BLE FOTA APP
It doesn't work with the default FOTA bootloader. It use NVIC_SystemReset() to enter a bootloader.
nRF51822/nordic/nrf-sdk/ble/ble_services/ble_sc_ctrlpt.h
- Committer:
- yihui
- Date:
- 2014-10-10
- Revision:
- 1:a607cd9655d7
File content as of revision 1:a607cd9655d7:
/* Copyright (c) 2013 Nordic Semiconductor. All Rights Reserved. * * The information contained herein is property of Nordic Semiconductor ASA. * Terms and conditions of usage are described in detail in NORDIC * SEMICONDUCTOR STANDARD SOFTWARE LICENSE AGREEMENT. * * Licensees are granted free, non-transferable use of the information. NO * WARRANTY of ANY KIND is provided. This heading must NOT be removed from * the file. * */ /** @file * * @defgroup ble_sdk_srv_sc_ctrlpt Speed and Cadence Control Point * @{ * @ingroup ble_sdk_srv * @brief Speed and Cadence Control Point module. * * @details This module implements the Speed and Cadence control point behavior. It is used * by the @ref ble_sdk_srv_csc module and the ble_sdk_srv_rsc module for control point * mechanisms like setting a cumulative value, Start an automatic calibration, * Update the sensor location or request the supported locations. * * @note Attention! * To maintain compliance with Nordic Semiconductor ASA Bluetooth profile * qualification listings, this section of source code must not be modified. */ #ifndef BLE_SC_CTRLPT_H__ #define BLE_SC_CTRLPT_H__ #include <stdint.h> #include <stdbool.h> #include "ble.h" #include "ble_srv_common.h" #include "ble_sensor_location.h" #define BLE_SC_CTRLPT_MAX_LEN 19 /**< maximum lenght for Speed and cadence control point characteristic value. */ #define BLE_SC_CTRLPT_MIN_LEN 1 /**< minimum length for Speed and cadence control point characteristic value. */ // Forward declaration of the ble_sc_ctrlpt_t type. typedef struct ble_sc_ctrlpt_s ble_sc_ctrlpt_t; /**@brief Speed and Cadence Control Point event type. */ typedef enum { BLE_SC_CTRLPT_EVT_UPDATE_LOCATION, /**< rcvd update location opcode (the control point handles the change of location automatically, the event just informs the application in case it needs to adjust its algorithm). */ BLE_SC_CTRLPT_EVT_SET_CUMUL_VALUE, /**< rcvd set cumulative value opcode, it is then up to the application to use the new cumulative value. */ BLE_SC_CTRLPT_EVT_START_CALIBRATION, /**< rcvd start calibration opcode, the application needs, at the end ot the calibration to call ble_sc_ctrlpt_send_rsp. */ } ble_sc_ctrlpt_evt_type_t; /**@brief Speed and Cadence Control point event. */ typedef struct { ble_sc_ctrlpt_evt_type_t evt_type; /**< Type of event. */ union { ble_sensor_location_t update_location; uint32_t cumulative_value; }params; } ble_sc_ctrlpt_evt_t; /** Speed and Cadence Control Point operator code (see RSC service specification)*/ typedef enum { BLE_SCPT_SET_CUMULATIVE_VALUE = 0x01, /**< Operator to set a given cumulative value. */ BLE_SCPT_START_AUTOMATIC_CALIBRATION = 0x02, /**< Operator to start automatic calibration. */ BLE_SCPT_UPDATE_SENSOR_LOCATION = 0x03, /**< Operator to update the sensor location. */ BLE_SCPT_REQUEST_SUPPORTED_SENSOR_LOCATIONS = 0x04, /**< Operator to request the supported sensor locations. */ BLE_SCPT_RESPONSE_CODE = 0x10, /**< Response Code. */ } ble_scpt_operator_t; /** Speed and Cadence Control Point response parameter (see RSC service specification)*/ typedef enum { BLE_SCPT_SUCCESS = 0x01, /**< Sucess Response. */ BLE_SCPT_OP_CODE_NOT_SUPPORTED = 0x02, /**< Error Response received opcode not supported. */ BLE_SCPT_INVALID_PARAMETER = 0x03, /**< Error Response received parameter invalid. */ BLE_SCPT_OPERATION_FAILED = 0x04, /**< Error Response operation failed. */ } ble_scpt_response_t; /** Speed and Cadence Control Point procedure status (indicates is a procedure is in progress or not and which procedure is in progress*/ typedef enum { BLE_SCPT_NO_PROC_IN_PROGRESS = 0x00, /**< No procedure in progress. */ BLE_SCPT_AUTOMATIC_CALIB_IN_PROGRESS = 0x01, /**< Automatic Calibration is in progress. */ BLE_SCPT_INDICATION_PENDING = 0x02, /**< Control Point Indication is pending. */ BLE_SCPT_IND_CONFIRM_PENDING = 0x03, /**< Waiting for the indication confirmation. */ }ble_scpt_procedure_status_t; /**@brief Speed and Cadence Control point event handler type. */ typedef ble_scpt_response_t (*ble_sc_ctrlpt_evt_handler_t) (ble_sc_ctrlpt_t * p_sc_ctrlpt, ble_sc_ctrlpt_evt_t * p_evt); typedef struct{ ble_scpt_operator_t opcode; uint32_t cumulative_value; ble_sensor_location_t location; }ble_sc_ctrlpt_val_t; typedef struct{ ble_scpt_operator_t opcode; ble_scpt_response_t status; ble_sensor_location_t location_list[BLE_NB_MAX_SENSOR_LOCATIONS]; }ble_sc_ctrlpt_rsp_t; #define BLE_SRV_SC_CTRLPT_SENSOR_LOCATIONS_OP_SUPPORTED 0x01 /**< Support for sensor location related operations */ #define BLE_SRV_SC_CTRLPT_CUM_VAL_OP_SUPPORTED 0x02 /**< Support for setting cumulative value related operations */ #define BLE_SRV_SC_CTRLPT_START_CALIB_OP_SUPPORTED 0x04 /**< Support for starting calibration related operations */ /**@brief Speed and Cadence Control Point init structure. This contains all options and data * needed for initialization of the Speed and Cadence Control Point module. */ typedef struct { ble_srv_cccd_security_mode_t sc_ctrlpt_attr_md; /**< Initial security level for cycling speed and cadence control point attribute */ uint8_t supported_functions; /**< supported control point functionnalities see @ref BLE_SRV_SC_CTRLPT_SUPP_FUNC. */ uint16_t service_handle; /**< Handle of the parent service (as provided by the BLE stack). */ ble_sc_ctrlpt_evt_handler_t evt_handler; /**< event handler */ ble_sensor_location_t *list_supported_locations; /**< list of supported sensor locations.*/ uint8_t size_list_supported_locations; /**< number of supported sensor locations in the list.*/ uint16_t sensor_location_handle; /**< handle for the sensor location characteristic (if sensor_location related operation are supported).*/ ble_srv_error_handler_t error_handler; /**< Function to be called in case of an error. */ } ble_cs_ctrlpt_init_t; /**@brief Speed and Cadence Control Point response indication structure. */ typedef struct { ble_scpt_response_t status; /**< control point response status .*/ uint8_t len; /**< control point response length .*/ uint8_t encoded_ctrl_rsp[BLE_SC_CTRLPT_MAX_LEN]; /**< control point encoded response.*/ }ble_sc_ctrlpt_resp_t; /**@brief Speed and Cadence Control Point structure. This contains various status information for * the Speed and Cadence Control Point behavior. */ typedef struct ble_sc_ctrlpt_s { uint8_t supported_functions; /**< supported control point functionnalities see @ref BLE_SRV_SC_CTRLPT_SUPP_FUNC. */ uint16_t service_handle; /**< Handle of the parent service (as provided by the BLE stack). */ ble_gatts_char_handles_t sc_ctrlpt_handles; /**< Handles related to the Speed and Cadence Control Point characteristic. */ uint16_t conn_handle; /**< Handle of the current connection (as provided by the BLE stack, is BLE_CONN_HANDLE_INVALID if not in a connection). */ ble_sensor_location_t list_supported_locations[BLE_NB_MAX_SENSOR_LOCATIONS]; /**< list of supported sensor locations.*/ uint8_t size_list_supported_locations; /**< number of supported sensor locations in the list.*/ ble_sc_ctrlpt_evt_handler_t evt_handler; /**< Handle of the parent service (as provided by the BLE stack). */ uint16_t sensor_location_handle; /**< handle for the sensor location characteristic (if sensor_location related operation are supported).*/ ble_scpt_procedure_status_t procedure_status; /**< status of possible procedure*/ ble_srv_error_handler_t error_handler; /**< Function to be called in case of an error. */ ble_sc_ctrlpt_resp_t response; /**< pending response data.*/ } ble_sc_ctrlpt_t; #define SCPT_OPCODE_POS 0 /**< Request opcode position. */ #define SCPT_PARAMETER_POS 1 /**< Request parameter position. */ #define SCPT_RESPONSE_REQUEST_OPCODE_POS 1 /**< Response position of requested opcode. */ #define SCPT_RESPONSE_CODE_POS 2 /**< Response position of response code. */ #define SCPT_RESPONSE_PARAMETER 3 /**< Response position of response parameter. */ #define SCPT_MIN_RESPONSE_SIZE 3 /**< Minimum size for control point response. */ #define SCPT_MAX_RESPONSE_SIZE (SCPT_MIN_RESPONSE_SIZE + NB_MAX_SENSOR_LOCATIONS) /**< Maximum size for control point response. */ /**@brief Function for Initializing the Speed and Cadence Control Point. * * @details Function for Initializing the Speed and Cadence Control Point. * @param[in] p_sc_ctrlpt Speed and Cadence Control Point structure. * @param[in] p_cscs_init Information needed to initialize the control point behavior. * * @return NRF_SUCCESS on successful initialization of service, otherwise an error code. */ uint32_t ble_sc_ctrlpt_init(ble_sc_ctrlpt_t * p_sc_ctrlpt, const ble_cs_ctrlpt_init_t * p_sc_ctrlpt_init); /**@brief Function for sending a control point response. * * @details Function for sending a control point response when the control point received was * BLE_SCPT_START_AUTOMATIC_CALIBRATION. To be called after the calibration procedure is finished. * * @param[in] p_sc_ctrlpt Speed and Cadence Control Point structure. * @param[in] response_status status to include in the control point response. */ uint32_t ble_sc_ctrlpt_rsp_send(ble_sc_ctrlpt_t * p_sc_ctrlpt, ble_scpt_response_t response_status); /**@brief Speed and Cadence Control Point BLE stack event handler. * * @details Handles all events from the BLE stack of interest to the Speed and Cadence Control Point. * * @param[in] p_sc_ctrlpt Speed and Cadence Control Point structure. * @param[in] p_ble_evt Event received from the BLE stack. */ void ble_sc_ctrlpt_on_ble_evt(ble_sc_ctrlpt_t * p_sc_ctrlpt, ble_evt_t * p_ble_evt); #endif // BLE_SC_CTRLPT_H__ /** @} */