/* SPDX-License-Identifier: GPL-3.0-or-later * Copyright © 2016-2018 The TokTok team. * Copyright © 2014 Tox project. */ /** * Slightly better groupchats implementation. */ #include "group.h" #include #include #include #include "DHT.h" #include "Messenger.h" #include "attributes.h" #include "ccompat.h" #include "crypto_core.h" #include "friend_connection.h" #include "group_common.h" #include "logger.h" #include "mono_time.h" #include "net_crypto.h" #include "network.h" #include "state.h" #include "util.h" enum { /** Connection is to one of the closest DESIRED_CLOSEST peers */ GROUPCHAT_CONNECTION_REASON_CLOSEST = 1 << 0, /** Connection is to a peer we are introducing to the conference */ GROUPCHAT_CONNECTION_REASON_INTRODUCING = 1 << 1, /** Connection is to a peer who is introducing us to the conference */ GROUPCHAT_CONNECTION_REASON_INTRODUCER = 1 << 2, }; typedef enum Groupchat_Connection_Type { GROUPCHAT_CONNECTION_NONE, GROUPCHAT_CONNECTION_CONNECTING, GROUPCHAT_CONNECTION_ONLINE, } Groupchat_Connection_Type; typedef enum Groupchat_Status { GROUPCHAT_STATUS_NONE, GROUPCHAT_STATUS_VALID, GROUPCHAT_STATUS_CONNECTED, } Groupchat_Status; #define GROUP_ID_LENGTH CRYPTO_SYMMETRIC_KEY_SIZE #define DESIRED_CLOSEST 4 #define MAX_GROUP_CONNECTIONS 16 #define MAX_LAST_MESSAGE_INFOS 8 #define MAX_LOSSY_COUNT 256 /** Maximum number of frozen peers to store; `group_set_max_frozen()` overrides. */ #define MAX_FROZEN_DEFAULT 128 typedef struct Message_Info { uint32_t message_number; uint8_t message_id; } Message_Info; typedef struct Group_Peer { uint8_t real_pk[CRYPTO_PUBLIC_KEY_SIZE]; uint8_t temp_pk[CRYPTO_PUBLIC_KEY_SIZE]; bool temp_pk_updated; bool is_friend; uint64_t last_active; Message_Info last_message_infos[MAX_LAST_MESSAGE_INFOS]; /* received messages, strictly decreasing in message_number */ uint8_t num_last_message_infos; uint8_t nick[MAX_NAME_LENGTH]; uint8_t nick_len; bool nick_updated; uint16_t peer_number; uint8_t recv_lossy[MAX_LOSSY_COUNT]; uint16_t bottom_lossy_number; uint16_t top_lossy_number; void *object; } Group_Peer; typedef struct Groupchat_Connection { uint8_t type; /* `GROUPCHAT_CONNECTION_*` */ uint8_t reasons; /* bit field with flags `GROUPCHAT_CONNECTION_REASON_*` */ uint32_t number; uint16_t group_number; } Groupchat_Connection; typedef struct Groupchat_Closest { /** * Whether this peer is active in the closest_peers array. */ bool active; uint8_t real_pk[CRYPTO_PUBLIC_KEY_SIZE]; uint8_t temp_pk[CRYPTO_PUBLIC_KEY_SIZE]; } Groupchat_Closest; typedef struct Group_c { uint8_t status; bool need_send_name; bool title_fresh; Group_Peer *group; uint32_t numpeers; Group_Peer *frozen; uint32_t numfrozen; uint32_t maxfrozen; Groupchat_Connection connections[MAX_GROUP_CONNECTIONS]; uint8_t real_pk[CRYPTO_PUBLIC_KEY_SIZE]; Groupchat_Closest closest_peers[DESIRED_CLOSEST]; uint8_t changed; uint8_t type; uint8_t id[GROUP_ID_LENGTH]; uint8_t title[MAX_NAME_LENGTH]; uint8_t title_len; uint32_t message_number; uint16_t lossy_message_number; uint16_t peer_number; uint64_t last_sent_ping; uint32_t num_introducer_connections; void *object; peer_on_join_cb *peer_on_join; peer_on_leave_cb *peer_on_leave; group_on_delete_cb *group_on_delete; } Group_c; struct Group_Chats { const Mono_Time *mono_time; Messenger *m; Friend_Connections *fr_c; Group_c *chats; uint16_t num_chats; g_conference_invite_cb *invite_callback; g_conference_connected_cb *connected_callback; g_conference_message_cb *message_callback; peer_name_cb *peer_name_callback; peer_list_changed_cb *peer_list_changed_callback; title_cb *title_callback; lossy_packet_cb *lossy_packethandlers[256]; }; static const Group_c empty_group_c = {0}; static const Group_Peer empty_group_peer = {{0}}; /** * Packet type IDs as per the protocol specification. */ typedef enum Group_Message_Id { GROUP_MESSAGE_PING_ID = 0, GROUP_MESSAGE_NEW_PEER_ID = 16, GROUP_MESSAGE_KILL_PEER_ID = 17, GROUP_MESSAGE_FREEZE_PEER_ID = 18, GROUP_MESSAGE_NAME_ID = 48, GROUP_MESSAGE_TITLE_ID = 49, } Group_Message_Id; #define GROUP_MESSAGE_NEW_PEER_LENGTH (sizeof(uint16_t) + CRYPTO_PUBLIC_KEY_SIZE * 2) #define GROUP_MESSAGE_KILL_PEER_LENGTH (sizeof(uint16_t)) #define MAX_GROUP_MESSAGE_DATA_LEN (MAX_CRYPTO_DATA_SIZE - (1 + MIN_MESSAGE_PACKET_LEN)) typedef enum Invite_Id { INVITE_ID = 0, INVITE_ACCEPT_ID = 1, INVITE_MEMBER_ID = 2, } Invite_Id; #define INVITE_PACKET_SIZE (1 + sizeof(uint16_t) + 1 + GROUP_ID_LENGTH) #define INVITE_ACCEPT_PACKET_SIZE (1 + sizeof(uint16_t) * 2 + 1 + GROUP_ID_LENGTH) #define INVITE_MEMBER_PACKET_SIZE (1 + sizeof(uint16_t) * 2 + 1 + GROUP_ID_LENGTH + sizeof(uint16_t)) #define ONLINE_PACKET_DATA_SIZE (sizeof(uint16_t) + 1 + GROUP_ID_LENGTH) typedef enum Peer_Id { PEER_INTRODUCED_ID = 1, PEER_QUERY_ID = 8, PEER_RESPONSE_ID = 9, PEER_TITLE_ID = 10, } Peer_Id; #define MIN_MESSAGE_PACKET_LEN (sizeof(uint16_t) * 2 + sizeof(uint32_t) + 1) static_assert(GROUP_ID_LENGTH == CRYPTO_PUBLIC_KEY_SIZE, "GROUP_ID_LENGTH should be equal to CRYPTO_PUBLIC_KEY_SIZE"); const Mono_Time *g_mono_time(const Group_Chats *g_c) { return g_c->mono_time; } non_null() static bool group_id_eq(const uint8_t *a, const uint8_t *b) { return pk_equal(a, b); } non_null() static bool g_title_eq(const Group_c *g, const uint8_t *title, uint8_t title_len) { return memeq(g->title, g->title_len, title, title_len); } non_null() static bool g_peer_nick_eq(const Group_Peer *peer, const uint8_t *nick, uint8_t nick_len) { return memeq(peer->nick, peer->nick_len, nick, nick_len); } /** * @retval false if the groupnumber is not valid. * @retval true if the groupnumber is valid. */ non_null() static bool is_groupnumber_valid(const Group_Chats *g_c, uint32_t groupnumber) { return groupnumber < g_c->num_chats && g_c->chats != nullptr && g_c->chats[groupnumber].status != GROUPCHAT_STATUS_NONE; } /** @brief Set the size of the groupchat list to num. * * @retval false if realloc fails. * @retval true if it succeeds. */ non_null() static bool realloc_conferences(Group_Chats *g_c, uint16_t num) { if (num == 0) { free(g_c->chats); g_c->chats = nullptr; return true; } Group_c *newgroup_chats = (Group_c *)realloc(g_c->chats, num * sizeof(Group_c)); if (newgroup_chats == nullptr) { return false; } g_c->chats = newgroup_chats; return true; } non_null() static void setup_conference(Group_c *g) { *g = empty_group_c; g->maxfrozen = MAX_FROZEN_DEFAULT; } /** @brief Create a new empty groupchat connection. * * @retval -1 on failure. * @return groupnumber on success. */ non_null() static int32_t create_group_chat(Group_Chats *g_c) { for (uint16_t i = 0; i < g_c->num_chats; ++i) { if (g_c->chats[i].status == GROUPCHAT_STATUS_NONE) { return i; } } if (realloc_conferences(g_c, g_c->num_chats + 1)) { const uint16_t id = g_c->num_chats; ++g_c->num_chats; setup_conference(&g_c->chats[id]); return id; } return -1; } non_null() static void wipe_group_c(Group_c *g) { free(g->frozen); free(g->group); crypto_memzero(g, sizeof(Group_c)); } /** @brief Wipe a groupchat. * * @retval true on success. */ non_null() static bool wipe_group_chat(Group_Chats *g_c, uint32_t groupnumber) { if (groupnumber >= g_c->num_chats || g_c->chats == nullptr) { return false; } wipe_group_c(&g_c->chats[groupnumber]); uint16_t i; for (i = g_c->num_chats; i != 0; --i) { if (g_c->chats[i - 1].status != GROUPCHAT_STATUS_NONE) { break; } } if (g_c->num_chats != i) { g_c->num_chats = i; realloc_conferences(g_c, g_c->num_chats); } return true; } non_null() static Group_c *get_group_c(const Group_Chats *g_c, uint32_t groupnumber) { if (!is_groupnumber_valid(g_c, groupnumber)) { return nullptr; } return &g_c->chats[groupnumber]; } /** * check if peer with real_pk is in peer array. * * @return peer index if peer is in group. * @retval -1 if peer is not in group. * * TODO(irungentoo): make this more efficient. */ non_null() static int peer_in_group(const Group_c *g, const uint8_t *real_pk) { for (uint32_t i = 0; i < g->numpeers; ++i) { if (pk_equal(g->group[i].real_pk, real_pk)) { return i; } } return -1; } non_null() static int frozen_in_group(const Group_c *g, const uint8_t *real_pk) { for (uint32_t i = 0; i < g->numfrozen; ++i) { if (pk_equal(g->frozen[i].real_pk, real_pk)) { return i; } } return -1; } /** * check if group with the given type and id is in group array. * * @return group number if peer is in list. * @retval -1 if group is not in list. * * TODO(irungentoo): make this more efficient and maybe use constant time comparisons? */ non_null() static int32_t get_group_num(const Group_Chats *g_c, const uint8_t type, const uint8_t *id) { for (uint16_t i = 0; i < g_c->num_chats; ++i) { if (g_c->chats[i].type == type && group_id_eq(g_c->chats[i].id, id)) { return i; } } return -1; } int32_t conference_by_id(const Group_Chats *g_c, const uint8_t *id) { for (uint16_t i = 0; i < g_c->num_chats; ++i) { if (group_id_eq(g_c->chats[i].id, id)) { return i; } } return -1; } /** * check if peer with peer_number is in peer array. * * @return peer index if peer is in chat. * @retval -1 if peer is not in chat. * * TODO(irungentoo): make this more efficient. */ non_null() static int get_peer_index(const Group_c *g, uint16_t peer_number) { for (uint32_t i = 0; i < g->numpeers; ++i) { if (g->group[i].peer_number == peer_number) { return i; } } return -1; } non_null() static uint64_t calculate_comp_value(const uint8_t *pk1, const uint8_t *pk2) { uint64_t cmp1 = 0; uint64_t cmp2 = 0; for (size_t i = 0; i < sizeof(uint64_t); ++i) { cmp1 = (cmp1 << 8) + (uint64_t)pk1[i]; cmp2 = (cmp2 << 8) + (uint64_t)pk2[i]; } return cmp1 - cmp2; } typedef enum Groupchat_Closest_Change { GROUPCHAT_CLOSEST_CHANGE_NONE, GROUPCHAT_CLOSEST_CHANGE_ADDED, GROUPCHAT_CLOSEST_CHANGE_REMOVED, } Groupchat_Closest_Change; non_null() static bool add_to_closest(Group_c *g, const uint8_t *real_pk, const uint8_t *temp_pk) { if (pk_equal(g->real_pk, real_pk)) { return false; } unsigned int index = DESIRED_CLOSEST; for (unsigned int i = 0; i < DESIRED_CLOSEST; ++i) { if (g->closest_peers[i].active && pk_equal(real_pk, g->closest_peers[i].real_pk)) { return true; } } for (unsigned int i = 0; i < DESIRED_CLOSEST; ++i) { if (!g->closest_peers[i].active) { index = i; break; } } if (index == DESIRED_CLOSEST) { uint64_t comp_val = calculate_comp_value(g->real_pk, real_pk); uint64_t comp_d = 0; for (unsigned int i = 0; i < (DESIRED_CLOSEST / 2); ++i) { const uint64_t comp = calculate_comp_value(g->real_pk, g->closest_peers[i].real_pk); if (comp > comp_val && comp > comp_d) { index = i; comp_d = comp; } } comp_val = calculate_comp_value(real_pk, g->real_pk); for (unsigned int i = DESIRED_CLOSEST / 2; i < DESIRED_CLOSEST; ++i) { const uint64_t comp = calculate_comp_value(g->closest_peers[i].real_pk, g->real_pk); if (comp > comp_val && comp > comp_d) { index = i; comp_d = comp; } } } if (index == DESIRED_CLOSEST) { return false; } uint8_t old_real_pk[CRYPTO_PUBLIC_KEY_SIZE]; uint8_t old_temp_pk[CRYPTO_PUBLIC_KEY_SIZE]; bool old = false; if (g->closest_peers[index].active) { memcpy(old_real_pk, g->closest_peers[index].real_pk, CRYPTO_PUBLIC_KEY_SIZE); memcpy(old_temp_pk, g->closest_peers[index].temp_pk, CRYPTO_PUBLIC_KEY_SIZE); old = true; } g->closest_peers[index].active = true; memcpy(g->closest_peers[index].real_pk, real_pk, CRYPTO_PUBLIC_KEY_SIZE); memcpy(g->closest_peers[index].temp_pk, temp_pk, CRYPTO_PUBLIC_KEY_SIZE); if (old) { add_to_closest(g, old_real_pk, old_temp_pk); } if (g->changed == GROUPCHAT_CLOSEST_CHANGE_NONE) { g->changed = GROUPCHAT_CLOSEST_CHANGE_ADDED; } return true; } non_null() static bool pk_in_closest_peers(const Group_c *g, const uint8_t *real_pk) { for (unsigned int i = 0; i < DESIRED_CLOSEST; ++i) { if (!g->closest_peers[i].active) { continue; } if (pk_equal(g->closest_peers[i].real_pk, real_pk)) { return true; } } return false; } non_null() static void remove_connection_reason(Group_Chats *g_c, Group_c *g, uint16_t i, uint8_t reason); non_null() static void purge_closest(Group_Chats *g_c, uint32_t groupnumber) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return; } for (uint32_t i = 0; i < MAX_GROUP_CONNECTIONS; ++i) { if (g->connections[i].type == GROUPCHAT_CONNECTION_NONE) { continue; } if ((g->connections[i].reasons & GROUPCHAT_CONNECTION_REASON_CLOSEST) == 0) { continue; } uint8_t real_pk[CRYPTO_PUBLIC_KEY_SIZE]; get_friendcon_public_keys(real_pk, nullptr, g_c->fr_c, g->connections[i].number); if (!pk_in_closest_peers(g, real_pk)) { remove_connection_reason(g_c, g, i, GROUPCHAT_CONNECTION_REASON_CLOSEST); } } } non_null() static bool send_packet_online(const Friend_Connections *fr_c, int friendcon_id, uint16_t group_num, uint8_t type, const uint8_t *id); non_null() static int add_conn_to_groupchat(Group_Chats *g_c, int friendcon_id, Group_c *g, uint8_t reason, bool lock); non_null(1) nullable(3) static void add_closest_connections(Group_Chats *g_c, uint32_t groupnumber, void *userdata) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return; } for (uint32_t i = 0; i < DESIRED_CLOSEST; ++i) { if (!g->closest_peers[i].active) { continue; } int friendcon_id = getfriend_conn_id_pk(g_c->fr_c, g->closest_peers[i].real_pk); bool fresh = false; if (friendcon_id == -1) { friendcon_id = new_friend_connection(g_c->fr_c, g->closest_peers[i].real_pk); fresh = true; if (friendcon_id == -1) { continue; } set_dht_temp_pk(g_c->fr_c, friendcon_id, g->closest_peers[i].temp_pk, userdata); } const int connection_index = add_conn_to_groupchat(g_c, friendcon_id, g, GROUPCHAT_CONNECTION_REASON_CLOSEST, !fresh); if (connection_index == -1) { if (fresh) { kill_friend_connection(g_c->fr_c, friendcon_id); } continue; } if (friend_con_connected(g_c->fr_c, friendcon_id) == FRIENDCONN_STATUS_CONNECTED && g->connections[connection_index].type == GROUPCHAT_CONNECTION_CONNECTING) { send_packet_online(g_c->fr_c, friendcon_id, groupnumber, g->type, g->id); } } } non_null(1) nullable(3) static bool connect_to_closest(Group_Chats *g_c, uint32_t groupnumber, void *userdata) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return false; } if (g->changed == GROUPCHAT_CLOSEST_CHANGE_NONE) { return true; } if (g->changed == GROUPCHAT_CLOSEST_CHANGE_REMOVED) { for (uint32_t i = 0; i < g->numpeers; ++i) { add_to_closest(g, g->group[i].real_pk, g->group[i].temp_pk); } } purge_closest(g_c, groupnumber); add_closest_connections(g_c, groupnumber, userdata); g->changed = GROUPCHAT_CLOSEST_CHANGE_NONE; return true; } non_null() static int get_frozen_index(const Group_c *g, uint16_t peer_number) { for (uint32_t i = 0; i < g->numfrozen; ++i) { if (g->frozen[i].peer_number == peer_number) { return i; } } return -1; } non_null() static bool delete_frozen(Group_c *g, uint32_t frozen_index) { if (frozen_index >= g->numfrozen) { return false; } --g->numfrozen; if (g->numfrozen == 0) { free(g->frozen); g->frozen = nullptr; } else { if (g->numfrozen != frozen_index) { g->frozen[frozen_index] = g->frozen[g->numfrozen]; } Group_Peer *const frozen_temp = (Group_Peer *)realloc(g->frozen, g->numfrozen * sizeof(Group_Peer)); if (frozen_temp == nullptr) { return false; } g->frozen = frozen_temp; } return true; } /** @brief Update last_active timestamp on peer, and thaw the peer if it is frozen. * * @return peer index if peer is in the conference. * @retval -1 otherwise, and on error. */ non_null(1) nullable(4) static int note_peer_active(Group_Chats *g_c, uint32_t groupnumber, uint16_t peer_number, void *userdata) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } const int peer_index = get_peer_index(g, peer_number); if (peer_index != -1) { g->group[peer_index].last_active = mono_time_get(g_c->mono_time); return peer_index; } const int frozen_index = get_frozen_index(g, peer_number); if (frozen_index == -1) { return -1; } /* Now thaw the peer */ Group_Peer *temp = (Group_Peer *)realloc(g->group, (g->numpeers + 1) * sizeof(Group_Peer)); if (temp == nullptr) { return -1; } const uint32_t thawed_index = g->numpeers; g->group = temp; g->group[thawed_index] = g->frozen[frozen_index]; g->group[thawed_index].temp_pk_updated = false; g->group[thawed_index].last_active = mono_time_get(g_c->mono_time); add_to_closest(g, g->group[thawed_index].real_pk, g->group[thawed_index].temp_pk); ++g->numpeers; delete_frozen(g, frozen_index); if (g_c->peer_list_changed_callback != nullptr) { g_c->peer_list_changed_callback(g_c->m, groupnumber, userdata); } if (g->peer_on_join != nullptr) { g->peer_on_join(g->object, groupnumber, thawed_index); } g->need_send_name = true; return thawed_index; } non_null(1) nullable(4) static bool delpeer(Group_Chats *g_c, uint32_t groupnumber, int peer_index, void *userdata); non_null(1, 3) nullable(4) static void delete_any_peer_with_pk(Group_Chats *g_c, uint32_t groupnumber, const uint8_t *real_pk, void *userdata) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return; } const int peer_index = peer_in_group(g, real_pk); if (peer_index >= 0) { delpeer(g_c, groupnumber, peer_index, userdata); } const int frozen_index = frozen_in_group(g, real_pk); if (frozen_index >= 0) { delete_frozen(g, frozen_index); } } /** @brief Add a peer to the group chat, or update an existing peer. * * fresh indicates whether we should consider this information on the peer to * be current, and so should update temp_pk and consider the peer active. * * do_gc_callback indicates whether we want to trigger callbacks set by the client * via the public API. This should be set to false if this function is called * from outside of the `tox_iterate()` loop. * * @return peer_index if success or peer already in chat. * @retval -1 if error. */ non_null(1, 3, 4) nullable(6) static int addpeer(Group_Chats *g_c, uint32_t groupnumber, const uint8_t *real_pk, const uint8_t *temp_pk, uint16_t peer_number, void *userdata, bool fresh, bool do_gc_callback) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } const int peer_index = fresh ? note_peer_active(g_c, groupnumber, peer_number, userdata) : get_peer_index(g, peer_number); if (peer_index != -1) { if (!pk_equal(g->group[peer_index].real_pk, real_pk)) { LOGGER_ERROR(g_c->m->log, "peer public key is incorrect for peer %d", peer_number); return -1; } if (fresh || !g->group[peer_index].temp_pk_updated) { pk_copy(g->group[peer_index].temp_pk, temp_pk); g->group[peer_index].temp_pk_updated = true; } return peer_index; } if (!fresh) { const int frozen_index = get_frozen_index(g, peer_number); if (frozen_index != -1) { if (!pk_equal(g->frozen[frozen_index].real_pk, real_pk)) { return -1; } pk_copy(g->frozen[frozen_index].temp_pk, temp_pk); return -1; } } delete_any_peer_with_pk(g_c, groupnumber, real_pk, userdata); Group_Peer *temp = (Group_Peer *)realloc(g->group, (g->numpeers + 1) * sizeof(Group_Peer)); if (temp == nullptr) { return -1; } temp[g->numpeers] = empty_group_peer; g->group = temp; const uint32_t new_index = g->numpeers; pk_copy(g->group[new_index].real_pk, real_pk); pk_copy(g->group[new_index].temp_pk, temp_pk); g->group[new_index].temp_pk_updated = true; g->group[new_index].peer_number = peer_number; g->group[new_index].last_active = mono_time_get(g_c->mono_time); g->group[new_index].is_friend = getfriend_id(g_c->m, real_pk) != -1; ++g->numpeers; add_to_closest(g, real_pk, temp_pk); if (do_gc_callback && g_c->peer_list_changed_callback != nullptr) { g_c->peer_list_changed_callback(g_c->m, groupnumber, userdata); } if (g->peer_on_join != nullptr) { g->peer_on_join(g->object, groupnumber, new_index); } return new_index; } non_null() static void remove_connection(Group_Chats *g_c, Group_c *g, uint16_t i) { if ((g->connections[i].reasons & GROUPCHAT_CONNECTION_REASON_INTRODUCER) != 0) { --g->num_introducer_connections; } kill_friend_connection(g_c->fr_c, g->connections[i].number); g->connections[i].type = GROUPCHAT_CONNECTION_NONE; } non_null() static void remove_from_closest(Group_c *g, int peer_index) { for (uint32_t i = 0; i < DESIRED_CLOSEST; ++i) { if (g->closest_peers[i].active && pk_equal(g->closest_peers[i].real_pk, g->group[peer_index].real_pk)) { g->closest_peers[i].active = false; g->changed = GROUPCHAT_CLOSEST_CHANGE_REMOVED; break; } } } /** * Delete a peer from the group chat. * * return true on success */ static bool delpeer(Group_Chats *g_c, uint32_t groupnumber, int peer_index, void *userdata) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return false; } remove_from_closest(g, peer_index); const int friendcon_id = getfriend_conn_id_pk(g_c->fr_c, g->group[peer_index].real_pk); if (friendcon_id != -1) { for (uint32_t i = 0; i < MAX_GROUP_CONNECTIONS; ++i) { if (g->connections[i].type == GROUPCHAT_CONNECTION_NONE) { continue; } if (g->connections[i].number == (unsigned int)friendcon_id) { remove_connection(g_c, g, i); break; } } } --g->numpeers; void *peer_object = g->group[peer_index].object; if (g->numpeers == 0) { free(g->group); g->group = nullptr; } else { if (g->numpeers != (uint32_t)peer_index) { g->group[peer_index] = g->group[g->numpeers]; } Group_Peer *temp = (Group_Peer *)realloc(g->group, g->numpeers * sizeof(Group_Peer)); if (temp == nullptr) { return false; } g->group = temp; } if (g_c->peer_list_changed_callback != nullptr) { g_c->peer_list_changed_callback(g_c->m, groupnumber, userdata); } if (g->peer_on_leave != nullptr) { g->peer_on_leave(g->object, groupnumber, peer_object); } return true; } /** Order peers with friends first and with more recently active earlier */ non_null() static int cmp_frozen(const void *a, const void *b) { const Group_Peer *pa = (const Group_Peer *)a; const Group_Peer *pb = (const Group_Peer *)b; if (pa->is_friend ^ pb->is_friend) { return pa->is_friend ? -1 : 1; } return cmp_uint(pb->last_active, pa->last_active); } /** @brief Delete frozen peers as necessary to ensure at most `g->maxfrozen` remain. * * @retval true if any frozen peers are removed. */ non_null() static bool delete_old_frozen(Group_c *g) { if (g->numfrozen <= g->maxfrozen) { return false; } if (g->maxfrozen == 0) { free(g->frozen); g->frozen = nullptr; g->numfrozen = 0; return true; } qsort(g->frozen, g->numfrozen, sizeof(Group_Peer), cmp_frozen); Group_Peer *temp = (Group_Peer *)realloc(g->frozen, g->maxfrozen * sizeof(Group_Peer)); if (temp == nullptr) { return false; } g->frozen = temp; g->numfrozen = g->maxfrozen; return true; } non_null() static bool try_send_rejoin(Group_Chats *g_c, Group_c *g, const uint8_t *real_pk); non_null(1) nullable(4) static bool freeze_peer(Group_Chats *g_c, uint32_t groupnumber, int peer_index, void *userdata) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return false; } Group_Peer *temp = (Group_Peer *)realloc(g->frozen, (g->numfrozen + 1) * sizeof(Group_Peer)); if (temp == nullptr) { return false; } g->frozen = temp; g->frozen[g->numfrozen] = g->group[peer_index]; g->frozen[g->numfrozen].object = nullptr; if (!delpeer(g_c, groupnumber, peer_index, userdata)) { return false; } try_send_rejoin(g_c, g, g->frozen[g->numfrozen].real_pk); ++g->numfrozen; delete_old_frozen(g); return true; } /** @brief Set the nick for a peer. * * do_gc_callback indicates whether we want to trigger callbacks set by the client * via the public API. This should be set to false if this function is called * from outside of the `tox_iterate()` loop. * * @retval true on success. */ non_null(1, 4) nullable(6) static bool setnick(Group_Chats *g_c, uint32_t groupnumber, int peer_index, const uint8_t *nick, uint16_t nick_len, void *userdata, bool do_gc_callback) { if (nick_len > MAX_NAME_LENGTH) { return false; } Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return false; } g->group[peer_index].nick_updated = true; if (g_peer_nick_eq(&g->group[peer_index], nick, nick_len)) { /* same name as already stored */ return true; } if (nick_len > 0) { memcpy(g->group[peer_index].nick, nick, nick_len); } g->group[peer_index].nick_len = nick_len; if (do_gc_callback && g_c->peer_name_callback != nullptr) { g_c->peer_name_callback(g_c->m, groupnumber, peer_index, nick, nick_len, userdata); } return true; } /** @brief Set the title for a group. * * @retval true on success. */ non_null(1, 4) nullable(6) static bool settitle(Group_Chats *g_c, uint32_t groupnumber, int peer_index, const uint8_t *title, uint8_t title_len, void *userdata) { if (title_len > MAX_NAME_LENGTH || title_len == 0) { return false; } Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return false; } if (g_title_eq(g, title, title_len)) { /* same title as already set */ return true; } memcpy(g->title, title, title_len); g->title_len = title_len; g->title_fresh = true; if (g_c->title_callback != nullptr) { g_c->title_callback(g_c->m, groupnumber, peer_index, title, title_len, userdata); } return true; } /** Check if the group has no online connection, and freeze all peers if so */ non_null(1) nullable(3) static void check_disconnected(Group_Chats *g_c, uint32_t groupnumber, void *userdata) { const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return; } for (uint32_t i = 0; i < MAX_GROUP_CONNECTIONS; ++i) { if (g->connections[i].type == GROUPCHAT_CONNECTION_ONLINE) { return; } } for (uint32_t i = 0; i < g->numpeers; ++i) { while (i < g->numpeers && !pk_equal(g->group[i].real_pk, g->real_pk)) { freeze_peer(g_c, groupnumber, i, userdata); } } } non_null(1) nullable(5) static void set_conns_type_connections(Group_Chats *g_c, uint32_t groupnumber, int friendcon_id, uint8_t type, void *userdata) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return; } for (uint32_t i = 0; i < MAX_GROUP_CONNECTIONS; ++i) { if (g->connections[i].type == GROUPCHAT_CONNECTION_NONE) { continue; } if (g->connections[i].number != (unsigned int)friendcon_id) { continue; } if (type == GROUPCHAT_CONNECTION_ONLINE) { send_packet_online(g_c->fr_c, friendcon_id, groupnumber, g->type, g->id); } else { g->connections[i].type = type; check_disconnected(g_c, groupnumber, userdata); } } } /** Set the type for all connections with friendcon_id */ non_null(1) nullable(4) static void set_conns_status_groups(Group_Chats *g_c, int friendcon_id, uint8_t type, void *userdata) { for (uint16_t i = 0; i < g_c->num_chats; ++i) { set_conns_type_connections(g_c, i, friendcon_id, type, userdata); } } non_null() static void rejoin_frozen_friend(Group_Chats *g_c, int friendcon_id) { uint8_t real_pk[CRYPTO_PUBLIC_KEY_SIZE]; get_friendcon_public_keys(real_pk, nullptr, g_c->fr_c, friendcon_id); for (uint16_t i = 0; i < g_c->num_chats; ++i) { Group_c *g = get_group_c(g_c, i); if (g == nullptr) { continue; } for (uint32_t j = 0; j < g->numfrozen; ++j) { if (pk_equal(g->frozen[j].real_pk, real_pk)) { try_send_rejoin(g_c, g, real_pk); break; } } } } non_null(1) nullable(4) static int g_handle_any_status(void *object, int friendcon_id, bool status, void *userdata) { Group_Chats *g_c = (Group_Chats *)object; if (status) { rejoin_frozen_friend(g_c, friendcon_id); } return 0; } non_null(1) nullable(4) static int g_handle_status(void *object, int friendcon_id, bool status, void *userdata) { Group_Chats *g_c = (Group_Chats *)object; if (status) { /* Went online */ set_conns_status_groups(g_c, friendcon_id, GROUPCHAT_CONNECTION_ONLINE, userdata); } else { /* Went offline */ set_conns_status_groups(g_c, friendcon_id, GROUPCHAT_CONNECTION_CONNECTING, userdata); // TODO(irungentoo): remove timedout connections? } return 0; } non_null(1, 3) nullable(5) static int g_handle_packet(void *object, int friendcon_id, const uint8_t *data, uint16_t length, void *userdata); non_null(1, 3) nullable(5) static int handle_lossy(void *object, int friendcon_id, const uint8_t *data, uint16_t length, void *userdata); /** @brief Add friend to group chat. * * @return connections index on success * @retval -1 on failure. */ static int add_conn_to_groupchat(Group_Chats *g_c, int friendcon_id, Group_c *g, uint8_t reason, bool lock) { uint16_t empty = MAX_GROUP_CONNECTIONS; uint16_t ind = MAX_GROUP_CONNECTIONS; for (uint16_t i = 0; i < MAX_GROUP_CONNECTIONS; ++i) { if (g->connections[i].type == GROUPCHAT_CONNECTION_NONE) { empty = i; continue; } if (g->connections[i].number == (uint32_t)friendcon_id) { ind = i; /* Already in list. */ break; } } if (ind == MAX_GROUP_CONNECTIONS) { if (empty == MAX_GROUP_CONNECTIONS) { return -1; } if (lock) { friend_connection_lock(g_c->fr_c, friendcon_id); } g->connections[empty].type = GROUPCHAT_CONNECTION_CONNECTING; g->connections[empty].number = friendcon_id; g->connections[empty].reasons = 0; // TODO(irungentoo): friend_connection_callbacks(g_c->m->fr_c, friendcon_id, GROUPCHAT_CALLBACK_INDEX, &g_handle_status, &g_handle_packet, &handle_lossy, g_c, friendcon_id); ind = empty; } if ((g->connections[ind].reasons & reason) == 0) { g->connections[ind].reasons |= reason; if (reason == GROUPCHAT_CONNECTION_REASON_INTRODUCER) { ++g->num_introducer_connections; } } return ind; } non_null() static bool send_peer_introduced(const Group_Chats *g_c, int friendcon_id, uint16_t group_num); /** @brief Removes reason for keeping connection. * * Kills connection if this was the last reason. */ static void remove_connection_reason(Group_Chats *g_c, Group_c *g, uint16_t i, uint8_t reason) { if ((g->connections[i].reasons & reason) == 0) { return; } g->connections[i].reasons &= ~reason; if (reason == GROUPCHAT_CONNECTION_REASON_INTRODUCER) { --g->num_introducer_connections; if (g->connections[i].type == GROUPCHAT_CONNECTION_ONLINE) { send_peer_introduced(g_c, g->connections[i].number, g->connections[i].group_number); } } if (g->connections[i].reasons == 0) { kill_friend_connection(g_c->fr_c, g->connections[i].number); g->connections[i].type = GROUPCHAT_CONNECTION_NONE; } } /** @brief Creates a new groupchat and puts it in the chats array. * * @param rng Random number generator used for generating the group ID. * @param type is one of `GROUPCHAT_TYPE_*` * * @return group number on success. * @retval -1 on failure. */ int add_groupchat(Group_Chats *g_c, const Random *rng, uint8_t type) { const int32_t groupnumber = create_group_chat(g_c); if (groupnumber == -1) { return -1; } Group_c *g = &g_c->chats[groupnumber]; g->status = GROUPCHAT_STATUS_CONNECTED; g->type = type; new_symmetric_key(rng, g->id); g->peer_number = 0; /* Founder is peer 0. */ memcpy(g->real_pk, nc_get_self_public_key(g_c->m->net_crypto), CRYPTO_PUBLIC_KEY_SIZE); const int peer_index = addpeer(g_c, groupnumber, g->real_pk, dht_get_self_public_key(g_c->m->dht), 0, nullptr, true, false); if (peer_index == -1) { return -1; } setnick(g_c, groupnumber, peer_index, g_c->m->name, g_c->m->name_length, nullptr, false); return groupnumber; } non_null() static bool group_leave(const Group_Chats *g_c, uint32_t groupnumber, bool permanent); /** @brief Delete a groupchat from the chats array, informing the group first as * appropriate. * * @retval true on success. * @retval false if groupnumber is invalid. */ bool del_groupchat(Group_Chats *g_c, uint32_t groupnumber, bool leave_permanently) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return false; } group_leave(g_c, groupnumber, leave_permanently); for (uint32_t i = 0; i < MAX_GROUP_CONNECTIONS; ++i) { if (g->connections[i].type == GROUPCHAT_CONNECTION_NONE) { continue; } g->connections[i].type = GROUPCHAT_CONNECTION_NONE; kill_friend_connection(g_c->fr_c, g->connections[i].number); } for (uint32_t i = 0; i < g->numpeers; ++i) { if (g->peer_on_leave != nullptr) { g->peer_on_leave(g->object, groupnumber, g->group[i].object); } } if (g->group_on_delete != nullptr) { g->group_on_delete(g->object, groupnumber); } return wipe_group_chat(g_c, groupnumber); } non_null() static const Group_Peer *peer_in_list(const Group_c *g, uint32_t peernumber, bool frozen) { const Group_Peer *list = frozen ? g->frozen : g->group; const uint32_t num = frozen ? g->numfrozen : g->numpeers; if (peernumber >= num) { return nullptr; } return &list[peernumber]; } /** * @brief Copy the public key of (frozen, if frozen is true) peernumber who is in * groupnumber to pk. * * @param pk must be CRYPTO_PUBLIC_KEY_SIZE long. * * @retval 0 on success * @retval -1 if groupnumber is invalid. * @retval -2 if peernumber is invalid. */ int group_peer_pubkey(const Group_Chats *g_c, uint32_t groupnumber, uint32_t peernumber, uint8_t *pk, bool frozen) { const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } const Group_Peer *peer = peer_in_list(g, peernumber, frozen); if (peer == nullptr) { return -2; } memcpy(pk, peer->real_pk, CRYPTO_PUBLIC_KEY_SIZE); return 0; } /** * @brief Return the size of (frozen, if frozen is true) peernumber's name. * * @retval -1 if groupnumber is invalid. * @retval -2 if peernumber is invalid. */ int group_peername_size(const Group_Chats *g_c, uint32_t groupnumber, uint32_t peernumber, bool frozen) { const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } const Group_Peer *peer = peer_in_list(g, peernumber, frozen); if (peer == nullptr) { return -2; } return peer->nick_len; } /** * @brief Copy the name of (frozen, if frozen is true) peernumber who is in * groupnumber to name. * * @param name must be at least MAX_NAME_LENGTH long. * * @return length of name if success * @retval -1 if groupnumber is invalid. * @retval -2 if peernumber is invalid. */ int group_peername(const Group_Chats *g_c, uint32_t groupnumber, uint32_t peernumber, uint8_t *name, bool frozen) { const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } const Group_Peer *peer = peer_in_list(g, peernumber, frozen); if (peer == nullptr) { return -2; } if (peer->nick_len > 0) { memcpy(name, peer->nick, peer->nick_len); } return peer->nick_len; } /** * @brief Copy last active timestamp of frozen peernumber who is in groupnumber to * last_active. * * @retval 0 on success. * @retval -1 if groupnumber is invalid. * @retval -2 if peernumber is invalid. */ int group_frozen_last_active(const Group_Chats *g_c, uint32_t groupnumber, uint32_t peernumber, uint64_t *last_active) { const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } if (peernumber >= g->numfrozen) { return -2; } *last_active = g->frozen[peernumber].last_active; return 0; } /** @brief Set maximum number of frozen peers. * * @retval 0 on success. * @retval -1 if groupnumber is invalid. */ int group_set_max_frozen(const Group_Chats *g_c, uint32_t groupnumber, uint32_t maxfrozen) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } g->maxfrozen = maxfrozen; delete_old_frozen(g); return 0; } /** * @return the number of (frozen, if frozen is true) peers in the group chat on success. * @retval -1 if groupnumber is invalid. */ int group_number_peers(const Group_Chats *g_c, uint32_t groupnumber, bool frozen) { const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } return frozen ? g->numfrozen : g->numpeers; } /** * @retval 1 if the peernumber corresponds to ours. * @retval 0 if the peernumber is not ours. * @retval -1 if groupnumber is invalid. * @retval -2 if peernumber is invalid. * @retval -3 if we are not connected to the group chat. */ int group_peernumber_is_ours(const Group_Chats *g_c, uint32_t groupnumber, uint32_t peernumber) { const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } if (peernumber >= g->numpeers) { return -2; } if (g->status != GROUPCHAT_STATUS_CONNECTED) { return -3; } return (g->peer_number == g->group[peernumber].peer_number) ? 1 : 0; } /** @brief return the type of groupchat (GROUPCHAT_TYPE_) that groupnumber is. * * @retval -1 on failure. * @return type on success. */ int group_get_type(const Group_Chats *g_c, uint32_t groupnumber) { const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } return g->type; } /** @brief Copies the unique id of `group_chat[groupnumber]` into `id`. * * @retval false on failure. * @retval true on success. */ bool conference_get_id(const Group_Chats *g_c, uint32_t groupnumber, uint8_t *id) { const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return false; } if (id != nullptr) { memcpy(id, g->id, sizeof(g->id)); } return true; } /** @brief Send a group packet to friendcon_id. * * @retval true on success * @retval false on failure */ non_null() static bool send_packet_group_peer(const Friend_Connections *fr_c, int friendcon_id, uint8_t packet_id, uint16_t group_num, const uint8_t *data, uint16_t length) { if (1 + sizeof(uint16_t) + length > MAX_CRYPTO_DATA_SIZE) { return false; } group_num = net_htons(group_num); const uint32_t packet_size = 1 + sizeof(uint16_t) + length; VLA(uint8_t, packet, packet_size); packet[0] = packet_id; memcpy(packet + 1, &group_num, sizeof(uint16_t)); memcpy(packet + 1 + sizeof(uint16_t), data, length); return write_cryptpacket(friendconn_net_crypto(fr_c), friend_connection_crypt_connection_id(fr_c, friendcon_id), packet, packet_size, false) != -1; } /** @brief Send a group lossy packet to friendcon_id. * * @retval true on success * @retval false on failure */ non_null() static bool send_lossy_group_peer(const Friend_Connections *fr_c, int friendcon_id, uint8_t packet_id, uint16_t group_num, const uint8_t *data, uint16_t length) { if (1 + sizeof(uint16_t) + length > MAX_CRYPTO_DATA_SIZE) { return false; } group_num = net_htons(group_num); const uint32_t packet_size = 1 + sizeof(uint16_t) + length; VLA(uint8_t, packet, packet_size); packet[0] = packet_id; memcpy(packet + 1, &group_num, sizeof(uint16_t)); memcpy(packet + 1 + sizeof(uint16_t), data, length); return send_lossy_cryptpacket(friendconn_net_crypto(fr_c), friend_connection_crypt_connection_id(fr_c, friendcon_id), packet, packet_size) != -1; } /** @brief invite friendnumber to groupnumber. * * @retval 0 on success. * @retval -1 if groupnumber is invalid. * @retval -2 if invite packet failed to send. * @retval -3 if we are not connected to the group chat. */ int invite_friend(const Group_Chats *g_c, uint32_t friendnumber, uint32_t groupnumber) { const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } if (g->status != GROUPCHAT_STATUS_CONNECTED) { return -3; } uint8_t invite[INVITE_PACKET_SIZE]; invite[0] = INVITE_ID; const uint16_t groupchat_num = net_htons((uint16_t)groupnumber); memcpy(invite + 1, &groupchat_num, sizeof(groupchat_num)); invite[1 + sizeof(groupchat_num)] = g->type; memcpy(invite + 1 + sizeof(groupchat_num) + 1, g->id, GROUP_ID_LENGTH); if (send_conference_invite_packet(g_c->m, friendnumber, invite, sizeof(invite))) { return 0; } return -2; } /** @brief Send a rejoin packet to a peer if we have a friend connection to the peer. * @retval true if a packet was sent. * @retval false otherwise. */ static bool try_send_rejoin(Group_Chats *g_c, Group_c *g, const uint8_t *real_pk) { const int friendcon_id = getfriend_conn_id_pk(g_c->fr_c, real_pk); if (friendcon_id == -1) { return false; } uint8_t packet[1 + 1 + GROUP_ID_LENGTH]; packet[0] = PACKET_ID_REJOIN_CONFERENCE; packet[1] = g->type; memcpy(packet + 2, g->id, GROUP_ID_LENGTH); if (write_cryptpacket(friendconn_net_crypto(g_c->fr_c), friend_connection_crypt_connection_id(g_c->fr_c, friendcon_id), packet, sizeof(packet), false) == -1) { return false; } add_conn_to_groupchat(g_c, friendcon_id, g, GROUPCHAT_CONNECTION_REASON_INTRODUCER, true); return true; } non_null() static bool send_peer_query(const Group_Chats *g_c, int friendcon_id, uint16_t group_num); non_null() static bool send_invite_response(Group_Chats *g_c, int groupnumber, uint32_t friendnumber, const uint8_t *data, uint16_t length); /** @brief Join a group (we need to have been invited first). * * @param expected_type is the groupchat type we expect the chat we are joining * to have. * * @return group number on success. * @retval -1 if data length is invalid. * @retval -2 if group is not the expected type. * @retval -3 if friendnumber is invalid. * @retval -4 if client is already in this group. * @retval -5 if group instance failed to initialize. * @retval -6 if join packet fails to send. */ int join_groupchat(Group_Chats *g_c, uint32_t friendnumber, uint8_t expected_type, const uint8_t *data, uint16_t length) { if (length != sizeof(uint16_t) + 1 + GROUP_ID_LENGTH) { return -1; } if (data[sizeof(uint16_t)] != expected_type) { return -2; } const int friendcon_id = getfriendcon_id(g_c->m, friendnumber); if (friendcon_id == -1) { return -3; } if (get_group_num(g_c, data[sizeof(uint16_t)], data + sizeof(uint16_t) + 1) != -1) { return -4; } const int groupnumber = create_group_chat(g_c); if (groupnumber == -1) { return -5; } Group_c *g = &g_c->chats[groupnumber]; g->status = GROUPCHAT_STATUS_VALID; memcpy(g->real_pk, nc_get_self_public_key(g_c->m->net_crypto), CRYPTO_PUBLIC_KEY_SIZE); if (!send_invite_response(g_c, groupnumber, friendnumber, data, length)) { g->status = GROUPCHAT_STATUS_NONE; return -6; } return groupnumber; } static bool send_invite_response(Group_Chats *g_c, int groupnumber, uint32_t friendnumber, const uint8_t *data, uint16_t length) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return false; } const bool member = g->status == GROUPCHAT_STATUS_CONNECTED; const uint32_t response_size = member ? INVITE_MEMBER_PACKET_SIZE : INVITE_ACCEPT_PACKET_SIZE; VLA(uint8_t, response, response_size); response[0] = member ? INVITE_MEMBER_ID : INVITE_ACCEPT_ID; net_pack_u16(response + 1, groupnumber); memcpy(response + 1 + sizeof(uint16_t), data, length); if (member) { net_pack_u16(response + 1 + sizeof(uint16_t) + length, g->peer_number); } if (!send_conference_invite_packet(g_c->m, friendnumber, response, response_size)) { return false; } if (!member) { g->type = data[sizeof(uint16_t)]; memcpy(g->id, data + sizeof(uint16_t) + 1, GROUP_ID_LENGTH); } uint16_t other_groupnum; net_unpack_u16(data, &other_groupnum); const int friendcon_id = getfriendcon_id(g_c->m, friendnumber); if (friendcon_id == -1) { return false; } const int connection_index = add_conn_to_groupchat(g_c, friendcon_id, g, GROUPCHAT_CONNECTION_REASON_INTRODUCER, true); if (member) { add_conn_to_groupchat(g_c, friendcon_id, g, GROUPCHAT_CONNECTION_REASON_INTRODUCING, false); } if (connection_index != -1) { g->connections[connection_index].group_number = other_groupnum; g->connections[connection_index].type = GROUPCHAT_CONNECTION_ONLINE; } send_peer_query(g_c, friendcon_id, other_groupnum); return true; } /** Set handlers for custom lossy packets. */ void group_lossy_packet_registerhandler(Group_Chats *g_c, uint8_t byte, lossy_packet_cb *function) { g_c->lossy_packethandlers[byte] = function; } /** Set the callback for group invites. */ void g_callback_group_invite(Group_Chats *g_c, g_conference_invite_cb *function) { g_c->invite_callback = function; } /** Set the callback for group connection. */ void g_callback_group_connected(Group_Chats *g_c, g_conference_connected_cb *function) { g_c->connected_callback = function; } /** Set the callback for group messages. */ void g_callback_group_message(Group_Chats *g_c, g_conference_message_cb *function) { g_c->message_callback = function; } /** @brief Set callback function for peer nickname changes. * * It gets called every time a peer changes their nickname. */ void g_callback_peer_name(Group_Chats *g_c, peer_name_cb *function) { g_c->peer_name_callback = function; } /** @brief Set callback function for peer list changes. * * It gets called every time the name list changes(new peer, deleted peer) */ void g_callback_peer_list_changed(Group_Chats *g_c, peer_list_changed_cb *function) { g_c->peer_list_changed_callback = function; } /** Set callback function for title changes. */ void g_callback_group_title(Group_Chats *g_c, title_cb *function) { g_c->title_callback = function; } /** @brief Set a function to be called when a new peer joins a group chat. * * @retval 0 on success. * @retval -1 on failure. */ int callback_groupchat_peer_new(const Group_Chats *g_c, uint32_t groupnumber, peer_on_join_cb *function) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } g->peer_on_join = function; return 0; } /** @brief Set a function to be called when a peer leaves a group chat. * * @retval 0 on success. * @retval -1 on failure. */ int callback_groupchat_peer_delete(const Group_Chats *g_c, uint32_t groupnumber, peer_on_leave_cb *function) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } g->peer_on_leave = function; return 0; } /** @brief Set a function to be called when the group chat is deleted. * * @retval 0 on success. * @retval -1 on failure. */ int callback_groupchat_delete(const Group_Chats *g_c, uint32_t groupnumber, group_on_delete_cb *function) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } g->group_on_delete = function; return 0; } non_null(1) nullable(4) static int send_message_group(const Group_Chats *g_c, uint32_t groupnumber, uint8_t message_id, const uint8_t *data, uint16_t len); /** @brief send a ping message * return true on success */ non_null() static bool group_ping_send(const Group_Chats *g_c, uint32_t groupnumber) { return send_message_group(g_c, groupnumber, GROUP_MESSAGE_PING_ID, nullptr, 0) > 0; } /** @brief send a new_peer message * return true on success */ non_null() static bool group_new_peer_send(const Group_Chats *g_c, uint32_t groupnumber, uint16_t peer_num, const uint8_t *real_pk, const uint8_t *temp_pk) { uint8_t packet[GROUP_MESSAGE_NEW_PEER_LENGTH]; peer_num = net_htons(peer_num); memcpy(packet, &peer_num, sizeof(uint16_t)); memcpy(packet + sizeof(uint16_t), real_pk, CRYPTO_PUBLIC_KEY_SIZE); memcpy(packet + sizeof(uint16_t) + CRYPTO_PUBLIC_KEY_SIZE, temp_pk, CRYPTO_PUBLIC_KEY_SIZE); return send_message_group(g_c, groupnumber, GROUP_MESSAGE_NEW_PEER_ID, packet, sizeof(packet)) > 0; } /** @brief send a kill_peer message * return true on success */ non_null() static bool group_kill_peer_send(const Group_Chats *g_c, uint32_t groupnumber, uint16_t peer_num) { uint8_t packet[GROUP_MESSAGE_KILL_PEER_LENGTH]; peer_num = net_htons(peer_num); memcpy(packet, &peer_num, sizeof(uint16_t)); return send_message_group(g_c, groupnumber, GROUP_MESSAGE_KILL_PEER_ID, packet, sizeof(packet)) > 0; } /** @brief send a freeze_peer message * return true on success */ non_null() static bool group_freeze_peer_send(const Group_Chats *g_c, uint32_t groupnumber, uint16_t peer_num) { uint8_t packet[GROUP_MESSAGE_KILL_PEER_LENGTH]; peer_num = net_htons(peer_num); memcpy(packet, &peer_num, sizeof(uint16_t)); return send_message_group(g_c, groupnumber, GROUP_MESSAGE_FREEZE_PEER_ID, packet, sizeof(packet)) > 0; } /** @brief send a name message * return true on success */ non_null() static bool group_name_send(const Group_Chats *g_c, uint32_t groupnumber, const uint8_t *nick, uint16_t nick_len) { if (nick_len > MAX_NAME_LENGTH) { return false; } return send_message_group(g_c, groupnumber, GROUP_MESSAGE_NAME_ID, nick, nick_len) > 0; } /** @brief send message to announce leaving group * return true on success */ static bool group_leave(const Group_Chats *g_c, uint32_t groupnumber, bool permanent) { const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return false; } if (permanent) { return group_kill_peer_send(g_c, groupnumber, g->peer_number); } else { return group_freeze_peer_send(g_c, groupnumber, g->peer_number); } } /** @brief set the group's title, limited to MAX_NAME_LENGTH. * @retval 0 on success * @retval -1 if groupnumber is invalid. * @retval -2 if title is too long or empty. * @retval -3 if packet fails to send. */ int group_title_send(const Group_Chats *g_c, uint32_t groupnumber, const uint8_t *title, uint8_t title_len) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } if (title_len > MAX_NAME_LENGTH || title_len == 0) { return -2; } /* same as already set? */ if (g_title_eq(g, title, title_len)) { return 0; } memcpy(g->title, title, title_len); g->title_len = title_len; if (g->numpeers == 1) { return 0; } if (send_message_group(g_c, groupnumber, GROUP_MESSAGE_TITLE_ID, title, title_len) > 0) { return 0; } return -3; } /** @brief return the group's title size. * @retval -1 of groupnumber is invalid. * @retval -2 if title is too long or empty. */ int group_title_get_size(const Group_Chats *g_c, uint32_t groupnumber) { const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } if (g->title_len > MAX_NAME_LENGTH || g->title_len == 0) { return -2; } return g->title_len; } /** @brief Get group title from groupnumber and put it in title. * * Title needs to be a valid memory location with a size of at least MAX_NAME_LENGTH (128) bytes. * * @return length of copied title if success. * @retval -1 if groupnumber is invalid. * @retval -2 if title is too long or empty. */ int group_title_get(const Group_Chats *g_c, uint32_t groupnumber, uint8_t *title) { const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } if (g->title_len > MAX_NAME_LENGTH || g->title_len == 0) { return -2; } memcpy(title, g->title, g->title_len); return g->title_len; } non_null() static bool get_peer_number(const Group_c *g, const uint8_t *real_pk, uint16_t *peer_number) { const int peer_index = peer_in_group(g, real_pk); if (peer_index >= 0) { *peer_number = g->group[peer_index].peer_number; return true; } const int frozen_index = frozen_in_group(g, real_pk); if (frozen_index >= 0) { *peer_number = g->frozen[frozen_index].peer_number; return true; } return false; } non_null(1, 3) nullable(5) static void handle_friend_invite_packet(Messenger *m, uint32_t friend_number, const uint8_t *cookie, uint16_t length, void *user_data) { Group_Chats *g_c = m->conferences_object; if (length <= 1) { return; } switch (cookie[0]) { case INVITE_ID: { if (length != INVITE_PACKET_SIZE) { return; } const int groupnumber = get_group_num(g_c, cookie[1 + sizeof(uint16_t)], cookie + 1 + sizeof(uint16_t) + 1); const uint8_t *invite_data = cookie + 1; const uint16_t invite_length = length - 1; if (groupnumber == -1) { if (g_c->invite_callback != nullptr) { g_c->invite_callback(m, friend_number, invite_data[sizeof(uint16_t)], invite_data, invite_length, user_data); } return; } else { const Group_c *g = get_group_c(g_c, groupnumber); if (g != nullptr && g->status == GROUPCHAT_STATUS_CONNECTED) { send_invite_response(g_c, groupnumber, friend_number, invite_data, invite_length); } } break; } case INVITE_ACCEPT_ID: case INVITE_MEMBER_ID: { const bool member = cookie[0] == INVITE_MEMBER_ID; if (length != (member ? INVITE_MEMBER_PACKET_SIZE : INVITE_ACCEPT_PACKET_SIZE)) { return; } uint16_t other_groupnum; uint16_t groupnum; net_unpack_u16(cookie + 1, &other_groupnum); net_unpack_u16(cookie + 1 + sizeof(uint16_t), &groupnum); Group_c *g = get_group_c(g_c, groupnum); if (g == nullptr) { return; } if (cookie[1 + sizeof(uint16_t) * 2] != g->type) { return; } if (!group_id_eq(cookie + 1 + sizeof(uint16_t) * 2 + 1, g->id)) { return; } uint16_t peer_number; if (member) { net_unpack_u16(cookie + 1 + sizeof(uint16_t) * 2 + 1 + GROUP_ID_LENGTH, &peer_number); } else { /* TODO(irungentoo): what if two people enter the group at the * same time and are given the same peer_number by different * nodes? */ peer_number = random_u16(m->rng); unsigned int tries = 0; while (get_peer_index(g, peer_number) != -1 || get_frozen_index(g, peer_number) != -1) { peer_number = random_u16(m->rng); ++tries; if (tries > 32) { return; } } } const int friendcon_id = getfriendcon_id(m, friend_number); if (friendcon_id == -1) { // TODO(iphydf): Log something? return; } uint8_t real_pk[CRYPTO_PUBLIC_KEY_SIZE]; uint8_t temp_pk[CRYPTO_PUBLIC_KEY_SIZE]; get_friendcon_public_keys(real_pk, temp_pk, g_c->fr_c, friendcon_id); addpeer(g_c, groupnum, real_pk, temp_pk, peer_number, user_data, true, true); const int connection_index = add_conn_to_groupchat(g_c, friendcon_id, g, GROUPCHAT_CONNECTION_REASON_INTRODUCING, true); if (member) { add_conn_to_groupchat(g_c, friendcon_id, g, GROUPCHAT_CONNECTION_REASON_INTRODUCER, false); send_peer_query(g_c, friendcon_id, other_groupnum); } if (connection_index != -1) { g->connections[connection_index].group_number = other_groupnum; g->connections[connection_index].type = GROUPCHAT_CONNECTION_ONLINE; } group_new_peer_send(g_c, groupnum, peer_number, real_pk, temp_pk); break; } default: { return; } } } /** @brief Find index of friend in the connections list. * * return index on success * return -1 on failure. */ non_null() static int friend_in_connections(const Group_c *g, int friendcon_id) { for (unsigned int i = 0; i < MAX_GROUP_CONNECTIONS; ++i) { if (g->connections[i].type == GROUPCHAT_CONNECTION_NONE) { continue; } if (g->connections[i].number == (uint32_t)friendcon_id) { return i; } } return -1; } /** return number of connections. */ non_null() static unsigned int count_connected(const Group_c *g) { unsigned int count = 0; for (unsigned int i = 0; i < MAX_GROUP_CONNECTIONS; ++i) { if (g->connections[i].type == GROUPCHAT_CONNECTION_ONLINE) { ++count; } } return count; } static bool send_packet_online(const Friend_Connections *fr_c, int friendcon_id, uint16_t group_num, uint8_t type, const uint8_t *id) { uint8_t packet[1 + ONLINE_PACKET_DATA_SIZE]; group_num = net_htons(group_num); packet[0] = PACKET_ID_ONLINE_PACKET; memcpy(packet + 1, &group_num, sizeof(uint16_t)); packet[1 + sizeof(uint16_t)] = type; memcpy(packet + 1 + sizeof(uint16_t) + 1, id, GROUP_ID_LENGTH); return write_cryptpacket(friendconn_net_crypto(fr_c), friend_connection_crypt_connection_id(fr_c, friendcon_id), packet, sizeof(packet), false) != -1; } non_null() static bool ping_groupchat(const Group_Chats *g_c, uint32_t groupnumber); non_null() static int handle_packet_online(const Group_Chats *g_c, int friendcon_id, const uint8_t *data, uint16_t length) { if (length != ONLINE_PACKET_DATA_SIZE) { return -1; } const int groupnumber = get_group_num(g_c, data[sizeof(uint16_t)], data + sizeof(uint16_t) + 1); if (groupnumber == -1) { return -1; } uint16_t other_groupnum; memcpy(&other_groupnum, data, sizeof(uint16_t)); other_groupnum = net_ntohs(other_groupnum); Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } const int index = friend_in_connections(g, friendcon_id); if (index == -1) { return -1; } if (g->connections[index].type == GROUPCHAT_CONNECTION_ONLINE) { return -1; } if (count_connected(g) == 0 || (g->connections[index].reasons & GROUPCHAT_CONNECTION_REASON_INTRODUCER) != 0) { send_peer_query(g_c, friendcon_id, other_groupnum); } g->connections[index].group_number = other_groupnum; g->connections[index].type = GROUPCHAT_CONNECTION_ONLINE; send_packet_online(g_c->fr_c, friendcon_id, groupnumber, g->type, g->id); if ((g->connections[index].reasons & GROUPCHAT_CONNECTION_REASON_INTRODUCING) != 0) { uint8_t real_pk[CRYPTO_PUBLIC_KEY_SIZE]; uint8_t temp_pk[CRYPTO_PUBLIC_KEY_SIZE]; get_friendcon_public_keys(real_pk, temp_pk, g_c->fr_c, friendcon_id); const int peer_index = peer_in_group(g, real_pk); if (peer_index != -1) { group_new_peer_send(g_c, groupnumber, g->group[peer_index].peer_number, real_pk, temp_pk); } g->need_send_name = true; } ping_groupchat(g_c, groupnumber); return 0; } non_null(1, 3) nullable(5) static int handle_packet_rejoin(Group_Chats *g_c, int friendcon_id, const uint8_t *data, uint16_t length, void *userdata) { if (length < 1 + GROUP_ID_LENGTH) { return -1; } const int32_t groupnum = get_group_num(g_c, *data, data + 1); Group_c *g = get_group_c(g_c, groupnum); if (g == nullptr) { return -1; } uint8_t real_pk[CRYPTO_PUBLIC_KEY_SIZE]; uint8_t temp_pk[CRYPTO_PUBLIC_KEY_SIZE]; get_friendcon_public_keys(real_pk, temp_pk, g_c->fr_c, friendcon_id); uint16_t peer_number; if (!get_peer_number(g, real_pk, &peer_number)) { return -1; } addpeer(g_c, groupnum, real_pk, temp_pk, peer_number, userdata, true, true); const int connection_index = add_conn_to_groupchat(g_c, friendcon_id, g, GROUPCHAT_CONNECTION_REASON_INTRODUCING, true); if (connection_index != -1) { send_packet_online(g_c->fr_c, friendcon_id, groupnum, g->type, g->id); } return 0; } // we could send title with invite, but then if it changes between sending and accepting inv, joinee won't see it /** * @retval true on success. * @retval false on failure */ static bool send_peer_introduced(const Group_Chats *g_c, int friendcon_id, uint16_t group_num) { uint8_t packet[1]; packet[0] = PEER_INTRODUCED_ID; return send_packet_group_peer(g_c->fr_c, friendcon_id, PACKET_ID_DIRECT_CONFERENCE, group_num, packet, sizeof(packet)); } /** * @retval true on success. * @retval false on failure */ static bool send_peer_query(const Group_Chats *g_c, int friendcon_id, uint16_t group_num) { uint8_t packet[1]; packet[0] = PEER_QUERY_ID; return send_packet_group_peer(g_c->fr_c, friendcon_id, PACKET_ID_DIRECT_CONFERENCE, group_num, packet, sizeof(packet)); } /** * @return number of peers sent on success. * @retval 0 on failure. */ non_null() static unsigned int send_peers(const Group_Chats *g_c, const Group_c *g, int friendcon_id, uint16_t group_num) { uint8_t response_packet[MAX_CRYPTO_DATA_SIZE - (1 + sizeof(uint16_t))]; response_packet[0] = PEER_RESPONSE_ID; uint8_t *p = response_packet + 1; uint16_t sent = 0; for (uint32_t i = 0; i <= g->numpeers; ++i) { if (i == g->numpeers || (p - response_packet) + sizeof(uint16_t) + CRYPTO_PUBLIC_KEY_SIZE * 2 + 1 + g->group[i].nick_len > sizeof(response_packet)) { if (send_packet_group_peer(g_c->fr_c, friendcon_id, PACKET_ID_DIRECT_CONFERENCE, group_num, response_packet, p - response_packet)) { sent = i; } else { return sent; } if (i == g->numpeers) { break; } p = response_packet + 1; } const uint16_t peer_num = net_htons(g->group[i].peer_number); memcpy(p, &peer_num, sizeof(peer_num)); p += sizeof(peer_num); memcpy(p, g->group[i].real_pk, CRYPTO_PUBLIC_KEY_SIZE); p += CRYPTO_PUBLIC_KEY_SIZE; memcpy(p, g->group[i].temp_pk, CRYPTO_PUBLIC_KEY_SIZE); p += CRYPTO_PUBLIC_KEY_SIZE; *p = g->group[i].nick_len; p += 1; memcpy(p, g->group[i].nick, g->group[i].nick_len); p += g->group[i].nick_len; } if (g->title_len > 0) { const uint32_t title_packet_size = 1 + g->title_len; VLA(uint8_t, title_packet, title_packet_size); title_packet[0] = PEER_TITLE_ID; memcpy(title_packet + 1, g->title, g->title_len); send_packet_group_peer(g_c->fr_c, friendcon_id, PACKET_ID_DIRECT_CONFERENCE, group_num, title_packet, title_packet_size); } return sent; } non_null(1, 3) nullable(5) static int handle_send_peers(Group_Chats *g_c, uint32_t groupnumber, const uint8_t *data, uint16_t length, void *userdata) { if (length == 0) { return -1; } Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } const uint8_t *d = data; while ((unsigned int)(length - (d - data)) >= sizeof(uint16_t) + CRYPTO_PUBLIC_KEY_SIZE * 2 + 1) { uint16_t peer_num; memcpy(&peer_num, d, sizeof(peer_num)); peer_num = net_ntohs(peer_num); d += sizeof(uint16_t); if (g->status == GROUPCHAT_STATUS_VALID && pk_equal(d, nc_get_self_public_key(g_c->m->net_crypto))) { g->peer_number = peer_num; g->status = GROUPCHAT_STATUS_CONNECTED; if (g_c->connected_callback != nullptr) { g_c->connected_callback(g_c->m, groupnumber, userdata); } g->need_send_name = true; } const int peer_index = addpeer(g_c, groupnumber, d, d + CRYPTO_PUBLIC_KEY_SIZE, peer_num, userdata, false, true); if (peer_index == -1) { return -1; } d += CRYPTO_PUBLIC_KEY_SIZE * 2; const uint8_t name_length = *d; d += 1; if (name_length > (length - (d - data)) || name_length > MAX_NAME_LENGTH) { return -1; } if (!g->group[peer_index].nick_updated) { setnick(g_c, groupnumber, peer_index, d, name_length, userdata, true); } d += name_length; } return 0; } non_null(1, 3) nullable(6) static void handle_direct_packet(Group_Chats *g_c, uint32_t groupnumber, const uint8_t *data, uint16_t length, uint32_t connection_index, void *userdata) { if (length == 0) { return; } Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return; } switch (data[0]) { case PEER_INTRODUCED_ID: { remove_connection_reason(g_c, g, connection_index, GROUPCHAT_CONNECTION_REASON_INTRODUCING); break; } case PEER_QUERY_ID: { if (g->connections[connection_index].type != GROUPCHAT_CONNECTION_ONLINE) { return; } send_peers(g_c, g, g->connections[connection_index].number, g->connections[connection_index].group_number); break; } case PEER_RESPONSE_ID: { handle_send_peers(g_c, groupnumber, data + 1, length - 1, userdata); break; } case PEER_TITLE_ID: { if (!g->title_fresh) { settitle(g_c, groupnumber, -1, data + 1, length - 1, userdata); } break; } } } /** @brief Send message to all connections except receiver (if receiver isn't -1) * * NOTE: this function appends the group chat number to the data passed to it. * * @return number of messages sent. */ non_null() static unsigned int send_message_all_connections(const Group_Chats *g_c, const Group_c *g, const uint8_t *data, uint16_t length, int receiver) { uint16_t sent = 0; for (uint16_t i = 0; i < MAX_GROUP_CONNECTIONS; ++i) { if (g->connections[i].type != GROUPCHAT_CONNECTION_ONLINE) { continue; } if ((int)i == receiver) { continue; } if (send_packet_group_peer(g_c->fr_c, g->connections[i].number, PACKET_ID_MESSAGE_CONFERENCE, g->connections[i].group_number, data, length)) { ++sent; } } return sent; } /** @brief Send lossy message to all connections except receiver (if receiver isn't -1) * * NOTE: this function appends the group chat number to the data passed to it. * * @return number of messages sent. */ non_null() static unsigned int send_lossy_all_connections(const Group_Chats *g_c, const Group_c *g, const uint8_t *data, uint16_t length, int receiver) { unsigned int sent = 0; unsigned int num_connected_closest = 0; unsigned int connected_closest[DESIRED_CLOSEST] = {0}; for (unsigned int i = 0; i < MAX_GROUP_CONNECTIONS; ++i) { if (g->connections[i].type != GROUPCHAT_CONNECTION_ONLINE) { continue; } if ((int)i == receiver) { continue; } if ((g->connections[i].reasons & GROUPCHAT_CONNECTION_REASON_CLOSEST) != 0) { connected_closest[num_connected_closest] = i; ++num_connected_closest; continue; } if (send_lossy_group_peer(g_c->fr_c, g->connections[i].number, PACKET_ID_LOSSY_CONFERENCE, g->connections[i].group_number, data, length)) { ++sent; } } if (num_connected_closest == 0) { return sent; } unsigned int to_send[2] = {0, 0}; uint64_t comp_val_old[2] = {(uint64_t) -1, (uint64_t) -1}; for (unsigned int i = 0; i < num_connected_closest; ++i) { uint8_t real_pk[CRYPTO_PUBLIC_KEY_SIZE] = {0}; get_friendcon_public_keys(real_pk, nullptr, g_c->fr_c, g->connections[connected_closest[i]].number); const uint64_t comp_val = calculate_comp_value(g->real_pk, real_pk); for (uint8_t j = 0; j < 2; ++j) { if (j > 0 ? (comp_val > comp_val_old[j]) : (comp_val < comp_val_old[j])) { to_send[j] = connected_closest[i]; comp_val_old[j] = comp_val; } } } for (uint8_t j = 0; j < 2; ++j) { if (j > 0 && to_send[1] == to_send[0]) { break; } if (send_lossy_group_peer(g_c->fr_c, g->connections[to_send[j]].number, PACKET_ID_LOSSY_CONFERENCE, g->connections[to_send[j]].group_number, data, length)) { ++sent; } } return sent; } /** @brief Send data of len with message_id to groupnumber. * * @return number of peers it was sent to on success. * @retval -1 if groupnumber is invalid. * @retval -2 if message is too long. * @retval -3 if we are not connected to the group. * @retval -4 if message failed to send. */ static int send_message_group(const Group_Chats *g_c, uint32_t groupnumber, uint8_t message_id, const uint8_t *data, uint16_t len) { assert(len == 0 || data != nullptr); Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } if (len > MAX_GROUP_MESSAGE_DATA_LEN) { return -2; } if (g->status != GROUPCHAT_STATUS_CONNECTED || count_connected(g) == 0) { return -3; } const uint16_t packet_size = sizeof(uint16_t) + sizeof(uint32_t) + 1 + len; VLA(uint8_t, packet, packet_size); const uint16_t peer_num = net_htons(g->peer_number); memcpy(packet, &peer_num, sizeof(peer_num)); ++g->message_number; if (g->message_number == 0) { ++g->message_number; } const uint32_t message_num = net_htonl(g->message_number); memcpy(packet + sizeof(uint16_t), &message_num, sizeof(message_num)); packet[sizeof(uint16_t) + sizeof(uint32_t)] = message_id; if (len != 0) { memcpy(packet + sizeof(uint16_t) + sizeof(uint32_t) + 1, data, len); } const unsigned int ret = send_message_all_connections(g_c, g, packet, packet_size, -1); if (ret == 0) { return -4; } return ret; } /** @brief send a group message * @retval 0 on success * @see send_message_group for error codes. */ int group_message_send(const Group_Chats *g_c, uint32_t groupnumber, const uint8_t *message, uint16_t length) { const int ret = send_message_group(g_c, groupnumber, PACKET_ID_MESSAGE, message, length); if (ret > 0) { return 0; } return ret; } /** @brief send a group action * @retval 0 on success * @see send_message_group for error codes. */ int group_action_send(const Group_Chats *g_c, uint32_t groupnumber, const uint8_t *action, uint16_t length) { const int ret = send_message_group(g_c, groupnumber, PACKET_ID_ACTION, action, length); if (ret > 0) { return 0; } return ret; } /** @brief High level function to send custom lossy packets. * * @retval -1 on failure. * @retval 0 on success. */ int send_group_lossy_packet(const Group_Chats *g_c, uint32_t groupnumber, const uint8_t *data, uint16_t length) { // TODO(irungentoo): length check here? Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } const uint16_t packet_size = sizeof(uint16_t) * 2 + length; VLA(uint8_t, packet, packet_size); const uint16_t peer_number = net_htons(g->peer_number); memcpy(packet, &peer_number, sizeof(uint16_t)); const uint16_t message_num = net_htons(g->lossy_message_number); memcpy(packet + sizeof(uint16_t), &message_num, sizeof(uint16_t)); memcpy(packet + sizeof(uint16_t) * 2, data, length); if (send_lossy_all_connections(g_c, g, packet, packet_size, -1) == 0) { return -1; } ++g->lossy_message_number; return 0; } non_null() static Message_Info *find_message_slot_or_reject(uint32_t message_number, uint8_t message_id, Group_Peer *peer) { const bool ignore_older = message_id == GROUP_MESSAGE_NAME_ID || message_id == GROUP_MESSAGE_TITLE_ID; Message_Info *i; for (i = peer->last_message_infos; i < peer->last_message_infos + peer->num_last_message_infos; ++i) { if (message_number - (i->message_number + 1) <= ((uint32_t)1 << 31)) { break; } if (message_number == i->message_number) { return nullptr; } if (ignore_older && message_id == i->message_id) { return nullptr; } } return i; } /** @brief Stores message info in `peer->last_message_infos`. * * @retval true if message should be processed. * @retval false otherwise. */ non_null() static bool check_message_info(uint32_t message_number, uint8_t message_id, Group_Peer *peer) { Message_Info *const i = find_message_slot_or_reject(message_number, message_id, peer); if (i == nullptr) { return false; } if (i == peer->last_message_infos + MAX_LAST_MESSAGE_INFOS) { return false; } if (peer->num_last_message_infos < MAX_LAST_MESSAGE_INFOS) { ++peer->num_last_message_infos; } memmove(i + 1, i, (&peer->last_message_infos[peer->num_last_message_infos - 1] - i) * sizeof(Message_Info)); i->message_number = message_number; i->message_id = message_id; return true; } non_null(1, 3) nullable(6) static void handle_message_packet_group(Group_Chats *g_c, uint32_t groupnumber, const uint8_t *data, uint16_t length, uint32_t connection_index, void *userdata) { if (length < sizeof(uint16_t) + sizeof(uint32_t) + 1) { return; } Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return; } uint16_t peer_number; memcpy(&peer_number, data, sizeof(uint16_t)); peer_number = net_ntohs(peer_number); uint32_t message_number; memcpy(&message_number, data + sizeof(uint16_t), sizeof(message_number)); message_number = net_ntohl(message_number); const uint8_t message_id = data[sizeof(uint16_t) + sizeof(message_number)]; const uint8_t *msg_data = data + sizeof(uint16_t) + sizeof(message_number) + 1; const uint16_t msg_data_len = length - (sizeof(uint16_t) + sizeof(message_number) + 1); const bool ignore_frozen = message_id == GROUP_MESSAGE_FREEZE_PEER_ID; const int index = ignore_frozen ? get_peer_index(g, peer_number) : note_peer_active(g_c, groupnumber, peer_number, userdata); if (index == -1) { if (ignore_frozen) { return; } if (g->connections[connection_index].type != GROUPCHAT_CONNECTION_ONLINE) { return; } /* If we don't know the peer this packet came from, then we query the * list of peers from the relaying peer. * (They wouldn't have relayed it if they didn't know the peer.) */ send_peer_query(g_c, g->connections[connection_index].number, g->connections[connection_index].group_number); return; } if (g->num_introducer_connections > 0 && count_connected(g) > DESIRED_CLOSEST) { for (uint32_t i = 0; i < MAX_GROUP_CONNECTIONS; ++i) { if (g->connections[i].type == GROUPCHAT_CONNECTION_NONE || (g->connections[i].reasons & GROUPCHAT_CONNECTION_REASON_INTRODUCER) == 0 || i == connection_index) { continue; } uint8_t real_pk[CRYPTO_PUBLIC_KEY_SIZE]; get_friendcon_public_keys(real_pk, nullptr, g_c->fr_c, g->connections[i].number); if (pk_equal(g->group[index].real_pk, real_pk)) { /* Received message from peer relayed via another peer, so * the introduction was successful */ remove_connection_reason(g_c, g, i, GROUPCHAT_CONNECTION_REASON_INTRODUCER); } } } if (!check_message_info(message_number, message_id, &g->group[index])) { return; } uint8_t real_pk[CRYPTO_PUBLIC_KEY_SIZE]; get_friendcon_public_keys(real_pk, nullptr, g_c->fr_c, g->connections[connection_index].number); const bool direct_from_sender = pk_equal(g->group[index].real_pk, real_pk); switch (message_id) { case GROUP_MESSAGE_PING_ID: { break; } case GROUP_MESSAGE_NEW_PEER_ID: { if (msg_data_len != GROUP_MESSAGE_NEW_PEER_LENGTH) { return; } uint16_t new_peer_number; memcpy(&new_peer_number, msg_data, sizeof(uint16_t)); new_peer_number = net_ntohs(new_peer_number); addpeer(g_c, groupnumber, msg_data + sizeof(uint16_t), msg_data + sizeof(uint16_t) + CRYPTO_PUBLIC_KEY_SIZE, new_peer_number, userdata, true, true); break; } case GROUP_MESSAGE_KILL_PEER_ID: case GROUP_MESSAGE_FREEZE_PEER_ID: { if (msg_data_len != GROUP_MESSAGE_KILL_PEER_LENGTH) { return; } uint16_t kill_peer_number; memcpy(&kill_peer_number, msg_data, sizeof(uint16_t)); kill_peer_number = net_ntohs(kill_peer_number); if (peer_number == kill_peer_number) { if (message_id == GROUP_MESSAGE_KILL_PEER_ID) { delpeer(g_c, groupnumber, index, userdata); } else { freeze_peer(g_c, groupnumber, index, userdata); } } else { return; // TODO(irungentoo): } break; } case GROUP_MESSAGE_NAME_ID: { if (!setnick(g_c, groupnumber, index, msg_data, msg_data_len, userdata, true)) { return; } break; } case GROUP_MESSAGE_TITLE_ID: { if (!settitle(g_c, groupnumber, index, msg_data, msg_data_len, userdata)) { return; } break; } case PACKET_ID_MESSAGE: { if (msg_data_len == 0) { return; } VLA(uint8_t, newmsg, msg_data_len + 1); memcpy(newmsg, msg_data, msg_data_len); newmsg[msg_data_len] = 0; // TODO(irungentoo): if (g_c->message_callback != nullptr) { g_c->message_callback(g_c->m, groupnumber, index, 0, newmsg, msg_data_len, userdata); } break; } case PACKET_ID_ACTION: { if (msg_data_len == 0) { return; } VLA(uint8_t, newmsg, msg_data_len + 1); memcpy(newmsg, msg_data, msg_data_len); newmsg[msg_data_len] = 0; // TODO(irungentoo): if (g_c->message_callback != nullptr) { g_c->message_callback(g_c->m, groupnumber, index, 1, newmsg, msg_data_len, userdata); } break; } default: { return; } } /* If the packet was received from the peer who sent the message, relay it * back. When the sender only has one group connection (e.g. because there * are only two peers in the group), this is the only way for them to * receive their own message. */ send_message_all_connections(g_c, g, data, length, direct_from_sender ? -1 : connection_index); } static int g_handle_packet(void *object, int friendcon_id, const uint8_t *data, uint16_t length, void *userdata) { Group_Chats *g_c = (Group_Chats *)object; if (length < 1 + sizeof(uint16_t) + 1) { return -1; } if (data[0] == PACKET_ID_ONLINE_PACKET) { return handle_packet_online(g_c, friendcon_id, data + 1, length - 1); } if (data[0] == PACKET_ID_REJOIN_CONFERENCE) { return handle_packet_rejoin(g_c, friendcon_id, data + 1, length - 1, userdata); } uint16_t groupnumber; memcpy(&groupnumber, data + 1, sizeof(uint16_t)); groupnumber = net_ntohs(groupnumber); const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } const int index = friend_in_connections(g, friendcon_id); if (index == -1) { return -1; } if (data[0] == PACKET_ID_DIRECT_CONFERENCE) { handle_direct_packet(g_c, groupnumber, data + 1 + sizeof(uint16_t), length - (1 + sizeof(uint16_t)), index, userdata); return 0; } if (data[0] == PACKET_ID_MESSAGE_CONFERENCE) { handle_message_packet_group(g_c, groupnumber, data + 1 + sizeof(uint16_t), length - (1 + sizeof(uint16_t)), index, userdata); return 0; } return -1; } /** @brief Did we already receive the lossy packet or not. * * @retval -1 on failure. * @retval 0 if packet was not received. * @retval 1 if packet was received. * * TODO(irungentoo): test this */ non_null() static int lossy_packet_not_received(const Group_c *g, int peer_index, uint16_t message_number) { if (peer_index == -1) { return -1; } if (g->group[peer_index].bottom_lossy_number == g->group[peer_index].top_lossy_number) { g->group[peer_index].top_lossy_number = message_number; g->group[peer_index].bottom_lossy_number = (message_number - MAX_LOSSY_COUNT) + 1; g->group[peer_index].recv_lossy[message_number % MAX_LOSSY_COUNT] = 1; return 0; } if ((uint16_t)(message_number - g->group[peer_index].bottom_lossy_number) < MAX_LOSSY_COUNT) { if (g->group[peer_index].recv_lossy[message_number % MAX_LOSSY_COUNT] != 0) { return 1; } g->group[peer_index].recv_lossy[message_number % MAX_LOSSY_COUNT] = 1; return 0; } if ((uint16_t)(message_number - g->group[peer_index].bottom_lossy_number) > (1 << 15)) { return -1; } const uint16_t top_distance = message_number - g->group[peer_index].top_lossy_number; if (top_distance >= MAX_LOSSY_COUNT) { crypto_memzero(g->group[peer_index].recv_lossy, sizeof(g->group[peer_index].recv_lossy)); } else { // top_distance < MAX_LOSSY_COUNT for (unsigned int i = g->group[peer_index].bottom_lossy_number; i != g->group[peer_index].bottom_lossy_number + top_distance; ++i) { g->group[peer_index].recv_lossy[i % MAX_LOSSY_COUNT] = 0; } } g->group[peer_index].top_lossy_number = message_number; g->group[peer_index].bottom_lossy_number = (message_number - MAX_LOSSY_COUNT) + 1; g->group[peer_index].recv_lossy[message_number % MAX_LOSSY_COUNT] = 1; return 0; } /** Does this group type make use of lossy packets? */ static bool type_uses_lossy(uint8_t type) { return type == GROUPCHAT_TYPE_AV; } static int handle_lossy(void *object, int friendcon_id, const uint8_t *data, uint16_t length, void *userdata) { const Group_Chats *g_c = (const Group_Chats *)object; if (data[0] != PACKET_ID_LOSSY_CONFERENCE) { return -1; } if (length < 1 + sizeof(uint16_t) * 3 + 1) { return -1; } uint16_t groupnumber; uint16_t peer_number; uint16_t message_number; memcpy(&groupnumber, data + 1, sizeof(uint16_t)); memcpy(&peer_number, data + 1 + sizeof(uint16_t), sizeof(uint16_t)); memcpy(&message_number, data + 1 + sizeof(uint16_t) * 2, sizeof(uint16_t)); groupnumber = net_ntohs(groupnumber); peer_number = net_ntohs(peer_number); message_number = net_ntohs(message_number); const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } if (!type_uses_lossy(g->type)) { return -1; } const int index = friend_in_connections(g, friendcon_id); if (index == -1) { return -1; } if (peer_number == g->peer_number) { return -1; } const int peer_index = get_peer_index(g, peer_number); if (peer_index == -1) { return -1; } if (lossy_packet_not_received(g, peer_index, message_number) != 0) { return -1; } const uint8_t *lossy_data = data + 1 + sizeof(uint16_t) * 3; uint16_t lossy_length = length - (1 + sizeof(uint16_t) * 3); const uint8_t message_id = lossy_data[0]; ++lossy_data; --lossy_length; send_lossy_all_connections(g_c, g, data + 1 + sizeof(uint16_t), length - (1 + sizeof(uint16_t)), index); if (g_c->lossy_packethandlers[message_id] == nullptr) { return -1; } if (g_c->lossy_packethandlers[message_id](g->object, groupnumber, peer_index, g->group[peer_index].object, lossy_data, lossy_length) == -1) { return -1; } return 0; } /** @brief Set the object that is tied to the group chat. * * @retval 0 on success. * @retval -1 on failure */ int group_set_object(const Group_Chats *g_c, uint32_t groupnumber, void *object) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } g->object = object; return 0; } /** @brief Set the object that is tied to the group peer. * * @retval 0 on success. * @retval -1 on failure */ int group_peer_set_object(const Group_Chats *g_c, uint32_t groupnumber, uint32_t peernumber, void *object) { const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return -1; } if (peernumber >= g->numpeers) { return -1; } g->group[peernumber].object = object; return 0; } /** @brief Return the object tied to the group chat previously set by group_set_object. * * @retval NULL on failure. * @return object on success. */ void *group_get_object(const Group_Chats *g_c, uint32_t groupnumber) { const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return nullptr; } return g->object; } /** @brief Return the object tied to the group chat peer previously set by group_peer_set_object. * * @retval NULL on failure. * @return object on success. */ void *group_peer_get_object(const Group_Chats *g_c, uint32_t groupnumber, uint32_t peernumber) { const Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return nullptr; } if (peernumber >= g->numpeers) { return nullptr; } return g->group[peernumber].object; } /** Interval in seconds to send ping messages */ #define GROUP_PING_INTERVAL 20 static bool ping_groupchat(const Group_Chats *g_c, uint32_t groupnumber) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return false; } if (mono_time_is_timeout(g_c->mono_time, g->last_sent_ping, GROUP_PING_INTERVAL)) { if (group_ping_send(g_c, groupnumber)) { g->last_sent_ping = mono_time_get(g_c->mono_time); } } return true; } /** Seconds of inactivity after which to freeze a peer */ #define FREEZE_TIMEOUT (GROUP_PING_INTERVAL * 3) non_null(1) nullable(3) static bool groupchat_freeze_timedout(Group_Chats *g_c, uint32_t groupnumber, void *userdata) { Group_c *g = get_group_c(g_c, groupnumber); if (g == nullptr) { return false; } for (uint32_t i = 0; i < g->numpeers; ++i) { if (g->group[i].peer_number == g->peer_number) { continue; } if (mono_time_is_timeout(g_c->mono_time, g->group[i].last_active, FREEZE_TIMEOUT)) { freeze_peer(g_c, groupnumber, i, userdata); } } if (g->numpeers <= 1) { g->title_fresh = false; } return true; } /** Push non-empty slots to start. */ non_null() static void squash_connections(Group_c *g) { uint16_t num_connected = 0; for (uint16_t i = 0; i < MAX_GROUP_CONNECTIONS; ++i) { if (g->connections[i].type != GROUPCHAT_CONNECTION_NONE) { g->connections[num_connected] = g->connections[i]; ++num_connected; } } for (uint16_t i = num_connected; i < MAX_GROUP_CONNECTIONS; ++i) { g->connections[i].type = GROUPCHAT_CONNECTION_NONE; } } #define MIN_EMPTY_CONNECTIONS (1 + MAX_GROUP_CONNECTIONS / 10) non_null() static uint16_t empty_connection_count(const Group_c *g) { uint16_t to_clear = MIN_EMPTY_CONNECTIONS; for (uint16_t i = 0; i < MAX_GROUP_CONNECTIONS; ++i) { if (g->connections[i].type == GROUPCHAT_CONNECTION_NONE) { --to_clear; if (to_clear == 0) { break; } } } return to_clear; } /** * @brief Remove old connections as necessary to ensure we have space for new * connections. * * This invalidates connections array indices (which is * why we do this periodically rather than on adding a connection). */ non_null() static void clean_connections(Group_Chats *g_c, Group_c *g) { for (uint16_t to_clear = empty_connection_count(g); to_clear > 0; --to_clear) { // Remove a connection. Prefer non-closest connections, and given // that prefer non-online connections, and given that prefer earlier // slots. uint16_t i = 0; while (i < MAX_GROUP_CONNECTIONS && (g->connections[i].type != GROUPCHAT_CONNECTION_CONNECTING || (g->connections[i].reasons & GROUPCHAT_CONNECTION_REASON_CLOSEST) != 0)) { ++i; } if (i == MAX_GROUP_CONNECTIONS) { i = 0; while (i < MAX_GROUP_CONNECTIONS - to_clear && (g->connections[i].type != GROUPCHAT_CONNECTION_ONLINE || (g->connections[i].reasons & GROUPCHAT_CONNECTION_REASON_CLOSEST) != 0)) { ++i; } } if (g->connections[i].type != GROUPCHAT_CONNECTION_NONE) { remove_connection(g_c, g, i); } } squash_connections(g); } /** Send current name (set in messenger) to all online groups. */ void send_name_all_groups(const Group_Chats *g_c) { for (uint16_t i = 0; i < g_c->num_chats; ++i) { Group_c *g = get_group_c(g_c, i); if (g == nullptr) { continue; } if (g->status == GROUPCHAT_STATUS_CONNECTED) { group_name_send(g_c, i, g_c->m->name, g_c->m->name_length); g->need_send_name = false; } } } #define SAVED_PEER_SIZE_CONSTANT (2 * CRYPTO_PUBLIC_KEY_SIZE + sizeof(uint16_t) + sizeof(uint64_t) + 1) non_null() static uint32_t saved_peer_size(const Group_Peer *peer) { return SAVED_PEER_SIZE_CONSTANT + peer->nick_len; } non_null() static uint8_t *save_peer(const Group_Peer *peer, uint8_t *data) { memcpy(data, peer->real_pk, CRYPTO_PUBLIC_KEY_SIZE); data += CRYPTO_PUBLIC_KEY_SIZE; memcpy(data, peer->temp_pk, CRYPTO_PUBLIC_KEY_SIZE); data += CRYPTO_PUBLIC_KEY_SIZE; host_to_lendian_bytes16(data, peer->peer_number); data += sizeof(uint16_t); host_to_lendian_bytes64(data, peer->last_active); data += sizeof(uint64_t); // TODO(iphydf): This looks broken: nick_len can be > 255. *data = peer->nick_len; ++data; memcpy(data, peer->nick, peer->nick_len); data += peer->nick_len; return data; } #define SAVED_CONF_SIZE_CONSTANT (1 + GROUP_ID_LENGTH + sizeof(uint32_t) \ + sizeof(uint16_t) + sizeof(uint16_t) + sizeof(uint32_t) + 1) non_null() static uint32_t saved_conf_size(const Group_c *g) { uint32_t len = SAVED_CONF_SIZE_CONSTANT + g->title_len; for (uint32_t j = 0; j < g->numpeers + g->numfrozen; ++j) { const Group_Peer *peer = (j < g->numpeers) ? &g->group[j] : &g->frozen[j - g->numpeers]; if (pk_equal(peer->real_pk, g->real_pk)) { continue; } len += saved_peer_size(peer); } return len; } /** * Save a future message number. The save will remain valid until we have sent * this many more messages. */ #define SAVE_OFFSET_MESSAGE_NUMBER (1 << 16) #define SAVE_OFFSET_LOSSY_MESSAGE_NUMBER (1 << 13) non_null() static uint8_t *save_conf(const Group_c *g, uint8_t *data) { *data = g->type; ++data; memcpy(data, g->id, GROUP_ID_LENGTH); data += GROUP_ID_LENGTH; host_to_lendian_bytes32(data, g->message_number + SAVE_OFFSET_MESSAGE_NUMBER); data += sizeof(uint32_t); host_to_lendian_bytes16(data, g->lossy_message_number + SAVE_OFFSET_LOSSY_MESSAGE_NUMBER); data += sizeof(uint16_t); host_to_lendian_bytes16(data, g->peer_number); data += sizeof(uint16_t); uint8_t *const numsaved_location = data; data += sizeof(uint32_t); *data = g->title_len; ++data; memcpy(data, g->title, g->title_len); data += g->title_len; uint32_t numsaved = 0; for (uint32_t j = 0; j < g->numpeers + g->numfrozen; ++j) { const Group_Peer *peer = (j < g->numpeers) ? &g->group[j] : &g->frozen[j - g->numpeers]; if (pk_equal(peer->real_pk, g->real_pk)) { continue; } data = save_peer(peer, data); ++numsaved; } host_to_lendian_bytes32(numsaved_location, numsaved); return data; } non_null() static uint32_t conferences_section_size(const Group_Chats *g_c) { uint32_t len = 0; for (uint16_t i = 0; i < g_c->num_chats; ++i) { const Group_c *g = get_group_c(g_c, i); if (g == nullptr || g->status != GROUPCHAT_STATUS_CONNECTED) { continue; } len += saved_conf_size(g); } return len; } uint32_t conferences_size(const Group_Chats *g_c) { return 2 * sizeof(uint32_t) + conferences_section_size(g_c); } uint8_t *conferences_save(const Group_Chats *g_c, uint8_t *data) { const uint32_t len = conferences_section_size(g_c); data = state_write_section_header(data, STATE_COOKIE_TYPE, len, STATE_TYPE_CONFERENCES); for (uint16_t i = 0; i < g_c->num_chats; ++i) { const Group_c *g = get_group_c(g_c, i); if (g == nullptr || g->status != GROUPCHAT_STATUS_CONNECTED) { continue; } data = save_conf(g, data); } return data; } /** * @brief load_group Load a Group section from a save file * @param g Group to load * @param g_c Reference to all groupchats, need for utility functions * @param data Start of the data to deserialze * @param length Length of data * @return 0 on error, number of consumed bytes otherwise */ non_null() static uint32_t load_group(Group_c *g, const Group_Chats *g_c, const uint8_t *data, uint32_t length) { const uint8_t *init_data = data; // Initialize to default values so we can unconditionally free in case of an error setup_conference(g); g->type = *data; ++data; memcpy(g->id, data, GROUP_ID_LENGTH); data += GROUP_ID_LENGTH; lendian_bytes_to_host32(&g->message_number, data); data += sizeof(uint32_t); lendian_bytes_to_host16(&g->lossy_message_number, data); data += sizeof(uint16_t); lendian_bytes_to_host16(&g->peer_number, data); data += sizeof(uint16_t); lendian_bytes_to_host32(&g->numfrozen, data); data += sizeof(uint32_t); g->title_len = *data; if (g->title_len > MAX_NAME_LENGTH) { return 0; } ++data; assert((data - init_data) < UINT32_MAX); if (length < (uint32_t)(data - init_data) + g->title_len) { return 0; } memcpy(g->title, data, g->title_len); data += g->title_len; for (uint32_t j = 0; j < g->numfrozen; ++j) { assert((data - init_data) < UINT32_MAX); if (length < (uint32_t)(data - init_data) + SAVED_PEER_SIZE_CONSTANT) { return 0; } // This is inefficient, but allows us to check data consistency before allocating memory Group_Peer *tmp_frozen = (Group_Peer *)realloc(g->frozen, (j + 1) * sizeof(Group_Peer)); if (tmp_frozen == nullptr) { // Memory allocation failure return 0; } g->frozen = tmp_frozen; Group_Peer *peer = &g->frozen[j]; *peer = empty_group_peer; pk_copy(peer->real_pk, data); data += CRYPTO_PUBLIC_KEY_SIZE; pk_copy(peer->temp_pk, data); data += CRYPTO_PUBLIC_KEY_SIZE; lendian_bytes_to_host16(&peer->peer_number, data); data += sizeof(uint16_t); lendian_bytes_to_host64(&peer->last_active, data); data += sizeof(uint64_t); peer->nick_len = *data; if (peer->nick_len > MAX_NAME_LENGTH) { return 0; } ++data; assert((data - init_data) < UINT32_MAX); if (length < (uint32_t)(data - init_data) + peer->nick_len) { return 0; } memcpy(peer->nick, data, peer->nick_len); data += peer->nick_len; // NOTE: this relies on friends being loaded before conferences. peer->is_friend = getfriend_id(g_c->m, peer->real_pk) != -1; } if (g->numfrozen > g->maxfrozen) { g->maxfrozen = g->numfrozen; } g->status = GROUPCHAT_STATUS_CONNECTED; pk_copy(g->real_pk, nc_get_self_public_key(g_c->m->net_crypto)); assert((data - init_data) < UINT32_MAX); return (uint32_t)(data - init_data); } non_null() static State_Load_Status load_conferences_helper(Group_Chats *g_c, const uint8_t *data, uint32_t length) { const uint8_t *init_data = data; while (length >= (uint32_t)(data - init_data) + SAVED_CONF_SIZE_CONSTANT) { const int groupnumber = create_group_chat(g_c); // Helpful for testing assert(groupnumber != -1); if (groupnumber == -1) { // If this fails there's a serious problem, don't bother with cleanup LOGGER_ERROR(g_c->m->log, "conference creation failed"); return STATE_LOAD_STATUS_ERROR; } Group_c *g = &g_c->chats[groupnumber]; const uint32_t consumed = load_group(g, g_c, data, length - (uint32_t)(data - init_data)); if (consumed == 0) { // remove partially loaded stuff, wipe_group_chat must be able to wipe a partially loaded group const bool ret = wipe_group_chat(g_c, groupnumber); // HACK: suppress unused variable warning if (!ret) { // wipe_group_chat(...) must be able to wipe partially allocated groups assert(ret); } LOGGER_ERROR(g_c->m->log, "conference loading failed"); return STATE_LOAD_STATUS_ERROR; } data += consumed; const int peer_index = addpeer(g_c, groupnumber, g->real_pk, dht_get_self_public_key(g_c->m->dht), g->peer_number, nullptr, true, false); if (peer_index == -1) { LOGGER_ERROR(g_c->m->log, "adding peer %d failed", g->peer_number); return STATE_LOAD_STATUS_ERROR; } setnick(g_c, groupnumber, peer_index, g_c->m->name, g_c->m->name_length, nullptr, false); } return STATE_LOAD_STATUS_CONTINUE; } non_null() static State_Load_Status load_conferences(Group_Chats *g_c, const uint8_t *data, uint32_t length) { const State_Load_Status res = load_conferences_helper(g_c, data, length); if (res == STATE_LOAD_STATUS_CONTINUE) { return res; } // Loading failed, cleanup all Group_c // save locally, because wipe_group_chat(...) modifies it const uint16_t num_groups = g_c->num_chats; for (uint16_t i = 0; i < num_groups; ++i) { wipe_group_chat(g_c, i); } return res; } bool conferences_load_state_section(Group_Chats *g_c, const uint8_t *data, uint32_t length, uint16_t type, State_Load_Status *status) { if (type != STATE_TYPE_CONFERENCES) { return false; } *status = load_conferences(g_c, data, length); return true; } /** Create new groupchat instance. */ Group_Chats *new_groupchats(const Mono_Time *mono_time, Messenger *m) { if (m == nullptr) { return nullptr; } Group_Chats *temp = (Group_Chats *)calloc(1, sizeof(Group_Chats)); if (temp == nullptr) { return nullptr; } temp->mono_time = mono_time; temp->m = m; temp->fr_c = m->fr_c; m_callback_conference_invite(m, &handle_friend_invite_packet); set_global_status_callback(m->fr_c, &g_handle_any_status, temp); return temp; } /** main groupchats loop. */ void do_groupchats(Group_Chats *g_c, void *userdata) { for (uint16_t i = 0; i < g_c->num_chats; ++i) { Group_c *g = get_group_c(g_c, i); if (g == nullptr) { continue; } if (g->status == GROUPCHAT_STATUS_CONNECTED) { connect_to_closest(g_c, i, userdata); ping_groupchat(g_c, i); groupchat_freeze_timedout(g_c, i, userdata); clean_connections(g_c, g); if (g->need_send_name) { group_name_send(g_c, i, g_c->m->name, g_c->m->name_length); g->need_send_name = false; } } } // TODO(irungentoo): } /** Free everything related with group chats. */ void kill_groupchats(Group_Chats *g_c) { if (g_c == nullptr) { return; } for (uint16_t i = 0; i < g_c->num_chats; ++i) { del_groupchat(g_c, i, false); } m_callback_conference_invite(g_c->m, nullptr); set_global_status_callback(g_c->m->fr_c, nullptr, nullptr); g_c->m->conferences_object = nullptr; free(g_c); } /** * @brief Return the number of chats in the instance m. * * You should use this to determine how much memory to allocate * for copy_chatlist. */ uint32_t count_chatlist(const Group_Chats *g_c) { uint32_t ret = 0; for (uint16_t i = 0; i < g_c->num_chats; ++i) { if (g_c->chats[i].status != GROUPCHAT_STATUS_NONE) { ++ret; } } return ret; } /** @brief Copy a list of valid chat IDs into the array out_list. * * If out_list is NULL, returns 0. * Otherwise, returns the number of elements copied. * If the array was too small, the contents * of out_list will be truncated to list_size. */ uint32_t copy_chatlist(const Group_Chats *g_c, uint32_t *out_list, uint32_t list_size) { if (out_list == nullptr) { return 0; } if (g_c->num_chats == 0) { return 0; } uint32_t ret = 0; for (uint16_t i = 0; i < g_c->num_chats; ++i) { if (ret >= list_size) { break; /* Abandon ship */ } if (g_c->chats[i].status > GROUPCHAT_STATUS_NONE) { out_list[ret] = i; ++ret; } } return ret; }