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e95f2cbb1c94c7f2c50f8f208260ad639373564d
tomato/toxav/bwcontroller.c
Green Sky e95f2cbb1c Squashed 'external/toxcore/c-toxcore/' changes from e58eb27a8..1828c5356 
1828c5356 fix(toxav): remove extra copy of video frame on encode
b66b8ded6 refactor: improve group stability, moderation determinism, and DHT dual-stack handling
4fbd7c10a fix(toxav): fix heap buffer overflow in RTP video packet handling
809fe8c78 refactor(tox): make the `#define` consts int literals.
50d242a37 refactor(toxav): improve MSI safety and testability
da1c13a2f fix(toxav): harden video processing and fix large frame handling
472825288 fix(toxav): fix multiple logic bugs in audio module
dc963d9a9 fix(toxav): fix multiple bugs in bandwidth controller and add tests
3bf5778ef refactor(toxav): split out RTP module and add exhaustive unit tests
b79b7d436 fix(autotools): add tox_log_level.h to public headers list
ea2e34ff2 chore: Disable cirrus. We're out of quota again.
b449ea2ed chore(ci): update azure runner image to windows-2022 windows-2019 is EOL
e115b136d refactor: Make add_to_list non-recursive.
REVERT: e58eb27a8 fix(toxav): remove extra copy of video frame on encode Tested and works, but there might be alignment issues and other stuff.

git-subtree-dir: external/toxcore/c-toxcore
git-subtree-split: 1828c5356b2daf1d5f680854e776d74b181d268c
2026-01-01 19:15:15 +01:00

216 lines
6.2 KiB
C
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/* SPDX-License-Identifier: GPL-3.0-or-later
* Copyright © 2016-2025 The TokTok team.
* Copyright © 2013-2015 Tox project.
*/
#include "bwcontroller.h"
#include <assert.h>
#include <errno.h>
#include <stdlib.h>
#include <string.h>
#include "ring_buffer.h"
#include "../toxcore/ccompat.h"
#include "../toxcore/logger.h"
#include "../toxcore/mono_time.h"
#include "../toxcore/network.h"
#include "../toxcore/util.h"
#define BWC_SEND_INTERVAL_MS 950 // 0.95s
#define BWC_AVG_PKT_COUNT 20
#define BWC_AVG_LOSS_OVER_CYCLES_COUNT 30
typedef struct BWCCycle {
uint32_t last_recv_timestamp; /* Last recv update time stamp */
uint32_t last_sent_timestamp; /* Last sent update time stamp */
uint32_t last_refresh_timestamp; /* Last refresh time stamp */
uint32_t lost;
uint32_t recv;
} BWCCycle;
typedef struct BWCRcvPkt {
uint32_t packet_length_array[BWC_AVG_PKT_COUNT];
RingBuffer *rb;
} BWCRcvPkt;
struct BWController {
bwc_loss_report_cb *mcb;
void *mcb_user_data;
bwc_send_packet_cb *send_packet;
void *send_packet_user_data;
const Logger *log;
uint32_t friend_number;
BWCCycle cycle;
BWCRcvPkt rcvpkt; /* To calculate average received packet (this means split parts, not the full message!) */
uint32_t packet_loss_counted_cycles;
Mono_Time *bwc_mono_time;
bool bwc_receive_active; /* if this is set to false then incoming bwc packets will not be processed by bwc_handle_data() */
};
struct BWCMessage {
uint32_t lost;
uint32_t recv;
};
static void send_update(BWController *bwc);
BWController *bwc_new(const Logger *log, uint32_t friendnumber,
bwc_loss_report_cb *mcb, void *mcb_user_data,
bwc_send_packet_cb *send_packet, void *send_packet_user_data,
Mono_Time *bwc_mono_time)
{
BWController *retu = (BWController *)calloc(1, sizeof(BWController));
if (retu == nullptr) {
return nullptr;
}
LOGGER_DEBUG(log, "Creating bandwidth controller");
retu->mcb = mcb;
retu->mcb_user_data = mcb_user_data;
retu->send_packet = send_packet;
retu->send_packet_user_data = send_packet_user_data;
retu->friend_number = friendnumber;
retu->bwc_mono_time = bwc_mono_time;
const uint64_t now = current_time_monotonic(bwc_mono_time);
retu->cycle.last_sent_timestamp = now;
retu->cycle.last_refresh_timestamp = now;
retu->log = log;
retu->bwc_receive_active = true;
retu->rcvpkt.rb = rb_new(BWC_AVG_PKT_COUNT);
retu->cycle.lost = 0;
retu->cycle.recv = 0;
retu->packet_loss_counted_cycles = 0;
/* Fill with zeros */
for (int i = 0; i < BWC_AVG_PKT_COUNT; ++i) {
rb_write(retu->rcvpkt.rb, &retu->rcvpkt.packet_length_array[i]);
}
return retu;
}
void bwc_kill(BWController *bwc)
{
if (bwc == nullptr) {
return;
}
rb_kill(bwc->rcvpkt.rb);
free(bwc);
}
void bwc_add_lost(BWController *bwc, uint32_t bytes_lost)
{
if (bwc == nullptr) {
return;
}
if (bytes_lost > 0) {
LOGGER_DEBUG(bwc->log, "BWC lost(1): %d", (int)bytes_lost);
bwc->cycle.lost += bytes_lost;
send_update(bwc);
}
}
void bwc_add_recv(BWController *bwc, uint32_t recv_bytes)
{
if (bwc == nullptr || recv_bytes == 0) {
return;
}
++bwc->packet_loss_counted_cycles;
bwc->cycle.recv += recv_bytes;
send_update(bwc);
}
static void send_update(BWController *bwc)
{
if (bwc->packet_loss_counted_cycles > BWC_AVG_LOSS_OVER_CYCLES_COUNT &&
current_time_monotonic(bwc->bwc_mono_time) - bwc->cycle.last_sent_timestamp > BWC_SEND_INTERVAL_MS) {
bwc->packet_loss_counted_cycles = 0;
if (bwc->cycle.lost != 0) {
LOGGER_DEBUG(bwc->log, "%p Sent update rcv: %u lost: %u percent: %f %%",
(void *)bwc, bwc->cycle.recv, bwc->cycle.lost,
((double)bwc->cycle.lost / ((double)bwc->cycle.recv + (double)bwc->cycle.lost)) * 100.0);
uint8_t bwc_packet[sizeof(struct BWCMessage) + 1];
size_t offset = 0;
bwc_packet[offset] = BWC_PACKET_ID; // set packet ID
++offset;
offset += net_pack_u32(bwc_packet + offset, bwc->cycle.lost);
offset += net_pack_u32(bwc_packet + offset, bwc->cycle.recv);
assert(offset == sizeof(bwc_packet));
if (bwc->send_packet != nullptr && bwc->send_packet(bwc->send_packet_user_data, bwc_packet, sizeof(bwc_packet)) != 0) {
LOGGER_WARNING(bwc->log, "BWC send failed");
}
}
bwc->cycle.last_sent_timestamp = current_time_monotonic(bwc->bwc_mono_time);
bwc->cycle.lost = 0;
bwc->cycle.recv = 0;
}
}
static int on_update(BWController *bwc, const struct BWCMessage *msg)
{
LOGGER_DEBUG(bwc->log, "%p Got update from peer", (void *)bwc);
/* Peers sent update too soon */
if (current_time_monotonic(bwc->bwc_mono_time) - bwc->cycle.last_recv_timestamp < BWC_SEND_INTERVAL_MS) {
LOGGER_INFO(bwc->log, "%p Rejecting extra update", (void *)bwc);
return -1;
}
bwc->cycle.last_recv_timestamp = current_time_monotonic(bwc->bwc_mono_time);
const uint32_t lost = msg->lost;
if (lost != 0 && bwc->mcb != nullptr) {
const uint32_t recv = msg->recv;
LOGGER_DEBUG(bwc->log, "recved: %u lost: %u percentage: %f %%", recv, lost,
((double) lost / ((double)recv + (double)lost)) * 100.0);
bwc->mcb(bwc, bwc->friend_number,
(float)((double)lost / ((double)recv + (double)lost)),
bwc->mcb_user_data);
}
return 0;
}
void bwc_handle_packet(BWController *bwc, const uint8_t *data, size_t length)
{
if (bwc == nullptr) {
return;
}
if (length - 1 != sizeof(struct BWCMessage)) {
LOGGER_ERROR(bwc->log, "Got BWCMessage of insufficient size.");
return;
}
if (!bwc->bwc_receive_active) {
LOGGER_WARNING(bwc->log, "receiving not allowed!");
return;
}
size_t offset = 1; // Ignore packet id.
struct BWCMessage msg;
offset += net_unpack_u32(data + offset, &msg.lost);
offset += net_unpack_u32(data + offset, &msg.recv);
assert(offset == length);
on_update(bwc, &msg);
}
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