/**
* Acedia's `TcpLink` class for connecting to Avarice.
* This class should be considered an internal implementation detail and not
* accessed directly.
* Copyright 2021 Anton Tarasenko
*------------------------------------------------------------------------------
* This file is part of Acedia.
*
* Acedia 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, version 3 of the License, or
* (at your option) any later version.
*
* Acedia 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 Acedia. If not, see .
*/
class AvariceTcpStream extends TcpLink
dependson(LoggerAPI);
var private Global _;
// Reference to the link that has spawned us, to pass on messages.
var private AvariceLink ownerLink;
// Information needed for connection
var private string linkHost;
var private int linkPort;
var private IpAddr remoteAddress;
// If `OpenNoSteam()` (inside `OpenAddress()`) call is made before Avarice
// application started - connection will not succeed. Because of that
// `AvariceTcpStream` will keep restarting its attempt to connect if it waited
// for connection to go through for long enough.
// This variable is set when `AvariceTcpStream` is initialized and it
// defines how long we have to wait before reconnection attempt.
var private float reconnectInterval;
// This variable track how much time has passed since `OpenNoSteam()` call.
var private float timeSpentConnecting;
// For reconnections we need to remember whether we have already bound our
// port, otherwise it will lead to errors in logs.
var private bool portBound;
// Array used to read to and write from TCP connection.
// All the native methods use it, so avoid creating it locally in our methods.
var private byte buffer[255];
// Used to convert our messages in a way appropriate for the network
var private Utf8Encoder encoder;
// Used to read and correctly interpret byte stream from Avarice
var private AvariceStreamReader avariceReader;
// Arbitrary value indicating that next byte sequence from us reports amount of
// bytes received so far
var private byte HEAD_BYTES_RECEIVED;
// Arbitrary value indicating that next byte sequence from us contains
// JSON message (prepended by it's length)
var private byte HEAD_MESSAGE;
// Byte mask to extract lowest byte from the `int`s:
// 00000000 00000000 00000000 11111111
var private int byteMask;
// `Text` values to be used as keys for getting information from
// received messages
var private Text keyS, keyT, keyP;
var private LoggerAPI.Definition infoConnected;
var private LoggerAPI.Definition infoDisconnected;
var private LoggerAPI.Definition fatalNoLink;
var private LoggerAPI.Definition fatalBadPort;
var private LoggerAPI.Definition fatalCannotBindPort;
var private LoggerAPI.Definition fatalCannotResolveHost;
var private LoggerAPI.Definition fatalCannotConnect;
var private LoggerAPI.Definition fatalInvaliddUTF8;
var private LoggerAPI.Definition fatalInvalidMessage;
// Starts this link, to stop it - simply destroy it
public final function StartUp(AvariceLink link, float reconnectTime)
{
if (link == none)
{
Destroy();
return;
}
ownerLink = link;
// Apparently `TcpLink` ignores default values for these variables,
// so we set them here
linkMode = MODE_Binary;
receiveMode = RMODE_Manual;
// This actor does not have `AcediaActor` for a parent, so manually
// define `_` for convenience
_ = class'Global'.static.GetInstance();
// Necessary constants
keyS = _.text.FromString("s");
keyT = _.text.FromString("t");
keyP = _.text.FromString("p");
// For decoding input and encoding output
encoder = Utf8Encoder(_.memory.Allocate(class'Utf8Encoder'));
avariceReader =
AvariceStreamReader(_.memory.Allocate(class'AvariceStreamReader'));
linkHost = _.text.ToString(link.GetHost());
linkPort = link.GetPort();
reconnectInterval = reconnectTime;
TryConnecting();
}
private final function TryConnecting()
{
if (linkPort <= 0)
{
_.logger.Auto(fatalBadPort)
.ArgInt(linkPort)
.Arg(ownerLink.GetName());
Destroy();
return;
}
// `linkPort` is a port we are connecting to, which is different
// from the port we have to bind to use `OpenNoSteam()` method
if (!portBound && BindPort(, true) <= 0)
{
_.logger.Auto(fatalCannotBindPort)
.Arg(ownerLink.GetName());
Destroy();
return;
}
portBound = true;
// Try to read `linkHost` as an IP address first, in case of failure -
// try to resolve it from the host name
StringToIpAddr(linkHost, remoteAddress);
remoteAddress.port = linkPort;
if (remoteAddress.addr == 0) {
Resolve(linkHost);
}
else {
OpenAddress();
}
timeSpentConnecting = 0.0;
}
event Resolved(IpAddr resolvedAddress)
{
remoteAddress.addr = resolvedAddress.addr;
OpenAddress();
}
event ResolveFailed()
{
_.logger.Auto(fatalCannotResolveHost).Arg(_.text.FromString(linkHost));
Destroy();
}
private final function OpenAddress()
{
if (!OpenNoSteam(remoteAddress))
{
_.logger.Auto(fatalCannotConnect).Arg(ownerLink.GetName());
Destroy();
}
}
event Opened()
{
_.logger.Auto(infoConnected).Arg(ownerLink.GetName());
if (ownerLink != none) {
ownerLink.ReceiveNetworkMessage(ANM_Connected);
}
else {
_.logger.Auto(fatalNoLink).Arg(ownerLink.GetName());
}
}
event Closed()
{
_.logger.Auto(infoDisconnected).Arg(ownerLink.GetName());
if (ownerLink != none) {
ownerLink.ReceiveNetworkMessage(ANM_Connected);
}
else {
_.logger.Auto(fatalNoLink).Arg(ownerLink.GetName());
}
portBound = false;
timeSpentConnecting = 0.0;
}
event Destroyed()
{
if (_ != none)
{
_.memory.Free(avariceReader);
_.memory.Free(encoder);
_.memory.Free(keyS);
_.memory.Free(keyT);
_.memory.Free(keyP);
if (ownerLink != none) {
ownerLink.ReceiveNetworkMessage(ANM_Death);
}
else {
_.logger.Auto(fatalNoLink).Arg(ownerLink.GetName());
}
}
}
event Tick(float delta)
{
if (linkState == STATE_Connected) {
HandleIncomingData();
}
else
{
timeSpentConnecting += delta;
if (timeSpentConnecting >= reconnectInterval)
{
Close();
TryConnecting();
timeSpentConnecting = 0.0;
}
}
}
private final function HandleIncomingData()
{
local int i, totalReceivedBytes;
local AvariceMessage nextMessage;
local array receivedMessages;
local int bytesRead;
bytesRead = ReadBinary(255, buffer);
while (bytesRead > 0)
{
totalReceivedBytes += bytesRead;
for (i = 0; i < bytesRead; i += 1) {
avariceReader.PushByte(buffer[i]);
}
bytesRead = ReadBinary(255, buffer);
}
if (avariceReader.Failed())
{
_.logger.Auto(fatalInvaliddUTF8).Arg(ownerLink.GetName());
Destroy();
return;
}
// Tell Avarice how many bytes we have received, so it can send
// more information
if (totalReceivedBytes > 0) {
SendReceived(totalReceivedBytes);
}
receivedMessages = avariceReader.PopMessages();
for (i = 0; i < receivedMessages.length; i += 1)
{
nextMessage = MessageFromText(receivedMessages[i]);
// This means received message is invalid,
// which means whatever we are connected to is feeding us invalid data,
// which means connection should be cut immediately
if (nextMessage == none)
{
_.logger.Auto(fatalInvalidMessage).Arg(ownerLink.GetName());
_.memory.Free(nextMessage);
_.memory.FreeMany(receivedMessages);
Destroy();
return;
}
ownerLink.ReceiveNetworkMessage(ANM_Message, nextMessage);
_.memory.Free(nextMessage);
}
_.memory.FreeMany(receivedMessages);
}
public final function SendMessage(Text textMessage)
{
local int i;
local int nextByte;
local ByteArrayRef message;
local int messageLength;
if (textMessage == none) {
return;
}
message = encoder.Encode(textMessage);
messageLength = message.GetLength();
// Signal that we are sending next message
buffer[0] = HEAD_MESSAGE;
// Next four bytes (with indices 1, 2, 3 and 4) must contain length of
// the message's contents as a 4-byte unsigned integer in big endian.
// UnrealScript does not actually have an unsigned integer type, but
// even `int`'s positive value range is enough, since avarice server
// will not accept message length that is even close to `MaxInt`.
buffer[4] = messageLength & byteMask;
messageLength -= buffer[4];
messageLength = messageLength >> 8;
buffer[3] = messageLength & byteMask;
messageLength -= buffer[3];
messageLength = messageLength >> 8;
buffer[2] = messageLength & byteMask;
messageLength -= buffer[2];
messageLength = messageLength >> 8;
buffer[1] = messageLength;
// Record the rest of the message in chunks of `255`, since `SendBinary()`
// can only send this much at once
nextByte = 5; // We have already added 5 bytes in the code above
messageLength = message.GetLength();
for (i = 0; i < messageLength; i += 1)
{
buffer[nextByte] = message.GetItem(i);
nextByte += 1;
if (nextByte >= 255)
{
nextByte = 0;
SendBinary(255, buffer);
}
}
// Cycle above only sent full chunks of `255`, so send the remainder now
if (nextByte > 0) {
SendBinary(nextByte, buffer);
}
message.FreeSelf();
}
private final function SendReceived(int received)
{
// Signal that we are sending amount of bytes received this tick
buffer[0] = HEAD_BYTES_RECEIVED;
// Next four bytes (with indices 1 and 2) must contain amount of bytes
// received as a 2-byte unsigned integer in big endian
buffer[2] = received & byteMask;
received -= buffer[2];
received = received >> 8;
buffer[1] = received;
SendBinary(3, buffer);
}
private final function AvariceMessage MessageFromText(Text message)
{
local Parser parser;
local AvariceMessage result;
local AssociativeArray parsedMessage;
local AcediaObject item;
if (message == none) {
return none;
}
parser = _.text.Parse(message);
parsedMessage = _.json.ParseObjectWith(parser);
parser.FreeSelf();
if (parsedMessage == none) {
return none;
}
result = AvariceMessage(_.memory.Allocate(class'AvariceMessage'));
item = parsedMessage.TakeItem(keyS, true);
if (item == none || item.class != class'Text')
{
_.memory.Free(item);
_.memory.Free(parsedMessage);
_.memory.Free(result);
return none;
}
result.service = Text(item);
item = parsedMessage.TakeItem(keyT, true);
if (item == none || item.class != class'Text')
{
_.memory.Free(item);
_.memory.Free(parsedMessage);
_.memory.Free(result);
return none;
}
result.type = Text(item);
result.parameters = parsedMessage.TakeItem(keyP, true);
_.memory.Free(parsedMessage);
return result;
}
defaultproperties
{
HEAD_BYTES_RECEIVED = 85
HEAD_MESSAGE = 42
byteMask = 255 // Only lowest 8 bits are `1`
infoConnected = (l=LOG_Info,m="Avarice link \"%1\" connected")
infoDisconnected = (l=LOG_Info,m="Avarice link \"%1\" disconnected")
fatalNoLink = (l=LOG_Fatal,m="Unexpected internal `none` value for Avarice link \"%1\"")
fatalBadPort = (l=LOG_Fatal,m="Bad port \"%1\" specified for Avarice link \"%2\"")
fatalCannotBindPort = (l=LOG_Fatal,m="Cannot bind port for Avarice link \"%1\"")
fatalCannotResolveHost = (l=LOG_Fatal,m="Cannot resolve host \"%1\" for Avarice link \"%2\"")
fatalCannotConnect = (l=LOG_Fatal,m="Connection for Avarice link \"%1\" was rejected")
fatalInvaliddUTF8 = (l=LOG_Fatal,m="Avarice link \"%1\" has received invalid UTF8, aborting connection")
fatalInvalidMessage = (l=LOG_Fatal,m="Avarice link \"%1\" has received invalid message, aborting connection")
}