/** **************************************************************************************** * @addtogroup LANSTASK * @{ **************************************************************************************** */ /* * INCLUDE FILES **************************************************************************************** */ #include "rwip_config.h" #if (BLE_LN_SENSOR) #include "lan_common.h" #include "gapc.h" #include "gattc.h" #include "gattc_task.h" #include "attm.h" #include "lans.h" #include "lans_task.h" #include "prf_utils.h" #include "ke_mem.h" #include "co_utils.h" #include "co_math.h" /* * LOCAL FUNCTIONS DEFINITIONS **************************************************************************************** */ /** **************************************************************************************** * @brief Handles reception of the @ref LANS_ENABLE_REQ message. * @param[in] msgid Id of the message received * @param[in] param Pointer to the parameters of the message. * @param[in] dest_id ID of the receiving task instance * @param[in] src_id ID of the sending task instance. * @return If the message was consumed or not. **************************************************************************************** */ __STATIC int lans_enable_req_handler(ke_msg_id_t const msgid, struct lans_enable_req *param, ke_task_id_t const dest_id, ke_task_id_t const src_id) { // Get the address of the environment struct lans_env_tag *lans_env = PRF_ENV_GET(LANS, lans); // Status uint8_t status = PRF_ERR_REQ_DISALLOWED; if(ke_state_get(dest_id) == LANS_IDLE) { // Bonded data was not used before if (!LANS_IS_PRESENT(lans_env->env[param->conidx].prfl_ntf_ind_cfg, LANS_PRF_CFG_PERFORMED_OK)) { status = GAP_ERR_NO_ERROR; lans_env->env[param->conidx].prfl_ntf_ind_cfg = param->prfl_ntf_ind_cfg; } // Enable Bonded Data LANS_ENABLE_NTF_IND(param->conidx, LANS_PRF_CFG_PERFORMED_OK); } // send completed information to APP task that contains error status struct lans_enable_rsp *cmp_evt = KE_MSG_ALLOC(LANS_ENABLE_RSP, src_id, dest_id, lans_enable_rsp); cmp_evt->status = status; cmp_evt->conidx = param->conidx; ke_msg_send(cmp_evt); return (KE_MSG_CONSUMED); } /** **************************************************************************************** * @brief Handles reception of the read request from peer device * * @param[in] msgid Id of the message received (probably unused). * @param[in] param Pointer to the parameters of the message. * @param[in] dest_id ID of the receiving task instance (probably unused). * @param[in] src_id ID of the sending task instance. * @return If the message was consumed or not. **************************************************************************************** */ __STATIC int gattc_read_req_ind_handler(ke_msg_id_t const msgid, struct gattc_read_req_ind const *param, ke_task_id_t const dest_id, ke_task_id_t const src_id) { if(ke_state_get(dest_id) == LANS_IDLE) { // Pointer to the response message struct gattc_read_cfm* cfm = NULL; // Get the address of the environment struct lans_env_tag *lans_env = PRF_ENV_GET(LANS, lans); uint8_t conidx = KE_IDX_GET(src_id); uint8_t att_idx = LANS_IDX(param->handle); uint8_t status = ATT_ERR_NO_ERROR; switch(att_idx) { case LNS_IDX_LN_FEAT_VAL: { // Allocate structure cfm = KE_MSG_ALLOC_DYN(GATTC_READ_CFM, src_id, dest_id, gattc_read_cfm, sizeof(uint32_t)); cfm->length = sizeof(uint32_t); // Fill data co_write32p(cfm->value, lans_env->features); } break; case LNS_IDX_POS_Q_VAL: { // Check if Position Quality Char. has been added in the database if (LANS_IS_FEATURE_SUPPORTED(lans_env->prfl_cfg, LANS_POS_Q_MASK)) { // Allocate structure cfm = KE_MSG_ALLOC_DYN(GATTC_READ_CFM, src_id, dest_id, gattc_read_cfm, sizeof(struct lanp_posq)); // Fill data cfm->length = lans_pack_posq(cfm->value); } else { status = PRF_ERR_FEATURE_NOT_SUPPORTED; } } break; case LNS_IDX_LOC_SPEED_NTF_CFG: { // allocate structure cfm = KE_MSG_ALLOC_DYN(GATTC_READ_CFM, src_id, dest_id, gattc_read_cfm, sizeof(uint16_t)); cfm->length = sizeof(uint16_t); // Fill data co_write16p(cfm->value, (lans_env->env[conidx].prfl_ntf_ind_cfg & LANS_PRF_CFG_FLAG_LOC_SPEED_NTF) ? PRF_CLI_START_NTF : PRF_CLI_STOP_NTFIND); } break; case LNS_IDX_NAVIGATION_NTF_CFG: { // Check if Navigation Char. has been added in the database if (LANS_IS_FEATURE_SUPPORTED(lans_env->prfl_cfg, LANS_NAVI_MASK)) { // allocate structure cfm = KE_MSG_ALLOC_DYN(GATTC_READ_CFM, src_id, dest_id, gattc_read_cfm, sizeof(uint16_t)); cfm->length = sizeof(uint16_t); co_write16p(cfm->value, (lans_env->env[conidx].prfl_ntf_ind_cfg & LANS_PRF_CFG_FLAG_NAVIGATION_NTF) ? PRF_CLI_START_NTF : PRF_CLI_STOP_NTFIND); } else { status = PRF_ERR_FEATURE_NOT_SUPPORTED; } } break; case LNS_IDX_LN_CTNL_PT_IND_CFG: { // Check if LN control point has been added in the database if (LANS_IS_FEATURE_SUPPORTED(lans_env->prfl_cfg, LANS_LN_CTNL_PT_MASK)) { // allocate structure cfm = KE_MSG_ALLOC_DYN(GATTC_READ_CFM, src_id, dest_id, gattc_read_cfm, sizeof(uint16_t)); cfm->length = sizeof(uint16_t); // Fill data co_write16p(cfm->value, (lans_env->env[conidx].prfl_ntf_ind_cfg & LANS_PRF_CFG_FLAG_LN_CTNL_PT_IND) ? PRF_CLI_START_IND : PRF_CLI_STOP_NTFIND); } else { status = PRF_ERR_FEATURE_NOT_SUPPORTED; } } break; default: { status = ATT_ERR_REQUEST_NOT_SUPPORTED; } break; } if (status != ATT_ERR_NO_ERROR) { cfm = KE_MSG_ALLOC(GATTC_READ_CFM, src_id, dest_id, gattc_read_cfm); cfm->length = 0; } cfm->handle = param->handle; cfm->status = status; // Send value to peer device. ke_msg_send(cfm); } return (KE_MSG_CONSUMED); } /** **************************************************************************************** * @brief Handles reception of the attribute info request message. * * @param[in] msgid Id of the message received (probably unused). * @param[in] param Pointer to the parameters of the message. * @param[in] dest_id ID of the receiving task instance (probably unused). * @param[in] src_id ID of the sending task instance. * @return If the message was consumed or not. **************************************************************************************** */ __STATIC int gattc_att_info_req_ind_handler(ke_msg_id_t const msgid, struct gattc_att_info_req_ind *param, ke_task_id_t const dest_id, ke_task_id_t const src_id) { if(ke_state_get(dest_id) == LANS_IDLE) { // Get the address of the environment struct lans_env_tag *lans_env = PRF_ENV_GET(LANS, lans); uint8_t att_idx = LANS_IDX(param->handle); struct gattc_att_info_cfm * cfm; //Send write response cfm = KE_MSG_ALLOC(GATTC_ATT_INFO_CFM, src_id, dest_id, gattc_att_info_cfm); cfm->handle = param->handle; // check if it's a client configuration char if((att_idx == LNS_IDX_LOC_SPEED_NTF_CFG) || (att_idx == LNS_IDX_NAVIGATION_NTF_CFG) || (att_idx == LNS_IDX_LN_CTNL_PT_IND_CFG)) { // CCC attribute length = 2 cfm->length = 2; cfm->status = GAP_ERR_NO_ERROR; } else if (att_idx == LNS_IDX_LN_CTNL_PT_VAL) { // force length to zero to reject any write starting from something != 0 cfm->length = 0; cfm->status = GAP_ERR_NO_ERROR; } // not expected request else { cfm->length = 0; cfm->status = ATT_ERR_WRITE_NOT_PERMITTED; } ke_msg_send(cfm); } return (KE_MSG_CONSUMED); } /** **************************************************************************************** * @brief Handles reception of the @ref LANS_NTF_LN_MEAS_CMD message. * @param[in] msgid Id of the message received. * @param[in] param Pointer to the parameters of the message. * @param[in] dest_id ID of the receiving task instance. * @param[in] src_id ID of the sending task instance. * @return If the message was consumed or not. **************************************************************************************** */ __STATIC int lans_ntf_loc_speed_req_handler(ke_msg_id_t const msgid, struct lans_ntf_loc_speed_req *param, ke_task_id_t const dest_id, ke_task_id_t const src_id) { // Message status uint8_t msg_status = KE_MSG_NO_FREE; // State shall be Connected or Busy if (ke_state_get(dest_id) == LANS_IDLE) { // Get the address of the environment struct lans_env_tag *lans_env = PRF_ENV_GET(LANS, lans); // Configure the environment lans_env->operation = LANS_NTF_LOC_SPEED_OP_CODE; // allocate operation data lans_env->op_data = (struct lans_op*) ke_malloc(sizeof(struct lans_op), KE_MEM_KE_MSG); lans_env->op_data->cmd = ke_param2msg(param); lans_env->op_data->cursor = 0; lans_env->op_data->ntf_pending = NULL; // Go to busy state ke_state_set(dest_id, LANS_BUSY); // start operation execution lans_exe_operation(); } else { // Save it for later msg_status = KE_MSG_SAVED; } return (int)msg_status; } /** **************************************************************************************** * @brief Handles reception of the @ref LANS_UPD_POS_Q_REQ message. * @param[in] msgid Id of the message received. * @param[in] param Pointer to the parameters of the message. * @param[in] dest_id ID of the receiving task instance. * @param[in] src_id ID of the sending task instance. * @return If the message was consumed or not. **************************************************************************************** */ __STATIC int lans_upd_pos_q_req_handler(ke_msg_id_t const msgid, struct lans_upd_pos_q_req *param, ke_task_id_t const dest_id, ke_task_id_t const src_id) { // Get the address of the environment struct lans_env_tag *lans_env = PRF_ENV_GET(LANS, lans); // Allocate response message struct lans_upd_pos_q_rsp *rsp = KE_MSG_ALLOC(LANS_UPD_POS_Q_RSP, src_id, dest_id, lans_upd_pos_q_rsp); rsp->status = PRF_ERR_FEATURE_NOT_SUPPORTED; // Check if Position Quality Char. has been added in the database if (LANS_IS_FEATURE_SUPPORTED(lans_env->prfl_cfg, LANS_POS_Q_MASK)) { if (lans_env->posq != NULL) { // Update position quality lans_upd_posq(param->parameters); // Set status value rsp->status = GAP_ERR_NO_ERROR; } else { // Set status value rsp->status = PRF_APP_ERROR; } } // Send response to the application ke_msg_send(rsp); return (KE_MSG_CONSUMED); } /** **************************************************************************************** * @brief Handles reception of the @ref LANS_NTF_NAVIGATION_REQ message. * @param[in] msgid Id of the message received. * @param[in] param Pointer to the parameters of the message. * @param[in] dest_id ID of the receiving task instance. * @param[in] src_id ID of the sending task instance. * @return If the message was consumed or not. **************************************************************************************** */ __STATIC int lans_ntf_navigation_req_handler(ke_msg_id_t const msgid, struct lans_ntf_navigation_req *param, ke_task_id_t const dest_id, ke_task_id_t const src_id) { // Message status uint8_t msg_status = KE_MSG_NO_FREE; // State shall be Connected or Busy if (ke_state_get(dest_id) == LANS_IDLE) { // Get the address of the environment struct lans_env_tag *lans_env = PRF_ENV_GET(LANS, lans); // Configure the environment lans_env->operation = LANS_NTF_NAVIGATION_OP_CODE; // allocate operation data lans_env->op_data = (struct lans_op*) ke_malloc(sizeof(struct lans_op), KE_MEM_KE_MSG); lans_env->op_data->cmd = ke_param2msg(param); lans_env->op_data->cursor = 0; lans_env->op_data->ntf_pending = NULL; // Go to busy state ke_state_set(dest_id, LANS_BUSY); // start operation execution lans_exe_operation(); } else { // Save it for later msg_status = KE_MSG_SAVED; } return (int)msg_status; } /** **************************************************************************************** * @brief Handles reception of the @ref LANS_LN_CTNL_PT_CFM message. * @param[in] msgid Id of the message received. * @param[in] param Pointer to the parameters of the message. * @param[in] dest_id ID of the receiving task instance. * @param[in] src_id ID of the sending task instance. * @return If the message was consumed or not. **************************************************************************************** */ __STATIC int lans_ln_ctnl_pt_cfm_handler(ke_msg_id_t const msgid, struct lans_ln_ctnl_pt_cfm *param, ke_task_id_t const dest_id, ke_task_id_t const src_id) { // Get the address of the environment struct lans_env_tag *lans_env = PRF_ENV_GET(LANS, lans); uint8_t status = GAP_ERR_NO_ERROR; if (ke_state_get(dest_id) == LANS_BUSY) { do { // Check the current operation if (lans_env->operation < LANS_SET_CUMUL_VALUE_OP_CODE) { // The confirmation has been sent without request indication, ignore break; } // The LN Control Point Characteristic must be supported if we are here if (!LANS_IS_FEATURE_SUPPORTED(lans_env->prfl_cfg, LANS_LN_CTNL_PT_MASK)) { status = PRF_ERR_REQ_DISALLOWED; break; } // Check if sending of indications has been enabled if (!LANS_IS_NTF_IND_ENABLED(param->conidx, LANS_PRF_CFG_FLAG_LN_CTNL_PT_IND)) { // CCC improperly configured status = PRF_CCCD_IMPR_CONFIGURED; break; } // Allocate the GATT notification message struct gattc_send_evt_cmd *ctl_pt_rsp = KE_MSG_ALLOC_DYN(GATTC_SEND_EVT_CMD, KE_BUILD_ID(TASK_GATTC, param->conidx), dest_id, gattc_send_evt_cmd, LANP_LAN_LN_CNTL_PT_RSP_MAX_LEN); // Fill in the parameter structure ctl_pt_rsp->operation = GATTC_INDICATE; ctl_pt_rsp->handle = LANS_HANDLE(LNS_IDX_LN_CTNL_PT_VAL); // Pack Control Point confirmation ctl_pt_rsp->length = lans_pack_ln_ctnl_point_cfm (param->conidx, param, ctl_pt_rsp->value); // Send the event ke_msg_send(ctl_pt_rsp); } while (0); if (status != GAP_ERR_NO_ERROR) { // Inform the application that a procedure has been completed lans_send_cmp_evt(param->conidx, prf_src_task_get(&lans_env->prf_env, param->conidx), prf_dst_task_get(&lans_env->prf_env, param->conidx), lans_env->operation, status); } } return (KE_MSG_CONSUMED); } /** **************************************************************************************** * @brief Handles reception of the @ref GATTC_WRITE_REQ_IND message. * @param[in] msgid Id of the message received. * @param[in] param Pointer to the parameters of the message. * @param[in] dest_id ID of the receiving task instance. * @param[in] src_id ID of the sending task instance. * @return If the message was consumed or not. **************************************************************************************** */ __STATIC int gattc_write_req_ind_handler(ke_msg_id_t const msgid, struct gattc_write_req_ind const *param, ke_task_id_t const dest_id, ke_task_id_t const src_id) { // Get the address of the environment struct lans_env_tag *lans_env = PRF_ENV_GET(LANS, lans); uint8_t conidx = KE_IDX_GET(src_id); // Message status uint8_t msg_status = KE_MSG_CONSUMED; // Status uint8_t status = GAP_ERR_NO_ERROR; // Control Point Status uint8_t ctl_pt_status = LANP_LN_CTNL_PT_RESP_SUCCESS; if (lans_env != NULL) { // Location and speed Characteristic, Client Characteristic Configuration Descriptor if (param->handle == (LANS_HANDLE(LNS_IDX_LOC_SPEED_NTF_CFG))) { // Update value status = lans_update_characteristic_config(conidx, LANS_PRF_CFG_FLAG_LOC_SPEED_NTF, param); } // Navigation Characteristic, Client Characteristic Configuration Descriptor else if (param->handle == (LANS_HANDLE(LNS_IDX_NAVIGATION_NTF_CFG))) { if (LANS_IS_FEATURE_SUPPORTED(lans_env->prfl_cfg, LANS_NAVI_MASK)) { // Update value status = lans_update_characteristic_config(conidx, LANS_PRF_CFG_FLAG_NAVIGATION_NTF, param); } else { status = ATT_ERR_ATTRIBUTE_NOT_FOUND; } } // LN Control Point Characteristic else { if (LANS_IS_FEATURE_SUPPORTED(lans_env->prfl_cfg, LANS_LN_CTNL_PT_MASK)) { // LN Control Point, Client Characteristic Configuration Descriptor if (param->handle == (LANS_HANDLE(LNS_IDX_LN_CTNL_PT_IND_CFG))) { // Update value status = lans_update_characteristic_config(conidx, LANS_PRF_CFG_FLAG_LN_CTNL_PT_IND, param); } // LN Control Point Characteristic else if (param->handle == (LANS_HANDLE(LNS_IDX_LN_CTNL_PT_VAL))) { do { // Check if sending of indications has been enabled if (!LANS_IS_NTF_IND_ENABLED(conidx, LANS_PRF_CFG_FLAG_LN_CTNL_PT_IND)) { // CCC improperly configured status = PRF_CCCD_IMPR_CONFIGURED; break; } if (lans_env->operation >= LANS_SET_CUMUL_VALUE_OP_CODE) { // A procedure is already in progress status = LAN_ERROR_PROC_IN_PROGRESS; break; } if (lans_env->operation == LANS_NTF_LOC_SPEED_OP_CODE) { // Keep the message until the end of the current procedure msg_status = KE_MSG_SAVED; break; } // Unpack Control Point parameters ctl_pt_status = lans_unpack_ln_ctnl_point_ind (conidx, param); } while (0); } else { ASSERT_ERR(0); } } else { status = ATT_ERR_ATTRIBUTE_NOT_FOUND; } } } //Send write response struct gattc_write_cfm *cfm = KE_MSG_ALLOC( GATTC_WRITE_CFM, src_id, dest_id, gattc_write_cfm); cfm->handle = param->handle; cfm->status = status; ke_msg_send(cfm); // Check if control point failed if ((param->handle == (LANS_HANDLE(LNS_IDX_LN_CTNL_PT_VAL))) && (ctl_pt_status != LANP_LN_CTNL_PT_RESP_SUCCESS)) { // Send response to peer lans_send_rsp_ind(conidx, param->value[0], ctl_pt_status); } return (int)msg_status; } /** **************************************************************************************** * @brief Handles @ref GATT_NOTIFY_CMP_EVT message meaning that a notification or an indication * has been correctly sent to peer device (but not confirmed by peer device). * * @param[in] msgid Id of the message received. * @param[in] param Pointer to the parameters of the message. * @param[in] dest_id ID of the receiving task instance * @param[in] src_id ID of the sending task instance. * @return If the message was consumed or not. **************************************************************************************** */ __STATIC int gattc_cmp_evt_handler(ke_msg_id_t const msgid, struct gattc_cmp_evt const *param, ke_task_id_t const dest_id, ke_task_id_t const src_id) { uint8_t conidx = KE_IDX_GET(src_id); // Get the address of the environment struct lans_env_tag *lans_env = PRF_ENV_GET(LANS, lans); // Check if a connection exists if (ke_state_get(dest_id) == LANS_BUSY) { switch (param->operation) { case (GATTC_NOTIFY): { lans_exe_operation(); // else ignore the message } break; case (GATTC_INDICATE): { ASSERT_ERR(lans_env->operation >= LANS_SET_CUMUL_VALUE_OP_CODE); // Inform the application that a procedure has been completed lans_send_cmp_evt(conidx, prf_src_task_get(&(lans_env->prf_env), conidx), prf_dst_task_get(&(lans_env->prf_env), conidx), lans_env->operation, param->status); // else ignore the message } break; default: { ASSERT_ERR(0); } break; } } return (KE_MSG_CONSUMED); } /* * GLOBAL VARIABLE DEFINITIONS **************************************************************************************** */ /// Specifies the default message handlers KE_MSG_HANDLER_TAB(lans) { {LANS_ENABLE_REQ, (ke_msg_func_t)lans_enable_req_handler}, {GATTC_READ_REQ_IND, (ke_msg_func_t)gattc_read_req_ind_handler}, {GATTC_ATT_INFO_REQ_IND, (ke_msg_func_t) gattc_att_info_req_ind_handler}, {LANS_NTF_LOC_SPEED_REQ, (ke_msg_func_t)lans_ntf_loc_speed_req_handler}, {LANS_UPD_POS_Q_REQ, (ke_msg_func_t)lans_upd_pos_q_req_handler}, {LANS_NTF_NAVIGATION_REQ, (ke_msg_func_t)lans_ntf_navigation_req_handler}, {LANS_LN_CTNL_PT_CFM, (ke_msg_func_t)lans_ln_ctnl_pt_cfm_handler}, {GATTC_WRITE_REQ_IND, (ke_msg_func_t)gattc_write_req_ind_handler}, {GATTC_CMP_EVT, (ke_msg_func_t)gattc_cmp_evt_handler}, }; void lans_task_init(struct ke_task_desc *task_desc) { // Get the address of the environment struct lans_env_tag *lans_env = PRF_ENV_GET(LANS, lans); task_desc->msg_handler_tab = lans_msg_handler_tab; task_desc->msg_cnt = ARRAY_LEN(lans_msg_handler_tab); task_desc->state = lans_env->state; task_desc->idx_max = LANS_IDX_MAX; } #endif //(BLE_LN_SENSOR) /// @} LANSTASK