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aae086cc65
tomato-testing/toxcore/group_connection.c
Green Sky aae086cc65 Squashed 'external/toxcore/c-toxcore/' changes from e2c01e457b..b03b571272 
b03b571272 fix: flaky tcp test This only fixes the symptoms, not the real problem. Sometimes or consistently on some platforms a socket might need a moment before it can be written to.
32e67ab4c2 cleanup: use typedef for private message ID's in callback
7b1db6adc1 feat: add message IDs to private group messages
99e0bcc27d refactor: Observers/ignored peers can now send and receive custom packets
b3c3c49d26 fix: Disable IPv6 in Windows cross-compilation tests
e742deddff feat: Check hashes of Windows dependencies when cross-compiling
dfb9a0b02b fix: Test the current Windows Dockerfile, not an old Dockerhub image
14de93ccec chore: Use WineHQ's Wine as Debian Bookworm's crashes
ed37616249 docs: Update the Windows cross-compilation section
9bb79c174f cleanup: Remove a couple of unnecessary misc_tools dependencies
19475adb70 chore: Statically link OpenMP into the cracker fun util on Windows
1be311e51f feat: Build the fun utils when cross-compiling to Windows
88133f8446 chore: Strip Windows binaries
3cc0ae7535 refactor: Copy over all of the required static dependencies
c4fa8f7fb1 feat: Generate .def, .exp and .lib files when building for Windows
74bbac5363 feat: Let CMake create the dll instead of doing so ourselves
246642e9ae feat: Harden Windows cross-compilation
8d431c0d11 chore: Bump Windows build dependency versions
e519f7998b fix: Remove unnecessary wsock32 dependency on Windows
ed2b60c217 chore: Use a specific non-broken slimcc version.
d7f21010a1 chore: Update github actions.
e71a68b7f2 docs: Update the list of CMake options
77e08876ff chore: Remove mod and founder from group API naming scheme
12bc042767 docs: add the experimental api build option to INSTALL.md
e1fa5cae96 refactor: Rename Queries to Query to align with other enums.
be82a3ea30 fix: Correct type for conference offline peer numbers.
0627c36716 test: Add pkgsrc build.
92578afe4b test: Add FreeBSD VM action on GitHub.
52ece0f57b test: Build toxcore on NetBSD (VM).
3fe8ee2c11 chore: Only install tox_private.h on request.
9a8dfa06ab fix: save_compatibility_test failing on big-endian systems
86f5e55578 fix: Don't serve files from websockify.
710eb674a5 fix: Correctly pass extended public keys to group moderation code.
021db7031c refactor: Use `struct`s for extended public/secret keys.
a1e999fd80 chore: Compile libsodium reference implementation with compcert.
fbe3c19cf5 cleanup: correct a few nullable annotations
623e3ee5c3 cleanup: Don't use `memcpy` to cast arbitrary `struct`s to `uint8_t[]`.
c71567dc18 fix: Pass array, not array pointer, to `memcmp`.
9b46a08144 cleanup: Never pass `void*` directly to `memcpy`.
5d7b7a7bbc refactor: Use tox rng to seed the keypair generation.
961891d568 cleanup: Small improvements found by PVS Studio.
8201019f0d chore: Disable NGC saving by default, enable through Tox_Options.
5dd9ee3f65 cleanup: Replace pointer arithmetic with explicit `&arr[i]`.
ca4606d49d refactor: Use strong typedef for NGC peer id.
442213b722 cleanup: Simplify custom packet length check in NGC.
08d3393def fix: Correct a few potential null derefs in bootstrap daemon.
b9877b32b0 fix: Add missing memunlock of local variable when it goes out of scope.
dab5fe44b9 fix: Zero out stack-allocated secret key before return.
f058103299 refactor: Make prune_gc_sanctions_list more obviously correct.
3ba7a0dec9 docs: Add static analysis tool list to README.
8d0811a0f3 docs: Run prettier-markdown on markdown files.
969e3a2bfc refactor: Fix network test not using the strong typedef
93c83fbc7c refactor: Use strong typedef instead of struct for `Socket`.
9fe18b176f fix: Fix some false positive from PVS Studio.
7c44379ccb cleanup: Check that WINXP macro exists before comparing it.
5c93231bef refactor: Make tox mutex non-recursive.
aacff73939 docs: Fix up doxyfile.
d55fc85ff5 docs: Add more documentation to crypto_core.
5bdaaaedb6 refactor: Remove `Tox *` from `tox_dispatch`.
e202341e76 refactor: Don't rely on tox_dispatch passing tox in tests.
34df938f52 chore: Use C++ mode for clang-tidy.
8b05296a78 chore: Check that both gtest and gmock exist for tests.
42010660e1 test: Add slimcc compiler compatibility test.
b473630321 chore: Add some comments to the astyle config.
b7404f24f6 cleanup: Remove implicit bool conversions.
4e2dba4d9f chore: Reformat sources with astyle.
4359e3a6bc chore: Rename C++ headers to .hh suffixes.
0c05566e58 cleanup: Further `#include` cleanups.
8d29935b7a chore: Only check the bootstrap daemon checksum on release.
f70e588bc6 cleanup: Add more `const` where possible.
511bfe39c8 cleanup: Use Bazel modules to enforce proper `#include` hygiene.
1710a0d091 refactor: Move pack/unpack `IP_Port` from DHT into network module.
a975943564 chore: Really fix coverage docker image build.
c08409390f chore: Fix post-submit coverage image.
39aadf8922 fix: Don't use `memcmp` to compare `IP_Port`s.
d94246a906 fix: partially fix a bug that prevented group part messages from sending.
eeaa039222 chore: Fix rpm build; add a CI check for it.
8328449c1a chore: Speed up docker builds a bit by reducing layer count.
d6d67d56f3 cleanup: Add `const` where possible in auto tests.
6aa9e6850d cleanup: Minor cleanup of event unpack code.
bdf460a3a9 refactor: Rename `system_{memory,...}` to `os_{memory,...}`.
203e1af81e fix: a few off by one errors in group autotests
5c093c4888 cleanup: Remove all uses of `SIZEOF_VLA`.
662c2140f3 test: Add goblint static analyser.
8f07755834 cleanup: Use `memzero(x, s)` instead of `memset(x, 0, s)`.
a7258e40cf cleanup: Use explicit 0 instead of `PACKET_ID_PADDING`.
6370d0f15d cleanup: Expand the `Tox_Options` accessor macros.
14a1a0b9bd cleanup: Remove plan9 support.
a05dccad13 test: Add a simple new/delete test for Tox.
1cdcf938b9 cleanup: Add comment after every `#endif`.
ba99d4dc4b test: Fix comment I broke in the events test PR.
e07248debb refactor: Migrate auto_tests to new events API.
bdd42b5452 refactor: Add common msgpack array packer with callback.
3c659f5288 cleanup: Rename group to conference in groupav documentation.
89957be230 cleanup: Ensure handler params are named after callback params.
c650d9d345 refactor: Pass `this` pointer as first param to s11n callbacks.
e7fb91ddb8 refactor: Allow NULL pointers for byte arrays in events.
5e2c8cabc1 cleanup: make some improvements to group moderation test
259de4867e cleanup: Remove `bin_pack_{new,free}`.
21a8ff5895 cleanup: skip a do_gc iteration before removing peers marked for deletion
16809dc36e feat: Add dht_get_nodes_response event to the events system.

git-subtree-dir: external/toxcore/c-toxcore
git-subtree-split: b03b5712720de9a9901ea12fd741f177327a7021
2024-03-07 23:12:55 +01:00

713 lines
23 KiB
C
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/* 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_connection.h"
#include <assert.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include "DHT.h"
#include "TCP_connection.h"
#include "attributes.h"
#include "ccompat.h"
#include "crypto_core.h"
#include "group_chats.h"
#include "group_common.h"
#include "logger.h"
#include "mono_time.h"
#include "network.h"
#include "util.h"
/** Seconds since last direct UDP packet was received before the connection is considered dead */
#define GCC_UDP_DIRECT_TIMEOUT (GC_PING_TIMEOUT + 4)
/** Returns true if array entry does not contain an active packet. */
non_null()
static bool array_entry_is_empty(const GC_Message_Array_Entry *array_entry)
{
assert(array_entry != nullptr);
return array_entry->time_added == 0;
}
/** @brief Clears an array entry. */
non_null()
static void clear_array_entry(GC_Message_Array_Entry *const array_entry)
{
free(array_entry->data);
*array_entry = (GC_Message_Array_Entry) {
nullptr
};
}
/**
* Clears every send array message from queue starting at the index designated by
* `start_id` and ending at `end_id`, and sets the send_message_id for `gconn`
* to `start_id`.
*/
non_null()
static void clear_send_queue_id_range(GC_Connection *gconn, uint64_t start_id, uint64_t end_id)
{
const uint16_t start_idx = gcc_get_array_index(start_id);
const uint16_t end_idx = gcc_get_array_index(end_id);
for (uint16_t i = start_idx; i != end_idx; i = (i + 1) % GCC_BUFFER_SIZE) {
GC_Message_Array_Entry *entry = &gconn->send_array[i];
clear_array_entry(entry);
}
gconn->send_message_id = start_id;
}
uint16_t gcc_get_array_index(uint64_t message_id)
{
return message_id % GCC_BUFFER_SIZE;
}
void gcc_set_send_message_id(GC_Connection *gconn, uint64_t id)
{
gconn->send_message_id = id;
gconn->send_array_start = id % GCC_BUFFER_SIZE;
}
void gcc_set_recv_message_id(GC_Connection *gconn, uint64_t id)
{
gconn->received_message_id = id;
}
/** @brief Puts packet data in array_entry.
*
* Requires an empty array entry to be passed, and must not modify the passed
* array entry on error.
*
* Return true on success.
*/
non_null(1, 2, 3) nullable(4)
static bool create_array_entry(const Logger *log, const Mono_Time *mono_time, GC_Message_Array_Entry *array_entry,
const uint8_t *data, uint16_t length, uint8_t packet_type, uint64_t message_id)
{
if (!array_entry_is_empty(array_entry)) {
LOGGER_WARNING(log, "Failed to create array entry; entry is not empty.");
return false;
}
if (length == 0) {
array_entry->data = nullptr;
array_entry->data_length = 0;
} else {
if (data == nullptr) { // should never happen
LOGGER_FATAL(log, "Got null data with non-zero length (length: %u, type %u)",
length, packet_type);
return false;
}
uint8_t *entry_data = (uint8_t *)malloc(length);
if (entry_data == nullptr) {
return false;
}
memcpy(entry_data, data, length);
array_entry->data = entry_data;
array_entry->data_length = length;
}
const uint64_t tm = mono_time_get(mono_time);
array_entry->packet_type = packet_type;
array_entry->message_id = message_id;
array_entry->time_added = tm;
array_entry->last_send_try = tm;
return true;
}
/** @brief Adds data of length to gconn's send_array.
*
* Returns true and increments gconn's send_message_id on success.
*/
non_null(1, 2, 3) nullable(4)
static bool add_to_send_array(const Logger *log, const Mono_Time *mono_time, GC_Connection *gconn, const uint8_t *data,
uint16_t length, uint8_t packet_type)
{
/* check if send_array is full */
if ((gconn->send_message_id % GCC_BUFFER_SIZE) == (uint16_t)(gconn->send_array_start - 1)) {
LOGGER_DEBUG(log, "Send array overflow");
return false;
}
const uint16_t idx = gcc_get_array_index(gconn->send_message_id);
GC_Message_Array_Entry *array_entry = &gconn->send_array[idx];
if (!create_array_entry(log, mono_time, array_entry, data, length, packet_type, gconn->send_message_id)) {
return false;
}
++gconn->send_message_id;
return true;
}
int gcc_send_lossless_packet(const GC_Chat *chat, GC_Connection *gconn, const uint8_t *data, uint16_t length,
uint8_t packet_type)
{
const uint64_t message_id = gconn->send_message_id;
if (!add_to_send_array(chat->log, chat->mono_time, gconn, data, length, packet_type)) {
LOGGER_WARNING(chat->log, "Failed to add payload to send array: (type: 0x%02x, length: %d)", packet_type, length);
return -1;
}
// If the packet fails to wrap/encrypt, we remove it from the send array, since trying to-resend
// the same bad packet probably won't help much. Otherwise we don't care if it doesn't successfully
// send through the wire as it will keep retrying until the connection times out.
if (gcc_encrypt_and_send_lossless_packet(chat, gconn, data, length, message_id, packet_type) == -1) {
const uint16_t idx = gcc_get_array_index(message_id);
GC_Message_Array_Entry *array_entry = &gconn->send_array[idx];
clear_array_entry(array_entry);
gconn->send_message_id = message_id;
LOGGER_ERROR(chat->log, "Failed to encrypt payload: (type: 0x%02x, length: %d)", packet_type, length);
return -2;
}
return 0;
}
bool gcc_send_lossless_packet_fragments(const GC_Chat *chat, GC_Connection *gconn, const uint8_t *data,
uint16_t length, uint8_t packet_type)
{
if (length <= MAX_GC_PACKET_CHUNK_SIZE || data == nullptr) {
LOGGER_FATAL(chat->log, "invalid length or null data pointer");
return false;
}
const uint16_t start_id = gconn->send_message_id;
// First packet segment is comprised of packet type + first chunk of payload
uint8_t chunk[MAX_GC_PACKET_CHUNK_SIZE];
chunk[0] = packet_type;
memcpy(chunk + 1, data, MAX_GC_PACKET_CHUNK_SIZE - 1);
if (!add_to_send_array(chat->log, chat->mono_time, gconn, chunk, MAX_GC_PACKET_CHUNK_SIZE, GP_FRAGMENT)) {
return false;
}
uint16_t processed = MAX_GC_PACKET_CHUNK_SIZE - 1;
// The rest of the segments are added in chunks
while (length > processed) {
const uint16_t chunk_len = min_u16(MAX_GC_PACKET_CHUNK_SIZE, length - processed);
memcpy(chunk, data + processed, chunk_len);
processed += chunk_len;
if (!add_to_send_array(chat->log, chat->mono_time, gconn, chunk, chunk_len, GP_FRAGMENT)) {
clear_send_queue_id_range(gconn, start_id, gconn->send_message_id);
return false;
}
}
// empty packet signals the end of the sequence
if (!add_to_send_array(chat->log, chat->mono_time, gconn, nullptr, 0, GP_FRAGMENT)) {
clear_send_queue_id_range(gconn, start_id, gconn->send_message_id);
return false;
}
const uint16_t start_idx = gcc_get_array_index(start_id);
const uint16_t end_idx = gcc_get_array_index(gconn->send_message_id);
for (uint16_t i = start_idx; i != end_idx; i = (i + 1) % GCC_BUFFER_SIZE) {
const GC_Message_Array_Entry *entry = &gconn->send_array[i];
if (array_entry_is_empty(entry)) {
LOGGER_FATAL(chat->log, "array entry for packet chunk is empty");
return false;
}
assert(entry->packet_type == GP_FRAGMENT);
gcc_encrypt_and_send_lossless_packet(chat, gconn, entry->data, entry->data_length,
entry->message_id, entry->packet_type);
}
return true;
}
bool gcc_handle_ack(const Logger *log, GC_Connection *gconn, uint64_t message_id)
{
uint16_t idx = gcc_get_array_index(message_id);
GC_Message_Array_Entry *array_entry = &gconn->send_array[idx];
if (array_entry_is_empty(array_entry)) {
return true;
}
if (array_entry->message_id != message_id) { // wrap-around indicates a connection problem
LOGGER_DEBUG(log, "Wrap-around on message %llu", (unsigned long long)message_id);
return false;
}
clear_array_entry(array_entry);
/* Put send_array_start in proper position */
if (idx == gconn->send_array_start) {
const uint16_t end = gconn->send_message_id % GCC_BUFFER_SIZE;
while (array_entry_is_empty(&gconn->send_array[idx]) && gconn->send_array_start != end) {
gconn->send_array_start = (gconn->send_array_start + 1) % GCC_BUFFER_SIZE;
idx = (idx + 1) % GCC_BUFFER_SIZE;
}
}
return true;
}
bool gcc_ip_port_is_set(const GC_Connection *gconn)
{
return ipport_isset(&gconn->addr.ip_port);
}
void gcc_set_ip_port(GC_Connection *gconn, const IP_Port *ipp)
{
if (ipp != nullptr && ipport_isset(ipp)) {
gconn->addr.ip_port = *ipp;
}
}
bool gcc_copy_tcp_relay(const Random *rng, Node_format *tcp_node, const GC_Connection *gconn)
{
if (gconn == nullptr || tcp_node == nullptr) {
return false;
}
if (gconn->tcp_relays_count == 0) {
return false;
}
const uint32_t rand_idx = random_range_u32(rng, gconn->tcp_relays_count);
if (!ipport_isset(&gconn->connected_tcp_relays[rand_idx].ip_port)) {
return false;
}
*tcp_node = gconn->connected_tcp_relays[rand_idx];
return true;
}
int gcc_save_tcp_relay(const Random *rng, GC_Connection *gconn, const Node_format *tcp_node)
{
if (gconn == nullptr || tcp_node == nullptr) {
return -1;
}
if (!ipport_isset(&tcp_node->ip_port)) {
return -1;
}
for (uint16_t i = 0; i < gconn->tcp_relays_count; ++i) {
if (pk_equal(gconn->connected_tcp_relays[i].public_key, tcp_node->public_key)) {
return -2;
}
}
uint32_t idx = gconn->tcp_relays_count;
if (gconn->tcp_relays_count >= MAX_FRIEND_TCP_CONNECTIONS) {
idx = random_range_u32(rng, gconn->tcp_relays_count);
} else {
++gconn->tcp_relays_count;
}
gconn->connected_tcp_relays[idx] = *tcp_node;
return 0;
}
/** @brief Stores `data` of length `length` in the receive array for `gconn`.
*
* Return true on success.
*/
non_null(1, 2, 3) nullable(4)
static bool store_in_recv_array(const Logger *log, const Mono_Time *mono_time, GC_Connection *gconn,
const uint8_t *data,
uint16_t length, uint8_t packet_type, uint64_t message_id)
{
const uint16_t idx = gcc_get_array_index(message_id);
GC_Message_Array_Entry *ary_entry = &gconn->recv_array[idx];
return create_array_entry(log, mono_time, ary_entry, data, length, packet_type, message_id);
}
/**
* Reassembles a fragmented packet sequence ending with the data in the receive
* array at slot `message_id - 1` and starting with the last found slot containing
* a GP_FRAGMENT packet when searching backwards in the array.
*
* The fully reassembled packet is stored in `payload`, which must be passed as a
* null pointer, and must be free'd by the caller.
*
* Return the length of the fully reassembled packet on success.
* Return 0 on failure.
*/
non_null(1, 3) nullable(2)
static uint16_t reassemble_packet(const Logger *log, GC_Connection *gconn, uint8_t **payload, uint64_t message_id)
{
uint16_t end_idx = gcc_get_array_index(message_id - 1);
uint16_t start_idx = end_idx;
uint16_t packet_length = 0;
GC_Message_Array_Entry *entry = &gconn->recv_array[end_idx];
// search backwards in recv array until we find an empty slot or a non-fragment packet type
while (!array_entry_is_empty(entry) && entry->packet_type == GP_FRAGMENT) {
assert(entry->data != nullptr);
assert(entry->data_length <= MAX_GC_PACKET_INCOMING_CHUNK_SIZE);
const uint16_t diff = packet_length + entry->data_length;
assert(diff > packet_length); // overflow check
packet_length = diff;
if (packet_length > MAX_GC_PACKET_SIZE) {
LOGGER_ERROR(log, "Payload of size %u exceeded max packet size", packet_length); // should never happen
return 0;
}
start_idx = start_idx > 0 ? start_idx - 1 : GCC_BUFFER_SIZE - 1;
entry = &gconn->recv_array[start_idx];
if (start_idx == end_idx) {
LOGGER_ERROR(log, "Packet reassemble wrap-around");
return 0;
}
}
if (packet_length == 0) {
return 0;
}
uint8_t *tmp_payload = (uint8_t *)malloc(packet_length);
if (tmp_payload == nullptr) {
LOGGER_ERROR(log, "Failed to allocate %u bytes for payload buffer", packet_length);
return 0;
}
start_idx = (start_idx + 1) % GCC_BUFFER_SIZE;
end_idx = (end_idx + 1) % GCC_BUFFER_SIZE;
uint16_t processed = 0;
for (uint16_t i = start_idx; i != end_idx; i = (i + 1) % GCC_BUFFER_SIZE) {
entry = &gconn->recv_array[i];
assert(processed + entry->data_length <= packet_length);
memcpy(tmp_payload + processed, entry->data, entry->data_length);
processed += entry->data_length;
clear_array_entry(entry);
}
assert(*payload == nullptr);
*payload = tmp_payload;
return processed;
}
int gcc_handle_packet_fragment(const GC_Session *c, GC_Chat *chat, uint32_t peer_number,
GC_Connection *gconn, const uint8_t *chunk, uint16_t length, uint8_t packet_type,
uint64_t message_id, void *userdata)
{
if (length > 0) {
if (!store_in_recv_array(chat->log, chat->mono_time, gconn, chunk, length, packet_type, message_id)) {
return -1;
}
gcc_set_recv_message_id(gconn, gconn->received_message_id + 1);
gconn->last_chunk_id = message_id;
return 1;
}
uint8_t sender_pk[ENC_PUBLIC_KEY_SIZE];
memcpy(sender_pk, get_enc_key(&gconn->addr.public_key), ENC_PUBLIC_KEY_SIZE);
uint8_t *payload = nullptr;
const uint16_t processed_len = reassemble_packet(chat->log, gconn, &payload, message_id);
if (processed_len == 0) {
free(payload);
return -1;
}
if (!handle_gc_lossless_helper(c, chat, peer_number, payload + 1, processed_len - 1, payload[0], userdata)) {
free(payload);
return -1;
}
/* 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) {
free(payload);
return 0;
}
gcc_set_recv_message_id(gconn, gconn->received_message_id + 1);
gconn->last_chunk_id = 0;
free(payload);
return 0;
}
int gcc_handle_received_message(const Logger *log, const Mono_Time *mono_time, GC_Connection *gconn,
const uint8_t *data, uint16_t length, uint8_t packet_type, uint64_t message_id,
bool direct_conn)
{
if (direct_conn) {
gconn->last_received_direct_time = mono_time_get(mono_time);
}
/* Appears to be a duplicate packet so we discard it */
if (message_id < gconn->received_message_id + 1) {
return 0;
}
if (packet_type == GP_FRAGMENT) { // we handle packet fragments as a special case
return 3;
}
/* we're missing an older message from this peer so we store it in recv_array */
if (message_id > gconn->received_message_id + 1) {
if (!store_in_recv_array(log, mono_time, gconn, data, length, packet_type, message_id)) {
return -1;
}
return 1;
}
gcc_set_recv_message_id(gconn, gconn->received_message_id + 1);
return 2;
}
/** @brief Handles peer_number's array entry with appropriate handler and clears it from array.
*
* This function increments the received message ID for `gconn`.
*
* Return true on success.
*/
non_null(1, 2, 3, 5) nullable(6)
static bool process_recv_array_entry(const GC_Session *c, GC_Chat *chat, GC_Connection *gconn, uint32_t peer_number,
GC_Message_Array_Entry *const array_entry, void *userdata)
{
uint8_t sender_pk[ENC_PUBLIC_KEY_SIZE];
memcpy(sender_pk, get_enc_key(&gconn->addr.public_key), ENC_PUBLIC_KEY_SIZE);
const bool ret = handle_gc_lossless_helper(c, chat, peer_number, array_entry->data, array_entry->data_length,
array_entry->packet_type, userdata);
/* 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);
clear_array_entry(array_entry);
if (gconn == nullptr) {
return true;
}
if (!ret) {
gc_send_message_ack(chat, gconn, array_entry->message_id, GR_ACK_REQ);
return false;
}
gc_send_message_ack(chat, gconn, array_entry->message_id, GR_ACK_RECV);
gcc_set_recv_message_id(gconn, gconn->received_message_id + 1);
return true;
}
void gcc_check_recv_array(const GC_Session *c, GC_Chat *chat, GC_Connection *gconn, uint32_t peer_number,
void *userdata)
{
if (gconn->last_chunk_id != 0) { // dont check array if we have an unfinished fragment sequence
return;
}
const uint16_t idx = (gconn->received_message_id + 1) % GCC_BUFFER_SIZE;
GC_Message_Array_Entry *const array_entry = &gconn->recv_array[idx];
if (!array_entry_is_empty(array_entry)) {
process_recv_array_entry(c, chat, gconn, peer_number, array_entry, userdata);
}
}
void gcc_resend_packets(const GC_Chat *chat, GC_Connection *gconn)
{
const uint64_t tm = mono_time_get(chat->mono_time);
const uint16_t start = gconn->send_array_start;
const uint16_t end = gconn->send_message_id % GCC_BUFFER_SIZE;
GC_Message_Array_Entry *array_entry = &gconn->send_array[start];
if (array_entry_is_empty(array_entry)) {
return;
}
if (mono_time_is_timeout(chat->mono_time, array_entry->time_added, GC_CONFIRMED_PEER_TIMEOUT)) {
gcc_mark_for_deletion(gconn, chat->tcp_conn, GC_EXIT_TYPE_TIMEOUT, nullptr, 0);
LOGGER_DEBUG(chat->log, "Send array stuck; timing out peer");
return;
}
for (uint16_t i = start; i != end; i = (i + 1) % GCC_BUFFER_SIZE) {
array_entry = &gconn->send_array[i];
if (array_entry_is_empty(array_entry)) {
continue;
}
if (tm == array_entry->last_send_try) {
continue;
}
const uint64_t delta = array_entry->last_send_try - array_entry->time_added;
array_entry->last_send_try = tm;
/* if this occurrs less than once per second this won't be reliable */
if (delta > 1 && is_power_of_2(delta)) {
gcc_encrypt_and_send_lossless_packet(chat, gconn, array_entry->data, array_entry->data_length,
array_entry->message_id, array_entry->packet_type);
}
}
}
bool gcc_send_packet(const GC_Chat *chat, const GC_Connection *gconn, const uint8_t *packet, uint16_t length)
{
if (packet == nullptr || length == 0) {
return false;
}
bool direct_send_attempt = false;
if (gcc_direct_conn_is_possible(chat, gconn)) {
if (gcc_conn_is_direct(chat->mono_time, gconn)) {
return (uint16_t) sendpacket(chat->net, &gconn->addr.ip_port, packet, length) == length;
}
if ((uint16_t) sendpacket(chat->net, &gconn->addr.ip_port, packet, length) == length) {
direct_send_attempt = true;
}
}
const int ret = send_packet_tcp_connection(chat->tcp_conn, gconn->tcp_connection_num, packet, length);
return ret == 0 || direct_send_attempt;
}
int gcc_encrypt_and_send_lossless_packet(const GC_Chat *chat, const GC_Connection *gconn, const uint8_t *data,
uint16_t length, uint64_t message_id, uint8_t packet_type)
{
const uint16_t packet_size = gc_get_wrapped_packet_size(length, NET_PACKET_GC_LOSSLESS);
uint8_t *packet = (uint8_t *)malloc(packet_size);
if (packet == nullptr) {
LOGGER_ERROR(chat->log, "Failed to allocate memory for packet buffer");
return -1;
}
const int enc_len = group_packet_wrap(
chat->log, chat->rng, chat->self_public_key.enc, gconn->session_shared_key, packet,
packet_size, data, length, message_id, packet_type, NET_PACKET_GC_LOSSLESS);
if (enc_len < 0) {
LOGGER_ERROR(chat->log, "Failed to wrap packet (type: 0x%02x, error: %d)", packet_type, enc_len);
free(packet);
return -1;
}
if (!gcc_send_packet(chat, gconn, packet, (uint16_t)enc_len)) {
LOGGER_DEBUG(chat->log, "Failed to send packet (type: 0x%02x, enc_len: %d)", packet_type, enc_len);
free(packet);
return -2;
}
free(packet);
return 0;
}
void gcc_make_session_shared_key(GC_Connection *gconn, const uint8_t *sender_pk)
{
encrypt_precompute(sender_pk, gconn->session_secret_key, gconn->session_shared_key);
}
bool gcc_conn_is_direct(const Mono_Time *mono_time, const GC_Connection *gconn)
{
return GCC_UDP_DIRECT_TIMEOUT + gconn->last_received_direct_time > mono_time_get(mono_time);
}
bool gcc_direct_conn_is_possible(const GC_Chat *chat, const GC_Connection *gconn)
{
return !net_family_is_unspec(gconn->addr.ip_port.ip.family) && !net_family_is_unspec(net_family(chat->net));
}
void gcc_mark_for_deletion(GC_Connection *gconn, TCP_Connections *tcp_conn, Group_Exit_Type type,
const uint8_t *part_message, uint16_t length)
{
if (gconn == nullptr) {
return;
}
if (gconn->pending_delete) {
return;
}
gconn->pending_delete = true;
gconn->exit_info.exit_type = type;
kill_tcp_connection_to(tcp_conn, gconn->tcp_connection_num);
if (length > 0 && length <= MAX_GC_PART_MESSAGE_SIZE && part_message != nullptr) {
memcpy(gconn->exit_info.part_message, part_message, length);
gconn->exit_info.length = length;
}
}
void gcc_peer_cleanup(GC_Connection *gconn)
{
for (size_t i = 0; i < GCC_BUFFER_SIZE; ++i) {
free(gconn->send_array[i].data);
free(gconn->recv_array[i].data);
}
free(gconn->recv_array);
free(gconn->send_array);
crypto_memunlock(gconn->session_secret_key, sizeof(gconn->session_secret_key));
crypto_memunlock(gconn->session_shared_key, sizeof(gconn->session_shared_key));
crypto_memzero(gconn, sizeof(GC_Connection));
}
void gcc_cleanup(const GC_Chat *chat)
{
for (uint32_t i = 0; i < chat->numpeers; ++i) {
GC_Connection *gconn = get_gc_connection(chat, i);
assert(gconn != nullptr);
gcc_peer_cleanup(gconn);
}
}
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