/* * Copyright (c) 2017 Intel Corporation * Copyright (c) 2021 Lingao Meng * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include #include #include #include #include #include "common/bt_str.h" #include "mesh.h" #include "net.h" #include "rpl.h" #include "transport.h" #include "prov.h" #include "beacon.h" #include "foundation.h" #include "access.h" #include "proxy.h" #include "gatt.h" #include "proxy_msg.h" #include "crypto.h" #define LOG_LEVEL CONFIG_BT_MESH_PROXY_LOG_LEVEL #include LOG_MODULE_REGISTER(bt_mesh_gatt); /* Interval to update random value in (10 minutes). * * Defined in the Bluetooth Mesh Specification v1.1, Section 7.2.2.2.4. */ #define PROXY_RANDOM_UPDATE_INTERVAL (10 * 60 * MSEC_PER_SEC) #define ADV_OPT_ADDR(private) (IS_ENABLED(CONFIG_BT_MESH_DEBUG_USE_ID_ADDR) ? \ BT_LE_ADV_OPT_USE_IDENTITY : (private) ? BT_LE_ADV_OPT_USE_NRPA : 0) #define ADV_OPT_PROXY(private) \ (BT_LE_ADV_OPT_CONN | BT_LE_ADV_OPT_SCANNABLE | ADV_OPT_ADDR(private)) static void proxy_send_beacons(struct k_work *work); static int proxy_send(struct bt_conn *conn, const void *data, uint16_t len, bt_gatt_complete_func_t end, void *user_data); static struct bt_mesh_proxy_client { struct bt_mesh_proxy_role *cli; uint16_t filter[CONFIG_BT_MESH_PROXY_FILTER_SIZE]; enum __packed { NONE, ACCEPT, REJECT, } filter_type; struct k_work send_beacons; #if defined(CONFIG_BT_MESH_PRIV_BEACONS) bool privacy; #endif } clients[CONFIG_BT_MAX_CONN] = { [0 ... (CONFIG_BT_MAX_CONN - 1)] = { .send_beacons = Z_WORK_INITIALIZER(proxy_send_beacons), }, }; static bool service_registered; static struct bt_mesh_proxy_client *find_client(struct bt_conn *conn) { return &clients[bt_conn_index(conn)]; } static ssize_t gatt_recv(struct bt_conn *conn, const struct bt_gatt_attr *attr, const void *buf, uint16_t len, uint16_t offset, uint8_t flags) { const uint8_t *data = buf; if (len < 1) { LOG_WRN("Too small Proxy PDU"); return -EINVAL; } if (PDU_TYPE(data) == BT_MESH_PROXY_PROV) { LOG_WRN("Proxy PDU type doesn't match GATT service"); return -EINVAL; } return bt_mesh_proxy_msg_recv(conn, buf, len); } /* Next subnet in queue to be advertised */ static struct bt_mesh_subnet *beacon_sub; static int filter_set(struct bt_mesh_proxy_client *client, struct net_buf_simple *buf) { uint8_t type; if (buf->len < 1) { LOG_WRN("Too short Filter Set message"); return -EINVAL; } type = net_buf_simple_pull_u8(buf); LOG_DBG("type 0x%02x", type); switch (type) { case 0x00: (void)memset(client->filter, 0, sizeof(client->filter)); client->filter_type = ACCEPT; break; case 0x01: (void)memset(client->filter, 0, sizeof(client->filter)); client->filter_type = REJECT; break; default: LOG_WRN("Prohibited Filter Type 0x%02x", type); return -EINVAL; } return 0; } static void filter_add(struct bt_mesh_proxy_client *client, uint16_t addr) { int i; LOG_DBG("addr 0x%04x", addr); if (addr == BT_MESH_ADDR_UNASSIGNED) { return; } for (i = 0; i < ARRAY_SIZE(client->filter); i++) { if (client->filter[i] == addr) { return; } } for (i = 0; i < ARRAY_SIZE(client->filter); i++) { if (client->filter[i] == BT_MESH_ADDR_UNASSIGNED) { client->filter[i] = addr; return; } } } static void filter_remove(struct bt_mesh_proxy_client *client, uint16_t addr) { int i; LOG_DBG("addr 0x%04x", addr); if (addr == BT_MESH_ADDR_UNASSIGNED) { return; } for (i = 0; i < ARRAY_SIZE(client->filter); i++) { if (client->filter[i] == addr) { client->filter[i] = BT_MESH_ADDR_UNASSIGNED; return; } } } static void send_filter_status(struct bt_mesh_proxy_client *client, struct bt_mesh_net_rx *rx, struct net_buf_simple *buf) { struct bt_mesh_net_tx tx = { .sub = rx->sub, .ctx = &rx->ctx, .src = bt_mesh_primary_addr(), }; uint16_t filter_size; int i, err; /* Configuration messages always have dst unassigned */ tx.ctx->addr = BT_MESH_ADDR_UNASSIGNED; net_buf_simple_reset(buf); net_buf_simple_reserve(buf, 10); net_buf_simple_add_u8(buf, CFG_FILTER_STATUS); if (client->filter_type == ACCEPT) { net_buf_simple_add_u8(buf, 0x00); } else { net_buf_simple_add_u8(buf, 0x01); } for (filter_size = 0U, i = 0; i < ARRAY_SIZE(client->filter); i++) { if (client->filter[i] != BT_MESH_ADDR_UNASSIGNED) { filter_size++; } } net_buf_simple_add_be16(buf, filter_size); LOG_DBG("%u bytes: %s", buf->len, bt_hex(buf->data, buf->len)); err = bt_mesh_net_encode(&tx, buf, BT_MESH_NONCE_PROXY); if (err) { LOG_ERR("Encoding Proxy cfg message failed (err %d)", err); return; } err = bt_mesh_proxy_msg_send(client->cli->conn, BT_MESH_PROXY_CONFIG, buf, NULL, NULL); if (err) { LOG_ERR("Failed to send proxy cfg message (err %d)", err); } } static void proxy_filter_recv(struct bt_conn *conn, struct bt_mesh_net_rx *rx, struct net_buf_simple *buf) { struct bt_mesh_proxy_client *client; uint8_t opcode; client = find_client(conn); opcode = net_buf_simple_pull_u8(buf); switch (opcode) { case CFG_FILTER_SET: filter_set(client, buf); send_filter_status(client, rx, buf); break; case CFG_FILTER_ADD: while (buf->len >= 2) { uint16_t addr; addr = net_buf_simple_pull_be16(buf); filter_add(client, addr); } send_filter_status(client, rx, buf); break; case CFG_FILTER_REMOVE: while (buf->len >= 2) { uint16_t addr; addr = net_buf_simple_pull_be16(buf); filter_remove(client, addr); } send_filter_status(client, rx, buf); break; default: LOG_WRN("Unhandled configuration OpCode 0x%02x", opcode); break; } } static void proxy_cfg(struct bt_mesh_proxy_role *role) { NET_BUF_SIMPLE_DEFINE(buf, BT_MESH_NET_MAX_PDU_LEN); struct bt_mesh_net_rx rx; int err; err = bt_mesh_net_decode(&role->buf, BT_MESH_NET_IF_PROXY_CFG, &rx, &buf); if (err) { LOG_ERR("Failed to decode Proxy Configuration (err %d)", err); return; } rx.local_match = 1U; if (bt_mesh_rpl_check(&rx, NULL, false)) { LOG_WRN("Replay: src 0x%04x dst 0x%04x seq 0x%06x", rx.ctx.addr, rx.ctx.recv_dst, rx.seq); return; } /* Remove network headers */ net_buf_simple_pull(&buf, BT_MESH_NET_HDR_LEN); LOG_DBG("%u bytes: %s", buf.len, bt_hex(buf.data, buf.len)); if (buf.len < 1) { LOG_WRN("Too short proxy configuration PDU"); return; } proxy_filter_recv(role->conn, &rx, &buf); } static void proxy_msg_recv(struct bt_mesh_proxy_role *role) { switch (role->msg_type) { case BT_MESH_PROXY_NET_PDU: LOG_DBG("Mesh Network PDU"); bt_mesh_net_recv(&role->buf, 0, BT_MESH_NET_IF_PROXY); break; case BT_MESH_PROXY_BEACON: LOG_DBG("Mesh Beacon PDU"); bt_mesh_beacon_recv(&role->buf); break; case BT_MESH_PROXY_CONFIG: LOG_DBG("Mesh Configuration PDU"); proxy_cfg(role); break; default: LOG_WRN("Unhandled Message Type 0x%02x", role->msg_type); break; } } static int beacon_send(struct bt_mesh_proxy_client *client, struct bt_mesh_subnet *sub) { int err; NET_BUF_SIMPLE_DEFINE(buf, 28); net_buf_simple_reserve(&buf, 1); #if defined(CONFIG_BT_MESH_PRIV_BEACONS) err = bt_mesh_beacon_create(sub, &buf, client->privacy); #else err = bt_mesh_beacon_create(sub, &buf, false); #endif if (err) { return err; } return bt_mesh_proxy_msg_send(client->cli->conn, BT_MESH_PROXY_BEACON, &buf, NULL, NULL); } static bool send_beacon_cb(struct bt_mesh_subnet *sub, void *cb_data) { struct bt_mesh_proxy_client *client = cb_data; return beacon_send(client, sub) != 0; } static void proxy_send_beacons(struct k_work *work) { struct bt_mesh_proxy_client *client; client = CONTAINER_OF(work, struct bt_mesh_proxy_client, send_beacons); (void)bt_mesh_subnet_find(send_beacon_cb, client); } void bt_mesh_proxy_beacon_send(struct bt_mesh_subnet *sub) { int i; if (!sub) { /* NULL means we send on all subnets */ bt_mesh_subnet_foreach(bt_mesh_proxy_beacon_send); return; } for (i = 0; i < ARRAY_SIZE(clients); i++) { if (clients[i].cli) { beacon_send(&clients[i], sub); } } } static void identity_enabled(struct bt_mesh_subnet *sub) { sub->node_id = BT_MESH_NODE_IDENTITY_RUNNING; sub->node_id_start = k_uptime_get_32(); STRUCT_SECTION_FOREACH(bt_mesh_proxy_cb, cb) { if (cb->identity_enabled) { cb->identity_enabled(sub->net_idx); } } } static void node_id_start(struct bt_mesh_subnet *sub) { #if defined(CONFIG_BT_MESH_PRIV_BEACONS) sub->priv_beacon_ctx.node_id = false; #endif identity_enabled(sub); } static void private_node_id_start(struct bt_mesh_subnet *sub) { #if defined(CONFIG_BT_MESH_PRIV_BEACONS) sub->priv_beacon_ctx.node_id = true; #endif identity_enabled(sub); } void bt_mesh_proxy_identity_start(struct bt_mesh_subnet *sub, bool private) { if (private) { private_node_id_start(sub); } else { node_id_start(sub); } /* Prioritize the recently enabled subnet */ beacon_sub = sub; } void bt_mesh_proxy_identity_stop(struct bt_mesh_subnet *sub) { sub->node_id = BT_MESH_NODE_IDENTITY_STOPPED; sub->node_id_start = 0U; STRUCT_SECTION_FOREACH(bt_mesh_proxy_cb, cb) { if (cb->identity_disabled) { cb->identity_disabled(sub->net_idx); } } } int bt_mesh_proxy_identity_enable(void) { LOG_DBG(""); if (!bt_mesh_is_provisioned()) { return -EAGAIN; } if (bt_mesh_subnet_foreach(node_id_start)) { bt_mesh_adv_gatt_update(); } return 0; } int bt_mesh_proxy_private_identity_enable(void) { LOG_DBG(""); if (!IS_ENABLED(CONFIG_BT_MESH_PRIV_BEACONS)) { return -ENOTSUP; } if (!bt_mesh_is_provisioned()) { return -EAGAIN; } if (bt_mesh_subnet_foreach(private_node_id_start)) { bt_mesh_adv_gatt_update(); } return 0; } #define ENC_ID_LEN 19 #define NET_ID_LEN 11 #define NODE_ID_TIMEOUT (CONFIG_BT_MESH_NODE_ID_TIMEOUT * MSEC_PER_SEC) static uint8_t proxy_svc_data[ENC_ID_LEN] = { BT_UUID_16_ENCODE(BT_UUID_MESH_PROXY_VAL), }; static const struct bt_data enc_id_ad[] = { BT_DATA_BYTES(BT_DATA_FLAGS, (BT_LE_AD_GENERAL | BT_LE_AD_NO_BREDR)), BT_DATA_BYTES(BT_DATA_UUID16_ALL, BT_UUID_16_ENCODE(BT_UUID_MESH_PROXY_VAL)), BT_DATA(BT_DATA_SVC_DATA16, proxy_svc_data, ENC_ID_LEN), }; static const struct bt_data net_id_ad[] = { BT_DATA_BYTES(BT_DATA_FLAGS, (BT_LE_AD_GENERAL | BT_LE_AD_NO_BREDR)), BT_DATA_BYTES(BT_DATA_UUID16_ALL, BT_UUID_16_ENCODE(BT_UUID_MESH_PROXY_VAL)), BT_DATA(BT_DATA_SVC_DATA16, proxy_svc_data, NET_ID_LEN), }; static int randomize_bt_addr(void) { /* TODO: There appears to be no way to force an RPA/NRPA refresh. */ return 0; } static int enc_id_adv(struct bt_mesh_subnet *sub, uint8_t type, uint8_t hash[16], int32_t duration) { struct bt_le_adv_param slow_adv_param = { .id = BT_ID_DEFAULT, .options = ADV_OPT_PROXY(type == BT_MESH_ID_TYPE_PRIV_NET || type == BT_MESH_ID_TYPE_PRIV_NODE), ADV_SLOW_INT, }; struct bt_le_adv_param fast_adv_param = { .id = BT_ID_DEFAULT, .options = ADV_OPT_PROXY(type == BT_MESH_ID_TYPE_PRIV_NET || type == BT_MESH_ID_TYPE_PRIV_NODE), ADV_FAST_INT, }; struct bt_data sd[1]; int err; err = bt_mesh_encrypt(&sub->keys[SUBNET_KEY_TX_IDX(sub)].identity, hash, hash); if (err) { return err; } /* MshPRTv1.1: 7.2.2.2.4: The AdvA field shall be regenerated whenever the Random field is * regenerated. */ err = randomize_bt_addr(); if (err) { LOG_ERR("AdvA refresh failed: %d", err); return err; } proxy_svc_data[2] = type; memcpy(&proxy_svc_data[3], &hash[8], 8); if (IS_ENABLED(CONFIG_BT_MESH_PROXY_USE_DEVICE_NAME)) { sd[0].type = BT_DATA_NAME_COMPLETE; sd[0].data_len = BT_DEVICE_NAME_LEN; sd[0].data = BT_DEVICE_NAME; } err = bt_mesh_adv_gatt_start( type == BT_MESH_ID_TYPE_PRIV_NET ? &slow_adv_param : &fast_adv_param, duration, enc_id_ad, ARRAY_SIZE(enc_id_ad), IS_ENABLED(CONFIG_BT_MESH_PROXY_USE_DEVICE_NAME) ? sd : NULL, IS_ENABLED(CONFIG_BT_MESH_PROXY_USE_DEVICE_NAME) ? ARRAY_SIZE(sd) : 0); if (err) { LOG_WRN("Failed to advertise using type 0x%02x (err %d)", type, err); return err; } return 0; } static int node_id_adv(struct bt_mesh_subnet *sub, int32_t duration) { uint8_t *random = &proxy_svc_data[11]; uint8_t tmp[16]; int err; LOG_DBG("0x%03x", sub->net_idx); err = bt_rand(random, 8); if (err) { return err; } memset(&tmp[0], 0x00, 6); memcpy(&tmp[6], random, 8); sys_put_be16(bt_mesh_primary_addr(), &tmp[14]); return enc_id_adv(sub, BT_MESH_ID_TYPE_NODE, tmp, duration); } static int priv_node_id_adv(struct bt_mesh_subnet *sub, int32_t duration) { uint8_t *random = &proxy_svc_data[11]; uint8_t tmp[16]; int err; LOG_DBG("0x%03x", sub->net_idx); err = bt_rand(random, 8); if (err) { return err; } memset(&tmp[0], 0x00, 5); tmp[5] = 0x03; memcpy(&tmp[6], random, 8); sys_put_be16(bt_mesh_primary_addr(), &tmp[14]); return enc_id_adv(sub, BT_MESH_ID_TYPE_PRIV_NODE, tmp, duration); } static int priv_net_id_adv(struct bt_mesh_subnet *sub, int32_t duration) { uint8_t *random = &proxy_svc_data[11]; uint8_t tmp[16]; int err; LOG_DBG("0x%03x", sub->net_idx); err = bt_rand(random, 8); if (err) { return err; } memcpy(&tmp[0], sub->keys[SUBNET_KEY_TX_IDX(sub)].net_id, 8); memcpy(&tmp[8], random, 8); return enc_id_adv(sub, BT_MESH_ID_TYPE_PRIV_NET, tmp, duration); } static int net_id_adv(struct bt_mesh_subnet *sub, int32_t duration) { struct bt_le_adv_param slow_adv_param = { .id = BT_ID_DEFAULT, .options = ADV_OPT_PROXY(false), ADV_SLOW_INT, }; struct bt_data sd[1]; int err; proxy_svc_data[2] = BT_MESH_ID_TYPE_NET; LOG_DBG("Advertising with NetId %s", bt_hex(sub->keys[SUBNET_KEY_TX_IDX(sub)].net_id, 8)); memcpy(proxy_svc_data + 3, sub->keys[SUBNET_KEY_TX_IDX(sub)].net_id, 8); if (IS_ENABLED(CONFIG_BT_MESH_PROXY_USE_DEVICE_NAME)) { sd[0].type = BT_DATA_NAME_COMPLETE; sd[0].data_len = BT_DEVICE_NAME_LEN; sd[0].data = BT_DEVICE_NAME; } err = bt_mesh_adv_gatt_start(&slow_adv_param, duration, net_id_ad, ARRAY_SIZE(net_id_ad), IS_ENABLED(CONFIG_BT_MESH_PROXY_USE_DEVICE_NAME) ? sd : NULL, IS_ENABLED(CONFIG_BT_MESH_PROXY_USE_DEVICE_NAME) ? ARRAY_SIZE(sd) : 0); if (err) { LOG_WRN("Failed to advertise using Network ID (err %d)", err); return err; } return 0; } static bool is_sub_proxy_active(struct bt_mesh_subnet *sub) { if (sub->net_idx == BT_MESH_KEY_UNUSED) { return false; } return (sub->node_id == BT_MESH_NODE_IDENTITY_RUNNING || #if defined(CONFIG_BT_MESH_OD_PRIV_PROXY_SRV) (bt_mesh_od_priv_proxy_get() > 0 && sub->solicited) || #endif bt_mesh_gatt_proxy_get() == BT_MESH_GATT_PROXY_ENABLED || bt_mesh_priv_gatt_proxy_get() == BT_MESH_GATT_PROXY_ENABLED); } static bool active_proxy_sub_cnt_cb(struct bt_mesh_subnet *sub, void *cb_data) { int *cnt = cb_data; if (is_sub_proxy_active(sub)) { (*cnt)++; } /* Don't stop until we've visited all subnets. * We're only using the "find" variant of the subnet iteration to get a context parameter. */ return false; } static int active_proxy_sub_cnt_get(void) { int cnt = 0; (void)bt_mesh_subnet_find(active_proxy_sub_cnt_cb, &cnt); return cnt; } static void proxy_adv_timeout_eval(struct bt_mesh_subnet *sub) { int32_t time_passed; if (sub->node_id == BT_MESH_NODE_IDENTITY_RUNNING) { time_passed = k_uptime_get_32() - sub->node_id_start; if (time_passed > (NODE_ID_TIMEOUT - MSEC_PER_SEC)) { bt_mesh_proxy_identity_stop(sub); LOG_DBG("Node ID stopped for subnet %d after %dms", sub->net_idx, time_passed); } } #if defined(CONFIG_BT_MESH_OD_PRIV_PROXY_SRV) if (bt_mesh_od_priv_proxy_get() > 0 && sub->solicited && sub->priv_net_id_sent) { time_passed = k_uptime_get_32() - sub->priv_net_id_sent; if (time_passed > ((MSEC_PER_SEC * bt_mesh_od_priv_proxy_get()) - MSEC_PER_SEC)) { sub->priv_net_id_sent = 0; sub->solicited = false; LOG_DBG("Private Network ID stopped for subnet %d after %dms on " "solicitation", sub->net_idx, time_passed); } } #endif } enum proxy_adv_evt { NET_ID, PRIV_NET_ID, NODE_ID, PRIV_NODE_ID, OD_PRIV_NET_ID, }; struct proxy_adv_request { int32_t duration; enum proxy_adv_evt evt; }; static bool proxy_adv_request_get(struct bt_mesh_subnet *sub, struct proxy_adv_request *request) { if (!sub) { return false; } if (sub->net_idx == BT_MESH_KEY_UNUSED) { return false; } /** The priority for proxy adv is first solicitation, then Node Identity, * and lastly Network ID. Network ID is prioritized last since, in many * cases, another device can fulfill the same demand. Solicitation is * prioritized first since legacy devices are dependent on this to * connect to the network. */ #if defined(CONFIG_BT_MESH_OD_PRIV_PROXY_SRV) if (bt_mesh_od_priv_proxy_get() > 0 && sub->solicited) { int32_t timeout = MSEC_PER_SEC * (int32_t)bt_mesh_od_priv_proxy_get(); request->evt = OD_PRIV_NET_ID; request->duration = !sub->priv_net_id_sent ? timeout : timeout - (k_uptime_get_32() - sub->priv_net_id_sent); return true; } #endif if (sub->node_id == BT_MESH_NODE_IDENTITY_RUNNING) { request->duration = NODE_ID_TIMEOUT - (k_uptime_get_32() - sub->node_id_start); request->evt = #if defined(CONFIG_BT_MESH_PRIV_BEACONS) sub->priv_beacon_ctx.node_id ? PRIV_NODE_ID : #endif NODE_ID; return true; } if (bt_mesh_priv_gatt_proxy_get() == BT_MESH_FEATURE_ENABLED) { request->evt = PRIV_NET_ID; request->duration = PROXY_RANDOM_UPDATE_INTERVAL; return true; } if (bt_mesh_gatt_proxy_get() == BT_MESH_FEATURE_ENABLED) { request->evt = NET_ID; request->duration = SYS_FOREVER_MS; return true; } return false; } static struct bt_mesh_subnet *adv_sub_get_next(struct bt_mesh_subnet *sub_start, struct proxy_adv_request *request) { struct bt_mesh_subnet *sub_temp = bt_mesh_subnet_next(sub_start); do { if (proxy_adv_request_get(sub_temp, request)) { return sub_temp; } sub_temp = bt_mesh_subnet_next(sub_temp); } while (sub_temp != sub_start); return NULL; } static struct { int32_t start; struct bt_mesh_subnet *sub; struct proxy_adv_request request; } sub_adv; static int gatt_proxy_advertise(void) { int err; int32_t max_adv_duration = 0; int cnt; struct bt_mesh_subnet *sub; struct proxy_adv_request request; LOG_DBG(""); /* Close proxy activity that has timed out on all subnets */ bt_mesh_subnet_foreach(proxy_adv_timeout_eval); if (!bt_mesh_proxy_has_avail_conn()) { LOG_DBG("Connectable advertising deferred (max connections)"); return -ENOMEM; } cnt = active_proxy_sub_cnt_get(); if (!cnt) { LOG_DBG("No subnets to advertise proxy on"); return -ENOENT; } else if (cnt > 1) { /** There is more than one subnet that requires proxy adv, * and the adv resources must be shared. */ /* We use NODE_ID_TIMEOUT as a starting point since it may * be less than 60 seconds. Divide this period into at least * 6 slices, but make sure that a slice is more than one * second long (to avoid excessive rotation). */ max_adv_duration = NODE_ID_TIMEOUT / MAX(cnt, 6); max_adv_duration = MAX(max_adv_duration, MSEC_PER_SEC + 20); /* Check if the previous subnet finished its allocated timeslot */ if ((sub_adv.request.duration != SYS_FOREVER_MS) && proxy_adv_request_get(sub_adv.sub, &request) && (sub_adv.request.evt == request.evt)) { int32_t time_passed = k_uptime_get_32() - sub_adv.start; if (time_passed < sub_adv.request.duration && ((sub_adv.request.duration - time_passed) >= MSEC_PER_SEC)) { sub = sub_adv.sub; request.duration = sub_adv.request.duration - time_passed; goto end; } } } sub = adv_sub_get_next(sub_adv.sub, &request); if (!sub) { LOG_ERR("Could not find subnet to advertise"); return -ENOENT; } end: if (cnt > 1) { request.duration = (request.duration == SYS_FOREVER_MS) ? max_adv_duration : MIN(request.duration, max_adv_duration); } /* Save current state for next iteration */ sub_adv.start = k_uptime_get_32(); sub_adv.sub = sub; sub_adv.request = request; switch (request.evt) { case NET_ID: err = net_id_adv(sub, request.duration); break; #if defined(CONFIG_BT_MESH_OD_PRIV_PROXY_SRV) case OD_PRIV_NET_ID: if (!sub->priv_net_id_sent) { sub->priv_net_id_sent = k_uptime_get(); } /* Fall through */ #endif case PRIV_NET_ID: err = priv_net_id_adv(sub, request.duration); break; case NODE_ID: err = node_id_adv(sub, request.duration); break; case PRIV_NODE_ID: err = priv_node_id_adv(sub, request.duration); break; default: LOG_ERR("Unexpected proxy adv evt: %d", request.evt); return -ENODEV; } if (err) { LOG_ERR("Advertising proxy failed (err: %d)", err); return err; } LOG_DBG("Advertising %d ms for net_idx 0x%04x", request.duration, sub->net_idx); return err; } static void subnet_evt(struct bt_mesh_subnet *sub, enum bt_mesh_key_evt evt) { if (evt == BT_MESH_KEY_DELETED) { if (sub == beacon_sub) { beacon_sub = NULL; } bt_mesh_proxy_identity_stop(sub); } else { bt_mesh_proxy_beacon_send(sub); } bt_mesh_adv_gatt_update(); } BT_MESH_SUBNET_CB_DEFINE(gatt_services) = { .evt_handler = subnet_evt, }; static void proxy_ccc_changed(const struct bt_gatt_attr *attr, uint16_t value) { LOG_DBG("value 0x%04x", value); } static ssize_t proxy_ccc_write(struct bt_conn *conn, const struct bt_gatt_attr *attr, uint16_t value) { struct bt_mesh_proxy_client *client; LOG_DBG("value: 0x%04x", value); if (value != BT_GATT_CCC_NOTIFY) { LOG_WRN("Client wrote 0x%04x instead enabling notify", value); return BT_GATT_ERR(BT_ATT_ERR_VALUE_NOT_ALLOWED); } client = find_client(conn); if (client->filter_type == NONE) { client->filter_type = ACCEPT; bt_mesh_wq_submit(&client->send_beacons); } return sizeof(value); } /* Mesh Proxy Service Declaration */ static struct bt_gatt_ccc_managed_user_data proxy_ccc = BT_GATT_CCC_MANAGED_USER_DATA_INIT(proxy_ccc_changed, proxy_ccc_write, NULL); static struct bt_gatt_attr proxy_attrs[] = { BT_GATT_PRIMARY_SERVICE(BT_UUID_MESH_PROXY), BT_GATT_CHARACTERISTIC(BT_UUID_MESH_PROXY_DATA_IN, BT_GATT_CHRC_WRITE_WITHOUT_RESP, BT_GATT_PERM_WRITE, NULL, gatt_recv, NULL), BT_GATT_CHARACTERISTIC(BT_UUID_MESH_PROXY_DATA_OUT, BT_GATT_CHRC_NOTIFY, BT_GATT_PERM_NONE, NULL, NULL, NULL), BT_GATT_CCC_MANAGED(&proxy_ccc, BT_GATT_PERM_READ | BT_GATT_PERM_WRITE), }; static struct bt_gatt_service proxy_svc = BT_GATT_SERVICE(proxy_attrs); int bt_mesh_proxy_gatt_enable(void) { int err; LOG_DBG(""); if (!bt_mesh_is_provisioned()) { return -ENOTSUP; } if (service_registered) { return -EBUSY; } err = bt_gatt_service_register(&proxy_svc); if (err) { LOG_ERR("Unable to register Mesh Proxy Service (err %d)", err); return err; } service_registered = true; for (int i = 0; i < ARRAY_SIZE(clients); i++) { if (clients[i].cli) { clients[i].filter_type = ACCEPT; } } bt_mesh_adv_gatt_update(); return 0; } void bt_mesh_proxy_gatt_disconnect(void) { int i; LOG_DBG(""); for (i = 0; i < ARRAY_SIZE(clients); i++) { struct bt_mesh_proxy_client *client = &clients[i]; if (client->cli && (client->filter_type == ACCEPT || client->filter_type == REJECT)) { client->filter_type = NONE; bt_conn_disconnect(client->cli->conn, BT_HCI_ERR_REMOTE_USER_TERM_CONN); } } } int bt_mesh_proxy_gatt_disable(void) { LOG_DBG(""); if (!service_registered) { return -EALREADY; } bt_mesh_proxy_gatt_disconnect(); bt_gatt_service_unregister(&proxy_svc); service_registered = false; return 0; } void bt_mesh_proxy_addr_add(struct net_buf_simple *buf, uint16_t addr) { struct bt_mesh_proxy_client *client; struct bt_mesh_proxy_role *cli = CONTAINER_OF(buf, struct bt_mesh_proxy_role, buf); client = find_client(cli->conn); LOG_DBG("filter_type %u addr 0x%04x", client->filter_type, addr); if (client->filter_type == ACCEPT) { filter_add(client, addr); } else if (client->filter_type == REJECT) { filter_remove(client, addr); } } static bool client_filter_match(struct bt_mesh_proxy_client *client, uint16_t addr) { int i; LOG_DBG("filter_type %u addr 0x%04x", client->filter_type, addr); if (client->filter_type == REJECT) { for (i = 0; i < ARRAY_SIZE(client->filter); i++) { if (client->filter[i] == addr) { return false; } } return true; } if (addr == BT_MESH_ADDR_ALL_NODES) { return true; } if (client->filter_type == ACCEPT) { for (i = 0; i < ARRAY_SIZE(client->filter); i++) { if (client->filter[i] == addr) { return true; } } } return false; } bool bt_mesh_proxy_relay(struct bt_mesh_adv *adv, uint16_t dst) { bool relayed = false; int i; LOG_DBG("%u bytes to dst 0x%04x", adv->b.len, dst); for (i = 0; i < ARRAY_SIZE(clients); i++) { struct bt_mesh_proxy_client *client = &clients[i]; if (!client->cli) { continue; } if (!client_filter_match(client, dst)) { continue; } if (bt_mesh_proxy_relay_send(client->cli->conn, adv)) { continue; } relayed = true; } return relayed; } static void solicitation_reset(struct bt_mesh_subnet *sub) { #if defined(CONFIG_BT_MESH_OD_PRIV_PROXY_SRV) sub->solicited = false; sub->priv_net_id_sent = 0; #endif } static void gatt_connected(struct bt_conn *conn, uint8_t conn_err) { struct bt_mesh_proxy_client *client; struct bt_conn_info info; int err; err = bt_conn_get_info(conn, &info); if (err || info.role != BT_CONN_ROLE_PERIPHERAL || !service_registered || info.id != BT_ID_DEFAULT) { return; } LOG_DBG("conn %p err 0x%02x", (void *)conn, conn_err); client = find_client(conn); client->filter_type = NONE; (void)memset(client->filter, 0, sizeof(client->filter)); client->cli = bt_mesh_proxy_role_setup(conn, proxy_send, proxy_msg_recv); #if defined(CONFIG_BT_MESH_PRIV_BEACONS) /* Binding from MshPRTv1.1: 7.2.2.2.6. */ enum bt_mesh_subnets_node_id_state cur_node_id = bt_mesh_subnets_node_id_state_get(); if (bt_mesh_gatt_proxy_get() == BT_MESH_FEATURE_ENABLED || cur_node_id == BT_MESH_SUBNETS_NODE_ID_STATE_ENABLED) { client->privacy = false; } else { client->privacy = (bt_mesh_priv_gatt_proxy_get() == BT_MESH_FEATURE_ENABLED) || (cur_node_id == BT_MESH_SUBNETS_NODE_ID_STATE_ENABLED_PRIVATE); } LOG_DBG("privacy: %d", client->privacy); #endif /* If connection was formed after Proxy Solicitation we need to stop future * Private Network ID advertisements */ bt_mesh_subnet_foreach(solicitation_reset); /* Try to re-enable advertising in case it's possible */ if (bt_mesh_proxy_has_avail_conn()) { bt_mesh_adv_gatt_update(); } } static void gatt_disconnected(struct bt_conn *conn, uint8_t reason) { struct bt_conn_info info; struct bt_mesh_proxy_client *client; int err; err = bt_conn_get_info(conn, &info); if (err || info.role != BT_CONN_ROLE_PERIPHERAL || info.id != BT_ID_DEFAULT) { return; } if (!service_registered && bt_mesh_is_provisioned()) { (void)bt_mesh_proxy_gatt_enable(); return; } client = find_client(conn); if (client->cli) { bt_mesh_proxy_role_cleanup(client->cli); client->cli = NULL; } } static int proxy_send(struct bt_conn *conn, const void *data, uint16_t len, bt_gatt_complete_func_t end, void *user_data) { LOG_DBG("%u bytes: %s", len, bt_hex(data, len)); struct bt_gatt_notify_params params = { .data = data, .len = len, .attr = &proxy_attrs[3], .user_data = user_data, .func = end, }; return bt_gatt_notify_cb(conn, ¶ms); } int bt_mesh_proxy_adv_start(void) { LOG_DBG(""); if (!service_registered || !bt_mesh_is_provisioned()) { return -ENOTSUP; } return gatt_proxy_advertise(); } BT_CONN_CB_DEFINE(conn_callbacks) = { .connected = gatt_connected, .disconnected = gatt_disconnected, }; uint8_t bt_mesh_proxy_srv_connected_cnt(void) { uint8_t cnt = 0; for (int i = 0; i < ARRAY_SIZE(clients); i++) { if (clients[i].cli) { cnt++; } } return cnt; }