/* Bluetooth Mesh */ /* * Copyright (c) 2017 Intel Corporation * Additional Copyright (c) 2018 Espressif Systems (Shanghai) PTE LTD * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #define BT_DBG_ENABLED IS_ENABLED(CONFIG_BLE_MESH_DEBUG_ACCESS) #include "mesh.h" #include "adv.h" #include "transport.h" #include "access.h" #include "foundation.h" #include "mesh_main.h" #include "mesh_common.h" #include "fast_prov.h" #include "provisioner_main.h" #define BLE_MESH_SDU_MAX_LEN 384 static const struct bt_mesh_comp *dev_comp; static u16_t dev_primary_addr; void bt_mesh_model_foreach(void (*func)(struct bt_mesh_model *mod, struct bt_mesh_elem *elem, bool vnd, bool primary, void *user_data), void *user_data) { int i, j; if (dev_comp == NULL) { BT_ERR("Invalid device composition"); return; } for (i = 0; i < dev_comp->elem_count; i++) { struct bt_mesh_elem *elem = &dev_comp->elem[i]; for (j = 0; j < elem->model_count; j++) { struct bt_mesh_model *model = &elem->models[j]; func(model, elem, false, i == 0, user_data); } for (j = 0; j < elem->vnd_model_count; j++) { struct bt_mesh_model *model = &elem->vnd_models[j]; func(model, elem, true, i == 0, user_data); } } } s32_t bt_mesh_model_pub_period_get(struct bt_mesh_model *mod) { int period = 0; if (!mod->pub) { BT_ERR("Model has no publication support"); return 0; } switch (mod->pub->period >> 6) { case 0x00: /* 1 step is 100 ms */ period = K_MSEC((mod->pub->period & BIT_MASK(6)) * 100U); break; case 0x01: /* 1 step is 1 second */ period = K_SECONDS(mod->pub->period & BIT_MASK(6)); break; case 0x02: /* 1 step is 10 seconds */ period = K_SECONDS((mod->pub->period & BIT_MASK(6)) * 10U); break; case 0x03: /* 1 step is 10 minutes */ period = K_MINUTES((mod->pub->period & BIT_MASK(6)) * 10U); break; default: BT_ERR("Unknown model publication period"); return 0; } if (mod->pub->fast_period) { return period >> mod->pub->period_div; } else { return period; } } static s32_t next_period(struct bt_mesh_model *mod) { struct bt_mesh_model_pub *pub = mod->pub; u32_t elapsed = 0U, period = 0U; if (!pub) { BT_ERR("Model has no publication support"); return -ENOTSUP; } period = bt_mesh_model_pub_period_get(mod); if (!period) { return 0; } elapsed = k_uptime_get_32() - pub->period_start; BT_INFO("Publishing took %ums", elapsed); if (elapsed >= period) { BT_WARN("Publication sending took longer than the period"); /* Return smallest positive number since 0 means disabled */ return K_MSEC(1); } return period - elapsed; } static void publish_sent(int err, void *user_data) { struct bt_mesh_model *mod = user_data; s32_t delay = 0; BT_DBG("err %d", err); if (!mod->pub) { BT_ERR("Model has no publication support"); return; } if (mod->pub->count) { delay = BLE_MESH_PUB_TRANSMIT_INT(mod->pub->retransmit); } else { delay = next_period(mod); } if (delay) { BT_INFO("Publishing next time in %dms", delay); k_delayed_work_submit(&mod->pub->timer, delay); } } static void publish_start(u16_t duration, int err, void *user_data) { struct bt_mesh_model *mod = user_data; struct bt_mesh_model_pub *pub = mod->pub; if (err) { BT_ERR("Failed to publish: err %d", err); return; } /* Initialize the timestamp for the beginning of a new period */ if (pub->count == BLE_MESH_PUB_TRANSMIT_COUNT(pub->retransmit)) { pub->period_start = k_uptime_get_32(); } } static const struct bt_mesh_send_cb pub_sent_cb = { .start = publish_start, .end = publish_sent, }; static int publish_retransmit(struct bt_mesh_model *mod) { struct bt_mesh_model_pub *pub = mod->pub; if (!pub) { BT_ERR("Model has no publication support"); return -ENOTSUP; } struct bt_mesh_app_key *key = NULL; struct net_buf_simple *sdu = NULL; struct bt_mesh_msg_ctx ctx = { .addr = pub->addr, .send_ttl = pub->ttl, .model = mod, .srv_send = (pub->dev_role == NODE ? true : false), }; struct bt_mesh_net_tx tx = { .ctx = &ctx, .src = bt_mesh_model_elem(mod)->addr, .xmit = bt_mesh_net_transmit_get(), .friend_cred = pub->cred, }; int err = 0; key = bt_mesh_tx_appkey_get(pub->dev_role, pub->key); if (!key) { BT_ERR("AppKey 0x%03x not exists", pub->key); return -EADDRNOTAVAIL; } tx.sub = bt_mesh_tx_netkey_get(pub->dev_role, key->net_idx); if (!tx.sub) { BT_ERR("Subnet 0x%04x not exists", key->net_idx); return -EADDRNOTAVAIL; } ctx.net_idx = key->net_idx; ctx.app_idx = key->app_idx; sdu = bt_mesh_alloc_buf(pub->msg->len + BLE_MESH_MIC_SHORT); if (!sdu) { BT_ERR("%s, Out of memory", __func__); return -ENOMEM; } net_buf_simple_add_mem(sdu, pub->msg->data, pub->msg->len); pub->count--; err = bt_mesh_trans_send(&tx, sdu, &pub_sent_cb, mod); bt_mesh_free_buf(sdu); return err; } static void publish_retransmit_end(int err, struct bt_mesh_model_pub *pub) { /* Cancel all retransmits for this publish attempt */ pub->count = 0U; /* Make sure the publish timer gets reset */ publish_sent(err, pub->mod); } static void mod_publish(struct k_work *work) { struct bt_mesh_model_pub *pub = CONTAINER_OF(work, struct bt_mesh_model_pub, timer.work); s32_t period_ms = 0; int err = 0; BT_DBG("%s", __func__); period_ms = bt_mesh_model_pub_period_get(pub->mod); BT_INFO("Publish period %u ms", period_ms); if (pub->count) { err = publish_retransmit(pub->mod); if (err) { BT_ERR("Failed to retransmit (err %d)", err); pub->count = 0U; /* Continue with normal publication */ if (period_ms) { k_delayed_work_submit(&pub->timer, period_ms); } } return; } if (!period_ms) { return; } /* Callback the model publish update event to the application layer. * In the event, users can update the context of the publish message * which will be published in the next period. */ if (pub->update && pub->update(pub->mod)) { /* Cancel this publish attempt. */ BT_ERR("Update failed, skipping publish (err %d)", err); pub->period_start = k_uptime_get_32(); publish_retransmit_end(err, pub); return; } err = bt_mesh_model_publish(pub->mod); if (err) { BT_ERR("Publishing failed (err %d)", err); } } struct bt_mesh_elem *bt_mesh_model_elem(struct bt_mesh_model *mod) { return &dev_comp->elem[mod->elem_idx]; } struct bt_mesh_model *bt_mesh_model_get(bool vnd, u8_t elem_idx, u8_t mod_idx) { struct bt_mesh_elem *elem = NULL; if (!dev_comp) { BT_ERR("dev_comp not initialized"); return NULL; } if (elem_idx >= dev_comp->elem_count) { BT_ERR("Invalid element index %u", elem_idx); return NULL; } elem = &dev_comp->elem[elem_idx]; if (vnd) { if (mod_idx >= elem->vnd_model_count) { BT_ERR("Invalid vendor model index %u", mod_idx); return NULL; } return &elem->vnd_models[mod_idx]; } else { if (mod_idx >= elem->model_count) { BT_ERR("Invalid SIG model index %u", mod_idx); return NULL; } return &elem->models[mod_idx]; } } static void mod_init(struct bt_mesh_model *mod, struct bt_mesh_elem *elem, bool vnd, bool primary, void *user_data) { int *err = user_data; int i; if (!user_data) { BT_ERR("Invalid model init user data"); return; } if (*err) { BT_ERR("Model init failed (err %d)", *err); return; } mod->elem = elem; if (mod->pub) { mod->pub->mod = mod; k_delayed_work_init(&mod->pub->timer, mod_publish); } for (i = 0; i < ARRAY_SIZE(mod->keys); i++) { mod->keys[i] = BLE_MESH_KEY_UNUSED; } mod->flags = 0; mod->elem_idx = elem - dev_comp->elem; if (vnd) { mod->model_idx = mod - elem->vnd_models; } else { mod->model_idx = mod - elem->models; } if (vnd) { return; } if (mod->cb && mod->cb->init) { *err = mod->cb->init(mod); } } static void mod_deinit(struct bt_mesh_model *mod, struct bt_mesh_elem *elem, bool vnd, bool primary, void *user_data) { int *err = user_data; int i; if (!user_data) { BT_ERR("Invalid model deinit user data"); return; } if (*err) { BT_ERR("Model deinit failed (err %d)", *err); return; } mod->elem = NULL; if (mod->pub) { mod->pub->mod = NULL; k_delayed_work_free(&mod->pub->timer); } for (i = 0; i < ARRAY_SIZE(mod->keys); i++) { mod->keys[i] = BLE_MESH_KEY_UNUSED; } mod->flags = 0U; mod->elem_idx = 0U; mod->model_idx = 0U; if (vnd) { return; } if (mod->cb && mod->cb->deinit) { *err = mod->cb->deinit(mod); } } int bt_mesh_comp_register(const struct bt_mesh_comp *comp) { int err = 0; /* There must be at least one element */ if (!comp->elem_count) { return -EINVAL; } dev_comp = comp; bt_mesh_model_foreach(mod_init, &err); return err; } int bt_mesh_comp_deregister(void) { int err = 0; if (dev_comp == NULL) { return -EINVAL; } bt_mesh_model_foreach(mod_deinit, &err); dev_comp = NULL; return err; } void bt_mesh_comp_provision(u16_t addr) { int i; dev_primary_addr = addr; BT_INFO("Primary address 0x%04x, element count %u", addr, dev_comp->elem_count); for (i = 0; i < dev_comp->elem_count; i++) { struct bt_mesh_elem *elem = &dev_comp->elem[i]; elem->addr = addr++; BT_DBG("addr 0x%04x mod_count %u vnd_mod_count %u", elem->addr, elem->model_count, elem->vnd_model_count); } } void bt_mesh_comp_unprovision(void) { BT_DBG("%s", __func__); dev_primary_addr = BLE_MESH_ADDR_UNASSIGNED; } u16_t bt_mesh_primary_addr(void) { return dev_primary_addr; } u16_t *bt_mesh_model_find_group(struct bt_mesh_model *mod, u16_t addr) { int i; for (i = 0; i < ARRAY_SIZE(mod->groups); i++) { if (mod->groups[i] == addr) { return &mod->groups[i]; } } return NULL; } static struct bt_mesh_model *bt_mesh_elem_find_group(struct bt_mesh_elem *elem, u16_t group_addr) { struct bt_mesh_model *model = NULL; u16_t *match = NULL; int i; for (i = 0; i < elem->model_count; i++) { model = &elem->models[i]; match = bt_mesh_model_find_group(model, group_addr); if (match) { return model; } } for (i = 0; i < elem->vnd_model_count; i++) { model = &elem->vnd_models[i]; match = bt_mesh_model_find_group(model, group_addr); if (match) { return model; } } return NULL; } struct bt_mesh_elem *bt_mesh_elem_find(u16_t addr) { u16_t index = 0U; if (BLE_MESH_ADDR_IS_UNICAST(addr)) { index = (addr - dev_comp->elem[0].addr); if (index < dev_comp->elem_count) { return &dev_comp->elem[index]; } else { return NULL; } } for (index = 0; index < dev_comp->elem_count; index++) { struct bt_mesh_elem *elem = &dev_comp->elem[index]; if (bt_mesh_elem_find_group(elem, addr)) { return elem; } } return NULL; } u8_t bt_mesh_elem_count(void) { return dev_comp->elem_count; } static bool model_has_key(struct bt_mesh_model *mod, u16_t key) { int i; for (i = 0; i < ARRAY_SIZE(mod->keys); i++) { if (mod->keys[i] == key) { return true; } } return false; } static bool model_has_dst(struct bt_mesh_model *model, u16_t dst) { if (BLE_MESH_ADDR_IS_UNICAST(dst)) { return (dev_comp->elem[model->elem_idx].addr == dst); } else if (BLE_MESH_ADDR_IS_GROUP(dst) || BLE_MESH_ADDR_IS_VIRTUAL(dst)) { return !!bt_mesh_model_find_group(model, dst); } return (model->elem_idx == 0 && bt_mesh_fixed_group_match(dst)); } static const struct bt_mesh_model_op *find_op(struct bt_mesh_model *models, u8_t model_count, u32_t opcode, struct bt_mesh_model **model) { int i; for (i = 0; i < model_count; i++) { const struct bt_mesh_model_op *op; *model = &models[i]; for (op = (*model)->op; op->func; op++) { if (op->opcode == opcode) { return op; } } } *model = NULL; return NULL; } static int get_opcode(struct net_buf_simple *buf, u32_t *opcode) { switch (buf->data[0] >> 6) { case 0x00: case 0x01: if (buf->data[0] == 0x7f) { BT_ERR("Ignoring RFU OpCode"); return -EINVAL; } *opcode = net_buf_simple_pull_u8(buf); return 0; case 0x02: if (buf->len < 2) { BT_ERR("Too short payload for 2-octet OpCode"); return -EINVAL; } *opcode = net_buf_simple_pull_be16(buf); return 0; case 0x03: if (buf->len < 3) { BT_ERR("Too short payload for 3-octet OpCode"); return -EINVAL; } *opcode = net_buf_simple_pull_u8(buf) << 16; /* Using LE for the CID since the model layer is defined as * little-endian in the mesh spec and using BT_MESH_MODEL_OP_3 * will declare the opcode in this way. */ *opcode |= net_buf_simple_pull_le16(buf); return 0; } return -EINVAL; } bool bt_mesh_fixed_group_match(u16_t addr) { /* Check for fixed group addresses */ switch (addr) { case BLE_MESH_ADDR_ALL_NODES: return true; case BLE_MESH_ADDR_PROXIES: return (bt_mesh_gatt_proxy_get() == BLE_MESH_GATT_PROXY_ENABLED); case BLE_MESH_ADDR_FRIENDS: return (bt_mesh_friend_get() == BLE_MESH_FRIEND_ENABLED); case BLE_MESH_ADDR_RELAYS: return (bt_mesh_relay_get() == BLE_MESH_RELAY_ENABLED); default: return false; } } void bt_mesh_model_recv(struct bt_mesh_net_rx *rx, struct net_buf_simple *buf) { struct bt_mesh_model *models = NULL, *model = NULL; const struct bt_mesh_model_op *op = NULL; u32_t opcode = 0U; u8_t count = 0U; int i; BT_INFO("recv, app_idx 0x%04x src 0x%04x dst 0x%04x", rx->ctx.app_idx, rx->ctx.addr, rx->ctx.recv_dst); BT_INFO("recv, len %u: %s", buf->len, bt_hex(buf->data, buf->len)); if (get_opcode(buf, &opcode) < 0) { BT_WARN("Unable to decode OpCode"); return; } BT_DBG("OpCode 0x%08x", opcode); for (i = 0; i < dev_comp->elem_count; i++) { struct bt_mesh_elem *elem = &dev_comp->elem[i]; struct net_buf_simple_state state = {0}; /* SIG models cannot contain 3-byte (vendor) OpCodes, and * vendor models cannot contain SIG (1- or 2-byte) OpCodes, so * we only need to do the lookup in one of the model lists. */ if (BLE_MESH_MODEL_OP_LEN(opcode) < 3) { models = elem->models; count = elem->model_count; } else { models = elem->vnd_models; count = elem->vnd_model_count; } op = find_op(models, count, opcode, &model); if (!op) { BT_DBG("No OpCode 0x%08x for elem %d", opcode, i); continue; } if (!model_has_key(model, rx->ctx.app_idx)) { continue; } if (!model_has_dst(model, rx->ctx.recv_dst)) { continue; } if (buf->len < op->min_len) { BT_ERR("Too short message for OpCode 0x%08x", opcode); continue; } /* The following three operations are added by Espressif. * 1. Update the "recv_op" with the opcode got from the buf; * 2. Update the model pointer with the found model; * 3. Update the "srv_send" to be true when received a message. * This flag will be used when a server model sends a status * message, and has no impact on the client messages. * Most of these info will be used by the application layer. */ rx->ctx.recv_op = opcode; rx->ctx.model = model; rx->ctx.srv_send = true; /* The callback will likely parse the buffer, so store * the parsing state in case multiple models receive * the message. */ net_buf_simple_save(buf, &state); op->func(model, &rx->ctx, buf); net_buf_simple_restore(buf, &state); } } void bt_mesh_model_msg_init(struct net_buf_simple *msg, u32_t opcode) { net_buf_simple_init(msg, 0); switch (BLE_MESH_MODEL_OP_LEN(opcode)) { case 1: net_buf_simple_add_u8(msg, opcode); break; case 2: net_buf_simple_add_be16(msg, opcode); break; case 3: net_buf_simple_add_u8(msg, ((opcode >> 16) & 0xff)); /* Using LE for the CID since the model layer is defined as * little-endian in the mesh spec and using BT_MESH_MODEL_OP_3 * will declare the opcode in this way. */ net_buf_simple_add_le16(msg, opcode & 0xffff); break; default: BT_WARN("Unknown opcode format"); break; } } static bool ready_to_send(u8_t role, u16_t dst) { if (IS_ENABLED(CONFIG_BLE_MESH_NODE) && bt_mesh_is_provisioned() && role == NODE) { return true; } else if (IS_ENABLED(CONFIG_BLE_MESH_PROVISIONER) && bt_mesh_is_provisioner_en() && role == PROVISIONER) { if (!bt_mesh_provisioner_check_msg_dst(dst)) { BT_ERR("Failed to find DST 0x%04x", dst); return false; } return true; } else if (IS_ENABLED(CONFIG_BLE_MESH_FAST_PROV) && bt_mesh_is_provisioned() && role == FAST_PROV) { return true; } return false; } static int model_send(struct bt_mesh_model *model, struct bt_mesh_net_tx *tx, bool implicit_bind, struct net_buf_simple *msg, const struct bt_mesh_send_cb *cb, void *cb_data) { u8_t role = 0U; role = bt_mesh_get_device_role(model, tx->ctx->srv_send); if (role == ROLE_NVAL) { BT_ERR("Failed to get model role"); return -EINVAL; } BT_INFO("send, app_idx 0x%04x src 0x%04x dst 0x%04x", tx->ctx->app_idx, tx->src, tx->ctx->addr); BT_INFO("send, len %u: %s", msg->len, bt_hex(msg->data, msg->len)); if (!ready_to_send(role, tx->ctx->addr)) { BT_ERR("Not ready to send"); return -EINVAL; } if (net_buf_simple_tailroom(msg) < BLE_MESH_MIC_SHORT) { BT_ERR("Not enough tailroom for TransMIC"); return -EINVAL; } if (msg->len > MIN(BLE_MESH_TX_SDU_MAX, BLE_MESH_SDU_MAX_LEN) - BLE_MESH_MIC_SHORT) { BT_ERR("Too big message (len %d)", msg->len); return -EMSGSIZE; } if (!implicit_bind && !model_has_key(model, tx->ctx->app_idx)) { BT_ERR("Model not bound to AppKey 0x%04x", tx->ctx->app_idx); return -EINVAL; } return bt_mesh_trans_send(tx, msg, cb, cb_data); } int bt_mesh_model_send(struct bt_mesh_model *model, struct bt_mesh_msg_ctx *ctx, struct net_buf_simple *msg, const struct bt_mesh_send_cb *cb, void *cb_data) { struct bt_mesh_subnet *sub = NULL; u8_t role = 0U; role = bt_mesh_get_device_role(model, ctx->srv_send); if (role == ROLE_NVAL) { BT_ERR("Failed to get model role"); return -EINVAL; } sub = bt_mesh_tx_netkey_get(role, ctx->net_idx); if (!sub) { BT_ERR("Invalid NetKeyIndex 0x%04x", ctx->net_idx); return -EINVAL; } ctx->model = model; struct bt_mesh_net_tx tx = { .sub = sub, .ctx = ctx, .src = bt_mesh_model_elem(model)->addr, .xmit = bt_mesh_net_transmit_get(), .friend_cred = 0, }; return model_send(model, &tx, false, msg, cb, cb_data); } int bt_mesh_model_publish(struct bt_mesh_model *model) { struct bt_mesh_model_pub *pub = model->pub; struct bt_mesh_app_key *key = NULL; struct net_buf_simple *sdu = NULL; struct bt_mesh_msg_ctx ctx = { .model = model, }; struct bt_mesh_net_tx tx = { .sub = NULL, .ctx = &ctx, .src = bt_mesh_model_elem(model)->addr, .xmit = bt_mesh_net_transmit_get(), }; int err = 0; BT_DBG("%s", __func__); if (!pub || !pub->msg) { BT_ERR("Model has no publication support"); return -ENOTSUP; } if (pub->addr == BLE_MESH_ADDR_UNASSIGNED) { BT_WARN("Unassigned publish address"); return -EADDRNOTAVAIL; } key = bt_mesh_tx_appkey_get(pub->dev_role, pub->key); if (!key) { BT_ERR("Invalid AppKeyIndex 0x%03x", pub->key); return -EADDRNOTAVAIL; } if (pub->msg->len + BLE_MESH_MIC_SHORT > MIN(BLE_MESH_TX_SDU_MAX, BLE_MESH_SDU_MAX_LEN)) { BT_ERR("Message does not fit maximum SDU size"); return -EMSGSIZE; } if (pub->count) { BT_WARN("Clearing publish retransmit timer"); k_delayed_work_cancel(&pub->timer); } ctx.addr = pub->addr; ctx.send_rel = pub->send_rel; ctx.send_ttl = pub->ttl; ctx.net_idx = key->net_idx; ctx.app_idx = key->app_idx; ctx.srv_send = pub->dev_role == NODE ? true : false; tx.friend_cred = pub->cred; tx.sub = bt_mesh_tx_netkey_get(pub->dev_role, ctx.net_idx); if (!tx.sub) { BT_ERR("Invalid NetKeyIndex 0x%04x", ctx.net_idx); return -EADDRNOTAVAIL; } pub->count = BLE_MESH_PUB_TRANSMIT_COUNT(pub->retransmit); BT_INFO("Publish Retransmit Count %u Interval %ums", pub->count, BLE_MESH_PUB_TRANSMIT_INT(pub->retransmit)); sdu = bt_mesh_alloc_buf(pub->msg->len + BLE_MESH_MIC_SHORT); if (!sdu) { BT_ERR("%s, Out of memory", __func__); return -ENOMEM; } net_buf_simple_add_mem(sdu, pub->msg->data, pub->msg->len); err = model_send(model, &tx, true, sdu, &pub_sent_cb, model); if (err) { publish_retransmit_end(err, pub); } bt_mesh_free_buf(sdu); return err; } struct bt_mesh_model *bt_mesh_model_find_vnd(struct bt_mesh_elem *elem, u16_t company, u16_t id) { int i; for (i = 0; i < elem->vnd_model_count; i++) { if (elem->vnd_models[i].vnd.company == company && elem->vnd_models[i].vnd.id == id) { return &elem->vnd_models[i]; } } return NULL; } struct bt_mesh_model *bt_mesh_model_find(struct bt_mesh_elem *elem, u16_t id) { int i; for (i = 0; i < elem->model_count; i++) { if (elem->models[i].id == id) { return &elem->models[i]; } } return NULL; } const struct bt_mesh_comp *bt_mesh_comp_get(void) { return dev_comp; } /* APIs used by messages encryption in upper transport layer & network layer */ struct bt_mesh_subnet *bt_mesh_tx_netkey_get(u8_t role, u16_t net_idx) { struct bt_mesh_subnet *sub = NULL; if (IS_ENABLED(CONFIG_BLE_MESH_NODE) && bt_mesh_is_provisioned() && role == NODE) { sub = bt_mesh_subnet_get(net_idx); } else if (IS_ENABLED(CONFIG_BLE_MESH_PROVISIONER) && bt_mesh_is_provisioner_en() && role == PROVISIONER) { sub = bt_mesh_provisioner_subnet_get(net_idx); } else if (IS_ENABLED(CONFIG_BLE_MESH_FAST_PROV) && bt_mesh_is_provisioned() && role == FAST_PROV) { sub = bt_mesh_fast_prov_subnet_get(net_idx); } return sub; } const u8_t *bt_mesh_tx_devkey_get(u8_t role, u16_t dst) { const u8_t *key = NULL; if (IS_ENABLED(CONFIG_BLE_MESH_NODE) && bt_mesh_is_provisioned() && role == NODE) { key = bt_mesh.dev_key; } else if (IS_ENABLED(CONFIG_BLE_MESH_PROVISIONER) && bt_mesh_is_provisioner_en() && role == PROVISIONER) { key = bt_mesh_provisioner_dev_key_get(dst); } else if (IS_ENABLED(CONFIG_BLE_MESH_FAST_PROV) && bt_mesh_is_provisioned() && role == FAST_PROV) { key = bt_mesh_fast_prov_dev_key_get(dst); } return key; } struct bt_mesh_app_key *bt_mesh_tx_appkey_get(u8_t role, u16_t app_idx) { struct bt_mesh_app_key *key = NULL; if (IS_ENABLED(CONFIG_BLE_MESH_NODE) && bt_mesh_is_provisioned() && role == NODE) { key = bt_mesh_app_key_find(app_idx); } else if (IS_ENABLED(CONFIG_BLE_MESH_PROVISIONER) && bt_mesh_is_provisioner_en() && role == PROVISIONER) { key = bt_mesh_provisioner_app_key_find(app_idx); } else if (IS_ENABLED(CONFIG_BLE_MESH_FAST_PROV) && bt_mesh_is_provisioned() && role == FAST_PROV) { key = bt_mesh_fast_prov_app_key_find(app_idx); } return key; } /* APIs used by messages decryption in network layer & upper transport layer */ size_t bt_mesh_rx_netkey_size(void) { size_t size = 0U; #if CONFIG_BLE_MESH_NODE && !CONFIG_BLE_MESH_PROVISIONER if (bt_mesh_is_provisioned()) { size = ARRAY_SIZE(bt_mesh.sub); } #endif #if !CONFIG_BLE_MESH_NODE && CONFIG_BLE_MESH_PROVISIONER if (bt_mesh_is_provisioner_en()) { size = ARRAY_SIZE(bt_mesh.p_sub); } #endif #if CONFIG_BLE_MESH_NODE && CONFIG_BLE_MESH_PROVISIONER size = ARRAY_SIZE(bt_mesh.sub); if (bt_mesh_is_provisioner_en()) { size += ARRAY_SIZE(bt_mesh.p_sub); } #endif return size; } struct bt_mesh_subnet *bt_mesh_rx_netkey_get(size_t index) { struct bt_mesh_subnet *sub = NULL; #if CONFIG_BLE_MESH_NODE && !CONFIG_BLE_MESH_PROVISIONER if (bt_mesh_is_provisioned()) { sub = &bt_mesh.sub[index]; } #endif #if !CONFIG_BLE_MESH_NODE && CONFIG_BLE_MESH_PROVISIONER if (bt_mesh_is_provisioner_en()) { sub = bt_mesh.p_sub[index]; } #endif #if CONFIG_BLE_MESH_NODE && CONFIG_BLE_MESH_PROVISIONER if (index < ARRAY_SIZE(bt_mesh.sub)) { sub = &bt_mesh.sub[index]; } else { sub = bt_mesh.p_sub[index - ARRAY_SIZE(bt_mesh.sub)]; } #endif return sub; } size_t bt_mesh_rx_devkey_size(void) { size_t size = 0U; #if CONFIG_BLE_MESH_NODE && !CONFIG_BLE_MESH_PROVISIONER if (bt_mesh_is_provisioned()) { size = 1; } #endif #if !CONFIG_BLE_MESH_NODE && CONFIG_BLE_MESH_PROVISIONER if (bt_mesh_is_provisioner_en()) { size = 1; } #endif #if CONFIG_BLE_MESH_NODE && CONFIG_BLE_MESH_PROVISIONER size = 1; if (bt_mesh_is_provisioner_en()) { size += 1; } #endif return size; } const u8_t *bt_mesh_rx_devkey_get(size_t index, u16_t src) { const u8_t *key = NULL; #if CONFIG_BLE_MESH_NODE && !CONFIG_BLE_MESH_PROVISIONER if (bt_mesh_is_provisioned()) { key = bt_mesh.dev_key; } #endif #if !CONFIG_BLE_MESH_NODE && CONFIG_BLE_MESH_PROVISIONER if (bt_mesh_is_provisioner_en()) { key = bt_mesh_provisioner_dev_key_get(src); } #endif #if CONFIG_BLE_MESH_NODE && CONFIG_BLE_MESH_PROVISIONER if (index < 1) { key = bt_mesh.dev_key; } else { key = bt_mesh_provisioner_dev_key_get(src); } #endif return key; } size_t bt_mesh_rx_appkey_size(void) { size_t size = 0U; #if CONFIG_BLE_MESH_NODE && !CONFIG_BLE_MESH_PROVISIONER if (bt_mesh_is_provisioned()) { size = ARRAY_SIZE(bt_mesh.app_keys); } #endif #if !CONFIG_BLE_MESH_NODE && CONFIG_BLE_MESH_PROVISIONER if (bt_mesh_is_provisioner_en()) { size = ARRAY_SIZE(bt_mesh.p_app_keys); } #endif #if CONFIG_BLE_MESH_NODE && CONFIG_BLE_MESH_PROVISIONER size = ARRAY_SIZE(bt_mesh.app_keys); if (bt_mesh_is_provisioner_en()) { size += ARRAY_SIZE(bt_mesh.p_app_keys); } #endif return size; } struct bt_mesh_app_key *bt_mesh_rx_appkey_get(size_t index) { struct bt_mesh_app_key *key = NULL; #if CONFIG_BLE_MESH_NODE && !CONFIG_BLE_MESH_PROVISIONER if (bt_mesh_is_provisioned()) { key = &bt_mesh.app_keys[index]; } #endif #if !CONFIG_BLE_MESH_NODE && CONFIG_BLE_MESH_PROVISIONER if (bt_mesh_is_provisioner_en()) { key = bt_mesh.p_app_keys[index]; } #endif #if CONFIG_BLE_MESH_NODE && CONFIG_BLE_MESH_PROVISIONER if (index < ARRAY_SIZE(bt_mesh.app_keys)) { key = &bt_mesh.app_keys[index]; } else { key = bt_mesh.p_app_keys[index - ARRAY_SIZE(bt_mesh.app_keys)]; } #endif return key; }