/****************************************************************************** * * Copyright (C) 1999-2012 Broadcom Corporation * * Licensed 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. * ******************************************************************************/ /****************************************************************************** * * This file contains functions for the Bluetooth Device Manager * ******************************************************************************/ #include #include //#include #include #include "stack/bt_types.h" #include "device/controller.h" #include "stack/hcimsgs.h" #include "stack/btu.h" #include "stack/btm_api.h" #include "btm_int.h" #include "stack/hcidefs.h" #include "stack/l2c_api.h" static tBTM_SEC_DEV_REC *btm_find_oldest_dev (void); /******************************************************************************* ** ** Function BTM_SecAddDevice ** ** Description Add/modify device. This function will be normally called ** during host startup to restore all required information ** stored in the NVRAM. ** ** Parameters: bd_addr - BD address of the peer ** dev_class - Device Class ** bd_name - Name of the peer device. NULL if unknown. ** features - Remote device's features (up to 3 pages). NULL if not known ** trusted_mask - Bitwise OR of services that do not ** require authorization. (array of UINT32) ** link_key - Connection link key. NULL if unknown. ** ** Returns TRUE if added OK, else FALSE ** *******************************************************************************/ BOOLEAN BTM_SecAddDevice (BD_ADDR bd_addr, DEV_CLASS dev_class, BD_NAME bd_name, UINT8 *features, UINT32 trusted_mask[], LINK_KEY link_key, UINT8 key_type, tBTM_IO_CAP io_cap, UINT8 pin_length, UINT8 sc_support) { #if (SMP_INCLUDED == TRUE) tBTM_SEC_DEV_REC *p_dev_rec; int i, j; BOOLEAN found = FALSE; BTM_TRACE_API("%s, link key type:%x\n", __FUNCTION__, key_type); p_dev_rec = btm_find_dev (bd_addr); if (!p_dev_rec) { /* There is no device record, allocate one. * If we can not find an empty spot for this one, let it fail. */ if (list_length(btm_cb.p_sec_dev_rec_list) < BTM_SEC_MAX_DEVICE_RECORDS) { p_dev_rec = (tBTM_SEC_DEV_REC *)osi_malloc(sizeof(tBTM_SEC_DEV_REC)); if(p_dev_rec) { list_append(btm_cb.p_sec_dev_rec_list, p_dev_rec); /* Mark this record as in use and initialize */ memset (p_dev_rec, 0, sizeof (tBTM_SEC_DEV_REC)); p_dev_rec->sec_flags = BTM_SEC_IN_USE; memcpy (p_dev_rec->bd_addr, bd_addr, BD_ADDR_LEN); p_dev_rec->hci_handle = BTM_GetHCIConnHandle (bd_addr, BT_TRANSPORT_BR_EDR); p_dev_rec->ble_hci_handle = BTM_GetHCIConnHandle (bd_addr, BT_TRANSPORT_LE); p_dev_rec->enc_mode = BTM_ENC_MODE_UNKNOWN; #if BLE_INCLUDED == TRUE /* use default value for background connection params */ /* update conn params, use default value for background connection params */ memset(&p_dev_rec->conn_params, 0xff, sizeof(tBTM_LE_CONN_PRAMS)); #endif } } if (!p_dev_rec) { return (FALSE); } } p_dev_rec->bond_type = BOND_TYPE_UNKNOWN; /* Default value */ p_dev_rec->timestamp = btm_cb.dev_rec_count++; p_dev_rec->remote_secure_connection_previous_state = sc_support; if (dev_class) { memcpy (p_dev_rec->dev_class, dev_class, DEV_CLASS_LEN); } memset(p_dev_rec->sec_bd_name, 0, sizeof(tBTM_BD_NAME)); if (bd_name && bd_name[0]) { p_dev_rec->sec_flags |= BTM_SEC_NAME_KNOWN; BCM_STRNCPY_S ((char *)p_dev_rec->sec_bd_name, (char *)bd_name, BTM_MAX_REM_BD_NAME_LEN); } p_dev_rec->num_read_pages = 0; if (features) { memcpy (p_dev_rec->features, features, sizeof (p_dev_rec->features)); for (i = HCI_EXT_FEATURES_PAGE_MAX; i >= 0; i--) { for (j = 0; j < HCI_FEATURE_BYTES_PER_PAGE; j++) { if (p_dev_rec->features[i][j] != 0) { found = TRUE; break; } } if (found) { p_dev_rec->num_read_pages = i + 1; break; } } } else { memset (p_dev_rec->features, 0, sizeof (p_dev_rec->features)); } BTM_SEC_COPY_TRUSTED_DEVICE(trusted_mask, p_dev_rec->trusted_mask); if (link_key) { BTM_TRACE_EVENT ("BTM_SecAddDevice() BDA: %02x:%02x:%02x:%02x:%02x:%02x\n", bd_addr[0], bd_addr[1], bd_addr[2], bd_addr[3], bd_addr[4], bd_addr[5]); p_dev_rec->sec_flags |= BTM_SEC_LINK_KEY_KNOWN; memcpy (p_dev_rec->link_key, link_key, LINK_KEY_LEN); p_dev_rec->link_key_type = key_type; p_dev_rec->pin_code_length = pin_length; if (pin_length >= 16 || key_type == BTM_LKEY_TYPE_AUTH_COMB || key_type == BTM_LKEY_TYPE_AUTH_COMB_P_256) { // Set the fiag if the link key was made by using either a 16 digit // pin or MITM. p_dev_rec->sec_flags |= BTM_SEC_16_DIGIT_PIN_AUTHED; } } #if defined(BTIF_MIXED_MODE_INCLUDED) && (BTIF_MIXED_MODE_INCLUDED == TRUE) if (key_type < BTM_MAX_PRE_SM4_LKEY_TYPE) { p_dev_rec->sm4 = BTM_SM4_KNOWN; } else { p_dev_rec->sm4 = BTM_SM4_TRUE; } #endif p_dev_rec->rmt_io_caps = io_cap; p_dev_rec->device_type |= BT_DEVICE_TYPE_BREDR; #endif ///SMP_INCLUDED == TRUE return (TRUE); } /******************************************************************************* ** ** Function BTM_SecDeleteDevice ** ** Description Free resources associated with the device. ** ** Parameters: bd_addr - BD address of the peer ** transport - BT_TRANSPORT_BR_EDR or BT_TRANSPORT_LE ** ** Returns TRUE if removed OK, FALSE if not found or ACL link is active ** *******************************************************************************/ BOOLEAN BTM_SecDeleteDevice (BD_ADDR bd_addr, tBT_TRANSPORT transport) { tBTM_SEC_DEV_REC *p_dev_rec; if (BTM_IsAclConnectionUp(bd_addr, transport)) { BTM_TRACE_WARNING("%s FAILED: Cannot Delete when connection is active\n", __func__); return FALSE; } if ((p_dev_rec = btm_find_dev(bd_addr)) != NULL) { /* Tell controller to get rid of the link key, if it has one stored */ BTM_DeleteStoredLinkKey (p_dev_rec->bd_addr, NULL); btm_sec_free_dev(p_dev_rec, transport); } return TRUE; } /******************************************************************************* ** ** Function BTM_SecClearSecurityFlags ** ** Description Reset the security flags (mark as not-paired) for a given ** remove device. ** *******************************************************************************/ extern void BTM_SecClearSecurityFlags (BD_ADDR bd_addr) { tBTM_SEC_DEV_REC *p_dev_rec = btm_find_dev(bd_addr); if (p_dev_rec == NULL) { return; } p_dev_rec->sec_flags = 0; p_dev_rec->sec_state = BTM_SEC_STATE_IDLE; p_dev_rec->sm4 = BTM_SM4_UNKNOWN; } /******************************************************************************* ** ** Function BTM_SecReadDevName ** ** Description Looks for the device name in the security database for the ** specified BD address. ** ** Returns Pointer to the name or NULL ** *******************************************************************************/ char *BTM_SecReadDevName (BD_ADDR bd_addr) { char *p_name = NULL; tBTM_SEC_DEV_REC *p_srec; if ((p_srec = btm_find_dev(bd_addr)) != NULL) { p_name = (char *)p_srec->sec_bd_name; } return (p_name); } /******************************************************************************* ** ** Function btm_find_sec_dev_in_list ** ** Description Look for the record in the device database for the record ** with specified address ** ** Returns Pointer to the record or NULL ** *******************************************************************************/ BOOLEAN btm_find_sec_dev_in_list (void *p_node_data, void *context) { tBTM_SEC_DEV_REC *p_sec_dev = (tBTM_SEC_DEV_REC *)p_node_data; BOOLEAN ret = TRUE; BOOLEAN dev_free = !(p_sec_dev->sec_flags & BTM_SEC_IN_USE); tSecDevContext *p_context = (tSecDevContext *)context; if (dev_free == p_context->free_check) { switch (p_context->type) { case SEC_DEV_BDA: if (!memcmp(p_context->context.p_bd_addr, p_sec_dev->bd_addr, BD_ADDR_LEN)) { ret = FALSE; } break; case SEC_DEV_HDL: if (p_context->context.handle == p_sec_dev->hci_handle #if BLE_INCLUDED == TRUE || (p_context->context.handle == p_sec_dev->ble_hci_handle) #endif ) { ret = FALSE; } break; #if BLE_PRIVACY_SPT == TRUE case SEC_DEV_ID_ADDR: if (!memcmp(p_context->context.p_bd_addr, p_sec_dev->ble.static_addr, BD_ADDR_LEN)) { ret = FALSE; } break; #endif //BLE_PRIVACY_SPT == TRUE case SEC_DEV_BTDM_BDA: if (!memcmp(p_context->context.p_bd_addr, p_sec_dev->bd_addr, BD_ADDR_LEN)) { ret = FALSE; } #if BLE_INCLUDED == TRUE // If a LE random address is looking for device record if (!memcmp(p_sec_dev->ble.pseudo_addr, p_context->context.p_bd_addr, BD_ADDR_LEN)) { ret = FALSE; } if (btm_ble_addr_resolvable(p_context->context.p_bd_addr, p_sec_dev)) { ret = FALSE; } #endif break; default: break; } } return ret; } /******************************************************************************* ** ** Function btm_sec_alloc_dev ** ** Description Look for the record in the device database for the record ** with specified address ** ** Returns Pointer to the record or NULL ** *******************************************************************************/ tBTM_SEC_DEV_REC *btm_sec_alloc_dev (BD_ADDR bd_addr) { tBTM_SEC_DEV_REC *p_dev_rec = NULL; tBTM_SEC_DEV_REC *p_dev_new_rec = NULL; tBTM_SEC_DEV_REC *p_dev_old_rec = NULL; tBTM_INQ_INFO *p_inq_info; list_node_t *p_node = NULL; BOOLEAN new_entry_found = FALSE; BOOLEAN old_entry_found = FALSE; BOOLEAN malloc_new_entry = FALSE; BTM_TRACE_EVENT ("btm_sec_alloc_dev\n"); for (p_node = list_begin(btm_cb.p_sec_dev_rec_list); p_node; p_node = list_next(p_node)) { p_dev_old_rec = list_node(p_node); /* look for old entry which match the bd_addr and the BTM_SEC_IN_USE is cleared */ if (!(p_dev_old_rec->sec_flags & BTM_SEC_IN_USE) && (!memcmp (p_dev_old_rec->bd_addr, bd_addr, BD_ADDR_LEN))) { old_entry_found = TRUE; BTM_TRACE_EVENT ("btm_sec_alloc_dev old device found\n"); break; } } for (p_node = list_begin(btm_cb.p_sec_dev_rec_list); p_node; p_node = list_next(p_node)) { p_dev_new_rec = list_node(p_node); /* find the first entry whose BTM_SEC_IN_USE is cleared */ if (!(p_dev_new_rec->sec_flags & BTM_SEC_IN_USE)) { new_entry_found = TRUE; break; } } if (!new_entry_found) { /* We can not find new device. We need malloc a new one if p_sec_dev_rec_list is not full */ if (list_length(btm_cb.p_sec_dev_rec_list) < BTM_SEC_MAX_DEVICE_RECORDS){ p_dev_new_rec = (tBTM_SEC_DEV_REC *)osi_malloc(sizeof(tBTM_SEC_DEV_REC)); if (p_dev_new_rec) { new_entry_found = TRUE; malloc_new_entry = TRUE; } else { return NULL; } } } if (!new_entry_found) { p_dev_rec = btm_find_oldest_dev(); } else { /* if the old device entry not present go with new entry */ if (old_entry_found) { p_dev_rec = p_dev_old_rec; if (malloc_new_entry) { osi_free(p_dev_new_rec); } } else { if (malloc_new_entry) { list_append(btm_cb.p_sec_dev_rec_list, p_dev_new_rec); } p_dev_rec = p_dev_new_rec; } } memset (p_dev_rec, 0, sizeof (tBTM_SEC_DEV_REC)); p_dev_rec->bond_type = BOND_TYPE_UNKNOWN; /* Default value */ p_dev_rec->sec_flags = BTM_SEC_IN_USE; /* Check with the BT manager if details about remote device are known */ /* outgoing connection */ if ((p_inq_info = BTM_InqDbRead(bd_addr)) != NULL) { memcpy (p_dev_rec->dev_class, p_inq_info->results.dev_class, DEV_CLASS_LEN); #if BLE_INCLUDED == TRUE p_dev_rec->device_type = p_inq_info->results.device_type; p_dev_rec->ble.ble_addr_type = p_inq_info->results.ble_addr_type; /* update conn params, use default value for background connection params */ memset(&p_dev_rec->conn_params, 0xff, sizeof(tBTM_LE_CONN_PRAMS)); #endif } else { #if BLE_INCLUDED == TRUE /* update conn params, use default value for background connection params */ memset(&p_dev_rec->conn_params, 0xff, sizeof(tBTM_LE_CONN_PRAMS)); #endif if (!memcmp (bd_addr, btm_cb.connecting_bda, BD_ADDR_LEN)) { memcpy (p_dev_rec->dev_class, btm_cb.connecting_dc, DEV_CLASS_LEN); } } memcpy (p_dev_rec->bd_addr, bd_addr, BD_ADDR_LEN); #if BLE_INCLUDED == TRUE p_dev_rec->ble_hci_handle = BTM_GetHCIConnHandle (bd_addr, BT_TRANSPORT_LE); #endif p_dev_rec->hci_handle = BTM_GetHCIConnHandle (bd_addr, BT_TRANSPORT_BR_EDR); p_dev_rec->timestamp = btm_cb.dev_rec_count++; return (p_dev_rec); } /******************************************************************************* ** ** Function btm_sec_free_dev ** ** Description Mark device record as not used ** *******************************************************************************/ void btm_sec_free_dev (tBTM_SEC_DEV_REC *p_dev_rec, tBT_TRANSPORT transport) { if (transport == BT_TRANSPORT_BR_EDR) { memset(p_dev_rec->link_key, 0, LINK_KEY_LEN); p_dev_rec->sec_flags &= ~(BTM_SEC_AUTHORIZED | BTM_SEC_AUTHENTICATED | BTM_SEC_ENCRYPTED | BTM_SEC_NAME_KNOWN | BTM_SEC_LINK_KEY_KNOWN | BTM_SEC_LINK_KEY_AUTHED | BTM_SEC_ROLE_SWITCHED | BTM_SEC_16_DIGIT_PIN_AUTHED); } else if (transport == BT_TRANSPORT_LE) { p_dev_rec->bond_type = BOND_TYPE_UNKNOWN; p_dev_rec->sec_flags &= ~(BTM_SEC_LE_AUTHENTICATED | BTM_SEC_LE_ENCRYPTED | BTM_SEC_LE_NAME_KNOWN | BTM_SEC_LE_LINK_KEY_KNOWN | BTM_SEC_LE_LINK_KEY_AUTHED | BTM_SEC_ROLE_SWITCHED); #if BLE_INCLUDED == TRUE /* Clear out any saved BLE keys */ btm_sec_clear_ble_keys (p_dev_rec); #endif } else { p_dev_rec->bond_type = BOND_TYPE_UNKNOWN; memset(p_dev_rec->link_key, 0, LINK_KEY_LEN); p_dev_rec->sec_flags = 0; #if BLE_INCLUDED == TRUE /* Clear out any saved BLE keys */ btm_sec_clear_ble_keys (p_dev_rec); #endif } /* No BLE keys and BT keys, clear the sec_flags */ if(p_dev_rec->sec_flags == BTM_SEC_IN_USE) { p_dev_rec->sec_flags = 0; } list_remove(btm_cb.p_sec_dev_rec_list, p_dev_rec); } /******************************************************************************* ** ** Function btm_dev_support_switch ** ** Description This function is called by the L2CAP to check if remote ** device supports role switch ** ** Parameters: bd_addr - Address of the peer device ** ** Returns TRUE if device is known and role switch is supported ** *******************************************************************************/ BOOLEAN btm_dev_support_switch (BD_ADDR bd_addr) { tBTM_SEC_DEV_REC *p_dev_rec; UINT8 xx; BOOLEAN feature_empty = TRUE; #if BTM_SCO_INCLUDED == TRUE /* Role switch is not allowed if a SCO is up */ if (btm_is_sco_active_by_bdaddr(bd_addr)) { return (FALSE); } #endif p_dev_rec = btm_find_dev (bd_addr); if (p_dev_rec && controller_get_interface()->supports_master_slave_role_switch()) { if (HCI_SWITCH_SUPPORTED(p_dev_rec->features[HCI_EXT_FEATURES_PAGE_0])) { BTM_TRACE_DEBUG("btm_dev_support_switch return TRUE (feature found)\n"); return (TRUE); } /* If the feature field is all zero, we never received them */ for (xx = 0 ; xx < BD_FEATURES_LEN ; xx++) { if (p_dev_rec->features[HCI_EXT_FEATURES_PAGE_0][xx] != 0x00) { feature_empty = FALSE; /* at least one is != 0 */ break; } } /* If we don't know peer's capabilities, assume it supports Role-switch */ if (feature_empty) { BTM_TRACE_DEBUG("btm_dev_support_switch return TRUE (feature empty)\n"); return (TRUE); } } BTM_TRACE_DEBUG("btm_dev_support_switch return FALSE\n"); return (FALSE); } /******************************************************************************* ** ** Function btm_find_dev_by_handle ** ** Description Look for the record in the device database for the record ** with specified handle ** ** Returns Pointer to the record or NULL ** *******************************************************************************/ tBTM_SEC_DEV_REC *btm_find_dev_by_handle (UINT16 handle) { tBTM_SEC_DEV_REC *p_dev_rec = NULL; list_node_t *p_node = NULL; tSecDevContext context; context.type = SEC_DEV_HDL; context.context.handle = handle; context.free_check = FALSE; p_node = list_foreach(btm_cb.p_sec_dev_rec_list, btm_find_sec_dev_in_list, &context); if (p_node) { p_dev_rec = list_node(p_node); } return (p_dev_rec); } /******************************************************************************* ** ** Function btm_find_dev ** ** Description Look for the record in the device database for the record ** with specified BD address ** ** Returns Pointer to the record or NULL ** *******************************************************************************/ tBTM_SEC_DEV_REC *btm_find_dev(BD_ADDR bd_addr) { if(bd_addr) { list_node_t *p_node = NULL; tSecDevContext context; context.type = SEC_DEV_BTDM_BDA; context.context.p_bd_addr = bd_addr; context.free_check = FALSE; p_node = list_foreach(btm_cb.p_sec_dev_rec_list, btm_find_sec_dev_in_list, &context); if (p_node) { return(list_node(p_node)); } } return (NULL); } /******************************************************************************* ** ** Function btm_consolidate_dev ** ** Description combine security records if identified as same peer ** ** Returns none ** *******************************************************************************/ void btm_consolidate_dev(tBTM_SEC_DEV_REC *p_target_rec) { #if BLE_INCLUDED == TRUE && SMP_INCLUDED == TRUE tBTM_SEC_DEV_REC *p_dev_rec = NULL; tBTM_SEC_DEV_REC temp_rec = *p_target_rec; list_node_t *p_node = NULL; BTM_TRACE_DEBUG("%s\n", __func__); for (p_node = list_begin(btm_cb.p_sec_dev_rec_list); p_node; p_node = list_next(p_node)) { p_dev_rec = list_node(p_node); if (p_target_rec != p_dev_rec && p_dev_rec->sec_flags & BTM_SEC_IN_USE) { if (!memcmp (p_dev_rec->bd_addr, p_target_rec->bd_addr, BD_ADDR_LEN)) { memcpy(p_target_rec, p_dev_rec, sizeof(tBTM_SEC_DEV_REC)); p_target_rec->ble = temp_rec.ble; p_target_rec->ble_hci_handle = temp_rec.ble_hci_handle; p_target_rec->enc_key_size = temp_rec.enc_key_size; p_target_rec->conn_params = temp_rec.conn_params; p_target_rec->device_type |= temp_rec.device_type; p_target_rec->sec_flags |= temp_rec.sec_flags; p_target_rec->new_encryption_key_is_p256 = temp_rec.new_encryption_key_is_p256; p_target_rec->no_smp_on_br = temp_rec.no_smp_on_br; p_target_rec->bond_type = temp_rec.bond_type; /* Remove the unused device from the list */ list_remove(btm_cb.p_sec_dev_rec_list, p_dev_rec); break; } /* an RPA device entry is a duplicate of the target record */ if (btm_ble_addr_resolvable(p_dev_rec->bd_addr, p_target_rec)) { if (memcmp(p_target_rec->ble.pseudo_addr, p_dev_rec->bd_addr, BD_ADDR_LEN) == 0) { p_target_rec->ble.ble_addr_type = p_dev_rec->ble.ble_addr_type; p_target_rec->device_type |= p_dev_rec->device_type; /* Remove the unused device from the list */ list_remove(btm_cb.p_sec_dev_rec_list, p_dev_rec); } break; } } } #endif } /******************************************************************************* ** ** Function btm_find_or_alloc_dev ** ** Description Look for the record in the device database for the record ** with specified BD address ** ** Returns Pointer to the record or NULL ** *******************************************************************************/ tBTM_SEC_DEV_REC *btm_find_or_alloc_dev (BD_ADDR bd_addr) { tBTM_SEC_DEV_REC *p_dev_rec; BTM_TRACE_EVENT ("btm_find_or_alloc_dev\n"); if ((p_dev_rec = btm_find_dev (bd_addr)) == NULL) { /* Allocate a new device record or reuse the oldest one */ p_dev_rec = btm_sec_alloc_dev (bd_addr); } return (p_dev_rec); } /******************************************************************************* ** ** Function btm_find_oldest_dev ** ** Description Locates the oldest device in use. It first looks for ** the oldest non-paired device. If all devices are paired it ** deletes the oldest paired device. ** ** Returns Pointer to the record or NULL ** *******************************************************************************/ tBTM_SEC_DEV_REC *btm_find_oldest_dev (void) { tBTM_SEC_DEV_REC *p_dev_rec = NULL; tBTM_SEC_DEV_REC *p_oldest = NULL; list_node_t *p_node = NULL; UINT32 ot = 0xFFFFFFFF; /* First look for the non-paired devices for the oldest entry */ for (p_node = list_begin(btm_cb.p_sec_dev_rec_list); p_node; p_node = list_next(p_node)) { p_dev_rec = list_node(p_node); if (((p_dev_rec->sec_flags & BTM_SEC_IN_USE) == 0) || ((p_dev_rec->sec_flags & (BTM_SEC_LINK_KEY_KNOWN | BTM_SEC_LE_LINK_KEY_KNOWN)) != 0)) { continue; /* Device is paired so skip it */ } if (p_dev_rec->timestamp < ot) { p_oldest = p_dev_rec; ot = p_dev_rec->timestamp; } } if (ot != 0xFFFFFFFF) { return (p_oldest); } /* All devices are paired; find the oldest */ for (p_node = list_begin(btm_cb.p_sec_dev_rec_list); p_node; p_node = list_next(p_node)) { if ((p_dev_rec->sec_flags & BTM_SEC_IN_USE) == 0) { continue; } if (p_dev_rec->timestamp < ot) { p_oldest = p_dev_rec; ot = p_dev_rec->timestamp; } } return (p_oldest); } /******************************************************************************* ** ** Function btm_get_bond_type_dev ** ** Description Get the bond type for a device in the device database ** with specified BD address ** ** Returns The device bond type if known, otherwise BOND_TYPE_UNKNOWN ** *******************************************************************************/ tBTM_BOND_TYPE btm_get_bond_type_dev(BD_ADDR bd_addr) { tBTM_SEC_DEV_REC *p_dev_rec = btm_find_dev(bd_addr); if (p_dev_rec == NULL) { return BOND_TYPE_UNKNOWN; } return p_dev_rec->bond_type; } /******************************************************************************* ** ** Function btm_set_bond_type_dev ** ** Description Set the bond type for a device in the device database ** with specified BD address ** ** Returns TRUE on success, otherwise FALSE ** *******************************************************************************/ BOOLEAN btm_set_bond_type_dev(BD_ADDR bd_addr, tBTM_BOND_TYPE bond_type) { tBTM_SEC_DEV_REC *p_dev_rec = btm_find_dev(bd_addr); if (p_dev_rec == NULL) { return FALSE; } p_dev_rec->bond_type = bond_type; return TRUE; } /******************************************************************************* ** ** Function btm_sec_dev_init ** ** Description Create new linked list for dynamic allocation on sec_dev_rec ** *******************************************************************************/ void btm_sec_dev_init(void) { btm_cb.p_sec_dev_rec_list = list_new(osi_free_func); } /******************************************************************************* ** ** Function btm_sec_dev_free ** ** Description Delete sec_dev_rec list when btm_cb is being released ** *******************************************************************************/ void btm_sec_dev_free(void) { list_free(btm_cb.p_sec_dev_rec_list); }