/*
* Copyright (C) 2008-2015 TrinityCore
*
* 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, see .
*/
#include "Common.h"
#ifdef _WIN32
#include
#endif
#include
#include
#include
#include "MySQLConnection.h"
#include "MySQLThreading.h"
#include "QueryResult.h"
#include "SQLOperation.h"
#include "PreparedStatement.h"
#include "DatabaseWorker.h"
#include "Timer.h"
#include "Log.h"
#include "ProducerConsumerQueue.h"
MySQLConnection::MySQLConnection(MySQLConnectionInfo& connInfo) :
m_reconnecting(false),
m_prepareError(false),
m_queue(NULL),
m_worker(NULL),
m_Mysql(NULL),
m_connectionInfo(connInfo),
m_connectionFlags(CONNECTION_SYNCH) { }
MySQLConnection::MySQLConnection(ProducerConsumerQueue* queue, MySQLConnectionInfo& connInfo) :
m_reconnecting(false),
m_prepareError(false),
m_queue(queue),
m_Mysql(NULL),
m_connectionInfo(connInfo),
m_connectionFlags(CONNECTION_ASYNC)
{
m_worker = new DatabaseWorker(m_queue, this);
}
MySQLConnection::~MySQLConnection()
{
delete m_worker;
for (size_t i = 0; i < m_stmts.size(); ++i)
delete m_stmts[i];
if (m_Mysql)
mysql_close(m_Mysql);
}
void MySQLConnection::Close()
{
/// Only close us if we're not operating
delete this;
}
uint32 MySQLConnection::Open()
{
MYSQL *mysqlInit;
mysqlInit = mysql_init(NULL);
if (!mysqlInit)
{
TC_LOG_ERROR("sql.sql", "Could not initialize Mysql connection to database `%s`", m_connectionInfo.database.c_str());
return CR_UNKNOWN_ERROR;
}
int port;
char const* unix_socket;
//unsigned int timeout = 10;
mysql_options(mysqlInit, MYSQL_SET_CHARSET_NAME, "utf8");
//mysql_options(mysqlInit, MYSQL_OPT_READ_TIMEOUT, (char const*)&timeout);
#ifdef _WIN32
if (m_connectionInfo.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(m_connectionInfo.port_or_socket.c_str());
unix_socket = 0;
}
#else
if (m_connectionInfo.host == ".") // socket use option (Unix/Linux)
{
unsigned int opt = MYSQL_PROTOCOL_SOCKET;
mysql_options(mysqlInit, MYSQL_OPT_PROTOCOL, (char const*)&opt);
m_connectionInfo.host = "localhost";
port = 0;
unix_socket = m_connectionInfo.port_or_socket.c_str();
}
else // generic case
{
port = atoi(m_connectionInfo.port_or_socket.c_str());
unix_socket = nullptr;
}
#endif
m_Mysql = mysql_real_connect(mysqlInit, m_connectionInfo.host.c_str(), m_connectionInfo.user.c_str(),
m_connectionInfo.password.c_str(), m_connectionInfo.database.c_str(), port, unix_socket, 0);
if (m_Mysql)
{
if (!m_reconnecting)
{
TC_LOG_INFO("sql.sql", "MySQL client library: %s", mysql_get_client_info());
TC_LOG_INFO("sql.sql", "MySQL server ver: %s ", mysql_get_server_info(m_Mysql));
// MySQL version above 5.1 IS required in both client and server and there is no known issue with different versions above 5.1
// if (mysql_get_server_version(m_Mysql) != mysql_get_client_version())
// TC_LOG_INFO("sql.sql", "[WARNING] MySQL client/server version mismatch; may conflict with behaviour of prepared statements.");
}
TC_LOG_INFO("sql.sql", "Connected to MySQL database at %s", m_connectionInfo.host.c_str());
mysql_autocommit(m_Mysql, 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
mysql_set_character_set(m_Mysql, "utf8");
return 0;
}
else
{
TC_LOG_ERROR("sql.sql", "Could not connect to MySQL database at %s: %s", m_connectionInfo.host.c_str(), mysql_error(mysqlInit));
mysql_close(mysqlInit);
return mysql_errno(mysqlInit);
}
}
bool MySQLConnection::PrepareStatements()
{
DoPrepareStatements();
return !m_prepareError;
}
bool MySQLConnection::Execute(const char* sql)
{
if (!m_Mysql)
return false;
{
uint32 _s = getMSTime();
if (mysql_query(m_Mysql, sql))
{
uint32 lErrno = mysql_errno(m_Mysql);
TC_LOG_INFO("sql.sql", "SQL: %s", sql);
TC_LOG_ERROR("sql.sql", "[%u] %s", lErrno, mysql_error(m_Mysql));
if (_HandleMySQLErrno(lErrno)) // If it returns true, an error was handled successfully (i.e. reconnection)
return Execute(sql); // Try again
return false;
}
else
TC_LOG_DEBUG("sql.sql", "[%u ms] SQL: %s", getMSTimeDiff(_s, getMSTime()), sql);
}
return true;
}
bool MySQLConnection::Execute(PreparedStatement* stmt)
{
if (!m_Mysql)
return false;
uint32 index = stmt->m_index;
{
MySQLPreparedStatement* m_mStmt = GetPreparedStatement(index);
ASSERT(m_mStmt); // Can only be null if preparation failed, server side error or bad query
m_mStmt->m_stmt = stmt; // Cross reference them for debug output
stmt->m_stmt = m_mStmt; /// @todo Cleaner way
stmt->BindParameters();
MYSQL_STMT* msql_STMT = m_mStmt->GetSTMT();
MYSQL_BIND* msql_BIND = m_mStmt->GetBind();
uint32 _s = getMSTime();
if (mysql_stmt_bind_param(msql_STMT, msql_BIND))
{
uint32 lErrno = mysql_errno(m_Mysql);
TC_LOG_ERROR("sql.sql", "SQL(p): %s\n [ERROR]: [%u] %s", m_mStmt->getQueryString(m_queries[index].first).c_str(), lErrno, mysql_stmt_error(msql_STMT));
if (_HandleMySQLErrno(lErrno)) // If it returns true, an error was handled successfully (i.e. reconnection)
return Execute(stmt); // Try again
m_mStmt->ClearParameters();
return false;
}
if (mysql_stmt_execute(msql_STMT))
{
uint32 lErrno = mysql_errno(m_Mysql);
TC_LOG_ERROR("sql.sql", "SQL(p): %s\n [ERROR]: [%u] %s", m_mStmt->getQueryString(m_queries[index].first).c_str(), lErrno, mysql_stmt_error(msql_STMT));
if (_HandleMySQLErrno(lErrno)) // If it returns true, an error was handled successfully (i.e. reconnection)
return Execute(stmt); // Try again
m_mStmt->ClearParameters();
return false;
}
TC_LOG_DEBUG("sql.sql", "[%u ms] SQL(p): %s", getMSTimeDiff(_s, getMSTime()), m_mStmt->getQueryString(m_queries[index].first).c_str());
m_mStmt->ClearParameters();
return true;
}
}
bool MySQLConnection::_Query(PreparedStatement* stmt, MYSQL_RES **pResult, uint64* pRowCount, uint32* pFieldCount)
{
if (!m_Mysql)
return false;
uint32 index = stmt->m_index;
{
MySQLPreparedStatement* m_mStmt = GetPreparedStatement(index);
ASSERT(m_mStmt); // Can only be null if preparation failed, server side error or bad query
m_mStmt->m_stmt = stmt; // Cross reference them for debug output
stmt->m_stmt = m_mStmt; /// @todo Cleaner way
stmt->BindParameters();
MYSQL_STMT* msql_STMT = m_mStmt->GetSTMT();
MYSQL_BIND* msql_BIND = m_mStmt->GetBind();
uint32 _s = getMSTime();
if (mysql_stmt_bind_param(msql_STMT, msql_BIND))
{
uint32 lErrno = mysql_errno(m_Mysql);
TC_LOG_ERROR("sql.sql", "SQL(p): %s\n [ERROR]: [%u] %s", m_mStmt->getQueryString(m_queries[index].first).c_str(), lErrno, mysql_stmt_error(msql_STMT));
if (_HandleMySQLErrno(lErrno)) // If it returns true, an error was handled successfully (i.e. reconnection)
return _Query(stmt, pResult, pRowCount, pFieldCount); // Try again
m_mStmt->ClearParameters();
return false;
}
if (mysql_stmt_execute(msql_STMT))
{
uint32 lErrno = mysql_errno(m_Mysql);
TC_LOG_ERROR("sql.sql", "SQL(p): %s\n [ERROR]: [%u] %s",
m_mStmt->getQueryString(m_queries[index].first).c_str(), lErrno, mysql_stmt_error(msql_STMT));
if (_HandleMySQLErrno(lErrno)) // If it returns true, an error was handled successfully (i.e. reconnection)
return _Query(stmt, pResult, pRowCount, pFieldCount); // Try again
m_mStmt->ClearParameters();
return false;
}
TC_LOG_DEBUG("sql.sql", "[%u ms] SQL(p): %s", getMSTimeDiff(_s, getMSTime()), m_mStmt->getQueryString(m_queries[index].first).c_str());
m_mStmt->ClearParameters();
*pResult = mysql_stmt_result_metadata(msql_STMT);
*pRowCount = mysql_stmt_num_rows(msql_STMT);
*pFieldCount = mysql_stmt_field_count(msql_STMT);
return true;
}
}
ResultSet* MySQLConnection::Query(const char* sql)
{
if (!sql)
return NULL;
MYSQL_RES *result = NULL;
MYSQL_FIELD *fields = NULL;
uint64 rowCount = 0;
uint32 fieldCount = 0;
if (!_Query(sql, &result, &fields, &rowCount, &fieldCount))
return NULL;
return new ResultSet(result, fields, rowCount, fieldCount);
}
bool MySQLConnection::_Query(const char *sql, MYSQL_RES **pResult, MYSQL_FIELD **pFields, uint64* pRowCount, uint32* pFieldCount)
{
if (!m_Mysql)
return false;
{
uint32 _s = getMSTime();
if (mysql_query(m_Mysql, sql))
{
uint32 lErrno = mysql_errno(m_Mysql);
TC_LOG_INFO("sql.sql", "SQL: %s", sql);
TC_LOG_ERROR("sql.sql", "[%u] %s", lErrno, mysql_error(m_Mysql));
if (_HandleMySQLErrno(lErrno)) // If it returns true, an error was handled successfully (i.e. reconnection)
return _Query(sql, pResult, pFields, pRowCount, pFieldCount); // We try again
return false;
}
else
TC_LOG_DEBUG("sql.sql", "[%u ms] SQL: %s", getMSTimeDiff(_s, getMSTime()), sql);
*pResult = mysql_store_result(m_Mysql);
*pRowCount = mysql_affected_rows(m_Mysql);
*pFieldCount = mysql_field_count(m_Mysql);
}
if (!*pResult )
return false;
if (!*pRowCount)
{
mysql_free_result(*pResult);
return false;
}
*pFields = mysql_fetch_fields(*pResult);
return true;
}
void MySQLConnection::BeginTransaction()
{
Execute("START TRANSACTION");
}
void MySQLConnection::RollbackTransaction()
{
Execute("ROLLBACK");
}
void MySQLConnection::CommitTransaction()
{
Execute("COMMIT");
}
int MySQLConnection::ExecuteTransaction(SQLTransaction& transaction)
{
std::list const& queries = transaction->m_queries;
if (queries.empty())
return -1;
BeginTransaction();
std::list::const_iterator itr;
for (itr = queries.begin(); itr != queries.end(); ++itr)
{
SQLElementData const& data = *itr;
switch (itr->type)
{
case SQL_ELEMENT_PREPARED:
{
PreparedStatement* stmt = data.element.stmt;
ASSERT(stmt);
if (!Execute(stmt))
{
TC_LOG_WARN("sql.sql", "Transaction aborted. %u queries not executed.", (uint32)queries.size());
int errorCode = GetLastError();
RollbackTransaction();
return errorCode;
}
}
break;
case SQL_ELEMENT_RAW:
{
const char* sql = data.element.query;
ASSERT(sql);
if (!Execute(sql))
{
TC_LOG_WARN("sql.sql", "Transaction aborted. %u queries not executed.", (uint32)queries.size());
int errorCode = GetLastError();
RollbackTransaction();
return errorCode;
}
}
break;
}
}
// we might encounter errors during certain queries, and depending on the kind of error
// we might want to restart the transaction. So to prevent data loss, we only clean up when it's all done.
// This is done in calling functions DatabaseWorkerPool::DirectCommitTransaction and TransactionTask::Execute,
// and not while iterating over every element.
CommitTransaction();
return 0;
}
MySQLPreparedStatement* MySQLConnection::GetPreparedStatement(uint32 index)
{
ASSERT(index < m_stmts.size());
MySQLPreparedStatement* ret = m_stmts[index];
if (!ret)
TC_LOG_ERROR("sql.sql", "Could not fetch prepared statement %u on database `%s`, connection type: %s.",
index, m_connectionInfo.database.c_str(), (m_connectionFlags & CONNECTION_ASYNC) ? "asynchronous" : "synchronous");
return ret;
}
void MySQLConnection::PrepareStatement(uint32 index, const char* sql, ConnectionFlags flags)
{
m_queries.insert(PreparedStatementMap::value_type(index, std::make_pair(sql, flags)));
// For reconnection case
if (m_reconnecting)
delete m_stmts[index];
// Check if specified query should be prepared on this connection
// i.e. don't prepare async statements on synchronous connections
// to save memory that will not be used.
if (!(m_connectionFlags & flags))
{
m_stmts[index] = NULL;
return;
}
MYSQL_STMT* stmt = mysql_stmt_init(m_Mysql);
if (!stmt)
{
TC_LOG_ERROR("sql.sql", "In mysql_stmt_init() id: %u, sql: \"%s\"", index, sql);
TC_LOG_ERROR("sql.sql", "%s", mysql_error(m_Mysql));
m_prepareError = true;
}
else
{
if (mysql_stmt_prepare(stmt, sql, static_cast(strlen(sql))))
{
TC_LOG_ERROR("sql.sql", "In mysql_stmt_prepare() id: %u, sql: \"%s\"", index, sql);
TC_LOG_ERROR("sql.sql", "%s", mysql_stmt_error(stmt));
mysql_stmt_close(stmt);
m_prepareError = true;
}
else
{
MySQLPreparedStatement* mStmt = new MySQLPreparedStatement(stmt);
m_stmts[index] = mStmt;
}
}
}
PreparedResultSet* MySQLConnection::Query(PreparedStatement* stmt)
{
MYSQL_RES *result = NULL;
uint64 rowCount = 0;
uint32 fieldCount = 0;
if (!_Query(stmt, &result, &rowCount, &fieldCount))
return NULL;
if (mysql_more_results(m_Mysql))
{
mysql_next_result(m_Mysql);
}
return new PreparedResultSet(stmt->m_stmt->GetSTMT(), result, rowCount, fieldCount);
}
bool MySQLConnection::_HandleMySQLErrno(uint32 errNo)
{
switch (errNo)
{
case CR_SERVER_GONE_ERROR:
case CR_SERVER_LOST:
case CR_INVALID_CONN_HANDLE:
case CR_SERVER_LOST_EXTENDED:
{
m_reconnecting = true;
uint64 oldThreadId = mysql_thread_id(GetHandle());
mysql_close(GetHandle());
uint32 const lErrno = Open();
if (!lErrno)
{
// Don't remove 'this' pointer unless you want to skip loading all prepared statements...
if (!this->PrepareStatements())
{
TC_LOG_ERROR("sql.sql", "Could not re-prepare statements!");
Close();
return false;
}
TC_LOG_INFO("sql.sql", "Connection to the MySQL server is active.");
if (oldThreadId != mysql_thread_id(GetHandle()))
TC_LOG_INFO("sql.sql", "Successfully reconnected to %s @%s:%s (%s).",
m_connectionInfo.database.c_str(), m_connectionInfo.host.c_str(), m_connectionInfo.port_or_socket.c_str(),
(m_connectionFlags & CONNECTION_ASYNC) ? "asynchronous" : "synchronous");
m_reconnecting = false;
return true;
}
// It's possible this attempted reconnect throws 2006 at us. To prevent crazy recursive calls, sleep here.
std::this_thread::sleep_for(std::chrono::seconds(3)); // Sleep 3 seconds
return _HandleMySQLErrno(lErrno); // Call self (recursive)
}
case ER_LOCK_DEADLOCK:
return false; // Implemented in TransactionTask::Execute and DatabaseWorkerPool::DirectCommitTransaction
// Query related errors - skip query
case ER_WRONG_VALUE_COUNT:
case ER_DUP_ENTRY:
return false;
// Outdated table or database structure - terminate core
case ER_BAD_FIELD_ERROR:
case ER_NO_SUCH_TABLE:
TC_LOG_ERROR("sql.sql", "Your database structure is not up to date. Please make sure you've executed all queries in the sql/updates folders.");
std::this_thread::sleep_for(std::chrono::seconds(10));
std::abort();
return false;
case ER_PARSE_ERROR:
TC_LOG_ERROR("sql.sql", "Error while parsing SQL. Core fix required.");
std::this_thread::sleep_for(std::chrono::seconds(10));
std::abort();
return false;
default:
TC_LOG_ERROR("sql.sql", "Unhandled MySQL errno %u. Unexpected behaviour possible.", errNo);
return false;
}
}