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/**
*****************************************************************************************
* Copyright(c) 2017, Realtek Semiconductor Corporation. All rights reserved.
*****************************************************************************************
* @file peripheral_app.c
* @brief This file handles BLE peripheral application routines.
* @author jane
* @date 2017-06-06
* @version v1.0
**************************************************************************************
* @attention
* <h2><center>© COPYRIGHT 2017 Realtek Semiconductor Corporation</center></h2>
**************************************************************************************
*/
/*============================================================================*
* Header Files
*============================================================================*/
#include <string.h>
#include <gap.h>
#include <gap_adv.h>
#include <gap_bond_le.h>
#include <gap_conn_le.h>
#include <gap_msg.h>
#if F_BT_ANCS_CLIENT_SUPPORT
#include <ancs_client.h>
#include "ancs.h"
#endif
#include <bas.h>
#include <simple_ble_service.h>
#include "trace.h"
#include "app.h"
#include "io_spi.h"
#include "io_gdma.h"
#include "io_uart.h"
/** @defgroup PERIPH_APP Peripheral Application
* @brief This file handles BLE peripheral application routines.
* @{
*/
/*============================================================================*
* Variables
*============================================================================*/
/** @addtogroup PERIPH_SEVER_CALLBACK Profile Server Callback Event Handler
* @brief Handle profile server callback event
* @{
*/
T_SERVER_ID simp_srv_id; /**< Simple ble service id*/
T_SERVER_ID bas_srv_id; /**< Battery service id */
/** @} */ /* End of group PERIPH_SEVER_CALLBACK */
/** @defgroup PERIPH_GAP_MSG GAP Message Handler
* @brief Handle GAP Message
* @{
*/
T_GAP_DEV_STATE gap_dev_state = {0, 0, 0, 0}; /**< GAP device state */
T_GAP_CONN_STATE gap_conn_state = GAP_CONN_STATE_DISCONNECTED; /**< GAP connection state */
/*============================================================================*
* Functions
*============================================================================*/
void app_handle_gap_msg(T_IO_MSG *p_gap_msg);
/**
* @brief All the application messages are pre-handled in this function
* @note All the IO MSGs are sent to this function, then the event handling
* function shall be called according to the MSG type.
* @param[in] io_msg IO message data
* @return void
*/
void app_handle_io_msg(T_IO_MSG io_msg)
{
uint16_t msg_type = io_msg.type;
switch (msg_type)
{
case IO_MSG_TYPE_BT_STATUS:
{
app_handle_gap_msg(&io_msg);
}
break;
#if F_BT_ANCS_CLIENT_SUPPORT
case IO_MSG_TYPE_ANCS:
{
ancs_handle_msg(&io_msg);
}
break;
#endif
case IO_MSG_TYPE_GDMA:
{
APP_PRINT_INFO0("[app] app_handle_io_msg: dma msg.");
io_handle_gdma_msg(&io_msg);
//Add user code here!
}
break;
default:
break;
}
}
/**
* @brief Handle msg GAP_MSG_LE_DEV_STATE_CHANGE
* @note All the gap device state events are pre-handled in this function.
* Then the event handling function shall be called according to the new_state
* @param[in] new_state New gap device state
* @param[in] cause GAP device state change cause
* @return void
*/
void app_handle_dev_state_evt(T_GAP_DEV_STATE new_state, uint16_t cause)
{
APP_PRINT_INFO3("app_handle_dev_state_evt: init state %d, adv state %d, cause 0x%x",
new_state.gap_init_state, new_state.gap_adv_state, cause);
if (gap_dev_state.gap_init_state != new_state.gap_init_state)
{
if (new_state.gap_init_state == GAP_INIT_STATE_STACK_READY)
{
APP_PRINT_INFO0("GAP stack ready");
/*stack ready*/
// le_adv_start();
uint8_t data[] = {"IO-SPI+GDMA read flash data demo!"};
uart_senddata_continuous(UART0, data, sizeof(data));
spi_demo();
}
}
if (gap_dev_state.gap_adv_state != new_state.gap_adv_state)
{
if (new_state.gap_adv_state == GAP_ADV_STATE_IDLE)
{
if (new_state.gap_adv_sub_state == GAP_ADV_TO_IDLE_CAUSE_CONN)
{
APP_PRINT_INFO0("GAP adv stoped: because connection created");
}
else
{
APP_PRINT_INFO0("GAP adv stoped");
}
}
else if (new_state.gap_adv_state == GAP_ADV_STATE_ADVERTISING)
{
APP_PRINT_INFO0("GAP adv start");
}
}
gap_dev_state = new_state;
}
/**
* @brief Handle msg GAP_MSG_LE_CONN_STATE_CHANGE
* @note All the gap conn state events are pre-handled in this function.
* Then the event handling function shall be called according to the new_state
* @param[in] conn_id Connection ID
* @param[in] new_state New gap connection state
* @param[in] disc_cause Use this cause when new_state is GAP_CONN_STATE_DISCONNECTED
* @return void
*/
void app_handle_conn_state_evt(uint8_t conn_id, T_GAP_CONN_STATE new_state, uint16_t disc_cause)
{
APP_PRINT_INFO4("app_handle_conn_state_evt: conn_id %d old_state %d new_state %d, disc_cause 0x%x",
conn_id, gap_conn_state, new_state, disc_cause);
switch (new_state)
{
case GAP_CONN_STATE_DISCONNECTED:
{
if ((disc_cause != (HCI_ERR | HCI_ERR_REMOTE_USER_TERMINATE))
&& (disc_cause != (HCI_ERR | HCI_ERR_LOCAL_HOST_TERMINATE)))
{
APP_PRINT_ERROR1("app_handle_conn_state_evt: connection lost cause 0x%x", disc_cause);
}
le_adv_start();
}
break;
case GAP_CONN_STATE_CONNECTED:
{
uint16_t conn_interval;
uint16_t conn_latency;
uint16_t conn_supervision_timeout;
uint8_t remote_bd[6];
T_GAP_REMOTE_ADDR_TYPE remote_bd_type;
le_get_conn_param(GAP_PARAM_CONN_INTERVAL, &conn_interval, conn_id);
le_get_conn_param(GAP_PARAM_CONN_LATENCY, &conn_latency, conn_id);
le_get_conn_param(GAP_PARAM_CONN_TIMEOUT, &conn_supervision_timeout, conn_id);
le_get_conn_addr(conn_id, remote_bd, &remote_bd_type);
APP_PRINT_INFO5("GAP_CONN_STATE_CONNECTED:remote_bd %s, remote_addr_type %d, conn_interval 0x%x, conn_latency 0x%x, conn_supervision_timeout 0x%x",
TRACE_BDADDR(remote_bd), remote_bd_type,
conn_interval, conn_latency, conn_supervision_timeout);
}
break;
default:
break;
}
gap_conn_state = new_state;
}
/**
* @brief Handle msg GAP_MSG_LE_AUTHEN_STATE_CHANGE
* @note All the gap authentication state events are pre-handled in this function.
* Then the event handling function shall be called according to the new_state
* @param[in] conn_id Connection ID
* @param[in] new_state New authentication state
* @param[in] cause Use this cause when new_state is GAP_AUTHEN_STATE_COMPLETE
* @return void
*/
void app_handle_authen_state_evt(uint8_t conn_id, uint8_t new_state, uint16_t cause)
{
APP_PRINT_INFO2("app_handle_authen_state_evt:conn_id %d, cause 0x%x", conn_id, cause);
switch (new_state)
{
case GAP_AUTHEN_STATE_STARTED:
{
APP_PRINT_INFO0("app_handle_authen_state_evt: GAP_AUTHEN_STATE_STARTED");
}
break;
case GAP_AUTHEN_STATE_COMPLETE:
{
if (cause == GAP_SUCCESS)
{
#if F_BT_ANCS_CLIENT_SUPPORT
ancs_start_discovery(conn_id);
#endif
APP_PRINT_INFO0("app_handle_authen_state_evt: GAP_AUTHEN_STATE_COMPLETE pair success");
}
else
{
APP_PRINT_INFO0("app_handle_authen_state_evt: GAP_AUTHEN_STATE_COMPLETE pair failed");
}
}
break;
default:
{
APP_PRINT_ERROR1("app_handle_authen_state_evt: unknown newstate %d", new_state);
}
break;
}
}
/**
* @brief Handle msg GAP_MSG_LE_CONN_MTU_INFO
* @note This msg is used to inform APP that exchange mtu procedure is completed.
* @param[in] conn_id Connection ID
* @param[in] mtu_size New mtu size
* @return void
*/
void app_handle_conn_mtu_info_evt(uint8_t conn_id, uint16_t mtu_size)
{
APP_PRINT_INFO2("app_handle_conn_mtu_info_evt: conn_id %d, mtu_size %d", conn_id, mtu_size);
}
/**
* @brief Handle msg GAP_MSG_LE_CONN_PARAM_UPDATE
* @note All the connection parameter update change events are pre-handled in this function.
* @param[in] conn_id Connection ID
* @param[in] status New update state
* @param[in] cause Use this cause when status is GAP_CONN_PARAM_UPDATE_STATUS_FAIL
* @return void
*/
void app_handle_conn_param_update_evt(uint8_t conn_id, uint8_t status, uint16_t cause)
{
switch (status)
{
case GAP_CONN_PARAM_UPDATE_STATUS_SUCCESS:
{
uint16_t conn_interval;
uint16_t conn_slave_latency;
uint16_t conn_supervision_timeout;
le_get_conn_param(GAP_PARAM_CONN_INTERVAL, &conn_interval, conn_id);
le_get_conn_param(GAP_PARAM_CONN_LATENCY, &conn_slave_latency, conn_id);
le_get_conn_param(GAP_PARAM_CONN_TIMEOUT, &conn_supervision_timeout, conn_id);
APP_PRINT_INFO3("app_handle_conn_param_update_evt update success:conn_interval 0x%x, conn_slave_latency 0x%x, conn_supervision_timeout 0x%x",
conn_interval, conn_slave_latency, conn_supervision_timeout);
}
break;
case GAP_CONN_PARAM_UPDATE_STATUS_FAIL:
{
APP_PRINT_ERROR1("app_handle_conn_param_update_evt update failed: cause 0x%x", cause);
}
break;
case GAP_CONN_PARAM_UPDATE_STATUS_PENDING:
{
APP_PRINT_INFO0("app_handle_conn_param_update_evt update pending.");
}
break;
default:
break;
}
}
/**
* @brief All the BT GAP MSG are pre-handled in this function.
* @note Then the event handling function shall be called according to the
* subtype of T_IO_MSG
* @param[in] p_gap_msg Pointer to GAP msg
* @return void
*/
void app_handle_gap_msg(T_IO_MSG *p_gap_msg)
{
T_LE_GAP_MSG gap_msg;
uint8_t conn_id;
memcpy(&gap_msg, &p_gap_msg->u.param, sizeof(p_gap_msg->u.param));
APP_PRINT_TRACE1("app_handle_gap_msg: subtype %d", p_gap_msg->subtype);
switch (p_gap_msg->subtype)
{
case GAP_MSG_LE_DEV_STATE_CHANGE:
{
app_handle_dev_state_evt(gap_msg.msg_data.gap_dev_state_change.new_state,
gap_msg.msg_data.gap_dev_state_change.cause);
}
break;
case GAP_MSG_LE_CONN_STATE_CHANGE:
{
app_handle_conn_state_evt(gap_msg.msg_data.gap_conn_state_change.conn_id,
(T_GAP_CONN_STATE)gap_msg.msg_data.gap_conn_state_change.new_state,
gap_msg.msg_data.gap_conn_state_change.disc_cause);
}
break;
case GAP_MSG_LE_CONN_MTU_INFO:
{
app_handle_conn_mtu_info_evt(gap_msg.msg_data.gap_conn_mtu_info.conn_id,
gap_msg.msg_data.gap_conn_mtu_info.mtu_size);
}
break;
case GAP_MSG_LE_CONN_PARAM_UPDATE:
{
app_handle_conn_param_update_evt(gap_msg.msg_data.gap_conn_param_update.conn_id,
gap_msg.msg_data.gap_conn_param_update.status,
gap_msg.msg_data.gap_conn_param_update.cause);
}
break;
case GAP_MSG_LE_AUTHEN_STATE_CHANGE:
{
app_handle_authen_state_evt(gap_msg.msg_data.gap_authen_state.conn_id,
gap_msg.msg_data.gap_authen_state.new_state,
gap_msg.msg_data.gap_authen_state.status);
}
break;
case GAP_MSG_LE_BOND_JUST_WORK:
{
conn_id = gap_msg.msg_data.gap_bond_just_work_conf.conn_id;
le_bond_just_work_confirm(conn_id, GAP_CFM_CAUSE_ACCEPT);
APP_PRINT_INFO0("GAP_MSG_LE_BOND_JUST_WORK");
}
break;
case GAP_MSG_LE_BOND_PASSKEY_DISPLAY:
{
uint32_t display_value = 0;
conn_id = gap_msg.msg_data.gap_bond_passkey_display.conn_id;
le_bond_get_display_key(conn_id, &display_value);
APP_PRINT_INFO1("GAP_MSG_LE_BOND_PASSKEY_DISPLAY:passkey %d", display_value);
le_bond_passkey_display_confirm(conn_id, GAP_CFM_CAUSE_ACCEPT);
}
break;
case GAP_MSG_LE_BOND_USER_CONFIRMATION:
{
uint32_t display_value = 0;
conn_id = gap_msg.msg_data.gap_bond_user_conf.conn_id;
le_bond_get_display_key(conn_id, &display_value);
APP_PRINT_INFO1("GAP_MSG_LE_BOND_USER_CONFIRMATION: passkey %d", display_value);
le_bond_user_confirm(conn_id, GAP_CFM_CAUSE_ACCEPT);
}
break;
case GAP_MSG_LE_BOND_PASSKEY_INPUT:
{
uint32_t passkey = 888888;
conn_id = gap_msg.msg_data.gap_bond_passkey_input.conn_id;
APP_PRINT_INFO1("GAP_MSG_LE_BOND_PASSKEY_INPUT: conn_id %d", conn_id);
le_bond_passkey_input_confirm(conn_id, passkey, GAP_CFM_CAUSE_ACCEPT);
}
break;
case GAP_MSG_LE_BOND_OOB_INPUT:
{
uint8_t oob_data[GAP_OOB_LEN] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
conn_id = gap_msg.msg_data.gap_bond_oob_input.conn_id;
APP_PRINT_INFO0("GAP_MSG_LE_BOND_OOB_INPUT");
le_bond_set_param(GAP_PARAM_BOND_OOB_DATA, GAP_OOB_LEN, oob_data);
le_bond_oob_input_confirm(conn_id, GAP_CFM_CAUSE_ACCEPT);
}
break;
default:
APP_PRINT_ERROR1("app_handle_gap_msg: unknown subtype %d", p_gap_msg->subtype);
break;
}
}
/** @} */ /* End of group PERIPH_GAP_MSG */
/** @defgroup PERIPH_GAP_CALLBACK GAP Callback Event Handler
* @brief Handle GAP callback event
* @{
*/
/**
* @brief Callback for gap le to notify app
* @param[in] cb_type callback msy type @ref GAP_LE_MSG_Types.
* @param[in] p_cb_data point to callback data @ref T_LE_CB_DATA.
* @retval result @ref T_APP_RESULT
*/
T_APP_RESULT app_gap_callback(uint8_t cb_type, void *p_cb_data)
{
T_APP_RESULT result = APP_RESULT_SUCCESS;
T_LE_CB_DATA *p_data = (T_LE_CB_DATA *)p_cb_data;
switch (cb_type)
{
case GAP_MSG_LE_DATA_LEN_CHANGE_INFO:
APP_PRINT_INFO3("GAP_MSG_LE_DATA_LEN_CHANGE_INFO: conn_id %d, tx octets 0x%x, max_tx_time 0x%x",
p_data->p_le_data_len_change_info->conn_id,
p_data->p_le_data_len_change_info->max_tx_octets,
p_data->p_le_data_len_change_info->max_tx_time);
break;
case GAP_MSG_LE_MODIFY_WHITE_LIST:
APP_PRINT_INFO2("GAP_MSG_LE_MODIFY_WHITE_LIST: operation %d, cause 0x%x",
p_data->p_le_modify_white_list_rsp->operation,
p_data->p_le_modify_white_list_rsp->cause);
break;
default:
APP_PRINT_ERROR1("app_gap_callback: unhandled cb_type 0x%x", cb_type);
break;
}
return result;
}
/** @} */ /* End of group PERIPH_GAP_CALLBACK */
/** @defgroup PERIPH_SEVER_CALLBACK Profile Server Callback Event Handler
* @brief Handle profile server callback event
* @{
*/
/**
* @brief All the BT Profile service callback events are handled in this function
* @note Then the event handling function shall be called according to the
* service_id
* @param service_id Profile service ID
* @param p_data Pointer to callback data
* @return T_APP_RESULT, which indicates the function call is successful or not
* @retval APP_RESULT_SUCCESS Function run successfully
* @retval others Function run failed, and return number indicates the reason
*/
T_APP_RESULT app_profile_callback(T_SERVER_ID service_id, void *p_data)
{
T_APP_RESULT app_result = APP_RESULT_SUCCESS;
if (service_id == SERVICE_PROFILE_GENERAL_ID)
{
T_SERVER_APP_CB_DATA *p_param = (T_SERVER_APP_CB_DATA *)p_data;
switch (p_param->eventId)
{
case PROFILE_EVT_SRV_REG_COMPLETE:// srv register result event.
APP_PRINT_INFO1("PROFILE_EVT_SRV_REG_COMPLETE: result %d",
p_param->event_data.service_reg_result);
break;
case PROFILE_EVT_SEND_DATA_COMPLETE:
APP_PRINT_INFO5("PROFILE_EVT_SEND_DATA_COMPLETE: conn_id %d, cause 0x%x, service_id %d, attrib_idx 0x%x, credits %d",
p_param->event_data.send_data_result.conn_id,
p_param->event_data.send_data_result.cause,
p_param->event_data.send_data_result.service_id,
p_param->event_data.send_data_result.attrib_idx,
p_param->event_data.send_data_result.credits);
if (p_param->event_data.send_data_result.cause == GAP_SUCCESS)
{
APP_PRINT_INFO0("PROFILE_EVT_SEND_DATA_COMPLETE success");
}
else
{
APP_PRINT_ERROR0("PROFILE_EVT_SEND_DATA_COMPLETE failed");
}
break;
default:
break;
}
}
else if (service_id == simp_srv_id)
{
TSIMP_CALLBACK_DATA *p_simp_cb_data = (TSIMP_CALLBACK_DATA *)p_data;
switch (p_simp_cb_data->msg_type)
{
case SERVICE_CALLBACK_TYPE_INDIFICATION_NOTIFICATION:
{
switch (p_simp_cb_data->msg_data.notification_indification_index)
{
case SIMP_NOTIFY_INDICATE_V3_ENABLE:
{
APP_PRINT_INFO0("SIMP_NOTIFY_INDICATE_V3_ENABLE");
}
break;
case SIMP_NOTIFY_INDICATE_V3_DISABLE:
{
APP_PRINT_INFO0("SIMP_NOTIFY_INDICATE_V3_DISABLE");
}
break;
case SIMP_NOTIFY_INDICATE_V4_ENABLE:
{
APP_PRINT_INFO0("SIMP_NOTIFY_INDICATE_V4_ENABLE");
}
break;
case SIMP_NOTIFY_INDICATE_V4_DISABLE:
{
APP_PRINT_INFO0("SIMP_NOTIFY_INDICATE_V4_DISABLE");
}
break;
default:
break;
}
}
break;
case SERVICE_CALLBACK_TYPE_READ_CHAR_VALUE:
{
if (p_simp_cb_data->msg_data.read_value_index == SIMP_READ_V1)
{
uint8_t value[2] = {0x01, 0x02};
APP_PRINT_INFO0("SIMP_READ_V1");
simp_ble_service_set_parameter(SIMPLE_BLE_SERVICE_PARAM_V1_READ_CHAR_VAL, 2, &value);
}
}
break;
case SERVICE_CALLBACK_TYPE_WRITE_CHAR_VALUE:
{
switch (p_simp_cb_data->msg_data.write.opcode)
{
case SIMP_WRITE_V2:
{
APP_PRINT_INFO2("SIMP_WRITE_V2: write type %d, len %d", p_simp_cb_data->msg_data.write.write_type,
p_simp_cb_data->msg_data.write.len);
}
break;
default:
break;
}
}
break;
default:
break;
}
}
else if (service_id == bas_srv_id)
{
T_BAS_CALLBACK_DATA *p_bas_cb_data = (T_BAS_CALLBACK_DATA *)p_data;
switch (p_bas_cb_data->msg_type)
{
case SERVICE_CALLBACK_TYPE_INDIFICATION_NOTIFICATION:
{
switch (p_bas_cb_data->msg_data.notification_indification_index)
{
case BAS_NOTIFY_BATTERY_LEVEL_ENABLE:
{
APP_PRINT_INFO0("BAS_NOTIFY_BATTERY_LEVEL_ENABLE");
}
break;
case BAS_NOTIFY_BATTERY_LEVEL_DISABLE:
{
APP_PRINT_INFO0("BAS_NOTIFY_BATTERY_LEVEL_DISABLE");
}
break;
default:
break;
}
}
break;
case SERVICE_CALLBACK_TYPE_READ_CHAR_VALUE:
{
if (p_bas_cb_data->msg_data.read_value_index == BAS_READ_BATTERY_LEVEL)
{
uint8_t battery_level = 90;
APP_PRINT_INFO1("BAS_READ_BATTERY_LEVEL: battery_level %d", battery_level);
bas_set_parameter(BAS_PARAM_BATTERY_LEVEL, 1, &battery_level);
}
}
break;
default:
break;
}
}
return app_result;
}
/** @} */ /* End of group PERIPH_SEVER_CALLBACK */
/** @} */ /* End of group PERIPH_APP */
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