/** **************************************************************************************** * @addtogroup ANPCTASK * @{ **************************************************************************************** */ /* * INCLUDE FILES **************************************************************************************** */ #include "rwip_config.h" #if (BLE_AN_CLIENT) #include "anp_common.h" #include "anpc.h" #include "anpc_task.h" #include "gap.h" #include "gattm_task.h" #include "co_utils.h" #include "ke_mem.h" /* * STRUCTURES **************************************************************************************** */ /// State machine used to retrieve Alert Notification service characteristics /// information const struct prf_char_def anpc_ans_char[ANPC_CHAR_MAX] = { /// Supported New Alert Category [ANPC_CHAR_SUP_NEW_ALERT_CAT] = {ATT_CHAR_SUP_NEW_ALERT_CAT, ATT_MANDATORY, ATT_CHAR_PROP_RD}, /// New Alert [ANPC_CHAR_NEW_ALERT] = {ATT_CHAR_NEW_ALERT, ATT_MANDATORY, ATT_CHAR_PROP_NTF}, /// Supported Unread Alert Category [ANPC_CHAR_SUP_UNREAD_ALERT_CAT] = {ATT_CHAR_SUP_UNREAD_ALERT_CAT, ATT_MANDATORY, ATT_CHAR_PROP_RD}, /// Unread Alert Status [ANPC_CHAR_UNREAD_ALERT_STATUS] = {ATT_CHAR_UNREAD_ALERT_STATUS, ATT_MANDATORY, ATT_CHAR_PROP_NTF}, /// Alert Notification Control Point [ANPC_CHAR_ALERT_NTF_CTNL_PT] = {ATT_CHAR_ALERT_NTF_CTNL_PT, ATT_MANDATORY, ATT_CHAR_PROP_WR}, }; /// State machine used to retrieve Phone Alert Status service characteristic /// descriptor information const struct prf_char_desc_def anpc_ans_char_desc[ANPC_DESC_MAX] = { /// New Alert Char. - Client Characteristic Configuration [ANPC_DESC_NEW_ALERT_CL_CFG] = {ATT_DESC_CLIENT_CHAR_CFG, ATT_MANDATORY, ANPC_CHAR_NEW_ALERT}, /// Unread Alert Status Char. - Client Characteristic Configuration [ANPC_DESC_UNREAD_ALERT_STATUS_CL_CFG] = {ATT_DESC_CLIENT_CHAR_CFG, ATT_MANDATORY, ANPC_CHAR_UNREAD_ALERT_STATUS}, }; /* * LOCAL FUNCTIONS DEFINITIONS **************************************************************************************** */ /** **************************************************************************************** * @brief Handles reception of the @ref ANPC_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 anpc_enable_req_handler(ke_msg_id_t const msgid, struct anpc_enable_req *param, ke_task_id_t const dest_id, ke_task_id_t const src_id) { // Status uint8_t status = GAP_ERR_NO_ERROR; // Phone Alert Status Profile Client Role Task Environment struct anpc_env_tag *anpc_env = PRF_ENV_GET(ANPC, anpc); // Get connection index uint8_t conidx = KE_IDX_GET(dest_id); uint8_t state = ke_state_get(dest_id); if ((state == ANPC_IDLE) && (anpc_env->env[conidx] == NULL)) { // allocate environment variable for task instance anpc_env->env[conidx] = (struct anpc_cnx_env *)ke_malloc( sizeof(struct anpc_cnx_env), KE_MEM_ATT_DB); memset(anpc_env->env[conidx], 0, sizeof(struct anpc_cnx_env)); anpc_env->env[conidx]->last_char_code = ANPC_ENABLE_OP_CODE; // Start discovering if (param->con_type == PRF_CON_DISCOVERY) { prf_disc_svc_send(&(anpc_env->prf_env), conidx, ATT_SVC_ALERT_NTF); // Go to DISCOVERING state ke_state_set(dest_id, ANPC_DISCOVERING); // Configure the environment for a discovery procedure anpc_env->env[conidx]->last_uuid_req = ATT_SVC_ALERT_NTF; } // Bond information is provided else { // Keep the provided database content memcpy(&anpc_env->env[conidx]->ans, ¶m->ans, sizeof(struct anpc_ans_content)); // send APP confirmation that can start normal connection to TH anpc_enable_rsp_send(anpc_env, conidx, GAP_ERR_NO_ERROR); } } else if (state != ANPC_FREE) { status = PRF_ERR_REQ_DISALLOWED; } // send an error if request fails if (status != GAP_ERR_NO_ERROR) { anpc_enable_rsp_send(anpc_env, conidx, status); } return (KE_MSG_CONSUMED); } /** **************************************************************************************** * @brief Handles reception of the @ref ANPC_READ_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 anpc_read_cmd_handler(ke_msg_id_t const msgid, struct anpc_read_cmd *param, ke_task_id_t const dest_id, ke_task_id_t const src_id) { // Message status uint8_t msg_status = KE_MSG_CONSUMED; // Get connection index uint8_t conidx = KE_IDX_GET(dest_id); // Get the address of the environment struct anpc_env_tag *anpc_env = PRF_ENV_GET(ANPC, anpc); if (anpc_env->env[conidx] != NULL) { // Attribute Handle uint16_t handle = ATT_INVALID_SEARCH_HANDLE; // Status uint8_t status = GAP_ERR_NO_ERROR; // Check the provided connection handle do { // Check the current state if (ke_state_get(dest_id) == ANPC_BUSY) { // Keep the request for later, status is GAP_ERR_NO_ERROR msg_status = KE_MSG_SAVED; break; } switch (param->read_code) { // Read Supported New Alert case (ANPC_RD_SUP_NEW_ALERT_CAT): { handle = anpc_env->env[conidx] ->ans.chars[ANPC_CHAR_SUP_NEW_ALERT_CAT] .val_hdl; } break; // Read Supported Unread Alert case (ANPC_RD_SUP_UNREAD_ALERT_CAT): { handle = anpc_env->env[conidx] ->ans.chars[ANPC_CHAR_SUP_UNREAD_ALERT_CAT] .val_hdl; } break; // Read New Alert Characteristic Client Char. Cfg. Descriptor Value case (ANPC_RD_WR_NEW_ALERT_CFG): { handle = anpc_env->env[conidx] ->ans.descs[ANPC_DESC_NEW_ALERT_CL_CFG] .desc_hdl; } break; // Read Unread Alert Characteristic Client Char. Cfg. Descriptor Value case (ANPC_RD_WR_UNREAD_ALERT_STATUS_CFG): { handle = anpc_env->env[conidx] ->ans.descs[ANPC_DESC_UNREAD_ALERT_STATUS_CL_CFG] .desc_hdl; } break; default: { status = PRF_ERR_INVALID_PARAM; } break; } // Check if handle is viable if ((handle != ATT_INVALID_SEARCH_HANDLE) && (status == GAP_ERR_NO_ERROR)) { // Force the operation value param->operation = ANPC_READ_OP_CODE; // Store the command structure anpc_env->env[conidx]->operation = param; msg_status = KE_MSG_NO_FREE; // Send the read request prf_read_char_send(&(anpc_env->prf_env), conidx, anpc_env->env[conidx]->ans.svc.shdl, anpc_env->env[conidx]->ans.svc.ehdl, handle); // Go to the Busy state ke_state_set(dest_id, ANPC_BUSY); } else { status = PRF_ERR_INEXISTENT_HDL; } } while (0); if (status != GAP_ERR_NO_ERROR) { anpc_send_cmp_evt(anpc_env, conidx, ANPC_READ_OP_CODE, status); } } else { // No connection exists anpc_send_cmp_evt(anpc_env, conidx, ANPC_READ_OP_CODE, PRF_ERR_REQ_DISALLOWED); } return (int)msg_status; } /** **************************************************************************************** * @brief Handles reception of the @ref ANPC_WRITE_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 anpc_write_cmd_handler(ke_msg_id_t const msgid, struct anpc_write_cmd *param, ke_task_id_t const dest_id, ke_task_id_t const src_id) { // Status uint8_t status = GAP_ERR_NO_ERROR; // Message status uint8_t msg_status = KE_MSG_CONSUMED; // Get the address of the environment struct anpc_env_tag *anpc_env = PRF_ENV_GET(ANPC, anpc); // Get connection index uint8_t conidx = KE_IDX_GET(dest_id); if (anpc_env->env[conidx] != NULL) { do { // Check the current state if (ke_state_get(dest_id) != ANPC_IDLE) { msg_status = KE_MSG_SAVED; break; } // Attribute handle uint16_t handle = ATT_INVALID_SEARCH_HANDLE; // Length uint8_t length; switch (param->write_code) { // Write Alert Notification Control Point Characteristic Value case (ANPC_WR_ALERT_NTF_CTNL_PT): { // Check the Category ID and the Command ID if ((param->value.ctnl_pt.cmd_id < CMD_ID_NB) && ((param->value.ctnl_pt.cat_id < CAT_ID_NB) || (param->value.ctnl_pt.cat_id == CAT_ID_ALL_SUPPORTED_CAT))) { handle = anpc_env->env[conidx] ->ans.chars[ANPC_CHAR_ALERT_NTF_CTNL_PT] .val_hdl; length = sizeof(struct anp_ctnl_pt); } else { status = PRF_ERR_INVALID_PARAM; } } break; // Write New Alert Characteristic Client Char. Cfg. Descriptor Value case (ANPC_RD_WR_NEW_ALERT_CFG): { if (param->value.new_alert_ntf_cfg <= PRF_CLI_START_NTF) { handle = anpc_env->env[conidx] ->ans.descs[ANPC_DESC_NEW_ALERT_CL_CFG] .desc_hdl; length = sizeof(uint16_t); } else { status = PRF_ERR_INVALID_PARAM; } } break; // Write Unread Alert Status Characteristic Client Char. Cfg. Descriptor // Value case (ANPC_RD_WR_UNREAD_ALERT_STATUS_CFG): { if (param->value.unread_alert_status_ntf_cfg <= PRF_CLI_START_NTF) { handle = anpc_env->env[conidx] ->ans.descs[ANPC_DESC_UNREAD_ALERT_STATUS_CL_CFG] .desc_hdl; length = sizeof(uint16_t); } else { status = PRF_ERR_INVALID_PARAM; } } break; default: { status = PRF_ERR_INVALID_PARAM; } break; } if (status == GAP_ERR_NO_ERROR) { // Check if handle is viable if (handle != ATT_INVALID_SEARCH_HANDLE) { // Send the write request prf_gatt_write(&(anpc_env->prf_env), conidx, handle, (uint8_t *)¶m->value, length, GATTC_WRITE); // Force the operation value param->operation = ANPC_WRITE_OP_CODE; // Store the command structure anpc_env->env[conidx]->operation = param; msg_status = KE_MSG_NO_FREE; // Go to the Busy state ke_state_set(dest_id, ANPC_BUSY); } else { status = PRF_ERR_INEXISTENT_HDL; } } } while (0); } else { status = PRF_ERR_REQ_DISALLOWED; } if (status != GAP_ERR_NO_ERROR) { anpc_send_cmp_evt(anpc_env, conidx, ANPC_WRITE_OP_CODE, status); } return (int)msg_status; } /** **************************************************************************************** * @brief Handles reception of the @ref GATTC_CMP_EVT 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_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) { // Get the address of the environment struct anpc_env_tag *anpc_env = PRF_ENV_GET(ANPC, anpc); uint8_t conidx = KE_IDX_GET(dest_id); // Status uint8_t status; if (anpc_env->env[conidx] != NULL) { uint8_t state = ke_state_get(dest_id); if (state == ANPC_DISCOVERING) { status = param->status; if ((status == ATT_ERR_ATTRIBUTE_NOT_FOUND) || (status == ATT_ERR_NO_ERROR)) { // Discovery // check characteristic validity if (anpc_env->env[conidx]->nb_svc == 1) { status = prf_check_svc_char_validity( ANPC_CHAR_MAX, anpc_env->env[conidx]->ans.chars, anpc_ans_char); } // too much services else if (anpc_env->env[conidx]->nb_svc > 1) { status = PRF_ERR_MULTIPLE_SVC; } // no services found else { status = PRF_ERR_STOP_DISC_CHAR_MISSING; } // check descriptor validity if (status == GAP_ERR_NO_ERROR) { status = prf_check_svc_char_desc_validity( ANPC_DESC_MAX, anpc_env->env[conidx]->ans.descs, anpc_ans_char_desc, anpc_env->env[conidx]->ans.chars); } } anpc_enable_rsp_send(anpc_env, conidx, status); } else if (state == ANPC_BUSY) { switch (param->operation) { case GATTC_READ: { switch ( ((struct anpc_cmd *)anpc_env->env[conidx]->operation)->operation) { // Read Supported New Alert Category Characteristic value case (ANPC_ENABLE_RD_NEW_ALERT_OP_CODE): { if (param->status == GAP_ERR_NO_ERROR) { // Force the operation value ((struct anpc_cmd *)anpc_env->env[conidx]->operation)->operation = ANPC_ENABLE_RD_UNREAD_ALERT_OP_CODE; // Check Supported Unread Alert Category prf_read_char_send(&(anpc_env->prf_env), conidx, anpc_env->env[conidx]->ans.svc.shdl, anpc_env->env[conidx]->ans.svc.ehdl, anpc_env->env[conidx] ->ans.chars[ANPC_CHAR_SUP_UNREAD_ALERT_CAT] .val_hdl); } else { anpc_send_cmp_evt(anpc_env, conidx, ANPC_ENABLE_OP_CODE, param->status); } } break; case (ANPC_ENABLE_RD_UNREAD_ALERT_OP_CODE): { if (param->status == GAP_ERR_NO_ERROR) { // If peer device was unknown, stop the procedure if (((struct anpc_enable_req *)anpc_env->env[conidx]->operation) ->con_type == PRF_CON_DISCOVERY) { anpc_send_cmp_evt(anpc_env, conidx, ANPC_ENABLE_OP_CODE, GAP_ERR_NO_ERROR); } // If peer device was already known (bonded), start Recovery from // Connection Loss procedure else { // Reset the environment anpc_env->env[conidx]->last_uuid_req = CAT_ID_SPL_ALERT; if (anpc_found_next_alert_cat( anpc_env, conidx, ((struct anpc_enable_req *)anpc_env->env[conidx] ->operation) ->new_alert_enable)) { // Force the operation value ((struct anpc_cmd *)anpc_env->env[conidx]->operation) ->operation = ANPC_ENABLE_WR_NEW_ALERT_OP_CODE; // Enable sending of notifications for the found category ID anpc_write_alert_ntf_ctnl_pt( anpc_env, conidx, CMD_ID_EN_NEW_IN_ALERT_NTF, anpc_env->env[conidx]->last_uuid_req - 1); } else { // Reset the environment anpc_env->env[conidx]->last_uuid_req = CAT_ID_SPL_ALERT; if (anpc_found_next_alert_cat( anpc_env, conidx, ((struct anpc_enable_req *)anpc_env->env[conidx] ->operation) ->unread_alert_enable)) { // Force the operation value ((struct anpc_cmd *)anpc_env->env[conidx]->operation) ->operation = ANPC_ENABLE_WR_UNREAD_ALERT_OP_CODE; // Enable sending of notifications for the found category ID anpc_write_alert_ntf_ctnl_pt( anpc_env, conidx, CMD_ID_EN_UNREAD_CAT_STATUS_NTF, anpc_env->env[conidx]->last_uuid_req - 1); } else { anpc_send_cmp_evt(anpc_env, conidx, ANPC_ENABLE_OP_CODE, GAP_ERR_NO_ERROR); } } } } else { anpc_send_cmp_evt(anpc_env, conidx, ANPC_ENABLE_OP_CODE, param->status); } } break; case (ANPC_READ_OP_CODE): { // Inform the requester that the read procedure is over anpc_send_cmp_evt(anpc_env, conidx, ANPC_READ_OP_CODE, param->status); } break; default: { ASSERT_ERR(0); } } } break; case GATTC_WRITE: case GATTC_WRITE_NO_RESPONSE: { // Retrieve the operation currently performed uint8_t operation = ((struct anpc_cmd *)anpc_env->env[conidx]->operation)->operation; switch (operation) { case (ANPC_WRITE_OP_CODE): { uint8_t wr_code = ((struct anpc_write_cmd *)anpc_env->env[conidx]->operation) ->write_code; if ((wr_code == ANPC_RD_WR_NEW_ALERT_CFG) || (wr_code == ANPC_RD_WR_UNREAD_ALERT_STATUS_CFG) || (wr_code == ANPC_WR_ALERT_NTF_CTNL_PT)) { anpc_send_cmp_evt(anpc_env, conidx, ANPC_WRITE_OP_CODE, param->status); } else { ASSERT_ERR(0); } } break; case (ANPC_ENABLE_WR_NEW_ALERT_OP_CODE): { // Look for the next category to enable if (anpc_found_next_alert_cat( anpc_env, conidx, ((struct anpc_enable_req *)anpc_env->env[conidx]->operation) ->new_alert_enable)) { // Enable sending of notifications for the found category ID anpc_write_alert_ntf_ctnl_pt( anpc_env, conidx, CMD_ID_EN_NEW_IN_ALERT_NTF, anpc_env->env[conidx]->last_uuid_req - 1); } else { // Force the operation value ((struct anpc_cmd *)anpc_env->env[conidx]->operation)->operation = ANPC_ENABLE_WR_NTF_NEW_ALERT_OP_CODE; // Send a "Notify New Alert Immediately" command with the Category // ID field set to 0xFF anpc_write_alert_ntf_ctnl_pt(anpc_env, conidx, CMD_ID_NTF_NEW_IN_ALERT_IMM, CAT_ID_ALL_SUPPORTED_CAT); } } break; case (ANPC_ENABLE_WR_NTF_NEW_ALERT_OP_CODE): { // Reset the environment anpc_env->env[conidx]->last_uuid_req = CAT_ID_SPL_ALERT; if (anpc_found_next_alert_cat( anpc_env, conidx, ((struct anpc_enable_req *)anpc_env->env[conidx]->operation) ->unread_alert_enable)) { // Force the operation value ((struct anpc_cmd *)anpc_env->env[conidx]->operation)->operation = ANPC_ENABLE_WR_UNREAD_ALERT_OP_CODE; // Enable sending of notifications for the found category ID anpc_write_alert_ntf_ctnl_pt( anpc_env, conidx, CMD_ID_EN_UNREAD_CAT_STATUS_NTF, anpc_env->env[conidx]->last_uuid_req - 1); } else { anpc_send_cmp_evt(anpc_env, conidx, ANPC_ENABLE_OP_CODE, GAP_ERR_NO_ERROR); } } break; case (ANPC_ENABLE_WR_UNREAD_ALERT_OP_CODE): { // Look for the next category to enable if (anpc_found_next_alert_cat( anpc_env, conidx, ((struct anpc_enable_req *)anpc_env->env[conidx]->operation) ->unread_alert_enable)) { // Enable sending of notifications for the found category ID anpc_write_alert_ntf_ctnl_pt( anpc_env, conidx, CMD_ID_EN_UNREAD_CAT_STATUS_NTF, anpc_env->env[conidx]->last_uuid_req - 1); } else { // Force the operation value ((struct anpc_cmd *)anpc_env->env[conidx]->operation)->operation = ANPC_ENABLE_WR_NTF_UNREAD_ALERT_OP_CODE; // Send a "Notify New Alert Immediately" command with the Category // ID field set to 0xFF anpc_write_alert_ntf_ctnl_pt(anpc_env, conidx, CMD_ID_NTF_UNREAD_CAT_STATUS_IMM, CAT_ID_ALL_SUPPORTED_CAT); } } break; case (ANPC_ENABLE_WR_NTF_UNREAD_ALERT_OP_CODE): { // The discovery procedure is over anpc_send_cmp_evt(anpc_env, conidx, ANPC_ENABLE_OP_CODE, param->status); } break; default: { ASSERT_ERR(0); } break; } } break; case GATTC_REGISTER: case GATTC_UNREGISTER: { // Do nothing } break; default: { ASSERT_ERR(0); } break; } } } // else ignore the message return (KE_MSG_CONSUMED); } /** **************************************************************************************** * @brief Handles reception of the @ref GATTC_SDP_SVC_IND_HANDLER message. * The handler stores the found service details for service discovery. * @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_sdp_svc_ind_handler(ke_msg_id_t const msgid, struct gattc_sdp_svc_ind const *ind, ke_task_id_t const dest_id, ke_task_id_t const src_id) { uint8_t state = ke_state_get(dest_id); if (state == ANPC_DISCOVERING) { uint8_t conidx = KE_IDX_GET(dest_id); struct anpc_env_tag *anpc_env = PRF_ENV_GET(ANPC, anpc); ASSERT_INFO(anpc_env != NULL, dest_id, src_id); ASSERT_INFO(anpc_env->env[conidx] != NULL, dest_id, src_id); if (anpc_env->env[conidx]->nb_svc == 0) { // Retrieve ANS characteristics and descriptors prf_extract_svc_info(ind, ANPC_CHAR_MAX, &anpc_ans_char[0], &anpc_env->env[conidx]->ans.chars[0], ANPC_DESC_MAX, &anpc_ans_char_desc[0], &anpc_env->env[conidx]->ans.descs[0]); // Even if we get multiple responses we only store 1 range anpc_env->env[conidx]->ans.svc.shdl = ind->start_hdl; anpc_env->env[conidx]->ans.svc.ehdl = ind->end_hdl; } anpc_env->env[conidx]->nb_svc++; } return (KE_MSG_CONSUMED); } /** **************************************************************************************** * @brief Handles reception of the @ref GATTC_READ_IND message. * Generic event received after every simple read command sent to peer server. * @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_ind_handler(ke_msg_id_t const msgid, struct gattc_read_ind const *param, ke_task_id_t const dest_id, ke_task_id_t const src_id) { // Get the address of the environment struct anpc_env_tag *anpc_env = PRF_ENV_GET(ANPC, anpc); uint8_t conidx = KE_IDX_GET(dest_id); if (anpc_env->env[conidx] != NULL) { ASSERT_ERR(ke_state_get(dest_id) == ANPC_BUSY); // Prepare the indication to send to the application struct anpc_value_ind *ind = KE_MSG_ALLOC( ANPC_VALUE_IND, prf_dst_task_get(&(anpc_env->prf_env), conidx), dest_id, anpc_value_ind); switch (((struct anpc_cmd *)anpc_env->env[conidx]->operation)->operation) { // Read Supported New Alert Category Characteristic value case (ANPC_ENABLE_RD_NEW_ALERT_OP_CODE): { ind->att_code = ANPC_RD_SUP_NEW_ALERT_CAT; ind->value.supp_cat.cat_id_mask_0 = param->value[0]; // If cat_id_mask_1 not present, shall be considered as 0 ind->value.supp_cat.cat_id_mask_1 = (param->length > 1) ? param->value[1] : 0x00; } break; case (ANPC_ENABLE_RD_UNREAD_ALERT_OP_CODE): { ind->att_code = ANPC_RD_SUP_UNREAD_ALERT_CAT; ind->value.supp_cat.cat_id_mask_0 = param->value[0]; // If cat_id_mask_1 not present, shall be considered as 0 ind->value.supp_cat.cat_id_mask_1 = (param->length > 1) ? param->value[1] : 0; } break; case (ANPC_READ_OP_CODE): { ind->att_code = ((struct anpc_read_cmd *)anpc_env->env[conidx]->operation)->read_code; ind->value.ntf_cfg = co_read16(¶m->value[0]); } break; default: { ASSERT_ERR(0); } break; } // Send the indication ke_msg_send(ind); } // else ignore the message return (KE_MSG_CONSUMED); } /** **************************************************************************************** * @brief Handles reception of the @ref GATTC_EVENT_IND 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_event_ind_handler(ke_msg_id_t const msgid, struct gattc_event_ind const *param, ke_task_id_t const dest_id, ke_task_id_t const src_id) { // Get the address of the environment struct anpc_env_tag *anpc_env = PRF_ENV_GET(ANPC, anpc); uint8_t conidx = KE_IDX_GET(dest_id); if (anpc_env->env[conidx] != NULL) { // Check the category ID if (param->value[0] < CAT_ID_NB) { // New Alert Characteristic Value if (param->handle == anpc_env->env[conidx]->ans.chars[ANPC_CHAR_NEW_ALERT].val_hdl) { // Text String information Length uint8_t length = param->length - 2; if (length > ANS_NEW_ALERT_STRING_INFO_MAX_LEN) { length = ANS_NEW_ALERT_STRING_INFO_MAX_LEN; } // Send an indication to the application struct anpc_value_ind *new_alert_ind = KE_MSG_ALLOC_DYN( ANPC_VALUE_IND, prf_dst_task_get(&anpc_env->prf_env, conidx), prf_src_task_get(&anpc_env->prf_env, conidx), anpc_value_ind, length); new_alert_ind->att_code = ANPC_NTF_NEW_ALERT; // Fulfill the characteristic value new_alert_ind->value.new_alert.cat_id = param->value[0]; new_alert_ind->value.new_alert.nb_new_alert = param->value[1]; new_alert_ind->value.new_alert.info_str_len = length; memcpy(&new_alert_ind->value.new_alert.str_info[0], ¶m->value[2], length); // Send the message ke_msg_send(new_alert_ind); } // Unread Alert Status Characteristic Value else if (param->handle == anpc_env->env[conidx] ->ans.chars[ANPC_CHAR_UNREAD_ALERT_STATUS] .val_hdl) { // Send an indication to the application struct anpc_value_ind *unrd_alert_ind = KE_MSG_ALLOC( ANPC_VALUE_IND, prf_dst_task_get(&anpc_env->prf_env, conidx), prf_src_task_get(&anpc_env->prf_env, conidx), anpc_value_ind); unrd_alert_ind->att_code = ANPC_NTF_UNREAD_ALERT; // Fulfill the characteristic value unrd_alert_ind->value.unread_alert.cat_id = param->value[0]; unrd_alert_ind->value.unread_alert.nb_unread_alert = param->value[1]; // Send the message ke_msg_send(unrd_alert_ind); } else { ASSERT_ERR(0); } } // else ignore the message } // else ignore the message return (KE_MSG_CONSUMED); } /* * GLOBAL VARIABLE DEFINITIONS **************************************************************************************** */ /// Specifies the default message handlers KE_MSG_HANDLER_TAB(anpc){ {ANPC_ENABLE_REQ, (ke_msg_func_t)anpc_enable_req_handler}, {ANPC_READ_CMD, (ke_msg_func_t)anpc_read_cmd_handler}, {ANPC_WRITE_CMD, (ke_msg_func_t)anpc_write_cmd_handler}, {GATTC_SDP_SVC_IND, (ke_msg_func_t)gattc_sdp_svc_ind_handler}, {GATTC_READ_IND, (ke_msg_func_t)gattc_read_ind_handler}, {GATTC_EVENT_IND, (ke_msg_func_t)gattc_event_ind_handler}, {GATTC_CMP_EVT, (ke_msg_func_t)gattc_cmp_evt_handler}, }; void anpc_task_init(struct ke_task_desc *task_desc) { // Get the address of the environment struct anpc_env_tag *anpc_env = PRF_ENV_GET(ANPC, anpc); task_desc->msg_handler_tab = anpc_msg_handler_tab; task_desc->msg_cnt = ARRAY_LEN(anpc_msg_handler_tab); task_desc->state = anpc_env->state; task_desc->idx_max = ANPC_IDX_MAX; } #endif //(BLE_AN_CLIENT) /// @} ANPCTASK