// createDB creates a new db instance and returns a teardown function the caller // should invoke when done testing to clean up. The close flag indicates // whether or not the teardown function should sync and close the database // during teardown. func createDB(dbType, dbName string, close bool) (database.Db, func(), error) { // Handle memory database specially since it doesn't need the disk // specific handling. if dbType == "memdb" { db, err := database.CreateDB(dbType) if err != nil { return nil, nil, fmt.Errorf("error creating db: %v", err) } // Setup a teardown function for cleaning up. This function is // returned to the caller to be invoked when it is done testing. teardown := func() { if close { db.Close() } } return db, teardown, nil } // Create the root directory for test databases. if !fileExists(testDbRoot) { if err := os.MkdirAll(testDbRoot, 0700); err != nil { err := fmt.Errorf("unable to create test db "+ "root: %v", err) return nil, nil, err } } // Create a new database to store the accepted blocks into. dbPath := filepath.Join(testDbRoot, dbName) _ = os.RemoveAll(dbPath) db, err := database.CreateDB(dbType, dbPath) if err != nil { return nil, nil, fmt.Errorf("error creating db: %v", err) } // Setup a teardown function for cleaning up. This function is // returned to the caller to be invoked when it is done testing. teardown := func() { dbVersionPath := filepath.Join(testDbRoot, dbName+".ver") if close { db.Sync() db.Close() } os.RemoveAll(dbPath) os.Remove(dbVersionPath) os.RemoveAll(testDbRoot) } return db, teardown, nil }
func setUpTestDb(t *testing.T, dbname string) (*testDb, error) { // Ignore db remove errors since it means we didn't have an old one. dbnamever := dbname + ".ver" _ = os.RemoveAll(dbname) _ = os.RemoveAll(dbnamever) db, err := database.CreateDB("leveldb", dbname) if err != nil { return nil, err } testdatafile := filepath.Join("..", "testdata", "blocks1-256.bz2") blocks, err := loadBlocks(t, testdatafile) if err != nil { return nil, err } cleanUp := func() { db.Close() os.RemoveAll(dbname) os.RemoveAll(dbnamever) } return &testDb{ db: db, blocks: blocks, dbName: dbname, dbNameVer: dbnamever, cleanUpFunc: cleanUp, }, nil }
// This example demonstrates creating a new database and inserting the genesis // block into it. func ExampleCreateDB() { // Notice in these example imports that the memdb driver is loaded. // Ordinarily this would be whatever driver(s) your application // requires. // import ( // "github.com/btcsuite/btcd/database" // _ "github.com/btcsuite/btcd/database/memdb" // ) // Create a database and schedule it to be closed on exit. This example // uses a memory-only database to avoid needing to write anything to // the disk. Typically, you would specify a persistent database driver // such as "leveldb" and give it a database name as the second // parameter. db, err := database.CreateDB("memdb") if err != nil { fmt.Println(err) return } defer db.Close() // Insert the main network genesis block. genesis := btcutil.NewBlock(chaincfg.MainNetParams.GenesisBlock) newHeight, err := db.InsertBlock(genesis) if err != nil { fmt.Println(err) return } fmt.Println("New height:", newHeight) // Output: // New height: 0 }
// setupBlockDB loads (or creates when needed) the block database taking into // account the selected database backend. It also contains additional logic // such warning the user if there are multiple databases which consume space on // the file system and ensuring the regression test database is clean when in // regression test mode. func setupBlockDB() (database.Db, error) { // The memdb backend does not have a file path associated with it, so // handle it uniquely. We also don't want to worry about the multiple // database type warnings when running with the memory database. if cfg.DbType == "memdb" { btcdLog.Infof("Creating block database in memory.") db, err := database.CreateDB(cfg.DbType) if err != nil { return nil, err } return db, nil } warnMultipeDBs() // The database name is based on the database type. dbPath := blockDbPath(cfg.DbType) // The regression test is special in that it needs a clean database for // each run, so remove it now if it already exists. removeRegressionDB(dbPath) btcdLog.Infof("Loading block database from '%s'", dbPath) db, err := database.OpenDB(cfg.DbType, dbPath) if err != nil { // Return the error if it's not because the database // doesn't exist. if err != database.ErrDbDoesNotExist { return nil, err } // Create the db if it does not exist. err = os.MkdirAll(cfg.DataDir, 0700) if err != nil { return nil, err } db, err = database.CreateDB(cfg.DbType, dbPath) if err != nil { return nil, err } } return db, nil }
// exampleLoadDB is used in the example to elide the setup code. func exampleLoadDB() (database.Db, error) { db, err := database.CreateDB("memdb") if err != nil { return nil, err } // Insert the main network genesis block. genesis := btcutil.NewBlock(chaincfg.MainNetParams.GenesisBlock) _, err = db.InsertBlock(genesis) if err != nil { return nil, err } return db, err }
// This example demonstrates how to create a new chain instance and use // ProcessBlock to attempt to attempt add a block to the chain. As the package // overview documentation describes, this includes all of the Bitcoin consensus // rules. This example intentionally attempts to insert a duplicate genesis // block to illustrate how an invalid block is handled. func ExampleBlockChain_ProcessBlock() { // Create a new database to store the accepted blocks into. Typically // this would be opening an existing database and would not use memdb // which is a memory-only database backend, but we create a new db // here so this is a complete working example. db, err := database.CreateDB("memdb") if err != nil { fmt.Printf("Failed to create database: %v\n", err) return } defer db.Close() // Insert the main network genesis block. This is part of the initial // database setup. Like above, this typically would not be needed when // opening an existing database. genesisBlock := btcutil.NewBlock(chaincfg.MainNetParams.GenesisBlock) _, err = db.InsertBlock(genesisBlock) if err != nil { fmt.Printf("Failed to insert genesis block: %v\n", err) return } // Create a new BlockChain instance without an initialized signature // verification cache, using the underlying database for the main // bitcoin network and ignore notifications. chain := blockchain.New(db, &chaincfg.MainNetParams, nil, nil) // Create a new median time source that is required by the upcoming // call to ProcessBlock. Ordinarily this would also add time values // obtained from other peers on the network so the local time is // adjusted to be in agreement with other peers. timeSource := blockchain.NewMedianTime() // Process a block. For this example, we are going to intentionally // cause an error by trying to process the genesis block which already // exists. isOrphan, err := chain.ProcessBlock(genesisBlock, timeSource, blockchain.BFNone) if err != nil { fmt.Printf("Failed to process block: %v\n", err) return } fmt.Printf("Block accepted. Is it an orphan?: %v", isOrphan) // Output: // Failed to process block: already have block 000000000019d6689c085ae165831e934ff763ae46a2a6c172b3f1b60a8ce26f }
func TestEmptyDB(t *testing.T) { dbname := "tstdbempty" dbnamever := dbname + ".ver" _ = os.RemoveAll(dbname) _ = os.RemoveAll(dbnamever) db, err := database.CreateDB("leveldb", dbname) if err != nil { t.Errorf("Failed to open test database %v", err) return } defer os.RemoveAll(dbname) defer os.RemoveAll(dbnamever) sha, height, err := db.NewestSha() if !sha.IsEqual(&wire.ShaHash{}) { t.Errorf("sha not zero hash") } if height != -1 { t.Errorf("height not -1 %v", height) } // This is a reopen test if err := db.Close(); err != nil { t.Errorf("Close: unexpected error: %v", err) } db, err = database.OpenDB("leveldb", dbname) if err != nil { t.Errorf("Failed to open test database %v", err) return } defer func() { if err := db.Close(); err != nil { t.Errorf("Close: unexpected error: %v", err) } }() sha, height, err = db.NewestSha() if !sha.IsEqual(&wire.ShaHash{}) { t.Errorf("sha not zero hash") } if height != -1 { t.Errorf("height not -1 %v", height) } }
// TestCreateOpenUnsupported ensures that attempting to create or open an // unsupported database type is handled properly. func TestCreateOpenUnsupported(t *testing.T) { // Ensure creating a database with an unsupported type fails with the // expected error. dbType := "unsupported" _, err := database.CreateDB(dbType, "unsupportedcreatetest") if err != database.ErrDbUnknownType { t.Errorf("TestCreateOpenUnsupported: expected error not "+ "received - got: %v, want %v", err, database.ErrDbUnknownType) return } // Ensure opening a database with the new type fails with the expected // error. _, err = database.OpenDB(dbType, "unsupportedopentest") if err != database.ErrDbUnknownType { t.Errorf("TestCreateOpenUnsupported: expected error not "+ "received - got: %v, want %v", err, database.ErrDbUnknownType) return } }
// TestCreateOpenFail ensures that errors which occur while opening or closing // a database are handled properly. func TestCreateOpenFail(t *testing.T) { // bogusCreateDB is a function which acts as a bogus create and open // driver function that intentionally returns a failure which can be // detected. dbType := "createopenfail" openError := fmt.Errorf("failed to create or open database for "+ "database type [%v]", dbType) bogusCreateDB := func(args ...interface{}) (database.Db, error) { return nil, openError } // Create and add driver that intentionally fails when created or opened // to ensure errors on database open and create are handled properly. driver := database.DriverDB{ DbType: dbType, CreateDB: bogusCreateDB, OpenDB: bogusCreateDB, } database.AddDBDriver(driver) // Ensure creating a database with the new type fails with the expected // error. _, err := database.CreateDB(dbType, "createfailtest") if err != openError { t.Errorf("TestCreateOpenFail: expected error not received - "+ "got: %v, want %v", err, openError) return } // Ensure opening a database with the new type fails with the expected // error. _, err = database.OpenDB(dbType, "openfailtest") if err != openError { t.Errorf("TestCreateOpenFail: expected error not received - "+ "got: %v, want %v", err, openError) return } }
// loadBlockDB opens the block database and returns a handle to it. func loadBlockDB() (database.Db, error) { // The database name is based on the database type. dbName := blockDbNamePrefix + "_" + cfg.DbType if cfg.DbType == "sqlite" { dbName = dbName + ".db" } dbPath := filepath.Join(cfg.DataDir, dbName) log.Infof("Loading block database from '%s'", dbPath) db, err := database.OpenDB(cfg.DbType, dbPath) if err != nil { // Return the error if it's not because the database doesn't // exist. if err != database.ErrDbDoesNotExist { return nil, err } // Create the db if it does not exist. err = os.MkdirAll(cfg.DataDir, 0700) if err != nil { return nil, err } db, err = database.CreateDB(cfg.DbType, dbPath) if err != nil { return nil, err } } // Get the latest block height from the database. _, height, err := db.NewestSha() if err != nil { db.Close() return nil, err } log.Infof("Block database loaded with block height %d", height) return db, nil }
// chainSetup is used to create a new db and chain instance with the genesis // block already inserted. In addition to the new chain instnce, it returns // a teardown function the caller should invoke when done testing to clean up. func chainSetup(dbName string) (*blockchain.BlockChain, func(), error) { if !isSupportedDbType(testDbType) { return nil, nil, fmt.Errorf("unsupported db type %v", testDbType) } // Handle memory database specially since it doesn't need the disk // specific handling. var db database.Db var teardown func() if testDbType == "memdb" { ndb, err := database.CreateDB(testDbType) if err != nil { return nil, nil, fmt.Errorf("error creating db: %v", err) } db = ndb // Setup a teardown function for cleaning up. This function is // returned to the caller to be invoked when it is done testing. teardown = func() { db.Close() } } else { // Create the root directory for test databases. if !fileExists(testDbRoot) { if err := os.MkdirAll(testDbRoot, 0700); err != nil { err := fmt.Errorf("unable to create test db "+ "root: %v", err) return nil, nil, err } } // Create a new database to store the accepted blocks into. dbPath := filepath.Join(testDbRoot, dbName) _ = os.RemoveAll(dbPath) ndb, err := database.CreateDB(testDbType, dbPath) if err != nil { return nil, nil, fmt.Errorf("error creating db: %v", err) } db = ndb // Setup a teardown function for cleaning up. This function is // returned to the caller to be invoked when it is done testing. teardown = func() { dbVersionPath := filepath.Join(testDbRoot, dbName+".ver") db.Sync() db.Close() os.RemoveAll(dbPath) os.Remove(dbVersionPath) os.RemoveAll(testDbRoot) } } // Insert the main network genesis block. This is part of the initial // database setup. genesisBlock := btcutil.NewBlock(chaincfg.MainNetParams.GenesisBlock) _, err := db.InsertBlock(genesisBlock) if err != nil { teardown() err := fmt.Errorf("failed to insert genesis block: %v", err) return nil, nil, err } chain := blockchain.New(db, &chaincfg.MainNetParams, nil) return chain, teardown, nil }
// insert every block in the test chain // after each insert, fetch all the tx affected by the latest // block and verify that the the tx is spent/unspent // new tx should be fully unspent, referenced tx should have // the associated txout set to spent. func testUnspentInsert(t *testing.T) { // Ignore db remove errors since it means we didn't have an old one. dbname := fmt.Sprintf("tstdbuspnt1") dbnamever := dbname + ".ver" _ = os.RemoveAll(dbname) _ = os.RemoveAll(dbnamever) db, err := database.CreateDB("leveldb", dbname) if err != nil { t.Errorf("Failed to open test database %v", err) return } defer os.RemoveAll(dbname) defer os.RemoveAll(dbnamever) defer func() { if err := db.Close(); err != nil { t.Errorf("Close: unexpected error: %v", err) } }() blocks := loadblocks(t) endtest: for height := int64(0); height < int64(len(blocks)); height++ { block := blocks[height] // look up inputs to this tx mblock := block.MsgBlock() var txneededList []*wire.ShaHash var txlookupList []*wire.ShaHash var txOutList []*wire.ShaHash var txInList []*wire.OutPoint for _, tx := range mblock.Transactions { for _, txin := range tx.TxIn { if txin.PreviousOutPoint.Index == uint32(4294967295) { continue } origintxsha := &txin.PreviousOutPoint.Hash txInList = append(txInList, &txin.PreviousOutPoint) txneededList = append(txneededList, origintxsha) txlookupList = append(txlookupList, origintxsha) exists, err := db.ExistsTxSha(origintxsha) if err != nil { t.Errorf("ExistsTxSha: unexpected error %v ", err) } if !exists { t.Errorf("referenced tx not found %v ", origintxsha) } } txshaname := tx.TxSha() txlookupList = append(txlookupList, &txshaname) txOutList = append(txOutList, &txshaname) } txneededmap := map[wire.ShaHash]*database.TxListReply{} txlist := db.FetchUnSpentTxByShaList(txneededList) for _, txe := range txlist { if txe.Err != nil { t.Errorf("tx list fetch failed %v err %v ", txe.Sha, txe.Err) break endtest } txneededmap[*txe.Sha] = txe } for _, spend := range txInList { itxe := txneededmap[spend.Hash] if itxe.TxSpent[spend.Index] == true { t.Errorf("txin %v:%v is already spent", spend.Hash, spend.Index) } } newheight, err := db.InsertBlock(block) if err != nil { t.Errorf("failed to insert block %v err %v", height, err) break endtest } if newheight != height { t.Errorf("height mismatch expect %v returned %v", height, newheight) break endtest } txlookupmap := map[wire.ShaHash]*database.TxListReply{} txlist = db.FetchTxByShaList(txlookupList) for _, txe := range txlist { if txe.Err != nil { t.Errorf("tx list fetch failed %v err %v ", txe.Sha, txe.Err) break endtest } txlookupmap[*txe.Sha] = txe } for _, spend := range txInList { itxe := txlookupmap[spend.Hash] if itxe.TxSpent[spend.Index] == false { t.Errorf("txin %v:%v is unspent %v", spend.Hash, spend.Index, itxe.TxSpent) } } for _, txo := range txOutList { itxe := txlookupmap[*txo] for i, spent := range itxe.TxSpent { if spent == true { t.Errorf("freshly inserted tx %v already spent %v", txo, i) } } } if len(txInList) == 0 { continue } dropblock := blocks[height-1] err = db.DropAfterBlockBySha(dropblock.Sha()) if err != nil { t.Errorf("failed to drop block %v err %v", height, err) break endtest } txlookupmap = map[wire.ShaHash]*database.TxListReply{} txlist = db.FetchUnSpentTxByShaList(txlookupList) for _, txe := range txlist { if txe.Err != nil { if _, ok := txneededmap[*txe.Sha]; ok { t.Errorf("tx list fetch failed %v err %v ", txe.Sha, txe.Err) break endtest } } txlookupmap[*txe.Sha] = txe } for _, spend := range txInList { itxe := txlookupmap[spend.Hash] if itxe.TxSpent[spend.Index] == true { t.Errorf("txin %v:%v is unspent %v", spend.Hash, spend.Index, itxe.TxSpent) } } newheight, err = db.InsertBlock(block) if err != nil { t.Errorf("failed to insert block %v err %v", height, err) break endtest } txlookupmap = map[wire.ShaHash]*database.TxListReply{} txlist = db.FetchTxByShaList(txlookupList) for _, txe := range txlist { if txe.Err != nil { t.Errorf("tx list fetch failed %v err %v ", txe.Sha, txe.Err) break endtest } txlookupmap[*txe.Sha] = txe } for _, spend := range txInList { itxe := txlookupmap[spend.Hash] if itxe.TxSpent[spend.Index] == false { t.Errorf("txin %v:%v is unspent %v", spend.Hash, spend.Index, itxe.TxSpent) } } } }
func Test_dupTx(t *testing.T) { // Ignore db remove errors since it means we didn't have an old one. dbname := fmt.Sprintf("tstdbdup0") dbnamever := dbname + ".ver" _ = os.RemoveAll(dbname) _ = os.RemoveAll(dbnamever) db, err := database.CreateDB("leveldb", dbname) if err != nil { t.Errorf("Failed to open test database %v", err) return } defer os.RemoveAll(dbname) defer os.RemoveAll(dbnamever) defer func() { if err := db.Close(); err != nil { t.Errorf("Close: unexpected error: %v", err) } }() testdatafile := filepath.Join("testdata", "blocks1-256.bz2") blocks, err := loadBlocks(t, testdatafile) if err != nil { t.Errorf("Unable to load blocks from test data for: %v", err) return } var lastSha *wire.ShaHash // Populate with the fisrt 256 blocks, so we have blocks to 'mess with' err = nil out: for height := int64(0); height < int64(len(blocks)); height++ { block := blocks[height] // except for NoVerify which does not allow lookups check inputs mblock := block.MsgBlock() var txneededList []*wire.ShaHash for _, tx := range mblock.Transactions { for _, txin := range tx.TxIn { if txin.PreviousOutPoint.Index == uint32(4294967295) { continue } origintxsha := &txin.PreviousOutPoint.Hash txneededList = append(txneededList, origintxsha) exists, err := db.ExistsTxSha(origintxsha) if err != nil { t.Errorf("ExistsTxSha: unexpected error %v ", err) } if !exists { t.Errorf("referenced tx not found %v ", origintxsha) } _, err = db.FetchTxBySha(origintxsha) if err != nil { t.Errorf("referenced tx not found %v err %v ", origintxsha, err) } } } txlist := db.FetchUnSpentTxByShaList(txneededList) for _, txe := range txlist { if txe.Err != nil { t.Errorf("tx list fetch failed %v err %v ", txe.Sha, txe.Err) break out } } newheight, err := db.InsertBlock(block) if err != nil { t.Errorf("failed to insert block %v err %v", height, err) break out } if newheight != height { t.Errorf("height mismatch expect %v returned %v", height, newheight) break out } newSha, blkid, err := db.NewestSha() if err != nil { t.Errorf("failed to obtain latest sha %v %v", height, err) } if blkid != height { t.Errorf("height doe not match latest block height %v %v %v", blkid, height, err) } blkSha := block.Sha() if *newSha != *blkSha { t.Errorf("Newest block sha does not match freshly inserted one %v %v %v ", newSha, blkSha, err) } lastSha = blkSha } // generate a new block based on the last sha // these block are not verified, so there are a bunch of garbage fields // in the 'generated' block. var bh wire.BlockHeader bh.Version = 2 bh.PrevBlock = *lastSha // Bits, Nonce are not filled in mblk := wire.NewMsgBlock(&bh) hash, _ := wire.NewShaHashFromStr("df2b060fa2e5e9c8ed5eaf6a45c13753ec8c63282b2688322eba40cd98ea067a") po := wire.NewOutPoint(hash, 0) txI := wire.NewTxIn(po, []byte("garbage")) txO := wire.NewTxOut(50000000, []byte("garbageout")) var tx wire.MsgTx tx.AddTxIn(txI) tx.AddTxOut(txO) mblk.AddTransaction(&tx) blk := btcutil.NewBlock(mblk) fetchList := []*wire.ShaHash{hash} listReply := db.FetchUnSpentTxByShaList(fetchList) for _, lr := range listReply { if lr.Err != nil { t.Errorf("sha %v spent %v err %v\n", lr.Sha, lr.TxSpent, lr.Err) } } _, err = db.InsertBlock(blk) if err != nil { t.Errorf("failed to insert phony block %v", err) } // ok, did it 'spend' the tx ? listReply = db.FetchUnSpentTxByShaList(fetchList) for _, lr := range listReply { if lr.Err != database.ErrTxShaMissing { t.Errorf("sha %v spent %v err %v\n", lr.Sha, lr.TxSpent, lr.Err) } } txlist := blk.Transactions() for _, tx := range txlist { txsha := tx.Sha() txReply, err := db.FetchTxBySha(txsha) if err != nil { t.Errorf("fully spent lookup %v err %v\n", hash, err) } else { for _, lr := range txReply { if lr.Err != nil { t.Errorf("stx %v spent %v err %v\n", lr.Sha, lr.TxSpent, lr.Err) } } } } t.Logf("Dropping block") err = db.DropAfterBlockBySha(lastSha) if err != nil { t.Errorf("failed to drop spending block %v", err) } }
// TestClosed ensure calling the interface functions on a closed database // returns appropriate errors for the interface functions that return errors // and does not panic or otherwise misbehave for functions which do not return // errors. func TestClosed(t *testing.T) { db, err := database.CreateDB("memdb") if err != nil { t.Errorf("Failed to open test database %v", err) return } _, err = db.InsertBlock(btcutil.NewBlock(chaincfg.MainNetParams.GenesisBlock)) if err != nil { t.Errorf("InsertBlock: %v", err) } if err := db.Close(); err != nil { t.Errorf("Close: unexpected error %v", err) } genesisHash := chaincfg.MainNetParams.GenesisHash if err := db.DropAfterBlockBySha(genesisHash); err != memdb.ErrDbClosed { t.Errorf("DropAfterBlockBySha: unexpected error %v", err) } if _, err := db.ExistsSha(genesisHash); err != memdb.ErrDbClosed { t.Errorf("ExistsSha: Unexpected error: %v", err) } if _, err := db.FetchBlockBySha(genesisHash); err != memdb.ErrDbClosed { t.Errorf("FetchBlockBySha: unexpected error %v", err) } if _, err := db.FetchBlockShaByHeight(0); err != memdb.ErrDbClosed { t.Errorf("FetchBlockShaByHeight: unexpected error %v", err) } if _, err := db.FetchHeightRange(0, 1); err != memdb.ErrDbClosed { t.Errorf("FetchHeightRange: unexpected error %v", err) } genesisCoinbaseTx := chaincfg.MainNetParams.GenesisBlock.Transactions[0] coinbaseHash, err := genesisCoinbaseTx.TxSha() if err != nil { t.Errorf("TxSha: unexpected error %v", err) } if _, err := db.ExistsTxSha(&coinbaseHash); err != memdb.ErrDbClosed { t.Errorf("ExistsTxSha: unexpected error %v", err) } if _, err := db.FetchTxBySha(genesisHash); err != memdb.ErrDbClosed { t.Errorf("FetchTxBySha: unexpected error %v", err) } requestHashes := []*wire.ShaHash{genesisHash} reply := db.FetchTxByShaList(requestHashes) if len(reply) != len(requestHashes) { t.Errorf("FetchUnSpentTxByShaList unexpected number of replies "+ "got: %d, want: %d", len(reply), len(requestHashes)) } for i, txLR := range reply { wantReply := &database.TxListReply{ Sha: requestHashes[i], Err: memdb.ErrDbClosed, } if !reflect.DeepEqual(wantReply, txLR) { t.Errorf("FetchTxByShaList unexpected reply\ngot: %v\n"+ "want: %v", txLR, wantReply) } } reply = db.FetchUnSpentTxByShaList(requestHashes) if len(reply) != len(requestHashes) { t.Errorf("FetchUnSpentTxByShaList unexpected number of replies "+ "got: %d, want: %d", len(reply), len(requestHashes)) } for i, txLR := range reply { wantReply := &database.TxListReply{ Sha: requestHashes[i], Err: memdb.ErrDbClosed, } if !reflect.DeepEqual(wantReply, txLR) { t.Errorf("FetchUnSpentTxByShaList unexpected reply\n"+ "got: %v\nwant: %v", txLR, wantReply) } } if _, _, err := db.NewestSha(); err != memdb.ErrDbClosed { t.Errorf("NewestSha: unexpected error %v", err) } if err := db.Sync(); err != memdb.ErrDbClosed { t.Errorf("Sync: unexpected error %v", err) } if err := db.RollbackClose(); err != memdb.ErrDbClosed { t.Errorf("RollbackClose: unexpected error %v", err) } if err := db.Close(); err != memdb.ErrDbClosed { t.Errorf("Close: unexpected error %v", err) } }
func TestInsertData(t *testing.T) { // Ignore db remove errors since it means we didn't have an old one. dbname := fmt.Sprintf("tstdbdata1") dbnamever := dbname + ".ver" _ = os.RemoveAll(dbname) _ = os.RemoveAll(dbnamever) db, err := database.CreateDB("leveldb", dbname) if err != nil { t.Fatalf("Failed to open test database %v", err) } defer os.RemoveAll(dbname) defer os.RemoveAll(dbnamever) defer func() { if err := db.Close(); err != nil { t.Errorf("Close: unexpected error: %v", err) } }() list, err := db.FetchTxsByData([]byte("dhaskj2")) if err != nil { t.Fatalf("Get data failed %v", err) } if len(list) != 0 { t.Errorf("Expected empty list, got length %d.", len(list)) } txSha0, err := wire.NewShaHash([]byte("00001111222233334444555566667777")) if err != nil { t.Fatalf("Failed to set-up ShaHash %v", err) } txSha1, err := wire.NewShaHash([]byte("10001111222233334444555566667777")) if err != nil { t.Fatalf("Failed to set-up ShaHash %v", err) } err = db.InsertData([]byte("dhaskj1"), txSha0, 0) if err != nil { t.Fatalf("Insert data failed %v", err) } list, err = db.FetchTxsByData([]byte("dhaskj2")) if err != nil { t.Fatalf("Get data failed %v", err) } if len(list) != 0 { t.Errorf("Expected empty list, got length %d.", len(list)) } err = db.InsertData([]byte("dhaskj2"), txSha0, 0) if err != nil { t.Fatalf("Insert data failed %v", err) } err = db.InsertData([]byte("dhaskj2"), txSha1, 0) if err != nil { t.Fatalf("Insert data failed %v", err) } list, err = db.FetchTxsByData([]byte("dhaskj2")) if err != nil { t.Fatalf("Get data failed %v", err) } if len(list) != 2 { t.Errorf("Expected list with 2 items, got %d.", len(list)) } }