/* * 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 #include "tuya_ble_mbuf.h" #include "tuya_ble_mempool.h" #include "hci_common.h" #include "tuya_ble_hci.h" #include "ble_gap.h" #include "ble_monitor.h" #include "ble_hs_priv.h" ble_static_assert(sizeof(struct hci_data_hdr) == BLE_HCI_DATA_HDR_SZ, "struct hci_data_hdr must be 4 bytes"); typedef int ble_hs_hci_evt_fn(uint8_t event_code, const void *data, unsigned int len); static ble_hs_hci_evt_fn ble_hs_hci_evt_hw_error; static ble_hs_hci_evt_fn ble_hs_hci_evt_num_completed_pkts; #if TY_HS_BLE_CONNECT static ble_hs_hci_evt_fn ble_hs_hci_evt_disconn_complete; static ble_hs_hci_evt_fn ble_hs_hci_evt_encrypt_change; static ble_hs_hci_evt_fn ble_hs_hci_evt_enc_key_refresh; #endif static ble_hs_hci_evt_fn ble_hs_hci_evt_le_meta; typedef int ble_hs_hci_evt_le_fn(uint8_t subevent, const void *data, unsigned int len); static ble_hs_hci_evt_le_fn ble_hs_hci_evt_le_adv_rpt; #if TY_HS_BLE_CONNECT static ble_hs_hci_evt_le_fn ble_hs_hci_evt_le_conn_complete; static ble_hs_hci_evt_le_fn ble_hs_hci_evt_le_conn_upd_complete; static ble_hs_hci_evt_le_fn ble_hs_hci_evt_le_lt_key_req; static ble_hs_hci_evt_le_fn ble_hs_hci_evt_le_conn_parm_req; static ble_hs_hci_evt_le_fn ble_hs_hci_evt_le_phy_update_complete; static ble_hs_hci_evt_le_fn ble_hs_hci_evt_le_enh_conn_complete; #endif static ble_hs_hci_evt_le_fn ble_hs_hci_evt_le_dir_adv_rpt; static ble_hs_hci_evt_le_fn ble_hs_hci_evt_le_ext_adv_rpt; static ble_hs_hci_evt_le_fn ble_hs_hci_evt_le_rd_rem_used_feat_complete; static ble_hs_hci_evt_le_fn ble_hs_hci_evt_le_scan_timeout; static ble_hs_hci_evt_le_fn ble_hs_hci_evt_le_adv_set_terminated; static ble_hs_hci_evt_le_fn ble_hs_hci_evt_le_periodic_adv_sync_estab; static ble_hs_hci_evt_le_fn ble_hs_hci_evt_le_periodic_adv_rpt; static ble_hs_hci_evt_le_fn ble_hs_hci_evt_le_periodic_adv_sync_lost; static ble_hs_hci_evt_le_fn ble_hs_hci_evt_le_scan_req_rcvd; static ble_hs_hci_evt_le_fn ble_hs_hci_evt_le_periodic_adv_sync_transfer; /* Statistics */ struct host_hci_stats { uint32_t events_rxd; uint32_t good_acks_rxd; uint32_t bad_acks_rxd; uint32_t unknown_events_rxd; }; #define BLE_HS_HCI_EVT_TIMEOUT 50 /* Milliseconds. */ /** Dispatch table for incoming HCI events. Sorted by event code field. */ struct ble_hs_hci_evt_dispatch_entry { uint8_t event_code; ble_hs_hci_evt_fn *cb; }; static const struct ble_hs_hci_evt_dispatch_entry ble_hs_hci_evt_dispatch[] = { {BLE_HCI_EVCODE_LE_META, ble_hs_hci_evt_le_meta}, {BLE_HCI_EVCODE_NUM_COMP_PKTS, ble_hs_hci_evt_num_completed_pkts}, #if TY_HS_BLE_CONNECT {BLE_HCI_EVCODE_DISCONN_CMP, ble_hs_hci_evt_disconn_complete}, #if !TY_HS_BLE_CUT_EVT {BLE_HCI_EVCODE_ENCRYPT_CHG, ble_hs_hci_evt_encrypt_change}, {BLE_HCI_EVCODE_ENC_KEY_REFRESH, ble_hs_hci_evt_enc_key_refresh}, #endif #endif {BLE_HCI_EVCODE_HW_ERROR, ble_hs_hci_evt_hw_error}, }; #define BLE_HS_HCI_EVT_DISPATCH_SZ (sizeof ble_hs_hci_evt_dispatch / sizeof ble_hs_hci_evt_dispatch[0]) static ble_hs_hci_evt_le_fn *const ble_hs_hci_evt_le_dispatch[] = { #if TY_HS_BLE_CONNECT [BLE_HCI_LE_SUBEV_CONN_COMPLETE] = ble_hs_hci_evt_le_conn_complete, #endif #if TY_HS_BLE_SCAN [BLE_HCI_LE_SUBEV_ADV_RPT] = ble_hs_hci_evt_le_adv_rpt, #endif #if TY_HS_BLE_CONNECT [BLE_HCI_LE_SUBEV_CONN_UPD_COMPLETE] = ble_hs_hci_evt_le_conn_upd_complete, [BLE_HCI_LE_SUBEV_RD_REM_USED_FEAT] = ble_hs_hci_evt_le_rd_rem_used_feat_complete, #if !TY_HS_BLE_CUT_EVT [BLE_HCI_LE_SUBEV_LT_KEY_REQ] = ble_hs_hci_evt_le_lt_key_req, #endif [BLE_HCI_LE_SUBEV_REM_CONN_PARM_REQ] = ble_hs_hci_evt_le_conn_parm_req, [BLE_HCI_LE_SUBEV_ENH_CONN_COMPLETE] = ble_hs_hci_evt_le_enh_conn_complete, #endif #if !TY_HS_BLE_CUT_EVT [BLE_HCI_LE_SUBEV_DIRECT_ADV_RPT] = ble_hs_hci_evt_le_dir_adv_rpt, #if TY_HS_BLE_CONNECT [BLE_HCI_LE_SUBEV_PHY_UPDATE_COMPLETE] = ble_hs_hci_evt_le_phy_update_complete, #endif #endif #if !TY_HS_BLE_CUT_EVT [BLE_HCI_LE_SUBEV_EXT_ADV_RPT] = ble_hs_hci_evt_le_ext_adv_rpt, [BLE_HCI_LE_SUBEV_PERIODIC_ADV_SYNC_ESTAB] = ble_hs_hci_evt_le_periodic_adv_sync_estab, [BLE_HCI_LE_SUBEV_PERIODIC_ADV_RPT] = ble_hs_hci_evt_le_periodic_adv_rpt, [BLE_HCI_LE_SUBEV_PERIODIC_ADV_SYNC_LOST] = ble_hs_hci_evt_le_periodic_adv_sync_lost, [BLE_HCI_LE_SUBEV_SCAN_TIMEOUT] = ble_hs_hci_evt_le_scan_timeout, [BLE_HCI_LE_SUBEV_ADV_SET_TERMINATED] = ble_hs_hci_evt_le_adv_set_terminated, [BLE_HCI_LE_SUBEV_SCAN_REQ_RCVD] = ble_hs_hci_evt_le_scan_req_rcvd, [BLE_HCI_LE_SUBEV_PERIODIC_ADV_SYNC_TRANSFER] = ble_hs_hci_evt_le_periodic_adv_sync_transfer, #endif }; #define BLE_HS_HCI_EVT_LE_DISPATCH_SZ (sizeof ble_hs_hci_evt_le_dispatch / sizeof ble_hs_hci_evt_le_dispatch[0]) static const struct ble_hs_hci_evt_dispatch_entry *ble_hs_hci_evt_dispatch_find(uint8_t event_code) { const struct ble_hs_hci_evt_dispatch_entry *entry; int i; for (i = 0; i < BLE_HS_HCI_EVT_DISPATCH_SZ; i++) { entry = ble_hs_hci_evt_dispatch + i; if (entry->event_code == event_code) { return entry; } } return NULL; } static ble_hs_hci_evt_le_fn *ble_hs_hci_evt_le_dispatch_find(uint8_t event_code) { // PR_DEBUG("evt sub code :%d, %d", event_code, BLE_HS_HCI_EVT_LE_DISPATCH_SZ); if (event_code >= BLE_HS_HCI_EVT_LE_DISPATCH_SZ) { PR_DEBUG("evt code null:%d", event_code); return NULL; } return ble_hs_hci_evt_le_dispatch[event_code]; } #if TY_HS_BLE_CONNECT static int ble_hs_hci_evt_disconn_complete(uint8_t event_code, const void *data, unsigned int len) { const struct ble_hci_ev_disconn_cmp *ev = data; const struct ble_hs_conn *conn; if (len != sizeof(*ev)) { return BLE_HS_ECONTROLLER; } ble_hs_lock(); conn = ble_hs_conn_find(le16toh(ev->conn_handle)); if (conn != NULL) { ble_hs_hci_add_avail_pkts(conn->bhc_outstanding_pkts); } ble_hs_unlock(); ble_gap_rx_disconn_complete(ev); /* The connection termination may have freed up some capacity in the * controller for additional ACL data packets. Wake up any stalled * connections. */ ble_hs_wakeup_tx(); return 0; } static __attribute__((unused)) int ble_hs_hci_evt_encrypt_change(uint8_t event_code, const void *data, unsigned int len) { const struct ble_hci_ev_enrypt_chg *ev = data; if (len != sizeof(*ev)) { return BLE_HS_ECONTROLLER; } ble_sm_enc_change_rx(ev); return 0; } #endif static int ble_hs_hci_evt_hw_error(uint8_t event_code, const void *data, unsigned int len) { const struct ble_hci_ev_hw_error *ev = data; if (len != sizeof(*ev)) { return BLE_HS_ECONTROLLER; } ble_hs_hw_error(ev->hw_code); return 0; } #if TY_HS_BLE_CONNECT static __attribute__((unused)) int ble_hs_hci_evt_enc_key_refresh(uint8_t event_code, const void *data, unsigned int len) { const struct ble_hci_ev_enc_key_refresh *ev = data; if (len != sizeof(*ev)) { return BLE_HS_ECONTROLLER; } ble_sm_enc_key_refresh_rx(ev); return 0; } #endif static int ble_hs_hci_evt_num_completed_pkts(uint8_t event_code, const void *data, unsigned int len) { const struct ble_hci_ev_num_comp_pkts *ev = data; struct ble_hs_conn *conn; uint16_t num_pkts; int i; if (len != sizeof(*ev) + (ev->count * sizeof(ev->completed[0]))) { return BLE_HS_ECONTROLLER; } for (i = 0; i < ev->count; i++) { num_pkts = le16toh(ev->completed[i].packets); if (num_pkts > 0) { ble_hs_lock(); conn = ble_hs_conn_find(le16toh(ev->completed[i].handle)); if (conn != NULL) { // BLE_HS_LOG_INFO("bhc_outstanding_pkts = %d, num_pkts = %d, handle(0x%02x)", // conn->bhc_outstanding_pkts, num_pkts, le16toh(ev->completed[i].handle)); if (conn->bhc_outstanding_pkts < num_pkts) { ble_hs_sched_reset(BLE_HS_ECONTROLLER); } else { conn->bhc_outstanding_pkts -= num_pkts; } ble_hs_hci_add_avail_pkts(num_pkts); } ble_hs_unlock(); } } /* If any transmissions have stalled, wake them up now. */ ble_hs_wakeup_tx(); return 0; } static int ble_hs_hci_evt_le_meta(uint8_t event_code, const void *data, unsigned int len) { const struct ble_hci_ev_le_meta *ev = data; ble_hs_hci_evt_le_fn *fn; if (len < sizeof(*ev)) { return BLE_HS_ECONTROLLER; } fn = ble_hs_hci_evt_le_dispatch_find(ev->subevent); if (fn) { return fn(ev->subevent, data, len); } return 0; } #if (TY_HS_BLE_EXT_ADV) static struct ble_gap_conn_complete pend_conn_complete; #endif #if TY_HS_BLE_CONNECT static int ble_hs_hci_evt_le_enh_conn_complete(uint8_t subevent, const void *data, unsigned int len) { const struct ble_hci_ev_le_subev_enh_conn_complete *ev = data; struct ble_gap_conn_complete evt; if (len != sizeof(*ev)) { return BLE_HS_ECONTROLLER; } memset(&evt, 0, sizeof(evt)); evt.status = ev->status; if (evt.status == BLE_ERR_SUCCESS) { evt.connection_handle = le16toh(ev->conn_handle); evt.role = ev->role; evt.peer_addr_type = ev->peer_addr_type; memcpy(evt.peer_addr, ev->peer_addr, BLE_DEV_ADDR_LEN); memcpy(evt.local_rpa, ev->local_rpa, BLE_DEV_ADDR_LEN); memcpy(evt.peer_rpa, ev->peer_rpa, BLE_DEV_ADDR_LEN); evt.conn_itvl = le16toh(ev->conn_itvl); evt.conn_latency = le16toh(ev->conn_latency); evt.supervision_timeout = le16toh(ev->supervision_timeout); evt.master_clk_acc = ev->mca; } else { #if (TY_HS_BLE_HS_DEBUG) evt.connection_handle = BLE_HS_CONN_HANDLE_NONE; #endif } #if (TY_HS_BLE_EXT_ADV) if (evt.status == BLE_ERR_DIR_ADV_TMO || evt.role == BLE_HCI_LE_CONN_COMPLETE_ROLE_SLAVE) { /* store this until we get set terminated event with adv handle */ memcpy(&pend_conn_complete, &evt, sizeof(evt)); return 0; } #endif return ble_gap_rx_conn_complete(&evt, 0); } static int ble_hs_hci_evt_le_conn_complete(uint8_t subevent, const void *data, unsigned int len) { const struct ble_hci_ev_le_subev_conn_complete *ev = data; struct ble_gap_conn_complete evt; if (len != sizeof(*ev)) { return BLE_HS_ECONTROLLER; } memset(&evt, 0, sizeof(evt)); evt.status = ev->status; if (evt.status == BLE_ERR_SUCCESS) { evt.connection_handle = le16toh(ev->conn_handle); evt.role = ev->role; evt.peer_addr_type = ev->peer_addr_type; memcpy(evt.peer_addr, ev->peer_addr, BLE_DEV_ADDR_LEN); evt.conn_itvl = le16toh(ev->conn_itvl); evt.conn_latency = le16toh(ev->conn_latency); evt.supervision_timeout = le16toh(ev->supervision_timeout); evt.master_clk_acc = ev->mca; } else { #if (TY_HS_BLE_HS_DEBUG) evt.connection_handle = BLE_HS_CONN_HANDLE_NONE; #endif } #if (TY_HS_BLE_EXT_ADV) if (evt.status == BLE_ERR_DIR_ADV_TMO || evt.role == BLE_HCI_LE_CONN_COMPLETE_ROLE_SLAVE) { /* store this until we get set terminated event with adv handle */ memcpy(&pend_conn_complete, &evt, sizeof(evt)); return 0; } #endif // BLE_HS_LOG_DEBUG("Le Connect Complete"); return ble_gap_rx_conn_complete(&evt, 0); } #endif static int ble_hs_hci_evt_le_adv_rpt_first_pass(const void *data, unsigned int len) { const struct ble_hci_ev_le_subev_adv_rpt *ev = data; const struct adv_report *rpt; int i; if (len < sizeof(*ev)) { return BLE_HS_ECONTROLLER; } len -= sizeof(*ev); data += sizeof(*ev); if (ev->num_reports < BLE_HCI_LE_ADV_RPT_NUM_RPTS_MIN || ev->num_reports > BLE_HCI_LE_ADV_RPT_NUM_RPTS_MAX) { return BLE_HS_EBADDATA; } for (i = 0; i < ev->num_reports; i++) { /* extra byte for RSSI after adv data */ if (len < sizeof(*rpt) + 1) { return BLE_HS_ECONTROLLER; } rpt = data; len -= sizeof(*rpt) + 1; data += sizeof(rpt) + 1; if (rpt->data_len > len) { return BLE_HS_ECONTROLLER; } len -= rpt->data_len; data += rpt->data_len; } /* Make sure length was correct */ if (len) { return BLE_HS_ECONTROLLER; } return 0; } static int ble_hs_hci_evt_le_adv_rpt(uint8_t subevent, const void *data, unsigned int len) { const struct ble_hci_ev_le_subev_adv_rpt *ev = data; struct ble_gap_disc_desc desc = {0}; const struct adv_report *rpt; int rc; int i; /* Validate the event is formatted correctly */ rc = ble_hs_hci_evt_le_adv_rpt_first_pass(data, len); if (rc != 0) { return rc; } data += sizeof(*ev); desc.direct_addr = *BLE_ADDR_ANY; for (i = 0; i < ev->num_reports; i++) { rpt = data; data += sizeof(rpt) + rpt->data_len + 1; desc.event_type = rpt->type; desc.addr.type = rpt->addr_type; memcpy(desc.addr.val, rpt->addr, BLE_DEV_ADDR_LEN); desc.length_data = rpt->data_len; desc.data = rpt->data; desc.rssi = rpt->data[rpt->data_len]; ble_gap_rx_adv_report(&desc); } return 0; } static __attribute__((unused)) int ble_hs_hci_evt_le_dir_adv_rpt(uint8_t subevent, const void *data, unsigned int len) { const struct ble_hci_ev_le_subev_direct_adv_rpt *ev = data; struct ble_gap_disc_desc desc = {0}; int i; if (len < sizeof(*ev) || len != ev->num_reports * sizeof(ev->reports[0])) { return BLE_HS_ECONTROLLER; } /* Data fields not present in a direct advertising report. */ desc.data = NULL; desc.length_data = 0; for (i = 0; i < ev->num_reports; i++) { desc.event_type = ev->reports[i].type; desc.addr.type = ev->reports[i].addr_type; memcpy(desc.addr.val, ev->reports[i].addr, BLE_DEV_ADDR_LEN); desc.direct_addr.type = ev->reports[i].dir_addr_type; memcpy(desc.direct_addr.val, ev->reports[i].dir_addr, BLE_DEV_ADDR_LEN); desc.rssi = ev->reports[i].rssi; ble_gap_rx_adv_report(&desc); } return 0; } static int ble_hs_hci_evt_le_rd_rem_used_feat_complete(uint8_t subevent, const void *data, unsigned int len) { const struct ble_hci_ev_le_subev_rd_rem_used_feat *ev = data; if (len != sizeof(*ev)) { return BLE_HS_ECONTROLLER; } ble_gap_rx_rd_rem_sup_feat_complete(ev); return 0; } #if (TY_HS_BLE_EXT_ADV) && TY_HS_BLE_SCAN static int ble_hs_hci_decode_legacy_type(uint16_t evt_type) { switch (evt_type) { case BLE_HCI_LEGACY_ADV_EVTYPE_ADV_IND: return BLE_HCI_ADV_RPT_EVTYPE_ADV_IND; case BLE_HCI_LEGACY_ADV_EVTYPE_ADV_DIRECT_IND: return BLE_HCI_ADV_RPT_EVTYPE_DIR_IND; case BLE_HCI_LEGACY_ADV_EVTYPE_ADV_SCAN_IND: return BLE_HCI_ADV_RPT_EVTYPE_SCAN_IND; case BLE_HCI_LEGACY_ADV_EVTYPE_ADV_NONCON_IND: return BLE_HCI_ADV_RPT_EVTYPE_NONCONN_IND; case BLE_HCI_LEGACY_ADV_EVTYPE_SCAN_RSP_ADV_IND: return BLE_HCI_ADV_RPT_EVTYPE_SCAN_RSP; default: return -1; } } #endif static __attribute__((unused)) int ble_hs_hci_evt_le_ext_adv_rpt(uint8_t subevent, const void *data, unsigned int len) { #if (TY_HS_BLE_EXT_ADV) && TY_HS_BLE_SCAN const struct ble_hci_ev_le_subev_ext_adv_rpt *ev = data; const struct ext_adv_report *report; struct ble_gap_ext_disc_desc desc; int i; int legacy_event_type; if (len < sizeof(*ev)) { return BLE_HS_EBADDATA; } if (ev->num_reports < BLE_HCI_LE_ADV_RPT_NUM_RPTS_MIN || ev->num_reports > BLE_HCI_LE_ADV_RPT_NUM_RPTS_MAX) { return BLE_HS_EBADDATA; } /* TODO properly validate len of the event */ report = &ev->reports[0]; for (i = 0; i < ev->num_reports; i++) { memset(&desc, 0, sizeof(desc)); desc.props = (report->evt_type) & 0x1F; if (desc.props & BLE_HCI_ADV_LEGACY_MASK) { legacy_event_type = ble_hs_hci_decode_legacy_type(report->evt_type); if (legacy_event_type < 0) { report = (const void *)&report->data[report->data_len]; continue; } desc.legacy_event_type = legacy_event_type; desc.data_status = BLE_GAP_EXT_ADV_DATA_STATUS_COMPLETE; } else { switch (report->evt_type & BLE_HCI_ADV_DATA_STATUS_MASK) { case BLE_HCI_ADV_DATA_STATUS_COMPLETE: desc.data_status = BLE_GAP_EXT_ADV_DATA_STATUS_COMPLETE; break; case BLE_HCI_ADV_DATA_STATUS_INCOMPLETE: desc.data_status = BLE_GAP_EXT_ADV_DATA_STATUS_INCOMPLETE; break; case BLE_HCI_ADV_DATA_STATUS_TRUNCATED: desc.data_status = BLE_GAP_EXT_ADV_DATA_STATUS_TRUNCATED; break; default: TUYA_HS_ASSERT(false); } } desc.addr.type = report->addr_type; memcpy(desc.addr.val, report->addr, 6); desc.length_data = report->data_len; desc.data = report->data; desc.rssi = report->rssi; desc.tx_power = report->tx_power; memcpy(desc.direct_addr.val, report->dir_addr, 6); desc.direct_addr.type = report->dir_addr_type; desc.sid = report->sid; desc.prim_phy = report->pri_phy; desc.sec_phy = report->sec_phy; desc.periodic_adv_itvl = report->periodic_itvl; ble_gap_rx_ext_adv_report(&desc); report = (const void *)&report->data[report->data_len]; } #endif return 0; } static __attribute__((unused)) int ble_hs_hci_evt_le_periodic_adv_sync_estab(uint8_t subevent, const void *data, unsigned int len) { #if (TY_HS_BLE_PERIODIC_ADV) const struct ble_hci_ev_le_subev_periodic_adv_sync_estab *ev = data; if (len != sizeof(*ev)) { return BLE_HS_ECONTROLLER; } ble_gap_rx_peroidic_adv_sync_estab(ev); #endif return 0; } static __attribute__((unused)) int ble_hs_hci_evt_le_periodic_adv_rpt(uint8_t subevent, const void *data, unsigned int len) { #if (TY_HS_BLE_PERIODIC_ADV) const struct ble_hci_ev_le_subev_periodic_adv_rpt *ev = data; if (len < sizeof(*ev) || len != (sizeof(*ev) + ev->data_len)) { return BLE_HS_EBADDATA; } ble_gap_rx_periodic_adv_rpt(ev); #endif return 0; } static __attribute__((unused)) int ble_hs_hci_evt_le_periodic_adv_sync_lost(uint8_t subevent, const void *data, unsigned int len) { #if (TY_HS_BLE_PERIODIC_ADV) const struct ble_hci_ev_le_subev_periodic_adv_sync_lost *ev = data; if (len != sizeof(*ev)) { return BLE_HS_EBADDATA; } ble_gap_rx_periodic_adv_sync_lost(ev); #endif return 0; } static __attribute__((unused)) int ble_hs_hci_evt_le_periodic_adv_sync_transfer(uint8_t subevent, const void *data, unsigned int len) { #if (TY_HS_BLE_PERIODIC_ADV_SYNC_TRANSFER) const struct ble_hci_ev_le_subev_periodic_adv_sync_transfer *ev = data; if (len != sizeof(*ev)) { return BLE_HS_EBADDATA; } ble_gap_rx_periodic_adv_sync_transfer(ev); #endif return 0; } static __attribute__((unused)) int ble_hs_hci_evt_le_scan_timeout(uint8_t subevent, const void *data, unsigned int len) { #if (TY_HS_BLE_EXT_ADV) && TY_HS_BLE_SCAN const struct ble_hci_ev_le_subev_scan_timeout *ev = data; if (len != sizeof(*ev)) { return BLE_HS_EBADDATA; } ble_gap_rx_le_scan_timeout(); #endif return 0; } static __attribute__((unused)) int ble_hs_hci_evt_le_adv_set_terminated(uint8_t subevent, const void *data, unsigned int len) { #if (TY_HS_BLE_EXT_ADV) const struct ble_hci_ev_le_subev_adv_set_terminated *ev = data; if (len != sizeof(*ev)) { return BLE_HS_ECONTROLLER; } if (ev->status == 0) { /* ignore return code as we need to terminate advertising set anyway */ ble_gap_rx_conn_complete(&pend_conn_complete, ev->adv_handle); } ble_gap_rx_adv_set_terminated(ev); #endif return 0; } static __attribute__((unused)) int ble_hs_hci_evt_le_scan_req_rcvd(uint8_t subevent, const void *data, unsigned int len) { #if (TY_HS_BLE_EXT_ADV) const struct ble_hci_ev_le_subev_scan_req_rcvd *ev = data; if (len != sizeof(*ev)) { return BLE_HS_ECONTROLLER; } ble_gap_rx_scan_req_rcvd(ev); #endif return 0; } #if TY_HS_BLE_CONNECT static int ble_hs_hci_evt_le_conn_upd_complete(uint8_t subevent, const void *data, unsigned int len) { const struct ble_hci_ev_le_subev_conn_upd_complete *ev = data; if (len != sizeof(*ev)) { return BLE_HS_ECONTROLLER; } if (ev->status == 0) { BLE_HS_DBG_ASSERT(le16toh(ev->conn_itvl) >= BLE_HCI_CONN_ITVL_MIN); BLE_HS_DBG_ASSERT(le16toh(ev->conn_itvl) <= BLE_HCI_CONN_ITVL_MAX); BLE_HS_DBG_ASSERT(le16toh(ev->conn_latency) >= BLE_HCI_CONN_LATENCY_MIN); BLE_HS_DBG_ASSERT(le16toh(ev->conn_latency) <= BLE_HCI_CONN_LATENCY_MAX); BLE_HS_DBG_ASSERT(le16toh(ev->supervision_timeout) >= BLE_HCI_CONN_SPVN_TIMEOUT_MIN); BLE_HS_DBG_ASSERT(le16toh(ev->supervision_timeout) <= BLE_HCI_CONN_SPVN_TIMEOUT_MAX); } ble_gap_rx_update_complete(ev); return 0; } static __attribute__((unused)) int ble_hs_hci_evt_le_lt_key_req(uint8_t subevent, const void *data, unsigned int len) { const struct ble_hci_ev_le_subev_lt_key_req *ev = data; if (len != sizeof(*ev)) { return BLE_HS_ECONTROLLER; } ble_sm_ltk_req_rx(ev); return 0; } static int ble_hs_hci_evt_le_conn_parm_req(uint8_t subevent, const void *data, unsigned int len) { const struct ble_hci_ev_le_subev_rem_conn_param_req *ev = data; if (len != sizeof(*ev)) { return BLE_HS_ECONTROLLER; } BLE_HS_DBG_ASSERT(le16toh(ev->min_interval) >= BLE_HCI_CONN_ITVL_MIN); BLE_HS_DBG_ASSERT(le16toh(ev->max_interval) <= BLE_HCI_CONN_ITVL_MAX); BLE_HS_DBG_ASSERT(le16toh(ev->max_interval) >= le16toh(ev->min_interval)); BLE_HS_DBG_ASSERT(le16toh(ev->latency) >= BLE_HCI_CONN_LATENCY_MIN); BLE_HS_DBG_ASSERT(le16toh(ev->latency) <= BLE_HCI_CONN_LATENCY_MAX); BLE_HS_DBG_ASSERT(le16toh(ev->timeout) >= BLE_HCI_CONN_SPVN_TIMEOUT_MIN); BLE_HS_DBG_ASSERT(le16toh(ev->timeout) <= BLE_HCI_CONN_SPVN_TIMEOUT_MAX); ble_gap_rx_param_req(ev); return 0; } static __attribute__((unused)) int ble_hs_hci_evt_le_phy_update_complete(uint8_t subevent, const void *data, unsigned int len) { const struct ble_hci_ev_le_subev_phy_update_complete *ev = data; if (len != sizeof(*ev)) { return BLE_HS_ECONTROLLER; } ble_gap_rx_phy_update_complete(ev); return 0; } #endif int ble_hs_hci_evt_process(const struct ble_hci_ev *ev) { const struct ble_hs_hci_evt_dispatch_entry *entry; int rc; /* Count events received */ STATS_INC(ble_hs_stats, hci_event); entry = ble_hs_hci_evt_dispatch_find(ev->opcode); if (entry == NULL) { STATS_INC(ble_hs_stats, hci_unknown_event); PR_ERR("hci_unknown hci event %d ", ev->opcode); rc = BLE_HS_ENOTSUP; } else { rc = entry->cb(ev->opcode, ev->data, ev->length); } #if defined(TUYA_USE_DYNA_RAM) && (TUYA_USE_DYNA_RAM == 0) tuya_ble_hci_buf_free((uint8_t *)ev); #else tuya_ble_hci_buf_free(TUYA_BLE_HCI_BUF_EVT, (uint8_t *)ev); #endif return rc; } /** * Called when a data packet is received from the controller. This function * consumes the supplied mbuf, regardless of the outcome. * * @param om The incoming data packet, beginning with the * HCI ACL data header. * * @return 0 on success; nonzero on failure. */ int ble_hs_hci_evt_acl_process(struct os_mbuf *om) { #if TY_HS_BLE_CONNECT struct hci_data_hdr hci_hdr; struct ble_hs_conn *conn; ble_l2cap_rx_fn *rx_cb; uint16_t conn_handle; int reject_cid; int rc; rc = ble_hs_hci_util_data_hdr_strip(om, &hci_hdr); if (rc != 0) { PR_ERR("STRIP ERR"); goto err; } #if (BLETEST_THROUGHPUT_TEST == 0) #if BLE_MONITOR BLE_HS_LOG(DEBUG, "ble_hs_hci_evt_acl_process(): conn_handle=%u pb=%x " "len=%u data=", BLE_HCI_DATA_HANDLE(hci_hdr.hdh_handle_pb_bc), BLE_HCI_DATA_PB(hci_hdr.hdh_handle_pb_bc), hci_hdr.hdh_len); ble_hs_log_mbuf(om); BLE_HS_LOG(DEBUG, "\n"); #endif #endif if (hci_hdr.hdh_len != OS_MBUF_PKTHDR(om)->omp_len) { rc = BLE_HS_EBADDATA; PR_ERR("HD LEN ERR"); goto err; } conn_handle = BLE_HCI_DATA_HANDLE(hci_hdr.hdh_handle_pb_bc); ble_hs_lock(); conn = ble_hs_conn_find(conn_handle); if (conn == NULL) { /* Peer not connected; quietly discard packet. */ rc = BLE_HS_ENOTCONN; reject_cid = -1; } else { /* Forward ACL data to L2CAP. */ rc = ble_l2cap_rx(conn, &hci_hdr, om, &rx_cb, &reject_cid); om = NULL; } ble_hs_unlock(); switch (rc) { case 0: /* Final fragment received. */ BLE_HS_DBG_ASSERT(rx_cb != NULL); rc = rx_cb(conn->bhc_rx_chan); ble_l2cap_remove_rx(conn, conn->bhc_rx_chan); break; case BLE_HS_EAGAIN: /* More fragments on the way. */ break; default: if (reject_cid != -1) { ble_l2cap_sig_reject_invalid_cid_tx(conn_handle, 0, 0, reject_cid); } goto err; } return 0; err: PR_ERR("ACL PROCESS ERR:%d", rc); os_mbuf_free_chain(om); return rc; #else return BLE_HS_ENOTSUP; #endif }