/** **************************************************************************************** * @addtogroup ANPC * @{ **************************************************************************************** */ /* * INCLUDE FILES **************************************************************************************** */ #include "rwip_config.h" #if (BLE_AN_CLIENT) #include "anp_common.h" #include "anpc.h" #include "anpc_task.h" #include "ke_mem.h" /* * LOCAL FUNCTIONS DEFINITIONS **************************************************************************************** */ /** **************************************************************************************** * @brief Initialization of the ANPC module. * This function performs all the initializations of the Profile module. * - Creation of database (if it's a service) * - Allocation of profile required memory * - Initialization of task descriptor to register application * - Task State array * - Number of tasks * - Default task handler * * @param[out] env Collector or Service allocated environment data. * @param[in|out] start_hdl Service start handle (0 - dynamically allocated), only applies for services. * @param[in] app_task Application task number. * @param[in] sec_lvl Security level (AUTH, EKS and MI field of @see enum attm_value_perm_mask) * @param[in] param Configuration parameters of profile collector or service (32 bits aligned) * * @return status code to know if profile initialization succeed or not. **************************************************************************************** */ static uint8_t anpc_init(struct prf_task_env* env, uint16_t* start_hdl, uint16_t app_task, uint8_t sec_lvl, void* params) { uint8_t idx; //-------------------- allocate memory required for the profile --------------------- struct anpc_env_tag* anpc_env = (struct anpc_env_tag* ) ke_malloc(sizeof(struct anpc_env_tag), KE_MEM_ATT_DB); // allocate ANPC required environment variable env->env = (prf_env_t*) anpc_env; anpc_env->prf_env.app_task = app_task | (PERM_GET(sec_lvl, SVC_MI) ? PERM(PRF_MI, ENABLE) : PERM(PRF_MI, DISABLE)); anpc_env->prf_env.prf_task = env->task | PERM(PRF_MI, ENABLE); // initialize environment variable env->id = TASK_ID_ANPC; anpc_task_init(&(env->desc)); for(idx = 0; idx < ANPC_IDX_MAX ; idx++) { anpc_env->env[idx] = NULL; // service is ready, go into an Idle state ke_state_set(KE_BUILD_ID(env->task, idx), ANPC_FREE); } return GAP_ERR_NO_ERROR; } /** **************************************************************************************** * @brief Clean-up connection dedicated environment parameters * This function performs cleanup of ongoing operations * @param[in|out] env Collector or Service allocated environment data. * @param[in] conidx Connection index * @param[in] reason Detach reason **************************************************************************************** */ static void anpc_cleanup(struct prf_task_env* env, uint8_t conidx, uint8_t reason) { struct anpc_env_tag* anpc_env = (struct anpc_env_tag*) env->env; // clean-up environment variable allocated for task instance if(anpc_env->env[conidx] != NULL) { ke_free(anpc_env->env[conidx]); anpc_env->env[conidx] = NULL; } /* Put ANP Client in Free state */ ke_state_set(KE_BUILD_ID(env->task, conidx), ANPC_FREE); } /** **************************************************************************************** * @brief Destruction of the ANPC module - due to a reset for instance. * This function clean-up allocated memory (attribute database is destroyed by another * procedure) * * @param[in|out] env Collector or Service allocated environment data. **************************************************************************************** */ static void anpc_destroy(struct prf_task_env* env) { uint8_t idx; struct anpc_env_tag* anpc_env = (struct anpc_env_tag*) env->env; // cleanup environment variable for each task instances for(idx = 0; idx < ANPC_IDX_MAX ; idx++) { anpc_cleanup(env, idx, 0); } // free profile environment variables env->env = NULL; ke_free(anpc_env); } /** **************************************************************************************** * @brief Handles Connection creation * * @param[in|out] env Collector or Service allocated environment data. * @param[in] conidx Connection index **************************************************************************************** */ static void anpc_create(struct prf_task_env* env, uint8_t conidx) { /* Put ANP Client in Idle state */ ke_state_set(KE_BUILD_ID(env->task, conidx), ANPC_IDLE); } /// ANPC Task interface required by profile manager const struct prf_task_cbs anpc_itf = { anpc_init, anpc_destroy, anpc_create, anpc_cleanup, }; /* * GLOBAL FUNCTIONS DEFINITIONS **************************************************************************************** */ const struct prf_task_cbs* anpc_prf_itf_get(void) { return &anpc_itf; } void anpc_enable_rsp_send(struct anpc_env_tag *anpc_env, uint8_t conidx, uint8_t status) { // Send to APP the details of the discovered attributes on ANPS struct anpc_enable_rsp * rsp = KE_MSG_ALLOC( ANPC_ENABLE_RSP, prf_dst_task_get(&(anpc_env->prf_env), conidx), prf_src_task_get(&(anpc_env->prf_env), conidx), anpc_enable_rsp); rsp->status = status; if (status == GAP_ERR_NO_ERROR) { rsp->ans = anpc_env->env[conidx]->ans; // Register ANPC task in gatt for indication/notifications prf_register_atthdl2gatt(&(anpc_env->prf_env), conidx, &(anpc_env->env[conidx]->ans.svc)); // Go to connected state ke_state_set(prf_src_task_get(&(anpc_env->prf_env), conidx), ANPC_IDLE); } ke_msg_send(rsp); } bool anpc_found_next_alert_cat(struct anpc_env_tag *idx_env, uint8_t conidx, struct anp_cat_id_bit_mask cat_id) { // Next Category Found ? bool found = false; if (idx_env->env[conidx]->last_uuid_req < CAT_ID_HIGH_PRTY_ALERT) { // Look in the first part of the categories while ((idx_env->env[conidx]->last_uuid_req < CAT_ID_HIGH_PRTY_ALERT) && (!found)) { if (((cat_id.cat_id_mask_0 >> idx_env->env[conidx]->last_uuid_req) & 1) == 1) { found = true; } idx_env->env[conidx]->last_uuid_req++; } } if (idx_env->env[conidx]->last_uuid_req >= CAT_ID_HIGH_PRTY_ALERT) { // Look in the first part of the categories while ((idx_env->env[conidx]->last_uuid_req < CAT_ID_NB) && (!found)) { if (((cat_id.cat_id_mask_1 >> (idx_env->env[conidx]->last_uuid_req - CAT_ID_HIGH_PRTY_ALERT)) & 1) == 1) { found = true; } idx_env->env[conidx]->last_uuid_req++; } } return found; } void anpc_write_alert_ntf_ctnl_pt(struct anpc_env_tag *idx_env, uint8_t conidx, uint8_t cmd_id, uint8_t cat_id) { struct anp_ctnl_pt ctnl_pt = {cmd_id, cat_id}; // Send the write request prf_gatt_write(&(idx_env->prf_env), conidx, idx_env->env[conidx]->ans.chars[ANPC_CHAR_ALERT_NTF_CTNL_PT].val_hdl, (uint8_t *)&ctnl_pt, sizeof(struct anp_ctnl_pt), GATTC_WRITE); } void anpc_send_cmp_evt(struct anpc_env_tag *anpc_env, uint8_t conidx, uint8_t operation, uint8_t status) { if (anpc_env->env[conidx] != NULL) { // Free the stored operation if needed if (anpc_env->env[conidx]->operation != NULL) { ke_msg_free(ke_param2msg(anpc_env->env[conidx]->operation)); anpc_env->env[conidx]->operation = NULL; } } // Go back to the CONNECTED state if the state is busy if (ke_state_get(prf_src_task_get(&(anpc_env->prf_env), conidx)) == ANPC_BUSY) { ke_state_set(prf_src_task_get(&anpc_env->prf_env, conidx), ANPC_IDLE); } // Send the message struct anpc_cmp_evt *evt = KE_MSG_ALLOC(ANPC_CMP_EVT, prf_dst_task_get(&(anpc_env->prf_env), conidx), prf_src_task_get(&(anpc_env->prf_env), conidx), anpc_cmp_evt); evt->operation = operation; evt->status = status; ke_msg_send(evt); } #endif //(BLE_AN_CLIENT) /// @} ANPC