/* * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. */ #include #include #include #include "syscfg/syscfg.h" #include "nimble/ble.h" #include "nimble/hci_common.h" #include "nimble/ble_hci_trans.h" #include "controller/ble_ll.h" #include "controller/ble_ll_hci.h" #include "controller/ble_ll_ctrl.h" #include "ble_ll_conn_priv.h" #if (BLETEST_CONCURRENT_CONN_TEST == 1) extern void bletest_ltk_req_reply(uint16_t handle); #endif /** * Send a data length change event for a connection to the host. * * @param connsm Pointer to connection state machine */ void ble_ll_hci_ev_datalen_chg(struct ble_ll_conn_sm *connsm) { uint8_t *evbuf; if (ble_ll_hci_is_le_event_enabled(BLE_HCI_LE_SUBEV_DATA_LEN_CHG)) { evbuf = ble_hci_trans_buf_alloc(BLE_HCI_TRANS_BUF_EVT_HI); if (evbuf) { evbuf[0] = BLE_HCI_EVCODE_LE_META; evbuf[1] = BLE_HCI_LE_DATA_LEN_CHG_LEN; evbuf[2] = BLE_HCI_LE_SUBEV_DATA_LEN_CHG; put_le16(evbuf + 3, connsm->conn_handle); put_le16(evbuf + 5, connsm->eff_max_tx_octets); put_le16(evbuf + 7, connsm->eff_max_tx_time); put_le16(evbuf + 9, connsm->eff_max_rx_octets); put_le16(evbuf + 11, connsm->eff_max_rx_time); ble_ll_hci_event_send(evbuf); } } } /** * Send a connection parameter request event for a connection to the host. * * @param connsm Pointer to connection state machine */ void ble_ll_hci_ev_rem_conn_parm_req(struct ble_ll_conn_sm *connsm, struct ble_ll_conn_params *cp) { uint8_t *evbuf; if (ble_ll_hci_is_le_event_enabled(BLE_HCI_LE_SUBEV_REM_CONN_PARM_REQ)) { evbuf = ble_hci_trans_buf_alloc(BLE_HCI_TRANS_BUF_EVT_HI); if (evbuf) { evbuf[0] = BLE_HCI_EVCODE_LE_META; evbuf[1] = BLE_HCI_LE_REM_CONN_PARM_REQ_LEN; evbuf[2] = BLE_HCI_LE_SUBEV_REM_CONN_PARM_REQ; put_le16(evbuf + 3, connsm->conn_handle); put_le16(evbuf + 5, cp->interval_min); put_le16(evbuf + 7, cp->interval_max); put_le16(evbuf + 9, cp->latency); put_le16(evbuf + 11, cp->timeout); ble_ll_hci_event_send(evbuf); } } } /** * Send a connection update event. * * @param connsm Pointer to connection state machine * @param status The error code. */ void ble_ll_hci_ev_conn_update(struct ble_ll_conn_sm *connsm, uint8_t status) { uint8_t *evbuf; if (ble_ll_hci_is_le_event_enabled(BLE_HCI_LE_SUBEV_CONN_UPD_COMPLETE)) { evbuf = ble_hci_trans_buf_alloc(BLE_HCI_TRANS_BUF_EVT_HI); if (evbuf) { evbuf[0] = BLE_HCI_EVCODE_LE_META; evbuf[1] = BLE_HCI_LE_CONN_UPD_LEN; evbuf[2] = BLE_HCI_LE_SUBEV_CONN_UPD_COMPLETE; evbuf[3] = status; put_le16(evbuf + 4, connsm->conn_handle); put_le16(evbuf + 6, connsm->conn_itvl); put_le16(evbuf + 8, connsm->slave_latency); put_le16(evbuf + 10, connsm->supervision_tmo); ble_ll_hci_event_send(evbuf); } } } #if (MYNEWT_VAL(BLE_LL_CFG_FEAT_LE_ENCRYPTION) == 1) void ble_ll_hci_ev_encrypt_chg(struct ble_ll_conn_sm *connsm, uint8_t status) { uint8_t evcode; uint8_t *evbuf; uint8_t evlen; if (CONN_F_ENC_CHANGE_SENT(connsm) == 0) { evcode = BLE_HCI_EVCODE_ENCRYPT_CHG; evlen = BLE_HCI_EVENT_ENCRYPT_CHG_LEN; } else { evcode = BLE_HCI_EVCODE_ENC_KEY_REFRESH; evlen = BLE_HCI_EVENT_ENC_KEY_REFRESH_LEN; } if (ble_ll_hci_is_event_enabled(evcode)) { evbuf = ble_hci_trans_buf_alloc(BLE_HCI_TRANS_BUF_EVT_HI); if (evbuf) { evbuf[0] = evcode; evbuf[1] = evlen; evbuf[2] = status; put_le16(evbuf + 3, connsm->conn_handle); if (evcode == BLE_HCI_EVCODE_ENCRYPT_CHG) { if (status == BLE_ERR_SUCCESS) { evbuf[5] = 0x01; } else { evbuf[5] = 0; } } ble_ll_hci_event_send(evbuf); } } CONN_F_ENC_CHANGE_SENT(connsm) = 1; } /** * Send a long term key request event for a connection to the host. * * @param connsm Pointer to connection state machine */ int ble_ll_hci_ev_ltk_req(struct ble_ll_conn_sm *connsm) { int rc; uint8_t *evbuf; if (ble_ll_hci_is_le_event_enabled(BLE_HCI_LE_SUBEV_LT_KEY_REQ)) { evbuf = ble_hci_trans_buf_alloc(BLE_HCI_TRANS_BUF_EVT_HI); if (evbuf) { evbuf[0] = BLE_HCI_EVCODE_LE_META; evbuf[1] = BLE_HCI_LE_LT_KEY_REQ_LEN; evbuf[2] = BLE_HCI_LE_SUBEV_LT_KEY_REQ; put_le16(evbuf + 3, connsm->conn_handle); put_le64(evbuf + 5, connsm->enc_data.host_rand_num); put_le16(evbuf + 13, connsm->enc_data.enc_div); ble_ll_hci_event_send(evbuf); } rc = 0; } else { rc = -1; } #if (BLETEST_CONCURRENT_CONN_TEST == 1) if (rc == 0) { bletest_ltk_req_reply(connsm->conn_handle); } #endif return rc; } #endif void ble_ll_hci_ev_rd_rem_used_feat(struct ble_ll_conn_sm *connsm, uint8_t status) { uint8_t *evbuf; if (ble_ll_hci_is_le_event_enabled(BLE_HCI_LE_SUBEV_RD_REM_USED_FEAT)) { evbuf = ble_hci_trans_buf_alloc(BLE_HCI_TRANS_BUF_EVT_HI); if (evbuf) { evbuf[0] = BLE_HCI_EVCODE_LE_META; evbuf[1] = BLE_HCI_LE_RD_REM_USED_FEAT_LEN; evbuf[2] = BLE_HCI_LE_SUBEV_RD_REM_USED_FEAT; evbuf[3] = status; put_le16(evbuf + 4, connsm->conn_handle); memset(evbuf + 6, 0, BLE_HCI_RD_LOC_SUPP_FEAT_RSPLEN); evbuf[6] = connsm->conn_features; memcpy(evbuf + 7, connsm->remote_features, 7); ble_ll_hci_event_send(evbuf); } } } void ble_ll_hci_ev_rd_rem_ver(struct ble_ll_conn_sm *connsm, uint8_t status) { uint8_t *evbuf; if (ble_ll_hci_is_event_enabled(BLE_HCI_EVCODE_RD_REM_VER_INFO_CMP)) { evbuf = ble_hci_trans_buf_alloc(BLE_HCI_TRANS_BUF_EVT_HI); if (evbuf) { evbuf[0] = BLE_HCI_EVCODE_RD_REM_VER_INFO_CMP; evbuf[1] = BLE_HCI_EVENT_RD_RM_VER_LEN; evbuf[2] = status; put_le16(evbuf + 3, connsm->conn_handle); evbuf[5] = connsm->vers_nr; put_le16(evbuf + 6, connsm->comp_id); put_le16(evbuf + 8, connsm->sub_vers_nr); ble_ll_hci_event_send(evbuf); } } } /** * Send a HW error to the host. * * @param hw_err * * @return int 0: event masked or event sent, -1 otherwise */ int ble_ll_hci_ev_hw_err(uint8_t hw_err) { int rc; uint8_t *evbuf; rc = 0; if (ble_ll_hci_is_event_enabled(BLE_HCI_EVCODE_HW_ERROR)) { evbuf = ble_hci_trans_buf_alloc(BLE_HCI_TRANS_BUF_EVT_HI); if (evbuf) { evbuf[0] = BLE_HCI_EVCODE_HW_ERROR; evbuf[1] = BLE_HCI_EVENT_HW_ERROR_LEN; evbuf[2] = hw_err; ble_ll_hci_event_send(evbuf); } else { rc = -1; } } return rc; } void ble_ll_hci_ev_databuf_overflow(void) { uint8_t *evbuf; if (ble_ll_hci_is_event_enabled(BLE_HCI_EVCODE_DATA_BUF_OVERFLOW)) { evbuf = ble_hci_trans_buf_alloc(BLE_HCI_TRANS_BUF_EVT_HI); if (evbuf) { evbuf[0] = BLE_HCI_EVCODE_DATA_BUF_OVERFLOW; evbuf[1] = BLE_HCI_EVENT_DATABUF_OVERFLOW_LEN; evbuf[2] = BLE_HCI_EVENT_ACL_BUF_OVERFLOW; ble_ll_hci_event_send(evbuf); } } } /** * Send a LE Channel Selection Algorithm event. * * @param connsm Pointer to connection state machine */ #if (MYNEWT_VAL(BLE_LL_CFG_FEAT_LE_CSA2) == 1) void ble_ll_hci_ev_le_csa(struct ble_ll_conn_sm *connsm) { uint8_t *evbuf; if (ble_ll_hci_is_le_event_enabled(BLE_HCI_LE_SUBEV_CHAN_SEL_ALG)) { evbuf = ble_hci_trans_buf_alloc(BLE_HCI_TRANS_BUF_EVT_HI); if (evbuf) { evbuf[0] = BLE_HCI_EVCODE_LE_META; evbuf[1] = BLE_HCI_LE_SUBEV_CHAN_SEL_ALG_LEN; evbuf[2] = BLE_HCI_LE_SUBEV_CHAN_SEL_ALG; put_le16(evbuf + 3, connsm->conn_handle); evbuf[5] = connsm->csmflags.cfbit.csa2_supp ? 0x01 : 0x00; ble_ll_hci_event_send(evbuf); } } } #endif /** * Sends the LE Scan Request Received event * */ #if MYNEWT_VAL(BLE_LL_CFG_FEAT_LL_EXT_ADV) void ble_ll_hci_ev_send_scan_req_recv(uint8_t adv_handle, const uint8_t *peer, uint8_t peer_addr_type) { uint8_t *evbuf; if (ble_ll_hci_is_le_event_enabled(BLE_HCI_LE_SUBEV_SCAN_REQ_RCVD)) { evbuf = ble_hci_trans_buf_alloc(BLE_HCI_TRANS_BUF_EVT_HI); if (evbuf) { evbuf[0] = BLE_HCI_EVCODE_LE_META; evbuf[1] = BLE_HCI_LE_SUBEV_SCAN_REQ_RCVD_LEN; evbuf[2] = BLE_HCI_LE_SUBEV_SCAN_REQ_RCVD; evbuf[3] = adv_handle; evbuf[4] = peer_addr_type; memcpy(&evbuf[5], peer, BLE_DEV_ADDR_LEN); ble_ll_hci_event_send(evbuf); } } } #endif /** * Sends the LE Scan Timeout Event * */ #if MYNEWT_VAL(BLE_LL_CFG_FEAT_LL_EXT_ADV) void ble_ll_hci_ev_send_scan_timeout(void) { uint8_t *evbuf; if (ble_ll_hci_is_le_event_enabled(BLE_HCI_LE_SUBEV_SCAN_TIMEOUT)) { evbuf = ble_hci_trans_buf_alloc(BLE_HCI_TRANS_BUF_EVT_HI); if (evbuf) { evbuf[0] = BLE_HCI_EVCODE_LE_META; evbuf[1] = BLE_HCI_LE_SUBEV_SCAN_TIMEOUT_LEN; evbuf[2] = BLE_HCI_LE_SUBEV_SCAN_TIMEOUT; ble_ll_hci_event_send(evbuf); } } } #endif /** * Sends the LE Advertising Set Terminated event * */ #if MYNEWT_VAL(BLE_LL_CFG_FEAT_LL_EXT_ADV) void ble_ll_hci_ev_send_adv_set_terminated(uint8_t status, uint8_t adv_handle, uint16_t conn_handle, uint8_t events) { uint8_t *evbuf; if (ble_ll_hci_is_le_event_enabled(BLE_HCI_LE_SUBEV_ADV_SET_TERMINATED)) { evbuf = ble_hci_trans_buf_alloc(BLE_HCI_TRANS_BUF_EVT_HI); if (evbuf) { evbuf[0] = BLE_HCI_EVCODE_LE_META; evbuf[1] = BLE_HCI_LE_SUBEV_ADV_SET_TERMINATED_LEN; evbuf[2] = BLE_HCI_LE_SUBEV_ADV_SET_TERMINATED; evbuf[3] = status; evbuf[4] = adv_handle; put_le16(evbuf + 5, conn_handle); evbuf[7] = events; ble_ll_hci_event_send(evbuf); } } } #endif /** * Send a PHY update complete event * * @param connsm Pointer to connection state machine * @param status error status of event */ #if (BLE_LL_BT5_PHY_SUPPORTED == 1) int ble_ll_hci_ev_phy_update(struct ble_ll_conn_sm *connsm, uint8_t status) { int rc; uint8_t *evbuf; rc = 0; if (ble_ll_hci_is_le_event_enabled(BLE_HCI_LE_SUBEV_PHY_UPDATE_COMPLETE)) { evbuf = ble_hci_trans_buf_alloc(BLE_HCI_TRANS_BUF_EVT_HI); if (evbuf) { evbuf[0] = BLE_HCI_EVCODE_LE_META; evbuf[1] = BLE_HCI_LE_PHY_UPD_LEN; evbuf[2] = BLE_HCI_LE_SUBEV_PHY_UPDATE_COMPLETE; evbuf[3] = status; put_le16(evbuf + 4, connsm->conn_handle); evbuf[6] = connsm->phy_data.cur_tx_phy; evbuf[7] = connsm->phy_data.cur_rx_phy; ble_ll_hci_event_send(evbuf); } else { rc = BLE_ERR_MEM_CAPACITY; } } return rc; } #endif void ble_ll_hci_ev_send_vendor_err(char *file, uint32_t line) { uint8_t *evbuf; uint8_t file_len = strlen(file); evbuf = ble_hci_trans_buf_alloc(BLE_HCI_TRANS_BUF_EVT_HI); if (!evbuf) { return; } evbuf[0] = BLE_HCI_EVCODE_VENDOR_DEBUG; evbuf[1] = file_len + sizeof(line) + 1; /* Debug id for future use */ evbuf[2] = 0x00; memcpy(&evbuf[3], file, file_len); put_le32(&evbuf[3] + file_len, line); ble_ll_hci_event_send(evbuf); }