zolfa
/
tendermint

package mempool
import (	"crypto/md5"	"crypto/rand"	"encoding/binary"	"fmt"	"io/ioutil"	"os"	"path/filepath"	"testing"	"time"
	"github.com/tendermint/abci/example/counter"	"github.com/tendermint/abci/example/kvstore"	abci "github.com/tendermint/abci/types"	cmn "github.com/tendermint/tmlibs/common"	"github.com/tendermint/tmlibs/log"
	cfg "github.com/tendermint/tendermint/config"	"github.com/tendermint/tendermint/proxy"	"github.com/tendermint/tendermint/types"
	"github.com/stretchr/testify/require")
func newMempoolWithApp(cc proxy.ClientCreator) *Mempool {	config := cfg.ResetTestRoot("mempool_test")
	appConnMem, _ := cc.NewABCIClient()	appConnMem.SetLogger(log.TestingLogger().With("module", "abci-client", "connection", "mempool"))	err := appConnMem.Start()	if err != nil {		panic(err)	}	mempool := NewMempool(config.Mempool, appConnMem, 0)	mempool.SetLogger(log.TestingLogger())	return mempool}
func ensureNoFire(t *testing.T, ch <-chan int64, timeoutMS int) {	timer := time.NewTimer(time.Duration(timeoutMS) * time.Millisecond)	select {	case <-ch:		t.Fatal("Expected not to fire")	case <-timer.C:	}}
func ensureFire(t *testing.T, ch <-chan int64, timeoutMS int) {	timer := time.NewTimer(time.Duration(timeoutMS) * time.Millisecond)	select {	case <-ch:	case <-timer.C:		t.Fatal("Expected to fire")	}}
func checkTxs(t *testing.T, mempool *Mempool, count int) types.Txs {	txs := make(types.Txs, count)	for i := 0; i < count; i++ {		txBytes := make([]byte, 20)		txs[i] = txBytes		_, err := rand.Read(txBytes)		if err != nil {			t.Error(err)		}		if err := mempool.CheckTx(txBytes, nil); err != nil {			t.Fatalf("Error after CheckTx: %v", err)		}	}	return txs}
func TestTxsAvailable(t *testing.T) {	app := kvstore.NewKVStoreApplication()	cc := proxy.NewLocalClientCreator(app)	mempool := newMempoolWithApp(cc)	mempool.EnableTxsAvailable()
	timeoutMS := 500
	// with no txs, it shouldnt fire
	ensureNoFire(t, mempool.TxsAvailable(), timeoutMS)
	// send a bunch of txs, it should only fire once
	txs := checkTxs(t, mempool, 100)	ensureFire(t, mempool.TxsAvailable(), timeoutMS)	ensureNoFire(t, mempool.TxsAvailable(), timeoutMS)
	// call update with half the txs.
	// it should fire once now for the new height
	// since there are still txs left
	committedTxs, txs := txs[:50], txs[50:]	if err := mempool.Update(1, committedTxs); err != nil {		t.Error(err)	}	ensureFire(t, mempool.TxsAvailable(), timeoutMS)	ensureNoFire(t, mempool.TxsAvailable(), timeoutMS)
	// send a bunch more txs. we already fired for this height so it shouldnt fire again
	moreTxs := checkTxs(t, mempool, 50)	ensureNoFire(t, mempool.TxsAvailable(), timeoutMS)
	// now call update with all the txs. it should not fire as there are no txs left
	committedTxs = append(txs, moreTxs...)	if err := mempool.Update(2, committedTxs); err != nil {		t.Error(err)	}	ensureNoFire(t, mempool.TxsAvailable(), timeoutMS)
	// send a bunch more txs, it should only fire once
	checkTxs(t, mempool, 100)	ensureFire(t, mempool.TxsAvailable(), timeoutMS)	ensureNoFire(t, mempool.TxsAvailable(), timeoutMS)}
func TestSerialReap(t *testing.T) {	app := counter.NewCounterApplication(true)	app.SetOption(abci.RequestSetOption{"serial", "on"})	cc := proxy.NewLocalClientCreator(app)
	mempool := newMempoolWithApp(cc)	appConnCon, _ := cc.NewABCIClient()	appConnCon.SetLogger(log.TestingLogger().With("module", "abci-client", "connection", "consensus"))	err := appConnCon.Start()	require.Nil(t, err)
	cacheMap := make(map[string]struct{})	deliverTxsRange := func(start, end int) {		// Deliver some txs.
		for i := start; i < end; i++ {
			// This will succeed
			txBytes := make([]byte, 8)			binary.BigEndian.PutUint64(txBytes, uint64(i))			err := mempool.CheckTx(txBytes, nil)			_, cached := cacheMap[string(txBytes)]			if cached {				require.NotNil(t, err, "expected error for cached tx")			} else {				require.Nil(t, err, "expected no err for uncached tx")			}			cacheMap[string(txBytes)] = struct{}{}
			// Duplicates are cached and should return error
			err = mempool.CheckTx(txBytes, nil)			require.NotNil(t, err, "Expected error after CheckTx on duplicated tx")		}	}
	reapCheck := func(exp int) {		txs := mempool.Reap(-1)		require.Equal(t, len(txs), exp, cmn.Fmt("Expected to reap %v txs but got %v", exp, len(txs)))	}
	updateRange := func(start, end int) {		txs := make([]types.Tx, 0)		for i := start; i < end; i++ {			txBytes := make([]byte, 8)			binary.BigEndian.PutUint64(txBytes, uint64(i))			txs = append(txs, txBytes)		}		if err := mempool.Update(0, txs); err != nil {			t.Error(err)		}	}
	commitRange := func(start, end int) {		// Deliver some txs.
		for i := start; i < end; i++ {			txBytes := make([]byte, 8)			binary.BigEndian.PutUint64(txBytes, uint64(i))			res, err := appConnCon.DeliverTxSync(txBytes)			if err != nil {				t.Errorf("Client error committing tx: %v", err)			}			if res.IsErr() {				t.Errorf("Error committing tx. Code:%v result:%X log:%v",					res.Code, res.Data, res.Log)			}		}		res, err := appConnCon.CommitSync()		if err != nil {			t.Errorf("Client error committing: %v", err)		}		if len(res.Data) != 8 {			t.Errorf("Error committing. Hash:%X", res.Data)		}	}
	//----------------------------------------

	// Deliver some txs.
	deliverTxsRange(0, 100)
	// Reap the txs.
	reapCheck(100)
	// Reap again.  We should get the same amount
	reapCheck(100)
	// Deliver 0 to 999, we should reap 900 new txs
	// because 100 were already counted.
	deliverTxsRange(0, 1000)
	// Reap the txs.
	reapCheck(1000)
	// Reap again.  We should get the same amount
	reapCheck(1000)
	// Commit from the conensus AppConn
	commitRange(0, 500)	updateRange(0, 500)
	// We should have 500 left.
	reapCheck(500)
	// Deliver 100 invalid txs and 100 valid txs
	deliverTxsRange(900, 1100)
	// We should have 600 now.
	reapCheck(600)}
func TestMempoolCloseWAL(t *testing.T) {	// 1. Create the temporary directory for mempool and WAL testing.
	rootDir, err := ioutil.TempDir("", "mempool-test")	require.Nil(t, err, "expecting successful tmpdir creation")	defer os.RemoveAll(rootDir)
	// 2. Ensure that it doesn't contain any elements -- Sanity check
	m1, err := filepath.Glob(filepath.Join(rootDir, "*"))	require.Nil(t, err, "successful globbing expected")	require.Equal(t, 0, len(m1), "no matches yet")
	// 3. Create the mempool
	wcfg := cfg.DefaultMempoolConfig()	wcfg.RootDir = rootDir	app := kvstore.NewKVStoreApplication()	cc := proxy.NewLocalClientCreator(app)	appConnMem, _ := cc.NewABCIClient()	mempool := NewMempool(wcfg, appConnMem, 10)	mempool.InitWAL()
	// 4. Ensure that the directory contains the WAL file
	m2, err := filepath.Glob(filepath.Join(rootDir, "*"))	require.Nil(t, err, "successful globbing expected")	require.Equal(t, 1, len(m2), "expecting the wal match in")
	// 5. Write some contents to the WAL
	mempool.CheckTx(types.Tx([]byte("foo")), nil)	walFilepath := mempool.wal.Path	sum1 := checksumFile(walFilepath, t)
	// 6. Sanity check to ensure that the written TX matches the expectation.
	require.Equal(t, sum1, checksumIt([]byte("foo\n")), "foo with a newline should be written")
	// 7. Invoke CloseWAL() and ensure it discards the
	// WAL thus any other write won't go through.
	require.True(t, mempool.CloseWAL(), "CloseWAL should CloseWAL")	mempool.CheckTx(types.Tx([]byte("bar")), nil)	sum2 := checksumFile(walFilepath, t)	require.Equal(t, sum1, sum2, "expected no change to the WAL after invoking CloseWAL() since it was discarded")
	// 8. Second CloseWAL should do nothing
	require.False(t, mempool.CloseWAL(), "CloseWAL should CloseWAL")
	// 9. Sanity check to ensure that the WAL file still exists
	m3, err := filepath.Glob(filepath.Join(rootDir, "*"))	require.Nil(t, err, "successful globbing expected")	require.Equal(t, 1, len(m3), "expecting the wal match in")}
func checksumIt(data []byte) string {	h := md5.New()	h.Write(data)	return fmt.Sprintf("%x", h.Sum(nil))}
func checksumFile(p string, t *testing.T) string {	data, err := ioutil.ReadFile(p)	require.Nil(t, err, "expecting successful read of %q", p)	return checksumIt(data)}