/*
* Copyright (C) 2008-2014 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 "PreparedStatement.h"
#include "MySQLConnection.h"
#include "Log.h"
PreparedStatement::PreparedStatement(uint32 index) :
m_stmt(NULL),
m_index(index) { }
PreparedStatement::~PreparedStatement() { }
void PreparedStatement::BindParameters()
{
ASSERT (m_stmt);
uint8 i = 0;
for (; i < statement_data.size(); i++)
{
switch (statement_data[i].type)
{
case TYPE_BOOL:
m_stmt->setBool(i, statement_data[i].data.boolean);
break;
case TYPE_UI8:
m_stmt->setUInt8(i, statement_data[i].data.ui8);
break;
case TYPE_UI16:
m_stmt->setUInt16(i, statement_data[i].data.ui16);
break;
case TYPE_UI32:
m_stmt->setUInt32(i, statement_data[i].data.ui32);
break;
case TYPE_I8:
m_stmt->setInt8(i, statement_data[i].data.i8);
break;
case TYPE_I16:
m_stmt->setInt16(i, statement_data[i].data.i16);
break;
case TYPE_I32:
m_stmt->setInt32(i, statement_data[i].data.i32);
break;
case TYPE_UI64:
m_stmt->setUInt64(i, statement_data[i].data.ui64);
break;
case TYPE_I64:
m_stmt->setInt64(i, statement_data[i].data.i64);
break;
case TYPE_FLOAT:
m_stmt->setFloat(i, statement_data[i].data.f);
break;
case TYPE_DOUBLE:
m_stmt->setDouble(i, statement_data[i].data.d);
break;
case TYPE_STRING:
m_stmt->setString(i, statement_data[i].str.c_str());
break;
case TYPE_NULL:
m_stmt->setNull(i);
break;
}
}
#ifdef _DEBUG
if (i < m_stmt->m_paramCount)
TC_LOG_WARN("sql.sql", "[WARNING]: BindParameters() for statement %u did not bind all allocated parameters", m_index);
#endif
}
//- Bind to buffer
void PreparedStatement::setBool(const uint8 index, const bool value)
{
if (index >= statement_data.size())
statement_data.resize(index+1);
statement_data[index].data.boolean = value;
statement_data[index].type = TYPE_BOOL;
}
void PreparedStatement::setUInt8(const uint8 index, const uint8 value)
{
if (index >= statement_data.size())
statement_data.resize(index+1);
statement_data[index].data.ui8 = value;
statement_data[index].type = TYPE_UI8;
}
void PreparedStatement::setUInt16(const uint8 index, const uint16 value)
{
if (index >= statement_data.size())
statement_data.resize(index+1);
statement_data[index].data.ui16 = value;
statement_data[index].type = TYPE_UI16;
}
void PreparedStatement::setUInt32(const uint8 index, const uint32 value)
{
if (index >= statement_data.size())
statement_data.resize(index+1);
statement_data[index].data.ui32 = value;
statement_data[index].type = TYPE_UI32;
}
void PreparedStatement::setUInt64(const uint8 index, const uint64 value)
{
if (index >= statement_data.size())
statement_data.resize(index+1);
statement_data[index].data.ui64 = value;
statement_data[index].type = TYPE_UI64;
}
void PreparedStatement::setInt8(const uint8 index, const int8 value)
{
if (index >= statement_data.size())
statement_data.resize(index+1);
statement_data[index].data.i8 = value;
statement_data[index].type = TYPE_I8;
}
void PreparedStatement::setInt16(const uint8 index, const int16 value)
{
if (index >= statement_data.size())
statement_data.resize(index+1);
statement_data[index].data.i16 = value;
statement_data[index].type = TYPE_I16;
}
void PreparedStatement::setInt32(const uint8 index, const int32 value)
{
if (index >= statement_data.size())
statement_data.resize(index+1);
statement_data[index].data.i32 = value;
statement_data[index].type = TYPE_I32;
}
void PreparedStatement::setInt64(const uint8 index, const int64 value)
{
if (index >= statement_data.size())
statement_data.resize(index+1);
statement_data[index].data.i64 = value;
statement_data[index].type = TYPE_I64;
}
void PreparedStatement::setFloat(const uint8 index, const float value)
{
if (index >= statement_data.size())
statement_data.resize(index+1);
statement_data[index].data.f = value;
statement_data[index].type = TYPE_FLOAT;
}
void PreparedStatement::setDouble(const uint8 index, const double value)
{
if (index >= statement_data.size())
statement_data.resize(index+1);
statement_data[index].data.d = value;
statement_data[index].type = TYPE_DOUBLE;
}
void PreparedStatement::setString(const uint8 index, const std::string& value)
{
if (index >= statement_data.size())
statement_data.resize(index+1);
statement_data[index].str = value;
statement_data[index].type = TYPE_STRING;
}
void PreparedStatement::setNull(const uint8 index)
{
if (index >= statement_data.size())
statement_data.resize(index+1);
statement_data[index].type = TYPE_NULL;
}
MySQLPreparedStatement::MySQLPreparedStatement(MYSQL_STMT* stmt) :
m_stmt(NULL),
m_Mstmt(stmt),
m_bind(NULL)
{
/// Initialize variable parameters
m_paramCount = mysql_stmt_param_count(stmt);
m_paramsSet.assign(m_paramCount, false);
m_bind = new MYSQL_BIND[m_paramCount];
memset(m_bind, 0, sizeof(MYSQL_BIND)*m_paramCount);
/// "If set to 1, causes mysql_stmt_store_result() to update the metadata MYSQL_FIELD->max_length value."
my_bool bool_tmp = 1;
mysql_stmt_attr_set(stmt, STMT_ATTR_UPDATE_MAX_LENGTH, &bool_tmp);
}
MySQLPreparedStatement::~MySQLPreparedStatement()
{
ClearParameters();
if (m_Mstmt->bind_result_done)
{
delete[] m_Mstmt->bind->length;
delete[] m_Mstmt->bind->is_null;
}
mysql_stmt_close(m_Mstmt);
delete[] m_bind;
}
void MySQLPreparedStatement::ClearParameters()
{
for (uint32 i=0; i < m_paramCount; ++i)
{
delete m_bind[i].length;
m_bind[i].length = NULL;
delete[] (char*) m_bind[i].buffer;
m_bind[i].buffer = NULL;
m_paramsSet[i] = false;
}
}
static bool ParamenterIndexAssertFail(uint32 stmtIndex, uint8 index, uint32 paramCount)
{
TC_LOG_ERROR("sql.driver", "Attempted to bind parameter %u%s on a PreparedStatement %u (statement has only %u parameters)", uint32(index) + 1, (index == 1 ? "st" : (index == 2 ? "nd" : (index == 3 ? "rd" : "nd"))), stmtIndex, paramCount);
return false;
}
//- Bind on mysql level
bool MySQLPreparedStatement::CheckValidIndex(uint8 index)
{
ASSERT(index < m_paramCount || ParamenterIndexAssertFail(m_stmt->m_index, index, m_paramCount));
if (m_paramsSet[index])
TC_LOG_WARN("sql.sql", "[WARNING] Prepared Statement (id: %u) trying to bind value on already bound index (%u).", m_stmt->m_index, index);
return true;
}
void MySQLPreparedStatement::setBool(const uint8 index, const bool value)
{
setUInt8(index, value ? 1 : 0);
}
void MySQLPreparedStatement::setUInt8(const uint8 index, const uint8 value)
{
CheckValidIndex(index);
m_paramsSet[index] = true;
MYSQL_BIND* param = &m_bind[index];
setValue(param, MYSQL_TYPE_TINY, &value, sizeof(uint8), true);
}
void MySQLPreparedStatement::setUInt16(const uint8 index, const uint16 value)
{
CheckValidIndex(index);
m_paramsSet[index] = true;
MYSQL_BIND* param = &m_bind[index];
setValue(param, MYSQL_TYPE_SHORT, &value, sizeof(uint16), true);
}
void MySQLPreparedStatement::setUInt32(const uint8 index, const uint32 value)
{
CheckValidIndex(index);
m_paramsSet[index] = true;
MYSQL_BIND* param = &m_bind[index];
setValue(param, MYSQL_TYPE_LONG, &value, sizeof(uint32), true);
}
void MySQLPreparedStatement::setUInt64(const uint8 index, const uint64 value)
{
CheckValidIndex(index);
m_paramsSet[index] = true;
MYSQL_BIND* param = &m_bind[index];
setValue(param, MYSQL_TYPE_LONGLONG, &value, sizeof(uint64), true);
}
void MySQLPreparedStatement::setInt8(const uint8 index, const int8 value)
{
CheckValidIndex(index);
m_paramsSet[index] = true;
MYSQL_BIND* param = &m_bind[index];
setValue(param, MYSQL_TYPE_TINY, &value, sizeof(int8), false);
}
void MySQLPreparedStatement::setInt16(const uint8 index, const int16 value)
{
CheckValidIndex(index);
m_paramsSet[index] = true;
MYSQL_BIND* param = &m_bind[index];
setValue(param, MYSQL_TYPE_SHORT, &value, sizeof(int16), false);
}
void MySQLPreparedStatement::setInt32(const uint8 index, const int32 value)
{
CheckValidIndex(index);
m_paramsSet[index] = true;
MYSQL_BIND* param = &m_bind[index];
setValue(param, MYSQL_TYPE_LONG, &value, sizeof(int32), false);
}
void MySQLPreparedStatement::setInt64(const uint8 index, const int64 value)
{
CheckValidIndex(index);
m_paramsSet[index] = true;
MYSQL_BIND* param = &m_bind[index];
setValue(param, MYSQL_TYPE_LONGLONG, &value, sizeof(int64), false);
}
void MySQLPreparedStatement::setFloat(const uint8 index, const float value)
{
CheckValidIndex(index);
m_paramsSet[index] = true;
MYSQL_BIND* param = &m_bind[index];
setValue(param, MYSQL_TYPE_FLOAT, &value, sizeof(float), (value > 0.0f));
}
void MySQLPreparedStatement::setDouble(const uint8 index, const double value)
{
CheckValidIndex(index);
m_paramsSet[index] = true;
MYSQL_BIND* param = &m_bind[index];
setValue(param, MYSQL_TYPE_DOUBLE, &value, sizeof(double), (value > 0.0f));
}
void MySQLPreparedStatement::setString(const uint8 index, const char* value)
{
CheckValidIndex(index);
m_paramsSet[index] = true;
MYSQL_BIND* param = &m_bind[index];
size_t len = strlen(value) + 1;
param->buffer_type = MYSQL_TYPE_VAR_STRING;
delete [] static_cast(param->buffer);
param->buffer = new char[len];
param->buffer_length = len;
param->is_null_value = 0;
delete param->length;
param->length = new unsigned long(len-1);
memcpy(param->buffer, value, len);
}
void MySQLPreparedStatement::setNull(const uint8 index)
{
CheckValidIndex(index);
m_paramsSet[index] = true;
MYSQL_BIND* param = &m_bind[index];
param->buffer_type = MYSQL_TYPE_NULL;
delete [] static_cast(param->buffer);
param->buffer = NULL;
param->buffer_length = 0;
param->is_null_value = 1;
delete param->length;
param->length = NULL;
}
void MySQLPreparedStatement::setValue(MYSQL_BIND* param, enum_field_types type, const void* value, uint32 len, bool isUnsigned)
{
param->buffer_type = type;
delete [] static_cast(param->buffer);
param->buffer = new char[len];
param->buffer_length = 0;
param->is_null_value = 0;
param->length = NULL; // Only != NULL for strings
param->is_unsigned = isUnsigned;
memcpy(param->buffer, value, len);
}
std::string MySQLPreparedStatement::getQueryString(std::string const& sqlPattern) const
{
std::string queryString = sqlPattern;
size_t pos = 0;
for (uint32 i = 0; i < m_stmt->statement_data.size(); i++)
{
pos = queryString.find('?', pos);
std::stringstream ss;
switch (m_stmt->statement_data[i].type)
{
case TYPE_BOOL:
ss << uint16(m_stmt->statement_data[i].data.boolean);
break;
case TYPE_UI8:
ss << uint16(m_stmt->statement_data[i].data.ui8); // stringstream will append a character with that code instead of numeric representation
break;
case TYPE_UI16:
ss << m_stmt->statement_data[i].data.ui16;
break;
case TYPE_UI32:
ss << m_stmt->statement_data[i].data.ui32;
break;
case TYPE_I8:
ss << int16(m_stmt->statement_data[i].data.i8); // stringstream will append a character with that code instead of numeric representation
break;
case TYPE_I16:
ss << m_stmt->statement_data[i].data.i16;
break;
case TYPE_I32:
ss << m_stmt->statement_data[i].data.i32;
break;
case TYPE_UI64:
ss << m_stmt->statement_data[i].data.ui64;
break;
case TYPE_I64:
ss << m_stmt->statement_data[i].data.i64;
break;
case TYPE_FLOAT:
ss << m_stmt->statement_data[i].data.f;
break;
case TYPE_DOUBLE:
ss << m_stmt->statement_data[i].data.d;
break;
case TYPE_STRING:
ss << '\'' << m_stmt->statement_data[i].str << '\'';
break;
case TYPE_NULL:
ss << "NULL";
break;
}
std::string replaceStr = ss.str();
queryString.replace(pos, 1, replaceStr);
pos += replaceStr.length();
}
return queryString;
}
//- Execution
PreparedStatementTask::PreparedStatementTask(PreparedStatement* stmt, bool async) :
m_stmt(stmt), m_result(nullptr)
{
m_has_result = async; // If it's async, then there's a result
if (async)
m_result = new PreparedQueryResultPromise();
}
PreparedStatementTask::~PreparedStatementTask()
{
delete m_stmt;
if (m_has_result && m_result != nullptr)
delete m_result;
}
bool PreparedStatementTask::Execute()
{
if (m_has_result)
{
PreparedResultSet* result = m_conn->Query(m_stmt);
if (!result || !result->GetRowCount())
{
delete result;
m_result->set_value(PreparedQueryResult(NULL));
return false;
}
m_result->set_value(PreparedQueryResult(result));
return true;
}
return m_conn->Execute(m_stmt);
}