/*
* Copyright (C) 2005-2009 MaNGOS
*
* Copyright (C) 2008-2009 Trinity
*
* 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 2 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, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#ifndef DO_POSTGRESQL
#include "Util.h"
#include "Policies/SingletonImp.h"
#include "Platform/Define.h"
#include "Threading.h"
#include "DatabaseEnv.h"
#include "Database/MySQLDelayThread.h"
#include "Database/SqlOperations.h"
#include "Timer.h"
void DatabaseMysql::ThreadStart()
{
mysql_thread_init();
}
void DatabaseMysql::ThreadEnd()
{
mysql_thread_end();
}
size_t DatabaseMysql::db_count = 0;
DatabaseMysql::DatabaseMysql() : Database(), mMysql(0)
{
// before first connection
if( db_count++ == 0 )
{
// Mysql Library Init
mysql_library_init(-1, NULL, NULL);
if (!mysql_thread_safe())
{
sLog.outError("FATAL ERROR: Used MySQL library isn't thread-safe.");
exit(1);
}
}
}
DatabaseMysql::~DatabaseMysql()
{
if (m_delayThread)
HaltDelayThread();
if (mMysql)
mysql_close(mMysql);
//Free Mysql library pointers for last ~DB
if(--db_count == 0)
mysql_library_end();
}
bool DatabaseMysql::Initialize(const char *infoString)
{
if(!Database::Initialize(infoString))
return false;
tranThread = NULL;
MYSQL *mysqlInit;
mysqlInit = mysql_init(NULL);
if (!mysqlInit)
{
sLog.outError( "Could not initialize Mysql connection" );
return false;
}
InitDelayThread();
Tokens tokens = StrSplit(infoString, ";");
Tokens::iterator iter;
std::string host, port_or_socket, user, password, database;
int port;
char const* unix_socket;
iter = tokens.begin();
if(iter != tokens.end())
host = *iter++;
if(iter != tokens.end())
port_or_socket = *iter++;
if(iter != tokens.end())
user = *iter++;
if(iter != tokens.end())
password = *iter++;
if(iter != tokens.end())
database = *iter++;
mysql_options(mysqlInit,MYSQL_SET_CHARSET_NAME,"utf8");
#ifdef WIN32
if(host==".") // named pipe use option (Windows)
{
unsigned int opt = MYSQL_PROTOCOL_PIPE;
mysql_options(mysqlInit,MYSQL_OPT_PROTOCOL,(char const*)&opt);
port = 0;
unix_socket = 0;
}
else // generic case
{
port = atoi(port_or_socket.c_str());
unix_socket = 0;
}
#else
if(host==".") // socket use option (Unix/Linux)
{
unsigned int opt = MYSQL_PROTOCOL_SOCKET;
mysql_options(mysqlInit,MYSQL_OPT_PROTOCOL,(char const*)&opt);
host = "localhost";
port = 0;
unix_socket = port_or_socket.c_str();
}
else // generic case
{
port = atoi(port_or_socket.c_str());
unix_socket = 0;
}
#endif
mMysql = mysql_real_connect(mysqlInit, host.c_str(), user.c_str(),
password.c_str(), database.c_str(), port, unix_socket, 0);
if (mMysql)
{
sLog.outDetail( "Connected to MySQL database at %s",
host.c_str());
sLog.outString( "MySQL client library: %s", mysql_get_client_info());
sLog.outString( "MySQL server ver: %s ", mysql_get_server_info( mMysql));
/*----------SET AUTOCOMMIT ON---------*/
// It seems mysql 5.0.x have enabled this feature
// by default. In crash case you can lose data!!!
// So better to turn this off
// ---
// This is wrong since Trinity use transactions,
// autocommit is turned of during it.
// Setting it to on makes atomic updates work
if (!mysql_autocommit(mMysql, 1))
sLog.outDetail("AUTOCOMMIT SUCCESSFULLY SET TO 1");
else
sLog.outDetail("AUTOCOMMIT NOT SET TO 1");
/*-------------------------------------*/
// set connection properties to UTF8 to properly handle locales for different
// server configs - core sends data in UTF8, so MySQL must expect UTF8 too
PExecute("SET NAMES `utf8`");
PExecute("SET CHARACTER SET `utf8`");
#if MYSQL_VERSION_ID >= 50003
my_bool my_true = (my_bool)1;
if (mysql_options(mMysql, MYSQL_OPT_RECONNECT, &my_true))
{
sLog.outDetail("Failed to turn on MYSQL_OPT_RECONNECT.");
}
else
{
sLog.outDetail("Successfully turned on MYSQL_OPT_RECONNECT.");
}
#else
#warning "Your mySQL client lib version does not support reconnecting after a timeout.\nIf this causes you any trouble we advice you to upgrade your mySQL client libs to at least mySQL 5.0.13 to resolve this problem."
#endif
return true;
}
else
{
sLog.outError( "Could not connect to MySQL database at %s: %s\n",
host.c_str(),mysql_error(mysqlInit));
mysql_close(mysqlInit);
return false;
}
}
bool DatabaseMysql::_Query(const char *sql, MYSQL_RES **pResult, MYSQL_FIELD **pFields, uint64* pRowCount, uint32* pFieldCount)
{
if (!mMysql)
return 0;
{
// guarded block for thread-safe mySQL request
ACE_Guard query_connection_guard(mMutex);
#ifdef MANGOS_DEBUG
uint32 _s = getMSTime();
#endif
if(mysql_query(mMysql, sql))
{
sLog.outErrorDb( "SQL: %s", sql );
sLog.outErrorDb("query ERROR: %s", mysql_error(mMysql));
return false;
}
else
{
#ifdef TRINITY_DEBUG
sLog.outDebug("[%u ms] SQL: %s", getMSTimeDiff(_s,getMSTime()), sql );
#endif
}
*pResult = mysql_store_result(mMysql);
*pRowCount = mysql_affected_rows(mMysql);
*pFieldCount = mysql_field_count(mMysql);
// end guarded block
}
if (!*pResult )
return false;
if (!*pRowCount)
{
mysql_free_result(*pResult);
return false;
}
*pFields = mysql_fetch_fields(*pResult);
return true;
}
QueryResult* DatabaseMysql::Query(const char *sql)
{
MYSQL_RES *result = NULL;
MYSQL_FIELD *fields = NULL;
uint64 rowCount = 0;
uint32 fieldCount = 0;
if(!_Query(sql,&result,&fields,&rowCount,&fieldCount))
return NULL;
QueryResultMysql *queryResult = new QueryResultMysql(result, fields, rowCount, fieldCount);
queryResult->NextRow();
return queryResult;
}
QueryNamedResult* DatabaseMysql::QueryNamed(const char *sql)
{
MYSQL_RES *result = NULL;
MYSQL_FIELD *fields = NULL;
uint64 rowCount = 0;
uint32 fieldCount = 0;
if(!_Query(sql,&result,&fields,&rowCount,&fieldCount))
return NULL;
QueryFieldNames names(fieldCount);
for (uint32 i = 0; i < fieldCount; i++)
names[i] = fields[i].name;
QueryResultMysql *queryResult = new QueryResultMysql(result, fields, rowCount, fieldCount);
queryResult->NextRow();
return new QueryNamedResult(queryResult,names);
}
bool DatabaseMysql::Execute(const char *sql)
{
if (!mMysql)
return false;
// don't use queued execution if it has not been initialized
if (!m_threadBody) return DirectExecute(sql);
tranThread = ACE_Based::Thread::current(); // owner of this transaction
TransactionQueues::iterator i = m_tranQueues.find(tranThread);
if (i != m_tranQueues.end() && i->second != NULL)
{ // Statement for transaction
i->second->DelayExecute(sql);
}
else
{
// Simple sql statement
m_threadBody->Delay(new SqlStatement(sql));
}
return true;
}
bool DatabaseMysql::DirectExecute(const char* sql)
{
if (!mMysql)
return false;
{
// guarded block for thread-safe mySQL request
ACE_Guard query_connection_guard(mMutex);
#ifdef MANGOS_DEBUG
uint32 _s = getMSTime();
#endif
if(mysql_query(mMysql, sql))
{
sLog.outErrorDb("SQL: %s", sql);
sLog.outErrorDb("SQL ERROR: %s", mysql_error(mMysql));
return false;
}
else
{
#ifdef TRINITY_DEBUG
sLog.outDebug("[%u ms] SQL: %s", getMSTimeDiff(_s,getMSTime()), sql );
#endif
}
// end guarded block
}
return true;
}
bool DatabaseMysql::_TransactionCmd(const char *sql)
{
if (mysql_query(mMysql, sql))
{
sLog.outError("SQL: %s", sql);
sLog.outError("SQL ERROR: %s", mysql_error(mMysql));
return false;
}
else
{
DEBUG_LOG("SQL: %s", sql);
}
return true;
}
bool DatabaseMysql::BeginTransaction()
{
if (!mMysql)
return false;
// don't use queued execution if it has not been initialized
if (!m_threadBody)
{
if (tranThread == ACE_Based::Thread::current())
return false; // huh? this thread already started transaction
mMutex.acquire();
if (!_TransactionCmd("START TRANSACTION"))
{
mMutex.release(); // can't start transaction
return false;
}
return true; // transaction started
}
tranThread = ACE_Based::Thread::current(); // owner of this transaction
TransactionQueues::iterator i = m_tranQueues.find(tranThread);
if (i != m_tranQueues.end() && i->second != NULL)
// If for thread exists queue and also contains transaction
// delete that transaction (not allow trans in trans)
delete i->second;
m_tranQueues[tranThread] = new SqlTransaction();
return true;
}
bool DatabaseMysql::CommitTransaction()
{
if (!mMysql)
return false;
// don't use queued execution if it has not been initialized
if (!m_threadBody)
{
if (tranThread != ACE_Based::Thread::current())
return false;
bool _res = _TransactionCmd("COMMIT");
tranThread = NULL;
mMutex.release();
return _res;
}
tranThread = ACE_Based::Thread::current();
TransactionQueues::iterator i = m_tranQueues.find(tranThread);
if (i != m_tranQueues.end() && i->second != NULL)
{
m_threadBody->Delay(i->second);
i->second = NULL;
return true;
}
else
return false;
}
bool DatabaseMysql::RollbackTransaction()
{
if (!mMysql)
return false;
// don't use queued execution if it has not been initialized
if (!m_threadBody)
{
if (tranThread != ACE_Based::Thread::current())
return false;
bool _res = _TransactionCmd("ROLLBACK");
tranThread = NULL;
mMutex.release();
return _res;
}
tranThread = ACE_Based::Thread::current();
TransactionQueues::iterator i = m_tranQueues.find(tranThread);
if (i != m_tranQueues.end() && i->second != NULL)
{
delete i->second;
i->second = NULL;
}
return true;
}
unsigned long DatabaseMysql::escape_string(char *to, const char *from, unsigned long length)
{
if (!mMysql || !to || !from || !length)
return 0;
return(mysql_real_escape_string(mMysql, to, from, length));
}
void DatabaseMysql::InitDelayThread()
{
assert(!m_delayThread);
//New delay thread for delay execute
m_threadBody = new MySQLDelayThread(this); // will deleted at m_delayThread delete
m_delayThread = new ACE_Based::Thread(m_threadBody);
}
void DatabaseMysql::HaltDelayThread()
{
if (!m_threadBody || !m_delayThread) return;
m_threadBody->Stop(); //Stop event
m_delayThread->wait(); //Wait for flush to DB
delete m_delayThread; //This also deletes m_threadBody
m_delayThread = NULL;
m_threadBody = NULL;
}
#endif