lbcd/interface_test.go

553 lines
17 KiB
Go

// Copyright (c) 2013 Conformal Systems LLC.
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package btcdb_test
import (
"github.com/conformal/btcdb"
"github.com/conformal/btcutil"
"github.com/conformal/btcwire"
"github.com/davecgh/go-spew/spew"
"reflect"
"testing"
)
// testContext is used to store context information about a running test which
// is passed into helper functions. The useSpends field indicates whether or
// not the spend data should be empty or figure it out based on the specific
// test blocks provided. This is needed because the first loop where the blocks
// are inserted, the tests are running against the latest block and therefore
// none of the outputs can be spent yet. However, on subsequent runs, all
// blocks have been inserted and therefore some of the transaction outputs are
// spent.
type testContext struct {
t *testing.T
dbType string
db btcdb.Db
blockHeight int64
blockHash *btcwire.ShaHash
block *btcutil.Block
useSpends bool
}
// testInsertBlock ensures InsertBlock conforms to the interface contract.
func testInsertBlock(tc *testContext) bool {
// The block must insert without any errors.
newHeight, err := tc.db.InsertBlock(tc.block)
if err != nil {
tc.t.Errorf("InsertBlock (%s): failed to insert block #%d (%s) "+
"err %v", tc.dbType, tc.blockHeight, tc.blockHash, err)
return false
}
// The returned height must be the expected value.
if newHeight != tc.blockHeight {
tc.t.Errorf("InsertBlock (%s): height mismatch got: %v, "+
"want: %v", tc.dbType, newHeight, tc.blockHeight)
return false
}
return true
}
// testNewestSha ensures the NewestSha returns the values expected by the
// interface contract.
func testNewestSha(tc *testContext) bool {
// The news block hash and height must be returned without any errors.
sha, height, err := tc.db.NewestSha()
if err != nil {
tc.t.Errorf("NewestSha (%s): block #%d (%s) error %v",
tc.dbType, tc.blockHeight, tc.blockHash, err)
return false
}
// The returned hash must be the expected value.
if !sha.IsEqual(tc.blockHash) {
tc.t.Errorf("NewestSha (%s): block #%d (%s) wrong hash got: %s",
tc.dbType, tc.blockHeight, tc.blockHash, sha)
return false
}
// The returned height must be the expected value.
if height != tc.blockHeight {
tc.t.Errorf("NewestSha (%s): block #%d (%s) wrong height "+
"got: %d", tc.dbType, tc.blockHeight, tc.blockHash,
height)
return false
}
return true
}
// testExistsSha ensures ExistsSha conforms to the interface contract.
func testExistsSha(tc *testContext) bool {
// The block must exist in the database.
if exists := tc.db.ExistsSha(tc.blockHash); !exists {
tc.t.Errorf("ExistsSha (%s): block #%d (%s) does not exist",
tc.dbType, tc.blockHeight, tc.blockHash)
return false
}
return true
}
// testFetchBlockBySha ensures FetchBlockBySha conforms to the interface
// contract.
func testFetchBlockBySha(tc *testContext) bool {
// The block must be fetchable by its hash without any errors.
blockFromDb, err := tc.db.FetchBlockBySha(tc.blockHash)
if err != nil {
tc.t.Errorf("FetchBlockBySha (%s): block #%d (%s) err: %v",
tc.dbType, tc.blockHeight, tc.blockHash, err)
return false
}
// The block fetched from the database must give back the same MsgBlock
// and raw bytes that were stored.
if !reflect.DeepEqual(tc.block.MsgBlock(), blockFromDb.MsgBlock()) {
tc.t.Errorf("FetchBlockBySha (%s): block #%d (%s) does not "+
"match stored block\ngot: %v\nwant: %v", tc.dbType,
tc.blockHeight, tc.blockHash,
spew.Sdump(blockFromDb.MsgBlock()),
spew.Sdump(tc.block.MsgBlock()))
return false
}
blockBytes, err := tc.block.Bytes()
if err != nil {
tc.t.Errorf("block.Bytes: %v", err)
return false
}
blockFromDbBytes, err := blockFromDb.Bytes()
if err != nil {
tc.t.Errorf("blockFromDb.Bytes: %v", err)
return false
}
if !reflect.DeepEqual(blockBytes, blockFromDbBytes) {
tc.t.Errorf("FetchBlockBySha (%s): block #%d (%s) bytes do "+
"not match stored bytes\ngot: %v\nwant: %v", tc.dbType,
tc.blockHeight, tc.blockHash,
spew.Sdump(blockFromDbBytes), spew.Sdump(blockBytes))
return false
}
return true
}
// testFetchBlockShaByHeight ensures FetchBlockShaByHeight conforms to the
// interface contract.
func testFetchBlockShaByHeight(tc *testContext) bool {
// The hash returned for the block by its height must be the expected
// value.
hashFromDb, err := tc.db.FetchBlockShaByHeight(tc.blockHeight)
if err != nil {
tc.t.Errorf("FetchBlockShaByHeight (%s): block #%d (%s) err: %v",
tc.dbType, tc.blockHeight, tc.blockHash, err)
return false
}
if !hashFromDb.IsEqual(tc.blockHash) {
tc.t.Errorf("FetchBlockShaByHeight (%s): block #%d (%s) hash "+
"does not match expected value - got: %v", tc.dbType,
tc.blockHeight, tc.blockHash, hashFromDb)
return false
}
return true
}
func testFetchBlockShaByHeightErrors(tc *testContext) bool {
// Invalid heights must error and return a nil hash.
tests := []int64{-1, tc.blockHeight + 1, tc.blockHeight + 2}
for i, wantHeight := range tests {
hashFromDb, err := tc.db.FetchBlockShaByHeight(wantHeight)
if err == nil {
tc.t.Errorf("FetchBlockShaByHeight #%d (%s): did not "+
"return error on invalid index: %d - got: %v, "+
"want: non-nil", i, tc.dbType, wantHeight, err)
return false
}
if hashFromDb != nil {
tc.t.Errorf("FetchBlockShaByHeight #%d (%s): returned "+
"hash is not nil on invalid index: %d - got: "+
"%v, want: nil", i, tc.dbType, wantHeight, err)
return false
}
}
return true
}
// testExistsTxSha ensures ExistsTxSha conforms to the interface contract.
func testExistsTxSha(tc *testContext) bool {
for i, tx := range tc.block.Transactions() {
// The transaction must exist in the database.
txHash := tx.Sha()
if exists := tc.db.ExistsTxSha(txHash); !exists {
_, err := tc.db.FetchTxBySha(txHash)
if err != nil {
tc.t.Errorf("ExistsTxSha (%s): block #%d (%s) "+
"tx #%d (%s) does not exist", tc.dbType,
tc.blockHeight, tc.blockHash, i, txHash)
}
return false
}
}
return true
}
// testFetchTxBySha ensures FetchTxBySha conforms to the interface contract.
func testFetchTxBySha(tc *testContext) bool {
for i, tx := range tc.block.Transactions() {
txHash := tx.Sha()
txReplyList, err := tc.db.FetchTxBySha(txHash)
if err != nil {
tc.t.Errorf("FetchTxBySha (%s): block #%d (%s) "+
"tx #%d (%s) err: %v", tc.dbType, tc.blockHeight,
tc.blockHash, i, txHash, err)
return false
}
if len(txReplyList) == 0 {
tc.t.Errorf("FetchTxBySha (%s): block #%d (%s) "+
"tx #%d (%s) did not return reply data",
tc.dbType, tc.blockHeight, tc.blockHash, i,
txHash)
return false
}
txFromDb := txReplyList[len(txReplyList)-1].Tx
if !reflect.DeepEqual(tx.MsgTx(), txFromDb) {
tc.t.Errorf("FetchTxBySha (%s): block #%d (%s) "+
"tx #%d (%s) does not match stored tx\n"+
"got: %v\nwant: %v", tc.dbType, tc.blockHeight,
tc.blockHash, i, txHash, spew.Sdump(txFromDb),
spew.Sdump(tx.MsgTx()))
return false
}
}
return true
}
// expectedSpentBuf returns the expected transaction spend information depending
// on the block height and and transaction number. NOTE: These figures are
// only valid for the specific set of test data provided at the time these tests
// were written. In particular, this means the first 256 blocks of the mainnet
// block chain.
//
// The first run through while the blocks are still being inserted, the tests
// are running against the latest block and therefore none of the outputs can
// be spent yet. However, on subsequent runs, all blocks have been inserted and
// therefore some of the transaction outputs are spent.
func expectedSpentBuf(tc *testContext, txNum int) []bool {
numTxOut := len(tc.block.MsgBlock().Transactions[txNum].TxOut)
spentBuf := make([]bool, numTxOut)
if tc.useSpends {
if tc.blockHeight == 9 && txNum == 0 {
spentBuf[0] = true
}
if tc.blockHeight == 170 && txNum == 1 {
spentBuf[1] = true
}
if tc.blockHeight == 181 && txNum == 1 {
spentBuf[1] = true
}
if tc.blockHeight == 182 && txNum == 1 {
spentBuf[0] = true
spentBuf[1] = true
}
if tc.blockHeight == 183 && txNum == 1 {
spentBuf[0] = true
spentBuf[1] = true
}
}
return spentBuf
}
func testFetchTxByShaListCommon(tc *testContext, includeSpent bool) bool {
fetchFunc := tc.db.FetchUnSpentTxByShaList
funcName := "FetchUnSpentTxByShaList"
if includeSpent {
fetchFunc = tc.db.FetchTxByShaList
funcName = "FetchTxByShaList"
}
transactions := tc.block.Transactions()
txHashes := make([]*btcwire.ShaHash, len(transactions))
for i, tx := range transactions {
txHashes[i] = tx.Sha()
}
txReplyList := fetchFunc(txHashes)
if len(txReplyList) != len(txHashes) {
tc.t.Errorf("%s (%s): block #%d (%s) tx reply list does not "+
" match expected length - got: %v, want: %v", funcName,
tc.dbType, tc.blockHeight, tc.blockHash,
len(txReplyList), len(txHashes))
return false
}
for i, tx := range transactions {
txHash := tx.Sha()
txD := txReplyList[i]
// The transaction hash in the reply must be the expected value.
if !txD.Sha.IsEqual(txHash) {
tc.t.Errorf("%s (%s): block #%d (%s) tx #%d (%s) "+
"hash does not match expected value - got %v",
funcName, tc.dbType, tc.blockHeight,
tc.blockHash, i, txHash, txD.Sha)
return false
}
// The reply must not indicate any errors.
if txD.Err != nil {
tc.t.Errorf("%s (%s): block #%d (%s) tx #%d (%s) "+
"returned unexpected error - got %v, want nil",
funcName, tc.dbType, tc.blockHeight,
tc.blockHash, i, txHash, txD.Err)
return false
}
// The transaction in the reply fetched from the database must
// be the same MsgTx that was stored.
if !reflect.DeepEqual(tx.MsgTx(), txD.Tx) {
tc.t.Errorf("%s (%s): block #%d (%s) tx #%d (%s) does "+
"not match stored tx\ngot: %v\nwant: %v",
funcName, tc.dbType, tc.blockHeight,
tc.blockHash, i, txHash, spew.Sdump(txD.Tx),
spew.Sdump(tx.MsgTx()))
return false
}
// The block hash in the reply from the database must be the
// expected value.
if txD.BlkSha == nil {
tc.t.Errorf("%s (%s): block #%d (%s) tx #%d (%s) "+
"returned nil block hash", funcName, tc.dbType,
tc.blockHeight, tc.blockHash, i, txHash)
return false
}
if !txD.BlkSha.IsEqual(tc.blockHash) {
tc.t.Errorf("%s (%s): block #%d (%s) tx #%d (%s)"+
"returned unexpected block hash - got %v",
funcName, tc.dbType, tc.blockHeight,
tc.blockHash, i, txHash, txD.BlkSha)
return false
}
// The block height in the reply from the database must be the
// expected value.
if txD.Height != tc.blockHeight {
tc.t.Errorf("%s (%s): block #%d (%s) tx #%d (%s) "+
"returned unexpected block height - got %v",
funcName, tc.dbType, tc.blockHeight,
tc.blockHash, i, txHash, txD.Height)
return false
}
// The spend data in the reply from the database must not
// indicate any of the transactions that were just inserted are
// spent.
if txD.TxSpent == nil {
tc.t.Errorf("%s (%s): block #%d (%s) tx #%d (%s) "+
"returned nil spend data", funcName, tc.dbType,
tc.blockHeight, tc.blockHash, i, txHash)
return false
}
spentBuf := expectedSpentBuf(tc, i)
if !reflect.DeepEqual(txD.TxSpent, spentBuf) {
tc.t.Errorf("%s (%s): block #%d (%s) tx #%d (%s) "+
"returned unexpected spend data - got %v, "+
"want %v", funcName, tc.dbType, tc.blockHeight,
tc.blockHash, i, txHash, txD.TxSpent, spentBuf)
return false
}
}
return true
}
// testFetchTxByShaList ensures FetchTxByShaList conforms to the interface
// contract.
func testFetchTxByShaList(tc *testContext) bool {
return testFetchTxByShaListCommon(tc, true)
}
// testFetchUnSpentTxByShaList ensures FetchUnSpentTxByShaList conforms to the
// interface contract.
func testFetchUnSpentTxByShaList(tc *testContext) bool {
return testFetchTxByShaListCommon(tc, false)
}
// testIntegrity performs a series of tests against the interface functions
// which fetch and check for data existence.
func testIntegrity(tc *testContext) bool {
// The block must now exist in the database.
if !testExistsSha(tc) {
return false
}
// Loading the block back from the database must give back
// the same MsgBlock and raw bytes that were stored.
if !testFetchBlockBySha(tc) {
return false
}
// The hash returned for the block by its height must be the
// expected value.
if !testFetchBlockShaByHeight(tc) {
return false
}
// All of the transactions in the block must now exist in the
// database.
if !testExistsTxSha(tc) {
return false
}
// Loading all of the transactions in the block back from the
// database must give back the same MsgTx that was stored.
if !testFetchTxBySha(tc) {
return false
}
// All of the transactions in the block must be fetchable via
// FetchTxByShaList and all of the list replies must have the
// expected values.
if !testFetchTxByShaList(tc) {
return false
}
// All of the transactions in the block must be fetchable via
// FetchUnSpentTxByShaList and all of the list replies must have
// the expected values.
if !testFetchUnSpentTxByShaList(tc) {
return false
}
return true
}
// testInterface tests performs tests for the various interfaces of btcdb which
// require state in the database for the given database type.
func testInterface(t *testing.T, dbType string) {
db, teardown, err := setupDB(dbType, "interface")
if err != nil {
t.Errorf("Failed to create test database (%s) %v", dbType, err)
return
}
defer teardown()
// Load up a bunch of test blocks.
blocks, err := loadBlocks(t)
if err != nil {
t.Errorf("Unable to load blocks from test data %v: %v",
blockDataFile, err)
return
}
// Create a test context to pass around.
context := testContext{t: t, dbType: dbType, db: db}
t.Logf("Loaded %d blocks for testing %s", len(blocks), dbType)
for height := int64(1); height < int64(len(blocks)); height++ {
// Get the appropriate block and hash and update the test
// context accordingly.
block := blocks[height]
blockHash, err := block.Sha()
if err != nil {
t.Errorf("block.Sha: %v", err)
return
}
context.blockHeight = height
context.blockHash = blockHash
context.block = block
// The block must insert without any errors and return the
// expected height.
if !testInsertBlock(&context) {
return
}
// The NewestSha function must return the correct information
// about the block that was just inserted.
if !testNewestSha(&context) {
return
}
// The block must pass all data integrity tests which involve
// invoking all and testing the result of all interface
// functions which deal with fetch and checking for data
// existence.
if !testIntegrity(&context) {
return
}
if !testFetchBlockShaByHeightErrors(&context) {
return
}
}
// The data integrity tests must still pass after calling each of the
// invalidate cache functions. This intentionally uses a map since
// map iteration is not the same order every run. This helps catch
// issues that could be caused by calling one version before another.
context.useSpends = true
invalidateCacheFuncs := map[string]func(){
"InvalidateBlockCache": db.InvalidateBlockCache,
"InvalidateTxCache": db.InvalidateTxCache,
"InvalidateCache": db.InvalidateCache,
}
for funcName, invalidateCacheFunc := range invalidateCacheFuncs {
t.Logf("Running integrity tests after calling %s", funcName)
invalidateCacheFunc()
for height := int64(0); height < int64(len(blocks)); height++ {
// Get the appropriate block and hash and update the
// test context accordingly.
block := blocks[height]
blockHash, err := block.Sha()
if err != nil {
t.Errorf("block.Sha: %v", err)
return
}
context.blockHeight = height
context.blockHash = blockHash
context.block = block
testIntegrity(&context)
}
}
// TODO(davec): Need to figure out how to handle the special checks
// required for the duplicate transactions allowed by blocks 91842 and
// 91880 on the main network due to the old miner + Satoshi client bug.
// TODO(davec): Add tests for the following functions:
/*
Close()
DropAfterBlockBySha(*btcwire.ShaHash) (err error)
- ExistsSha(sha *btcwire.ShaHash) (exists bool)
- FetchBlockBySha(sha *btcwire.ShaHash) (blk *btcutil.Block, err error)
- FetchBlockShaByHeight(height int64) (sha *btcwire.ShaHash, err error)
FetchHeightRange(startHeight, endHeight int64) (rshalist []btcwire.ShaHash, err error)
- ExistsTxSha(sha *btcwire.ShaHash) (exists bool)
- FetchTxBySha(txsha *btcwire.ShaHash) ([]*TxListReply, error)
- FetchTxByShaList(txShaList []*btcwire.ShaHash) []*TxListReply
- FetchUnSpentTxByShaList(txShaList []*btcwire.ShaHash) []*TxListReply
- InsertBlock(block *btcutil.Block) (height int64, err error)
InvalidateBlockCache()
InvalidateCache()
InvalidateTxCache()
NewIterateBlocks() (pbi BlockIterator, err error)
NewestSha() (sha *btcwire.ShaHash, height int64, err error)
RollbackClose()
SetDBInsertMode(InsertMode)
Sync()
*/
}