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|
/* Lossless_UDP.c
*
* An implementation of the Lossless_UDP protocol as seen in http://wiki.tox.im/index.php/Lossless_UDP
*
* Copyright (C) 2013 Tox project All Rights Reserved.
*
* This file is part of Tox.
*
* Tox is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Tox is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Tox. If not, see <http://www.gnu.org/licenses/>.
*
*/
/*
* TODO: clean this file a bit.
* There are a couple of useless variables to get rid of.
*/
#include "Lossless_UDP.h"
/* maximum data packets in sent and receive queues. */
#define MAX_QUEUE_NUM 16
/* maximum number of data packets in the buffer */
#define BUFFER_PACKET_NUM (16-1)
/* timeout per connection is randomly set between CONNEXION_TIMEOUT and 2*CONNEXION_TIMEOUT */
#define CONNEXION_TIMEOUT 5
/* initial amount of sync/hanshake packets to send per second. */
#define SYNC_RATE 2
/* initial send rate of data. */
#define DATA_SYNC_RATE 30
typedef struct {
uint8_t data[MAX_DATA_SIZE];
uint16_t size;
} Data;
typedef struct {
IP_Port ip_port;
/*
* 0 if connection is dead, 1 if attempting handshake,
* 2 if handshake is done (we start sending SYNC packets)
* 3 if we are sending SYNC packets and can send data
* 4 if the connection has timed out.
*/
uint8_t status;
/*
* 1 or 2 if connection was initiated by someone else, 0 if not.
* 2 if incoming_connection() has not returned it yet, 1 if it has.
*/
uint8_t inbound;
uint16_t SYNC_rate; /* current SYNC packet send rate packets per second. */
uint16_t data_rate; /* current data packet send rate packets per second. */
uint64_t last_SYNC; /* time our last SYNC packet was sent. */
uint64_t last_sent; /* time our last data or handshake packet was sent. */
uint64_t last_recvSYNC; /* time we last received a SYNC packet from the other */
uint64_t last_recvdata; /* time we last received a DATA packet from the other */
uint64_t killat; /* time to kill the connection */
Data sendbuffer[MAX_QUEUE_NUM]; /* packet send buffer. */
Data recvbuffer[MAX_QUEUE_NUM]; /* packet receive buffer. */
uint32_t handshake_id1;
uint32_t handshake_id2;
/* number of data packets received (also used as handshake_id1) */
uint32_t recv_packetnum;
/* number of packets received by the other peer */
uint32_t orecv_packetnum;
/* number of data packets sent */
uint32_t sent_packetnum;
/* number of packets sent by the other peer. */
uint32_t osent_packetnum;
/* number of latest packet written onto the sendbuffer */
uint32_t sendbuff_packetnum;
/* we know all packets before that number were successfully sent */
uint32_t successful_sent;
/* packet number of last packet read with the read_packet function */
uint32_t successful_read;
/* list of currently requested packet numbers(by the other person) */
uint32_t req_packets[BUFFER_PACKET_NUM];
/* total number of currently requested packets(by the other person) */
uint16_t num_req_paquets;
uint8_t recv_counter;
uint8_t send_counter;
uint8_t timeout; /* connection timeout in seconds. */
} Connection;
static Connection * connections;
static uint32_t connections_length; /* Length of connections array */
static uint32_t connections_number; /* Number of connections in connections array */
#define MAX_CONNECTIONS connections_length
/* Functions */
/*
* Get connection id from IP_Port
* Return -1 if there are no connections like we are looking for
* Return id if it found it
*/
int getconnection_id(IP_Port ip_port)
{
uint32_t i;
for (i = 0; i < MAX_CONNECTIONS; ++i) {
if (connections[i].ip_port.ip.i == ip_port.ip.i &&
connections[i].ip_port.port == ip_port.port &&
connections[i].status > 0)
return i;
}
return -1;
}
/* table of random numbers used below. */
static uint32_t randtable[6][256];
/*
* Generate a handshake_id which depends on the ip_port.
* This function will always give one unique handshake_id per ip_port.
*
* TODO: make this better
*/
uint32_t handshake_id(IP_Port source)
{
uint32_t id = 0, i;
for (i = 0; i < 6; ++i) {
if(randtable[i][((uint8_t *)&source)[i]] == 0)
randtable[i][((uint8_t *)&source)[i]] = random_int();
id ^= randtable[i][((uint8_t *)&source)[i]];
}
if (id == 0) /* id can't be zero */
id = 1;
return id;
}
/*
* Change the hanshake id associated with that ip_port
*
* TODO: make this better
*/
void change_handshake(IP_Port source)
{
uint8_t rand = random_int() % 4;
randtable[rand][((uint8_t *)&source)[rand]] = random_int();
}
/*
* Initialize a new connection to ip_port
* Returns an integer corresponding to the connection idt
* Return -1 if it could not initialize the connectiont
* If there already was an existing connection to that ip_port return its number.
*/
int new_connection(IP_Port ip_port)
{
int connect = getconnection_id(ip_port);
if (connect != -1)
return connect;
if(connections_number == connections_length) {
Connection * temp;
temp = realloc(connections, sizeof(Connection) * (connections_length + 1));
if(temp == NULL)
return -1;
memset(&temp[connections_length], 0, sizeof(Connection));
++connections_length;
connections = temp;
}
uint32_t i;
for (i = 0; i < MAX_CONNECTIONS; ++i) {
if(connections[i].status == 0) {
memset(&connections[i], 0, sizeof(Connection));
uint32_t handshake_id1 = handshake_id(ip_port);
connections[i] = (Connection) {
.ip_port = ip_port,
.status = 1,
.inbound = 0,
.handshake_id1 = handshake_id1,
.sent_packetnum = handshake_id1,
.sendbuff_packetnum = handshake_id1,
.successful_sent = handshake_id1,
.SYNC_rate = SYNC_RATE,
.data_rate = DATA_SYNC_RATE,
.last_recvSYNC = current_time(),
.last_sent = current_time(),
.killat = ~0,
.send_counter = 0,
/* add randomness to timeout to prevent connections getting stuck in a loop. */
.timeout = CONNEXION_TIMEOUT + rand() % CONNEXION_TIMEOUT
};
++connections_number;
return i;
}
}
return -1;
}
/*
* Initialize a new inbound connection from ip_port
* Returns an integer corresponding to the connection id.
* Return -1 if it could not initialize the connection.
*/
int new_inconnection(IP_Port ip_port)
{
if (getconnection_id(ip_port) != -1)
return -1;
if(connections_number == connections_length) {
Connection * temp;
temp = realloc(connections, sizeof(Connection) * (connections_length + 1));
if(temp == NULL)
return -1;
memset(&temp[connections_length], 0, sizeof(Connection));
++connections_length;
connections = temp;
}
uint32_t i;
for (i = 0; i < MAX_CONNECTIONS; ++i) {
if (connections[i].status == 0) {
memset(&connections[i], 0, sizeof(Connection));
uint64_t timeout = CONNEXION_TIMEOUT + rand() % CONNEXION_TIMEOUT;
connections[i] = (Connection){
.ip_port = ip_port,
.status = 2,
.inbound = 2,
.SYNC_rate = SYNC_RATE,
.data_rate = DATA_SYNC_RATE,
.last_recvSYNC = current_time(),
.last_sent = current_time(),
.send_counter = 127,
/* add randomness to timeout to prevent connections getting stuck in a loop. */
.timeout = timeout,
/* if this connection isn't handled within the timeout kill it. */
.killat = current_time() + 1000000UL*timeout
};
++connections_number;
return i;
}
}
return -1;
}
/*
* Returns an integer corresponding to the next connection in our incoming connection list.
* Return -1 if there are no new incoming connections in the list.
*/
int incoming_connection()
{
uint32_t i;
for (i = 0; i < MAX_CONNECTIONS; ++i) {
if (connections[i].inbound == 2) {
connections[i].inbound = 1;
return i;
}
}
return -1;
}
/* Try to free some memory from the connections array. */
static void free_connections()
{
uint32_t i;
for(i = connections_length; i != 0; --i)
if (connections[i - 1].status != 0)
break;
if(connections_length == i)
return;
Connection * temp;
temp = realloc(connections, sizeof(Connection) * i);
if(temp == NULL && i != 0)
return;
connections = temp;
connections_length = i;
}
/*
* Return -1 if it could not kill the connection.
* Return 0 if killed successfully
*/
int kill_connection(int connection_id)
{
if (connection_id >= 0 && connection_id < MAX_CONNECTIONS) {
if (connections[connection_id].status > 0) {
connections[connection_id].status = 0;
change_handshake(connections[connection_id].ip_port);
--connections_number;
free_connections();
return 0;
}
}
return -1;
}
/*
* Kill connection in seconds.
* Return -1 if it can not kill the connection.
* Return 0 if it will kill it.
*/
int kill_connection_in(int connection_id, uint32_t seconds)
{
if (connection_id >= 0 && connection_id < MAX_CONNECTIONS) {
if (connections[connection_id].status > 0) {
connections[connection_id].killat = current_time() + 1000000UL*seconds;
return 0;
}
}
return -1;
}
/*
* Check if connection is connected:
* Return 0 no.
* Return 1 if attempting handshake.
* Return 2 if handshake is done.
* Return 3 if fully connected.
* Return 4 if timed out and waiting to be killed.
*/
int is_connected(int connection_id)
{
if (connection_id >= 0 && connection_id < MAX_CONNECTIONS)
return connections[connection_id].status;
return 0;
}
/* returns the ip_port of the corresponding connection. */
IP_Port connection_ip(int connection_id)
{
if (connection_id >= 0 && connection_id < MAX_CONNECTIONS)
return connections[connection_id].ip_port;
IP_Port zero = {{{0}}, 0};
return zero;
}
/* returns the number of packets in the queue waiting to be successfully sent. */
uint32_t sendqueue(int connection_id)
{
if (connection_id < 0 || connection_id >= MAX_CONNECTIONS)
return 0;
return connections[connection_id].sendbuff_packetnum - connections[connection_id].successful_sent;
}
/* returns the number of packets in the queue waiting to be successfully read with read_packet(...) */
uint32_t recvqueue(int connection_id)
{
if (connection_id < 0 || connection_id >= MAX_CONNECTIONS)
return 0;
return connections[connection_id].recv_packetnum - connections[connection_id].successful_read;
}
/* returns the id of the next packet in the queue
return -1 if no packet in queue */
char id_packet(int connection_id)
{
if (connection_id < 0 || connection_id >= MAX_CONNECTIONS)
return -1;
if (recvqueue(connection_id) != 0 && connections[connection_id].status != 0)
return connections[connection_id].recvbuffer[connections[connection_id].successful_read % MAX_QUEUE_NUM].data[0];
return -1;
}
/* return 0 if there is no received data in the buffer.
return length of received packet if successful */
int read_packet(int connection_id, uint8_t * data)
{
if (recvqueue(connection_id) != 0) {
uint16_t index = connections[connection_id].successful_read % MAX_QUEUE_NUM;
uint16_t size = connections[connection_id].recvbuffer[index].size;
memcpy(data, connections[connection_id].recvbuffer[index].data, size);
++connections[connection_id].successful_read;
connections[connection_id].recvbuffer[index].size = 0;
return size;
}
return 0;
}
/*
* Return 0 if data could not be put in packet queue
* Return 1 if data was put into the queue
*/
int write_packet(int connection_id, uint8_t * data, uint32_t length)
{
if (length > MAX_DATA_SIZE || length == 0)
return 0;
if (sendqueue(connection_id) < BUFFER_PACKET_NUM) {
uint32_t index = connections[connection_id].sendbuff_packetnum % MAX_QUEUE_NUM;
memcpy(connections[connection_id].sendbuffer[index].data, data, length);
connections[connection_id].sendbuffer[index].size = length;
connections[connection_id].sendbuff_packetnum++;
return 1;
}
return 0;
}
/* put the packet numbers the we are missing in requested and return the number */
uint32_t missing_packets(int connection_id, uint32_t * requested)
{
uint32_t number = 0;
uint32_t i;
uint32_t temp;
/* don't request packets if the buffer is full. */
if (recvqueue(connection_id) >= (BUFFER_PACKET_NUM - 1))
return 0;
for (i = connections[connection_id].recv_packetnum; i != connections[connection_id].osent_packetnum; i++) {
if(connections[connection_id].recvbuffer[i % MAX_QUEUE_NUM].size == 0) {
temp = htonl(i);
memcpy(requested + number, &temp, 4);
++number;
}
}
if(number == 0)
connections[connection_id].recv_packetnum = connections[connection_id].osent_packetnum;
return number;
}
/*
* BEGIN Packet sending functions
* One per packet type.
* see http://wiki.tox.im/index.php/Lossless_UDP for more information.
*/
int send_handshake(IP_Port ip_port, uint32_t handshake_id1, uint32_t handshake_id2)
{
uint8_t packet[1 + 4 + 4];
uint32_t temp;
packet[0] = 16;
temp = htonl(handshake_id1);
memcpy(packet + 1, &temp, 4);
temp = htonl(handshake_id2);
memcpy(packet + 5, &temp, 4);
return sendpacket(ip_port, packet, sizeof(packet));
}
int send_SYNC(uint32_t connection_id)
{
uint8_t packet[(BUFFER_PACKET_NUM*4 + 4 + 4 + 2)];
uint16_t index = 0;
IP_Port ip_port = connections[connection_id].ip_port;
uint8_t counter = connections[connection_id].send_counter;
uint32_t recv_packetnum = htonl(connections[connection_id].recv_packetnum);
uint32_t sent_packetnum = htonl(connections[connection_id].sent_packetnum);
uint32_t requested[BUFFER_PACKET_NUM];
uint32_t number = missing_packets(connection_id, requested);
packet[0] = 17;
index += 1;
memcpy(packet + index, &counter, 1);
index += 1;
memcpy(packet + index, &recv_packetnum, 4);
index += 4;
memcpy(packet + index, &sent_packetnum, 4);
index += 4;
memcpy(packet + index, requested, 4 * number);
return sendpacket(ip_port, packet, (number*4 + 4 + 4 + 2));
}
int send_data_packet(uint32_t connection_id, uint32_t packet_num)
{
uint32_t index = packet_num % MAX_QUEUE_NUM;
uint32_t temp;
uint8_t packet[1 + 4 + MAX_DATA_SIZE];
packet[0] = 18;
temp = htonl(packet_num);
memcpy(packet + 1, &temp, 4);
memcpy(packet + 5, connections[connection_id].sendbuffer[index].data,
connections[connection_id].sendbuffer[index].size);
return sendpacket(connections[connection_id].ip_port, packet,
1 + 4 + connections[connection_id].sendbuffer[index].size);
}
/* sends 1 data packet */
int send_DATA(uint32_t connection_id)
{
int ret;
uint32_t buffer[BUFFER_PACKET_NUM];
if (connections[connection_id].num_req_paquets > 0) {
ret = send_data_packet(connection_id, connections[connection_id].req_packets[0]);
connections[connection_id].num_req_paquets--;
memcpy(buffer, connections[connection_id].req_packets + 1, connections[connection_id].num_req_paquets * 4);
memcpy(connections[connection_id].req_packets, buffer, connections[connection_id].num_req_paquets * 4);
return ret;
}
if (connections[connection_id].sendbuff_packetnum != connections[connection_id].sent_packetnum) {
ret = send_data_packet(connection_id, connections[connection_id].sent_packetnum);
connections[connection_id].sent_packetnum++;
return ret;
}
return 0;
}
/*
* END of packet sending functions
*
*
* BEGIN Packet handling functions
* One to handle each type of packets we receive
*/
/* Return 0 if handled correctly, 1 if packet is bad. */
int handle_handshake(uint8_t * packet, uint32_t length, IP_Port source)
{
if (length != (1 + 4 + 4))
return 1;
uint32_t temp;
uint32_t handshake_id1, handshake_id2;
int connection = getconnection_id(source);
memcpy(&temp, packet + 1, 4);
handshake_id1 = ntohl(temp);
memcpy(&temp, packet + 5, 4);
handshake_id2 = ntohl(temp);
if (handshake_id2 == 0 && is_connected(connection) < 3) {
send_handshake(source, handshake_id(source), handshake_id1);
return 0;
}
if (is_connected(connection) != 1)
return 1;
/* if handshake_id2 is what we sent previously as handshake_id1 */
if (handshake_id2 == connections[connection].handshake_id1) {
connections[connection].status = 2;
/* NOTE: is this necessary?
connections[connection].handshake_id2 = handshake_id1; */
connections[connection].orecv_packetnum = handshake_id2;
connections[connection].osent_packetnum = handshake_id1;
connections[connection].recv_packetnum = handshake_id1;
connections[connection].successful_read = handshake_id1;
}
return 0;
}
/* returns 1 if sync packet is valid 0 if not. */
int SYNC_valid(uint32_t length)
{
if (length < 4 + 4 + 2)
return 0;
if (length > (BUFFER_PACKET_NUM*4 + 4 + 4 + 2) ||
((length - 4 - 4 - 2) % 4) != 0)
return 0;
return 1;
}
/* case 1 in handle_SYNC: */
int handle_SYNC1(IP_Port source, uint32_t recv_packetnum, uint32_t sent_packetnum)
{
if (handshake_id(source) == recv_packetnum) {
int x = new_inconnection(source);
if (x != -1) {
connections[x].orecv_packetnum = recv_packetnum;
connections[x].sent_packetnum = recv_packetnum;
connections[x].sendbuff_packetnum = recv_packetnum;
connections[x].successful_sent = recv_packetnum;
connections[x].osent_packetnum = sent_packetnum;
connections[x].recv_packetnum = sent_packetnum;
connections[x].successful_read = sent_packetnum;
return x;
}
}
return -1;
}
/* case 2 in handle_SYNC: */
int handle_SYNC2(int connection_id, uint8_t counter, uint32_t recv_packetnum, uint32_t sent_packetnum)
{
if (recv_packetnum == connections[connection_id].orecv_packetnum) {
/* && sent_packetnum == connections[connection_id].osent_packetnum) */
connections[connection_id].status = 3;
connections[connection_id].recv_counter = counter;
++connections[connection_id].send_counter;
send_SYNC(connection_id);
return 0;
}
return 1;
}
/* case 3 in handle_SYNC: */
int handle_SYNC3(int connection_id, uint8_t counter, uint32_t recv_packetnum, uint32_t sent_packetnum, uint32_t * req_packets,
uint16_t number)
{
uint8_t comp_counter = (counter - connections[connection_id].recv_counter );
uint32_t i, temp;
/* uint32_t comp_1 = (recv_packetnum - connections[connection_id].successful_sent);
uint32_t comp_2 = (sent_packetnum - connections[connection_id].successful_read); */
uint32_t comp_1 = (recv_packetnum - connections[connection_id].orecv_packetnum);
uint32_t comp_2 = (sent_packetnum - connections[connection_id].osent_packetnum);
/* packet valid */
if (comp_1 <= BUFFER_PACKET_NUM &&
comp_2 <= BUFFER_PACKET_NUM &&
comp_counter < 10 && comp_counter != 0) {
connections[connection_id].orecv_packetnum = recv_packetnum;
connections[connection_id].osent_packetnum = sent_packetnum;
connections[connection_id].successful_sent = recv_packetnum;
connections[connection_id].last_recvSYNC = current_time();
connections[connection_id].recv_counter = counter;
++connections[connection_id].send_counter;
for (i = 0; i < number; ++i) {
temp = ntohl(req_packets[i]);
memcpy(connections[connection_id].req_packets + i, &temp, 4 * number);
}
connections[connection_id].num_req_paquets = number;
return 0;
}
return 1;
}
int handle_SYNC(uint8_t *packet, uint32_t length, IP_Port source)
{
if (!SYNC_valid(length))
return 1;
int connection = getconnection_id(source);
uint8_t counter;
uint32_t temp;
uint32_t recv_packetnum, sent_packetnum;
uint32_t req_packets[BUFFER_PACKET_NUM];
uint16_t number = (length - 4 - 4 - 2)/ 4;
memcpy(&counter, packet + 1, 1);
memcpy(&temp, packet + 2, 4);
recv_packetnum = ntohl(temp);
memcpy(&temp,packet + 6, 4);
sent_packetnum = ntohl(temp);
if (number != 0)
memcpy(req_packets, packet + 10, 4 * number);
if (connection == -1)
return handle_SYNC1(source, recv_packetnum, sent_packetnum);
if (connections[connection].status == 2)
return handle_SYNC2(connection, counter,
recv_packetnum, sent_packetnum);
if (connections[connection].status == 3)
return handle_SYNC3(connection, counter, recv_packetnum,
sent_packetnum, req_packets, number);
return 0;
}
/*
* Add a packet to the received buffer and set the recv_packetnum of the
* connection to its proper value. Return 1 if data was too big, 0 if not.
*/
int add_recv(int connection_id, uint32_t data_num, uint8_t *data, uint16_t size)
{
if (size > MAX_DATA_SIZE)
return 1;
uint32_t i;
uint32_t maxnum = connections[connection_id].successful_read + BUFFER_PACKET_NUM;
uint32_t sent_packet = data_num - connections[connection_id].osent_packetnum;
for (i = connections[connection_id].recv_packetnum; i != maxnum; ++i) {
if (i == data_num) {
memcpy(connections[connection_id].recvbuffer[i % MAX_QUEUE_NUM].data, data, size);
connections[connection_id].recvbuffer[i % MAX_QUEUE_NUM].size = size;
connections[connection_id].last_recvdata = current_time();
if (sent_packet < BUFFER_PACKET_NUM) {
connections[connection_id].osent_packetnum = data_num;
}
break;
}
}
for (i = connections[connection_id].recv_packetnum; i != maxnum; ++i) {
if (connections[connection_id].recvbuffer[i % MAX_QUEUE_NUM].size != 0)
connections[connection_id].recv_packetnum = i;
else
break;
}
return 0;
}
int handle_data(uint8_t *packet, uint32_t length, IP_Port source)
{
int connection = getconnection_id(source);
if (connection == -1)
return 1;
/* Drop the data packet if connection is not connected. */
if (connections[connection].status != 3)
return 1;
if (length > 1 + 4 + MAX_DATA_SIZE || length < 1 + 4 + 1)
return 1;
uint32_t temp;
uint32_t number;
uint16_t size = length - 1 - 4;
memcpy(&temp, packet + 1, 4);
number = ntohl(temp);
return add_recv(connection, number, packet + 5, size);
}
/*
* END of packet handling functions
*/
int LosslessUDP_handlepacket(uint8_t *packet, uint32_t length, IP_Port source)
{
switch (packet[0]) {
case 16:
return handle_handshake(packet, length, source);
case 17:
return handle_SYNC(packet, length, source);
case 18:
return handle_data(packet, length, source);
default:
return 1;
}
return 0;
}
/*
* Send handshake requests
* handshake packets are sent at the same rate as SYNC packets
*/
void doNew()
{
uint32_t i;
uint64_t temp_time = current_time();
for (i = 0; i < MAX_CONNECTIONS; ++i) {
if (connections[i].status == 1)
if ((connections[i].last_sent + (1000000UL/connections[i].SYNC_rate)) <= temp_time) {
send_handshake(connections[i].ip_port, connections[i].handshake_id1, 0);
connections[i].last_sent = temp_time;
}
/* kill all timed out connections */
if (connections[i].status > 0 &&
(connections[i].last_recvSYNC + connections[i].timeout * 1000000UL) < temp_time &&
connections[i].status != 4) {
connections[i].status = 4;
/* kill_connection(i); */
}
if (connections[i].status > 0 && connections[i].killat < temp_time)
kill_connection(i);
}
}
void doSYNC()
{
uint32_t i;
uint64_t temp_time = current_time();
for (i = 0; i < MAX_CONNECTIONS; ++i) {
if (connections[i].status == 2 || connections[i].status == 3)
if ((connections[i].last_SYNC + (1000000UL/connections[i].SYNC_rate)) <= temp_time) {
send_SYNC(i);
connections[i].last_SYNC = temp_time;
}
}
}
void doData()
{
uint32_t i;
uint64_t j;
uint64_t temp_time = current_time();
for (i = 0; i < MAX_CONNECTIONS; ++i)
if (connections[i].status == 3 && sendqueue(i) != 0)
if ((connections[i].last_sent + (1000000UL/connections[i].data_rate)) <= temp_time) {
for (j = connections[i].last_sent; j < temp_time; j += (1000000UL/connections[i].data_rate))
send_DATA(i);
connections[i].last_sent = temp_time;
}
}
#define MAX_SYNC_RATE 10
/*
* Automatically adjusts send rates of packets for optimal transmission.
*
* TODO: flow control.
*/
void adjustRates()
{
uint32_t i;
uint64_t temp_time = current_time();
for (i = 0; i < MAX_CONNECTIONS; ++i) {
if (connections[i].status == 1 || connections[i].status == 2)
connections[i].SYNC_rate = MAX_SYNC_RATE;
if (connections[i].status == 3) {
if (sendqueue(i) != 0) {
connections[i].data_rate = (BUFFER_PACKET_NUM - connections[i].num_req_paquets) * MAX_SYNC_RATE;
connections[i].SYNC_rate = MAX_SYNC_RATE;
} else if (connections[i].last_recvdata + 1000000UL > temp_time)
connections[i].SYNC_rate = MAX_SYNC_RATE;
else
connections[i].SYNC_rate = SYNC_RATE;
}
}
}
/* Call this function a couple times per second It's the main loop. */
void doLossless_UDP()
{
doNew();
doSYNC();
doData();
adjustRates();
}
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