src/ble/sm.c

3deb3ec6SMatthias Ringwald/*
3deb3ec6SMatthias Ringwald * Copyright (C) 2014 BlueKitchen GmbH
3deb3ec6SMatthias Ringwald *
3deb3ec6SMatthias Ringwald * Redistribution and use in source and binary forms, with or without
3deb3ec6SMatthias Ringwald * modification, are permitted provided that the following conditions
3deb3ec6SMatthias Ringwald * are met:
3deb3ec6SMatthias Ringwald *
3deb3ec6SMatthias Ringwald * 1. Redistributions of source code must retain the above copyright
3deb3ec6SMatthias Ringwald *    notice, this list of conditions and the following disclaimer.
3deb3ec6SMatthias Ringwald * 2. Redistributions in binary form must reproduce the above copyright
3deb3ec6SMatthias Ringwald *    notice, this list of conditions and the following disclaimer in the
3deb3ec6SMatthias Ringwald *    documentation and/or other materials provided with the distribution.
3deb3ec6SMatthias Ringwald * 3. Neither the name of the copyright holders nor the names of
3deb3ec6SMatthias Ringwald *    contributors may be used to endorse or promote products derived
3deb3ec6SMatthias Ringwald *    from this software without specific prior written permission.
3deb3ec6SMatthias Ringwald * 4. Any redistribution, use, or modification is done solely for
3deb3ec6SMatthias Ringwald *    personal benefit and not for any commercial purpose or for
3deb3ec6SMatthias Ringwald *    monetary gain.
3deb3ec6SMatthias Ringwald *
3deb3ec6SMatthias Ringwald * THIS SOFTWARE IS PROVIDED BY BLUEKITCHEN GMBH AND CONTRIBUTORS
3deb3ec6SMatthias Ringwald * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
3deb3ec6SMatthias Ringwald * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
3deb3ec6SMatthias Ringwald * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL MATTHIAS
3deb3ec6SMatthias Ringwald * RINGWALD OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
3deb3ec6SMatthias Ringwald * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
3deb3ec6SMatthias Ringwald * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
3deb3ec6SMatthias Ringwald * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
3deb3ec6SMatthias Ringwald * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
3deb3ec6SMatthias Ringwald * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
3deb3ec6SMatthias Ringwald * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
3deb3ec6SMatthias Ringwald * SUCH DAMAGE.
3deb3ec6SMatthias Ringwald *
3deb3ec6SMatthias Ringwald * Please inquire about commercial licensing options at
3deb3ec6SMatthias Ringwald * [email protected]
3deb3ec6SMatthias Ringwald *
3deb3ec6SMatthias Ringwald */
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald#include <stdio.h>
3deb3ec6SMatthias Ringwald#include <string.h>
3deb3ec6SMatthias Ringwald#include <inttypes.h>
3deb3ec6SMatthias Ringwald
3edc84c5SMatthias Ringwald#include "ble/le_device_db.h"
59c6af15SMatthias Ringwald#include "ble/core.h"
3edc84c5SMatthias Ringwald#include "ble/sm.h"
0e2df43fSMatthias Ringwald#include "btstack_debug.h"
0e2df43fSMatthias Ringwald#include "btstack_event.h"
0e2df43fSMatthias Ringwald#include "btstack_linked_list.h"
0e2df43fSMatthias Ringwald#include "btstack_memory.h"
f7a05cdaSMatthias Ringwald#include "gap.h"
0e2df43fSMatthias Ringwald#include "hci.h"
0e2df43fSMatthias Ringwald#include "l2cap.h"
3deb3ec6SMatthias Ringwald
e53be891SMatthias Ringwald#ifdef ENABLE_LE_SECURE_CONNECTIONS
e53be891SMatthias Ringwald// TODO: remove software AES
e53be891SMatthias Ringwald#include "rijndael.h"
e53be891SMatthias Ringwald#endif
e53be891SMatthias Ringwald
27c32905SMatthias Ringwald#if defined(ENABLE_LE_SECURE_CONNECTIONS) && !defined(HAVE_HCI_CONTROLLER_DHKEY_SUPPORT)
27c32905SMatthias Ringwald#define USE_MBEDTLS_FOR_ECDH
27c32905SMatthias Ringwald#endif
27c32905SMatthias Ringwald
27c32905SMatthias Ringwald// Software ECDH implementation provided by mbedtls
27c32905SMatthias Ringwald#ifdef USE_MBEDTLS_FOR_ECDH
27c32905SMatthias Ringwald#if !defined(MBEDTLS_CONFIG_FILE)
27c32905SMatthias Ringwald#include "mbedtls/config.h"
27c32905SMatthias Ringwald#else
27c32905SMatthias Ringwald#include MBEDTLS_CONFIG_FILE
27c32905SMatthias Ringwald#endif
27c32905SMatthias Ringwald#if defined(MBEDTLS_PLATFORM_C)
27c32905SMatthias Ringwald#include "mbedtls/platform.h"
27c32905SMatthias Ringwald#else
27c32905SMatthias Ringwald#include <stdio.h>
27c32905SMatthias Ringwald#define mbedtls_printf     printf
27c32905SMatthias Ringwald#endif
27c32905SMatthias Ringwald#include "mbedtls/ecp.h"
27c32905SMatthias Ringwald#endif
27c32905SMatthias Ringwald
3deb3ec6SMatthias Ringwald//
3deb3ec6SMatthias Ringwald// SM internal types and globals
3deb3ec6SMatthias Ringwald//
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldtypedef enum {
3deb3ec6SMatthias Ringwald    DKG_W4_WORKING,
3deb3ec6SMatthias Ringwald    DKG_CALC_IRK,
3deb3ec6SMatthias Ringwald    DKG_W4_IRK,
3deb3ec6SMatthias Ringwald    DKG_CALC_DHK,
3deb3ec6SMatthias Ringwald    DKG_W4_DHK,
3deb3ec6SMatthias Ringwald    DKG_READY
3deb3ec6SMatthias Ringwald} derived_key_generation_t;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldtypedef enum {
3deb3ec6SMatthias Ringwald    RAU_W4_WORKING,
3deb3ec6SMatthias Ringwald    RAU_IDLE,
3deb3ec6SMatthias Ringwald    RAU_GET_RANDOM,
3deb3ec6SMatthias Ringwald    RAU_W4_RANDOM,
3deb3ec6SMatthias Ringwald    RAU_GET_ENC,
3deb3ec6SMatthias Ringwald    RAU_W4_ENC,
3deb3ec6SMatthias Ringwald    RAU_SET_ADDRESS,
3deb3ec6SMatthias Ringwald} random_address_update_t;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldtypedef enum {
3deb3ec6SMatthias Ringwald    CMAC_IDLE,
3deb3ec6SMatthias Ringwald    CMAC_CALC_SUBKEYS,
3deb3ec6SMatthias Ringwald    CMAC_W4_SUBKEYS,
3deb3ec6SMatthias Ringwald    CMAC_CALC_MI,
3deb3ec6SMatthias Ringwald    CMAC_W4_MI,
3deb3ec6SMatthias Ringwald    CMAC_CALC_MLAST,
3deb3ec6SMatthias Ringwald    CMAC_W4_MLAST
3deb3ec6SMatthias Ringwald} cmac_state_t;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldtypedef enum {
3deb3ec6SMatthias Ringwald    JUST_WORKS,
27c32905SMatthias Ringwald    PK_RESP_INPUT,  // Initiator displays PK, responder inputs PK
27c32905SMatthias Ringwald    PK_INIT_INPUT,  // Responder displays PK, initiator inputs PK
3deb3ec6SMatthias Ringwald    OK_BOTH_INPUT,  // Only input on both, both input PK
27c32905SMatthias Ringwald    NK_BOTH_INPUT,  // Only numerical compparison (yes/no) on on both sides
3deb3ec6SMatthias Ringwald    OOB             // OOB available on both sides
3deb3ec6SMatthias Ringwald} stk_generation_method_t;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldtypedef enum {
3deb3ec6SMatthias Ringwald    SM_USER_RESPONSE_IDLE,
3deb3ec6SMatthias Ringwald    SM_USER_RESPONSE_PENDING,
3deb3ec6SMatthias Ringwald    SM_USER_RESPONSE_CONFIRM,
3deb3ec6SMatthias Ringwald    SM_USER_RESPONSE_PASSKEY,
3deb3ec6SMatthias Ringwald    SM_USER_RESPONSE_DECLINE
3deb3ec6SMatthias Ringwald} sm_user_response_t;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldtypedef enum {
3deb3ec6SMatthias Ringwald    SM_AES128_IDLE,
3deb3ec6SMatthias Ringwald    SM_AES128_ACTIVE
3deb3ec6SMatthias Ringwald} sm_aes128_state_t;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldtypedef enum {
3deb3ec6SMatthias Ringwald    ADDRESS_RESOLUTION_IDLE,
3deb3ec6SMatthias Ringwald    ADDRESS_RESOLUTION_GENERAL,
3deb3ec6SMatthias Ringwald    ADDRESS_RESOLUTION_FOR_CONNECTION,
3deb3ec6SMatthias Ringwald} address_resolution_mode_t;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldtypedef enum {
3deb3ec6SMatthias Ringwald    ADDRESS_RESOLUTION_SUCEEDED,
3deb3ec6SMatthias Ringwald    ADDRESS_RESOLUTION_FAILED,
3deb3ec6SMatthias Ringwald} address_resolution_event_t;
3deb3ec6SMatthias Ringwald//
3deb3ec6SMatthias Ringwald// GLOBAL DATA
3deb3ec6SMatthias Ringwald//
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic uint8_t test_use_fixed_local_csrk;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// configuration
3deb3ec6SMatthias Ringwaldstatic uint8_t sm_accepted_stk_generation_methods;
3deb3ec6SMatthias Ringwaldstatic uint8_t sm_max_encryption_key_size;
3deb3ec6SMatthias Ringwaldstatic uint8_t sm_min_encryption_key_size;
3deb3ec6SMatthias Ringwaldstatic uint8_t sm_auth_req = 0;
3deb3ec6SMatthias Ringwaldstatic uint8_t sm_io_capabilities = IO_CAPABILITY_NO_INPUT_NO_OUTPUT;
3deb3ec6SMatthias Ringwaldstatic uint8_t sm_slave_request_security;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// Security Manager Master Keys, please use sm_set_er(er) and sm_set_ir(ir) with your own 128 bit random values
3deb3ec6SMatthias Ringwaldstatic sm_key_t sm_persistent_er;
3deb3ec6SMatthias Ringwaldstatic sm_key_t sm_persistent_ir;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// derived from sm_persistent_ir
3deb3ec6SMatthias Ringwaldstatic sm_key_t sm_persistent_dhk;
3deb3ec6SMatthias Ringwaldstatic sm_key_t sm_persistent_irk;
3deb3ec6SMatthias Ringwaldstatic uint8_t  sm_persistent_irk_ready = 0;    // used for testing
3deb3ec6SMatthias Ringwaldstatic derived_key_generation_t dkg_state;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// derived from sm_persistent_er
3deb3ec6SMatthias Ringwald// ..
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// random address update
3deb3ec6SMatthias Ringwaldstatic random_address_update_t rau_state;
3deb3ec6SMatthias Ringwaldstatic bd_addr_t sm_random_address;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// CMAC calculation
3deb3ec6SMatthias Ringwaldstatic cmac_state_t sm_cmac_state;
3deb3ec6SMatthias Ringwaldstatic sm_key_t     sm_cmac_k;
3deb3ec6SMatthias Ringwaldstatic uint8_t      sm_cmac_header[3];
3deb3ec6SMatthias Ringwaldstatic uint16_t     sm_cmac_message_len;
3deb3ec6SMatthias Ringwaldstatic uint8_t *    sm_cmac_message;
3deb3ec6SMatthias Ringwaldstatic uint8_t      sm_cmac_sign_counter[4];
3deb3ec6SMatthias Ringwaldstatic sm_key_t     sm_cmac_m_last;
3deb3ec6SMatthias Ringwaldstatic sm_key_t     sm_cmac_x;
3deb3ec6SMatthias Ringwaldstatic uint8_t      sm_cmac_block_current;
3deb3ec6SMatthias Ringwaldstatic uint8_t      sm_cmac_block_count;
3deb3ec6SMatthias Ringwaldstatic void (*sm_cmac_done_handler)(uint8_t hash[8]);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// resolvable private address lookup / CSRK calculation
3deb3ec6SMatthias Ringwaldstatic int       sm_address_resolution_test;
3deb3ec6SMatthias Ringwaldstatic int       sm_address_resolution_ah_calculation_active;
3deb3ec6SMatthias Ringwaldstatic uint8_t   sm_address_resolution_addr_type;
3deb3ec6SMatthias Ringwaldstatic bd_addr_t sm_address_resolution_address;
3deb3ec6SMatthias Ringwaldstatic void *    sm_address_resolution_context;
3deb3ec6SMatthias Ringwaldstatic address_resolution_mode_t sm_address_resolution_mode;
8f2a52f4SMatthias Ringwaldstatic btstack_linked_list_t sm_address_resolution_general_queue;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// aes128 crypto engine. store current sm_connection_t in sm_aes128_context
3deb3ec6SMatthias Ringwaldstatic sm_aes128_state_t  sm_aes128_state;
3deb3ec6SMatthias Ringwaldstatic void *             sm_aes128_context;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// random engine. store context (ususally sm_connection_t)
3deb3ec6SMatthias Ringwaldstatic void * sm_random_context;
3deb3ec6SMatthias Ringwald
e03e489aSMatthias Ringwald// to receive hci events
e03e489aSMatthias Ringwaldstatic btstack_packet_callback_registration_t hci_event_callback_registration;
e03e489aSMatthias Ringwald
89a78d34SMatthias Ringwald/* to dispatch sm event */
89a78d34SMatthias Ringwaldstatic btstack_linked_list_t sm_event_handlers;
89a78d34SMatthias Ringwald
27c32905SMatthias Ringwald// Software ECDH implementation provided by mbedtls
27c32905SMatthias Ringwald#ifdef USE_MBEDTLS_FOR_ECDH
27c32905SMatthias Ringwaldmbedtls_ecp_keypair le_keypair;
27c32905SMatthias Ringwald#endif
27c32905SMatthias Ringwald
3deb3ec6SMatthias Ringwald//
3deb3ec6SMatthias Ringwald// Volume 3, Part H, Chapter 24
3deb3ec6SMatthias Ringwald// "Security shall be initiated by the Security Manager in the device in the master role.
3deb3ec6SMatthias Ringwald// The device in the slave role shall be the responding device."
3deb3ec6SMatthias Ringwald// -> master := initiator, slave := responder
3deb3ec6SMatthias Ringwald//
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// data needed for security setup
3deb3ec6SMatthias Ringwaldtypedef struct sm_setup_context {
3deb3ec6SMatthias Ringwald
ec820d77SMatthias Ringwald    btstack_timer_source_t sm_timeout;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // used in all phases
3deb3ec6SMatthias Ringwald    uint8_t   sm_pairing_failed_reason;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // user response, (Phase 1 and/or 2)
3deb3ec6SMatthias Ringwald    uint8_t   sm_user_response;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // defines which keys will be send after connection is encrypted - calculated during Phase 1, used Phase 3
3deb3ec6SMatthias Ringwald    int       sm_key_distribution_send_set;
3deb3ec6SMatthias Ringwald    int       sm_key_distribution_received_set;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // Phase 2 (Pairing over SMP)
3deb3ec6SMatthias Ringwald    stk_generation_method_t sm_stk_generation_method;
3deb3ec6SMatthias Ringwald    sm_key_t  sm_tk;
27c32905SMatthias Ringwald    uint8_t   sm_use_secure_connections;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    sm_key_t  sm_c1_t3_value;   // c1 calculation
3deb3ec6SMatthias Ringwald    sm_pairing_packet_t sm_m_preq; // pairing request - needed only for c1
3deb3ec6SMatthias Ringwald    sm_pairing_packet_t sm_s_pres; // pairing response - needed only for c1
3deb3ec6SMatthias Ringwald    sm_key_t  sm_local_random;
3deb3ec6SMatthias Ringwald    sm_key_t  sm_local_confirm;
3deb3ec6SMatthias Ringwald    sm_key_t  sm_peer_random;
3deb3ec6SMatthias Ringwald    sm_key_t  sm_peer_confirm;
3deb3ec6SMatthias Ringwald    uint8_t   sm_m_addr_type;   // address and type can be removed
3deb3ec6SMatthias Ringwald    uint8_t   sm_s_addr_type;   //  ''
3deb3ec6SMatthias Ringwald    bd_addr_t sm_m_address;     //  ''
3deb3ec6SMatthias Ringwald    bd_addr_t sm_s_address;     //  ''
3deb3ec6SMatthias Ringwald    sm_key_t  sm_ltk;
3deb3ec6SMatthias Ringwald
e53be891SMatthias Ringwald#ifdef ENABLE_LE_SECURE_CONNECTIONS
27c32905SMatthias Ringwald    uint8_t   sm_peer_qx[32];
27c32905SMatthias Ringwald    uint8_t   sm_peer_qy[32];
*446a8c36SMatthias Ringwald    sm_key_t  sm_peer_nonce;    // might be combined with sm_peer_random
*446a8c36SMatthias Ringwald    sm_key_t  sm_local_nonce;   // might be combined with sm_local_random
e53be891SMatthias Ringwald    sm_key_t  sm_peer_dhkey_check;
e53be891SMatthias Ringwald    sm_key_t  sm_local_dhkey_check;
*446a8c36SMatthias Ringwald    sm_key_t  sm_ra;
*446a8c36SMatthias Ringwald    sm_key_t  sm_rb;
e53be891SMatthias Ringwald#endif
27c32905SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // Phase 3
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // key distribution, we generate
3deb3ec6SMatthias Ringwald    uint16_t  sm_local_y;
3deb3ec6SMatthias Ringwald    uint16_t  sm_local_div;
3deb3ec6SMatthias Ringwald    uint16_t  sm_local_ediv;
3deb3ec6SMatthias Ringwald    uint8_t   sm_local_rand[8];
3deb3ec6SMatthias Ringwald    sm_key_t  sm_local_ltk;
3deb3ec6SMatthias Ringwald    sm_key_t  sm_local_csrk;
3deb3ec6SMatthias Ringwald    sm_key_t  sm_local_irk;
3deb3ec6SMatthias Ringwald    // sm_local_address/addr_type not needed
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // key distribution, received from peer
3deb3ec6SMatthias Ringwald    uint16_t  sm_peer_y;
3deb3ec6SMatthias Ringwald    uint16_t  sm_peer_div;
3deb3ec6SMatthias Ringwald    uint16_t  sm_peer_ediv;
3deb3ec6SMatthias Ringwald    uint8_t   sm_peer_rand[8];
3deb3ec6SMatthias Ringwald    sm_key_t  sm_peer_ltk;
3deb3ec6SMatthias Ringwald    sm_key_t  sm_peer_irk;
3deb3ec6SMatthias Ringwald    sm_key_t  sm_peer_csrk;
3deb3ec6SMatthias Ringwald    uint8_t   sm_peer_addr_type;
3deb3ec6SMatthias Ringwald    bd_addr_t sm_peer_address;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald} sm_setup_context_t;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald//
3deb3ec6SMatthias Ringwaldstatic sm_setup_context_t the_setup;
3deb3ec6SMatthias Ringwaldstatic sm_setup_context_t * setup = &the_setup;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// active connection - the one for which the_setup is used for
3deb3ec6SMatthias Ringwaldstatic uint16_t sm_active_connection = 0;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// @returns 1 if oob data is available
3deb3ec6SMatthias Ringwald// stores oob data in provided 16 byte buffer if not null
3deb3ec6SMatthias Ringwaldstatic int (*sm_get_oob_data)(uint8_t addres_type, bd_addr_t addr, uint8_t * oob_data) = NULL;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// used to notify applicationss that user interaction is neccessary, see sm_notify_t below
3deb3ec6SMatthias Ringwaldstatic btstack_packet_handler_t sm_client_packet_handler = NULL;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// horizontal: initiator capabilities
3deb3ec6SMatthias Ringwald// vertial:    responder capabilities
3deb3ec6SMatthias Ringwaldstatic const stk_generation_method_t stk_generation_method [5] [5] = {
3deb3ec6SMatthias Ringwald    { JUST_WORKS,      JUST_WORKS,       PK_INIT_INPUT,   JUST_WORKS,    PK_INIT_INPUT },
3deb3ec6SMatthias Ringwald    { JUST_WORKS,      JUST_WORKS,       PK_INIT_INPUT,   JUST_WORKS,    PK_INIT_INPUT },
3deb3ec6SMatthias Ringwald    { PK_RESP_INPUT,   PK_RESP_INPUT,    OK_BOTH_INPUT,   JUST_WORKS,    PK_RESP_INPUT },
3deb3ec6SMatthias Ringwald    { JUST_WORKS,      JUST_WORKS,       JUST_WORKS,      JUST_WORKS,    JUST_WORKS    },
3deb3ec6SMatthias Ringwald    { PK_RESP_INPUT,   PK_RESP_INPUT,    PK_INIT_INPUT,   JUST_WORKS,    PK_RESP_INPUT },
3deb3ec6SMatthias Ringwald};
3deb3ec6SMatthias Ringwald
27c32905SMatthias Ringwald// uses numeric comparison if one side has DisplayYesNo and KeyboardDisplay combinations
27c32905SMatthias Ringwald#ifdef ENABLE_LE_SECURE_CONNECTIONS
27c32905SMatthias Ringwaldstatic const stk_generation_method_t stk_generation_method_with_secure_connection[5][5] = {
27c32905SMatthias Ringwald    { JUST_WORKS,      JUST_WORKS,       PK_INIT_INPUT,   JUST_WORKS,    PK_INIT_INPUT },
27c32905SMatthias Ringwald    { JUST_WORKS,      NK_BOTH_INPUT,    PK_INIT_INPUT,   JUST_WORKS,    NK_BOTH_INPUT },
27c32905SMatthias Ringwald    { PK_RESP_INPUT,   PK_RESP_INPUT,    OK_BOTH_INPUT,   JUST_WORKS,    PK_RESP_INPUT },
27c32905SMatthias Ringwald    { JUST_WORKS,      JUST_WORKS,       JUST_WORKS,      JUST_WORKS,    JUST_WORKS    },
27c32905SMatthias Ringwald    { PK_RESP_INPUT,   NK_BOTH_INPUT,    PK_INIT_INPUT,   JUST_WORKS,    NK_BOTH_INPUT },
27c32905SMatthias Ringwald};
27c32905SMatthias Ringwald#endif
27c32905SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic void sm_run(void);
711e6c80SMatthias Ringwaldstatic void sm_done_for_handle(hci_con_handle_t con_handle);
711e6c80SMatthias Ringwaldstatic sm_connection_t * sm_get_connection_for_handle(hci_con_handle_t con_handle);
3deb3ec6SMatthias Ringwaldstatic inline int sm_calc_actual_encryption_key_size(int other);
3deb3ec6SMatthias Ringwaldstatic int sm_validate_stk_generation_method(void);
e53be891SMatthias Ringwaldstatic void sm_shift_left_by_one_bit_inplace(int len, uint8_t * data);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic void log_info_hex16(const char * name, uint16_t value){
3deb3ec6SMatthias Ringwald    log_info("%-6s 0x%04x", name, value);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// @returns 1 if all bytes are 0
3deb3ec6SMatthias Ringwaldstatic int sm_is_null_random(uint8_t random[8]){
3deb3ec6SMatthias Ringwald    int i;
3deb3ec6SMatthias Ringwald    for (i=0; i < 8 ; i++){
3deb3ec6SMatthias Ringwald        if (random[i]) return 0;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald    return 1;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// Key utils
3deb3ec6SMatthias Ringwaldstatic void sm_reset_tk(void){
3deb3ec6SMatthias Ringwald    int i;
3deb3ec6SMatthias Ringwald    for (i=0;i<16;i++){
3deb3ec6SMatthias Ringwald        setup->sm_tk[i] = 0;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// "For example, if a 128-bit encryption key is 0x123456789ABCDEF0123456789ABCDEF0
3deb3ec6SMatthias Ringwald// and it is reduced to 7 octets (56 bits), then the resulting key is 0x0000000000000000003456789ABCDEF0.""
3deb3ec6SMatthias Ringwaldstatic void sm_truncate_key(sm_key_t key, int max_encryption_size){
3deb3ec6SMatthias Ringwald    int i;
3deb3ec6SMatthias Ringwald    for (i = max_encryption_size ; i < 16 ; i++){
3deb3ec6SMatthias Ringwald        key[15-i] = 0;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// SMP Timeout implementation
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// Upon transmission of the Pairing Request command or reception of the Pairing Request command,
3deb3ec6SMatthias Ringwald// the Security Manager Timer shall be reset and started.
3deb3ec6SMatthias Ringwald//
3deb3ec6SMatthias Ringwald// The Security Manager Timer shall be reset when an L2CAP SMP command is queued for transmission.
3deb3ec6SMatthias Ringwald//
3deb3ec6SMatthias Ringwald// If the Security Manager Timer reaches 30 seconds, the procedure shall be considered to have failed,
3deb3ec6SMatthias Ringwald// and the local higher layer shall be notified. No further SMP commands shall be sent over the L2CAP
3deb3ec6SMatthias Ringwald// Security Manager Channel. A new SM procedure shall only be performed when a new physical link has been
3deb3ec6SMatthias Ringwald// established.
3deb3ec6SMatthias Ringwald
ec820d77SMatthias Ringwaldstatic void sm_timeout_handler(btstack_timer_source_t * timer){
3deb3ec6SMatthias Ringwald    log_info("SM timeout");
c5b64319SMatthias Ringwald    sm_connection_t * sm_conn = (sm_connection_t*) btstack_run_loop_get_timer_context(timer);
3deb3ec6SMatthias Ringwald    sm_conn->sm_engine_state = SM_GENERAL_TIMEOUT;
3deb3ec6SMatthias Ringwald    sm_done_for_handle(sm_conn->sm_handle);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // trigger handling of next ready connection
3deb3ec6SMatthias Ringwald    sm_run();
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwaldstatic void sm_timeout_start(sm_connection_t * sm_conn){
528a4a3bSMatthias Ringwald    btstack_run_loop_remove_timer(&setup->sm_timeout);
91a977e8SMatthias Ringwald    btstack_run_loop_set_timer_context(&setup->sm_timeout, sm_conn);
528a4a3bSMatthias Ringwald    btstack_run_loop_set_timer_handler(&setup->sm_timeout, sm_timeout_handler);
528a4a3bSMatthias Ringwald    btstack_run_loop_set_timer(&setup->sm_timeout, 30000); // 30 seconds sm timeout
528a4a3bSMatthias Ringwald    btstack_run_loop_add_timer(&setup->sm_timeout);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwaldstatic void sm_timeout_stop(void){
528a4a3bSMatthias Ringwald    btstack_run_loop_remove_timer(&setup->sm_timeout);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwaldstatic void sm_timeout_reset(sm_connection_t * sm_conn){
3deb3ec6SMatthias Ringwald    sm_timeout_stop();
3deb3ec6SMatthias Ringwald    sm_timeout_start(sm_conn);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// end of sm timeout
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// GAP Random Address updates
3deb3ec6SMatthias Ringwaldstatic gap_random_address_type_t gap_random_adress_type;
ec820d77SMatthias Ringwaldstatic btstack_timer_source_t gap_random_address_update_timer;
3deb3ec6SMatthias Ringwaldstatic uint32_t gap_random_adress_update_period;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic void gap_random_address_trigger(void){
3deb3ec6SMatthias Ringwald    if (rau_state != RAU_IDLE) return;
3deb3ec6SMatthias Ringwald    log_info("gap_random_address_trigger");
3deb3ec6SMatthias Ringwald    rau_state = RAU_GET_RANDOM;
3deb3ec6SMatthias Ringwald    sm_run();
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
ec820d77SMatthias Ringwaldstatic void gap_random_address_update_handler(btstack_timer_source_t * timer){
3deb3ec6SMatthias Ringwald    log_info("GAP Random Address Update due");
528a4a3bSMatthias Ringwald    btstack_run_loop_set_timer(&gap_random_address_update_timer, gap_random_adress_update_period);
528a4a3bSMatthias Ringwald    btstack_run_loop_add_timer(&gap_random_address_update_timer);
3deb3ec6SMatthias Ringwald    gap_random_address_trigger();
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic void gap_random_address_update_start(void){
528a4a3bSMatthias Ringwald    btstack_run_loop_set_timer_handler(&gap_random_address_update_timer, gap_random_address_update_handler);
528a4a3bSMatthias Ringwald    btstack_run_loop_set_timer(&gap_random_address_update_timer, gap_random_adress_update_period);
528a4a3bSMatthias Ringwald    btstack_run_loop_add_timer(&gap_random_address_update_timer);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic void gap_random_address_update_stop(void){
528a4a3bSMatthias Ringwald    btstack_run_loop_remove_timer(&gap_random_address_update_timer);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic void sm_random_start(void * context){
3deb3ec6SMatthias Ringwald    sm_random_context = context;
3deb3ec6SMatthias Ringwald    hci_send_cmd(&hci_le_rand);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// pre: sm_aes128_state != SM_AES128_ACTIVE, hci_can_send_command == 1
3deb3ec6SMatthias Ringwald// context is made availabe to aes128 result handler by this
3deb3ec6SMatthias Ringwaldstatic void sm_aes128_start(sm_key_t key, sm_key_t plaintext, void * context){
3deb3ec6SMatthias Ringwald    sm_aes128_state = SM_AES128_ACTIVE;
3deb3ec6SMatthias Ringwald    sm_key_t key_flipped, plaintext_flipped;
9c80e4ccSMatthias Ringwald    reverse_128(key, key_flipped);
9c80e4ccSMatthias Ringwald    reverse_128(plaintext, plaintext_flipped);
3deb3ec6SMatthias Ringwald    sm_aes128_context = context;
3deb3ec6SMatthias Ringwald    hci_send_cmd(&hci_le_encrypt, key_flipped, plaintext_flipped);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// ah(k,r) helper
3deb3ec6SMatthias Ringwald// r = padding || r
3deb3ec6SMatthias Ringwald// r - 24 bit value
3deb3ec6SMatthias Ringwaldstatic void sm_ah_r_prime(uint8_t r[3], sm_key_t r_prime){
3deb3ec6SMatthias Ringwald    // r'= padding || r
3deb3ec6SMatthias Ringwald    memset(r_prime, 0, 16);
3deb3ec6SMatthias Ringwald    memcpy(&r_prime[13], r, 3);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// d1 helper
3deb3ec6SMatthias Ringwald// d' = padding || r || d
3deb3ec6SMatthias Ringwald// d,r - 16 bit values
3deb3ec6SMatthias Ringwaldstatic void sm_d1_d_prime(uint16_t d, uint16_t r, sm_key_t d1_prime){
3deb3ec6SMatthias Ringwald    // d'= padding || r || d
3deb3ec6SMatthias Ringwald    memset(d1_prime, 0, 16);
f8fbdce0SMatthias Ringwald    big_endian_store_16(d1_prime, 12, r);
f8fbdce0SMatthias Ringwald    big_endian_store_16(d1_prime, 14, d);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// dm helper
3deb3ec6SMatthias Ringwald// r’ = padding || r
3deb3ec6SMatthias Ringwald// r - 64 bit value
3deb3ec6SMatthias Ringwaldstatic void sm_dm_r_prime(uint8_t r[8], sm_key_t r_prime){
3deb3ec6SMatthias Ringwald    memset(r_prime, 0, 16);
3deb3ec6SMatthias Ringwald    memcpy(&r_prime[8], r, 8);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// calculate arguments for first AES128 operation in C1 function
3deb3ec6SMatthias Ringwaldstatic void sm_c1_t1(sm_key_t r, uint8_t preq[7], uint8_t pres[7], uint8_t iat, uint8_t rat, sm_key_t t1){
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // p1 = pres || preq || rat’ || iat’
3deb3ec6SMatthias Ringwald    // "The octet of iat’ becomes the least significant octet of p1 and the most signifi-
3deb3ec6SMatthias Ringwald    // cant octet of pres becomes the most significant octet of p1.
3deb3ec6SMatthias Ringwald    // For example, if the 8-bit iat’ is 0x01, the 8-bit rat’ is 0x00, the 56-bit preq
3deb3ec6SMatthias Ringwald    // is 0x07071000000101 and the 56 bit pres is 0x05000800000302 then
3deb3ec6SMatthias Ringwald    // p1 is 0x05000800000302070710000001010001."
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    sm_key_t p1;
9c80e4ccSMatthias Ringwald    reverse_56(pres, &p1[0]);
9c80e4ccSMatthias Ringwald    reverse_56(preq, &p1[7]);
3deb3ec6SMatthias Ringwald    p1[14] = rat;
3deb3ec6SMatthias Ringwald    p1[15] = iat;
8314c363SMatthias Ringwald    log_info_key("p1", p1);
8314c363SMatthias Ringwald    log_info_key("r", r);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // t1 = r xor p1
3deb3ec6SMatthias Ringwald    int i;
3deb3ec6SMatthias Ringwald    for (i=0;i<16;i++){
3deb3ec6SMatthias Ringwald        t1[i] = r[i] ^ p1[i];
3deb3ec6SMatthias Ringwald    }
8314c363SMatthias Ringwald    log_info_key("t1", t1);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// calculate arguments for second AES128 operation in C1 function
3deb3ec6SMatthias Ringwaldstatic void sm_c1_t3(sm_key_t t2, bd_addr_t ia, bd_addr_t ra, sm_key_t t3){
3deb3ec6SMatthias Ringwald     // p2 = padding || ia || ra
3deb3ec6SMatthias Ringwald    // "The least significant octet of ra becomes the least significant octet of p2 and
3deb3ec6SMatthias Ringwald    // the most significant octet of padding becomes the most significant octet of p2.
3deb3ec6SMatthias Ringwald    // For example, if 48-bit ia is 0xA1A2A3A4A5A6 and the 48-bit ra is
3deb3ec6SMatthias Ringwald    // 0xB1B2B3B4B5B6 then p2 is 0x00000000A1A2A3A4A5A6B1B2B3B4B5B6.
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    sm_key_t p2;
3deb3ec6SMatthias Ringwald    memset(p2, 0, 16);
3deb3ec6SMatthias Ringwald    memcpy(&p2[4],  ia, 6);
3deb3ec6SMatthias Ringwald    memcpy(&p2[10], ra, 6);
8314c363SMatthias Ringwald    log_info_key("p2", p2);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // c1 = e(k, t2_xor_p2)
3deb3ec6SMatthias Ringwald    int i;
3deb3ec6SMatthias Ringwald    for (i=0;i<16;i++){
3deb3ec6SMatthias Ringwald        t3[i] = t2[i] ^ p2[i];
3deb3ec6SMatthias Ringwald    }
8314c363SMatthias Ringwald    log_info_key("t3", t3);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic void sm_s1_r_prime(sm_key_t r1, sm_key_t r2, sm_key_t r_prime){
8314c363SMatthias Ringwald    log_info_key("r1", r1);
8314c363SMatthias Ringwald    log_info_key("r2", r2);
3deb3ec6SMatthias Ringwald    memcpy(&r_prime[8], &r2[8], 8);
3deb3ec6SMatthias Ringwald    memcpy(&r_prime[0], &r1[8], 8);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
e53be891SMatthias Ringwald#ifdef ENABLE_LE_SECURE_CONNECTIONS
e53be891SMatthias Ringwald// Software implementations of crypto toolbox for LE Secure Connection
e53be891SMatthias Ringwald// TODO: replace with code to use AES Engine of HCI Controller
e53be891SMatthias Ringwaldtypedef uint8_t sm_key24_t[3];
e53be891SMatthias Ringwaldtypedef uint8_t sm_key56_t[7];
e53be891SMatthias Ringwaldtypedef uint8_t sm_key256_t[32];
e53be891SMatthias Ringwald
e53be891SMatthias Ringwaldstatic void aes128_calc_cyphertext(const uint8_t key[16], const uint8_t plaintext[16], uint8_t cyphertext[16]){
e53be891SMatthias Ringwald    uint32_t rk[RKLENGTH(KEYBITS)];
e53be891SMatthias Ringwald    int nrounds = rijndaelSetupEncrypt(rk, &key[0], KEYBITS);
e53be891SMatthias Ringwald    rijndaelEncrypt(rk, nrounds, plaintext, cyphertext);
e53be891SMatthias Ringwald}
e53be891SMatthias Ringwald
e53be891SMatthias Ringwaldstatic void calc_subkeys(sm_key_t k0, sm_key_t k1, sm_key_t k2){
e53be891SMatthias Ringwald    memcpy(k1, k0, 16);
e53be891SMatthias Ringwald    sm_shift_left_by_one_bit_inplace(16, k1);
e53be891SMatthias Ringwald    if (k0[0] & 0x80){
e53be891SMatthias Ringwald        k1[15] ^= 0x87;
e53be891SMatthias Ringwald    }
e53be891SMatthias Ringwald    memcpy(k2, k1, 16);
e53be891SMatthias Ringwald    sm_shift_left_by_one_bit_inplace(16, k2);
e53be891SMatthias Ringwald    if (k1[0] & 0x80){
e53be891SMatthias Ringwald        k2[15] ^= 0x87;
e53be891SMatthias Ringwald    }
e53be891SMatthias Ringwald}
e53be891SMatthias Ringwald
e53be891SMatthias Ringwaldstatic void aes_cmac(sm_key_t aes_cmac, const sm_key_t key, const uint8_t * data, int cmac_message_len){
e53be891SMatthias Ringwald    sm_key_t k0, k1, k2, zero;
e53be891SMatthias Ringwald    memset(zero, 0, 16);
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald    aes128_calc_cyphertext(key, zero, k0);
e53be891SMatthias Ringwald    calc_subkeys(k0, k1, k2);
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald    int cmac_block_count = (cmac_message_len + 15) / 16;
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald    // step 3: ..
e53be891SMatthias Ringwald    if (cmac_block_count==0){
e53be891SMatthias Ringwald        cmac_block_count = 1;
e53be891SMatthias Ringwald    }
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald    // step 4: set m_last
e53be891SMatthias Ringwald    sm_key_t cmac_m_last;
e53be891SMatthias Ringwald    int sm_cmac_last_block_complete = cmac_message_len != 0 && (cmac_message_len & 0x0f) == 0;
e53be891SMatthias Ringwald    int i;
e53be891SMatthias Ringwald    if (sm_cmac_last_block_complete){
e53be891SMatthias Ringwald        for (i=0;i<16;i++){
e53be891SMatthias Ringwald            cmac_m_last[i] = data[cmac_message_len - 16 + i] ^ k1[i];
e53be891SMatthias Ringwald        }
e53be891SMatthias Ringwald    } else {
e53be891SMatthias Ringwald        int valid_octets_in_last_block = cmac_message_len & 0x0f;
e53be891SMatthias Ringwald        for (i=0;i<16;i++){
e53be891SMatthias Ringwald            if (i < valid_octets_in_last_block){
e53be891SMatthias Ringwald                cmac_m_last[i] = data[(cmac_message_len & 0xfff0) + i] ^ k2[i];
e53be891SMatthias Ringwald                continue;
e53be891SMatthias Ringwald            }
e53be891SMatthias Ringwald            if (i == valid_octets_in_last_block){
e53be891SMatthias Ringwald                cmac_m_last[i] = 0x80 ^ k2[i];
e53be891SMatthias Ringwald                continue;
e53be891SMatthias Ringwald            }
e53be891SMatthias Ringwald            cmac_m_last[i] = k2[i];
e53be891SMatthias Ringwald        }
e53be891SMatthias Ringwald    }
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald    // printf("sm_cmac_start: len %u, block count %u\n", cmac_message_len, cmac_block_count);
e53be891SMatthias Ringwald    // LOG_KEY(cmac_m_last);
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald    // Step 5
e53be891SMatthias Ringwald    sm_key_t cmac_x;
e53be891SMatthias Ringwald    memset(cmac_x, 0, 16);
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald    // Step 6
e53be891SMatthias Ringwald    sm_key_t sm_cmac_y;
e53be891SMatthias Ringwald    for (int block = 0 ; block < cmac_block_count-1 ; block++){
e53be891SMatthias Ringwald        for (i=0;i<16;i++){
e53be891SMatthias Ringwald            sm_cmac_y[i] = cmac_x[i] ^ data[block * 16 + i];
e53be891SMatthias Ringwald        }
e53be891SMatthias Ringwald        aes128_calc_cyphertext(key, sm_cmac_y, cmac_x);
e53be891SMatthias Ringwald    }
e53be891SMatthias Ringwald    for (i=0;i<16;i++){
e53be891SMatthias Ringwald        sm_cmac_y[i] = cmac_x[i] ^ cmac_m_last[i];
e53be891SMatthias Ringwald    }
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald    // Step 7
e53be891SMatthias Ringwald    aes128_calc_cyphertext(key, sm_cmac_y, aes_cmac);
e53be891SMatthias Ringwald}
e53be891SMatthias Ringwald
e53be891SMatthias Ringwaldstatic void f4(sm_key_t res, const sm_key256_t u, const sm_key256_t v, const sm_key_t x, uint8_t z){
e53be891SMatthias Ringwald    uint8_t buffer[65];
e53be891SMatthias Ringwald    memcpy(buffer, u, 32);
e53be891SMatthias Ringwald    memcpy(buffer+32, v, 32);
e53be891SMatthias Ringwald    buffer[64] = z;
e53be891SMatthias Ringwald    log_info("f4 key");
e53be891SMatthias Ringwald    log_info_hexdump(x, 16);
e53be891SMatthias Ringwald    log_info("f4 message");
e53be891SMatthias Ringwald    log_info_hexdump(buffer, sizeof(buffer));
e53be891SMatthias Ringwald    aes_cmac(res, x, buffer, sizeof(buffer));
e53be891SMatthias Ringwald}
e53be891SMatthias Ringwald
e53be891SMatthias Ringwaldconst sm_key_t f5_salt = { 0x6C ,0x88, 0x83, 0x91, 0xAA, 0xF5, 0xA5, 0x38, 0x60, 0x37, 0x0B, 0xDB, 0x5A, 0x60, 0x83, 0xBE};
e53be891SMatthias Ringwaldconst uint8_t f5_key_id[] = { 0x62, 0x74, 0x6c, 0x65 };
e53be891SMatthias Ringwaldconst uint8_t f5_length[] = { 0x01, 0x00};
e53be891SMatthias Ringwaldstatic void f5(sm_key256_t res, const sm_key256_t w, const sm_key_t n1, const sm_key_t n2, const sm_key56_t a1, const sm_key56_t a2){
e53be891SMatthias Ringwald    // T = AES-CMACSAL_T(W)
e53be891SMatthias Ringwald    sm_key_t t;
e53be891SMatthias Ringwald    aes_cmac(t, f5_salt, w, 32);
e53be891SMatthias Ringwald    // f5(W, N1, N2, A1, A2) = AES-CMACT (Counter = 0 || keyID || N1 || N2|| A1|| A2 || Length = 256) -- this is the MacKey
e53be891SMatthias Ringwald    uint8_t buffer[53];
e53be891SMatthias Ringwald    buffer[0] = 0;
e53be891SMatthias Ringwald    memcpy(buffer+01, f5_key_id, 4);
e53be891SMatthias Ringwald    memcpy(buffer+05, n1, 16);
e53be891SMatthias Ringwald    memcpy(buffer+21, n2, 16);
e53be891SMatthias Ringwald    memcpy(buffer+37, a1, 7);
e53be891SMatthias Ringwald    memcpy(buffer+44, a2, 7);
e53be891SMatthias Ringwald    memcpy(buffer+51, f5_length, 2);
e53be891SMatthias Ringwald    log_info("f5 DHKEY");
e53be891SMatthias Ringwald    log_info_hexdump(w, 32);
e53be891SMatthias Ringwald    log_info("f5 key");
e53be891SMatthias Ringwald    log_info_hexdump(t, 16);
e53be891SMatthias Ringwald    log_info("f5 message for MacKey");
e53be891SMatthias Ringwald    log_info_hexdump(buffer, sizeof(buffer));
e53be891SMatthias Ringwald    aes_cmac(res, t, buffer, sizeof(buffer));
e53be891SMatthias Ringwald    // hexdump2(res, 16);
e53be891SMatthias Ringwald    //                      || AES-CMACT (Counter = 1 || keyID || N1 || N2|| A1|| A2 || Length = 256) -- this is the LTK
e53be891SMatthias Ringwald    buffer[0] = 1;
e53be891SMatthias Ringwald    // hexdump2(buffer, sizeof(buffer));
e53be891SMatthias Ringwald    log_info("f5 message for LTK");
e53be891SMatthias Ringwald    log_info_hexdump(buffer, sizeof(buffer));
e53be891SMatthias Ringwald    aes_cmac(res+16, t, buffer, sizeof(buffer));
e53be891SMatthias Ringwald    // hexdump2(res+16, 16);
e53be891SMatthias Ringwald}
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald// f6(W, N1, N2, R, IOcap, A1, A2) = AES-CMACW (N1 || N2 || R || IOcap || A1 || A2
e53be891SMatthias Ringwald// - W is 128 bits
e53be891SMatthias Ringwald// - N1 is 128 bits
e53be891SMatthias Ringwald// - N2 is 128 bits
e53be891SMatthias Ringwald// - R is 128 bits
e53be891SMatthias Ringwald// - IOcap is 24 bits
e53be891SMatthias Ringwald// - A1 is 56 bits
e53be891SMatthias Ringwald// - A2 is 56 bits
e53be891SMatthias Ringwaldstatic void f6(sm_key_t res, const sm_key_t w, const sm_key_t n1, const sm_key_t n2, const sm_key_t r, const sm_key24_t io_cap, const sm_key56_t a1, const sm_key56_t a2){
e53be891SMatthias Ringwald    uint8_t buffer[65];
e53be891SMatthias Ringwald    memcpy(buffer, n1, 16);
e53be891SMatthias Ringwald    memcpy(buffer+16, n2, 16);
e53be891SMatthias Ringwald    memcpy(buffer+32, r, 16);
e53be891SMatthias Ringwald    memcpy(buffer+48, io_cap, 3);
e53be891SMatthias Ringwald    memcpy(buffer+51, a1, 7);
e53be891SMatthias Ringwald    memcpy(buffer+58, a2, 7);
e53be891SMatthias Ringwald    log_info("f6 key");
e53be891SMatthias Ringwald    log_info_hexdump(w, 16);
e53be891SMatthias Ringwald    log_info("f6 message");
e53be891SMatthias Ringwald    log_info_hexdump(buffer, sizeof(buffer));
e53be891SMatthias Ringwald    aes_cmac(res, w, buffer,sizeof(buffer));
e53be891SMatthias Ringwald}
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald// g2(U, V, X, Y) = AES-CMACX(U || V || Y) mod 2^32
e53be891SMatthias Ringwald// - U is 256 bits
e53be891SMatthias Ringwald// - V is 256 bits
e53be891SMatthias Ringwald// - X is 128 bits
e53be891SMatthias Ringwald// - Y is 128 bits
e53be891SMatthias Ringwaldstatic uint32_t g2(const sm_key256_t u, const sm_key256_t v, const sm_key_t x, const sm_key_t y){
e53be891SMatthias Ringwald    uint8_t buffer[80];
e53be891SMatthias Ringwald    memcpy(buffer, u, 32);
e53be891SMatthias Ringwald    memcpy(buffer+32, v, 32);
e53be891SMatthias Ringwald    memcpy(buffer+64, y, 16);
e53be891SMatthias Ringwald    sm_key_t cmac;
*446a8c36SMatthias Ringwald    log_info("g2 key");
*446a8c36SMatthias Ringwald    log_info_hexdump(x, 16);
*446a8c36SMatthias Ringwald    log_info("g2 message");
*446a8c36SMatthias Ringwald    log_info_hexdump(buffer, sizeof(buffer));
e53be891SMatthias Ringwald    aes_cmac(cmac, x, buffer, sizeof(buffer));
*446a8c36SMatthias Ringwald    log_info("g2 result");
*446a8c36SMatthias Ringwald    log_info_hexdump(x, 16);
*446a8c36SMatthias Ringwald    return big_endian_read_32(cmac, 12);
e53be891SMatthias Ringwald}
e53be891SMatthias Ringwald
*446a8c36SMatthias Ringwald#if 0
e53be891SMatthias Ringwald// h6(W, keyID) = AES-CMACW(keyID)
e53be891SMatthias Ringwald// - W is 128 bits
e53be891SMatthias Ringwald// - keyID is 32 bits
e53be891SMatthias Ringwaldstatic void h6(sm_key_t res, const sm_key_t w, const uint32_t key_id){
e53be891SMatthias Ringwald    uint8_t key_id_buffer[4];
e53be891SMatthias Ringwald    big_endian_store_32(key_id_buffer, 0, key_id);
e53be891SMatthias Ringwald    aes_cmac(res, w, key_id_buffer, 4);
e53be891SMatthias Ringwald}
e53be891SMatthias Ringwald#endif
e53be891SMatthias Ringwald#endif
e53be891SMatthias Ringwald
711e6c80SMatthias Ringwaldstatic void sm_setup_event_base(uint8_t * event, int event_size, uint8_t type, hci_con_handle_t con_handle, uint8_t addr_type, bd_addr_t address){
3deb3ec6SMatthias Ringwald    event[0] = type;
3deb3ec6SMatthias Ringwald    event[1] = event_size - 2;
711e6c80SMatthias Ringwald    little_endian_store_16(event, 2, con_handle);
3deb3ec6SMatthias Ringwald    event[4] = addr_type;
724d70a2SMatthias Ringwald    reverse_bd_addr(address, &event[5]);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
89a78d34SMatthias Ringwaldstatic void sm_dispatch_event(uint8_t packet_type, uint16_t channel, uint8_t * packet, uint16_t size){
89a78d34SMatthias Ringwald    if (sm_client_packet_handler) {
89a78d34SMatthias Ringwald        sm_client_packet_handler(HCI_EVENT_PACKET, 0, packet, size);
89a78d34SMatthias Ringwald    }
89a78d34SMatthias Ringwald    // dispatch to all event handlers
89a78d34SMatthias Ringwald    btstack_linked_list_iterator_t it;
89a78d34SMatthias Ringwald    btstack_linked_list_iterator_init(&it, &sm_event_handlers);
89a78d34SMatthias Ringwald    while (btstack_linked_list_iterator_has_next(&it)){
89a78d34SMatthias Ringwald        btstack_packet_callback_registration_t * entry = (btstack_packet_callback_registration_t*) btstack_linked_list_iterator_next(&it);
d9a7306aSMatthias Ringwald        entry->callback(packet_type, 0, packet, size);
89a78d34SMatthias Ringwald    }
89a78d34SMatthias Ringwald}
89a78d34SMatthias Ringwald
711e6c80SMatthias Ringwaldstatic void sm_notify_client_base(uint8_t type, hci_con_handle_t con_handle, uint8_t addr_type, bd_addr_t address){
3deb3ec6SMatthias Ringwald    uint8_t event[11];
711e6c80SMatthias Ringwald    sm_setup_event_base(event, sizeof(event), type, con_handle, addr_type, address);
89a78d34SMatthias Ringwald    sm_dispatch_event(HCI_EVENT_PACKET, 0, event, sizeof(event));
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
711e6c80SMatthias Ringwaldstatic void sm_notify_client_passkey(uint8_t type, hci_con_handle_t con_handle, uint8_t addr_type, bd_addr_t address, uint32_t passkey){
3deb3ec6SMatthias Ringwald    uint8_t event[15];
711e6c80SMatthias Ringwald    sm_setup_event_base(event, sizeof(event), type, con_handle, addr_type, address);
f8fbdce0SMatthias Ringwald    little_endian_store_32(event, 11, passkey);
89a78d34SMatthias Ringwald    sm_dispatch_event(HCI_EVENT_PACKET, 0, event, sizeof(event));
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
711e6c80SMatthias Ringwaldstatic void sm_notify_client_index(uint8_t type, hci_con_handle_t con_handle, uint8_t addr_type, bd_addr_t address, uint16_t index){
3deb3ec6SMatthias Ringwald    uint8_t event[13];
711e6c80SMatthias Ringwald    sm_setup_event_base(event, sizeof(event), type, con_handle, addr_type, address);
f8fbdce0SMatthias Ringwald    little_endian_store_16(event, 11, index);
89a78d34SMatthias Ringwald    sm_dispatch_event(HCI_EVENT_PACKET, 0, event, sizeof(event));
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
711e6c80SMatthias Ringwaldstatic void sm_notify_client_authorization(uint8_t type, hci_con_handle_t con_handle, uint8_t addr_type, bd_addr_t address, uint8_t result){
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    uint8_t event[18];
711e6c80SMatthias Ringwald    sm_setup_event_base(event, sizeof(event), type, con_handle, addr_type, address);
3deb3ec6SMatthias Ringwald    event[11] = result;
89a78d34SMatthias Ringwald    sm_dispatch_event(HCI_EVENT_PACKET, 0, (uint8_t*) &event, sizeof(event));
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// decide on stk generation based on
3deb3ec6SMatthias Ringwald// - pairing request
3deb3ec6SMatthias Ringwald// - io capabilities
3deb3ec6SMatthias Ringwald// - OOB data availability
3deb3ec6SMatthias Ringwaldstatic void sm_setup_tk(void){
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // default: just works
3deb3ec6SMatthias Ringwald    setup->sm_stk_generation_method = JUST_WORKS;
3deb3ec6SMatthias Ringwald
27c32905SMatthias Ringwald#ifdef ENABLE_LE_SECURE_CONNECTIONS
27c32905SMatthias Ringwald    setup->sm_use_secure_connections = ( sm_pairing_packet_get_auth_req(setup->sm_m_preq)
27c32905SMatthias Ringwald                                       & sm_pairing_packet_get_auth_req(setup->sm_s_pres)
27c32905SMatthias Ringwald                                       & SM_AUTHREQ_SECURE_CONNECTION ) != 0;
*446a8c36SMatthias Ringwald    memset(setup->sm_ra, 0, 16);
*446a8c36SMatthias Ringwald    memset(setup->sm_rb, 0, 16);
27c32905SMatthias Ringwald#else
27c32905SMatthias Ringwald    setup->sm_use_secure_connections = 0;
27c32905SMatthias Ringwald#endif
27c32905SMatthias Ringwald
27c32905SMatthias Ringwald    // If both devices have not set the MITM option in the Authentication Requirements
27c32905SMatthias Ringwald    // Flags, then the IO capabilities shall be ignored and the Just Works association
27c32905SMatthias Ringwald    // model shall be used.
27c32905SMatthias Ringwald    if (((sm_pairing_packet_get_auth_req(setup->sm_m_preq) & SM_AUTHREQ_MITM_PROTECTION) == 0)
27c32905SMatthias Ringwald    &&  ((sm_pairing_packet_get_auth_req(setup->sm_s_pres) & SM_AUTHREQ_MITM_PROTECTION) == 0)){
27c32905SMatthias Ringwald        log_info("SM: MITM not required by both -> JUST WORKS");
27c32905SMatthias Ringwald        return;
27c32905SMatthias Ringwald    }
27c32905SMatthias Ringwald
27c32905SMatthias Ringwald    // TODO: with LE SC, OOB is used to transfer data OOB during pairing, single device with OOB is sufficient
27c32905SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // If both devices have out of band authentication data, then the Authentication
3deb3ec6SMatthias Ringwald    // Requirements Flags shall be ignored when selecting the pairing method and the
3deb3ec6SMatthias Ringwald    // Out of Band pairing method shall be used.
1ad129beSMatthias Ringwald    if (sm_pairing_packet_get_oob_data_flag(setup->sm_m_preq)
1ad129beSMatthias Ringwald    &&  sm_pairing_packet_get_oob_data_flag(setup->sm_s_pres)){
3deb3ec6SMatthias Ringwald        log_info("SM: have OOB data");
8314c363SMatthias Ringwald        log_info_key("OOB", setup->sm_tk);
3deb3ec6SMatthias Ringwald        setup->sm_stk_generation_method = OOB;
3deb3ec6SMatthias Ringwald        return;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // Reset TK as it has been setup in sm_init_setup
3deb3ec6SMatthias Ringwald    sm_reset_tk();
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // Also use just works if unknown io capabilites
8da2e96dSMatthias Ringwald    if ((sm_pairing_packet_get_io_capability(setup->sm_m_preq) > IO_CAPABILITY_KEYBOARD_DISPLAY) || (sm_pairing_packet_get_io_capability(setup->sm_s_pres) > IO_CAPABILITY_KEYBOARD_DISPLAY)){
3deb3ec6SMatthias Ringwald        return;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // Otherwise the IO capabilities of the devices shall be used to determine the
3deb3ec6SMatthias Ringwald    // pairing method as defined in Table 2.4.
27c32905SMatthias Ringwald    // see http://stackoverflow.com/a/1052837/393697 for how to specify pointer to 2-dimensional array
27c32905SMatthias Ringwald    const stk_generation_method_t (*generation_method)[5] = stk_generation_method;
27c32905SMatthias Ringwald
27c32905SMatthias Ringwald#ifdef ENABLE_LE_SECURE_CONNECTIONS
27c32905SMatthias Ringwald    if (setup->sm_use_secure_connections){
27c32905SMatthias Ringwald        generation_method = stk_generation_method_with_secure_connection;
27c32905SMatthias Ringwald    }
27c32905SMatthias Ringwald#endif
27c32905SMatthias Ringwald    setup->sm_stk_generation_method = generation_method[sm_pairing_packet_get_io_capability(setup->sm_s_pres)][sm_pairing_packet_get_io_capability(setup->sm_m_preq)];
27c32905SMatthias Ringwald
3deb3ec6SMatthias Ringwald    log_info("sm_setup_tk: master io cap: %u, slave io cap: %u -> method %u",
1ad129beSMatthias Ringwald        sm_pairing_packet_get_io_capability(setup->sm_m_preq), sm_pairing_packet_get_io_capability(setup->sm_s_pres), setup->sm_stk_generation_method);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic int sm_key_distribution_flags_for_set(uint8_t key_set){
3deb3ec6SMatthias Ringwald    int flags = 0;
3deb3ec6SMatthias Ringwald    if (key_set & SM_KEYDIST_ENC_KEY){
3deb3ec6SMatthias Ringwald        flags |= SM_KEYDIST_FLAG_ENCRYPTION_INFORMATION;
3deb3ec6SMatthias Ringwald        flags |= SM_KEYDIST_FLAG_MASTER_IDENTIFICATION;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald    if (key_set & SM_KEYDIST_ID_KEY){
3deb3ec6SMatthias Ringwald        flags |= SM_KEYDIST_FLAG_IDENTITY_INFORMATION;
3deb3ec6SMatthias Ringwald        flags |= SM_KEYDIST_FLAG_IDENTITY_ADDRESS_INFORMATION;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald    if (key_set & SM_KEYDIST_SIGN){
3deb3ec6SMatthias Ringwald        flags |= SM_KEYDIST_FLAG_SIGNING_IDENTIFICATION;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald    return flags;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic void sm_setup_key_distribution(uint8_t key_set){
3deb3ec6SMatthias Ringwald    setup->sm_key_distribution_received_set = 0;
3deb3ec6SMatthias Ringwald    setup->sm_key_distribution_send_set = sm_key_distribution_flags_for_set(key_set);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// CSRK Key Lookup
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic int sm_address_resolution_idle(void){
3deb3ec6SMatthias Ringwald    return sm_address_resolution_mode == ADDRESS_RESOLUTION_IDLE;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
711e6c80SMatthias Ringwaldstatic void sm_address_resolution_start_lookup(uint8_t addr_type, hci_con_handle_t con_handle, bd_addr_t addr, address_resolution_mode_t mode, void * context){
3deb3ec6SMatthias Ringwald    memcpy(sm_address_resolution_address, addr, 6);
3deb3ec6SMatthias Ringwald    sm_address_resolution_addr_type = addr_type;
3deb3ec6SMatthias Ringwald    sm_address_resolution_test = 0;
3deb3ec6SMatthias Ringwald    sm_address_resolution_mode = mode;
3deb3ec6SMatthias Ringwald    sm_address_resolution_context = context;
711e6c80SMatthias Ringwald    sm_notify_client_base(SM_EVENT_IDENTITY_RESOLVING_STARTED, con_handle, addr_type, addr);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldint sm_address_resolution_lookup(uint8_t address_type, bd_addr_t address){
3deb3ec6SMatthias Ringwald    // check if already in list
665d90f2SMatthias Ringwald    btstack_linked_list_iterator_t it;
3deb3ec6SMatthias Ringwald    sm_lookup_entry_t * entry;
665d90f2SMatthias Ringwald    btstack_linked_list_iterator_init(&it, &sm_address_resolution_general_queue);
665d90f2SMatthias Ringwald    while(btstack_linked_list_iterator_has_next(&it)){
665d90f2SMatthias Ringwald        entry = (sm_lookup_entry_t *) btstack_linked_list_iterator_next(&it);
3deb3ec6SMatthias Ringwald        if (entry->address_type != address_type) continue;
3deb3ec6SMatthias Ringwald        if (memcmp(entry->address, address, 6))  continue;
3deb3ec6SMatthias Ringwald        // already in list
3deb3ec6SMatthias Ringwald        return BTSTACK_BUSY;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald    entry = btstack_memory_sm_lookup_entry_get();
3deb3ec6SMatthias Ringwald    if (!entry) return BTSTACK_MEMORY_ALLOC_FAILED;
3deb3ec6SMatthias Ringwald    entry->address_type = (bd_addr_type_t) address_type;
3deb3ec6SMatthias Ringwald    memcpy(entry->address, address, 6);
665d90f2SMatthias Ringwald    btstack_linked_list_add(&sm_address_resolution_general_queue, (btstack_linked_item_t *) entry);
3deb3ec6SMatthias Ringwald    sm_run();
3deb3ec6SMatthias Ringwald    return 0;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// CMAC Implementation using AES128 engine
3deb3ec6SMatthias Ringwaldstatic void sm_shift_left_by_one_bit_inplace(int len, uint8_t * data){
3deb3ec6SMatthias Ringwald    int i;
3deb3ec6SMatthias Ringwald    int carry = 0;
3deb3ec6SMatthias Ringwald    for (i=len-1; i >= 0 ; i--){
3deb3ec6SMatthias Ringwald        int new_carry = data[i] >> 7;
3deb3ec6SMatthias Ringwald        data[i] = data[i] << 1 | carry;
3deb3ec6SMatthias Ringwald        carry = new_carry;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// while x_state++ for an enum is possible in C, it isn't in C++. we use this helpers to avoid compile errors for now
3deb3ec6SMatthias Ringwaldstatic inline void sm_next_responding_state(sm_connection_t * sm_conn){
3deb3ec6SMatthias Ringwald    sm_conn->sm_engine_state = (security_manager_state_t) (((int)sm_conn->sm_engine_state) + 1);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwaldstatic inline void dkg_next_state(void){
3deb3ec6SMatthias Ringwald    dkg_state = (derived_key_generation_t) (((int)dkg_state) + 1);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwaldstatic inline void rau_next_state(void){
3deb3ec6SMatthias Ringwald    rau_state = (random_address_update_t) (((int)rau_state) + 1);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwaldstatic inline void sm_cmac_next_state(void){
3deb3ec6SMatthias Ringwald    sm_cmac_state = (cmac_state_t) (((int)sm_cmac_state) + 1);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwaldstatic int sm_cmac_last_block_complete(void){
3deb3ec6SMatthias Ringwald    if (sm_cmac_message_len == 0) return 0;
3deb3ec6SMatthias Ringwald    return (sm_cmac_message_len & 0x0f) == 0;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwaldstatic inline uint8_t sm_cmac_message_get_byte(int offset){
3deb3ec6SMatthias Ringwald    if (offset >= sm_cmac_message_len) {
3deb3ec6SMatthias Ringwald        log_error("sm_cmac_message_get_byte. out of bounds, access %u, len %u", offset, sm_cmac_message_len);
3deb3ec6SMatthias Ringwald        return 0;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    offset = sm_cmac_message_len - 1 - offset;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // sm_cmac_header[3] | message[] | sm_cmac_sign_counter[4]
3deb3ec6SMatthias Ringwald    if (offset < 3){
3deb3ec6SMatthias Ringwald        return sm_cmac_header[offset];
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald    int actual_message_len_incl_header = sm_cmac_message_len - 4;
3deb3ec6SMatthias Ringwald    if (offset <  actual_message_len_incl_header){
3deb3ec6SMatthias Ringwald        return sm_cmac_message[offset - 3];
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald    return sm_cmac_sign_counter[offset - actual_message_len_incl_header];
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
711e6c80SMatthias Ringwaldvoid sm_cmac_start(sm_key_t k, uint8_t opcode, hci_con_handle_t con_handle, uint16_t message_len, uint8_t * message, uint32_t sign_counter, void (*done_handler)(uint8_t hash[8])){
3deb3ec6SMatthias Ringwald    memcpy(sm_cmac_k, k, 16);
3deb3ec6SMatthias Ringwald    sm_cmac_header[0] = opcode;
711e6c80SMatthias Ringwald    little_endian_store_16(sm_cmac_header, 1, con_handle);
f8fbdce0SMatthias Ringwald    little_endian_store_32(sm_cmac_sign_counter, 0, sign_counter);
3deb3ec6SMatthias Ringwald    sm_cmac_message_len = 3 + message_len + 4;  // incl. virtually prepended att opcode, handle and appended sign_counter in LE
3deb3ec6SMatthias Ringwald    sm_cmac_message = message;
3deb3ec6SMatthias Ringwald    sm_cmac_done_handler = done_handler;
3deb3ec6SMatthias Ringwald    sm_cmac_block_current = 0;
3deb3ec6SMatthias Ringwald    memset(sm_cmac_x, 0, 16);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // step 2: n := ceil(len/const_Bsize);
3deb3ec6SMatthias Ringwald    sm_cmac_block_count = (sm_cmac_message_len + 15) / 16;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // step 3: ..
3deb3ec6SMatthias Ringwald    if (sm_cmac_block_count==0){
3deb3ec6SMatthias Ringwald        sm_cmac_block_count = 1;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    log_info("sm_cmac_start: len %u, block count %u", sm_cmac_message_len, sm_cmac_block_count);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // first, we need to compute l for k1, k2, and m_last
3deb3ec6SMatthias Ringwald    sm_cmac_state = CMAC_CALC_SUBKEYS;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // let's go
3deb3ec6SMatthias Ringwald    sm_run();
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldint sm_cmac_ready(void){
3deb3ec6SMatthias Ringwald    return sm_cmac_state == CMAC_IDLE;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic void sm_cmac_handle_aes_engine_ready(void){
3deb3ec6SMatthias Ringwald    switch (sm_cmac_state){
3deb3ec6SMatthias Ringwald        case CMAC_CALC_SUBKEYS: {
3deb3ec6SMatthias Ringwald            sm_key_t const_zero;
3deb3ec6SMatthias Ringwald            memset(const_zero, 0, 16);
3deb3ec6SMatthias Ringwald            sm_cmac_next_state();
3deb3ec6SMatthias Ringwald            sm_aes128_start(sm_cmac_k, const_zero, NULL);
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald        case CMAC_CALC_MI: {
3deb3ec6SMatthias Ringwald            int j;
3deb3ec6SMatthias Ringwald            sm_key_t y;
3deb3ec6SMatthias Ringwald            for (j=0;j<16;j++){
3deb3ec6SMatthias Ringwald                y[j] = sm_cmac_x[j] ^ sm_cmac_message_get_byte(sm_cmac_block_current*16 + j);
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            sm_cmac_block_current++;
3deb3ec6SMatthias Ringwald            sm_cmac_next_state();
3deb3ec6SMatthias Ringwald            sm_aes128_start(sm_cmac_k, y, NULL);
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald        case CMAC_CALC_MLAST: {
3deb3ec6SMatthias Ringwald            int i;
3deb3ec6SMatthias Ringwald            sm_key_t y;
3deb3ec6SMatthias Ringwald            for (i=0;i<16;i++){
3deb3ec6SMatthias Ringwald                y[i] = sm_cmac_x[i] ^ sm_cmac_m_last[i];
3deb3ec6SMatthias Ringwald            }
8314c363SMatthias Ringwald            log_info_key("Y", y);
3deb3ec6SMatthias Ringwald            sm_cmac_block_current++;
3deb3ec6SMatthias Ringwald            sm_cmac_next_state();
3deb3ec6SMatthias Ringwald            sm_aes128_start(sm_cmac_k, y, NULL);
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald        default:
3deb3ec6SMatthias Ringwald            log_info("sm_cmac_handle_aes_engine_ready called in state %u", sm_cmac_state);
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic void sm_cmac_handle_encryption_result(sm_key_t data){
3deb3ec6SMatthias Ringwald    switch (sm_cmac_state){
3deb3ec6SMatthias Ringwald        case CMAC_W4_SUBKEYS: {
3deb3ec6SMatthias Ringwald            sm_key_t k1;
3deb3ec6SMatthias Ringwald            memcpy(k1, data, 16);
3deb3ec6SMatthias Ringwald            sm_shift_left_by_one_bit_inplace(16, k1);
3deb3ec6SMatthias Ringwald            if (data[0] & 0x80){
3deb3ec6SMatthias Ringwald                k1[15] ^= 0x87;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            sm_key_t k2;
3deb3ec6SMatthias Ringwald            memcpy(k2, k1, 16);
3deb3ec6SMatthias Ringwald            sm_shift_left_by_one_bit_inplace(16, k2);
3deb3ec6SMatthias Ringwald            if (k1[0] & 0x80){
3deb3ec6SMatthias Ringwald                k2[15] ^= 0x87;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald
8314c363SMatthias Ringwald            log_info_key("k", sm_cmac_k);
8314c363SMatthias Ringwald            log_info_key("k1", k1);
8314c363SMatthias Ringwald            log_info_key("k2", k2);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            // step 4: set m_last
3deb3ec6SMatthias Ringwald            int i;
3deb3ec6SMatthias Ringwald            if (sm_cmac_last_block_complete()){
3deb3ec6SMatthias Ringwald                for (i=0;i<16;i++){
3deb3ec6SMatthias Ringwald                    sm_cmac_m_last[i] = sm_cmac_message_get_byte(sm_cmac_message_len - 16 + i) ^ k1[i];
3deb3ec6SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald            } else {
3deb3ec6SMatthias Ringwald                int valid_octets_in_last_block = sm_cmac_message_len & 0x0f;
3deb3ec6SMatthias Ringwald                for (i=0;i<16;i++){
3deb3ec6SMatthias Ringwald                    if (i < valid_octets_in_last_block){
3deb3ec6SMatthias Ringwald                        sm_cmac_m_last[i] = sm_cmac_message_get_byte((sm_cmac_message_len & 0xfff0) + i) ^ k2[i];
3deb3ec6SMatthias Ringwald                        continue;
3deb3ec6SMatthias Ringwald                    }
3deb3ec6SMatthias Ringwald                    if (i == valid_octets_in_last_block){
3deb3ec6SMatthias Ringwald                        sm_cmac_m_last[i] = 0x80 ^ k2[i];
3deb3ec6SMatthias Ringwald                        continue;
3deb3ec6SMatthias Ringwald                    }
3deb3ec6SMatthias Ringwald                    sm_cmac_m_last[i] = k2[i];
3deb3ec6SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            // next
3deb3ec6SMatthias Ringwald            sm_cmac_state = sm_cmac_block_current < sm_cmac_block_count - 1 ? CMAC_CALC_MI : CMAC_CALC_MLAST;
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald        case CMAC_W4_MI:
3deb3ec6SMatthias Ringwald            memcpy(sm_cmac_x, data, 16);
3deb3ec6SMatthias Ringwald            sm_cmac_state = sm_cmac_block_current < sm_cmac_block_count - 1 ? CMAC_CALC_MI : CMAC_CALC_MLAST;
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        case CMAC_W4_MLAST:
3deb3ec6SMatthias Ringwald            // done
8314c363SMatthias Ringwald            log_info_key("CMAC", data);
3deb3ec6SMatthias Ringwald            sm_cmac_done_handler(data);
3deb3ec6SMatthias Ringwald            sm_cmac_state = CMAC_IDLE;
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        default:
3deb3ec6SMatthias Ringwald            log_info("sm_cmac_handle_encryption_result called in state %u", sm_cmac_state);
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic void sm_trigger_user_response(sm_connection_t * sm_conn){
*446a8c36SMatthias Ringwald    // notify client for: JUST WORKS confirm, Numeric comparison confirm, PASSKEY display or input
3deb3ec6SMatthias Ringwald    setup->sm_user_response = SM_USER_RESPONSE_IDLE;
3deb3ec6SMatthias Ringwald    switch (setup->sm_stk_generation_method){
3deb3ec6SMatthias Ringwald        case PK_RESP_INPUT:
3deb3ec6SMatthias Ringwald            if (sm_conn->sm_role){
3deb3ec6SMatthias Ringwald                setup->sm_user_response = SM_USER_RESPONSE_PENDING;
5611a760SMatthias Ringwald                sm_notify_client_base(SM_EVENT_PASSKEY_INPUT_NUMBER, sm_conn->sm_handle, sm_conn->sm_peer_addr_type, sm_conn->sm_peer_address);
3deb3ec6SMatthias Ringwald            } else {
c9b8fdd9SMatthias Ringwald                sm_notify_client_passkey(SM_EVENT_PASSKEY_DISPLAY_NUMBER, sm_conn->sm_handle, sm_conn->sm_peer_addr_type, sm_conn->sm_peer_address, big_endian_read_32(setup->sm_tk, 12));
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        case PK_INIT_INPUT:
3deb3ec6SMatthias Ringwald            if (sm_conn->sm_role){
c9b8fdd9SMatthias Ringwald                sm_notify_client_passkey(SM_EVENT_PASSKEY_DISPLAY_NUMBER, sm_conn->sm_handle, sm_conn->sm_peer_addr_type, sm_conn->sm_peer_address, big_endian_read_32(setup->sm_tk, 12));
3deb3ec6SMatthias Ringwald            } else {
3deb3ec6SMatthias Ringwald                setup->sm_user_response = SM_USER_RESPONSE_PENDING;
5611a760SMatthias Ringwald                sm_notify_client_base(SM_EVENT_PASSKEY_INPUT_NUMBER, sm_conn->sm_handle, sm_conn->sm_peer_addr_type, sm_conn->sm_peer_address);
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        case OK_BOTH_INPUT:
3deb3ec6SMatthias Ringwald            setup->sm_user_response = SM_USER_RESPONSE_PENDING;
5611a760SMatthias Ringwald            sm_notify_client_base(SM_EVENT_PASSKEY_INPUT_NUMBER, sm_conn->sm_handle, sm_conn->sm_peer_addr_type, sm_conn->sm_peer_address);
3deb3ec6SMatthias Ringwald            break;
27c32905SMatthias Ringwald        case NK_BOTH_INPUT:
*446a8c36SMatthias Ringwald            setup->sm_user_response = SM_USER_RESPONSE_PENDING;
*446a8c36SMatthias Ringwald            sm_notify_client_passkey(SM_EVENT_PASSKEY_DISPLAY_NUMBER, sm_conn->sm_handle, sm_conn->sm_peer_addr_type, sm_conn->sm_peer_address, big_endian_read_32(setup->sm_tk, 12));
27c32905SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        case JUST_WORKS:
3deb3ec6SMatthias Ringwald            setup->sm_user_response = SM_USER_RESPONSE_PENDING;
5611a760SMatthias Ringwald            sm_notify_client_base(SM_EVENT_JUST_WORKS_REQUEST, sm_conn->sm_handle, sm_conn->sm_peer_addr_type, sm_conn->sm_peer_address);
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        case OOB:
3deb3ec6SMatthias Ringwald            // client already provided OOB data, let's skip notification.
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic int sm_key_distribution_all_received(sm_connection_t * sm_conn){
3deb3ec6SMatthias Ringwald    int recv_flags;
3deb3ec6SMatthias Ringwald    if (sm_conn->sm_role){
3deb3ec6SMatthias Ringwald        // slave / responser
1ad129beSMatthias Ringwald        recv_flags = sm_key_distribution_flags_for_set(sm_pairing_packet_get_initiator_key_distribution(setup->sm_s_pres));
3deb3ec6SMatthias Ringwald    } else {
3deb3ec6SMatthias Ringwald        // master / initiator
1ad129beSMatthias Ringwald        recv_flags = sm_key_distribution_flags_for_set(sm_pairing_packet_get_responder_key_distribution(setup->sm_s_pres));
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald    log_debug("sm_key_distribution_all_received: received 0x%02x, expecting 0x%02x", setup->sm_key_distribution_received_set, recv_flags);
3deb3ec6SMatthias Ringwald    return recv_flags == setup->sm_key_distribution_received_set;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
711e6c80SMatthias Ringwaldstatic void sm_done_for_handle(hci_con_handle_t con_handle){
711e6c80SMatthias Ringwald    if (sm_active_connection == con_handle){
3deb3ec6SMatthias Ringwald        sm_timeout_stop();
3deb3ec6SMatthias Ringwald        sm_active_connection = 0;
711e6c80SMatthias Ringwald        log_info("sm: connection 0x%x released setup context", con_handle);
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic int sm_key_distribution_flags_for_auth_req(void){
3deb3ec6SMatthias Ringwald    int flags = SM_KEYDIST_ID_KEY | SM_KEYDIST_SIGN;
3deb3ec6SMatthias Ringwald    if (sm_auth_req & SM_AUTHREQ_BONDING){
3deb3ec6SMatthias Ringwald        // encryption information only if bonding requested
3deb3ec6SMatthias Ringwald        flags |= SM_KEYDIST_ENC_KEY;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald    return flags;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic void sm_init_setup(sm_connection_t * sm_conn){
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // fill in sm setup
3deb3ec6SMatthias Ringwald    sm_reset_tk();
3deb3ec6SMatthias Ringwald    setup->sm_peer_addr_type = sm_conn->sm_peer_addr_type;
3deb3ec6SMatthias Ringwald    memcpy(setup->sm_peer_address, sm_conn->sm_peer_address, 6);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // query client for OOB data
3deb3ec6SMatthias Ringwald    int have_oob_data = 0;
3deb3ec6SMatthias Ringwald    if (sm_get_oob_data) {
3deb3ec6SMatthias Ringwald        have_oob_data = (*sm_get_oob_data)(sm_conn->sm_peer_addr_type, sm_conn->sm_peer_address, setup->sm_tk);
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    sm_pairing_packet_t * local_packet;
3deb3ec6SMatthias Ringwald    if (sm_conn->sm_role){
3deb3ec6SMatthias Ringwald        // slave
3deb3ec6SMatthias Ringwald        local_packet = &setup->sm_s_pres;
15a95bd5SMatthias Ringwald        gap_advertisements_get_address(&setup->sm_s_addr_type, setup->sm_s_address);
3deb3ec6SMatthias Ringwald        setup->sm_m_addr_type = sm_conn->sm_peer_addr_type;
3deb3ec6SMatthias Ringwald        memcpy(setup->sm_m_address, sm_conn->sm_peer_address, 6);
3deb3ec6SMatthias Ringwald    } else {
3deb3ec6SMatthias Ringwald        // master
3deb3ec6SMatthias Ringwald        local_packet = &setup->sm_m_preq;
15a95bd5SMatthias Ringwald        gap_advertisements_get_address(&setup->sm_m_addr_type, setup->sm_m_address);
3deb3ec6SMatthias Ringwald        setup->sm_s_addr_type = sm_conn->sm_peer_addr_type;
3deb3ec6SMatthias Ringwald        memcpy(setup->sm_s_address, sm_conn->sm_peer_address, 6);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        int key_distribution_flags = sm_key_distribution_flags_for_auth_req();
1ad129beSMatthias Ringwald        sm_pairing_packet_set_initiator_key_distribution(setup->sm_m_preq, key_distribution_flags);
1ad129beSMatthias Ringwald        sm_pairing_packet_set_responder_key_distribution(setup->sm_m_preq, key_distribution_flags);
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
1ad129beSMatthias Ringwald    sm_pairing_packet_set_io_capability(*local_packet, sm_io_capabilities);
1ad129beSMatthias Ringwald    sm_pairing_packet_set_oob_data_flag(*local_packet, have_oob_data);
1ad129beSMatthias Ringwald    sm_pairing_packet_set_auth_req(*local_packet, sm_auth_req);
1ad129beSMatthias Ringwald    sm_pairing_packet_set_max_encryption_key_size(*local_packet, sm_max_encryption_key_size);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic int sm_stk_generation_init(sm_connection_t * sm_conn){
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    sm_pairing_packet_t * remote_packet;
3deb3ec6SMatthias Ringwald    int                   remote_key_request;
3deb3ec6SMatthias Ringwald    if (sm_conn->sm_role){
3deb3ec6SMatthias Ringwald        // slave / responser
3deb3ec6SMatthias Ringwald        remote_packet      = &setup->sm_m_preq;
1ad129beSMatthias Ringwald        remote_key_request = sm_pairing_packet_get_responder_key_distribution(setup->sm_m_preq);
3deb3ec6SMatthias Ringwald    } else {
3deb3ec6SMatthias Ringwald        // master / initiator
3deb3ec6SMatthias Ringwald        remote_packet      = &setup->sm_s_pres;
1ad129beSMatthias Ringwald        remote_key_request = sm_pairing_packet_get_initiator_key_distribution(setup->sm_s_pres);
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // check key size
1ad129beSMatthias Ringwald    sm_conn->sm_actual_encryption_key_size = sm_calc_actual_encryption_key_size(sm_pairing_packet_get_max_encryption_key_size(*remote_packet));
3deb3ec6SMatthias Ringwald    if (sm_conn->sm_actual_encryption_key_size == 0) return SM_REASON_ENCRYPTION_KEY_SIZE;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // setup key distribution
3deb3ec6SMatthias Ringwald    sm_setup_key_distribution(remote_key_request);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // identical to responder
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // decide on STK generation method
3deb3ec6SMatthias Ringwald    sm_setup_tk();
3deb3ec6SMatthias Ringwald    log_info("SMP: generation method %u", setup->sm_stk_generation_method);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // check if STK generation method is acceptable by client
3deb3ec6SMatthias Ringwald    if (!sm_validate_stk_generation_method()) return SM_REASON_AUTHENTHICATION_REQUIREMENTS;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // JUST WORKS doens't provide authentication
3deb3ec6SMatthias Ringwald    sm_conn->sm_connection_authenticated = setup->sm_stk_generation_method == JUST_WORKS ? 0 : 1;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    return 0;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic void sm_address_resolution_handle_event(address_resolution_event_t event){
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // cache and reset context
3deb3ec6SMatthias Ringwald    int matched_device_id = sm_address_resolution_test;
3deb3ec6SMatthias Ringwald    address_resolution_mode_t mode = sm_address_resolution_mode;
3deb3ec6SMatthias Ringwald    void * context = sm_address_resolution_context;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // reset context
3deb3ec6SMatthias Ringwald    sm_address_resolution_mode = ADDRESS_RESOLUTION_IDLE;
3deb3ec6SMatthias Ringwald    sm_address_resolution_context = NULL;
3deb3ec6SMatthias Ringwald    sm_address_resolution_test = -1;
711e6c80SMatthias Ringwald    hci_con_handle_t con_handle = 0;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    sm_connection_t * sm_connection;
3deb3ec6SMatthias Ringwald    uint16_t ediv;
3deb3ec6SMatthias Ringwald    switch (mode){
3deb3ec6SMatthias Ringwald        case ADDRESS_RESOLUTION_GENERAL:
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        case ADDRESS_RESOLUTION_FOR_CONNECTION:
3deb3ec6SMatthias Ringwald            sm_connection = (sm_connection_t *) context;
711e6c80SMatthias Ringwald            con_handle = sm_connection->sm_handle;
3deb3ec6SMatthias Ringwald            switch (event){
3deb3ec6SMatthias Ringwald                case ADDRESS_RESOLUTION_SUCEEDED:
3deb3ec6SMatthias Ringwald                    sm_connection->sm_irk_lookup_state = IRK_LOOKUP_SUCCEEDED;
3deb3ec6SMatthias Ringwald                    sm_connection->sm_le_db_index = matched_device_id;
3deb3ec6SMatthias Ringwald                    log_info("ADDRESS_RESOLUTION_SUCEEDED, index %d", sm_connection->sm_le_db_index);
3deb3ec6SMatthias Ringwald                    if (sm_connection->sm_role) break;
3deb3ec6SMatthias Ringwald                    if (!sm_connection->sm_bonding_requested && !sm_connection->sm_security_request_received) break;
3deb3ec6SMatthias Ringwald                    sm_connection->sm_security_request_received = 0;
3deb3ec6SMatthias Ringwald                    sm_connection->sm_bonding_requested = 0;
3deb3ec6SMatthias Ringwald                    le_device_db_encryption_get(sm_connection->sm_le_db_index, &ediv, NULL, NULL, NULL, NULL, NULL);
3deb3ec6SMatthias Ringwald                    if (ediv){
3deb3ec6SMatthias Ringwald                        sm_connection->sm_engine_state = SM_INITIATOR_PH0_HAS_LTK;
3deb3ec6SMatthias Ringwald                    } else {
3deb3ec6SMatthias Ringwald                        sm_connection->sm_engine_state = SM_INITIATOR_PH1_W2_SEND_PAIRING_REQUEST;
3deb3ec6SMatthias Ringwald                    }
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald                case ADDRESS_RESOLUTION_FAILED:
3deb3ec6SMatthias Ringwald                    sm_connection->sm_irk_lookup_state = IRK_LOOKUP_FAILED;
3deb3ec6SMatthias Ringwald                    if (sm_connection->sm_role) break;
3deb3ec6SMatthias Ringwald                    if (!sm_connection->sm_bonding_requested && !sm_connection->sm_security_request_received) break;
3deb3ec6SMatthias Ringwald                    sm_connection->sm_security_request_received = 0;
3deb3ec6SMatthias Ringwald                    sm_connection->sm_bonding_requested = 0;
3deb3ec6SMatthias Ringwald                    sm_connection->sm_engine_state = SM_INITIATOR_PH1_W2_SEND_PAIRING_REQUEST;
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        default:
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    switch (event){
3deb3ec6SMatthias Ringwald        case ADDRESS_RESOLUTION_SUCEEDED:
711e6c80SMatthias Ringwald            sm_notify_client_index(SM_EVENT_IDENTITY_RESOLVING_SUCCEEDED, con_handle, sm_address_resolution_addr_type, sm_address_resolution_address, matched_device_id);
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        case ADDRESS_RESOLUTION_FAILED:
711e6c80SMatthias Ringwald            sm_notify_client_base(SM_EVENT_IDENTITY_RESOLVING_FAILED, con_handle, sm_address_resolution_addr_type, sm_address_resolution_address);
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic void sm_key_distribution_handle_all_received(sm_connection_t * sm_conn){
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    int le_db_index = -1;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // lookup device based on IRK
3deb3ec6SMatthias Ringwald    if (setup->sm_key_distribution_received_set & SM_KEYDIST_FLAG_IDENTITY_INFORMATION){
3deb3ec6SMatthias Ringwald        int i;
3deb3ec6SMatthias Ringwald        for (i=0; i < le_device_db_count(); i++){
3deb3ec6SMatthias Ringwald            sm_key_t irk;
3deb3ec6SMatthias Ringwald            bd_addr_t address;
3deb3ec6SMatthias Ringwald            int address_type;
3deb3ec6SMatthias Ringwald            le_device_db_info(i, &address_type, address, irk);
3deb3ec6SMatthias Ringwald            if (memcmp(irk, setup->sm_peer_irk, 16) == 0){
3deb3ec6SMatthias Ringwald                log_info("sm: device found for IRK, updating");
3deb3ec6SMatthias Ringwald                le_db_index = i;
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // if not found, lookup via public address if possible
3deb3ec6SMatthias Ringwald    log_info("sm peer addr type %u, peer addres %s", setup->sm_peer_addr_type, bd_addr_to_str(setup->sm_peer_address));
3deb3ec6SMatthias Ringwald    if (le_db_index < 0 && setup->sm_peer_addr_type == BD_ADDR_TYPE_LE_PUBLIC){
3deb3ec6SMatthias Ringwald        int i;
3deb3ec6SMatthias Ringwald        for (i=0; i < le_device_db_count(); i++){
3deb3ec6SMatthias Ringwald            bd_addr_t address;
3deb3ec6SMatthias Ringwald            int address_type;
3deb3ec6SMatthias Ringwald            le_device_db_info(i, &address_type, address, NULL);
3deb3ec6SMatthias Ringwald            log_info("device %u, sm peer addr type %u, peer addres %s", i, address_type, bd_addr_to_str(address));
3deb3ec6SMatthias Ringwald            if (address_type == BD_ADDR_TYPE_LE_PUBLIC && memcmp(address, setup->sm_peer_address, 6) == 0){
3deb3ec6SMatthias Ringwald                log_info("sm: device found for public address, updating");
3deb3ec6SMatthias Ringwald                le_db_index = i;
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // if not found, add to db
3deb3ec6SMatthias Ringwald    if (le_db_index < 0) {
3deb3ec6SMatthias Ringwald        le_db_index = le_device_db_add(setup->sm_peer_addr_type, setup->sm_peer_address, setup->sm_peer_irk);
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    if (le_db_index >= 0){
3deb3ec6SMatthias Ringwald        le_device_db_local_counter_set(le_db_index, 0);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        // store local CSRK
3deb3ec6SMatthias Ringwald        if (setup->sm_key_distribution_send_set & SM_KEYDIST_FLAG_SIGNING_IDENTIFICATION){
3deb3ec6SMatthias Ringwald            log_info("sm: store local CSRK");
3deb3ec6SMatthias Ringwald            le_device_db_local_csrk_set(le_db_index, setup->sm_local_csrk);
3deb3ec6SMatthias Ringwald            le_device_db_local_counter_set(le_db_index, 0);
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        // store remote CSRK
3deb3ec6SMatthias Ringwald        if (setup->sm_key_distribution_received_set & SM_KEYDIST_FLAG_SIGNING_IDENTIFICATION){
3deb3ec6SMatthias Ringwald            log_info("sm: store remote CSRK");
3deb3ec6SMatthias Ringwald            le_device_db_remote_csrk_set(le_db_index, setup->sm_peer_csrk);
3deb3ec6SMatthias Ringwald            le_device_db_remote_counter_set(le_db_index, 0);
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        // store encryption information
3deb3ec6SMatthias Ringwald        if (setup->sm_key_distribution_received_set & SM_KEYDIST_FLAG_ENCRYPTION_INFORMATION
3deb3ec6SMatthias Ringwald            && setup->sm_key_distribution_received_set &  SM_KEYDIST_FLAG_MASTER_IDENTIFICATION){
3deb3ec6SMatthias Ringwald            log_info("sm: set encryption information (key size %u, authenticatd %u)", sm_conn->sm_actual_encryption_key_size, sm_conn->sm_connection_authenticated);
3deb3ec6SMatthias Ringwald            le_device_db_encryption_set(le_db_index, setup->sm_peer_ediv, setup->sm_peer_rand, setup->sm_peer_ltk,
3deb3ec6SMatthias Ringwald                sm_conn->sm_actual_encryption_key_size, sm_conn->sm_connection_authenticated, sm_conn->sm_connection_authorization_state == AUTHORIZATION_GRANTED);
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // keep le_db_index
3deb3ec6SMatthias Ringwald    sm_conn->sm_le_db_index = le_db_index;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic void sm_run(void){
3deb3ec6SMatthias Ringwald
665d90f2SMatthias Ringwald    btstack_linked_list_iterator_t it;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // assert that we can send at least commands
3deb3ec6SMatthias Ringwald    if (!hci_can_send_command_packet_now()) return;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    //
3deb3ec6SMatthias Ringwald    // non-connection related behaviour
3deb3ec6SMatthias Ringwald    //
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // distributed key generation
3deb3ec6SMatthias Ringwald    switch (dkg_state){
3deb3ec6SMatthias Ringwald        case DKG_CALC_IRK:
3deb3ec6SMatthias Ringwald            // already busy?
3deb3ec6SMatthias Ringwald            if (sm_aes128_state == SM_AES128_IDLE) {
3deb3ec6SMatthias Ringwald                // IRK = d1(IR, 1, 0)
3deb3ec6SMatthias Ringwald                sm_key_t d1_prime;
3deb3ec6SMatthias Ringwald                sm_d1_d_prime(1, 0, d1_prime);  // plaintext
3deb3ec6SMatthias Ringwald                dkg_next_state();
3deb3ec6SMatthias Ringwald                sm_aes128_start(sm_persistent_ir, d1_prime, NULL);
3deb3ec6SMatthias Ringwald                return;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        case DKG_CALC_DHK:
3deb3ec6SMatthias Ringwald            // already busy?
3deb3ec6SMatthias Ringwald            if (sm_aes128_state == SM_AES128_IDLE) {
3deb3ec6SMatthias Ringwald                // DHK = d1(IR, 3, 0)
3deb3ec6SMatthias Ringwald                sm_key_t d1_prime;
3deb3ec6SMatthias Ringwald                sm_d1_d_prime(3, 0, d1_prime);  // plaintext
3deb3ec6SMatthias Ringwald                dkg_next_state();
3deb3ec6SMatthias Ringwald                sm_aes128_start(sm_persistent_ir, d1_prime, NULL);
3deb3ec6SMatthias Ringwald                return;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        default:
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // random address updates
3deb3ec6SMatthias Ringwald    switch (rau_state){
3deb3ec6SMatthias Ringwald        case RAU_GET_RANDOM:
3deb3ec6SMatthias Ringwald            rau_next_state();
3deb3ec6SMatthias Ringwald            sm_random_start(NULL);
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        case RAU_GET_ENC:
3deb3ec6SMatthias Ringwald            // already busy?
3deb3ec6SMatthias Ringwald            if (sm_aes128_state == SM_AES128_IDLE) {
3deb3ec6SMatthias Ringwald                sm_key_t r_prime;
3deb3ec6SMatthias Ringwald                sm_ah_r_prime(sm_random_address, r_prime);
3deb3ec6SMatthias Ringwald                rau_next_state();
3deb3ec6SMatthias Ringwald                sm_aes128_start(sm_persistent_irk, r_prime, NULL);
3deb3ec6SMatthias Ringwald                return;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        case RAU_SET_ADDRESS:
3deb3ec6SMatthias Ringwald            log_info("New random address: %s", bd_addr_to_str(sm_random_address));
3deb3ec6SMatthias Ringwald            rau_state = RAU_IDLE;
3deb3ec6SMatthias Ringwald            hci_send_cmd(&hci_le_set_random_address, sm_random_address);
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        default:
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // CMAC
3deb3ec6SMatthias Ringwald    switch (sm_cmac_state){
3deb3ec6SMatthias Ringwald        case CMAC_CALC_SUBKEYS:
3deb3ec6SMatthias Ringwald        case CMAC_CALC_MI:
3deb3ec6SMatthias Ringwald        case CMAC_CALC_MLAST:
3deb3ec6SMatthias Ringwald            // already busy?
3deb3ec6SMatthias Ringwald            if (sm_aes128_state == SM_AES128_ACTIVE) break;
3deb3ec6SMatthias Ringwald            sm_cmac_handle_aes_engine_ready();
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        default:
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // CSRK Lookup
3deb3ec6SMatthias Ringwald    // -- if csrk lookup ready, find connection that require csrk lookup
3deb3ec6SMatthias Ringwald    if (sm_address_resolution_idle()){
3deb3ec6SMatthias Ringwald        hci_connections_get_iterator(&it);
665d90f2SMatthias Ringwald        while(btstack_linked_list_iterator_has_next(&it)){
665d90f2SMatthias Ringwald            hci_connection_t * hci_connection = (hci_connection_t *) btstack_linked_list_iterator_next(&it);
3deb3ec6SMatthias Ringwald            sm_connection_t  * sm_connection  = &hci_connection->sm_connection;
3deb3ec6SMatthias Ringwald            if (sm_connection->sm_irk_lookup_state == IRK_LOOKUP_W4_READY){
3deb3ec6SMatthias Ringwald                // and start lookup
3deb3ec6SMatthias Ringwald                sm_address_resolution_start_lookup(sm_connection->sm_peer_addr_type, sm_connection->sm_handle, sm_connection->sm_peer_address, ADDRESS_RESOLUTION_FOR_CONNECTION, sm_connection);
3deb3ec6SMatthias Ringwald                sm_connection->sm_irk_lookup_state = IRK_LOOKUP_STARTED;
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // -- if csrk lookup ready, resolved addresses for received addresses
3deb3ec6SMatthias Ringwald    if (sm_address_resolution_idle()) {
665d90f2SMatthias Ringwald        if (!btstack_linked_list_empty(&sm_address_resolution_general_queue)){
3deb3ec6SMatthias Ringwald            sm_lookup_entry_t * entry = (sm_lookup_entry_t *) sm_address_resolution_general_queue;
665d90f2SMatthias Ringwald            btstack_linked_list_remove(&sm_address_resolution_general_queue, (btstack_linked_item_t *) entry);
3deb3ec6SMatthias Ringwald            sm_address_resolution_start_lookup(entry->address_type, 0, entry->address, ADDRESS_RESOLUTION_GENERAL, NULL);
3deb3ec6SMatthias Ringwald            btstack_memory_sm_lookup_entry_free(entry);
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // -- Continue with CSRK device lookup by public or resolvable private address
3deb3ec6SMatthias Ringwald    if (!sm_address_resolution_idle()){
3deb3ec6SMatthias Ringwald        log_info("LE Device Lookup: device %u/%u", sm_address_resolution_test, le_device_db_count());
3deb3ec6SMatthias Ringwald        while (sm_address_resolution_test < le_device_db_count()){
3deb3ec6SMatthias Ringwald            int addr_type;
3deb3ec6SMatthias Ringwald            bd_addr_t addr;
3deb3ec6SMatthias Ringwald            sm_key_t irk;
3deb3ec6SMatthias Ringwald            le_device_db_info(sm_address_resolution_test, &addr_type, addr, irk);
3deb3ec6SMatthias Ringwald            log_info("device type %u, addr: %s", addr_type, bd_addr_to_str(addr));
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            if (sm_address_resolution_addr_type == addr_type && memcmp(addr, sm_address_resolution_address, 6) == 0){
3deb3ec6SMatthias Ringwald                log_info("LE Device Lookup: found CSRK by { addr_type, address} ");
3deb3ec6SMatthias Ringwald                sm_address_resolution_handle_event(ADDRESS_RESOLUTION_SUCEEDED);
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            if (sm_address_resolution_addr_type == 0){
3deb3ec6SMatthias Ringwald                sm_address_resolution_test++;
3deb3ec6SMatthias Ringwald                continue;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            if (sm_aes128_state == SM_AES128_ACTIVE) break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            log_info("LE Device Lookup: calculate AH");
8314c363SMatthias Ringwald            log_info_key("IRK", irk);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            sm_key_t r_prime;
3deb3ec6SMatthias Ringwald            sm_ah_r_prime(sm_address_resolution_address, r_prime);
3deb3ec6SMatthias Ringwald            sm_address_resolution_ah_calculation_active = 1;
3deb3ec6SMatthias Ringwald            sm_aes128_start(irk, r_prime, sm_address_resolution_context);   // keep context
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        if (sm_address_resolution_test >= le_device_db_count()){
3deb3ec6SMatthias Ringwald            log_info("LE Device Lookup: not found");
3deb3ec6SMatthias Ringwald            sm_address_resolution_handle_event(ADDRESS_RESOLUTION_FAILED);
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    //
3deb3ec6SMatthias Ringwald    // active connection handling
3deb3ec6SMatthias Ringwald    // -- use loop to handle next connection if lock on setup context is released
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    while (1) {
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        // Find connections that requires setup context and make active if no other is locked
3deb3ec6SMatthias Ringwald        hci_connections_get_iterator(&it);
665d90f2SMatthias Ringwald        while(!sm_active_connection && btstack_linked_list_iterator_has_next(&it)){
665d90f2SMatthias Ringwald            hci_connection_t * hci_connection = (hci_connection_t *) btstack_linked_list_iterator_next(&it);
3deb3ec6SMatthias Ringwald            sm_connection_t  * sm_connection = &hci_connection->sm_connection;
3deb3ec6SMatthias Ringwald            // - if no connection locked and we're ready/waiting for setup context, fetch it and start
3deb3ec6SMatthias Ringwald            int done = 1;
3deb3ec6SMatthias Ringwald            int err;
3deb3ec6SMatthias Ringwald            int encryption_key_size;
3deb3ec6SMatthias Ringwald            int authenticated;
3deb3ec6SMatthias Ringwald            int authorized;
3deb3ec6SMatthias Ringwald            switch (sm_connection->sm_engine_state) {
3deb3ec6SMatthias Ringwald                case SM_RESPONDER_SEND_SECURITY_REQUEST:
3deb3ec6SMatthias Ringwald                    // send packet if possible,
adbe29e8SMatthias Ringwald                    if (l2cap_can_send_fixed_channel_packet_now(sm_connection->sm_handle, L2CAP_CID_SECURITY_MANAGER_PROTOCOL)){
b170b20fSMatthias Ringwald                        const uint8_t buffer[2] = { SM_CODE_SECURITY_REQUEST, SM_AUTHREQ_BONDING};
3deb3ec6SMatthias Ringwald                        sm_connection->sm_engine_state = SM_RESPONDER_PH1_W4_PAIRING_REQUEST;
3deb3ec6SMatthias Ringwald                        l2cap_send_connectionless(sm_connection->sm_handle, L2CAP_CID_SECURITY_MANAGER_PROTOCOL, (uint8_t*) buffer, sizeof(buffer));
b170b20fSMatthias Ringwald                    } else {
b170b20fSMatthias Ringwald                        l2cap_request_can_send_fix_channel_now_event(sm_connection->sm_handle, L2CAP_CID_SECURITY_MANAGER_PROTOCOL);
3deb3ec6SMatthias Ringwald                    }
3deb3ec6SMatthias Ringwald                    // don't lock setup context yet
3deb3ec6SMatthias Ringwald                    done = 0;
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald                case SM_RESPONDER_PH1_PAIRING_REQUEST_RECEIVED:
3deb3ec6SMatthias Ringwald                    sm_init_setup(sm_connection);
3deb3ec6SMatthias Ringwald                    // recover pairing request
3deb3ec6SMatthias Ringwald                    memcpy(&setup->sm_m_preq, &sm_connection->sm_m_preq, sizeof(sm_pairing_packet_t));
3deb3ec6SMatthias Ringwald                    err = sm_stk_generation_init(sm_connection);
3deb3ec6SMatthias Ringwald                    if (err){
3deb3ec6SMatthias Ringwald                        setup->sm_pairing_failed_reason = err;
3deb3ec6SMatthias Ringwald                        sm_connection->sm_engine_state = SM_GENERAL_SEND_PAIRING_FAILED;
3deb3ec6SMatthias Ringwald                        break;
3deb3ec6SMatthias Ringwald                    }
3deb3ec6SMatthias Ringwald                    sm_timeout_start(sm_connection);
3deb3ec6SMatthias Ringwald                    // generate random number first, if we need to show passkey
3deb3ec6SMatthias Ringwald                    if (setup->sm_stk_generation_method == PK_INIT_INPUT){
3deb3ec6SMatthias Ringwald                        sm_connection->sm_engine_state = SM_PH2_GET_RANDOM_TK;
3deb3ec6SMatthias Ringwald                        break;
3deb3ec6SMatthias Ringwald                    }
3deb3ec6SMatthias Ringwald                    sm_connection->sm_engine_state = SM_RESPONDER_PH1_SEND_PAIRING_RESPONSE;
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald                case SM_INITIATOR_PH0_HAS_LTK:
3deb3ec6SMatthias Ringwald                    // fetch data from device db - incl. authenticated/authorized/key size. Note all sm_connection_X require encryption enabled
3deb3ec6SMatthias Ringwald                    le_device_db_encryption_get(sm_connection->sm_le_db_index, &setup->sm_peer_ediv, setup->sm_peer_rand, setup->sm_peer_ltk,
3deb3ec6SMatthias Ringwald                                                &encryption_key_size, &authenticated, &authorized);
3deb3ec6SMatthias Ringwald                    log_info("db index %u, key size %u, authenticated %u, authorized %u", sm_connection->sm_le_db_index, encryption_key_size, authenticated, authorized);
3deb3ec6SMatthias Ringwald                    sm_connection->sm_actual_encryption_key_size = encryption_key_size;
3deb3ec6SMatthias Ringwald                    sm_connection->sm_connection_authenticated = authenticated;
3deb3ec6SMatthias Ringwald                    sm_connection->sm_connection_authorization_state = authorized ? AUTHORIZATION_GRANTED : AUTHORIZATION_UNKNOWN;
3deb3ec6SMatthias Ringwald                    sm_connection->sm_engine_state = SM_INITIATOR_PH0_SEND_START_ENCRYPTION;
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald                case SM_RESPONDER_PH0_RECEIVED_LTK:
3deb3ec6SMatthias Ringwald                    // re-establish previously used LTK using Rand and EDIV
3deb3ec6SMatthias Ringwald                    memcpy(setup->sm_local_rand, sm_connection->sm_local_rand, 8);
3deb3ec6SMatthias Ringwald                    setup->sm_local_ediv = sm_connection->sm_local_ediv;
3deb3ec6SMatthias Ringwald                    // re-establish used key encryption size
3deb3ec6SMatthias Ringwald                    // no db for encryption size hack: encryption size is stored in lowest nibble of setup->sm_local_rand
3deb3ec6SMatthias Ringwald                    sm_connection->sm_actual_encryption_key_size = (setup->sm_local_rand[7] & 0x0f) + 1;
3deb3ec6SMatthias Ringwald                    // no db for authenticated flag hack: flag is stored in bit 4 of LSB
3deb3ec6SMatthias Ringwald                    sm_connection->sm_connection_authenticated = (setup->sm_local_rand[7] & 0x10) >> 4;
3deb3ec6SMatthias Ringwald                    log_info("sm: received ltk request with key size %u, authenticated %u",
3deb3ec6SMatthias Ringwald                            sm_connection->sm_actual_encryption_key_size, sm_connection->sm_connection_authenticated);
3deb3ec6SMatthias Ringwald                    sm_connection->sm_engine_state = SM_RESPONDER_PH4_Y_GET_ENC;
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald                case SM_INITIATOR_PH1_W2_SEND_PAIRING_REQUEST:
3deb3ec6SMatthias Ringwald                    sm_init_setup(sm_connection);
3deb3ec6SMatthias Ringwald                    sm_timeout_start(sm_connection);
3deb3ec6SMatthias Ringwald                    sm_connection->sm_engine_state = SM_INITIATOR_PH1_SEND_PAIRING_REQUEST;
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald                default:
3deb3ec6SMatthias Ringwald                    done = 0;
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            if (done){
3deb3ec6SMatthias Ringwald                sm_active_connection = sm_connection->sm_handle;
3deb3ec6SMatthias Ringwald                log_info("sm: connection 0x%04x locked setup context as %s", sm_active_connection, sm_connection->sm_role ? "responder" : "initiator");
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        //
3deb3ec6SMatthias Ringwald        // active connection handling
3deb3ec6SMatthias Ringwald        //
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        if (sm_active_connection == 0) return;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        // assert that we could send a SM PDU - not needed for all of the following
b170b20fSMatthias Ringwald        if (!l2cap_can_send_fixed_channel_packet_now(sm_active_connection, L2CAP_CID_SECURITY_MANAGER_PROTOCOL)) {
b170b20fSMatthias Ringwald            l2cap_request_can_send_fix_channel_now_event(sm_active_connection, L2CAP_CID_SECURITY_MANAGER_PROTOCOL);
b170b20fSMatthias Ringwald            return;
b170b20fSMatthias Ringwald        }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        sm_connection_t * connection = sm_get_connection_for_handle(sm_active_connection);
3deb3ec6SMatthias Ringwald        if (!connection) return;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        sm_key_t plaintext;
3deb3ec6SMatthias Ringwald        int key_distribution_flags;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        log_info("sm_run: state %u", connection->sm_engine_state);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        // responding state
3deb3ec6SMatthias Ringwald        switch (connection->sm_engine_state){
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            // general
3deb3ec6SMatthias Ringwald            case SM_GENERAL_SEND_PAIRING_FAILED: {
3deb3ec6SMatthias Ringwald                uint8_t buffer[2];
3deb3ec6SMatthias Ringwald                buffer[0] = SM_CODE_PAIRING_FAILED;
3deb3ec6SMatthias Ringwald                buffer[1] = setup->sm_pairing_failed_reason;
3deb3ec6SMatthias Ringwald                connection->sm_engine_state = connection->sm_role ? SM_RESPONDER_IDLE : SM_INITIATOR_CONNECTED;
3deb3ec6SMatthias Ringwald                l2cap_send_connectionless(connection->sm_handle, L2CAP_CID_SECURITY_MANAGER_PROTOCOL, (uint8_t*) buffer, sizeof(buffer));
3deb3ec6SMatthias Ringwald                sm_done_for_handle(connection->sm_handle);
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            // initiator side
3deb3ec6SMatthias Ringwald            case SM_INITIATOR_PH0_SEND_START_ENCRYPTION: {
3deb3ec6SMatthias Ringwald                sm_key_t peer_ltk_flipped;
9c80e4ccSMatthias Ringwald                reverse_128(setup->sm_peer_ltk, peer_ltk_flipped);
3deb3ec6SMatthias Ringwald                connection->sm_engine_state = SM_INITIATOR_PH0_W4_CONNECTION_ENCRYPTED;
3deb3ec6SMatthias Ringwald                log_info("sm: hci_le_start_encryption ediv 0x%04x", setup->sm_peer_ediv);
c9b8fdd9SMatthias Ringwald                uint32_t rand_high = big_endian_read_32(setup->sm_peer_rand, 0);
c9b8fdd9SMatthias Ringwald                uint32_t rand_low  = big_endian_read_32(setup->sm_peer_rand, 4);
3deb3ec6SMatthias Ringwald                hci_send_cmd(&hci_le_start_encryption, connection->sm_handle,rand_low, rand_high, setup->sm_peer_ediv, peer_ltk_flipped);
3deb3ec6SMatthias Ringwald                return;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            case SM_INITIATOR_PH1_SEND_PAIRING_REQUEST:
1ad129beSMatthias Ringwald                sm_pairing_packet_set_code(setup->sm_m_preq, SM_CODE_PAIRING_REQUEST);
3deb3ec6SMatthias Ringwald                connection->sm_engine_state = SM_INITIATOR_PH1_W4_PAIRING_RESPONSE;
3deb3ec6SMatthias Ringwald                l2cap_send_connectionless(connection->sm_handle, L2CAP_CID_SECURITY_MANAGER_PROTOCOL, (uint8_t*) &setup->sm_m_preq, sizeof(sm_pairing_packet_t));
3deb3ec6SMatthias Ringwald                sm_timeout_reset(connection);
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            // responder side
3deb3ec6SMatthias Ringwald            case SM_RESPONDER_PH0_SEND_LTK_REQUESTED_NEGATIVE_REPLY:
3deb3ec6SMatthias Ringwald                connection->sm_engine_state = SM_RESPONDER_IDLE;
3deb3ec6SMatthias Ringwald                hci_send_cmd(&hci_le_long_term_key_negative_reply, connection->sm_handle);
3deb3ec6SMatthias Ringwald                return;
3deb3ec6SMatthias Ringwald
27c32905SMatthias Ringwald#ifdef ENABLE_LE_SECURE_CONNECTIONS
27c32905SMatthias Ringwald            case SM_PH2_SEND_PUBLIC_KEY_COMMAND: {
27c32905SMatthias Ringwald                uint8_t buffer[65];
27c32905SMatthias Ringwald                buffer[0] = SM_CODE_PAIRING_PUBLIC_KEY;
27c32905SMatthias Ringwald                //
27c32905SMatthias Ringwald#ifdef USE_MBEDTLS_FOR_ECDH
27c32905SMatthias Ringwald                uint8_t value[32];
27c32905SMatthias Ringwald                mbedtls_mpi_write_binary(&le_keypair.Q.X, value, sizeof(value));
27c32905SMatthias Ringwald                reverse_256(value, &buffer[1]);
27c32905SMatthias Ringwald                mbedtls_mpi_write_binary(&le_keypair.Q.Y, value, sizeof(value));
27c32905SMatthias Ringwald                reverse_256(value, &buffer[33]);
27c32905SMatthias Ringwald#endif
e53be891SMatthias Ringwald                // TODO: use random generator to generate nonce
e53be891SMatthias Ringwald                // generate 128-bit nonce
e53be891SMatthias Ringwald                int i;
e53be891SMatthias Ringwald                for (i=0;i<16;i++){
e53be891SMatthias Ringwald                    setup->sm_local_nonce[i] = rand() & 0xff;
e53be891SMatthias Ringwald                }
e53be891SMatthias Ringwald
27c32905SMatthias Ringwald                if (connection->sm_role){
e53be891SMatthias Ringwald                    connection->sm_engine_state = SM_PH2_SEND_CONFIRMATION;
27c32905SMatthias Ringwald                } else {
e53be891SMatthias Ringwald                    // TODO:
e53be891SMatthias Ringwald                    log_error("SC, next state initiator, send local nonce");
27c32905SMatthias Ringwald                }
27c32905SMatthias Ringwald                l2cap_send_connectionless(connection->sm_handle, L2CAP_CID_SECURITY_MANAGER_PROTOCOL, (uint8_t*) buffer, sizeof(buffer));
27c32905SMatthias Ringwald                sm_timeout_reset(connection);
27c32905SMatthias Ringwald                break;
27c32905SMatthias Ringwald            }
e53be891SMatthias Ringwald            case SM_PH2_SEND_CONFIRMATION: {
e53be891SMatthias Ringwald                uint8_t buffer[17];
e53be891SMatthias Ringwald                buffer[0] = SM_CODE_PAIRING_CONFIRM;
e53be891SMatthias Ringwald#ifdef USE_MBEDTLS_FOR_ECDH
e53be891SMatthias Ringwald                // TODO: use AES Engine to calculate commitment value using f4
e53be891SMatthias Ringwald                uint8_t value[32];
e53be891SMatthias Ringwald                mbedtls_mpi_write_binary(&le_keypair.Q.X, value, sizeof(value));
e53be891SMatthias Ringwald                sm_key_t confirm_value;
e53be891SMatthias Ringwald                f4(confirm_value, value, setup->sm_peer_qx, setup->sm_local_nonce, 0);
e53be891SMatthias Ringwald                reverse_128(confirm_value, &buffer[1]);
27c32905SMatthias Ringwald#endif
e53be891SMatthias Ringwald                if (connection->sm_role){
e53be891SMatthias Ringwald                    connection->sm_engine_state = SM_PH2_W4_PAIRING_RANDOM;
e53be891SMatthias Ringwald                } else {
e53be891SMatthias Ringwald                    // TODO: set next state for initiator depending on stk generation method
e53be891SMatthias Ringwald                    log_error("SC, next state initiator, only for passkey entry needed");
e53be891SMatthias Ringwald                }
e53be891SMatthias Ringwald                l2cap_send_connectionless(connection->sm_handle, L2CAP_CID_SECURITY_MANAGER_PROTOCOL, (uint8_t*) buffer, sizeof(buffer));
e53be891SMatthias Ringwald                sm_timeout_reset(connection);
e53be891SMatthias Ringwald                break;
e53be891SMatthias Ringwald            }
e53be891SMatthias Ringwald            case SM_PH2_SEND_PAIRING_RANDOM_SC: {
e53be891SMatthias Ringwald                uint8_t buffer[17];
e53be891SMatthias Ringwald                buffer[0] = SM_CODE_PAIRING_RANDOM;
e53be891SMatthias Ringwald                reverse_128(setup->sm_local_nonce, &buffer[1]);
e53be891SMatthias Ringwald                if (connection->sm_role){
e53be891SMatthias Ringwald                    // responder
e53be891SMatthias Ringwald                    connection->sm_engine_state = SM_PH2_W4_DHKEY_CHECK_COMMAND;
*446a8c36SMatthias Ringwald                    if (setup->sm_stk_generation_method == NK_BOTH_INPUT){
*446a8c36SMatthias Ringwald                        // calc Vb if numeric comparison
*446a8c36SMatthias Ringwald                        // TODO: use AES Engine to calculate g2
*446a8c36SMatthias Ringwald                        uint8_t value[32];
*446a8c36SMatthias Ringwald                        mbedtls_mpi_write_binary(&le_keypair.Q.X, value, sizeof(value));
*446a8c36SMatthias Ringwald                        uint32_t vb = g2(setup->sm_peer_qx, value, setup->sm_peer_nonce, setup->sm_local_nonce) % 1000000;
*446a8c36SMatthias Ringwald                        big_endian_store_32(setup->sm_tk, 12, vb);
*446a8c36SMatthias Ringwald                        sm_trigger_user_response(connection);
*446a8c36SMatthias Ringwald                    }
e53be891SMatthias Ringwald                } else {
e53be891SMatthias Ringwald                    // TODO: next initiator state
e53be891SMatthias Ringwald                    // connection->sm_engine_state = SM_INITIATOR_PH2_W4_PAIRING_RANDOM;
e53be891SMatthias Ringwald                }
e53be891SMatthias Ringwald                l2cap_send_connectionless(connection->sm_handle, L2CAP_CID_SECURITY_MANAGER_PROTOCOL, (uint8_t*) buffer, sizeof(buffer));
e53be891SMatthias Ringwald                sm_timeout_reset(connection);
e53be891SMatthias Ringwald                break;
e53be891SMatthias Ringwald            }
e53be891SMatthias Ringwald            case SM_PH2_SEND_DHKEY_CHECK_COMMAND: {
27c32905SMatthias Ringwald
e53be891SMatthias Ringwald                uint8_t buffer[17];
e53be891SMatthias Ringwald                buffer[0] = SM_CODE_PAIRING_DHKEY_CHECK;
e53be891SMatthias Ringwald#ifdef USE_MBEDTLS_FOR_ECDH
e53be891SMatthias Ringwald                // calculate DHKEY
e53be891SMatthias Ringwald                mbedtls_ecp_group grp;
e53be891SMatthias Ringwald                mbedtls_ecp_group_init( &grp );
e53be891SMatthias Ringwald                int res = mbedtls_ecp_group_load(&grp, MBEDTLS_ECP_DP_SECP256R1);
e53be891SMatthias Ringwald                if (res) {
e53be891SMatthias Ringwald                    log_error("dhkey: error loading curve %d", res);
e53be891SMatthias Ringwald                    break;
e53be891SMatthias Ringwald                }
e53be891SMatthias Ringwald                mbedtls_ecp_point Q;
e53be891SMatthias Ringwald                mbedtls_ecp_point_init( &Q );
e53be891SMatthias Ringwald                mbedtls_mpi_read_binary(&Q.X, setup->sm_peer_qx, 32);
e53be891SMatthias Ringwald                mbedtls_mpi_read_binary(&Q.Y, setup->sm_peer_qy, 32);
e53be891SMatthias Ringwald                mbedtls_mpi_read_string(&Q.Z, 16, "1" );
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald                // da * Pb
e53be891SMatthias Ringwald                mbedtls_ecp_point DH;
e53be891SMatthias Ringwald                mbedtls_ecp_point_init( &DH );
e53be891SMatthias Ringwald                res = mbedtls_ecp_mul(&grp, &DH, &le_keypair.d, &Q, NULL, NULL);
e53be891SMatthias Ringwald                sm_key256_t dhkey;
e53be891SMatthias Ringwald                res = mbedtls_mpi_write_binary(&DH.X, dhkey, 32);
e53be891SMatthias Ringwald                log_info("dhkey");
e53be891SMatthias Ringwald                log_info_hexdump(dhkey, 32);
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald                // calculate LTK + MacKey
e53be891SMatthias Ringwald                sm_key256_t ltk_mackey;
e53be891SMatthias Ringwald                sm_key56_t bd_addr_master, bd_addr_slave;
e53be891SMatthias Ringwald                bd_addr_master[0] =  setup->sm_m_addr_type;
e53be891SMatthias Ringwald                bd_addr_slave[0]  =  setup->sm_s_addr_type;
e53be891SMatthias Ringwald                memcpy(&bd_addr_master[1], setup->sm_m_address, 6);
e53be891SMatthias Ringwald                memcpy(&bd_addr_slave[1],  setup->sm_s_address, 6);
e53be891SMatthias Ringwald                if (connection->sm_role){
e53be891SMatthias Ringwald                    // responder
e53be891SMatthias Ringwald                    f5(ltk_mackey, dhkey, setup->sm_peer_nonce, setup->sm_local_nonce, bd_addr_master, bd_addr_slave);
e53be891SMatthias Ringwald                } else {
e53be891SMatthias Ringwald                    // initiator
e53be891SMatthias Ringwald                    f5(ltk_mackey, dhkey, setup->sm_local_nonce, setup->sm_peer_nonce, bd_addr_master, bd_addr_slave);
e53be891SMatthias Ringwald                }
e53be891SMatthias Ringwald                // store LTK
e53be891SMatthias Ringwald                memcpy(setup->sm_ltk, &ltk_mackey[16], 16);
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald                // calc DHKCheck
e53be891SMatthias Ringwald                sm_key_t mackey;
e53be891SMatthias Ringwald                memcpy(mackey, &ltk_mackey[0], 16);
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald                // TODO: checks
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald                uint8_t iocap_a[3];
e53be891SMatthias Ringwald                iocap_a[0] = sm_pairing_packet_get_auth_req(setup->sm_m_preq);
e53be891SMatthias Ringwald                iocap_a[1] = sm_pairing_packet_get_oob_data_flag(setup->sm_m_preq);
e53be891SMatthias Ringwald                iocap_a[2] = sm_pairing_packet_get_io_capability(setup->sm_m_preq);
e53be891SMatthias Ringwald                uint8_t iocap_b[3];
e53be891SMatthias Ringwald                iocap_b[0] = sm_pairing_packet_get_auth_req(setup->sm_s_pres);
e53be891SMatthias Ringwald                iocap_b[1] = sm_pairing_packet_get_oob_data_flag(setup->sm_s_pres);
e53be891SMatthias Ringwald                iocap_b[2] = sm_pairing_packet_get_io_capability(setup->sm_s_pres);
e53be891SMatthias Ringwald                if (connection->sm_role){
e53be891SMatthias Ringwald                    // responder
*446a8c36SMatthias Ringwald                    f6(setup->sm_local_dhkey_check, mackey, setup->sm_local_nonce, setup->sm_peer_nonce, setup->sm_ra, iocap_b, bd_addr_slave, bd_addr_master);
e53be891SMatthias Ringwald                } else {
e53be891SMatthias Ringwald                    // initiator
e53be891SMatthias Ringwald                    //
e53be891SMatthias Ringwald                }
e53be891SMatthias Ringwald#endif
e53be891SMatthias Ringwald                reverse_128(setup->sm_local_dhkey_check, &buffer[1]);
e53be891SMatthias Ringwald                if (connection->sm_role){
e53be891SMatthias Ringwald                    connection->sm_engine_state = SM_RESPONDER_PH2_W4_LTK_REQUEST_SC;
e53be891SMatthias Ringwald                } else {
e53be891SMatthias Ringwald                    // TODO: next initiator state
e53be891SMatthias Ringwald                    // connection->sm_engine_state = SM_INITIATOR_PH2_W4_PAIRING_RANDOM;
e53be891SMatthias Ringwald                }
e53be891SMatthias Ringwald                l2cap_send_connectionless(connection->sm_handle, L2CAP_CID_SECURITY_MANAGER_PROTOCOL, (uint8_t*) buffer, sizeof(buffer));
e53be891SMatthias Ringwald                sm_timeout_reset(connection);
e53be891SMatthias Ringwald                break;
e53be891SMatthias Ringwald            }
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald#endif
3deb3ec6SMatthias Ringwald            case SM_RESPONDER_PH1_SEND_PAIRING_RESPONSE:
3deb3ec6SMatthias Ringwald                // echo initiator for now
1ad129beSMatthias Ringwald                sm_pairing_packet_set_code(setup->sm_s_pres,SM_CODE_PAIRING_RESPONSE);
3deb3ec6SMatthias Ringwald                key_distribution_flags = sm_key_distribution_flags_for_auth_req();
1ad129beSMatthias Ringwald                sm_pairing_packet_set_initiator_key_distribution(setup->sm_s_pres, sm_pairing_packet_get_initiator_key_distribution(setup->sm_m_preq) & key_distribution_flags);
1ad129beSMatthias Ringwald                sm_pairing_packet_set_responder_key_distribution(setup->sm_s_pres, sm_pairing_packet_get_responder_key_distribution(setup->sm_m_preq) & key_distribution_flags);
1ad129beSMatthias Ringwald
3deb3ec6SMatthias Ringwald                connection->sm_engine_state = SM_RESPONDER_PH1_W4_PAIRING_CONFIRM;
27c32905SMatthias Ringwald#ifdef ENABLE_LE_SECURE_CONNECTIONS
27c32905SMatthias Ringwald                if (setup->sm_use_secure_connections){
27c32905SMatthias Ringwald                    connection->sm_engine_state = SM_RESPONDER_PH2_W4_PUBLIC_KEY_COMMAND;
27c32905SMatthias Ringwald                }
27c32905SMatthias Ringwald#endif
3deb3ec6SMatthias Ringwald                l2cap_send_connectionless(connection->sm_handle, L2CAP_CID_SECURITY_MANAGER_PROTOCOL, (uint8_t*) &setup->sm_s_pres, sizeof(sm_pairing_packet_t));
3deb3ec6SMatthias Ringwald                sm_timeout_reset(connection);
*446a8c36SMatthias Ringwald                // SC Numeric Comparison will trigger user response after public keys & nonces have been exchanged
*446a8c36SMatthias Ringwald                if (setup->sm_stk_generation_method != NK_BOTH_INPUT){
3deb3ec6SMatthias Ringwald                    sm_trigger_user_response(connection);
*446a8c36SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald                return;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            case SM_PH2_SEND_PAIRING_RANDOM: {
3deb3ec6SMatthias Ringwald                uint8_t buffer[17];
3deb3ec6SMatthias Ringwald                buffer[0] = SM_CODE_PAIRING_RANDOM;
9c80e4ccSMatthias Ringwald                reverse_128(setup->sm_local_random, &buffer[1]);
3deb3ec6SMatthias Ringwald                if (connection->sm_role){
3deb3ec6SMatthias Ringwald                    connection->sm_engine_state = SM_RESPONDER_PH2_W4_LTK_REQUEST;
3deb3ec6SMatthias Ringwald                } else {
3deb3ec6SMatthias Ringwald                    connection->sm_engine_state = SM_INITIATOR_PH2_W4_PAIRING_RANDOM;
3deb3ec6SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald                l2cap_send_connectionless(connection->sm_handle, L2CAP_CID_SECURITY_MANAGER_PROTOCOL, (uint8_t*) buffer, sizeof(buffer));
3deb3ec6SMatthias Ringwald                sm_timeout_reset(connection);
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            case SM_PH2_GET_RANDOM_TK:
3deb3ec6SMatthias Ringwald            case SM_PH2_C1_GET_RANDOM_A:
3deb3ec6SMatthias Ringwald            case SM_PH2_C1_GET_RANDOM_B:
3deb3ec6SMatthias Ringwald            case SM_PH3_GET_RANDOM:
3deb3ec6SMatthias Ringwald            case SM_PH3_GET_DIV:
3deb3ec6SMatthias Ringwald                sm_next_responding_state(connection);
3deb3ec6SMatthias Ringwald                sm_random_start(connection);
3deb3ec6SMatthias Ringwald                return;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            case SM_PH2_C1_GET_ENC_B:
3deb3ec6SMatthias Ringwald            case SM_PH2_C1_GET_ENC_D:
3deb3ec6SMatthias Ringwald                // already busy?
3deb3ec6SMatthias Ringwald                if (sm_aes128_state == SM_AES128_ACTIVE) break;
3deb3ec6SMatthias Ringwald                sm_next_responding_state(connection);
3deb3ec6SMatthias Ringwald                sm_aes128_start(setup->sm_tk, setup->sm_c1_t3_value, connection);
3deb3ec6SMatthias Ringwald                return;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            case SM_PH3_LTK_GET_ENC:
3deb3ec6SMatthias Ringwald            case SM_RESPONDER_PH4_LTK_GET_ENC:
3deb3ec6SMatthias Ringwald                // already busy?
3deb3ec6SMatthias Ringwald                if (sm_aes128_state == SM_AES128_IDLE) {
3deb3ec6SMatthias Ringwald                    sm_key_t d_prime;
3deb3ec6SMatthias Ringwald                    sm_d1_d_prime(setup->sm_local_div, 0, d_prime);
3deb3ec6SMatthias Ringwald                    sm_next_responding_state(connection);
3deb3ec6SMatthias Ringwald                    sm_aes128_start(sm_persistent_er, d_prime, connection);
3deb3ec6SMatthias Ringwald                    return;
3deb3ec6SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            case SM_PH3_CSRK_GET_ENC:
3deb3ec6SMatthias Ringwald                // already busy?
3deb3ec6SMatthias Ringwald                if (sm_aes128_state == SM_AES128_IDLE) {
3deb3ec6SMatthias Ringwald                    sm_key_t d_prime;
3deb3ec6SMatthias Ringwald                    sm_d1_d_prime(setup->sm_local_div, 1, d_prime);
3deb3ec6SMatthias Ringwald                    sm_next_responding_state(connection);
3deb3ec6SMatthias Ringwald                    sm_aes128_start(sm_persistent_er, d_prime, connection);
3deb3ec6SMatthias Ringwald                    return;
3deb3ec6SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            case SM_PH2_C1_GET_ENC_C:
3deb3ec6SMatthias Ringwald                // already busy?
3deb3ec6SMatthias Ringwald                if (sm_aes128_state == SM_AES128_ACTIVE) break;
3deb3ec6SMatthias Ringwald                // calculate m_confirm using aes128 engine - step 1
3deb3ec6SMatthias Ringwald                sm_c1_t1(setup->sm_peer_random, (uint8_t*) &setup->sm_m_preq, (uint8_t*) &setup->sm_s_pres, setup->sm_m_addr_type, setup->sm_s_addr_type, plaintext);
3deb3ec6SMatthias Ringwald                sm_next_responding_state(connection);
3deb3ec6SMatthias Ringwald                sm_aes128_start(setup->sm_tk, plaintext, connection);
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            case SM_PH2_C1_GET_ENC_A:
3deb3ec6SMatthias Ringwald                // already busy?
3deb3ec6SMatthias Ringwald                if (sm_aes128_state == SM_AES128_ACTIVE) break;
3deb3ec6SMatthias Ringwald                // calculate confirm using aes128 engine - step 1
3deb3ec6SMatthias Ringwald                sm_c1_t1(setup->sm_local_random, (uint8_t*) &setup->sm_m_preq, (uint8_t*) &setup->sm_s_pres, setup->sm_m_addr_type, setup->sm_s_addr_type, plaintext);
3deb3ec6SMatthias Ringwald                sm_next_responding_state(connection);
3deb3ec6SMatthias Ringwald                sm_aes128_start(setup->sm_tk, plaintext, connection);
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            case SM_PH2_CALC_STK:
3deb3ec6SMatthias Ringwald                // already busy?
3deb3ec6SMatthias Ringwald                if (sm_aes128_state == SM_AES128_ACTIVE) break;
3deb3ec6SMatthias Ringwald                // calculate STK
3deb3ec6SMatthias Ringwald                if (connection->sm_role){
3deb3ec6SMatthias Ringwald                    sm_s1_r_prime(setup->sm_local_random, setup->sm_peer_random, plaintext);
3deb3ec6SMatthias Ringwald                } else {
3deb3ec6SMatthias Ringwald                    sm_s1_r_prime(setup->sm_peer_random, setup->sm_local_random, plaintext);
3deb3ec6SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald                sm_next_responding_state(connection);
3deb3ec6SMatthias Ringwald                sm_aes128_start(setup->sm_tk, plaintext, connection);
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            case SM_PH3_Y_GET_ENC:
3deb3ec6SMatthias Ringwald                // already busy?
3deb3ec6SMatthias Ringwald                if (sm_aes128_state == SM_AES128_ACTIVE) break;
3deb3ec6SMatthias Ringwald                // PH3B2 - calculate Y from      - enc
3deb3ec6SMatthias Ringwald                // Y = dm(DHK, Rand)
3deb3ec6SMatthias Ringwald                sm_dm_r_prime(setup->sm_local_rand, plaintext);
3deb3ec6SMatthias Ringwald                sm_next_responding_state(connection);
3deb3ec6SMatthias Ringwald                sm_aes128_start(sm_persistent_dhk, plaintext, connection);
3deb3ec6SMatthias Ringwald                return;
3deb3ec6SMatthias Ringwald            case SM_PH2_C1_SEND_PAIRING_CONFIRM: {
3deb3ec6SMatthias Ringwald                uint8_t buffer[17];
3deb3ec6SMatthias Ringwald                buffer[0] = SM_CODE_PAIRING_CONFIRM;
9c80e4ccSMatthias Ringwald                reverse_128(setup->sm_local_confirm, &buffer[1]);
3deb3ec6SMatthias Ringwald                if (connection->sm_role){
3deb3ec6SMatthias Ringwald                    connection->sm_engine_state = SM_RESPONDER_PH2_W4_PAIRING_RANDOM;
3deb3ec6SMatthias Ringwald                } else {
3deb3ec6SMatthias Ringwald                    connection->sm_engine_state = SM_INITIATOR_PH2_W4_PAIRING_CONFIRM;
3deb3ec6SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald                l2cap_send_connectionless(connection->sm_handle, L2CAP_CID_SECURITY_MANAGER_PROTOCOL, (uint8_t*) buffer, sizeof(buffer));
3deb3ec6SMatthias Ringwald                sm_timeout_reset(connection);
3deb3ec6SMatthias Ringwald                return;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            case SM_RESPONDER_PH2_SEND_LTK_REPLY: {
3deb3ec6SMatthias Ringwald                sm_key_t stk_flipped;
9c80e4ccSMatthias Ringwald                reverse_128(setup->sm_ltk, stk_flipped);
3deb3ec6SMatthias Ringwald                connection->sm_engine_state = SM_PH2_W4_CONNECTION_ENCRYPTED;
3deb3ec6SMatthias Ringwald                hci_send_cmd(&hci_le_long_term_key_request_reply, connection->sm_handle, stk_flipped);
3deb3ec6SMatthias Ringwald                return;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            case SM_INITIATOR_PH3_SEND_START_ENCRYPTION: {
3deb3ec6SMatthias Ringwald                sm_key_t stk_flipped;
9c80e4ccSMatthias Ringwald                reverse_128(setup->sm_ltk, stk_flipped);
3deb3ec6SMatthias Ringwald                connection->sm_engine_state = SM_PH2_W4_CONNECTION_ENCRYPTED;
3deb3ec6SMatthias Ringwald                hci_send_cmd(&hci_le_start_encryption, connection->sm_handle, 0, 0, 0, stk_flipped);
3deb3ec6SMatthias Ringwald                return;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            case SM_RESPONDER_PH4_SEND_LTK: {
3deb3ec6SMatthias Ringwald                sm_key_t ltk_flipped;
9c80e4ccSMatthias Ringwald                reverse_128(setup->sm_ltk, ltk_flipped);
3deb3ec6SMatthias Ringwald                connection->sm_engine_state = SM_RESPONDER_IDLE;
3deb3ec6SMatthias Ringwald                hci_send_cmd(&hci_le_long_term_key_request_reply, connection->sm_handle, ltk_flipped);
3deb3ec6SMatthias Ringwald                return;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            case SM_RESPONDER_PH4_Y_GET_ENC:
3deb3ec6SMatthias Ringwald                // already busy?
3deb3ec6SMatthias Ringwald                if (sm_aes128_state == SM_AES128_ACTIVE) break;
3deb3ec6SMatthias Ringwald                log_info("LTK Request: recalculating with ediv 0x%04x", setup->sm_local_ediv);
3deb3ec6SMatthias Ringwald                // Y = dm(DHK, Rand)
3deb3ec6SMatthias Ringwald                sm_dm_r_prime(setup->sm_local_rand, plaintext);
3deb3ec6SMatthias Ringwald                sm_next_responding_state(connection);
3deb3ec6SMatthias Ringwald                sm_aes128_start(sm_persistent_dhk, plaintext, connection);
3deb3ec6SMatthias Ringwald                return;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            case SM_PH3_DISTRIBUTE_KEYS:
3deb3ec6SMatthias Ringwald                if (setup->sm_key_distribution_send_set &   SM_KEYDIST_FLAG_ENCRYPTION_INFORMATION){
3deb3ec6SMatthias Ringwald                    setup->sm_key_distribution_send_set &= ~SM_KEYDIST_FLAG_ENCRYPTION_INFORMATION;
3deb3ec6SMatthias Ringwald                    uint8_t buffer[17];
3deb3ec6SMatthias Ringwald                    buffer[0] = SM_CODE_ENCRYPTION_INFORMATION;
9c80e4ccSMatthias Ringwald                    reverse_128(setup->sm_ltk, &buffer[1]);
3deb3ec6SMatthias Ringwald                    l2cap_send_connectionless(connection->sm_handle, L2CAP_CID_SECURITY_MANAGER_PROTOCOL, (uint8_t*) buffer, sizeof(buffer));
3deb3ec6SMatthias Ringwald                    sm_timeout_reset(connection);
3deb3ec6SMatthias Ringwald                    return;
3deb3ec6SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald                if (setup->sm_key_distribution_send_set &   SM_KEYDIST_FLAG_MASTER_IDENTIFICATION){
3deb3ec6SMatthias Ringwald                    setup->sm_key_distribution_send_set &= ~SM_KEYDIST_FLAG_MASTER_IDENTIFICATION;
3deb3ec6SMatthias Ringwald                    uint8_t buffer[11];
3deb3ec6SMatthias Ringwald                    buffer[0] = SM_CODE_MASTER_IDENTIFICATION;
f8fbdce0SMatthias Ringwald                    little_endian_store_16(buffer, 1, setup->sm_local_ediv);
9c80e4ccSMatthias Ringwald                    reverse_64(setup->sm_local_rand, &buffer[3]);
3deb3ec6SMatthias Ringwald                    l2cap_send_connectionless(connection->sm_handle, L2CAP_CID_SECURITY_MANAGER_PROTOCOL, (uint8_t*) buffer, sizeof(buffer));
3deb3ec6SMatthias Ringwald                    sm_timeout_reset(connection);
3deb3ec6SMatthias Ringwald                    return;
3deb3ec6SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald                if (setup->sm_key_distribution_send_set &   SM_KEYDIST_FLAG_IDENTITY_INFORMATION){
3deb3ec6SMatthias Ringwald                    setup->sm_key_distribution_send_set &= ~SM_KEYDIST_FLAG_IDENTITY_INFORMATION;
3deb3ec6SMatthias Ringwald                    uint8_t buffer[17];
3deb3ec6SMatthias Ringwald                    buffer[0] = SM_CODE_IDENTITY_INFORMATION;
9c80e4ccSMatthias Ringwald                    reverse_128(sm_persistent_irk, &buffer[1]);
3deb3ec6SMatthias Ringwald                    l2cap_send_connectionless(connection->sm_handle, L2CAP_CID_SECURITY_MANAGER_PROTOCOL, (uint8_t*) buffer, sizeof(buffer));
3deb3ec6SMatthias Ringwald                    sm_timeout_reset(connection);
3deb3ec6SMatthias Ringwald                    return;
3deb3ec6SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald                if (setup->sm_key_distribution_send_set &   SM_KEYDIST_FLAG_IDENTITY_ADDRESS_INFORMATION){
3deb3ec6SMatthias Ringwald                    setup->sm_key_distribution_send_set &= ~SM_KEYDIST_FLAG_IDENTITY_ADDRESS_INFORMATION;
3deb3ec6SMatthias Ringwald                    bd_addr_t local_address;
3deb3ec6SMatthias Ringwald                    uint8_t buffer[8];
3deb3ec6SMatthias Ringwald                    buffer[0] = SM_CODE_IDENTITY_ADDRESS_INFORMATION;
15a95bd5SMatthias Ringwald                    gap_advertisements_get_address(&buffer[1], local_address);
724d70a2SMatthias Ringwald                    reverse_bd_addr(local_address, &buffer[2]);
3deb3ec6SMatthias Ringwald                    l2cap_send_connectionless(connection->sm_handle, L2CAP_CID_SECURITY_MANAGER_PROTOCOL, (uint8_t*) buffer, sizeof(buffer));
3deb3ec6SMatthias Ringwald                    sm_timeout_reset(connection);
3deb3ec6SMatthias Ringwald                    return;
3deb3ec6SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald                if (setup->sm_key_distribution_send_set &   SM_KEYDIST_FLAG_SIGNING_IDENTIFICATION){
3deb3ec6SMatthias Ringwald                    setup->sm_key_distribution_send_set &= ~SM_KEYDIST_FLAG_SIGNING_IDENTIFICATION;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                    // hack to reproduce test runs
3deb3ec6SMatthias Ringwald                    if (test_use_fixed_local_csrk){
3deb3ec6SMatthias Ringwald                        memset(setup->sm_local_csrk, 0xcc, 16);
3deb3ec6SMatthias Ringwald                    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                    uint8_t buffer[17];
3deb3ec6SMatthias Ringwald                    buffer[0] = SM_CODE_SIGNING_INFORMATION;
9c80e4ccSMatthias Ringwald                    reverse_128(setup->sm_local_csrk, &buffer[1]);
3deb3ec6SMatthias Ringwald                    l2cap_send_connectionless(connection->sm_handle, L2CAP_CID_SECURITY_MANAGER_PROTOCOL, (uint8_t*) buffer, sizeof(buffer));
3deb3ec6SMatthias Ringwald                    sm_timeout_reset(connection);
3deb3ec6SMatthias Ringwald                    return;
3deb3ec6SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                // keys are sent
3deb3ec6SMatthias Ringwald                if (connection->sm_role){
3deb3ec6SMatthias Ringwald                    // slave -> receive master keys if any
3deb3ec6SMatthias Ringwald                    if (sm_key_distribution_all_received(connection)){
3deb3ec6SMatthias Ringwald                        sm_key_distribution_handle_all_received(connection);
3deb3ec6SMatthias Ringwald                        connection->sm_engine_state = SM_RESPONDER_IDLE;
3deb3ec6SMatthias Ringwald                        sm_done_for_handle(connection->sm_handle);
3deb3ec6SMatthias Ringwald                    } else {
3deb3ec6SMatthias Ringwald                        connection->sm_engine_state = SM_PH3_RECEIVE_KEYS;
3deb3ec6SMatthias Ringwald                    }
3deb3ec6SMatthias Ringwald                } else {
3deb3ec6SMatthias Ringwald                    // master -> all done
3deb3ec6SMatthias Ringwald                    connection->sm_engine_state = SM_INITIATOR_CONNECTED;
3deb3ec6SMatthias Ringwald                    sm_done_for_handle(connection->sm_handle);
3deb3ec6SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            default:
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        // check again if active connection was released
3deb3ec6SMatthias Ringwald        if (sm_active_connection) break;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// note: aes engine is ready as we just got the aes result
3deb3ec6SMatthias Ringwaldstatic void sm_handle_encryption_result(uint8_t * data){
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    sm_aes128_state = SM_AES128_IDLE;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    if (sm_address_resolution_ah_calculation_active){
3deb3ec6SMatthias Ringwald        sm_address_resolution_ah_calculation_active = 0;
3deb3ec6SMatthias Ringwald        // compare calulated address against connecting device
3deb3ec6SMatthias Ringwald        uint8_t hash[3];
9c80e4ccSMatthias Ringwald        reverse_24(data, hash);
3deb3ec6SMatthias Ringwald        if (memcmp(&sm_address_resolution_address[3], hash, 3) == 0){
3deb3ec6SMatthias Ringwald            log_info("LE Device Lookup: matched resolvable private address");
3deb3ec6SMatthias Ringwald            sm_address_resolution_handle_event(ADDRESS_RESOLUTION_SUCEEDED);
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald        // no match, try next
3deb3ec6SMatthias Ringwald        sm_address_resolution_test++;
3deb3ec6SMatthias Ringwald        return;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    switch (dkg_state){
3deb3ec6SMatthias Ringwald        case DKG_W4_IRK:
9c80e4ccSMatthias Ringwald            reverse_128(data, sm_persistent_irk);
8314c363SMatthias Ringwald            log_info_key("irk", sm_persistent_irk);
3deb3ec6SMatthias Ringwald            dkg_next_state();
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        case DKG_W4_DHK:
9c80e4ccSMatthias Ringwald            reverse_128(data, sm_persistent_dhk);
8314c363SMatthias Ringwald            log_info_key("dhk", sm_persistent_dhk);
3deb3ec6SMatthias Ringwald            dkg_next_state();
6f792faaSMatthias Ringwald            // SM Init Finished
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        default:
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    switch (rau_state){
3deb3ec6SMatthias Ringwald        case RAU_W4_ENC:
9c80e4ccSMatthias Ringwald            reverse_24(data, &sm_random_address[3]);
3deb3ec6SMatthias Ringwald            rau_next_state();
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        default:
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    switch (sm_cmac_state){
3deb3ec6SMatthias Ringwald        case CMAC_W4_SUBKEYS:
3deb3ec6SMatthias Ringwald        case CMAC_W4_MI:
3deb3ec6SMatthias Ringwald        case CMAC_W4_MLAST:
3deb3ec6SMatthias Ringwald            {
3deb3ec6SMatthias Ringwald            sm_key_t t;
9c80e4ccSMatthias Ringwald            reverse_128(data, t);
3deb3ec6SMatthias Ringwald            sm_cmac_handle_encryption_result(t);
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        default:
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // retrieve sm_connection provided to sm_aes128_start_encryption
3deb3ec6SMatthias Ringwald    sm_connection_t * connection = (sm_connection_t*) sm_aes128_context;
3deb3ec6SMatthias Ringwald    if (!connection) return;
3deb3ec6SMatthias Ringwald    switch (connection->sm_engine_state){
3deb3ec6SMatthias Ringwald        case SM_PH2_C1_W4_ENC_A:
3deb3ec6SMatthias Ringwald        case SM_PH2_C1_W4_ENC_C:
3deb3ec6SMatthias Ringwald            {
3deb3ec6SMatthias Ringwald            sm_key_t t2;
9c80e4ccSMatthias Ringwald            reverse_128(data, t2);
3deb3ec6SMatthias Ringwald            sm_c1_t3(t2, setup->sm_m_address, setup->sm_s_address, setup->sm_c1_t3_value);
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            sm_next_responding_state(connection);
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        case SM_PH2_C1_W4_ENC_B:
9c80e4ccSMatthias Ringwald            reverse_128(data, setup->sm_local_confirm);
8314c363SMatthias Ringwald            log_info_key("c1!", setup->sm_local_confirm);
3deb3ec6SMatthias Ringwald            connection->sm_engine_state = SM_PH2_C1_SEND_PAIRING_CONFIRM;
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        case SM_PH2_C1_W4_ENC_D:
3deb3ec6SMatthias Ringwald            {
3deb3ec6SMatthias Ringwald            sm_key_t peer_confirm_test;
9c80e4ccSMatthias Ringwald            reverse_128(data, peer_confirm_test);
8314c363SMatthias Ringwald            log_info_key("c1!", peer_confirm_test);
3deb3ec6SMatthias Ringwald            if (memcmp(setup->sm_peer_confirm, peer_confirm_test, 16) != 0){
3deb3ec6SMatthias Ringwald                setup->sm_pairing_failed_reason = SM_REASON_CONFIRM_VALUE_FAILED;
3deb3ec6SMatthias Ringwald                connection->sm_engine_state = SM_GENERAL_SEND_PAIRING_FAILED;
3deb3ec6SMatthias Ringwald                return;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            if (connection->sm_role){
3deb3ec6SMatthias Ringwald                connection->sm_engine_state = SM_PH2_SEND_PAIRING_RANDOM;
3deb3ec6SMatthias Ringwald            } else {
3deb3ec6SMatthias Ringwald                connection->sm_engine_state = SM_PH2_CALC_STK;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        case SM_PH2_W4_STK:
9c80e4ccSMatthias Ringwald            reverse_128(data, setup->sm_ltk);
3deb3ec6SMatthias Ringwald            sm_truncate_key(setup->sm_ltk, connection->sm_actual_encryption_key_size);
8314c363SMatthias Ringwald            log_info_key("stk", setup->sm_ltk);
3deb3ec6SMatthias Ringwald            if (connection->sm_role){
3deb3ec6SMatthias Ringwald                connection->sm_engine_state = SM_RESPONDER_PH2_SEND_LTK_REPLY;
3deb3ec6SMatthias Ringwald            } else {
3deb3ec6SMatthias Ringwald                connection->sm_engine_state = SM_INITIATOR_PH3_SEND_START_ENCRYPTION;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        case SM_PH3_Y_W4_ENC:{
3deb3ec6SMatthias Ringwald            sm_key_t y128;
9c80e4ccSMatthias Ringwald            reverse_128(data, y128);
f8fbdce0SMatthias Ringwald            setup->sm_local_y = big_endian_read_16(y128, 14);
3deb3ec6SMatthias Ringwald            log_info_hex16("y", setup->sm_local_y);
3deb3ec6SMatthias Ringwald            // PH3B3 - calculate EDIV
3deb3ec6SMatthias Ringwald            setup->sm_local_ediv = setup->sm_local_y ^ setup->sm_local_div;
3deb3ec6SMatthias Ringwald            log_info_hex16("ediv", setup->sm_local_ediv);
3deb3ec6SMatthias Ringwald            // PH3B4 - calculate LTK         - enc
3deb3ec6SMatthias Ringwald            // LTK = d1(ER, DIV, 0))
3deb3ec6SMatthias Ringwald            connection->sm_engine_state = SM_PH3_LTK_GET_ENC;
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald        case SM_RESPONDER_PH4_Y_W4_ENC:{
3deb3ec6SMatthias Ringwald            sm_key_t y128;
9c80e4ccSMatthias Ringwald            reverse_128(data, y128);
f8fbdce0SMatthias Ringwald            setup->sm_local_y = big_endian_read_16(y128, 14);
3deb3ec6SMatthias Ringwald            log_info_hex16("y", setup->sm_local_y);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            // PH3B3 - calculate DIV
3deb3ec6SMatthias Ringwald            setup->sm_local_div = setup->sm_local_y ^ setup->sm_local_ediv;
3deb3ec6SMatthias Ringwald            log_info_hex16("ediv", setup->sm_local_ediv);
3deb3ec6SMatthias Ringwald            // PH3B4 - calculate LTK         - enc
3deb3ec6SMatthias Ringwald            // LTK = d1(ER, DIV, 0))
3deb3ec6SMatthias Ringwald            connection->sm_engine_state = SM_RESPONDER_PH4_LTK_GET_ENC;
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald        case SM_PH3_LTK_W4_ENC:
9c80e4ccSMatthias Ringwald            reverse_128(data, setup->sm_ltk);
8314c363SMatthias Ringwald            log_info_key("ltk", setup->sm_ltk);
3deb3ec6SMatthias Ringwald            // calc CSRK next
3deb3ec6SMatthias Ringwald            connection->sm_engine_state = SM_PH3_CSRK_GET_ENC;
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        case SM_PH3_CSRK_W4_ENC:
9c80e4ccSMatthias Ringwald            reverse_128(data, setup->sm_local_csrk);
8314c363SMatthias Ringwald            log_info_key("csrk", setup->sm_local_csrk);
3deb3ec6SMatthias Ringwald            if (setup->sm_key_distribution_send_set){
3deb3ec6SMatthias Ringwald                connection->sm_engine_state = SM_PH3_DISTRIBUTE_KEYS;
3deb3ec6SMatthias Ringwald            } else {
3deb3ec6SMatthias Ringwald                // no keys to send, just continue
3deb3ec6SMatthias Ringwald                if (connection->sm_role){
3deb3ec6SMatthias Ringwald                    // slave -> receive master keys
3deb3ec6SMatthias Ringwald                    connection->sm_engine_state = SM_PH3_RECEIVE_KEYS;
3deb3ec6SMatthias Ringwald                } else {
3deb3ec6SMatthias Ringwald                    // master -> all done
3deb3ec6SMatthias Ringwald                    connection->sm_engine_state = SM_INITIATOR_CONNECTED;
3deb3ec6SMatthias Ringwald                    sm_done_for_handle(connection->sm_handle);
3deb3ec6SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        case SM_RESPONDER_PH4_LTK_W4_ENC:
9c80e4ccSMatthias Ringwald            reverse_128(data, setup->sm_ltk);
3deb3ec6SMatthias Ringwald            sm_truncate_key(setup->sm_ltk, connection->sm_actual_encryption_key_size);
8314c363SMatthias Ringwald            log_info_key("ltk", setup->sm_ltk);
3deb3ec6SMatthias Ringwald            connection->sm_engine_state = SM_RESPONDER_PH4_SEND_LTK;
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        default:
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// note: random generator is ready. this doesn NOT imply that aes engine is unused!
3deb3ec6SMatthias Ringwaldstatic void sm_handle_random_result(uint8_t * data){
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    switch (rau_state){
3deb3ec6SMatthias Ringwald        case RAU_W4_RANDOM:
3deb3ec6SMatthias Ringwald            // non-resolvable vs. resolvable
3deb3ec6SMatthias Ringwald            switch (gap_random_adress_type){
3deb3ec6SMatthias Ringwald                case GAP_RANDOM_ADDRESS_RESOLVABLE:
3deb3ec6SMatthias Ringwald                    // resolvable: use random as prand and calc address hash
3deb3ec6SMatthias Ringwald                    // "The two most significant bits of prand shall be equal to ‘0’ and ‘1"
3deb3ec6SMatthias Ringwald                    memcpy(sm_random_address, data, 3);
3deb3ec6SMatthias Ringwald                    sm_random_address[0] &= 0x3f;
3deb3ec6SMatthias Ringwald                    sm_random_address[0] |= 0x40;
3deb3ec6SMatthias Ringwald                    rau_state = RAU_GET_ENC;
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald                case GAP_RANDOM_ADDRESS_NON_RESOLVABLE:
3deb3ec6SMatthias Ringwald                default:
3deb3ec6SMatthias Ringwald                    // "The two most significant bits of the address shall be equal to ‘0’""
3deb3ec6SMatthias Ringwald                    memcpy(sm_random_address, data, 6);
3deb3ec6SMatthias Ringwald                    sm_random_address[0] &= 0x3f;
3deb3ec6SMatthias Ringwald                    rau_state = RAU_SET_ADDRESS;
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        default:
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // retrieve sm_connection provided to sm_random_start
3deb3ec6SMatthias Ringwald    sm_connection_t * connection = (sm_connection_t *) sm_random_context;
3deb3ec6SMatthias Ringwald    if (!connection) return;
3deb3ec6SMatthias Ringwald    switch (connection->sm_engine_state){
3deb3ec6SMatthias Ringwald        case SM_PH2_W4_RANDOM_TK:
3deb3ec6SMatthias Ringwald        {
3deb3ec6SMatthias Ringwald            // map random to 0-999999 without speding much cycles on a modulus operation
f8fbdce0SMatthias Ringwald            uint32_t tk = little_endian_read_32(data,0);
3deb3ec6SMatthias Ringwald            tk = tk & 0xfffff;  // 1048575
3deb3ec6SMatthias Ringwald            if (tk >= 999999){
3deb3ec6SMatthias Ringwald                tk = tk - 999999;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            sm_reset_tk();
f8fbdce0SMatthias Ringwald            big_endian_store_32(setup->sm_tk, 12, tk);
3deb3ec6SMatthias Ringwald            if (connection->sm_role){
3deb3ec6SMatthias Ringwald                connection->sm_engine_state = SM_RESPONDER_PH1_SEND_PAIRING_RESPONSE;
3deb3ec6SMatthias Ringwald            } else {
3deb3ec6SMatthias Ringwald                connection->sm_engine_state = SM_PH1_W4_USER_RESPONSE;
3deb3ec6SMatthias Ringwald                sm_trigger_user_response(connection);
3deb3ec6SMatthias Ringwald                // response_idle == nothing <--> sm_trigger_user_response() did not require response
3deb3ec6SMatthias Ringwald                if (setup->sm_user_response == SM_USER_RESPONSE_IDLE){
3deb3ec6SMatthias Ringwald                    connection->sm_engine_state = SM_PH2_C1_GET_RANDOM_A;
3deb3ec6SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald        case SM_PH2_C1_W4_RANDOM_A:
3deb3ec6SMatthias Ringwald            memcpy(&setup->sm_local_random[0], data, 8); // random endinaness
3deb3ec6SMatthias Ringwald            connection->sm_engine_state = SM_PH2_C1_GET_RANDOM_B;
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        case SM_PH2_C1_W4_RANDOM_B:
3deb3ec6SMatthias Ringwald            memcpy(&setup->sm_local_random[8], data, 8); // random endinaness
3deb3ec6SMatthias Ringwald            connection->sm_engine_state = SM_PH2_C1_GET_ENC_A;
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        case SM_PH3_W4_RANDOM:
9c80e4ccSMatthias Ringwald            reverse_64(data, setup->sm_local_rand);
3deb3ec6SMatthias Ringwald            // no db for encryption size hack: encryption size is stored in lowest nibble of setup->sm_local_rand
3deb3ec6SMatthias Ringwald            setup->sm_local_rand[7] = (setup->sm_local_rand[7] & 0xf0) + (connection->sm_actual_encryption_key_size - 1);
3deb3ec6SMatthias Ringwald            // no db for authenticated flag hack: store flag in bit 4 of LSB
3deb3ec6SMatthias Ringwald            setup->sm_local_rand[7] = (setup->sm_local_rand[7] & 0xef) + (connection->sm_connection_authenticated << 4);
3deb3ec6SMatthias Ringwald            connection->sm_engine_state = SM_PH3_GET_DIV;
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        case SM_PH3_W4_DIV:
3deb3ec6SMatthias Ringwald            // use 16 bit from random value as div
f8fbdce0SMatthias Ringwald            setup->sm_local_div = big_endian_read_16(data, 0);
3deb3ec6SMatthias Ringwald            log_info_hex16("div", setup->sm_local_div);
3deb3ec6SMatthias Ringwald            connection->sm_engine_state = SM_PH3_Y_GET_ENC;
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald        default:
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
d9a7306aSMatthias Ringwaldstatic void sm_event_packet_handler (uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size){
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    sm_connection_t  * sm_conn;
711e6c80SMatthias Ringwald    hci_con_handle_t con_handle;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    switch (packet_type) {
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald		case HCI_EVENT_PACKET:
0e2df43fSMatthias Ringwald			switch (hci_event_packet_get_type(packet)) {
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                case BTSTACK_EVENT_STATE:
3deb3ec6SMatthias Ringwald					// bt stack activated, get started
be7cc9a0SMilanka Ringwald					if (btstack_event_state_get_state(packet) == HCI_STATE_WORKING){
3deb3ec6SMatthias Ringwald                        log_info("HCI Working!");
3deb3ec6SMatthias Ringwald                        dkg_state = sm_persistent_irk_ready ? DKG_CALC_DHK : DKG_CALC_IRK;
3deb3ec6SMatthias Ringwald                        rau_state = RAU_IDLE;
3deb3ec6SMatthias Ringwald                        sm_run();
3deb3ec6SMatthias Ringwald					}
3deb3ec6SMatthias Ringwald					break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                case HCI_EVENT_LE_META:
3deb3ec6SMatthias Ringwald                    switch (packet[2]) {
3deb3ec6SMatthias Ringwald                        case HCI_SUBEVENT_LE_CONNECTION_COMPLETE:
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                            log_info("sm: connected");
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                            if (packet[3]) return; // connection failed
3deb3ec6SMatthias Ringwald
711e6c80SMatthias Ringwald                            con_handle = little_endian_read_16(packet, 4);
711e6c80SMatthias Ringwald                            sm_conn = sm_get_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald                            if (!sm_conn) break;
3deb3ec6SMatthias Ringwald
711e6c80SMatthias Ringwald                            sm_conn->sm_handle = con_handle;
3deb3ec6SMatthias Ringwald                            sm_conn->sm_role = packet[6];
3deb3ec6SMatthias Ringwald                            sm_conn->sm_peer_addr_type = packet[7];
724d70a2SMatthias Ringwald                            reverse_bd_addr(&packet[8],
724d70a2SMatthias Ringwald                                            sm_conn->sm_peer_address);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                            log_info("New sm_conn, role %s", sm_conn->sm_role ? "slave" : "master");
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                            // reset security properties
3deb3ec6SMatthias Ringwald                            sm_conn->sm_connection_encrypted = 0;
3deb3ec6SMatthias Ringwald                            sm_conn->sm_connection_authenticated = 0;
3deb3ec6SMatthias Ringwald                            sm_conn->sm_connection_authorization_state = AUTHORIZATION_UNKNOWN;
3deb3ec6SMatthias Ringwald                            sm_conn->sm_le_db_index = -1;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                            // prepare CSRK lookup (does not involve setup)
3deb3ec6SMatthias Ringwald                            sm_conn->sm_irk_lookup_state = IRK_LOOKUP_W4_READY;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                            // just connected -> everything else happens in sm_run()
3deb3ec6SMatthias Ringwald                            if (sm_conn->sm_role){
3deb3ec6SMatthias Ringwald                                // slave - state already could be SM_RESPONDER_SEND_SECURITY_REQUEST instead
3deb3ec6SMatthias Ringwald                                if (sm_conn->sm_engine_state == SM_GENERAL_IDLE){
3deb3ec6SMatthias Ringwald                                    if (sm_slave_request_security) {
3deb3ec6SMatthias Ringwald                                        // request security if requested by app
3deb3ec6SMatthias Ringwald                                        sm_conn->sm_engine_state = SM_RESPONDER_SEND_SECURITY_REQUEST;
3deb3ec6SMatthias Ringwald                                    } else {
3deb3ec6SMatthias Ringwald                                        // otherwise, wait for pairing request
3deb3ec6SMatthias Ringwald                                        sm_conn->sm_engine_state = SM_RESPONDER_IDLE;
3deb3ec6SMatthias Ringwald                                    }
3deb3ec6SMatthias Ringwald                                }
3deb3ec6SMatthias Ringwald                                break;
3deb3ec6SMatthias Ringwald                            } else {
3deb3ec6SMatthias Ringwald                                // master
3deb3ec6SMatthias Ringwald                                sm_conn->sm_engine_state = SM_INITIATOR_CONNECTED;
3deb3ec6SMatthias Ringwald                            }
3deb3ec6SMatthias Ringwald                            break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                        case HCI_SUBEVENT_LE_LONG_TERM_KEY_REQUEST:
711e6c80SMatthias Ringwald                            con_handle = little_endian_read_16(packet, 3);
711e6c80SMatthias Ringwald                            sm_conn = sm_get_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald                            if (!sm_conn) break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                            log_info("LTK Request: state %u", sm_conn->sm_engine_state);
3deb3ec6SMatthias Ringwald                            if (sm_conn->sm_engine_state == SM_RESPONDER_PH2_W4_LTK_REQUEST){
3deb3ec6SMatthias Ringwald                                sm_conn->sm_engine_state = SM_PH2_CALC_STK;
3deb3ec6SMatthias Ringwald                                break;
3deb3ec6SMatthias Ringwald                            }
e53be891SMatthias Ringwald                            if (sm_conn->sm_engine_state == SM_RESPONDER_PH2_W4_LTK_REQUEST_SC){
e53be891SMatthias Ringwald                                sm_conn->sm_engine_state = SM_RESPONDER_PH2_SEND_LTK_REPLY;
e53be891SMatthias Ringwald                                break;
e53be891SMatthias Ringwald                            }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                            // assume that we don't have a LTK for ediv == 0 and random == null
f8fbdce0SMatthias Ringwald                            if (little_endian_read_16(packet, 13) == 0 && sm_is_null_random(&packet[5])){
3deb3ec6SMatthias Ringwald                                log_info("LTK Request: ediv & random are empty");
3deb3ec6SMatthias Ringwald                                sm_conn->sm_engine_state = SM_RESPONDER_PH0_SEND_LTK_REQUESTED_NEGATIVE_REPLY;
3deb3ec6SMatthias Ringwald                                break;
3deb3ec6SMatthias Ringwald                            }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                            // store rand and ediv
9c80e4ccSMatthias Ringwald                            reverse_64(&packet[5], sm_conn->sm_local_rand);
f8fbdce0SMatthias Ringwald                            sm_conn->sm_local_ediv   = little_endian_read_16(packet, 13);
3deb3ec6SMatthias Ringwald                            sm_conn->sm_engine_state = SM_RESPONDER_PH0_RECEIVED_LTK;
3deb3ec6SMatthias Ringwald                            break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                        default:
3deb3ec6SMatthias Ringwald                            break;
3deb3ec6SMatthias Ringwald                    }
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                case HCI_EVENT_ENCRYPTION_CHANGE:
711e6c80SMatthias Ringwald                    con_handle = little_endian_read_16(packet, 3);
711e6c80SMatthias Ringwald                    sm_conn = sm_get_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald                    if (!sm_conn) break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                    sm_conn->sm_connection_encrypted = packet[5];
3deb3ec6SMatthias Ringwald                    log_info("Encryption state change: %u, key size %u", sm_conn->sm_connection_encrypted,
3deb3ec6SMatthias Ringwald                        sm_conn->sm_actual_encryption_key_size);
3deb3ec6SMatthias Ringwald                    log_info("event handler, state %u", sm_conn->sm_engine_state);
3deb3ec6SMatthias Ringwald                    if (!sm_conn->sm_connection_encrypted) break;
3deb3ec6SMatthias Ringwald                    // continue if part of initial pairing
3deb3ec6SMatthias Ringwald                    switch (sm_conn->sm_engine_state){
3deb3ec6SMatthias Ringwald                        case SM_INITIATOR_PH0_W4_CONNECTION_ENCRYPTED:
3deb3ec6SMatthias Ringwald                            sm_conn->sm_engine_state = SM_INITIATOR_CONNECTED;
3deb3ec6SMatthias Ringwald                            sm_done_for_handle(sm_conn->sm_handle);
3deb3ec6SMatthias Ringwald                            break;
3deb3ec6SMatthias Ringwald                        case SM_PH2_W4_CONNECTION_ENCRYPTED:
3deb3ec6SMatthias Ringwald                            if (sm_conn->sm_role){
3deb3ec6SMatthias Ringwald                                // slave
3deb3ec6SMatthias Ringwald                                sm_conn->sm_engine_state = SM_PH3_GET_RANDOM;
3deb3ec6SMatthias Ringwald                            } else {
3deb3ec6SMatthias Ringwald                                // master
3deb3ec6SMatthias Ringwald                                if (sm_key_distribution_all_received(sm_conn)){
3deb3ec6SMatthias Ringwald                                    // skip receiving keys as there are none
3deb3ec6SMatthias Ringwald                                    sm_key_distribution_handle_all_received(sm_conn);
3deb3ec6SMatthias Ringwald                                    sm_conn->sm_engine_state = SM_PH3_GET_RANDOM;
3deb3ec6SMatthias Ringwald                                } else {
3deb3ec6SMatthias Ringwald                                    sm_conn->sm_engine_state = SM_PH3_RECEIVE_KEYS;
3deb3ec6SMatthias Ringwald                                }
3deb3ec6SMatthias Ringwald                            }
3deb3ec6SMatthias Ringwald                            break;
3deb3ec6SMatthias Ringwald                        default:
3deb3ec6SMatthias Ringwald                            break;
3deb3ec6SMatthias Ringwald                    }
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                case HCI_EVENT_ENCRYPTION_KEY_REFRESH_COMPLETE:
711e6c80SMatthias Ringwald                    con_handle = little_endian_read_16(packet, 3);
711e6c80SMatthias Ringwald                    sm_conn = sm_get_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald                    if (!sm_conn) break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                    log_info("Encryption key refresh complete, key size %u", sm_conn->sm_actual_encryption_key_size);
3deb3ec6SMatthias Ringwald                    log_info("event handler, state %u", sm_conn->sm_engine_state);
3deb3ec6SMatthias Ringwald                    // continue if part of initial pairing
3deb3ec6SMatthias Ringwald                    switch (sm_conn->sm_engine_state){
3deb3ec6SMatthias Ringwald                        case SM_INITIATOR_PH0_W4_CONNECTION_ENCRYPTED:
3deb3ec6SMatthias Ringwald                            sm_conn->sm_engine_state = SM_INITIATOR_CONNECTED;
3deb3ec6SMatthias Ringwald                            sm_done_for_handle(sm_conn->sm_handle);
3deb3ec6SMatthias Ringwald                            break;
3deb3ec6SMatthias Ringwald                        case SM_PH2_W4_CONNECTION_ENCRYPTED:
3deb3ec6SMatthias Ringwald                            if (sm_conn->sm_role){
3deb3ec6SMatthias Ringwald                                // slave
3deb3ec6SMatthias Ringwald                                sm_conn->sm_engine_state = SM_PH3_GET_RANDOM;
3deb3ec6SMatthias Ringwald                            } else {
3deb3ec6SMatthias Ringwald                                // master
3deb3ec6SMatthias Ringwald                                sm_conn->sm_engine_state = SM_PH3_RECEIVE_KEYS;
3deb3ec6SMatthias Ringwald                            }
3deb3ec6SMatthias Ringwald                            break;
3deb3ec6SMatthias Ringwald                        default:
3deb3ec6SMatthias Ringwald                            break;
3deb3ec6SMatthias Ringwald                    }
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                case HCI_EVENT_DISCONNECTION_COMPLETE:
711e6c80SMatthias Ringwald                    con_handle = little_endian_read_16(packet, 3);
711e6c80SMatthias Ringwald                    sm_done_for_handle(con_handle);
711e6c80SMatthias Ringwald                    sm_conn = sm_get_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald                    if (!sm_conn) break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                    // delete stored bonding on disconnect with authentication failure in ph0
3deb3ec6SMatthias Ringwald                    if (sm_conn->sm_role == 0
3deb3ec6SMatthias Ringwald                        && sm_conn->sm_engine_state == SM_INITIATOR_PH0_W4_CONNECTION_ENCRYPTED
3deb3ec6SMatthias Ringwald                        && packet[2] == ERROR_CODE_AUTHENTICATION_FAILURE){
3deb3ec6SMatthias Ringwald                        le_device_db_remove(sm_conn->sm_le_db_index);
3deb3ec6SMatthias Ringwald                    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                    sm_conn->sm_engine_state = SM_GENERAL_IDLE;
3deb3ec6SMatthias Ringwald                    sm_conn->sm_handle = 0;
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald				case HCI_EVENT_COMMAND_COMPLETE:
073bd0faSMatthias Ringwald                    if (HCI_EVENT_IS_COMMAND_COMPLETE(packet, hci_le_encrypt)){
3deb3ec6SMatthias Ringwald                        sm_handle_encryption_result(&packet[6]);
3deb3ec6SMatthias Ringwald                        break;
3deb3ec6SMatthias Ringwald                    }
073bd0faSMatthias Ringwald                    if (HCI_EVENT_IS_COMMAND_COMPLETE(packet, hci_le_rand)){
3deb3ec6SMatthias Ringwald                        sm_handle_random_result(&packet[6]);
3deb3ec6SMatthias Ringwald                        break;
3deb3ec6SMatthias Ringwald                    }
65b44ffdSMatthias Ringwald                    break;
65b44ffdSMatthias Ringwald                default:
65b44ffdSMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald			}
65b44ffdSMatthias Ringwald            break;
65b44ffdSMatthias Ringwald        default:
65b44ffdSMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald	}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    sm_run();
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic inline int sm_calc_actual_encryption_key_size(int other){
3deb3ec6SMatthias Ringwald    if (other < sm_min_encryption_key_size) return 0;
3deb3ec6SMatthias Ringwald    if (other < sm_max_encryption_key_size) return other;
3deb3ec6SMatthias Ringwald    return sm_max_encryption_key_size;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald/**
3deb3ec6SMatthias Ringwald * @return ok
3deb3ec6SMatthias Ringwald */
3deb3ec6SMatthias Ringwaldstatic int sm_validate_stk_generation_method(void){
3deb3ec6SMatthias Ringwald    // check if STK generation method is acceptable by client
3deb3ec6SMatthias Ringwald    switch (setup->sm_stk_generation_method){
3deb3ec6SMatthias Ringwald        case JUST_WORKS:
3deb3ec6SMatthias Ringwald            return (sm_accepted_stk_generation_methods & SM_STK_GENERATION_METHOD_JUST_WORKS) != 0;
3deb3ec6SMatthias Ringwald        case PK_RESP_INPUT:
3deb3ec6SMatthias Ringwald        case PK_INIT_INPUT:
3deb3ec6SMatthias Ringwald        case OK_BOTH_INPUT:
3deb3ec6SMatthias Ringwald            return (sm_accepted_stk_generation_methods & SM_STK_GENERATION_METHOD_PASSKEY) != 0;
3deb3ec6SMatthias Ringwald        case OOB:
3deb3ec6SMatthias Ringwald            return (sm_accepted_stk_generation_methods & SM_STK_GENERATION_METHOD_OOB) != 0;
*446a8c36SMatthias Ringwald        case NK_BOTH_INPUT:
*446a8c36SMatthias Ringwald            // TODO check sm_accepted_stk_generation_methods
*446a8c36SMatthias Ringwald            return 1;
3deb3ec6SMatthias Ringwald        default:
3deb3ec6SMatthias Ringwald            return 0;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
e03e489aSMatthias Ringwald// helper for sm_pdu_handler, calls sm_run on exit
3deb3ec6SMatthias Ringwaldstatic void sm_pdu_received_in_wrong_state(sm_connection_t * sm_conn){
3deb3ec6SMatthias Ringwald    setup->sm_pairing_failed_reason = SM_REASON_UNSPECIFIED_REASON;
3deb3ec6SMatthias Ringwald    sm_conn->sm_engine_state = sm_conn->sm_role ? SM_RESPONDER_IDLE : SM_INITIATOR_CONNECTED;
3deb3ec6SMatthias Ringwald    sm_done_for_handle(sm_conn->sm_handle);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
711e6c80SMatthias Ringwaldstatic void sm_pdu_handler(uint8_t packet_type, hci_con_handle_t con_handle, uint8_t *packet, uint16_t size){
3deb3ec6SMatthias Ringwald
b170b20fSMatthias Ringwald    if (packet_type == HCI_EVENT_PACKET && packet[0] == L2CAP_EVENT_CAN_SEND_NOW){
b170b20fSMatthias Ringwald        sm_run();
b170b20fSMatthias Ringwald    }
b170b20fSMatthias Ringwald
3deb3ec6SMatthias Ringwald    if (packet_type != SM_DATA_PACKET) return;
3deb3ec6SMatthias Ringwald
711e6c80SMatthias Ringwald    sm_connection_t * sm_conn = sm_get_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald    if (!sm_conn) return;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    if (packet[0] == SM_CODE_PAIRING_FAILED){
3deb3ec6SMatthias Ringwald        sm_conn->sm_engine_state = sm_conn->sm_role ? SM_RESPONDER_IDLE : SM_INITIATOR_CONNECTED;
3deb3ec6SMatthias Ringwald        return;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
e03e489aSMatthias Ringwald    log_debug("sm_pdu_handler: state %u, pdu 0x%02x", sm_conn->sm_engine_state, packet[0]);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    int err;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    switch (sm_conn->sm_engine_state){
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        // a sm timeout requries a new physical connection
3deb3ec6SMatthias Ringwald        case SM_GENERAL_TIMEOUT:
3deb3ec6SMatthias Ringwald            return;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        // Initiator
3deb3ec6SMatthias Ringwald        case SM_INITIATOR_CONNECTED:
3deb3ec6SMatthias Ringwald            if ((packet[0] != SM_CODE_SECURITY_REQUEST) || (sm_conn->sm_role)){
3deb3ec6SMatthias Ringwald                sm_pdu_received_in_wrong_state(sm_conn);
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            if (sm_conn->sm_irk_lookup_state == IRK_LOOKUP_FAILED){
3deb3ec6SMatthias Ringwald                sm_conn->sm_engine_state = SM_INITIATOR_PH1_W2_SEND_PAIRING_REQUEST;
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            if (sm_conn->sm_irk_lookup_state == IRK_LOOKUP_SUCCEEDED){
3deb3ec6SMatthias Ringwald                uint16_t ediv;
3deb3ec6SMatthias Ringwald                le_device_db_encryption_get(sm_conn->sm_le_db_index, &ediv, NULL, NULL, NULL, NULL, NULL);
3deb3ec6SMatthias Ringwald                if (ediv){
3deb3ec6SMatthias Ringwald                    log_info("sm: Setting up previous ltk/ediv/rand for device index %u", sm_conn->sm_le_db_index);
3deb3ec6SMatthias Ringwald                    sm_conn->sm_engine_state = SM_INITIATOR_PH0_HAS_LTK;
3deb3ec6SMatthias Ringwald                } else {
3deb3ec6SMatthias Ringwald                    sm_conn->sm_engine_state = SM_INITIATOR_PH1_W2_SEND_PAIRING_REQUEST;
3deb3ec6SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            // otherwise, store security request
3deb3ec6SMatthias Ringwald            sm_conn->sm_security_request_received = 1;
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        case SM_INITIATOR_PH1_W4_PAIRING_RESPONSE:
3deb3ec6SMatthias Ringwald            if (packet[0] != SM_CODE_PAIRING_RESPONSE){
3deb3ec6SMatthias Ringwald                sm_pdu_received_in_wrong_state(sm_conn);
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            // store pairing request
3deb3ec6SMatthias Ringwald            memcpy(&setup->sm_s_pres, packet, sizeof(sm_pairing_packet_t));
3deb3ec6SMatthias Ringwald            err = sm_stk_generation_init(sm_conn);
3deb3ec6SMatthias Ringwald            if (err){
3deb3ec6SMatthias Ringwald                setup->sm_pairing_failed_reason = err;
3deb3ec6SMatthias Ringwald                sm_conn->sm_engine_state = SM_GENERAL_SEND_PAIRING_FAILED;
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            // generate random number first, if we need to show passkey
3deb3ec6SMatthias Ringwald            if (setup->sm_stk_generation_method == PK_RESP_INPUT){
3deb3ec6SMatthias Ringwald                sm_conn->sm_engine_state = SM_PH2_GET_RANDOM_TK;
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            sm_conn->sm_engine_state = SM_PH1_W4_USER_RESPONSE;
3deb3ec6SMatthias Ringwald            sm_trigger_user_response(sm_conn);
3deb3ec6SMatthias Ringwald            // response_idle == nothing <--> sm_trigger_user_response() did not require response
3deb3ec6SMatthias Ringwald            if (setup->sm_user_response == SM_USER_RESPONSE_IDLE){
3deb3ec6SMatthias Ringwald                sm_conn->sm_engine_state = SM_PH2_C1_GET_RANDOM_A;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        case SM_INITIATOR_PH2_W4_PAIRING_CONFIRM:
3deb3ec6SMatthias Ringwald            if (packet[0] != SM_CODE_PAIRING_CONFIRM){
3deb3ec6SMatthias Ringwald                sm_pdu_received_in_wrong_state(sm_conn);
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            // store s_confirm
9c80e4ccSMatthias Ringwald            reverse_128(&packet[1], setup->sm_peer_confirm);
3deb3ec6SMatthias Ringwald            sm_conn->sm_engine_state = SM_PH2_SEND_PAIRING_RANDOM;
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        case SM_INITIATOR_PH2_W4_PAIRING_RANDOM:
3deb3ec6SMatthias Ringwald            if (packet[0] != SM_CODE_PAIRING_RANDOM){
3deb3ec6SMatthias Ringwald                sm_pdu_received_in_wrong_state(sm_conn);
3deb3ec6SMatthias Ringwald                break;;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            // received random value
9c80e4ccSMatthias Ringwald            reverse_128(&packet[1], setup->sm_peer_random);
3deb3ec6SMatthias Ringwald            sm_conn->sm_engine_state = SM_PH2_C1_GET_ENC_C;
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        // Responder
3deb3ec6SMatthias Ringwald        case SM_RESPONDER_IDLE:
3deb3ec6SMatthias Ringwald        case SM_RESPONDER_SEND_SECURITY_REQUEST:
3deb3ec6SMatthias Ringwald        case SM_RESPONDER_PH1_W4_PAIRING_REQUEST:
3deb3ec6SMatthias Ringwald            if (packet[0] != SM_CODE_PAIRING_REQUEST){
3deb3ec6SMatthias Ringwald                sm_pdu_received_in_wrong_state(sm_conn);
3deb3ec6SMatthias Ringwald                break;;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            // store pairing request
3deb3ec6SMatthias Ringwald            memcpy(&sm_conn->sm_m_preq, packet, sizeof(sm_pairing_packet_t));
3deb3ec6SMatthias Ringwald            sm_conn->sm_engine_state = SM_RESPONDER_PH1_PAIRING_REQUEST_RECEIVED;
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald
27c32905SMatthias Ringwald#ifdef ENABLE_LE_SECURE_CONNECTIONS
27c32905SMatthias Ringwald        case SM_RESPONDER_PH2_W4_PUBLIC_KEY_COMMAND:
27c32905SMatthias Ringwald            if (packet[0] != SM_CODE_PAIRING_PUBLIC_KEY){
27c32905SMatthias Ringwald                sm_pdu_received_in_wrong_state(sm_conn);
27c32905SMatthias Ringwald                break;
27c32905SMatthias Ringwald            }
e53be891SMatthias Ringwald            // store public key for DH Key calculation
e53be891SMatthias Ringwald            reverse_256(&packet[01], setup->sm_peer_qx);
e53be891SMatthias Ringwald            reverse_256(&packet[33], setup->sm_peer_qy);
27c32905SMatthias Ringwald            sm_conn->sm_engine_state = SM_PH2_SEND_PUBLIC_KEY_COMMAND;
27c32905SMatthias Ringwald            break;
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald        case SM_PH2_W4_PAIRING_RANDOM:
e53be891SMatthias Ringwald            if (packet[0] != SM_CODE_PAIRING_RANDOM){
e53be891SMatthias Ringwald                sm_pdu_received_in_wrong_state(sm_conn);
e53be891SMatthias Ringwald                break;;
e53be891SMatthias Ringwald            }
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald            // received random value
e53be891SMatthias Ringwald            reverse_128(&packet[1], setup->sm_peer_nonce);
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald            // TODO: handle Initiator role
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald            // Responder
e53be891SMatthias Ringwald            sm_conn->sm_engine_state = SM_PH2_SEND_PAIRING_RANDOM_SC;
e53be891SMatthias Ringwald            break;
e53be891SMatthias Ringwald
e53be891SMatthias Ringwald        case SM_PH2_W4_DHKEY_CHECK_COMMAND:
e53be891SMatthias Ringwald            if (packet[0] != SM_CODE_PAIRING_DHKEY_CHECK){
e53be891SMatthias Ringwald                sm_pdu_received_in_wrong_state(sm_conn);
e53be891SMatthias Ringwald                break;
e53be891SMatthias Ringwald            }
e53be891SMatthias Ringwald            // store DHKey Check
e53be891SMatthias Ringwald            reverse_128(&packet[01], setup->sm_peer_dhkey_check);
*446a8c36SMatthias Ringwald
*446a8c36SMatthias Ringwald            // for numeric comparison, we need to wait for user confirm
*446a8c36SMatthias Ringwald            if (setup->sm_stk_generation_method == NK_BOTH_INPUT && setup->sm_user_response != SM_USER_RESPONSE_CONFIRM){
*446a8c36SMatthias Ringwald                sm_conn->sm_engine_state = SM_PH2_W4_USER_RESPONSE;
*446a8c36SMatthias Ringwald            } else {
e53be891SMatthias Ringwald                sm_conn->sm_engine_state = SM_PH2_SEND_DHKEY_CHECK_COMMAND;
*446a8c36SMatthias Ringwald            }
e53be891SMatthias Ringwald            break;
27c32905SMatthias Ringwald#endif
27c32905SMatthias Ringwald
3deb3ec6SMatthias Ringwald        case SM_RESPONDER_PH1_W4_PAIRING_CONFIRM:
3deb3ec6SMatthias Ringwald            if (packet[0] != SM_CODE_PAIRING_CONFIRM){
3deb3ec6SMatthias Ringwald                sm_pdu_received_in_wrong_state(sm_conn);
27c32905SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            // received confirm value
9c80e4ccSMatthias Ringwald            reverse_128(&packet[1], setup->sm_peer_confirm);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            // notify client to hide shown passkey
3deb3ec6SMatthias Ringwald            if (setup->sm_stk_generation_method == PK_INIT_INPUT){
5611a760SMatthias Ringwald                sm_notify_client_base(SM_EVENT_PASSKEY_DISPLAY_CANCEL, sm_conn->sm_handle, sm_conn->sm_peer_addr_type, sm_conn->sm_peer_address);
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            // handle user cancel pairing?
3deb3ec6SMatthias Ringwald            if (setup->sm_user_response == SM_USER_RESPONSE_DECLINE){
3deb3ec6SMatthias Ringwald                setup->sm_pairing_failed_reason = SM_REASON_PASSKEYT_ENTRY_FAILED;
3deb3ec6SMatthias Ringwald                sm_conn->sm_engine_state = SM_GENERAL_SEND_PAIRING_FAILED;
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            // wait for user action?
3deb3ec6SMatthias Ringwald            if (setup->sm_user_response == SM_USER_RESPONSE_PENDING){
3deb3ec6SMatthias Ringwald                sm_conn->sm_engine_state = SM_PH1_W4_USER_RESPONSE;
3deb3ec6SMatthias Ringwald                break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            // calculate and send local_confirm
3deb3ec6SMatthias Ringwald            sm_conn->sm_engine_state = SM_PH2_C1_GET_RANDOM_A;
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        case SM_RESPONDER_PH2_W4_PAIRING_RANDOM:
3deb3ec6SMatthias Ringwald            if (packet[0] != SM_CODE_PAIRING_RANDOM){
3deb3ec6SMatthias Ringwald                sm_pdu_received_in_wrong_state(sm_conn);
3deb3ec6SMatthias Ringwald                break;;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald            // received random value
9c80e4ccSMatthias Ringwald            reverse_128(&packet[1], setup->sm_peer_random);
3deb3ec6SMatthias Ringwald            sm_conn->sm_engine_state = SM_PH2_C1_GET_ENC_C;
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald        case SM_PH3_RECEIVE_KEYS:
3deb3ec6SMatthias Ringwald            switch(packet[0]){
3deb3ec6SMatthias Ringwald                case SM_CODE_ENCRYPTION_INFORMATION:
3deb3ec6SMatthias Ringwald                    setup->sm_key_distribution_received_set |= SM_KEYDIST_FLAG_ENCRYPTION_INFORMATION;
9c80e4ccSMatthias Ringwald                    reverse_128(&packet[1], setup->sm_peer_ltk);
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                case SM_CODE_MASTER_IDENTIFICATION:
3deb3ec6SMatthias Ringwald                    setup->sm_key_distribution_received_set |= SM_KEYDIST_FLAG_MASTER_IDENTIFICATION;
f8fbdce0SMatthias Ringwald                    setup->sm_peer_ediv = little_endian_read_16(packet, 1);
9c80e4ccSMatthias Ringwald                    reverse_64(&packet[3], setup->sm_peer_rand);
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                case SM_CODE_IDENTITY_INFORMATION:
3deb3ec6SMatthias Ringwald                    setup->sm_key_distribution_received_set |= SM_KEYDIST_FLAG_IDENTITY_INFORMATION;
9c80e4ccSMatthias Ringwald                    reverse_128(&packet[1], setup->sm_peer_irk);
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                case SM_CODE_IDENTITY_ADDRESS_INFORMATION:
3deb3ec6SMatthias Ringwald                    setup->sm_key_distribution_received_set |= SM_KEYDIST_FLAG_IDENTITY_ADDRESS_INFORMATION;
3deb3ec6SMatthias Ringwald                    setup->sm_peer_addr_type = packet[1];
724d70a2SMatthias Ringwald                    reverse_bd_addr(&packet[2], setup->sm_peer_address);
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                case SM_CODE_SIGNING_INFORMATION:
3deb3ec6SMatthias Ringwald                    setup->sm_key_distribution_received_set |= SM_KEYDIST_FLAG_SIGNING_IDENTIFICATION;
9c80e4ccSMatthias Ringwald                    reverse_128(&packet[1], setup->sm_peer_csrk);
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald                default:
3deb3ec6SMatthias Ringwald                    // Unexpected PDU
3deb3ec6SMatthias Ringwald                    log_info("Unexpected PDU %u in SM_PH3_RECEIVE_KEYS", packet[0]);
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            // done with key distribution?
3deb3ec6SMatthias Ringwald            if (sm_key_distribution_all_received(sm_conn)){
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                sm_key_distribution_handle_all_received(sm_conn);
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald                if (sm_conn->sm_role){
3deb3ec6SMatthias Ringwald                    sm_conn->sm_engine_state = SM_RESPONDER_IDLE;
3deb3ec6SMatthias Ringwald                    sm_done_for_handle(sm_conn->sm_handle);
3deb3ec6SMatthias Ringwald                } else {
3deb3ec6SMatthias Ringwald                    sm_conn->sm_engine_state = SM_PH3_GET_RANDOM;
3deb3ec6SMatthias Ringwald                }
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        default:
3deb3ec6SMatthias Ringwald            // Unexpected PDU
3deb3ec6SMatthias Ringwald            log_info("Unexpected PDU %u in state %u", packet[0], sm_conn->sm_engine_state);
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    // try to send preparared packet
3deb3ec6SMatthias Ringwald    sm_run();
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// Security Manager Client API
3deb3ec6SMatthias Ringwaldvoid sm_register_oob_data_callback( int (*get_oob_data_callback)(uint8_t addres_type, bd_addr_t addr, uint8_t * oob_data)){
3deb3ec6SMatthias Ringwald    sm_get_oob_data = get_oob_data_callback;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
89a78d34SMatthias Ringwaldvoid sm_add_event_handler(btstack_packet_callback_registration_t * callback_handler){
89a78d34SMatthias Ringwald    btstack_linked_list_add_tail(&sm_event_handlers, (btstack_linked_item_t*) callback_handler);
89a78d34SMatthias Ringwald}
89a78d34SMatthias Ringwald
3deb3ec6SMatthias Ringwaldvoid sm_set_accepted_stk_generation_methods(uint8_t accepted_stk_generation_methods){
3deb3ec6SMatthias Ringwald    sm_accepted_stk_generation_methods = accepted_stk_generation_methods;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldvoid sm_set_encryption_key_size_range(uint8_t min_size, uint8_t max_size){
3deb3ec6SMatthias Ringwald	sm_min_encryption_key_size = min_size;
3deb3ec6SMatthias Ringwald	sm_max_encryption_key_size = max_size;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldvoid sm_set_authentication_requirements(uint8_t auth_req){
3deb3ec6SMatthias Ringwald    sm_auth_req = auth_req;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldvoid sm_set_io_capabilities(io_capability_t io_capability){
3deb3ec6SMatthias Ringwald    sm_io_capabilities = io_capability;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldvoid sm_set_request_security(int enable){
3deb3ec6SMatthias Ringwald    sm_slave_request_security = enable;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldvoid sm_set_er(sm_key_t er){
3deb3ec6SMatthias Ringwald    memcpy(sm_persistent_er, er, 16);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldvoid sm_set_ir(sm_key_t ir){
3deb3ec6SMatthias Ringwald    memcpy(sm_persistent_ir, ir, 16);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// Testing support only
3deb3ec6SMatthias Ringwaldvoid sm_test_set_irk(sm_key_t irk){
3deb3ec6SMatthias Ringwald    memcpy(sm_persistent_irk, irk, 16);
3deb3ec6SMatthias Ringwald    sm_persistent_irk_ready = 1;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldvoid sm_test_use_fixed_local_csrk(void){
3deb3ec6SMatthias Ringwald    test_use_fixed_local_csrk = 1;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldvoid sm_init(void){
3deb3ec6SMatthias Ringwald    // set some (BTstack default) ER and IR
3deb3ec6SMatthias Ringwald    int i;
3deb3ec6SMatthias Ringwald    sm_key_t er;
3deb3ec6SMatthias Ringwald    sm_key_t ir;
3deb3ec6SMatthias Ringwald    for (i=0;i<16;i++){
3deb3ec6SMatthias Ringwald        er[i] = 0x30 + i;
3deb3ec6SMatthias Ringwald        ir[i] = 0x90 + i;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald    sm_set_er(er);
3deb3ec6SMatthias Ringwald    sm_set_ir(ir);
3deb3ec6SMatthias Ringwald    // defaults
3deb3ec6SMatthias Ringwald    sm_accepted_stk_generation_methods = SM_STK_GENERATION_METHOD_JUST_WORKS
3deb3ec6SMatthias Ringwald                                       | SM_STK_GENERATION_METHOD_OOB
3deb3ec6SMatthias Ringwald                                       | SM_STK_GENERATION_METHOD_PASSKEY;
3deb3ec6SMatthias Ringwald    sm_max_encryption_key_size = 16;
3deb3ec6SMatthias Ringwald    sm_min_encryption_key_size = 7;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    sm_cmac_state  = CMAC_IDLE;
3deb3ec6SMatthias Ringwald    dkg_state = DKG_W4_WORKING;
3deb3ec6SMatthias Ringwald    rau_state = RAU_W4_WORKING;
3deb3ec6SMatthias Ringwald    sm_aes128_state = SM_AES128_IDLE;
3deb3ec6SMatthias Ringwald    sm_address_resolution_test = -1;    // no private address to resolve yet
3deb3ec6SMatthias Ringwald    sm_address_resolution_ah_calculation_active = 0;
3deb3ec6SMatthias Ringwald    sm_address_resolution_mode = ADDRESS_RESOLUTION_IDLE;
3deb3ec6SMatthias Ringwald    sm_address_resolution_general_queue = NULL;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    gap_random_adress_update_period = 15 * 60 * 1000L;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    sm_active_connection = 0;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    test_use_fixed_local_csrk = 0;
3deb3ec6SMatthias Ringwald
e03e489aSMatthias Ringwald    // register for HCI Events from HCI
e03e489aSMatthias Ringwald    hci_event_callback_registration.callback = &sm_event_packet_handler;
e03e489aSMatthias Ringwald    hci_add_event_handler(&hci_event_callback_registration);
e03e489aSMatthias Ringwald
b170b20fSMatthias Ringwald    // and L2CAP PDUs + L2CAP_EVENT_CAN_SEND_NOW
e03e489aSMatthias Ringwald    l2cap_register_fixed_channel(sm_pdu_handler, L2CAP_CID_SECURITY_MANAGER_PROTOCOL);
27c32905SMatthias Ringwald
27c32905SMatthias Ringwald#ifdef USE_MBEDTLS_FOR_ECDH
27c32905SMatthias Ringwald    // TODO: calculate keypair using LE Random Number Generator
27c32905SMatthias Ringwald    // use test keypair from spec initially
27c32905SMatthias Ringwald    mbedtls_ecp_keypair_init(&le_keypair);
27c32905SMatthias Ringwald    mbedtls_ecp_group_load(&le_keypair.grp, MBEDTLS_ECP_DP_SECP256R1);
27c32905SMatthias Ringwald    mbedtls_mpi_read_string( &le_keypair.d,   16, "3f49f6d4a3c55f3874c9b3e3d2103f504aff607beb40b7995899b8a6cd3c1abd");
27c32905SMatthias Ringwald    mbedtls_mpi_read_string( &le_keypair.Q.X, 16, "20b003d2f297be2c5e2c83a7e9f9a5b9eff49111acf4fddbcc0301480e359de6");
27c32905SMatthias Ringwald    mbedtls_mpi_read_string( &le_keypair.Q.Y, 16, "dc809c49652aeb6d63329abf5a52155c766345c28fed3024741c8ed01589d28b");
27c32905SMatthias Ringwald    mbedtls_mpi_read_string( &le_keypair.Q.Z, 16, "1");
27c32905SMatthias Ringwald    // print keypair
27c32905SMatthias Ringwald    char buffer[100];
27c32905SMatthias Ringwald    size_t len;
27c32905SMatthias Ringwald    mbedtls_mpi_write_string( &le_keypair.d, 16, buffer, sizeof(buffer), &len);
27c32905SMatthias Ringwald    log_info("d: %s", buffer);
27c32905SMatthias Ringwald    mbedtls_mpi_write_string( &le_keypair.Q.X, 16, buffer, sizeof(buffer), &len);
27c32905SMatthias Ringwald    log_info("X: %s", buffer);
27c32905SMatthias Ringwald    mbedtls_mpi_write_string( &le_keypair.Q.Y, 16, buffer, sizeof(buffer), &len);
27c32905SMatthias Ringwald    log_info("Y: %s", buffer);
27c32905SMatthias Ringwald#endif
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
711e6c80SMatthias Ringwaldstatic sm_connection_t * sm_get_connection_for_handle(hci_con_handle_t con_handle){
711e6c80SMatthias Ringwald    hci_connection_t * hci_con = hci_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald    if (!hci_con) return NULL;
3deb3ec6SMatthias Ringwald    return &hci_con->sm_connection;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// @returns 0 if not encrypted, 7-16 otherwise
711e6c80SMatthias Ringwaldint sm_encryption_key_size(hci_con_handle_t con_handle){
711e6c80SMatthias Ringwald    sm_connection_t * sm_conn = sm_get_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald    if (!sm_conn) return 0;     // wrong connection
3deb3ec6SMatthias Ringwald    if (!sm_conn->sm_connection_encrypted) return 0;
3deb3ec6SMatthias Ringwald    return sm_conn->sm_actual_encryption_key_size;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
711e6c80SMatthias Ringwaldint sm_authenticated(hci_con_handle_t con_handle){
711e6c80SMatthias Ringwald    sm_connection_t * sm_conn = sm_get_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald    if (!sm_conn) return 0;     // wrong connection
3deb3ec6SMatthias Ringwald    if (!sm_conn->sm_connection_encrypted) return 0; // unencrypted connection cannot be authenticated
3deb3ec6SMatthias Ringwald    return sm_conn->sm_connection_authenticated;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
711e6c80SMatthias Ringwaldauthorization_state_t sm_authorization_state(hci_con_handle_t con_handle){
711e6c80SMatthias Ringwald    sm_connection_t * sm_conn = sm_get_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald    if (!sm_conn) return AUTHORIZATION_UNKNOWN;     // wrong connection
3deb3ec6SMatthias Ringwald    if (!sm_conn->sm_connection_encrypted)               return AUTHORIZATION_UNKNOWN; // unencrypted connection cannot be authorized
3deb3ec6SMatthias Ringwald    if (!sm_conn->sm_connection_authenticated)           return AUTHORIZATION_UNKNOWN; // unauthenticatd connection cannot be authorized
3deb3ec6SMatthias Ringwald    return sm_conn->sm_connection_authorization_state;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldstatic void sm_send_security_request_for_connection(sm_connection_t * sm_conn){
3deb3ec6SMatthias Ringwald    switch (sm_conn->sm_engine_state){
3deb3ec6SMatthias Ringwald        case SM_GENERAL_IDLE:
3deb3ec6SMatthias Ringwald        case SM_RESPONDER_IDLE:
3deb3ec6SMatthias Ringwald            sm_conn->sm_engine_state = SM_RESPONDER_SEND_SECURITY_REQUEST;
3deb3ec6SMatthias Ringwald            sm_run();
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald        default:
3deb3ec6SMatthias Ringwald            break;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald/**
3deb3ec6SMatthias Ringwald * @brief Trigger Security Request
3deb3ec6SMatthias Ringwald */
711e6c80SMatthias Ringwaldvoid sm_send_security_request(hci_con_handle_t con_handle){
711e6c80SMatthias Ringwald    sm_connection_t * sm_conn = sm_get_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald    if (!sm_conn) return;
3deb3ec6SMatthias Ringwald    sm_send_security_request_for_connection(sm_conn);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// request pairing
711e6c80SMatthias Ringwaldvoid sm_request_pairing(hci_con_handle_t con_handle){
711e6c80SMatthias Ringwald    sm_connection_t * sm_conn = sm_get_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald    if (!sm_conn) return;     // wrong connection
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    log_info("sm_request_pairing in role %u, state %u", sm_conn->sm_role, sm_conn->sm_engine_state);
3deb3ec6SMatthias Ringwald    if (sm_conn->sm_role){
3deb3ec6SMatthias Ringwald        sm_send_security_request_for_connection(sm_conn);
3deb3ec6SMatthias Ringwald    } else {
3deb3ec6SMatthias Ringwald        // used as a trigger to start central/master/initiator security procedures
3deb3ec6SMatthias Ringwald            uint16_t ediv;
3deb3ec6SMatthias Ringwald            if (sm_conn->sm_engine_state == SM_INITIATOR_CONNECTED){
3deb3ec6SMatthias Ringwald            switch (sm_conn->sm_irk_lookup_state){
3deb3ec6SMatthias Ringwald                case IRK_LOOKUP_FAILED:
3deb3ec6SMatthias Ringwald                    sm_conn->sm_engine_state = SM_INITIATOR_PH1_W2_SEND_PAIRING_REQUEST;
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald                case IRK_LOOKUP_SUCCEEDED:
3deb3ec6SMatthias Ringwald                        le_device_db_encryption_get(sm_conn->sm_le_db_index, &ediv, NULL, NULL, NULL, NULL, NULL);
3deb3ec6SMatthias Ringwald                        if (ediv){
3deb3ec6SMatthias Ringwald                            log_info("sm: Setting up previous ltk/ediv/rand for device index %u", sm_conn->sm_le_db_index);
3deb3ec6SMatthias Ringwald                            sm_conn->sm_engine_state = SM_INITIATOR_PH0_HAS_LTK;
3deb3ec6SMatthias Ringwald                        } else {
3deb3ec6SMatthias Ringwald                            sm_conn->sm_engine_state = SM_INITIATOR_PH1_W2_SEND_PAIRING_REQUEST;
3deb3ec6SMatthias Ringwald                        }
3deb3ec6SMatthias Ringwald                        break;
3deb3ec6SMatthias Ringwald                default:
3deb3ec6SMatthias Ringwald                    sm_conn->sm_bonding_requested = 1;
3deb3ec6SMatthias Ringwald                    break;
3deb3ec6SMatthias Ringwald            }
3deb3ec6SMatthias Ringwald        }
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald    sm_run();
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// called by client app on authorization request
711e6c80SMatthias Ringwaldvoid sm_authorization_decline(hci_con_handle_t con_handle){
711e6c80SMatthias Ringwald    sm_connection_t * sm_conn = sm_get_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald    if (!sm_conn) return;     // wrong connection
3deb3ec6SMatthias Ringwald    sm_conn->sm_connection_authorization_state = AUTHORIZATION_DECLINED;
5611a760SMatthias Ringwald    sm_notify_client_authorization(SM_EVENT_AUTHORIZATION_RESULT, sm_conn->sm_handle, sm_conn->sm_peer_addr_type, sm_conn->sm_peer_address, 0);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
711e6c80SMatthias Ringwaldvoid sm_authorization_grant(hci_con_handle_t con_handle){
711e6c80SMatthias Ringwald    sm_connection_t * sm_conn = sm_get_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald    if (!sm_conn) return;     // wrong connection
3deb3ec6SMatthias Ringwald    sm_conn->sm_connection_authorization_state = AUTHORIZATION_GRANTED;
5611a760SMatthias Ringwald    sm_notify_client_authorization(SM_EVENT_AUTHORIZATION_RESULT, sm_conn->sm_handle, sm_conn->sm_peer_addr_type, sm_conn->sm_peer_address, 1);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// GAP Bonding API
3deb3ec6SMatthias Ringwald
711e6c80SMatthias Ringwaldvoid sm_bonding_decline(hci_con_handle_t con_handle){
711e6c80SMatthias Ringwald    sm_connection_t * sm_conn = sm_get_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald    if (!sm_conn) return;     // wrong connection
3deb3ec6SMatthias Ringwald    setup->sm_user_response = SM_USER_RESPONSE_DECLINE;
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald    if (sm_conn->sm_engine_state == SM_PH1_W4_USER_RESPONSE){
3deb3ec6SMatthias Ringwald        sm_done_for_handle(sm_conn->sm_handle);
3deb3ec6SMatthias Ringwald        setup->sm_pairing_failed_reason = SM_REASON_PASSKEYT_ENTRY_FAILED;
3deb3ec6SMatthias Ringwald        sm_conn->sm_engine_state = SM_GENERAL_SEND_PAIRING_FAILED;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald    sm_run();
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
711e6c80SMatthias Ringwaldvoid sm_just_works_confirm(hci_con_handle_t con_handle){
711e6c80SMatthias Ringwald    sm_connection_t * sm_conn = sm_get_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald    if (!sm_conn) return;     // wrong connection
3deb3ec6SMatthias Ringwald    setup->sm_user_response = SM_USER_RESPONSE_CONFIRM;
3deb3ec6SMatthias Ringwald    if (sm_conn->sm_engine_state == SM_PH1_W4_USER_RESPONSE){
3deb3ec6SMatthias Ringwald        sm_conn->sm_engine_state = SM_PH2_C1_GET_RANDOM_A;
3deb3ec6SMatthias Ringwald    }
*446a8c36SMatthias Ringwald    if (sm_conn->sm_engine_state == SM_PH2_W4_USER_RESPONSE){
*446a8c36SMatthias Ringwald        if (sm_conn->sm_role){
*446a8c36SMatthias Ringwald            // responder
*446a8c36SMatthias Ringwald            sm_conn->sm_engine_state = SM_PH2_SEND_DHKEY_CHECK_COMMAND;
*446a8c36SMatthias Ringwald        } else {
*446a8c36SMatthias Ringwald            // initiator
*446a8c36SMatthias Ringwald            // TODO handle intiator role
*446a8c36SMatthias Ringwald        }
*446a8c36SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald    sm_run();
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
711e6c80SMatthias Ringwaldvoid sm_passkey_input(hci_con_handle_t con_handle, uint32_t passkey){
711e6c80SMatthias Ringwald    sm_connection_t * sm_conn = sm_get_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald    if (!sm_conn) return;     // wrong connection
3deb3ec6SMatthias Ringwald    sm_reset_tk();
f8fbdce0SMatthias Ringwald    big_endian_store_32(setup->sm_tk, 12, passkey);
3deb3ec6SMatthias Ringwald    setup->sm_user_response = SM_USER_RESPONSE_PASSKEY;
3deb3ec6SMatthias Ringwald    if (sm_conn->sm_engine_state == SM_PH1_W4_USER_RESPONSE){
3deb3ec6SMatthias Ringwald        sm_conn->sm_engine_state = SM_PH2_C1_GET_RANDOM_A;
3deb3ec6SMatthias Ringwald    }
3deb3ec6SMatthias Ringwald    sm_run();
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald/**
3deb3ec6SMatthias Ringwald * @brief Identify device in LE Device DB
3deb3ec6SMatthias Ringwald * @param handle
3deb3ec6SMatthias Ringwald * @returns index from le_device_db or -1 if not found/identified
3deb3ec6SMatthias Ringwald */
711e6c80SMatthias Ringwaldint sm_le_device_index(hci_con_handle_t con_handle ){
711e6c80SMatthias Ringwald    sm_connection_t * sm_conn = sm_get_connection_for_handle(con_handle);
3deb3ec6SMatthias Ringwald    if (!sm_conn) return -1;
3deb3ec6SMatthias Ringwald    return sm_conn->sm_le_db_index;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwald// GAP LE API
3deb3ec6SMatthias Ringwaldvoid gap_random_address_set_mode(gap_random_address_type_t random_address_type){
3deb3ec6SMatthias Ringwald    gap_random_address_update_stop();
3deb3ec6SMatthias Ringwald    gap_random_adress_type = random_address_type;
3deb3ec6SMatthias Ringwald    if (random_address_type == GAP_RANDOM_ADDRESS_TYPE_OFF) return;
3deb3ec6SMatthias Ringwald    gap_random_address_update_start();
3deb3ec6SMatthias Ringwald    gap_random_address_trigger();
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldgap_random_address_type_t gap_random_address_get_mode(void){
3deb3ec6SMatthias Ringwald    return gap_random_adress_type;
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
3deb3ec6SMatthias Ringwaldvoid gap_random_address_set_update_period(int period_ms){
3deb3ec6SMatthias Ringwald    gap_random_adress_update_period = period_ms;
3deb3ec6SMatthias Ringwald    if (gap_random_adress_type == GAP_RANDOM_ADDRESS_TYPE_OFF) return;
3deb3ec6SMatthias Ringwald    gap_random_address_update_stop();
3deb3ec6SMatthias Ringwald    gap_random_address_update_start();
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald
7e252622SMatthias Ringwaldvoid gap_random_address_set(bd_addr_t addr){
7e252622SMatthias Ringwald    gap_random_address_set_mode(GAP_RANDOM_ADDRESS_TYPE_OFF);
7e252622SMatthias Ringwald    memcpy(sm_random_address, addr, 6);
7e252622SMatthias Ringwald    rau_state = RAU_SET_ADDRESS;
7e252622SMatthias Ringwald    sm_run();
7e252622SMatthias Ringwald}
7e252622SMatthias Ringwald
3deb3ec6SMatthias Ringwald/*
3deb3ec6SMatthias Ringwald * @brief Set Advertisement Paramters
3deb3ec6SMatthias Ringwald * @param adv_int_min
3deb3ec6SMatthias Ringwald * @param adv_int_max
3deb3ec6SMatthias Ringwald * @param adv_type
3deb3ec6SMatthias Ringwald * @param direct_address_type
3deb3ec6SMatthias Ringwald * @param direct_address
3deb3ec6SMatthias Ringwald * @param channel_map
3deb3ec6SMatthias Ringwald * @param filter_policy
3deb3ec6SMatthias Ringwald *
3deb3ec6SMatthias Ringwald * @note own_address_type is used from gap_random_address_set_mode
3deb3ec6SMatthias Ringwald */
3deb3ec6SMatthias Ringwaldvoid gap_advertisements_set_params(uint16_t adv_int_min, uint16_t adv_int_max, uint8_t adv_type,
3deb3ec6SMatthias Ringwald    uint8_t direct_address_typ, bd_addr_t direct_address, uint8_t channel_map, uint8_t filter_policy){
3deb3ec6SMatthias Ringwald    hci_le_advertisements_set_params(adv_int_min, adv_int_max, adv_type, gap_random_adress_type,
3deb3ec6SMatthias Ringwald        direct_address_typ, direct_address, channel_map, filter_policy);
3deb3ec6SMatthias Ringwald}
3deb3ec6SMatthias Ringwald