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/*==LICENSE==*
CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011 Cyan Worlds, Inc.
This program 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.
This program 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 this program. If not, see <http://www.gnu.org/licenses/>.
You can contact Cyan Worlds, Inc. by email legal@cyan.com
or by snail mail at:
Cyan Worlds, Inc.
14617 N Newport Hwy
Mead, WA 99021
*==LICENSE==*/
/*****************************************************************************
*
* $/Plasma20/Sources/Plasma/NucleusLib/pnNetLog/pnNlCli.cpp
*
***/
#include "Pch.h"
#pragma hdrstop
/*****************************************************************************
*
* Private
*
***/
struct NetLogConn : SrvConn {
NetAddress netaddr;
ESrvType srvType;
NetLogConn (const NetAddress & addr, ESrvType srvType);
~NetLogConn ();
void Connect (
AsyncCancelId * cancelId,
FAsyncNotifySocketProc notifyProc,
void * param
);
};
struct LogMsgTrans : SrvTrans {
Srv2Log_LogMsg *msgBuffer;
LogMsgTrans();
~LogMsgTrans();
bool OnTransReply (
ENetError * error,
SrvMsgHeader * msg
);
};
struct LogConnEventNode {
LINK(LogConnEventNode) link;
Srv2Log_LogMsg * msg;
unsigned sendTimeMs;
LogConnEventNode(Srv2Log_LogMsg *msg, unsigned timeStampMs);
};
/*****************************************************************************
*
* Private Data
*
***/
static NetLogConn * s_conn;
static CCritSect s_critsect;
static IniChangeReg * s_change;
static ESrvType s_srvType;
static LISTDECL(LogConnEventNode, link) s_eventQueue;
static AsyncTimer * s_timer;
static long s_perf[kNlCliNumPerf];
static bool s_running;
static const unsigned kIssueSaveMs = 100;
static const unsigned kMaxNumberOfTransactions = 2000;
/*****************************************************************************
*
* Private Functions
*
***/
//============================================================================
static NetLogConn * GetConnIncRef () {
NetLogConn * conn;
s_critsect.Enter();
{
if (nil != (conn = s_conn))
conn->IncRef();
}
s_critsect.Leave();
return conn;
}
//============================================================================
static void NetLogConnConnect (NetAddress & addr, ESrvType srvType) {
NetLogConn *conn = SRV_CONN_ALLOC(NetLogConn)(addr, srvType);
s_critsect.Enter();
{
SWAP(s_conn, conn);
}
s_critsect.Leave();
if (conn)
conn->Destroy();
}
//============================================================================
static void NetLogConnDisconnect () {
NetLogConn *conn = nil;
s_critsect.Enter();
{
SWAP(s_conn, conn);
}
s_critsect.Leave();
if (conn)
conn->Destroy();
}
//============================================================================
static void AddEventNode (Srv2Log_LogMsg *msg) {
LogConnEventNode *node = NEW(LogConnEventNode)(msg, TimeGetMs() + kIssueSaveMs);
s_critsect.Enter();
{
s_eventQueue.Link(node);
}
s_critsect.Leave();
AsyncTimerUpdate(
s_timer,
kIssueSaveMs,
kAsyncTimerUpdateSetPriorityHigher
);
}
//============================================================================
static void ParseIni (Ini * ini) {
unsigned iter;
const IniValue * value = IniGetFirstValue(
ini,
L"Server Locations",
L"LogSrv",
&iter
);
if (value) {
wchar addrStr[32];
IniGetString(value, addrStr, arrsize(addrStr), 0, nil);
NetAddress addr;
NetAddressFromString(&addr, addrStr, kNetDefaultServerPort);
NetLogConnConnect(addr, s_srvType);
}
}
//============================================================================
static void IniChangeCallback (const wchar fullPath[]) {
Ini * ini = IniOpen(fullPath);
ParseIni(ini);
IniClose(ini);
}
//============================================================================
static unsigned TimerCallback (void *) {
LISTDECL(LogConnEventNode, link) sendList;
unsigned sleepMs = kAsyncTimeInfinite;
s_critsect.Enter();
{
int allowedNumTrans = kMaxNumberOfTransactions - s_perf[kNlCliNumPendingSaves]; // find the number of transactions that we can send based on the number in transit, and the max number allowed
if(allowedNumTrans < 0) // this could be negative, if so set to zero
allowedNumTrans = 0;
dword currTime = TimeGetMs();
LogConnEventNode *hash;
int timeDiff;
// Add pending saves, up to the max allowed per update
for(;;) {
if(!allowedNumTrans && s_running) {
sleepMs = 5000; // we are at our max number of transactions sleep for 5 seconds and try again
break;
}
hash = s_eventQueue.Head();
if(!hash)
break; // no messages left. We will wait until another message comes in before another timer update
timeDiff = hash->sendTimeMs - currTime;
// nodes are naturally ordered by increasing sendTimeMs
if(!s_running || (timeDiff <= 0)) {
sendList.Link(hash);
--allowedNumTrans;
}
else {
sleepMs = timeDiff;
break;
}
}
}
s_critsect.Leave();
while(LogConnEventNode *node = sendList.Head()) {
LogMsgTrans * trans = SRV_TRANS_ALLOC(LogMsgTrans);
trans->msgBuffer = node->msg;
if (NetLogConn * conn = GetConnIncRef()) {
conn->SendRequest(trans, node->msg);
conn->DecRef();
}
else {
trans->TransCancel(kNetErrTimeout);
}
delete node;
}
return sleepMs;
}
//============================================================================
static unsigned CalcArgsLength (const NetLogEvent &event, va_list args) {
unsigned length = 0;
unsigned paramType = kNumLogParamTypes; // invalidate
unsigned field = 0;
for(unsigned i = 0; i < event.numFields * 2; ++i) {
if(!(i % 2)) {
paramType = va_arg(args, unsigned);
continue;
}
//validate parameter type
if(paramType != (unsigned)event.fields[field].type) {
length = 0;
LogMsg( kLogError, "Log parameter types do not match for event: %s parameter: %s?", event.eventName, event.fields[field].name);
break;
}
switch(event.fields[field].type) {
case kLogParamInt: {
va_arg(args, int);
length += sizeof(int);
}
break;
case kLogParamUnsigned: {
va_arg(args, unsigned);
length += sizeof(unsigned);
}
break;
case kLogParamFloat: {
va_arg(args, float);
length += sizeof(float);
}
break;
case kLogParamLong: {
va_arg(args, long);
length += sizeof(long);
}
break;
case kLogParamLongLong: {
va_arg(args, long long);
length += sizeof(long long);
}
break;
case kLogParamUuid: {
va_arg(args, Uuid);
length += sizeof(Uuid);
}
break;
case kLogParamStringW: {
wchar *str = va_arg(args, wchar *);
if(!str)
str = L"";
length += StrBytes(str);
}
break;
default:
hsAssert(false, "Unknown argument type in log statement");
return 0;
}
++field;
}
return length;
}
/*****************************************************************************
*
* NetLogConn
*
***/
//============================================================================
NetLogConn::NetLogConn (const NetAddress & addr, ESrvType srvType)
: netaddr(addr),
srvType(srvType)
{
AtomicAdd(&s_perf[kNlCliNumConn], 1);
SetAutoPing();
AutoReconnect();
}
//============================================================================
NetLogConn::~NetLogConn () {
AtomicAdd(&s_perf[kNlCliNumConn], -1);
}
//============================================================================
void NetLogConn::Connect (
AsyncCancelId * cancelId,
FAsyncNotifySocketProc notifyProc,
void * param
) {
// Connect to remote server
Srv2Log_Connect connect;
connect.hdr.connType = kConnTypeSrvToLog;
connect.hdr.hdrBytes = sizeof(connect.hdr);
connect.hdr.buildId = BuildId();
connect.hdr.buildType = BUILD_TYPE_LIVE;
connect.hdr.branchId = BranchId();
connect.hdr.productId = ProductId();
connect.data.dataBytes = sizeof(connect.data);
connect.data.buildId = BuildId();
connect.data.srvType = srvType;
connect.data.buildType = BUILD_TYPE_LIVE;
connect.data.productId = ProductId();
AsyncSocketConnect(
cancelId,
netaddr,
notifyProc,
param,
&connect,
sizeof(connect)
);
}
/*****************************************************************************
*
* LogMsgTrans
*
***/
//============================================================================
LogMsgTrans::LogMsgTrans ()
: msgBuffer(nil)
{
AtomicAdd(&s_perf[kNlCliNumTrans], 1);
}
//============================================================================
LogMsgTrans::~LogMsgTrans () {
AtomicAdd(&s_perf[kNlCliNumTrans], -1);
}
//============================================================================
bool LogMsgTrans::OnTransReply (
ENetError * error,
SrvMsgHeader * msg
) {
ref(msg);
bool result;
if (msg->protocolId != kNetProtocolSrv2Log) {
result = SrvTrans::OnTransReply(error, msg);
}
else {
result = true;
}
if(IS_NET_ERROR(*error) && s_running) {
AddEventNode(msgBuffer);
}
else {
FREE(msgBuffer);
}
return true;
}
/*****************************************************************************
*
* LogConnEventNode
*
***/
//============================================================================
LogConnEventNode::LogConnEventNode (Srv2Log_LogMsg *msg, unsigned sendTimeMs)
: msg(msg),
sendTimeMs(sendTimeMs)
{
}
/*****************************************************************************
*
* Protected
*
***/
//============================================================================
void NetLogCliInitialize (ESrvType srvType) {
s_running = true;
s_srvType = srvType;
AsyncTimerCreate(
&s_timer,
TimerCallback,
kAsyncTimeInfinite,
nil
);
IniChangeAdd(L"plServer", IniChangeCallback, &s_change);
}
//============================================================================
void NetLogCliShutdown () {
s_running = false;
if(s_change) {
IniChangeRemove(s_change, true);
s_change = false;
}
if(s_timer) {
AsyncTimerDeleteCallback(s_timer, TimerCallback);
s_timer = nil;
}
NetLogConnDisconnect();
}
//============================================================================
void NetLogCliDestroy () {
while(s_perf[kNlCliNumTrans])
AsyncSleep(10);
while(s_perf[kNlCliNumConn])
AsyncSleep(10);
}
//============================================================================
void NetLogCliSendEvent (const NetLogEvent &event, va_list args) {
Srv2Log_LogMsg *msg;
unsigned length = CalcArgsLength(event, args);
if(!length)
return;
CSrvPackBuffer pack(
sizeof(*msg) +
length
);
msg = (Srv2Log_LogMsg *) pack.Alloc(sizeof(*msg));
msg->transId = 0;
msg->protocolId = kNetProtocolSrv2Log;
msg->messageId = kSrv2Log_LogMsg;
msg->eventType = event.logEventType;
msg->timestamp = TimeGetLocalTime();
unsigned field = 0;
unsigned paramType = kNumLogParamTypes;
// if we get here the template parameters have already been validated by CalcLength, no need to do that again.
for(unsigned i = 0; i < event.numFields * 2; ++i) {
if(!(i % 2)) {
paramType = va_arg(args, unsigned);
continue;
}
switch(event.fields[field].type) {
case kLogParamInt: {
int i = va_arg(args, int);
pack.AddData(&i, sizeof(int));
}
break;
case kLogParamUnsigned: {
unsigned u = va_arg(args, unsigned);
pack.AddData(&u, sizeof(unsigned));
}
break;
case kLogParamFloat: {
float f = va_arg(args, float);
pack.AddData(&f, sizeof(float));
}
break;
case kLogParamLong: {
long l = va_arg(args, long);
pack.AddData(&l, sizeof(long));
}
break;
case kLogParamLongLong: {
long long ll = va_arg(args, long long);
pack.AddData(&ll, sizeof(long long));
}
break;
case kLogParamUuid: {
Uuid uuid = va_arg(args, Uuid);
pack.AddData(&uuid, sizeof(Uuid));
}
break;
case kLogParamStringW: {
wchar *str = va_arg(args, wchar *);
if(!str)
str = L"";
pack.AddString(str);
}
break;
}
++field;
}
msg->messageBytes = pack.Size();
AddEventNode(msg);
}