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MXC-A36-Demo/MCU/examples/turnkey/lvgl_Dashboard_8080/Src/app_ble.c

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#include <string.h>
#include "co_log.h"
#include "gap_api.h"
#include "gatt_api.h"
#include "fdb_app.h"
#include "FreeRTOS.h"
#include "task.h"
#include "timers.h"
#include "portable.h"
#include "btdm_mem.h"
#include "ANCS_AMS_client.h"
#include "AMS_client.h"
#include "driver_gpio.h"
#include "hid_service.h"
#include "simple_gatt_service.h"
#include "ota_service.h"
#define APP_BLE_ADV_CHN_MAX 2
static void app_ble_start_advertising(uint8_t adv_chn);
char local_device_name[] = "Smart Watch";
static adv_handle adv[APP_BLE_ADV_CHN_MAX];
static uint16_t mtu_connected[8];
extern const uint8_t ble_static_addr[];
uint8_t slave_link_conidx;
/*
* Advertising data, max size is 28 bytes
*/
static uint8_t adv_data[] = {
#if 0
/* gatt service information */
0x03, //length of this AD
GAP_ADVTYPE_16BIT_MORE, //16bit service uuid AD type
//0xff, 0xf0, //value.service uuid:0xFFF0
LO_UINT16(0XFF72),
HI_UINT16(0XFF72),
#endif
/* local device name information */
0x0C, //length of this AD
GAP_ADVTYPE_LOCAL_NAME_COMPLETE, //complete name AD type
'S','m','a','r','t',' ','W','a','t','c','h', //value.local device name
0x09, // addr mac
GAP_ADVTYPE_MANUFACTURER_SPECIFIC,
LO_UINT16(0x1671),
HI_UINT16(0x1671),
0xc2,0x12,0x12,0x12,0x00,0x13,
0x03, // length of this data
GAP_ADVTYPE_APPEARANCE,
LO_UINT16(0x03c0),
HI_UINT16(0x03c0),
#if 0
// appearance
0x03, // length of this data
GAP_ADVTYPE_APPEARANCE,
LO_UINT16(GAP_APPEARE_HID_KEYBOARD),
HI_UINT16(GAP_APPEARE_HID_KEYBOARD),
#endif
};
/*
* Advertising scan response data, max size is 31 bytes
*/
static uint8_t adv_scan_rsp_data[] = {
#if 1
0x03, // length of this data
GAP_ADVTYPE_16BIT_COMPLETE,
LO_UINT16(HID_SERV_UUID),
HI_UINT16(HID_SERV_UUID),
#endif
#if 0
// Tx power level <20><><EFBFBD><EFBFBD><E4B9A6>
0x02, // length of this data
GAP_ADVTYPE_POWER_LEVEL,
0, // 0dBm
#endif
};
uint8_t service_id;
extern uint8_t slave_link_conidx;
uint16_t app_ble_get_mtu(uint8_t conidx)
{
return mtu_connected[conidx];
}
void app_ble_set_mtu(uint8_t conidx, uint16_t mtu)
{
mtu_connected[conidx] = mtu;
}
static uint16_t gap_callback(struct gap_event *event)
{
printf("gap_callback: type = %d\r\n", event->type);
switch(event->type) {
case GATT_EVT_PROFILE_ADDED:
{
printf("gap_callback: GATT_EVT_PROFILE_ADDED: 0x%02X\r\n", event->param.profile_added_status);
/* service profile has been added successfully, then the advertising can be started */
app_ble_start_advertising(0);
}
break;
case GAP_EVT_ADV_SET_PARAM:
printf("adv param set: 0x%02X\r\n", event->param.adv_set_param.status);
break;
case GAP_EVT_ADV_SET_ADV_DATA:
printf("adv data set: 0x%02X\r\n", event->param.adv_set_adv_data.status);
break;
case GAP_EVT_ADV_SET_SCAN_RSP:
printf("adv scan rsp data set: 0x%02X\r\n", event->param.adv_set_scan_rsp.status);
break;
case GAP_EVT_ADV_START:
printf("adv start :0x%02X\r\n", event->param.adv_start.status);
break;
case GAP_EVT_ADV_END:
printf("adv end: 0x%02X\r\n", event->param.adv_end.status);
break;
case GAP_EVT_SLAVE_CONNECT:
{
//gap_get_link_version(event->param.connect.conidx);
//gap_get_link_rssi(event->param.connect.conidx);
//gap_get_link_features(event->param.connect.conidx);
printf("slave connect[%d], connect num: %d\r\n", event->param.connect.conidx, gap_get_connect_num());
slave_link_conidx = event->param.connect.conidx;
//gatt_mtu_exchange_req(hid_svc_id, event->param.connect.conidx, 247);
//gap_security_req(event->param.connect.conidx);
#if BLE_PROFILE_ENABLE_ANCS
gatt_discovery_all_peer_svc(ANCS_AMS_client_id,event->param.connect.conidx);
#endif
}
break;
case GAP_EVT_DISCONNECT:
{
printf("gap_callback: GAP_EVT_DISCONNECT, conidx:%d, reason:0x%02X\r\n", event->param.disconnect.conidx,
event->param.disconnect.reason);
app_ble_start_advertising(0);
}
break;
case GATT_EVT_MTU:
printf("gap_callback: conidx: %d, GATT_EVT_MTU: %d\r\n", event->param.mtu_ind.conidx, event->param.mtu_ind.mtu);
app_ble_set_mtu(event->param.mtu_ind.conidx, event->param.mtu_ind.mtu);
//gap_security_req(event->param.connect.conidx);
break;
case GAP_EVT_SMP_ENCRYPT_SUCCESS:
printf("gap_callback: conidx: %d, GAP_EVT_SMP_ENCRYPT_SUCCESS \r\n", event->param.mtu_ind.conidx);
break;
case GAP_EVT_SMP_BOND_SUCCESS:
printf("gap_callback: conidx: %d, GAP_EVT_SMP_BOND_SUCCESS \r\n", event->param.mtu_ind.conidx);
#if BLE_PROFILE_ENABLE_ANCS
ancs_enable_src_notify(event->param.connect.conidx);
#endif
#if (BLE_PROFILE_ENABLE_HID)
hid_service_enable(event->param.connect.conidx);
#endif
#if 0
struct gap_link_param_update_req req;
req.conidx = event->param.connect.conidx;
req.intv_max = 12;
req.intv_min = 12;
req.latency = 30;
req.time_out = 140;
gap_param_update_req(&req);
#endif
//gap_conn_param_update((uint8_t)arg, 24, 24, 33, 500);
break;
case GAP_EVT_NAME_REQ:
{
gap_name_req_rsp(event->param.name_req.conidx,
event->param.name_req.token,
sizeof(local_device_name),
(uint8_t *)local_device_name);
}
break;
case GAP_EVT_APPEARANCE_REQ:
{
gap_appearance_req_rsp(event->param.appearance_req.conidx,
event->param.appearance_req.token,
GAP_APPEARE_HID_KEYBOARD);
}
break;
case GAP_EVT_LINK_PARAM_REQ:
{
struct gap_link_param_update_rsp rsp;
rsp.accept = true;
rsp.conidx = event->param.link_param_update_req.conidx;
rsp.ce_len_max = 2;
rsp.ce_len_min = 2;
gap_param_update_rsp(&rsp);
}
break;
case GAP_EVT_LINK_PARAM_UPDATE:
{
printf("conn param update,conidx:%d, con_int:%d, latency:%d, timeout%d\r\n", event->param.link_param_update.conidx,
event->param.link_param_update.con_interval,
event->param.link_param_update.con_latency,
event->param.link_param_update.sup_to);
//gap_security_req(event->param.connect.conidx);
}
break;
case GAP_EVT_LINK_RSSI:
printf("gap_callback: conidx: %d, GAP_EVT_LINK_RSSI: %d\r\n", event->param.gap_link_rssi.conidx, event->param.gap_link_rssi.link_rssi);
break;
case GAP_EVT_PHY_IND:
printf("gap_callback: conidx: %d, GAP_EVT_PHY_IND: %d\r\n", event->param.gap_phy_ind.conidx, event->param.gap_phy_ind.tx_phy);
break;
case GAP_EVT_PHY_REJECT:
printf("gap_callback: conidx: %d, GAP_EVT_PHY_REJECT, status: %d\r\n", event->param.gap_phy_update_reject.conidx, event->param.gap_phy_update_reject.status);
break;
case GAP_EVT_LINK_VER:
printf("gap_callback: conidx: %d, GAP_EVT_LINK_VER\r\n", event->param.gap_link_ver.conidx);
break;
case GAP_EVT_LINK_FEATURE:
printf("gap_callback: conidx: %d, GAP_EVT_LINK_FEATURE:%d\r\n", event->param.gap_link_feature.conidx, event->param.gap_link_feature.features[0]);
break;
default:
break;
}
return 0;
}
void app_ble_start_advertising(uint8_t adv_chn)
{
if (adv_chn < APP_BLE_ADV_CHN_MAX) {
if (adv[adv_chn] == NULL) {
struct gap_adv_param adv_param;
adv_param.adv_mode = GAP_ADV_MODE_UNDIRECT;
adv_param.disc_mode = GAP_ADV_DISC_MODE_GEN_DISC;
adv_param.filt_policy = GAP_ADV_FILTER_SCAN_ANY_CON_ANY;
adv_param.adv_chnl_map = GAP_ADV_CHAN_ALL;
adv_param.phy_mode = GAP_PHY_TYPE_LE_1M;
adv_param.own_addr_type = GAP_ADDR_TYPE_STATIC; // GAPM_GEN_RSLV_ADDR GAPM_STATIC_ADDR
adv_param.adv_intv_min = 1600;
adv_param.adv_intv_max = 1600;
adv[adv_chn] = gap_adv_create();
gap_adv_set_param(adv[adv_chn], &adv_param);
adv_data[17] = ble_static_addr[5];
adv_data[18] = ble_static_addr[4];
adv_data[19] = ble_static_addr[3];
adv_data[20] = ble_static_addr[2];
adv_data[21] = ble_static_addr[1];
adv_data[22] = ble_static_addr[0];
gap_adv_set_adv_data(adv[adv_chn], adv_data, sizeof(adv_data));
gap_adv_set_scan_rsp(adv[adv_chn], adv_scan_rsp_data, sizeof(adv_scan_rsp_data));
}
gap_adv_start(adv[adv_chn], 0, 0);
}
}
void app_ble_init(void)
{
printf("app_ble_init\r\n");
// gap_set_dev_appearance(GAP_APPEARE_HID_KEYBOARD);
/* set GAP event callback*/
gap_set_cb_func(gap_callback);
/* set security param */
struct gap_security_param smp_param;
smp_param.mitm = true;
smp_param.secure_connection = false;
smp_param.bond = true;
smp_param.oob_used = GAP_OOB_AUTH_DATA_NOT_PRESENT;
smp_param.io_cap = GAP_IO_CAP_NO_INPUT_NO_OUTPUT;
smp_param.rsp_mode = ENABLE_AUTO_RSP;
gap_security_param_init(&smp_param);
/* add service profile, The GAP callback event is GATT_EVT_PROFILE_ADDED*/
//app_ble_add_service();
ota_gatt_add_service();
sp_gatt_add_service();
#if BLE_PROFILE_ENABLE_ANCS
ANCS_AMS_gatt_add_client();
#endif
#if BLE_PROFILE_ENABLE_HID
hid_gatt_add_service();
#endif
}
void app_ble_scan_start(void)
{
struct gap_scan_param param;
param.scan_type = GAP_SCAN_TYPE_GEN_DISC;
param.own_addr_type = GAP_ADDR_TYPE_STATIC;
param.phy_mode = GAP_PHY_TYPE_LE_1M;
param.dup_filt_pol = true;
param.scan_intv = 32;
param.scan_window = 20;
param.duration = 0;
gap_scan_start(&param);
}
void app_ble_scan_stop(void)
{
gap_scan_stop();
}
void app_ble_conn_start(struct gap_ble_addr *addr)
{
struct gap_conn_param conn_param;
conn_param.peer_addr.addr_type = addr->addr_type;
conn_param.peer_addr.addr.addr[0] = addr->addr.addr[0];
conn_param.peer_addr.addr.addr[1] = addr->addr.addr[1];
conn_param.peer_addr.addr.addr[2] = addr->addr.addr[2];
conn_param.peer_addr.addr.addr[3] = addr->addr.addr[3];
conn_param.peer_addr.addr.addr[4] = addr->addr.addr[4];
conn_param.peer_addr.addr.addr[5] = addr->addr.addr[5];
conn_param.own_addr_type = GAP_ADDR_TYPE_STATIC;
conn_param.phy_mode = GAP_PHY_TYPE_LE_1M;
conn_param.scan_intv = 32;
conn_param.scan_window = 32;
conn_param.conn_intv_min = 24;
conn_param.conn_intv_max = 24;
conn_param.supervision_to = 500;
conn_param.slave_latency = 0;
conn_param.ce_len_max = 2;
conn_param.ce_len_min = 2;
gap_conn_start(&conn_param);
}
void app_ble_conn_stop(void)
{
gap_conn_stop();
}
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