/* SPDX-License-Identifier: GPL-3.0-or-later * Copyright © 2020-2021 The TokTok team. */ /** * "Server side" of the DHT announcements protocol. */ #include "announce.h" #include #include #include #include "DHT.h" #include "LAN_discovery.h" #include "attributes.h" #include "ccompat.h" #include "crypto_core.h" #include "forwarding.h" #include "logger.h" #include "mem.h" #include "mono_time.h" #include "network.h" #include "shared_key_cache.h" #include "timed_auth.h" #include "util.h" // Settings for the shared key cache #define MAX_KEYS_PER_SLOT 4 #define KEYS_TIMEOUT 600 uint8_t announce_response_of_request_type(uint8_t request_type) { switch (request_type) { case NET_PACKET_DATA_SEARCH_REQUEST: return NET_PACKET_DATA_SEARCH_RESPONSE; case NET_PACKET_DATA_RETRIEVE_REQUEST: return NET_PACKET_DATA_RETRIEVE_RESPONSE; case NET_PACKET_STORE_ANNOUNCE_REQUEST: return NET_PACKET_STORE_ANNOUNCE_RESPONSE; default: { assert(false); return NET_PACKET_MAX; } } } typedef struct Announce_Entry { uint64_t store_until; uint8_t data_public_key[CRYPTO_PUBLIC_KEY_SIZE]; uint8_t *data; uint32_t length; } Announce_Entry; struct Announcements { const Logger *log; const Memory *mem; const Random *rng; Forwarding *forwarding; const Mono_Time *mono_time; DHT *dht; Networking_Core *net; const uint8_t *public_key; const uint8_t *secret_key; Shared_Key_Cache *shared_keys; uint8_t hmac_key[CRYPTO_HMAC_KEY_SIZE]; int32_t synch_offset; uint64_t start_time; Announce_Entry entries[ANNOUNCE_BUCKETS * ANNOUNCE_BUCKET_SIZE]; }; void announce_set_synch_offset(Announcements *announce, int32_t synch_offset) { announce->synch_offset = synch_offset; } /** * An entry is considered to be "deleted" for the purposes of the protocol * once it has timed out. */ non_null() static bool entry_is_empty(const Announcements *announce, const Announce_Entry *entry) { return mono_time_get(announce->mono_time) >= entry->store_until; } non_null() static void delete_entry(Announce_Entry *entry) { entry->store_until = 0; } /** Return bits (at most 8) from pk starting at index as uint8_t */ non_null() static uint8_t truncate_pk_at_index(const uint8_t *pk, uint16_t index, uint16_t bits) { assert(bits < 8); const uint8_t i = index / 8; const uint8_t j = index % 8; return ((uint8_t)((i < CRYPTO_PUBLIC_KEY_SIZE ? pk[i] : 0) << j) >> (8 - bits)) | ((i + 1 < CRYPTO_PUBLIC_KEY_SIZE ? pk[i + 1] : 0) >> (16 - bits - j)); } uint16_t announce_get_bucketnum(const uint8_t *base, const uint8_t *pk) { const uint16_t index = bit_by_bit_cmp(base, pk); return truncate_pk_at_index(base, index + 1, ANNOUNCE_BUCKET_PREFIX_LENGTH) ^ truncate_pk_at_index(pk, index + 1, ANNOUNCE_BUCKET_PREFIX_LENGTH); } non_null() static Announce_Entry *bucket_of_key(Announcements *announce, const uint8_t *pk) { return &announce->entries[announce_get_bucketnum(announce->public_key, pk) * ANNOUNCE_BUCKET_SIZE]; } non_null() static Announce_Entry *get_stored(Announcements *announce, const uint8_t *data_public_key) { Announce_Entry *const bucket = bucket_of_key(announce, data_public_key); for (uint32_t i = 0; i < ANNOUNCE_BUCKET_SIZE; ++i) { if (pk_equal(bucket[i].data_public_key, data_public_key)) { if (entry_is_empty(announce, &bucket[i])) { break; } return &bucket[i]; } } return nullptr; } non_null() static const Announce_Entry *bucket_of_key_const(const Announcements *announce, const uint8_t *pk) { return &announce->entries[announce_get_bucketnum(announce->public_key, pk) * ANNOUNCE_BUCKET_SIZE]; } non_null() static const Announce_Entry *get_stored_const(const Announcements *announce, const uint8_t *data_public_key) { const Announce_Entry *const bucket = bucket_of_key_const(announce, data_public_key); for (uint32_t i = 0; i < ANNOUNCE_BUCKET_SIZE; ++i) { if (pk_equal(bucket[i].data_public_key, data_public_key)) { if (entry_is_empty(announce, &bucket[i])) { break; } return &bucket[i]; } } return nullptr; } bool announce_on_stored(const Announcements *announce, const uint8_t *data_public_key, announce_on_retrieve_cb *on_retrieve_callback, void *object) { const Announce_Entry *const entry = get_stored_const(announce, data_public_key); if (entry == nullptr || entry->data == nullptr) { return false; } if (on_retrieve_callback != nullptr) { on_retrieve_callback(object, entry->data, entry->length); } return true; } /** * Return existing entry for this key if it exists, else an empty * slot in the key's bucket if one exists, else an entry in the key's bucket * of greatest 2-adic distance greater than that of the key bucket if one * exists, else nullptr. */ non_null() static Announce_Entry *find_entry_slot(Announcements *announce, const uint8_t *data_public_key) { Announce_Entry *const bucket = bucket_of_key(announce, data_public_key); Announce_Entry *slot = nullptr; uint16_t min_index = bit_by_bit_cmp(announce->public_key, data_public_key); for (uint32_t i = 0; i < ANNOUNCE_BUCKET_SIZE; ++i) { if (pk_equal(bucket[i].data_public_key, data_public_key)) { return &bucket[i]; } if (entry_is_empty(announce, &bucket[i])) { slot = &bucket[i]; min_index = 0; continue; } const uint16_t index = bit_by_bit_cmp(announce->public_key, bucket[i].data_public_key); if (index < min_index) { slot = &bucket[i]; min_index = index; } } return slot; } non_null() static bool would_accept_store_request(Announcements *announce, const uint8_t *data_public_key) { return find_entry_slot(announce, data_public_key) != nullptr; } bool announce_store_data(Announcements *announce, const uint8_t *data_public_key, const uint8_t *data, uint32_t length, uint32_t timeout) { if (length > MAX_ANNOUNCEMENT_SIZE) { return false; } Announce_Entry *entry = find_entry_slot(announce, data_public_key); if (entry == nullptr) { return false; } if (length > 0) { assert(data != nullptr); free(entry->data); uint8_t *entry_data = (uint8_t *)malloc(length); if (entry_data == nullptr) { entry->data = nullptr; // TODO(iphydf): Is this necessary? return false; } memcpy(entry_data, data, length); entry->data = entry_data; } entry->length = length; memcpy(entry->data_public_key, data_public_key, CRYPTO_PUBLIC_KEY_SIZE); entry->store_until = mono_time_get(announce->mono_time) + timeout; return true; } non_null() static uint32_t calculate_timeout(const Announcements *announce, uint32_t requested_timeout) { const uint64_t uptime = mono_time_get(announce->mono_time) - announce->start_time; const uint32_t max_announcement_timeout = max_u32( (uint32_t)min_u64( MAX_MAX_ANNOUNCEMENT_TIMEOUT, uptime / MAX_ANNOUNCEMENT_TIMEOUT_UPTIME_RATIO), MIN_MAX_ANNOUNCEMENT_TIMEOUT); return min_u32(max_announcement_timeout, requested_timeout); } #define DATA_SEARCH_TO_AUTH_MAX_SIZE (CRYPTO_PUBLIC_KEY_SIZE * 2 + MAX_PACKED_IPPORT_SIZE + MAX_SENDBACK_SIZE) non_null(1, 2, 3, 4, 7) nullable(5) static int create_data_search_to_auth(const Logger *logger, const uint8_t *data_public_key, const uint8_t *requester_key, const IP_Port *source, const uint8_t *sendback, uint16_t sendback_length, uint8_t *dest, uint16_t max_length) { if (max_length < DATA_SEARCH_TO_AUTH_MAX_SIZE || sendback_length > MAX_SENDBACK_SIZE) { return -1; } memcpy(dest, data_public_key, CRYPTO_PUBLIC_KEY_SIZE); memcpy(dest + CRYPTO_PUBLIC_KEY_SIZE, requester_key, CRYPTO_PUBLIC_KEY_SIZE); const int ipport_length = pack_ip_port(logger, dest + CRYPTO_PUBLIC_KEY_SIZE * 2, MAX_PACKED_IPPORT_SIZE, source); if (ipport_length == -1) { return -1; } if (sendback_length > 0) { assert(sendback != nullptr); memcpy(dest + CRYPTO_PUBLIC_KEY_SIZE * 2 + ipport_length, sendback, sendback_length); } return CRYPTO_PUBLIC_KEY_SIZE * 2 + ipport_length + sendback_length; } #define DATA_SEARCH_TIMEOUT 60 non_null() static int create_reply_plain_data_search_request(Announcements *announce, const IP_Port *source, const uint8_t *data, uint16_t length, uint8_t *reply, uint16_t reply_max_length, const uint8_t *to_auth, uint16_t to_auth_length) { if (length != CRYPTO_PUBLIC_KEY_SIZE && length != CRYPTO_PUBLIC_KEY_SIZE + CRYPTO_SHA256_SIZE) { return -1; } const uint8_t *const data_public_key = data; const uint8_t *previous_hash = nullptr; if (length == CRYPTO_PUBLIC_KEY_SIZE + CRYPTO_SHA256_SIZE) { previous_hash = data + CRYPTO_PUBLIC_KEY_SIZE; } const int nodes_max_length = (int)reply_max_length - (CRYPTO_PUBLIC_KEY_SIZE + 1 + CRYPTO_SHA256_SIZE + TIMED_AUTH_SIZE + 1 + 1); if (nodes_max_length < 0) { return -1; } uint8_t *p = reply; memcpy(p, data_public_key, CRYPTO_PUBLIC_KEY_SIZE); p += CRYPTO_PUBLIC_KEY_SIZE; const Announce_Entry *const stored = get_stored_const(announce, data_public_key); if (stored == nullptr) { *p = 0; ++p; } else { *p = 1; ++p; crypto_sha256(p, stored->data, stored->length); p += CRYPTO_SHA256_SIZE; } generate_timed_auth(announce->mono_time, DATA_SEARCH_TIMEOUT, announce->hmac_key, to_auth, to_auth_length, p); p += TIMED_AUTH_SIZE; *p = would_accept_store_request(announce, data_public_key) ? 1 : 0; ++p; Node_format nodes_list[MAX_SENT_NODES]; const int num_nodes = get_close_nodes(announce->dht, data_public_key, nodes_list, net_family_unspec(), ip_is_lan(&source->ip), true); if (num_nodes < 0 || num_nodes > MAX_SENT_NODES) { return -1; } *p = num_nodes; ++p; p += pack_nodes(announce->log, p, nodes_max_length, nodes_list, num_nodes); const uint32_t reply_len = p - reply; if (previous_hash != nullptr) { uint8_t hash[CRYPTO_SHA256_SIZE]; crypto_sha256(hash, reply, reply_len); if (crypto_sha256_eq(hash, previous_hash)) { return CRYPTO_PUBLIC_KEY_SIZE; } } return reply_len; } non_null() static int create_reply_plain_data_retrieve_request( const Announcements *announce, const IP_Port *source, const uint8_t *data, uint16_t length, uint8_t *reply, uint16_t reply_max_length, const uint8_t *to_auth, uint16_t to_auth_length) { if (length != CRYPTO_PUBLIC_KEY_SIZE + 1 + TIMED_AUTH_SIZE) { return -1; } if (data[CRYPTO_PUBLIC_KEY_SIZE] != 0) { return -1; } const uint8_t *const data_public_key = data; const uint8_t *const auth = data + CRYPTO_PUBLIC_KEY_SIZE + 1; if (!check_timed_auth(announce->mono_time, DATA_SEARCH_TIMEOUT, announce->hmac_key, to_auth, to_auth_length, auth)) { return -1; } const Announce_Entry *const entry = get_stored_const(announce, data_public_key); if (entry == nullptr) { return -1; } const uint16_t reply_len = CRYPTO_PUBLIC_KEY_SIZE + 1 + entry->length; if (reply_max_length < reply_len) { return -1; } memcpy(reply, data_public_key, CRYPTO_PUBLIC_KEY_SIZE); reply[CRYPTO_PUBLIC_KEY_SIZE] = 1; memcpy(reply + CRYPTO_PUBLIC_KEY_SIZE + 1, entry->data, entry->length); return reply_len; } non_null() static int create_reply_plain_store_announce_request(Announcements *announce, const IP_Port *source, const uint8_t *data, uint16_t length, uint8_t *reply, uint16_t reply_max_length, const uint8_t *to_auth, uint16_t to_auth_length) { const int plain_len = (int)length - (CRYPTO_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE + CRYPTO_MAC_SIZE); const int announcement_len = plain_len - (TIMED_AUTH_SIZE + sizeof(uint32_t) + 1); const uint8_t *const data_public_key = data; if (announcement_len < 0) { return -1; } VLA(uint8_t, plain, plain_len); const uint8_t *shared_key = shared_key_cache_lookup(announce->shared_keys, data_public_key); if (shared_key == nullptr) { /* Error looking up/deriving the shared key */ return -1; } if (decrypt_data_symmetric(shared_key, data + CRYPTO_PUBLIC_KEY_SIZE, data + CRYPTO_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE, plain_len + CRYPTO_MAC_SIZE, plain) != plain_len) { return -1; } const uint8_t *const auth = plain; uint32_t requested_timeout; net_unpack_u32(plain + TIMED_AUTH_SIZE, &requested_timeout); const uint32_t timeout = calculate_timeout(announce, requested_timeout); const uint8_t announcement_type = plain[TIMED_AUTH_SIZE + sizeof(uint32_t)]; const uint8_t *announcement = plain + TIMED_AUTH_SIZE + sizeof(uint32_t) + 1; if (!check_timed_auth(announce->mono_time, DATA_SEARCH_TIMEOUT, announce->hmac_key, to_auth, to_auth_length, auth)) { return -1; } if (announcement_type > 1) { return -1; } if (announcement_type == 1) { if (announcement_len != CRYPTO_SHA256_SIZE) { return -1; } Announce_Entry *stored = get_stored(announce, data_public_key); if (stored == nullptr) { return -1; } uint8_t stored_hash[CRYPTO_SHA256_SIZE]; crypto_sha256(stored_hash, stored->data, stored->length); if (!crypto_sha256_eq(announcement, stored_hash)) { delete_entry(stored); return -1; } else { stored->store_until = mono_time_get(announce->mono_time) + timeout; } } else { if (!announce_store_data(announce, data_public_key, announcement, announcement_len, timeout)) { return -1; } } const uint16_t reply_len = CRYPTO_PUBLIC_KEY_SIZE + sizeof(uint32_t) + sizeof(uint64_t); if (reply_max_length < reply_len) { return -1; } memcpy(reply, data_public_key, CRYPTO_PUBLIC_KEY_SIZE); net_pack_u32(reply + CRYPTO_PUBLIC_KEY_SIZE, timeout); net_pack_u64(reply + CRYPTO_PUBLIC_KEY_SIZE + sizeof(uint32_t), mono_time_get(announce->mono_time) + announce->synch_offset); return reply_len; } non_null(1, 2, 3, 7, 9) nullable(5) static int create_reply_plain(Announcements *announce, const uint8_t *requester_key, const IP_Port *source, uint8_t type, const uint8_t *sendback, uint16_t sendback_length, const uint8_t *data, uint16_t length, uint8_t *reply, uint16_t reply_max_length) { if (length < CRYPTO_PUBLIC_KEY_SIZE) { return -1; } const uint8_t *const data_public_key = data; uint8_t to_auth[DATA_SEARCH_TO_AUTH_MAX_SIZE]; const int to_auth_length = create_data_search_to_auth(announce->log, data_public_key, requester_key, source, sendback, sendback_length, to_auth, DATA_SEARCH_TO_AUTH_MAX_SIZE); if (to_auth_length == -1) { return -1; } switch (type) { case NET_PACKET_DATA_SEARCH_REQUEST: return create_reply_plain_data_search_request(announce, source, data, length, reply, reply_max_length, to_auth, (uint16_t)to_auth_length); case NET_PACKET_DATA_RETRIEVE_REQUEST: return create_reply_plain_data_retrieve_request(announce, source, data, length, reply, reply_max_length, to_auth, (uint16_t)to_auth_length); case NET_PACKET_STORE_ANNOUNCE_REQUEST: return create_reply_plain_store_announce_request(announce, source, data, length, reply, reply_max_length, to_auth, (uint16_t)to_auth_length); default: return -1; } } non_null(1, 2, 5, 7) nullable(3) static int create_reply(Announcements *announce, const IP_Port *source, const uint8_t *sendback, uint16_t sendback_length, const uint8_t *data, uint16_t length, uint8_t *reply, uint16_t reply_max_length) { const int plain_len = (int)length - (1 + CRYPTO_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE + CRYPTO_MAC_SIZE); if (plain_len < (int)sizeof(uint64_t)) { return -1; } VLA(uint8_t, plain, plain_len); const uint8_t *shared_key = dht_get_shared_key_recv(announce->dht, data + 1); if (decrypt_data_symmetric(shared_key, data + 1 + CRYPTO_PUBLIC_KEY_SIZE, data + 1 + CRYPTO_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE, plain_len + CRYPTO_MAC_SIZE, plain) != plain_len) { return -1; } const int plain_reply_max_len = (int)reply_max_length - (1 + CRYPTO_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE + CRYPTO_MAC_SIZE); if (plain_reply_max_len < (int)sizeof(uint64_t)) { return -1; } VLA(uint8_t, plain_reply, plain_reply_max_len); const int plain_reply_noping_len = create_reply_plain(announce, data + 1, source, data[0], sendback, sendback_length, plain, plain_len - sizeof(uint64_t), plain_reply, plain_reply_max_len - sizeof(uint64_t)); if (plain_reply_noping_len == -1) { return -1; } memcpy(plain_reply + plain_reply_noping_len, plain + (plain_len - sizeof(uint64_t)), sizeof(uint64_t)); const uint16_t plain_reply_len = plain_reply_noping_len + sizeof(uint64_t); const uint8_t response_type = announce_response_of_request_type(data[0]); return dht_create_packet(announce->mem, announce->rng, announce->public_key, shared_key, response_type, plain_reply, plain_reply_len, reply, reply_max_length); } non_null(1, 2, 3, 5) nullable(7) static void forwarded_request_callback(void *object, const IP_Port *forwarder, const uint8_t *sendback, uint16_t sendback_length, const uint8_t *data, uint16_t length, void *userdata) { Announcements *announce = (Announcements *) object; uint8_t reply[MAX_FORWARD_DATA_SIZE]; const int len = create_reply(announce, forwarder, sendback, sendback_length, data, length, reply, sizeof(reply)); if (len == -1) { return; } forward_reply(announce->net, forwarder, sendback, sendback_length, reply, len); } non_null(1, 2, 3) nullable(5) static int handle_dht_announce_request( void *object, const IP_Port *source, const uint8_t *packet, uint16_t length, void *userdata) { Announcements *announce = (Announcements *)object; uint8_t reply[MAX_FORWARD_DATA_SIZE]; const int len = create_reply(announce, source, nullptr, 0, packet, length, reply, sizeof(reply)); if (len == -1) { return -1; } return sendpacket(announce->net, source, reply, len) == len ? 0 : -1; } Announcements *new_announcements(const Logger *log, const Memory *mem, const Random *rng, const Mono_Time *mono_time, Forwarding *forwarding) { if (log == nullptr || mono_time == nullptr || forwarding == nullptr) { return nullptr; } Announcements *announce = (Announcements *)calloc(1, sizeof(Announcements)); if (announce == nullptr) { return nullptr; } announce->log = log; announce->mem = mem; announce->rng = rng; announce->forwarding = forwarding; announce->mono_time = mono_time; announce->dht = forwarding_get_dht(forwarding); announce->net = dht_get_net(announce->dht); announce->public_key = dht_get_self_public_key(announce->dht); announce->secret_key = dht_get_self_secret_key(announce->dht); new_hmac_key(announce->rng, announce->hmac_key); announce->shared_keys = shared_key_cache_new(log, mono_time, mem, announce->secret_key, KEYS_TIMEOUT, MAX_KEYS_PER_SLOT); if (announce->shared_keys == nullptr) { free(announce); return nullptr; } announce->start_time = mono_time_get(announce->mono_time); set_callback_forwarded_request(forwarding, forwarded_request_callback, announce); networking_registerhandler(announce->net, NET_PACKET_DATA_SEARCH_REQUEST, handle_dht_announce_request, announce); networking_registerhandler(announce->net, NET_PACKET_DATA_RETRIEVE_REQUEST, handle_dht_announce_request, announce); networking_registerhandler(announce->net, NET_PACKET_STORE_ANNOUNCE_REQUEST, handle_dht_announce_request, announce); return announce; } void kill_announcements(Announcements *announce) { if (announce == nullptr) { return; } set_callback_forwarded_request(announce->forwarding, nullptr, nullptr); networking_registerhandler(announce->net, NET_PACKET_DATA_SEARCH_REQUEST, nullptr, nullptr); networking_registerhandler(announce->net, NET_PACKET_DATA_RETRIEVE_REQUEST, nullptr, nullptr); networking_registerhandler(announce->net, NET_PACKET_STORE_ANNOUNCE_REQUEST, nullptr, nullptr); crypto_memzero(announce->hmac_key, CRYPTO_HMAC_KEY_SIZE); shared_key_cache_free(announce->shared_keys); for (uint32_t i = 0; i < ANNOUNCE_BUCKETS * ANNOUNCE_BUCKET_SIZE; ++i) { free(announce->entries[i].data); } free(announce); }