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|
// Copyright 2015 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum library is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// The go-ethereum library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
package downloader
import (
"errors"
"fmt"
"math/big"
"sync"
"sync/atomic"
"testing"
"time"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/core"
"github.com/ethereum/go-ethereum/core/state"
"github.com/ethereum/go-ethereum/core/types"
"github.com/ethereum/go-ethereum/crypto"
"github.com/ethereum/go-ethereum/ethdb"
"github.com/ethereum/go-ethereum/event"
"github.com/ethereum/go-ethereum/params"
"github.com/ethereum/go-ethereum/trie"
)
var (
testKey, _ = crypto.HexToECDSA("b71c71a67e1177ad4e901695e1b4b9ee17ae16c6668d313eac2f96dbcda3f291")
testAddress = crypto.PubkeyToAddress(testKey.PublicKey)
)
// Reduce some of the parameters to make the tester faster.
func init() {
MaxForkAncestry = uint64(10000)
blockCacheLimit = 1024
fsCriticalTrials = 10
}
// downloadTester is a test simulator for mocking out local block chain.
type downloadTester struct {
downloader *Downloader
genesis *types.Block // Genesis blocks used by the tester and peers
stateDb ethdb.Database // Database used by the tester for syncing from peers
peerDb ethdb.Database // Database of the peers containing all data
ownHashes []common.Hash // Hash chain belonging to the tester
ownHeaders map[common.Hash]*types.Header // Headers belonging to the tester
ownBlocks map[common.Hash]*types.Block // Blocks belonging to the tester
ownReceipts map[common.Hash]types.Receipts // Receipts belonging to the tester
ownChainTd map[common.Hash]*big.Int // Total difficulties of the blocks in the local chain
peerHashes map[string][]common.Hash // Hash chain belonging to different test peers
peerHeaders map[string]map[common.Hash]*types.Header // Headers belonging to different test peers
peerBlocks map[string]map[common.Hash]*types.Block // Blocks belonging to different test peers
peerReceipts map[string]map[common.Hash]types.Receipts // Receipts belonging to different test peers
peerChainTds map[string]map[common.Hash]*big.Int // Total difficulties of the blocks in the peer chains
peerMissingStates map[string]map[common.Hash]bool // State entries that fast sync should not return
lock sync.RWMutex
}
// newTester creates a new downloader test mocker.
func newTester() *downloadTester {
testdb, _ := ethdb.NewMemDatabase()
genesis := core.GenesisBlockForTesting(testdb, testAddress, big.NewInt(1000000000))
tester := &downloadTester{
genesis: genesis,
peerDb: testdb,
ownHashes: []common.Hash{genesis.Hash()},
ownHeaders: map[common.Hash]*types.Header{genesis.Hash(): genesis.Header()},
ownBlocks: map[common.Hash]*types.Block{genesis.Hash(): genesis},
ownReceipts: map[common.Hash]types.Receipts{genesis.Hash(): nil},
ownChainTd: map[common.Hash]*big.Int{genesis.Hash(): genesis.Difficulty()},
peerHashes: make(map[string][]common.Hash),
peerHeaders: make(map[string]map[common.Hash]*types.Header),
peerBlocks: make(map[string]map[common.Hash]*types.Block),
peerReceipts: make(map[string]map[common.Hash]types.Receipts),
peerChainTds: make(map[string]map[common.Hash]*big.Int),
peerMissingStates: make(map[string]map[common.Hash]bool),
}
tester.stateDb, _ = ethdb.NewMemDatabase()
tester.stateDb.Put(genesis.Root().Bytes(), []byte{0x00})
tester.downloader = New(tester.stateDb, new(event.TypeMux), tester.hasHeader, tester.hasBlock, tester.getHeader,
tester.getBlock, tester.headHeader, tester.headBlock, tester.headFastBlock, tester.commitHeadBlock, tester.getTd,
tester.insertHeaders, tester.insertBlocks, tester.insertReceipts, tester.rollback, tester.dropPeer)
return tester
}
// makeChain creates a chain of n blocks starting at and including parent.
// the returned hash chain is ordered head->parent. In addition, every 3rd block
// contains a transaction and every 5th an uncle to allow testing correct block
// reassembly.
func (dl *downloadTester) makeChain(n int, seed byte, parent *types.Block, parentReceipts types.Receipts, heavy bool) ([]common.Hash, map[common.Hash]*types.Header, map[common.Hash]*types.Block, map[common.Hash]types.Receipts) {
// Generate the block chain
blocks, receipts := core.GenerateChain(nil, parent, dl.peerDb, n, func(i int, block *core.BlockGen) {
block.SetCoinbase(common.Address{seed})
// If a heavy chain is requested, delay blocks to raise difficulty
if heavy {
block.OffsetTime(-1)
}
// If the block number is multiple of 3, send a bonus transaction to the miner
if parent == dl.genesis && i%3 == 0 {
tx, err := types.NewTransaction(block.TxNonce(testAddress), common.Address{seed}, big.NewInt(1000), params.TxGas, nil, nil).SignECDSA(testKey)
if err != nil {
panic(err)
}
block.AddTx(tx)
}
// If the block number is a multiple of 5, add a bonus uncle to the block
if i > 0 && i%5 == 0 {
block.AddUncle(&types.Header{
ParentHash: block.PrevBlock(i - 1).Hash(),
Number: big.NewInt(block.Number().Int64() - 1),
})
}
})
// Convert the block-chain into a hash-chain and header/block maps
hashes := make([]common.Hash, n+1)
hashes[len(hashes)-1] = parent.Hash()
headerm := make(map[common.Hash]*types.Header, n+1)
headerm[parent.Hash()] = parent.Header()
blockm := make(map[common.Hash]*types.Block, n+1)
blockm[parent.Hash()] = parent
receiptm := make(map[common.Hash]types.Receipts, n+1)
receiptm[parent.Hash()] = parentReceipts
for i, b := range blocks {
hashes[len(hashes)-i-2] = b.Hash()
headerm[b.Hash()] = b.Header()
blockm[b.Hash()] = b
receiptm[b.Hash()] = receipts[i]
}
return hashes, headerm, blockm, receiptm
}
// makeChainFork creates two chains of length n, such that h1[:f] and
// h2[:f] are different but have a common suffix of length n-f.
func (dl *downloadTester) makeChainFork(n, f int, parent *types.Block, parentReceipts types.Receipts, balanced bool) ([]common.Hash, []common.Hash, map[common.Hash]*types.Header, map[common.Hash]*types.Header, map[common.Hash]*types.Block, map[common.Hash]*types.Block, map[common.Hash]types.Receipts, map[common.Hash]types.Receipts) {
// Create the common suffix
hashes, headers, blocks, receipts := dl.makeChain(n-f, 0, parent, parentReceipts, false)
// Create the forks, making the second heavyer if non balanced forks were requested
hashes1, headers1, blocks1, receipts1 := dl.makeChain(f, 1, blocks[hashes[0]], receipts[hashes[0]], false)
hashes1 = append(hashes1, hashes[1:]...)
heavy := false
if !balanced {
heavy = true
}
hashes2, headers2, blocks2, receipts2 := dl.makeChain(f, 2, blocks[hashes[0]], receipts[hashes[0]], heavy)
hashes2 = append(hashes2, hashes[1:]...)
for hash, header := range headers {
headers1[hash] = header
headers2[hash] = header
}
for hash, block := range blocks {
blocks1[hash] = block
blocks2[hash] = block
}
for hash, receipt := range receipts {
receipts1[hash] = receipt
receipts2[hash] = receipt
}
return hashes1, hashes2, headers1, headers2, blocks1, blocks2, receipts1, receipts2
}
// terminate aborts any operations on the embedded downloader and releases all
// held resources.
func (dl *downloadTester) terminate() {
dl.downloader.Terminate()
}
// sync starts synchronizing with a remote peer, blocking until it completes.
func (dl *downloadTester) sync(id string, td *big.Int, mode SyncMode) error {
dl.lock.RLock()
hash := dl.peerHashes[id][0]
// If no particular TD was requested, load from the peer's blockchain
if td == nil {
td = big.NewInt(1)
if diff, ok := dl.peerChainTds[id][hash]; ok {
td = diff
}
}
dl.lock.RUnlock()
// Synchronise with the chosen peer and ensure proper cleanup afterwards
err := dl.downloader.synchronise(id, hash, td, mode)
select {
case <-dl.downloader.cancelCh:
// Ok, downloader fully cancelled after sync cycle
default:
// Downloader is still accepting packets, can block a peer up
panic("downloader active post sync cycle") // panic will be caught by tester
}
return err
}
// hasHeader checks if a header is present in the testers canonical chain.
func (dl *downloadTester) hasHeader(hash common.Hash) bool {
return dl.getHeader(hash) != nil
}
// hasBlock checks if a block and associated state is present in the testers canonical chain.
func (dl *downloadTester) hasBlock(hash common.Hash) bool {
block := dl.getBlock(hash)
if block == nil {
return false
}
_, err := dl.stateDb.Get(block.Root().Bytes())
return err == nil
}
// getHeader retrieves a header from the testers canonical chain.
func (dl *downloadTester) getHeader(hash common.Hash) *types.Header {
dl.lock.RLock()
defer dl.lock.RUnlock()
return dl.ownHeaders[hash]
}
// getBlock retrieves a block from the testers canonical chain.
func (dl *downloadTester) getBlock(hash common.Hash) *types.Block {
dl.lock.RLock()
defer dl.lock.RUnlock()
return dl.ownBlocks[hash]
}
// headHeader retrieves the current head header from the canonical chain.
func (dl *downloadTester) headHeader() *types.Header {
dl.lock.RLock()
defer dl.lock.RUnlock()
for i := len(dl.ownHashes) - 1; i >= 0; i-- {
if header := dl.ownHeaders[dl.ownHashes[i]]; header != nil {
return header
}
}
return dl.genesis.Header()
}
// headBlock retrieves the current head block from the canonical chain.
func (dl *downloadTester) headBlock() *types.Block {
dl.lock.RLock()
defer dl.lock.RUnlock()
for i := len(dl.ownHashes) - 1; i >= 0; i-- {
if block := dl.ownBlocks[dl.ownHashes[i]]; block != nil {
if _, err := dl.stateDb.Get(block.Root().Bytes()); err == nil {
return block
}
}
}
return dl.genesis
}
// headFastBlock retrieves the current head fast-sync block from the canonical chain.
func (dl *downloadTester) headFastBlock() *types.Block {
dl.lock.RLock()
defer dl.lock.RUnlock()
for i := len(dl.ownHashes) - 1; i >= 0; i-- {
if block := dl.ownBlocks[dl.ownHashes[i]]; block != nil {
return block
}
}
return dl.genesis
}
// commitHeadBlock manually sets the head block to a given hash.
func (dl *downloadTester) commitHeadBlock(hash common.Hash) error {
// For now only check that the state trie is correct
if block := dl.getBlock(hash); block != nil {
_, err := trie.NewSecure(block.Root(), dl.stateDb, 0)
return err
}
return fmt.Errorf("non existent block: %x", hash[:4])
}
// getTd retrieves the block's total difficulty from the canonical chain.
func (dl *downloadTester) getTd(hash common.Hash) *big.Int {
dl.lock.RLock()
defer dl.lock.RUnlock()
return dl.ownChainTd[hash]
}
// insertHeaders injects a new batch of headers into the simulated chain.
func (dl *downloadTester) insertHeaders(headers []*types.Header, checkFreq int) (int, error) {
dl.lock.Lock()
defer dl.lock.Unlock()
// Do a quick check, as the blockchain.InsertHeaderChain doesn't insert anything in case of errors
if _, ok := dl.ownHeaders[headers[0].ParentHash]; !ok {
return 0, errors.New("unknown parent")
}
for i := 1; i < len(headers); i++ {
if headers[i].ParentHash != headers[i-1].Hash() {
return i, errors.New("unknown parent")
}
}
// Do a full insert if pre-checks passed
for i, header := range headers {
if _, ok := dl.ownHeaders[header.Hash()]; ok {
continue
}
if _, ok := dl.ownHeaders[header.ParentHash]; !ok {
return i, errors.New("unknown parent")
}
dl.ownHashes = append(dl.ownHashes, header.Hash())
dl.ownHeaders[header.Hash()] = header
dl.ownChainTd[header.Hash()] = new(big.Int).Add(dl.ownChainTd[header.ParentHash], header.Difficulty)
}
return len(headers), nil
}
// insertBlocks injects a new batch of blocks into the simulated chain.
func (dl *downloadTester) insertBlocks(blocks types.Blocks) (int, error) {
dl.lock.Lock()
defer dl.lock.Unlock()
for i, block := range blocks {
if parent, ok := dl.ownBlocks[block.ParentHash()]; !ok {
return i, errors.New("unknown parent")
} else if _, err := dl.stateDb.Get(parent.Root().Bytes()); err != nil {
return i, fmt.Errorf("unknown parent state %x: %v", parent.Root(), err)
}
if _, ok := dl.ownHeaders[block.Hash()]; !ok {
dl.ownHashes = append(dl.ownHashes, block.Hash())
dl.ownHeaders[block.Hash()] = block.Header()
}
dl.ownBlocks[block.Hash()] = block
dl.stateDb.Put(block.Root().Bytes(), []byte{0x00})
dl.ownChainTd[block.Hash()] = new(big.Int).Add(dl.ownChainTd[block.ParentHash()], block.Difficulty())
}
return len(blocks), nil
}
// insertReceipts injects a new batch of receipts into the simulated chain.
func (dl *downloadTester) insertReceipts(blocks types.Blocks, receipts []types.Receipts) (int, error) {
dl.lock.Lock()
defer dl.lock.Unlock()
for i := 0; i < len(blocks) && i < len(receipts); i++ {
if _, ok := dl.ownHeaders[blocks[i].Hash()]; !ok {
return i, errors.New("unknown owner")
}
if _, ok := dl.ownBlocks[blocks[i].ParentHash()]; !ok {
return i, errors.New("unknown parent")
}
dl.ownBlocks[blocks[i].Hash()] = blocks[i]
dl.ownReceipts[blocks[i].Hash()] = receipts[i]
}
return len(blocks), nil
}
// rollback removes some recently added elements from the chain.
func (dl *downloadTester) rollback(hashes []common.Hash) {
dl.lock.Lock()
defer dl.lock.Unlock()
for i := len(hashes) - 1; i >= 0; i-- {
if dl.ownHashes[len(dl.ownHashes)-1] == hashes[i] {
dl.ownHashes = dl.ownHashes[:len(dl.ownHashes)-1]
}
delete(dl.ownChainTd, hashes[i])
delete(dl.ownHeaders, hashes[i])
delete(dl.ownReceipts, hashes[i])
delete(dl.ownBlocks, hashes[i])
}
}
// newPeer registers a new block download source into the downloader.
func (dl *downloadTester) newPeer(id string, version int, hashes []common.Hash, headers map[common.Hash]*types.Header, blocks map[common.Hash]*types.Block, receipts map[common.Hash]types.Receipts) error {
return dl.newSlowPeer(id, version, hashes, headers, blocks, receipts, 0)
}
// newSlowPeer registers a new block download source into the downloader, with a
// specific delay time on processing the network packets sent to it, simulating
// potentially slow network IO.
func (dl *downloadTester) newSlowPeer(id string, version int, hashes []common.Hash, headers map[common.Hash]*types.Header, blocks map[common.Hash]*types.Block, receipts map[common.Hash]types.Receipts, delay time.Duration) error {
dl.lock.Lock()
defer dl.lock.Unlock()
var err error
switch version {
case 62:
err = dl.downloader.RegisterPeer(id, version, dl.peerCurrentHeadFn(id), dl.peerGetRelHeadersFn(id, delay), dl.peerGetAbsHeadersFn(id, delay), dl.peerGetBodiesFn(id, delay), nil, nil)
case 63:
err = dl.downloader.RegisterPeer(id, version, dl.peerCurrentHeadFn(id), dl.peerGetRelHeadersFn(id, delay), dl.peerGetAbsHeadersFn(id, delay), dl.peerGetBodiesFn(id, delay), dl.peerGetReceiptsFn(id, delay), dl.peerGetNodeDataFn(id, delay))
case 64:
err = dl.downloader.RegisterPeer(id, version, dl.peerCurrentHeadFn(id), dl.peerGetRelHeadersFn(id, delay), dl.peerGetAbsHeadersFn(id, delay), dl.peerGetBodiesFn(id, delay), dl.peerGetReceiptsFn(id, delay), dl.peerGetNodeDataFn(id, delay))
}
if err == nil {
// Assign the owned hashes, headers and blocks to the peer (deep copy)
dl.peerHashes[id] = make([]common.Hash, len(hashes))
copy(dl.peerHashes[id], hashes)
dl.peerHeaders[id] = make(map[common.Hash]*types.Header)
dl.peerBlocks[id] = make(map[common.Hash]*types.Block)
dl.peerReceipts[id] = make(map[common.Hash]types.Receipts)
dl.peerChainTds[id] = make(map[common.Hash]*big.Int)
dl.peerMissingStates[id] = make(map[common.Hash]bool)
genesis := hashes[len(hashes)-1]
if header := headers[genesis]; header != nil {
dl.peerHeaders[id][genesis] = header
dl.peerChainTds[id][genesis] = header.Difficulty
}
if block := blocks[genesis]; block != nil {
dl.peerBlocks[id][genesis] = block
dl.peerChainTds[id][genesis] = block.Difficulty()
}
for i := len(hashes) - 2; i >= 0; i-- {
hash := hashes[i]
if header, ok := headers[hash]; ok {
dl.peerHeaders[id][hash] = header
if _, ok := dl.peerHeaders[id][header.ParentHash]; ok {
dl.peerChainTds[id][hash] = new(big.Int).Add(header.Difficulty, dl.peerChainTds[id][header.ParentHash])
}
}
if block, ok := blocks[hash]; ok {
dl.peerBlocks[id][hash] = block
if _, ok := dl.peerBlocks[id][block.ParentHash()]; ok {
dl.peerChainTds[id][hash] = new(big.Int).Add(block.Difficulty(), dl.peerChainTds[id][block.ParentHash()])
}
}
if receipt, ok := receipts[hash]; ok {
dl.peerReceipts[id][hash] = receipt
}
}
}
return err
}
// dropPeer simulates a hard peer removal from the connection pool.
func (dl *downloadTester) dropPeer(id string) {
dl.lock.Lock()
defer dl.lock.Unlock()
delete(dl.peerHashes, id)
delete(dl.peerHeaders, id)
delete(dl.peerBlocks, id)
delete(dl.peerChainTds, id)
dl.downloader.UnregisterPeer(id)
}
// peerCurrentHeadFn constructs a function to retrieve a peer's current head hash
// and total difficulty.
func (dl *downloadTester) peerCurrentHeadFn(id string) func() (common.Hash, *big.Int) {
return func() (common.Hash, *big.Int) {
dl.lock.RLock()
defer dl.lock.RUnlock()
return dl.peerHashes[id][0], nil
}
}
// peerGetRelHeadersFn constructs a GetBlockHeaders function based on a hashed
// origin; associated with a particular peer in the download tester. The returned
// function can be used to retrieve batches of headers from the particular peer.
func (dl *downloadTester) peerGetRelHeadersFn(id string, delay time.Duration) func(common.Hash, int, int, bool) error {
return func(origin common.Hash, amount int, skip int, reverse bool) error {
// Find the canonical number of the hash
dl.lock.RLock()
number := uint64(0)
for num, hash := range dl.peerHashes[id] {
if hash == origin {
number = uint64(len(dl.peerHashes[id]) - num - 1)
break
}
}
dl.lock.RUnlock()
// Use the absolute header fetcher to satisfy the query
return dl.peerGetAbsHeadersFn(id, delay)(number, amount, skip, reverse)
}
}
// peerGetAbsHeadersFn constructs a GetBlockHeaders function based on a numbered
// origin; associated with a particular peer in the download tester. The returned
// function can be used to retrieve batches of headers from the particular peer.
func (dl *downloadTester) peerGetAbsHeadersFn(id string, delay time.Duration) func(uint64, int, int, bool) error {
return func(origin uint64, amount int, skip int, reverse bool) error {
time.Sleep(delay)
dl.lock.RLock()
defer dl.lock.RUnlock()
// Gather the next batch of headers
hashes := dl.peerHashes[id]
headers := dl.peerHeaders[id]
result := make([]*types.Header, 0, amount)
for i := 0; i < amount && len(hashes)-int(origin)-1-i*(skip+1) >= 0; i++ {
if header, ok := headers[hashes[len(hashes)-int(origin)-1-i*(skip+1)]]; ok {
result = append(result, header)
}
}
// Delay delivery a bit to allow attacks to unfold
go func() {
time.Sleep(time.Millisecond)
dl.downloader.DeliverHeaders(id, result)
}()
return nil
}
}
// peerGetBodiesFn constructs a getBlockBodies method associated with a particular
// peer in the download tester. The returned function can be used to retrieve
// batches of block bodies from the particularly requested peer.
func (dl *downloadTester) peerGetBodiesFn(id string, delay time.Duration) func([]common.Hash) error {
return func(hashes []common.Hash) error {
time.Sleep(delay)
dl.lock.RLock()
defer dl.lock.RUnlock()
blocks := dl.peerBlocks[id]
transactions := make([][]*types.Transaction, 0, len(hashes))
uncles := make([][]*types.Header, 0, len(hashes))
for _, hash := range hashes {
if block, ok := blocks[hash]; ok {
transactions = append(transactions, block.Transactions())
uncles = append(uncles, block.Uncles())
}
}
go dl.downloader.DeliverBodies(id, transactions, uncles)
return nil
}
}
// peerGetReceiptsFn constructs a getReceipts method associated with a particular
// peer in the download tester. The returned function can be used to retrieve
// batches of block receipts from the particularly requested peer.
func (dl *downloadTester) peerGetReceiptsFn(id string, delay time.Duration) func([]common.Hash) error {
return func(hashes []common.Hash) error {
time.Sleep(delay)
dl.lock.RLock()
defer dl.lock.RUnlock()
receipts := dl.peerReceipts[id]
results := make([][]*types.Receipt, 0, len(hashes))
for _, hash := range hashes {
if receipt, ok := receipts[hash]; ok {
results = append(results, receipt)
}
}
go dl.downloader.DeliverReceipts(id, results)
return nil
}
}
// peerGetNodeDataFn constructs a getNodeData method associated with a particular
// peer in the download tester. The returned function can be used to retrieve
// batches of node state data from the particularly requested peer.
func (dl *downloadTester) peerGetNodeDataFn(id string, delay time.Duration) func([]common.Hash) error {
return func(hashes []common.Hash) error {
time.Sleep(delay)
dl.lock.RLock()
defer dl.lock.RUnlock()
results := make([][]byte, 0, len(hashes))
for _, hash := range hashes {
if data, err := dl.peerDb.Get(hash.Bytes()); err == nil {
if !dl.peerMissingStates[id][hash] {
results = append(results, data)
}
}
}
go dl.downloader.DeliverNodeData(id, results)
return nil
}
}
// assertOwnChain checks if the local chain contains the correct number of items
// of the various chain components.
func assertOwnChain(t *testing.T, tester *downloadTester, length int) {
assertOwnForkedChain(t, tester, 1, []int{length})
}
// assertOwnForkedChain checks if the local forked chain contains the correct
// number of items of the various chain components.
func assertOwnForkedChain(t *testing.T, tester *downloadTester, common int, lengths []int) {
// Initialize the counters for the first fork
headers, blocks := lengths[0], lengths[0]
minReceipts, maxReceipts := lengths[0]-fsMinFullBlocks-fsPivotInterval, lengths[0]-fsMinFullBlocks
if minReceipts < 0 {
minReceipts = 1
}
if maxReceipts < 0 {
maxReceipts = 1
}
// Update the counters for each subsequent fork
for _, length := range lengths[1:] {
headers += length - common
blocks += length - common
minReceipts += length - common - fsMinFullBlocks - fsPivotInterval
maxReceipts += length - common - fsMinFullBlocks
}
switch tester.downloader.mode {
case FullSync:
minReceipts, maxReceipts = 1, 1
case LightSync:
blocks, minReceipts, maxReceipts = 1, 1, 1
}
if hs := len(tester.ownHeaders); hs != headers {
t.Fatalf("synchronised headers mismatch: have %v, want %v", hs, headers)
}
if bs := len(tester.ownBlocks); bs != blocks {
t.Fatalf("synchronised blocks mismatch: have %v, want %v", bs, blocks)
}
if rs := len(tester.ownReceipts); rs < minReceipts || rs > maxReceipts {
t.Fatalf("synchronised receipts mismatch: have %v, want between [%v, %v]", rs, minReceipts, maxReceipts)
}
// Verify the state trie too for fast syncs
if tester.downloader.mode == FastSync {
index := 0
if pivot := int(tester.downloader.queue.fastSyncPivot); pivot < common {
index = pivot
} else {
index = len(tester.ownHashes) - lengths[len(lengths)-1] + int(tester.downloader.queue.fastSyncPivot)
}
if index > 0 {
if statedb, err := state.New(tester.ownHeaders[tester.ownHashes[index]].Root, tester.stateDb); statedb == nil || err != nil {
t.Fatalf("state reconstruction failed: %v", err)
}
}
}
}
// Tests that simple synchronization against a canonical chain works correctly.
// In this test common ancestor lookup should be short circuited and not require
// binary searching.
func TestCanonicalSynchronisation62(t *testing.T) { testCanonicalSynchronisation(t, 62, FullSync) }
func TestCanonicalSynchronisation63Full(t *testing.T) { testCanonicalSynchronisation(t, 63, FullSync) }
func TestCanonicalSynchronisation63Fast(t *testing.T) { testCanonicalSynchronisation(t, 63, FastSync) }
func TestCanonicalSynchronisation64Full(t *testing.T) { testCanonicalSynchronisation(t, 64, FullSync) }
func TestCanonicalSynchronisation64Fast(t *testing.T) { testCanonicalSynchronisation(t, 64, FastSync) }
func TestCanonicalSynchronisation64Light(t *testing.T) { testCanonicalSynchronisation(t, 64, LightSync) }
func testCanonicalSynchronisation(t *testing.T, protocol int, mode SyncMode) {
t.Parallel()
tester := newTester()
defer tester.terminate()
// Create a small enough block chain to download
targetBlocks := blockCacheLimit - 15
hashes, headers, blocks, receipts := tester.makeChain(targetBlocks, 0, tester.genesis, nil, false)
tester.newPeer("peer", protocol, hashes, headers, blocks, receipts)
// Synchronise with the peer and make sure all relevant data was retrieved
if err := tester.sync("peer", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
assertOwnChain(t, tester, targetBlocks+1)
}
// Tests that if a large batch of blocks are being downloaded, it is throttled
// until the cached blocks are retrieved.
func TestThrottling62(t *testing.T) { testThrottling(t, 62, FullSync) }
func TestThrottling63Full(t *testing.T) { testThrottling(t, 63, FullSync) }
func TestThrottling63Fast(t *testing.T) { testThrottling(t, 63, FastSync) }
func TestThrottling64Full(t *testing.T) { testThrottling(t, 64, FullSync) }
func TestThrottling64Fast(t *testing.T) { testThrottling(t, 64, FastSync) }
func testThrottling(t *testing.T, protocol int, mode SyncMode) {
tester := newTester()
defer tester.terminate()
// Create a long block chain to download and the tester
targetBlocks := 8 * blockCacheLimit
hashes, headers, blocks, receipts := tester.makeChain(targetBlocks, 0, tester.genesis, nil, false)
tester.newPeer("peer", protocol, hashes, headers, blocks, receipts)
// Wrap the importer to allow stepping
blocked, proceed := uint32(0), make(chan struct{})
tester.downloader.chainInsertHook = func(results []*fetchResult) {
atomic.StoreUint32(&blocked, uint32(len(results)))
<-proceed
}
// Start a synchronisation concurrently
errc := make(chan error)
go func() {
errc <- tester.sync("peer", nil, mode)
}()
// Iteratively take some blocks, always checking the retrieval count
for {
// Check the retrieval count synchronously (! reason for this ugly block)
tester.lock.RLock()
retrieved := len(tester.ownBlocks)
tester.lock.RUnlock()
if retrieved >= targetBlocks+1 {
break
}
// Wait a bit for sync to throttle itself
var cached, frozen int
for start := time.Now(); time.Since(start) < 3*time.Second; {
time.Sleep(25 * time.Millisecond)
tester.lock.Lock()
tester.downloader.queue.lock.Lock()
cached = len(tester.downloader.queue.blockDonePool)
if mode == FastSync {
if receipts := len(tester.downloader.queue.receiptDonePool); receipts < cached {
if tester.downloader.queue.resultCache[receipts].Header.Number.Uint64() < tester.downloader.queue.fastSyncPivot {
cached = receipts
}
}
}
frozen = int(atomic.LoadUint32(&blocked))
retrieved = len(tester.ownBlocks)
tester.downloader.queue.lock.Unlock()
tester.lock.Unlock()
if cached == blockCacheLimit || retrieved+cached+frozen == targetBlocks+1 {
break
}
}
// Make sure we filled up the cache, then exhaust it
time.Sleep(25 * time.Millisecond) // give it a chance to screw up
tester.lock.RLock()
retrieved = len(tester.ownBlocks)
tester.lock.RUnlock()
if cached != blockCacheLimit && retrieved+cached+frozen != targetBlocks+1 {
t.Fatalf("block count mismatch: have %v, want %v (owned %v, blocked %v, target %v)", cached, blockCacheLimit, retrieved, frozen, targetBlocks+1)
}
// Permit the blocked blocks to import
if atomic.LoadUint32(&blocked) > 0 {
atomic.StoreUint32(&blocked, uint32(0))
proceed <- struct{}{}
}
}
// Check that we haven't pulled more blocks than available
assertOwnChain(t, tester, targetBlocks+1)
if err := <-errc; err != nil {
t.Fatalf("block synchronization failed: %v", err)
}
}
// Tests that simple synchronization against a forked chain works correctly. In
// this test common ancestor lookup should *not* be short circuited, and a full
// binary search should be executed.
func TestForkedSync62(t *testing.T) { testForkedSync(t, 62, FullSync) }
func TestForkedSync63Full(t *testing.T) { testForkedSync(t, 63, FullSync) }
func TestForkedSync63Fast(t *testing.T) { testForkedSync(t, 63, FastSync) }
func TestForkedSync64Full(t *testing.T) { testForkedSync(t, 64, FullSync) }
func TestForkedSync64Fast(t *testing.T) { testForkedSync(t, 64, FastSync) }
func TestForkedSync64Light(t *testing.T) { testForkedSync(t, 64, LightSync) }
func testForkedSync(t *testing.T, protocol int, mode SyncMode) {
t.Parallel()
tester := newTester()
defer tester.terminate()
// Create a long enough forked chain
common, fork := MaxHashFetch, 2*MaxHashFetch
hashesA, hashesB, headersA, headersB, blocksA, blocksB, receiptsA, receiptsB := tester.makeChainFork(common+fork, fork, tester.genesis, nil, true)
tester.newPeer("fork A", protocol, hashesA, headersA, blocksA, receiptsA)
tester.newPeer("fork B", protocol, hashesB, headersB, blocksB, receiptsB)
// Synchronise with the peer and make sure all blocks were retrieved
if err := tester.sync("fork A", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
assertOwnChain(t, tester, common+fork+1)
// Synchronise with the second peer and make sure that fork is pulled too
if err := tester.sync("fork B", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
assertOwnForkedChain(t, tester, common+1, []int{common + fork + 1, common + fork + 1})
}
// Tests that synchronising against a much shorter but much heavyer fork works
// corrently and is not dropped.
func TestHeavyForkedSync62(t *testing.T) { testHeavyForkedSync(t, 62, FullSync) }
func TestHeavyForkedSync63Full(t *testing.T) { testHeavyForkedSync(t, 63, FullSync) }
func TestHeavyForkedSync63Fast(t *testing.T) { testHeavyForkedSync(t, 63, FastSync) }
func TestHeavyForkedSync64Full(t *testing.T) { testHeavyForkedSync(t, 64, FullSync) }
func TestHeavyForkedSync64Fast(t *testing.T) { testHeavyForkedSync(t, 64, FastSync) }
func TestHeavyForkedSync64Light(t *testing.T) { testHeavyForkedSync(t, 64, LightSync) }
func testHeavyForkedSync(t *testing.T, protocol int, mode SyncMode) {
t.Parallel()
tester := newTester()
defer tester.terminate()
// Create a long enough forked chain
common, fork := MaxHashFetch, 4*MaxHashFetch
hashesA, hashesB, headersA, headersB, blocksA, blocksB, receiptsA, receiptsB := tester.makeChainFork(common+fork, fork, tester.genesis, nil, false)
tester.newPeer("light", protocol, hashesA, headersA, blocksA, receiptsA)
tester.newPeer("heavy", protocol, hashesB[fork/2:], headersB, blocksB, receiptsB)
// Synchronise with the peer and make sure all blocks were retrieved
if err := tester.sync("light", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
assertOwnChain(t, tester, common+fork+1)
// Synchronise with the second peer and make sure that fork is pulled too
if err := tester.sync("heavy", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
assertOwnForkedChain(t, tester, common+1, []int{common + fork + 1, common + fork/2 + 1})
}
// Tests that chain forks are contained within a certain interval of the current
// chain head, ensuring that malicious peers cannot waste resources by feeding
// long dead chains.
func TestBoundedForkedSync62(t *testing.T) { testBoundedForkedSync(t, 62, FullSync) }
func TestBoundedForkedSync63Full(t *testing.T) { testBoundedForkedSync(t, 63, FullSync) }
func TestBoundedForkedSync63Fast(t *testing.T) { testBoundedForkedSync(t, 63, FastSync) }
func TestBoundedForkedSync64Full(t *testing.T) { testBoundedForkedSync(t, 64, FullSync) }
func TestBoundedForkedSync64Fast(t *testing.T) { testBoundedForkedSync(t, 64, FastSync) }
func TestBoundedForkedSync64Light(t *testing.T) { testBoundedForkedSync(t, 64, LightSync) }
func testBoundedForkedSync(t *testing.T, protocol int, mode SyncMode) {
t.Parallel()
tester := newTester()
defer tester.terminate()
// Create a long enough forked chain
common, fork := 13, int(MaxForkAncestry+17)
hashesA, hashesB, headersA, headersB, blocksA, blocksB, receiptsA, receiptsB := tester.makeChainFork(common+fork, fork, tester.genesis, nil, true)
tester.newPeer("original", protocol, hashesA, headersA, blocksA, receiptsA)
tester.newPeer("rewriter", protocol, hashesB, headersB, blocksB, receiptsB)
// Synchronise with the peer and make sure all blocks were retrieved
if err := tester.sync("original", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
assertOwnChain(t, tester, common+fork+1)
// Synchronise with the second peer and ensure that the fork is rejected to being too old
if err := tester.sync("rewriter", nil, mode); err != errInvalidAncestor {
t.Fatalf("sync failure mismatch: have %v, want %v", err, errInvalidAncestor)
}
}
// Tests that chain forks are contained within a certain interval of the current
// chain head for short but heavy forks too. These are a bit special because they
// take different ancestor lookup paths.
func TestBoundedHeavyForkedSync62(t *testing.T) { testBoundedHeavyForkedSync(t, 62, FullSync) }
func TestBoundedHeavyForkedSync63Full(t *testing.T) { testBoundedHeavyForkedSync(t, 63, FullSync) }
func TestBoundedHeavyForkedSync63Fast(t *testing.T) { testBoundedHeavyForkedSync(t, 63, FastSync) }
func TestBoundedHeavyForkedSync64Full(t *testing.T) { testBoundedHeavyForkedSync(t, 64, FullSync) }
func TestBoundedHeavyForkedSync64Fast(t *testing.T) { testBoundedHeavyForkedSync(t, 64, FastSync) }
func TestBoundedHeavyForkedSync64Light(t *testing.T) { testBoundedHeavyForkedSync(t, 64, LightSync) }
func testBoundedHeavyForkedSync(t *testing.T, protocol int, mode SyncMode) {
t.Parallel()
tester := newTester()
defer tester.terminate()
// Create a long enough forked chain
common, fork := 13, int(MaxForkAncestry+17)
hashesA, hashesB, headersA, headersB, blocksA, blocksB, receiptsA, receiptsB := tester.makeChainFork(common+fork, fork, tester.genesis, nil, false)
tester.newPeer("original", protocol, hashesA, headersA, blocksA, receiptsA)
tester.newPeer("heavy-rewriter", protocol, hashesB[MaxForkAncestry-17:], headersB, blocksB, receiptsB) // Root the fork below the ancestor limit
// Synchronise with the peer and make sure all blocks were retrieved
if err := tester.sync("original", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
assertOwnChain(t, tester, common+fork+1)
// Synchronise with the second peer and ensure that the fork is rejected to being too old
if err := tester.sync("heavy-rewriter", nil, mode); err != errInvalidAncestor {
t.Fatalf("sync failure mismatch: have %v, want %v", err, errInvalidAncestor)
}
}
// Tests that an inactive downloader will not accept incoming block headers and
// bodies.
func TestInactiveDownloader62(t *testing.T) {
t.Parallel()
tester := newTester()
defer tester.terminate()
// Check that neither block headers nor bodies are accepted
if err := tester.downloader.DeliverHeaders("bad peer", []*types.Header{}); err != errNoSyncActive {
t.Errorf("error mismatch: have %v, want %v", err, errNoSyncActive)
}
if err := tester.downloader.DeliverBodies("bad peer", [][]*types.Transaction{}, [][]*types.Header{}); err != errNoSyncActive {
t.Errorf("error mismatch: have %v, want %v", err, errNoSyncActive)
}
}
// Tests that an inactive downloader will not accept incoming block headers,
// bodies and receipts.
func TestInactiveDownloader63(t *testing.T) {
t.Parallel()
tester := newTester()
defer tester.terminate()
// Check that neither block headers nor bodies are accepted
if err := tester.downloader.DeliverHeaders("bad peer", []*types.Header{}); err != errNoSyncActive {
t.Errorf("error mismatch: have %v, want %v", err, errNoSyncActive)
}
if err := tester.downloader.DeliverBodies("bad peer", [][]*types.Transaction{}, [][]*types.Header{}); err != errNoSyncActive {
t.Errorf("error mismatch: have %v, want %v", err, errNoSyncActive)
}
if err := tester.downloader.DeliverReceipts("bad peer", [][]*types.Receipt{}); err != errNoSyncActive {
t.Errorf("error mismatch: have %v, want %v", err, errNoSyncActive)
}
}
// Tests that a canceled download wipes all previously accumulated state.
func TestCancel62(t *testing.T) { testCancel(t, 62, FullSync) }
func TestCancel63Full(t *testing.T) { testCancel(t, 63, FullSync) }
func TestCancel63Fast(t *testing.T) { testCancel(t, 63, FastSync) }
func TestCancel64Full(t *testing.T) { testCancel(t, 64, FullSync) }
func TestCancel64Fast(t *testing.T) { testCancel(t, 64, FastSync) }
func TestCancel64Light(t *testing.T) { testCancel(t, 64, LightSync) }
func testCancel(t *testing.T, protocol int, mode SyncMode) {
t.Parallel()
tester := newTester()
defer tester.terminate()
// Create a small enough block chain to download and the tester
targetBlocks := blockCacheLimit - 15
if targetBlocks >= MaxHashFetch {
targetBlocks = MaxHashFetch - 15
}
if targetBlocks >= MaxHeaderFetch {
targetBlocks = MaxHeaderFetch - 15
}
hashes, headers, blocks, receipts := tester.makeChain(targetBlocks, 0, tester.genesis, nil, false)
tester.newPeer("peer", protocol, hashes, headers, blocks, receipts)
// Make sure canceling works with a pristine downloader
tester.downloader.cancel()
if !tester.downloader.queue.Idle() {
t.Errorf("download queue not idle")
}
// Synchronise with the peer, but cancel afterwards
if err := tester.sync("peer", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
tester.downloader.cancel()
if !tester.downloader.queue.Idle() {
t.Errorf("download queue not idle")
}
}
// Tests that synchronisation from multiple peers works as intended (multi thread sanity test).
func TestMultiSynchronisation62(t *testing.T) { testMultiSynchronisation(t, 62, FullSync) }
func TestMultiSynchronisation63Full(t *testing.T) { testMultiSynchronisation(t, 63, FullSync) }
func TestMultiSynchronisation63Fast(t *testing.T) { testMultiSynchronisation(t, 63, FastSync) }
func TestMultiSynchronisation64Full(t *testing.T) { testMultiSynchronisation(t, 64, FullSync) }
func TestMultiSynchronisation64Fast(t *testing.T) { testMultiSynchronisation(t, 64, FastSync) }
func TestMultiSynchronisation64Light(t *testing.T) { testMultiSynchronisation(t, 64, LightSync) }
func testMultiSynchronisation(t *testing.T, protocol int, mode SyncMode) {
t.Parallel()
tester := newTester()
defer tester.terminate()
// Create various peers with various parts of the chain
targetPeers := 8
targetBlocks := targetPeers*blockCacheLimit - 15
hashes, headers, blocks, receipts := tester.makeChain(targetBlocks, 0, tester.genesis, nil, false)
for i := 0; i < targetPeers; i++ {
id := fmt.Sprintf("peer #%d", i)
tester.newPeer(id, protocol, hashes[i*blockCacheLimit:], headers, blocks, receipts)
}
if err := tester.sync("peer #0", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
assertOwnChain(t, tester, targetBlocks+1)
}
// Tests that synchronisations behave well in multi-version protocol environments
// and not wreak havoc on other nodes in the network.
func TestMultiProtoSynchronisation62(t *testing.T) { testMultiProtoSync(t, 62, FullSync) }
func TestMultiProtoSynchronisation63Full(t *testing.T) { testMultiProtoSync(t, 63, FullSync) }
func TestMultiProtoSynchronisation63Fast(t *testing.T) { testMultiProtoSync(t, 63, FastSync) }
func TestMultiProtoSynchronisation64Full(t *testing.T) { testMultiProtoSync(t, 64, FullSync) }
func TestMultiProtoSynchronisation64Fast(t *testing.T) { testMultiProtoSync(t, 64, FastSync) }
func TestMultiProtoSynchronisation64Light(t *testing.T) { testMultiProtoSync(t, 64, LightSync) }
func testMultiProtoSync(t *testing.T, protocol int, mode SyncMode) {
t.Parallel()
tester := newTester()
defer tester.terminate()
// Create a small enough block chain to download
targetBlocks := blockCacheLimit - 15
hashes, headers, blocks, receipts := tester.makeChain(targetBlocks, 0, tester.genesis, nil, false)
// Create peers of every type
tester.newPeer("peer 62", 62, hashes, headers, blocks, nil)
tester.newPeer("peer 63", 63, hashes, headers, blocks, receipts)
tester.newPeer("peer 64", 64, hashes, headers, blocks, receipts)
// Synchronise with the requested peer and make sure all blocks were retrieved
if err := tester.sync(fmt.Sprintf("peer %d", protocol), nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
assertOwnChain(t, tester, targetBlocks+1)
// Check that no peers have been dropped off
for _, version := range []int{62, 63, 64} {
peer := fmt.Sprintf("peer %d", version)
if _, ok := tester.peerHashes[peer]; !ok {
t.Errorf("%s dropped", peer)
}
}
}
// Tests that if a block is empty (e.g. header only), no body request should be
// made, and instead the header should be assembled into a whole block in itself.
func TestEmptyShortCircuit62(t *testing.T) { testEmptyShortCircuit(t, 62, FullSync) }
func TestEmptyShortCircuit63Full(t *testing.T) { testEmptyShortCircuit(t, 63, FullSync) }
func TestEmptyShortCircuit63Fast(t *testing.T) { testEmptyShortCircuit(t, 63, FastSync) }
func TestEmptyShortCircuit64Full(t *testing.T) { testEmptyShortCircuit(t, 64, FullSync) }
func TestEmptyShortCircuit64Fast(t *testing.T) { testEmptyShortCircuit(t, 64, FastSync) }
func TestEmptyShortCircuit64Light(t *testing.T) { testEmptyShortCircuit(t, 64, LightSync) }
func testEmptyShortCircuit(t *testing.T, protocol int, mode SyncMode) {
t.Parallel()
tester := newTester()
defer tester.terminate()
// Create a block chain to download
targetBlocks := 2*blockCacheLimit - 15
hashes, headers, blocks, receipts := tester.makeChain(targetBlocks, 0, tester.genesis, nil, false)
tester.newPeer("peer", protocol, hashes, headers, blocks, receipts)
// Instrument the downloader to signal body requests
bodiesHave, receiptsHave := int32(0), int32(0)
tester.downloader.bodyFetchHook = func(headers []*types.Header) {
atomic.AddInt32(&bodiesHave, int32(len(headers)))
}
tester.downloader.receiptFetchHook = func(headers []*types.Header) {
atomic.AddInt32(&receiptsHave, int32(len(headers)))
}
// Synchronise with the peer and make sure all blocks were retrieved
if err := tester.sync("peer", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
assertOwnChain(t, tester, targetBlocks+1)
// Validate the number of block bodies that should have been requested
bodiesNeeded, receiptsNeeded := 0, 0
for _, block := range blocks {
if mode != LightSync && block != tester.genesis && (len(block.Transactions()) > 0 || len(block.Uncles()) > 0) {
bodiesNeeded++
}
}
for hash, receipt := range receipts {
if mode == FastSync && len(receipt) > 0 && headers[hash].Number.Uint64() <= tester.downloader.queue.fastSyncPivot {
receiptsNeeded++
}
}
if int(bodiesHave) != bodiesNeeded {
t.Errorf("body retrieval count mismatch: have %v, want %v", bodiesHave, bodiesNeeded)
}
if int(receiptsHave) != receiptsNeeded {
t.Errorf("receipt retrieval count mismatch: have %v, want %v", receiptsHave, receiptsNeeded)
}
}
// Tests that headers are enqueued continuously, preventing malicious nodes from
// stalling the downloader by feeding gapped header chains.
func TestMissingHeaderAttack62(t *testing.T) { testMissingHeaderAttack(t, 62, FullSync) }
func TestMissingHeaderAttack63Full(t *testing.T) { testMissingHeaderAttack(t, 63, FullSync) }
func TestMissingHeaderAttack63Fast(t *testing.T) { testMissingHeaderAttack(t, 63, FastSync) }
func TestMissingHeaderAttack64Full(t *testing.T) { testMissingHeaderAttack(t, 64, FullSync) }
func TestMissingHeaderAttack64Fast(t *testing.T) { testMissingHeaderAttack(t, 64, FastSync) }
func TestMissingHeaderAttack64Light(t *testing.T) { testMissingHeaderAttack(t, 64, LightSync) }
func testMissingHeaderAttack(t *testing.T, protocol int, mode SyncMode) {
t.Parallel()
tester := newTester()
defer tester.terminate()
// Create a small enough block chain to download
targetBlocks := blockCacheLimit - 15
hashes, headers, blocks, receipts := tester.makeChain(targetBlocks, 0, tester.genesis, nil, false)
// Attempt a full sync with an attacker feeding gapped headers
tester.newPeer("attack", protocol, hashes, headers, blocks, receipts)
missing := targetBlocks / 2
delete(tester.peerHeaders["attack"], hashes[missing])
if err := tester.sync("attack", nil, mode); err == nil {
t.Fatalf("succeeded attacker synchronisation")
}
// Synchronise with the valid peer and make sure sync succeeds
tester.newPeer("valid", protocol, hashes, headers, blocks, receipts)
if err := tester.sync("valid", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
assertOwnChain(t, tester, targetBlocks+1)
}
// Tests that if requested headers are shifted (i.e. first is missing), the queue
// detects the invalid numbering.
func TestShiftedHeaderAttack62(t *testing.T) { testShiftedHeaderAttack(t, 62, FullSync) }
func TestShiftedHeaderAttack63Full(t *testing.T) { testShiftedHeaderAttack(t, 63, FullSync) }
func TestShiftedHeaderAttack63Fast(t *testing.T) { testShiftedHeaderAttack(t, 63, FastSync) }
func TestShiftedHeaderAttack64Full(t *testing.T) { testShiftedHeaderAttack(t, 64, FullSync) }
func TestShiftedHeaderAttack64Fast(t *testing.T) { testShiftedHeaderAttack(t, 64, FastSync) }
func TestShiftedHeaderAttack64Light(t *testing.T) { testShiftedHeaderAttack(t, 64, LightSync) }
func testShiftedHeaderAttack(t *testing.T, protocol int, mode SyncMode) {
tester := newTester()
defer tester.terminate()
// Create a small enough block chain to download
targetBlocks := blockCacheLimit - 15
hashes, headers, blocks, receipts := tester.makeChain(targetBlocks, 0, tester.genesis, nil, false)
// Attempt a full sync with an attacker feeding shifted headers
tester.newPeer("attack", protocol, hashes, headers, blocks, receipts)
delete(tester.peerHeaders["attack"], hashes[len(hashes)-2])
delete(tester.peerBlocks["attack"], hashes[len(hashes)-2])
delete(tester.peerReceipts["attack"], hashes[len(hashes)-2])
if err := tester.sync("attack", nil, mode); err == nil {
t.Fatalf("succeeded attacker synchronisation")
}
// Synchronise with the valid peer and make sure sync succeeds
tester.newPeer("valid", protocol, hashes, headers, blocks, receipts)
if err := tester.sync("valid", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
assertOwnChain(t, tester, targetBlocks+1)
}
// Tests that upon detecting an invalid header, the recent ones are rolled back
// for various failure scenarios. Afterwards a full sync is attempted to make
// sure no state was corrupted.
func TestInvalidHeaderRollback63Fast(t *testing.T) { testInvalidHeaderRollback(t, 63, FastSync) }
func TestInvalidHeaderRollback64Fast(t *testing.T) { testInvalidHeaderRollback(t, 64, FastSync) }
func TestInvalidHeaderRollback64Light(t *testing.T) { testInvalidHeaderRollback(t, 64, LightSync) }
func testInvalidHeaderRollback(t *testing.T, protocol int, mode SyncMode) {
tester := newTester()
defer tester.terminate()
// Create a small enough block chain to download
targetBlocks := 3*fsHeaderSafetyNet + fsPivotInterval + fsMinFullBlocks
hashes, headers, blocks, receipts := tester.makeChain(targetBlocks, 0, tester.genesis, nil, false)
// Attempt to sync with an attacker that feeds junk during the fast sync phase.
// This should result in the last fsHeaderSafetyNet headers being rolled back.
tester.newPeer("fast-attack", protocol, hashes, headers, blocks, receipts)
missing := fsHeaderSafetyNet + MaxHeaderFetch + 1
delete(tester.peerHeaders["fast-attack"], hashes[len(hashes)-missing])
if err := tester.sync("fast-attack", nil, mode); err == nil {
t.Fatalf("succeeded fast attacker synchronisation")
}
if head := tester.headHeader().Number.Int64(); int(head) > MaxHeaderFetch {
t.Errorf("rollback head mismatch: have %v, want at most %v", head, MaxHeaderFetch)
}
// Attempt to sync with an attacker that feeds junk during the block import phase.
// This should result in both the last fsHeaderSafetyNet number of headers being
// rolled back, and also the pivot point being reverted to a non-block status.
tester.newPeer("block-attack", protocol, hashes, headers, blocks, receipts)
missing = 3*fsHeaderSafetyNet + MaxHeaderFetch + 1
delete(tester.peerHeaders["fast-attack"], hashes[len(hashes)-missing]) // Make sure the fast-attacker doesn't fill in
delete(tester.peerHeaders["block-attack"], hashes[len(hashes)-missing])
if err := tester.sync("block-attack", nil, mode); err == nil {
t.Fatalf("succeeded block attacker synchronisation")
}
if head := tester.headHeader().Number.Int64(); int(head) > 2*fsHeaderSafetyNet+MaxHeaderFetch {
t.Errorf("rollback head mismatch: have %v, want at most %v", head, 2*fsHeaderSafetyNet+MaxHeaderFetch)
}
if mode == FastSync {
if head := tester.headBlock().NumberU64(); head != 0 {
t.Errorf("fast sync pivot block #%d not rolled back", head)
}
}
// Attempt to sync with an attacker that withholds promised blocks after the
// fast sync pivot point. This could be a trial to leave the node with a bad
// but already imported pivot block.
tester.newPeer("withhold-attack", protocol, hashes, headers, blocks, receipts)
missing = 3*fsHeaderSafetyNet + MaxHeaderFetch + 1
tester.downloader.fsPivotFails = 0
tester.downloader.syncInitHook = func(uint64, uint64) {
for i := missing; i <= len(hashes); i++ {
delete(tester.peerHeaders["withhold-attack"], hashes[len(hashes)-i])
}
tester.downloader.syncInitHook = nil
}
if err := tester.sync("withhold-attack", nil, mode); err == nil {
t.Fatalf("succeeded withholding attacker synchronisation")
}
if head := tester.headHeader().Number.Int64(); int(head) > 2*fsHeaderSafetyNet+MaxHeaderFetch {
t.Errorf("rollback head mismatch: have %v, want at most %v", head, 2*fsHeaderSafetyNet+MaxHeaderFetch)
}
if mode == FastSync {
if head := tester.headBlock().NumberU64(); head != 0 {
t.Errorf("fast sync pivot block #%d not rolled back", head)
}
}
tester.downloader.fsPivotFails = fsCriticalTrials
// Synchronise with the valid peer and make sure sync succeeds. Since the last
// rollback should also disable fast syncing for this process, verify that we
// did a fresh full sync. Note, we can't assert anything about the receipts
// since we won't purge the database of them, hence we can't use assertOwnChain.
tester.newPeer("valid", protocol, hashes, headers, blocks, receipts)
if err := tester.sync("valid", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
if hs := len(tester.ownHeaders); hs != len(headers) {
t.Fatalf("synchronised headers mismatch: have %v, want %v", hs, len(headers))
}
if mode != LightSync {
if bs := len(tester.ownBlocks); bs != len(blocks) {
t.Fatalf("synchronised blocks mismatch: have %v, want %v", bs, len(blocks))
}
}
}
// Tests that a peer advertising an high TD doesn't get to stall the downloader
// afterwards by not sending any useful hashes.
func TestHighTDStarvationAttack62(t *testing.T) { testHighTDStarvationAttack(t, 62, FullSync) }
func TestHighTDStarvationAttack63Full(t *testing.T) { testHighTDStarvationAttack(t, 63, FullSync) }
func TestHighTDStarvationAttack63Fast(t *testing.T) { testHighTDStarvationAttack(t, 63, FastSync) }
func TestHighTDStarvationAttack64Full(t *testing.T) { testHighTDStarvationAttack(t, 64, FullSync) }
func TestHighTDStarvationAttack64Fast(t *testing.T) { testHighTDStarvationAttack(t, 64, FastSync) }
func TestHighTDStarvationAttack64Light(t *testing.T) { testHighTDStarvationAttack(t, 64, LightSync) }
func testHighTDStarvationAttack(t *testing.T, protocol int, mode SyncMode) {
t.Parallel()
tester := newTester()
defer tester.terminate()
hashes, headers, blocks, receipts := tester.makeChain(0, 0, tester.genesis, nil, false)
tester.newPeer("attack", protocol, []common.Hash{hashes[0]}, headers, blocks, receipts)
if err := tester.sync("attack", big.NewInt(1000000), mode); err != errStallingPeer {
t.Fatalf("synchronisation error mismatch: have %v, want %v", err, errStallingPeer)
}
}
// Tests that misbehaving peers are disconnected, whilst behaving ones are not.
func TestBlockHeaderAttackerDropping62(t *testing.T) { testBlockHeaderAttackerDropping(t, 62) }
func TestBlockHeaderAttackerDropping63(t *testing.T) { testBlockHeaderAttackerDropping(t, 63) }
func TestBlockHeaderAttackerDropping64(t *testing.T) { testBlockHeaderAttackerDropping(t, 64) }
func testBlockHeaderAttackerDropping(t *testing.T, protocol int) {
// Define the disconnection requirement for individual hash fetch errors
tests := []struct {
result error
drop bool
}{
{nil, false}, // Sync succeeded, all is well
{errBusy, false}, // Sync is already in progress, no problem
{errUnknownPeer, false}, // Peer is unknown, was already dropped, don't double drop
{errBadPeer, true}, // Peer was deemed bad for some reason, drop it
{errStallingPeer, true}, // Peer was detected to be stalling, drop it
{errNoPeers, false}, // No peers to download from, soft race, no issue
{errTimeout, true}, // No hashes received in due time, drop the peer
{errEmptyHeaderSet, true}, // No headers were returned as a response, drop as it's a dead end
{errPeersUnavailable, true}, // Nobody had the advertised blocks, drop the advertiser
{errInvalidAncestor, true}, // Agreed upon ancestor is not acceptable, drop the chain rewriter
{errInvalidChain, true}, // Hash chain was detected as invalid, definitely drop
{errInvalidBlock, false}, // A bad peer was detected, but not the sync origin
{errInvalidBody, false}, // A bad peer was detected, but not the sync origin
{errInvalidReceipt, false}, // A bad peer was detected, but not the sync origin
{errCancelBlockFetch, false}, // Synchronisation was canceled, origin may be innocent, don't drop
{errCancelHeaderFetch, false}, // Synchronisation was canceled, origin may be innocent, don't drop
{errCancelBodyFetch, false}, // Synchronisation was canceled, origin may be innocent, don't drop
{errCancelReceiptFetch, false}, // Synchronisation was canceled, origin may be innocent, don't drop
{errCancelHeaderProcessing, false}, // Synchronisation was canceled, origin may be innocent, don't drop
{errCancelContentProcessing, false}, // Synchronisation was canceled, origin may be innocent, don't drop
}
// Run the tests and check disconnection status
tester := newTester()
defer tester.terminate()
for i, tt := range tests {
// Register a new peer and ensure it's presence
id := fmt.Sprintf("test %d", i)
if err := tester.newPeer(id, protocol, []common.Hash{tester.genesis.Hash()}, nil, nil, nil); err != nil {
t.Fatalf("test %d: failed to register new peer: %v", i, err)
}
if _, ok := tester.peerHashes[id]; !ok {
t.Fatalf("test %d: registered peer not found", i)
}
// Simulate a synchronisation and check the required result
tester.downloader.synchroniseMock = func(string, common.Hash) error { return tt.result }
tester.downloader.Synchronise(id, tester.genesis.Hash(), big.NewInt(1000), FullSync)
if _, ok := tester.peerHashes[id]; !ok != tt.drop {
t.Errorf("test %d: peer drop mismatch for %v: have %v, want %v", i, tt.result, !ok, tt.drop)
}
}
}
// Tests that synchronisation progress (origin block number, current block number
// and highest block number) is tracked and updated correctly.
func TestSyncProgress62(t *testing.T) { testSyncProgress(t, 62, FullSync) }
func TestSyncProgress63Full(t *testing.T) { testSyncProgress(t, 63, FullSync) }
func TestSyncProgress63Fast(t *testing.T) { testSyncProgress(t, 63, FastSync) }
func TestSyncProgress64Full(t *testing.T) { testSyncProgress(t, 64, FullSync) }
func TestSyncProgress64Fast(t *testing.T) { testSyncProgress(t, 64, FastSync) }
func TestSyncProgress64Light(t *testing.T) { testSyncProgress(t, 64, LightSync) }
func testSyncProgress(t *testing.T, protocol int, mode SyncMode) {
t.Parallel()
tester := newTester()
defer tester.terminate()
// Create a small enough block chain to download
targetBlocks := blockCacheLimit - 15
hashes, headers, blocks, receipts := tester.makeChain(targetBlocks, 0, tester.genesis, nil, false)
// Set a sync init hook to catch progress changes
starting := make(chan struct{})
progress := make(chan struct{})
tester.downloader.syncInitHook = func(origin, latest uint64) {
starting <- struct{}{}
<-progress
}
// Retrieve the sync progress and ensure they are zero (pristine sync)
if progress := tester.downloader.Progress(); progress.StartingBlock != 0 || progress.CurrentBlock != 0 || progress.HighestBlock != 0 {
t.Fatalf("Pristine progress mismatch: have %v/%v/%v, want %v/%v/%v", progress.StartingBlock, progress.CurrentBlock, progress.HighestBlock, 0, 0, 0)
}
// Synchronise half the blocks and check initial progress
tester.newPeer("peer-half", protocol, hashes[targetBlocks/2:], headers, blocks, receipts)
pending := new(sync.WaitGroup)
pending.Add(1)
go func() {
defer pending.Done()
if err := tester.sync("peer-half", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
}()
<-starting
if progress := tester.downloader.Progress(); progress.StartingBlock != 0 || progress.CurrentBlock != 0 || progress.HighestBlock != uint64(targetBlocks/2+1) {
t.Fatalf("Initial progress mismatch: have %v/%v/%v, want %v/%v/%v", progress.StartingBlock, progress.CurrentBlock, progress.HighestBlock, 0, 0, targetBlocks/2+1)
}
progress <- struct{}{}
pending.Wait()
// Synchronise all the blocks and check continuation progress
tester.newPeer("peer-full", protocol, hashes, headers, blocks, receipts)
pending.Add(1)
go func() {
defer pending.Done()
if err := tester.sync("peer-full", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
}()
<-starting
if progress := tester.downloader.Progress(); progress.StartingBlock != uint64(targetBlocks/2+1) || progress.CurrentBlock != uint64(targetBlocks/2+1) || progress.HighestBlock != uint64(targetBlocks) {
t.Fatalf("Completing progress mismatch: have %v/%v/%v, want %v/%v/%v", progress.StartingBlock, progress.CurrentBlock, progress.HighestBlock, targetBlocks/2+1, targetBlocks/2+1, targetBlocks)
}
progress <- struct{}{}
pending.Wait()
// Check final progress after successful sync
if progress := tester.downloader.Progress(); progress.StartingBlock != uint64(targetBlocks/2+1) || progress.CurrentBlock != uint64(targetBlocks) || progress.HighestBlock != uint64(targetBlocks) {
t.Fatalf("Final progress mismatch: have %v/%v/%v, want %v/%v/%v", progress.StartingBlock, progress.CurrentBlock, progress.HighestBlock, targetBlocks/2+1, targetBlocks, targetBlocks)
}
}
// Tests that synchronisation progress (origin block number and highest block
// number) is tracked and updated correctly in case of a fork (or manual head
// revertal).
func TestForkedSyncProgress62(t *testing.T) { testForkedSyncProgress(t, 62, FullSync) }
func TestForkedSyncProgress63Full(t *testing.T) { testForkedSyncProgress(t, 63, FullSync) }
func TestForkedSyncProgress63Fast(t *testing.T) { testForkedSyncProgress(t, 63, FastSync) }
func TestForkedSyncProgress64Full(t *testing.T) { testForkedSyncProgress(t, 64, FullSync) }
func TestForkedSyncProgress64Fast(t *testing.T) { testForkedSyncProgress(t, 64, FastSync) }
func TestForkedSyncProgress64Light(t *testing.T) { testForkedSyncProgress(t, 64, LightSync) }
func testForkedSyncProgress(t *testing.T, protocol int, mode SyncMode) {
t.Parallel()
tester := newTester()
defer tester.terminate()
// Create a forked chain to simulate origin revertal
common, fork := MaxHashFetch, 2*MaxHashFetch
hashesA, hashesB, headersA, headersB, blocksA, blocksB, receiptsA, receiptsB := tester.makeChainFork(common+fork, fork, tester.genesis, nil, true)
// Set a sync init hook to catch progress changes
starting := make(chan struct{})
progress := make(chan struct{})
tester.downloader.syncInitHook = func(origin, latest uint64) {
starting <- struct{}{}
<-progress
}
// Retrieve the sync progress and ensure they are zero (pristine sync)
if progress := tester.downloader.Progress(); progress.StartingBlock != 0 || progress.CurrentBlock != 0 || progress.HighestBlock != 0 {
t.Fatalf("Pristine progress mismatch: have %v/%v/%v, want %v/%v/%v", progress.StartingBlock, progress.CurrentBlock, progress.HighestBlock, 0, 0, 0)
}
// Synchronise with one of the forks and check progress
tester.newPeer("fork A", protocol, hashesA, headersA, blocksA, receiptsA)
pending := new(sync.WaitGroup)
pending.Add(1)
go func() {
defer pending.Done()
if err := tester.sync("fork A", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
}()
<-starting
if progress := tester.downloader.Progress(); progress.StartingBlock != 0 || progress.CurrentBlock != 0 || progress.HighestBlock != uint64(len(hashesA)-1) {
t.Fatalf("Initial progress mismatch: have %v/%v/%v, want %v/%v/%v", progress.StartingBlock, progress.CurrentBlock, progress.HighestBlock, 0, 0, len(hashesA)-1)
}
progress <- struct{}{}
pending.Wait()
// Simulate a successful sync above the fork
tester.downloader.syncStatsChainOrigin = tester.downloader.syncStatsChainHeight
// Synchronise with the second fork and check progress resets
tester.newPeer("fork B", protocol, hashesB, headersB, blocksB, receiptsB)
pending.Add(1)
go func() {
defer pending.Done()
if err := tester.sync("fork B", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
}()
<-starting
if progress := tester.downloader.Progress(); progress.StartingBlock != uint64(common) || progress.CurrentBlock != uint64(len(hashesA)-1) || progress.HighestBlock != uint64(len(hashesB)-1) {
t.Fatalf("Forking progress mismatch: have %v/%v/%v, want %v/%v/%v", progress.StartingBlock, progress.CurrentBlock, progress.HighestBlock, common, len(hashesA)-1, len(hashesB)-1)
}
progress <- struct{}{}
pending.Wait()
// Check final progress after successful sync
if progress := tester.downloader.Progress(); progress.StartingBlock != uint64(common) || progress.CurrentBlock != uint64(len(hashesB)-1) || progress.HighestBlock != uint64(len(hashesB)-1) {
t.Fatalf("Final progress mismatch: have %v/%v/%v, want %v/%v/%v", progress.StartingBlock, progress.CurrentBlock, progress.HighestBlock, common, len(hashesB)-1, len(hashesB)-1)
}
}
// Tests that if synchronisation is aborted due to some failure, then the progress
// origin is not updated in the next sync cycle, as it should be considered the
// continuation of the previous sync and not a new instance.
func TestFailedSyncProgress62(t *testing.T) { testFailedSyncProgress(t, 62, FullSync) }
func TestFailedSyncProgress63Full(t *testing.T) { testFailedSyncProgress(t, 63, FullSync) }
func TestFailedSyncProgress63Fast(t *testing.T) { testFailedSyncProgress(t, 63, FastSync) }
func TestFailedSyncProgress64Full(t *testing.T) { testFailedSyncProgress(t, 64, FullSync) }
func TestFailedSyncProgress64Fast(t *testing.T) { testFailedSyncProgress(t, 64, FastSync) }
func TestFailedSyncProgress64Light(t *testing.T) { testFailedSyncProgress(t, 64, LightSync) }
func testFailedSyncProgress(t *testing.T, protocol int, mode SyncMode) {
t.Parallel()
tester := newTester()
defer tester.terminate()
// Create a small enough block chain to download
targetBlocks := blockCacheLimit - 15
hashes, headers, blocks, receipts := tester.makeChain(targetBlocks, 0, tester.genesis, nil, false)
// Set a sync init hook to catch progress changes
starting := make(chan struct{})
progress := make(chan struct{})
tester.downloader.syncInitHook = func(origin, latest uint64) {
starting <- struct{}{}
<-progress
}
// Retrieve the sync progress and ensure they are zero (pristine sync)
if progress := tester.downloader.Progress(); progress.StartingBlock != 0 || progress.CurrentBlock != 0 || progress.HighestBlock != 0 {
t.Fatalf("Pristine progress mismatch: have %v/%v/%v, want %v/%v/%v", progress.StartingBlock, progress.CurrentBlock, progress.HighestBlock, 0, 0, 0)
}
// Attempt a full sync with a faulty peer
tester.newPeer("faulty", protocol, hashes, headers, blocks, receipts)
missing := targetBlocks / 2
delete(tester.peerHeaders["faulty"], hashes[missing])
delete(tester.peerBlocks["faulty"], hashes[missing])
delete(tester.peerReceipts["faulty"], hashes[missing])
pending := new(sync.WaitGroup)
pending.Add(1)
go func() {
defer pending.Done()
if err := tester.sync("faulty", nil, mode); err == nil {
t.Fatalf("succeeded faulty synchronisation")
}
}()
<-starting
if progress := tester.downloader.Progress(); progress.StartingBlock != 0 || progress.CurrentBlock != 0 || progress.HighestBlock != uint64(targetBlocks) {
t.Fatalf("Initial progress mismatch: have %v/%v/%v, want %v/%v/%v", progress.StartingBlock, progress.CurrentBlock, progress.HighestBlock, 0, 0, targetBlocks)
}
progress <- struct{}{}
pending.Wait()
// Synchronise with a good peer and check that the progress origin remind the same after a failure
tester.newPeer("valid", protocol, hashes, headers, blocks, receipts)
pending.Add(1)
go func() {
defer pending.Done()
if err := tester.sync("valid", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
}()
<-starting
if progress := tester.downloader.Progress(); progress.StartingBlock != 0 || progress.CurrentBlock > uint64(targetBlocks/2) || progress.HighestBlock != uint64(targetBlocks) {
t.Fatalf("Completing progress mismatch: have %v/%v/%v, want %v/0-%v/%v", progress.StartingBlock, progress.CurrentBlock, progress.HighestBlock, 0, targetBlocks/2, targetBlocks)
}
progress <- struct{}{}
pending.Wait()
// Check final progress after successful sync
if progress := tester.downloader.Progress(); progress.StartingBlock > uint64(targetBlocks/2) || progress.CurrentBlock != uint64(targetBlocks) || progress.HighestBlock != uint64(targetBlocks) {
t.Fatalf("Final progress mismatch: have %v/%v/%v, want 0-%v/%v/%v", progress.StartingBlock, progress.CurrentBlock, progress.HighestBlock, targetBlocks/2, targetBlocks, targetBlocks)
}
}
// Tests that if an attacker fakes a chain height, after the attack is detected,
// the progress height is successfully reduced at the next sync invocation.
func TestFakedSyncProgress62(t *testing.T) { testFakedSyncProgress(t, 62, FullSync) }
func TestFakedSyncProgress63Full(t *testing.T) { testFakedSyncProgress(t, 63, FullSync) }
func TestFakedSyncProgress63Fast(t *testing.T) { testFakedSyncProgress(t, 63, FastSync) }
func TestFakedSyncProgress64Full(t *testing.T) { testFakedSyncProgress(t, 64, FullSync) }
func TestFakedSyncProgress64Fast(t *testing.T) { testFakedSyncProgress(t, 64, FastSync) }
func TestFakedSyncProgress64Light(t *testing.T) { testFakedSyncProgress(t, 64, LightSync) }
func testFakedSyncProgress(t *testing.T, protocol int, mode SyncMode) {
t.Parallel()
tester := newTester()
defer tester.terminate()
// Create a small block chain
targetBlocks := blockCacheLimit - 15
hashes, headers, blocks, receipts := tester.makeChain(targetBlocks+3, 0, tester.genesis, nil, false)
// Set a sync init hook to catch progress changes
starting := make(chan struct{})
progress := make(chan struct{})
tester.downloader.syncInitHook = func(origin, latest uint64) {
starting <- struct{}{}
<-progress
}
// Retrieve the sync progress and ensure they are zero (pristine sync)
if progress := tester.downloader.Progress(); progress.StartingBlock != 0 || progress.CurrentBlock != 0 || progress.HighestBlock != 0 {
t.Fatalf("Pristine progress mismatch: have %v/%v/%v, want %v/%v/%v", progress.StartingBlock, progress.CurrentBlock, progress.HighestBlock, 0, 0, 0)
}
// Create and sync with an attacker that promises a higher chain than available
tester.newPeer("attack", protocol, hashes, headers, blocks, receipts)
for i := 1; i < 3; i++ {
delete(tester.peerHeaders["attack"], hashes[i])
delete(tester.peerBlocks["attack"], hashes[i])
delete(tester.peerReceipts["attack"], hashes[i])
}
pending := new(sync.WaitGroup)
pending.Add(1)
go func() {
defer pending.Done()
if err := tester.sync("attack", nil, mode); err == nil {
t.Fatalf("succeeded attacker synchronisation")
}
}()
<-starting
if progress := tester.downloader.Progress(); progress.StartingBlock != 0 || progress.CurrentBlock != 0 || progress.HighestBlock != uint64(targetBlocks+3) {
t.Fatalf("Initial progress mismatch: have %v/%v/%v, want %v/%v/%v", progress.StartingBlock, progress.CurrentBlock, progress.HighestBlock, 0, 0, targetBlocks+3)
}
progress <- struct{}{}
pending.Wait()
// Synchronise with a good peer and check that the progress height has been reduced to the true value
tester.newPeer("valid", protocol, hashes[3:], headers, blocks, receipts)
pending.Add(1)
go func() {
defer pending.Done()
if err := tester.sync("valid", nil, mode); err != nil {
t.Fatalf("failed to synchronise blocks: %v", err)
}
}()
<-starting
if progress := tester.downloader.Progress(); progress.StartingBlock != 0 || progress.CurrentBlock > uint64(targetBlocks) || progress.HighestBlock != uint64(targetBlocks) {
t.Fatalf("Completing progress mismatch: have %v/%v/%v, want %v/0-%v/%v", progress.StartingBlock, progress.CurrentBlock, progress.HighestBlock, 0, targetBlocks, targetBlocks)
}
progress <- struct{}{}
pending.Wait()
// Check final progress after successful sync
if progress := tester.downloader.Progress(); progress.StartingBlock > uint64(targetBlocks) || progress.CurrentBlock != uint64(targetBlocks) || progress.HighestBlock != uint64(targetBlocks) {
t.Fatalf("Final progress mismatch: have %v/%v/%v, want 0-%v/%v/%v", progress.StartingBlock, progress.CurrentBlock, progress.HighestBlock, targetBlocks, targetBlocks, targetBlocks)
}
}
// This test reproduces an issue where unexpected deliveries would
// block indefinitely if they arrived at the right time.
func TestDeliverHeadersHang62(t *testing.T) { testDeliverHeadersHang(t, 62, FullSync) }
func TestDeliverHeadersHang63Full(t *testing.T) { testDeliverHeadersHang(t, 63, FullSync) }
func TestDeliverHeadersHang63Fast(t *testing.T) { testDeliverHeadersHang(t, 63, FastSync) }
func TestDeliverHeadersHang64Full(t *testing.T) { testDeliverHeadersHang(t, 64, FullSync) }
func TestDeliverHeadersHang64Fast(t *testing.T) { testDeliverHeadersHang(t, 64, FastSync) }
func TestDeliverHeadersHang64Light(t *testing.T) { testDeliverHeadersHang(t, 64, LightSync) }
func testDeliverHeadersHang(t *testing.T, protocol int, mode SyncMode) {
t.Parallel()
master := newTester()
defer master.terminate()
hashes, headers, blocks, receipts := master.makeChain(5, 0, master.genesis, nil, false)
fakeHeads := []*types.Header{{}, {}, {}, {}}
for i := 0; i < 200; i++ {
tester := newTester()
tester.peerDb = master.peerDb
tester.newPeer("peer", protocol, hashes, headers, blocks, receipts)
// Whenever the downloader requests headers, flood it with
// a lot of unrequested header deliveries.
tester.downloader.peers.peers["peer"].getAbsHeaders = func(from uint64, count, skip int, reverse bool) error {
deliveriesDone := make(chan struct{}, 500)
for i := 0; i < cap(deliveriesDone); i++ {
peer := fmt.Sprintf("fake-peer%d", i)
go func() {
tester.downloader.DeliverHeaders(peer, fakeHeads)
deliveriesDone <- struct{}{}
}()
}
// Deliver the actual requested headers.
impl := tester.peerGetAbsHeadersFn("peer", 0)
go impl(from, count, skip, reverse)
// None of the extra deliveries should block.
timeout := time.After(15 * time.Second)
for i := 0; i < cap(deliveriesDone); i++ {
select {
case <-deliveriesDone:
case <-timeout:
panic("blocked")
}
}
return nil
}
if err := tester.sync("peer", nil, mode); err != nil {
t.Errorf("sync failed: %v", err)
}
tester.terminate()
}
}
// Tests that if fast sync aborts in the critical section, it can restart a few
// times before giving up.
func TestFastCriticalRestartsFail63(t *testing.T) { testFastCriticalRestarts(t, 63, false) }
func TestFastCriticalRestartsFail64(t *testing.T) { testFastCriticalRestarts(t, 64, false) }
func TestFastCriticalRestartsCont63(t *testing.T) { testFastCriticalRestarts(t, 63, true) }
func TestFastCriticalRestartsCont64(t *testing.T) { testFastCriticalRestarts(t, 64, true) }
func testFastCriticalRestarts(t *testing.T, protocol int, progress bool) {
tester := newTester()
defer tester.terminate()
// Create a large enough blockchin to actually fast sync on
targetBlocks := fsMinFullBlocks + 2*fsPivotInterval - 15
hashes, headers, blocks, receipts := tester.makeChain(targetBlocks, 0, tester.genesis, nil, false)
// Create a tester peer with a critical section header missing (force failures)
tester.newPeer("peer", protocol, hashes, headers, blocks, receipts)
delete(tester.peerHeaders["peer"], hashes[fsMinFullBlocks-1])
tester.downloader.dropPeer = func(id string) {} // We reuse the same "faulty" peer throughout the test
// Remove all possible pivot state roots and slow down replies (test failure resets later)
for i := 0; i < fsPivotInterval; i++ {
tester.peerMissingStates["peer"][headers[hashes[fsMinFullBlocks+i]].Root] = true
}
tester.downloader.peers.peers["peer"].getNodeData = tester.peerGetNodeDataFn("peer", 500*time.Millisecond) // Enough to reach the critical section
// Synchronise with the peer a few times and make sure they fail until the retry limit
for i := 0; i < int(fsCriticalTrials)-1; i++ {
// Attempt a sync and ensure it fails properly
if err := tester.sync("peer", nil, FastSync); err == nil {
t.Fatalf("failing fast sync succeeded: %v", err)
}
time.Sleep(150 * time.Millisecond) // Make sure no in-flight requests remain
// If it's the first failure, pivot should be locked => reenable all others to detect pivot changes
if i == 0 {
if tester.downloader.fsPivotLock == nil {
time.Sleep(400 * time.Millisecond) // Make sure the first huge timeout expires too
t.Fatalf("pivot block not locked in after critical section failure")
}
tester.lock.Lock()
tester.peerHeaders["peer"][hashes[fsMinFullBlocks-1]] = headers[hashes[fsMinFullBlocks-1]]
tester.peerMissingStates["peer"] = map[common.Hash]bool{tester.downloader.fsPivotLock.Root: true}
tester.downloader.peers.peers["peer"].getNodeData = tester.peerGetNodeDataFn("peer", 0)
tester.lock.Unlock()
}
}
// Return all nodes if we're testing fast sync progression
if progress {
tester.lock.Lock()
tester.peerMissingStates["peer"] = map[common.Hash]bool{}
tester.lock.Unlock()
if err := tester.sync("peer", nil, FastSync); err != nil {
t.Fatalf("failed to synchronise blocks in progressed fast sync: %v", err)
}
time.Sleep(150 * time.Millisecond) // Make sure no in-flight requests remain
if fails := atomic.LoadUint32(&tester.downloader.fsPivotFails); fails != 1 {
t.Fatalf("progressed pivot trial count mismatch: have %v, want %v", fails, 1)
}
assertOwnChain(t, tester, targetBlocks+1)
} else {
if err := tester.sync("peer", nil, FastSync); err == nil {
t.Fatalf("succeeded to synchronise blocks in failed fast sync")
}
time.Sleep(150 * time.Millisecond) // Make sure no in-flight requests remain
if fails := atomic.LoadUint32(&tester.downloader.fsPivotFails); fails != fsCriticalTrials {
t.Fatalf("failed pivot trial count mismatch: have %v, want %v", fails, fsCriticalTrials)
}
}
// Retry limit exhausted, downloader will switch to full sync, should succeed
if err := tester.sync("peer", nil, FastSync); err != nil {
t.Fatalf("failed to synchronise blocks in slow sync: %v", err)
}
// Note, we can't assert the chain here because the test asserter assumes sync
// completed using a single mode of operation, whereas fast-then-slow can result
// in arbitrary intermediate state that's not cleanly verifiable.
}
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