/**
* This file is part of Hercules.
* http://herc.ws - http://github.com/HerculesWS/Hercules
*
* Copyright (C) 2012-2015 Hercules Dev Team
* Copyright (C) Athena Dev Teams
*
* Hercules 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/>.
*/
#ifndef COMMON_SQL_H
#define COMMON_SQL_H
#include "common/hercules.h"
#include <stdarg.h>// va_list
// Return codes
#define SQL_ERROR (-1)
#define SQL_SUCCESS 0
#define SQL_NO_DATA 100
// macro definition to determine whether the mySQL engine is running on InnoDB (rather than MyISAM)
// uncomment this line if the your mySQL tables have been changed to run on InnoDB
// this macro will adjust how logs are recorded in the database to accommodate the change
//#define SQL_INNODB
/// Data type identifier.
/// String, enum and blob data types need the buffer length specified.
enum SqlDataType {
SQLDT_NULL,
// fixed size
SQLDT_INT8,
SQLDT_INT16,
SQLDT_INT32,
SQLDT_INT64,
SQLDT_UINT8,
SQLDT_UINT16,
SQLDT_UINT32,
SQLDT_UINT64,
// platform dependent size
SQLDT_CHAR,
SQLDT_SHORT,
SQLDT_INT,
SQLDT_LONG,
SQLDT_LONGLONG,
SQLDT_UCHAR,
SQLDT_USHORT,
SQLDT_UINT,
SQLDT_ULONG,
SQLDT_ULONGLONG,
// floating point
SQLDT_FLOAT,
SQLDT_DOUBLE,
// other
SQLDT_STRING,
SQLDT_ENUM,
// Note: An ENUM is a string with restricted values. When an invalid value
// is inserted, it is saved as an empty string (numerical value 0).
SQLDT_BLOB,
SQLDT_LASTID
};
struct Sql;// Sql handle (private access)
struct SqlStmt;// Sql statement (private access)
typedef enum SqlDataType SqlDataType;
typedef struct Sql Sql;
typedef struct SqlStmt SqlStmt;
struct sql_interface {
/// Establishes a connection.
///
/// @return SQL_SUCCESS or SQL_ERROR
int (*Connect) (Sql* self, const char* user, const char* passwd, const char* host, uint16 port, const char* db);
/// Retrieves the timeout of the connection.
///
/// @return SQL_SUCCESS or SQL_ERROR
int (*GetTimeout) (Sql* self, uint32* out_timeout);
/// Retrieves the name of the columns of a table into out_buf, with the separator after each name.
///
/// @return SQL_SUCCESS or SQL_ERROR
int (*GetColumnNames) (Sql* self, const char* table, char* out_buf, size_t buf_len, char sep);
/// Changes the encoding of the connection.
///
/// @return SQL_SUCCESS or SQL_ERROR
int (*SetEncoding) (Sql* self, const char* encoding);
/// Pings the connection.
///
/// @return SQL_SUCCESS or SQL_ERROR
int (*Ping) (Sql* self);
/// Escapes a string.
/// The output buffer must be at least strlen(from)*2+1 in size.
///
/// @return The size of the escaped string
size_t (*EscapeString) (Sql* self, char* out_to, const char* from);
/// Escapes a string.
/// The output buffer must be at least from_len*2+1 in size.
///
/// @return The size of the escaped string
size_t (*EscapeStringLen) (Sql* self, char* out_to, const char* from, size_t from_len);
/// Executes a query.
/// Any previous result is freed.
/// The query is constructed as if it was sprintf.
///
/// @return SQL_SUCCESS or SQL_ERROR
int (*Query) (Sql *self, const char *query, ...) __attribute__((format(printf, 2, 3)));
/// Executes a query.
/// Any previous result is freed.
/// The query is constructed as if it was svprintf.
///
/// @return SQL_SUCCESS or SQL_ERROR
int (*QueryV) (Sql* self, const char* query, va_list args);
/// Executes a query.
/// Any previous result is freed.
/// The query is used directly.
///
/// @return SQL_SUCCESS or SQL_ERROR
int (*QueryStr) (Sql* self, const char* query);
/// Returns the number of the AUTO_INCREMENT column of the last INSERT/UPDATE query.
///
/// @return Value of the auto-increment column
uint64 (*LastInsertId) (Sql* self);
/// Returns the number of columns in each row of the result.
///
/// @return Number of columns
uint32 (*NumColumns) (Sql* self);
/// Returns the number of rows in the result.
///
/// @return Number of rows
uint64 (*NumRows) (Sql* self);
/// Fetches the next row.
/// The data of the previous row is no longer valid.
///
/// @return SQL_SUCCESS, SQL_ERROR or SQL_NO_DATA
int (*NextRow) (Sql* self);
/// Gets the data of a column.
/// The data remains valid until the next row is fetched or the result is freed.
///
/// @return SQL_SUCCESS or SQL_ERROR
int (*GetData) (Sql* self, size_t col, char** out_buf, size_t* out_len);
/// Frees the result of the query.
void (*FreeResult) (Sql* self);
/// Shows debug information (last query).
void (*ShowDebug_) (Sql* self, const char* debug_file, const unsigned long debug_line);
/// Frees a Sql handle returned by Sql_Malloc.
void (*Free) (Sql* self);
/// Allocates and initializes a new Sql handle.
struct Sql *(*Malloc) (void);
///////////////////////////////////////////////////////////////////////////////
// Prepared Statements
///////////////////////////////////////////////////////////////////////////////
// Parameters are placed in the statement by embedding question mark ('?')
// characters into the query at the appropriate positions.
// The markers are legal only in places where they represent data.
// The markers cannot be inside quotes. Quotes will be added automatically
// when they are required.
//
// example queries with parameters:
// 1) SELECT col FROM table WHERE id=?
// 2) INSERT INTO table(col1,col2) VALUES(?,?)
/*=====================================
SQL Statement interface [Susu]
*-------------------------------------*/
/// Allocates and initializes a new SqlStmt handle.
/// It uses the connection of the parent Sql handle.
/// Queries in Sql and SqlStmt are independent and don't affect each other.
///
/// @return SqlStmt handle or NULL if an error occurred
struct SqlStmt* (*StmtMalloc)(Sql* sql);
/// Prepares the statement.
/// Any previous result is freed and all parameter bindings are removed.
/// The query is constructed as if it was sprintf.
///
/// @return SQL_SUCCESS or SQL_ERROR
int (*StmtPrepare) (SqlStmt *self, const char *query, ...) __attribute__((format(printf, 2, 3)));
/// Prepares the statement.
/// Any previous result is freed and all parameter bindings are removed.
/// The query is constructed as if it was svprintf.
///
/// @return SQL_SUCCESS or SQL_ERROR
int (*StmtPrepareV)(SqlStmt* self, const char* query, va_list args);
/// Prepares the statement.
/// Any previous result is freed and all parameter bindings are removed.
/// The query is used directly.
///
/// @return SQL_SUCCESS or SQL_ERROR
int (*StmtPrepareStr)(SqlStmt* self, const char* query);
/// Returns the number of parameters in the prepared statement.
///
/// @return Number or parameters
size_t (*StmtNumParams)(SqlStmt* self);
/// Binds a parameter to a buffer.
/// The buffer data will be used when the statement is executed.
/// All parameters should have bindings.
///
/// @return SQL_SUCCESS or SQL_ERROR
int (*StmtBindParam)(SqlStmt* self, size_t idx, SqlDataType buffer_type, void* buffer, size_t buffer_len);
/// Executes the prepared statement.
/// Any previous result is freed and all column bindings are removed.
///
/// @return SQL_SUCCESS or SQL_ERROR
int (*StmtExecute)(SqlStmt* self);
/// Returns the number of the AUTO_INCREMENT column of the last INSERT/UPDATE statement.
///
/// @return Value of the auto-increment column
uint64 (*StmtLastInsertId)(SqlStmt* self);
/// Returns the number of columns in each row of the result.
///
/// @return Number of columns
size_t (*StmtNumColumns)(SqlStmt* self);
/// Binds the result of a column to a buffer.
/// The buffer will be filled with data when the next row is fetched.
/// For string/enum buffer types there has to be enough space for the data
/// and the null-terminator (an extra byte).
///
/// @return SQL_SUCCESS or SQL_ERROR
int (*StmtBindColumn)(SqlStmt* self, size_t idx, SqlDataType buffer_type, void* buffer, size_t buffer_len, uint32* out_length, int8* out_is_null);
/// Returns the number of rows in the result.
///
/// @return Number of rows
uint64 (*StmtNumRows)(SqlStmt* self);
/// Fetches the next row.
/// All column bindings will be filled with data.
///
/// @return SQL_SUCCESS, SQL_ERROR or SQL_NO_DATA
int (*StmtNextRow)(SqlStmt* self);
/// Frees the result of the statement execution.
void (*StmtFreeResult)(SqlStmt* self);
/// Frees a SqlStmt returned by SqlStmt_Malloc.
void (*StmtFree)(SqlStmt* self);
void (*StmtShowDebug_)(SqlStmt* self, const char* debug_file, const unsigned long debug_line);
};
#ifdef HERCULES_CORE
void sql_defaults(void);
void Sql_Init(void);
void Sql_HerculesUpdateCheck(Sql* self);
void Sql_HerculesUpdateSkip(Sql* self,const char *filename);
#endif // HERCULES_CORE
HPShared struct sql_interface *SQL;
#if defined(SQL_REMOVE_SHOWDEBUG)
#define Sql_ShowDebug(self) (void)(self)
#else
#define Sql_ShowDebug(self) (SQL->ShowDebug_((self), __FILE__, __LINE__))
#endif
#if defined(SQL_REMOVE_SHOWDEBUG)
#define SqlStmt_ShowDebug(self) (void)(self)
#else
/// Shows debug information (with statement).
#define SqlStmt_ShowDebug(self) (SQL->StmtShowDebug_((self), __FILE__, __LINE__))
#endif
#endif /* COMMON_SQL_H */