$Id$ Generic Database Interface -------------------------- This is a generic database interface for modules that need to utilize a database. The interface should be used by all modules that access database. The interface will be independent of the underlying database server. Notes: If possible, use predefined macros if you need to access any structure attributes. For additional description, see comments in sources of mysql module. If you want to see more complicated examples of how the API could be used, see sources of dbexample, usrloc or auth modules. 1 Data types There are several new data types. All of them are defined in header file db.h, a client must include the header file to be able to use them. 1.1 Type db_con_t 1.1.1 Description This type represents a database connection, all database functions (described below) use a variable of this type as one argument. In other words, variable of db_con_t type serves as a handle for a particular database connection. 1.1.2 Definition typedef struct db_con { char* table; /* Default table to use */ void* con; /* Database connection */ void* res; /* Result of previous operation */ void* row; /* Internal, not for public use */ int connected; /* 1 if connection is established */ } db_con_t; 1.1.3 Macros There are no macros for db_con_t type. 1.2 Type db_key_t 1.2.1 Description This type represents a database key. Every time you need to specify a key value, this type should be used. In fact, this type is identical to const char*. 1.2.2 Definition typedef const char* db_key_t; 1.2.3 Macros There are no macros (It is not needed). 1.3 Type db_type_t 1.3.1 Description Each cell in a database table can be of a different type. To distinguish among these types, the db_type_t enumeration is used. Every value of the enumeration represents one datatype that is recognized by the database API. This enumeration is used in conjunction with db_type_t. For more information, see the next section. 1.3.2 Definition typedef enum { DB_INT, /* Integer number */ DB_DOUBLE, /* Decimal number */ DB_STRING, /* String */ DB_STR, /* str structure */ DB_DATETIME /* Date and time */ DB_BLOB /* Binary large object */ DB_BITMAP /* Bitmap, one-dimensional array of flags */ } db_type_t; 1.3.3 Macros There are no macros. 1.4 Type db_val_t 1.4.1 Description This structure represents a value in the database. Several datatypes are recognized and converted by the database API: DB_INT - Value in the database represents an integer number DB_DOUBLE - Value in the database represents a decimal number DB_STRING - Value in the database represents a string DB_STR - Value in the database represents a string DB_DATETIME - Value in the database represents date and time DB_BLOB - Value in the database represents binary large object DB_BITMAP - Value in the database represents an array of flags These datatypes are automaticaly recognized, converted from internal database representation and stored in the variable of corresponding type. 1.4.2 Definition typedef struct db_val { db_type_t type; /* Type of the value */ int nul; /* NULL flag */ union { int int_val; /* Integer value */ double double_val; /* Double value */ time_t time_val; /* Unix time_t value */ const char* string_val; /* Zero terminated string */ str str_val; /* str structure */ str blob_val; /* Structure describing blob */ unsigned int bitmap_val; /* Array of flags */ } val; } db_val_t; 1.4.3 Macros Note: All macros expect reference to db_val_t variable as the parameter. 1.4.3.1 VAL_TYPE(value) Macro Use this macro if you need to set/get the type of the value Example: VAL_TYPE(val) = DB_INT; if (VAL_TYPE(val) == DB_FLOAT) ... 1.4.3.2 VAL_NULL(value) Macro Use this macro if you need to set/get the null flag. Non-zero flag means that the corresponding cell in the database contained no data (NULL value in MySQL terminology). Example: if (VAL_NULL(val) == 1) { printf("The cell is NULL"); } 1.4.3.3 VAL_INT(value) Macro Use this macro if you need to access integer value in the db_val_t structure. Example: if (VAL_TYPE(val) == DB_INT) { printf("%d", VAL_INT(val)); } 1.4.3.4 VAL_DOUBLE(value) Macro Use this macro if you need to access double value in the db_val_t structure. Example: if (VAL_TYPE(val) == DB_DOUBLE) { printf("%f", VAL_DOUBLE(val)); } 1.4.3.5 VAL_TIME(value) Macro Use this macro if you need to access time_t value in the db_val_t structure. Example: time_t tim; if (VAL_TYPE(val) == DB_DATETIME) { tim = VAL_TIME(val); } 1.4.3.6 VAL_STRING(value) Macro Use this macro if you need to access string value in the db_val_t structure. Example: if (VAL_TYPE(val) == DB_STRING) { printf("%s", VAL_STRING(val)); } 1.4.3.7 VAL_STR(value) Macro Use this macro if you need to access str structure in the db_val_t structure. Example: if (VAL_TYPE(val) == DB_STR) { printf("%.*s", VAL_STR(val).len, VAL_STR(val).s); } 1.4.3.8 VAL_BLOB(value) Macro Use this macro if you need to access blob value in the db_val_t structure. Example: if (VAL_TYPE(val) == DB_BLOB) { printf("%.*s", VAL_BLOB(val).len, VAL_BLOB(val).s); } 1.4.3.9 VAL_BITMAP(value) Macro Use this macro if you need to access bitmap value in the db_val_t structure. Example: if (VAL_TYPE(val) == DB_BITMAP) { printf("%d", VAL_BITMAP(val)); } 1.5 Type db_row_t 1.5.1 Description This type represents one row in a database table. In other words, the row is an array of db_val_t variables, where each db_val_t variable represents exactly one cell in the table. 1.5.2 Definition typedef struct db_row { db_val_t* values; /* Array of values in the row */ int n; /* Number of values in the row */ } db_val_t; 1.5.3 Macros 1.5.3.1 ROW_VALUES(row) Macro Use this macro to get pointer to the array of db_val_t structures. Example: db_val_t* v = ROW_VALUES(row); if (VAL_TYPE(v) == DB_INT) .... 1.5.3.2 ROW_N(row) Macro Use this macro to get number of cells in the row. Example: db_val_t* val = ROW_VALUES(row); for(i = 0; i < ROW_N(row); i++) { switch(VAL_TYPE(val + i)) { case DB_INT: ...; break; case DB_DOUBLE: ...; break; ... } } 1.6 Type db_res_t 1.6.1 Description This type represents a result returned by db_query function (see below). The result can consist of zero or more rows (see db_row_t description). Note: A variable of type db_res_t returned by db_query function uses dynamicaly allocated memory, don't forget to call db_free_query if you don't need the variable anymore. You will encounter memory leaks if you fail to do this ! In addition to zero or more rows, each db_res_t object contains also an array of db_key_t objects. The objects represent keys (names of columns). 1.6.2 Definition typedef struct db_res { struct { db_key_t* keys; /* Array of column names */ db_type_t* types; /* Array of column types */ int n; /* Number of columns */ } col; struct db_row* rows; /* Array of rows */ int n; /* Number of rows */ } db_res_t; 1.6.3 Macros 1.6.3.1 RES_NAMES(res) Macro Use this macro if you want to obtain pointer to the array of cell names. Example: db_key_t* column_names = ROW_NAMES(row); 1.6.3.2 RES_COL_N(res) Macro Use this macro if you want to get the number of columns in the result. Example: int ncol = RES_COL_N(res) for(i = 0; i < ncol; i++) { /* do something with the column */ } 1.6.3.3 RES_ROWS(res) Macro Use this macro if you need to obtain pointer to array of rows. Example: db_row_t* rows = RES_ROWS(res); 1.6.3.4 RES_ROW_N(res) Macro Use this macro if you need to obtain the number of rows in the result Example: int n = RES_ROW_N(res); 1.7 Type db_op_t 1.7.1 Description This type represents an expression operator. In fact, this type is identical to const char*. 1.7.2 Definition typedef const char* db_op_t; 1.7.3 Macros There are no macros (It is not needed). 2 Functions There are several functions that implement the database API logic. All function names start with db_ prefix, except bind_dbmod. bind_dbmod function is implemented in db.c file, all other functions are implemented in a standalone database module. You will need to compile and link db.c in your module to be able to use the bind_dbmod function. Detailed function description follows. 2.1 Function bind_dbmod 2.1.1 Description This function is special, it's only purpose is to call find_export function in the ser core and find addresses of all other functions (starting with db_ prefix). This function MUST be called __FIRST__ ! 2.1.2 Prototype int bind_dbmod(void); 2.1.3 Parameters The function takes no parameters. 2.1.4 Return Value The function returns 0 if it was able to find addresses of all other functions, otherwise value < 0 is returned. 2.2 Function db_init 2.2.1 Description Use this function to initialize the database API and open a new database connection. This function must be called after bind_dbmod but before any other function is called. 2.2.2 Prototype db_con_t* db_init(const char* _sql_url); 2.2.3 Parameters The function takes one parameter, the parameter must contain database connection URL. The URL is of the form sql://username:password@host:port/database where: username: Username to use when logging into database (optional). password: password if it was set (optional) host: Hosname or IP address of the host where database server lives (mandatory) port: Port number of the server if the port differs from default value (optional) database: If the database server supports multiple databases, you must specify name of the database (optional). 2.2.4 Return Value The function returns pointer to db_con_t* representing the connection if it was successful, otherwise 0 is returned. 2.3 Function db_close 2.3.1 Description The function closes previously open connection and frees all previously allocated memory. The function db_close must be the very last function called. 2.3.2 Prototype void db_close(db_con_t* _h); 2.3.3 Parameters The function takes one parameter, this parameter is a pointer to db_con_t structure representing database connection that should be closed. 2.3.4 Return Value Function doesn't return anything. 2.4 Function db_query 2.4.1 Description This function implements SELECT SQL directive. 2.4.2 Prototype int db_query(db_con_t* _h, db_key_t* _k, db_op_t* _op, db_val_t* _v, db_key_t* _c, int _n, int _nc, db_key_t _o, db_res_t** _r); 2.4.3 Parameters The function takes 7 parameters: _h: Database connection handle _k: Array of column names that will be compared and their values must match _op: Array of operators to be used with key-value pairs _v: Array of values, columns specified in _k parameter must match these values _c: Array of column names that you are interested in _n: Number of key-value pairs to match in _k and _v parameters _nc: Number of columns in _c parameter _o: Order by _r: Address of variable where pointer to the result will be stored If _k and _v parameters are NULL and _n is zero, you will get the whole table. if _c is NULL and _nc is zero, you will get all table columns in the result _r will point to a dynamically allocated structure, it is neccessary to call db_free_query function once you are finished with the result. If _op is 0, equal (=) will be used for all key-value pairs. Strings in the result are not duplicated, they will be discarded if you call db_free_query, make a copy yourself if you need to keep it after db_free_query. You must call db_free_query _BEFORE_ you can call db_query again ! 2.4.4 Return Value The function returns 0 if everything is OK, otherwise value < 0 is returned. 2.5 Function db_free_query 2.5.1 Description This function frees all memory allocated previously in db_query, it is neccessary to call this function on a db_res_t structure if you don't need the structure anymore. You must call this function _BEFORE_ you call db_query again ! 2.5.2 Prototype int db_free_query(db_con_t* _h, db_res_t* _r); 2.5.3 Parameters The function takes 2 parameters: _h: Database connection handle _r: Pointer to db_res_t structure to destroy 2.5.4 Return Value The function returns 0 if everything is OK, otherwise the function returns value < 0. 2.6 Function db_insert 2.6.1 Description This function implements INSERT SQL directive, you can insert one or more rows in a table using this function. 2.6.2 Prototype int db_insert(db_con_t* _h, db_key_t* _k, db_val_t* _v, int _n); 2.6.3 Parameters The function takes 4 parameters: _h: Database connection handle _k: Array of keys (column names) _v: Array of values for keys specified in _k parameter _n: Number of keys-value pairs int _k and _v parameters 2.6.4 Return Value The function returns 0 if everything is OK, otherwise the function returns value < 0. 2.7 Function db_delete 2.7.1 Description This function implements DELETE SQL directive, it is possible to delete one or more rows from a table. 2.7.2 Prototype int db_delete(db_con_t* _h, db_key_t* _k, db_op_t* _o, db_val_t* _v, int _n); 2.7.3 Parameters The function takes 4 parameters: _h: Database connection handle _k: Array of keys (column names) that will be matched _o: Array of operators to be used with key-value pairs _v: Array of values that the row must match to be deleted _n: Number of keys-value parameters in _k and _v parameters If _k is NULL and _v is NULL and _n is zero, all rows are deleted (table will be empty). If _o is NULL, equal operator (=) will be used everywhere. 2.7.4 Return Value The function returns 0 if everything is OK, otherwise the function returns value < 0. 2.8 Function db_update 2.8.1 Description The function implements UPDATE SQL directive. It is possible to modify one or more rows in a table using this function. 2.8.2 Prototype int db_update(db_con_t* _h, db_key_t* _k, db_op_t* _o, db_val_t* _v, db_key_t* _uk, db_val_t* _uv, int _n, int _un); 2.8.3 Parameters The function takes 7 parameters: _h: Database connection handle _k: Array of keys (column names) that will be matched _o: Array of operators to be used with key-value pairs _v: Array of values that the row must match to be modified _uk: Array of keys (column names) that will be modified _uv: New values for keys specified in _k parameter _n: Number of key-value pairs in _k and _v parameters _un: Number of key-value pairs in _uk and _uv parameters 2.8.4 Return Value The function returns 0 if everything is OK, otherwise the function returns value < 0. 2.9 Function db_use_table 2.9.1 Description The function db_use_table takes a table name and stores it db_con_t structure. All subsequent operations (insert, delete, update, query) are performed on that table. 2.9.2 Prototype int db_use_table_f(db_con_t* _h, const char* _t); 2.9.3 Parameters The function takes 2 parameters: _h: Database connection handle _t: Table name 2.9.4 Return Value The function returns 0 if everything is OK, otherwise the function returns value < 0.