// Copyright (c) 2014 The btcsuite developers // Use of this source code is governed by an ISC // license that can be found in the LICENSE file. // This interface was inspired heavily by the excellent boltdb project at // https://github.com/boltdb/bolt by Ben B. Johnson. package walletdb import ( "fmt" "io" ) // ReadTx represents a database transaction that can only be used for reads. If // a database update must occur, use a ReadWriteTx. type ReadTx interface { // ReadBucket opens the root bucket for read only access. If the bucket // described by the key does not exist, nil is returned. ReadBucket(key []byte) ReadBucket // ForEachBucket will iterate through all top level buckets. ForEachBucket(func(key []byte) error) error // Rollback closes the transaction, discarding changes (if any) if the // database was modified by a write transaction. Rollback() error } // ReadWriteTx represents a database transaction that can be used for both reads // and writes. When only reads are necessary, consider using a ReadTx instead. type ReadWriteTx interface { ReadTx // ReadWriteBucket opens the root bucket for read/write access. If the // bucket described by the key does not exist, nil is returned. ReadWriteBucket(key []byte) ReadWriteBucket // CreateTopLevelBucket creates the top level bucket for a key if it // does not exist. The newly-created bucket it returned. CreateTopLevelBucket(key []byte) (ReadWriteBucket, error) // DeleteTopLevelBucket deletes the top level bucket for a key. This // errors if the bucket can not be found or the key keys a single value // instead of a bucket. DeleteTopLevelBucket(key []byte) error // Commit commits all changes that have been on the transaction's root // buckets and all of their sub-buckets to persistent storage. Commit() error // OnCommit takes a function closure that will be executed when the // transaction successfully gets committed. OnCommit(func()) } // ReadBucket represents a bucket (a hierarchical structure within the database) // that is only allowed to perform read operations. type ReadBucket interface { // NestedReadBucket retrieves a nested bucket with the given key. // Returns nil if the bucket does not exist. NestedReadBucket(key []byte) ReadBucket // ForEach invokes the passed function with every key/value pair in // the bucket. This includes nested buckets, in which case the value // is nil, but it does not include the key/value pairs within those // nested buckets. // // NOTE: The values returned by this function are only valid during a // transaction. Attempting to access them after a transaction has ended // results in undefined behavior. This constraint prevents additional // data copies and allows support for memory-mapped database // implementations. ForEach(func(k, v []byte) error) error // Get returns the value for the given key. Returns nil if the key does // not exist in this bucket (or nested buckets). // // NOTE: The value returned by this function is only valid during a // transaction. Attempting to access it after a transaction has ended // results in undefined behavior. This constraint prevents additional // data copies and allows support for memory-mapped database // implementations. Get(key []byte) []byte ReadCursor() ReadCursor } // ReadWriteBucket represents a bucket (a hierarchical structure within the // database) that is allowed to perform both read and write operations. type ReadWriteBucket interface { ReadBucket // NestedReadWriteBucket retrieves a nested bucket with the given key. // Returns nil if the bucket does not exist. NestedReadWriteBucket(key []byte) ReadWriteBucket // CreateBucket creates and returns a new nested bucket with the given // key. Returns ErrBucketExists if the bucket already exists, // ErrBucketNameRequired if the key is empty, or ErrIncompatibleValue // if the key value is otherwise invalid for the particular database // implementation. Other errors are possible depending on the // implementation. CreateBucket(key []byte) (ReadWriteBucket, error) // CreateBucketIfNotExists creates and returns a new nested bucket with // the given key if it does not already exist. Returns // ErrBucketNameRequired if the key is empty or ErrIncompatibleValue // if the key value is otherwise invalid for the particular database // backend. Other errors are possible depending on the implementation. CreateBucketIfNotExists(key []byte) (ReadWriteBucket, error) // DeleteNestedBucket removes a nested bucket with the given key. // Returns ErrTxNotWritable if attempted against a read-only transaction // and ErrBucketNotFound if the specified bucket does not exist. DeleteNestedBucket(key []byte) error // Put saves the specified key/value pair to the bucket. Keys that do // not already exist are added and keys that already exist are // overwritten. Returns ErrTxNotWritable if attempted against a // read-only transaction. Put(key, value []byte) error // Delete removes the specified key from the bucket. Deleting a key // that does not exist does not return an error. Returns // ErrTxNotWritable if attempted against a read-only transaction. Delete(key []byte) error // ReadWriteCursor returns a new cursor, allowing for iteration over the // bucket's key/value pairs and nested buckets in forward or backward // order. ReadWriteCursor() ReadWriteCursor // Tx returns the bucket's transaction. Tx() ReadWriteTx // NextSequence returns an autoincrementing integer for the bucket. NextSequence() (uint64, error) // SetSequence updates the sequence number for the bucket. SetSequence(v uint64) error // Sequence returns the current integer for the bucket without // incrementing it. Sequence() uint64 } // ReadCursor represents a bucket cursor that can be positioned at the start or // end of the bucket's key/value pairs and iterate over pairs in the bucket. // This type is only allowed to perform database read operations. type ReadCursor interface { // First positions the cursor at the first key/value pair and returns // the pair. First() (key, value []byte) // Last positions the cursor at the last key/value pair and returns the // pair. Last() (key, value []byte) // Next moves the cursor one key/value pair forward and returns the new // pair. Next() (key, value []byte) // Prev moves the cursor one key/value pair backward and returns the new // pair. Prev() (key, value []byte) // Seek positions the cursor at the passed seek key. If the key does // not exist, the cursor is moved to the next key after seek. Returns // the new pair. Seek(seek []byte) (key, value []byte) } // ReadWriteCursor represents a bucket cursor that can be positioned at the // start or end of the bucket's key/value pairs and iterate over pairs in the // bucket. This abstraction is allowed to perform both database read and write // operations. type ReadWriteCursor interface { ReadCursor // Delete removes the current key/value pair the cursor is at without // invalidating the cursor. Returns ErrIncompatibleValue if attempted // when the cursor points to a nested bucket. Delete() error } // BucketIsEmpty returns whether the bucket is empty, that is, whether there are // no key/value pairs or nested buckets. func BucketIsEmpty(bucket ReadBucket) bool { k, v := bucket.ReadCursor().First() return k == nil && v == nil } // DB represents an ACID database. All database access is performed through // read or read+write transactions. type DB interface { // BeginReadTx opens a database read transaction. BeginReadTx() (ReadTx, error) // BeginReadWriteTx opens a database read+write transaction. BeginReadWriteTx() (ReadWriteTx, error) // Copy writes a copy of the database to the provided writer. This // call will start a read-only transaction to perform all operations. Copy(w io.Writer) error // Close cleanly shuts down the database and syncs all data. Close() error // PrintStats returns all collected stats pretty printed into a string. PrintStats() string // View opens a database read transaction and executes the function f // with the transaction passed as a parameter. After f exits, the // transaction is rolled back. If f errors, its error is returned, not a // rollback error (if any occur). The passed reset function is called // before the start of the transaction and can be used to reset // intermediate state. As callers may expect retries of the f closure // (depending on the database backend used), the reset function will be // called before each retry respectively. // // NOTE: For new code, this method should be used directly instead of // the package level View() function. View(f func(tx ReadTx) error, reset func()) error // Update opens a database read/write transaction and executes the // function f with the transaction passed as a parameter. After f exits, // if f did not error, the transaction is committed. Otherwise, if f did // error, the transaction is rolled back. If the rollback fails, the // original error returned by f is still returned. If the commit fails, // the commit error is returned. As callers may expect retries of the f // closure (depending on the database backend used), the reset function // will be called before each retry respectively. // // NOTE: For new code, this method should be used directly instead of // the package level Update() function. Update(f func(tx ReadWriteTx) error, reset func()) error } // BatchDB is a special version of the main DB interface that allows the caller // to specify write transactions that should be combined toegether if multiple // goroutines are calling the Batch method. type BatchDB interface { DB // Batch is similar to the package-level Update method, but it will // attempt to optimistically combine the invocation of several // transaction functions into a single db write transaction. Batch(func(tx ReadWriteTx) error) error } // View opens a database read transaction and executes the function f with the // transaction passed as a parameter. After f exits, the transaction is rolled // back. If f errors, its error is returned, not a rollback error (if any // occur). // // NOTE: For new code the database backend's View method should be used directly // as this package level function will be phased out in the future. func View(db DB, f func(tx ReadTx) error) error { return db.View(f, func() {}) } // Update opens a database read/write transaction and executes the function f // with the transaction passed as a parameter. After f exits, if f did not // error, the transaction is committed. Otherwise, if f did error, the // transaction is rolled back. If the rollback fails, the original error // returned by f is still returned. If the commit fails, the commit error is // returned. // // NOTE: For new code the database backend's Update method should be used // directly as this package level function will be phased out in the future. func Update(db DB, f func(tx ReadWriteTx) error) error { return db.Update(f, func() {}) } // Batch opens a database read/write transaction and executes the function f // with the transaction passed as a parameter. After f exits, if f did not // error, the transaction is committed. Otherwise, if f did error, the // transaction is rolled back. If the rollback fails, the original error // returned by f is still returned. If the commit fails, the commit error is // returned. // // Batch is only useful when there are multiple goroutines calling it. func Batch(db DB, f func(tx ReadWriteTx) error) error { batchDB, ok := db.(BatchDB) if !ok { return fmt.Errorf("need batch") } return batchDB.Batch(f) } // Driver defines a structure for backend drivers to use when they registered // themselves as a backend which implements the Db interface. type Driver struct { // DbType is the identifier used to uniquely identify a specific // database driver. There can be only one driver with the same name. DbType string // Create is the function that will be invoked with all user-specified // arguments to create the database. This function must return // ErrDbExists if the database already exists. Create func(args ...interface{}) (DB, error) // Open is the function that will be invoked with all user-specified // arguments to open the database. This function must return // ErrDbDoesNotExist if the database has not already been created. Open func(args ...interface{}) (DB, error) } // driverList holds all of the registered database backends. var drivers = make(map[string]*Driver) // RegisterDriver adds a backend database driver to available interfaces. // ErrDbTypeRegistered will be retruned if the database type for the driver has // already been registered. func RegisterDriver(driver Driver) error { if _, exists := drivers[driver.DbType]; exists { return ErrDbTypeRegistered } drivers[driver.DbType] = &driver return nil } // SupportedDrivers returns a slice of strings that represent the database // drivers that have been registered and are therefore supported. func SupportedDrivers() []string { supportedDBs := make([]string, 0, len(drivers)) for _, drv := range drivers { supportedDBs = append(supportedDBs, drv.DbType) } return supportedDBs } // Create intializes and opens a database for the specified type. The arguments // are specific to the database type driver. See the documentation for the // database driver for further details. // // ErrDbUnknownType will be returned if the the database type is not registered. func Create(dbType string, args ...interface{}) (DB, error) { drv, exists := drivers[dbType] if !exists { return nil, ErrDbUnknownType } return drv.Create(args...) } // Open opens an existing database for the specified type. The arguments are // specific to the database type driver. See the documentation for the database // driver for further details. // // ErrDbUnknownType will be returned if the the database type is not registered. func Open(dbType string, args ...interface{}) (DB, error) { drv, exists := drivers[dbType] if !exists { return nil, ErrDbUnknownType } return drv.Open(args...) }