khanat-opennel-code/code/ryzom/server/src/logger_service/logger_service.cpp

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// Ryzom - MMORPG Framework <http://dev.ryzom.com/projects/ryzom/>
// Copyright (C) 2010 Winch Gate Property Limited
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero 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 Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
#include "nel/misc/types_nl.h"
#include <list>
#include <time.h>
#include "nel/misc/time_nl.h"
#include "nel/misc/thread.h"
#include "nel/misc/random.h"
#include "nel/misc/singleton.h"
#include "nel/net/service.h"
#include "nel/net/module.h"
#include "nel/net/module_builder_parts.h"
#include "server_share/logger_service_itf.h"
#include "game_share/inventories.h"
#include "game_share/backup_service_interface.h"
#include "game_share/singleton_registry.h"
#include "game_share/shard_names.h"
#include "logger_service.h"
#include "log_query.h"
#include "log_storage.h"
#ifdef NL_OS_WINDOWS
# define NOMINMAX
# include <windows.h>
#endif // NL_OS_WINDOWS
using namespace std;
using namespace NLMISC;
using namespace NLNET;
using namespace INVENTORIES;
using namespace LGS;
CVariable<string> LQLState("lgs", "LQLState", "The current Query state", "");
CVariable<uint32> LastFinishedQuery("lgs", "LastFinishedQuery", "The number of the last finished request", 0);
CVariable<string> LogQueryResultFile("lgs", "LogQueryResultFile", "The file used to output the query result", "log_query_result.txt");
extern void admin_modules_forceLink();
void foo()
{
admin_modules_forceLink();
}
uint32 randu32(CRandom &rand, uint32 mod)
{
uint32 ret = (((uint32)rand.rand(0xffff))<<16)+rand.rand(0xffff);
return ret % mod;
}
sint32 rands32(CRandom &rand, sint32 mod)
{
sint32 ret = (((sint32)rand.rand(0xffff))<<16)+rand.rand(0xffff);
return ret % mod;
}
uint64 randu64(CRandom &rand, uint64 mod)
{
uint64 ret = (((uint64)randu32(rand, 0xffffffff))<<32)+randu32(rand, 0xffffffff);
return ret % mod;
}
/** An safe inter-thread communication channel.
* Allow safe transmission of object of type T
* from one thread to another (need 2 channel
* for a bi-di operation).
*/
template <class T>
class CThreadChannel
{
/// the object ready to be transfered to the receiver thread
list<T> _Datas;
/// The mutex that protect the object.
NLMISC::CMutex _Mutex;
/// Wait until a data is available or channel empty,
/// NB : The is Aquired on exit to be sure that the wait will lock the
/// available data.
/// NB : the mutex MUST be aquired before calling wait
void wait(bool empty)
{
// NB : this is a very dirty implementation using a waiting loop.
// A correct one should use win32 event or unix semaphore for
// efficiency.
/// Loop until there is some data to read or no more date
do
{
_Mutex.leave();
// begin by a sleep
nlSleep(100);
_Mutex.enter();
} while(_Datas.empty() != empty);
// exit with mutex acquired
}
public:
/// Write data to the channel
void write(const T &t)
{
CAutoMutex<CMutex> mutex(_Mutex);
_Datas.push_back(t);
}
/// Write data to the channel and wait until the value
/// is read
void syncWrite(const T &t)
{
_Mutex.enter();
_Datas.push_back(t);
// loop and wait until the lost is empty, i.e the data just
// pushed back has been read by another thread.
wait(true);
_Mutex.leave();
}
/// Read a data. Block if no data available
T read()
{
_Mutex.enter();
if (_Datas.empty())
{
// wait for an object to be available
wait(false);
// NB : the mutex is entered by the wait method
}
T t = _Datas.front();
_Datas.pop_front();
_Mutex.leave();
return t;
}
/// Return true if the channel is empty, i.e there is no data to read
bool empty()
{
CAutoMutex<CMutex> lock(_Mutex);
return _Datas.empty();
}
/// Peek a reference on a data. Block if no data available
const T &peek()
{
_Mutex.enter();
if (_Datas.empty())
{
// wait for an object to be available
wait(false);
// NB : the mutex is entered by the wait method
}
const T &t = _Datas.front();
_Mutex.leave();
return t;
}
/// Try to read a data.
/// Return true if a data have been read, false otherwise
bool read(T &result)
{
CAutoMutex<CMutex> lock(_Mutex);
if (_Datas.empty())
{
// no data available
return false;
}
result = _Datas.front();
_Datas.pop_front();
return true;
}
/// Try to read a data if a data is available AND if the predicate is valid.
/// Return true if a data have been read, false otherwise
template <class predicate>
bool read(T &result, const predicate &pred)
{
CAutoMutex<CMutex> lock(_Mutex);
if (_Datas.empty())
{
// no data available
return false;
}
if (!pred(_Datas.front()))
{
// the predicate is not ok
return false;
}
result = _Datas.front();
_Datas.pop_front();
return true;
}
};
// the logger module
class CLoggerServiceMod
: public CEmptyModuleServiceBehav<CEmptyModuleCommBehav<CEmptySocketBehav<CModuleBase> > >,
public LGS::CLoggerServiceSkel
{
typedef map<TModuleProxyPtr, TShardId> TLogClients;
// A list of logger client
TLogClients _Clients;
// The log definitions
TLogDefinitions _LogDefs;
typedef map<std::string, size_t> TLogDefLindex;
// the log def index
TLogDefLindex _LogDefIndex;
/// the log serial number
uint32 _LogId;
/// storage for the log entries
TLogInfos _LogInfos;
/// 'manual' count of log entry (because list<>.size() id not constant time)
size_t _LogInfosSize;
/// A mutex to protect the access to the log info when the query thread read
/// the log in memory
CMutex _LogMutex;
/// date of last 'minute' log output
uint32 _LastMinuteOutput;
/// date of last 'hourly' consolidation
uint32 _LastHourlyProcess;
/// Line counter of current request being written to backup service
uint32 _WriteLineCounter;
/// Query number, used to number each query sent to the worker thread.
uint32 _LastQueryNumber;
enum
{
MinuteDelay = 60,
HourlyDelay = 60*60,
};
enum TQueryCommand
{
/// execute a query
qc_query,
/// interrupt the current query
qc_interupt,
/// Terminate the query thread
qc_terminate
};
struct TThreadCommand
{
TQueryCommand QueryCommand;
uint32 QueryNumber;
string QueryString;
};
struct TQueryInterupPred
{
bool operator () (const TThreadCommand &command) const
{
return command.QueryCommand == qc_interupt;
}
};
friend struct TQueryInterupPred;
enum TQueryStatus
{
/// Normal status report, put in the log output
qs_log,
/// push a service state string
qs_push_state,
/// pop a service state string
qs_pop_state,
/// Set the LQL state variable
qs_lql_state,
invalid
};
struct TThreadStatus
{
volatile TQueryStatus ThreadStatus;
string StatusString;
TThreadStatus(TQueryStatus threadStatus, const string &statusString)
: ThreadStatus(threadStatus),
StatusString(statusString)
{}
};
struct TThreadResult
{
uint32 QueryNumber;
string OutputFilename;
std::list<string> *Lines;
};
/// A thread channel used by the service to control the query thread
CThreadChannel<TThreadCommand> _QueryCommands;
/// A thread channel used by the query thread to report status string
CThreadChannel<TThreadStatus> _QueryStatus;
/// A thread channel used by the query thread to report query result to be
/// stored on disk by the main thread using the backup service interface.
CThreadChannel<TThreadResult> _QueryResult;
/// the thread used to execute the query
class CQueryThread : public NLMISC::IRunnable
{
public:
CLoggerServiceMod *_LoggerService;
CQueryThread(CLoggerServiceMod *loggerService)
: _LoggerService(loggerService)
{
}
virtual void getName (std::string &result) const
{
result = "QueryThread";
}
virtual void run()
{
while (true)
{
TThreadCommand tc = _LoggerService->_QueryCommands.read();
if (tc.QueryCommand == qc_terminate)
// terminate the thread
return;
if (tc.QueryCommand == qc_query)
{
// execute a query
_LoggerService->executeQuery(tc.QueryString, tc.QueryNumber);
}
}
}
};
friend class CLoggerServiceMod::CQueryThread;
/// the query thread
IThread *_QueryThread;
public:
CLoggerServiceMod()
: _LogInfosSize(0),
_LogId(0),
_LastMinuteOutput(0),
_LastHourlyProcess(0),
_LastQueryNumber(0),
_WriteLineCounter(0),
_QueryThread(NULL)
{
CLoggerServiceSkel::init(this);
}
~CLoggerServiceMod()
{
// stop the query thread
TThreadCommand tc;
tc.QueryCommand = qc_interupt;
_QueryCommands.write(tc);
tc.QueryCommand = qc_terminate;
_QueryCommands.write(tc);
// wait thread termination
_QueryThread->wait();
// consolidate the last logs
doHourlyProcess();
}
bool initModule(const TParsedCommandLine &initInfo)
{
CModuleBase::initModule(initInfo);
// Check and eventually process the hourly output of the preceding minute run
consolidatePreviousFiles();
// start the query thread
_QueryThread = IThread::create(new CQueryThread(this));
_QueryThread->start();
return true;
}
void onModuleDown(IModuleProxy *moduleProxy)
{
// check if this is one of our client
TLogClients::iterator it(_Clients.find(moduleProxy));
if (it != _Clients.end())
{
nlinfo("Logger client '%s' disconnected'", moduleProxy->getModuleName().c_str());
_Clients.erase(it);
}
}
void onModuleUpdate()
{
uint32 now = CTime::getSecondsSince1970();
if (now > _LastHourlyProcess+HourlyDelay)
{
// do the hourly process
_LogMutex.enter();
doHourlyProcess();
_LogMutex.leave();
// update working time
_LastHourlyProcess = now;
_LastMinuteOutput = now;
}
if (now > _LastMinuteOutput+MinuteDelay)
{
// do the minute output
_LogMutex.enter();
CLogStorage ls(_LogDefs);
ls.saveMinutely(_LogInfos);
_LogMutex.leave();
_LastMinuteOutput = now;
}
// check status from query thread
TThreadStatus status(invalid, string());
while (_QueryStatus.read(status))
{
switch (status.ThreadStatus)
{
case qs_log:
nlinfo("Request Status : %s", status.StatusString.c_str());
break;
case qs_push_state:
IService::getInstance()->setCurrentStatus(status.StatusString);
break;
case qs_pop_state:
IService::getInstance()->clearCurrentStatus(status.StatusString);
break;
case qs_lql_state:
LQLState = status.StatusString;
break;
}
}
// check the thread result
if (!_QueryResult.empty())
{
// NB : the query result is stored in chunk of 10K lines at a time
// to reduce packet size to the backup service.
// counter is used to track the state of the current result writing
// between module update.
// the query thread has posted a result, send it the the BS
const TThreadResult &threadResult = _QueryResult.peek();
uint32 nbLog = (uint32)threadResult.Lines->size();
if( _WriteLineCounter != nbLog)
{
bool firstBlock = _WriteLineCounter == 0;
CBackupMsgSaveFile saveFile(BsiGlobal.getRemotePath()+"/"+threadResult.OutputFilename,
firstBlock ? CBackupMsgSaveFile::SaveFile : CBackupMsgSaveFile::AppendFile ,
BsiGlobal);
saveFile.FileName = threadResult.OutputFilename;
char *newLine="\n";
list<string>::const_iterator first(threadResult.Lines->begin()), last(threadResult.Lines->end());
for (uint32 localCounter = 0; first != last; ++first, ++localCounter)
{
if (localCounter < _WriteLineCounter)
{
// skip the first line until we reach the last already saved line
continue;
}
saveFile.DataMsg.serialBuffer((uint8*)&(*first->begin()), (uint)first->size());
saveFile.DataMsg.serialBuffer((uint8*)newLine, 1);
++_WriteLineCounter;
if (saveFile.DataMsg.length() > CBufNetBase::DefaultMaxSentBlockSize/2)
{
// segment the output soo that it never exceed the maximum message size allowed
break;
}
}
LQLState = toString("Writing result logs %u/%u...", _WriteLineCounter+1, nbLog);
// send the file to the backup service
if (firstBlock)
{
// this is the first part of the file
BsiGlobal.sendFile(saveFile);
}
else
{
BsiGlobal.append(saveFile);
}
}
else
{
// The last write has been completed during the previous update,
/// mark the request as terminated.
// we have finished to write the result
_WriteLineCounter = 0;
LastFinishedQuery = threadResult.QueryNumber;
// consume the data in the channel to unlock the query thread
_QueryResult.read();
}
}
}
void doHourlyProcess()
{
// 1- generate the hourly output
CLogStorage ls(_LogDefs);
ls.saveHourly(_LogInfos);
// 2- remove minute outputs
std::string logRoot = ls.getLogRoot();
vector<string> files;
CPath::getPathContent(logRoot, false, false, true, files, NULL, true);
for (uint i=0; i<files.size(); ++i)
{
if (files[i].find("minutely") != string::npos)
{
// ok, this is a minute output, remove it
CFile::deleteFile(files[i]);
}
}
// 3- cleanup logs from memory
_LogInfos.clear();
}
/// Rebuild the last 'hourly' from residual minutely files found on disk
void consolidatePreviousFiles()
{
CLogStorage ls;
std::string logRoot = ls.getLogRoot();
vector<string> files;
CPath::getPathContent(logRoot, false, false, true, files, NULL, true);
for (uint i=0; i<files.size(); ++i)
{
if (files[i].find("minutely") != string::npos && files[i].find(".binlog") == files[i].size()-7)
{
ls.loadLogs(files[i]);
}
}
// save all logs in one file
ls.saveLogfile("hourly_");
// delete minute files (even those .tmp file left by failed copy)
for (uint i=0; i<files.size(); ++i)
{
if (files[i].find("minutely") != string::npos)
{
CFile::deleteFile(files[i]);
}
}
}
///////////////////////////////////////////////////////////////////////////
///// CLoggetServiceSkel implementation /////////////////////////////
///////////////////////////////////////////////////////////////////////////
// A logger client register itself wy providing it's definition of
// the log content. It is mandatory that ALL client share
// Exactly the same definition of log.
virtual void registerClient(NLNET::IModuleProxy *sender, uint32 shardId, const std::vector < TLogDefinition > &logDef)
{
CAutoMutex<CMutex> lock(_LogMutex);
// check that the client use the correct log format
if (_LogDefs.empty() || _Clients.empty())
{
// clear any log still in memory
// TODO : finish close the current log file
_LogInfos.clear();
_LogInfosSize = 0;
// this is the first client, or no other client connected, it define the format
_LogDefs = logDef;
// init the index
_LogDefIndex.clear();
for (uint i=0; i<_LogDefs.size(); ++i)
{
_LogDefIndex.insert(make_pair(_LogDefs[i].getLogName(), i));
}
}
else
{
if (_LogDefs != logDef)
{
// this client use a different format, reject him
nlwarning("Client %s from shard %u connect with a different log format!",
sender->getModuleName().c_str(),
shardId);
// make the information visible to admins
IService::getInstance()->addStatusTag("INVALID_CLIENT");
return;
}
}
// ok, store it in the client base
_Clients.insert(make_pair(sender, shardId));
}
// A client send a log
virtual void reportLog(NLNET::IModuleProxy *sender, const std::vector < TLogInfo > &logInfos)
{
CAutoMutex<CMutex> lock(_LogMutex);
// 1st check that the client is allowed
TLogClients::iterator it = _Clients.find(sender);
if (it == _Clients.end())
{
// ignoring log of unidentified or rejected client
nlinfo("Ignoring log from 's'", sender->getModuleName().c_str());
return;
}
// for each log received
for (uint l=0; l<logInfos.size(); ++l)
{
const TLogInfo &logInfo = logInfos[l];
// 2nd find the log desc
TLogDefLindex::iterator logDefIt = _LogDefIndex.find(logInfo.getLogName());
if (logDefIt == _LogDefIndex.end())
{
nlwarning("Service '%s' send unknown log named '%s'",
sender ? sender->getModuleName().c_str() : "NULL",
logInfo.getLogName().c_str());
return;
}
// 3rd validate the parameter list
nlassert(logDefIt->second < _LogDefs.size());
const TLogDefinition &ld = _LogDefs[logDefIt->second];
if (logInfo.getParams().size() != ld.getParams().size())
{
nlwarning("Service '%s' send log '%s' with %u param instead of %u",
sender ? sender->getModuleName().c_str() : "NULL",
logInfo.getLogName().c_str(),
logInfo.getParams().size(),
ld.getParams().size());
return;
}
if (logInfo.getListParams().size() != ld.getListParams().size())
{
nlwarning("Service '%s' send log '%s' with %u listParam instead of %u",
sender ? sender->getModuleName().c_str() : "NULL",
logInfo.getLogName().c_str(),
logInfo.getListParams().size(),
ld.getListParams().size());
return;
}
for (uint i=0; i<ld.getParams().size(); ++i)
{
if (ld.getParams()[i].getType() != logInfo.getParams()[i].getType())
{
nlwarning("Service '%s' send log '%s' with %uth param (%s) of type %s instead of %s",
sender ? sender->getModuleName().c_str() : "NULL",
logInfo.getLogName().c_str(),
i+1,
ld.getParams()[i].getName().c_str(),
logInfo.getParams()[i].getType().toString().c_str(),
ld.getParams()[i].getType().toString().c_str());
return;
}
}
for (uint i=0; i<ld.getListParams().size(); ++i)
{
const LGS::TListParamValues &values = logInfo.getListParams()[i];
std::list < LGS::TParamValue >::const_iterator first(values.getParams().begin()), last(values.getParams().end());
for (uint j=0; first != last; ++first, ++j)
{
if (ld.getListParams()[i].getType() != first->getType())
{
nlwarning("Service '%s' send log '%s' with %uth listParam (%s) of type %s instead of %s",
sender ? sender->getModuleName().c_str() : "NULL",
logInfo.getLogName().c_str(),
i+1,
ld.getParams()[i].getName().c_str(),
first->getType().toString().c_str(),
ld.getParams()[i].getType().toString().c_str());
return;
}
}
}
// 4st store the log
_LogInfos.push_back(TLogEntry());
++_LogInfosSize;
_LogInfos.back().LogId = _LogId++;
_LogInfos.back().ShardId = it->second;
_LogInfos.back().LogInfo = logInfo;
}
}
void queryLogs(const std::string queryString, const CLogStorage &ls, list<string> &result, uint32 &totalLogParsed, uint32 &totalLogSelected, uint32 &totalLogOutput)
{
uint32 now= CTime::getSecondsSince1970();
CQueryParser qp(ls._LogDefs);
CQueryParser::TParserResult pr = qp.parseQuery(queryString, false);
if (pr.QueryTree.get() != NULL)
{
totalLogParsed += (uint32)ls._DiskLogEntries.size();
TLogEntries logs = pr.QueryTree->evalNode(ls);
totalLogSelected += (uint32)logs.size();
// add the context log to the selection
vector<uint32> contextLogs;
TLogEntries::iterator first(logs.begin()), last(logs.end());
for (; first != last; ++first)
{
uint32 id = *first;
const CLogStorage::TDiskLogEntry &dle = ls._DiskLogEntries[id];
uint32 stackSize = dle.ContextStack;
uint32 lowerStackSize = dle.ContextStack;
// select opening logs
while (stackSize > 0 && id > 0)
{
--id;
if (ls._DiskLogEntries[id].LogDate == 0)
{
if (stackSize == lowerStackSize || pr.FullContext)
contextLogs.push_back(id);
--stackSize;
lowerStackSize = min(lowerStackSize, stackSize);
}
else if (ls._DiskLogEntries[id].LogDate == ~0)
{
++stackSize;
if (pr.FullContext)
contextLogs.push_back(id);
}
else if (pr.FullContext)
{
contextLogs.push_back(id);
}
}
// select closing logs
id = *first;
stackSize = dle.ContextStack;
lowerStackSize = dle.ContextStack;
while (stackSize > 0 && id < ls._DiskLogEntries.size()-1)
{
++id;
if (ls._DiskLogEntries[id].LogDate == 0)
{
++stackSize;
if (pr.FullContext)
contextLogs.push_back(id);
}
else if (ls._DiskLogEntries[id].LogDate == ~0)
{
if (stackSize == lowerStackSize || pr.FullContext)
contextLogs.push_back(id);
--stackSize;
lowerStackSize = min(lowerStackSize, stackSize);
}
else if (pr.FullContext)
{
contextLogs.push_back(id);
}
}
}
// insert the selected context
logs.insert(contextLogs.begin(), contextLogs.end());
totalLogOutput += (uint32)logs.size();
// output the final log selection
first = logs.begin();
last = logs.end();
for (; first != last; ++first)
{
uint32 id = *first;
const CLogStorage::TDiskLogEntry &dle = ls._DiskLogEntries[id];
const LGS::TLogDefinition &logDef = ls._LogDefs[dle.LogType];
CSString logLine;
logLine.reserve(256);
string shardName = CShardNames::getInstance().getShardName(dle.ShardId);
if (shardName.empty())
logLine << "ShardId="<<dle.ShardId<<":";
else
logLine << "ShardId="<<shardName<<":";
for (uint i=0; i<dle.ContextStack; ++i)
logLine << " ";
if (dle.LogDate == 0)
logLine << "OpenContext "<<logDef.getLogName()<<":"<<logDef.getLogText()<<":";
else if (dle.LogDate == ~0)
logLine << "CloseContext "<<logDef.getLogName()<<":";
else
logLine << formatDate(dle.LogDate)<< "("<<CTime::getHumanRelativeTime(now-dle.LogDate)<<"):"<<logDef.getLogName()<<":"<<logDef.getLogText()<<":";
for (uint j=0; j<dle.ParamIndex.size(); ++j)
{
const LGS::TParamDesc &paramDesc = logDef.getParams()[j];
CLogStorage::TLogParamId lpi;
lpi.ParamName = paramDesc.getName();
lpi.ParamType = paramDesc.getType();
nlassert(ls._ParamTables.find(lpi) != ls._ParamTables.end());
if (lpi.ParamType == LGS::TSupportedParamType::spt_string)
logLine << " "<<paramDesc.getName()<<"=\""<<ls._ParamTables.find(lpi)->second[dle.ParamIndex[j]].toString()<<"\"";
else
logLine << " "<<paramDesc.getName()<<"="<<ls._ParamTables.find(lpi)->second[dle.ParamIndex[j]].toString();
}
for (uint j=0; j<dle.ListParamIndex.size(); ++j)
{
const LGS::TParamDesc &paramDesc = logDef.getListParams()[j];
CLogStorage::TLogParamId lpi;
lpi.ParamName = paramDesc.getName();
lpi.ParamType = paramDesc.getType();
nlassert(ls._ParamTables.find(lpi) != ls._ParamTables.end());
logLine << " "<<paramDesc.getName()<<"=";
for (uint k=0; k<dle.ListParamIndex[j].size(); ++k)
{
if (lpi.ParamType == LGS::TSupportedParamType::spt_string)
logLine << "\""<<ls._ParamTables.find(lpi)->second[dle.ListParamIndex[j][k]].toString()<<"\"";
else
logLine << ls._ParamTables.find(lpi)->second[dle.ListParamIndex[j][k]].toString();
if (k < dle.ListParamIndex[j].size()-1)
logLine << ", ";
}
}
result.push_back(string());
result.back().swap(logLine);
}
}
}
void executeQuery(std::string query, uint32 queryNumber)
{
CQueryParser optionsQp(_LogDefs);
CQueryParser::TParserResult queryOptions = optionsQp.parseQuery(query, true);
_QueryStatus.write(TThreadStatus(qs_pop_state, "ErrorWritingQueryResult"));
_QueryStatus.write(TThreadStatus(qs_lql_state, toString("Starting executing query %u", queryNumber)));
// prepare the output file
string outputFile = queryOptions.OutputPrefix+LogQueryResultFile.get();
FILE *fp = fopen(outputFile.c_str(), "wt");;
if (fp == NULL)
{
_QueryStatus.write(TThreadStatus(qs_push_state, "ErrorWritingQueryResult"));
_QueryStatus.write(TThreadStatus(qs_lql_state, toString("Failed to open output file '%s'", outputFile.c_str())));
return;
}
fclose(fp);
list<string> result;
try
{
uint32 totalLogParsed =0;
uint32 totalLogSelected =0;
uint32 totalLogOutput =0;
uint32 totalFileSelected =0;
uint32 totalFileFound =0;
// write the query at the start of the result set
result.push_back(query);
result.push_back(string("================================================================================"));
// prepare a request tree for file date checking
CQueryParser dateQp(_LogDefs);
CQueryParser::TParserResult parserResult = dateQp.parseQuery(query, false);
// build the time line for the request
TTimeLine timeLine = parserResult.QueryTree->evalDate();
if (timeLine.empty())
{
_QueryStatus.write(TThreadStatus(qs_log, toString("No valid time line defined")));
return;
}
if (timeLine.size() == 1 && timeLine[0].StartDate == 0 && timeLine[0].EndDate == ~0)
{
_QueryStatus.write(TThreadStatus(qs_log, toString("No LogDate specified, request will be limited to the last 24 hours files")));
// no time range defined, force a 24 hours time line
// query = "LogDate > yesterday and ("+query+")";
result.push_back(string("WARNING : last 24 hours only : no time predicate found, result is automaticaly limited to last day"));
result.push_back(string("================================================================================"));
// set start date to yesterday
timeLine[0].StartDate = CTime::getSecondsSince1970()-60*60*24;
}
_QueryStatus.write(TThreadStatus(qs_push_state, "Querying"));
/// dump the time line
for (uint i=0; i<timeLine.size(); ++i)
{
nlinfo("TimeLine item %2u : [%s - %s)", i, formatDate(timeLine[i].StartDate).c_str(), formatDate(timeLine[i].EndDate).c_str());
}
time_t now = CTime::getSecondsSince1970();
vector<string> files;
CPath::getPathContent(CLogStorage::getLogRoot(), false, false, true, files, NULL, true);
// first loop to select the file to read according to the date
// set<uint32> selectedFileIndex;
/// This is the ordered by date file selection
map<uint32, uint32> selectedFile;
uint32 previousDate = 0;
for (uint i=0; i<files.size(); ++i)
{
if (files[i].substr(files[i].size()-7) == ".binlog"
&& files[i].find("hourly_") != string::npos)
{
// extract the date from the file name
string fileName = CFile::getFilenameWithoutExtension(files[i]);
struct tm fileDate;
memset(&fileDate, 0, sizeof(fileDate));
int nbField = sscanf(fileName.c_str(), "hourly_%u-%u-%u_%u-%u-%u",
&fileDate.tm_year,
&fileDate.tm_mon,
&fileDate.tm_mday,
&fileDate.tm_hour,
&fileDate.tm_min,
&fileDate.tm_sec
);
if (nbField != 6)
{
nlwarning("Invalid log file '%s' found in log directory", fileName.c_str());
continue;
}
++totalFileFound;
// adjust the year offset
fileDate.tm_year -= 1900;
// adjust month
fileDate.tm_mon -= 1;
// let the CRunt time compute the daylight saving offset
fileDate.tm_isdst = -1;
uint32 date = (uint32)mktime(&fileDate);
// check that the date is within a selected time slice
for (uint j=0; j<timeLine.size(); ++j)
{
if (!( (date < timeLine[j].StartDate && previousDate < timeLine[j].StartDate)
|| (date > timeLine[j].EndDate && previousDate > timeLine[j].EndDate))
)
{
nlinfo("File %s from (%s to %s] is accepted in the range [%s - %s)",
fileName.c_str(),
formatDate(previousDate).c_str(),
formatDate(date).c_str(),
formatDate(timeLine[j].StartDate).c_str(),
formatDate(timeLine[j].EndDate).c_str());
selectedFile.insert(make_pair(date, i));
break;
}
else
{
nlinfo("File %s from (%s to %s] is REJECTED from the range [%s - %s)",
fileName.c_str(),
formatDate(previousDate).c_str(),
formatDate(date).c_str(),
formatDate(timeLine[j].StartDate).c_str(),
formatDate(timeLine[j].EndDate).c_str());
}
}
previousDate = date;
}
}
totalFileSelected = (uint32)selectedFile.size();
// now, do the real job, query inside each selected file in ascending date order
map<uint32, uint32>::iterator first(selectedFile.begin()), last(selectedFile.end());
for (uint counter=0; first != last; ++first, ++counter)
{
_QueryStatus.write(TThreadStatus(qs_lql_state, toString("Reading log file %u/%u", counter+1, selectedFile.size())));
CLogStorage ls(_LogDefs);
ls.loadLogs(files[first->second]);
// check the timeline limits
if (!ls._DiskLogEntries.empty()
&&
(ls._DiskLogEntries.begin()->LogDate > timeLine.rbegin()->EndDate
|| ls._DiskLogEntries.rbegin()->LogDate < timeLine.begin()->StartDate)
)
{
// no log can match inside this file
continue;
}
_QueryStatus.write(TThreadStatus(qs_lql_state, toString("Processing log file %u/%u", counter+1, selectedFile.size())));
queryLogs(query, ls, result, totalLogParsed, totalLogSelected, totalLogOutput);
// check the command channel for interrupt request
TThreadCommand qs;
if (_QueryCommands.read(qs, TQueryInterupPred()))
{
_QueryStatus.write(TThreadStatus(qs_lql_state, toString("Query %u interrupted", queryNumber)));
goto endQuery;
}
}
// process the log not saved (i.e the logs only in memory)
{
CLogStorage ls(_LogDefs);
{
CAutoMutex<CMutex> lock(_LogMutex);
_QueryStatus.write(TThreadStatus(qs_lql_state, toString("Processing %u logs still in memory...", _LogInfosSize)));
TLogInfos::const_iterator first(_LogInfos.begin()), last(_LogInfos.end());
for (; first != last; ++first)
{
ls.storeLog(*first);
}
}
queryLogs(query, ls, result, totalLogParsed, totalLogSelected, totalLogOutput);
// check the command channel for interrupt request
TThreadCommand qs;
if (_QueryCommands.read(qs, TQueryInterupPred()))
{
_QueryStatus.write(TThreadStatus(qs_lql_state, toString("Query %u interrupted", queryNumber)));
goto endQuery;
}
}
uint32 afterSelect = CTime::getSecondsSince1970();
_QueryStatus.write(TThreadStatus(qs_pop_state, "Querying"));
_QueryStatus.write(TThreadStatus(qs_push_state, "WritingResult"));
result.push_back("===============================================================================");
result.push_back("Query stats :");
result.push_back(toString("%u log files found, %u log file read", totalFileFound, totalFileSelected));
result.push_back(toString("%u log parsed, %u log selected, %u log written to output", totalLogParsed, totalLogSelected, totalLogOutput));
/// output the result
{
TThreadResult threadResult;
threadResult.OutputFilename = outputFile;
threadResult.QueryNumber = queryNumber;
threadResult.Lines = &result;
// write the result in the channel and block until the main thread
// has read it.
_QueryResult.syncWrite(threadResult);
}
_QueryStatus.write(TThreadStatus(qs_log, toString("Selected %u logs in %u seconds, %u seconds to output result", totalLogSelected, afterSelect-now, CTime::getSecondsSince1970()-afterSelect)));
_QueryStatus.write(TThreadStatus(qs_lql_state, toString("Finished query %u", queryNumber)));
}
catch (CQueryParser::EInvalidQuery iq)
{
uint index= (uint)(iq.It - query.begin());
_QueryStatus.write(TThreadStatus(qs_log, toString("Error will parsing query near char %u : %s", index+1, iq.ErrorStr)));
_QueryStatus.write(TThreadStatus(qs_log, query));
CSString err;
for (uint i=0; i<index; ++i)
err << " ";
err << "^";
_QueryStatus.write(TThreadStatus(qs_log, err));
}
endQuery:
_QueryStatus.write(TThreadStatus(qs_pop_state, "Querying"));
_QueryStatus.write(TThreadStatus(qs_pop_state, "WritingResult"));
}
/*************************************************************************/
/* Commands handler */
/*************************************************************************/
NLMISC_COMMAND_HANDLER_TABLE_EXTEND_BEGIN(CLoggerServiceMod, CModuleBase)
NLMISC_COMMAND_HANDLER_ADD(CLoggerServiceMod, dump, "Dump the module internal state", "");
NLMISC_COMMAND_HANDLER_ADD(CLoggerServiceMod, displayLog, "Display the last log entries", "[duration(s)=10]");
NLMISC_COMMAND_HANDLER_ADD(CLoggerServiceMod, fillTestLog, "Fill the logger with some test log. Logger must be just started with no clients", "");
NLMISC_COMMAND_HANDLER_ADD(CLoggerServiceMod, queryLogs, "Test the query parser", "<a full query>");
NLMISC_COMMAND_HANDLER_ADD(CLoggerServiceMod, interruptQuery, "Stop the current running query", "");
NLMISC_COMMAND_HANDLER_ADD(CLoggerServiceMod, saveLogs, "Save the logs", "");
NLMISC_COMMAND_HANDLER_ADD(CLoggerServiceMod, loadLogs, "Load a log file", "<filename>");
NLMISC_COMMAND_HANDLER_ADD(CLoggerServiceMod, displayLogFormat, "Display the format of log", "");
NLMISC_COMMAND_HANDLER_ADD(CLoggerServiceMod, generateManyLogs, "Generate a big number of random logs", "<nbLogsToGenerate> <nbOutputFile>");
NLMISC_COMMAND_HANDLER_TABLE_END
NLMISC_CLASS_COMMAND_DECL(generateManyLogs)
{
CRandom rand;
rand.srand(CTime::getSecondsSince1970());
if (args.size() != 2)
return false;
if (_LogDefs.size() == 0)
{
log.displayNL("Can't generate log because no log definition found");
return true;
}
uint32 nbLogs, nbFiles;
NLMISC::fromString(args[0], nbLogs);
NLMISC::fromString(args[1], nbFiles);
if (nbLogs == 0 || nbFiles == 0)
{
log.displayNL("Invalid parameters");
return false;
}
uint32 nbLogsPerFile = nbLogs / nbFiles;
/// Build the table of 'random' value
vector<CEntityId> entityIds;
for (uint i=0; i<25000; ++i)
{
entityIds.push_back(CEntityId(0, randu64(rand, UINT64_CONSTANT(0xffffffffffffffff)), 0, 0));
}
vector<INVENTORIES::TItemId> itemIds;
for (uint i=0; i<60000; ++i)
{
itemIds.push_back(INVENTORIES::TItemId(randu64(rand, UINT64_CONSTANT(0xffffffffffffffff))));
}
std::vector <CSheetId> allSheets;
CSheetId::buildIdVector(allSheets);
vector<CSheetId> sheetIds;
for (uint i=0; i<3000; ++i)
{
sheetIds.push_back(allSheets[randu32(rand, (uint32)allSheets.size())]);
}
for (uint i=0; i<nbFiles; ++i)
{
vector<uint32> contextStack;
log.displayNL("Generating log file %u/%u", i+1, nbFiles);
for (uint j=0; j<nbLogsPerFile; ++j)
{
if (j%1000 == 0)
log.displayNL("Generating log entry %u/%u", j+1, nbLogsPerFile);
if (!contextStack.empty()
&& randu32(rand, 5) < contextStack.size())
{
LGS::TLogDefinition &ld = _LogDefs[contextStack.back()];
// unstack a level of context
TLogEntry le;
le.LogInfo.setLogName(ld.getLogName());
le.LogInfo.setTimeStamp(~0);
le.ShardId = 666;
le.LogId = _LogId++;
_LogInfos.push_back(le);
contextStack.pop_back();
}
else
{
// select a random log type
uint32 logType = randu32(rand, (uint32)_LogDefs.size());
LGS::TLogDefinition &ld = _LogDefs[logType];
if (ld.getContext())
{
// this is a context log, stack a context
TLogEntry le;
le.LogInfo.setLogName(ld.getLogName());
le.LogInfo.setTimeStamp(0);
le.ShardId = 666;
le.LogId = _LogId++;
_LogInfos.push_back(le);
contextStack.push_back(logType);
}
else
{
// this is a normal log, build a random list of parameter
TLogEntry le;
le.LogInfo.setLogName(ld.getLogName());
le.LogInfo.setTimeStamp(CTime::getSecondsSince1970());;
le.ShardId = 666;
le.LogId = _LogId++;
le.LogInfo.getParams().reserve(ld.getParams().size());
for (uint k=0; k<ld.getParams().size(); ++k)
{
LGS::TParamDesc &pd = ld.getParams()[k];
switch (pd.getType().getValue())
{
case LGS::TSupportedParamType::spt_uint32:
le.LogInfo.getParams().push_back(TParamValue(randu32(rand, 0xffffffff)));
break;
case LGS::TSupportedParamType::spt_uint64:
le.LogInfo.getParams().push_back(TParamValue(randu64(rand, UINT64_CONSTANT(0xffffffffffffffff))));
break;
case LGS::TSupportedParamType::spt_sint32:
le.LogInfo.getParams().push_back(TParamValue(rands32(rand, 0xffffffff)));
break;
case LGS::TSupportedParamType::spt_float:
le.LogInfo.getParams().push_back(TParamValue(rand.frand()*1000.0f));
break;
case LGS::TSupportedParamType::spt_string:
{
char buffer[2];
buffer[1] =0;
buffer[0] = 32+(char)rand.rand(96);
le.LogInfo.getParams().push_back(TParamValue(string(buffer)));
}
break;
case LGS::TSupportedParamType::spt_entityId:
le.LogInfo.getParams().push_back(TParamValue(entityIds[randu32(rand, (uint32)entityIds.size())]));
break;
case LGS::TSupportedParamType::spt_sheetId:
le.LogInfo.getParams().push_back(TParamValue(sheetIds[randu32(rand, (uint32)sheetIds.size())]));
break;
case LGS::TSupportedParamType::spt_itemId:
le.LogInfo.getParams().push_back(TParamValue(itemIds[randu32(rand, (uint32)itemIds.size())]));
break;
}
}
le.LogInfo.getListParams().resize(ld.getListParams().size());
for (uint k=0; k<ld.getListParams().size(); ++k)
{
LGS::TParamDesc &pd = ld.getListParams()[k];
uint32 listSize = randu32(rand, 20);
TListParamValues &lpv = le.LogInfo.getListParams()[k];
for (uint l=0; l<listSize; ++l)
{
switch (pd.getType().getValue())
{
case LGS::TSupportedParamType::spt_uint32:
lpv.getParams().push_back(TParamValue(randu32(rand, 0xffffffff)));
break;
case LGS::TSupportedParamType::spt_uint64:
lpv.getParams().push_back(TParamValue(randu64(rand, UINT64_CONSTANT(0xffffffffffffffff))));
break;
case LGS::TSupportedParamType::spt_sint32:
lpv.getParams().push_back(TParamValue(rands32(rand, 0xffffffff)));
break;
case LGS::TSupportedParamType::spt_float:
lpv.getParams().push_back(TParamValue(rand.frand()*1000.0f));
break;
case LGS::TSupportedParamType::spt_string:
{
char buffer[2];
buffer[1] =0;
buffer[0] = 32+(char)rand.rand(96);
lpv.getParams().push_back(TParamValue(string(buffer)));
}
break;
case LGS::TSupportedParamType::spt_entityId:
lpv.getParams().push_back(TParamValue(entityIds[randu32(rand, (uint32)entityIds.size())]));
break;
case LGS::TSupportedParamType::spt_sheetId:
lpv.getParams().push_back(TParamValue(sheetIds[randu32(rand, (uint32)sheetIds.size())]));
break;
case LGS::TSupportedParamType::spt_itemId:
lpv.getParams().push_back(TParamValue(itemIds[randu32(rand, (uint32)itemIds.size())]));
break;
}
}
}
_LogInfos.push_back(le);
}
}
}
// empty the context stack
while (!contextStack.empty())
{
LGS::TLogDefinition &ld = _LogDefs[contextStack.back()];
// unstack a level of context
TLogEntry le;
le.LogInfo.setLogName(ld.getLogName());
le.LogInfo.setTimeStamp(~0);
le.ShardId = 666;
le.LogId = _LogId++;
_LogInfos.push_back(le);
contextStack.pop_back();
}
log.displayNL("Writing log file %u/%u", i+1, nbFiles);
doHourlyProcess();
// wait at least one second before continuing
nlSleep(1000);
}
return true;
}
NLMISC_CLASS_COMMAND_DECL(interruptQuery)
{
TThreadCommand tc;
tc.QueryCommand = qc_interupt;
_QueryCommands.write(tc);
log.displayNL("Query interruption sent.");
return true;
}
NLMISC_CLASS_COMMAND_DECL(displayLogFormat)
{
set<string> allParamNames;
log.displayNL("Definition of %5u logs :", _LogDefs.size());
log.displayNL("--------------------------", _LogDefs.size());
for (uint i=0; i<_LogDefs.size(); ++i)
{
const TLogDefinition &ld = _LogDefs[i];
log.displayNL("LogName=%s, Text=%s, %u parameters, %u list parameters",
ld.getLogName().c_str(),
ld.getLogText().c_str(),
ld.getParams().size(),
ld.getListParams().size());
if (!ld.getParams().empty())
{
for (uint j=0; j<ld.getParams().size(); ++j)
{
const TParamDesc&pd = ld.getParams()[j];
log.display(" ParamName=%s, Type=%s", pd.getName().c_str(), pd.getType().toString().c_str());
allParamNames.insert(pd.getName());
}
log.displayNL("");
}
if (!ld.getListParams().empty())
{
log.displayNL(" List params :");
for (uint j=0; j<ld.getListParams().size(); ++j)
{
const TParamDesc&pd = ld.getListParams()[j];
log.display(" ParamName=%s, Type=%s", pd.getName().c_str(), pd.getType().toString().c_str());
allParamNames.insert(pd.getName());
}
log.displayNL("");
}
}
log.displayNL("");
log.displayNL("List of all param name :", _LogDefs.size());
log.displayNL("------------------------", _LogDefs.size());
set<string>::iterator first(allParamNames.begin()), last(allParamNames.end());
CSString line;
for (; first != last; ++first)
{
line << *first << " ";
if (line.size() > 80)
{
log.displayNL("%s", line.c_str());
line = "";
}
}
if (!line.empty())
log.displayNL("%s", line.c_str());
return true;
}
NLMISC_CLASS_COMMAND_DECL(loadLogs)
{
if (args.size() != 1)
return false;
CLogStorage ls;
ls.loadLogs(args[0]);
ls.dumpLogs(log);
return true;
}
NLMISC_CLASS_COMMAND_DECL(saveLogs)
{
CAutoMutex<CMutex> lock(_LogMutex);
CLogStorage ls(_LogDefs);
ls.saveHourly(_LogInfos);
// ls.storeLogs(0, 0x7fffffff, _LogInfos);
ls.dumpLogs(log);
return true;
}
NLMISC_CLASS_COMMAND_DECL(queryLogs)
{
if (args.size() == 1 && args[0] == "help")
{
// output the LQL documentation
CConfigFile::CVar *var = IService::getInstance()->ConfigFile.getVarPtr("LogQueryLanguageHelp");
if (var == NULL)
{
log.displayNL("Can't find documentation !");
return true;
}
for (uint i=0; i<var->size(); ++i)
{
log.displayNL("%s", var->asString(i).c_str());
}
return true;
}
string query = rawCommandString.substr(rawCommandString.find(" "));
TThreadCommand tc;
tc.QueryCommand = qc_query;
tc.QueryNumber = ++_LastQueryNumber;
tc.QueryString = query;
_QueryCommands.write(tc);
log.displayNL("Started query %u", _LastQueryNumber);
return true;
}
NLMISC_CLASS_COMMAND_DECL(dump)
{
NLMISC_CLASS_COMMAND_CALL_BASE(CModuleBase, dump);
log.displayNL("-----------------------------");
log.displayNL("Dumping logger service :");
log.displayNL("-----------------------------");
log.displayNL("There is %u connected and accepted clients :", _Clients.size());
TLogClients::iterator first(_Clients.begin()), last(_Clients.end());
for (; first != last; ++first)
{
IModuleProxy *proxy = first->first;
TShardId shardId = first->second;
log.displayNL(" Client : '%s' for shard %u",
proxy? proxy->getModuleName().c_str() : "NULL",
shardId);
}
log.displayNL("There are %u log entry in memory.", _LogInfosSize);
return true;
}
NLMISC_CLASS_COMMAND_DECL(displayLog)
{
CAutoMutex<CMutex> lock(_LogMutex);
uint32 now = CTime::getSecondsSince1970();
uint32 nbSec = 10;
if (args.size() > 0)
NLMISC::fromString(args[0], nbSec);
std::string tabs;
TLogInfos::reverse_iterator rit = _LogInfos.rbegin();
// advance cursor up to the requested time
while (rit != _LogInfos.rend()
&& (rit->LogInfo.getTimeStamp() == 0
|| rit->LogInfo.getTimeStamp() == ~0
|| rit->LogInfo.getTimeStamp()+nbSec > now))
++rit;
// now convert to forward iterator
TLogInfos::iterator it = rit.base();
while (it != _LogInfos.end()
&& (it->LogInfo.getTimeStamp() == 0
|| it->LogInfo.getTimeStamp() == ~0
|| it->LogInfo.getTimeStamp()+nbSec > now))
{
const TLogInfo &li = it->LogInfo;
// retrieve the log definition
size_t index = _LogDefIndex[li.getLogName()];
nlassert(index < _LogDefs.size());
const TLogDefinition &ld = _LogDefs[index];
if (li.getTimeStamp() == 0)
{
log.displayNL("%sOpening log context %s", tabs.c_str(), ld.getLogName().c_str());
tabs += '\t';
}
else if (li.getTimeStamp() == ~0)
{
tabs.erase(tabs.size()-1);
log.displayNL("%sClosing log context %s", tabs.c_str(), ld.getLogName().c_str());
}
else
{
log.display("%s%s(%ds ago), LOG : %s", tabs.c_str(), formatDate(li.getTimeStamp()).c_str(), now-li.getTimeStamp(), ld.getLogText().c_str());
for (uint i=0; i<ld.getParams().size(); ++i)
{
log.display(", %s = '%s'", ld.getParams()[i].getName().c_str(), li.getParams()[i].toString().c_str());
}
log.displayNL("");
}
// advance to next log
++it;
}
return true;
}
NLMISC_CLASS_COMMAND_DECL(fillTestLog)
{
vector<TLogDefinition> logDefs;
logDefs.resize(4);
// define log 1
{
TLogDefinition &ld = logDefs[0];
ld.setContext(false);
ld.setLogName("L1");
ld.setLogText("Two character are in a boat");
ld.getParams().resize(3);
ld.getParams()[0].setName("Char1");
ld.getParams()[0].setType(TSupportedParamType::spt_entityId);
ld.getParams()[1].setName("Char2");
ld.getParams()[1].setType(TSupportedParamType::spt_entityId);
ld.getParams()[2].setName("BoatName");
ld.getParams()[2].setType(TSupportedParamType::spt_string);
}
// define log
{
TLogDefinition &ld = logDefs[1];
ld.setContext(false);
ld.setLogName("L2");
ld.setLogText("A Character win a stack of item at national lottery");
ld.getParams().resize(5);
ld.getParams()[0].setName("Character");
ld.getParams()[0].setType(TSupportedParamType::spt_entityId);
ld.getParams()[1].setName("ItemId");
ld.getParams()[1].setType(TSupportedParamType::spt_itemId);
ld.getParams()[2].setName("ItemSheet");
ld.getParams()[2].setType(TSupportedParamType::spt_sheetId);
ld.getParams()[3].setName("Quality");
ld.getParams()[3].setType(TSupportedParamType::spt_uint32);
ld.getParams()[4].setName("Quantity");
ld.getParams()[4].setType(TSupportedParamType::spt_uint32);
}
// define log
{
TLogDefinition &ld = logDefs[2];
ld.setContext(false);
ld.setLogName("L3");
ld.setLogText("A variable size parameter following two normal parameters");
ld.getParams().resize(2);
ld.getParams()[0].setName("Character");
ld.getParams()[0].setType(TSupportedParamType::spt_entityId);
ld.getParams()[1].setName("ChatText");
ld.getParams()[1].setType(TSupportedParamType::spt_string);
ld.getListParams().resize(1);
ld.getListParams()[0].setName("Listeners");
ld.getListParams()[0].setType(TSupportedParamType::spt_entityId);
ld.getListParams()[0].setList(true);
}
// define log
{
TLogDefinition &ld = logDefs[3];
ld.setContext(false);
ld.setLogName("L4");
ld.setLogText("Two variables size parameter following two normal parameters");
ld.getParams().resize(2);
ld.getParams()[0].setName("Character");
ld.getParams()[0].setType(TSupportedParamType::spt_entityId);
ld.getParams()[1].setName("ChatText");
ld.getParams()[1].setType(TSupportedParamType::spt_string);
ld.getListParams().resize(2);
ld.getListParams()[0].setName("Listeners");
ld.getListParams()[0].setType(TSupportedParamType::spt_entityId);
ld.getListParams()[0].setList(true);
ld.getListParams()[1].setName("ListOfInt");
ld.getListParams()[1].setType(TSupportedParamType::spt_uint32);
ld.getListParams()[1].setList(true);
}
// register the client
registerClient( NULL, 101, logDefs);
// now, send some logs
{
TLogInfo li;
li.setLogName("L1");
li.setTimeStamp(CTime::getSecondsSince1970()-20);
li.getParams().push_back(TParamValue(CEntityId(0, 0x1234)));
li.getParams().push_back(TParamValue(CEntityId(0, 0x5678)));
li.getParams().push_back(TParamValue(string("H<EFBFBD> mon bateau")));
reportLog(NULL, vector<TLogInfo>(&li, &li+1));
}
{
TLogInfo li;
li.setLogName("L1");
li.setTimeStamp(CTime::getSecondsSince1970()-15);
li.getParams().push_back(TParamValue(CEntityId(0, 0x1111)));
li.getParams().push_back(TParamValue(CEntityId(0, 0x2222)));
li.getParams().push_back(TParamValue(string("Titanic")));
reportLog(NULL, vector<TLogInfo>(&li, &li+1));
}
{
TLogInfo li;
li.setLogName("L2");
li.setTimeStamp(CTime::getSecondsSince1970()-10);
li.getParams().push_back(TParamValue(CEntityId(0, 0x1111)));
li.getParams().push_back(TParamValue(TItemId(UINT64_CONSTANT(123456789012345678))));
li.getParams().push_back(TParamValue(CSheetId(1)));
li.getParams().push_back(TParamValue(uint32(10)));
li.getParams().push_back(TParamValue(uint32(1)));
reportLog(NULL, vector<TLogInfo>(&li, &li+1));
}
{
TLogInfo li;
li.setLogName("L2");
li.setTimeStamp(CTime::getSecondsSince1970()-5);
li.getParams().push_back(TParamValue(CEntityId(0, 0x2222)));
li.getParams().push_back(TParamValue(TItemId()));
li.getParams().push_back(TParamValue(CSheetId(2)));
li.getParams().push_back(TParamValue(uint32(100)));
li.getParams().push_back(TParamValue(uint32(10)));
reportLog(NULL, vector<TLogInfo>(&li, &li+1));
}
// send log with variable params
{
TLogInfo li;
li.setLogName("L3");
li.setTimeStamp(CTime::getSecondsSince1970()-4);
li.getParams().push_back(TParamValue(CEntityId(0, 0x3333)));
li.getParams().push_back(TParamValue(string("Hello, this is a cool chat entry!")));
li.getListParams().resize(1);
for (uint i=0; i<10; ++i)
li.getListParams()[0].getParams().push_back(TParamValue(CEntityId(0, 0x4444+i)));
reportLog(NULL, vector<TLogInfo>(&li, &li+1));
}
{
TLogInfo li;
li.setLogName("L4");
li.setTimeStamp(CTime::getSecondsSince1970()-4);
li.getParams().push_back(TParamValue(CEntityId(0, 0x4444)));
li.getParams().push_back(TParamValue(string("Hello, this is another also cool chat entry!")));
li.getListParams().resize(2);
for (uint i=0; i<10; ++i)
li.getListParams()[0].getParams().push_back(TParamValue(CEntityId(0, 0x5555+i)));
for (uint i=0; i<5; ++i)
li.getListParams()[1].getParams().push_back(TParamValue(uint32(i)));
reportLog(NULL, vector<TLogInfo>(&li, &li+1));
}
// send some missformed logs
{
// not enought param
TLogInfo li;
li.setLogName("L2");
li.setTimeStamp(CTime::getSecondsSince1970()-5);
li.getParams().push_back(TParamValue(CEntityId(0, 0x2222)));
li.getParams().push_back(TParamValue(TItemId(UINT64_CONSTANT(765432109876543210))));
li.getParams().push_back(TParamValue(CSheetId(3)));
reportLog(NULL, vector<TLogInfo>(&li, &li+1));
}
{
// not enought list param
TLogInfo li;
li.setLogName("L3");
li.setTimeStamp(CTime::getSecondsSince1970()-4);
li.getParams().push_back(TParamValue(CEntityId(0, 0x3333)));
li.getParams().push_back(TParamValue(string("Hello, this is a cool chat entry!")));
reportLog(NULL, vector<TLogInfo>(&li, &li+1));
}
{
// too many param
TLogInfo li;
li.setLogName("L2");
li.setTimeStamp(CTime::getSecondsSince1970()-5);
li.getParams().push_back(TParamValue(CEntityId(0, 0x2222)));
li.getParams().push_back(TParamValue(TItemId(UINT64_CONSTANT(765432109876543210))));
li.getParams().push_back(TParamValue(uint32(100)));
li.getParams().push_back(TParamValue(uint32(10)));
li.getParams().push_back(TParamValue(CSheetId(4)));
li.getParams().push_back(TParamValue(uint32(100)));
li.getParams().push_back(TParamValue(uint32(10)));
reportLog(NULL, vector<TLogInfo>(&li, &li+1));
}
{
// too many list param
TLogInfo li;
li.setLogName("L3");
li.setTimeStamp(CTime::getSecondsSince1970()-4);
li.getParams().push_back(TParamValue(CEntityId(0, 0x3333)));
li.getParams().push_back(TParamValue(string("Hello, this is a cool chat entry!")));
li.getListParams().resize(2);
for (uint i=0; i<10; ++i)
li.getListParams()[0].getParams().push_back(TParamValue(CEntityId(0, 0x4444+i)));
reportLog(NULL, vector<TLogInfo>(&li, &li+1));
}
{
// unknow log
TLogInfo li;
li.setLogName("L500");
li.setTimeStamp(CTime::getSecondsSince1970()-5);
li.getParams().push_back(TParamValue(CEntityId(0, 0x2222)));
li.getParams().push_back(TParamValue(TItemId(UINT64_CONSTANT(765432109876543210))));
li.getParams().push_back(TParamValue(CSheetId(5)));
li.getParams().push_back(TParamValue(uint32(100)));
li.getParams().push_back(TParamValue(uint32(10)));
reportLog(NULL, vector<TLogInfo>(&li, &li+1));
}
{
// invalid param
TLogInfo li;
li.setLogName("L2");
li.setTimeStamp(CTime::getSecondsSince1970()-5);
li.getParams().push_back(TParamValue(CEntityId(0, 0x2222)));
li.getParams().push_back(TParamValue(TItemId(UINT64_CONSTANT(765432109876543210))));
li.getParams().push_back(TParamValue(CSheetId(6)));
li.getParams().push_back(TParamValue(CSheetId(7)));
li.getParams().push_back(TParamValue(uint32(10)));
reportLog(NULL, vector<TLogInfo>(&li, &li+1));
}
{
// invalid list param
TLogInfo li;
li.setLogName("L3");
li.setTimeStamp(CTime::getSecondsSince1970()-4);
li.getParams().push_back(TParamValue(CEntityId(0, 0x3333)));
li.getParams().push_back(TParamValue(string("Hello, this is a cool chat entry!")));
li.getListParams().resize(1);
for (uint i=0; i<10; ++i)
li.getListParams()[0].getParams().push_back(TParamValue(uint32(i)));
reportLog(NULL, vector<TLogInfo>(&li, &li+1));
}
if (args.size() == 1 && args[0] == "many")
{
// fill a very big deal of logs
for (uint i=0; i<50000; ++i)
{
TLogInfo li;
li.setLogName("L2");
li.setTimeStamp(CTime::getSecondsSince1970()-50000+i);
li.getParams().push_back(TParamValue(CEntityId(0, 0x2222)));
li.getParams().push_back(TParamValue(TItemId()));
li.getParams().push_back(TParamValue(CSheetId(2)));
li.getParams().push_back(TParamValue(uint32(100+i)));
li.getParams().push_back(TParamValue(uint32(10)));
reportLog(NULL, vector<TLogInfo>(&li, &li+1));
}
}
return true;
}
};
NLNET_REGISTER_MODULE_FACTORY(CLoggerServiceMod, "LoggerService");
// the logger service
class CLoggerService : public IService
{
public:
/**
* Init
*/
void init()
{
// init the sheet manager without worying about aving the sheet_id.bin file
// CSheetId::initWithoutSheet();
CSheetId::init(false);
CSingletonRegistry::getInstance()->init();
CShardNames::getInstance().init(ConfigFile);
}
/**
* Update
*/
bool update ()
{
CSingletonRegistry::getInstance()->tickUpdate();
return true;
}
void release()
{
CSingletonRegistry::getInstance()->release();
}
virtual std::string getServiceStatusString() const
{
return toString("LQLState=%s LastFinishedQuery=%u", LQLState.c_str(), LastFinishedQuery.get());
}
};
/// Logger servive
//
NLNET_SERVICE_MAIN (CLoggerService, "LGS", "logger_service", 0, EmptyCallbackArray, "", "");