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sync_test.go
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sync_test.go
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package neutrino_test
import (
"bytes"
"encoding/hex"
"fmt"
"io"
"io/ioutil"
"os"
"reflect"
"runtime"
"strings"
"sync"
"testing"
"time"
"github.com/bcext/cashutil"
"github.com/bcext/cashutil/gcs/builder"
"github.com/bcext/cashwallet/waddrmgr"
"github.com/bcext/cashwallet/wallet/txauthor"
"github.com/bcext/cashwallet/walletdb"
"github.com/bcext/gcash/btcec"
"github.com/bcext/gcash/btcjson"
"github.com/bcext/gcash/chaincfg"
"github.com/bcext/gcash/chaincfg/chainhash"
"github.com/bcext/gcash/integration/rpctest"
"github.com/bcext/gcash/rpcclient"
"github.com/bcext/gcash/txscript"
"github.com/bcext/gcash/wire"
"github.com/bcext/neutrino"
"github.com/btcsuite/btclog"
_ "github.com/bcext/cashwallet/walletdb/bdb"
)
var (
// Try btclog.LevelInfo for output like you'd see in normal operation,
// or btclog.LevelTrace to help debug code. Anything but
// btclog.LevelOff turns on log messages from the tests themselves as
// well. Keep in mind some log messages may not appear in order due to
// use of multiple query goroutines in the tests.
logLevel = btclog.LevelOff
syncTimeout = 30 * time.Second
syncUpdate = time.Second
// Don't set this too high for your platform, or the tests will miss
// messages.
// TODO: Make this a benchmark instead.
// TODO: Implement load limiting for both outgoing and incoming
// messages.
numQueryThreads = 20
queryOptions = []neutrino.QueryOption{}
// The logged sequence of events we want to see. The value of i
// represents the block for which a loop is generating a log entry,
// given for readability only.
// "bc": OnBlockConnected
// "fc" xx: OnFilteredBlockConnected with xx (uint8) relevant TXs
// "rv": OnRecvTx
// "rd": OnRedeemingTx
// "bd": OnBlockDisconnected
// "fd": OnFilteredBlockDisconnected
wantLog = func() (log []byte) {
for i := 1096; i <= 1100; i++ {
// FilteredBlockConnected
log = append(log, []byte("fc")...)
// 0 relevant TXs
log = append(log, 0x00)
// BlockConnected
log = append(log, []byte("bc")...)
}
// Block with one relevant (receive) transaction
log = append(log, []byte("rvfc")...)
log = append(log, 0x01)
log = append(log, []byte("bc")...)
// 124 blocks with nothing
for i := 1102; i <= 1225; i++ {
log = append(log, []byte("fc")...)
log = append(log, 0x00)
log = append(log, []byte("bc")...)
}
// Block with 1 redeeming transaction
log = append(log, []byte("rdfc")...)
log = append(log, 0x01)
log = append(log, []byte("bc")...)
// Block with nothing
log = append(log, []byte("fc")...)
log = append(log, 0x00)
log = append(log, []byte("bc")...)
// Update with rewind - rewind back to 1095, add another address,
// and see more interesting transactions.
for i := 1227; i >= 1096; i-- {
// BlockDisconnected and FilteredBlockDisconnected
log = append(log, []byte("bdfd")...)
}
// Forward to 1100
for i := 1096; i <= 1100; i++ {
// FilteredBlockConnected
log = append(log, []byte("fc")...)
// 0 relevant TXs
log = append(log, 0x00)
// BlockConnected
log = append(log, []byte("bc")...)
}
// Block with two relevant (receive) transactions
log = append(log, []byte("rvrvfc")...)
log = append(log, 0x02)
log = append(log, []byte("bc")...)
// 124 blocks with nothing
for i := 1102; i <= 1225; i++ {
log = append(log, []byte("fc")...)
log = append(log, 0x00)
log = append(log, []byte("bc")...)
}
// 2 blocks with 1 redeeming transaction each
for i := 1226; i <= 1227; i++ {
log = append(log, []byte("rdfc")...)
log = append(log, 0x01)
log = append(log, []byte("bc")...)
}
// Block with nothing
log = append(log, []byte("fc")...)
log = append(log, 0x00)
log = append(log, []byte("bc")...)
// 3 block rollback
for i := 1228; i >= 1226; i-- {
log = append(log, []byte("fdbd")...)
}
// 5 block empty reorg
for i := 1226; i <= 1230; i++ {
log = append(log, []byte("fc")...)
log = append(log, 0x00)
log = append(log, []byte("bc")...)
}
// 5 block rollback
for i := 1230; i >= 1226; i-- {
log = append(log, []byte("fdbd")...)
}
// 2 blocks with 1 redeeming transaction each
for i := 1226; i <= 1227; i++ {
log = append(log, []byte("rdfc")...)
log = append(log, 0x01)
log = append(log, []byte("bc")...)
}
// 8 block rest of reorg
for i := 1228; i <= 1235; i++ {
log = append(log, []byte("fc")...)
log = append(log, 0x00)
log = append(log, []byte("bc")...)
}
return log
}()
// rescanMtx locks all the variables to which the rescan goroutine's
// notifications write.
rescanMtx sync.RWMutex
// gotLog is where we accumulate the event log from the rescan. Then we
// compare it to wantLog to see if the series of events the rescan saw
// happened as expected.
gotLog []byte
// curBlockHeight lets the rescan goroutine track where it thinks the
// chain is based on OnBlockConnected and OnBlockDisconnected.
curBlockHeight int32
// curFilteredBlockHeight lets the rescan goroutine track where it
// thinks the chain is based on OnFilteredBlockConnected and
// OnFilteredBlockDisconnected.
curFilteredBlockHeight int32
// ourKnownTxsByBlock lets the rescan goroutine keep track of
// transactions we're interested in that are in the blockchain we're
// following as signalled by OnBlockConnected, OnBlockDisconnected,
// OnRecvTx, and OnRedeemingTx.
ourKnownTxsByBlock = make(map[chainhash.Hash][]*cashutil.Tx)
// ourKnownTxsByFilteredBlock lets the rescan goroutine keep track of
// transactions we're interested in that are in the blockchain we're
// following as signalled by OnFilteredBlockConnected and
// OnFilteredBlockDisconnected.
ourKnownTxsByFilteredBlock = make(map[chainhash.Hash][]*cashutil.Tx)
)
// secSource is an implementation of cashwallet/txauthor/SecretsSource that
// stores AddressPubKeyHash addresses.
type secSource struct {
keys map[string]*btcec.PrivateKey
scripts map[string]*[]byte
params *chaincfg.Params
}
func (s *secSource) add(privKey *btcec.PrivateKey) (cashutil.Address, error) {
pubKeyHash := cashutil.Hash160(privKey.PubKey().SerializeCompressed())
addr, err := cashutil.NewAddressPubKeyHash(pubKeyHash, s.params)
if err != nil {
return nil, err
}
script, err := txscript.PayToAddrScript(addr)
if err != nil {
return nil, err
}
s.keys[addr.String()] = privKey
s.scripts[addr.String()] = &script
_, addrs, _, err := txscript.ExtractPkScriptAddrs(script, s.params)
if err != nil {
return nil, err
}
if addrs[0].String() != addr.String() {
return nil, fmt.Errorf("Encoded and decoded addresses don't "+
"match. Encoded: %s, decoded: %s", addr, addrs[0])
}
return addr, nil
}
// GetKey is required by the txscript.KeyDB interface
func (s *secSource) GetKey(addr cashutil.Address) (*btcec.PrivateKey, bool,
error) {
privKey, ok := s.keys[addr.String()]
if !ok {
return nil, true, fmt.Errorf("No key for address %s", addr)
}
return privKey, true, nil
}
// GetScript is required by the txscript.ScriptDB interface
func (s *secSource) GetScript(addr cashutil.Address) ([]byte, error) {
script, ok := s.scripts[addr.String()]
if !ok {
return nil, fmt.Errorf("No script for address %s", addr)
}
return *script, nil
}
// ChainParams is required by the SecretsSource interface
func (s *secSource) ChainParams() *chaincfg.Params {
return s.params
}
func newSecSource(params *chaincfg.Params) *secSource {
return &secSource{
keys: make(map[string]*btcec.PrivateKey),
scripts: make(map[string]*[]byte),
params: params,
}
}
type testLogger struct {
t *testing.T
}
type neutrinoHarness struct {
h1, h2, h3 *rpctest.Harness
svc *neutrino.ChainService
}
type syncTestCase struct {
name string
test func(harness *neutrinoHarness, t *testing.T)
}
var testCases = []*syncTestCase{
{
name: "initial sync",
test: testInitialSync,
},
{
name: "one-shot rescan",
test: testRescan,
},
{
name: "start long-running rescan",
test: testStartRescan,
},
{
name: "test blocks and filters in random order",
test: testRandomBlocks,
},
{
name: "check long-running rescan results",
test: testRescanResults,
},
}
// Make sure the client synchronizes with the correct node.
func testInitialSync(harness *neutrinoHarness, t *testing.T) {
err := waitForSync(t, harness.svc, harness.h1)
if err != nil {
t.Fatalf("Couldn't sync ChainService: %s", err)
}
}
// Variables used to track state between multiple rescan tests.
var (
quitRescan chan struct{}
errChan <-chan error
rescan *neutrino.Rescan
startBlock waddrmgr.BlockStamp
secSrc *secSource
addr1, addr2, addr3 cashutil.Address
script1, script2, script3 []byte
tx1, tx2, tx3 *wire.MsgTx
ourOutPoint wire.OutPoint
)
// testRescan tests several rescan modes. This should be broken up into
// smaller tests.
func testRescan(harness *neutrinoHarness, t *testing.T) {
// Generate an address and send it some coins on the h1 chain. We use
// this to test rescans and notifications.
modParams := harness.svc.ChainParams()
secSrc = newSecSource(&modParams)
privKey1, err := btcec.NewPrivateKey(btcec.S256())
if err != nil {
t.Fatalf("Couldn't generate private key: %s", err)
}
addr1, err = secSrc.add(privKey1)
if err != nil {
t.Fatalf("Couldn't create address from key: %s", err)
}
script1, err = secSrc.GetScript(addr1)
if err != nil {
t.Fatalf("Couldn't create script from address: %s", err)
}
out1 := wire.TxOut{
PkScript: script1,
Value: 1000000000,
}
// Fee rate is satoshis per byte
tx1, err = harness.h1.CreateTransaction(
[]*wire.TxOut{&out1}, 1000, true,
)
if err != nil {
t.Fatalf("Couldn't create transaction from script: %s", err)
}
_, err = harness.h1.Node.SendRawTransaction(tx1, true)
if err != nil {
t.Fatalf("Unable to send raw transaction to node: %s", err)
}
privKey2, err := btcec.NewPrivateKey(btcec.S256())
if err != nil {
t.Fatalf("Couldn't generate private key: %s", err)
}
addr2, err = secSrc.add(privKey2)
if err != nil {
t.Fatalf("Couldn't create address from key: %s", err)
}
script2, err = secSrc.GetScript(addr2)
if err != nil {
t.Fatalf("Couldn't create script from address: %s", err)
}
out2 := wire.TxOut{
PkScript: script2,
Value: 1000000000,
}
// Fee rate is satoshis per byte
tx2, err = harness.h1.CreateTransaction(
[]*wire.TxOut{&out2}, 1000, true,
)
if err != nil {
t.Fatalf("Couldn't create transaction from script: %s", err)
}
_, err = harness.h1.Node.SendRawTransaction(tx2, true)
if err != nil {
t.Fatalf("Unable to send raw transaction to node: %s", err)
}
_, err = harness.h1.Node.Generate(1)
if err != nil {
t.Fatalf("Couldn't generate/submit block: %s", err)
}
err = waitForSync(t, harness.svc, harness.h1)
if err != nil {
t.Fatalf("Couldn't sync ChainService: %s", err)
}
// Call GetUtxo for our output in tx1 to see if it's spent.
ourIndex := 1 << 30 // Should work on 32-bit systems
for i, txo := range tx1.TxOut {
if bytes.Equal(txo.PkScript, script1) {
ourIndex = i
}
}
if ourIndex != 1<<30 {
ourOutPoint = wire.OutPoint{
Hash: tx1.TxHash(),
Index: uint32(ourIndex),
}
} else {
t.Fatalf("Couldn't find the index of our output in transaction"+
" %s", tx1.TxHash())
}
spendReport, err := harness.svc.GetUtxo(
neutrino.WatchInputs(neutrino.InputWithScript{
PkScript: script1,
OutPoint: ourOutPoint,
}),
neutrino.StartBlock(&waddrmgr.BlockStamp{Height: 1101}),
)
if err != nil {
t.Fatalf("Couldn't get UTXO %s: %s", ourOutPoint, err)
}
if !bytes.Equal(spendReport.Output.PkScript, script1) {
t.Fatalf("UTXO's script doesn't match expected script for %s",
ourOutPoint)
}
}
func testStartRescan(harness *neutrinoHarness, t *testing.T) {
// Start a rescan with notifications in another goroutine. We'll kill
// it with a quit channel at the end and make sure we got the expected
// results.
quitRescan = make(chan struct{})
startBlock = waddrmgr.BlockStamp{Height: 1095}
rescan, errChan = startRescan(t, harness.svc, addr1, &startBlock,
quitRescan)
err := waitForSync(t, harness.svc, harness.h1)
if err != nil {
checkErrChan(t, errChan)
t.Fatalf("Couldn't sync ChainService: %s", err)
}
numTXs, _, err := checkRescanStatus()
if err != nil {
checkErrChan(t, errChan)
t.Fatalf("Checking rescan status failed: %s", err)
}
if numTXs != 1 {
t.Fatalf("Wrong number of relevant transactions. Want: 1, got:"+
" %d", numTXs)
}
// Generate 124 blocks on h1 to make sure it reorgs the other nodes.
// Ensure the ChainService instance stays caught up.
harness.h1.Node.Generate(124)
err = waitForSync(t, harness.svc, harness.h1)
if err != nil {
checkErrChan(t, errChan)
t.Fatalf("Couldn't sync ChainService: %s", err)
}
// Connect/sync/disconnect h2 to make it reorg to the h1 chain.
err = csd([]*rpctest.Harness{harness.h1, harness.h2})
if err != nil {
checkErrChan(t, errChan)
t.Fatalf("Couldn't sync h2 to h1: %s", err)
}
// Spend the outputs we sent ourselves over two blocks.
inSrc := func(tx wire.MsgTx) func(target cashutil.Amount) (
total cashutil.Amount, inputs []*wire.TxIn,
inputValues []cashutil.Amount, scripts [][]byte, err error) {
ourIndex := 1 << 30 // Should work on 32-bit systems
for i, txo := range tx.TxOut {
if bytes.Equal(txo.PkScript, script1) ||
bytes.Equal(txo.PkScript, script2) {
ourIndex = i
}
}
return func(target cashutil.Amount) (total cashutil.Amount,
inputs []*wire.TxIn, inputValues []cashutil.Amount,
scripts [][]byte, err error) {
if ourIndex == 1<<30 {
err = fmt.Errorf("Couldn't find our address " +
"in the passed transaction's outputs.")
return
}
total = target
inputs = []*wire.TxIn{
{
PreviousOutPoint: wire.OutPoint{
Hash: tx.TxHash(),
Index: uint32(ourIndex),
},
},
}
inputValues = []cashutil.Amount{
cashutil.Amount(tx.TxOut[ourIndex].Value)}
scripts = [][]byte{tx.TxOut[ourIndex].PkScript}
err = nil
return
}
}
// Create another address to send to so we don't trip the rescan with
// the old address and we can test monitoring both OutPoint usage and
// receipt by addresses.
privKey3, err := btcec.NewPrivateKey(btcec.S256())
if err != nil {
t.Fatalf("Couldn't generate private key: %s", err)
}
addr3, err = secSrc.add(privKey3)
if err != nil {
t.Fatalf("Couldn't create address from key: %s", err)
}
script3, err = secSrc.GetScript(addr3)
if err != nil {
t.Fatalf("Couldn't create script from address: %s", err)
}
out3 := wire.TxOut{
PkScript: script3,
Value: 500000000,
}
// Spend the first transaction and mine a block.
authTx1, err := txauthor.NewUnsignedTransaction(
[]*wire.TxOut{
&out3,
},
// Fee rate is satoshis per kilobyte
1024000,
inSrc(*tx1),
func() ([]byte, error) {
return script3, nil
},
)
if err != nil {
t.Fatalf("Couldn't create unsigned transaction: %s", err)
}
err = authTx1.AddAllInputScripts(secSrc)
if err != nil {
t.Fatalf("Couldn't sign transaction: %s", err)
}
banPeer(harness.svc, harness.h2)
err = harness.svc.SendTransaction(authTx1.Tx,
append(queryOptions,
neutrino.PeerConnectTimeout(3*time.Second))...)
if err != nil && !strings.Contains(err.Error(), "already have") {
t.Fatalf("Unable to send transaction to network: %s", err)
}
_, err = harness.h1.Node.Generate(1)
if err != nil {
t.Fatalf("Couldn't generate/submit block: %s", err)
}
err = waitForSync(t, harness.svc, harness.h1)
if err != nil {
checkErrChan(t, errChan)
t.Fatalf("Couldn't sync ChainService: %s", err)
}
numTXs, _, err = checkRescanStatus()
if numTXs != 2 {
t.Fatalf("Wrong number of relevant transactions. Want: 2, got:"+
" %d", numTXs)
}
// Spend the second transaction and mine a block.
authTx2, err := txauthor.NewUnsignedTransaction(
[]*wire.TxOut{
&out3,
},
// Fee rate is satoshis per kilobyte
1024000,
inSrc(*tx2),
func() ([]byte, error) {
return script3, nil
},
)
if err != nil {
t.Fatalf("Couldn't create unsigned transaction: %s", err)
}
err = authTx2.AddAllInputScripts(secSrc)
if err != nil {
t.Fatalf("Couldn't sign transaction: %s", err)
}
banPeer(harness.svc, harness.h2)
err = harness.svc.SendTransaction(authTx2.Tx,
append(queryOptions,
neutrino.PeerConnectTimeout(3*time.Second))...)
if err != nil && !strings.Contains(err.Error(), "already have") {
t.Fatalf("Unable to send transaction to network: %s", err)
}
_, err = harness.h1.Node.Generate(1)
if err != nil {
t.Fatalf("Couldn't generate/submit block: %s", err)
}
err = waitForSync(t, harness.svc, harness.h1)
if err != nil {
checkErrChan(t, errChan)
t.Fatalf("Couldn't sync ChainService: %s", err)
}
numTXs, _, err = checkRescanStatus()
if numTXs != 2 {
t.Fatalf("Wrong number of relevant transactions. Want: 2, got:"+
" %d", numTXs)
}
// Update the filter with the second address, and we should have 2 more
// relevant transactions.
err = rescan.Update(neutrino.AddAddrs(addr2), neutrino.Rewind(1095))
if err != nil {
t.Fatalf("Couldn't update the rescan filter: %s", err)
}
err = waitForSync(t, harness.svc, harness.h1)
if err != nil {
checkErrChan(t, errChan)
t.Fatalf("Couldn't sync ChainService: %s", err)
}
numTXs, _, err = checkRescanStatus()
if numTXs != 4 {
t.Fatalf("Wrong number of relevant transactions. Want: 4, got:"+
" %d", numTXs)
}
// Generate a block with a nonstandard coinbase to generate a basic
// filter with 0 entries.
_, err = harness.h1.GenerateAndSubmitBlockWithCustomCoinbaseOutputs(
[]*cashutil.Tx{}, rpctest.BlockVersion, time.Time{},
[]wire.TxOut{{
Value: 0,
PkScript: []byte{},
}})
if err != nil {
t.Fatalf("Couldn't generate/submit block: %s", err)
}
err = waitForSync(t, harness.svc, harness.h1)
if err != nil {
checkErrChan(t, errChan)
t.Fatalf("Couldn't sync ChainService: %s", err)
}
// Check and make sure the previous UTXO is now spent.
spendReport, err := harness.svc.GetUtxo(
neutrino.WatchInputs(neutrino.InputWithScript{
PkScript: script1,
OutPoint: ourOutPoint,
}),
neutrino.StartBlock(&waddrmgr.BlockStamp{Height: 801}),
)
if err != nil {
t.Fatalf("Couldn't get UTXO %s: %s", ourOutPoint, err)
}
if spendReport.SpendingTx == nil {
t.Fatalf("Unable to find initial transaction")
}
if spendReport.SpendingTx.TxHash() != authTx1.Tx.TxHash() {
t.Fatalf("Redeeming transaction doesn't match expected "+
"transaction: want %s, got %s", authTx1.Tx.TxHash(),
spendReport.SpendingTx.TxHash())
}
}
func fetchPrevInputScripts(block *wire.MsgBlock, client *rpctest.Harness) ([][]byte, error) {
var inputScripts [][]byte
for i, tx := range block.Transactions {
if i == 0 {
continue
}
for _, txIn := range tx.TxIn {
prevTxHash := txIn.PreviousOutPoint.Hash
prevTx, err := client.Node.GetRawTransaction(&prevTxHash)
if err != nil {
return nil, err
}
prevIndex := txIn.PreviousOutPoint.Index
prevOutput := prevTx.MsgTx().TxOut[prevIndex]
inputScripts = append(inputScripts, prevOutput.PkScript)
}
}
return inputScripts, nil
}
func testRescanResults(harness *neutrinoHarness, t *testing.T) {
// Generate 5 blocks on h2 and wait for ChainService to sync to the
// newly-best chain on h2. This includes the transactions sent via
// svc.SendTransaction earlier, so we'll have to check that the rescan
// status has updated for the correct number of transactions.
_, err := harness.h2.Node.Generate(5)
if err != nil {
t.Fatalf("Couldn't generate/submit blocks: %s", err)
}
err = waitForSync(t, harness.svc, harness.h2)
if err != nil {
checkErrChan(t, errChan)
t.Fatalf("Couldn't sync ChainService: %s", err)
}
numTXs, _, err := checkRescanStatus()
if numTXs != 2 {
t.Fatalf("Wrong number of relevant transactions. Want: 2, got:"+
" %d", numTXs)
}
// Generate 7 blocks on h1 and wait for ChainService to sync to the
// newly-best chain on h1.
_, err = harness.h1.Node.Generate(7)
if err != nil {
t.Fatalf("Couldn't generate/submit block: %s", err)
}
err = waitForSync(t, harness.svc, harness.h1)
if err != nil {
checkErrChan(t, errChan)
t.Fatalf("Couldn't sync ChainService: %s", err)
}
numTXs, _, err = checkRescanStatus()
if numTXs != 4 {
t.Fatalf("Wrong number of relevant transactions. Want: 4, got:"+
" %d", numTXs)
}
if !bytes.Equal(wantLog, gotLog) {
leastBytes := len(wantLog)
if len(gotLog) < leastBytes {
leastBytes = len(gotLog)
}
diffIndex := 0
for i := 0; i < leastBytes; i++ {
if wantLog[i] != gotLog[i] {
diffIndex = i
break
}
}
t.Fatalf("Rescan event logs differ starting at %d.\nWant: %v\n"+
"Got: %v\nDifference - want: %v\nDifference -- got: "+
"%v", diffIndex, wantLog, gotLog, wantLog[diffIndex:],
gotLog[diffIndex:])
}
// Connect h1 and h2, wait for them to synchronize and check for the
// ChainService synchronization status.
err = rpctest.ConnectNode(harness.h1, harness.h2)
if err != nil {
t.Fatalf("Couldn't connect h1 to h2: %s", err)
}
err = rpctest.JoinNodes([]*rpctest.Harness{harness.h1, harness.h2},
rpctest.Blocks)
if err != nil {
t.Fatalf("Couldn't sync h1 and h2: %s", err)
}
err = waitForSync(t, harness.svc, harness.h1)
if err != nil {
t.Fatalf("Couldn't sync ChainService: %s", err)
}
// Now generate a bunch of blocks on each while they're connected,
// triggering many tiny reorgs, and wait for sync again. The end result
// is somewhat random, depending on how quickly the nodes process each
// other's notifications vs finding new blocks, but the two nodes should
// remain fully synchronized with each other at the end.
go harness.h2.Node.Generate(75)
harness.h1.Node.Generate(50)
err = rpctest.JoinNodes([]*rpctest.Harness{harness.h1, harness.h2},
rpctest.Blocks)
if err != nil {
t.Fatalf("Couldn't sync h1 and h2: %s", err)
}
// We increase the timeout because running on Travis with race
// detection enabled can make this pretty slow.
syncTimeout *= 2
err = waitForSync(t, harness.svc, harness.h1)
if err != nil {
checkErrChan(t, errChan)
t.Fatalf("Couldn't sync ChainService: %s", err)
}
close(quitRescan)
err = <-errChan
quitRescan = nil
if err != neutrino.ErrRescanExit {
t.Fatalf("Rescan ended with error: %s", err)
}
// Immediately try to add a new update to to the rescan that was just
// shut down. This should fail as it is no longer running.
rescan.WaitForShutdown()
err = rescan.Update(neutrino.AddAddrs(addr2), neutrino.Rewind(1095))
if err == nil {
t.Fatalf("Expected update call to fail, it did not")
}
}
// testRandomBlocks goes through all blocks in random order and ensures we can
// correctly get cfilters from them. It uses numQueryThreads goroutines running
// at the same time to go through this. 50 is comfortable on my somewhat dated
// laptop with default query optimization settings.
// TODO: Make this a benchmark instead.
func testRandomBlocks(harness *neutrinoHarness, t *testing.T) {
var haveBest *waddrmgr.BlockStamp
haveBest, err := harness.svc.BestBlock()
if err != nil {
t.Fatalf("Couldn't get best snapshot from ChainService: %s", err)
}
// Keep track of an error channel with enough buffer space to track one
// error per block.
errChan := make(chan error, haveBest.Height)
// Test getting all of the blocks and filters.
var wg sync.WaitGroup
workerQueue := make(chan struct{}, numQueryThreads)
for i := int32(1); i <= haveBest.Height; i++ {
wg.Add(1)
height := uint32(i)
// Wait until there's room in the worker queue.
workerQueue <- struct{}{}
go func() {
// On exit, open a spot in workerQueue and tell the
// wait group we're done.
defer func() {
<-workerQueue
}()
defer wg.Done()
// Get block header from database.
blockHeader, err := harness.svc.BlockHeaders.
FetchHeaderByHeight(height)
if err != nil {
errChan <- fmt.Errorf("Couldn't get block "+
"header by height %d: %s", height, err)
return
}
blockHash := blockHeader.BlockHash()
// Get block via RPC.
wantBlock, err := harness.h1.Node.GetBlock(&blockHash)
if err != nil {
errChan <- fmt.Errorf("Couldn't get block %d "+
"(%s) by RPC", height, blockHash)
return
}
// Get block from network.
haveBlock, err := harness.svc.GetBlock(
blockHash, queryOptions...,
)
if err != nil {
errChan <- err
return
}
if haveBlock == nil {
errChan <- fmt.Errorf("Couldn't get block %d "+
"(%s) from network", height, blockHash)
return
}
// Check that network and RPC blocks match.
if !reflect.DeepEqual(*haveBlock.MsgBlock(),
*wantBlock) {
errChan <- fmt.Errorf("Block from network "+
"doesn't match block from RPC. Want: "+
"%s, RPC: %s, network: %s", blockHash,
wantBlock.BlockHash(),
haveBlock.MsgBlock().BlockHash())
return
}
// Check that block height matches what we have.
if height != uint32(haveBlock.Height()) {
errChan <- fmt.Errorf("Block height from "+
"network doesn't match expected "+
"height. Want: %v, network: %v",
height, haveBlock.Height())
return
}
// Get basic cfilter from network.
haveFilter, err := harness.svc.GetCFilter(blockHash,
wire.GCSFilterRegular, queryOptions...)
if err != nil {
errChan <- err
return
}
// Get basic cfilter from RPC.
wantFilter, err := harness.h1.Node.GetCFilter(
&blockHash, wire.GCSFilterRegular)
if err != nil {
errChan <- fmt.Errorf("Couldn't get basic "+
"filter for block %d (%s) via RPC: %s",
height, blockHash, err)
return
}
// Check that network and RPC cfilters match.
var haveBytes []byte
if haveFilter != nil {
haveBytes, err = haveFilter.NBytes()
if err != nil {
errChan <- fmt.Errorf("Couldn't get "+
"basic filter for block %d "+
"(%s) via P2P: %s", height,
blockHash, err)
return
}
}
if !bytes.Equal(haveBytes, wantFilter.Data) {
errChan <- fmt.Errorf("Basic filter from P2P "+
"network/DB doesn't match RPC value "+
"for block %d (%s):\nRPC: %s\nNet: %s",
height, blockHash,
hex.EncodeToString(wantFilter.Data),
hex.EncodeToString(haveBytes))
return
}
inputScripts, err := fetchPrevInputScripts(
haveBlock.MsgBlock(),
harness.h1,
)
if err != nil {
errChan <- fmt.Errorf("unable to create prev "+
"input scripts: %v", err)
return
}
// Calculate basic filter from block.
calcFilter, err := builder.BuildBasicFilter(
haveBlock.MsgBlock(), inputScripts,
)
if err != nil {
errChan <- fmt.Errorf("Couldn't build basic "+
"filter for block %d (%s): %s", height,
blockHash, err)
return
}
calcBytes, err := calcFilter.NBytes()
if err != nil {
errChan <- fmt.Errorf("Couldn't get bytes from"+
" calculated basic filter for block "+
"%d (%s): %s", height, blockHash, err)
}
// Check that the network value matches the calculated
// value from the block.
if !bytes.Equal(haveBytes, calcBytes) {
errChan <- fmt.Errorf("Basic filter from P2P "+
"network/DB doesn't match calculated "+
"value for block %d (%s)", height,
blockHash)
return
}
// Get previous basic filter header from the database.
prevHeader, err := harness.svc.RegFilterHeaders.
FetchHeader(&blockHeader.PrevBlock)
if err != nil {
errChan <- fmt.Errorf("Couldn't get basic "+
"filter header for block %d (%s) from "+
"DB: %s", height-1,
blockHeader.PrevBlock, err)
return
}
// Get current basic filter header from the database.
curHeader, err := harness.svc.RegFilterHeaders.
FetchHeader(&blockHash)
if err != nil {
errChan <- fmt.Errorf("Couldn't get basic "+
"filter header for block %d (%s) from "+
"DB: %s", height, blockHash, err)
return
}
// Check that the filter and header line up.
calcHeader, err := builder.MakeHeaderForFilter(
calcFilter, *prevHeader)
if err != nil {
errChan <- fmt.Errorf("Couldn't calculate "+
"header for basic filter for block "+
"%d (%s): %s", height, blockHash, err)
return
}
if !bytes.Equal(curHeader[:], calcHeader[:]) {
errChan <- fmt.Errorf("Filter header doesn't "+
"match. Want: %s, got: %s", curHeader,
calcHeader)
return
}
}()
}
// Wait for all queries to finish.
wg.Wait()
// Close the error channel to make the error monitoring goroutine
// finish.
close(errChan)
var lastErr error
for err := range errChan {
if err != nil {
t.Errorf("%s", err)
lastErr = fmt.Errorf("Couldn't validate all " +
"blocks, filters, and filter headers.")
}
}
if logLevel != btclog.LevelOff {
t.Logf("Finished checking %d blocks and their cfilters",
haveBest.Height)
}
if lastErr != nil {
t.Fatal(lastErr)
}
return
}
func TestNeutrinoSync(t *testing.T) {
// Set up logging.
logger := btclog.NewBackend(os.Stdout)
chainLogger := logger.Logger("CHAIN")
chainLogger.SetLevel(logLevel)
neutrino.UseLogger(chainLogger)
rpcLogger := logger.Logger("RPCC")
rpcLogger.SetLevel(logLevel)
rpcclient.UseLogger(rpcLogger)
// Create a gcash SimNet node and generate 800 blocks
h1, err := rpctest.New(
&chaincfg.SimNetParams, nil, []string{"--txindex"},
)
if err != nil {
t.Fatalf("Couldn't create harness: %s", err)
}