r\n" );
while (1);
}
/// GET STARTED with BTstack ///
btstack_memory_init();
run_loop_init(RUN_LOOP_EMBEDDED);
// init HCI
hci_transport_t * transport = hci_transport_usb_instance();
bt_control_t * control = NULL;
hci_uart_config_t * config = NULL;
remote_device_db_t * remote_db = NULL;//(remote_device_db_t *) &remote_device_db_memory;
hci_init(transport, config, control, remote_db);
// init L2CAP
l2cap_init();
l2cap_register_packet_handler(bt_packet_handler);
// init RFCOMM
rfcomm_init();
rfcomm_register_packet_handler(bt_packet_handler);
rfcomm_register_service_internal(NULL, rfcomm_channel_nr, 100); // reserved channel, mtu=100
// init SDP, create record for SPP and register with SDP
sdp_init();
memset(spp_service_buffer, 0, sizeof(spp_service_buffer));
service_record_item_t * service_record_item = (service_record_item_t *) spp_service_buffer;
sdp_create_spp_service( (uint8_t*) &service_record_item->service_record, 1, "SPP");
// printf("SDP service buffer size: %u\n\r", (uint16_t) (sizeof(service_record_item_t) + de_get_len((uint8_t*) &service_record_item->service_record)));
sdp_register_service_internal(NULL, service_record_item);
// usbhost
data_source_t usbhost;
usbhost.process = &usbhost_process;
run_loop_add_data_source(&usbhost);
data_source_t swtask;
swtask.process = &sw_process;
run_loop_add_data_source(&swtask);
// go!
run_loop_execute();
return 0;
} // main
