// Copyright 2017 gf Author(https://github.com/gogf/gf). All Rights Reserved. // // This Source Code Form is subject to the terms of the MIT License. // If a copy of the MIT was not distributed with this file, // You can obtain one at https://github.com/gogf/gf. // Package gdb provides ORM features for popular relationship databases. package gdb import ( "database/sql" "errors" "fmt" "time" "github.com/gogf/gf/os/glog" "github.com/gogf/gf/container/gmap" "github.com/gogf/gf/container/gtype" "github.com/gogf/gf/container/gvar" "github.com/gogf/gf/os/gcache" "github.com/gogf/gf/util/grand" ) // DB is the interface for ORM operations. type DB interface { // Open creates a raw connection object for database with given node configuration. // Note that it is not recommended using the this function manually. Open(config *ConfigNode) (*sql.DB, error) // Query APIs. Query(query string, args ...interface{}) (*sql.Rows, error) Exec(sql string, args ...interface{}) (sql.Result, error) Prepare(sql string, execOnMaster ...bool) (*sql.Stmt, error) // Internal APIs for CURD, which can be overwrote for custom CURD implements. doQuery(link dbLink, query string, args ...interface{}) (rows *sql.Rows, err error) doGetAll(link dbLink, query string, args ...interface{}) (result Result, err error) doExec(link dbLink, query string, args ...interface{}) (result sql.Result, err error) doPrepare(link dbLink, query string) (*sql.Stmt, error) doInsert(link dbLink, table string, data interface{}, option int, batch ...int) (result sql.Result, err error) doBatchInsert(link dbLink, table string, list interface{}, option int, batch ...int) (result sql.Result, err error) doUpdate(link dbLink, table string, data interface{}, condition string, args ...interface{}) (result sql.Result, err error) doDelete(link dbLink, table string, condition string, args ...interface{}) (result sql.Result, err error) // Query APIs for convenience purpose. GetAll(query string, args ...interface{}) (Result, error) GetOne(query string, args ...interface{}) (Record, error) GetValue(query string, args ...interface{}) (Value, error) GetCount(query string, args ...interface{}) (int, error) GetStruct(objPointer interface{}, query string, args ...interface{}) error GetStructs(objPointerSlice interface{}, query string, args ...interface{}) error GetScan(objPointer interface{}, query string, args ...interface{}) error // Master/Slave support. Master() (*sql.DB, error) Slave() (*sql.DB, error) // Ping. PingMaster() error PingSlave() error // Transaction. Begin() (*TX, error) Insert(table string, data interface{}, batch ...int) (sql.Result, error) InsertIgnore(table string, data interface{}, batch ...int) (sql.Result, error) Replace(table string, data interface{}, batch ...int) (sql.Result, error) Save(table string, data interface{}, batch ...int) (sql.Result, error) BatchInsert(table string, list interface{}, batch ...int) (sql.Result, error) BatchReplace(table string, list interface{}, batch ...int) (sql.Result, error) BatchSave(table string, list interface{}, batch ...int) (sql.Result, error) Update(table string, data interface{}, condition interface{}, args ...interface{}) (sql.Result, error) Delete(table string, condition interface{}, args ...interface{}) (sql.Result, error) // Create model. From(tables string) *Model Table(tables string) *Model Schema(schema string) *Schema // Configuration methods. SetDebug(debug bool) SetSchema(schema string) SetLogger(logger *glog.Logger) GetLogger() *glog.Logger SetMaxIdleConnCount(n int) SetMaxOpenConnCount(n int) SetMaxConnLifetime(d time.Duration) Tables(schema ...string) (tables []string, err error) TableFields(table string, schema ...string) (map[string]*TableField, error) // Internal methods. getCache() *gcache.Cache getChars() (charLeft string, charRight string) getDebug() bool getPrefix() string getMaster(schema ...string) (*sql.DB, error) getSlave(schema ...string) (*sql.DB, error) quoteWord(s string) string quoteString(s string) string handleTableName(table string) string filterFields(schema, table string, data map[string]interface{}) map[string]interface{} convertValue(fieldValue []byte, fieldType string) interface{} rowsToResult(rows *sql.Rows) (Result, error) handleSqlBeforeExec(sql string) string } // dbLink is a common database function wrapper interface for internal usage. type dbLink interface { Query(query string, args ...interface{}) (*sql.Rows, error) Exec(sql string, args ...interface{}) (sql.Result, error) Prepare(sql string) (*sql.Stmt, error) } // dbBase is the base struct for database management. type dbBase struct { db DB // DB interface object. group string // Configuration group name. debug *gtype.Bool // Enable debug mode for the database. cache *gcache.Cache // Cache manager. schema *gtype.String // Custom schema for this object. prefix string // Table prefix. logger *glog.Logger // Logger. maxIdleConnCount int // Max idle connection count. maxOpenConnCount int // Max open connection count. maxConnLifetime time.Duration // Max TTL for a connection. } // Sql is the sql recording struct. type Sql struct { Sql string // SQL string(may contain reserved char '?'). Args []interface{} // Arguments for this sql. Format string // Formatted sql which contains arguments in the sql. Error error // Execution result. Start int64 // Start execution timestamp in milliseconds. End int64 // End execution timestamp in milliseconds. } // TableField is the struct for table field. type TableField struct { Index int // For ordering purpose as map is unordered. Name string // Field name. Type string // Field type. Null bool // Field can be null or not. Key string // The index information(empty if it's not a index). Default interface{} // Default value for the field. Extra string // Extra information. Comment string // Comment. } // Value is the field value type. type Value = *gvar.Var // Record is the row record of the table. type Record map[string]Value // Result is the row record array. type Result []Record // Map is alias of map[string]interface{}, // which is the most common usage map type. type Map = map[string]interface{} // List is type of map array. type List = []Map const ( gINSERT_OPTION_DEFAULT = 0 gINSERT_OPTION_REPLACE = 1 gINSERT_OPTION_SAVE = 2 gINSERT_OPTION_IGNORE = 3 gDEFAULT_BATCH_NUM = 10 // Per count for batch insert/replace/save gDEFAULT_CONN_MAX_LIFE_TIME = 30 // Max life time for per connection in pool. ) var ( // Instance map. instances = gmap.NewStrAnyMap(true) ) // New creates and returns an ORM object with global configurations. // The parameter specifies the configuration group name, // which is DEFAULT_GROUP_NAME in default. func New(name ...string) (db DB, err error) { group := configs.group if len(name) > 0 && name[0] != "" { group = name[0] } configs.RLock() defer configs.RUnlock() if len(configs.config) < 1 { return nil, errors.New("empty database configuration") } if _, ok := configs.config[group]; ok { if node, err := getConfigNodeByGroup(group, true); err == nil { base := &dbBase{ group: group, debug: gtype.NewBool(), cache: gcache.New(), schema: gtype.NewString(), logger: glog.New(), prefix: node.Prefix, maxConnLifetime: gDEFAULT_CONN_MAX_LIFE_TIME, } switch node.Type { case "mysql": base.db = &dbMysql{dbBase: base} case "pgsql": base.db = &dbPgsql{dbBase: base} case "mssql": base.db = &dbMssql{dbBase: base} case "sqlite": base.db = &dbSqlite{dbBase: base} case "oracle": base.db = &dbOracle{dbBase: base} default: return nil, errors.New(fmt.Sprintf(`unsupported database type "%s"`, node.Type)) } return base.db, nil } else { return nil, err } } else { return nil, errors.New(fmt.Sprintf(`database configuration node "%s" is not found`, group)) } } // Instance returns an instance for DB operations. // The parameter specifies the configuration group name, // which is DEFAULT_GROUP_NAME in default. func Instance(name ...string) (db DB, err error) { group := configs.group if len(name) > 0 && name[0] != "" { group = name[0] } v := instances.GetOrSetFuncLock(group, func() interface{} { db, err = New(group) return db }) if v != nil { return v.(DB), nil } return } // getConfigNodeByGroup calculates and returns a configuration node of given group. // It calculates the value internally using weight algorithm for load balance. // // The parameter specifies whether retrieving a master node, or else a slave node // if master-slave configured. func getConfigNodeByGroup(group string, master bool) (*ConfigNode, error) { if list, ok := configs.config[group]; ok { // Separates master and slave configuration nodes array. masterList := make(ConfigGroup, 0) slaveList := make(ConfigGroup, 0) for i := 0; i < len(list); i++ { if list[i].Role == "slave" { slaveList = append(slaveList, list[i]) } else { masterList = append(masterList, list[i]) } } if len(masterList) < 1 { return nil, errors.New("at least one master node configuration's need to make sense") } if len(slaveList) < 1 { slaveList = masterList } if master { return getConfigNodeByWeight(masterList), nil } else { return getConfigNodeByWeight(slaveList), nil } } else { return nil, errors.New(fmt.Sprintf("empty database configuration for item name '%s'", group)) } } // getConfigNodeByWeight calculates the configuration weights and randomly returns a node. // // Calculation algorithm brief: // 1. If we have 2 nodes, and their weights are both 1, then the weight range is [0, 199]; // 2. Node1 weight range is [0, 99], and node2 weight range is [100, 199], ratio is 1:1; // 3. If the random number is 99, it then chooses and returns node1; func getConfigNodeByWeight(cg ConfigGroup) *ConfigNode { if len(cg) < 2 { return &cg[0] } var total int for i := 0; i < len(cg); i++ { total += cg[i].Weight * 100 } // If total is 0 means all of the nodes have no weight attribute configured. // It then defaults each node's weight attribute to 1. if total == 0 { for i := 0; i < len(cg); i++ { cg[i].Weight = 1 total += cg[i].Weight * 100 } } // Exclude the right border value. r := grand.N(0, total-1) min := 0 max := 0 for i := 0; i < len(cg); i++ { max = min + cg[i].Weight*100 //fmt.Printf("r: %d, min: %d, max: %d\n", r, min, max) if r >= min && r < max { return &cg[i] } else { min = max } } return nil } // getSqlDb retrieves and returns a underlying database connection object. // The parameter specifies whether retrieves master node connection if // master-slave nodes are configured. func (bs *dbBase) getSqlDb(master bool, schema ...string) (sqlDb *sql.DB, err error) { // Load balance. node, err := getConfigNodeByGroup(bs.group, master) if err != nil { return nil, err } // Default value checks. if node.Charset == "" { node.Charset = "utf8" } // Changes the schema. nodeSchema := bs.schema.Val() if len(schema) > 0 && schema[0] != "" { nodeSchema = schema[0] } if nodeSchema != "" { // Value copy. n := *node n.Name = nodeSchema node = &n } // Cache the underlying connection object by node. v := bs.cache.GetOrSetFuncLock(node.String(), func() interface{} { sqlDb, err = bs.db.Open(node) if err != nil { return nil } if bs.maxIdleConnCount > 0 { sqlDb.SetMaxIdleConns(bs.maxIdleConnCount) } else if node.MaxIdleConnCount > 0 { sqlDb.SetMaxIdleConns(node.MaxIdleConnCount) } if bs.maxOpenConnCount > 0 { sqlDb.SetMaxOpenConns(bs.maxOpenConnCount) } else if node.MaxOpenConnCount > 0 { sqlDb.SetMaxOpenConns(node.MaxOpenConnCount) } if bs.maxConnLifetime > 0 { sqlDb.SetConnMaxLifetime(bs.maxConnLifetime * time.Second) } else if node.MaxConnLifetime > 0 { sqlDb.SetConnMaxLifetime(node.MaxConnLifetime * time.Second) } return sqlDb }, 0) if v != nil && sqlDb == nil { sqlDb = v.(*sql.DB) } if node.Debug { bs.db.SetDebug(node.Debug) } return } // SetSchema changes the schema for this database connection object. // Importantly note that when schema configuration changed for the database, // it affects all operations on the database object in the future. func (bs *dbBase) SetSchema(schema string) { bs.schema.Set(schema) } // Master creates and returns a connection from master node if master-slave configured. // It returns the default connection if master-slave not configured. func (bs *dbBase) Master() (*sql.DB, error) { return bs.getSqlDb(true, bs.schema.Val()) } // Slave creates and returns a connection from slave node if master-slave configured. // It returns the default connection if master-slave not configured. func (bs *dbBase) Slave() (*sql.DB, error) { return bs.getSqlDb(false, bs.schema.Val()) } // getMaster acts like function Master but with additional parameter specifying // the schema for the connection. It is defined for internal usage. // Also see Master. func (bs *dbBase) getMaster(schema ...string) (*sql.DB, error) { return bs.getSqlDb(true, schema...) } // getSlave acts like function Slave but with additional parameter specifying // the schema for the connection. It is defined for internal usage. // Also see Slave. func (bs *dbBase) getSlave(schema ...string) (*sql.DB, error) { return bs.getSqlDb(false, schema...) }