/* * Copyright (c) 2018 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ #include "syscfg/syscfg.h" #if MYNEWT_VAL(BLE_MESH_SETTINGS) #define BT_DBG_ENABLED MYNEWT_VAL(BLE_MESH_DEBUG_SETTINGS) #include "mesh/mesh.h" #include "mesh/glue.h" #include "net.h" #include "crypto.h" #include "transport.h" #include "access.h" #include "foundation.h" #include "proxy.h" #include "settings.h" #include "config/config.h" /* Tracking of what storage changes are pending for App and Net Keys. We * track this in a separate array here instead of within the respective * bt_mesh_app_key and bt_mesh_subnet structs themselves, since once a key * gets deleted its struct becomes invalid and may be reused for other keys. */ static struct key_update { u16_t key_idx:12, /* AppKey or NetKey Index */ valid:1, /* 1 if this entry is valid, 0 if not */ app_key:1, /* 1 if this is an AppKey, 0 if a NetKey */ clear:1; /* 1 if key needs clearing, 0 if storing */ } key_updates[CONFIG_BT_MESH_APP_KEY_COUNT + CONFIG_BT_MESH_SUBNET_COUNT]; static struct k_delayed_work pending_store; /* Mesh network storage information */ struct net_val { u16_t primary_addr; u8_t dev_key[16]; } __packed; /* Sequence number storage */ struct seq_val { u8_t val[3]; } __packed; /* Heartbeat Publication storage */ struct hb_pub_val { u16_t dst; u8_t period; u8_t ttl; u16_t feat; u16_t net_idx:12, indefinite:1; }; /* Miscelaneous configuration server model states */ struct cfg_val { u8_t net_transmit; u8_t relay; u8_t relay_retransmit; u8_t beacon; u8_t gatt_proxy; u8_t frnd; u8_t default_ttl; }; /* IV Index & IV Update storage */ struct iv_val { u32_t iv_index; u8_t iv_update:1, iv_duration:7; } __packed; /* Replay Protection List storage */ struct rpl_val { u32_t seq:24, old_iv:1; }; /* NetKey storage information */ struct net_key_val { u8_t kr_flag:1, kr_phase:7; u8_t val[2][16]; } __packed; /* AppKey storage information */ struct app_key_val { u16_t net_idx; bool updated; u8_t val[2][16]; } __packed; struct mod_pub_val { u16_t addr; u16_t key; u8_t ttl; u8_t retransmit; u8_t period; u8_t period_div:4, cred:1; }; /* We need this so we don't overwrite app-hardcoded values in case FCB * contains a history of changes but then has a NULL at the end. */ static struct { bool valid; struct cfg_val cfg; } stored_cfg; static int net_set(int argc, char **argv, char *val) { struct net_val net; int len, err; BT_DBG("val %s", val ? val : "(null)"); if (!val) { bt_mesh_comp_unprovision(); memset(bt_mesh.dev_key, 0, sizeof(bt_mesh.dev_key)); return 0; } len = sizeof(net); err = settings_bytes_from_str(val, &net, &len); if (err) { BT_ERR("Failed to decode value %s (err %d)", val, err); return err; } if (len != sizeof(net)) { BT_ERR("Unexpected value length (%d != %zu)", len, sizeof(net)); return -EINVAL; } memcpy(bt_mesh.dev_key, net.dev_key, sizeof(bt_mesh.dev_key)); bt_mesh_comp_provision(net.primary_addr); BT_DBG("Provisioned with primary address 0x%04x", net.primary_addr); BT_DBG("Recovered DevKey %s", bt_hex(bt_mesh.dev_key, 16)); return 0; } static int iv_set(int argc, char **argv, char *val) { struct iv_val iv; int len, err; BT_DBG("val %s", val ? val : "(null)"); if (!val) { bt_mesh.iv_index = 0; bt_mesh.iv_update = 0; return 0; } len = sizeof(iv); err = settings_bytes_from_str(val, &iv, &len); if (err) { BT_ERR("Failed to decode value %s (err %d)", val, err); return err; } if (len != sizeof(iv)) { BT_ERR("Unexpected value length (%d != %zu)", len, sizeof(iv)); return -EINVAL; } bt_mesh.iv_index = iv.iv_index; bt_mesh.iv_update = iv.iv_update; bt_mesh.ivu_duration = iv.iv_duration; BT_DBG("IV Index 0x%04x (IV Update Flag %u) duration %u hours", bt_mesh.iv_index, bt_mesh.iv_update, bt_mesh.ivu_duration); return 0; } static int seq_set(int argc, char **argv, char *val) { struct seq_val seq; int len, err; BT_DBG("val %s", val ? val : "(null)"); if (!val) { bt_mesh.seq = 0; return 0; } len = sizeof(seq); err = settings_bytes_from_str(val, &seq, &len); if (err) { BT_ERR("Failed to decode value %s (err %d)", val, err); return err; } if (len != sizeof(seq)) { BT_ERR("Unexpected value length (%d != %zu)", len, sizeof(seq)); return -EINVAL; } bt_mesh.seq = ((u32_t)seq.val[0] | ((u32_t)seq.val[1] << 8) | ((u32_t)seq.val[2] << 16)); if (CONFIG_BT_MESH_SEQ_STORE_RATE > 0) { /* Make sure we have a large enough sequence number. We * subtract 1 so that the first transmission causes a write * to the settings storage. */ bt_mesh.seq += (CONFIG_BT_MESH_SEQ_STORE_RATE - (bt_mesh.seq % CONFIG_BT_MESH_SEQ_STORE_RATE)); bt_mesh.seq--; } BT_DBG("Sequence Number 0x%06x", bt_mesh.seq); return 0; } static struct bt_mesh_rpl *rpl_find(u16_t src) { int i; for (i = 0; i < ARRAY_SIZE(bt_mesh.rpl); i++) { if (bt_mesh.rpl[i].src == src) { return &bt_mesh.rpl[i]; } } return NULL; } static struct bt_mesh_rpl *rpl_alloc(u16_t src) { int i; for (i = 0; i < ARRAY_SIZE(bt_mesh.rpl); i++) { if (!bt_mesh.rpl[i].src) { bt_mesh.rpl[i].src = src; return &bt_mesh.rpl[i]; } } return NULL; } static int rpl_set(int argc, char **argv, char *val) { struct bt_mesh_rpl *entry; struct rpl_val rpl; int len, err; u16_t src; if (argc < 1) { BT_ERR("Invalid argc (%d)", argc); return -ENOENT; } BT_DBG("argv[0] %s val %s", argv[0], val ? val : "(null)"); src = strtol(argv[0], NULL, 16); entry = rpl_find(src); if (!val) { if (entry) { memset(entry, 0, sizeof(*entry)); } else { BT_WARN("Unable to find RPL entry for 0x%04x", src); } return 0; } if (!entry) { entry = rpl_alloc(src); if (!entry) { BT_ERR("Unable to allocate RPL entry for 0x%04x", src); return -ENOMEM; } } len = sizeof(rpl); err = settings_bytes_from_str(val, &rpl, &len); if (err) { BT_ERR("Failed to decode value %s (err %d)", val, err); return err; } if (len != sizeof(rpl)) { BT_ERR("Unexpected value length (%d != %zu)", len, sizeof(rpl)); return -EINVAL; } entry->seq = rpl.seq; entry->old_iv = rpl.old_iv; BT_DBG("RPL entry for 0x%04x: Seq 0x%06x old_iv %u", entry->src, entry->seq, entry->old_iv); return 0; } static int net_key_set(int argc, char **argv, char *val) { struct bt_mesh_subnet *sub; struct net_key_val key; int len, i, err; u16_t net_idx; BT_DBG("argv[0] %s val %s", argv[0], val ? val : "(null)"); net_idx = strtol(argv[0], NULL, 16); sub = bt_mesh_subnet_get(net_idx); if (!val) { if (!sub) { BT_ERR("No subnet with NetKeyIndex 0x%03x", net_idx); return -ENOENT; } BT_DBG("Deleting NetKeyIndex 0x%03x", net_idx); bt_mesh_subnet_del(sub, false); return 0; } len = sizeof(key); err = settings_bytes_from_str(val, &key, &len); if (err) { BT_ERR("Failed to decode value %s (err %d)", val, err); return err; } if (len != sizeof(key)) { BT_ERR("Unexpected value length (%d != %zu)", len, sizeof(key)); return -EINVAL; } if (sub) { BT_DBG("Updating existing NetKeyIndex 0x%03x", net_idx); sub->kr_flag = key.kr_flag; sub->kr_phase = key.kr_phase; memcpy(sub->keys[0].net, &key.val[0], 16); memcpy(sub->keys[1].net, &key.val[1], 16); return 0; } for (i = 0; i < ARRAY_SIZE(bt_mesh.sub); i++) { if (bt_mesh.sub[i].net_idx == BT_MESH_KEY_UNUSED) { sub = &bt_mesh.sub[i]; break; } } if (!sub) { BT_ERR("No space to allocate a new subnet"); return -ENOMEM; } sub->net_idx = net_idx; sub->kr_flag = key.kr_flag; sub->kr_phase = key.kr_phase; memcpy(sub->keys[0].net, &key.val[0], 16); memcpy(sub->keys[1].net, &key.val[1], 16); BT_DBG("NetKeyIndex 0x%03x recovered from storage", net_idx); return 0; } static int app_key_set(int argc, char **argv, char *val) { struct bt_mesh_app_key *app; struct bt_mesh_subnet *sub; struct app_key_val key; u16_t app_idx; int len, err; BT_DBG("argv[0] %s val %s", argv[0], val ? val : "(null)"); app_idx = strtol(argv[0], NULL, 16); if (!val) { BT_DBG("Deleting AppKeyIndex 0x%03x", app_idx); app = bt_mesh_app_key_find(app_idx); if (app) { bt_mesh_app_key_del(app, false); } return 0; } len = sizeof(key); err = settings_bytes_from_str(val, &key, &len); if (err) { BT_ERR("Failed to decode value %s (err %d)", val, err); return err; } if (len != sizeof(key)) { BT_ERR("Unexpected value length (%d != %zu)", len, sizeof(key)); return -EINVAL; } sub = bt_mesh_subnet_get(key.net_idx); if (!sub) { BT_ERR("Failed to find subnet 0x%03x", key.net_idx); return -ENOENT; } app = bt_mesh_app_key_find(app_idx); if (!app) { app = bt_mesh_app_key_alloc(app_idx); } if (!app) { BT_ERR("No space for a new app key"); return -ENOMEM; } app->net_idx = key.net_idx; app->app_idx = app_idx; app->updated = key.updated; memcpy(app->keys[0].val, key.val[0], 16); memcpy(app->keys[1].val, key.val[1], 16); bt_mesh_app_id(app->keys[0].val, &app->keys[0].id); bt_mesh_app_id(app->keys[1].val, &app->keys[1].id); BT_DBG("AppKeyIndex 0x%03x recovered from storage", app_idx); return 0; } static int hb_pub_set(int argc, char **argv, char *val) { struct bt_mesh_hb_pub *pub = bt_mesh_hb_pub_get(); struct hb_pub_val hb_val; int len, err; BT_DBG("val %s", val ? val : "(null)"); if (!pub) { return -ENOENT; } if (!val) { pub->dst = BT_MESH_ADDR_UNASSIGNED; pub->count = 0; pub->ttl = 0; pub->period = 0; pub->feat = 0; BT_DBG("Cleared heartbeat publication"); return 0; } len = sizeof(hb_val); err = settings_bytes_from_str(val, &hb_val, &len); if (err) { BT_ERR("Failed to decode value %s (err %d)", val, err); return err; } if (len != sizeof(hb_val)) { BT_ERR("Unexpected value length (%d != %zu)", len, sizeof(hb_val)); return -EINVAL; } pub->dst = hb_val.dst; pub->period = hb_val.period; pub->ttl = hb_val.ttl; pub->feat = hb_val.feat; pub->net_idx = hb_val.net_idx; if (hb_val.indefinite) { pub->count = 0xffff; } else { pub->count = 0; } BT_DBG("Restored heartbeat publication"); return 0; } static int cfg_set(int argc, char **argv, char *val) { struct bt_mesh_cfg_srv *cfg = bt_mesh_cfg_get(); int len, err; BT_DBG("val %s", val ? val : "(null)"); if (!cfg) { return -ENOENT; } if (!val) { stored_cfg.valid = false; BT_DBG("Cleared configuration state"); return 0; } len = sizeof(stored_cfg.cfg); err = settings_bytes_from_str(val, &stored_cfg.cfg, &len); if (err) { BT_ERR("Failed to decode value %s (err %d)", val, err); return err; } if (len != sizeof(stored_cfg.cfg)) { BT_ERR("Unexpected value length (%d != %zu)", len, sizeof(stored_cfg.cfg)); return -EINVAL; } stored_cfg.valid = true; BT_DBG("Restored configuration state"); return 0; } static int mod_set_bind(struct bt_mesh_model *mod, char *val) { int len, err, i; /* Start with empty array regardless of cleared or set value */ for (i = 0; i < ARRAY_SIZE(mod->keys); i++) { mod->keys[i] = BT_MESH_KEY_UNUSED; } if (!val) { BT_DBG("Cleared bindings for model"); return 0; } len = sizeof(mod->keys); err = settings_bytes_from_str(val, mod->keys, &len); if (err) { BT_ERR("Failed to decode value %s (err %d)", val, err); return -EINVAL; } BT_DBG("Decoded %u bound keys for model", len / sizeof(mod->keys[0])); return 0; } static int mod_set_sub(struct bt_mesh_model *mod, char *val) { int len, err; /* Start with empty array regardless of cleared or set value */ memset(mod->groups, 0, sizeof(mod->groups)); if (!val) { BT_DBG("Cleared subscriptions for model"); return 0; } len = sizeof(mod->groups); err = settings_bytes_from_str(val, mod->groups, &len); if (err) { BT_ERR("Failed to decode value %s (err %d)", val, err); return -EINVAL; } BT_DBG("Decoded %u subscribed group addresses for model", len / sizeof(mod->groups[0])); return 0; } static int mod_set_pub(struct bt_mesh_model *mod, char *val) { struct mod_pub_val pub; int len, err; if (!mod->pub) { BT_WARN("Model has no publication context!"); return -EINVAL; } if (!val) { mod->pub->addr = BT_MESH_ADDR_UNASSIGNED; mod->pub->key = 0; mod->pub->cred = 0; mod->pub->ttl = 0; mod->pub->period = 0; mod->pub->retransmit = 0; mod->pub->count = 0; BT_DBG("Cleared publication for model"); return 0; } len = sizeof(pub); err = settings_bytes_from_str(val, &pub, &len); if (err) { BT_ERR("Failed to decode value %s (err %d)", val, err); return -EINVAL; } if (len != sizeof(pub)) { BT_ERR("Invalid length for model publication"); return -EINVAL; } mod->pub->addr = pub.addr; mod->pub->key = pub.key; mod->pub->cred = pub.cred; mod->pub->ttl = pub.ttl; mod->pub->period = pub.period; mod->pub->retransmit = pub.retransmit; mod->pub->count = 0; BT_DBG("Restored model publication, dst 0x%04x app_idx 0x%03x", pub.addr, pub.key); return 0; } static int mod_set(bool vnd, int argc, char **argv, char *val) { struct bt_mesh_model *mod; u8_t elem_idx, mod_idx; u16_t mod_key; if (argc < 2) { BT_ERR("Too small argc (%d)", argc); return -ENOENT; } mod_key = strtol(argv[0], NULL, 16); elem_idx = mod_key >> 8; mod_idx = mod_key; BT_DBG("Decoded mod_key 0x%04x as elem_idx %u mod_idx %u", mod_key, elem_idx, mod_idx); mod = bt_mesh_model_get(vnd, elem_idx, mod_idx); if (!mod) { BT_ERR("Failed to get model for elem_idx %u mod_idx %u", elem_idx, mod_idx); return -ENOENT; } if (!strcmp(argv[1], "bind")) { return mod_set_bind(mod, val); } if (!strcmp(argv[1], "sub")) { return mod_set_sub(mod, val); } if (!strcmp(argv[1], "pub")) { return mod_set_pub(mod, val); } BT_WARN("Unknown module key %s", argv[1]); return -ENOENT; } static int sig_mod_set(int argc, char **argv, char *val) { return mod_set(false, argc, argv, val); } static int vnd_mod_set(int argc, char **argv, char *val) { return mod_set(true, argc, argv, val); } const struct mesh_setting { const char *name; int (*func)(int argc, char **argv, char *val); } settings[] = { { "Net", net_set }, { "IV", iv_set }, { "Seq", seq_set }, { "RPL", rpl_set }, { "NetKey", net_key_set }, { "AppKey", app_key_set }, { "HBPub", hb_pub_set }, { "Cfg", cfg_set }, { "s", sig_mod_set }, { "v", vnd_mod_set }, }; static int mesh_set(int argc, char **argv, char *val) { int i; if (argc < 1) { BT_ERR("Insufficient number of arguments"); return -EINVAL; } BT_DBG("argv[0] %s val %s", argv[0], val ? val : "(null)"); for (i = 0; i < ARRAY_SIZE(settings); i++) { if (!strcmp(settings[i].name, argv[0])) { argc--; argv++; return settings[i].func(argc, argv, val); } } BT_WARN("No matching handler for key %s", argv[0]); return -ENOENT; } static int subnet_init(struct bt_mesh_subnet *sub) { int err; err = bt_mesh_net_keys_create(&sub->keys[0], sub->keys[0].net); if (err) { BT_ERR("Unable to generate keys for subnet"); return -EIO; } if (sub->kr_phase != BT_MESH_KR_NORMAL) { err = bt_mesh_net_keys_create(&sub->keys[1], sub->keys[1].net); if (err) { BT_ERR("Unable to generate keys for subnet"); memset(&sub->keys[0], 0, sizeof(sub->keys[0])); return -EIO; } } if (IS_ENABLED(CONFIG_BT_MESH_GATT_PROXY)) { sub->node_id = BT_MESH_NODE_IDENTITY_STOPPED; } else { sub->node_id = BT_MESH_NODE_IDENTITY_NOT_SUPPORTED; } /* Make sure we have valid beacon data to be sent */ bt_mesh_net_beacon_update(sub); return 0; } static void commit_mod(struct bt_mesh_model *mod, struct bt_mesh_elem *elem, bool vnd, bool primary, void *user_data) { if (mod->pub && mod->pub->update && mod->pub->addr != BT_MESH_ADDR_UNASSIGNED) { s32_t ms = bt_mesh_model_pub_period_get(mod); if (ms) { BT_DBG("Starting publish timer (period %u ms)", ms); k_delayed_work_submit(&mod->pub->timer, ms); } } } static int mesh_commit(void) { struct bt_mesh_hb_pub *hb_pub; struct bt_mesh_cfg_srv *cfg; int i; BT_DBG("sub[0].net_idx 0x%03x", bt_mesh.sub[0].net_idx); if (bt_mesh.sub[0].net_idx == BT_MESH_KEY_UNUSED) { /* Nothing to do since we're not yet provisioned */ return 0; } if (IS_ENABLED(CONFIG_BT_MESH_PB_GATT)) { bt_mesh_proxy_prov_disable(); } for (i = 0; i < ARRAY_SIZE(bt_mesh.sub); i++) { struct bt_mesh_subnet *sub = &bt_mesh.sub[i]; int err; if (sub->net_idx == BT_MESH_KEY_UNUSED) { continue; } err = subnet_init(sub); if (err) { BT_ERR("Failed to init subnet 0x%03x", sub->net_idx); } } if (bt_mesh.ivu_duration < BT_MESH_IVU_MIN_HOURS) { k_delayed_work_submit(&bt_mesh.ivu_timer, BT_MESH_IVU_TIMEOUT); } bt_mesh_model_foreach(commit_mod, NULL); hb_pub = bt_mesh_hb_pub_get(); if (hb_pub && hb_pub->dst != BT_MESH_ADDR_UNASSIGNED && hb_pub->count && hb_pub->period) { BT_DBG("Starting heartbeat publication"); k_work_submit(&hb_pub->timer.work); } cfg = bt_mesh_cfg_get(); if (cfg && stored_cfg.valid) { cfg->net_transmit = stored_cfg.cfg.net_transmit; cfg->relay = stored_cfg.cfg.relay; cfg->relay_retransmit = stored_cfg.cfg.relay_retransmit; cfg->beacon = stored_cfg.cfg.beacon; cfg->gatt_proxy = stored_cfg.cfg.gatt_proxy; cfg->frnd = stored_cfg.cfg.frnd; cfg->default_ttl = stored_cfg.cfg.default_ttl; } bt_mesh.valid = 1; bt_mesh_net_start(); return 0; } static void schedule_store(int flag) { s32_t timeout; atomic_set_bit(bt_mesh.flags, flag); if (atomic_test_bit(bt_mesh.flags, BT_MESH_NET_PENDING) || atomic_test_bit(bt_mesh.flags, BT_MESH_IV_PENDING) || atomic_test_bit(bt_mesh.flags, BT_MESH_SEQ_PENDING)) { timeout = K_NO_WAIT; } else if (atomic_test_bit(bt_mesh.flags, BT_MESH_RPL_PENDING) && (CONFIG_BT_MESH_RPL_STORE_TIMEOUT < CONFIG_BT_MESH_STORE_TIMEOUT)) { timeout = K_SECONDS(CONFIG_BT_MESH_RPL_STORE_TIMEOUT); } else { timeout = K_SECONDS(CONFIG_BT_MESH_STORE_TIMEOUT); } BT_DBG("Waiting %d seconds", timeout / MSEC_PER_SEC); k_delayed_work_submit(&pending_store, timeout); } static void clear_iv(void) { BT_DBG("Clearing IV"); settings_save_one("bt_mesh/IV", NULL); } static void clear_net(void) { BT_DBG("Clearing Network"); settings_save_one("bt_mesh/Net", NULL); } static void store_pending_net(void) { char buf[BT_SETTINGS_SIZE(sizeof(struct net_val))]; struct net_val net; char *str; BT_DBG("addr 0x%04x DevKey %s", bt_mesh_primary_addr(), bt_hex(bt_mesh.dev_key, 16)); net.primary_addr = bt_mesh_primary_addr(); memcpy(net.dev_key, bt_mesh.dev_key, 16); str = settings_str_from_bytes(&net, sizeof(net), buf, sizeof(buf)); if (!str) { BT_ERR("Unable to encode Network as value"); return; } BT_DBG("Saving Network as value %s", str); settings_save_one("bt_mesh/Net", str); } void bt_mesh_store_net(void) { schedule_store(BT_MESH_NET_PENDING); } static void store_pending_iv(void) { char buf[BT_SETTINGS_SIZE(sizeof(struct iv_val))]; struct iv_val iv; char *str; iv.iv_index = bt_mesh.iv_index; iv.iv_update = bt_mesh.iv_update; iv.iv_duration = bt_mesh.ivu_duration; str = settings_str_from_bytes(&iv, sizeof(iv), buf, sizeof(buf)); if (!str) { BT_ERR("Unable to encode IV as value"); return; } BT_DBG("Saving IV as value %s", str); settings_save_one("bt_mesh/IV", str); } void bt_mesh_store_iv(bool only_duration) { schedule_store(BT_MESH_IV_PENDING); if (!only_duration) { /* Always update Seq whenever IV changes */ schedule_store(BT_MESH_SEQ_PENDING); } } static void store_pending_seq(void) { char buf[BT_SETTINGS_SIZE(sizeof(struct seq_val))]; struct seq_val seq; char *str; seq.val[0] = bt_mesh.seq; seq.val[1] = bt_mesh.seq >> 8; seq.val[2] = bt_mesh.seq >> 16; str = settings_str_from_bytes(&seq, sizeof(seq), buf, sizeof(buf)); if (!str) { BT_ERR("Unable to encode Seq as value"); return; } BT_DBG("Saving Seq as value %s", str); settings_save_one("bt_mesh/Seq", str); } void bt_mesh_store_seq(void) { if (CONFIG_BT_MESH_SEQ_STORE_RATE && (bt_mesh.seq % CONFIG_BT_MESH_SEQ_STORE_RATE)) { return; } schedule_store(BT_MESH_SEQ_PENDING); } static void store_rpl(struct bt_mesh_rpl *entry) { char buf[BT_SETTINGS_SIZE(sizeof(struct rpl_val))]; struct rpl_val rpl; char path[18]; char *str; BT_DBG("src 0x%04x seq 0x%06x old_iv %u", entry->src, entry->seq, entry->old_iv); rpl.seq = entry->seq; rpl.old_iv = entry->old_iv; str = settings_str_from_bytes(&rpl, sizeof(rpl), buf, sizeof(buf)); if (!str) { BT_ERR("Unable to encode RPL as value"); return; } snprintk(path, sizeof(path), "bt_mesh/RPL/%x", entry->src); BT_DBG("Saving RPL %s as value %s", path, str); settings_save_one(path, str); } static void clear_rpl(void) { int i; BT_DBG(""); for (i = 0; i < ARRAY_SIZE(bt_mesh.rpl); i++) { struct bt_mesh_rpl *rpl = &bt_mesh.rpl[i]; char path[18]; if (!rpl->src) { continue; } snprintk(path, sizeof(path), "bt_mesh/RPL/%x", rpl->src); settings_save_one(path, NULL); memset(rpl, 0, sizeof(*rpl)); } } static void store_pending_rpl(void) { int i; BT_DBG(""); for (i = 0; i < ARRAY_SIZE(bt_mesh.rpl); i++) { struct bt_mesh_rpl *rpl = &bt_mesh.rpl[i]; if (rpl->store) { rpl->store = false; store_rpl(rpl); } } } static void store_pending_hb_pub(void) { char buf[BT_SETTINGS_SIZE(sizeof(struct hb_pub_val))]; struct bt_mesh_hb_pub *pub = bt_mesh_hb_pub_get(); struct hb_pub_val val; char *str; if (!pub) { return; } if (pub->dst == BT_MESH_ADDR_UNASSIGNED) { str = NULL; } else { val.indefinite = (pub->count = 0xffff); val.dst = pub->dst; val.period = pub->period; val.ttl = pub->ttl; val.feat = pub->feat; val.net_idx = pub->net_idx; str = settings_str_from_bytes(&val, sizeof(val), buf, sizeof(buf)); if (!str) { BT_ERR("Unable to encode hb pub as value"); return; } } BT_DBG("Saving Heartbeat Publication as value %s", str ? str : "(null)"); settings_save_one("bt_mesh/HBPub", str); } static void store_pending_cfg(void) { char buf[BT_SETTINGS_SIZE(sizeof(struct cfg_val))]; struct bt_mesh_cfg_srv *cfg = bt_mesh_cfg_get(); struct cfg_val val; char *str; if (!cfg) { return; } val.net_transmit = cfg->net_transmit; val.relay = cfg->relay; val.relay_retransmit = cfg->relay_retransmit; val.beacon = cfg->beacon; val.gatt_proxy = cfg->gatt_proxy; val.frnd = cfg->frnd; val.default_ttl = cfg->default_ttl; str = settings_str_from_bytes(&val, sizeof(val), buf, sizeof(buf)); if (!str) { BT_ERR("Unable to encode configuration as value"); return; } BT_DBG("Saving configuration as value %s", str); settings_save_one("bt_mesh/Cfg", str); } static void clear_cfg(void) { BT_DBG("Clearing configuration"); settings_save_one("bt_mesh/Cfg", NULL); } static void clear_app_key(u16_t app_idx) { char path[20]; BT_DBG("AppKeyIndex 0x%03x", app_idx); snprintk(path, sizeof(path), "bt_mesh/AppKey/%x", app_idx); settings_save_one(path, NULL); } static void clear_net_key(u16_t net_idx) { char path[20]; BT_DBG("NetKeyIndex 0x%03x", net_idx); snprintk(path, sizeof(path), "bt_mesh/NetKey/%x", net_idx); settings_save_one(path, NULL); } static void store_net_key(struct bt_mesh_subnet *sub) { char buf[BT_SETTINGS_SIZE(sizeof(struct net_key_val))]; struct net_key_val key; char path[20]; char *str; BT_DBG("NetKeyIndex 0x%03x NetKey %s", sub->net_idx, bt_hex(sub->keys[0].net, 16)); memcpy(&key.val[0], sub->keys[0].net, 16); memcpy(&key.val[1], sub->keys[1].net, 16); key.kr_flag = sub->kr_flag; key.kr_phase = sub->kr_phase; str = settings_str_from_bytes(&key, sizeof(key), buf, sizeof(buf)); if (!str) { BT_ERR("Unable to encode NetKey as value"); return; } snprintk(path, sizeof(path), "bt_mesh/NetKey/%x", sub->net_idx); BT_DBG("Saving NetKey %s as value %s", path, str); settings_save_one(path, str); } static void store_app_key(struct bt_mesh_app_key *app) { char buf[BT_SETTINGS_SIZE(sizeof(struct app_key_val))]; struct app_key_val key; char path[20]; char *str; key.net_idx = app->net_idx; key.updated = app->updated; memcpy(key.val[0], app->keys[0].val, 16); memcpy(key.val[1], app->keys[1].val, 16); str = settings_str_from_bytes(&key, sizeof(key), buf, sizeof(buf)); if (!str) { BT_ERR("Unable to encode AppKey as value"); return; } snprintk(path, sizeof(path), "bt_mesh/AppKey/%x", app->app_idx); BT_DBG("Saving AppKey %s as value %s", path, str); settings_save_one(path, str); } static void store_pending_keys(void) { int i; for (i = 0; i < ARRAY_SIZE(key_updates); i++) { struct key_update *update = &key_updates[i]; if (!update->valid) { continue; } if (update->clear) { if (update->app_key) { clear_app_key(update->key_idx); } else { clear_net_key(update->key_idx); } } else { if (update->app_key) { struct bt_mesh_app_key *key; key = bt_mesh_app_key_find(update->key_idx); if (key) { store_app_key(key); } else { BT_WARN("AppKeyIndex 0x%03x not found", update->key_idx); } } else { struct bt_mesh_subnet *sub; sub = bt_mesh_subnet_get(update->key_idx); if (sub) { store_net_key(sub); } else { BT_WARN("NetKeyIndex 0x%03x not found", update->key_idx); } } } update->valid = 0; } } static void encode_mod_path(struct bt_mesh_model *mod, bool vnd, const char *key, char *path, size_t path_len) { u16_t mod_key = (((u16_t)mod->elem_idx << 8) | mod->mod_idx); if (vnd) { snprintk(path, path_len, "bt_mesh/v/%x/%s", mod_key, key); } else { snprintk(path, path_len, "bt_mesh/s/%x/%s", mod_key, key); } } static void store_pending_mod_bind(struct bt_mesh_model *mod, bool vnd) { u16_t keys[CONFIG_BT_MESH_MODEL_KEY_COUNT]; char buf[BT_SETTINGS_SIZE(sizeof(keys))]; char path[20]; int i, count; char *val; for (i = 0, count = 0; i < ARRAY_SIZE(mod->keys); i++) { if (mod->keys[i] != BT_MESH_KEY_UNUSED) { keys[count++] = mod->keys[i]; } } if (count) { val = settings_str_from_bytes(keys, count * sizeof(keys[0]), buf, sizeof(buf)); if (!val) { BT_ERR("Unable to encode model bindings as value"); return; } } else { val = NULL; } encode_mod_path(mod, vnd, "bind", path, sizeof(path)); BT_DBG("Saving %s as %s", path, val ? val : "(null)"); settings_save_one(path, val); } static void store_pending_mod_sub(struct bt_mesh_model *mod, bool vnd) { u16_t groups[CONFIG_BT_MESH_MODEL_GROUP_COUNT]; char buf[BT_SETTINGS_SIZE(sizeof(groups))]; char path[20]; int i, count; char *val; for (i = 0, count = 0; i < ARRAY_SIZE(mod->groups); i++) { if (mod->groups[i] != BT_MESH_ADDR_UNASSIGNED) { groups[count++] = mod->groups[i]; } } if (count) { val = settings_str_from_bytes(groups, count * sizeof(groups[0]), buf, sizeof(buf)); if (!val) { BT_ERR("Unable to encode model subscription as value"); return; } } else { val = NULL; } encode_mod_path(mod, vnd, "sub", path, sizeof(path)); BT_DBG("Saving %s as %s", path, val ? val : "(null)"); settings_save_one(path, val); } static void store_pending_mod_pub(struct bt_mesh_model *mod, bool vnd) { char buf[BT_SETTINGS_SIZE(sizeof(struct mod_pub_val))]; struct mod_pub_val pub; char path[20]; char *val; if (!mod->pub || mod->pub->addr == BT_MESH_ADDR_UNASSIGNED) { val = NULL; } else { pub.addr = mod->pub->addr; pub.key = mod->pub->key; pub.ttl = mod->pub->ttl; pub.retransmit = mod->pub->retransmit; pub.period = mod->pub->period; pub.period_div = mod->pub->period_div; pub.cred = mod->pub->cred; val = settings_str_from_bytes(&pub, sizeof(pub), buf, sizeof(buf)); if (!val) { BT_ERR("Unable to encode model publication as value"); return; } } encode_mod_path(mod, vnd, "pub", path, sizeof(path)); BT_DBG("Saving %s as %s", path, val ? val : "(null)"); settings_save_one(path, val); } static void store_pending_mod(struct bt_mesh_model *mod, struct bt_mesh_elem *elem, bool vnd, bool primary, void *user_data) { if (!mod->flags) { return; } if (mod->flags & BT_MESH_MOD_BIND_PENDING) { mod->flags &= ~BT_MESH_MOD_BIND_PENDING; store_pending_mod_bind(mod, vnd); } if (mod->flags & BT_MESH_MOD_SUB_PENDING) { mod->flags &= ~BT_MESH_MOD_SUB_PENDING; store_pending_mod_sub(mod, vnd); } if (mod->flags & BT_MESH_MOD_PUB_PENDING) { mod->flags &= ~BT_MESH_MOD_PUB_PENDING; store_pending_mod_pub(mod, vnd); } } static void store_pending(struct ble_npl_event *work) { BT_DBG(""); if (atomic_test_and_clear_bit(bt_mesh.flags, BT_MESH_RPL_PENDING)) { if (bt_mesh.valid) { store_pending_rpl(); } else { clear_rpl(); } } if (atomic_test_and_clear_bit(bt_mesh.flags, BT_MESH_KEYS_PENDING)) { store_pending_keys(); } if (atomic_test_and_clear_bit(bt_mesh.flags, BT_MESH_NET_PENDING)) { if (bt_mesh.valid) { store_pending_net(); } else { clear_net(); } } if (atomic_test_and_clear_bit(bt_mesh.flags, BT_MESH_IV_PENDING)) { if (bt_mesh.valid) { store_pending_iv(); } else { clear_iv(); } } if (atomic_test_and_clear_bit(bt_mesh.flags, BT_MESH_SEQ_PENDING)) { store_pending_seq(); } if (atomic_test_and_clear_bit(bt_mesh.flags, BT_MESH_HB_PUB_PENDING)) { store_pending_hb_pub(); } if (atomic_test_and_clear_bit(bt_mesh.flags, BT_MESH_CFG_PENDING)) { if (bt_mesh.valid) { store_pending_cfg(); } else { clear_cfg(); } } if (atomic_test_and_clear_bit(bt_mesh.flags, BT_MESH_MOD_PENDING)) { bt_mesh_model_foreach(store_pending_mod, NULL); } } void bt_mesh_store_rpl(struct bt_mesh_rpl *entry) { entry->store = true; schedule_store(BT_MESH_RPL_PENDING); } static struct key_update *key_update_find(bool app_key, u16_t key_idx, struct key_update **free_slot) { struct key_update *match; int i; match = NULL; *free_slot = NULL; for (i = 0; i < ARRAY_SIZE(key_updates); i++) { struct key_update *update = &key_updates[i]; if (!update->valid) { *free_slot = update; continue; } if (update->app_key != app_key) { continue; } if (update->key_idx == key_idx) { match = update; } } return match; } void bt_mesh_store_subnet(struct bt_mesh_subnet *sub) { struct key_update *update, *free_slot; BT_DBG("NetKeyIndex 0x%03x", sub->net_idx); update = key_update_find(false, sub->net_idx, &free_slot); if (update) { update->clear = 0; schedule_store(BT_MESH_KEYS_PENDING); return; } if (!free_slot) { store_net_key(sub); return; } free_slot->valid = 1; free_slot->key_idx = sub->net_idx; free_slot->app_key = 0; free_slot->clear = 0; schedule_store(BT_MESH_KEYS_PENDING); } void bt_mesh_store_app_key(struct bt_mesh_app_key *key) { struct key_update *update, *free_slot; BT_DBG("AppKeyIndex 0x%03x", key->app_idx); update = key_update_find(true, key->app_idx, &free_slot); if (update) { update->clear = 0; schedule_store(BT_MESH_KEYS_PENDING); return; } if (!free_slot) { store_app_key(key); return; } free_slot->valid = 1; free_slot->key_idx = key->app_idx; free_slot->app_key = 1; free_slot->clear = 0; schedule_store(BT_MESH_KEYS_PENDING); } void bt_mesh_store_hb_pub(void) { schedule_store(BT_MESH_HB_PUB_PENDING); } void bt_mesh_store_cfg(void) { schedule_store(BT_MESH_CFG_PENDING); } void bt_mesh_clear_net(void) { schedule_store(BT_MESH_NET_PENDING); schedule_store(BT_MESH_IV_PENDING); schedule_store(BT_MESH_CFG_PENDING); } void bt_mesh_clear_subnet(struct bt_mesh_subnet *sub) { struct key_update *update, *free_slot; BT_DBG("NetKeyIndex 0x%03x", sub->net_idx); update = key_update_find(false, sub->net_idx, &free_slot); if (update) { update->clear = 1; schedule_store(BT_MESH_KEYS_PENDING); return; } if (!free_slot) { clear_net_key(sub->net_idx); return; } free_slot->valid = 1; free_slot->key_idx = sub->net_idx; free_slot->app_key = 0; free_slot->clear = 1; schedule_store(BT_MESH_KEYS_PENDING); } void bt_mesh_clear_app_key(struct bt_mesh_app_key *key) { struct key_update *update, *free_slot; BT_DBG("AppKeyIndex 0x%03x", key->app_idx); update = key_update_find(true, key->app_idx, &free_slot); if (update) { update->clear = 1; schedule_store(BT_MESH_KEYS_PENDING); return; } if (!free_slot) { clear_app_key(key->app_idx); return; } free_slot->valid = 1; free_slot->key_idx = key->app_idx; free_slot->app_key = 1; free_slot->clear = 1; schedule_store(BT_MESH_KEYS_PENDING); } void bt_mesh_clear_rpl(void) { schedule_store(BT_MESH_RPL_PENDING); } void bt_mesh_store_mod_bind(struct bt_mesh_model *mod) { mod->flags |= BT_MESH_MOD_BIND_PENDING; schedule_store(BT_MESH_MOD_PENDING); } void bt_mesh_store_mod_sub(struct bt_mesh_model *mod) { mod->flags |= BT_MESH_MOD_SUB_PENDING; schedule_store(BT_MESH_MOD_PENDING); } void bt_mesh_store_mod_pub(struct bt_mesh_model *mod) { mod->flags |= BT_MESH_MOD_PUB_PENDING; schedule_store(BT_MESH_MOD_PENDING); } static struct conf_handler bt_mesh_settings_conf_handler = { .ch_name = "bt_mesh", .ch_get = NULL, .ch_set = mesh_set, .ch_commit = mesh_commit, .ch_export = NULL, }; void bt_mesh_settings_init(void) { int rc; rc = conf_register(&bt_mesh_settings_conf_handler); SYSINIT_PANIC_ASSERT_MSG(rc == 0, "Failed to register bt_mesh_settings conf"); k_delayed_work_init(&pending_store, store_pending); } #endif /* MYNEWT_VAL(BLE_MESH_SETTINGS) */