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422 lines
15 KiB
422 lines
15 KiB
package fetcher
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import (
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"encoding/binary"
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"errors"
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"math/big"
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"sync/atomic"
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"testing"
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"time"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/core/types"
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)
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var (
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knownHash = common.Hash{1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1}
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unknownHash = common.Hash{2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2}
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bannedHash = common.Hash{3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3}
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genesis = createBlock(1, common.Hash{}, knownHash)
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)
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// idCounter is used by the createHashes method the generate deterministic but unique hashes
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var idCounter = int64(2) // #1 is the genesis block
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// createHashes generates a batch of hashes rooted at a specific point in the chain.
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func createHashes(amount int, root common.Hash) (hashes []common.Hash) {
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hashes = make([]common.Hash, amount+1)
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hashes[len(hashes)-1] = root
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for i := 0; i < len(hashes)-1; i++ {
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binary.BigEndian.PutUint64(hashes[i][:8], uint64(idCounter))
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idCounter++
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}
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return
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}
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// createBlock assembles a new block at the given chain height.
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func createBlock(i int, parent, hash common.Hash) *types.Block {
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header := &types.Header{Number: big.NewInt(int64(i))}
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block := types.NewBlockWithHeader(header)
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block.HeaderHash = hash
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block.ParentHeaderHash = parent
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return block
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}
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// copyBlock makes a deep copy of a block suitable for local modifications.
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func copyBlock(block *types.Block) *types.Block {
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return createBlock(int(block.Number().Int64()), block.ParentHeaderHash, block.HeaderHash)
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}
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// createBlocksFromHashes assembles a collection of blocks, each having a correct
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// place in the given hash chain.
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func createBlocksFromHashes(hashes []common.Hash) map[common.Hash]*types.Block {
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blocks := make(map[common.Hash]*types.Block)
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for i := 0; i < len(hashes); i++ {
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parent := knownHash
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if i < len(hashes)-1 {
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parent = hashes[i+1]
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}
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blocks[hashes[i]] = createBlock(len(hashes)-i, parent, hashes[i])
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}
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return blocks
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}
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// fetcherTester is a test simulator for mocking out local block chain.
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type fetcherTester struct {
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fetcher *Fetcher
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ownHashes []common.Hash // Hash chain belonging to the tester
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ownBlocks map[common.Hash]*types.Block // Blocks belonging to the tester
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}
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// newTester creates a new fetcher test mocker.
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func newTester() *fetcherTester {
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tester := &fetcherTester{
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ownHashes: []common.Hash{knownHash},
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ownBlocks: map[common.Hash]*types.Block{knownHash: genesis},
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}
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tester.fetcher = New(tester.hasBlock, tester.importBlock, tester.chainHeight)
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tester.fetcher.Start()
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return tester
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}
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// hasBlock checks if a block is pres ent in the testers canonical chain.
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func (f *fetcherTester) hasBlock(hash common.Hash) bool {
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_, ok := f.ownBlocks[hash]
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return ok
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}
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// importBlock injects a new blocks into the simulated chain.
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func (f *fetcherTester) importBlock(peer string, block *types.Block) error {
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// Make sure the parent in known
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if _, ok := f.ownBlocks[block.ParentHash()]; !ok {
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return errors.New("unknown parent")
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}
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// Discard any new blocks if the same height already exists
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if block.NumberU64() <= f.ownBlocks[f.ownHashes[len(f.ownHashes)-1]].NumberU64() {
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return nil
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}
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// Otherwise build our current chain
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f.ownHashes = append(f.ownHashes, block.Hash())
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f.ownBlocks[block.Hash()] = block
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return nil
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}
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// chainHeight retrieves the current height (block number) of the chain.
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func (f *fetcherTester) chainHeight() uint64 {
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return f.ownBlocks[f.ownHashes[len(f.ownHashes)-1]].NumberU64()
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}
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// peerFetcher retrieves a fetcher associated with a simulated peer.
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func (f *fetcherTester) makeFetcher(blocks map[common.Hash]*types.Block) blockRequesterFn {
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// Copy all the blocks to ensure they are not tampered with
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closure := make(map[common.Hash]*types.Block)
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for hash, block := range blocks {
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closure[hash] = copyBlock(block)
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}
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// Create a function that returns blocks from the closure
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return func(hashes []common.Hash) error {
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// Gather the blocks to return
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blocks := make([]*types.Block, 0, len(hashes))
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for _, hash := range hashes {
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if block, ok := closure[hash]; ok {
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blocks = append(blocks, block)
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}
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}
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// Return on a new thread
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go f.fetcher.Filter(blocks)
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return nil
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}
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}
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// Tests that a fetcher accepts block announcements and initiates retrievals for
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// them, successfully importing into the local chain.
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func TestSequentialAnnouncements(t *testing.T) {
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// Create a chain of blocks to import
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targetBlocks := 24
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hashes := createHashes(targetBlocks, knownHash)
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blocks := createBlocksFromHashes(hashes)
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tester := newTester()
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fetcher := tester.makeFetcher(blocks)
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// Iteratively announce blocks until all are imported
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for i := len(hashes) - 1; i >= 0; i-- {
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tester.fetcher.Notify("valid", hashes[i], time.Now().Add(-arriveTimeout), fetcher)
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time.Sleep(50 * time.Millisecond)
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}
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if imported := len(tester.ownBlocks); imported != targetBlocks+1 {
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t.Fatalf("synchronised block mismatch: have %v, want %v", imported, targetBlocks+1)
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}
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}
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// Tests that if blocks are announced by multiple peers (or even the same buggy
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// peer), they will only get downloaded at most once.
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func TestConcurrentAnnouncements(t *testing.T) {
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// Create a chain of blocks to import
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targetBlocks := 24
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hashes := createHashes(targetBlocks, knownHash)
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blocks := createBlocksFromHashes(hashes)
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// Assemble a tester with a built in counter for the requests
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tester := newTester()
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fetcher := tester.makeFetcher(blocks)
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counter := uint32(0)
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wrapper := func(hashes []common.Hash) error {
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atomic.AddUint32(&counter, uint32(len(hashes)))
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return fetcher(hashes)
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}
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// Iteratively announce blocks until all are imported
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for i := len(hashes) - 1; i >= 0; i-- {
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tester.fetcher.Notify("first", hashes[i], time.Now().Add(-arriveTimeout), wrapper)
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tester.fetcher.Notify("second", hashes[i], time.Now().Add(-arriveTimeout+time.Millisecond), wrapper)
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tester.fetcher.Notify("second", hashes[i], time.Now().Add(-arriveTimeout-time.Millisecond), wrapper)
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time.Sleep(50 * time.Millisecond)
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}
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if imported := len(tester.ownBlocks); imported != targetBlocks+1 {
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t.Fatalf("synchronised block mismatch: have %v, want %v", imported, targetBlocks+1)
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}
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// Make sure no blocks were retrieved twice
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if int(counter) != targetBlocks {
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t.Fatalf("retrieval count mismatch: have %v, want %v", counter, targetBlocks)
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}
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}
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// Tests that announcements arriving while a previous is being fetched still
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// results in a valid import.
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func TestOverlappingAnnouncements(t *testing.T) {
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// Create a chain of blocks to import
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targetBlocks := 24
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hashes := createHashes(targetBlocks, knownHash)
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blocks := createBlocksFromHashes(hashes)
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tester := newTester()
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fetcher := tester.makeFetcher(blocks)
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// Iteratively announce blocks, but overlap them continuously
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delay, overlap := 50*time.Millisecond, time.Duration(5)
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for i := len(hashes) - 1; i >= 0; i-- {
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tester.fetcher.Notify("valid", hashes[i], time.Now().Add(-arriveTimeout+overlap*delay), fetcher)
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time.Sleep(delay)
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}
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time.Sleep(overlap * delay)
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if imported := len(tester.ownBlocks); imported != targetBlocks+1 {
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t.Fatalf("synchronised block mismatch: have %v, want %v", imported, targetBlocks+1)
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}
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}
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// Tests that announces already being retrieved will not be duplicated.
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func TestPendingDeduplication(t *testing.T) {
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// Create a hash and corresponding block
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hashes := createHashes(1, knownHash)
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blocks := createBlocksFromHashes(hashes)
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// Assemble a tester with a built in counter and delayed fetcher
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tester := newTester()
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fetcher := tester.makeFetcher(blocks)
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delay := 50 * time.Millisecond
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counter := uint32(0)
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wrapper := func(hashes []common.Hash) error {
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atomic.AddUint32(&counter, uint32(len(hashes)))
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// Simulate a long running fetch
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go func() {
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time.Sleep(delay)
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fetcher(hashes)
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}()
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return nil
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}
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// Announce the same block many times until it's fetched (wait for any pending ops)
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for !tester.hasBlock(hashes[0]) {
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tester.fetcher.Notify("repeater", hashes[0], time.Now().Add(-arriveTimeout), wrapper)
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time.Sleep(time.Millisecond)
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}
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time.Sleep(delay)
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// Check that all blocks were imported and none fetched twice
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if imported := len(tester.ownBlocks); imported != 2 {
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t.Fatalf("synchronised block mismatch: have %v, want %v", imported, 2)
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}
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if int(counter) != 1 {
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t.Fatalf("retrieval count mismatch: have %v, want %v", counter, 1)
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}
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}
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// Tests that announcements retrieved in a random order are cached and eventually
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// imported when all the gaps are filled in.
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func TestRandomArrivalImport(t *testing.T) {
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// Create a chain of blocks to import, and choose one to delay
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targetBlocks := 24
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hashes := createHashes(targetBlocks, knownHash)
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blocks := createBlocksFromHashes(hashes)
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skip := targetBlocks / 2
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tester := newTester()
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fetcher := tester.makeFetcher(blocks)
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// Iteratively announce blocks, skipping one entry
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for i := len(hashes) - 1; i >= 0; i-- {
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if i != skip {
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tester.fetcher.Notify("valid", hashes[i], time.Now().Add(-arriveTimeout), fetcher)
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time.Sleep(50 * time.Millisecond)
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}
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}
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// Finally announce the skipped entry and check full import
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tester.fetcher.Notify("valid", hashes[skip], time.Now().Add(-arriveTimeout), fetcher)
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time.Sleep(50 * time.Millisecond)
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if imported := len(tester.ownBlocks); imported != targetBlocks+1 {
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t.Fatalf("synchronised block mismatch: have %v, want %v", imported, targetBlocks+1)
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}
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}
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// Tests that direct block enqueues (due to block propagation vs. hash announce)
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// are correctly schedule, filling and import queue gaps.
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func TestQueueGapFill(t *testing.T) {
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// Create a chain of blocks to import, and choose one to not announce at all
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targetBlocks := 24
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hashes := createHashes(targetBlocks, knownHash)
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blocks := createBlocksFromHashes(hashes)
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skip := targetBlocks / 2
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tester := newTester()
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fetcher := tester.makeFetcher(blocks)
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// Iteratively announce blocks, skipping one entry
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for i := len(hashes) - 1; i >= 0; i-- {
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if i != skip {
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tester.fetcher.Notify("valid", hashes[i], time.Now().Add(-arriveTimeout), fetcher)
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time.Sleep(50 * time.Millisecond)
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}
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}
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// Fill the missing block directly as if propagated
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tester.fetcher.Enqueue("valid", blocks[hashes[skip]])
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time.Sleep(50 * time.Millisecond)
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if imported := len(tester.ownBlocks); imported != targetBlocks+1 {
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t.Fatalf("synchronised block mismatch: have %v, want %v", imported, targetBlocks+1)
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}
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}
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// Tests that blocks arriving from various sources (multiple propagations, hash
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// announces, etc) do not get scheduled for import multiple times.
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func TestImportDeduplication(t *testing.T) {
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// Create two blocks to import (one for duplication, the other for stalling)
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hashes := createHashes(2, knownHash)
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blocks := createBlocksFromHashes(hashes)
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// Create the tester and wrap the importer with a counter
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tester := newTester()
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fetcher := tester.makeFetcher(blocks)
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counter := uint32(0)
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tester.fetcher.importBlock = func(peer string, block *types.Block) error {
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atomic.AddUint32(&counter, 1)
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return tester.importBlock(peer, block)
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}
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// Announce the duplicating block, wait for retrieval, and also propagate directly
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tester.fetcher.Notify("valid", hashes[0], time.Now().Add(-arriveTimeout), fetcher)
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time.Sleep(50 * time.Millisecond)
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tester.fetcher.Enqueue("valid", blocks[hashes[0]])
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tester.fetcher.Enqueue("valid", blocks[hashes[0]])
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tester.fetcher.Enqueue("valid", blocks[hashes[0]])
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// Fill the missing block directly as if propagated, and check import uniqueness
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tester.fetcher.Enqueue("valid", blocks[hashes[1]])
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time.Sleep(50 * time.Millisecond)
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if imported := len(tester.ownBlocks); imported != 3 {
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t.Fatalf("synchronised block mismatch: have %v, want %v", imported, 3)
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}
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if counter != 2 {
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t.Fatalf("import invocation count mismatch: have %v, want %v", counter, 2)
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}
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}
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// Tests that blocks with numbers much lower or higher than out current head get
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// discarded no prevent wasting resources on useless blocks from faulty peers.
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func TestDistantDiscarding(t *testing.T) {
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// Create a long chain to import
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hashes := createHashes(3*maxQueueDist, knownHash)
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blocks := createBlocksFromHashes(hashes)
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head := hashes[len(hashes)/2]
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// Create a tester and simulate a head block being the middle of the above chain
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tester := newTester()
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tester.ownHashes = []common.Hash{head}
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tester.ownBlocks = map[common.Hash]*types.Block{head: blocks[head]}
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// Ensure that a block with a lower number than the threshold is discarded
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tester.fetcher.Enqueue("lower", blocks[hashes[0]])
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time.Sleep(10 * time.Millisecond)
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if !tester.fetcher.queue.Empty() {
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t.Fatalf("fetcher queued stale block")
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}
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// Ensure that a block with a higher number than the threshold is discarded
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tester.fetcher.Enqueue("higher", blocks[hashes[len(hashes)-1]])
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time.Sleep(10 * time.Millisecond)
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if !tester.fetcher.queue.Empty() {
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t.Fatalf("fetcher queued future block")
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}
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}
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// Tests that if multiple uncles (i.e. blocks at the same height) are queued for
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// importing, then they will get inserted in phases, previous heights needing to
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// complete before the next numbered blocks can begin.
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func TestCompetingImports(t *testing.T) {
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// Generate a few soft-forks for concurrent imports
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hashesA := createHashes(16, knownHash)
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hashesB := createHashes(16, knownHash)
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hashesC := createHashes(16, knownHash)
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blocksA := createBlocksFromHashes(hashesA)
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blocksB := createBlocksFromHashes(hashesB)
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blocksC := createBlocksFromHashes(hashesC)
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// Create a tester, and override the import to check number reversals
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tester := newTester()
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first := int32(1)
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height := uint64(1)
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tester.fetcher.importBlock = func(peer string, block *types.Block) error {
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// Check for any phase reordering
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if prev := atomic.LoadUint64(&height); block.NumberU64() < prev {
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t.Errorf("phase reversal: have %v, want %v", block.NumberU64(), prev)
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}
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atomic.StoreUint64(&height, block.NumberU64())
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// Sleep a bit on the first import not to race with the enqueues
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if atomic.CompareAndSwapInt32(&first, 1, 0) {
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time.Sleep(50 * time.Millisecond)
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}
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return tester.importBlock(peer, block)
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}
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// Queue up everything but with a missing link
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for i := 0; i < len(hashesA)-2; i++ {
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tester.fetcher.Enqueue("chain A", blocksA[hashesA[i]])
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tester.fetcher.Enqueue("chain B", blocksB[hashesB[i]])
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tester.fetcher.Enqueue("chain C", blocksC[hashesC[i]])
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}
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// Add the three missing links, and wait for a full import
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tester.fetcher.Enqueue("chain A", blocksA[hashesA[len(hashesA)-2]])
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tester.fetcher.Enqueue("chain B", blocksB[hashesB[len(hashesB)-2]])
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tester.fetcher.Enqueue("chain C", blocksC[hashesC[len(hashesC)-2]])
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start := time.Now()
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for len(tester.ownHashes) != len(hashesA) && time.Since(start) < time.Second {
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time.Sleep(50 * time.Millisecond)
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}
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if len(tester.ownHashes) != len(hashesA) {
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t.Fatalf("chain length mismatch: have %v, want %v", len(tester.ownHashes), len(hashesA))
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}
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}
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