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nRF51822
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dfu_app_handler.c
00001 /* Copyright (c) 2014 Nordic Semiconductor. All Rights Reserved. 00002 * 00003 * The information contained herein is property of Nordic Semiconductor ASA. 00004 * Terms and conditions of usage are described in detail in NORDIC 00005 * SEMICONDUCTOR STANDARD SOFTWARE LICENSE AGREEMENT. 00006 * 00007 * Licensees are granted free, non-transferable use of the information. NO 00008 * WARRANTY of ANY KIND is provided. This heading must NOT be removed from 00009 * the file. 00010 * 00011 */ 00012 00013 #include <string.h> 00014 #include "dfu_app_handler.h " 00015 #include "bootloader_util.h " 00016 #include "nrf.h" 00017 #include "nrf_sdm.h" 00018 #include "ble_gatts.h" 00019 #include "app_error.h " 00020 #include "dfu_ble_svc.h " 00021 #include "device_manager.h " 00022 00023 #define IRQ_ENABLED 0x01 /**< Field identifying if an interrupt is enabled. */ 00024 #define MAX_NUMBER_INTERRUPTS 32 /**< Maximum number of interrupts available. */ 00025 00026 static void dfu_app_reset_prepare(void); /**< Forward declare of default reset handler. */ 00027 static dfu_app_reset_prepare_t m_reset_prepare = dfu_app_reset_prepare; /**< Callback function to application to prepare for system reset. Allows application to cleanup of service and memory prior to reset. */ 00028 static dfu_ble_peer_data_t m_peer_data; /**< Peer data to be used for data exchange when reseting into DFU mode. */ 00029 static dm_handle_t m_dm_handle; /**< Device Manager handle with instance id's of current BLE connection. */ 00030 static bool m_dm_handle_valid = false; /**< Variable indicating if the Device Manager handle is valid. */ 00031 00032 00033 /**@brief Default reset prepare handler if application hasn't registered a handler. 00034 */ 00035 static void dfu_app_reset_prepare(void) 00036 { 00037 // Reset prepare should be handled by application. 00038 // This function can be extended to include default handling if application does not implement 00039 // own handler. 00040 } 00041 00042 00043 /**@brief Function for disabling all interrupts before jumping from bootloader to application. 00044 */ 00045 static void interrupts_disable(void) 00046 { 00047 uint32_t interrupt_setting_mask; 00048 uint32_t irq = 0; // We start from first interrupt, i.e. interrupt 0. 00049 00050 // Fetch the current interrupt settings. 00051 interrupt_setting_mask = NVIC->ISER[0]; 00052 00053 for (; irq < MAX_NUMBER_INTERRUPTS; irq++) 00054 { 00055 if (interrupt_setting_mask & (IRQ_ENABLED << irq)) 00056 { 00057 // The interrupt was enabled, and hence disable it. 00058 NVIC_DisableIRQ((IRQn_Type )irq); 00059 } 00060 } 00061 } 00062 00063 00064 /**@brief Function for providing peer information to DFU for re-establishing bonded connection in 00065 * DFU mode. 00066 */ 00067 static void dfu_app_set_peer_data(void) 00068 { 00069 uint32_t err_code; 00070 dm_sec_keyset_t key_set; 00071 00072 /** [DFU bond sharing] */ 00073 err_code = dm_distributed_keys_get(&m_dm_handle, &key_set); 00074 APP_ERROR_CHECK(err_code); 00075 00076 m_peer_data.addr = key_set.keys_central.p_id_key->id_addr_info; 00077 m_peer_data.enc_info = *key_set.keys_central.enc_key.p_enc_info; 00078 m_peer_data.irk = key_set.keys_central.p_id_key->id_info; 00079 00080 err_code = dfu_ble_svc_set_peer_data(&m_peer_data); 00081 APP_ERROR_CHECK(err_code); 00082 /** [DFU bond sharing] */ 00083 } 00084 00085 00086 /**@brief Function for preparing the reset, disabling SoftDevice and jump to the bootloader. 00087 */ 00088 void bootloader_start(void) 00089 { 00090 m_reset_prepare(); 00091 00092 uint32_t err_code = sd_power_gpregret_set(BOOTLOADER_DFU_START); 00093 APP_ERROR_CHECK(err_code); 00094 00095 err_code = sd_softdevice_disable(); 00096 APP_ERROR_CHECK(err_code); 00097 00098 err_code = sd_softdevice_vector_table_base_set(NRF_UICR->BOOTLOADERADDR); 00099 APP_ERROR_CHECK(err_code); 00100 00101 // Commenting out the following block because it brings in unwanted dependencies from bonding. 00102 // TODO: discuss this with Nordic. 00103 // if (m_dm_handle_valid) 00104 // { 00105 // dfu_app_set_peer_data(); 00106 // } 00107 00108 NVIC_ClearPendingIRQ(SWI2_IRQn ); 00109 interrupts_disable(); 00110 bootloader_util_app_start(NRF_UICR->BOOTLOADERADDR); 00111 } 00112 00113 00114 void dfu_app_on_dfu_evt(ble_dfu_t * p_dfu, ble_dfu_evt_t * p_evt) 00115 { 00116 switch (p_evt->ble_dfu_evt_type) 00117 { 00118 case BLE_DFU_START: 00119 // Starting the bootloader - will cause reset. 00120 bootloader_start(); 00121 break; 00122 00123 case BLE_DFU_VALIDATE: 00124 case BLE_DFU_ACTIVATE_N_RESET: 00125 case BLE_DFU_SYS_RESET: 00126 case BLE_DFU_RECEIVE_INIT_DATA: 00127 case BLE_DFU_RECEIVE_APP_DATA: 00128 case BLE_DFU_PACKET_WRITE: 00129 case BLE_DFU_PKT_RCPT_NOTIF_ENABLED: 00130 case BLE_DFU_PKT_RCPT_NOTIF_DISABLED: 00131 case BLE_DFU_BYTES_RECEIVED_SEND: 00132 default: 00133 { 00134 // Unsupported event received from DFU Service. 00135 // Send back BLE_DFU_RESP_VAL_NOT_SUPPORTED message to peer. 00136 uint32_t err_code = ble_dfu_response_send(p_dfu, 00137 BLE_DFU_START_PROCEDURE, 00138 BLE_DFU_RESP_VAL_NOT_SUPPORTED); 00139 APP_ERROR_CHECK(err_code); 00140 } 00141 break; 00142 } 00143 } 00144 00145 00146 void dfu_app_reset_prepare_set(dfu_app_reset_prepare_t reset_prepare_func) 00147 { 00148 m_reset_prepare = reset_prepare_func; 00149 } 00150 00151 00152 void dfu_app_set_dm_handle(dm_handle_t const * p_dm_handle) 00153 { 00154 m_dm_handle_valid = false; 00155 00156 if (p_dm_handle != NULL) 00157 { 00158 m_dm_handle = *p_dm_handle; 00159 m_dm_handle_valid = true; 00160 } 00161 } 00162
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