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pigweed / third_party / github / zephyrproject-rtos / zephyr / 04827ba71f560b73b951adb0ae8442e01c67d4b6 / . / subsys / bluetooth / mesh / provisioner.c
blob: c604efd93e650ccb938e64f4b39fb7a9f8f567b3 [file] [log] [blame]
/*
* Copyright (c) 2017 Intel Corporation
* Copyright (c) 2020 Lingao Meng
* Copyright (c) 2021 Manulytica Limited
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <zephyr/kernel.h>
#include <errno.h>
#include <zephyr/sys/atomic.h>
#include <zephyr/sys/util.h>
#include <zephyr/sys/byteorder.h>
#include <zephyr/net/buf.h>
#include <zephyr/bluetooth/bluetooth.h>
#include <zephyr/bluetooth/conn.h>
#include <zephyr/bluetooth/mesh.h>
#include <zephyr/bluetooth/uuid.h>
#include "common/bt_str.h"
#include "crypto.h"
#include "adv.h"
#include "mesh.h"
#include "net.h"
#include "rpl.h"
#include "beacon.h"
#include "access.h"
#include "foundation.h"
#include "proxy.h"
#include "prov.h"
#include "settings.h"
#include "provisioner.h"
/* Timeout for receiving the link open response */
#define LINK_ESTABLISHMENT_TIMEOUT 60
#define LOG_LEVEL CONFIG_BT_MESH_PROVISIONER_LOG_LEVEL
#include <zephyr/logging/log.h>
LOG_MODULE_REGISTER(bt_mesh_provisioner);
static struct {
struct bt_mesh_cdb_node *node;
uint16_t net_idx;
uint8_t elem_count;
uint8_t attention_duration;
uint8_t uuid[16];
uint8_t new_dev_key[16];
} prov_device;
static void send_pub_key(void);
static void prov_dh_key_gen(void);
static int reset_state(void)
{
if (!atomic_test_bit(bt_mesh_prov_link.flags, REPROVISION) &&
prov_device.node != NULL) {
bt_mesh_cdb_node_del(prov_device.node, false);
}
return bt_mesh_prov_reset_state();
}
static void prov_link_close(enum prov_bearer_link_status status)
{
LOG_DBG("%u", status);
bt_mesh_prov_link.expect = PROV_NO_PDU;
bt_mesh_prov_link.bearer->link_close(status);
}
static void prov_fail(uint8_t reason)
{
/* According to Bluetooth Mesh Specification v1.0.1, Section 5.4.4, the
* provisioner just closes the link when something fails, while the
* provisionee sends the fail message, and waits for the provisioner to
* close the link.
*/
prov_link_close(PROV_BEARER_LINK_STATUS_FAIL);
}
static void send_invite(void)
{
PROV_BUF(inv, PDU_LEN_INVITE);
LOG_DBG("");
bt_mesh_prov_buf_init(&inv, PROV_INVITE);
net_buf_simple_add_u8(&inv, prov_device.attention_duration);
memcpy(bt_mesh_prov_link.conf_inputs.invite, &prov_device.attention_duration,
PDU_LEN_INVITE);
if (bt_mesh_prov_send(&inv, NULL)) {
LOG_ERR("Failed to send invite");
return;
}
bt_mesh_prov_link.expect = PROV_CAPABILITIES;
}
static void start_sent(int err, void *cb_data)
{
send_pub_key();
}
static void send_start(void)
{
LOG_DBG("");
PROV_BUF(start, PDU_LEN_START);
bool oob_pub_key = bt_mesh_prov_link.conf_inputs.capabilities[3] == PUB_KEY_OOB;
bt_mesh_prov_buf_init(&start, PROV_START);
net_buf_simple_add_u8(&start, bt_mesh_prov_link.algorithm);
if (atomic_test_bit(bt_mesh_prov_link.flags, REMOTE_PUB_KEY) && oob_pub_key) {
net_buf_simple_add_u8(&start, PUB_KEY_OOB);
atomic_set_bit(bt_mesh_prov_link.flags, OOB_PUB_KEY);
} else {
net_buf_simple_add_u8(&start, PUB_KEY_NO_OOB);
}
net_buf_simple_add_u8(&start, bt_mesh_prov_link.oob_method);
net_buf_simple_add_u8(&start, bt_mesh_prov_link.oob_action);
net_buf_simple_add_u8(&start, bt_mesh_prov_link.oob_size);
memcpy(bt_mesh_prov_link.conf_inputs.start, &start.data[1], PDU_LEN_START);
if (bt_mesh_prov_auth(true, bt_mesh_prov_link.oob_method,
bt_mesh_prov_link.oob_action, bt_mesh_prov_link.oob_size) < 0) {
LOG_ERR("Invalid authentication method: 0x%02x; "
"action: 0x%02x; size: 0x%02x", bt_mesh_prov_link.oob_method,
bt_mesh_prov_link.oob_action, bt_mesh_prov_link.oob_size);
return;
}
if (bt_mesh_prov_send(&start, start_sent)) {
LOG_ERR("Failed to send Provisioning Start");
return;
}
}
static bool prov_check_method(struct bt_mesh_dev_capabilities *caps)
{
if (bt_mesh_prov_link.oob_method == AUTH_METHOD_STATIC) {
if (!caps->oob_type) {
LOG_WRN("Device not support OOB static authentication provisioning");
return false;
}
} else if (bt_mesh_prov_link.oob_method == AUTH_METHOD_INPUT) {
if (bt_mesh_prov_link.oob_size > caps->input_size) {
LOG_WRN("The required input length (0x%02x) "
"exceeds the device capacity (0x%02x)",
bt_mesh_prov_link.oob_size, caps->input_size);
return false;
}
if (!(BIT(bt_mesh_prov_link.oob_action) & caps->input_actions)) {
LOG_WRN("The required input action (0x%04x) "
"not supported by the device (0x%02x)",
(uint16_t)BIT(bt_mesh_prov_link.oob_action), caps->input_actions);
return false;
}
if (bt_mesh_prov_link.oob_action == INPUT_OOB_STRING) {
if (!bt_mesh_prov->output_string) {
LOG_WRN("Not support output string");
return false;
}
} else {
if (!bt_mesh_prov->output_number) {
LOG_WRN("Not support output number");
return false;
}
}
} else if (bt_mesh_prov_link.oob_method == AUTH_METHOD_OUTPUT) {
if (bt_mesh_prov_link.oob_size > caps->output_size) {
LOG_WRN("The required output length (0x%02x) "
"exceeds the device capacity (0x%02x)",
bt_mesh_prov_link.oob_size, caps->output_size);
return false;
}
if (!(BIT(bt_mesh_prov_link.oob_action) & caps->output_actions)) {
LOG_WRN("The required output action (0x%04x) "
"not supported by the device (0x%02x)",
(uint16_t)BIT(bt_mesh_prov_link.oob_action), caps->output_actions);
return false;
}
if (!bt_mesh_prov->input) {
LOG_WRN("Not support input");
return false;
}
}
return true;
}
static void prov_capabilities(const uint8_t *data)
{
struct bt_mesh_dev_capabilities caps;
caps.elem_count = data[0];
LOG_DBG("Elements: %u", caps.elem_count);
caps.algorithms = sys_get_be16(&data[1]);
LOG_DBG("Algorithms: 0x%02x", caps.algorithms);
bool is_aes128 = false;
bool is_sha256 = false;
if ((caps.algorithms & BIT(BT_MESH_PROV_AUTH_CMAC_AES128_AES_CCM)) &&
IS_ENABLED(CONFIG_BT_MESH_ECDH_P256_CMAC_AES128_AES_CCM)) {
is_aes128 = true;
}
if ((caps.algorithms & BIT(BT_MESH_PROV_AUTH_HMAC_SHA256_AES_CCM)) &&
IS_ENABLED(CONFIG_BT_MESH_ECDH_P256_HMAC_SHA256_AES_CCM)) {
is_sha256 = true;
}
if (!(is_sha256 || is_aes128)) {
LOG_ERR("Invalid encryption algorithm");
prov_fail(PROV_ERR_NVAL_FMT);
return;
}
caps.pub_key_type = data[3];
caps.oob_type = data[4];
caps.output_size = data[5];
LOG_DBG("Public Key Type: 0x%02x", caps.pub_key_type);
LOG_DBG("Static OOB Type: 0x%02x", caps.oob_type);
LOG_DBG("Output OOB Size: %u", caps.output_size);
caps.output_actions = (bt_mesh_output_action_t)
(sys_get_be16(&data[6]));
caps.input_size = data[8];
caps.input_actions = (bt_mesh_input_action_t)
(sys_get_be16(&data[9]));
LOG_DBG("Output OOB Action: 0x%04x", caps.output_actions);
LOG_DBG("Input OOB Size: %u", caps.input_size);
LOG_DBG("Input OOB Action: 0x%04x", caps.input_actions);
prov_device.elem_count = caps.elem_count;
if (prov_device.elem_count == 0) {
LOG_ERR("Invalid number of elements");
prov_fail(PROV_ERR_NVAL_FMT);
return;
}
if (IS_ENABLED(CONFIG_BT_MESH_OOB_AUTH_REQUIRED) &&
(caps.oob_type & BT_MESH_OOB_AUTH_REQUIRED)) {
bool oob_availability = caps.output_size > 0 || caps.input_size > 0 ||
(caps.oob_type & BT_MESH_STATIC_OOB_AVAILABLE);
if (!oob_availability && !is_sha256) {
LOG_ERR("Invalid capabilities for OOB authentication");
prov_fail(PROV_ERR_NVAL_FMT);
return;
}
}
bt_mesh_prov_link.algorithm = is_sha256 ? BT_MESH_PROV_AUTH_HMAC_SHA256_AES_CCM :
BT_MESH_PROV_AUTH_CMAC_AES128_AES_CCM;
if (atomic_test_bit(bt_mesh_prov_link.flags, REPROVISION)) {
if (!bt_mesh_prov_link.addr) {
bt_mesh_prov_link.addr = bt_mesh_cdb_free_addr_get(
prov_device.elem_count);
if (!bt_mesh_prov_link.addr) {
LOG_ERR("Failed allocating address for node");
prov_fail(PROV_ERR_ADDR);
return;
}
}
} else {
prov_device.node =
bt_mesh_cdb_node_alloc(prov_device.uuid,
bt_mesh_prov_link.addr,
prov_device.elem_count,
prov_device.net_idx);
if (prov_device.node == NULL) {
LOG_ERR("Failed allocating node 0x%04x", bt_mesh_prov_link.addr);
prov_fail(PROV_ERR_RESOURCES);
return;
}
/* Address might change in the alloc call */
bt_mesh_prov_link.addr = prov_device.node->addr;
}
memcpy(bt_mesh_prov_link.conf_inputs.capabilities, data, PDU_LEN_CAPABILITIES);
if (bt_mesh_prov->capabilities) {
bt_mesh_prov->capabilities(&caps);
}
if (!prov_check_method(&caps)) {
prov_fail(PROV_ERR_UNEXP_ERR);
return;
}
send_start();
}
static void send_confirm(void)
{
PROV_BUF(cfm, PDU_LEN_CONFIRM);
uint8_t auth_size = bt_mesh_prov_auth_size_get();
uint8_t *inputs = (uint8_t *)&bt_mesh_prov_link.conf_inputs;
uint8_t conf_key_input[64];
LOG_DBG("ConfInputs[0] %s", bt_hex(inputs, 32));
LOG_DBG("ConfInputs[32] %s", bt_hex(&inputs[32], 32));
LOG_DBG("ConfInputs[64] %s", bt_hex(&inputs[64], 32));
LOG_DBG("ConfInputs[96] %s", bt_hex(&inputs[96], 32));
LOG_DBG("ConfInputs[128] %s", bt_hex(&inputs[128], 17));
if (bt_mesh_prov_conf_salt(bt_mesh_prov_link.algorithm,
inputs,
bt_mesh_prov_link.conf_salt)) {
LOG_ERR("Unable to generate confirmation salt");
prov_fail(PROV_ERR_UNEXP_ERR);
return;
}
LOG_DBG("ConfirmationSalt: %s", bt_hex(bt_mesh_prov_link.conf_salt, auth_size));
memcpy(conf_key_input, bt_mesh_prov_link.dhkey, 32);
if (bt_mesh_prov_link.algorithm == BT_MESH_PROV_AUTH_HMAC_SHA256_AES_CCM &&
IS_ENABLED(CONFIG_BT_MESH_ECDH_P256_HMAC_SHA256_AES_CCM)) {
memcpy(&conf_key_input[32], bt_mesh_prov_link.auth, 32);
LOG_DBG("AuthValue %s", bt_hex(bt_mesh_prov_link.auth, 32));
}
if (bt_mesh_prov_conf_key(bt_mesh_prov_link.algorithm, conf_key_input,
bt_mesh_prov_link.conf_salt, bt_mesh_prov_link.conf_key)) {
LOG_ERR("Unable to generate confirmation key");
prov_fail(PROV_ERR_UNEXP_ERR);
return;
}
LOG_DBG("ConfirmationKey: %s", bt_hex(bt_mesh_prov_link.conf_key, auth_size));
if (bt_rand(bt_mesh_prov_link.rand, auth_size)) {
LOG_ERR("Unable to generate random number");
prov_fail(PROV_ERR_UNEXP_ERR);
return;
}
LOG_DBG("LocalRandom: %s", bt_hex(bt_mesh_prov_link.rand, auth_size));
bt_mesh_prov_buf_init(&cfm, PROV_CONFIRM);
if (bt_mesh_prov_conf(bt_mesh_prov_link.algorithm, bt_mesh_prov_link.conf_key,
bt_mesh_prov_link.rand, bt_mesh_prov_link.auth,
bt_mesh_prov_link.conf)) {
LOG_ERR("Unable to generate confirmation value");
prov_fail(PROV_ERR_UNEXP_ERR);
return;
}
net_buf_simple_add_mem(&cfm, bt_mesh_prov_link.conf, auth_size);
if (bt_mesh_prov_send(&cfm, NULL)) {
LOG_ERR("Failed to send Provisioning Confirm");
return;
}
bt_mesh_prov_link.expect = PROV_CONFIRM;
}
static void public_key_sent(int err, void *cb_data)
{
atomic_set_bit(bt_mesh_prov_link.flags, PUB_KEY_SENT);
if (atomic_test_bit(bt_mesh_prov_link.flags, OOB_PUB_KEY) &&
atomic_test_bit(bt_mesh_prov_link.flags, REMOTE_PUB_KEY)) {
prov_dh_key_gen();
return;
}
}
static void send_pub_key(void)
{
PROV_BUF(buf, PDU_LEN_PUB_KEY);
const uint8_t *key;
key = bt_mesh_pub_key_get();
if (!key) {
LOG_ERR("No public key available");
prov_fail(PROV_ERR_UNEXP_ERR);
return;
}
bt_mesh_prov_buf_init(&buf, PROV_PUB_KEY);
net_buf_simple_add_mem(&buf, key, PUB_KEY_SIZE);
LOG_DBG("Local Public Key: %s", bt_hex(buf.data + 1, PUB_KEY_SIZE));
/* PublicKeyProvisioner */
memcpy(bt_mesh_prov_link.conf_inputs.pub_key_provisioner, &buf.data[1], PDU_LEN_PUB_KEY);
if (bt_mesh_prov_send(&buf, public_key_sent)) {
LOG_ERR("Failed to send Public Key");
return;
}
bt_mesh_prov_link.expect = PROV_PUB_KEY;
}
static void prov_dh_key_gen(void)
{
const uint8_t *remote_pk;
const uint8_t *local_pk;
local_pk = bt_mesh_prov_link.conf_inputs.pub_key_provisioner;
remote_pk = bt_mesh_prov_link.conf_inputs.pub_key_device;
if (!memcmp(local_pk, remote_pk, PUB_KEY_SIZE)) {
LOG_ERR("Public keys are identical");
prov_fail(PROV_ERR_NVAL_FMT);
return;
}
if (bt_mesh_dhkey_gen(remote_pk, NULL, bt_mesh_prov_link.dhkey)) {
LOG_ERR("Failed to generate DHKey");
prov_fail(PROV_ERR_UNEXP_ERR);
}
LOG_DBG("DHkey: %s", bt_hex(bt_mesh_prov_link.dhkey, DH_KEY_SIZE));
if (atomic_test_bit(bt_mesh_prov_link.flags, NOTIFY_INPUT_COMPLETE)) {
bt_mesh_prov_link.expect = PROV_INPUT_COMPLETE;
}
if (atomic_test_bit(bt_mesh_prov_link.flags, WAIT_STRING) ||
atomic_test_bit(bt_mesh_prov_link.flags, WAIT_NUMBER) ||
atomic_test_bit(bt_mesh_prov_link.flags, NOTIFY_INPUT_COMPLETE)) {
atomic_set_bit(bt_mesh_prov_link.flags, WAIT_CONFIRM);
return;
}
send_confirm();
}
static void prov_pub_key(const uint8_t *data)
{
LOG_DBG("Remote Public Key: %s", bt_hex(data, PUB_KEY_SIZE));
atomic_set_bit(bt_mesh_prov_link.flags, REMOTE_PUB_KEY);
/* PublicKeyDevice */
memcpy(bt_mesh_prov_link.conf_inputs.pub_key_device, data, PUB_KEY_SIZE);
bt_mesh_prov_link.bearer->clear_tx();
prov_dh_key_gen();
}
static void notify_input_complete(void)
{
if (atomic_test_and_clear_bit(bt_mesh_prov_link.flags,
NOTIFY_INPUT_COMPLETE) &&
bt_mesh_prov->input_complete) {
bt_mesh_prov->input_complete();
}
}
static void prov_input_complete(const uint8_t *data)
{
LOG_DBG("");
notify_input_complete();
if (atomic_test_and_clear_bit(bt_mesh_prov_link.flags, WAIT_CONFIRM)) {
send_confirm();
}
}
static void send_prov_data(void)
{
PROV_BUF(pdu, PDU_LEN_DATA);
struct bt_mesh_cdb_subnet *sub;
uint8_t session_key[16];
uint8_t nonce[13];
int err;
err = bt_mesh_session_key(bt_mesh_prov_link.dhkey,
bt_mesh_prov_link.prov_salt, session_key);
if (err) {
LOG_ERR("Unable to generate session key");
prov_fail(PROV_ERR_UNEXP_ERR);
return;
}
LOG_DBG("SessionKey: %s", bt_hex(session_key, 16));
err = bt_mesh_prov_nonce(bt_mesh_prov_link.dhkey,
bt_mesh_prov_link.prov_salt, nonce);
if (err) {
LOG_ERR("Unable to generate session nonce");
prov_fail(PROV_ERR_UNEXP_ERR);
return;
}
LOG_DBG("Nonce: %s", bt_hex(nonce, 13));
err = bt_mesh_dev_key(bt_mesh_prov_link.dhkey,
bt_mesh_prov_link.prov_salt, prov_device.new_dev_key);
if (err) {
LOG_ERR("Unable to generate device key");
prov_fail(PROV_ERR_UNEXP_ERR);
return;
}
LOG_DBG("DevKey: %s", bt_hex(prov_device.new_dev_key, 16));
sub = bt_mesh_cdb_subnet_get(prov_device.node->net_idx);
if (sub == NULL) {
LOG_ERR("No subnet with net_idx %u", prov_device.node->net_idx);
prov_fail(PROV_ERR_UNEXP_ERR);
return;
}
bt_mesh_prov_buf_init(&pdu, PROV_DATA);
net_buf_simple_add_mem(&pdu, sub->keys[SUBNET_KEY_TX_IDX(sub)].net_key, 16);
net_buf_simple_add_be16(&pdu, prov_device.node->net_idx);
net_buf_simple_add_u8(&pdu, bt_mesh_cdb_subnet_flags(sub));
net_buf_simple_add_be32(&pdu, bt_mesh_cdb.iv_index);
net_buf_simple_add_be16(&pdu, bt_mesh_prov_link.addr);
net_buf_simple_add(&pdu, 8); /* For MIC */
LOG_DBG("net_idx %u, iv_index 0x%08x, addr 0x%04x",
prov_device.node->net_idx, bt_mesh.iv_index,
bt_mesh_prov_link.addr);
err = bt_mesh_prov_encrypt(session_key, nonce, &pdu.data[1],
&pdu.data[1]);
if (err) {
LOG_ERR("Unable to encrypt provisioning data");
prov_fail(PROV_ERR_DECRYPT);
return;
}
if (bt_mesh_prov_send(&pdu, NULL)) {
LOG_ERR("Failed to send Provisioning Data");
return;
}
bt_mesh_prov_link.expect = PROV_COMPLETE;
}
static void prov_complete(const uint8_t *data)
{
struct bt_mesh_cdb_node *node = prov_device.node;
LOG_DBG("key %s, net_idx %u, num_elem %u, addr 0x%04x",
bt_hex(prov_device.new_dev_key, 16), node->net_idx, node->num_elem,
node->addr);
bt_mesh_prov_link.expect = PROV_NO_PDU;
atomic_set_bit(bt_mesh_prov_link.flags, COMPLETE);
bt_mesh_prov_link.bearer->link_close(PROV_BEARER_LINK_STATUS_SUCCESS);
}
static void prov_node_add(void)
{
LOG_DBG("");
struct bt_mesh_cdb_node *node = prov_device.node;
if (atomic_test_bit(bt_mesh_prov_link.flags, REPROVISION)) {
bt_mesh_cdb_node_update(node, bt_mesh_prov_link.addr,
prov_device.elem_count);
}
memcpy(node->dev_key, prov_device.new_dev_key, 16);
if (IS_ENABLED(CONFIG_BT_SETTINGS)) {
bt_mesh_cdb_node_store(node);
}
prov_device.node = NULL;
if (bt_mesh_prov->node_added) {
bt_mesh_prov->node_added(node->net_idx, node->uuid, node->addr,
node->num_elem);
}
}
static void send_random(void)
{
PROV_BUF(rnd, PDU_LEN_RANDOM);
uint8_t rand_size = bt_mesh_prov_auth_size_get();
bt_mesh_prov_buf_init(&rnd, PROV_RANDOM);
net_buf_simple_add_mem(&rnd, bt_mesh_prov_link.rand, rand_size);
if (bt_mesh_prov_send(&rnd, NULL)) {
LOG_ERR("Failed to send Provisioning Random");
return;
}
bt_mesh_prov_link.expect = PROV_RANDOM;
}
static void prov_random(const uint8_t *data)
{
uint8_t rand_size = bt_mesh_prov_auth_size_get();
uint8_t conf_verify[PROV_AUTH_MAX_LEN];
LOG_DBG("Remote Random: %s", bt_hex(data, rand_size));
if (!memcmp(data, bt_mesh_prov_link.rand, rand_size)) {
LOG_ERR("Random value is identical to ours, rejecting.");
prov_fail(PROV_ERR_CFM_FAILED);
return;
}
if (bt_mesh_prov_conf(bt_mesh_prov_link.algorithm, bt_mesh_prov_link.conf_key,
data, bt_mesh_prov_link.auth, conf_verify)) {
LOG_ERR("Unable to calculate confirmation verification");
prov_fail(PROV_ERR_UNEXP_ERR);
return;
}
if (memcmp(conf_verify, bt_mesh_prov_link.conf, rand_size)) {
LOG_ERR("Invalid confirmation value");
LOG_DBG("Received: %s", bt_hex(bt_mesh_prov_link.conf, rand_size));
LOG_DBG("Calculated: %s", bt_hex(conf_verify, rand_size));
prov_fail(PROV_ERR_CFM_FAILED);
return;
}
if (bt_mesh_prov_salt(bt_mesh_prov_link.algorithm, bt_mesh_prov_link.conf_salt,
bt_mesh_prov_link.rand, data, bt_mesh_prov_link.prov_salt)) {
LOG_ERR("Failed to generate provisioning salt");
prov_fail(PROV_ERR_UNEXP_ERR);
return;
}
LOG_DBG("ProvisioningSalt: %s", bt_hex(bt_mesh_prov_link.prov_salt, 16));
send_prov_data();
}
static void prov_confirm(const uint8_t *data)
{
uint8_t conf_size = bt_mesh_prov_auth_size_get();
LOG_DBG("Remote Confirm: %s", bt_hex(data, conf_size));
if (!memcmp(data, bt_mesh_prov_link.conf, conf_size)) {
LOG_ERR("Confirm value is identical to ours, rejecting.");
prov_fail(PROV_ERR_CFM_FAILED);
return;
}
memcpy(bt_mesh_prov_link.conf, data, conf_size);
send_random();
}
static void prov_failed(const uint8_t *data)
{
LOG_WRN("Error: 0x%02x", data[0]);
reset_state();
}
static void local_input_complete(void)
{
if (atomic_test_and_clear_bit(bt_mesh_prov_link.flags, WAIT_CONFIRM)) {
send_confirm();
}
}
static void prov_link_closed(enum prov_bearer_link_status status)
{
LOG_DBG("");
if (atomic_test_bit(bt_mesh_prov_link.flags, COMPLETE)) {
prov_node_add();
}
reset_state();
}
static void prov_link_opened(void)
{
send_invite();
}
static const struct bt_mesh_prov_role role_provisioner = {
.input_complete = local_input_complete,
.link_opened = prov_link_opened,
.link_closed = prov_link_closed,
.error = prov_fail,
.op = {
[PROV_CAPABILITIES] = prov_capabilities,
[PROV_PUB_KEY] = prov_pub_key,
[PROV_INPUT_COMPLETE] = prov_input_complete,
[PROV_CONFIRM] = prov_confirm,
[PROV_RANDOM] = prov_random,
[PROV_COMPLETE] = prov_complete,
[PROV_FAILED] = prov_failed,
},
};
static void prov_set_method(uint8_t method, uint8_t action, uint8_t size)
{
bt_mesh_prov_link.oob_method = method;
bt_mesh_prov_link.oob_action = action;
bt_mesh_prov_link.oob_size = size;
}
int bt_mesh_auth_method_set_input(bt_mesh_input_action_t action, uint8_t size)
{
if (!action || !size || size > PROV_IO_OOB_SIZE_MAX) {
return -EINVAL;
}
prov_set_method(AUTH_METHOD_INPUT, find_msb_set(action) - 1, size);
return 0;
}
int bt_mesh_auth_method_set_output(bt_mesh_output_action_t action, uint8_t size)
{
if (!action || !size || size > PROV_IO_OOB_SIZE_MAX) {
return -EINVAL;
}
prov_set_method(AUTH_METHOD_OUTPUT, find_msb_set(action) - 1, size);
return 0;
}
int bt_mesh_auth_method_set_static(const uint8_t *static_val, uint8_t size)
{
uint8_t auth_size = bt_mesh_prov_auth_size_get();
if (!size || !static_val || size > auth_size) {
return -EINVAL;
}
prov_set_method(AUTH_METHOD_STATIC, 0, 0);
memcpy(bt_mesh_prov_link.auth + auth_size - size, static_val, size);
if (size < auth_size) {
(void)memset(bt_mesh_prov_link.auth, 0, auth_size - size);
}
return 0;
}
int bt_mesh_auth_method_set_none(void)
{
prov_set_method(AUTH_METHOD_NO_OOB, 0, 0);
return 0;
}
int bt_mesh_prov_remote_pub_key_set(const uint8_t public_key[PUB_KEY_SIZE])
{
if (public_key == NULL) {
return -EINVAL;
}
if (atomic_test_and_set_bit(bt_mesh_prov_link.flags, REMOTE_PUB_KEY)) {
return -EALREADY;
}
memcpy(bt_mesh_prov_link.conf_inputs.pub_key_device, public_key, PDU_LEN_PUB_KEY);
return 0;
}
static int link_open(const uint8_t *uuid, const struct prov_bearer *bearer,
uint16_t net_idx, uint16_t addr,
uint8_t attention_duration, void *bearer_cb_data, uint8_t timeout)
{
int err;
if (atomic_test_and_set_bit(bt_mesh_prov_link.flags, LINK_ACTIVE)) {
return -EBUSY;
}
if (uuid) {
memcpy(prov_device.uuid, uuid, 16);
struct bt_uuid_128 uuid_repr = { .uuid = { BT_UUID_TYPE_128 } };
memcpy(uuid_repr.val, uuid, 16);
LOG_DBG("Provisioning %s", bt_uuid_str(&uuid_repr.uuid));
} else {
atomic_set_bit(bt_mesh_prov_link.flags, REPROVISION);
LOG_DBG("Reprovisioning");
}
atomic_set_bit(bt_mesh_prov_link.flags, PROVISIONER);
bt_mesh_prov_link.addr = addr;
bt_mesh_prov_link.bearer = bearer;
bt_mesh_prov_link.role = &role_provisioner;
prov_device.net_idx = net_idx;
prov_device.attention_duration = attention_duration;
err = bt_mesh_prov_link.bearer->link_open(
uuid, timeout, bt_mesh_prov_bearer_cb_get(), bearer_cb_data);
if (err) {
atomic_clear_bit(bt_mesh_prov_link.flags, LINK_ACTIVE);
}
return err;
}
#if defined(CONFIG_BT_MESH_PB_ADV)
int bt_mesh_pb_adv_open(const uint8_t uuid[16], uint16_t net_idx, uint16_t addr,
uint8_t attention_duration)
{
return link_open(uuid, &bt_mesh_pb_adv, net_idx, addr, attention_duration, NULL,
LINK_ESTABLISHMENT_TIMEOUT);
}
#endif
#if defined(CONFIG_BT_MESH_PB_GATT_CLIENT)
int bt_mesh_pb_gatt_open(const uint8_t uuid[16], uint16_t net_idx, uint16_t addr,
uint8_t attention_duration)
{
return link_open(uuid, &bt_mesh_pb_gatt, net_idx, addr, attention_duration, NULL,
LINK_ESTABLISHMENT_TIMEOUT);
}
#endif
#if defined(CONFIG_BT_MESH_RPR_CLI)
int bt_mesh_pb_remote_open(struct bt_mesh_rpr_cli *cli,
const struct bt_mesh_rpr_node *srv, const uint8_t uuid[16],
uint16_t net_idx, uint16_t addr)
{
struct pb_remote_ctx ctx = { cli, srv };
return link_open(uuid, &pb_remote_cli, net_idx, addr, 0, &ctx, 0);
}
int bt_mesh_pb_remote_open_node(struct bt_mesh_rpr_cli *cli,
struct bt_mesh_rpr_node *srv, uint16_t addr,
bool composition_change)
{
struct pb_remote_ctx ctx = { cli, srv };
if (srv->addr != addr) {
ctx.refresh = BT_MESH_RPR_NODE_REFRESH_ADDR;
} else if (composition_change) {
ctx.refresh = BT_MESH_RPR_NODE_REFRESH_COMPOSITION;
} else {
ctx.refresh = BT_MESH_RPR_NODE_REFRESH_DEVKEY;
}
prov_device.node = bt_mesh_cdb_node_get(srv->addr);
if (!prov_device.node) {
LOG_ERR("No CDB node for 0x%04x", srv->addr);
return -ENOENT;
}
return link_open(NULL, &pb_remote_cli, prov_device.node->net_idx, addr,
0, &ctx, 0);
}
#endif