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/* Project nGenEx
Destroyer Studios LLC
Copyright © 1997-2004. All Rights Reserved.
SUBSYSTEM: NetEx.lib
FILE: NetLink.cpp
AUTHOR: John DiCamillo
OVERVIEW
========
Network (IP) Socket Wrapper Implementation
*/
#include "MemDebug.h"
#include "NetLink.h"
#include "NetGram.h"
#include "NetMsg.h"
#include "NetPeer.h"
#include "NetLayer.h"
// +-------------------------------------------------------------------+
DWORD WINAPI NetLinkProc(LPVOID link);
const DWORD UDP_HEADER_SIZE = 34;
// +-------------------------------------------------------------------+
// client-side ctor
NetLink::NetLink()
: hnet(0), shutdown(false), traffic_time(50), resend_time(300),
packets_sent(0), packets_recv(0), bytes_sent(0), bytes_recv(0), retries(0), drops(0), lag(100)
{
ZeroMemory(lag_samples, sizeof(lag_samples));
lag_index = 0;
DWORD thread_id = 0;
hnet = CreateThread(0, 4096, NetLinkProc, (LPVOID) this, 0, &thread_id);
}
// server-side ctor
NetLink::NetLink(NetAddr& a)
: addr(a), hnet(0), shutdown(false), traffic_time(50), resend_time(300),
packets_sent(0), packets_recv(0), bytes_sent(0), bytes_recv(0), retries(0), drops(0), lag(100)
{
ZeroMemory(lag_samples, sizeof(lag_samples));
lag_index = 0;
sock.bind(addr);
DWORD thread_id = 0;
hnet = CreateThread(0, 4096, NetLinkProc, (LPVOID) this, 0, &thread_id);
}
NetLink::~NetLink()
{
if (!shutdown) {
shutdown = true;
}
if (hnet) {
WaitForSingleObject(hnet, 2000);
CloseHandle(hnet);
}
send_list.destroy(); // packets waiting to be ack'ed must be destroyed
recv_list.clear(); // received messages are owned by the peers
peer_list.destroy(); // but the net link owns the peers!
}
// +--------------------------------------------------------------------+
static DWORD base_netid = 1000;
DWORD
NetLink::AddPeer(const char* a, WORD p)
{
return AddPeer(NetAddr(a, p));
}
DWORD
NetLink::AddPeer(DWORD a, WORD p)
{
return AddPeer(NetAddr(a, p));
}
DWORD
NetLink::AddPeer(const NetAddr& a)
{
if (!a.IPAddr())
return 0;
AutoThreadSync auto_sync(sync);
NetPeer* peer = FindPeer(a);
if (!peer) {
peer = new(__FILE__, __LINE__) NetPeer(a, base_netid++);
if (peer)
peer_list.append(peer);
}
if (peer)
return peer->NetID();
return 0;
}
// +--------------------------------------------------------------------+
bool
NetLink::SendMessage(DWORD nid, void* d, int l, BYTE f)
{
return SendMessage(new(__FILE__,__LINE__) NetMsg(nid, d, l, f));
}
bool
NetLink::SendMessage(DWORD nid, BYTE type, const char* text, int len, BYTE f)
{
return SendMessage(new(__FILE__,__LINE__) NetMsg(nid, type, text, len, f));
}
bool
NetLink::SendMessage(NetMsg* msg)
{
if (msg) {
if (msg->Type() != NetMsg::INVALID &&
msg->Type() < NetMsg::RESERVED &&
msg->NetID()) {
NetPeer* p = FindPeer(msg->NetID());
if (p)
return p->SendMessage(msg);
}
delete msg;
}
return false;
}
// +--------------------------------------------------------------------+
NetMsg*
NetLink::GetMessage(DWORD netid)
{
NetMsg* msg = 0;
// receive from specific host:
if (netid) {
NetPeer* p = FindPeer(netid);
if (p) {
msg = p->GetMessage();
sync.acquire();
recv_list.remove(msg);
sync.release();
}
}
return msg;
}
// +--------------------------------------------------------------------+
NetMsg*
NetLink::GetMessage()
{
NetMsg* msg = 0;
// get first available packet:
// Double-checked locking:
if (recv_list.size()) {
sync.acquire();
if (recv_list.size()) {
msg = recv_list.removeIndex(0);
}
sync.release();
if (msg && msg->NetID()) {
NetPeer* p = FindPeer(msg->NetID());
if (p) {
p->GetMessage(); // remove message from peer's list
// don't do this inside of sync block -
// it might cause a deadlock
}
}
}
return msg;
}
// +--------------------------------------------------------------------+
void
NetLink::Shutdown()
{
shutdown = true;
}
// +--------------------------------------------------------------------+
DWORD WINAPI NetLinkProc(LPVOID link)
{
NetLink* netlink = (NetLink*) link;
if (netlink)
return netlink->DoSendRecv();
return (DWORD) E_POINTER;
}
DWORD
NetLink::DoSendRecv()
{
while (!shutdown) {
ReadPackets();
SendPackets();
// discard reeeeally old peers:
sync.acquire();
ListIter<NetPeer> iter = peer_list;
while (!shutdown && ++iter) {
NetPeer* peer = iter.value();
if ((NetLayer::GetUTC() - peer->LastReceiveTime()) > 300)
delete iter.removeItem();
}
sync.release();
Sleep(traffic_time);
}
return 0;
}
void
NetLink::ReadPackets()
{
while (!shutdown && sock.select(NetSock::SELECT_READ) > 0) {
NetGram* gram = RecvNetGram();
if (gram && gram->IsReliable()) {
if (gram->IsAck()) {
ProcessAck(gram);
delete gram;
}
else {
AckNetGram(gram);
QueueNetGram(gram);
}
}
else {
QueueNetGram(gram);
}
}
}
void
NetLink::SendPackets()
{
if (shutdown)
return;
if (sock.select(NetSock::SELECT_WRITE) > 0) {
DoRetries();
}
AutoThreadSync auto_sync(sync);
ListIter<NetPeer> iter = peer_list;
while (!shutdown && ++iter) {
NetPeer* p = iter.value();
NetGram* g = 0;
do {
if (sock.select(NetSock::SELECT_WRITE) > 0) {
g = p->ComposeGram();
if (g) {
SendNetGram(g);
}
}
else {
g = 0;
}
}
while (!shutdown && g);
}
}
// +--------------------------------------------------------------------+
void
NetLink::SendNetGram(NetGram* gram)
{
if (gram) {
if (gram->IsReliable()) {
send_list.append(gram);
}
int err = sock.sendto(gram->Body(), gram->Address());
if (err < 0) {
err = NetLayer::GetLastError();
}
else {
packets_sent += 1;
bytes_sent += gram->Size() + UDP_HEADER_SIZE;
}
if (!gram->IsReliable())
delete gram;
}
}
NetGram*
NetLink::RecvNetGram()
{
NetAddr from;
Text msg = sock.recvfrom(&from);
packets_recv += 1;
bytes_recv += msg.length() + UDP_HEADER_SIZE;
return new(__FILE__, __LINE__) NetGram(from, msg);
}
// +--------------------------------------------------------------------+
void
NetLink::AckNetGram(NetGram* gram)
{
if (gram) {
NetGram ack = gram->Ack();
int err = sock.sendto(ack.Body(), gram->Address());
if (err < 0)
err = NetLayer::GetLastError();
}
else {
Print("NetLink::AckNetGram( NULL!!! )\n");
}
}
void
NetLink::ProcessAck(NetGram* gram)
{
if (!shutdown && send_list.size()) {
AutoThreadSync auto_sync(sync);
// remove the ack flag:
gram->ClearAck();
// find a matching outgoing packet:
int sent = send_list.index(gram);
if (sent >= 0) {
NetGram* orig = send_list.removeIndex(sent);
DWORD time = NetLayer::GetTime();
DWORD msec = time - orig->SendTime();
double dlag = 0.75 * lag + 0.25 * msec;
if (lag_index >= 10) lag_index = 0;
lag_samples[lag_index++] = msec;
NetPeer* peer = FindPeer(orig->Address());
if (peer)
peer->SetLastReceiveTime(NetLayer::GetUTC());
delete orig;
lag = (DWORD) dlag;
if (lag > 100)
resend_time = 3 * lag;
else
resend_time = 300;
}
}
}
void
NetLink::QueueNetGram(NetGram* gram)
{
if (!shutdown) {
AutoThreadSync auto_sync(sync);
DWORD sequence = 0;
NetPeer* peer = FindPeer(gram->Address());
if (peer) {
sequence = peer->Sequence();
}
else {
peer = new(__FILE__, __LINE__) NetPeer(gram->Address(), base_netid++);
if (peer)
peer_list.append(peer);
}
if (!gram->IsReliable()) {
if (gram->Sequence() < sequence) { // discard, too old
delete gram;
return;
}
}
// sort this gram into the recv list(s) based on sequence:
if (peer) {
peer->ReceiveGram(gram, &recv_list);
}
}
}
// +--------------------------------------------------------------------+
void
NetLink::DoRetries()
{
if (!shutdown) {
AutoThreadSync auto_sync(sync);
if (send_list.size()) {
int time = (int) NetLayer::GetTime();
ListIter<NetGram> iter = send_list;
while (!shutdown && ++iter) {
NetGram* gram = iter.value();
// still trying ?
if (gram->Retries() > 0) {
DWORD last_send = gram->SendTime();
DWORD delta = time - last_send;
if (delta > resend_time) {
gram->Retry();
sock.sendto(gram->Body(), gram->Address());
retries++;
}
}
// oh, give it up:
else {
iter.removeItem();
delete gram;
drops++;
}
}
}
}
}
// +--------------------------------------------------------------------+
NetPeer*
NetLink::FindPeer(DWORD netid)
{
AutoThreadSync auto_sync(sync);
NetPeer* peer = 0;
ListIter<NetPeer> iter = peer_list;
while (++iter && !peer) {
NetPeer* p = iter.value();
if (p->NetID() == netid)
peer = p;
}
return peer;
}
NetPeer*
NetLink::FindPeer(const NetAddr& a)
{
AutoThreadSync auto_sync(sync);
NetPeer* peer = 0;
ListIter<NetPeer> iter = peer_list;
while (++iter && !peer) {
NetPeer* p = iter.value();
if (p->Address() == a)
peer = p;
}
return peer;
}
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