/* * Copyright (c) 2017 Nordic Semiconductor ASA * Copyright (c) 2015 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include "common/bt_str.h" #include "keys.h" #include "hci_core.h" #include "conn_internal.h" #define LOG_LEVEL CONFIG_BT_HCI_CORE_LOG_LEVEL #include LOG_MODULE_REGISTER(bt_ssp); enum pairing_method { LEGACY, /* Legacy (pre-SSP) pairing */ JUST_WORKS, /* JustWorks pairing */ PASSKEY_INPUT, /* Passkey Entry input */ PASSKEY_DISPLAY, /* Passkey Entry display */ PASSKEY_CONFIRM, /* Passkey confirm */ }; /* based on table 5.7, Core Spec 4.2, Vol.3 Part C, 5.2.2.6 */ static const uint8_t ssp_method[4 /* remote */][4 /* local */] = { { JUST_WORKS, JUST_WORKS, PASSKEY_INPUT, JUST_WORKS }, { JUST_WORKS, PASSKEY_CONFIRM, PASSKEY_INPUT, JUST_WORKS }, { PASSKEY_DISPLAY, PASSKEY_DISPLAY, PASSKEY_INPUT, JUST_WORKS }, { JUST_WORKS, JUST_WORKS, JUST_WORKS, JUST_WORKS }, }; static int pin_code_neg_reply(const bt_addr_t *bdaddr) { struct bt_hci_cp_pin_code_neg_reply *cp; struct net_buf *buf; LOG_DBG(""); buf = bt_hci_cmd_create(BT_HCI_OP_PIN_CODE_NEG_REPLY, sizeof(*cp)); if (!buf) { return -ENOBUFS; } cp = net_buf_add(buf, sizeof(*cp)); bt_addr_copy(&cp->bdaddr, bdaddr); return bt_hci_cmd_send_sync(BT_HCI_OP_PIN_CODE_NEG_REPLY, buf, NULL); } static int pin_code_reply(struct bt_conn *conn, const char *pin, uint8_t len) { struct bt_hci_cp_pin_code_reply *cp; struct net_buf *buf; LOG_DBG(""); buf = bt_hci_cmd_create(BT_HCI_OP_PIN_CODE_REPLY, sizeof(*cp)); if (!buf) { return -ENOBUFS; } cp = net_buf_add(buf, sizeof(*cp)); bt_addr_copy(&cp->bdaddr, &conn->br.dst); cp->pin_len = len; strncpy((char *)cp->pin_code, pin, sizeof(cp->pin_code)); return bt_hci_cmd_send_sync(BT_HCI_OP_PIN_CODE_REPLY, buf, NULL); } int bt_conn_auth_pincode_entry(struct bt_conn *conn, const char *pin) { size_t len; if (!bt_auth) { return -EINVAL; } if (conn->type != BT_CONN_TYPE_BR) { return -EINVAL; } len = strlen(pin); if (len > 16) { return -EINVAL; } if (conn->required_sec_level == BT_SECURITY_L3 && len < 16) { LOG_WRN("PIN code for %s is not 16 bytes wide", bt_addr_str(&conn->br.dst)); return -EPERM; } /* Allow user send entered PIN to remote, then reset user state. */ if (!atomic_test_and_clear_bit(conn->flags, BT_CONN_USER)) { return -EPERM; } if (len == 16) { atomic_set_bit(conn->flags, BT_CONN_BR_LEGACY_SECURE); } return pin_code_reply(conn, pin, len); } static void pin_code_req(struct bt_conn *conn) { if (bt_auth && bt_auth->pincode_entry) { bool secure = false; if (conn->required_sec_level == BT_SECURITY_L3) { secure = true; } atomic_set_bit(conn->flags, BT_CONN_USER); atomic_set_bit(conn->flags, BT_CONN_BR_PAIRING); bt_auth->pincode_entry(conn, secure); } else { pin_code_neg_reply(&conn->br.dst); } } static uint8_t get_io_capa(void) { if (!bt_auth) { return BT_IO_NO_INPUT_OUTPUT; } if (bt_auth->passkey_confirm && bt_auth->passkey_display) { return BT_IO_DISPLAY_YESNO; } if (bt_auth->passkey_entry) { return BT_IO_KEYBOARD_ONLY; } if (bt_auth->passkey_display) { return BT_IO_DISPLAY_ONLY; } return BT_IO_NO_INPUT_OUTPUT; } static uint8_t ssp_pair_method(const struct bt_conn *conn) { return ssp_method[conn->br.remote_io_capa][get_io_capa()]; } static uint8_t ssp_get_auth(const struct bt_conn *conn) { /* Validate no bond auth request, and if valid use it. */ if ((conn->br.remote_auth == BT_HCI_NO_BONDING) || ((conn->br.remote_auth == BT_HCI_NO_BONDING_MITM) && (ssp_pair_method(conn) > JUST_WORKS))) { return conn->br.remote_auth; } /* Local & remote have enough IO capabilities to get MITM protection. */ if (ssp_pair_method(conn) > JUST_WORKS) { return conn->br.remote_auth | BT_MITM; } /* No MITM protection possible so ignore remote MITM requirement. */ return (conn->br.remote_auth & ~BT_MITM); } static int ssp_confirm_reply(struct bt_conn *conn) { struct bt_hci_cp_user_confirm_reply *cp; struct net_buf *buf; LOG_DBG(""); buf = bt_hci_cmd_create(BT_HCI_OP_USER_CONFIRM_REPLY, sizeof(*cp)); if (!buf) { return -ENOBUFS; } cp = net_buf_add(buf, sizeof(*cp)); bt_addr_copy(&cp->bdaddr, &conn->br.dst); return bt_hci_cmd_send_sync(BT_HCI_OP_USER_CONFIRM_REPLY, buf, NULL); } static int ssp_confirm_neg_reply(struct bt_conn *conn) { struct bt_hci_cp_user_confirm_reply *cp; struct net_buf *buf; LOG_DBG(""); buf = bt_hci_cmd_create(BT_HCI_OP_USER_CONFIRM_NEG_REPLY, sizeof(*cp)); if (!buf) { return -ENOBUFS; } cp = net_buf_add(buf, sizeof(*cp)); bt_addr_copy(&cp->bdaddr, &conn->br.dst); return bt_hci_cmd_send_sync(BT_HCI_OP_USER_CONFIRM_NEG_REPLY, buf, NULL); } static void ssp_pairing_complete(struct bt_conn *conn, uint8_t status) { if (!status) { bool bond = !atomic_test_bit(conn->flags, BT_CONN_BR_NOBOND); struct bt_conn_auth_info_cb *listener, *next; SYS_SLIST_FOR_EACH_CONTAINER_SAFE(&bt_auth_info_cbs, listener, next, node) { if (listener->pairing_complete) { listener->pairing_complete(conn, bond); } } } else { struct bt_conn_auth_info_cb *listener, *next; SYS_SLIST_FOR_EACH_CONTAINER_SAFE(&bt_auth_info_cbs, listener, next, node) { if (listener->pairing_complete) { listener->pairing_complete(conn, status); } } } } static void ssp_auth(struct bt_conn *conn, uint32_t passkey) { conn->br.pairing_method = ssp_pair_method(conn); /* * If local required security is HIGH then MITM is mandatory. * MITM protection is no achievable when SSP 'justworks' is applied. */ if (conn->required_sec_level > BT_SECURITY_L2 && conn->br.pairing_method == JUST_WORKS) { LOG_DBG("MITM protection infeasible for required security"); ssp_confirm_neg_reply(conn); return; } switch (conn->br.pairing_method) { case PASSKEY_CONFIRM: atomic_set_bit(conn->flags, BT_CONN_USER); bt_auth->passkey_confirm(conn, passkey); break; case PASSKEY_DISPLAY: atomic_set_bit(conn->flags, BT_CONN_USER); bt_auth->passkey_display(conn, passkey); break; case PASSKEY_INPUT: atomic_set_bit(conn->flags, BT_CONN_USER); bt_auth->passkey_entry(conn); break; case JUST_WORKS: /* * When local host works as pairing acceptor and 'justworks' * model is applied then notify user about such pairing request. * [BT Core 4.2 table 5.7, Vol 3, Part C, 5.2.2.6] */ if (bt_auth && bt_auth->pairing_confirm && !atomic_test_bit(conn->flags, BT_CONN_BR_PAIRING_INITIATOR)) { atomic_set_bit(conn->flags, BT_CONN_USER); bt_auth->pairing_confirm(conn); break; } ssp_confirm_reply(conn); break; default: break; } } static int ssp_passkey_reply(struct bt_conn *conn, unsigned int passkey) { struct bt_hci_cp_user_passkey_reply *cp; struct net_buf *buf; LOG_DBG(""); buf = bt_hci_cmd_create(BT_HCI_OP_USER_PASSKEY_REPLY, sizeof(*cp)); if (!buf) { return -ENOBUFS; } cp = net_buf_add(buf, sizeof(*cp)); bt_addr_copy(&cp->bdaddr, &conn->br.dst); cp->passkey = sys_cpu_to_le32(passkey); return bt_hci_cmd_send_sync(BT_HCI_OP_USER_PASSKEY_REPLY, buf, NULL); } static int ssp_passkey_neg_reply(struct bt_conn *conn) { struct bt_hci_cp_user_passkey_neg_reply *cp; struct net_buf *buf; LOG_DBG(""); buf = bt_hci_cmd_create(BT_HCI_OP_USER_PASSKEY_NEG_REPLY, sizeof(*cp)); if (!buf) { return -ENOBUFS; } cp = net_buf_add(buf, sizeof(*cp)); bt_addr_copy(&cp->bdaddr, &conn->br.dst); return bt_hci_cmd_send_sync(BT_HCI_OP_USER_PASSKEY_NEG_REPLY, buf, NULL); } static int conn_auth(struct bt_conn *conn) { struct bt_hci_cp_auth_requested *auth; struct net_buf *buf; LOG_DBG(""); buf = bt_hci_cmd_create(BT_HCI_OP_AUTH_REQUESTED, sizeof(*auth)); if (!buf) { return -ENOBUFS; } auth = net_buf_add(buf, sizeof(*auth)); auth->handle = sys_cpu_to_le16(conn->handle); atomic_set_bit(conn->flags, BT_CONN_BR_PAIRING_INITIATOR); return bt_hci_cmd_send_sync(BT_HCI_OP_AUTH_REQUESTED, buf, NULL); } int bt_ssp_start_security(struct bt_conn *conn) { if (atomic_test_bit(conn->flags, BT_CONN_BR_PAIRING)) { return -EBUSY; } if (conn->required_sec_level > BT_SECURITY_L3) { return -ENOTSUP; } if (get_io_capa() == BT_IO_NO_INPUT_OUTPUT && conn->required_sec_level > BT_SECURITY_L2) { return -EINVAL; } return conn_auth(conn); } int bt_ssp_auth_passkey_entry(struct bt_conn *conn, unsigned int passkey) { /* User entered passkey, reset user state. */ if (!atomic_test_and_clear_bit(conn->flags, BT_CONN_USER)) { return -EPERM; } if (conn->br.pairing_method == PASSKEY_INPUT) { return ssp_passkey_reply(conn, passkey); } return -EINVAL; } int bt_ssp_auth_passkey_confirm(struct bt_conn *conn) { /* Allow user confirm passkey value, then reset user state. */ if (!atomic_test_and_clear_bit(conn->flags, BT_CONN_USER)) { return -EPERM; } return ssp_confirm_reply(conn); } int bt_ssp_auth_pairing_confirm(struct bt_conn *conn) { return ssp_confirm_reply(conn); } int bt_ssp_auth_cancel(struct bt_conn *conn) { /* Allow user cancel authentication, then reset user state. */ if (!atomic_test_and_clear_bit(conn->flags, BT_CONN_USER)) { return -EPERM; } switch (conn->br.pairing_method) { case JUST_WORKS: case PASSKEY_CONFIRM: return ssp_confirm_neg_reply(conn); case PASSKEY_INPUT: return ssp_passkey_neg_reply(conn); case PASSKEY_DISPLAY: return bt_conn_disconnect(conn, BT_HCI_ERR_AUTH_FAIL); case LEGACY: return pin_code_neg_reply(&conn->br.dst); default: break; } return -EINVAL; } void bt_hci_pin_code_req(struct net_buf *buf) { struct bt_hci_evt_pin_code_req *evt = (void *)buf->data; struct bt_conn *conn; LOG_DBG(""); conn = bt_conn_lookup_addr_br(&evt->bdaddr); if (!conn) { LOG_ERR("Can't find conn for %s", bt_addr_str(&evt->bdaddr)); return; } pin_code_req(conn); bt_conn_unref(conn); } void bt_hci_link_key_notify(struct net_buf *buf) { struct bt_hci_evt_link_key_notify *evt = (void *)buf->data; struct bt_conn *conn; conn = bt_conn_lookup_addr_br(&evt->bdaddr); if (!conn) { LOG_ERR("Can't find conn for %s", bt_addr_str(&evt->bdaddr)); return; } LOG_DBG("%s, link type 0x%02x", bt_addr_str(&evt->bdaddr), evt->key_type); if (!conn->br.link_key) { conn->br.link_key = bt_keys_get_link_key(&evt->bdaddr); } if (!conn->br.link_key) { LOG_ERR("Can't update keys for %s", bt_addr_str(&evt->bdaddr)); bt_conn_unref(conn); return; } /* clear any old Link Key flags */ conn->br.link_key->flags = 0U; switch (evt->key_type) { case BT_LK_COMBINATION: /* * Setting Combination Link Key as AUTHENTICATED means it was * successfully generated by 16 digits wide PIN code. */ if (atomic_test_and_clear_bit(conn->flags, BT_CONN_BR_LEGACY_SECURE)) { conn->br.link_key->flags |= BT_LINK_KEY_AUTHENTICATED; } memcpy(conn->br.link_key->val, evt->link_key, 16); break; case BT_LK_AUTH_COMBINATION_P192: conn->br.link_key->flags |= BT_LINK_KEY_AUTHENTICATED; __fallthrough; case BT_LK_UNAUTH_COMBINATION_P192: /* Mark no-bond so that link-key is removed on disconnection */ if (ssp_get_auth(conn) < BT_HCI_DEDICATED_BONDING) { atomic_set_bit(conn->flags, BT_CONN_BR_NOBOND); } memcpy(conn->br.link_key->val, evt->link_key, 16); break; case BT_LK_AUTH_COMBINATION_P256: conn->br.link_key->flags |= BT_LINK_KEY_AUTHENTICATED; __fallthrough; case BT_LK_UNAUTH_COMBINATION_P256: conn->br.link_key->flags |= BT_LINK_KEY_SC; /* Mark no-bond so that link-key is removed on disconnection */ if (ssp_get_auth(conn) < BT_HCI_DEDICATED_BONDING) { atomic_set_bit(conn->flags, BT_CONN_BR_NOBOND); } memcpy(conn->br.link_key->val, evt->link_key, 16); break; default: LOG_WRN("Unsupported Link Key type %u", evt->key_type); (void)memset(conn->br.link_key->val, 0, sizeof(conn->br.link_key->val)); break; } if (IS_ENABLED(CONFIG_BT_SETTINGS) && !atomic_test_bit(conn->flags, BT_CONN_BR_NOBOND)) { bt_keys_link_key_store(conn->br.link_key); } bt_conn_unref(conn); } void link_key_neg_reply(const bt_addr_t *bdaddr) { struct bt_hci_cp_link_key_neg_reply *cp; struct net_buf *buf; LOG_DBG(""); buf = bt_hci_cmd_create(BT_HCI_OP_LINK_KEY_NEG_REPLY, sizeof(*cp)); if (!buf) { LOG_ERR("Out of command buffers"); return; } cp = net_buf_add(buf, sizeof(*cp)); bt_addr_copy(&cp->bdaddr, bdaddr); bt_hci_cmd_send_sync(BT_HCI_OP_LINK_KEY_NEG_REPLY, buf, NULL); } void link_key_reply(const bt_addr_t *bdaddr, const uint8_t *lk) { struct bt_hci_cp_link_key_reply *cp; struct net_buf *buf; LOG_DBG(""); buf = bt_hci_cmd_create(BT_HCI_OP_LINK_KEY_REPLY, sizeof(*cp)); if (!buf) { LOG_ERR("Out of command buffers"); return; } cp = net_buf_add(buf, sizeof(*cp)); bt_addr_copy(&cp->bdaddr, bdaddr); memcpy(cp->link_key, lk, 16); bt_hci_cmd_send_sync(BT_HCI_OP_LINK_KEY_REPLY, buf, NULL); } void bt_hci_link_key_req(struct net_buf *buf) { struct bt_hci_evt_link_key_req *evt = (void *)buf->data; struct bt_conn *conn; LOG_DBG("%s", bt_addr_str(&evt->bdaddr)); conn = bt_conn_lookup_addr_br(&evt->bdaddr); if (!conn) { LOG_ERR("Can't find conn for %s", bt_addr_str(&evt->bdaddr)); link_key_neg_reply(&evt->bdaddr); return; } if (!conn->br.link_key) { conn->br.link_key = bt_keys_find_link_key(&evt->bdaddr); } if (!conn->br.link_key) { link_key_neg_reply(&evt->bdaddr); bt_conn_unref(conn); return; } /* * Enforce regenerate by controller stronger link key since found one * in database not covers requested security level. */ if (!(conn->br.link_key->flags & BT_LINK_KEY_AUTHENTICATED) && conn->required_sec_level > BT_SECURITY_L2) { link_key_neg_reply(&evt->bdaddr); bt_conn_unref(conn); return; } link_key_reply(&evt->bdaddr, conn->br.link_key->val); bt_conn_unref(conn); } void io_capa_neg_reply(const bt_addr_t *bdaddr, const uint8_t reason) { struct bt_hci_cp_io_capability_neg_reply *cp; struct net_buf *resp_buf; resp_buf = bt_hci_cmd_create(BT_HCI_OP_IO_CAPABILITY_NEG_REPLY, sizeof(*cp)); if (!resp_buf) { LOG_ERR("Out of command buffers"); return; } cp = net_buf_add(resp_buf, sizeof(*cp)); bt_addr_copy(&cp->bdaddr, bdaddr); cp->reason = reason; bt_hci_cmd_send_sync(BT_HCI_OP_IO_CAPABILITY_NEG_REPLY, resp_buf, NULL); } void bt_hci_io_capa_resp(struct net_buf *buf) { struct bt_hci_evt_io_capa_resp *evt = (void *)buf->data; struct bt_conn *conn; LOG_DBG("remote %s, IOcapa 0x%02x, auth 0x%02x", bt_addr_str(&evt->bdaddr), evt->capability, evt->authentication); if (evt->authentication > BT_HCI_GENERAL_BONDING_MITM) { LOG_ERR("Invalid remote authentication requirements"); io_capa_neg_reply(&evt->bdaddr, BT_HCI_ERR_UNSUPP_FEATURE_PARAM_VAL); return; } if (evt->capability > BT_IO_NO_INPUT_OUTPUT) { LOG_ERR("Invalid remote io capability requirements"); io_capa_neg_reply(&evt->bdaddr, BT_HCI_ERR_UNSUPP_FEATURE_PARAM_VAL); return; } conn = bt_conn_lookup_addr_br(&evt->bdaddr); if (!conn) { LOG_ERR("Unable to find conn for %s", bt_addr_str(&evt->bdaddr)); return; } conn->br.remote_io_capa = evt->capability; conn->br.remote_auth = evt->authentication; atomic_set_bit(conn->flags, BT_CONN_BR_PAIRING); bt_conn_unref(conn); } void bt_hci_io_capa_req(struct net_buf *buf) { struct bt_hci_evt_io_capa_req *evt = (void *)buf->data; struct net_buf *resp_buf; struct bt_conn *conn; struct bt_hci_cp_io_capability_reply *cp; uint8_t auth; LOG_DBG(""); conn = bt_conn_lookup_addr_br(&evt->bdaddr); if (!conn) { LOG_ERR("Can't find conn for %s", bt_addr_str(&evt->bdaddr)); return; } resp_buf = bt_hci_cmd_create(BT_HCI_OP_IO_CAPABILITY_REPLY, sizeof(*cp)); if (!resp_buf) { LOG_ERR("Out of command buffers"); bt_conn_unref(conn); return; } /* * Set authentication requirements when acting as pairing initiator to * 'dedicated bond' with MITM protection set if local IO capa * potentially allows it, and for acceptor, based on local IO capa and * remote's authentication set. */ if (atomic_test_bit(conn->flags, BT_CONN_BR_PAIRING_INITIATOR)) { if (get_io_capa() != BT_IO_NO_INPUT_OUTPUT) { auth = BT_HCI_DEDICATED_BONDING_MITM; } else { auth = BT_HCI_DEDICATED_BONDING; } } else { auth = ssp_get_auth(conn); } cp = net_buf_add(resp_buf, sizeof(*cp)); bt_addr_copy(&cp->bdaddr, &evt->bdaddr); cp->capability = get_io_capa(); cp->authentication = auth; cp->oob_data = 0U; bt_hci_cmd_send_sync(BT_HCI_OP_IO_CAPABILITY_REPLY, resp_buf, NULL); bt_conn_unref(conn); } void bt_hci_ssp_complete(struct net_buf *buf) { struct bt_hci_evt_ssp_complete *evt = (void *)buf->data; struct bt_conn *conn; LOG_DBG("status 0x%02x", evt->status); conn = bt_conn_lookup_addr_br(&evt->bdaddr); if (!conn) { LOG_ERR("Can't find conn for %s", bt_addr_str(&evt->bdaddr)); return; } ssp_pairing_complete(conn, bt_security_err_get(evt->status)); if (evt->status) { bt_conn_disconnect(conn, BT_HCI_ERR_AUTH_FAIL); } bt_conn_unref(conn); } void bt_hci_user_confirm_req(struct net_buf *buf) { struct bt_hci_evt_user_confirm_req *evt = (void *)buf->data; struct bt_conn *conn; conn = bt_conn_lookup_addr_br(&evt->bdaddr); if (!conn) { LOG_ERR("Can't find conn for %s", bt_addr_str(&evt->bdaddr)); return; } ssp_auth(conn, sys_le32_to_cpu(evt->passkey)); bt_conn_unref(conn); } void bt_hci_user_passkey_notify(struct net_buf *buf) { struct bt_hci_evt_user_passkey_notify *evt = (void *)buf->data; struct bt_conn *conn; LOG_DBG(""); conn = bt_conn_lookup_addr_br(&evt->bdaddr); if (!conn) { LOG_ERR("Can't find conn for %s", bt_addr_str(&evt->bdaddr)); return; } ssp_auth(conn, sys_le32_to_cpu(evt->passkey)); bt_conn_unref(conn); } void bt_hci_user_passkey_req(struct net_buf *buf) { struct bt_hci_evt_user_passkey_req *evt = (void *)buf->data; struct bt_conn *conn; conn = bt_conn_lookup_addr_br(&evt->bdaddr); if (!conn) { LOG_ERR("Can't find conn for %s", bt_addr_str(&evt->bdaddr)); return; } ssp_auth(conn, 0); bt_conn_unref(conn); } static void link_encr(const uint16_t handle) { struct bt_hci_cp_set_conn_encrypt *encr; struct net_buf *buf; LOG_DBG(""); buf = bt_hci_cmd_create(BT_HCI_OP_SET_CONN_ENCRYPT, sizeof(*encr)); if (!buf) { LOG_ERR("Out of command buffers"); return; } encr = net_buf_add(buf, sizeof(*encr)); encr->handle = sys_cpu_to_le16(handle); encr->encrypt = 0x01; bt_hci_cmd_send_sync(BT_HCI_OP_SET_CONN_ENCRYPT, buf, NULL); } void bt_hci_auth_complete(struct net_buf *buf) { struct bt_hci_evt_auth_complete *evt = (void *)buf->data; struct bt_conn *conn; uint16_t handle = sys_le16_to_cpu(evt->handle); LOG_DBG("status 0x%02x, handle %u", evt->status, handle); conn = bt_conn_lookup_handle(handle, BT_CONN_TYPE_BR); if (!conn) { LOG_ERR("Can't find conn for handle %u", handle); return; } if (evt->status) { /* * Inform layers above HCI about non-zero authentication * status to make them able cleanup pending jobs. */ bt_conn_security_changed(conn, evt->status, bt_security_err_get(evt->status)); } else { link_encr(handle); } bt_conn_unref(conn); }