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v811_spc009/system/bt/stack/smp/smp_act.cc

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/******************************************************************************
*
* Copyright 2003-2012 Broadcom Corporation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************/
#define LOG_TAG "smp_act"
#include <string.h>
#include "btif_api.h"
#include "btif_common.h"
#include "btif_storage.h"
#include "device/include/interop.h"
#include "internal_include/bt_target.h"
#include "main/shim/shim.h"
#include "osi/include/log.h"
#include "stack/btm/btm_dev.h"
#include "stack/btm/btm_sec.h"
#include "stack/include/acl_api.h"
#include "stack/include/l2c_api.h"
#include "stack/include/smp_api_types.h"
#include "stack/smp/p_256_ecc_pp.h"
#include "stack/smp/smp_int.h"
#include "types/raw_address.h"
extern tBTM_CB btm_cb;
#define SMP_KEY_DIST_TYPE_MAX 4
const tSMP_ACT smp_distribute_act[] = {
smp_generate_ltk, /* SMP_SEC_KEY_TYPE_ENC - '1' bit index */
smp_send_id_info, /* SMP_SEC_KEY_TYPE_ID - '1' bit index */
smp_generate_csrk, /* SMP_SEC_KEY_TYPE_CSRK - '1' bit index */
smp_set_derive_link_key /* SMP_SEC_KEY_TYPE_LK - '1' bit index */
};
static bool pts_test_send_authentication_complete_failure(tSMP_CB* p_cb) {
tSMP_STATUS reason = p_cb->cert_failure;
if (reason == SMP_PAIR_AUTH_FAIL || reason == SMP_PAIR_FAIL_UNKNOWN ||
reason == SMP_PAIR_NOT_SUPPORT || reason == SMP_PASSKEY_ENTRY_FAIL ||
reason == SMP_REPEATED_ATTEMPTS) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = reason;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return true;
}
return false;
}
/*******************************************************************************
* Function smp_update_key_mask
* Description This function updates the key mask for sending or receiving.
******************************************************************************/
static void smp_update_key_mask(tSMP_CB* p_cb, uint8_t key_type, bool recv) {
SMP_TRACE_DEBUG(
"%s before update role=%d recv=%d local_i_key = %02x, local_r_key = %02x",
__func__, p_cb->role, recv, p_cb->local_i_key, p_cb->local_r_key);
if (((p_cb->le_secure_connections_mode_is_used) || (p_cb->smp_over_br)) &&
((key_type == SMP_SEC_KEY_TYPE_ENC) ||
(key_type == SMP_SEC_KEY_TYPE_LK))) {
/* in LE SC mode LTK, CSRK and BR/EDR LK are derived locally instead of
** being exchanged with the peer */
p_cb->local_i_key &= ~key_type;
p_cb->local_r_key &= ~key_type;
} else if (p_cb->role == HCI_ROLE_PERIPHERAL) {
if (recv)
p_cb->local_i_key &= ~key_type;
else
p_cb->local_r_key &= ~key_type;
} else {
if (recv)
p_cb->local_r_key &= ~key_type;
else
p_cb->local_i_key &= ~key_type;
}
SMP_TRACE_DEBUG("updated local_i_key = %02x, local_r_key = %02x",
p_cb->local_i_key, p_cb->local_r_key);
}
/*******************************************************************************
* Function smp_send_app_cback
* Description notifies application about the events the application is
* interested in
******************************************************************************/
void smp_send_app_cback(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
tSMP_EVT_DATA cb_data;
tBTM_STATUS callback_rc;
uint8_t remote_lmp_version = 0;
if (p_cb->p_callback && p_cb->cb_evt != 0) {
switch (p_cb->cb_evt) {
case SMP_IO_CAP_REQ_EVT:
cb_data.io_req.auth_req = p_cb->peer_auth_req;
cb_data.io_req.oob_data = SMP_OOB_NONE;
cb_data.io_req.io_cap = btif_storage_get_local_io_caps_ble();
cb_data.io_req.max_key_size = SMP_MAX_ENC_KEY_SIZE;
cb_data.io_req.init_keys = p_cb->local_i_key;
cb_data.io_req.resp_keys = p_cb->local_r_key;
LOG_DEBUG("Notify app io_cap = %hhu", cb_data.io_req.io_cap);
break;
case SMP_NC_REQ_EVT:
cb_data.passkey = p_data->passkey;
break;
case SMP_SC_OOB_REQ_EVT:
cb_data.req_oob_type = p_data->req_oob_type;
break;
case SMP_SC_LOC_OOB_DATA_UP_EVT:
cb_data.loc_oob_data = p_cb->sc_oob_data.loc_oob_data;
break;
case SMP_BR_KEYS_REQ_EVT:
cb_data.io_req.auth_req = 0;
cb_data.io_req.oob_data = SMP_OOB_NONE;
cb_data.io_req.io_cap = 0;
cb_data.io_req.max_key_size = SMP_MAX_ENC_KEY_SIZE;
cb_data.io_req.init_keys = SMP_BR_SEC_DEFAULT_KEY;
cb_data.io_req.resp_keys = SMP_BR_SEC_DEFAULT_KEY;
break;
default:
LOG_ERROR("Unexpected event:%hhu", p_cb->cb_evt);
break;
}
callback_rc =
(*p_cb->p_callback)(p_cb->cb_evt, p_cb->pairing_bda, &cb_data);
if (callback_rc == BTM_SUCCESS) {
switch (p_cb->cb_evt) {
case SMP_IO_CAP_REQ_EVT:
p_cb->loc_auth_req = cb_data.io_req.auth_req;
p_cb->local_io_capability = cb_data.io_req.io_cap;
p_cb->loc_oob_flag = cb_data.io_req.oob_data;
p_cb->loc_enc_size = cb_data.io_req.max_key_size;
p_cb->local_i_key = cb_data.io_req.init_keys;
p_cb->local_r_key = cb_data.io_req.resp_keys;
if (!(p_cb->loc_auth_req & SMP_AUTH_BOND)) {
LOG_INFO("Non bonding: No keys will be exchanged");
p_cb->local_i_key = 0;
p_cb->local_r_key = 0;
}
LOG_DEBUG(
"Remote request IO capabilities precondition auth_req: 0x%02x,"
" io_cap: %d loc_oob_flag: %d loc_enc_size: %d, "
"local_i_key: 0x%02x, local_r_key: 0x%02x",
p_cb->loc_auth_req, p_cb->local_io_capability, p_cb->loc_oob_flag,
p_cb->loc_enc_size, p_cb->local_i_key, p_cb->local_r_key);
p_cb->secure_connections_only_mode_required =
(btm_cb.security_mode == BTM_SEC_MODE_SC) ? true : false;
/* just for PTS, force SC bit */
if (p_cb->secure_connections_only_mode_required) {
p_cb->loc_auth_req |= SMP_SC_SUPPORT_BIT;
}
if (!BTM_ReadRemoteVersion(p_cb->pairing_bda, &remote_lmp_version,
nullptr, nullptr)) {
LOG_WARN(
"SMP Unable to determine remote security authentication "
"remote_lmp_version:%hu",
remote_lmp_version);
}
if (!bluetooth::shim::is_gd_acl_enabled()) {
if (!p_cb->secure_connections_only_mode_required &&
(!(p_cb->loc_auth_req & SMP_SC_SUPPORT_BIT) ||
remote_lmp_version < HCI_PROTO_VERSION_4_2 ||
interop_match_addr(INTEROP_DISABLE_LE_SECURE_CONNECTIONS,
(const RawAddress*)&p_cb->pairing_bda))) {
p_cb->loc_auth_req &= ~SMP_SC_SUPPORT_BIT;
p_cb->loc_auth_req &= ~SMP_KP_SUPPORT_BIT;
p_cb->local_i_key &= ~SMP_SEC_KEY_TYPE_LK;
p_cb->local_r_key &= ~SMP_SEC_KEY_TYPE_LK;
}
if (remote_lmp_version < HCI_PROTO_VERSION_5_0) {
p_cb->loc_auth_req &= ~SMP_H7_SUPPORT_BIT;
}
}
LOG_DEBUG(
"Remote request IO capabilities postcondition auth_req: 0x%02x,"
" local_i_key: 0x%02x, local_r_key: 0x%02x",
p_cb->loc_auth_req, p_cb->local_i_key, p_cb->local_r_key);
smp_sm_event(p_cb, SMP_IO_RSP_EVT, NULL);
break;
case SMP_BR_KEYS_REQ_EVT:
p_cb->loc_enc_size = cb_data.io_req.max_key_size;
p_cb->local_i_key = cb_data.io_req.init_keys;
p_cb->local_r_key = cb_data.io_req.resp_keys;
p_cb->loc_auth_req |= SMP_H7_SUPPORT_BIT;
p_cb->local_i_key &= ~SMP_SEC_KEY_TYPE_LK;
p_cb->local_r_key &= ~SMP_SEC_KEY_TYPE_LK;
LOG_DEBUG(
"for SMP over BR max_key_size: 0x%02x, local_i_key: 0x%02x, "
"local_r_key: 0x%02x, p_cb->loc_auth_req: 0x%02x",
p_cb->loc_enc_size, p_cb->local_i_key, p_cb->local_r_key,
p_cb->loc_auth_req);
smp_br_state_machine_event(p_cb, SMP_BR_KEYS_RSP_EVT, NULL);
break;
// Expected, but nothing to do
case SMP_SC_LOC_OOB_DATA_UP_EVT:
break;
default:
LOG_ERROR("Unexpected event: %hhu", p_cb->cb_evt);
}
}
}
if (!p_cb->cb_evt && p_cb->discard_sec_req) {
p_cb->discard_sec_req = false;
smp_sm_event(p_cb, SMP_DISCARD_SEC_REQ_EVT, NULL);
}
}
/*******************************************************************************
* Function smp_send_pair_fail
* Description pairing failure to peer device if needed.
******************************************************************************/
void smp_send_pair_fail(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
p_cb->status = p_data->status;
p_cb->failure = p_data->status;
SMP_TRACE_DEBUG("%s: status=%d failure=%d ", __func__, p_cb->status,
p_cb->failure);
if (p_cb->status <= SMP_MAX_FAIL_RSN_PER_SPEC &&
p_cb->status != SMP_SUCCESS) {
smp_send_cmd(SMP_OPCODE_PAIRING_FAILED, p_cb);
p_cb->wait_for_authorization_complete = true;
}
}
/*******************************************************************************
* Function smp_send_pair_req
* Description actions related to sending pairing request
******************************************************************************/
void smp_send_pair_req(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
tBTM_SEC_DEV_REC* p_dev_rec = btm_find_dev(p_cb->pairing_bda);
SMP_TRACE_DEBUG("%s", __func__);
/* erase all keys when central sends pairing req*/
if (p_dev_rec) btm_sec_clear_ble_keys(p_dev_rec);
/* do not manipulate the key, let app decide,
leave out to BTM to mandate key distribution for bonding case */
smp_send_cmd(SMP_OPCODE_PAIRING_REQ, p_cb);
}
/*******************************************************************************
* Function smp_send_pair_rsp
* Description actions related to sending pairing response
******************************************************************************/
void smp_send_pair_rsp(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
p_cb->local_i_key &= p_cb->peer_i_key;
p_cb->local_r_key &= p_cb->peer_r_key;
if (smp_send_cmd(SMP_OPCODE_PAIRING_RSP, p_cb)) {
if (p_cb->selected_association_model == SMP_MODEL_SEC_CONN_OOB)
smp_use_oob_private_key(p_cb, NULL);
else
smp_decide_association_model(p_cb, NULL);
}
}
/*******************************************************************************
* Function smp_send_confirm
* Description send confirmation to the peer
******************************************************************************/
void smp_send_confirm(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
smp_send_cmd(SMP_OPCODE_CONFIRM, p_cb);
}
/*******************************************************************************
* Function smp_send_init
* Description process pairing initializer to peripheral device
******************************************************************************/
void smp_send_init(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
smp_send_cmd(SMP_OPCODE_INIT, p_cb);
}
/*******************************************************************************
* Function smp_send_rand
* Description send pairing random to the peer
******************************************************************************/
void smp_send_rand(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
smp_send_cmd(SMP_OPCODE_RAND, p_cb);
}
/*******************************************************************************
* Function smp_send_pair_public_key
* Description send pairing public key command to the peer
******************************************************************************/
void smp_send_pair_public_key(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
smp_send_cmd(SMP_OPCODE_PAIR_PUBLIC_KEY, p_cb);
}
/*******************************************************************************
* Function SMP_SEND_COMMITMENT
* Description send commitment command to the peer
******************************************************************************/
void smp_send_commitment(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
smp_send_cmd(SMP_OPCODE_PAIR_COMMITM, p_cb);
}
/*******************************************************************************
* Function smp_send_dhkey_check
* Description send DHKey Check command to the peer
******************************************************************************/
void smp_send_dhkey_check(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
smp_send_cmd(SMP_OPCODE_PAIR_DHKEY_CHECK, p_cb);
}
/*******************************************************************************
* Function smp_send_keypress_notification
* Description send Keypress Notification command to the peer
******************************************************************************/
void smp_send_keypress_notification(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
p_cb->local_keypress_notification = p_data->status;
smp_send_cmd(SMP_OPCODE_PAIR_KEYPR_NOTIF, p_cb);
}
/*******************************************************************************
* Function smp_send_enc_info
* Description send encryption information command.
******************************************************************************/
void smp_send_enc_info(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
tBTM_LE_KEY_VALUE le_key;
SMP_TRACE_DEBUG("%s: p_cb->loc_enc_size = %d", __func__, p_cb->loc_enc_size);
smp_update_key_mask(p_cb, SMP_SEC_KEY_TYPE_ENC, false);
smp_send_cmd(SMP_OPCODE_ENCRYPT_INFO, p_cb);
smp_send_cmd(SMP_OPCODE_CENTRAL_ID, p_cb);
/* save the DIV and key size information when acting as peripheral device */
le_key.lenc_key.ltk = p_cb->ltk;
le_key.lenc_key.div = p_cb->div;
le_key.lenc_key.key_size = p_cb->loc_enc_size;
le_key.lenc_key.sec_level = p_cb->sec_level;
if ((p_cb->peer_auth_req & SMP_AUTH_BOND) &&
(p_cb->loc_auth_req & SMP_AUTH_BOND))
btm_sec_save_le_key(p_cb->pairing_bda, BTM_LE_KEY_LENC, &le_key, true);
SMP_TRACE_WARNING("%s", __func__);
smp_key_distribution(p_cb, NULL);
}
/*******************************************************************************
* Function smp_send_id_info
* Description send ID information command.
******************************************************************************/
void smp_send_id_info(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
tBTM_LE_KEY_VALUE le_key;
SMP_TRACE_DEBUG("%s", __func__);
smp_update_key_mask(p_cb, SMP_SEC_KEY_TYPE_ID, false);
smp_send_cmd(SMP_OPCODE_IDENTITY_INFO, p_cb);
smp_send_cmd(SMP_OPCODE_ID_ADDR, p_cb);
if ((p_cb->peer_auth_req & SMP_AUTH_BOND) &&
(p_cb->loc_auth_req & SMP_AUTH_BOND))
btm_sec_save_le_key(p_cb->pairing_bda, BTM_LE_KEY_LID, &le_key, true);
smp_key_distribution_by_transport(p_cb, NULL);
}
/** send CSRK command. */
void smp_send_csrk_info(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
tBTM_LE_KEY_VALUE key;
SMP_TRACE_DEBUG("%s", __func__);
smp_update_key_mask(p_cb, SMP_SEC_KEY_TYPE_CSRK, false);
if (smp_send_cmd(SMP_OPCODE_SIGN_INFO, p_cb)) {
key.lcsrk_key.div = p_cb->div;
key.lcsrk_key.sec_level = p_cb->sec_level;
key.lcsrk_key.counter = 0; /* initialize the local counter */
key.lcsrk_key.csrk = p_cb->csrk;
btm_sec_save_le_key(p_cb->pairing_bda, BTM_LE_KEY_LCSRK, &key, true);
}
smp_key_distribution_by_transport(p_cb, NULL);
}
/*******************************************************************************
* Function smp_send_ltk_reply
* Description send LTK reply
******************************************************************************/
void smp_send_ltk_reply(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
Octet16 stk;
memcpy(stk.data(), p_data->key.p_data, stk.size());
/* send stk as LTK response */
btm_ble_ltk_request_reply(p_cb->pairing_bda, true, stk);
}
/*******************************************************************************
* Function smp_proc_sec_req
* Description process security request.
******************************************************************************/
void smp_proc_sec_req(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
tBTM_LE_AUTH_REQ auth_req = *(tBTM_LE_AUTH_REQ*)p_data->p_data;
tBTM_BLE_SEC_REQ_ACT sec_req_act;
SMP_TRACE_DEBUG("%s: auth_req=0x%x", __func__, auth_req);
p_cb->cb_evt = SMP_EVT_NONE;
btm_ble_link_sec_check(p_cb->pairing_bda, auth_req, &sec_req_act);
SMP_TRACE_DEBUG("%s: sec_req_act=0x%x", __func__, sec_req_act);
switch (sec_req_act) {
case BTM_BLE_SEC_REQ_ACT_ENCRYPT:
SMP_TRACE_DEBUG("%s: BTM_BLE_SEC_REQ_ACT_ENCRYPT", __func__);
smp_sm_event(p_cb, SMP_ENC_REQ_EVT, NULL);
break;
case BTM_BLE_SEC_REQ_ACT_PAIR:
p_cb->secure_connections_only_mode_required =
(btm_cb.security_mode == BTM_SEC_MODE_SC) ? true : false;
/* respond to non SC pairing request as failure in SC only mode */
if (p_cb->secure_connections_only_mode_required &&
(auth_req & SMP_SC_SUPPORT_BIT) == 0) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_PAIR_AUTH_FAIL;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
} else {
/* initialize local i/r key to be default keys */
p_cb->peer_auth_req = auth_req;
p_cb->local_r_key = p_cb->local_i_key = SMP_SEC_DEFAULT_KEY;
p_cb->cb_evt = SMP_SEC_REQUEST_EVT;
}
break;
case BTM_BLE_SEC_REQ_ACT_DISCARD:
p_cb->discard_sec_req = true;
break;
default:
/* do nothing */
break;
}
}
/*******************************************************************************
* Function smp_proc_sec_grant
* Description process security grant.
******************************************************************************/
void smp_proc_sec_grant(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t res = p_data->status;
SMP_TRACE_DEBUG("%s", __func__);
if (res != SMP_SUCCESS) {
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, p_data);
} else /*otherwise, start pairing */
{
/* send IO request callback */
p_cb->cb_evt = SMP_IO_CAP_REQ_EVT;
}
}
/*******************************************************************************
* Function smp_proc_pair_fail
* Description process pairing failure from peer device
******************************************************************************/
void smp_proc_pair_fail(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
if (p_cb->rcvd_cmd_len < 2) {
android_errorWriteLog(0x534e4554, "111214739");
SMP_TRACE_WARNING("%s: rcvd_cmd_len %d too short: must be at least 2",
__func__, p_cb->rcvd_cmd_len);
p_cb->status = SMP_INVALID_PARAMETERS;
} else {
p_cb->status = p_data->status;
}
/* Cancel pending auth complete timer if set */
alarm_cancel(p_cb->delayed_auth_timer_ent);
}
/*******************************************************************************
* Function smp_proc_pair_cmd
* Description Process the SMP pairing request/response from peer device
******************************************************************************/
void smp_proc_pair_cmd(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t* p = p_data->p_data;
tBTM_SEC_DEV_REC* p_dev_rec = btm_find_dev(p_cb->pairing_bda);
SMP_TRACE_DEBUG("%s: pairing_bda=%s", __func__,
p_cb->pairing_bda.ToString().c_str());
/* erase all keys if it is peripheral proc pairing req */
if (p_dev_rec && (p_cb->role == HCI_ROLE_PERIPHERAL))
btm_sec_clear_ble_keys(p_dev_rec);
p_cb->flags |= SMP_PAIR_FLAG_ENC_AFTER_PAIR;
if (smp_command_has_invalid_length(p_cb)) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_INVALID_PARAMETERS;
android_errorWriteLog(0x534e4554, "111850706");
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
STREAM_TO_UINT8(p_cb->peer_io_caps, p);
STREAM_TO_UINT8(p_cb->peer_oob_flag, p);
STREAM_TO_UINT8(p_cb->peer_auth_req, p);
STREAM_TO_UINT8(p_cb->peer_enc_size, p);
STREAM_TO_UINT8(p_cb->peer_i_key, p);
STREAM_TO_UINT8(p_cb->peer_r_key, p);
if (smp_command_has_invalid_parameters(p_cb)) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_INVALID_PARAMETERS;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
// PTS Testing failure modes
if (pts_test_send_authentication_complete_failure(p_cb)) return;
if (p_cb->role == HCI_ROLE_PERIPHERAL) {
if (!(p_cb->flags & SMP_PAIR_FLAGS_WE_STARTED_DD)) {
/* peer (central) started pairing sending Pairing Request */
p_cb->local_i_key = p_cb->peer_i_key;
p_cb->local_r_key = p_cb->peer_r_key;
p_cb->cb_evt = SMP_SEC_REQUEST_EVT;
} else /* update local i/r key according to pairing request */
{
/* pairing started with this side (peripheral) sending Security Request */
p_cb->local_i_key &= p_cb->peer_i_key;
p_cb->local_r_key &= p_cb->peer_r_key;
p_cb->selected_association_model = smp_select_association_model(p_cb);
if (p_cb->secure_connections_only_mode_required &&
(!(p_cb->le_secure_connections_mode_is_used) ||
(p_cb->selected_association_model ==
SMP_MODEL_SEC_CONN_JUSTWORKS))) {
SMP_TRACE_ERROR(
"%s: pairing failed - peripheral requires secure connection only "
"mode",
__func__);
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_PAIR_AUTH_FAIL;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
if (p_cb->selected_association_model == SMP_MODEL_SEC_CONN_OOB) {
if (smp_request_oob_data(p_cb)) return;
} else {
smp_send_pair_rsp(p_cb, NULL);
}
}
} else /* Central receives pairing response */
{
p_cb->selected_association_model = smp_select_association_model(p_cb);
if (p_cb->secure_connections_only_mode_required &&
(!(p_cb->le_secure_connections_mode_is_used) ||
(p_cb->selected_association_model == SMP_MODEL_SEC_CONN_JUSTWORKS))) {
SMP_TRACE_ERROR(
"Central requires secure connection only mode "
"but it can't be provided -> Central fails pairing");
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_PAIR_AUTH_FAIL;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
if (p_cb->selected_association_model == SMP_MODEL_SEC_CONN_OOB) {
if (smp_request_oob_data(p_cb)) return;
} else {
smp_decide_association_model(p_cb, NULL);
}
}
}
/** process pairing confirm from peer device */
void smp_proc_confirm(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
if (smp_command_has_invalid_parameters(p_cb)) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_INVALID_PARAMETERS;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
if (p_data) {
uint8_t* p = p_data->p_data;
if (p != NULL) {
/* save the SConfirm for comparison later */
STREAM_TO_ARRAY(p_cb->rconfirm.data(), p, OCTET16_LEN);
}
}
p_cb->flags |= SMP_PAIR_FLAGS_CMD_CONFIRM;
}
/** process pairing initializer from peer device */
void smp_proc_init(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t* p = p_data->p_data;
SMP_TRACE_DEBUG("%s", __func__);
if (smp_command_has_invalid_parameters(p_cb)) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_INVALID_PARAMETERS;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
/* save the SRand for comparison */
STREAM_TO_ARRAY(p_cb->rrand.data(), p, OCTET16_LEN);
}
/*******************************************************************************
* Function smp_proc_rand
* Description process pairing random (nonce) from peer device
******************************************************************************/
void smp_proc_rand(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t* p = p_data->p_data;
SMP_TRACE_DEBUG("%s", __func__);
if (smp_command_has_invalid_parameters(p_cb)) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_INVALID_PARAMETERS;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
/* save the SRand for comparison */
STREAM_TO_ARRAY(p_cb->rrand.data(), p, OCTET16_LEN);
}
/*******************************************************************************
* Function smp_process_pairing_public_key
* Description process pairing public key command from the peer device
* - saves the peer public key;
* - sets the flag indicating that the peer public key is received;
* - calls smp_wait_for_both_public_keys(...).
*
******************************************************************************/
void smp_process_pairing_public_key(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t* p = p_data->p_data;
SMP_TRACE_DEBUG("%s", __func__);
if (smp_command_has_invalid_parameters(p_cb)) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_INVALID_PARAMETERS;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
STREAM_TO_ARRAY(p_cb->peer_publ_key.x, p, BT_OCTET32_LEN);
STREAM_TO_ARRAY(p_cb->peer_publ_key.y, p, BT_OCTET32_LEN);
Point pt;
memcpy(pt.x, p_cb->peer_publ_key.x, BT_OCTET32_LEN);
memcpy(pt.y, p_cb->peer_publ_key.y, BT_OCTET32_LEN);
if (!memcmp(p_cb->peer_publ_key.x, p_cb->loc_publ_key.x, BT_OCTET32_LEN)) {
android_errorWriteLog(0x534e4554, "174886838");
SMP_TRACE_WARNING("Remote and local public keys can't match");
tSMP_INT_DATA smp;
smp.status = SMP_PAIR_AUTH_FAIL;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp);
return;
}
if (!ECC_ValidatePoint(pt)) {
android_errorWriteLog(0x534e4554, "72377774");
tSMP_INT_DATA smp;
smp.status = SMP_PAIR_AUTH_FAIL;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp);
return;
}
p_cb->flags |= SMP_PAIR_FLAG_HAVE_PEER_PUBL_KEY;
smp_wait_for_both_public_keys(p_cb, NULL);
}
/*******************************************************************************
* Function smp_process_pairing_commitment
* Description process pairing commitment from peer device
******************************************************************************/
void smp_process_pairing_commitment(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t* p = p_data->p_data;
SMP_TRACE_DEBUG("%s", __func__);
if (smp_command_has_invalid_parameters(p_cb)) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_INVALID_PARAMETERS;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
p_cb->flags |= SMP_PAIR_FLAG_HAVE_PEER_COMM;
if (p != NULL) {
STREAM_TO_ARRAY(p_cb->remote_commitment.data(), p, OCTET16_LEN);
}
}
/*******************************************************************************
* Function smp_process_dhkey_check
* Description process DHKey Check from peer device
******************************************************************************/
void smp_process_dhkey_check(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t* p = p_data->p_data;
SMP_TRACE_DEBUG("%s", __func__);
if (smp_command_has_invalid_parameters(p_cb)) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_INVALID_PARAMETERS;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
if (p != NULL) {
STREAM_TO_ARRAY(p_cb->remote_dhkey_check.data(), p, OCTET16_LEN);
}
p_cb->flags |= SMP_PAIR_FLAG_HAVE_PEER_DHK_CHK;
}
/*******************************************************************************
* Function smp_process_keypress_notification
* Description process pairing keypress notification from peer device
******************************************************************************/
void smp_process_keypress_notification(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t* p = p_data->p_data;
SMP_TRACE_DEBUG("%s", __func__);
p_cb->status = p_data->status;
if (smp_command_has_invalid_parameters(p_cb)) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_INVALID_PARAMETERS;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
if (p != NULL) {
STREAM_TO_UINT8(p_cb->peer_keypress_notification, p);
} else {
p_cb->peer_keypress_notification = SMP_SC_KEY_OUT_OF_RANGE;
}
p_cb->cb_evt = SMP_PEER_KEYPR_NOT_EVT;
}
/*******************************************************************************
* Function smp_br_process_pairing_command
* Description Process the SMP pairing request/response from peer device via
* BR/EDR transport.
******************************************************************************/
void smp_br_process_pairing_command(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t* p = p_data->p_data;
tBTM_SEC_DEV_REC* p_dev_rec = btm_find_dev(p_cb->pairing_bda);
SMP_TRACE_DEBUG("%s", __func__);
/* rejecting BR pairing request over non-SC BR link */
if (!p_dev_rec->new_encryption_key_is_p256 &&
p_cb->role == HCI_ROLE_PERIPHERAL) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_XTRANS_DERIVE_NOT_ALLOW;
smp_br_state_machine_event(p_cb, SMP_BR_AUTH_CMPL_EVT, &smp_int_data);
return;
}
/* erase all keys if it is peripheral proc pairing req*/
if (p_dev_rec && (p_cb->role == HCI_ROLE_PERIPHERAL))
btm_sec_clear_ble_keys(p_dev_rec);
p_cb->flags |= SMP_PAIR_FLAG_ENC_AFTER_PAIR;
if (smp_command_has_invalid_length(p_cb)) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_INVALID_PARAMETERS;
android_errorWriteLog(0x534e4554, "111213909");
smp_br_state_machine_event(p_cb, SMP_BR_AUTH_CMPL_EVT, &smp_int_data);
return;
}
STREAM_TO_UINT8(p_cb->peer_io_caps, p);
STREAM_TO_UINT8(p_cb->peer_oob_flag, p);
STREAM_TO_UINT8(p_cb->peer_auth_req, p);
STREAM_TO_UINT8(p_cb->peer_enc_size, p);
STREAM_TO_UINT8(p_cb->peer_i_key, p);
STREAM_TO_UINT8(p_cb->peer_r_key, p);
if (smp_command_has_invalid_parameters(p_cb)) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_INVALID_PARAMETERS;
smp_br_state_machine_event(p_cb, SMP_BR_AUTH_CMPL_EVT, &smp_int_data);
return;
}
/* peer (central) started pairing sending Pairing Request */
/* or being central device always use received i/r key as keys to distribute
*/
p_cb->local_i_key = p_cb->peer_i_key;
p_cb->local_r_key = p_cb->peer_r_key;
if (p_cb->role == HCI_ROLE_PERIPHERAL) {
p_dev_rec->new_encryption_key_is_p256 = false;
/* shortcut to skip Security Grant step */
p_cb->cb_evt = SMP_BR_KEYS_REQ_EVT;
} else {
/* Central receives pairing response */
SMP_TRACE_DEBUG(
"%s central rcvs valid PAIRING RESPONSE."
" Supposed to move to key distribution phase. ",
__func__);
}
/* auth_req received via BR/EDR SM channel is set to 0,
but everything derived/exchanged has to be saved */
p_cb->peer_auth_req |= SMP_AUTH_BOND;
p_cb->loc_auth_req |= SMP_AUTH_BOND;
}
/*******************************************************************************
* Function smp_br_process_security_grant
* Description process security grant in case of pairing over BR/EDR transport.
******************************************************************************/
void smp_br_process_security_grant(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
if (p_data->status != SMP_SUCCESS) {
smp_br_state_machine_event(p_cb, SMP_BR_AUTH_CMPL_EVT, p_data);
} else {
/* otherwise, start pairing; send IO request callback */
p_cb->cb_evt = SMP_BR_KEYS_REQ_EVT;
}
}
/*******************************************************************************
* Function smp_br_check_authorization_request
* Description sets the SMP kes to be derived/distribute over BR/EDR transport
* before starting the distribution/derivation
******************************************************************************/
void smp_br_check_authorization_request(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s rcvs i_keys=0x%x r_keys=0x%x (i-initiator r-responder)",
__func__, p_cb->local_i_key, p_cb->local_r_key);
/* In LE SC mode LK field is ignored when BR/EDR transport is used */
p_cb->local_i_key &= ~SMP_SEC_KEY_TYPE_LK;
p_cb->local_r_key &= ~SMP_SEC_KEY_TYPE_LK;
/* In LE SC mode only IRK, IAI, CSRK are exchanged with the peer.
** Set local_r_key on central to expect only these keys. */
if (p_cb->role == HCI_ROLE_CENTRAL) {
p_cb->local_r_key &= (SMP_SEC_KEY_TYPE_ID | SMP_SEC_KEY_TYPE_CSRK);
}
/* Check if H7 function needs to be used for key derivation*/
if ((p_cb->loc_auth_req & SMP_H7_SUPPORT_BIT) &&
(p_cb->peer_auth_req & SMP_H7_SUPPORT_BIT)) {
p_cb->key_derivation_h7_used = TRUE;
}
SMP_TRACE_DEBUG("%s: use h7 = %d", __func__, p_cb->key_derivation_h7_used);
SMP_TRACE_DEBUG(
"%s rcvs upgrades: i_keys=0x%x r_keys=0x%x (i-initiator r-responder)",
__func__, p_cb->local_i_key, p_cb->local_r_key);
if (/*((p_cb->peer_auth_req & SMP_AUTH_BOND) ||
(p_cb->loc_auth_req & SMP_AUTH_BOND)) &&*/
(p_cb->local_i_key || p_cb->local_r_key)) {
smp_br_state_machine_event(p_cb, SMP_BR_BOND_REQ_EVT, NULL);
/* if no peer key is expected, start central key distribution */
if (p_cb->role == HCI_ROLE_CENTRAL && p_cb->local_r_key == 0)
smp_key_distribution_by_transport(p_cb, NULL);
} else {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_SUCCESS;
smp_br_state_machine_event(p_cb, SMP_BR_AUTH_CMPL_EVT, &smp_int_data);
}
}
/*******************************************************************************
* Function smp_br_select_next_key
* Description selects the next key to derive/send when BR/EDR transport is
* used.
******************************************************************************/
void smp_br_select_next_key(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s role=%d (0-central) r_keys=0x%x i_keys=0x%x", __func__,
p_cb->role, p_cb->local_r_key, p_cb->local_i_key);
if (p_cb->role == HCI_ROLE_PERIPHERAL ||
(!p_cb->local_r_key && p_cb->role == HCI_ROLE_CENTRAL)) {
smp_key_pick_key(p_cb, p_data);
}
if (!p_cb->local_i_key && !p_cb->local_r_key) {
/* state check to prevent re-entrance */
if (smp_get_br_state() == SMP_BR_STATE_BOND_PENDING) {
if (p_cb->total_tx_unacked == 0) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_SUCCESS;
smp_br_state_machine_event(p_cb, SMP_BR_AUTH_CMPL_EVT, &smp_int_data);
} else {
p_cb->wait_for_authorization_complete = true;
}
}
}
}
/** process encryption information from peer device */
void smp_proc_enc_info(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t* p = p_data->p_data;
SMP_TRACE_DEBUG("%s", __func__);
if (smp_command_has_invalid_parameters(p_cb)) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_INVALID_PARAMETERS;
android_errorWriteLog(0x534e4554, "111937065");
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
STREAM_TO_ARRAY(p_cb->ltk.data(), p, OCTET16_LEN);
smp_key_distribution(p_cb, NULL);
}
/** process central ID from peripheral device */
void smp_proc_central_id(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t* p = p_data->p_data;
tBTM_LE_KEY_VALUE le_key;
SMP_TRACE_DEBUG("%s", __func__);
if (p_cb->rcvd_cmd_len < 11) { // 1(Code) + 2(EDIV) + 8(Rand)
android_errorWriteLog(0x534e4554, "111937027");
SMP_TRACE_ERROR("%s: Invalid command length: %d, should be at least 11",
__func__, p_cb->rcvd_cmd_len);
return;
}
smp_update_key_mask(p_cb, SMP_SEC_KEY_TYPE_ENC, true);
STREAM_TO_UINT16(le_key.penc_key.ediv, p);
STREAM_TO_ARRAY(le_key.penc_key.rand, p, BT_OCTET8_LEN);
/* store the encryption keys from peer device */
le_key.penc_key.ltk = p_cb->ltk;
le_key.penc_key.sec_level = p_cb->sec_level;
le_key.penc_key.key_size = p_cb->loc_enc_size;
if ((p_cb->peer_auth_req & SMP_AUTH_BOND) &&
(p_cb->loc_auth_req & SMP_AUTH_BOND))
btm_sec_save_le_key(p_cb->pairing_bda, BTM_LE_KEY_PENC, &le_key, true);
smp_key_distribution(p_cb, NULL);
}
/** process identity information from peer device */
void smp_proc_id_info(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t* p = p_data->p_data;
SMP_TRACE_DEBUG("%s", __func__);
if (smp_command_has_invalid_parameters(p_cb)) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_INVALID_PARAMETERS;
android_errorWriteLog(0x534e4554, "111937065");
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
STREAM_TO_ARRAY(p_cb->tk.data(), p, OCTET16_LEN); /* reuse TK for IRK */
smp_key_distribution_by_transport(p_cb, NULL);
}
/** process identity address from peer device */
void smp_proc_id_addr(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t* p = p_data->p_data;
tBTM_LE_KEY_VALUE pid_key;
SMP_TRACE_DEBUG("%s", __func__);
if (smp_command_has_invalid_parameters(p_cb)) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_INVALID_PARAMETERS;
android_errorWriteLog(0x534e4554, "111214770");
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
smp_update_key_mask(p_cb, SMP_SEC_KEY_TYPE_ID, true);
STREAM_TO_UINT8(pid_key.pid_key.identity_addr_type, p);
STREAM_TO_BDADDR(pid_key.pid_key.identity_addr, p);
pid_key.pid_key.irk = p_cb->tk;
/* to use as BD_ADDR for lk derived from ltk */
p_cb->id_addr_rcvd = true;
p_cb->id_addr_type = pid_key.pid_key.identity_addr_type;
p_cb->id_addr = pid_key.pid_key.identity_addr;
/* store the ID key from peer device */
if ((p_cb->peer_auth_req & SMP_AUTH_BOND) &&
(p_cb->loc_auth_req & SMP_AUTH_BOND))
btm_sec_save_le_key(p_cb->pairing_bda, BTM_LE_KEY_PID, &pid_key, true);
smp_key_distribution_by_transport(p_cb, NULL);
}
/* process security information from peer device */
void smp_proc_srk_info(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
tBTM_LE_KEY_VALUE le_key;
SMP_TRACE_DEBUG("%s", __func__);
if (smp_command_has_invalid_parameters(p_cb)) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_INVALID_PARAMETERS;
android_errorWriteLog(0x534e4554, "111214470");
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
smp_update_key_mask(p_cb, SMP_SEC_KEY_TYPE_CSRK, true);
/* save CSRK to security record */
le_key.pcsrk_key.sec_level = p_cb->sec_level;
/* get peer CSRK */
maybe_non_aligned_memcpy(le_key.pcsrk_key.csrk.data(), p_data->p_data,
OCTET16_LEN);
/* initialize the peer counter */
le_key.pcsrk_key.counter = 0;
if ((p_cb->peer_auth_req & SMP_AUTH_BOND) &&
(p_cb->loc_auth_req & SMP_AUTH_BOND))
btm_sec_save_le_key(p_cb->pairing_bda, BTM_LE_KEY_PCSRK, &le_key, true);
smp_key_distribution_by_transport(p_cb, NULL);
}
/*******************************************************************************
* Function smp_proc_compare
* Description process compare value
******************************************************************************/
void smp_proc_compare(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
if (!memcmp(p_cb->rconfirm.data(), p_data->key.p_data, OCTET16_LEN)) {
/* compare the max encryption key size, and save the smaller one for the
* link */
if (p_cb->peer_enc_size < p_cb->loc_enc_size)
p_cb->loc_enc_size = p_cb->peer_enc_size;
if (p_cb->role == HCI_ROLE_PERIPHERAL)
smp_sm_event(p_cb, SMP_RAND_EVT, NULL);
else {
/* central device always use received i/r key as keys to distribute */
p_cb->local_i_key = p_cb->peer_i_key;
p_cb->local_r_key = p_cb->peer_r_key;
smp_sm_event(p_cb, SMP_ENC_REQ_EVT, NULL);
}
} else {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_CONFIRM_VALUE_ERR;
p_cb->failure = SMP_CONFIRM_VALUE_ERR;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
}
}
/*******************************************************************************
* Function smp_proc_sl_key
* Description process key ready events.
******************************************************************************/
void smp_proc_sl_key(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t key_type = p_data->key.key_type;
SMP_TRACE_DEBUG("%s", __func__);
if (key_type == SMP_KEY_TYPE_TK) {
smp_generate_srand_mrand_confirm(p_cb, NULL);
} else if (key_type == SMP_KEY_TYPE_CFM) {
smp_set_state(SMP_STATE_WAIT_CONFIRM);
if (p_cb->flags & SMP_PAIR_FLAGS_CMD_CONFIRM)
smp_sm_event(p_cb, SMP_CONFIRM_EVT, NULL);
}
}
/*******************************************************************************
* Function smp_start_enc
* Description start encryption
******************************************************************************/
void smp_start_enc(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
tBTM_STATUS cmd;
SMP_TRACE_DEBUG("%s", __func__);
if (p_data != NULL) {
cmd = btm_ble_start_encrypt(p_cb->pairing_bda, true,
(Octet16*)p_data->key.p_data);
} else {
cmd = btm_ble_start_encrypt(p_cb->pairing_bda, false, NULL);
}
if (cmd != BTM_CMD_STARTED && cmd != BTM_BUSY) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_ENC_FAIL;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
}
}
/*******************************************************************************
* Function smp_proc_discard
* Description processing for discard security request
******************************************************************************/
void smp_proc_discard(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
if (!(p_cb->flags & SMP_PAIR_FLAGS_WE_STARTED_DD))
smp_reset_control_value(p_cb);
}
/*******************************************************************************
* Function smp_enc_cmpl
* Description encryption success
******************************************************************************/
void smp_enc_cmpl(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t enc_enable = p_data->status;
SMP_TRACE_DEBUG("%s", __func__);
tSMP_INT_DATA smp_int_data;
smp_int_data.status = enc_enable ? SMP_SUCCESS : SMP_ENC_FAIL;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
}
/*******************************************************************************
* Function smp_check_auth_req
* Description check authentication request
******************************************************************************/
void smp_check_auth_req(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t enc_enable = p_data->status;
SMP_TRACE_DEBUG(
"%s rcvs enc_enable=%d i_keys=0x%x r_keys=0x%x (i-initiator r-responder)",
__func__, enc_enable, p_cb->local_i_key, p_cb->local_r_key);
if (enc_enable == 1) {
if (p_cb->le_secure_connections_mode_is_used) {
/* In LE SC mode LTK is used instead of STK and has to be always saved */
p_cb->local_i_key |= SMP_SEC_KEY_TYPE_ENC;
p_cb->local_r_key |= SMP_SEC_KEY_TYPE_ENC;
/* In LE SC mode LK is derived from LTK only if both sides request it */
if (!(p_cb->local_i_key & SMP_SEC_KEY_TYPE_LK) ||
!(p_cb->local_r_key & SMP_SEC_KEY_TYPE_LK)) {
p_cb->local_i_key &= ~SMP_SEC_KEY_TYPE_LK;
p_cb->local_r_key &= ~SMP_SEC_KEY_TYPE_LK;
}
/* In LE SC mode only IRK, IAI, CSRK are exchanged with the peer.
** Set local_r_key on central to expect only these keys.
*/
if (p_cb->role == HCI_ROLE_CENTRAL) {
p_cb->local_r_key &= (SMP_SEC_KEY_TYPE_ID | SMP_SEC_KEY_TYPE_CSRK);
}
} else {
/* in legacy mode derivation of BR/EDR LK is not supported */
p_cb->local_i_key &= ~SMP_SEC_KEY_TYPE_LK;
p_cb->local_r_key &= ~SMP_SEC_KEY_TYPE_LK;
}
SMP_TRACE_DEBUG(
"%s rcvs upgrades: i_keys=0x%x r_keys=0x%x (i-initiator r-responder)",
__func__, p_cb->local_i_key, p_cb->local_r_key);
if (/*((p_cb->peer_auth_req & SMP_AUTH_BOND) ||
(p_cb->loc_auth_req & SMP_AUTH_BOND)) &&*/
(p_cb->local_i_key || p_cb->local_r_key)) {
smp_sm_event(p_cb, SMP_BOND_REQ_EVT, NULL);
} else {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = enc_enable ? SMP_SUCCESS : SMP_ENC_FAIL;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
}
} else if (enc_enable == 0) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = enc_enable ? SMP_SUCCESS : SMP_ENC_FAIL;
/* if failed for encryption after pairing, send callback */
if (p_cb->flags & SMP_PAIR_FLAG_ENC_AFTER_PAIR)
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
/* if enc failed for old security information */
/* if central device, clean up and abck to idle; peripheral device do
* nothing */
else if (p_cb->role == HCI_ROLE_CENTRAL) {
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
}
}
}
/*******************************************************************************
* Function smp_key_pick_key
* Description Pick a key distribution function based on the key mask.
******************************************************************************/
void smp_key_pick_key(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t key_to_dist = (p_cb->role == HCI_ROLE_PERIPHERAL) ? p_cb->local_r_key
: p_cb->local_i_key;
uint8_t i = 0;
SMP_TRACE_DEBUG("%s key_to_dist=0x%x", __func__, key_to_dist);
while (i < SMP_KEY_DIST_TYPE_MAX) {
SMP_TRACE_DEBUG("key to send = %02x, i = %d", key_to_dist, i);
if (key_to_dist & (1 << i)) {
SMP_TRACE_DEBUG("smp_distribute_act[%d]", i);
(*smp_distribute_act[i])(p_cb, p_data);
break;
}
i++;
}
}
/*******************************************************************************
* Function smp_key_distribution
* Description start key distribution if required.
******************************************************************************/
void smp_key_distribution(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s role=%d (0-central) r_keys=0x%x i_keys=0x%x", __func__,
p_cb->role, p_cb->local_r_key, p_cb->local_i_key);
if (p_cb->role == HCI_ROLE_PERIPHERAL ||
(!p_cb->local_r_key && p_cb->role == HCI_ROLE_CENTRAL)) {
smp_key_pick_key(p_cb, p_data);
}
if (!p_cb->local_i_key && !p_cb->local_r_key) {
/* state check to prevent re-entrant */
if (smp_get_state() == SMP_STATE_BOND_PENDING) {
if (p_cb->derive_lk) {
tBTM_SEC_DEV_REC* p_dev_rec = btm_find_dev(p_cb->pairing_bda);
if (!(p_dev_rec->sec_flags & BTM_SEC_LE_LINK_KEY_AUTHED) &&
(p_dev_rec->sec_flags & BTM_SEC_LINK_KEY_AUTHED)) {
SMP_TRACE_DEBUG(
"%s BR key is higher security than existing LE keys, don't "
"derive LK from LTK",
__func__);
android_errorWriteLog(0x534e4554, "158854097");
} else {
smp_derive_link_key_from_long_term_key(p_cb, NULL);
}
p_cb->derive_lk = false;
}
if (p_cb->total_tx_unacked == 0) {
/*
* Instead of declaring authorization complete immediately,
* delay the event from being sent by SMP_DELAYED_AUTH_TIMEOUT_MS.
* This allows the peripheral to send over Pairing Failed if the
* last key is rejected. During this waiting window, the
* state should remain in SMP_STATE_BOND_PENDING.
*/
if (!alarm_is_scheduled(p_cb->delayed_auth_timer_ent)) {
SMP_TRACE_DEBUG("%s delaying auth complete.", __func__);
alarm_set_on_mloop(p_cb->delayed_auth_timer_ent,
SMP_DELAYED_AUTH_TIMEOUT_MS,
smp_delayed_auth_complete_timeout, NULL);
}
} else {
p_cb->wait_for_authorization_complete = true;
}
}
}
}
/*******************************************************************************
* Function smp_decide_association_model
* Description This function is called to select assoc model to be used for
* STK generation and to start STK generation process.
*
******************************************************************************/
void smp_decide_association_model(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
tSMP_EVENT int_evt = SMP_NOP_EVT;
tSMP_INT_DATA smp_int_data;
SMP_TRACE_DEBUG("%s Association Model = %d", __func__,
p_cb->selected_association_model);
switch (p_cb->selected_association_model) {
case SMP_MODEL_ENCRYPTION_ONLY: /* TK = 0, go calculate Confirm */
if (p_cb->role == HCI_ROLE_CENTRAL &&
((p_cb->peer_auth_req & SMP_AUTH_YN_BIT) != 0) &&
((p_cb->loc_auth_req & SMP_AUTH_YN_BIT) == 0)) {
SMP_TRACE_ERROR(
"IO capability does not meet authentication requirement");
smp_int_data.status = SMP_PAIR_AUTH_FAIL;
int_evt = SMP_AUTH_CMPL_EVT;
} else {
if (!is_atv_device() &&
(p_cb->local_io_capability == SMP_IO_CAP_IO ||
p_cb->local_io_capability == SMP_IO_CAP_KBDISP)) {
/* display consent dialog if this device has a display */
SMP_TRACE_DEBUG("ENCRYPTION_ONLY showing Consent Dialog");
p_cb->cb_evt = SMP_CONSENT_REQ_EVT;
smp_set_state(SMP_STATE_WAIT_NONCE);
smp_sm_event(p_cb, SMP_SC_DSPL_NC_EVT, NULL);
} else {
p_cb->sec_level = SMP_SEC_UNAUTHENTICATE;
SMP_TRACE_EVENT("p_cb->sec_level =%d (SMP_SEC_UNAUTHENTICATE) ",
p_cb->sec_level);
tSMP_KEY key;
key.key_type = SMP_KEY_TYPE_TK;
key.p_data = p_cb->tk.data();
smp_int_data.key = key;
p_cb->tk = {0};
/* TK, ready */
int_evt = SMP_KEY_READY_EVT;
}
}
break;
case SMP_MODEL_PASSKEY:
p_cb->sec_level = SMP_SEC_AUTHENTICATED;
SMP_TRACE_EVENT("p_cb->sec_level =%d (SMP_SEC_AUTHENTICATED) ",
p_cb->sec_level);
p_cb->cb_evt = SMP_PASSKEY_REQ_EVT;
int_evt = SMP_TK_REQ_EVT;
break;
case SMP_MODEL_OOB:
SMP_TRACE_ERROR("Association Model = SMP_MODEL_OOB");
p_cb->sec_level = SMP_SEC_AUTHENTICATED;
SMP_TRACE_EVENT("p_cb->sec_level =%d (SMP_SEC_AUTHENTICATED) ",
p_cb->sec_level);
p_cb->cb_evt = SMP_OOB_REQ_EVT;
int_evt = SMP_TK_REQ_EVT;
break;
case SMP_MODEL_KEY_NOTIF:
p_cb->sec_level = SMP_SEC_AUTHENTICATED;
SMP_TRACE_DEBUG("Need to generate Passkey");
/* generate passkey and notify application */
smp_generate_passkey(p_cb, NULL);
break;
case SMP_MODEL_SEC_CONN_JUSTWORKS:
case SMP_MODEL_SEC_CONN_NUM_COMP:
case SMP_MODEL_SEC_CONN_PASSKEY_ENT:
case SMP_MODEL_SEC_CONN_PASSKEY_DISP:
case SMP_MODEL_SEC_CONN_OOB:
int_evt = SMP_PUBL_KEY_EXCH_REQ_EVT;
break;
case SMP_MODEL_OUT_OF_RANGE:
SMP_TRACE_ERROR("Association Model = SMP_MODEL_OUT_OF_RANGE (failed)");
smp_int_data.status = SMP_UNKNOWN_IO_CAP;
int_evt = SMP_AUTH_CMPL_EVT;
break;
default:
SMP_TRACE_ERROR(
"Association Model = %d (SOMETHING IS WRONG WITH THE CODE)",
p_cb->selected_association_model);
smp_int_data.status = SMP_UNKNOWN_IO_CAP;
int_evt = SMP_AUTH_CMPL_EVT;
}
SMP_TRACE_EVENT("sec_level=%d ", p_cb->sec_level);
if (int_evt) smp_sm_event(p_cb, int_evt, &smp_int_data);
}
/*******************************************************************************
* Function smp_process_io_response
* Description process IO response for a peripheral device.
******************************************************************************/
void smp_process_io_response(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
if (p_cb->flags & SMP_PAIR_FLAGS_WE_STARTED_DD) {
/* pairing started by local (peripheral) Security Request */
smp_set_state(SMP_STATE_SEC_REQ_PENDING);
smp_send_cmd(SMP_OPCODE_SEC_REQ, p_cb);
} else /* plan to send pairing respond */
{
/* pairing started by peer (central) Pairing Request */
p_cb->selected_association_model = smp_select_association_model(p_cb);
if (p_cb->secure_connections_only_mode_required &&
(!(p_cb->le_secure_connections_mode_is_used) ||
(p_cb->selected_association_model == SMP_MODEL_SEC_CONN_JUSTWORKS))) {
SMP_TRACE_ERROR(
"Peripheral requires secure connection only mode "
"but it can't be provided -> Peripheral fails pairing");
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_PAIR_AUTH_FAIL;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
// If we are doing SMP_MODEL_SEC_CONN_OOB we don't need to request OOB data
// locally if loc_oob_flag == 0x00 b/c there is no OOB data to give. In the
// event the loc_oob_flag is another value, we should request the OOB data
// locally. Which seems to cause it to make a TK REQUEST which is used for
// the legacy flow which requires both sides to have OOB data.
if (p_cb->selected_association_model == SMP_MODEL_SEC_CONN_OOB &&
p_cb->loc_oob_flag != 0x00) {
if (smp_request_oob_data(p_cb)) return;
}
// PTS Testing failure modes
if (pts_test_send_authentication_complete_failure(p_cb)) return;
smp_send_pair_rsp(p_cb, NULL);
}
}
/*******************************************************************************
* Function smp_br_process_peripheral_keys_response
* Description process application keys response for a peripheral device
* (BR/EDR transport).
******************************************************************************/
void smp_br_process_peripheral_keys_response(tSMP_CB* p_cb,
tSMP_INT_DATA* p_data) {
smp_br_send_pair_response(p_cb, NULL);
}
/*******************************************************************************
* Function smp_br_send_pair_response
* Description actions related to sending pairing response over BR/EDR
* transport.
******************************************************************************/
void smp_br_send_pair_response(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
p_cb->local_i_key &= p_cb->peer_i_key;
p_cb->local_r_key &= p_cb->peer_r_key;
smp_send_cmd(SMP_OPCODE_PAIRING_RSP, p_cb);
}
/*******************************************************************************
* Function smp_pairing_cmpl
* Description This function is called to send the pairing complete
* callback and remove the connection if needed.
******************************************************************************/
void smp_pairing_cmpl(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
if (p_cb->total_tx_unacked == 0) {
/* process the pairing complete */
smp_proc_pairing_cmpl(p_cb);
}
}
/*******************************************************************************
* Function smp_pair_terminate
* Description This function is called to send the pairing complete
* callback and remove the connection if needed.
******************************************************************************/
void smp_pair_terminate(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
p_cb->status = SMP_CONN_TOUT;
smp_proc_pairing_cmpl(p_cb);
}
/*******************************************************************************
* Function smp_idle_terminate
* Description This function calledin idle state to determine to send
* authentication complete or not.
******************************************************************************/
void smp_idle_terminate(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
if (p_cb->flags & SMP_PAIR_FLAGS_WE_STARTED_DD) {
SMP_TRACE_DEBUG("Pairing terminated at IDLE state.");
p_cb->status = SMP_FAIL;
smp_proc_pairing_cmpl(p_cb);
}
}
/*******************************************************************************
* Function smp_both_have_public_keys
* Description The function is called when both local and peer public keys are
* saved.
* Actions:
* - invokes DHKey computation;
* - on peripheral side invokes sending local public key to the
*peer.
* - invokes SC phase 1 process.
******************************************************************************/
void smp_both_have_public_keys(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
/* invokes DHKey computation */
smp_compute_dhkey(p_cb);
/* on peripheral side invokes sending local public key to the peer */
if (p_cb->role == HCI_ROLE_PERIPHERAL) smp_send_pair_public_key(p_cb, NULL);
smp_sm_event(p_cb, SMP_SC_DHKEY_CMPLT_EVT, NULL);
}
/*******************************************************************************
* Function smp_start_secure_connection_phase1
* Description Start Secure Connection phase1 i.e. invokes initialization of
* Secure Connection phase 1 parameters and starts building/sending
* to the peer messages appropriate for the role and association
* model.
******************************************************************************/
void smp_start_secure_connection_phase1(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
if (p_cb->selected_association_model == SMP_MODEL_SEC_CONN_JUSTWORKS) {
p_cb->sec_level = SMP_SEC_UNAUTHENTICATE;
SMP_TRACE_EVENT("p_cb->sec_level =%d (SMP_SEC_UNAUTHENTICATE) ",
p_cb->sec_level);
} else {
p_cb->sec_level = SMP_SEC_AUTHENTICATED;
SMP_TRACE_EVENT("p_cb->sec_level =%d (SMP_SEC_AUTHENTICATED) ",
p_cb->sec_level);
}
switch (p_cb->selected_association_model) {
case SMP_MODEL_SEC_CONN_JUSTWORKS:
case SMP_MODEL_SEC_CONN_NUM_COMP:
p_cb->local_random = {0};
smp_start_nonce_generation(p_cb);
break;
case SMP_MODEL_SEC_CONN_PASSKEY_ENT:
/* user has to provide passkey */
p_cb->cb_evt = SMP_PASSKEY_REQ_EVT;
smp_sm_event(p_cb, SMP_TK_REQ_EVT, NULL);
break;
case SMP_MODEL_SEC_CONN_PASSKEY_DISP:
/* passkey has to be provided to user */
SMP_TRACE_DEBUG("Need to generate SC Passkey");
smp_generate_passkey(p_cb, NULL);
break;
case SMP_MODEL_SEC_CONN_OOB:
/* use the available OOB information */
smp_process_secure_connection_oob_data(p_cb, NULL);
break;
default:
SMP_TRACE_ERROR("Association Model = %d is not used in LE SC",
p_cb->selected_association_model);
break;
}
}
/*******************************************************************************
* Function smp_process_local_nonce
* Description The function processes new local nonce.
*
* Note It is supposed to be called in SC phase1.
******************************************************************************/
void smp_process_local_nonce(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
switch (p_cb->selected_association_model) {
case SMP_MODEL_SEC_CONN_JUSTWORKS:
case SMP_MODEL_SEC_CONN_NUM_COMP:
if (p_cb->role == HCI_ROLE_PERIPHERAL) {
/* peripheral calculates and sends local commitment */
smp_calculate_local_commitment(p_cb);
smp_send_commitment(p_cb, NULL);
/* peripheral has to wait for peer nonce */
smp_set_state(SMP_STATE_WAIT_NONCE);
} else /* i.e. central */
{
if (p_cb->flags & SMP_PAIR_FLAG_HAVE_PEER_COMM) {
/* peripheral commitment is already received, send local nonce, wait
* for remote nonce*/
SMP_TRACE_DEBUG(
"central in assoc mode = %d "
"already rcvd peripheral commitment - race condition",
p_cb->selected_association_model);
p_cb->flags &= ~SMP_PAIR_FLAG_HAVE_PEER_COMM;
smp_send_rand(p_cb, NULL);
smp_set_state(SMP_STATE_WAIT_NONCE);
}
}
break;
case SMP_MODEL_SEC_CONN_PASSKEY_ENT:
case SMP_MODEL_SEC_CONN_PASSKEY_DISP:
smp_calculate_local_commitment(p_cb);
if (p_cb->role == HCI_ROLE_CENTRAL) {
smp_send_commitment(p_cb, NULL);
} else /* peripheral */
{
if (p_cb->flags & SMP_PAIR_FLAG_HAVE_PEER_COMM) {
/* central commitment is already received */
smp_send_commitment(p_cb, NULL);
smp_set_state(SMP_STATE_WAIT_NONCE);
}
}
break;
case SMP_MODEL_SEC_CONN_OOB:
if (p_cb->role == HCI_ROLE_CENTRAL) {
smp_send_rand(p_cb, NULL);
}
smp_set_state(SMP_STATE_WAIT_NONCE);
break;
default:
SMP_TRACE_ERROR("Association Model = %d is not used in LE SC",
p_cb->selected_association_model);
break;
}
}
/*******************************************************************************
* Function smp_process_peer_nonce
* Description The function processes newly received and saved in CB peer
* nonce. The actions depend on the selected association model and
* the role.
*
* Note It is supposed to be called in SC phase1.
******************************************************************************/
void smp_process_peer_nonce(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s start ", __func__);
// PTS Testing failure modes
if (p_cb->cert_failure == SMP_CONFIRM_VALUE_ERR) {
SMP_TRACE_ERROR("%s failure case = %d", __func__, p_cb->cert_failure);
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_CONFIRM_VALUE_ERR;
p_cb->failure = SMP_CONFIRM_VALUE_ERR;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
// PTS Testing failure modes (for LT)
if ((p_cb->cert_failure == SMP_NUMERIC_COMPAR_FAIL) &&
(p_cb->selected_association_model == SMP_MODEL_SEC_CONN_JUSTWORKS) &&
(p_cb->role == HCI_ROLE_PERIPHERAL)) {
SMP_TRACE_ERROR("%s failure case = %d", __func__, p_cb->cert_failure);
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_NUMERIC_COMPAR_FAIL;
p_cb->failure = SMP_NUMERIC_COMPAR_FAIL;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
switch (p_cb->selected_association_model) {
case SMP_MODEL_SEC_CONN_JUSTWORKS:
case SMP_MODEL_SEC_CONN_NUM_COMP:
/* in these models only central receives commitment */
if (p_cb->role == HCI_ROLE_CENTRAL) {
if (!smp_check_commitment(p_cb)) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_CONFIRM_VALUE_ERR;
p_cb->failure = SMP_CONFIRM_VALUE_ERR;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
break;
}
} else {
/* peripheral sends local nonce */
smp_send_rand(p_cb, NULL);
}
if (p_cb->selected_association_model == SMP_MODEL_SEC_CONN_JUSTWORKS) {
if (!is_atv_device() &&
(p_cb->local_io_capability == SMP_IO_CAP_IO ||
p_cb->local_io_capability == SMP_IO_CAP_KBDISP)) {
/* display consent dialog */
SMP_TRACE_DEBUG("JUST WORKS showing Consent Dialog");
p_cb->cb_evt = SMP_CONSENT_REQ_EVT;
smp_set_state(SMP_STATE_WAIT_NONCE);
smp_sm_event(p_cb, SMP_SC_DSPL_NC_EVT, NULL);
} else {
/* go directly to phase 2 */
smp_sm_event(p_cb, SMP_SC_PHASE1_CMPLT_EVT, NULL);
}
} else /* numeric comparison */
{
smp_set_state(SMP_STATE_WAIT_NONCE);
smp_sm_event(p_cb, SMP_SC_CALC_NC_EVT, NULL);
}
break;
case SMP_MODEL_SEC_CONN_PASSKEY_ENT:
case SMP_MODEL_SEC_CONN_PASSKEY_DISP:
if (!smp_check_commitment(p_cb) &&
p_cb->cert_failure != SMP_NUMERIC_COMPAR_FAIL) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_CONFIRM_VALUE_ERR;
p_cb->failure = SMP_CONFIRM_VALUE_ERR;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
break;
}
if (p_cb->role == HCI_ROLE_PERIPHERAL) {
smp_send_rand(p_cb, NULL);
}
if (++p_cb->round < 20) {
smp_set_state(SMP_STATE_SEC_CONN_PHS1_START);
p_cb->flags &= ~SMP_PAIR_FLAG_HAVE_PEER_COMM;
smp_start_nonce_generation(p_cb);
break;
}
smp_sm_event(p_cb, SMP_SC_PHASE1_CMPLT_EVT, NULL);
break;
case SMP_MODEL_SEC_CONN_OOB:
if (p_cb->role == HCI_ROLE_PERIPHERAL) {
smp_send_rand(p_cb, NULL);
}
smp_sm_event(p_cb, SMP_SC_PHASE1_CMPLT_EVT, NULL);
break;
default:
SMP_TRACE_ERROR("Association Model = %d is not used in LE SC",
p_cb->selected_association_model);
break;
}
SMP_TRACE_DEBUG("%s end ", __func__);
}
/*******************************************************************************
* Function smp_match_dhkey_checks
* Description checks if the calculated peer DHKey Check value is the same as
* received from the peer DHKey check value.
******************************************************************************/
void smp_match_dhkey_checks(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
if (memcmp(p_data->key.p_data, p_cb->remote_dhkey_check.data(),
OCTET16_LEN)) {
SMP_TRACE_WARNING("dhkey chcks do no match");
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_DHKEY_CHK_FAIL;
p_cb->failure = SMP_DHKEY_CHK_FAIL;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
SMP_TRACE_EVENT("dhkey chcks match");
/* compare the max encryption key size, and save the smaller one for the link
*/
if (p_cb->peer_enc_size < p_cb->loc_enc_size)
p_cb->loc_enc_size = p_cb->peer_enc_size;
if (p_cb->role == HCI_ROLE_PERIPHERAL) {
smp_sm_event(p_cb, SMP_PAIR_DHKEY_CHCK_EVT, NULL);
} else {
/* central device always use received i/r key as keys to distribute */
p_cb->local_i_key = p_cb->peer_i_key;
p_cb->local_r_key = p_cb->peer_r_key;
smp_sm_event(p_cb, SMP_ENC_REQ_EVT, NULL);
}
}
/*******************************************************************************
* Function smp_move_to_secure_connections_phase2
* Description Signal State Machine to start SC phase 2 initialization (to
* compute local DHKey Check value).
*
* Note SM is supposed to be in the state SMP_STATE_SEC_CONN_PHS2_START.
******************************************************************************/
void smp_move_to_secure_connections_phase2(tSMP_CB* p_cb,
tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
smp_sm_event(p_cb, SMP_SC_PHASE1_CMPLT_EVT, NULL);
}
/*******************************************************************************
* Function smp_phase_2_dhkey_checks_are_present
* Description generates event if dhkey check from the peer is already
* received.
*
* Note It is supposed to be used on peripheral to prevent race
*condition. It is supposed to be called after peripheral dhkey check is
* calculated.
******************************************************************************/
void smp_phase_2_dhkey_checks_are_present(tSMP_CB* p_cb,
tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
if (p_cb->flags & SMP_PAIR_FLAG_HAVE_PEER_DHK_CHK)
smp_sm_event(p_cb, SMP_SC_2_DHCK_CHKS_PRES_EVT, NULL);
}
/*******************************************************************************
* Function smp_wait_for_both_public_keys
* Description generates SMP_BOTH_PUBL_KEYS_RCVD_EVT event when both local and
* central public keys are available.
*
* Note on the peripheral it is used to prevent race condition.
*
******************************************************************************/
void smp_wait_for_both_public_keys(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
if ((p_cb->flags & SMP_PAIR_FLAG_HAVE_PEER_PUBL_KEY) &&
(p_cb->flags & SMP_PAIR_FLAG_HAVE_LOCAL_PUBL_KEY)) {
if ((p_cb->role == HCI_ROLE_PERIPHERAL) &&
((p_cb->req_oob_type == SMP_OOB_LOCAL) ||
(p_cb->req_oob_type == SMP_OOB_BOTH))) {
smp_set_state(SMP_STATE_PUBLIC_KEY_EXCH);
}
smp_sm_event(p_cb, SMP_BOTH_PUBL_KEYS_RCVD_EVT, NULL);
}
}
/*******************************************************************************
* Function smp_start_passkey_verification
* Description Starts SC passkey entry verification.
******************************************************************************/
void smp_start_passkey_verification(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
uint8_t* p = NULL;
SMP_TRACE_DEBUG("%s", __func__);
p = p_cb->local_random.data();
UINT32_TO_STREAM(p, p_data->passkey);
p = p_cb->peer_random.data();
UINT32_TO_STREAM(p, p_data->passkey);
p_cb->round = 0;
smp_start_nonce_generation(p_cb);
}
/*******************************************************************************
* Function smp_process_secure_connection_oob_data
* Description Processes local/peer SC OOB data received from somewhere.
******************************************************************************/
void smp_process_secure_connection_oob_data(tSMP_CB* p_cb,
tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
tSMP_SC_OOB_DATA* p_sc_oob_data = &p_cb->sc_oob_data;
if (p_sc_oob_data->loc_oob_data.present) {
p_cb->local_random = p_sc_oob_data->loc_oob_data.randomizer;
} else {
SMP_TRACE_EVENT("%s: local OOB randomizer is absent", __func__);
p_cb->local_random = {0};
}
if (!p_sc_oob_data->peer_oob_data.present) {
SMP_TRACE_EVENT("%s: peer OOB data is absent", __func__);
p_cb->peer_random = {0};
} else {
p_cb->peer_random = p_sc_oob_data->peer_oob_data.randomizer;
p_cb->remote_commitment = p_sc_oob_data->peer_oob_data.commitment;
/* check commitment */
if (!smp_check_commitment(p_cb)) {
tSMP_INT_DATA smp_int_data;
smp_int_data.status = SMP_CONFIRM_VALUE_ERR;
p_cb->failure = SMP_CONFIRM_VALUE_ERR;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
if (p_cb->peer_oob_flag != SMP_OOB_PRESENT) {
/* the peer doesn't have local randomiser */
SMP_TRACE_EVENT(
"%s: peer didn't receive local OOB data, set local randomizer to 0",
__func__);
p_cb->local_random = {0};
}
}
print128(p_cb->local_random, (const uint8_t*)"local OOB randomizer");
print128(p_cb->peer_random, (const uint8_t*)"peer OOB randomizer");
smp_start_nonce_generation(p_cb);
}
/*******************************************************************************
* Function smp_set_local_oob_keys
* Description Saves calculated private/public keys in
* sc_oob_data.loc_oob_data, starts nonce generation
* (to be saved in sc_oob_data.loc_oob_data.randomizer).
******************************************************************************/
void smp_set_local_oob_keys(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
memcpy(p_cb->sc_oob_data.loc_oob_data.private_key_used, p_cb->private_key,
BT_OCTET32_LEN);
p_cb->sc_oob_data.loc_oob_data.publ_key_used = p_cb->loc_publ_key;
smp_start_nonce_generation(p_cb);
}
/*******************************************************************************
* Function smp_set_local_oob_random_commitment
* Description Saves calculated randomizer and commitment in
* sc_oob_data.loc_oob_data, passes sc_oob_data.loc_oob_data up
* for safekeeping.
******************************************************************************/
void smp_set_local_oob_random_commitment(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
p_cb->sc_oob_data.loc_oob_data.randomizer = p_cb->rand;
p_cb->sc_oob_data.loc_oob_data.commitment =
crypto_toolbox::f4(p_cb->sc_oob_data.loc_oob_data.publ_key_used.x,
p_cb->sc_oob_data.loc_oob_data.publ_key_used.x,
p_cb->sc_oob_data.loc_oob_data.randomizer, 0);
p_cb->sc_oob_data.loc_oob_data.present = true;
/* pass created OOB data up */
p_cb->cb_evt = SMP_SC_LOC_OOB_DATA_UP_EVT;
smp_send_app_cback(p_cb, NULL);
// Store the data for later use when we are paired with
// Event though the doc above says to pass up for safe keeping it never gets
// kept safe. Additionally, when we need the data to make a decision we
// wouldn't have it. This will save the sc_oob_data in the smp_keys.cc such
// that when we receive a request to create new keys we check to see if the
// sc_oob_data exists and utilize the keys that are stored there otherwise the
// connector will fail commitment check and dhkey exchange.
smp_save_local_oob_data(p_cb);
smp_cb_cleanup(p_cb);
}
/*******************************************************************************
*
* Function smp_link_encrypted
*
* Description This function is called when link is encrypted and notified
* to the peripheral device. Proceed to to send LTK, DIV and ER
*to central if bonding the devices.
*
*
* Returns void
*
******************************************************************************/
void smp_link_encrypted(const RawAddress& bda, uint8_t encr_enable) {
tSMP_CB* p_cb = &smp_cb;
SMP_TRACE_DEBUG("%s: encr_enable=%d", __func__, encr_enable);
if (smp_cb.pairing_bda == bda) {
/* encryption completed with STK, remember the key size now, could be
* overwritten when key exchange happens */
if (p_cb->loc_enc_size != 0 && encr_enable) {
/* update the link encryption key size if a SMP pairing just performed */
btm_ble_update_sec_key_size(bda, p_cb->loc_enc_size);
}
tSMP_INT_DATA smp_int_data = {
// TODO This is not a tSMP_STATUS
.status = static_cast<tSMP_STATUS>(encr_enable),
};
smp_sm_event(&smp_cb, SMP_ENCRYPTED_EVT, &smp_int_data);
}
}
void smp_cancel_start_encryption_attempt() {
SMP_TRACE_ERROR("%s: Encryption request cancelled", __func__);
smp_sm_event(&smp_cb, SMP_DISCARD_SEC_REQ_EVT, NULL);
}
/*******************************************************************************
*
* Function smp_proc_ltk_request
*
* Description This function is called when LTK request is received from
* controller.
*
* Returns void
*
******************************************************************************/
bool smp_proc_ltk_request(const RawAddress& bda) {
SMP_TRACE_DEBUG("%s state = %d", __func__, smp_cb.state);
bool match = false;
if (bda == smp_cb.pairing_bda) {
match = true;
} else {
tBTM_SEC_DEV_REC* p_dev_rec = btm_find_dev(bda);
if (p_dev_rec != NULL && p_dev_rec->ble.pseudo_addr == smp_cb.pairing_bda &&
p_dev_rec->ble.pseudo_addr != RawAddress::kEmpty) {
match = true;
}
}
if (match && smp_cb.state == SMP_STATE_ENCRYPTION_PENDING) {
smp_sm_event(&smp_cb, SMP_ENC_REQ_EVT, NULL);
return true;
}
return false;
}
/*******************************************************************************
*
* Function smp_process_secure_connection_long_term_key
*
* Description This function is called to process SC LTK.
* SC LTK is calculated and used instead of STK.
* Here SC LTK is saved in BLE DB.
*
* Returns void
*
******************************************************************************/
void smp_process_secure_connection_long_term_key(void) {
tSMP_CB* p_cb = &smp_cb;
SMP_TRACE_DEBUG("%s", __func__);
smp_save_secure_connections_long_term_key(p_cb);
smp_update_key_mask(p_cb, SMP_SEC_KEY_TYPE_ENC, false);
smp_key_distribution(p_cb, NULL);
}
/*******************************************************************************
*
* Function smp_set_derive_link_key
*
* Description This function is called to set flag that indicates that
* BR/EDR LK has to be derived from LTK after all keys are
* distributed.
*
* Returns void
*
******************************************************************************/
void smp_set_derive_link_key(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
p_cb->derive_lk = true;
smp_update_key_mask(p_cb, SMP_SEC_KEY_TYPE_LK, false);
smp_key_distribution(p_cb, NULL);
}
/*******************************************************************************
*
* Function smp_derive_link_key_from_long_term_key
*
* Description This function is called to derive BR/EDR LK from LTK.
*
* Returns void
*
******************************************************************************/
void smp_derive_link_key_from_long_term_key(tSMP_CB* p_cb,
tSMP_INT_DATA* p_data) {
tSMP_STATUS status = SMP_PAIR_FAIL_UNKNOWN;
SMP_TRACE_DEBUG("%s", __func__);
if (!smp_calculate_link_key_from_long_term_key(p_cb)) {
SMP_TRACE_ERROR("%s failed", __func__);
tSMP_INT_DATA smp_int_data;
smp_int_data.status = status;
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &smp_int_data);
return;
}
}
/*******************************************************************************
*
* Function smp_br_process_link_key
*
* Description This function is called to process BR/EDR LK:
* - to derive SMP LTK from BR/EDR LK;
* - to save SMP LTK.
*
* Returns void
*
******************************************************************************/
void smp_br_process_link_key(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
tSMP_STATUS status = SMP_PAIR_FAIL_UNKNOWN;
SMP_TRACE_DEBUG("%s", __func__);
if (!smp_calculate_long_term_key_from_link_key(p_cb)) {
SMP_TRACE_ERROR("%s: failed", __func__);
tSMP_INT_DATA smp_int_data;
smp_int_data.status = status;
smp_sm_event(p_cb, SMP_BR_AUTH_CMPL_EVT, &smp_int_data);
return;
}
tBTM_SEC_DEV_REC* p_dev_rec = btm_find_dev(p_cb->pairing_bda);
if (p_dev_rec) {
SMP_TRACE_DEBUG("%s: dev_type = %d ", __func__, p_dev_rec->device_type);
p_dev_rec->device_type |= BT_DEVICE_TYPE_BLE;
} else {
SMP_TRACE_ERROR("%s failed to find Security Record", __func__);
}
SMP_TRACE_DEBUG("%s: LTK derivation from LK successfully completed",
__func__);
smp_save_secure_connections_long_term_key(p_cb);
smp_update_key_mask(p_cb, SMP_SEC_KEY_TYPE_ENC, false);
smp_br_select_next_key(p_cb, NULL);
}
/*******************************************************************************
* Function smp_key_distribution_by_transport
* Description depending on the transport used at the moment calls either
* smp_key_distribution(...) or smp_br_key_distribution(...).
******************************************************************************/
void smp_key_distribution_by_transport(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
if (p_cb->smp_over_br) {
smp_br_select_next_key(p_cb, NULL);
} else {
smp_key_distribution(p_cb, NULL);
}
}
/*******************************************************************************
* Function smp_br_pairing_complete
* Description This function is called to send the pairing complete
* callback and remove the connection if needed.
******************************************************************************/
void smp_br_pairing_complete(tSMP_CB* p_cb, tSMP_INT_DATA* p_data) {
SMP_TRACE_DEBUG("%s", __func__);
if (p_cb->total_tx_unacked == 0) {
/* process the pairing complete */
smp_proc_pairing_cmpl(p_cb);
}
}
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