/* SPDX-License-Identifier: GPL-3.0-or-later * Copyright © 2016-2020 The TokTok team. * Copyright © 2015 Tox project. */ /** * An implementation of massive text only group chats. */ #include "group_chats.h" #include #include #include #include #include "DHT.h" #include "Messenger.h" #include "TCP_connection.h" #include "attributes.h" #include "bin_pack.h" #include "bin_unpack.h" #include "ccompat.h" #include "crypto_core.h" #include "friend_connection.h" #include "group_announce.h" #include "group_common.h" #include "group_connection.h" #include "group_moderation.h" #include "group_pack.h" #include "logger.h" #include "mem.h" #include "mono_time.h" #include "net_crypto.h" #include "network.h" #include "onion_announce.h" #include "onion_client.h" #include "util.h" /* The minimum size of a plaintext group handshake packet */ #define GC_MIN_HS_PACKET_PAYLOAD_SIZE (1 + ENC_PUBLIC_KEY_SIZE + SIG_PUBLIC_KEY_SIZE + 1 + 1) /* The minimum size of an encrypted group handshake packet. */ #define GC_MIN_ENCRYPTED_HS_PAYLOAD_SIZE (1 + ENC_PUBLIC_KEY_SIZE + ENC_PUBLIC_KEY_SIZE +\ GC_MIN_HS_PACKET_PAYLOAD_SIZE + CRYPTO_NONCE_SIZE + CRYPTO_MAC_SIZE) /* Size of a group's shared state in packed format */ #define GC_PACKED_SHARED_STATE_SIZE (EXT_PUBLIC_KEY_SIZE + sizeof(uint16_t) + MAX_GC_GROUP_NAME_SIZE +\ sizeof(uint16_t) + 1 + sizeof(uint16_t) + MAX_GC_PASSWORD_SIZE +\ MOD_MODERATION_HASH_SIZE + sizeof(uint32_t) + sizeof(uint32_t) + 1) /* Minimum size of a topic packet; includes topic length, public signature key, topic version and checksum */ #define GC_MIN_PACKED_TOPIC_INFO_SIZE (sizeof(uint16_t) + SIG_PUBLIC_KEY_SIZE + sizeof(uint32_t) + sizeof(uint16_t)) #define GC_SHARED_STATE_ENC_PACKET_SIZE (SIGNATURE_SIZE + GC_PACKED_SHARED_STATE_SIZE) /* Header information attached to all broadcast messages: broadcast_type */ #define GC_BROADCAST_ENC_HEADER_SIZE 1 /* Size of a group packet message ID */ #define GC_MESSAGE_ID_BYTES sizeof(uint64_t) /* Size of a lossless ack packet */ #define GC_LOSSLESS_ACK_PACKET_SIZE (GC_MESSAGE_ID_BYTES + 1) /* Smallest possible size of an encrypted lossless payload. * * Data includes the message_id, group packet type, and the nonce and MAC for decryption. */ #define GC_MIN_LOSSLESS_PAYLOAD_SIZE (GC_MESSAGE_ID_BYTES + CRYPTO_NONCE_SIZE + 1 + CRYPTO_MAC_SIZE) /* Smallest possible size of a lossy group packet */ #define GC_MIN_LOSSY_PAYLOAD_SIZE (GC_MIN_LOSSLESS_PAYLOAD_SIZE - GC_MESSAGE_ID_BYTES) /* Maximum number of bytes to pad packets with. * * Packets are padded with a random number of zero bytes between zero and this value in order to hide * the true length of the message, which reduces the amount of metadata leaked through packet analysis. * * Note: This behaviour was copied from the toxcore encryption implementation in net_crypto.c. */ #define GC_MAX_PACKET_PADDING 8 /* Minimum size of a ping packet, which contains the peer count, peer list checksum, shared state version, * sanctions list version, sanctions list checksum, topic version, and topic checksum */ #define GC_PING_PACKET_MIN_DATA_SIZE ((sizeof(uint16_t) * 4) + (sizeof(uint32_t) * 3)) /* How often in seconds we can send a group sync request packet */ #define GC_SYNC_REQUEST_LIMIT (GC_PING_TIMEOUT + 1) /* How often in seconds we can send the peer list to any peer in the group in a sync response */ #define GC_SYNC_RESPONSE_PEER_LIST_LIMIT 3 /* How often in seconds we try to handshake with an unconfirmed peer */ #define GC_SEND_HANDSHAKE_INTERVAL 3 /* How often in seconds we rotate session encryption keys with a peer */ #define GC_KEY_ROTATION_TIMEOUT (5 * 60) /* How often in seconds we try to reconnect to peers that recently timed out */ #define GC_TIMED_OUT_RECONN_TIMEOUT (GC_UNCONFIRMED_PEER_TIMEOUT * 3) /* How long in seconds before we stop trying to reconnect with a timed out peer */ #define GC_TIMED_OUT_STALE_TIMEOUT (60 * 15) /* The value the topic lock is set to when the topic lock is enabled. */ #define GC_TOPIC_LOCK_ENABLED 0 static_assert(GCC_BUFFER_SIZE <= UINT16_MAX, "GCC_BUFFER_SIZE must be <= UINT16_MAX)"); static_assert(MAX_GC_PACKET_CHUNK_SIZE < MAX_GC_PACKET_SIZE, "MAX_GC_PACKET_CHUNK_SIZE must be < MAX_GC_PACKET_SIZE"); static_assert(MAX_GC_PACKET_INCOMING_CHUNK_SIZE < MAX_GC_PACKET_SIZE, "MAX_GC_PACKET_INCOMING_CHUNK_SIZE must be < MAX_GC_PACKET_SIZE"); static_assert(MAX_GC_PACKET_INCOMING_CHUNK_SIZE >= MAX_GC_PACKET_CHUNK_SIZE, "MAX_GC_PACKET_INCOMING_CHUNK_SIZE must be >= MAX_GC_PACKET_CHUNK_SIZE"); // size of a lossless handshake packet - lossless packets can't/shouldn't be split up static_assert(MAX_GC_PACKET_CHUNK_SIZE >= 171, "MAX_GC_PACKET_CHUNK_SIZE must be >= 171"); static_assert(MAX_GC_PACKET_INCOMING_CHUNK_SIZE >= 171, "MAX_GC_PACKET_INCOMING_CHUNK_SIZE must be >= 171"); // group_moderation constants assume this is the max packet size. static_assert(MAX_GC_PACKET_SIZE >= 50000, "MAX_GC_PACKET_SIZE doesn't match constants in group_moderation.h"); static_assert(MAX_GC_PACKET_SIZE <= UINT16_MAX - MAX_GC_PACKET_CHUNK_SIZE, "MAX_GC_PACKET_SIZE must be <= UINT16_MAX - MAX_GC_PACKET_CHUNK_SIZE"); static_assert(MAX_GC_PACKET_SIZE <= UINT16_MAX - MAX_GC_PACKET_INCOMING_CHUNK_SIZE, "MAX_GC_PACKET_SIZE must be <= UINT16_MAX - MAX_GC_PACKET_INCOMING_CHUNK_SIZE"); /** Types of broadcast messages. */ typedef enum Group_Message_Type { GC_MESSAGE_TYPE_NORMAL = 0x00, GC_MESSAGE_TYPE_ACTION = 0x01, } Group_Message_Type; /** Types of handshake request packets. */ typedef enum Group_Handshake_Packet_Type { GH_REQUEST = 0x00, // Requests a handshake GH_RESPONSE = 0x01, // Responds to a handshake request } Group_Handshake_Packet_Type; /** Types of handshake requests (within a handshake request packet). */ typedef enum Group_Handshake_Request_Type { HS_INVITE_REQUEST = 0x00, // Requests an invite to the group HS_PEER_INFO_EXCHANGE = 0x01, // Requests a peer info exchange } Group_Handshake_Request_Type; /** These bitmasks determine what group state info a peer is requesting in a sync request */ typedef enum Group_Sync_Flags { GF_PEERS = (1 << 0), // 1 GF_TOPIC = (1 << 1), // 2 GF_STATE = (1 << 2), // 4 } Group_Sync_Flags; non_null() static bool self_gc_is_founder(const GC_Chat *chat); non_null() static bool group_number_valid(const GC_Session *c, int group_number); non_null() static int peer_update(const GC_Chat *chat, const GC_Peer *peer, uint32_t peer_number); non_null() static void group_delete(GC_Session *c, GC_Chat *chat); non_null() static void group_cleanup(const GC_Session *c, GC_Chat *chat); non_null() static bool group_exists(const GC_Session *c, const uint8_t *chat_id); non_null() static void add_tcp_relays_to_chat(const GC_Session *c, GC_Chat *chat); non_null(1, 2) nullable(4) static bool peer_delete(const GC_Session *c, GC_Chat *chat, uint32_t peer_number, void *userdata); non_null() static void create_gc_session_keypair(const Logger *log, const Random *rng, uint8_t *public_key, uint8_t *secret_key); non_null() static size_t load_gc_peers(GC_Chat *chat, const GC_SavedPeerInfo *addrs, uint16_t num_addrs); non_null() static bool saved_peer_is_valid(const GC_SavedPeerInfo *saved_peer); static const GC_Chat empty_gc_chat = {nullptr}; #define GC_INVALID_PEER_ID_VALUE ((force GC_Peer_Id_Value)-1) static GC_Peer_Id gc_invalid_peer_id(void) { const GC_Peer_Id invalid = {GC_INVALID_PEER_ID_VALUE}; return invalid; } static bool gc_peer_id_is_valid(GC_Peer_Id peer_id) { return peer_id.value != GC_INVALID_PEER_ID_VALUE; } GC_Peer_Id gc_peer_id_from_int(uint32_t value) { const GC_Peer_Id peer_id = {(force GC_Peer_Id_Value)value}; return peer_id; } uint32_t gc_peer_id_to_int(GC_Peer_Id peer_id) { return (force uint32_t)peer_id.value; } static GC_Peer_Id gc_unknown_peer_id(void) { return gc_peer_id_from_int(0); } non_null() static void kill_group_friend_connection(const GC_Session *c, const GC_Chat *chat) { if (chat->friend_connection_id != -1) { m_kill_group_connection(c->messenger, chat); } } uint16_t gc_get_wrapped_packet_size(uint16_t length, Net_Packet_Type packet_type) { assert(length <= (packet_type == NET_PACKET_GC_LOSSY ? MAX_GC_CUSTOM_LOSSY_PACKET_SIZE : MAX_GC_PACKET_CHUNK_SIZE)); const uint16_t min_header_size = packet_type == NET_PACKET_GC_LOSSY ? GC_MIN_LOSSY_PAYLOAD_SIZE : GC_MIN_LOSSLESS_PAYLOAD_SIZE; const uint16_t header_size = ENC_PUBLIC_KEY_SIZE + GC_MAX_PACKET_PADDING + min_header_size; assert(length <= UINT16_MAX - header_size); return length + header_size; } /** Return true if `peer_number` is our own. */ static bool peer_number_is_self(int peer_number) { return peer_number == 0; } bool gc_peer_number_is_valid(const GC_Chat *chat, int peer_number) { return peer_number >= 0 && peer_number < (int)chat->numpeers; } non_null() static GC_Peer *get_gc_peer(const GC_Chat *chat, int peer_number) { if (!gc_peer_number_is_valid(chat, peer_number)) { return nullptr; } return &chat->group[peer_number]; } GC_Connection *get_gc_connection(const GC_Chat *chat, int peer_number) { GC_Peer *peer = get_gc_peer(chat, peer_number); if (peer == nullptr) { return nullptr; } return &peer->gconn; } /** Returns the max packet size, not wrapped */ static uint16_t group_packet_max_packet_size(Net_Packet_Type net_packet_type) { if (net_packet_type == NET_PACKET_GC_LOSSY) { return MAX_GC_CUSTOM_LOSSY_PACKET_SIZE; } else { return MAX_GC_PACKET_CHUNK_SIZE; } } /** Returns the amount of empty padding a packet of designated length should have. */ static uint16_t group_packet_padding_length(uint16_t length, uint16_t max_length) { return (max_length - length) % GC_MAX_PACKET_PADDING; } void gc_get_self_nick(const GC_Chat *chat, uint8_t *nick) { if (nick != nullptr) { const GC_Peer *peer = get_gc_peer(chat, 0); assert(peer != nullptr); assert(peer->nick_length > 0); memcpy(nick, peer->nick, peer->nick_length); } } uint16_t gc_get_self_nick_size(const GC_Chat *chat) { const GC_Peer *peer = get_gc_peer(chat, 0); assert(peer != nullptr); return peer->nick_length; } /** @brief Sets self nick to `nick`. * * Returns false if `nick` is null or `length` is greater than MAX_GC_NICK_SIZE. */ non_null() static bool self_gc_set_nick(const GC_Chat *chat, const uint8_t *nick, uint16_t length) { if (nick == nullptr || length > MAX_GC_NICK_SIZE) { return false; } GC_Peer *peer = get_gc_peer(chat, 0); assert(peer != nullptr); memcpy(peer->nick, nick, length); peer->nick_length = length; return true; } Group_Role gc_get_self_role(const GC_Chat *chat) { const GC_Peer *peer = get_gc_peer(chat, 0); assert(peer != nullptr); return peer->role; } /** Sets self role. If role is invalid this function has no effect. */ non_null() static void self_gc_set_role(const GC_Chat *chat, Group_Role role) { if (role <= GR_OBSERVER) { GC_Peer *peer = get_gc_peer(chat, 0); assert(peer != nullptr); peer->role = role; } } uint8_t gc_get_self_status(const GC_Chat *chat) { const GC_Peer *peer = get_gc_peer(chat, 0); assert(peer != nullptr); return peer->status; } /** Sets self status. If status is invalid this function has no effect. */ non_null() static void self_gc_set_status(const GC_Chat *chat, Group_Peer_Status status) { if (status == GS_NONE || status == GS_AWAY || status == GS_BUSY) { GC_Peer *peer = get_gc_peer(chat, 0); assert(peer != nullptr); peer->status = status; return; } LOGGER_WARNING(chat->log, "Attempting to set user status with invalid status: %u", (uint8_t)status); } GC_Peer_Id gc_get_self_peer_id(const GC_Chat *chat) { const GC_Peer *peer = get_gc_peer(chat, 0); assert(peer != nullptr); return peer->peer_id; } /** Sets self confirmed status. */ non_null() static void self_gc_set_confirmed(const GC_Chat *chat, bool confirmed) { GC_Connection *gconn = get_gc_connection(chat, 0); assert(gconn != nullptr); gconn->confirmed = confirmed; } /** Returns true if self has the founder role */ non_null() static bool self_gc_is_founder(const GC_Chat *chat) { return gc_get_self_role(chat) == GR_FOUNDER; } void gc_get_self_public_key(const GC_Chat *chat, uint8_t *public_key) { if (public_key != nullptr) { memcpy(public_key, chat->self_public_key.enc, ENC_PUBLIC_KEY_SIZE); } } /** @brief Sets self extended public key to `ext_public_key`. * * If `ext_public_key` is null this function has no effect. */ non_null() static void self_gc_set_ext_public_key(const GC_Chat *chat, const Extended_Public_Key *ext_public_key) { if (ext_public_key != nullptr) { GC_Connection *gconn = get_gc_connection(chat, 0); assert(gconn != nullptr); gconn->addr.public_key = *ext_public_key; } } /** * Return true if `peer` has permission to speak according to the `voice_state`. */ non_null() static bool peer_has_voice(const GC_Peer *peer, Group_Voice_State voice_state) { const Group_Role role = peer->role; switch (voice_state) { case GV_ALL: return role <= GR_USER; case GV_MODS: return role <= GR_MODERATOR; case GV_FOUNDER: return role == GR_FOUNDER; default: return false; } } int pack_gc_saved_peers(const GC_Chat *chat, uint8_t *data, uint16_t length, uint16_t *processed) { uint16_t packed_len = 0; uint16_t count = 0; for (uint32_t i = 0; i < GC_MAX_SAVED_PEERS; ++i) { const GC_SavedPeerInfo *saved_peer = &chat->saved_peers[i]; if (!saved_peer_is_valid(saved_peer)) { continue; } int packed_ipp_len = 0; int packed_tcp_len = 0; if (ipport_isset(&saved_peer->ip_port)) { if (packed_len > length) { return -1; } packed_ipp_len = pack_ip_port(chat->log, data + packed_len, length - packed_len, &saved_peer->ip_port); if (packed_ipp_len > 0) { packed_len += packed_ipp_len; } } if (ipport_isset(&saved_peer->tcp_relay.ip_port)) { if (packed_len > length) { return -1; } packed_tcp_len = pack_nodes(chat->log, data + packed_len, length - packed_len, &saved_peer->tcp_relay, 1); if (packed_tcp_len > 0) { packed_len += packed_tcp_len; } } if (packed_len + ENC_PUBLIC_KEY_SIZE > length) { return -1; } if (packed_tcp_len > 0 || packed_ipp_len > 0) { memcpy(data + packed_len, chat->saved_peers[i].public_key, ENC_PUBLIC_KEY_SIZE); packed_len += ENC_PUBLIC_KEY_SIZE; ++count; } else { LOGGER_WARNING(chat->log, "Failed to pack saved peer"); } } if (processed != nullptr) { *processed = packed_len; } return count; } int unpack_gc_saved_peers(GC_Chat *chat, const uint8_t *data, uint16_t length) { uint16_t count = 0; uint16_t unpacked_len = 0; for (size_t i = 0; unpacked_len < length; ++i) { GC_SavedPeerInfo *saved_peer = &chat->saved_peers[i]; const int ipp_len = unpack_ip_port(&saved_peer->ip_port, data + unpacked_len, length - unpacked_len, false); if (ipp_len > 0) { unpacked_len += ipp_len; } if (unpacked_len > length) { return -1; } uint16_t tcp_len_processed = 0; const int tcp_len = unpack_nodes(&saved_peer->tcp_relay, 1, &tcp_len_processed, data + unpacked_len, length - unpacked_len, true); if (tcp_len == 1 && tcp_len_processed > 0) { unpacked_len += tcp_len_processed; } else if (ipp_len <= 0) { LOGGER_WARNING(chat->log, "Failed to unpack saved peer: Invalid connection info."); return -1; } if (unpacked_len + ENC_PUBLIC_KEY_SIZE > length) { return -1; } if (tcp_len > 0 || ipp_len > 0) { memcpy(saved_peer->public_key, data + unpacked_len, ENC_PUBLIC_KEY_SIZE); unpacked_len += ENC_PUBLIC_KEY_SIZE; ++count; } else { LOGGER_ERROR(chat->log, "Unpacked peer with bad connection info"); return -1; } } return count; } /** Returns true if chat privacy state is set to public. */ non_null() static bool is_public_chat(const GC_Chat *chat) { return chat->shared_state.privacy_state == GI_PUBLIC; } /** Returns true if group is password protected */ non_null() static bool chat_is_password_protected(const GC_Chat *chat) { return chat->shared_state.password_length > 0; } /** Returns true if `password` matches the current group password. */ non_null() static bool validate_password(const GC_Chat *chat, const uint8_t *password, uint16_t length) { if (length > MAX_GC_PASSWORD_SIZE) { return false; } if (length != chat->shared_state.password_length) { return false; } return memcmp(chat->shared_state.password, password, length) == 0; } /** @brief Returns the chat object that contains a peer with a public key equal to `id`. * * `id` must be at least ENC_PUBLIC_KEY_SIZE bytes in length. */ non_null() static GC_Chat *get_chat_by_id(const GC_Session *c, const uint8_t *id) { if (c == nullptr) { return nullptr; } for (uint32_t i = 0; i < c->chats_index; ++i) { GC_Chat *chat = &c->chats[i]; if (chat->connection_state == CS_NONE) { continue; } if (memcmp(id, chat->self_public_key.enc, ENC_PUBLIC_KEY_SIZE) == 0) { return chat; } if (get_peer_number_of_enc_pk(chat, id, false) != -1) { return chat; } } return nullptr; } /** @brief Returns the jenkins hash of a 32 byte public encryption key. */ uint32_t gc_get_pk_jenkins_hash(const uint8_t *public_key) { return jenkins_one_at_a_time_hash(public_key, ENC_PUBLIC_KEY_SIZE); } /** @brief Sets the sum of the public_key_hash of all confirmed peers. * * Must be called every time a peer is confirmed or deleted. */ non_null() static void set_gc_peerlist_checksum(GC_Chat *chat) { uint16_t sum = 0; for (uint32_t i = 0; i < chat->numpeers; ++i) { const GC_Connection *gconn = get_gc_connection(chat, i); assert(gconn != nullptr); if (gconn->confirmed) { sum += gconn->public_key_hash; } } chat->peers_checksum = sum; } /** Returns a checksum of the topic currently set in `topic_info`. */ non_null() static uint16_t get_gc_topic_checksum(const GC_TopicInfo *topic_info) { return data_checksum(topic_info->topic, topic_info->length); } int get_peer_number_of_enc_pk(const GC_Chat *chat, const uint8_t *public_enc_key, bool confirmed) { for (uint32_t i = 0; i < chat->numpeers; ++i) { const GC_Connection *gconn = get_gc_connection(chat, i); assert(gconn != nullptr); if (gconn->pending_delete) { continue; } if (confirmed && !gconn->confirmed) { continue; } if (memcmp(gconn->addr.public_key.enc, public_enc_key, ENC_PUBLIC_KEY_SIZE) == 0) { return i; } } return -1; } /** @brief Check if peer associated with `public_sig_key` is in peer list. * * Returns the peer number if peer is in the peer list. * Returns -1 if peer is not in the peer list. */ non_null() static int get_peer_number_of_sig_pk(const GC_Chat *chat, const uint8_t *public_sig_key) { for (uint32_t i = 0; i < chat->numpeers; ++i) { const GC_Connection *gconn = get_gc_connection(chat, i); assert(gconn != nullptr); if (memcmp(get_sig_pk(&gconn->addr.public_key), public_sig_key, SIG_PUBLIC_KEY_SIZE) == 0) { return i; } } return -1; } non_null() static bool gc_get_enc_pk_from_sig_pk(const GC_Chat *chat, uint8_t *public_key, const uint8_t *public_sig_key) { for (uint32_t i = 0; i < chat->numpeers; ++i) { const GC_Connection *gconn = get_gc_connection(chat, i); assert(gconn != nullptr); const Extended_Public_Key *full_pk = &gconn->addr.public_key; if (memcmp(public_sig_key, get_sig_pk(full_pk), SIG_PUBLIC_KEY_SIZE) == 0) { memcpy(public_key, get_enc_key(full_pk), ENC_PUBLIC_KEY_SIZE); return true; } } return false; } non_null() static GC_Connection *random_gc_connection(const GC_Chat *chat) { if (chat->numpeers <= 1) { return nullptr; } const uint32_t base = random_range_u32(chat->rng, chat->numpeers - 1); for (uint32_t i = 0; i < chat->numpeers - 1; ++i) { const uint32_t index = 1 + (base + i) % (chat->numpeers - 1); GC_Connection *rand_gconn = get_gc_connection(chat, index); if (rand_gconn == nullptr) { return nullptr; } if (!rand_gconn->pending_delete && rand_gconn->confirmed) { return rand_gconn; } } return nullptr; } /** @brief Returns the peer number associated with peer_id. * Returns -1 if peer_id is invalid. */ non_null() static int get_peer_number_of_peer_id(const GC_Chat *chat, GC_Peer_Id peer_id) { for (uint32_t i = 0; i < chat->numpeers; ++i) { if (chat->group[i].peer_id.value == peer_id.value) { return i; } } return -1; } /** @brief Returns a unique peer ID. * Returns UINT32_MAX if all possible peer ID's are taken. * * These ID's are permanently assigned to a peer when they join the group and should be * considered arbitrary values. */ non_null() static GC_Peer_Id get_new_peer_id(const GC_Chat *chat) { for (uint32_t i = 0; i < UINT32_MAX - 1; ++i) { const GC_Peer_Id peer_id = gc_peer_id_from_int(i); if (get_peer_number_of_peer_id(chat, peer_id) == -1) { return peer_id; } } return gc_invalid_peer_id(); } /** @brief Sets the password for the group (locally only). * * Return true on success. */ non_null(1) nullable(2) static bool set_gc_password_local(GC_Chat *chat, const uint8_t *passwd, uint16_t length) { if (length > MAX_GC_PASSWORD_SIZE) { return false; } if (passwd == nullptr || length == 0) { chat->shared_state.password_length = 0; memzero(chat->shared_state.password, MAX_GC_PASSWORD_SIZE); } else { chat->shared_state.password_length = length; crypto_memlock(chat->shared_state.password, sizeof(chat->shared_state.password)); memcpy(chat->shared_state.password, passwd, length); } return true; } /** @brief Sets the local shared state to `version`. * * This should always be called instead of setting the variables manually. */ non_null() static void set_gc_shared_state_version(GC_Chat *chat, uint32_t version) { chat->shared_state.version = version; chat->moderation.shared_state_version = version; } /** @brief Expands the chat_id into the extended chat public key (encryption key + signature key). * * @param dest must have room for EXT_PUBLIC_KEY_SIZE bytes. * * Return true on success. */ non_null() static bool expand_chat_id(Extended_Public_Key *dest, const uint8_t *chat_id) { assert(dest != nullptr); const int ret = crypto_sign_ed25519_pk_to_curve25519(dest->enc, chat_id); memcpy(dest->sig, chat_id, SIG_PUBLIC_KEY_SIZE); return ret != -1; } /** Copies peer connect info from `gconn` to `addr`. */ non_null() static void copy_gc_saved_peer(const Random *rng, const GC_Connection *gconn, GC_SavedPeerInfo *addr) { if (!gcc_copy_tcp_relay(rng, &addr->tcp_relay, gconn)) { addr->tcp_relay = (Node_format) { 0 }; } addr->ip_port = gconn->addr.ip_port; memcpy(addr->public_key, gconn->addr.public_key.enc, ENC_PUBLIC_KEY_SIZE); } /** Return true if `saved_peer` has either a valid IP_Port or a valid TCP relay. */ non_null() static bool saved_peer_is_valid(const GC_SavedPeerInfo *saved_peer) { return ipport_isset(&saved_peer->ip_port) || ipport_isset(&saved_peer->tcp_relay.ip_port); } /** @brief Returns the index of the saved peers entry for `public_key`. * Returns -1 if key is not found. */ non_null() static int saved_peer_index(const GC_Chat *chat, const uint8_t *public_key) { for (uint16_t i = 0; i < GC_MAX_SAVED_PEERS; ++i) { const GC_SavedPeerInfo *saved_peer = &chat->saved_peers[i]; if (memcmp(saved_peer->public_key, public_key, ENC_PUBLIC_KEY_SIZE) == 0) { return i; } } return -1; } /** @brief Returns the index of the first vacant entry in saved peers list. * * If `public_key` is non-null and already exists in the list, its index will be returned. * * A vacant entry is an entry that does not have either an IP_port or tcp relay set (invalid), * or an entry containing info on a peer that is not presently online (offline). * * Invalid entries are given priority over offline entries. * * Returns -1 if there are no vacant indices. */ non_null(1) nullable(2) static int saved_peers_get_new_index(const GC_Chat *chat, const uint8_t *public_key) { if (public_key != nullptr) { const int idx = saved_peer_index(chat, public_key); if (idx != -1) { return idx; } } // first check for invalid spots for (uint16_t i = 0; i < GC_MAX_SAVED_PEERS; ++i) { const GC_SavedPeerInfo *saved_peer = &chat->saved_peers[i]; if (!saved_peer_is_valid(saved_peer)) { return i; } } // now look for entries with offline peers for (uint16_t i = 0; i < GC_MAX_SAVED_PEERS; ++i) { const GC_SavedPeerInfo *saved_peer = &chat->saved_peers[i]; const int peernumber = get_peer_number_of_enc_pk(chat, saved_peer->public_key, true); if (peernumber < 0) { return i; } } return -1; } /** @brief Attempts to add `gconn` to the saved peer list. * * If an entry already exists it will be updated. * * Older peers will only be overwritten if the peer is no longer * present in the chat. This gives priority to more stable connections. * * This function should be called every time a new peer joins the group. */ non_null() static void add_gc_saved_peers(GC_Chat *chat, const GC_Connection *gconn) { const int idx = saved_peers_get_new_index(chat, gconn->addr.public_key.enc); if (idx == -1) { return; } GC_SavedPeerInfo *saved_peer = &chat->saved_peers[idx]; copy_gc_saved_peer(chat->rng, gconn, saved_peer); } /** @brief Finds the first vacant spot in the saved peers list and fills it with a present * peer who isn't already in the list. * * This function should be called after a confirmed peer exits the group. */ non_null() static void refresh_gc_saved_peers(GC_Chat *chat) { const int idx = saved_peers_get_new_index(chat, nullptr); if (idx == -1) { return; } for (uint32_t i = 1; i < chat->numpeers; ++i) { const GC_Connection *gconn = get_gc_connection(chat, i); if (gconn == nullptr) { continue; } if (!gconn->confirmed) { continue; } if (saved_peer_index(chat, gconn->addr.public_key.enc) == -1) { GC_SavedPeerInfo *saved_peer = &chat->saved_peers[idx]; copy_gc_saved_peer(chat->rng, gconn, saved_peer); return; } } } /** Returns the number of confirmed peers in peerlist. */ non_null() static uint16_t get_gc_confirmed_numpeers(const GC_Chat *chat) { uint16_t count = 0; for (uint32_t i = 0; i < chat->numpeers; ++i) { const GC_Connection *gconn = get_gc_connection(chat, i); assert(gconn != nullptr); if (gconn->confirmed) { ++count; } } return count; } non_null() static bool sign_gc_shared_state(GC_Chat *chat); non_null() static bool broadcast_gc_mod_list(const GC_Chat *chat); non_null() static bool broadcast_gc_shared_state(const GC_Chat *chat); non_null() static bool update_gc_sanctions_list(GC_Chat *chat, const uint8_t *public_sig_key); non_null() static bool update_gc_topic(GC_Chat *chat, const uint8_t *public_sig_key); non_null() static bool send_gc_set_observer(const GC_Chat *chat, const Extended_Public_Key *target_ext_pk, const uint8_t *sanction_data, uint16_t length, bool add_obs); /** Returns true if peer designated by `peer_number` is in the sanctions list as an observer. */ non_null() static bool peer_is_observer(const GC_Chat *chat, uint32_t peer_number) { const GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return false; } return sanctions_list_is_observer(&chat->moderation, get_enc_key(&gconn->addr.public_key)); } /** Returns true if peer designated by `peer_number` is the group founder. */ non_null() static bool peer_is_founder(const GC_Chat *chat, uint32_t peer_number) { const GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return false; } return memcmp(chat->shared_state.founder_public_key.enc, gconn->addr.public_key.enc, ENC_PUBLIC_KEY_SIZE) == 0; } /** Returns true if peer designated by `peer_number` is in the moderator list or is the founder. */ non_null() static bool peer_is_moderator(const GC_Chat *chat, uint32_t peer_number) { const GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return false; } if (peer_is_founder(chat, peer_number)) { return false; } return mod_list_verify_sig_pk(&chat->moderation, get_sig_pk(&gconn->addr.public_key)); } /** @brief Iterates through the peerlist and updates group roles according to the * current group state. * * Also updates the roles checksum. If any role conflicts exist the shared state * version is set to zero in order to force a sync update. * * This should be called every time the moderator list or sanctions list changes, * and after a new peer is marked as confirmed. */ non_null() static void update_gc_peer_roles(GC_Chat *chat) { chat->roles_checksum = 0; bool conflicts = false; for (uint32_t i = 0; i < chat->numpeers; ++i) { const GC_Connection *gconn = get_gc_connection(chat, i); if (gconn == nullptr) { continue; } if (!gconn->confirmed) { continue; } const uint8_t first_byte = gconn->addr.public_key.enc[0]; const bool is_founder = peer_is_founder(chat, i); if (is_founder) { chat->group[i].role = GR_FOUNDER; chat->roles_checksum += GR_FOUNDER + first_byte; continue; } const bool is_observer = peer_is_observer(chat, i); const bool is_moderator = peer_is_moderator(chat, i); const bool is_user = !(is_founder || is_moderator || is_observer); if (is_observer && is_moderator) { conflicts = true; } if (is_user) { chat->group[i].role = GR_USER; chat->roles_checksum += GR_USER + first_byte; continue; } if (is_moderator) { chat->group[i].role = GR_MODERATOR; chat->roles_checksum += GR_MODERATOR + first_byte; continue; } if (is_observer) { chat->group[i].role = GR_OBSERVER; chat->roles_checksum += GR_OBSERVER + first_byte; continue; } } if (conflicts && !self_gc_is_founder(chat)) { set_gc_shared_state_version(chat, 0); // need a new shared state } } /** @brief Removes the first found offline mod from the mod list. * * Broadcasts the shared state and moderator list on success, as well as the updated * sanctions list if necessary. * * TODO(Jfreegman): Make this smarter in who to remove (e.g. the mod who hasn't been seen online in the longest time) * * Returns false on failure. */ non_null() static bool prune_gc_mod_list(GC_Chat *chat) { if (chat->moderation.num_mods == 0) { return true; } uint8_t public_sig_key[SIG_PUBLIC_KEY_SIZE]; bool pruned_mod = false; for (uint16_t i = 0; i < chat->moderation.num_mods; ++i) { if (get_peer_number_of_sig_pk(chat, chat->moderation.mod_list[i]) == -1) { memcpy(public_sig_key, chat->moderation.mod_list[i], SIG_PUBLIC_KEY_SIZE); if (!mod_list_remove_index(&chat->moderation, i)) { continue; } pruned_mod = true; break; } } return pruned_mod && mod_list_make_hash(&chat->moderation, chat->shared_state.mod_list_hash) && sign_gc_shared_state(chat) && broadcast_gc_shared_state(chat) && broadcast_gc_mod_list(chat) && update_gc_sanctions_list(chat, public_sig_key) && update_gc_topic(chat, public_sig_key); } non_null() static bool prune_gc_sanctions_list_inner( GC_Chat *chat, const Mod_Sanction *sanction, const Extended_Public_Key *target_ext_pk) { if (!sanctions_list_remove_observer(&chat->moderation, sanction->target_public_enc_key, nullptr)) { LOGGER_WARNING(chat->log, "Failed to remove entry from observer list"); return false; } uint8_t data[MOD_SANCTIONS_CREDS_SIZE]; const uint16_t length = sanctions_creds_pack(&chat->moderation.sanctions_creds, data); if (length != MOD_SANCTIONS_CREDS_SIZE) { LOGGER_ERROR(chat->log, "Failed to pack credentials (invalid length: %u)", length); return false; } if (!send_gc_set_observer(chat, target_ext_pk, data, length, false)) { LOGGER_WARNING(chat->log, "Failed to broadcast set observer"); return false; } return true; } /** @brief Removes the first found offline sanctioned peer from the sanctions list and sends the * event to the rest of the group. * * @retval false on failure or if no presently sanctioned peer is offline. */ non_null() static bool prune_gc_sanctions_list(GC_Chat *chat) { if (chat->moderation.num_sanctions == 0) { return true; } for (uint16_t i = 0; i < chat->moderation.num_sanctions; ++i) { const int peer_number = get_peer_number_of_enc_pk(chat, chat->moderation.sanctions[i].target_public_enc_key, true); if (peer_number == -1) { const Mod_Sanction *sanction = &chat->moderation.sanctions[i]; Extended_Public_Key target_ext_pk; memcpy(target_ext_pk.enc, sanction->target_public_enc_key, ENC_PUBLIC_KEY_SIZE); memcpy(target_ext_pk.sig, sanction->setter_public_sig_key, SIG_PUBLIC_KEY_SIZE); return prune_gc_sanctions_list_inner(chat, sanction, &target_ext_pk); } } return false; } /** @brief Size of peer data that we pack for transfer (nick length must be accounted for separately). * packed data consists of: nick length, nick, and status. */ #define PACKED_GC_PEER_SIZE (sizeof(uint16_t) + MAX_GC_NICK_SIZE + sizeof(uint8_t)) /** @brief Packs peer info into data of maxlength length. * * Return length of packed peer on success. * Return -1 on failure. */ non_null() static int pack_gc_peer(uint8_t *data, uint16_t length, const GC_Peer *peer) { if (PACKED_GC_PEER_SIZE > length) { return -1; } uint32_t packed_len = 0; net_pack_u16(data + packed_len, peer->nick_length); packed_len += sizeof(uint16_t); memcpy(data + packed_len, peer->nick, MAX_GC_NICK_SIZE); packed_len += MAX_GC_NICK_SIZE; memcpy(data + packed_len, &peer->status, sizeof(uint8_t)); packed_len += sizeof(uint8_t); return packed_len; } /** @brief Unpacks peer info of size length into peer. * * Returns the length of processed data on success. * Returns -1 on failure. */ non_null() static int unpack_gc_peer(GC_Peer *peer, const uint8_t *data, uint16_t length) { if (PACKED_GC_PEER_SIZE > length) { return -1; } uint16_t len_processed = 0; net_unpack_u16(data + len_processed, &peer->nick_length); len_processed += sizeof(uint16_t); peer->nick_length = min_u16(MAX_GC_NICK_SIZE, peer->nick_length); memcpy(peer->nick, data + len_processed, MAX_GC_NICK_SIZE); len_processed += MAX_GC_NICK_SIZE; memcpy(&peer->status, data + len_processed, sizeof(uint8_t)); len_processed += sizeof(uint8_t); return len_processed; } /** @brief Packs shared_state into data. * * @param data must have room for at least GC_PACKED_SHARED_STATE_SIZE bytes. * * Returns packed data length. */ non_null() static uint16_t pack_gc_shared_state(uint8_t *data, uint16_t length, const GC_SharedState *shared_state) { if (length < GC_PACKED_SHARED_STATE_SIZE) { return 0; } const uint8_t privacy_state = shared_state->privacy_state; const uint8_t voice_state = shared_state->voice_state; uint16_t packed_len = 0; // version is always first net_pack_u32(data + packed_len, shared_state->version); packed_len += sizeof(uint32_t); memcpy(data + packed_len, shared_state->founder_public_key.enc, ENC_PUBLIC_KEY_SIZE); packed_len += ENC_PUBLIC_KEY_SIZE; memcpy(data + packed_len, shared_state->founder_public_key.sig, SIG_PUBLIC_KEY_SIZE); packed_len += SIG_PUBLIC_KEY_SIZE; net_pack_u16(data + packed_len, shared_state->maxpeers); packed_len += sizeof(uint16_t); net_pack_u16(data + packed_len, shared_state->group_name_len); packed_len += sizeof(uint16_t); memcpy(data + packed_len, shared_state->group_name, MAX_GC_GROUP_NAME_SIZE); packed_len += MAX_GC_GROUP_NAME_SIZE; memcpy(data + packed_len, &privacy_state, sizeof(uint8_t)); packed_len += sizeof(uint8_t); net_pack_u16(data + packed_len, shared_state->password_length); packed_len += sizeof(uint16_t); memcpy(data + packed_len, shared_state->password, MAX_GC_PASSWORD_SIZE); packed_len += MAX_GC_PASSWORD_SIZE; memcpy(data + packed_len, shared_state->mod_list_hash, MOD_MODERATION_HASH_SIZE); packed_len += MOD_MODERATION_HASH_SIZE; net_pack_u32(data + packed_len, shared_state->topic_lock); packed_len += sizeof(uint32_t); memcpy(data + packed_len, &voice_state, sizeof(uint8_t)); packed_len += sizeof(uint8_t); return packed_len; } /** @brief Unpacks shared state data into shared_state. * * @param data must contain at least GC_PACKED_SHARED_STATE_SIZE bytes. * * Returns the length of processed data. */ non_null() static uint16_t unpack_gc_shared_state(GC_SharedState *shared_state, const uint8_t *data, uint16_t length) { if (length < GC_PACKED_SHARED_STATE_SIZE) { return 0; } uint16_t len_processed = 0; // version is always first net_unpack_u32(data + len_processed, &shared_state->version); len_processed += sizeof(uint32_t); memcpy(shared_state->founder_public_key.enc, data + len_processed, ENC_PUBLIC_KEY_SIZE); len_processed += ENC_PUBLIC_KEY_SIZE; memcpy(shared_state->founder_public_key.sig, data + len_processed, SIG_PUBLIC_KEY_SIZE); len_processed += SIG_PUBLIC_KEY_SIZE; net_unpack_u16(data + len_processed, &shared_state->maxpeers); len_processed += sizeof(uint16_t); net_unpack_u16(data + len_processed, &shared_state->group_name_len); shared_state->group_name_len = min_u16(shared_state->group_name_len, MAX_GC_GROUP_NAME_SIZE); len_processed += sizeof(uint16_t); memcpy(shared_state->group_name, data + len_processed, MAX_GC_GROUP_NAME_SIZE); len_processed += MAX_GC_GROUP_NAME_SIZE; uint8_t privacy_state; memcpy(&privacy_state, data + len_processed, sizeof(uint8_t)); len_processed += sizeof(uint8_t); net_unpack_u16(data + len_processed, &shared_state->password_length); len_processed += sizeof(uint16_t); memcpy(shared_state->password, data + len_processed, MAX_GC_PASSWORD_SIZE); len_processed += MAX_GC_PASSWORD_SIZE; memcpy(shared_state->mod_list_hash, data + len_processed, MOD_MODERATION_HASH_SIZE); len_processed += MOD_MODERATION_HASH_SIZE; net_unpack_u32(data + len_processed, &shared_state->topic_lock); len_processed += sizeof(uint32_t); uint8_t voice_state; memcpy(&voice_state, data + len_processed, sizeof(uint8_t)); len_processed += sizeof(uint8_t); group_voice_state_from_int(voice_state, &shared_state->voice_state); group_privacy_state_from_int(privacy_state, &shared_state->privacy_state); return len_processed; } /** @brief Packs topic info into data. * * @param data must have room for at least topic length + GC_MIN_PACKED_TOPIC_INFO_SIZE bytes. * * Returns packed data length. */ non_null() static uint16_t pack_gc_topic_info(uint8_t *data, uint16_t length, const GC_TopicInfo *topic_info) { if (length < topic_info->length + GC_MIN_PACKED_TOPIC_INFO_SIZE) { return 0; } uint16_t packed_len = 0; net_pack_u32(data + packed_len, topic_info->version); packed_len += sizeof(uint32_t); net_pack_u16(data + packed_len, topic_info->checksum); packed_len += sizeof(uint16_t); net_pack_u16(data + packed_len, topic_info->length); packed_len += sizeof(uint16_t); memcpy(data + packed_len, topic_info->topic, topic_info->length); packed_len += topic_info->length; memcpy(data + packed_len, topic_info->public_sig_key, SIG_PUBLIC_KEY_SIZE); packed_len += SIG_PUBLIC_KEY_SIZE; return packed_len; } /** @brief Unpacks topic info into `topic_info`. * * Returns -1 on failure. * Returns the length of the processed data on success. */ non_null() static int unpack_gc_topic_info(GC_TopicInfo *topic_info, const uint8_t *data, uint16_t length) { if (length < sizeof(uint16_t) + sizeof(uint16_t) + sizeof(uint32_t)) { return -1; } uint16_t len_processed = 0; net_unpack_u32(data + len_processed, &topic_info->version); len_processed += sizeof(uint32_t); net_unpack_u16(data + len_processed, &topic_info->checksum); len_processed += sizeof(uint16_t); net_unpack_u16(data + len_processed, &topic_info->length); len_processed += sizeof(uint16_t); if (topic_info->length > MAX_GC_TOPIC_SIZE) { topic_info->length = MAX_GC_TOPIC_SIZE; } if (length - len_processed < topic_info->length + SIG_PUBLIC_KEY_SIZE) { return -1; } if (topic_info->length > 0) { memcpy(topic_info->topic, data + len_processed, topic_info->length); len_processed += topic_info->length; } memcpy(topic_info->public_sig_key, data + len_processed, SIG_PUBLIC_KEY_SIZE); len_processed += SIG_PUBLIC_KEY_SIZE; return len_processed; } /** @brief Creates a shared state packet and puts it in data. * Packet includes self pk hash, shared state signature, and packed shared state info. * data must have room for at least GC_SHARED_STATE_ENC_PACKET_SIZE bytes. * * Returns packet length on success. * Returns -1 on failure. */ non_null() static int make_gc_shared_state_packet(const GC_Chat *chat, uint8_t *data, uint16_t length) { if (length < GC_SHARED_STATE_ENC_PACKET_SIZE) { return -1; } memcpy(data, chat->shared_state_sig, SIGNATURE_SIZE); const uint16_t header_len = SIGNATURE_SIZE; const uint16_t packed_len = pack_gc_shared_state(data + header_len, length - header_len, &chat->shared_state); if (packed_len != GC_PACKED_SHARED_STATE_SIZE) { return -1; } return header_len + packed_len; } /** @brief Creates a signature for the group's shared state in packed form. * * This function only works for the Founder. * * Returns true on success and increments the shared state version. */ non_null() static bool sign_gc_shared_state(GC_Chat *chat) { if (!self_gc_is_founder(chat)) { LOGGER_ERROR(chat->log, "Failed to sign shared state (invalid permission)"); return false; } if (chat->shared_state.version != UINT32_MAX) { /* improbable, but an overflow would break everything */ set_gc_shared_state_version(chat, chat->shared_state.version + 1); } else { LOGGER_WARNING(chat->log, "Shared state version wraparound"); } uint8_t shared_state[GC_PACKED_SHARED_STATE_SIZE]; const uint16_t packed_len = pack_gc_shared_state(shared_state, sizeof(shared_state), &chat->shared_state); if (packed_len != GC_PACKED_SHARED_STATE_SIZE) { set_gc_shared_state_version(chat, chat->shared_state.version - 1); LOGGER_ERROR(chat->log, "Failed to pack shared state"); return false; } const int ret = crypto_sign_detached(chat->shared_state_sig, nullptr, shared_state, packed_len, get_sig_sk(&chat->chat_secret_key)); if (ret != 0) { set_gc_shared_state_version(chat, chat->shared_state.version - 1); LOGGER_ERROR(chat->log, "Failed to sign shared state (%d)", ret); return false; } return true; } /** @brief Decrypts data using the shared key associated with `gconn`. * * The packet payload should begin with a nonce. * * @param message_id should be set to NULL for lossy packets. * * Returns length of the plaintext data on success. * Return -1 if encrypted payload length is invalid. * Return -2 on decryption failure. * Return -3 if plaintext payload length is invalid. */ non_null(1, 2, 3, 4, 6, 7) nullable(5) static int group_packet_unwrap(const Logger *log, const Memory *mem, const GC_Connection *gconn, uint8_t *data, uint64_t *message_id, uint8_t *packet_type, const uint8_t *packet, uint16_t length) { assert(data != nullptr); assert(packet != nullptr); if (length <= CRYPTO_NONCE_SIZE) { LOGGER_FATAL(log, "Invalid packet length: %u", length); return -1; } uint8_t *plain = (uint8_t *)malloc(length); if (plain == nullptr) { LOGGER_ERROR(log, "Failed to allocate memory for plain data buffer"); return -1; } int plain_len = decrypt_data_symmetric(mem, gconn->session_shared_key, packet, packet + CRYPTO_NONCE_SIZE, length - CRYPTO_NONCE_SIZE, plain); if (plain_len <= 0) { free(plain); return plain_len == 0 ? -3 : -2; } const int min_plain_len = message_id != nullptr ? 1 + GC_MESSAGE_ID_BYTES : 1; /* remove padding */ const uint8_t *real_plain = plain; while (real_plain[0] == 0) { ++real_plain; --plain_len; if (plain_len < min_plain_len) { free(plain); return -3; } } uint32_t header_len = sizeof(uint8_t); *packet_type = real_plain[0]; plain_len -= sizeof(uint8_t); if (message_id != nullptr) { net_unpack_u64(real_plain + sizeof(uint8_t), message_id); plain_len -= GC_MESSAGE_ID_BYTES; header_len += GC_MESSAGE_ID_BYTES; } memcpy(data, real_plain + header_len, plain_len); free(plain); return plain_len; } int group_packet_wrap( const Logger *log, const Memory *mem, const Random *rng, const uint8_t *self_pk, const uint8_t *shared_key, uint8_t *packet, uint16_t packet_size, const uint8_t *data, uint16_t length, uint64_t message_id, uint8_t gp_packet_type, Net_Packet_Type net_packet_type) { const uint16_t max_packet_size = group_packet_max_packet_size(net_packet_type); const uint16_t padding_len = group_packet_padding_length(length, max_packet_size); const uint16_t min_packet_size = net_packet_type == NET_PACKET_GC_LOSSLESS ? length + padding_len + CRYPTO_MAC_SIZE + 1 + ENC_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE + GC_MESSAGE_ID_BYTES + 1 : length + padding_len + CRYPTO_MAC_SIZE + 1 + ENC_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE + 1; if (min_packet_size > packet_size) { LOGGER_ERROR(log, "Invalid packet buffer size: %u", packet_size); return -1; } if (length > max_packet_size) { LOGGER_ERROR(log, "Packet payload size (%u) exceeds maximum (%u)", length, max_packet_size); return -1; } uint8_t *plain = (uint8_t *)malloc(packet_size); if (plain == nullptr) { return -1; } assert(padding_len < packet_size); memzero(plain, padding_len); uint16_t enc_header_len = sizeof(uint8_t); plain[padding_len] = gp_packet_type; if (net_packet_type == NET_PACKET_GC_LOSSLESS) { net_pack_u64(plain + padding_len + sizeof(uint8_t), message_id); enc_header_len += GC_MESSAGE_ID_BYTES; } if (length > 0 && data != nullptr) { memcpy(plain + padding_len + enc_header_len, data, length); } uint8_t nonce[CRYPTO_NONCE_SIZE]; random_nonce(rng, nonce); const uint16_t plain_len = padding_len + enc_header_len + length; const uint16_t encrypt_buf_size = plain_len + CRYPTO_MAC_SIZE; uint8_t *encrypt = (uint8_t *)malloc(encrypt_buf_size); if (encrypt == nullptr) { free(plain); return -2; } const int enc_len = encrypt_data_symmetric(mem, shared_key, nonce, plain, plain_len, encrypt); free(plain); if (enc_len != encrypt_buf_size) { LOGGER_ERROR(log, "encryption failed. packet type: 0x%02x, enc_len: %d", gp_packet_type, enc_len); free(encrypt); return -3; } packet[0] = net_packet_type; memcpy(packet + 1, self_pk, ENC_PUBLIC_KEY_SIZE); memcpy(packet + 1 + ENC_PUBLIC_KEY_SIZE, nonce, CRYPTO_NONCE_SIZE); memcpy(packet + 1 + ENC_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE, encrypt, enc_len); free(encrypt); return 1 + ENC_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE + enc_len; } /** @brief Sends a lossy packet to peer_number in chat instance. * * Returns true on success. */ non_null() static bool send_lossy_group_packet(const GC_Chat *chat, const GC_Connection *gconn, const uint8_t *data, uint16_t length, uint8_t packet_type) { assert(length <= MAX_GC_CUSTOM_LOSSY_PACKET_SIZE); if (!gconn->handshaked || gconn->pending_delete) { return false; } if (data == nullptr || length == 0) { return false; } const uint16_t packet_size = gc_get_wrapped_packet_size(length, NET_PACKET_GC_LOSSY); uint8_t *packet = (uint8_t *)malloc(packet_size); if (packet == nullptr) { return false; } const int len = group_packet_wrap( chat->log, chat->mem, chat->rng, chat->self_public_key.enc, gconn->session_shared_key, packet, packet_size, data, length, 0, packet_type, NET_PACKET_GC_LOSSY); if (len < 0) { LOGGER_ERROR(chat->log, "Failed to encrypt packet (type: 0x%02x, error: %d)", packet_type, len); free(packet); return false; } const bool ret = gcc_send_packet(chat, gconn, packet, (uint16_t)len); free(packet); return ret; } /** @brief Sends a lossless packet to peer_number in chat instance. * * Returns true on success. */ non_null(1, 2) nullable(3) static bool send_lossless_group_packet(const GC_Chat *chat, GC_Connection *gconn, const uint8_t *data, uint16_t length, uint8_t packet_type) { assert(length <= MAX_GC_PACKET_SIZE); if (!gconn->handshaked || gconn->pending_delete) { return false; } if (length > MAX_GC_PACKET_CHUNK_SIZE) { return gcc_send_lossless_packet_fragments(chat, gconn, data, length, packet_type); } return gcc_send_lossless_packet(chat, gconn, data, length, packet_type) == 0; } /** @brief Sends a group sync request to peer. * * Returns true on success or if sync request timeout has not expired. */ non_null() static bool send_gc_sync_request(GC_Chat *chat, GC_Connection *gconn, uint16_t sync_flags) { if (!mono_time_is_timeout(chat->mono_time, chat->last_sync_request, GC_SYNC_REQUEST_LIMIT)) { return true; } chat->last_sync_request = mono_time_get(chat->mono_time); uint8_t data[(sizeof(uint16_t) * 2) + MAX_GC_PASSWORD_SIZE]; uint16_t length = sizeof(uint16_t); net_pack_u16(data, sync_flags); if (chat_is_password_protected(chat)) { net_pack_u16(data + length, chat->shared_state.password_length); length += sizeof(uint16_t); memcpy(data + length, chat->shared_state.password, MAX_GC_PASSWORD_SIZE); length += MAX_GC_PASSWORD_SIZE; } return send_lossless_group_packet(chat, gconn, data, length, GP_SYNC_REQUEST); } /** @brief Sends a sync response packet to peer designated by `gconn`. * * Return true on success. */ non_null(1, 2) nullable(3) static bool send_gc_sync_response(const GC_Chat *chat, GC_Connection *gconn, const uint8_t *data, uint16_t length) { return send_lossless_group_packet(chat, gconn, data, length, GP_SYNC_RESPONSE); } non_null() static bool send_gc_peer_exchange(const GC_Chat *chat, GC_Connection *gconn); non_null() static bool send_gc_handshake_packet(const GC_Chat *chat, GC_Connection *gconn, uint8_t handshake_type, uint8_t request_type, uint8_t join_type); non_null() static bool send_gc_oob_handshake_request(const GC_Chat *chat, const GC_Connection *gconn); /** @brief Unpacks a sync announce. * * If the announced peer is not already in our peer list, we attempt to * initiate a peer info exchange with them. * * Return true on success (whether or not the peer was added). */ non_null() static bool unpack_gc_sync_announce(GC_Chat *chat, const uint8_t *data, const uint16_t length) { GC_Announce announce = {0}; const int unpacked_announces = gca_unpack_announces_list(chat->log, data, length, &announce, 1); if (unpacked_announces <= 0) { LOGGER_WARNING(chat->log, "Failed to unpack announces: %d", unpacked_announces); return false; } if (memcmp(announce.peer_public_key, chat->self_public_key.enc, ENC_PUBLIC_KEY_SIZE) == 0) { LOGGER_WARNING(chat->log, "Attempted to unpack our own announce"); return true; } if (!gca_is_valid_announce(&announce)) { LOGGER_WARNING(chat->log, "got invalid announce"); return false; } const IP_Port *ip_port = announce.ip_port_is_set ? &announce.ip_port : nullptr; const int new_peer_number = peer_add(chat, ip_port, announce.peer_public_key); if (new_peer_number == -1) { LOGGER_ERROR(chat->log, "peer_add() failed"); return false; } if (new_peer_number == -2) { // peer already added return true; } if (new_peer_number > 0) { GC_Connection *new_gconn = get_gc_connection(chat, new_peer_number); if (new_gconn == nullptr) { return false; } uint32_t added_tcp_relays = 0; for (uint8_t i = 0; i < announce.tcp_relays_count; ++i) { const int add_tcp_result = add_tcp_relay_connection(chat->tcp_conn, new_gconn->tcp_connection_num, &announce.tcp_relays[i].ip_port, announce.tcp_relays[i].public_key); if (add_tcp_result == -1) { continue; } if (gcc_save_tcp_relay(chat->rng, new_gconn, &announce.tcp_relays[i]) == 0) { ++added_tcp_relays; } } if (!announce.ip_port_is_set && added_tcp_relays == 0) { gcc_mark_for_deletion(new_gconn, chat->tcp_conn, GC_EXIT_TYPE_DISCONNECTED, nullptr, 0); LOGGER_ERROR(chat->log, "Sync error: Invalid peer connection info"); return false; } new_gconn->pending_handshake_type = HS_PEER_INFO_EXCHANGE; return true; } LOGGER_FATAL(chat->log, "got impossible return value %d", new_peer_number); return false; } /** @brief Handles a sync response packet. * * Note: This function may change peer numbers. * * Return 0 on success. * Return -1 if the group is full or the peer failed to unpack. * Return -2 if `peer_number` does not designate a valid peer. */ non_null(1, 2) nullable(4, 6) static int handle_gc_sync_response(const GC_Session *c, GC_Chat *chat, uint32_t peer_number, const uint8_t *data, uint16_t length, void *userdata) { if (chat->connection_state == CS_CONNECTED && get_gc_confirmed_numpeers(chat) >= chat->shared_state.maxpeers && !peer_is_founder(chat, peer_number)) { return -1; } if (length > 0) { if (!unpack_gc_sync_announce(chat, data, length)) { return -1; } } chat->connection_state = CS_CONNECTED; GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return -2; } if (!send_gc_peer_exchange(chat, gconn)) { LOGGER_WARNING(chat->log, "Failed to send peer exchange on sync response"); } if (c->self_join != nullptr && chat->time_connected == 0) { c->self_join(c->messenger, chat->group_number, userdata); chat->time_connected = mono_time_get(chat->mono_time); } return 0; } non_null() static int get_gc_peer_public_key(const GC_Chat *chat, uint32_t peer_number, uint8_t *public_key); non_null() static bool send_peer_shared_state(const GC_Chat *chat, GC_Connection *gconn); non_null() static bool send_peer_mod_list(const GC_Chat *chat, GC_Connection *gconn); non_null() static bool send_peer_sanctions_list(const GC_Chat *chat, GC_Connection *gconn); non_null() static bool send_peer_topic(const GC_Chat *chat, GC_Connection *gconn); /** @brief Creates a sync announce for peer designated by `gconn` and puts it in `announce`, which * must be zeroed by the caller. * * Returns true if announce was successfully created. */ non_null() static bool create_sync_announce(const GC_Chat *chat, const GC_Connection *gconn, uint32_t peer_number, GC_Announce *announce) { if (chat == nullptr || gconn == nullptr) { return false; } if (gconn->tcp_relays_count > 0) { if (gcc_copy_tcp_relay(chat->rng, &announce->tcp_relays[0], gconn)) { announce->tcp_relays_count = 1; } } get_gc_peer_public_key(chat, peer_number, announce->peer_public_key); if (gcc_ip_port_is_set(gconn)) { announce->ip_port = gconn->addr.ip_port; announce->ip_port_is_set = true; } return true; } non_null() static bool sync_response_send_peers(GC_Chat *chat, GC_Connection *gconn, uint32_t peer_number, bool first_sync) { // Always respond to a peer's first sync request if (!first_sync && !mono_time_is_timeout(chat->mono_time, chat->last_sync_response_peer_list, GC_SYNC_RESPONSE_PEER_LIST_LIMIT)) { return true; } uint8_t *response = (uint8_t *)malloc(MAX_GC_PACKET_CHUNK_SIZE); if (response == nullptr) { return false; } size_t num_announces = 0; for (uint32_t i = 1; i < chat->numpeers; ++i) { const GC_Connection *peer_gconn = get_gc_connection(chat, i); if (peer_gconn == nullptr || !peer_gconn->confirmed) { continue; } if (peer_gconn->public_key_hash == gconn->public_key_hash || i == peer_number) { continue; } GC_Announce announce = {0}; if (!create_sync_announce(chat, peer_gconn, i, &announce)) { continue; } const int packed_length = gca_pack_announce(chat->log, response, MAX_GC_PACKET_CHUNK_SIZE, &announce); if (packed_length <= 0) { LOGGER_WARNING(chat->log, "Failed to pack announce: %d", packed_length); continue; } if (!send_gc_sync_response(chat, gconn, response, packed_length)) { LOGGER_WARNING(chat->log, "Failed to send peer announce info"); continue; } ++num_announces; } free(response); if (num_announces == 0) { // we send an empty sync response even if we didn't send any peers as an acknowledgement if (!send_gc_sync_response(chat, gconn, nullptr, 0)) { LOGGER_WARNING(chat->log, "Failed to send peer announce info"); return false; } } else { chat->last_sync_response_peer_list = mono_time_get(chat->mono_time); } return true; } /** @brief Sends group state specified by `sync_flags` peer designated by `peer_number`. * * Return true on success. */ non_null() static bool sync_response_send_state(GC_Chat *chat, GC_Connection *gconn, uint32_t peer_number, uint16_t sync_flags) { const bool first_sync = gconn->last_sync_response == 0; // Do not change the order of these four send calls. See: https://toktok.ltd/spec.html#sync_request-0xf8 if ((sync_flags & GF_STATE) > 0 && chat->shared_state.version > 0) { if (!send_peer_shared_state(chat, gconn)) { LOGGER_WARNING(chat->log, "Failed to send shared state"); return false; } if (!send_peer_mod_list(chat, gconn)) { LOGGER_WARNING(chat->log, "Failed to send mod list"); return false; } if (!send_peer_sanctions_list(chat, gconn)) { LOGGER_WARNING(chat->log, "Failed to send sanctions list"); return false; } gconn->last_sync_response = mono_time_get(chat->mono_time); } if ((sync_flags & GF_TOPIC) > 0 && chat->time_connected > 0 && chat->topic_info.version > 0) { if (!send_peer_topic(chat, gconn)) { LOGGER_WARNING(chat->log, "Failed to send topic"); return false; } gconn->last_sync_response = mono_time_get(chat->mono_time); } if ((sync_flags & GF_PEERS) > 0) { if (!sync_response_send_peers(chat, gconn, peer_number, first_sync)) { return false; } gconn->last_sync_response = mono_time_get(chat->mono_time); } return true; } /** @brief Handles a sync request packet and sends a response containing the peer list. * * May send additional group info in separate packets, including the topic, shared state, mod list, * and sanctions list, if respective sync flags are set. * * If the group is password protected the password in the request data must first be verified. * * Return 0 if packet is handled correctly. * Return -1 if packet has invalid size. * Return -2 if password is invalid. * Return -3 if we fail to send a response packet. * Return -4 if `peer_number` does not designate a valid peer. */ non_null() static int handle_gc_sync_request(GC_Chat *chat, uint32_t peer_number, const uint8_t *data, uint16_t length) { GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return -4; } if (length < sizeof(uint16_t)) { return -1; } if (chat->numpeers <= 1) { return 0; } if (chat->shared_state.version == 0) { LOGGER_DEBUG(chat->log, "Got sync request with uninitialized state"); return 0; } if (!mono_time_is_timeout(chat->mono_time, gconn->last_sync_response, GC_PING_TIMEOUT)) { LOGGER_DEBUG(chat->log, "sync request rate limit for peer %d", peer_number); return 0; } uint16_t sync_flags; net_unpack_u16(data, &sync_flags); if (chat_is_password_protected(chat)) { if (length < (sizeof(uint16_t) * 2) + MAX_GC_PASSWORD_SIZE) { return -2; } uint16_t password_length; net_unpack_u16(data + sizeof(uint16_t), &password_length); const uint8_t *password = data + (sizeof(uint16_t) * 2); if (!validate_password(chat, password, password_length)) { LOGGER_DEBUG(chat->log, "Invalid password"); return -2; } } if (!sync_response_send_state(chat, gconn, peer_number, sync_flags)) { return -3; } return 0; } non_null() static void copy_self(const GC_Chat *chat, GC_Peer *peer); non_null() static bool send_gc_peer_info_request(const GC_Chat *chat, GC_Connection *gconn); /** @brief Shares our TCP relays with peer and adds shared relays to our connection with them. * * Returns true on success or if we're not connected to any TCP relays. */ non_null() static bool send_gc_tcp_relays(const GC_Chat *chat, GC_Connection *gconn) { Node_format tcp_relays[GCC_MAX_TCP_SHARED_RELAYS]; uint8_t data[GCC_MAX_TCP_SHARED_RELAYS * PACKED_NODE_SIZE_IP6]; const uint32_t n = tcp_copy_connected_relays_index(chat->tcp_conn, tcp_relays, GCC_MAX_TCP_SHARED_RELAYS, gconn->tcp_relay_share_index); if (n == 0) { return true; } gconn->tcp_relay_share_index += GCC_MAX_TCP_SHARED_RELAYS; for (uint32_t i = 0; i < n; ++i) { add_tcp_relay_connection(chat->tcp_conn, gconn->tcp_connection_num, &tcp_relays[i].ip_port, tcp_relays[i].public_key); } const int nodes_len = pack_nodes(chat->log, data, sizeof(data), tcp_relays, n); if (nodes_len <= 0 || (uint32_t)nodes_len > sizeof(data)) { LOGGER_ERROR(chat->log, "Failed to pack tcp relays (nodes_len: %d)", nodes_len); return false; } if (!send_lossless_group_packet(chat, gconn, data, (uint16_t)nodes_len, GP_TCP_RELAYS)) { LOGGER_ERROR(chat->log, "Failed to send tcp relays"); return false; } return true; } /** @brief Adds a peer's shared TCP relays to our connection with them. * * Return 0 if packet is handled correctly. * Return -1 if packet has invalid size. * Return -2 if packet contains invalid data. */ non_null() static int handle_gc_tcp_relays(GC_Chat *chat, GC_Connection *gconn, const uint8_t *data, uint16_t length) { if (length == 0) { return -1; } Node_format tcp_relays[GCC_MAX_TCP_SHARED_RELAYS]; const int num_nodes = unpack_nodes(tcp_relays, GCC_MAX_TCP_SHARED_RELAYS, nullptr, data, length, true); if (num_nodes <= 0) { return -2; } for (int i = 0; i < num_nodes; ++i) { const Node_format *tcp_node = &tcp_relays[i]; if (add_tcp_relay_connection(chat->tcp_conn, gconn->tcp_connection_num, &tcp_node->ip_port, tcp_node->public_key) == 0) { gcc_save_tcp_relay(chat->rng, gconn, tcp_node); if (gconn->tcp_relays_count == 1) { add_gc_saved_peers(chat, gconn); // make sure we save at least one tcp relay } } } return 0; } /** @brief Send invite request to peer_number. * * If the group requires a password, the packet will * contain the password supplied by the invite requestor. * * Return true on success. */ non_null() static bool send_gc_invite_request(const GC_Chat *chat, GC_Connection *gconn) { if (!chat_is_password_protected(chat)) { return send_lossless_group_packet(chat, gconn, nullptr, 0, GP_INVITE_REQUEST); } uint8_t data[sizeof(uint16_t) + MAX_GC_PASSWORD_SIZE]; net_pack_u16(data, chat->shared_state.password_length); uint16_t length = sizeof(uint16_t); memcpy(data + length, chat->shared_state.password, MAX_GC_PASSWORD_SIZE); length += MAX_GC_PASSWORD_SIZE; return send_lossless_group_packet(chat, gconn, data, length, GP_INVITE_REQUEST); } non_null() static bool send_gc_invite_response(const GC_Chat *chat, GC_Connection *gconn) { return send_lossless_group_packet(chat, gconn, nullptr, 0, GP_INVITE_RESPONSE); } /** @brief Handles an invite response packet. * * Return 0 if packet is correctly handled. * Return -1 if we fail to send a sync request. */ non_null() static int handle_gc_invite_response(GC_Chat *chat, GC_Connection *gconn) { const uint16_t flags = GF_PEERS | GF_TOPIC | GF_STATE; if (!send_gc_sync_request(chat, gconn, flags)) { return -1; } return 0; } /** * @brief Handles an invite response reject packet. * * Return 0 if packet is handled correctly. * Return -1 if packet has invalid size. */ non_null(1, 2, 3) nullable(5) static int handle_gc_invite_response_reject(const GC_Session *c, GC_Chat *chat, const uint8_t *data, uint16_t length, void *userdata) { if (length < sizeof(uint8_t)) { return -1; } if (chat->connection_state == CS_CONNECTED) { return 0; } if (gc_get_self_role(chat) == GR_FOUNDER) { return 0; } uint8_t type = data[0]; if (type >= GJ_INVALID) { type = GJ_INVITE_FAILED; } chat->connection_state = CS_DISCONNECTED; if (c->rejected != nullptr) { c->rejected(c->messenger, chat->group_number, type, userdata); } return 0; } /** @brief Sends an invite response rejection packet to peer designated by `gconn`. * * Return true on success. */ non_null() static bool send_gc_invite_response_reject(const GC_Chat *chat, const GC_Connection *gconn, uint8_t type) { if (type >= GJ_INVALID) { type = GJ_INVITE_FAILED; } uint8_t data[1]; data[0] = type; const uint16_t length = 1; return send_lossy_group_packet(chat, gconn, data, length, GP_INVITE_RESPONSE_REJECT); } /** @brief Handles an invite request and verifies that the correct password has been supplied * if the group is password protected. * * Return 0 if invite request is successfully handled. * Return -1 if the group is full. * Return -2 if the supplied password is invalid. * Return -3 if we fail to send an invite response. * Return -4 if peer_number does not designate a valid peer. */ non_null(1) nullable(3) static int handle_gc_invite_request(GC_Chat *chat, uint32_t peer_number, const uint8_t *data, uint16_t length) { if (chat->shared_state.version == 0) { // we aren't synced yet; ignore request return 0; } GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return -4; } int ret = -1; uint8_t invite_error; if (get_gc_confirmed_numpeers(chat) >= chat->shared_state.maxpeers && !peer_is_founder(chat, peer_number)) { invite_error = GJ_GROUP_FULL; goto FAILED_INVITE; } if (chat_is_password_protected(chat)) { invite_error = GJ_INVALID_PASSWORD; ret = -2; if (length < sizeof(uint16_t) + MAX_GC_PASSWORD_SIZE) { goto FAILED_INVITE; } uint16_t password_length; net_unpack_u16(data, &password_length); const uint8_t *password = data + sizeof(uint16_t); if (!validate_password(chat, password, password_length)) { goto FAILED_INVITE; } } if (!send_gc_invite_response(chat, gconn)) { return -3; } return 0; FAILED_INVITE: send_gc_invite_response_reject(chat, gconn, invite_error); gcc_mark_for_deletion(gconn, chat->tcp_conn, GC_EXIT_TYPE_DISCONNECTED, nullptr, 0); return ret; } /** @brief Sends a lossless packet of type and length to all confirmed peers. * * Return true if packet is successfully sent to at least one peer or the * group is empty. */ non_null() static bool send_gc_lossless_packet_all_peers(const GC_Chat *chat, const uint8_t *data, uint16_t length, uint8_t type) { uint32_t sent = 0; uint32_t confirmed_peers = 0; for (uint32_t i = 1; i < chat->numpeers; ++i) { GC_Connection *gconn = get_gc_connection(chat, i); assert(gconn != nullptr); if (!gconn->confirmed) { continue; } ++confirmed_peers; if (send_lossless_group_packet(chat, gconn, data, length, type)) { ++sent; } } return sent > 0 || confirmed_peers == 0; } /** @brief Sends a lossy packet of type and length to all confirmed peers. * * Return true if packet is successfully sent to at least one peer or the * group is empty. */ non_null() static bool send_gc_lossy_packet_all_peers(const GC_Chat *chat, const uint8_t *data, uint16_t length, uint8_t type) { uint32_t sent = 0; uint32_t confirmed_peers = 0; for (uint32_t i = 1; i < chat->numpeers; ++i) { const GC_Connection *gconn = get_gc_connection(chat, i); assert(gconn != nullptr); if (!gconn->confirmed) { continue; } ++confirmed_peers; if (send_lossy_group_packet(chat, gconn, data, length, type)) { ++sent; } } return sent > 0 || confirmed_peers == 0; } /** @brief Creates packet with broadcast header info followed by data of length. * * Returns length of packet including header. */ non_null(3) nullable(1) static uint16_t make_gc_broadcast_header(const uint8_t *data, uint16_t length, uint8_t *packet, uint8_t bc_type) { packet[0] = bc_type; const uint16_t header_len = sizeof(uint8_t); if (data != nullptr && length > 0) { memcpy(packet + header_len, data, length); } return length + header_len; } /** @brief sends a group broadcast packet to all confirmed peers. * * Returns true on success. */ non_null(1) nullable(2) static bool send_gc_broadcast_message(const GC_Chat *chat, const uint8_t *data, uint16_t length, uint8_t bc_type) { if (length + GC_BROADCAST_ENC_HEADER_SIZE > MAX_GC_PACKET_SIZE) { LOGGER_ERROR(chat->log, "Failed to broadcast message: invalid length %u", length); return false; } uint8_t *packet = (uint8_t *)malloc(length + GC_BROADCAST_ENC_HEADER_SIZE); if (packet == nullptr) { return false; } const uint16_t packet_len = make_gc_broadcast_header(data, length, packet, bc_type); const bool ret = send_gc_lossless_packet_all_peers(chat, packet, packet_len, GP_BROADCAST); free(packet); return ret; } non_null() static bool group_topic_lock_enabled(const GC_Chat *chat); /** @brief Compares the supplied values with our own state and returns the appropriate * sync flags for a sync request. */ non_null() static uint16_t get_sync_flags(const GC_Chat *chat, uint16_t peers_checksum, uint16_t peer_count, uint32_t sstate_version, uint32_t screds_version, uint16_t roles_checksum, uint32_t topic_version, uint16_t topic_checksum) { uint16_t sync_flags = 0; if (peers_checksum != chat->peers_checksum && peer_count >= get_gc_confirmed_numpeers(chat)) { sync_flags |= GF_PEERS; } if (sstate_version > 0) { const uint16_t self_roles_checksum = chat->moderation.sanctions_creds.checksum + chat->roles_checksum; if ((sstate_version > chat->shared_state.version || screds_version > chat->moderation.sanctions_creds.version) || (screds_version == chat->moderation.sanctions_creds.version && roles_checksum != self_roles_checksum)) { sync_flags |= GF_STATE; } } if (group_topic_lock_enabled(chat)) { if (topic_version > chat->topic_info.version || (topic_version == chat->topic_info.version && topic_checksum > chat->topic_info.checksum)) { sync_flags |= GF_TOPIC; } } else if (topic_checksum > chat->topic_info.checksum) { sync_flags |= GF_TOPIC; } return sync_flags; } /** @brief Compares a peer's group sync info that we received in a ping packet to our own. * * If their info appears to be more recent than ours we send them a sync request. * * This function should only be called from `handle_gc_ping()`. * * Returns true if a sync request packet is successfully sent. */ non_null() static bool do_gc_peer_state_sync(GC_Chat *chat, GC_Connection *gconn, const uint8_t *sync_data, const uint16_t length) { if (length < GC_PING_PACKET_MIN_DATA_SIZE) { return false; } uint16_t peers_checksum; uint16_t peer_count; uint32_t sstate_version; uint32_t screds_version; uint16_t roles_checksum; uint32_t topic_version; uint16_t topic_checksum; size_t unpacked_len = 0; net_unpack_u16(sync_data, &peers_checksum); unpacked_len += sizeof(uint16_t); net_unpack_u16(sync_data + unpacked_len, &peer_count); unpacked_len += sizeof(uint16_t); net_unpack_u32(sync_data + unpacked_len, &sstate_version); unpacked_len += sizeof(uint32_t); net_unpack_u32(sync_data + unpacked_len, &screds_version); unpacked_len += sizeof(uint32_t); net_unpack_u16(sync_data + unpacked_len, &roles_checksum); unpacked_len += sizeof(uint16_t); net_unpack_u32(sync_data + unpacked_len, &topic_version); unpacked_len += sizeof(uint32_t); net_unpack_u16(sync_data + unpacked_len, &topic_checksum); unpacked_len += sizeof(uint16_t); if (unpacked_len != GC_PING_PACKET_MIN_DATA_SIZE) { LOGGER_FATAL(chat->log, "Unpacked length is impossible (%zu)", unpacked_len); return false; } const uint16_t sync_flags = get_sync_flags(chat, peers_checksum, peer_count, sstate_version, screds_version, roles_checksum, topic_version, topic_checksum); if (sync_flags > 0) { return send_gc_sync_request(chat, gconn, sync_flags); } return false; } /** @brief Handles a ping packet. * * The packet contains sync information including peer's peer list checksum, * shared state version, topic version, and sanction credentials version. * * Return 0 if packet is handled correctly. * Return -1 if packet has invalid size or peer is not confirmed. */ non_null() static int handle_gc_ping(GC_Chat *chat, GC_Connection *gconn, const uint8_t *data, uint16_t length) { if (length < GC_PING_PACKET_MIN_DATA_SIZE) { return -1; } if (!gconn->confirmed) { return -1; } do_gc_peer_state_sync(chat, gconn, data, length); if (length > GC_PING_PACKET_MIN_DATA_SIZE) { IP_Port ip_port = {{{0}}}; if (unpack_ip_port(&ip_port, data + GC_PING_PACKET_MIN_DATA_SIZE, length - GC_PING_PACKET_MIN_DATA_SIZE, false) > 0) { gcc_set_ip_port(gconn, &ip_port); add_gc_saved_peers(chat, gconn); } } return 0; } int gc_set_self_status(const Messenger *m, int group_number, Group_Peer_Status status) { const GC_Session *c = m->group_handler; const GC_Chat *chat = gc_get_group(c, group_number); if (chat == nullptr) { return -1; } self_gc_set_status(chat, status); uint8_t data[1]; data[0] = gc_get_self_status(chat); if (!send_gc_broadcast_message(chat, data, 1, GM_STATUS)) { return -2; } return 0; } /** @brief Handles a status broadcast from `peer`. * * Return 0 if packet is handled correctly. * Return -1 if packet has invalid length. */ non_null(1, 2, 3, 4) nullable(6) static int handle_gc_status(const GC_Session *c, const GC_Chat *chat, GC_Peer *peer, const uint8_t *data, uint16_t length, void *userdata) { if (length < sizeof(uint8_t)) { return -1; } const Group_Peer_Status status = (Group_Peer_Status)data[0]; if (status > GS_BUSY) { LOGGER_WARNING(chat->log, "Received invalid status %u", status); return 0; } peer->status = status; if (c->status_change != nullptr) { c->status_change(c->messenger, chat->group_number, peer->peer_id, status, userdata); } return 0; } uint8_t gc_get_status(const GC_Chat *chat, GC_Peer_Id peer_id) { const int peer_number = get_peer_number_of_peer_id(chat, peer_id); const GC_Peer *peer = get_gc_peer(chat, peer_number); if (peer == nullptr) { return UINT8_MAX; } return peer->status; } uint8_t gc_get_role(const GC_Chat *chat, GC_Peer_Id peer_id) { const int peer_number = get_peer_number_of_peer_id(chat, peer_id); const GC_Peer *peer = get_gc_peer(chat, peer_number); if (peer == nullptr) { return UINT8_MAX; } return peer->role; } void gc_get_chat_id(const GC_Chat *chat, uint8_t *dest) { if (dest != nullptr) { memcpy(dest, get_chat_id(&chat->chat_public_key), CHAT_ID_SIZE); } } /** @brief Sends self peer info to `gconn`. * * If the group is password protected the request will contain the group * password, which the recipient will validate in the respective * group message handler. * * Returns true on success. */ non_null() static bool send_self_to_peer(const GC_Chat *chat, GC_Connection *gconn) { GC_Peer *self = (GC_Peer *)calloc(1, sizeof(GC_Peer)); if (self == nullptr) { return false; } copy_self(chat, self); const uint16_t data_size = PACKED_GC_PEER_SIZE + sizeof(uint16_t) + MAX_GC_PASSWORD_SIZE; uint8_t *data = (uint8_t *)malloc(data_size); if (data == nullptr) { free(self); return false; } uint16_t length = 0; if (chat_is_password_protected(chat)) { net_pack_u16(data, chat->shared_state.password_length); length += sizeof(uint16_t); memcpy(data + sizeof(uint16_t), chat->shared_state.password, MAX_GC_PASSWORD_SIZE); length += MAX_GC_PASSWORD_SIZE; } const int packed_len = pack_gc_peer(data + length, data_size - length, self); length += packed_len; free(self); if (packed_len <= 0) { LOGGER_DEBUG(chat->log, "pack_gc_peer failed in handle_gc_peer_info_request_request %d", packed_len); free(data); return false; } const bool ret = send_lossless_group_packet(chat, gconn, data, length, GP_PEER_INFO_RESPONSE); free(data); return ret; } /** @brief Handles a peer info request packet. * * Return 0 on success. * Return -1 if unconfirmed peer is trying to join a full group. * Return -2 if response fails. * Return -3 if `peer_number` does not designate a valid peer. */ non_null() static int handle_gc_peer_info_request(const GC_Chat *chat, uint32_t peer_number) { GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return -3; } if (!gconn->confirmed && get_gc_confirmed_numpeers(chat) >= chat->shared_state.maxpeers && !peer_is_founder(chat, peer_number)) { return -1; } if (!send_self_to_peer(chat, gconn)) { return -2; } return 0; } /** @brief Sends a peer info request to peer designated by `gconn`. * * Return true on success. */ non_null() static bool send_gc_peer_info_request(const GC_Chat *chat, GC_Connection *gconn) { return send_lossless_group_packet(chat, gconn, nullptr, 0, GP_PEER_INFO_REQUEST); } /** @brief Do peer info exchange with peer designated by `gconn`. * * This function sends two packets to a peer. The first packet is a peer info response containing our own info, * and the second packet is a peer info request. * * Return false if either packet fails to send. */ static bool send_gc_peer_exchange(const GC_Chat *chat, GC_Connection *gconn) { return send_self_to_peer(chat, gconn) && send_gc_peer_info_request(chat, gconn); } /** @brief Updates peer's info, validates their group role, and sets them as a confirmed peer. * If the group is password protected the password must first be validated. * * Return 0 if packet is handled correctly. * Return -1 if packet has invalid size. * Return -2 if group number is invalid. * Return -3 if peer number is invalid. * Return -4 if unconfirmed peer is trying to join a full group. * Return -5 if supplied group password is invalid. * Return -6 if we fail to add the peer to the peer list. * Return -7 if peer's role cannot be validated. * Return -8 if malloc fails. */ non_null(1, 2, 4) nullable(6) static int handle_gc_peer_info_response(const GC_Session *c, GC_Chat *chat, uint32_t peer_number, const uint8_t *data, uint16_t length, void *userdata) { if (length < PACKED_GC_PEER_SIZE) { return -1; } GC_Peer *peer = get_gc_peer(chat, peer_number); if (peer == nullptr) { return -3; } GC_Connection *gconn = &peer->gconn; if (!gconn->confirmed && get_gc_confirmed_numpeers(chat) >= chat->shared_state.maxpeers && !peer_is_founder(chat, peer_number)) { return -4; } uint16_t unpacked_len = 0; if (chat_is_password_protected(chat)) { if (length < sizeof(uint16_t) + MAX_GC_PASSWORD_SIZE) { return -5; } uint16_t password_length; net_unpack_u16(data, &password_length); unpacked_len += sizeof(uint16_t); if (!validate_password(chat, data + unpacked_len, password_length)) { return -5; } unpacked_len += MAX_GC_PASSWORD_SIZE; } if (length <= unpacked_len) { return -1; } GC_Peer *peer_info = (GC_Peer *)calloc(1, sizeof(GC_Peer)); if (peer_info == nullptr) { return -8; } if (unpack_gc_peer(peer_info, data + unpacked_len, length - unpacked_len) == -1) { LOGGER_ERROR(chat->log, "unpack_gc_peer() failed"); free(peer_info); return -6; } if (peer_update(chat, peer_info, peer_number) == -1) { LOGGER_WARNING(chat->log, "peer_update() failed"); free(peer_info); return -6; } free(peer_info); const bool was_confirmed = gconn->confirmed; gconn->confirmed = true; update_gc_peer_roles(chat); add_gc_saved_peers(chat, gconn); set_gc_peerlist_checksum(chat); if (c->peer_join != nullptr && !was_confirmed) { c->peer_join(c->messenger, chat->group_number, peer->peer_id, userdata); } return 0; } /** @brief Sends the group shared state and its signature to peer_number. * * Returns true on success. */ non_null() static bool send_peer_shared_state(const GC_Chat *chat, GC_Connection *gconn) { if (chat->shared_state.version == 0) { return false; } uint8_t packet[GC_SHARED_STATE_ENC_PACKET_SIZE]; const int length = make_gc_shared_state_packet(chat, packet, sizeof(packet)); if (length != GC_SHARED_STATE_ENC_PACKET_SIZE) { return false; } return send_lossless_group_packet(chat, gconn, packet, (uint16_t)length, GP_SHARED_STATE); } /** @brief Sends the group shared state and signature to all confirmed peers. * * Returns true on success. */ non_null() static bool broadcast_gc_shared_state(const GC_Chat *chat) { uint8_t packet[GC_SHARED_STATE_ENC_PACKET_SIZE]; const int packet_len = make_gc_shared_state_packet(chat, packet, sizeof(packet)); if (packet_len != GC_SHARED_STATE_ENC_PACKET_SIZE) { return false; } return send_gc_lossless_packet_all_peers(chat, packet, (uint16_t)packet_len, GP_SHARED_STATE); } /** @brief Helper function for `do_gc_shared_state_changes()`. * * If the privacy state has been set to private, we kill our group's connection to the DHT. * Otherwise, we create a new connection with the DHT and flag an announcement. */ non_null(1, 2) nullable(3) static void do_privacy_state_change(const GC_Session *c, GC_Chat *chat, void *userdata) { if (is_public_chat(chat)) { if (!m_create_group_connection(c->messenger, chat)) { LOGGER_ERROR(chat->log, "Failed to initialize group friend connection"); } else { chat->update_self_announces = true; chat->join_type = HJ_PUBLIC; } } else { kill_group_friend_connection(c, chat); cleanup_gca(c->announces_list, get_chat_id(&chat->chat_public_key)); chat->join_type = HJ_PRIVATE; } if (c->privacy_state != nullptr) { c->privacy_state(c->messenger, chat->group_number, chat->shared_state.privacy_state, userdata); } } /** * Compares old_shared_state with the chat instance's current shared state and triggers the * appropriate callbacks depending on what pieces of state information changed. Also * handles DHT announcement/removal if the privacy state changed. * * The initial retrieval of the shared state on group join will be ignored by this function. */ non_null(1, 2, 3) nullable(4) static void do_gc_shared_state_changes(const GC_Session *c, GC_Chat *chat, const GC_SharedState *old_shared_state, void *userdata) { /* Max peers changed */ if (chat->shared_state.maxpeers != old_shared_state->maxpeers && c->peer_limit != nullptr) { c->peer_limit(c->messenger, chat->group_number, chat->shared_state.maxpeers, userdata); } /* privacy state changed */ if (chat->shared_state.privacy_state != old_shared_state->privacy_state) { do_privacy_state_change(c, chat, userdata); } /* password changed */ if (chat->shared_state.password_length != old_shared_state->password_length || memcmp(chat->shared_state.password, old_shared_state->password, old_shared_state->password_length) != 0) { if (c->password != nullptr) { c->password(c->messenger, chat->group_number, chat->shared_state.password, chat->shared_state.password_length, userdata); } } /* topic lock state changed */ if (chat->shared_state.topic_lock != old_shared_state->topic_lock && c->topic_lock != nullptr) { const Group_Topic_Lock lock_state = group_topic_lock_enabled(chat) ? TL_ENABLED : TL_DISABLED; c->topic_lock(c->messenger, chat->group_number, lock_state, userdata); } /* voice state changed */ if (chat->shared_state.voice_state != old_shared_state->voice_state && c->voice_state != nullptr) { c->voice_state(c->messenger, chat->group_number, chat->shared_state.voice_state, userdata); } } /** @brief Sends a sync request to a random peer in the group with the specificed sync flags. * * Return true on success. */ non_null() static bool send_gc_random_sync_request(GC_Chat *chat, uint16_t sync_flags) { GC_Connection *rand_gconn = random_gc_connection(chat); if (rand_gconn == nullptr) { return false; } return send_gc_sync_request(chat, rand_gconn, sync_flags); } /** @brief Returns true if all shared state values are legal. */ non_null() static bool validate_gc_shared_state(const GC_SharedState *state) { return state->maxpeers > 0 && state->password_length <= MAX_GC_PASSWORD_SIZE && state->group_name_len > 0 && state->group_name_len <= MAX_GC_GROUP_NAME_SIZE && state->privacy_state <= GI_PRIVATE && state->voice_state <= GV_FOUNDER; } /** @brief Handles a shared state error and attempts to send a sync request to a random peer. * * Return 0 if error is currectly handled. * Return -1 on failure. */ non_null() static int handle_gc_shared_state_error(GC_Chat *chat, GC_Connection *gconn) { gcc_mark_for_deletion(gconn, chat->tcp_conn, GC_EXIT_TYPE_SYNC_ERR, nullptr, 0); if (chat->shared_state.version == 0) { chat->connection_state = CS_CONNECTING; return 0; } if (chat->numpeers <= 1) { return 0; } if (!send_gc_random_sync_request(chat, GF_STATE)) { return -1; } return 0; } /** @brief Handles a shared state packet and validates the new shared state. * * Return 0 if packet is successfully handled. * Return -1 if packet is invalid and this is not successfully handled. */ non_null(1, 2, 3, 4) nullable(6) static int handle_gc_shared_state(const GC_Session *c, GC_Chat *chat, GC_Connection *gconn, const uint8_t *data, uint16_t length, void *userdata) { if (length < GC_SHARED_STATE_ENC_PACKET_SIZE) { return handle_gc_shared_state_error(chat, gconn); } const uint8_t *signature = data; const uint8_t *ss_data = data + SIGNATURE_SIZE; const uint16_t ss_length = length - SIGNATURE_SIZE; if (crypto_sign_verify_detached(signature, ss_data, GC_PACKED_SHARED_STATE_SIZE, get_sig_pk(&chat->chat_public_key)) == -1) { LOGGER_DEBUG(chat->log, "Failed to validate shared state signature"); return handle_gc_shared_state_error(chat, gconn); } uint32_t version; net_unpack_u32(ss_data, &version); // version is the first 4 bytes of shared state data payload if (version == 0 || version < chat->shared_state.version) { LOGGER_DEBUG(chat->log, "Invalid shared state version (got %u, expected >= %u)", version, chat->shared_state.version); return 0; } const GC_SharedState old_shared_state = chat->shared_state; GC_SharedState new_shared_state; if (unpack_gc_shared_state(&new_shared_state, ss_data, ss_length) == 0) { LOGGER_WARNING(chat->log, "Failed to unpack shared state"); return 0; } if (!validate_gc_shared_state(&new_shared_state)) { LOGGER_WARNING(chat->log, "Failed to validate shared state"); return 0; } if (chat->shared_state.version == 0) { // init founder public sig key in moderation object memcpy(chat->moderation.founder_public_sig_key, get_sig_pk(&new_shared_state.founder_public_key), SIG_PUBLIC_KEY_SIZE); } chat->shared_state = new_shared_state; memcpy(chat->shared_state_sig, signature, sizeof(chat->shared_state_sig)); set_gc_shared_state_version(chat, chat->shared_state.version); do_gc_shared_state_changes(c, chat, &old_shared_state, userdata); return 0; } /** @brief Validates `data` containing a moderation list and unpacks it into the * shared state of `chat`. * * Return 1 if data is valid but mod list doesn't match shared state. * Return 0 if data is valid. * Return -1 if data is invalid. */ non_null() static int validate_unpack_mod_list(GC_Chat *chat, const uint8_t *data, uint16_t length, uint16_t num_mods) { if (num_mods > MOD_MAX_NUM_MODERATORS) { return -1; } uint8_t mod_list_hash[MOD_MODERATION_HASH_SIZE] = {0}; if (length > 0) { mod_list_get_data_hash(mod_list_hash, data, length); } // we make sure that this mod list's hash matches the one we got in our last shared state update if (chat->shared_state.version > 0 && memcmp(mod_list_hash, chat->shared_state.mod_list_hash, MOD_MODERATION_HASH_SIZE) != 0) { LOGGER_WARNING(chat->log, "failed to validate mod list hash"); return 1; } if (mod_list_unpack(&chat->moderation, data, length, num_mods) == -1) { LOGGER_WARNING(chat->log, "failed to unpack mod list"); return -1; } return 0; } /** @brief Handles new mod_list and compares its hash against the mod_list_hash in the shared state. * * If the new list fails validation, we attempt to send a sync request to a random peer. * * Return 0 if packet is handled correctly. * Return -1 if packet has invalid size. * Return -2 if packet contained invalid data or validation failed. */ non_null(1, 2, 3) nullable(5) static int handle_gc_mod_list(const GC_Session *c, GC_Chat *chat, const uint8_t *data, uint16_t length, void *userdata) { if (length < sizeof(uint16_t)) { return -1; } // only the founder can modify the list; the founder can never be out of sync if (self_gc_is_founder(chat)) { return 0; } uint16_t num_mods; net_unpack_u16(data, &num_mods); const int unpack_ret = validate_unpack_mod_list(chat, data + sizeof(uint16_t), length - sizeof(uint16_t), num_mods); if (unpack_ret == 0) { update_gc_peer_roles(chat); if (chat->connection_state == CS_CONNECTED && c->moderation != nullptr) { c->moderation(c->messenger, chat->group_number, gc_invalid_peer_id(), gc_invalid_peer_id(), MV_MOD, userdata); } return 0; } if (unpack_ret == 1) { return 0; } // unpack/validation failed: handle error if (chat->shared_state.version == 0) { chat->connection_state = CS_CONNECTING; return -2; } if (chat->numpeers <= 1) { return 0; } send_gc_random_sync_request(chat, GF_STATE); return 0; } /** @brief Handles a sanctions list validation error and attempts to send a sync request to a random peer. * * Return 0 on success. * Return -1 on failure. */ non_null() static int handle_gc_sanctions_list_error(GC_Chat *chat) { if (chat->moderation.sanctions_creds.version > 0) { return 0; } if (chat->shared_state.version == 0) { chat->connection_state = CS_CONNECTING; return 0; } if (chat->numpeers <= 1) { return 0; } if (!send_gc_random_sync_request(chat, GF_STATE)) { return -1; } return 0; } /** @brief Handles a sanctions list packet. * * Return 0 if packet is handled correctly. * Return -1 if we failed to gracefully handle a sanctions list error. * Return -2 if packet has invalid size. */ non_null(1, 2, 3) nullable(5) static int handle_gc_sanctions_list(const GC_Session *c, GC_Chat *chat, const uint8_t *data, uint16_t length, void *userdata) { if (length < sizeof(uint16_t)) { return -2; } uint16_t num_sanctions; net_unpack_u16(data, &num_sanctions); if (num_sanctions > MOD_MAX_NUM_SANCTIONS) { LOGGER_DEBUG(chat->log, "num_sanctions: %u exceeds maximum", num_sanctions); return handle_gc_sanctions_list_error(chat); } Mod_Sanction_Creds creds; Mod_Sanction *sanctions = (Mod_Sanction *)calloc(num_sanctions, sizeof(Mod_Sanction)); if (sanctions == nullptr) { return -1; } const int unpacked_num = sanctions_list_unpack(sanctions, &creds, num_sanctions, data + sizeof(uint16_t), length - sizeof(uint16_t), nullptr); if (unpacked_num != num_sanctions) { LOGGER_WARNING(chat->log, "Failed to unpack sanctions list: %d", unpacked_num); free(sanctions); return handle_gc_sanctions_list_error(chat); } if (!sanctions_list_check_integrity(&chat->moderation, &creds, sanctions, num_sanctions)) { LOGGER_WARNING(chat->log, "Sanctions list failed integrity check"); free(sanctions); return handle_gc_sanctions_list_error(chat); } if (creds.version < chat->moderation.sanctions_creds.version) { free(sanctions); return 0; } // this may occur if two mods change the sanctions list at the exact same time if (creds.version == chat->moderation.sanctions_creds.version && creds.checksum <= chat->moderation.sanctions_creds.checksum) { free(sanctions); return 0; } sanctions_list_cleanup(&chat->moderation); chat->moderation.sanctions_creds = creds; chat->moderation.sanctions = sanctions; chat->moderation.num_sanctions = num_sanctions; update_gc_peer_roles(chat); if (chat->connection_state == CS_CONNECTED) { if (c->moderation != nullptr) { c->moderation(c->messenger, chat->group_number, gc_invalid_peer_id(), gc_invalid_peer_id(), MV_OBSERVER, userdata); } } return 0; } /** @brief Makes a mod_list packet. * * Returns length of packet data on success. * Returns -1 on failure. */ non_null() static int make_gc_mod_list_packet(const GC_Chat *chat, uint8_t *data, uint32_t maxlen, uint16_t mod_list_size) { if (maxlen < sizeof(uint16_t) + mod_list_size) { return -1; } net_pack_u16(data, chat->moderation.num_mods); const uint16_t length = sizeof(uint16_t) + mod_list_size; if (mod_list_size > 0) { uint8_t *packed_mod_list = (uint8_t *)malloc(mod_list_size); if (packed_mod_list == nullptr) { return -1; } mod_list_pack(&chat->moderation, packed_mod_list); memcpy(data + sizeof(uint16_t), packed_mod_list, mod_list_size); free(packed_mod_list); } return length; } /** @brief Sends the moderator list to peer. * * Return true on success. */ non_null() static bool send_peer_mod_list(const GC_Chat *chat, GC_Connection *gconn) { const uint16_t mod_list_size = chat->moderation.num_mods * MOD_LIST_ENTRY_SIZE; const uint16_t length = sizeof(uint16_t) + mod_list_size; uint8_t *packet = (uint8_t *)malloc(length); if (packet == nullptr) { return false; } const int packet_len = make_gc_mod_list_packet(chat, packet, length, mod_list_size); if (packet_len != length) { free(packet); return false; } const bool ret = send_lossless_group_packet(chat, gconn, packet, length, GP_MOD_LIST); free(packet); return ret; } /** @brief Makes a sanctions list packet. * * Returns packet length on success. * Returns -1 on failure. */ non_null() static int make_gc_sanctions_list_packet(const GC_Chat *chat, uint8_t *data, uint16_t maxlen) { if (maxlen < sizeof(uint16_t)) { return -1; } net_pack_u16(data, chat->moderation.num_sanctions); const uint16_t length = sizeof(uint16_t); const int packed_len = sanctions_list_pack(data + length, maxlen - length, chat->moderation.sanctions, chat->moderation.num_sanctions, &chat->moderation.sanctions_creds); if (packed_len < 0) { return -1; } return length + packed_len; } /** @brief Sends the sanctions list to peer. * * Returns true on success. */ non_null() static bool send_peer_sanctions_list(const GC_Chat *chat, GC_Connection *gconn) { if (chat->moderation.sanctions_creds.version == 0) { return true; } const uint16_t packet_size = MOD_SANCTION_PACKED_SIZE * chat->moderation.num_sanctions + sizeof(uint16_t) + MOD_SANCTIONS_CREDS_SIZE; uint8_t *packet = (uint8_t *)malloc(packet_size); if (packet == nullptr) { return false; } const int packet_len = make_gc_sanctions_list_packet(chat, packet, packet_size); if (packet_len == -1) { free(packet); return false; } const bool ret = send_lossless_group_packet(chat, gconn, packet, (uint16_t)packet_len, GP_SANCTIONS_LIST); free(packet); return ret; } /** @brief Sends the sanctions list to all peers in group. * * Returns true on success. */ non_null() static bool broadcast_gc_sanctions_list(const GC_Chat *chat) { const uint16_t packet_size = MOD_SANCTION_PACKED_SIZE * chat->moderation.num_sanctions + sizeof(uint16_t) + MOD_SANCTIONS_CREDS_SIZE; uint8_t *packet = (uint8_t *)malloc(packet_size); if (packet == nullptr) { return false; } const int packet_len = make_gc_sanctions_list_packet(chat, packet, packet_size); if (packet_len == -1) { free(packet); return false; } const bool ret = send_gc_lossless_packet_all_peers(chat, packet, (uint16_t)packet_len, GP_SANCTIONS_LIST); free(packet); return ret; } /** @brief Re-signs all sanctions list entries signed by public_sig_key and broadcasts * the updated sanctions list to all group peers. * * Returns true on success. */ non_null() static bool update_gc_sanctions_list(GC_Chat *chat, const uint8_t *public_sig_key) { const uint16_t num_replaced = sanctions_list_replace_sig(&chat->moderation, public_sig_key); if (num_replaced == 0) { return true; } return broadcast_gc_sanctions_list(chat); } /** @brief Sends mod_list to all peers in group. * * Returns true on success. */ non_null() static bool broadcast_gc_mod_list(const GC_Chat *chat) { const uint16_t mod_list_size = chat->moderation.num_mods * MOD_LIST_ENTRY_SIZE; const uint16_t length = sizeof(uint16_t) + mod_list_size; uint8_t *packet = (uint8_t *)malloc(length); if (packet == nullptr) { return false; } const int packet_len = make_gc_mod_list_packet(chat, packet, length, mod_list_size); if (packet_len != length) { free(packet); return false; } const bool ret = send_gc_lossless_packet_all_peers(chat, packet, length, GP_MOD_LIST); free(packet); return ret; } /** @brief Sends a parting signal to the group. * * Returns 0 on success. * Returns -1 if the message is too long. * Returns -2 if the packet failed to send. */ non_null(1) nullable(2) static int send_gc_self_exit(const GC_Chat *chat, const uint8_t *partmessage, uint16_t length) { if (length > MAX_GC_PART_MESSAGE_SIZE) { return -1; } if (!send_gc_broadcast_message(chat, partmessage, length, GM_PEER_EXIT)) { return -2; } return 0; } /** @brief Handles a peer exit broadcast. */ non_null(1, 2) nullable(3) static void handle_gc_peer_exit(const GC_Chat *chat, GC_Connection *gconn, const uint8_t *data, uint16_t length) { if (length > MAX_GC_PART_MESSAGE_SIZE) { length = MAX_GC_PART_MESSAGE_SIZE; } gcc_mark_for_deletion(gconn, chat->tcp_conn, GC_EXIT_TYPE_QUIT, data, length); } int gc_set_self_nick(const Messenger *m, int group_number, const uint8_t *nick, uint16_t length) { const GC_Session *c = m->group_handler; const GC_Chat *chat = gc_get_group(c, group_number); if (chat == nullptr) { return -1; } if (length > MAX_GC_NICK_SIZE) { return -2; } if (length == 0 || nick == nullptr) { return -3; } if (!self_gc_set_nick(chat, nick, length)) { return -2; } if (!send_gc_broadcast_message(chat, nick, length, GM_NICK)) { return -4; } return 0; } bool gc_get_peer_nick(const GC_Chat *chat, GC_Peer_Id peer_id, uint8_t *name) { const int peer_number = get_peer_number_of_peer_id(chat, peer_id); const GC_Peer *peer = get_gc_peer(chat, peer_number); if (peer == nullptr) { return false; } if (name != nullptr) { memcpy(name, peer->nick, peer->nick_length); } return true; } int gc_get_peer_nick_size(const GC_Chat *chat, GC_Peer_Id peer_id) { const int peer_number = get_peer_number_of_peer_id(chat, peer_id); const GC_Peer *peer = get_gc_peer(chat, peer_number); if (peer == nullptr) { return -1; } return peer->nick_length; } /** @brief Handles a nick change broadcast. * * Return 0 if packet is handled correctly. * Return -1 on failure. */ non_null(1, 2, 3, 4) nullable(6) static int handle_gc_nick(const GC_Session *c, GC_Chat *chat, GC_Peer *peer, const uint8_t *nick, uint16_t length, void *userdata) { /* If this happens malicious behaviour is highly suspect */ if (length == 0 || length > MAX_GC_NICK_SIZE) { GC_Connection *gconn = &peer->gconn; gcc_mark_for_deletion(gconn, chat->tcp_conn, GC_EXIT_TYPE_SYNC_ERR, nullptr, 0); LOGGER_WARNING(chat->log, "Invalid nick length for nick: %s (%u)", nick, length); return -1; } memcpy(peer->nick, nick, length); peer->nick_length = length; if (c->nick_change != nullptr) { c->nick_change(c->messenger, chat->group_number, peer->peer_id, nick, length, userdata); } return 0; } /** @brief Copies peer_number's public key to `public_key`. * * Returns 0 on success. * Returns -1 if peer_number is invalid. * Returns -2 if `public_key` is null. */ non_null() static int get_gc_peer_public_key(const GC_Chat *chat, uint32_t peer_number, uint8_t *public_key) { const GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return -1; } if (public_key == nullptr) { return -2; } memcpy(public_key, gconn->addr.public_key.enc, ENC_PUBLIC_KEY_SIZE); return 0; } int gc_get_peer_public_key_by_peer_id(const GC_Chat *chat, GC_Peer_Id peer_id, uint8_t *public_key) { const int peer_number = get_peer_number_of_peer_id(chat, peer_id); const GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return -1; } if (public_key == nullptr) { return -2; } memcpy(public_key, gconn->addr.public_key.enc, ENC_PUBLIC_KEY_SIZE); return 0; } /** @brief Puts a string of the IP associated with `ip_port` in `ip_str` if the * connection is direct, otherwise puts a placeholder in the buffer indicating that * the IP cannot be displayed. */ non_null() static void get_gc_ip_ntoa(const IP_Port *ip_port, Ip_Ntoa *ip_str) { net_ip_ntoa(&ip_port->ip, ip_str); if (!ip_str->ip_is_valid) { ip_str->buf[0] = '-'; ip_str->buf[1] = '\0'; ip_str->length = 1; } } int gc_get_peer_ip_address_size(const GC_Chat *chat, GC_Peer_Id peer_id) { const int peer_number = get_peer_number_of_peer_id(chat, peer_id); const GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return -1; } const IP_Port *ip_port = peer_number == 0 ? &chat->self_ip_port : &gconn->addr.ip_port; Ip_Ntoa ip_str; get_gc_ip_ntoa(ip_port, &ip_str); return ip_str.length; } int gc_get_peer_ip_address(const GC_Chat *chat, GC_Peer_Id peer_id, uint8_t *ip_addr) { const int peer_number = get_peer_number_of_peer_id(chat, peer_id); const GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return -1; } if (ip_addr == nullptr) { return -2; } const IP_Port *ip_port = peer_number == 0 ? &chat->self_ip_port : &gconn->addr.ip_port; Ip_Ntoa ip_str; get_gc_ip_ntoa(ip_port, &ip_str); assert(ip_str.length <= IP_NTOA_LEN); memcpy(ip_addr, ip_str.buf, ip_str.length); return 0; } unsigned int gc_get_peer_connection_status(const GC_Chat *chat, GC_Peer_Id peer_id) { const int peer_number = get_peer_number_of_peer_id(chat, peer_id); if (peer_number_is_self(peer_number)) { return chat->self_udp_status == SELF_UDP_STATUS_NONE ? 1 : 2; } const GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return 0; } if (gcc_conn_is_direct(chat->mono_time, gconn)) { return 2; } return 1; } /** @brief Creates a topic packet and puts it in data. * * Packet includes the topic, topic length, public signature key of the * setter, topic version, and the signature. * * Returns packet length on success. * Returns -1 on failure. */ non_null() static int make_gc_topic_packet(const GC_Chat *chat, uint8_t *data, uint16_t length) { if (length < SIGNATURE_SIZE + chat->topic_info.length + GC_MIN_PACKED_TOPIC_INFO_SIZE) { return -1; } memcpy(data, chat->topic_sig, SIGNATURE_SIZE); uint16_t data_length = SIGNATURE_SIZE; const uint16_t packed_len = pack_gc_topic_info(data + data_length, length - data_length, &chat->topic_info); data_length += packed_len; if (packed_len != chat->topic_info.length + GC_MIN_PACKED_TOPIC_INFO_SIZE) { return -1; } return data_length; } /** @brief Sends the group topic to peer. * * Returns true on success. */ non_null() static bool send_peer_topic(const GC_Chat *chat, GC_Connection *gconn) { const uint16_t packet_buf_size = SIGNATURE_SIZE + chat->topic_info.length + GC_MIN_PACKED_TOPIC_INFO_SIZE; uint8_t *packet = (uint8_t *)malloc(packet_buf_size); if (packet == nullptr) { return false; } const int packet_len = make_gc_topic_packet(chat, packet, packet_buf_size); if (packet_len != packet_buf_size) { free(packet); return false; } if (!send_lossless_group_packet(chat, gconn, packet, packet_buf_size, GP_TOPIC)) { free(packet); return false; } free(packet); return true; } /** * @brief Initiates a session key rotation with peer designated by `gconn`. * * Return true on success. */ non_null() static bool send_peer_key_rotation_request(const GC_Chat *chat, GC_Connection *gconn) { // Only the peer closest to the chat_id sends requests. This is to prevent both peers from sending // requests at the same time and ending up with a different resulting shared key if (!gconn->self_is_closer) { // if this peer hasn't sent us a rotation request in a reasonable timeframe we drop their connection if (mono_time_is_timeout(chat->mono_time, gconn->last_key_rotation, GC_KEY_ROTATION_TIMEOUT + GC_PING_TIMEOUT)) { gcc_mark_for_deletion(gconn, chat->tcp_conn, GC_EXIT_TYPE_TIMEOUT, nullptr, 0); } return true; } uint8_t packet[1 + ENC_PUBLIC_KEY_SIZE]; net_pack_bool(&packet[0], false); // request type create_gc_session_keypair(chat->log, chat->rng, gconn->session_public_key, gconn->session_secret_key); // copy new session public key to packet memcpy(packet + 1, gconn->session_public_key, ENC_PUBLIC_KEY_SIZE); if (!send_lossless_group_packet(chat, gconn, packet, sizeof(packet), GP_KEY_ROTATION)) { return false; } gconn->pending_key_rotation_request = true; return true; } /** @brief Sends the group topic to all group members. * * Returns true on success. */ non_null() static bool broadcast_gc_topic(const GC_Chat *chat) { const uint16_t packet_buf_size = SIGNATURE_SIZE + chat->topic_info.length + GC_MIN_PACKED_TOPIC_INFO_SIZE; uint8_t *packet = (uint8_t *)malloc(packet_buf_size); if (packet == nullptr) { return false; } const int packet_len = make_gc_topic_packet(chat, packet, packet_buf_size); if (packet_len != packet_buf_size) { free(packet); return false; } const bool ret = send_gc_lossless_packet_all_peers(chat, packet, packet_buf_size, GP_TOPIC); free(packet); return ret; } int gc_set_topic(GC_Chat *chat, const uint8_t *topic, uint16_t length) { if (length > MAX_GC_TOPIC_SIZE) { return -1; } const bool topic_lock_enabled = group_topic_lock_enabled(chat); if (topic_lock_enabled && gc_get_self_role(chat) > GR_MODERATOR) { return -2; } if (gc_get_self_role(chat) > GR_USER) { return -2; } const GC_TopicInfo old_topic_info = chat->topic_info; uint8_t old_topic_sig[SIGNATURE_SIZE]; memcpy(old_topic_sig, chat->topic_sig, SIGNATURE_SIZE); // TODO(jfreegman): improbable, but an overflow would break topic setting if (chat->topic_info.version == UINT32_MAX) { return -3; } // only increment topic version when lock is enabled if (topic_lock_enabled) { ++chat->topic_info.version; } chat->topic_info.length = length; if (length > 0) { assert(topic != nullptr); memcpy(chat->topic_info.topic, topic, length); } else { memzero(chat->topic_info.topic, sizeof(chat->topic_info.topic)); } memcpy(chat->topic_info.public_sig_key, get_sig_pk(&chat->self_public_key), SIG_PUBLIC_KEY_SIZE); chat->topic_info.checksum = get_gc_topic_checksum(&chat->topic_info); const uint16_t packet_buf_size = length + GC_MIN_PACKED_TOPIC_INFO_SIZE; uint8_t *packed_topic = (uint8_t *)malloc(packet_buf_size); if (packed_topic == nullptr) { return -3; } int err = -3; const uint16_t packed_len = pack_gc_topic_info(packed_topic, packet_buf_size, &chat->topic_info); if (packed_len != packet_buf_size) { goto ON_ERROR; } if (crypto_sign_detached(chat->topic_sig, nullptr, packed_topic, packet_buf_size, get_sig_sk(&chat->self_secret_key)) == -1) { goto ON_ERROR; } if (!broadcast_gc_topic(chat)) { err = -4; goto ON_ERROR; } chat->topic_prev_checksum = old_topic_info.checksum; chat->topic_time_set = mono_time_get(chat->mono_time); free(packed_topic); return 0; ON_ERROR: chat->topic_info = old_topic_info; memcpy(chat->topic_sig, old_topic_sig, SIGNATURE_SIZE); free(packed_topic); return err; } void gc_get_topic(const GC_Chat *chat, uint8_t *topic) { if (topic != nullptr) { memcpy(topic, chat->topic_info.topic, chat->topic_info.length); } } uint16_t gc_get_topic_size(const GC_Chat *chat) { return chat->topic_info.length; } /** * If public_sig_key is equal to the key of the topic setter, replaces topic credentials * and re-broadcasts the updated topic info to the group. * * Returns true on success */ non_null() static bool update_gc_topic(GC_Chat *chat, const uint8_t *public_sig_key) { if (memcmp(public_sig_key, chat->topic_info.public_sig_key, SIG_PUBLIC_KEY_SIZE) != 0) { return true; } LOGGER_TRACE(chat->log, "founder is re-signing topic"); return gc_set_topic(chat, chat->topic_info.topic, chat->topic_info.length) == 0; } /** @brief Validates `topic_info`. * * Return true if topic info is valid. */ non_null() static bool handle_gc_topic_validate(const GC_Chat *chat, const GC_Peer *peer, const GC_TopicInfo *topic_info, bool topic_lock_enabled) { if (topic_info->checksum != get_gc_topic_checksum(topic_info)) { LOGGER_WARNING(chat->log, "received invalid topic checksum"); return false; } if (topic_lock_enabled) { if (!mod_list_verify_sig_pk(&chat->moderation, topic_info->public_sig_key)) { LOGGER_DEBUG(chat->log, "Invalid topic signature (bad credentials)"); return false; } if (topic_info->version < chat->topic_info.version) { return false; } } else { uint8_t public_enc_key[ENC_PUBLIC_KEY_SIZE]; if (gc_get_enc_pk_from_sig_pk(chat, public_enc_key, topic_info->public_sig_key)) { if (sanctions_list_is_observer(&chat->moderation, public_enc_key)) { LOGGER_DEBUG(chat->log, "Invalid topic signature (sanctioned peer attempted to change topic)"); return false; } } if (topic_info->version == chat->shared_state.topic_lock) { // always accept topic on initial connection if (!mono_time_is_timeout(chat->mono_time, chat->time_connected, GC_PING_TIMEOUT)) { return true; } if (chat->topic_prev_checksum == topic_info->checksum && !mono_time_is_timeout(chat->mono_time, chat->topic_time_set, GC_CONFIRMED_PEER_TIMEOUT)) { LOGGER_DEBUG(chat->log, "Topic reversion (probable sync error)"); return false; } return true; } // the topic version should never change when the topic lock is disabled except when // the founder changes the topic prior to enabling the lock if (!(peer->role == GR_FOUNDER && topic_info->version == chat->shared_state.topic_lock + 1)) { LOGGER_ERROR(chat->log, "topic version %u differs from topic lock %u", topic_info->version, chat->shared_state.topic_lock); return false; } } return true; } /** @brief Handles a topic packet. * * Return 0 if packet is correctly handled. * Return -1 if packet has invalid size. */ non_null(1, 2, 3, 4) nullable(6) static int handle_gc_topic(const GC_Session *c, GC_Chat *chat, const GC_Peer *peer, const uint8_t *data, uint16_t length, void *userdata) { if (length < SIGNATURE_SIZE + GC_MIN_PACKED_TOPIC_INFO_SIZE) { return -1; } const uint16_t old_checksum = chat->topic_info.checksum; GC_TopicInfo topic_info; if (unpack_gc_topic_info(&topic_info, data + SIGNATURE_SIZE, length - SIGNATURE_SIZE) == -1) { LOGGER_WARNING(chat->log, "failed to unpack topic"); return 0; } const uint8_t *signature = data; if (crypto_sign_verify_detached(signature, data + SIGNATURE_SIZE, length - SIGNATURE_SIZE, topic_info.public_sig_key) == -1) { LOGGER_WARNING(chat->log, "failed to verify topic signature"); return 0; } const bool topic_lock_enabled = group_topic_lock_enabled(chat); if (!handle_gc_topic_validate(chat, peer, &topic_info, topic_lock_enabled)) { return 0; } // prevents sync issues from triggering the callback needlessly const bool skip_callback = chat->topic_info.length == topic_info.length && memcmp(chat->topic_info.topic, topic_info.topic, topic_info.length) == 0; chat->topic_prev_checksum = old_checksum; chat->topic_time_set = mono_time_get(chat->mono_time); chat->topic_info = topic_info; memcpy(chat->topic_sig, signature, SIGNATURE_SIZE); if (!skip_callback && chat->connection_state == CS_CONNECTED && c->topic_change != nullptr) { const int setter_peer_number = get_peer_number_of_sig_pk(chat, topic_info.public_sig_key); const GC_Peer_Id peer_id = setter_peer_number >= 0 ? chat->group[setter_peer_number].peer_id : gc_unknown_peer_id(); c->topic_change(c->messenger, chat->group_number, peer_id, topic_info.topic, topic_info.length, userdata); } return 0; } /** @brief Handles a key exchange packet. * * Return 0 if packet is handled correctly. * Return -1 if length is invalid. * Return -2 if we fail to create a new session keypair. * Return -3 if response packet fails to send. */ non_null() static int handle_gc_key_exchange(const GC_Chat *chat, GC_Connection *gconn, const uint8_t *data, uint16_t length) { if (length < 1 + ENC_PUBLIC_KEY_SIZE) { return -1; } bool is_response; net_unpack_bool(&data[0], &is_response); const uint8_t *sender_public_session_key = data + 1; if (is_response) { if (!gconn->pending_key_rotation_request) { LOGGER_WARNING(chat->log, "got unsolicited key rotation response from peer %u", gconn->public_key_hash); return 0; } // now that we have response we can compute our new shared key and begin using it gcc_make_session_shared_key(gconn, sender_public_session_key); gconn->pending_key_rotation_request = false; return 0; } // key generation is pretty cpu intensive so we make sure a peer can't DOS us by spamming requests if (!mono_time_is_timeout(chat->mono_time, gconn->last_key_rotation, GC_KEY_ROTATION_TIMEOUT / 2)) { return 0; } uint8_t response[1 + ENC_PUBLIC_KEY_SIZE]; uint8_t new_session_pk[ENC_PUBLIC_KEY_SIZE]; uint8_t new_session_sk[ENC_SECRET_KEY_SIZE]; net_pack_bool(&response[0], true); crypto_memlock(new_session_sk, sizeof(new_session_sk)); create_gc_session_keypair(chat->log, chat->rng, new_session_pk, new_session_sk); memcpy(response + 1, new_session_pk, ENC_PUBLIC_KEY_SIZE); if (!send_lossless_group_packet(chat, gconn, response, sizeof(response), GP_KEY_ROTATION)) { // Don't really care about zeroing the secret key here, because we failed, but // we're doing it anyway for symmetry with the memzero+munlock below, where we // really do care about it. crypto_memzero(new_session_sk, sizeof(new_session_sk)); crypto_memunlock(new_session_sk, sizeof(new_session_sk)); return -3; } // save new keys and compute new shared key AFTER sending response packet with old key memcpy(gconn->session_public_key, new_session_pk, sizeof(gconn->session_public_key)); memcpy(gconn->session_secret_key, new_session_sk, sizeof(gconn->session_secret_key)); gcc_make_session_shared_key(gconn, sender_public_session_key); crypto_memzero(new_session_sk, sizeof(new_session_sk)); crypto_memunlock(new_session_sk, sizeof(new_session_sk)); gconn->last_key_rotation = mono_time_get(chat->mono_time); return 0; } void gc_get_group_name(const GC_Chat *chat, uint8_t *group_name) { if (group_name != nullptr) { memcpy(group_name, chat->shared_state.group_name, chat->shared_state.group_name_len); } } uint16_t gc_get_group_name_size(const GC_Chat *chat) { return chat->shared_state.group_name_len; } void gc_get_password(const GC_Chat *chat, uint8_t *password) { if (password != nullptr) { memcpy(password, chat->shared_state.password, chat->shared_state.password_length); } } uint16_t gc_get_password_size(const GC_Chat *chat) { return chat->shared_state.password_length; } int gc_founder_set_password(GC_Chat *chat, const uint8_t *password, uint16_t password_length) { if (!self_gc_is_founder(chat)) { return -1; } const uint16_t oldlen = chat->shared_state.password_length; uint8_t *oldpasswd = memdup(chat->shared_state.password, oldlen); if (oldpasswd == nullptr && oldlen > 0) { return -4; } if (!set_gc_password_local(chat, password, password_length)) { free(oldpasswd); return -2; } if (!sign_gc_shared_state(chat)) { set_gc_password_local(chat, oldpasswd, oldlen); free(oldpasswd); return -2; } free(oldpasswd); if (!broadcast_gc_shared_state(chat)) { return -3; } return 0; } /** @brief Validates change to moderator list and either adds or removes peer from our moderator list. * * Return target's peer number on success. * Return -1 on packet handle failure. * Return -2 if target peer is not online. * Return -3 if target peer is not a valid role (probably indicates sync issues). * Return -4 on validation failure. */ non_null() static int validate_unpack_gc_set_mod(GC_Chat *chat, uint32_t peer_number, const uint8_t *data, uint16_t length, bool add_mod) { int target_peer_number; uint8_t mod_data[MOD_LIST_ENTRY_SIZE]; if (add_mod) { if (length < 1 + MOD_LIST_ENTRY_SIZE) { return -1; } memcpy(mod_data, data + 1, MOD_MODERATION_HASH_SIZE); target_peer_number = get_peer_number_of_sig_pk(chat, mod_data); if (!gc_peer_number_is_valid(chat, target_peer_number)) { return -2; } const Group_Role target_role = chat->group[target_peer_number].role; if (target_role != GR_USER) { return -3; } if (!mod_list_add_entry(&chat->moderation, mod_data)) { return -4; } } else { memcpy(mod_data, data + 1, SIG_PUBLIC_KEY_SIZE); target_peer_number = get_peer_number_of_sig_pk(chat, mod_data); if (!gc_peer_number_is_valid(chat, target_peer_number)) { return -2; } const Group_Role target_role = chat->group[target_peer_number].role; if (target_role != GR_MODERATOR) { return -3; } if (!mod_list_remove_entry(&chat->moderation, mod_data)) { return -4; } } update_gc_peer_roles(chat); return target_peer_number; } /** @brief Handles a moderator set broadcast. * * Return 0 if packet is handled correctly. * Return -1 if packet has invalid size. * Return -2 if the packet contains invalid data. * Return -3 if `peer_number` does not designate a valid peer. */ non_null(1, 2, 4) nullable(6) static int handle_gc_set_mod(const GC_Session *c, GC_Chat *chat, uint32_t peer_number, const uint8_t *data, uint16_t length, void *userdata) { if (length < 1 + SIG_PUBLIC_KEY_SIZE) { return -1; } const GC_Peer *setter_peer = get_gc_peer(chat, peer_number); if (setter_peer == nullptr) { return -3; } if (setter_peer->role != GR_FOUNDER) { return 0; } bool add_mod; net_unpack_bool(&data[0], &add_mod); const int target_peer_number = validate_unpack_gc_set_mod(chat, peer_number, data, length, add_mod); if (target_peer_number == -1) { return -2; } const GC_Peer *target_peer = get_gc_peer(chat, target_peer_number); if (target_peer == nullptr) { return 0; } if (c->moderation != nullptr) { c->moderation(c->messenger, chat->group_number, setter_peer->peer_id, target_peer->peer_id, add_mod ? MV_MOD : MV_USER, userdata); } return 0; } /** @brief Sends a set mod broadcast to the group. * * Return true on success. */ non_null() static bool send_gc_set_mod(const GC_Chat *chat, const GC_Connection *gconn, bool add_mod) { const uint16_t length = 1 + SIG_PUBLIC_KEY_SIZE; uint8_t *data = (uint8_t *)malloc(length); if (data == nullptr) { return false; } net_pack_bool(&data[0], add_mod); memcpy(data + 1, get_sig_pk(&gconn->addr.public_key), SIG_PUBLIC_KEY_SIZE); if (!send_gc_broadcast_message(chat, data, length, GM_SET_MOD)) { free(data); return false; } free(data); return true; } /** * Adds or removes the peer designated by gconn from moderator list if `add_mod` is true or false respectively. * Re-signs and re-distributes an updated mod_list hash. * * Returns true on success. */ non_null() static bool founder_gc_set_moderator(GC_Chat *chat, const GC_Connection *gconn, bool add_mod) { if (!self_gc_is_founder(chat)) { return false; } if (add_mod) { if (chat->moderation.num_mods >= MOD_MAX_NUM_MODERATORS) { if (!prune_gc_mod_list(chat)) { return false; } } if (!mod_list_add_entry(&chat->moderation, get_sig_pk(&gconn->addr.public_key))) { return false; } } else { if (!mod_list_remove_entry(&chat->moderation, get_sig_pk(&gconn->addr.public_key))) { return false; } if (!update_gc_sanctions_list(chat, get_sig_pk(&gconn->addr.public_key)) || !update_gc_topic(chat, get_sig_pk(&gconn->addr.public_key))) { return false; } } uint8_t old_hash[MOD_MODERATION_HASH_SIZE]; memcpy(old_hash, chat->shared_state.mod_list_hash, MOD_MODERATION_HASH_SIZE); if (!mod_list_make_hash(&chat->moderation, chat->shared_state.mod_list_hash)) { return false; } if (!sign_gc_shared_state(chat) || !broadcast_gc_shared_state(chat)) { memcpy(chat->shared_state.mod_list_hash, old_hash, MOD_MODERATION_HASH_SIZE); return false; } return send_gc_set_mod(chat, gconn, add_mod); } /** @brief Validates `data` containing a change for the sanction list and unpacks it * into the sanctions list for `chat`. * * if `add_obs` is true we're adding an observer to the list. * * Return 1 if sanctions list is not modified. * Return 0 if data is valid and sanctions list is successfully modified. * Return -1 if data is invalid format. */ non_null() static int validate_unpack_observer_entry(GC_Chat *chat, const uint8_t *data, uint16_t length, const uint8_t *public_key, bool add_obs) { Mod_Sanction_Creds creds; if (add_obs) { Mod_Sanction sanction; if (sanctions_list_unpack(&sanction, &creds, 1, data, length, nullptr) != 1) { return -1; } // this may occur if two mods change the sanctions list at the exact same time if (creds.version == chat->moderation.sanctions_creds.version && creds.checksum <= chat->moderation.sanctions_creds.checksum) { return 1; } if (sanctions_list_entry_exists(&chat->moderation, &sanction) || !sanctions_list_add_entry(&chat->moderation, &sanction, &creds)) { return -1; } } else { if (length < MOD_SANCTIONS_CREDS_SIZE) { return -1; } if (sanctions_creds_unpack(&creds, data) != MOD_SANCTIONS_CREDS_SIZE) { return -1; } if (creds.version == chat->moderation.sanctions_creds.version && creds.checksum <= chat->moderation.sanctions_creds.checksum) { return 1; } if (!sanctions_list_is_observer(&chat->moderation, public_key) || !sanctions_list_remove_observer(&chat->moderation, public_key, &creds)) { return 1; } } return 0; } /** @brief Handles a set observer broadcast. * * Return 0 if packet is handled correctly. * Return -1 if packet has invalid size. * Return -2 if the packet contains invalid data. * Return -3 if `peer_number` does not designate a valid peer. */ non_null(1, 2, 4) nullable(6) static int handle_gc_set_observer(const GC_Session *c, GC_Chat *chat, uint32_t peer_number, const uint8_t *data, uint16_t length, void *userdata) { if (length <= 1 + EXT_PUBLIC_KEY_SIZE) { return -1; } const GC_Peer *setter_peer = get_gc_peer(chat, peer_number); if (setter_peer == nullptr) { return -3; } if (setter_peer->role > GR_MODERATOR) { LOGGER_DEBUG(chat->log, "peer with insufficient permissions tried to modify sanctions list"); return 0; } bool add_obs; net_unpack_bool(&data[0], &add_obs); const uint8_t *public_key = data + 1; const int target_peer_number = get_peer_number_of_enc_pk(chat, public_key, false); if (target_peer_number >= 0 && (uint32_t)target_peer_number == peer_number) { return -2; } const GC_Peer *target_peer = get_gc_peer(chat, target_peer_number); if (target_peer != nullptr) { if ((add_obs && target_peer->role != GR_USER) || (!add_obs && target_peer->role != GR_OBSERVER)) { return 0; } } const int ret = validate_unpack_observer_entry(chat, data + 1 + EXT_PUBLIC_KEY_SIZE, length - 1 - EXT_PUBLIC_KEY_SIZE, public_key, add_obs); if (ret == -1) { return -2; } if (ret == 1) { return 0; } update_gc_peer_roles(chat); if (target_peer != nullptr) { if (c->moderation != nullptr) { c->moderation(c->messenger, chat->group_number, setter_peer->peer_id, target_peer->peer_id, add_obs ? MV_OBSERVER : MV_USER, userdata); } } return 0; } /** @brief Broadcasts observer role data to the group. * * Returns true on success. */ non_null() static bool send_gc_set_observer(const GC_Chat *chat, const Extended_Public_Key *target_ext_pk, const uint8_t *sanction_data, uint16_t length, bool add_obs) { const uint16_t packet_len = 1 + ENC_PUBLIC_KEY_SIZE + SIG_PUBLIC_KEY_SIZE + length; uint8_t *packet = (uint8_t *)malloc(packet_len); if (packet == nullptr) { return false; } net_pack_bool(&packet[0], add_obs); memcpy(packet + 1, target_ext_pk->enc, ENC_PUBLIC_KEY_SIZE); memcpy(packet + 1 + ENC_PUBLIC_KEY_SIZE, target_ext_pk->sig, SIG_PUBLIC_KEY_SIZE); memcpy(packet + 1 + ENC_PUBLIC_KEY_SIZE + SIG_PUBLIC_KEY_SIZE, sanction_data, length); if (!send_gc_broadcast_message(chat, packet, packet_len, GM_SET_OBSERVER)) { free(packet); return false; } free(packet); return true; } /** @brief Adds or removes peer_number from the observer list if add_obs is true or false respectively. * Broadcasts this change to the entire group. * * Returns true on success. */ non_null() static bool mod_gc_set_observer(GC_Chat *chat, uint32_t peer_number, bool add_obs) { const GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return false; } if (gc_get_self_role(chat) >= GR_USER) { return false; } uint8_t sanction_data[MOD_SANCTION_PACKED_SIZE + MOD_SANCTIONS_CREDS_SIZE]; uint16_t length = 0; if (add_obs) { if (chat->moderation.num_sanctions >= MOD_MAX_NUM_SANCTIONS) { if (!prune_gc_sanctions_list(chat)) { return false; } } // if sanctioned peer set the topic we need to overwrite his signature and redistribute // topic info const int setter_peer_number = get_peer_number_of_sig_pk(chat, chat->topic_info.public_sig_key); if (setter_peer_number >= 0 && (uint32_t)setter_peer_number == peer_number) { if (gc_set_topic(chat, chat->topic_info.topic, chat->topic_info.length) != 0) { return false; } } Mod_Sanction sanction; if (!sanctions_list_make_entry(&chat->moderation, gconn->addr.public_key.enc, &sanction, SA_OBSERVER)) { LOGGER_WARNING(chat->log, "sanctions_list_make_entry failed in mod_gc_set_observer"); return false; } const int packed_len = sanctions_list_pack(sanction_data, sizeof(sanction_data), &sanction, 1, &chat->moderation.sanctions_creds); if (packed_len == -1) { return false; } length += packed_len; } else { if (!sanctions_list_remove_observer(&chat->moderation, gconn->addr.public_key.enc, nullptr)) { LOGGER_WARNING(chat->log, "failed to remove sanction"); return false; } const uint16_t packed_len = sanctions_creds_pack(&chat->moderation.sanctions_creds, sanction_data); if (packed_len != MOD_SANCTIONS_CREDS_SIZE) { return false; } length += packed_len; } if (length > sizeof(sanction_data)) { LOGGER_FATAL(chat->log, "Invalid sanction data length: %u", length); return false; } update_gc_peer_roles(chat); return send_gc_set_observer(chat, &gconn->addr.public_key, sanction_data, length, add_obs); } /** @brief Sets the role of `peer_number` to `new_role`. If necessary this function will first * remove the peer's current role before applying the new one. * * Return true on success. */ non_null() static bool apply_new_gc_role(GC_Chat *chat, uint32_t peer_number, Group_Role current_role, Group_Role new_role) { const GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return false; } switch (current_role) { case GR_MODERATOR: { if (!founder_gc_set_moderator(chat, gconn, false)) { return false; } update_gc_peer_roles(chat); if (new_role == GR_OBSERVER) { return mod_gc_set_observer(chat, peer_number, true); } break; } case GR_OBSERVER: { if (!mod_gc_set_observer(chat, peer_number, false)) { return false; } update_gc_peer_roles(chat); if (new_role == GR_MODERATOR) { return founder_gc_set_moderator(chat, gconn, true); } break; } case GR_USER: { if (new_role == GR_MODERATOR) { return founder_gc_set_moderator(chat, gconn, true); } else if (new_role == GR_OBSERVER) { return mod_gc_set_observer(chat, peer_number, true); } break; } case GR_FOUNDER: // Intentional fallthrough default: { return false; } } return true; } int gc_set_peer_role(const Messenger *m, int group_number, GC_Peer_Id peer_id, Group_Role new_role) { const GC_Session *c = m->group_handler; GC_Chat *chat = gc_get_group(c, group_number); if (chat == nullptr) { return -1; } const int peer_number = get_peer_number_of_peer_id(chat, peer_id); const GC_Peer *peer = get_gc_peer(chat, peer_number); if (peer == nullptr) { return -2; } const GC_Connection *gconn = &peer->gconn; if (!gconn->confirmed) { return -2; } const Group_Role current_role = peer->role; if (new_role == GR_FOUNDER || peer->role == new_role) { return -4; } if (peer_number_is_self(peer_number)) { return -6; } if (current_role == GR_FOUNDER || gc_get_self_role(chat) >= GR_USER) { return -3; } // moderators can't demote moderators or promote peers to moderator if (!self_gc_is_founder(chat) && (new_role == GR_MODERATOR || current_role == GR_MODERATOR)) { return -3; } if (!apply_new_gc_role(chat, peer_number, current_role, new_role)) { return -5; } update_gc_peer_roles(chat); return 0; } /** @brief Return true if topic lock is enabled */ non_null() static bool group_topic_lock_enabled(const GC_Chat *chat) { return chat->shared_state.topic_lock == GC_TOPIC_LOCK_ENABLED; } Group_Privacy_State gc_get_privacy_state(const GC_Chat *chat) { return chat->shared_state.privacy_state; } Group_Topic_Lock gc_get_topic_lock_state(const GC_Chat *chat) { return group_topic_lock_enabled(chat) ? TL_ENABLED : TL_DISABLED; } Group_Voice_State gc_get_voice_state(const GC_Chat *chat) { return chat->shared_state.voice_state; } int gc_founder_set_topic_lock(const Messenger *m, int group_number, Group_Topic_Lock new_lock_state) { const GC_Session *c = m->group_handler; GC_Chat *chat = gc_get_group(c, group_number); if (chat == nullptr) { return -1; } if (new_lock_state > TL_DISABLED) { return -2; } if (!self_gc_is_founder(chat)) { return -3; } if (chat->connection_state <= CS_DISCONNECTED) { return -4; } const Group_Topic_Lock old_lock_state = gc_get_topic_lock_state(chat); if (new_lock_state == old_lock_state) { return 0; } const uint32_t old_topic_lock = chat->shared_state.topic_lock; // If we're enabling the lock the founder needs to sign the current topic and re-broadcast // it with a new version. This needs to happen before we re-broadcast the shared state because // if it fails we don't want to enable the topic lock with an invalid topic signature or version. if (new_lock_state == TL_ENABLED) { chat->shared_state.topic_lock = GC_TOPIC_LOCK_ENABLED; if (gc_set_topic(chat, chat->topic_info.topic, chat->topic_info.length) != 0) { chat->shared_state.topic_lock = old_topic_lock; return -6; } } else { chat->shared_state.topic_lock = chat->topic_info.version; } if (!sign_gc_shared_state(chat)) { chat->shared_state.topic_lock = old_topic_lock; return -5; } if (!broadcast_gc_shared_state(chat)) { return -6; } return 0; } int gc_founder_set_voice_state(const Messenger *m, int group_number, Group_Voice_State new_voice_state) { const GC_Session *c = m->group_handler; GC_Chat *chat = gc_get_group(c, group_number); if (chat == nullptr) { return -1; } if (!self_gc_is_founder(chat)) { return -2; } if (chat->connection_state == CS_DISCONNECTED || chat->connection_state == CS_NONE) { return -3; } const Group_Voice_State old_voice_state = chat->shared_state.voice_state; if (new_voice_state == old_voice_state) { return 0; } chat->shared_state.voice_state = new_voice_state; if (!sign_gc_shared_state(chat)) { chat->shared_state.voice_state = old_voice_state; return -4; } if (!broadcast_gc_shared_state(chat)) { return -5; } return 0; } int gc_founder_set_privacy_state(const Messenger *m, int group_number, Group_Privacy_State new_privacy_state) { const GC_Session *c = m->group_handler; GC_Chat *chat = gc_get_group(c, group_number); if (chat == nullptr) { return -1; } if (!self_gc_is_founder(chat)) { return -2; } if (chat->connection_state == CS_DISCONNECTED || chat->connection_state == CS_NONE) { return -3; } const Group_Privacy_State old_privacy_state = chat->shared_state.privacy_state; if (new_privacy_state == old_privacy_state) { return 0; } chat->shared_state.privacy_state = new_privacy_state; if (!sign_gc_shared_state(chat)) { chat->shared_state.privacy_state = old_privacy_state; return -4; } if (new_privacy_state == GI_PRIVATE) { cleanup_gca(c->announces_list, get_chat_id(&chat->chat_public_key)); kill_group_friend_connection(c, chat); chat->join_type = HJ_PRIVATE; } else { if (!m_create_group_connection(c->messenger, chat)) { LOGGER_ERROR(chat->log, "Failed to initialize group friend connection"); } else { chat->update_self_announces = true; chat->join_type = HJ_PUBLIC; } } if (!broadcast_gc_shared_state(chat)) { return -5; } return 0; } uint16_t gc_get_max_peers(const GC_Chat *chat) { return chat->shared_state.maxpeers; } int gc_founder_set_max_peers(GC_Chat *chat, uint16_t max_peers) { if (!self_gc_is_founder(chat)) { return -1; } const uint16_t old_maxpeers = chat->shared_state.maxpeers; if (max_peers == chat->shared_state.maxpeers) { return 0; } chat->shared_state.maxpeers = max_peers; if (!sign_gc_shared_state(chat)) { chat->shared_state.maxpeers = old_maxpeers; return -2; } if (!broadcast_gc_shared_state(chat)) { return -3; } return 0; } int gc_send_message(const GC_Chat *chat, const uint8_t *message, uint16_t length, uint8_t type, uint32_t *message_id) { if (length > MAX_GC_MESSAGE_SIZE) { return -1; } if (message == nullptr || length == 0) { return -2; } if (type != GC_MESSAGE_TYPE_NORMAL && type != GC_MESSAGE_TYPE_ACTION) { return -3; } const GC_Peer *self = get_gc_peer(chat, 0); assert(self != nullptr); if (gc_get_self_role(chat) >= GR_OBSERVER || !peer_has_voice(self, chat->shared_state.voice_state)) { return -4; } const uint8_t packet_type = type == GC_MESSAGE_TYPE_NORMAL ? GM_PLAIN_MESSAGE : GM_ACTION_MESSAGE; const uint16_t length_raw = length + GC_MESSAGE_PSEUDO_ID_SIZE; uint8_t *message_raw = (uint8_t *)malloc(length_raw); if (message_raw == nullptr) { return -5; } const uint32_t pseudo_msg_id = random_u32(chat->rng); net_pack_u32(message_raw, pseudo_msg_id); memcpy(message_raw + GC_MESSAGE_PSEUDO_ID_SIZE, message, length); if (!send_gc_broadcast_message(chat, message_raw, length_raw, packet_type)) { free(message_raw); return -5; } free(message_raw); if (message_id != nullptr) { *message_id = pseudo_msg_id; } return 0; } /** @brief Handles a message broadcast. * * Return 0 if packet is handled correctly. * Return -1 if packet has invalid size. */ non_null(1, 2, 3, 4) nullable(7) static int handle_gc_message(const GC_Session *c, const GC_Chat *chat, const GC_Peer *peer, const uint8_t *data, uint16_t length, uint8_t type, void *userdata) { if (data == nullptr || length > MAX_GC_MESSAGE_RAW_SIZE || length <= GC_MESSAGE_PSEUDO_ID_SIZE) { return -1; } if (peer->ignore || peer->role >= GR_OBSERVER || !peer_has_voice(peer, chat->shared_state.voice_state)) { return 0; } if (type != GM_PLAIN_MESSAGE && type != GM_ACTION_MESSAGE) { LOGGER_WARNING(chat->log, "received invalid message type: %u", type); return 0; } const uint8_t cb_type = (type == GM_PLAIN_MESSAGE) ? MESSAGE_NORMAL : MESSAGE_ACTION; uint32_t pseudo_msg_id; net_unpack_u32(data, &pseudo_msg_id); if (c->message != nullptr) { c->message(c->messenger, chat->group_number, peer->peer_id, cb_type, data + GC_MESSAGE_PSEUDO_ID_SIZE, length - GC_MESSAGE_PSEUDO_ID_SIZE, pseudo_msg_id, userdata); } return 0; } int gc_send_private_message(const GC_Chat *chat, GC_Peer_Id peer_id, uint8_t type, const uint8_t *message, uint16_t length, uint32_t *message_id) { if (length > MAX_GC_MESSAGE_SIZE) { return -1; } if (message == nullptr || length == 0) { return -2; } const int peer_number = get_peer_number_of_peer_id(chat, peer_id); GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return -3; } if (type > MESSAGE_ACTION) { return -4; } if (gc_get_self_role(chat) >= GR_OBSERVER) { return -5; } const uint16_t raw_length = 1 + length + GC_MESSAGE_PSEUDO_ID_SIZE; uint8_t *message_with_type = (uint8_t *)malloc(raw_length); if (message_with_type == nullptr) { return -6; } message_with_type[0] = type; const uint32_t pseudo_msg_id = random_u32(chat->rng); net_pack_u32(message_with_type + 1, pseudo_msg_id); memcpy(message_with_type + 1 + GC_MESSAGE_PSEUDO_ID_SIZE, message, length); uint8_t *packet = (uint8_t *)malloc(raw_length + GC_BROADCAST_ENC_HEADER_SIZE); if (packet == nullptr) { free(message_with_type); return -6; } const uint16_t packet_len = make_gc_broadcast_header(message_with_type, raw_length, packet, GM_PRIVATE_MESSAGE); free(message_with_type); if (!send_lossless_group_packet(chat, gconn, packet, packet_len, GP_BROADCAST)) { free(packet); return -6; } free(packet); if (message_id != nullptr) { *message_id = pseudo_msg_id; } return 0; } /** @brief Handles a private message. * * Return 0 if packet is handled correctly. * Return -1 if packet has invalid size. */ non_null(1, 2, 3, 4) nullable(6) static int handle_gc_private_message(const GC_Session *c, const GC_Chat *chat, const GC_Peer *peer, const uint8_t *data, uint16_t length, void *userdata) { if (data == nullptr || length > MAX_GC_MESSAGE_SIZE || length <= 1 + GC_MESSAGE_PSEUDO_ID_SIZE) { return -1; } if (peer->ignore || peer->role >= GR_OBSERVER) { return 0; } const uint8_t message_type = data[0]; if (message_type > MESSAGE_ACTION) { LOGGER_WARNING(chat->log, "Received invalid private message type: %u", message_type); return 0; } uint32_t message_id; net_unpack_u32(data + 1, &message_id); if (c->private_message != nullptr) { c->private_message(c->messenger, chat->group_number, peer->peer_id, message_type, data + 1 + GC_MESSAGE_PSEUDO_ID_SIZE, length - 1 - GC_MESSAGE_PSEUDO_ID_SIZE, message_id, userdata); } return 0; } /** @brief Returns false if a custom packet is too large. */ static bool custom_gc_packet_length_is_valid(uint16_t length, bool lossless) { return length <= (lossless ? MAX_GC_CUSTOM_LOSSLESS_PACKET_SIZE : MAX_GC_CUSTOM_LOSSY_PACKET_SIZE); } int gc_send_custom_private_packet(const GC_Chat *chat, bool lossless, GC_Peer_Id peer_id, const uint8_t *message, uint16_t length) { if (!custom_gc_packet_length_is_valid(length, lossless)) { return -1; } if (message == nullptr || length == 0) { return -2; } const int peer_number = get_peer_number_of_peer_id(chat, peer_id); GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return -3; } bool ret; if (lossless) { ret = send_lossless_group_packet(chat, gconn, message, length, GP_CUSTOM_PRIVATE_PACKET); } else { ret = send_lossy_group_packet(chat, gconn, message, length, GP_CUSTOM_PRIVATE_PACKET); } return ret ? 0 : -4; } /** @brief Handles a custom private packet. * * @retval 0 if packet is handled correctly. * @retval -1 if packet has invalid size. */ non_null(1, 2, 3, 4) nullable(7) static int handle_gc_custom_private_packet(const GC_Session *c, const GC_Chat *chat, const GC_Peer *peer, const uint8_t *data, uint16_t length, bool lossless, void *userdata) { if (!custom_gc_packet_length_is_valid(length, lossless)) { return -1; } if (data == nullptr || length == 0) { return -1; } if (c->custom_private_packet != nullptr) { c->custom_private_packet(c->messenger, chat->group_number, peer->peer_id, data, length, userdata); } return 0; } int gc_send_custom_packet(const GC_Chat *chat, bool lossless, const uint8_t *data, uint16_t length) { if (!custom_gc_packet_length_is_valid(length, lossless)) { return -1; } if (data == nullptr || length == 0) { return -2; } bool success; if (lossless) { success = send_gc_lossless_packet_all_peers(chat, data, length, GP_CUSTOM_PACKET); } else { success = send_gc_lossy_packet_all_peers(chat, data, length, GP_CUSTOM_PACKET); } return success ? 0 : -3; } /** @brief Handles a custom packet. * * Return 0 if packet is handled correctly. * Return -1 if packet has invalid size. */ non_null(1, 2, 3, 4) nullable(7) static int handle_gc_custom_packet(const GC_Session *c, const GC_Chat *chat, const GC_Peer *peer, const uint8_t *data, uint16_t length, bool lossless, void *userdata) { if (!custom_gc_packet_length_is_valid(length, lossless)) { return -1; } if (data == nullptr || length == 0) { return -1; } if (c->custom_packet != nullptr) { c->custom_packet(c->messenger, chat->group_number, peer->peer_id, data, length, userdata); } return 0; } /** @brief Handles a peer kick broadcast. * * Return 0 if packet is handled correctly. * Return -1 if packet has invalid size. */ non_null(1, 2, 3, 4) nullable(6) static int handle_gc_kick_peer(const GC_Session *c, GC_Chat *chat, const GC_Peer *setter_peer, const uint8_t *data, uint16_t length, void *userdata) { if (length < ENC_PUBLIC_KEY_SIZE) { return -1; } if (setter_peer->role >= GR_USER) { return 0; } const uint8_t *target_pk = data; const int target_peer_number = get_peer_number_of_enc_pk(chat, target_pk, false); GC_Peer *target_peer = get_gc_peer(chat, target_peer_number); if (target_peer != nullptr) { if (target_peer->role != GR_USER) { return 0; } } if (peer_number_is_self(target_peer_number)) { assert(target_peer != nullptr); for (uint32_t i = 1; i < chat->numpeers; ++i) { GC_Connection *gconn = get_gc_connection(chat, i); assert(gconn != nullptr); gcc_mark_for_deletion(gconn, chat->tcp_conn, GC_EXIT_TYPE_SELF_DISCONNECTED, nullptr, 0); } chat->connection_state = CS_DISCONNECTED; if (c->moderation != nullptr) { c->moderation(c->messenger, chat->group_number, setter_peer->peer_id, target_peer->peer_id, MV_KICK, userdata); } return 0; } if (target_peer == nullptr) { /** we don't need to/can't kick a peer that isn't in our peerlist */ return 0; } gcc_mark_for_deletion(&target_peer->gconn, chat->tcp_conn, GC_EXIT_TYPE_KICKED, nullptr, 0); if (c->moderation != nullptr) { c->moderation(c->messenger, chat->group_number, setter_peer->peer_id, target_peer->peer_id, MV_KICK, userdata); } return 0; } /** @brief Sends a packet to instruct all peers to remove gconn from their peerlist. * * Returns true on success. */ non_null() static bool send_gc_kick_peer(const GC_Chat *chat, const GC_Connection *gconn) { uint8_t packet[ENC_PUBLIC_KEY_SIZE]; memcpy(packet, gconn->addr.public_key.enc, ENC_PUBLIC_KEY_SIZE); return send_gc_broadcast_message(chat, packet, ENC_PUBLIC_KEY_SIZE, GM_KICK_PEER); } int gc_kick_peer(const Messenger *m, int group_number, GC_Peer_Id peer_id) { const GC_Session *c = m->group_handler; GC_Chat *chat = gc_get_group(c, group_number); if (chat == nullptr) { return -1; } const int peer_number = get_peer_number_of_peer_id(chat, peer_id); if (peer_number_is_self(peer_number)) { return -6; } GC_Peer *peer = get_gc_peer(chat, peer_number); if (peer == nullptr) { return -2; } if (gc_get_self_role(chat) >= GR_USER || peer->role == GR_FOUNDER) { return -3; } if (!self_gc_is_founder(chat) && peer->role == GR_MODERATOR) { return -3; } if (peer->role == GR_MODERATOR || peer->role == GR_OBSERVER) { // this first removes peer from any lists they're on and broadcasts new lists to group if (gc_set_peer_role(c->messenger, chat->group_number, peer_id, GR_USER) < 0) { return -4; } } if (!send_gc_kick_peer(chat, &peer->gconn)) { return -5; } gcc_mark_for_deletion(&peer->gconn, chat->tcp_conn, GC_EXIT_TYPE_NO_CALLBACK, nullptr, 0); return 0; } bool gc_send_message_ack(const GC_Chat *chat, GC_Connection *gconn, uint64_t message_id, Group_Message_Ack_Type type) { if (gconn->pending_delete) { return true; } if (type == GR_ACK_REQ) { const uint64_t tm = mono_time_get(chat->mono_time); if (gconn->last_requested_packet_time == tm) { return true; } gconn->last_requested_packet_time = tm; } else if (type != GR_ACK_RECV) { return false; } uint8_t data[GC_LOSSLESS_ACK_PACKET_SIZE]; data[0] = (uint8_t) type; net_pack_u64(data + 1, message_id); return send_lossy_group_packet(chat, gconn, data, GC_LOSSLESS_ACK_PACKET_SIZE, GP_MESSAGE_ACK); } /** @brief Handles a lossless message acknowledgement. * * If the type is GR_ACK_RECV we remove the packet from our * send array. If the type is GR_ACK_REQ we re-send the packet * associated with the requested message_id. * * Returns 0 if packet is handled correctly. * Return -1 if packet has invalid size. * Return -2 if we failed to handle the ack (may be caused by connection issues). * Return -3 if we failed to re-send a requested packet. */ non_null() static int handle_gc_message_ack(const GC_Chat *chat, GC_Connection *gconn, const uint8_t *data, uint16_t length) { if (length < GC_LOSSLESS_ACK_PACKET_SIZE) { return -1; } uint64_t message_id; net_unpack_u64(data + 1, &message_id); const Group_Message_Ack_Type type = (Group_Message_Ack_Type) data[0]; if (type == GR_ACK_RECV) { if (!gcc_handle_ack(chat->log, gconn, message_id)) { return -2; } return 0; } if (type != GR_ACK_REQ) { return 0; } const uint64_t tm = mono_time_get(chat->mono_time); const uint16_t idx = gcc_get_array_index(message_id); /* re-send requested packet */ if (gconn->send_array[idx].message_id == message_id) { if (gcc_encrypt_and_send_lossless_packet(chat, gconn, gconn->send_array[idx].data, gconn->send_array[idx].data_length, gconn->send_array[idx].message_id, gconn->send_array[idx].packet_type) == 0) { gconn->send_array[idx].last_send_try = tm; LOGGER_DEBUG(chat->log, "Re-sent requested packet %llu", (unsigned long long)message_id); } else { return -3; } } return 0; } /** @brief Sends a handshake response ack to peer. * * Return true on success. */ non_null() static bool send_gc_hs_response_ack(const GC_Chat *chat, GC_Connection *gconn) { return send_lossless_group_packet(chat, gconn, nullptr, 0, GP_HS_RESPONSE_ACK); } /** @brief Handles a handshake response ack. * * Return 0 if packet is handled correctly. * Return -1 if we failed to respond with an invite request. */ non_null() static int handle_gc_hs_response_ack(const GC_Chat *chat, GC_Connection *gconn) { gconn->handshaked = true; // has to be true before we can send a lossless packet if (!send_gc_invite_request(chat, gconn)) { gconn->handshaked = false; return -1; } return 0; } int gc_set_ignore(const GC_Chat *chat, GC_Peer_Id peer_id, bool ignore) { const int peer_number = get_peer_number_of_peer_id(chat, peer_id); GC_Peer *peer = get_gc_peer(chat, peer_number); if (peer == nullptr) { return -1; } if (peer_number_is_self(peer_number)) { return -2; } peer->ignore = ignore; return 0; } /** @brief Handles a broadcast packet. * * Returns 0 if packet is handled correctly. * Returns -1 on failure. */ non_null(1, 2, 4) nullable(6) static int handle_gc_broadcast(const GC_Session *c, GC_Chat *chat, uint32_t peer_number, const uint8_t *data, uint16_t length, void *userdata) { if (length < GC_BROADCAST_ENC_HEADER_SIZE) { return -1; } GC_Peer *peer = get_gc_peer(chat, peer_number); if (peer == nullptr) { return -1; } GC_Connection *gconn = &peer->gconn; if (!gconn->confirmed) { return -1; } const uint8_t broadcast_type = data[0]; const uint16_t m_len = length - 1; const uint8_t *message = data + 1; int ret = 0; switch (broadcast_type) { case GM_STATUS: { ret = handle_gc_status(c, chat, peer, message, m_len, userdata); break; } case GM_NICK: { ret = handle_gc_nick(c, chat, peer, message, m_len, userdata); break; } case GM_ACTION_MESSAGE: // intentional fallthrough case GM_PLAIN_MESSAGE: { ret = handle_gc_message(c, chat, peer, message, m_len, broadcast_type, userdata); break; } case GM_PRIVATE_MESSAGE: { ret = handle_gc_private_message(c, chat, peer, message, m_len, userdata); break; } case GM_PEER_EXIT: { handle_gc_peer_exit(chat, gconn, message, m_len); ret = 0; break; } case GM_KICK_PEER: { ret = handle_gc_kick_peer(c, chat, peer, message, m_len, userdata); break; } case GM_SET_MOD: { ret = handle_gc_set_mod(c, chat, peer_number, message, m_len, userdata); break; } case GM_SET_OBSERVER: { ret = handle_gc_set_observer(c, chat, peer_number, message, m_len, userdata); break; } default: { LOGGER_DEBUG(chat->log, "Received an invalid broadcast type 0x%02x", broadcast_type); break; } } if (ret < 0) { LOGGER_DEBUG(chat->log, "Broadcast handle error %d: type: 0x%02x, peernumber: %u", ret, broadcast_type, peer_number); return -1; } return 0; } /** @brief Decrypts data of size `length` using self secret key and sender's public key. * * The packet payload should begin with a nonce. * * Returns length of plaintext data on success. * Return -1 if length is invalid. * Return -2 if decryption fails. */ non_null() static int unwrap_group_handshake_packet(const Logger *log, const Memory *mem, const uint8_t *self_sk, const uint8_t *sender_pk, uint8_t *plain, size_t plain_size, const uint8_t *packet, uint16_t length) { if (length <= CRYPTO_NONCE_SIZE) { LOGGER_FATAL(log, "Invalid handshake packet length %u", length); return -1; } const int plain_len = decrypt_data(mem, sender_pk, self_sk, packet, packet + CRYPTO_NONCE_SIZE, length - CRYPTO_NONCE_SIZE, plain); if (plain_len < 0 || (uint32_t)plain_len != plain_size) { LOGGER_DEBUG(log, "decrypt handshake request failed: len: %d, size: %zu", plain_len, plain_size); return -2; } return plain_len; } /** @brief Encrypts data of length using the peer's shared key a new nonce. * * Adds plaintext header consisting of: packet identifier, target public encryption key, * self public encryption key, nonce. * * Return length of encrypted packet on success. * Return -1 if packet size is invalid. * Return -2 on malloc failure. * Return -3 if encryption fails. */ non_null() static int wrap_group_handshake_packet( const Logger *log, const Memory *mem, const Random *rng, const uint8_t *self_pk, const uint8_t *self_sk, const uint8_t *target_pk, uint8_t *packet, uint32_t packet_size, const uint8_t *data, uint16_t length) { if (packet_size != GC_MIN_ENCRYPTED_HS_PAYLOAD_SIZE + sizeof(Node_format)) { LOGGER_FATAL(log, "Invalid packet size: %u", packet_size); return -1; } uint8_t nonce[CRYPTO_NONCE_SIZE]; random_nonce(rng, nonce); const size_t encrypt_buf_size = length + CRYPTO_MAC_SIZE; uint8_t *encrypt = (uint8_t *)malloc(encrypt_buf_size); if (encrypt == nullptr) { return -2; } const int enc_len = encrypt_data(mem, target_pk, self_sk, nonce, data, length, encrypt); if (enc_len < 0 || (size_t)enc_len != encrypt_buf_size) { LOGGER_ERROR(log, "Failed to encrypt group handshake packet (len: %d)", enc_len); free(encrypt); return -3; } packet[0] = NET_PACKET_GC_HANDSHAKE; memcpy(packet + 1, self_pk, ENC_PUBLIC_KEY_SIZE); memcpy(packet + 1 + ENC_PUBLIC_KEY_SIZE, target_pk, ENC_PUBLIC_KEY_SIZE); memcpy(packet + 1 + ENC_PUBLIC_KEY_SIZE + ENC_PUBLIC_KEY_SIZE, nonce, CRYPTO_NONCE_SIZE); memcpy(packet + 1 + ENC_PUBLIC_KEY_SIZE + ENC_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE, encrypt, enc_len); free(encrypt); return 1 + ENC_PUBLIC_KEY_SIZE + ENC_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE + enc_len; } /** @brief Makes, wraps and encrypts a group handshake packet (both request and response are the same format). * * Packet contains the packet header, handshake type, self public encryption key, self public signature key, * request type, and a single TCP relay node. * * Returns length of encrypted packet on success. * Returns -1 on failure. */ non_null() static int make_gc_handshake_packet(const GC_Chat *chat, const GC_Connection *gconn, uint8_t handshake_type, uint8_t request_type, uint8_t join_type, uint8_t *packet, size_t packet_size, const Node_format *node) { if (chat == nullptr || gconn == nullptr || node == nullptr) { return -1; } if (packet_size != GC_MIN_ENCRYPTED_HS_PAYLOAD_SIZE + sizeof(Node_format)) { LOGGER_FATAL(chat->log, "invalid packet size: %zu", packet_size); return -1; } uint8_t data[GC_MIN_HS_PACKET_PAYLOAD_SIZE + sizeof(Node_format)]; uint16_t length = sizeof(uint8_t); data[0] = handshake_type; memcpy(data + length, gconn->session_public_key, ENC_PUBLIC_KEY_SIZE); length += ENC_PUBLIC_KEY_SIZE; memcpy(data + length, get_sig_pk(&chat->self_public_key), SIG_PUBLIC_KEY_SIZE); length += SIG_PUBLIC_KEY_SIZE; memcpy(data + length, &request_type, sizeof(uint8_t)); length += sizeof(uint8_t); memcpy(data + length, &join_type, sizeof(uint8_t)); length += sizeof(uint8_t); int nodes_size = pack_nodes(chat->log, data + length, sizeof(Node_format), node, MAX_SENT_GC_NODES); if (nodes_size > 0) { length += nodes_size; } else { nodes_size = 0; } const int enc_len = wrap_group_handshake_packet( chat->log, chat->mem, chat->rng, chat->self_public_key.enc, chat->self_secret_key.enc, gconn->addr.public_key.enc, packet, (uint16_t)packet_size, data, length); if (enc_len != GC_MIN_ENCRYPTED_HS_PAYLOAD_SIZE + nodes_size) { LOGGER_WARNING(chat->log, "Failed to wrap handshake packet: %d", enc_len); return -1; } return enc_len; } /** @brief Sends a handshake packet to `gconn`. * * Handshake_type should be GH_REQUEST or GH_RESPONSE. * * Returns true on success. */ non_null() static bool send_gc_handshake_packet(const GC_Chat *chat, GC_Connection *gconn, uint8_t handshake_type, uint8_t request_type, uint8_t join_type) { if (gconn == nullptr) { return false; } Node_format node = {{0}}; if (!gcc_copy_tcp_relay(chat->rng, &node, gconn)) { LOGGER_TRACE(chat->log, "Failed to copy TCP relay during handshake (%u TCP relays)", gconn->tcp_relays_count); } uint8_t packet[GC_MIN_ENCRYPTED_HS_PAYLOAD_SIZE + sizeof(Node_format)]; const int length = make_gc_handshake_packet(chat, gconn, handshake_type, request_type, join_type, packet, sizeof(packet), &node); if (length < 0) { return false; } const bool try_tcp_fallback = gconn->handshake_attempts % 2 == 1 && gconn->tcp_relays_count > 0; ++gconn->handshake_attempts; int ret = -1; if (!try_tcp_fallback && gcc_direct_conn_is_possible(chat, gconn)) { ret = sendpacket(chat->net, &gconn->addr.ip_port, packet, (uint16_t)length); } if (ret != length && gconn->tcp_relays_count == 0) { LOGGER_WARNING(chat->log, "UDP handshake failed and no TCP relays to fall back on"); return false; } // Send a TCP handshake if UDP fails, or if UDP succeeded last time but we never got a response if (gconn->tcp_relays_count > 0 && (ret != length || try_tcp_fallback)) { if (send_packet_tcp_connection(chat->tcp_conn, gconn->tcp_connection_num, packet, (uint16_t)length) == -1) { LOGGER_DEBUG(chat->log, "Send handshake packet failed. Type 0x%02x", request_type); return false; } } if (gconn->is_pending_handshake_response) { gcc_set_send_message_id(gconn, 3); // handshake response is always second packet } else { gcc_set_send_message_id(gconn, 2); // handshake request is always first packet } return true; } /** @brief Sends an out-of-band TCP handshake request packet to `gconn`. * * Return true on success. */ static bool send_gc_oob_handshake_request(const GC_Chat *chat, const GC_Connection *gconn) { if (gconn == nullptr) { return false; } Node_format node = {{0}}; if (!gcc_copy_tcp_relay(chat->rng, &node, gconn)) { LOGGER_WARNING(chat->log, "Failed to copy TCP relay"); return false; } uint8_t packet[GC_MIN_ENCRYPTED_HS_PAYLOAD_SIZE + sizeof(Node_format)]; const int length = make_gc_handshake_packet(chat, gconn, GH_REQUEST, gconn->pending_handshake_type, chat->join_type, packet, sizeof(packet), &node); if (length < 0) { LOGGER_WARNING(chat->log, "Failed to make handshake packet"); return false; } return tcp_send_oob_packet_using_relay(chat->tcp_conn, gconn->oob_relay_pk, gconn->addr.public_key.enc, packet, (uint16_t)length) == 0; } /** @brief Handles a handshake response packet and takes appropriate action depending on the value of request_type. * * This function assumes the length has already been validated. * * Returns peer_number of new connected peer on success. * Returns -1 on failure. */ non_null() static int handle_gc_handshake_response(const GC_Chat *chat, const uint8_t *sender_pk, const uint8_t *data, uint16_t length) { // this should be checked at lower level; this is a redundant defense check. Ideally we should // guarantee that this can never happen in the future. if (length < ENC_PUBLIC_KEY_SIZE + SIG_PUBLIC_KEY_SIZE + 1) { LOGGER_FATAL(chat->log, "Invalid handshake response size (%u)", length); return -1; } const int peer_number = get_peer_number_of_enc_pk(chat, sender_pk, false); if (peer_number == -1) { return -1; } GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return -1; } const uint8_t *sender_session_pk = data; gcc_make_session_shared_key(gconn, sender_session_pk); set_sig_pk(&gconn->addr.public_key, data + ENC_PUBLIC_KEY_SIZE); gcc_set_recv_message_id(gconn, 2); // handshake response is always second packet gconn->handshaked = true; send_gc_hs_response_ack(chat, gconn); const uint8_t request_type = data[ENC_PUBLIC_KEY_SIZE + SIG_PUBLIC_KEY_SIZE]; switch (request_type) { case HS_INVITE_REQUEST: { if (!send_gc_invite_request(chat, gconn)) { return -1; } break; } case HS_PEER_INFO_EXCHANGE: { if (!send_gc_peer_exchange(chat, gconn)) { return -1; } break; } default: { return -1; } } return peer_number; } /** @brief Sends a handshake response packet of type `request_type` to `gconn`. * * Return true on success. */ non_null() static bool send_gc_handshake_response(const GC_Chat *chat, GC_Connection *gconn) { return send_gc_handshake_packet(chat, gconn, GH_RESPONSE, gconn->pending_handshake_type, 0); } /** @brief Handles handshake request packets. * * Peer is added to peerlist and a lossless connection is established. * * This function assumes the length has already been validated. * * Return new peer's peer_number on success. * Return -1 on failure. */ #define GC_NEW_PEER_CONNECTION_LIMIT 10 non_null(1, 3, 4) nullable(2) static int handle_gc_handshake_request(GC_Chat *chat, const IP_Port *ipp, const uint8_t *sender_pk, const uint8_t *data, uint16_t length) { // this should be checked at lower level; this is a redundant defense check. Ideally we should // guarantee that this can never happen in the future. if (length < ENC_PUBLIC_KEY_SIZE + SIG_PUBLIC_KEY_SIZE + 1 + 1) { LOGGER_FATAL(chat->log, "Invalid length (%u)", length); return -1; } if (chat->connection_state <= CS_DISCONNECTED) { LOGGER_DEBUG(chat->log, "Handshake request ignored; state is disconnected"); return -1; } if (chat->connection_o_metre >= GC_NEW_PEER_CONNECTION_LIMIT) { chat->block_handshakes = true; LOGGER_DEBUG(chat->log, "Handshake overflow. Blocking handshakes."); return -1; } ++chat->connection_o_metre; const uint8_t *public_sig_key = data + ENC_PUBLIC_KEY_SIZE; const uint8_t request_type = data[ENC_PUBLIC_KEY_SIZE + SIG_PUBLIC_KEY_SIZE]; const uint8_t join_type = data[ENC_PUBLIC_KEY_SIZE + SIG_PUBLIC_KEY_SIZE + 1]; int peer_number = get_peer_number_of_enc_pk(chat, sender_pk, false); const bool is_new_peer = peer_number < 0; if (is_new_peer) { peer_number = peer_add(chat, ipp, sender_pk); if (peer_number < 0) { LOGGER_WARNING(chat->log, "Failed to add peer during handshake request"); return -1; } } else { GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { LOGGER_WARNING(chat->log, "Invalid peer number"); return -1; } if (gconn->handshaked) { gconn->handshaked = false; LOGGER_DEBUG(chat->log, "Handshaked peer sent a handshake request"); return -1; } // peers sent handshake request at same time so the closer peer becomes the requestor // and ignores the request packet while further peer continues on with the response if (gconn->self_is_closer) { LOGGER_DEBUG(chat->log, "Simultaneous handshake requests; other peer is closer"); return 0; } } GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { LOGGER_DEBUG(chat->log, "Peer connection invalid"); return -1; } gcc_set_ip_port(gconn, ipp); Node_format node[GCA_MAX_ANNOUNCED_TCP_RELAYS]; const int processed = ENC_PUBLIC_KEY_SIZE + SIG_PUBLIC_KEY_SIZE + 1 + 1; const int nodes_count = unpack_nodes(node, GCA_MAX_ANNOUNCED_TCP_RELAYS, nullptr, data + processed, length - processed, true); if (nodes_count <= 0 && ipp == nullptr) { if (is_new_peer) { LOGGER_WARNING(chat->log, "Broken tcp relay for new peer"); gcc_mark_for_deletion(gconn, chat->tcp_conn, GC_EXIT_TYPE_DISCONNECTED, nullptr, 0); } return -1; } if (nodes_count > 0) { const int add_tcp_result = add_tcp_relay_connection(chat->tcp_conn, gconn->tcp_connection_num, &node->ip_port, node->public_key); if (add_tcp_result < 0 && is_new_peer && ipp == nullptr) { LOGGER_WARNING(chat->log, "Broken tcp relay for new peer"); gcc_mark_for_deletion(gconn, chat->tcp_conn, GC_EXIT_TYPE_DISCONNECTED, nullptr, 0); return -1; } if (add_tcp_result == 0) { gcc_save_tcp_relay(chat->rng, gconn, node); } } const uint8_t *sender_session_pk = data; gcc_make_session_shared_key(gconn, sender_session_pk); set_sig_pk(&gconn->addr.public_key, public_sig_key); if (join_type == HJ_PUBLIC && !is_public_chat(chat)) { gcc_mark_for_deletion(gconn, chat->tcp_conn, GC_EXIT_TYPE_DISCONNECTED, nullptr, 0); LOGGER_DEBUG(chat->log, "Ignoring invalid invite request"); return -1; } gcc_set_recv_message_id(gconn, 1); // handshake request is always first packet gconn->is_pending_handshake_response = true; gconn->pending_handshake_type = request_type; return peer_number; } /** @brief Handles handshake request and handshake response packets. * * Returns the peer_number of the connecting peer on success. * Returns -1 on failure. */ non_null(1, 2, 4) nullable(3, 7) static int handle_gc_handshake_packet(GC_Chat *chat, const uint8_t *sender_pk, const IP_Port *ipp, const uint8_t *packet, uint16_t length, bool direct_conn, void *userdata) { if (length < GC_MIN_HS_PACKET_PAYLOAD_SIZE + CRYPTO_MAC_SIZE + CRYPTO_NONCE_SIZE) { return -1; } const size_t data_buf_size = length - CRYPTO_NONCE_SIZE - CRYPTO_MAC_SIZE; uint8_t *data = (uint8_t *)malloc(data_buf_size); if (data == nullptr) { return -1; } const int plain_len = unwrap_group_handshake_packet(chat->log, chat->mem, chat->self_secret_key.enc, sender_pk, data, data_buf_size, packet, length); if (plain_len < GC_MIN_HS_PACKET_PAYLOAD_SIZE) { LOGGER_DEBUG(chat->log, "Failed to unwrap handshake packet (probably a stale request using an old key)"); free(data); return -1; } const uint8_t handshake_type = data[0]; const uint8_t *real_data = data + 1; const uint16_t real_len = (uint16_t)plain_len - 1; int peer_number; if (handshake_type == GH_REQUEST) { peer_number = handle_gc_handshake_request(chat, ipp, sender_pk, real_data, real_len); } else if (handshake_type == GH_RESPONSE) { peer_number = handle_gc_handshake_response(chat, sender_pk, real_data, real_len); } else { free(data); return -1; } free(data); GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return -1; } if (direct_conn) { gconn->last_received_direct_time = mono_time_get(chat->mono_time); } return peer_number; } bool handle_gc_lossless_helper(const GC_Session *c, GC_Chat *chat, uint32_t peer_number, const uint8_t *data, uint16_t length, uint8_t packet_type, void *userdata) { GC_Peer *peer = get_gc_peer(chat, peer_number); if (peer == nullptr) { return false; } GC_Connection *gconn = &peer->gconn; int ret; switch (packet_type) { case GP_BROADCAST: { ret = handle_gc_broadcast(c, chat, peer_number, data, length, userdata); break; } case GP_PEER_INFO_REQUEST: { ret = handle_gc_peer_info_request(chat, peer_number); break; } case GP_PEER_INFO_RESPONSE: { ret = handle_gc_peer_info_response(c, chat, peer_number, data, length, userdata); break; } case GP_SYNC_REQUEST: { ret = handle_gc_sync_request(chat, peer_number, data, length); break; } case GP_SYNC_RESPONSE: { ret = handle_gc_sync_response(c, chat, peer_number, data, length, userdata); break; } case GP_INVITE_REQUEST: { ret = handle_gc_invite_request(chat, peer_number, data, length); break; } case GP_INVITE_RESPONSE: { ret = handle_gc_invite_response(chat, gconn); break; } case GP_TOPIC: { ret = handle_gc_topic(c, chat, peer, data, length, userdata); break; } case GP_SHARED_STATE: { ret = handle_gc_shared_state(c, chat, gconn, data, length, userdata); break; } case GP_MOD_LIST: { ret = handle_gc_mod_list(c, chat, data, length, userdata); break; } case GP_SANCTIONS_LIST: { ret = handle_gc_sanctions_list(c, chat, data, length, userdata); break; } case GP_HS_RESPONSE_ACK: { ret = handle_gc_hs_response_ack(chat, gconn); break; } case GP_TCP_RELAYS: { ret = handle_gc_tcp_relays(chat, gconn, data, length); break; } case GP_KEY_ROTATION: { ret = handle_gc_key_exchange(chat, gconn, data, length); break; } case GP_CUSTOM_PACKET: { ret = handle_gc_custom_packet(c, chat, peer, data, length, true, userdata); break; } case GP_CUSTOM_PRIVATE_PACKET: { ret = handle_gc_custom_private_packet(c, chat, peer, data, length, true, userdata); break; } default: { LOGGER_DEBUG(chat->log, "Handling invalid lossless group packet type 0x%02x", packet_type); return false; } } if (ret < 0) { LOGGER_DEBUG(chat->log, "Lossless packet handle error %d: type: 0x%02x, peernumber: %d", ret, packet_type, peer_number); return false; } peer = get_gc_peer(chat, peer_number); if (peer != nullptr) { peer->gconn.last_requested_packet_time = mono_time_get(chat->mono_time); } return true; } /** @brief Handles a packet fragment. * * If the fragment is the last one in a sequence we send an ack. Otherwise we * store the fragment in the receive array and wait for the next segment. * * Segments must be processed in correct sequence, and we cannot handle * non-fragment packets while a sequence is incomplete. * * Return true if packet is handled successfully. */ non_null(1, 2, 4) nullable(5, 9) static bool handle_gc_packet_fragment(const GC_Session *c, GC_Chat *chat, uint32_t peer_number, GC_Connection *gconn, const uint8_t *data, uint16_t length, uint8_t packet_type, uint64_t message_id, void *userdata) { if (gconn->last_chunk_id != 0 && message_id != gconn->last_chunk_id + 1) { return gc_send_message_ack(chat, gconn, gconn->last_chunk_id + 1, GR_ACK_REQ); } if (gconn->last_chunk_id == 0 && message_id != gconn->received_message_id + 1) { return gc_send_message_ack(chat, gconn, gconn->received_message_id + 1, GR_ACK_REQ); } const int frag_ret = gcc_handle_packet_fragment(c, chat, peer_number, gconn, data, length, packet_type, message_id, userdata); if (frag_ret == -1) { return false; } if (frag_ret == 0) { gc_send_message_ack(chat, gconn, message_id, GR_ACK_RECV); } gconn->last_received_packet_time = mono_time_get(chat->mono_time); return true; } /** @brief Handles lossless groupchat packets. * * This function assumes the length has already been validated. * * Returns true if packet is successfully handled. */ non_null(1, 2, 3, 4) nullable(7) static bool handle_gc_lossless_packet(const GC_Session *c, GC_Chat *chat, const uint8_t *sender_pk, const uint8_t *packet, uint16_t length, bool direct_conn, void *userdata) { if (length < GC_MIN_LOSSLESS_PAYLOAD_SIZE) { return false; } int peer_number = get_peer_number_of_enc_pk(chat, sender_pk, false); GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return false; } if (gconn->pending_delete) { return true; } uint8_t *data = (uint8_t *)malloc(length); if (data == nullptr) { LOGGER_DEBUG(chat->log, "Failed to allocate memory for packet data buffer"); return false; } uint8_t packet_type; uint64_t message_id; const int len = group_packet_unwrap(chat->log, chat->mem, gconn, data, &message_id, &packet_type, packet, length); if (len < 0) { Ip_Ntoa ip_str; LOGGER_DEBUG(chat->log, "Failed to unwrap lossless packet from %s:%d: %d", net_ip_ntoa(&gconn->addr.ip_port.ip, &ip_str), net_ntohs(gconn->addr.ip_port.port), len); free(data); return false; } if (!gconn->handshaked && (packet_type != GP_HS_RESPONSE_ACK && packet_type != GP_INVITE_REQUEST)) { LOGGER_DEBUG(chat->log, "Got lossless packet type 0x%02x from unconfirmed peer", packet_type); free(data); return false; } const bool is_invite_packet = packet_type == GP_INVITE_REQUEST || packet_type == GP_INVITE_RESPONSE || packet_type == GP_INVITE_RESPONSE_REJECT; if (message_id == 3 && is_invite_packet && gconn->received_message_id <= 1) { // we missed initial handshake request. Drop this packet and wait for another handshake request. LOGGER_DEBUG(chat->log, "Missed handshake packet, type: 0x%02x", packet_type); free(data); return false; } const int lossless_ret = gcc_handle_received_message(chat->log, chat->mono_time, gconn, data, (uint16_t) len, packet_type, message_id, direct_conn); if (packet_type == GP_INVITE_REQUEST && !gconn->handshaked) { // Both peers sent request at same time free(data); return true; } if (lossless_ret < 0) { LOGGER_DEBUG(chat->log, "failed to handle packet %llu (type: 0x%02x, id: %llu)", (unsigned long long)message_id, packet_type, (unsigned long long)message_id); free(data); return false; } /* Duplicate packet */ if (lossless_ret == 0) { free(data); return gc_send_message_ack(chat, gconn, message_id, GR_ACK_RECV); } /* request missing packet */ if (lossless_ret == 1) { LOGGER_TRACE(chat->log, "received out of order packet from peer %u. expected %llu, got %llu", peer_number, (unsigned long long)gconn->received_message_id + 1, (unsigned long long)message_id); free(data); return gc_send_message_ack(chat, gconn, gconn->received_message_id + 1, GR_ACK_REQ); } /* handle packet fragment */ if (lossless_ret == 3) { const bool frag_ret = handle_gc_packet_fragment(c, chat, peer_number, gconn, data, (uint16_t)len, packet_type, message_id, userdata); free(data); return frag_ret; } const bool ret = handle_gc_lossless_helper(c, chat, peer_number, data, (uint16_t)len, packet_type, userdata); free(data); if (!ret) { return false; } /* peer number can change from peer add operations in packet handlers */ peer_number = get_peer_number_of_enc_pk(chat, sender_pk, false); gconn = get_gc_connection(chat, peer_number); if (gconn != nullptr && lossless_ret == 2) { gc_send_message_ack(chat, gconn, message_id, GR_ACK_RECV); } return true; } non_null(1, 2, 3, 4, 6) nullable(8) static int handle_gc_lossy_packet_decoded( const GC_Session *c, GC_Chat *chat, GC_Connection *gconn, const GC_Peer *peer, uint8_t packet_type, const uint8_t *data, uint16_t payload_len, void *userdata) { switch (packet_type) { case GP_MESSAGE_ACK: { return handle_gc_message_ack(chat, gconn, data, payload_len); } case GP_PING: { return handle_gc_ping(chat, gconn, data, payload_len); } case GP_INVITE_RESPONSE_REJECT: { return handle_gc_invite_response_reject(c, chat, data, payload_len, userdata); } case GP_CUSTOM_PACKET: { return handle_gc_custom_packet(c, chat, peer, data, payload_len, false, userdata); } case GP_CUSTOM_PRIVATE_PACKET: { return handle_gc_custom_private_packet(c, chat, peer, data, payload_len, false, userdata); } default: { LOGGER_WARNING(chat->log, "Warning: handling invalid lossy group packet type 0x%02x", packet_type); return -1; } } } /** @brief Handles lossy groupchat message packets. * * This function assumes the length has already been validated. * * Return true if packet is handled successfully. */ non_null(1, 2, 3, 4) nullable(7) static bool handle_gc_lossy_packet(const GC_Session *c, GC_Chat *chat, const uint8_t *sender_pk, const uint8_t *packet, uint16_t length, bool direct_conn, void *userdata) { if (length < GC_MIN_LOSSY_PAYLOAD_SIZE) { return false; } const int peer_number = get_peer_number_of_enc_pk(chat, sender_pk, false); GC_Peer *peer = get_gc_peer(chat, peer_number); if (peer == nullptr) { return false; } GC_Connection *gconn = &peer->gconn; if (!gconn->handshaked || gconn->pending_delete) { LOGGER_DEBUG(chat->log, "Got lossy packet from invalid peer"); return false; } uint8_t *data = (uint8_t *)malloc(length); if (data == nullptr) { LOGGER_ERROR(chat->log, "Failed to allocate memory for packet buffer"); return false; } uint8_t packet_type; const int len = group_packet_unwrap(chat->log, chat->mem, gconn, data, nullptr, &packet_type, packet, length); if (len <= 0) { Ip_Ntoa ip_str; LOGGER_DEBUG(chat->log, "Failed to unwrap lossy packet from %s:%d: %d", net_ip_ntoa(&gconn->addr.ip_port.ip, &ip_str), net_ntohs(gconn->addr.ip_port.port), len); free(data); return false; } const int ret = handle_gc_lossy_packet_decoded(c, chat, gconn, peer, packet_type, data, (uint16_t)len, userdata); free(data); if (ret < 0) { LOGGER_DEBUG(chat->log, "Lossy packet handle error %d: type: 0x%02x, peernumber %d", ret, packet_type, peer_number); return false; } const uint64_t tm = mono_time_get(chat->mono_time); if (direct_conn) { gconn->last_received_direct_time = tm; } gconn->last_received_packet_time = tm; return true; } /** @brief Return true if group is either connected or attempting to connect. */ non_null() static bool group_can_handle_packets(const GC_Chat *chat) { const GC_Conn_State state = chat->connection_state; return state == CS_CONNECTING || state == CS_CONNECTED; } /** @brief Sends a group packet to appropriate handler function. * * Returns non-negative value on success. * Returns -1 on failure. */ #define MIN_TCP_PACKET_SIZE (1 + ENC_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE + CRYPTO_MAC_SIZE) non_null(1, 3) nullable(5) static int handle_gc_tcp_packet(void *object, int crypt_connection_id, const uint8_t *packet, uint16_t length, void *userdata) { const Messenger *m = (Messenger *)object; if (m == nullptr) { return -1; } if (length <= MIN_TCP_PACKET_SIZE) { LOGGER_WARNING(m->log, "Got tcp packet with invalid length: %u (expected %u to %u)", length, MIN_TCP_PACKET_SIZE, MAX_GC_PACKET_INCOMING_CHUNK_SIZE + MIN_TCP_PACKET_SIZE + ENC_PUBLIC_KEY_SIZE); return -1; } if (length > MAX_GC_PACKET_INCOMING_CHUNK_SIZE + MIN_TCP_PACKET_SIZE + ENC_PUBLIC_KEY_SIZE) { LOGGER_WARNING(m->log, "Got tcp packet with invalid length: %u (expected %u to %u)", length, MIN_TCP_PACKET_SIZE, MAX_GC_PACKET_INCOMING_CHUNK_SIZE + MIN_TCP_PACKET_SIZE + ENC_PUBLIC_KEY_SIZE); return -1; } const uint8_t packet_type = packet[0]; const uint8_t *sender_pk = packet + 1; const GC_Session *c = m->group_handler; GC_Chat *chat = nullptr; if (packet_type == NET_PACKET_GC_HANDSHAKE) { chat = get_chat_by_id(c, packet + 1 + ENC_PUBLIC_KEY_SIZE); } else { chat = get_chat_by_id(c, sender_pk); } if (chat == nullptr) { return -1; } if (!group_can_handle_packets(chat)) { return -1; } const uint8_t *payload = packet + 1 + ENC_PUBLIC_KEY_SIZE; uint16_t payload_len = length - 1 - ENC_PUBLIC_KEY_SIZE; switch (packet_type) { case NET_PACKET_GC_LOSSLESS: { if (!handle_gc_lossless_packet(c, chat, sender_pk, payload, payload_len, false, userdata)) { return -1; } return 0; } case NET_PACKET_GC_LOSSY: { if (!handle_gc_lossy_packet(c, chat, sender_pk, payload, payload_len, false, userdata)) { return -1; } return 0; } case NET_PACKET_GC_HANDSHAKE: { // handshake packets have an extra public key in plaintext header if (length <= 1 + ENC_PUBLIC_KEY_SIZE + ENC_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE + CRYPTO_MAC_SIZE) { return -1; } payload_len = payload_len - ENC_PUBLIC_KEY_SIZE; payload = payload + ENC_PUBLIC_KEY_SIZE; return handle_gc_handshake_packet(chat, sender_pk, nullptr, payload, payload_len, false, userdata); } default: { return -1; } } } non_null(1, 2, 4) nullable(6) static int handle_gc_tcp_oob_packet(void *object, const uint8_t *public_key, unsigned int tcp_connections_number, const uint8_t *packet, uint16_t length, void *userdata) { const Messenger *m = (Messenger *)object; if (m == nullptr) { return -1; } if (length <= GC_MIN_HS_PACKET_PAYLOAD_SIZE) { LOGGER_WARNING(m->log, "Got tcp oob packet with invalid length: %u (expected %u to %u)", length, GC_MIN_HS_PACKET_PAYLOAD_SIZE, MAX_GC_PACKET_INCOMING_CHUNK_SIZE + CRYPTO_MAC_SIZE + CRYPTO_NONCE_SIZE); return -1; } if (length > MAX_GC_PACKET_INCOMING_CHUNK_SIZE + CRYPTO_MAC_SIZE + CRYPTO_NONCE_SIZE) { LOGGER_WARNING(m->log, "Got tcp oob packet with invalid length: %u (expected %u to %u)", length, GC_MIN_HS_PACKET_PAYLOAD_SIZE, MAX_GC_PACKET_INCOMING_CHUNK_SIZE + CRYPTO_MAC_SIZE + CRYPTO_NONCE_SIZE); return -1; } const GC_Session *c = m->group_handler; GC_Chat *chat = get_chat_by_id(c, packet + 1 + ENC_PUBLIC_KEY_SIZE); if (chat == nullptr) { return -1; } if (!group_can_handle_packets(chat)) { return -1; } const uint8_t packet_type = packet[0]; if (packet_type != NET_PACKET_GC_HANDSHAKE) { return -1; } const uint8_t *sender_pk = packet + 1; const uint8_t *payload = packet + 1 + ENC_PUBLIC_KEY_SIZE + ENC_PUBLIC_KEY_SIZE; const uint16_t payload_len = length - 1 - ENC_PUBLIC_KEY_SIZE - ENC_PUBLIC_KEY_SIZE; if (payload_len < GC_MIN_HS_PACKET_PAYLOAD_SIZE + CRYPTO_MAC_SIZE + CRYPTO_NONCE_SIZE) { return -1; } if (handle_gc_handshake_packet(chat, sender_pk, nullptr, payload, payload_len, false, userdata) == -1) { return -1; } return 0; } #define MIN_UDP_PACKET_SIZE (1 + ENC_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE + CRYPTO_MAC_SIZE) non_null(1, 2, 3) nullable(5) static int handle_gc_udp_packet(void *object, const IP_Port *source, const uint8_t *packet, uint16_t length, void *userdata) { const Messenger *m = (Messenger *)object; if (m == nullptr) { return -1; } if (length <= MIN_UDP_PACKET_SIZE) { LOGGER_WARNING(m->log, "Got UDP packet with invalid length: %u (expected %u to %u)", length, MIN_UDP_PACKET_SIZE, MAX_GC_PACKET_INCOMING_CHUNK_SIZE + MIN_UDP_PACKET_SIZE + ENC_PUBLIC_KEY_SIZE); return -1; } if (length > MAX_GC_PACKET_INCOMING_CHUNK_SIZE + MIN_UDP_PACKET_SIZE + ENC_PUBLIC_KEY_SIZE) { LOGGER_WARNING(m->log, "Got UDP packet with invalid length: %u (expected %u to %u)", length, MIN_UDP_PACKET_SIZE, MAX_GC_PACKET_INCOMING_CHUNK_SIZE + MIN_UDP_PACKET_SIZE + ENC_PUBLIC_KEY_SIZE); return -1; } const uint8_t packet_type = packet[0]; const uint8_t *sender_pk = packet + 1; const GC_Session *c = m->group_handler; GC_Chat *chat = nullptr; if (packet_type == NET_PACKET_GC_HANDSHAKE) { chat = get_chat_by_id(c, packet + 1 + ENC_PUBLIC_KEY_SIZE); } else { chat = get_chat_by_id(c, sender_pk); } if (chat == nullptr) { return -1; } if (!group_can_handle_packets(chat)) { return -1; } const uint8_t *payload = packet + 1 + ENC_PUBLIC_KEY_SIZE; uint16_t payload_len = length - 1 - ENC_PUBLIC_KEY_SIZE; bool ret = false; switch (packet_type) { case NET_PACKET_GC_LOSSLESS: { ret = handle_gc_lossless_packet(c, chat, sender_pk, payload, payload_len, true, userdata); break; } case NET_PACKET_GC_LOSSY: { ret = handle_gc_lossy_packet(c, chat, sender_pk, payload, payload_len, true, userdata); break; } case NET_PACKET_GC_HANDSHAKE: { // handshake packets have an extra public key in plaintext header if (length <= 1 + ENC_PUBLIC_KEY_SIZE + ENC_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE + CRYPTO_MAC_SIZE) { return -1; } payload_len = payload_len - ENC_PUBLIC_KEY_SIZE; payload = payload + ENC_PUBLIC_KEY_SIZE; ret = handle_gc_handshake_packet(chat, sender_pk, source, payload, payload_len, true, userdata) != -1; break; } default: { return -1; } } return ret ? 0 : -1; } void gc_callback_message(const Messenger *m, gc_message_cb *function) { GC_Session *c = m->group_handler; c->message = function; } void gc_callback_private_message(const Messenger *m, gc_private_message_cb *function) { GC_Session *c = m->group_handler; c->private_message = function; } void gc_callback_custom_packet(const Messenger *m, gc_custom_packet_cb *function) { GC_Session *c = m->group_handler; c->custom_packet = function; } void gc_callback_custom_private_packet(const Messenger *m, gc_custom_private_packet_cb *function) { GC_Session *c = m->group_handler; c->custom_private_packet = function; } void gc_callback_moderation(const Messenger *m, gc_moderation_cb *function) { GC_Session *c = m->group_handler; c->moderation = function; } void gc_callback_nick_change(const Messenger *m, gc_nick_change_cb *function) { GC_Session *c = m->group_handler; c->nick_change = function; } void gc_callback_status_change(const Messenger *m, gc_status_change_cb *function) { GC_Session *c = m->group_handler; c->status_change = function; } void gc_callback_topic_change(const Messenger *m, gc_topic_change_cb *function) { GC_Session *c = m->group_handler; c->topic_change = function; } void gc_callback_topic_lock(const Messenger *m, gc_topic_lock_cb *function) { GC_Session *c = m->group_handler; c->topic_lock = function; } void gc_callback_voice_state(const Messenger *m, gc_voice_state_cb *function) { GC_Session *c = m->group_handler; c->voice_state = function; } void gc_callback_peer_limit(const Messenger *m, gc_peer_limit_cb *function) { GC_Session *c = m->group_handler; c->peer_limit = function; } void gc_callback_privacy_state(const Messenger *m, gc_privacy_state_cb *function) { GC_Session *c = m->group_handler; c->privacy_state = function; } void gc_callback_password(const Messenger *m, gc_password_cb *function) { GC_Session *c = m->group_handler; c->password = function; } void gc_callback_peer_join(const Messenger *m, gc_peer_join_cb *function) { GC_Session *c = m->group_handler; c->peer_join = function; } void gc_callback_peer_exit(const Messenger *m, gc_peer_exit_cb *function) { GC_Session *c = m->group_handler; c->peer_exit = function; } void gc_callback_self_join(const Messenger *m, gc_self_join_cb *function) { GC_Session *c = m->group_handler; c->self_join = function; } void gc_callback_rejected(const Messenger *m, gc_rejected_cb *function) { GC_Session *c = m->group_handler; c->rejected = function; } /** @brief Deletes peer_number from group. * * `no_callback` should be set to true if the `peer_exit` callback * should not be triggered. * * Return true on success. */ static bool peer_delete(const GC_Session *c, GC_Chat *chat, uint32_t peer_number, void *userdata) { GC_Peer *peer = get_gc_peer(chat, peer_number); if (peer == nullptr) { return false; } // We need to save some peer info for the callback before deleting it const bool peer_confirmed = peer->gconn.confirmed; const GC_Peer_Id peer_id = peer->peer_id; uint8_t nick[MAX_GC_NICK_SIZE]; const uint16_t nick_length = peer->nick_length; const GC_Exit_Info exit_info = peer->gconn.exit_info; assert(nick_length <= MAX_GC_NICK_SIZE); memcpy(nick, peer->nick, nick_length); gcc_peer_cleanup(&peer->gconn); --chat->numpeers; if (chat->numpeers != peer_number) { chat->group[peer_number] = chat->group[chat->numpeers]; } chat->group[chat->numpeers] = (GC_Peer) { 0 }; GC_Peer *tmp_group = (GC_Peer *)realloc(chat->group, chat->numpeers * sizeof(GC_Peer)); if (tmp_group == nullptr) { return false; } chat->group = tmp_group; set_gc_peerlist_checksum(chat); if (peer_confirmed) { refresh_gc_saved_peers(chat); } if (exit_info.exit_type != GC_EXIT_TYPE_NO_CALLBACK && c->peer_exit != nullptr && peer_confirmed) { c->peer_exit(c->messenger, chat->group_number, peer_id, exit_info.exit_type, nick, nick_length, exit_info.part_message, exit_info.length, userdata); } return true; } /** @brief Updates peer_number with info from `peer` and validates peer data. * * Returns peer_number on success. * Returns -1 on failure. */ static int peer_update(const GC_Chat *chat, const GC_Peer *peer, uint32_t peer_number) { if (peer->nick_length == 0) { return -1; } if (peer->status > GS_BUSY) { return -1; } if (peer->role > GR_OBSERVER) { return -1; } GC_Peer *curr_peer = get_gc_peer(chat, peer_number); assert(curr_peer != nullptr); curr_peer->status = peer->status; curr_peer->nick_length = peer->nick_length; memcpy(curr_peer->nick, peer->nick, peer->nick_length); return peer_number; } int peer_add(GC_Chat *chat, const IP_Port *ipp, const uint8_t *public_key) { if (get_peer_number_of_enc_pk(chat, public_key, false) != -1) { return -2; } const GC_Peer_Id peer_id = get_new_peer_id(chat); if (!gc_peer_id_is_valid(peer_id)) { LOGGER_WARNING(chat->log, "Failed to add peer: all peer ID's are taken?"); return -1; } const int peer_number = chat->numpeers; int tcp_connection_num = -1; if (peer_number > 0) { // we don't need a connection to ourself tcp_connection_num = new_tcp_connection_to(chat->tcp_conn, public_key, 0); if (tcp_connection_num == -1) { LOGGER_WARNING(chat->log, "Failed to init tcp connection for peer %d", peer_number); } } GC_Message_Array_Entry *send = (GC_Message_Array_Entry *)calloc(GCC_BUFFER_SIZE, sizeof(GC_Message_Array_Entry)); GC_Message_Array_Entry *recv = (GC_Message_Array_Entry *)calloc(GCC_BUFFER_SIZE, sizeof(GC_Message_Array_Entry)); if (send == nullptr || recv == nullptr) { LOGGER_ERROR(chat->log, "Failed to allocate memory for gconn buffers"); if (tcp_connection_num != -1) { kill_tcp_connection_to(chat->tcp_conn, tcp_connection_num); } free(send); free(recv); return -1; } GC_Peer *tmp_group = (GC_Peer *)realloc(chat->group, (chat->numpeers + 1) * sizeof(GC_Peer)); if (tmp_group == nullptr) { LOGGER_ERROR(chat->log, "Failed to allocate memory for group realloc"); if (tcp_connection_num != -1) { kill_tcp_connection_to(chat->tcp_conn, tcp_connection_num); } free(send); free(recv); return -1; } ++chat->numpeers; chat->group = tmp_group; chat->group[peer_number] = (GC_Peer) { 0 }; GC_Connection *gconn = &chat->group[peer_number].gconn; gconn->send_array = send; gconn->recv_array = recv; gcc_set_ip_port(gconn, ipp); chat->group[peer_number].role = GR_USER; chat->group[peer_number].peer_id = peer_id; chat->group[peer_number].ignore = false; crypto_memlock(gconn->session_secret_key, sizeof(gconn->session_secret_key)); create_gc_session_keypair(chat->log, chat->rng, gconn->session_public_key, gconn->session_secret_key); if (peer_number > 0) { memcpy(gconn->addr.public_key.enc, public_key, ENC_PUBLIC_KEY_SIZE); // we get the sig key in the handshake } else { gconn->addr.public_key = chat->self_public_key; } const uint64_t tm = mono_time_get(chat->mono_time); gcc_set_send_message_id(gconn, 1); gconn->public_key_hash = gc_get_pk_jenkins_hash(public_key); gconn->last_received_packet_time = tm; gconn->last_key_rotation = tm; gconn->tcp_connection_num = tcp_connection_num; gconn->last_sent_ip_time = tm; gconn->last_sent_ping_time = tm - (GC_PING_TIMEOUT / 2) + (peer_number % (GC_PING_TIMEOUT / 2)); gconn->self_is_closer = id_closest(get_chat_id(&chat->chat_public_key), get_enc_key(&chat->self_public_key), get_enc_key(&gconn->addr.public_key)) == 1; return peer_number; } /** @brief Copies own peer data to `peer`. */ non_null() static void copy_self(const GC_Chat *chat, GC_Peer *peer) { *peer = (GC_Peer) { 0 }; peer->status = gc_get_self_status(chat); gc_get_self_nick(chat, peer->nick); peer->nick_length = gc_get_self_nick_size(chat); peer->role = gc_get_self_role(chat); } /** @brief Returns true if we haven't received a ping from this peer after n seconds. * n depends on whether or not the peer has been confirmed. */ non_null() static bool peer_timed_out(const Mono_Time *mono_time, const GC_Connection *gconn) { return mono_time_is_timeout(mono_time, gconn->last_received_packet_time, gconn->confirmed ? GC_CONFIRMED_PEER_TIMEOUT : GC_UNCONFIRMED_PEER_TIMEOUT); } /** @brief Attempts to send pending handshake packets to peer designated by `gconn`. * * One request of each type can be sent per `GC_SEND_HANDSHAKE_INTERVAL` seconds. * * Return true on success. */ non_null() static bool send_pending_handshake(const GC_Chat *chat, GC_Connection *gconn) { if (chat == nullptr || gconn == nullptr) { return false; } if (gconn->is_pending_handshake_response) { if (!mono_time_is_timeout(chat->mono_time, gconn->last_handshake_response, GC_SEND_HANDSHAKE_INTERVAL)) { return true; } gconn->last_handshake_response = mono_time_get(chat->mono_time); return send_gc_handshake_response(chat, gconn); } if (!mono_time_is_timeout(chat->mono_time, gconn->last_handshake_request, GC_SEND_HANDSHAKE_INTERVAL)) { return true; } gconn->last_handshake_request = mono_time_get(chat->mono_time); if (gconn->is_oob_handshake) { return send_gc_oob_handshake_request(chat, gconn); } return send_gc_handshake_packet(chat, gconn, GH_REQUEST, gconn->pending_handshake_type, chat->join_type); } #define GC_TCP_RELAY_SEND_INTERVAL (60 * 3) non_null(1, 2) nullable(3) static void do_peer_connections(const GC_Session *c, GC_Chat *chat, void *userdata) { for (uint32_t i = 1; i < chat->numpeers; ++i) { GC_Connection *gconn = get_gc_connection(chat, i); assert(gconn != nullptr); if (gconn->pending_delete) { continue; } if (peer_timed_out(chat->mono_time, gconn)) { gcc_mark_for_deletion(gconn, chat->tcp_conn, GC_EXIT_TYPE_TIMEOUT, nullptr, 0); continue; } gcc_resend_packets(chat, gconn); if (gconn->tcp_relays_count > 0 && mono_time_is_timeout(chat->mono_time, gconn->last_sent_tcp_relays_time, GC_TCP_RELAY_SEND_INTERVAL)) { if (gconn->confirmed) { send_gc_tcp_relays(chat, gconn); gconn->last_sent_tcp_relays_time = mono_time_get(chat->mono_time); } } gcc_check_recv_array(c, chat, gconn, i, userdata); // may change peer numbers } } /** @brief Executes pending handshakes for peers. * * If our peerlist is empty we periodically try to * load peers from our saved peers list and initiate handshake requests with them. */ #define LOAD_PEERS_TIMEOUT (GC_UNCONFIRMED_PEER_TIMEOUT + 10) non_null() static void do_handshakes(GC_Chat *chat) { for (uint32_t i = 1; i < chat->numpeers; ++i) { GC_Connection *gconn = get_gc_connection(chat, i); assert(gconn != nullptr); if (gconn->handshaked || gconn->pending_delete) { continue; } send_pending_handshake(chat, gconn); } if (chat->numpeers <= 1) { const uint64_t tm = mono_time_get(chat->mono_time); if (mono_time_is_timeout(chat->mono_time, chat->last_time_peers_loaded, LOAD_PEERS_TIMEOUT)) { load_gc_peers(chat, chat->saved_peers, GC_MAX_SAVED_PEERS); chat->last_time_peers_loaded = tm; } } } /** @brief Adds `gconn` to the group timeout list. */ non_null() static void add_gc_peer_timeout_list(GC_Chat *chat, const GC_Connection *gconn) { const size_t idx = chat->timeout_list_index; const uint64_t tm = mono_time_get(chat->mono_time); copy_gc_saved_peer(chat->rng, gconn, &chat->timeout_list[idx].addr); chat->timeout_list[idx].last_seen = tm; chat->timeout_list[idx].last_reconn_try = 0; chat->timeout_list_index = (idx + 1) % MAX_GC_SAVED_TIMEOUTS; } non_null(1, 2) nullable(3) static void do_peer_delete(const GC_Session *c, GC_Chat *chat, void *userdata) { for (uint32_t i = 1; i < chat->numpeers; ++i) { GC_Connection *gconn = get_gc_connection(chat, i); assert(gconn != nullptr); if (!gconn->pending_delete) { continue; } if (!gconn->delete_this_iteration) { gconn->delete_this_iteration = true; continue; } const GC_Exit_Info *exit_info = &gconn->exit_info; if (exit_info->exit_type == GC_EXIT_TYPE_TIMEOUT && gconn->confirmed) { add_gc_peer_timeout_list(chat, gconn); } if (!peer_delete(c, chat, i, userdata)) { LOGGER_ERROR(chat->log, "Failed to delete peer %u", i); } if (i >= chat->numpeers) { break; } } } /** @brief Constructs and sends a ping packet to `gconn` containing info needed for group syncing * and connection maintenance. * * Return true on success. */ non_null() static bool ping_peer(const GC_Chat *chat, const GC_Connection *gconn) { const uint16_t buf_size = GC_PING_PACKET_MIN_DATA_SIZE + sizeof(IP_Port); uint8_t *data = (uint8_t *)malloc(buf_size); if (data == nullptr) { return false; } const uint16_t roles_checksum = chat->moderation.sanctions_creds.checksum + chat->roles_checksum; uint16_t packed_len = 0; net_pack_u16(data, chat->peers_checksum); packed_len += sizeof(uint16_t); net_pack_u16(data + packed_len, get_gc_confirmed_numpeers(chat)); packed_len += sizeof(uint16_t); net_pack_u32(data + packed_len, chat->shared_state.version); packed_len += sizeof(uint32_t); net_pack_u32(data + packed_len, chat->moderation.sanctions_creds.version); packed_len += sizeof(uint32_t); net_pack_u16(data + packed_len, roles_checksum); packed_len += sizeof(uint16_t); net_pack_u32(data + packed_len, chat->topic_info.version); packed_len += sizeof(uint32_t); net_pack_u16(data + packed_len, chat->topic_info.checksum); packed_len += sizeof(uint16_t); if (packed_len != GC_PING_PACKET_MIN_DATA_SIZE) { LOGGER_FATAL(chat->log, "Packed length is impossible"); } if (chat->self_udp_status == SELF_UDP_STATUS_WAN && !gcc_conn_is_direct(chat->mono_time, gconn) && mono_time_is_timeout(chat->mono_time, gconn->last_sent_ip_time, GC_SEND_IP_PORT_INTERVAL)) { const int packed_ipp_len = pack_ip_port(chat->log, data + buf_size - sizeof(IP_Port), sizeof(IP_Port), &chat->self_ip_port); if (packed_ipp_len > 0) { packed_len += packed_ipp_len; } } if (!send_lossy_group_packet(chat, gconn, data, packed_len, GP_PING)) { free(data); return false; } free(data); return true; } /** * Sends a ping packet to peers that haven't been pinged in at least GC_PING_TIMEOUT seconds, and * a key rotation request to peers with whom we haven't refreshed keys in at least GC_KEY_ROTATION_TIMEOUT * seconds. * * Ping packet always includes your confirmed peer count, a peer list checksum, your shared state and sanctions * list version for syncing purposes. We also occasionally try to send our own IP info to peers that we * do not have a direct connection with. */ #define GC_DO_PINGS_INTERVAL 2 non_null() static void do_gc_ping_and_key_rotation(GC_Chat *chat) { if (!mono_time_is_timeout(chat->mono_time, chat->last_ping_interval, GC_DO_PINGS_INTERVAL)) { return; } const uint64_t tm = mono_time_get(chat->mono_time); for (uint32_t i = 1; i < chat->numpeers; ++i) { GC_Connection *gconn = get_gc_connection(chat, i); assert(gconn != nullptr); if (!gconn->confirmed) { continue; } if (mono_time_is_timeout(chat->mono_time, gconn->last_sent_ping_time, GC_PING_TIMEOUT)) { if (ping_peer(chat, gconn)) { gconn->last_sent_ping_time = tm; } } if (mono_time_is_timeout(chat->mono_time, gconn->last_key_rotation, GC_KEY_ROTATION_TIMEOUT)) { if (send_peer_key_rotation_request(chat, gconn)) { gconn->last_key_rotation = tm; } } } chat->last_ping_interval = tm; } non_null() static void do_new_connection_cooldown(GC_Chat *chat) { if (chat->connection_o_metre == 0) { return; } const uint64_t tm = mono_time_get(chat->mono_time); if (chat->connection_cooldown_timer < tm) { chat->connection_cooldown_timer = tm; --chat->connection_o_metre; if (chat->connection_o_metre == 0 && chat->block_handshakes) { chat->block_handshakes = false; LOGGER_DEBUG(chat->log, "Unblocking handshakes"); } } } #define TCP_RELAYS_CHECK_INTERVAL 10 non_null(1, 2) nullable(3) static void do_gc_tcp(const GC_Session *c, GC_Chat *chat, void *userdata) { if (chat->tcp_conn == nullptr || !group_can_handle_packets(chat)) { return; } do_tcp_connections(chat->log, chat->tcp_conn, userdata); for (uint32_t i = 1; i < chat->numpeers; ++i) { const GC_Connection *gconn = get_gc_connection(chat, i); assert(gconn != nullptr); const bool tcp_set = !gcc_conn_is_direct(chat->mono_time, gconn); set_tcp_connection_to_status(chat->tcp_conn, gconn->tcp_connection_num, tcp_set); } if (mono_time_is_timeout(chat->mono_time, chat->last_checked_tcp_relays, TCP_RELAYS_CHECK_INTERVAL) && tcp_connected_relays_count(chat->tcp_conn) != chat->connected_tcp_relays) { add_tcp_relays_to_chat(c, chat); chat->connected_tcp_relays = tcp_connected_relays_count(chat->tcp_conn); chat->last_checked_tcp_relays = mono_time_get(chat->mono_time); } } /** * Updates our TCP and UDP connection status and flags a new announcement if our connection has * changed and we have either a UDP or TCP connection. */ #define GC_SELF_CONNECTION_CHECK_INTERVAL 5 // how often in seconds we should run this function #define GC_SELF_REFRESH_ANNOUNCE_INTERVAL (60 * 20) // how often in seconds we force refresh our group announcement non_null() static void do_self_connection(const GC_Session *c, GC_Chat *chat) { if (!mono_time_is_timeout(chat->mono_time, chat->last_self_announce_check, GC_SELF_CONNECTION_CHECK_INTERVAL)) { return; } const unsigned int self_udp_status = ipport_self_copy(c->messenger->dht, &chat->self_ip_port); const bool udp_change = (chat->self_udp_status != self_udp_status) && (self_udp_status != SELF_UDP_STATUS_NONE); // We flag a group announce if our UDP status has changed since last run, or if our last announced TCP // relay is no longer valid. Additionally, we will always flag an announce in the specified interval // regardless of the prior conditions. Private groups are never announced. if (is_public_chat(chat) && ((udp_change || !tcp_relay_is_valid(chat->tcp_conn, chat->announced_tcp_relay_pk)) || mono_time_is_timeout(chat->mono_time, chat->last_time_self_announce, GC_SELF_REFRESH_ANNOUNCE_INTERVAL))) { chat->update_self_announces = true; } chat->self_udp_status = (Self_UDP_Status) self_udp_status; chat->last_self_announce_check = mono_time_get(chat->mono_time); } /** @brief Attempts to initiate a new connection with peers in the timeout list. * * This function is not used for public groups as the DHT and group sync mechanism * should automatically do this for us. */ #define TIMED_OUT_RECONN_INTERVAL 2 non_null() static void do_timed_out_reconn(GC_Chat *chat) { if (is_public_chat(chat)) { return; } if (!mono_time_is_timeout(chat->mono_time, chat->last_timed_out_reconn_try, TIMED_OUT_RECONN_INTERVAL)) { return; } const uint64_t curr_time = mono_time_get(chat->mono_time); for (size_t i = 0; i < MAX_GC_SAVED_TIMEOUTS; ++i) { GC_TimedOutPeer *timeout = &chat->timeout_list[i]; if (timeout->last_seen == 0 || timeout->last_seen == curr_time) { continue; } if (mono_time_is_timeout(chat->mono_time, timeout->last_seen, GC_TIMED_OUT_STALE_TIMEOUT) || get_peer_number_of_enc_pk(chat, timeout->addr.public_key, true) != -1) { *timeout = (GC_TimedOutPeer) { {{ 0 } } }; continue; } if (mono_time_is_timeout(chat->mono_time, timeout->last_reconn_try, GC_TIMED_OUT_RECONN_TIMEOUT)) { if (load_gc_peers(chat, &timeout->addr, 1) != 1) { LOGGER_WARNING(chat->log, "Failed to load timed out peer"); } timeout->last_reconn_try = curr_time; } } chat->last_timed_out_reconn_try = curr_time; } void do_gc(GC_Session *c, void *userdata) { if (c == nullptr) { return; } for (uint32_t i = 0; i < c->chats_index; ++i) { GC_Chat *chat = &c->chats[i]; const GC_Conn_State state = chat->connection_state; if (state == CS_NONE) { continue; } if (state != CS_DISCONNECTED) { do_peer_connections(c, chat, userdata); do_gc_tcp(c, chat, userdata); do_handshakes(chat); do_self_connection(c, chat); } if (chat->connection_state == CS_CONNECTED) { do_gc_ping_and_key_rotation(chat); do_timed_out_reconn(chat); } do_new_connection_cooldown(chat); do_peer_delete(c, chat, userdata); if (chat->flag_exit) { // should always come last as it modifies the chats array group_delete(c, chat); } } } /** @brief Set the size of the groupchat list to n. * * Return true on success. */ non_null() static bool realloc_groupchats(GC_Session *c, uint32_t n) { if (n == 0) { free(c->chats); c->chats = nullptr; return true; } GC_Chat *temp = (GC_Chat *)realloc(c->chats, n * sizeof(GC_Chat)); if (temp == nullptr) { return false; } c->chats = temp; return true; } non_null() static int get_new_group_index(GC_Session *c) { if (c == nullptr) { return -1; } for (uint32_t i = 0; i < c->chats_index; ++i) { if (c->chats[i].connection_state == CS_NONE) { return i; } } if (!realloc_groupchats(c, c->chats_index + 1)) { return -1; } const int new_index = c->chats_index; c->chats[new_index] = empty_gc_chat; for (size_t i = 0; i < sizeof(c->chats[new_index].saved_invites) / sizeof(*c->chats[new_index].saved_invites); ++i) { c->chats[new_index].saved_invites[i] = -1; } ++c->chats_index; return new_index; } /** Attempts to associate new TCP relays with our group connection. */ static void add_tcp_relays_to_chat(const GC_Session *c, GC_Chat *chat) { const Messenger *m = c->messenger; const uint32_t num_relays = tcp_connections_count(nc_get_tcp_c(m->net_crypto)); if (num_relays == 0) { return; } Node_format *tcp_relays = (Node_format *)calloc(num_relays, sizeof(Node_format)); if (tcp_relays == nullptr) { return; } const uint32_t num_copied = tcp_copy_connected_relays(nc_get_tcp_c(m->net_crypto), tcp_relays, (uint16_t)num_relays); for (uint32_t i = 0; i < num_copied; ++i) { add_tcp_relay_global(chat->tcp_conn, &tcp_relays[i].ip_port, tcp_relays[i].public_key); } free(tcp_relays); } non_null() static bool init_gc_tcp_connection(const GC_Session *c, GC_Chat *chat) { const Messenger *m = c->messenger; chat->tcp_conn = new_tcp_connections(chat->log, chat->mem, chat->rng, m->ns, chat->mono_time, chat->self_secret_key.enc, &m->options.proxy_info); if (chat->tcp_conn == nullptr) { return false; } add_tcp_relays_to_chat(c, chat); set_packet_tcp_connection_callback(chat->tcp_conn, &handle_gc_tcp_packet, c->messenger); set_oob_packet_tcp_connection_callback(chat->tcp_conn, &handle_gc_tcp_oob_packet, c->messenger); return true; } /** Initializes default shared state values. */ non_null() static void init_gc_shared_state(GC_Chat *chat, Group_Privacy_State privacy_state) { chat->shared_state.maxpeers = MAX_GC_PEERS_DEFAULT; chat->shared_state.privacy_state = privacy_state; chat->shared_state.topic_lock = GC_TOPIC_LOCK_ENABLED; chat->shared_state.voice_state = GV_ALL; } /** @brief Initializes the group shared state for the founder. * * Return true on success. */ non_null() static bool init_gc_shared_state_founder(GC_Chat *chat, Group_Privacy_State privacy_state, const uint8_t *group_name, uint16_t name_length) { chat->shared_state.founder_public_key = chat->self_public_key; memcpy(chat->shared_state.group_name, group_name, name_length); chat->shared_state.group_name_len = name_length; chat->shared_state.privacy_state = privacy_state; return sign_gc_shared_state(chat); } /** @brief Initializes shared state for moderation object. * * This must be called before any moderation * or sanctions related operations. */ non_null() static void init_gc_moderation(GC_Chat *chat) { memcpy(chat->moderation.founder_public_sig_key, get_sig_pk(&chat->shared_state.founder_public_key), SIG_PUBLIC_KEY_SIZE); memcpy(chat->moderation.self_public_sig_key, get_sig_pk(&chat->self_public_key), SIG_PUBLIC_KEY_SIZE); memcpy(chat->moderation.self_secret_sig_key, get_sig_sk(&chat->self_secret_key), SIG_SECRET_KEY_SIZE); chat->moderation.shared_state_version = chat->shared_state.version; chat->moderation.log = chat->log; chat->moderation.mem = chat->mem; } non_null() static bool create_new_chat_ext_keypair(GC_Chat *chat); non_null() static int create_new_group(GC_Session *c, const uint8_t *nick, size_t nick_length, bool founder, const Group_Privacy_State privacy_state) { if (nick == nullptr || nick_length == 0) { return -1; } if (nick_length > MAX_GC_NICK_SIZE) { return -1; } const int group_number = get_new_group_index(c); if (group_number == -1) { return -1; } Messenger *m = c->messenger; GC_Chat *chat = &c->chats[group_number]; chat->log = m->log; chat->mem = m->mem; chat->rng = m->rng; const uint64_t tm = mono_time_get(m->mono_time); chat->group_number = group_number; chat->numpeers = 0; chat->connection_state = CS_CONNECTING; chat->net = m->net; chat->mono_time = m->mono_time; chat->last_ping_interval = tm; chat->friend_connection_id = -1; if (!create_new_chat_ext_keypair(chat)) { LOGGER_ERROR(chat->log, "Failed to create extended keypair"); group_delete(c, chat); return -1; } init_gc_shared_state(chat, privacy_state); init_gc_moderation(chat); if (!init_gc_tcp_connection(c, chat)) { group_delete(c, chat); return -1; } if (peer_add(chat, nullptr, chat->self_public_key.enc) != 0) { /* you are always peer_number/index 0 */ group_delete(c, chat); return -1; } if (!self_gc_set_nick(chat, nick, (uint16_t)nick_length)) { group_delete(c, chat); return -1; } self_gc_set_status(chat, GS_NONE); self_gc_set_role(chat, founder ? GR_FOUNDER : GR_USER); self_gc_set_confirmed(chat, true); self_gc_set_ext_public_key(chat, &chat->self_public_key); return group_number; } /** @brief Inits the sanctions list credentials. * * This should be called by the group founder on creation. * * This function must be called after `init_gc_moderation()`. * * Return true on success. */ non_null() static bool init_gc_sanctions_creds(GC_Chat *chat) { return sanctions_list_make_creds(&chat->moderation); } /** @brief Attempts to add `num_addrs` peers from `addrs` to our peerlist and initiate invite requests * for all of them. * * Returns the number of peers successfully loaded. */ static size_t load_gc_peers(GC_Chat *chat, const GC_SavedPeerInfo *addrs, uint16_t num_addrs) { size_t count = 0; for (size_t i = 0; i < num_addrs; ++i) { if (!saved_peer_is_valid(&addrs[i])) { continue; } const bool ip_port_is_set = ipport_isset(&addrs[i].ip_port); const IP_Port *ip_port = ip_port_is_set ? &addrs[i].ip_port : nullptr; const int peer_number = peer_add(chat, ip_port, addrs[i].public_key); GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { continue; } add_tcp_relay_global(chat->tcp_conn, &addrs[i].tcp_relay.ip_port, addrs[i].tcp_relay.public_key); const int add_tcp_result = add_tcp_relay_connection(chat->tcp_conn, gconn->tcp_connection_num, &addrs[i].tcp_relay.ip_port, addrs[i].tcp_relay.public_key); if (add_tcp_result == -1 && !ip_port_is_set) { gcc_mark_for_deletion(gconn, chat->tcp_conn, GC_EXIT_TYPE_DISCONNECTED, nullptr, 0); continue; } if (add_tcp_result == 0) { const int save_tcp_result = gcc_save_tcp_relay(chat->rng, gconn, &addrs[i].tcp_relay); if (save_tcp_result == -1) { gcc_mark_for_deletion(gconn, chat->tcp_conn, GC_EXIT_TYPE_DISCONNECTED, nullptr, 0); continue; } memcpy(gconn->oob_relay_pk, addrs[i].tcp_relay.public_key, CRYPTO_PUBLIC_KEY_SIZE); } const uint64_t tm = mono_time_get(chat->mono_time); gconn->is_oob_handshake = !gcc_direct_conn_is_possible(chat, gconn); gconn->is_pending_handshake_response = false; gconn->pending_handshake_type = HS_INVITE_REQUEST; gconn->last_received_packet_time = tm; gconn->last_key_rotation = tm; ++count; } update_gc_peer_roles(chat); return count; } void gc_group_save(const GC_Chat *chat, Bin_Pack *bp) { gc_save_pack_group(chat, bp); } int gc_group_load(GC_Session *c, Bin_Unpack *bu) { const int group_number = get_new_group_index(c); if (group_number < 0) { return -1; } const uint64_t tm = mono_time_get(c->messenger->mono_time); Messenger *m = c->messenger; GC_Chat *chat = &c->chats[group_number]; chat->group_number = group_number; chat->numpeers = 0; chat->net = m->net; chat->mono_time = m->mono_time; chat->log = m->log; chat->mem = m->mem; chat->rng = m->rng; chat->last_ping_interval = tm; chat->friend_connection_id = -1; // Initialise these first, because we may need to log/dealloc things on cleanup. chat->moderation.log = m->log; chat->moderation.mem = m->mem; if (!gc_load_unpack_group(chat, bu)) { LOGGER_ERROR(chat->log, "Failed to unpack group"); return -1; } init_gc_moderation(chat); if (!init_gc_tcp_connection(c, chat)) { LOGGER_ERROR(chat->log, "Failed to init tcp connection"); return -1; } if (chat->connection_state == CS_DISCONNECTED) { return group_number; } if (is_public_chat(chat)) { if (!m_create_group_connection(m, chat)) { LOGGER_ERROR(chat->log, "Failed to initialize group friend connection"); } } return group_number; } int gc_group_add(GC_Session *c, Group_Privacy_State privacy_state, const uint8_t *group_name, uint16_t group_name_length, const uint8_t *nick, size_t nick_length) { if (group_name_length > MAX_GC_GROUP_NAME_SIZE) { return -1; } if (nick_length > MAX_GC_NICK_SIZE) { return -1; } if (group_name_length == 0 || group_name == nullptr) { return -2; } if (nick_length == 0 || nick == nullptr) { return -2; } const int group_number = create_new_group(c, nick, nick_length, true, privacy_state); if (group_number == -1) { return -3; } GC_Chat *chat = gc_get_group(c, group_number); if (chat == nullptr) { return -3; } crypto_memlock(&chat->chat_secret_key, sizeof(chat->chat_secret_key)); create_extended_keypair(&chat->chat_public_key, &chat->chat_secret_key, chat->rng); if (!init_gc_shared_state_founder(chat, privacy_state, group_name, group_name_length)) { group_delete(c, chat); return -4; } init_gc_moderation(chat); if (!init_gc_sanctions_creds(chat)) { group_delete(c, chat); return -4; } if (gc_set_topic(chat, nullptr, 0) != 0) { group_delete(c, chat); return -4; } chat->join_type = HJ_PRIVATE; chat->connection_state = CS_CONNECTED; chat->time_connected = mono_time_get(c->messenger->mono_time); if (is_public_chat(chat)) { if (!m_create_group_connection(c->messenger, chat)) { LOGGER_ERROR(chat->log, "Failed to initialize group friend connection"); group_delete(c, chat); return -5; } chat->join_type = HJ_PUBLIC; } update_gc_peer_roles(chat); return group_number; } int gc_group_join(GC_Session *c, const uint8_t *chat_id, const uint8_t *nick, size_t nick_length, const uint8_t *passwd, uint16_t passwd_len) { if (chat_id == nullptr || group_exists(c, chat_id) || getfriend_id(c->messenger, chat_id) != -1) { return -2; } if (nick_length > MAX_GC_NICK_SIZE) { return -3; } if (nick == nullptr || nick_length == 0) { return -4; } const int group_number = create_new_group(c, nick, nick_length, false, GI_PUBLIC); if (group_number == -1) { return -1; } GC_Chat *chat = gc_get_group(c, group_number); if (chat == nullptr) { return -1; } if (!expand_chat_id(&chat->chat_public_key, chat_id)) { group_delete(c, chat); return -1; } chat->connection_state = CS_CONNECTING; if (passwd != nullptr && passwd_len > 0) { if (!set_gc_password_local(chat, passwd, passwd_len)) { group_delete(c, chat); return -5; } } if (!m_create_group_connection(c->messenger, chat)) { group_delete(c, chat); return -6; } update_gc_peer_roles(chat); return group_number; } bool gc_disconnect_from_group(const GC_Session *c, GC_Chat *chat) { if (c == nullptr || chat == nullptr) { return false; } chat->connection_state = CS_DISCONNECTED; if (!send_gc_broadcast_message(chat, nullptr, 0, GM_PEER_EXIT)) { LOGGER_DEBUG(chat->log, "Failed to broadcast group exit packet"); } for (uint32_t i = 1; i < chat->numpeers; ++i) { GC_Connection *gconn = get_gc_connection(chat, i); assert(gconn != nullptr); gcc_mark_for_deletion(gconn, chat->tcp_conn, GC_EXIT_TYPE_SELF_DISCONNECTED, nullptr, 0); } return true; } int gc_rejoin_group(GC_Session *c, GC_Chat *chat) { if (c == nullptr || chat == nullptr) { return -1; } chat->time_connected = 0; if (group_can_handle_packets(chat)) { send_gc_self_exit(chat, nullptr, 0); } for (uint32_t i = 1; i < chat->numpeers; ++i) { GC_Connection *gconn = get_gc_connection(chat, i); assert(gconn != nullptr); gcc_mark_for_deletion(gconn, chat->tcp_conn, GC_EXIT_TYPE_SELF_DISCONNECTED, nullptr, 0); } if (is_public_chat(chat)) { kill_group_friend_connection(c, chat); if (!m_create_group_connection(c->messenger, chat)) { LOGGER_WARNING(chat->log, "Failed to create new messenger connection for group"); return -2; } chat->update_self_announces = true; } chat->connection_state = CS_CONNECTING; return 0; } bool group_not_added(const GC_Session *c, const uint8_t *chat_id, uint32_t length) { if (length < CHAT_ID_SIZE) { return false; } return !group_exists(c, chat_id); } int gc_invite_friend(const GC_Session *c, GC_Chat *chat, int32_t friend_number, gc_send_group_invite_packet_cb *callback) { if (!friend_is_valid(c->messenger, friend_number)) { return -1; } const uint16_t group_name_length = chat->shared_state.group_name_len; assert(group_name_length <= MAX_GC_GROUP_NAME_SIZE); uint8_t *packet = (uint8_t *)malloc(2 + CHAT_ID_SIZE + ENC_PUBLIC_KEY_SIZE + group_name_length); if (packet == nullptr) { return -1; } packet[0] = GP_FRIEND_INVITE; packet[1] = GROUP_INVITE; memcpy(packet + 2, get_chat_id(&chat->chat_public_key), CHAT_ID_SIZE); uint16_t length = 2 + CHAT_ID_SIZE; memcpy(packet + length, chat->self_public_key.enc, ENC_PUBLIC_KEY_SIZE); length += ENC_PUBLIC_KEY_SIZE; memcpy(packet + length, chat->shared_state.group_name, group_name_length); length += group_name_length; assert(length <= MAX_GC_PACKET_SIZE); if (!callback(c->messenger, friend_number, packet, length)) { free(packet); return -2; } free(packet); chat->saved_invites[chat->saved_invites_index] = friend_number; chat->saved_invites_index = (chat->saved_invites_index + 1) % MAX_GC_SAVED_INVITES; return 0; } /** @brief Sends an invite accepted packet to `friend_number`. * * Return 0 on success. * Return -1 if `friend_number` does not designate a valid friend. * Return -2 if `chat `is null. * Return -3 if packet failed to send. */ non_null() static int send_gc_invite_accepted_packet(const Messenger *m, const GC_Chat *chat, uint32_t friend_number) { if (!friend_is_valid(m, friend_number)) { return -1; } if (chat == nullptr) { return -2; } uint8_t packet[1 + 1 + CHAT_ID_SIZE + ENC_PUBLIC_KEY_SIZE]; packet[0] = GP_FRIEND_INVITE; packet[1] = GROUP_INVITE_ACCEPTED; memcpy(packet + 2, get_chat_id(&chat->chat_public_key), CHAT_ID_SIZE); uint16_t length = 2 + CHAT_ID_SIZE; memcpy(packet + length, chat->self_public_key.enc, ENC_PUBLIC_KEY_SIZE); length += ENC_PUBLIC_KEY_SIZE; if (!send_group_invite_packet(m, friend_number, packet, length)) { LOGGER_ERROR(chat->log, "Failed to send group invite packet."); return -3; } return 0; } /** @brief Sends an invite confirmed packet to friend designated by `friend_number`. * * `data` must contain the group's Chat ID, the sender's public encryption key, * and either the sender's packed IP_Port, or at least one packed TCP node that * the sender can be connected to through (or both). * * Return true on success. */ non_null() static bool send_gc_invite_confirmed_packet(const Messenger *m, const GC_Chat *chat, uint32_t friend_number, const uint8_t *data, uint16_t length) { if (!friend_is_valid(m, friend_number)) { return false; } if (chat == nullptr) { return false; } if (length > MAX_GC_PACKET_SIZE) { return false; } const uint16_t packet_length = 2 + length; uint8_t *packet = (uint8_t *)malloc(packet_length); if (packet == nullptr) { return false; } packet[0] = GP_FRIEND_INVITE; packet[1] = GROUP_INVITE_CONFIRMATION; memcpy(packet + 2, data, length); if (!send_group_invite_packet(m, friend_number, packet, packet_length)) { free(packet); return false; } free(packet); return true; } /** @brief Adds `num_nodes` tcp relays from `tcp_relays` to tcp relays list associated with `gconn` * * Returns the number of relays successfully added. */ non_null() static uint32_t add_gc_tcp_relays(const GC_Chat *chat, GC_Connection *gconn, const Node_format *tcp_relays, size_t num_nodes) { uint32_t relays_added = 0; for (size_t i = 0; i < num_nodes; ++i) { const int add_tcp_result = add_tcp_relay_connection(chat->tcp_conn, gconn->tcp_connection_num, &tcp_relays[i].ip_port, tcp_relays[i].public_key); if (add_tcp_result == 0) { if (gcc_save_tcp_relay(chat->rng, gconn, &tcp_relays[i]) == 0) { ++relays_added; } } } return relays_added; } non_null() static bool copy_friend_ip_port_to_gconn(const Messenger *m, int friend_number, GC_Connection *gconn) { if (!friend_is_valid(m, friend_number)) { return false; } const Friend *f = &m->friendlist[friend_number]; const int friend_connection_id = f->friendcon_id; const Friend_Conn *connection = get_conn(m->fr_c, friend_connection_id); if (connection == nullptr) { return false; } const IP_Port *friend_ip_port = friend_conn_get_dht_ip_port(connection); if (!ipport_isset(friend_ip_port)) { return false; } gconn->addr.ip_port = *friend_ip_port; return true; } int handle_gc_invite_confirmed_packet(const GC_Session *c, int friend_number, const uint8_t *data, uint16_t length) { if (length < GC_JOIN_DATA_LENGTH) { return -1; } if (!friend_is_valid(c->messenger, friend_number)) { return -4; } uint8_t chat_id[CHAT_ID_SIZE]; uint8_t invite_chat_pk[ENC_PUBLIC_KEY_SIZE]; memcpy(chat_id, data, CHAT_ID_SIZE); memcpy(invite_chat_pk, data + CHAT_ID_SIZE, ENC_PUBLIC_KEY_SIZE); const GC_Chat *chat = gc_get_group_by_public_key(c, chat_id); if (chat == nullptr) { return -2; } const int peer_number = get_peer_number_of_enc_pk(chat, invite_chat_pk, false); GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return -3; } Node_format tcp_relays[GCC_MAX_TCP_SHARED_RELAYS]; const int num_nodes = unpack_nodes(tcp_relays, GCC_MAX_TCP_SHARED_RELAYS, nullptr, data + ENC_PUBLIC_KEY_SIZE + CHAT_ID_SIZE, length - GC_JOIN_DATA_LENGTH, true); const bool copy_ip_port_result = copy_friend_ip_port_to_gconn(c->messenger, friend_number, gconn); uint32_t tcp_relays_added = 0; if (num_nodes > 0) { tcp_relays_added = add_gc_tcp_relays(chat, gconn, tcp_relays, num_nodes); } else { LOGGER_WARNING(chat->log, "Invite confirm packet did not contain any TCP relays"); } if (tcp_relays_added == 0 && !copy_ip_port_result) { LOGGER_ERROR(chat->log, "Got invalid connection info from peer"); return -5; } gconn->pending_handshake_type = HS_INVITE_REQUEST; return 0; } /** Return true if we have a pending sent invite for our friend designated by `friend_number`. */ non_null() static bool friend_was_invited(const Messenger *m, GC_Chat *chat, int friend_number) { for (size_t i = 0; i < MAX_GC_SAVED_INVITES; ++i) { if (chat->saved_invites[i] == friend_number) { chat->saved_invites[i] = -1; return friend_is_valid(m, friend_number); } } return false; } bool handle_gc_invite_accepted_packet(const GC_Session *c, int friend_number, const uint8_t *data, uint16_t length) { if (length < GC_JOIN_DATA_LENGTH) { return false; } const Messenger *m = c->messenger; const uint8_t *chat_id = data; GC_Chat *chat = gc_get_group_by_public_key(c, chat_id); if (chat == nullptr || !group_can_handle_packets(chat)) { return false; } const uint8_t *invite_chat_pk = data + CHAT_ID_SIZE; const int peer_number = peer_add(chat, nullptr, invite_chat_pk); if (!friend_was_invited(m, chat, friend_number)) { return false; } GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { return false; } Node_format tcp_relays[GCC_MAX_TCP_SHARED_RELAYS]; const uint32_t num_tcp_relays = tcp_copy_connected_relays(chat->tcp_conn, tcp_relays, GCC_MAX_TCP_SHARED_RELAYS); const bool copy_ip_port_result = copy_friend_ip_port_to_gconn(m, friend_number, gconn); if (num_tcp_relays == 0 && !copy_ip_port_result) { return false; } uint16_t len = GC_JOIN_DATA_LENGTH; uint8_t out_data[GC_JOIN_DATA_LENGTH + (GCC_MAX_TCP_SHARED_RELAYS * PACKED_NODE_SIZE_IP6)]; memcpy(out_data, chat_id, CHAT_ID_SIZE); memcpy(out_data + CHAT_ID_SIZE, chat->self_public_key.enc, ENC_PUBLIC_KEY_SIZE); if (num_tcp_relays > 0) { const uint32_t tcp_relays_added = add_gc_tcp_relays(chat, gconn, tcp_relays, num_tcp_relays); if (tcp_relays_added == 0 && !copy_ip_port_result) { LOGGER_ERROR(chat->log, "Got invalid connection info from peer"); return false; } const int nodes_len = pack_nodes(chat->log, out_data + len, sizeof(out_data) - len, tcp_relays, (uint16_t)num_tcp_relays); if (nodes_len <= 0 && !copy_ip_port_result) { return false; } len += nodes_len; } return send_gc_invite_confirmed_packet(m, chat, friend_number, out_data, len); } int gc_accept_invite(GC_Session *c, int32_t friend_number, const uint8_t *data, uint16_t length, const uint8_t *nick, size_t nick_length, const uint8_t *passwd, uint16_t passwd_len) { if (length < CHAT_ID_SIZE + ENC_PUBLIC_KEY_SIZE) { return -1; } if (nick_length > MAX_GC_NICK_SIZE) { return -3; } if (nick == nullptr || nick_length == 0) { return -4; } if (!friend_is_valid(c->messenger, friend_number)) { return -6; } const uint8_t *chat_id = data; const uint8_t *invite_chat_pk = data + CHAT_ID_SIZE; const int group_number = create_new_group(c, nick, nick_length, false, GI_PUBLIC); if (group_number == -1) { return -2; } GC_Chat *chat = gc_get_group(c, group_number); if (chat == nullptr) { return -2; } if (!expand_chat_id(&chat->chat_public_key, chat_id)) { group_delete(c, chat); return -2; } if (passwd != nullptr && passwd_len > 0) { if (!set_gc_password_local(chat, passwd, passwd_len)) { group_delete(c, chat); return -5; } } const int peer_id = peer_add(chat, nullptr, invite_chat_pk); if (peer_id < 0) { return -2; } chat->join_type = HJ_PRIVATE; if (send_gc_invite_accepted_packet(c->messenger, chat, friend_number) != 0) { return -7; } return group_number; } non_null(1, 3) nullable(5) static bool gc_handle_announce_response_callback(Onion_Client *onion_c, uint32_t sendback_num, const uint8_t *data, size_t data_length, void *user_data); GC_Session *new_dht_groupchats(Messenger *m) { if (m == nullptr) { return nullptr; } GC_Session *c = (GC_Session *)calloc(1, sizeof(GC_Session)); if (c == nullptr) { return nullptr; } c->messenger = m; c->announces_list = m->group_announce; networking_registerhandler(m->net, NET_PACKET_GC_LOSSLESS, &handle_gc_udp_packet, m); networking_registerhandler(m->net, NET_PACKET_GC_LOSSY, &handle_gc_udp_packet, m); networking_registerhandler(m->net, NET_PACKET_GC_HANDSHAKE, &handle_gc_udp_packet, m); onion_group_announce_register(m->onion_c, gc_handle_announce_response_callback, c); return c; } static void group_cleanup(const GC_Session *c, GC_Chat *chat) { kill_group_friend_connection(c, chat); mod_list_cleanup(&chat->moderation); sanctions_list_cleanup(&chat->moderation); if (chat->tcp_conn != nullptr) { kill_tcp_connections(chat->tcp_conn); } gcc_cleanup(chat); if (chat->group != nullptr) { free(chat->group); chat->group = nullptr; } crypto_memunlock(&chat->self_secret_key, sizeof(chat->self_secret_key)); crypto_memunlock(&chat->chat_secret_key, sizeof(chat->chat_secret_key)); crypto_memunlock(chat->shared_state.password, sizeof(chat->shared_state.password)); } /** Deletes chat from group chat array and cleans up. */ static void group_delete(GC_Session *c, GC_Chat *chat) { if (c == nullptr || chat == nullptr) { if (chat != nullptr) { LOGGER_ERROR(chat->log, "Null pointer"); } return; } group_cleanup(c, chat); c->chats[chat->group_number] = empty_gc_chat; uint32_t i; for (i = c->chats_index; i > 0; --i) { if (c->chats[i - 1].connection_state != CS_NONE) { break; } } if (c->chats_index != i) { c->chats_index = i; if (!realloc_groupchats(c, c->chats_index)) { LOGGER_ERROR(c->messenger->log, "Failed to reallocate groupchats array"); } } } int gc_group_exit(GC_Session *c, GC_Chat *chat, const uint8_t *message, uint16_t length) { chat->flag_exit = true; return group_can_handle_packets(chat) ? send_gc_self_exit(chat, message, length) : 0; } non_null() static int kill_group(GC_Session *c, GC_Chat *chat) { const int ret = gc_group_exit(c, chat, nullptr, 0); group_delete(c, chat); return ret; } void kill_dht_groupchats(GC_Session *c) { if (c == nullptr) { return; } for (uint32_t i = 0; i < c->chats_index; ++i) { GC_Chat *chat = &c->chats[i]; if (chat->connection_state == CS_NONE) { continue; } if (kill_group(c, chat) != 0) { LOGGER_WARNING(c->messenger->log, "Failed to send group exit packet"); } } networking_registerhandler(c->messenger->net, NET_PACKET_GC_LOSSY, nullptr, nullptr); networking_registerhandler(c->messenger->net, NET_PACKET_GC_LOSSLESS, nullptr, nullptr); networking_registerhandler(c->messenger->net, NET_PACKET_GC_HANDSHAKE, nullptr, nullptr); onion_group_announce_register(c->messenger->onion_c, nullptr, nullptr); free(c->chats); free(c); } bool gc_group_is_valid(const GC_Chat *chat) { return chat->connection_state != CS_NONE && chat->shared_state.version > 0; } /** Return true if `group_number` designates an active group in session `c`. */ static bool group_number_valid(const GC_Session *c, int group_number) { if (group_number < 0 || (uint32_t)group_number >= c->chats_index) { return false; } if (c->chats == nullptr) { return false; } return c->chats[group_number].connection_state != CS_NONE; } uint32_t gc_count_groups(const GC_Session *c) { uint32_t count = 0; for (uint32_t i = 0; i < c->chats_index; ++i) { const GC_Chat *chat = &c->chats[i]; if (gc_group_is_valid(chat)) { ++count; } } return count; } GC_Chat *gc_get_group(const GC_Session *c, int group_number) { if (!group_number_valid(c, group_number)) { return nullptr; } return &c->chats[group_number]; } GC_Chat *gc_get_group_by_public_key(const GC_Session *c, const uint8_t *public_key) { for (uint32_t i = 0; i < c->chats_index; ++i) { GC_Chat *chat = &c->chats[i]; if (chat->connection_state == CS_NONE) { continue; } if (memcmp(public_key, get_chat_id(&chat->chat_public_key), CHAT_ID_SIZE) == 0) { return chat; } } return nullptr; } /** Return True if chat_id exists in the session chat array */ static bool group_exists(const GC_Session *c, const uint8_t *chat_id) { for (uint32_t i = 0; i < c->chats_index; ++i) { const GC_Chat *chat = &c->chats[i]; if (chat->connection_state == CS_NONE) { continue; } if (memcmp(get_chat_id(&chat->chat_public_key), chat_id, CHAT_ID_SIZE) == 0) { return true; } } return false; } /** Creates a new 32-byte session encryption keypair and puts the results in `public_key` and `secret_key`. */ static void create_gc_session_keypair(const Logger *log, const Random *rng, uint8_t *public_key, uint8_t *secret_key) { if (crypto_new_keypair(rng, public_key, secret_key) != 0) { LOGGER_FATAL(log, "Failed to create group session keypair"); } } /** * Creates a new 64-byte extended keypair for `chat` and puts results in `self_public_key` * and `self_secret_key` buffers. The first 32-bytes of the generated keys are used for * encryption, while the remaining 32-bytes are used for signing. * * Return false if key generation fails. */ non_null() static bool create_new_chat_ext_keypair(GC_Chat *chat) { crypto_memlock(&chat->self_secret_key, sizeof(chat->self_secret_key)); if (!create_extended_keypair(&chat->self_public_key, &chat->self_secret_key, chat->rng)) { crypto_memunlock(&chat->self_secret_key, sizeof(chat->self_secret_key)); return false; } return true; } /** @brief Handles a group announce onion response. * * Return true on success. */ static bool gc_handle_announce_response_callback(Onion_Client *onion_c, uint32_t sendback_num, const uint8_t *data, size_t data_length, void *user_data) { const GC_Session *c = (GC_Session *)user_data; if (c == nullptr) { return false; } if (sendback_num == 0) { return false; } GC_Announce announces[GCA_MAX_SENT_ANNOUNCES]; const uint8_t *gc_public_key = onion_friend_get_gc_public_key_num(onion_c, sendback_num - 1); GC_Chat *chat = gc_get_group_by_public_key(c, gc_public_key); if (chat == nullptr) { return false; } const int gc_announces_count = gca_unpack_announces_list(chat->log, data, data_length, announces, GCA_MAX_SENT_ANNOUNCES); if (gc_announces_count == -1) { return false; } const int added_peers = gc_add_peers_from_announces(chat, announces, gc_announces_count); return added_peers >= 0; } /** @brief Adds TCP relays from `announce` to the TCP relays list for `gconn`. * * Returns the number of relays successfully added. */ non_null() static uint32_t add_gc_tcp_relays_from_announce(const GC_Chat *chat, GC_Connection *gconn, const GC_Announce *announce) { uint32_t added_relays = 0; for (uint8_t j = 0; j < announce->tcp_relays_count; ++j) { const int add_tcp_result = add_tcp_relay_connection(chat->tcp_conn, gconn->tcp_connection_num, &announce->tcp_relays[j].ip_port, announce->tcp_relays[j].public_key); if (add_tcp_result == -1) { continue; } if (gcc_save_tcp_relay(chat->rng, gconn, &announce->tcp_relays[j]) == -1) { continue; } if (added_relays == 0) { memcpy(gconn->oob_relay_pk, announce->tcp_relays[j].public_key, CRYPTO_PUBLIC_KEY_SIZE); } ++added_relays; } return added_relays; } int gc_add_peers_from_announces(GC_Chat *chat, const GC_Announce *announces, uint8_t gc_announces_count) { if (chat == nullptr || announces == nullptr) { return -1; } if (!is_public_chat(chat)) { return 0; } int added_peers = 0; for (uint8_t i = 0; i < gc_announces_count; ++i) { const GC_Announce *announce = &announces[i]; if (!gca_is_valid_announce(announce)) { continue; } const bool ip_port_set = announce->ip_port_is_set; const IP_Port *ip_port = ip_port_set ? &announce->ip_port : nullptr; const int peer_number = peer_add(chat, ip_port, announce->peer_public_key); GC_Connection *gconn = get_gc_connection(chat, peer_number); if (gconn == nullptr) { continue; } const uint32_t added_tcp_relays = add_gc_tcp_relays_from_announce(chat, gconn, announce); if (!ip_port_set && added_tcp_relays == 0) { LOGGER_ERROR(chat->log, "Got invalid announcement: %u relays, IPP set: %d", added_tcp_relays, ip_port_set); continue; } gconn->pending_handshake_type = HS_INVITE_REQUEST; if (!ip_port_set) { gconn->is_oob_handshake = true; } ++added_peers; } return added_peers; }