btstack/example/hsp_hs_demo.c

cd87ea12SMatthias Ringwald/*
cd87ea12SMatthias Ringwald * Copyright (C) 2014 BlueKitchen GmbH
cd87ea12SMatthias Ringwald *
cd87ea12SMatthias Ringwald * Redistribution and use in source and binary forms, with or without
cd87ea12SMatthias Ringwald * modification, are permitted provided that the following conditions
cd87ea12SMatthias Ringwald * are met:
cd87ea12SMatthias Ringwald *
cd87ea12SMatthias Ringwald * 1. Redistributions of source code must retain the above copyright
cd87ea12SMatthias Ringwald *    notice, this list of conditions and the following disclaimer.
cd87ea12SMatthias Ringwald * 2. Redistributions in binary form must reproduce the above copyright
cd87ea12SMatthias Ringwald *    notice, this list of conditions and the following disclaimer in the
cd87ea12SMatthias Ringwald *    documentation and/or other materials provided with the distribution.
cd87ea12SMatthias Ringwald * 3. Neither the name of the copyright holders nor the names of
cd87ea12SMatthias Ringwald *    contributors may be used to endorse or promote products derived
cd87ea12SMatthias Ringwald *    from this software without specific prior written permission.
cd87ea12SMatthias Ringwald * 4. Any redistribution, use, or modification is done solely for
cd87ea12SMatthias Ringwald *    personal benefit and not for any commercial purpose or for
cd87ea12SMatthias Ringwald *    monetary gain.
cd87ea12SMatthias Ringwald *
cd87ea12SMatthias Ringwald * THIS SOFTWARE IS PROVIDED BY BLUEKITCHEN GMBH AND CONTRIBUTORS
cd87ea12SMatthias Ringwald * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
cd87ea12SMatthias Ringwald * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
cd87ea12SMatthias Ringwald * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL MATTHIAS
cd87ea12SMatthias Ringwald * RINGWALD OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
cd87ea12SMatthias Ringwald * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
cd87ea12SMatthias Ringwald * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
cd87ea12SMatthias Ringwald * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
cd87ea12SMatthias Ringwald * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
cd87ea12SMatthias Ringwald * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
cd87ea12SMatthias Ringwald * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
cd87ea12SMatthias Ringwald * SUCH DAMAGE.
cd87ea12SMatthias Ringwald *
cd87ea12SMatthias Ringwald * Please inquire about commercial licensing options at
cd87ea12SMatthias Ringwald * [email protected]
cd87ea12SMatthias Ringwald *
cd87ea12SMatthias Ringwald */
cd87ea12SMatthias Ringwald
fffdd288SMatthias Ringwald/*
fffdd288SMatthias Ringwald * hsp_hs_demo.c
fffdd288SMatthias Ringwald */
cd87ea12SMatthias Ringwald
fffdd288SMatthias Ringwald// *****************************************************************************
fffdd288SMatthias Ringwald/* EXAMPLE_START(hsp_hs_demo): HSP Headset Demo
fffdd288SMatthias Ringwald *
fffdd288SMatthias Ringwald * @text This example implements a HSP Headset device that sends and receives
fffdd288SMatthias Ringwald * audio signal over HCI SCO. It demonstrates how to receive
fffdd288SMatthias Ringwald * an output from a remote audio gateway (AG), and,
fffdd288SMatthias Ringwald * if HAVE_STDIO is defined, how to control the AG.
fffdd288SMatthias Ringwald */
cd87ea12SMatthias Ringwald// *****************************************************************************
cd87ea12SMatthias Ringwald
cd87ea12SMatthias Ringwald#include "btstack_config.h"
cd87ea12SMatthias Ringwald
cd87ea12SMatthias Ringwald#include <stdint.h>
cd87ea12SMatthias Ringwald#include <stdio.h>
cd87ea12SMatthias Ringwald#include <stdlib.h>
cd87ea12SMatthias Ringwald#include <string.h>
cd87ea12SMatthias Ringwald#include <math.h>
fffdd288SMatthias Ringwald#include <unistd.h>
cd87ea12SMatthias Ringwald
cd87ea12SMatthias Ringwald#include "btstack.h"
cd87ea12SMatthias Ringwald
fffdd288SMatthias Ringwald#define SCO_REPORT_PERIOD 255
fffdd288SMatthias Ringwald
cd87ea12SMatthias Ringwaldstatic btstack_packet_callback_registration_t hci_event_callback_registration;
cd87ea12SMatthias Ringwald
cd87ea12SMatthias Ringwaldstatic uint8_t hsp_service_buffer[150];
cd87ea12SMatthias Ringwaldstatic const uint8_t rfcomm_channel_nr = 1;
cd87ea12SMatthias Ringwaldstatic const char    hsp_hs_service_name[] = "Headset Test";
cd87ea12SMatthias Ringwaldstatic hci_con_handle_t sco_handle = 0;
cd87ea12SMatthias Ringwald
cd87ea12SMatthias Ringwaldstatic char hs_cmd_buffer[100];
fffdd288SMatthias Ringwaldstatic bd_addr_t device_addr = {0x00,0x1b,0xDC,0x07,0x32,0xEF};
cd87ea12SMatthias Ringwald
cd87ea12SMatthias Ringwaldstatic int phase = 0;
cd87ea12SMatthias Ringwald
cd87ea12SMatthias Ringwald// input signal: pre-computed sine wave, 160 Hz
cd87ea12SMatthias Ringwaldstatic const uint8_t sine[] = {
cd87ea12SMatthias Ringwald      0,  15,  31,  46,  61,  74,  86,  97, 107, 114,
cd87ea12SMatthias Ringwald    120, 124, 126, 126, 124, 120, 114, 107,  97,  86,
cd87ea12SMatthias Ringwald     74,  61,  46,  31,  15,   0, 241, 225, 210, 195,
cd87ea12SMatthias Ringwald    182, 170, 159, 149, 142, 136, 132, 130, 130, 132,
cd87ea12SMatthias Ringwald    136, 142, 149, 159, 170, 182, 195, 210, 225, 241,
cd87ea12SMatthias Ringwald};
cd87ea12SMatthias Ringwald
fffdd288SMatthias Ringwald/* @section Audio Transfer Setup
fffdd288SMatthias Ringwald *
fffdd288SMatthias Ringwald * @text A pre-computed sine wave (160Hz) is used as the input audio signal. 160 Hz.
fffdd288SMatthias Ringwald * To send and receive an audio signal, HAVE_SCO_OVER_HCI has to be defined.
fffdd288SMatthias Ringwald *
fffdd288SMatthias Ringwald * Tested working setups:
fffdd288SMatthias Ringwald * - Ubuntu 14 64-bit, CC2564B connected via FTDI USB-2-UART adapter, 921600 baud
fffdd288SMatthias Ringwald * - Ubuntu 14 64-bit, CSR USB dongle
fffdd288SMatthias Ringwald * - OS X 10.11, CSR USB dongle
fffdd288SMatthias Ringwald *
fffdd288SMatthias Ringwald * Broken setups:
fffdd288SMatthias Ringwald * - OS X 10.11, CC2564B connected via FDTI USB-2-UART adapter, 921600 baud
fffdd288SMatthias Ringwald * - select(..) blocks > 400 ms -> num completed is received to late -> gaps between audio
fffdd288SMatthias Ringwald * - looks like bug in select->FTDI driver as it works correct on Linux
fffdd288SMatthias Ringwald *
fffdd288SMatthias Ringwald * SCO not routed over HCI yet:
fffdd288SMatthias Ringwald * - CSR UART dongle
fffdd288SMatthias Ringwald * - Broadcom USB dongle
fffdd288SMatthias Ringwald * - Broadcom UART chipset
fffdd288SMatthias Ringwald * - ..
fffdd288SMatthias Ringwald *
fffdd288SMatthias Ringwald */
fffdd288SMatthias Ringwald
fffdd288SMatthias Ringwald
fffdd288SMatthias Ringwaldstatic void show_usage(void){
fffdd288SMatthias Ringwald    bd_addr_t iut_address;
fffdd288SMatthias Ringwald    gap_local_bd_addr(iut_address);
fffdd288SMatthias Ringwald
fffdd288SMatthias Ringwald    printf("\n--- Bluetooth HSP Headset Test Console %s ---\n", bd_addr_to_str(iut_address));
fffdd288SMatthias Ringwald    printf("---\n");
fffdd288SMatthias Ringwald    printf("c - Connect to %s\n", bd_addr_to_str(device_addr));
fffdd288SMatthias Ringwald    printf("C - Disconnect\n");
fffdd288SMatthias Ringwald    printf("a - establish audio connection\n");
fffdd288SMatthias Ringwald    printf("A - release audio connection\n");
fffdd288SMatthias Ringwald    printf("b - press user button\n");
fffdd288SMatthias Ringwald    printf("z - set microphone gain 0\n");
fffdd288SMatthias Ringwald    printf("m - set microphone gain 8\n");
fffdd288SMatthias Ringwald    printf("M - set microphone gain 15\n");
fffdd288SMatthias Ringwald    printf("o - set speaker gain 0\n");
fffdd288SMatthias Ringwald    printf("s - set speaker gain 8\n");
fffdd288SMatthias Ringwald    printf("S - set speaker gain 15\n");
fffdd288SMatthias Ringwald    printf("---\n");
fffdd288SMatthias Ringwald    printf("Ctrl-c - exit\n");
fffdd288SMatthias Ringwald    printf("---\n");
cd87ea12SMatthias Ringwald}
fffdd288SMatthias Ringwald
fffdd288SMatthias Ringwald#ifdef HAVE_STDIO
fffdd288SMatthias Ringwaldstatic int stdin_process(struct data_source *ds){
fffdd288SMatthias Ringwald    char buffer;
fffdd288SMatthias Ringwald    read(ds->fd, &buffer, 1);
fffdd288SMatthias Ringwald
fffdd288SMatthias Ringwald    switch (buffer){
fffdd288SMatthias Ringwald        case 'c':
fffdd288SMatthias Ringwald            printf("Connect to %s\n", bd_addr_to_str(device_addr));
fffdd288SMatthias Ringwald            hsp_hs_connect(device_addr);
fffdd288SMatthias Ringwald            break;
fffdd288SMatthias Ringwald        case 'C':
fffdd288SMatthias Ringwald            printf("Disconnect.\n");
fffdd288SMatthias Ringwald            hsp_hs_disconnect();
fffdd288SMatthias Ringwald            break;
fffdd288SMatthias Ringwald        case 'a':
fffdd288SMatthias Ringwald            printf("Establish audio connection\n");
fffdd288SMatthias Ringwald            hsp_hs_establish_audio_connection();
fffdd288SMatthias Ringwald            break;
fffdd288SMatthias Ringwald        case 'A':
fffdd288SMatthias Ringwald            printf("Release audio connection\n");
fffdd288SMatthias Ringwald            hsp_hs_release_audio_connection();
fffdd288SMatthias Ringwald            break;
fffdd288SMatthias Ringwald
fffdd288SMatthias Ringwald        case 'z':
fffdd288SMatthias Ringwald            printf("Setting microphone gain 0\n");
fffdd288SMatthias Ringwald            hsp_hs_set_microphone_gain(0);
fffdd288SMatthias Ringwald            break;
fffdd288SMatthias Ringwald        case 'm':
fffdd288SMatthias Ringwald            printf("Setting microphone gain 8\n");
fffdd288SMatthias Ringwald            hsp_hs_set_microphone_gain(8);
fffdd288SMatthias Ringwald            break;
fffdd288SMatthias Ringwald        case 'M':
fffdd288SMatthias Ringwald            printf("Setting microphone gain 15\n");
fffdd288SMatthias Ringwald            hsp_hs_set_microphone_gain(15);
fffdd288SMatthias Ringwald            break;
fffdd288SMatthias Ringwald        case 'o':
fffdd288SMatthias Ringwald            printf("Setting speaker gain 0\n");
fffdd288SMatthias Ringwald            hsp_hs_set_speaker_gain(0);
fffdd288SMatthias Ringwald            break;
fffdd288SMatthias Ringwald        case 's':
fffdd288SMatthias Ringwald            printf("Setting speaker gain 8\n");
fffdd288SMatthias Ringwald            hsp_hs_set_speaker_gain(8);
fffdd288SMatthias Ringwald            break;
fffdd288SMatthias Ringwald        case 'S':
fffdd288SMatthias Ringwald            printf("Setting speaker gain 15\n");
fffdd288SMatthias Ringwald            hsp_hs_set_speaker_gain(15);
fffdd288SMatthias Ringwald            break;
fffdd288SMatthias Ringwald        case 'b':
fffdd288SMatthias Ringwald            printf("Press user button\n");
fffdd288SMatthias Ringwald            hsp_hs_send_button_press();
fffdd288SMatthias Ringwald            break;
fffdd288SMatthias Ringwald        default:
fffdd288SMatthias Ringwald            show_usage();
fffdd288SMatthias Ringwald            break;
fffdd288SMatthias Ringwald    }
fffdd288SMatthias Ringwald    return 0;
cd87ea12SMatthias Ringwald}
cd87ea12SMatthias Ringwald#endif
cd87ea12SMatthias Ringwald
cd87ea12SMatthias Ringwaldstatic void try_send_sco(void){
cd87ea12SMatthias Ringwald    if (!sco_handle) return;
cd87ea12SMatthias Ringwald
cd87ea12SMatthias Ringwald    while (hci_can_send_sco_packet_now()) {
cd87ea12SMatthias Ringwald
cd87ea12SMatthias Ringwald        const int sco_packet_length = hci_get_sco_packet_length();
cd87ea12SMatthias Ringwald        const int sco_payload_length = sco_packet_length - 3;
cd87ea12SMatthias Ringwald        const int frames_per_packet = sco_payload_length;    // for 8-bit data. for 16-bit data it's /2
cd87ea12SMatthias Ringwald
cd87ea12SMatthias Ringwald        hci_reserve_packet_buffer();
cd87ea12SMatthias Ringwald        uint8_t * sco_packet = hci_get_outgoing_packet_buffer();
cd87ea12SMatthias Ringwald        // set handle + flags
cd87ea12SMatthias Ringwald        little_endian_store_16(sco_packet, 0, sco_handle);
cd87ea12SMatthias Ringwald        // set len
cd87ea12SMatthias Ringwald        sco_packet[2] = sco_payload_length;
cd87ea12SMatthias Ringwald        int i;
cd87ea12SMatthias Ringwald        for (i=0;i<frames_per_packet;i++){
cd87ea12SMatthias Ringwald            sco_packet[3+i] = sine[phase];
cd87ea12SMatthias Ringwald            phase++;
cd87ea12SMatthias Ringwald            if (phase >= sizeof(sine)) phase = 0;
cd87ea12SMatthias Ringwald        }
cd87ea12SMatthias Ringwald        hci_send_sco_packet_buffer(sco_packet_length);
cd87ea12SMatthias Ringwald        static int count = 0;
cd87ea12SMatthias Ringwald        count++;
cd87ea12SMatthias Ringwald        if ((count & 15) == 0) printf("Sent %u\n", count);
cd87ea12SMatthias Ringwald    }
cd87ea12SMatthias Ringwald}
cd87ea12SMatthias Ringwald
cd87ea12SMatthias Ringwaldstatic void sco_packet_handler(uint8_t packet_type, uint8_t * packet, uint16_t size){
cd87ea12SMatthias Ringwald    static int count = 0;
fffdd288SMatthias Ringwald    // hexdumpf(packet, size);
cd87ea12SMatthias Ringwald    count++;
fffdd288SMatthias Ringwald    if ((count & SCO_REPORT_PERIOD)) return;
cd87ea12SMatthias Ringwald    printf("SCO packets %u\n", count);
cd87ea12SMatthias Ringwald}
cd87ea12SMatthias Ringwald
cd87ea12SMatthias Ringwaldstatic void packet_handler(uint8_t * event, uint16_t event_size){
cd87ea12SMatthias Ringwald    switch (event[0]) {
cd87ea12SMatthias Ringwald        case BTSTACK_EVENT_STATE:
cd87ea12SMatthias Ringwald            if (btstack_event_state_get_state(event) != HCI_STATE_WORKING) break;
fffdd288SMatthias Ringwald            show_usage();
cd87ea12SMatthias Ringwald            break;
cd87ea12SMatthias Ringwald        case HCI_EVENT_SCO_CAN_SEND_NOW:
cd87ea12SMatthias Ringwald            try_send_sco();
cd87ea12SMatthias Ringwald            break;
cd87ea12SMatthias Ringwald        case HCI_EVENT_HSP_META:
cd87ea12SMatthias Ringwald            switch (event[2]) {
fffdd288SMatthias Ringwald                case HSP_SUBEVENT_RFCOMM_CONNECTION_COMPLETE:
fffdd288SMatthias Ringwald                    if (hsp_subevent_audio_connection_complete_get_handle(event) == 0){
fffdd288SMatthias Ringwald                        printf("RFCOMM connection established.\n");
fffdd288SMatthias Ringwald                    } else {
fffdd288SMatthias Ringwald                        printf("RFCOMM connection establishement failed.\n");
fffdd288SMatthias Ringwald                    }
fffdd288SMatthias Ringwald                    break;
fffdd288SMatthias Ringwald                case HSP_SUBEVENT_RFCOMM_DISCONNECTION_COMPLETE:
fffdd288SMatthias Ringwald                    if (hsp_subevent_audio_connection_complete_get_handle(event) == 0){
fffdd288SMatthias Ringwald                        printf("RFCOMM disconnected.\n");
fffdd288SMatthias Ringwald                    } else {
fffdd288SMatthias Ringwald                        printf("RFCOMM disconnection failed.\n");
fffdd288SMatthias Ringwald                    }
fffdd288SMatthias Ringwald                    break;
cd87ea12SMatthias Ringwald                case HSP_SUBEVENT_AUDIO_CONNECTION_COMPLETE:
fffdd288SMatthias Ringwald                    if (hsp_subevent_audio_connection_complete_get_handle(event) == 0){
fffdd288SMatthias Ringwald                        sco_handle = little_endian_read_16(event, 4);
cd87ea12SMatthias Ringwald                        printf("Audio connection established with SCO handle 0x%04x.\n", sco_handle);
cd87ea12SMatthias Ringwald                        try_send_sco();
cd87ea12SMatthias Ringwald                    } else {
cd87ea12SMatthias Ringwald                        printf("Audio connection establishment failed with status %u\n", hsp_subevent_audio_connection_complete_get_status(event));
cd87ea12SMatthias Ringwald                        sco_handle = 0;
cd87ea12SMatthias Ringwald                    }
cd87ea12SMatthias Ringwald                    break;
cd87ea12SMatthias Ringwald                case HSP_SUBEVENT_AUDIO_DISCONNECTION_COMPLETE:
fffdd288SMatthias Ringwald                    if (event[3] == 0){
cd87ea12SMatthias Ringwald                        printf("Audio connection released.\n\n");
cd87ea12SMatthias Ringwald                        sco_handle = 0;
fffdd288SMatthias Ringwald                    } else {
fffdd288SMatthias Ringwald                        printf("Audio connection releasing failed with status %u\n", event[3]);
fffdd288SMatthias Ringwald                    }
cd87ea12SMatthias Ringwald                    break;
cd87ea12SMatthias Ringwald                case HSP_SUBEVENT_MICROPHONE_GAIN_CHANGED:
cd87ea12SMatthias Ringwald                    printf("Received microphone gain change %d\n", hsp_subevent_microphone_gain_changed_get_gain(event));
cd87ea12SMatthias Ringwald                    break;
cd87ea12SMatthias Ringwald                case HSP_SUBEVENT_SPEAKER_GAIN_CHANGED:
cd87ea12SMatthias Ringwald                    printf("Received speaker gain change %d\n", hsp_subevent_speaker_gain_changed_get_gain(event));
cd87ea12SMatthias Ringwald                    break;
cd87ea12SMatthias Ringwald                case HSP_SUBEVENT_RING:
cd87ea12SMatthias Ringwald                    printf("HS: RING RING!\n");
cd87ea12SMatthias Ringwald                    break;
cd87ea12SMatthias Ringwald                case HSP_SUBEVENT_AG_INDICATION: {
cd87ea12SMatthias Ringwald                    memset(hs_cmd_buffer, 0, sizeof(hs_cmd_buffer));
cd87ea12SMatthias Ringwald                    int size = hsp_subevent_ag_indication_get_value_length(event);
cd87ea12SMatthias Ringwald                    if (size >= sizeof(hs_cmd_buffer)-1){
cd87ea12SMatthias Ringwald                        size =  sizeof(hs_cmd_buffer)-1;
cd87ea12SMatthias Ringwald                    }
cd87ea12SMatthias Ringwald                    memcpy(hs_cmd_buffer, hsp_subevent_ag_indication_get_value(event), size);
cd87ea12SMatthias Ringwald                    printf("Received custom indication: \"%s\". \nExit code or call hsp_hs_send_result.\n", hs_cmd_buffer);
cd87ea12SMatthias Ringwald
cd87ea12SMatthias Ringwald                }
cd87ea12SMatthias Ringwald                    break;
cd87ea12SMatthias Ringwald                default:
cd87ea12SMatthias Ringwald                    printf("event not handled %u\n", event[2]);
cd87ea12SMatthias Ringwald                    break;
cd87ea12SMatthias Ringwald            }
cd87ea12SMatthias Ringwald            break;
cd87ea12SMatthias Ringwald        default:
cd87ea12SMatthias Ringwald            break;
cd87ea12SMatthias Ringwald    }
cd87ea12SMatthias Ringwald}
cd87ea12SMatthias Ringwald
cd87ea12SMatthias Ringwaldstatic void handle_hci_event(uint8_t packet_type, uint16_t channel, uint8_t * packet, uint16_t size){
cd87ea12SMatthias Ringwald    packet_handler(packet, size);
cd87ea12SMatthias Ringwald}
cd87ea12SMatthias Ringwald
fffdd288SMatthias Ringwald/* @section Main Application Setup
fffdd288SMatthias Ringwald *
fffdd288SMatthias Ringwald * @text Listing MainConfiguration shows main application code.
fffdd288SMatthias Ringwald * To run a HSP Headset service you need to initialize the SDP, and to create and register HSP HS record with it.
fffdd288SMatthias Ringwald * In this example, the SCO over HCI is used to receive and send an audio signal.
fffdd288SMatthias Ringwald *
fffdd288SMatthias Ringwald * Two packet handlers are registered:
fffdd288SMatthias Ringwald * - The HCI SCO packet handler receives audio data.
fffdd288SMatthias Ringwald * - The HSP HS packet handler is used to trigger sending of audio data and commands to the AG. It also receives the AG's answers.
fffdd288SMatthias Ringwald *
fffdd288SMatthias Ringwald * The stdin_process callback allows for sending commands to the AG.
fffdd288SMatthias Ringwald * At the end the Bluetooth stack is started.
fffdd288SMatthias Ringwald */
fffdd288SMatthias Ringwald
fffdd288SMatthias Ringwald/* LISTING_START(MainConfiguration): Setup HSP Headset */
cd87ea12SMatthias Ringwaldint btstack_main(int argc, const char * argv[]);
cd87ea12SMatthias Ringwaldint btstack_main(int argc, const char * argv[]){
cd87ea12SMatthias Ringwald
cd87ea12SMatthias Ringwald    // register for HCI events
cd87ea12SMatthias Ringwald    hci_event_callback_registration.callback = &handle_hci_event;
cd87ea12SMatthias Ringwald    hci_add_event_handler(&hci_event_callback_registration);
cd87ea12SMatthias Ringwald    hci_register_sco_packet_handler(&sco_packet_handler);
cd87ea12SMatthias Ringwald
fffdd288SMatthias Ringwald    l2cap_init();
cd87ea12SMatthias Ringwald
cd87ea12SMatthias Ringwald    sdp_init();
cd87ea12SMatthias Ringwald    memset(hsp_service_buffer, 0, sizeof(hsp_service_buffer));
cd87ea12SMatthias Ringwald    hsp_hs_create_sdp_record(hsp_service_buffer, 0x10001, rfcomm_channel_nr, hsp_hs_service_name, 0);
cd87ea12SMatthias Ringwald    sdp_register_service(hsp_service_buffer);
cd87ea12SMatthias Ringwald
fffdd288SMatthias Ringwald    rfcomm_init();
fffdd288SMatthias Ringwald
fffdd288SMatthias Ringwald    hsp_hs_init(rfcomm_channel_nr);
fffdd288SMatthias Ringwald    hsp_hs_register_packet_handler(packet_handler);
fffdd288SMatthias Ringwald
fffdd288SMatthias Ringwald#ifdef HAVE_STDIO
fffdd288SMatthias Ringwald    btstack_stdin_setup(stdin_process);
fffdd288SMatthias Ringwald#endif
fffdd288SMatthias Ringwald
fffdd288SMatthias Ringwald    gap_set_local_name("BTstack HSP HS");
fffdd288SMatthias Ringwald    gap_discoverable_control(1);
fffdd288SMatthias Ringwald    gap_ssp_set_io_capability(SSP_IO_CAPABILITY_DISPLAY_YES_NO);
*60b9e82fSMatthias Ringwald    gap_set_class_of_device(0x240404);
fffdd288SMatthias Ringwald
cd87ea12SMatthias Ringwald    // turn on!
cd87ea12SMatthias Ringwald    hci_power_control(HCI_POWER_ON);
cd87ea12SMatthias Ringwald    return 0;
cd87ea12SMatthias Ringwald}
fffdd288SMatthias Ringwald/* LISTING_END */