bsc/eth/fetcher/tx_fetcher_test.go
buddho 9ec1223f4d
Cancun code merge v1.13.0 v1.13.11 fix ci (#29)
* remove i386 linux tests

* test: fix building of tests

* return empty logs instead of nil in receipts

* keep InitialBaseFee same with geth, so not break a ton of cases

* fix eth dir

* fix subdir of core

* fix subdir of eth

* fix cmd/geth dir

* fix ethtest by adding UpgradeStatusMsg when handshake

* fix ethclient_test.go

* fix ethclient/simulated

* fix internal

* fix graphql

* fix consensus

* fix accounts

* fix log

* fix p2p

* fix metrics

* fix tests dir

* fix golangci-lint

---------

Co-authored-by: Matus Kysel <matus.kysel@bnbchain.org>
2024-02-21 19:19:20 +08:00

2031 lines
65 KiB
Go

// Copyright 2019 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 fetcher
import (
"errors"
"math/big"
"math/rand"
"testing"
"time"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/common/mclock"
"github.com/ethereum/go-ethereum/core/txpool"
"github.com/ethereum/go-ethereum/core/types"
"github.com/ethereum/go-ethereum/params"
)
var (
// testTxs is a set of transactions to use during testing that have meaningful hashes.
testTxs = []*types.Transaction{
types.NewTransaction(5577006791947779410, common.Address{0x0f}, new(big.Int), 0, new(big.Int), nil),
types.NewTransaction(15352856648520921629, common.Address{0xbb}, new(big.Int), 0, new(big.Int), nil),
types.NewTransaction(3916589616287113937, common.Address{0x86}, new(big.Int), 0, new(big.Int), nil),
types.NewTransaction(9828766684487745566, common.Address{0xac}, new(big.Int), 0, new(big.Int), nil),
}
// testTxsHashes is the hashes of the test transactions above
testTxsHashes = []common.Hash{testTxs[0].Hash(), testTxs[1].Hash(), testTxs[2].Hash(), testTxs[3].Hash()}
)
type announce struct {
hash common.Hash
kind *byte
size *uint32
}
func typeptr(t byte) *byte { return &t }
func sizeptr(n uint32) *uint32 { return &n }
type doTxNotify struct {
peer string
hashes []common.Hash
types []byte
sizes []uint32
}
type doTxEnqueue struct {
peer string
txs []*types.Transaction
direct bool
}
type doWait struct {
time time.Duration
step bool
}
type doDrop string
type doFunc func()
type isWaitingWithMeta map[string][]announce
type isWaiting map[string][]common.Hash
type isScheduledWithMeta struct {
tracking map[string][]announce
fetching map[string][]common.Hash
dangling map[string][]common.Hash
}
type isScheduled struct {
tracking map[string][]common.Hash
fetching map[string][]common.Hash
dangling map[string][]common.Hash
}
type isUnderpriced int
// txFetcherTest represents a test scenario that can be executed by the test
// runner.
type txFetcherTest struct {
init func() *TxFetcher
steps []interface{}
}
// Tests that transaction announcements are added to a waitlist, and none
// of them are scheduled for retrieval until the wait expires.
func TestTransactionFetcherWaiting(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
nil,
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Initial announcement to get something into the waitlist
doTxNotify{peer: "A", hashes: []common.Hash{{0x01}, {0x02}}},
isWaiting(map[string][]common.Hash{
"A": {{0x01}, {0x02}},
}),
// Announce from a new peer to check that no overwrite happens
doTxNotify{peer: "B", hashes: []common.Hash{{0x03}, {0x04}}},
isWaiting(map[string][]common.Hash{
"A": {{0x01}, {0x02}},
"B": {{0x03}, {0x04}},
}),
// Announce clashing hashes but unique new peer
doTxNotify{peer: "C", hashes: []common.Hash{{0x01}, {0x04}}},
isWaiting(map[string][]common.Hash{
"A": {{0x01}, {0x02}},
"B": {{0x03}, {0x04}},
"C": {{0x01}, {0x04}},
}),
// Announce existing and clashing hashes from existing peer
doTxNotify{peer: "A", hashes: []common.Hash{{0x01}, {0x03}, {0x05}}},
isWaiting(map[string][]common.Hash{
"A": {{0x01}, {0x02}, {0x03}, {0x05}},
"B": {{0x03}, {0x04}},
"C": {{0x01}, {0x04}},
}),
isScheduled{tracking: nil, fetching: nil},
// Wait for the arrival timeout which should move all expired items
// from the wait list to the scheduler
doWait{time: txArriveTimeout, step: true},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"A": {{0x01}, {0x02}, {0x03}, {0x05}},
"B": {{0x03}, {0x04}},
"C": {{0x01}, {0x04}},
},
fetching: map[string][]common.Hash{ // Depends on deterministic test randomizer
"A": {{0x02}, {0x03}, {0x05}},
"C": {{0x01}, {0x04}},
},
},
// Queue up a non-fetchable transaction and then trigger it with a new
// peer (weird case to test 1 line in the fetcher)
doTxNotify{peer: "C", hashes: []common.Hash{{0x06}, {0x07}}},
isWaiting(map[string][]common.Hash{
"C": {{0x06}, {0x07}},
}),
doWait{time: txArriveTimeout, step: true},
isScheduled{
tracking: map[string][]common.Hash{
"A": {{0x01}, {0x02}, {0x03}, {0x05}},
"B": {{0x03}, {0x04}},
"C": {{0x01}, {0x04}, {0x06}, {0x07}},
},
fetching: map[string][]common.Hash{
"A": {{0x02}, {0x03}, {0x05}},
"C": {{0x01}, {0x04}},
},
},
doTxNotify{peer: "D", hashes: []common.Hash{{0x06}, {0x07}}},
isScheduled{
tracking: map[string][]common.Hash{
"A": {{0x01}, {0x02}, {0x03}, {0x05}},
"B": {{0x03}, {0x04}},
"C": {{0x01}, {0x04}, {0x06}, {0x07}},
"D": {{0x06}, {0x07}},
},
fetching: map[string][]common.Hash{
"A": {{0x02}, {0x03}, {0x05}},
"C": {{0x01}, {0x04}},
"D": {{0x06}, {0x07}},
},
},
},
})
}
// Tests that transaction announcements with associated metadata are added to a
// waitlist, and none of them are scheduled for retrieval until the wait expires.
//
// This test is an extended version of TestTransactionFetcherWaiting. It's mostly
// to cover the metadata checks without bloating up the basic behavioral tests
// with all the useless extra fields.
func TestTransactionFetcherWaitingWithMeta(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
nil,
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Initial announcement to get something into the waitlist
doTxNotify{peer: "A", hashes: []common.Hash{{0x01}, {0x02}}, types: []byte{types.LegacyTxType, types.LegacyTxType}, sizes: []uint32{111, 222}},
isWaitingWithMeta(map[string][]announce{
"A": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(111)},
{common.Hash{0x02}, typeptr(types.LegacyTxType), sizeptr(222)},
},
}),
// Announce from a new peer to check that no overwrite happens
doTxNotify{peer: "B", hashes: []common.Hash{{0x03}, {0x04}}, types: []byte{types.LegacyTxType, types.LegacyTxType}, sizes: []uint32{333, 444}},
isWaitingWithMeta(map[string][]announce{
"A": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(111)},
{common.Hash{0x02}, typeptr(types.LegacyTxType), sizeptr(222)},
},
"B": {
{common.Hash{0x03}, typeptr(types.LegacyTxType), sizeptr(333)},
{common.Hash{0x04}, typeptr(types.LegacyTxType), sizeptr(444)},
},
}),
// Announce clashing hashes but unique new peer
doTxNotify{peer: "C", hashes: []common.Hash{{0x01}, {0x04}}, types: []byte{types.LegacyTxType, types.LegacyTxType}, sizes: []uint32{111, 444}},
isWaitingWithMeta(map[string][]announce{
"A": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(111)},
{common.Hash{0x02}, typeptr(types.LegacyTxType), sizeptr(222)},
},
"B": {
{common.Hash{0x03}, typeptr(types.LegacyTxType), sizeptr(333)},
{common.Hash{0x04}, typeptr(types.LegacyTxType), sizeptr(444)},
},
"C": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(111)},
{common.Hash{0x04}, typeptr(types.LegacyTxType), sizeptr(444)},
},
}),
// Announce existing and clashing hashes from existing peer. Clashes
// should not overwrite previous announcements.
doTxNotify{peer: "A", hashes: []common.Hash{{0x01}, {0x03}, {0x05}}, types: []byte{types.LegacyTxType, types.LegacyTxType, types.LegacyTxType}, sizes: []uint32{999, 333, 555}},
isWaitingWithMeta(map[string][]announce{
"A": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(111)},
{common.Hash{0x02}, typeptr(types.LegacyTxType), sizeptr(222)},
{common.Hash{0x03}, typeptr(types.LegacyTxType), sizeptr(333)},
{common.Hash{0x05}, typeptr(types.LegacyTxType), sizeptr(555)},
},
"B": {
{common.Hash{0x03}, typeptr(types.LegacyTxType), sizeptr(333)},
{common.Hash{0x04}, typeptr(types.LegacyTxType), sizeptr(444)},
},
"C": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(111)},
{common.Hash{0x04}, typeptr(types.LegacyTxType), sizeptr(444)},
},
}),
// Announce clashing hashes with conflicting metadata. Somebody will
// be in the wrong, but we don't know yet who.
doTxNotify{peer: "D", hashes: []common.Hash{{0x01}, {0x02}}, types: []byte{types.LegacyTxType, types.BlobTxType}, sizes: []uint32{999, 222}},
isWaitingWithMeta(map[string][]announce{
"A": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(111)},
{common.Hash{0x02}, typeptr(types.LegacyTxType), sizeptr(222)},
{common.Hash{0x03}, typeptr(types.LegacyTxType), sizeptr(333)},
{common.Hash{0x05}, typeptr(types.LegacyTxType), sizeptr(555)},
},
"B": {
{common.Hash{0x03}, typeptr(types.LegacyTxType), sizeptr(333)},
{common.Hash{0x04}, typeptr(types.LegacyTxType), sizeptr(444)},
},
"C": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(111)},
{common.Hash{0x04}, typeptr(types.LegacyTxType), sizeptr(444)},
},
"D": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(999)},
{common.Hash{0x02}, typeptr(types.BlobTxType), sizeptr(222)},
},
}),
isScheduled{tracking: nil, fetching: nil},
// Wait for the arrival timeout which should move all expired items
// from the wait list to the scheduler
doWait{time: txArriveTimeout, step: true},
isWaiting(nil),
isScheduledWithMeta{
tracking: map[string][]announce{
"A": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(111)},
{common.Hash{0x02}, typeptr(types.LegacyTxType), sizeptr(222)},
{common.Hash{0x03}, typeptr(types.LegacyTxType), sizeptr(333)},
{common.Hash{0x05}, typeptr(types.LegacyTxType), sizeptr(555)},
},
"B": {
{common.Hash{0x03}, typeptr(types.LegacyTxType), sizeptr(333)},
{common.Hash{0x04}, typeptr(types.LegacyTxType), sizeptr(444)},
},
"C": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(111)},
{common.Hash{0x04}, typeptr(types.LegacyTxType), sizeptr(444)},
},
"D": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(999)},
{common.Hash{0x02}, typeptr(types.BlobTxType), sizeptr(222)},
},
},
fetching: map[string][]common.Hash{ // Depends on deterministic test randomizer
"A": {{0x03}, {0x05}},
"C": {{0x01}, {0x04}},
"D": {{0x02}},
},
},
// Queue up a non-fetchable transaction and then trigger it with a new
// peer (weird case to test 1 line in the fetcher)
doTxNotify{peer: "C", hashes: []common.Hash{{0x06}, {0x07}}, types: []byte{types.LegacyTxType, types.LegacyTxType}, sizes: []uint32{666, 777}},
isWaitingWithMeta(map[string][]announce{
"C": {
{common.Hash{0x06}, typeptr(types.LegacyTxType), sizeptr(666)},
{common.Hash{0x07}, typeptr(types.LegacyTxType), sizeptr(777)},
},
}),
doWait{time: txArriveTimeout, step: true},
isScheduledWithMeta{
tracking: map[string][]announce{
"A": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(111)},
{common.Hash{0x02}, typeptr(types.LegacyTxType), sizeptr(222)},
{common.Hash{0x03}, typeptr(types.LegacyTxType), sizeptr(333)},
{common.Hash{0x05}, typeptr(types.LegacyTxType), sizeptr(555)},
},
"B": {
{common.Hash{0x03}, typeptr(types.LegacyTxType), sizeptr(333)},
{common.Hash{0x04}, typeptr(types.LegacyTxType), sizeptr(444)},
},
"C": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(111)},
{common.Hash{0x04}, typeptr(types.LegacyTxType), sizeptr(444)},
{common.Hash{0x06}, typeptr(types.LegacyTxType), sizeptr(666)},
{common.Hash{0x07}, typeptr(types.LegacyTxType), sizeptr(777)},
},
"D": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(999)},
{common.Hash{0x02}, typeptr(types.BlobTxType), sizeptr(222)},
},
},
fetching: map[string][]common.Hash{
"A": {{0x03}, {0x05}},
"C": {{0x01}, {0x04}},
"D": {{0x02}},
},
},
doTxNotify{peer: "E", hashes: []common.Hash{{0x06}, {0x07}}, types: []byte{types.LegacyTxType, types.LegacyTxType}, sizes: []uint32{666, 777}},
isScheduledWithMeta{
tracking: map[string][]announce{
"A": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(111)},
{common.Hash{0x02}, typeptr(types.LegacyTxType), sizeptr(222)},
{common.Hash{0x03}, typeptr(types.LegacyTxType), sizeptr(333)},
{common.Hash{0x05}, typeptr(types.LegacyTxType), sizeptr(555)},
},
"B": {
{common.Hash{0x03}, typeptr(types.LegacyTxType), sizeptr(333)},
{common.Hash{0x04}, typeptr(types.LegacyTxType), sizeptr(444)},
},
"C": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(111)},
{common.Hash{0x04}, typeptr(types.LegacyTxType), sizeptr(444)},
{common.Hash{0x06}, typeptr(types.LegacyTxType), sizeptr(666)},
{common.Hash{0x07}, typeptr(types.LegacyTxType), sizeptr(777)},
},
"D": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(999)},
{common.Hash{0x02}, typeptr(types.BlobTxType), sizeptr(222)},
},
"E": {
{common.Hash{0x06}, typeptr(types.LegacyTxType), sizeptr(666)},
{common.Hash{0x07}, typeptr(types.LegacyTxType), sizeptr(777)},
},
},
fetching: map[string][]common.Hash{
"A": {{0x03}, {0x05}},
"C": {{0x01}, {0x04}},
"D": {{0x02}},
"E": {{0x06}, {0x07}},
},
},
},
})
}
// Tests that transaction announcements skip the waiting list if they are
// already scheduled.
func TestTransactionFetcherSkipWaiting(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
nil,
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Push an initial announcement through to the scheduled stage
doTxNotify{peer: "A", hashes: []common.Hash{{0x01}, {0x02}}},
isWaiting(map[string][]common.Hash{
"A": {{0x01}, {0x02}},
}),
isScheduled{tracking: nil, fetching: nil},
doWait{time: txArriveTimeout, step: true},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
},
fetching: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
},
},
// Announce overlaps from the same peer, ensure the new ones end up
// in stage one, and clashing ones don't get double tracked
doTxNotify{peer: "A", hashes: []common.Hash{{0x02}, {0x03}}},
isWaiting(map[string][]common.Hash{
"A": {{0x03}},
}),
isScheduled{
tracking: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
},
fetching: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
},
},
// Announce overlaps from a new peer, ensure new transactions end up
// in stage one and clashing ones get tracked for the new peer
doTxNotify{peer: "B", hashes: []common.Hash{{0x02}, {0x03}, {0x04}}},
isWaiting(map[string][]common.Hash{
"A": {{0x03}},
"B": {{0x03}, {0x04}},
}),
isScheduled{
tracking: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
"B": {{0x02}},
},
fetching: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
},
},
},
})
}
// Tests that only a single transaction request gets scheduled to a peer
// and subsequent announces block or get allotted to someone else.
func TestTransactionFetcherSingletonRequesting(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
nil,
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Push an initial announcement through to the scheduled stage
doTxNotify{peer: "A", hashes: []common.Hash{{0x01}, {0x02}}},
isWaiting(map[string][]common.Hash{
"A": {{0x01}, {0x02}},
}),
isScheduled{tracking: nil, fetching: nil},
doWait{time: txArriveTimeout, step: true},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
},
fetching: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
},
},
// Announce a new set of transactions from the same peer and ensure
// they do not start fetching since the peer is already busy
doTxNotify{peer: "A", hashes: []common.Hash{{0x03}, {0x04}}},
isWaiting(map[string][]common.Hash{
"A": {{0x03}, {0x04}},
}),
isScheduled{
tracking: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
},
fetching: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
},
},
doWait{time: txArriveTimeout, step: true},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"A": {{0x01}, {0x02}, {0x03}, {0x04}},
},
fetching: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
},
},
// Announce a duplicate set of transactions from a new peer and ensure
// uniquely new ones start downloading, even if clashing.
doTxNotify{peer: "B", hashes: []common.Hash{{0x02}, {0x03}, {0x05}, {0x06}}},
isWaiting(map[string][]common.Hash{
"B": {{0x05}, {0x06}},
}),
isScheduled{
tracking: map[string][]common.Hash{
"A": {{0x01}, {0x02}, {0x03}, {0x04}},
"B": {{0x02}, {0x03}},
},
fetching: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
"B": {{0x03}},
},
},
},
})
}
// Tests that if a transaction retrieval fails, all the transactions get
// instantly schedule back to someone else or the announcements dropped
// if no alternate source is available.
func TestTransactionFetcherFailedRescheduling(t *testing.T) {
// Create a channel to control when tx requests can fail
proceed := make(chan struct{})
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
nil,
func(origin string, hashes []common.Hash) error {
<-proceed
return errors.New("peer disconnected")
},
nil,
)
},
steps: []interface{}{
// Push an initial announcement through to the scheduled stage
doTxNotify{peer: "A", hashes: []common.Hash{{0x01}, {0x02}}},
isWaiting(map[string][]common.Hash{
"A": {{0x01}, {0x02}},
}),
isScheduled{tracking: nil, fetching: nil},
doWait{time: txArriveTimeout, step: true},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
},
fetching: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
},
},
// While the original peer is stuck in the request, push in an second
// data source.
doTxNotify{peer: "B", hashes: []common.Hash{{0x02}}},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
"B": {{0x02}},
},
fetching: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
},
},
// Wait until the original request fails and check that transactions
// are either rescheduled or dropped
doFunc(func() {
proceed <- struct{}{} // Allow peer A to return the failure
}),
doWait{time: 0, step: true},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"B": {{0x02}},
},
fetching: map[string][]common.Hash{
"B": {{0x02}},
},
},
doFunc(func() {
proceed <- struct{}{} // Allow peer B to return the failure
}),
doWait{time: 0, step: true},
isWaiting(nil),
isScheduled{nil, nil, nil},
},
})
}
// Tests that if a transaction retrieval succeeds, all alternate origins
// are cleaned up.
func TestTransactionFetcherCleanup(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
func(peer string, txs []*types.Transaction) []error {
return make([]error, len(txs))
},
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Push an initial announcement through to the scheduled stage
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}},
isWaiting(map[string][]common.Hash{
"A": {testTxsHashes[0]},
}),
isScheduled{tracking: nil, fetching: nil},
doWait{time: txArriveTimeout, step: true},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"A": {testTxsHashes[0]},
},
fetching: map[string][]common.Hash{
"A": {testTxsHashes[0]},
},
},
// Request should be delivered
doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0]}, direct: true},
isScheduled{nil, nil, nil},
},
})
}
// Tests that if a transaction retrieval succeeds, but the response is empty (no
// transactions available, then all are nuked instead of being rescheduled (yes,
// this was a bug)).
func TestTransactionFetcherCleanupEmpty(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
func(peer string, txs []*types.Transaction) []error {
return make([]error, len(txs))
},
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Push an initial announcement through to the scheduled stage
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}},
isWaiting(map[string][]common.Hash{
"A": {testTxsHashes[0]},
}),
isScheduled{tracking: nil, fetching: nil},
doWait{time: txArriveTimeout, step: true},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"A": {testTxsHashes[0]},
},
fetching: map[string][]common.Hash{
"A": {testTxsHashes[0]},
},
},
// Deliver an empty response and ensure the transaction is cleared, not rescheduled
doTxEnqueue{peer: "A", txs: []*types.Transaction{}, direct: true},
isScheduled{nil, nil, nil},
},
})
}
// Tests that non-returned transactions are either re-scheduled from a
// different peer, or self if they are after the cutoff point.
func TestTransactionFetcherMissingRescheduling(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
func(peer string, txs []*types.Transaction) []error {
return make([]error, len(txs))
},
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Push an initial announcement through to the scheduled stage
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0], testTxsHashes[1], testTxsHashes[2]}},
isWaiting(map[string][]common.Hash{
"A": {testTxsHashes[0], testTxsHashes[1], testTxsHashes[2]},
}),
isScheduled{tracking: nil, fetching: nil},
doWait{time: txArriveTimeout, step: true},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"A": {testTxsHashes[0], testTxsHashes[1], testTxsHashes[2]},
},
fetching: map[string][]common.Hash{
"A": {testTxsHashes[0], testTxsHashes[1], testTxsHashes[2]},
},
},
// Deliver the middle transaction requested, the one before which
// should be dropped and the one after re-requested.
doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0]}, direct: true}, // This depends on the deterministic random
isScheduled{
tracking: map[string][]common.Hash{
"A": {testTxsHashes[2]},
},
fetching: map[string][]common.Hash{
"A": {testTxsHashes[2]},
},
},
},
})
}
// Tests that out of two transactions, if one is missing and the last is
// delivered, the peer gets properly cleaned out from the internal state.
func TestTransactionFetcherMissingCleanup(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
func(peer string, txs []*types.Transaction) []error {
return make([]error, len(txs))
},
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Push an initial announcement through to the scheduled stage
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0], testTxsHashes[1]}},
isWaiting(map[string][]common.Hash{
"A": {testTxsHashes[0], testTxsHashes[1]},
}),
isScheduled{tracking: nil, fetching: nil},
doWait{time: txArriveTimeout, step: true},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"A": {testTxsHashes[0], testTxsHashes[1]},
},
fetching: map[string][]common.Hash{
"A": {testTxsHashes[0], testTxsHashes[1]},
},
},
// Deliver the middle transaction requested, the one before which
// should be dropped and the one after re-requested.
doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[1]}, direct: true}, // This depends on the deterministic random
isScheduled{nil, nil, nil},
},
})
}
// Tests that transaction broadcasts properly clean up announcements.
func TestTransactionFetcherBroadcasts(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
func(peer string, txs []*types.Transaction) []error {
return make([]error, len(txs))
},
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Set up three transactions to be in different stats, waiting, queued and fetching
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}},
doWait{time: txArriveTimeout, step: true},
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[1]}},
doWait{time: txArriveTimeout, step: true},
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[2]}},
isWaiting(map[string][]common.Hash{
"A": {testTxsHashes[2]},
}),
isScheduled{
tracking: map[string][]common.Hash{
"A": {testTxsHashes[0], testTxsHashes[1]},
},
fetching: map[string][]common.Hash{
"A": {testTxsHashes[0]},
},
},
// Broadcast all the transactions and ensure everything gets cleaned
// up, but the dangling request is left alone to avoid doing multiple
// concurrent requests.
doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0], testTxs[1], testTxs[2]}, direct: false},
isWaiting(nil),
isScheduled{
tracking: nil,
fetching: nil,
dangling: map[string][]common.Hash{
"A": {testTxsHashes[0]},
},
},
// Deliver the requested hashes
doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0], testTxs[1], testTxs[2]}, direct: true},
isScheduled{nil, nil, nil},
},
})
}
// Tests that the waiting list timers properly reset and reschedule.
func TestTransactionFetcherWaitTimerResets(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
nil,
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
doTxNotify{peer: "A", hashes: []common.Hash{{0x01}}},
isWaiting(map[string][]common.Hash{
"A": {{0x01}},
}),
isScheduled{nil, nil, nil},
doWait{time: txArriveTimeout / 2, step: false},
isWaiting(map[string][]common.Hash{
"A": {{0x01}},
}),
isScheduled{nil, nil, nil},
doTxNotify{peer: "A", hashes: []common.Hash{{0x02}}},
isWaiting(map[string][]common.Hash{
"A": {{0x01}, {0x02}},
}),
isScheduled{nil, nil, nil},
doWait{time: txArriveTimeout / 2, step: true},
isWaiting(map[string][]common.Hash{
"A": {{0x02}},
}),
isScheduled{
tracking: map[string][]common.Hash{
"A": {{0x01}},
},
fetching: map[string][]common.Hash{
"A": {{0x01}},
},
},
doWait{time: txArriveTimeout / 2, step: true},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
},
fetching: map[string][]common.Hash{
"A": {{0x01}},
},
},
},
})
}
// Tests that if a transaction request is not replied to, it will time
// out and be re-scheduled for someone else.
func TestTransactionFetcherTimeoutRescheduling(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
func(peer string, txs []*types.Transaction) []error {
return make([]error, len(txs))
},
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Push an initial announcement through to the scheduled stage
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}},
isWaiting(map[string][]common.Hash{
"A": {testTxsHashes[0]},
}),
isScheduled{tracking: nil, fetching: nil},
doWait{time: txArriveTimeout, step: true},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"A": {testTxsHashes[0]},
},
fetching: map[string][]common.Hash{
"A": {testTxsHashes[0]},
},
},
// Wait until the delivery times out, everything should be cleaned up
doWait{time: txFetchTimeout, step: true},
isWaiting(nil),
isScheduled{
tracking: nil,
fetching: nil,
dangling: map[string][]common.Hash{
"A": {},
},
},
// Ensure that followup announcements don't get scheduled
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[1]}},
doWait{time: txArriveTimeout, step: true},
isScheduled{
tracking: map[string][]common.Hash{
"A": {testTxsHashes[1]},
},
fetching: nil,
dangling: map[string][]common.Hash{
"A": {},
},
},
// If the dangling request arrives a bit later, do not choke
doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0]}, direct: true},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"A": {testTxsHashes[1]},
},
fetching: map[string][]common.Hash{
"A": {testTxsHashes[1]},
},
},
},
})
}
// Tests that the fetching timeout timers properly reset and reschedule.
func TestTransactionFetcherTimeoutTimerResets(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
nil,
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
doTxNotify{peer: "A", hashes: []common.Hash{{0x01}}},
doWait{time: txArriveTimeout, step: true},
doTxNotify{peer: "B", hashes: []common.Hash{{0x02}}},
doWait{time: txArriveTimeout, step: true},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"A": {{0x01}},
"B": {{0x02}},
},
fetching: map[string][]common.Hash{
"A": {{0x01}},
"B": {{0x02}},
},
},
doWait{time: txFetchTimeout - txArriveTimeout, step: true},
isScheduled{
tracking: map[string][]common.Hash{
"B": {{0x02}},
},
fetching: map[string][]common.Hash{
"B": {{0x02}},
},
dangling: map[string][]common.Hash{
"A": {},
},
},
doWait{time: txArriveTimeout, step: true},
isScheduled{
tracking: nil,
fetching: nil,
dangling: map[string][]common.Hash{
"A": {},
"B": {},
},
},
},
})
}
// Tests that if thousands of transactions are announced, only a small
// number of them will be requested at a time.
func TestTransactionFetcherRateLimiting(t *testing.T) {
// Create a slew of transactions and announce them
var hashes []common.Hash
for i := 0; i < maxTxAnnounces; i++ {
hashes = append(hashes, common.Hash{byte(i / 256), byte(i % 256)})
}
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
nil,
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Announce all the transactions, wait a bit and ensure only a small
// percentage gets requested
doTxNotify{peer: "A", hashes: hashes},
doWait{time: txArriveTimeout, step: true},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"A": hashes,
},
fetching: map[string][]common.Hash{
"A": hashes[1643 : 1643+maxTxRetrievals],
},
},
},
})
}
// Tests that if huge transactions are announced, only a small number of them will
// be requested at a time, to keep the responses below a reasonable level.
func TestTransactionFetcherBandwidthLimiting(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
nil,
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Announce mid size transactions from A to verify that multiple
// ones can be piled into a single request.
doTxNotify{peer: "A",
hashes: []common.Hash{{0x01}, {0x02}, {0x03}, {0x04}},
types: []byte{types.LegacyTxType, types.LegacyTxType, types.LegacyTxType, types.LegacyTxType},
sizes: []uint32{48 * 1024, 48 * 1024, 48 * 1024, 48 * 1024},
},
// Announce exactly on the limit transactions to see that only one
// gets requested
doTxNotify{peer: "B",
hashes: []common.Hash{{0x05}, {0x06}},
types: []byte{types.LegacyTxType, types.LegacyTxType},
sizes: []uint32{maxTxRetrievalSize, maxTxRetrievalSize},
},
// Announce oversized blob transactions to see that overflows are ok
doTxNotify{peer: "C",
hashes: []common.Hash{{0x07}, {0x08}},
types: []byte{types.BlobTxType, types.BlobTxType},
sizes: []uint32{params.MaxBlobGasPerBlock, params.MaxBlobGasPerBlock},
},
doWait{time: txArriveTimeout, step: true},
isWaiting(nil),
isScheduledWithMeta{
tracking: map[string][]announce{
"A": {
{common.Hash{0x01}, typeptr(types.LegacyTxType), sizeptr(48 * 1024)},
{common.Hash{0x02}, typeptr(types.LegacyTxType), sizeptr(48 * 1024)},
{common.Hash{0x03}, typeptr(types.LegacyTxType), sizeptr(48 * 1024)},
{common.Hash{0x04}, typeptr(types.LegacyTxType), sizeptr(48 * 1024)},
},
"B": {
{common.Hash{0x05}, typeptr(types.LegacyTxType), sizeptr(maxTxRetrievalSize)},
{common.Hash{0x06}, typeptr(types.LegacyTxType), sizeptr(maxTxRetrievalSize)},
},
"C": {
{common.Hash{0x07}, typeptr(types.BlobTxType), sizeptr(params.MaxBlobGasPerBlock)},
{common.Hash{0x08}, typeptr(types.BlobTxType), sizeptr(params.MaxBlobGasPerBlock)},
},
},
fetching: map[string][]common.Hash{
"A": {{0x02}, {0x03}, {0x04}},
"B": {{0x06}},
"C": {{0x08}},
},
},
},
})
}
// Tests that then number of transactions a peer is allowed to announce and/or
// request at the same time is hard capped.
func TestTransactionFetcherDoSProtection(t *testing.T) {
// Create a slew of transactions and to announce them
var hashesA []common.Hash
for i := 0; i < maxTxAnnounces+1; i++ {
hashesA = append(hashesA, common.Hash{0x01, byte(i / 256), byte(i % 256)})
}
var hashesB []common.Hash
for i := 0; i < maxTxAnnounces+1; i++ {
hashesB = append(hashesB, common.Hash{0x02, byte(i / 256), byte(i % 256)})
}
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
nil,
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Announce half of the transaction and wait for them to be scheduled
doTxNotify{peer: "A", hashes: hashesA[:maxTxAnnounces/2]},
doTxNotify{peer: "B", hashes: hashesB[:maxTxAnnounces/2-1]},
doWait{time: txArriveTimeout, step: true},
// Announce the second half and keep them in the wait list
doTxNotify{peer: "A", hashes: hashesA[maxTxAnnounces/2 : maxTxAnnounces]},
doTxNotify{peer: "B", hashes: hashesB[maxTxAnnounces/2-1 : maxTxAnnounces-1]},
// Ensure the hashes are split half and half
isWaiting(map[string][]common.Hash{
"A": hashesA[maxTxAnnounces/2 : maxTxAnnounces],
"B": hashesB[maxTxAnnounces/2-1 : maxTxAnnounces-1],
}),
isScheduled{
tracking: map[string][]common.Hash{
"A": hashesA[:maxTxAnnounces/2],
"B": hashesB[:maxTxAnnounces/2-1],
},
fetching: map[string][]common.Hash{
"A": hashesA[1643 : 1643+maxTxRetrievals],
"B": append(append([]common.Hash{}, hashesB[maxTxAnnounces/2-3:maxTxAnnounces/2-1]...), hashesB[:maxTxRetrievals-2]...),
},
},
// Ensure that adding even one more hash results in dropping the hash
doTxNotify{peer: "A", hashes: []common.Hash{hashesA[maxTxAnnounces]}},
doTxNotify{peer: "B", hashes: hashesB[maxTxAnnounces-1 : maxTxAnnounces+1]},
isWaiting(map[string][]common.Hash{
"A": hashesA[maxTxAnnounces/2 : maxTxAnnounces],
"B": hashesB[maxTxAnnounces/2-1 : maxTxAnnounces],
}),
isScheduled{
tracking: map[string][]common.Hash{
"A": hashesA[:maxTxAnnounces/2],
"B": hashesB[:maxTxAnnounces/2-1],
},
fetching: map[string][]common.Hash{
"A": hashesA[1643 : 1643+maxTxRetrievals],
"B": append(append([]common.Hash{}, hashesB[maxTxAnnounces/2-3:maxTxAnnounces/2-1]...), hashesB[:maxTxRetrievals-2]...),
},
},
},
})
}
// Tests that underpriced transactions don't get rescheduled after being rejected.
func TestTransactionFetcherUnderpricedDedup(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
func(peer string, txs []*types.Transaction) []error {
errs := make([]error, len(txs))
for i := 0; i < len(errs); i++ {
if i%2 == 0 {
errs[i] = txpool.ErrUnderpriced
} else {
errs[i] = txpool.ErrReplaceUnderpriced
}
}
return errs
},
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Deliver a transaction through the fetcher, but reject as underpriced
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0], testTxsHashes[1]}},
doWait{time: txArriveTimeout, step: true},
doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0], testTxs[1]}, direct: true},
isScheduled{nil, nil, nil},
// Try to announce the transaction again, ensure it's not scheduled back
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0], testTxsHashes[1], testTxsHashes[2]}}, // [2] is needed to force a step in the fetcher
isWaiting(map[string][]common.Hash{
"A": {testTxsHashes[2]},
}),
isScheduled{nil, nil, nil},
},
})
}
// Tests that underpriced transactions don't get rescheduled after being rejected,
// but at the same time there's a hard cap on the number of transactions that are
// tracked.
func TestTransactionFetcherUnderpricedDoSProtection(t *testing.T) {
// Temporarily disable fetch timeouts as they massively mess up the simulated clock
defer func(timeout time.Duration) { txFetchTimeout = timeout }(txFetchTimeout)
txFetchTimeout = 24 * time.Hour
// Create a slew of transactions to max out the underpriced set
var txs []*types.Transaction
for i := 0; i < maxTxUnderpricedSetSize+1; i++ {
txs = append(txs, types.NewTransaction(rand.Uint64(), common.Address{byte(rand.Intn(256))}, new(big.Int), 0, new(big.Int), nil))
}
hashes := make([]common.Hash, len(txs))
for i, tx := range txs {
hashes[i] = tx.Hash()
}
// Generate a set of steps to announce and deliver the entire set of transactions
var steps []interface{}
for i := 0; i < maxTxUnderpricedSetSize/maxTxRetrievals; i++ {
steps = append(steps, doTxNotify{peer: "A", hashes: hashes[i*maxTxRetrievals : (i+1)*maxTxRetrievals]})
steps = append(steps, isWaiting(map[string][]common.Hash{
"A": hashes[i*maxTxRetrievals : (i+1)*maxTxRetrievals],
}))
steps = append(steps, doWait{time: txArriveTimeout, step: true})
steps = append(steps, isScheduled{
tracking: map[string][]common.Hash{
"A": hashes[i*maxTxRetrievals : (i+1)*maxTxRetrievals],
},
fetching: map[string][]common.Hash{
"A": hashes[i*maxTxRetrievals : (i+1)*maxTxRetrievals],
},
})
steps = append(steps, doTxEnqueue{peer: "A", txs: txs[i*maxTxRetrievals : (i+1)*maxTxRetrievals], direct: true})
steps = append(steps, isWaiting(nil))
steps = append(steps, isScheduled{nil, nil, nil})
steps = append(steps, isUnderpriced((i+1)*maxTxRetrievals))
}
testTransactionFetcher(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
func(peer string, txs []*types.Transaction) []error {
errs := make([]error, len(txs))
for i := 0; i < len(errs); i++ {
errs[i] = txpool.ErrUnderpriced
}
return errs
},
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: append(steps, []interface{}{
// The preparation of the test has already been done in `steps`, add the last check
doTxNotify{peer: "A", hashes: []common.Hash{hashes[maxTxUnderpricedSetSize]}},
doWait{time: txArriveTimeout, step: true},
doTxEnqueue{peer: "A", txs: []*types.Transaction{txs[maxTxUnderpricedSetSize]}, direct: true},
isUnderpriced(maxTxUnderpricedSetSize),
}...),
})
}
// Tests that unexpected deliveries don't corrupt the internal state.
func TestTransactionFetcherOutOfBoundDeliveries(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
func(peer string, txs []*types.Transaction) []error {
return make([]error, len(txs))
},
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Deliver something out of the blue
isWaiting(nil),
isScheduled{nil, nil, nil},
doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0]}, direct: false},
isWaiting(nil),
isScheduled{nil, nil, nil},
// Set up a few hashes into various stages
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}},
doWait{time: txArriveTimeout, step: true},
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[1]}},
doWait{time: txArriveTimeout, step: true},
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[2]}},
isWaiting(map[string][]common.Hash{
"A": {testTxsHashes[2]},
}),
isScheduled{
tracking: map[string][]common.Hash{
"A": {testTxsHashes[0], testTxsHashes[1]},
},
fetching: map[string][]common.Hash{
"A": {testTxsHashes[0]},
},
},
// Deliver everything and more out of the blue
doTxEnqueue{peer: "B", txs: []*types.Transaction{testTxs[0], testTxs[1], testTxs[2], testTxs[3]}, direct: true},
isWaiting(nil),
isScheduled{
tracking: nil,
fetching: nil,
dangling: map[string][]common.Hash{
"A": {testTxsHashes[0]},
},
},
},
})
}
// Tests that dropping a peer cleans out all internal data structures in all the
// live or dangling stages.
func TestTransactionFetcherDrop(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
func(peer string, txs []*types.Transaction) []error {
return make([]error, len(txs))
},
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Set up a few hashes into various stages
doTxNotify{peer: "A", hashes: []common.Hash{{0x01}}},
doWait{time: txArriveTimeout, step: true},
doTxNotify{peer: "A", hashes: []common.Hash{{0x02}}},
doWait{time: txArriveTimeout, step: true},
doTxNotify{peer: "A", hashes: []common.Hash{{0x03}}},
isWaiting(map[string][]common.Hash{
"A": {{0x03}},
}),
isScheduled{
tracking: map[string][]common.Hash{
"A": {{0x01}, {0x02}},
},
fetching: map[string][]common.Hash{
"A": {{0x01}},
},
},
// Drop the peer and ensure everything's cleaned out
doDrop("A"),
isWaiting(nil),
isScheduled{nil, nil, nil},
// Push the node into a dangling (timeout) state
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}},
doWait{time: txArriveTimeout, step: true},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"A": {testTxsHashes[0]},
},
fetching: map[string][]common.Hash{
"A": {testTxsHashes[0]},
},
},
doWait{time: txFetchTimeout, step: true},
isWaiting(nil),
isScheduled{
tracking: nil,
fetching: nil,
dangling: map[string][]common.Hash{
"A": {},
},
},
// Drop the peer and ensure everything's cleaned out
doDrop("A"),
isWaiting(nil),
isScheduled{nil, nil, nil},
},
})
}
// Tests that dropping a peer instantly reschedules failed announcements to any
// available peer.
func TestTransactionFetcherDropRescheduling(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
func(peer string, txs []*types.Transaction) []error {
return make([]error, len(txs))
},
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Set up a few hashes into various stages
doTxNotify{peer: "A", hashes: []common.Hash{{0x01}}},
doWait{time: txArriveTimeout, step: true},
doTxNotify{peer: "B", hashes: []common.Hash{{0x01}}},
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"A": {{0x01}},
"B": {{0x01}},
},
fetching: map[string][]common.Hash{
"A": {{0x01}},
},
},
// Drop the peer and ensure everything's cleaned out
doDrop("A"),
isWaiting(nil),
isScheduled{
tracking: map[string][]common.Hash{
"B": {{0x01}},
},
fetching: map[string][]common.Hash{
"B": {{0x01}},
},
},
},
})
}
// Tests that announced transactions with the wrong transaction type or size will
// result in a dropped peer.
func TestInvalidAnnounceMetadata(t *testing.T) {
drop := make(chan string, 2)
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
func(peer string, txs []*types.Transaction) []error {
return make([]error, len(txs))
},
func(string, []common.Hash) error { return nil },
func(peer string) { drop <- peer },
)
},
steps: []interface{}{
// Initial announcement to get something into the waitlist
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0], testTxsHashes[1]}, types: []byte{testTxs[0].Type(), testTxs[1].Type()}, sizes: []uint32{uint32(testTxs[0].Size()), uint32(testTxs[1].Size())}},
isWaitingWithMeta(map[string][]announce{
"A": {
{testTxsHashes[0], typeptr(testTxs[0].Type()), sizeptr(uint32(testTxs[0].Size()))},
{testTxsHashes[1], typeptr(testTxs[1].Type()), sizeptr(uint32(testTxs[1].Size()))},
},
}),
// Announce from new peers conflicting transactions
doTxNotify{peer: "B", hashes: []common.Hash{testTxsHashes[0]}, types: []byte{testTxs[0].Type()}, sizes: []uint32{1024 + uint32(testTxs[0].Size())}},
doTxNotify{peer: "C", hashes: []common.Hash{testTxsHashes[1]}, types: []byte{1 + testTxs[1].Type()}, sizes: []uint32{uint32(testTxs[1].Size())}},
isWaitingWithMeta(map[string][]announce{
"A": {
{testTxsHashes[0], typeptr(testTxs[0].Type()), sizeptr(uint32(testTxs[0].Size()))},
{testTxsHashes[1], typeptr(testTxs[1].Type()), sizeptr(uint32(testTxs[1].Size()))},
},
"B": {
{testTxsHashes[0], typeptr(testTxs[0].Type()), sizeptr(1024 + uint32(testTxs[0].Size()))},
},
"C": {
{testTxsHashes[1], typeptr(1 + testTxs[1].Type()), sizeptr(uint32(testTxs[1].Size()))},
},
}),
// Schedule all the transactions for retrieval
doWait{time: txArriveTimeout, step: true},
isWaitingWithMeta(nil),
isScheduledWithMeta{
tracking: map[string][]announce{
"A": {
{testTxsHashes[0], typeptr(testTxs[0].Type()), sizeptr(uint32(testTxs[0].Size()))},
{testTxsHashes[1], typeptr(testTxs[1].Type()), sizeptr(uint32(testTxs[1].Size()))},
},
"B": {
{testTxsHashes[0], typeptr(testTxs[0].Type()), sizeptr(1024 + uint32(testTxs[0].Size()))},
},
"C": {
{testTxsHashes[1], typeptr(1 + testTxs[1].Type()), sizeptr(uint32(testTxs[1].Size()))},
},
},
fetching: map[string][]common.Hash{
"A": {testTxsHashes[0]},
"C": {testTxsHashes[1]},
},
},
// Deliver the transactions and wait for B to be dropped
doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0], testTxs[1]}},
doFunc(func() { <-drop }),
doFunc(func() { <-drop }),
},
})
}
// This test reproduces a crash caught by the fuzzer. The root cause was a
// dangling transaction timing out and clashing on re-add with a concurrently
// announced one.
func TestTransactionFetcherFuzzCrash01(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
func(peer string, txs []*types.Transaction) []error {
return make([]error, len(txs))
},
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Get a transaction into fetching mode and make it dangling with a broadcast
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}},
doWait{time: txArriveTimeout, step: true},
doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0]}},
// Notify the dangling transaction once more and crash via a timeout
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}},
doWait{time: txFetchTimeout, step: true},
},
})
}
// This test reproduces a crash caught by the fuzzer. The root cause was a
// dangling transaction getting peer-dropped and clashing on re-add with a
// concurrently announced one.
func TestTransactionFetcherFuzzCrash02(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
func(peer string, txs []*types.Transaction) []error {
return make([]error, len(txs))
},
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Get a transaction into fetching mode and make it dangling with a broadcast
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}},
doWait{time: txArriveTimeout, step: true},
doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0]}},
// Notify the dangling transaction once more, re-fetch, and crash via a drop and timeout
doTxNotify{peer: "B", hashes: []common.Hash{testTxsHashes[0]}},
doWait{time: txArriveTimeout, step: true},
doDrop("A"),
doWait{time: txFetchTimeout, step: true},
},
})
}
// This test reproduces a crash caught by the fuzzer. The root cause was a
// dangling transaction getting rescheduled via a partial delivery, clashing
// with a concurrent notify.
func TestTransactionFetcherFuzzCrash03(t *testing.T) {
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
func(peer string, txs []*types.Transaction) []error {
return make([]error, len(txs))
},
func(string, []common.Hash) error { return nil },
nil,
)
},
steps: []interface{}{
// Get a transaction into fetching mode and make it dangling with a broadcast
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0], testTxsHashes[1]}},
doWait{time: txFetchTimeout, step: true},
doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0], testTxs[1]}},
// Notify the dangling transaction once more, partially deliver, clash&crash with a timeout
doTxNotify{peer: "B", hashes: []common.Hash{testTxsHashes[0]}},
doWait{time: txArriveTimeout, step: true},
doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[1]}, direct: true},
doWait{time: txFetchTimeout, step: true},
},
})
}
// This test reproduces a crash caught by the fuzzer. The root cause was a
// dangling transaction getting rescheduled via a disconnect, clashing with
// a concurrent notify.
func TestTransactionFetcherFuzzCrash04(t *testing.T) {
// Create a channel to control when tx requests can fail
proceed := make(chan struct{})
testTransactionFetcherParallel(t, txFetcherTest{
init: func() *TxFetcher {
return NewTxFetcher(
func(common.Hash) bool { return false },
func(peer string, txs []*types.Transaction) []error {
return make([]error, len(txs))
},
func(string, []common.Hash) error {
<-proceed
return errors.New("peer disconnected")
},
nil,
)
},
steps: []interface{}{
// Get a transaction into fetching mode and make it dangling with a broadcast
doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}},
doWait{time: txArriveTimeout, step: true},
doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0]}},
// Notify the dangling transaction once more, re-fetch, and crash via an in-flight disconnect
doTxNotify{peer: "B", hashes: []common.Hash{testTxsHashes[0]}},
doWait{time: txArriveTimeout, step: true},
doFunc(func() {
proceed <- struct{}{} // Allow peer A to return the failure
}),
doWait{time: 0, step: true},
doWait{time: txFetchTimeout, step: true},
},
})
}
func testTransactionFetcherParallel(t *testing.T, tt txFetcherTest) {
t.Parallel()
testTransactionFetcher(t, tt)
}
func testTransactionFetcher(t *testing.T, tt txFetcherTest) {
// Create a fetcher and hook into it's simulated fields
clock := new(mclock.Simulated)
wait := make(chan struct{})
fetcher := tt.init()
fetcher.clock = clock
fetcher.step = wait
fetcher.rand = rand.New(rand.NewSource(0x3a29))
fetcher.Start()
defer fetcher.Stop()
defer func() { // drain the wait chan on exit
for {
select {
case <-wait:
default:
return
}
}
}()
// Crunch through all the test steps and execute them
for i, step := range tt.steps {
// Auto-expand certain steps to ones with metadata
switch old := step.(type) {
case isWaiting:
new := make(isWaitingWithMeta)
for peer, hashes := range old {
for _, hash := range hashes {
new[peer] = append(new[peer], announce{hash, nil, nil})
}
}
step = new
case isScheduled:
new := isScheduledWithMeta{
tracking: make(map[string][]announce),
fetching: old.fetching,
dangling: old.dangling,
}
for peer, hashes := range old.tracking {
for _, hash := range hashes {
new.tracking[peer] = append(new.tracking[peer], announce{hash, nil, nil})
}
}
step = new
}
// Process the original or expanded steps
switch step := step.(type) {
case doTxNotify:
if err := fetcher.Notify(step.peer, step.types, step.sizes, step.hashes); err != nil {
t.Errorf("step %d: %v", i, err)
}
<-wait // Fetcher needs to process this, wait until it's done
select {
case <-wait:
panic("wtf")
case <-time.After(time.Millisecond):
}
case doTxEnqueue:
if err := fetcher.Enqueue(step.peer, step.txs, step.direct); err != nil {
t.Errorf("step %d: %v", i, err)
}
<-wait // Fetcher needs to process this, wait until it's done
case doWait:
clock.Run(step.time)
if step.step {
<-wait // Fetcher supposed to do something, wait until it's done
}
case doDrop:
if err := fetcher.Drop(string(step)); err != nil {
t.Errorf("step %d: %v", i, err)
}
<-wait // Fetcher needs to process this, wait until it's done
case doFunc:
step()
case isWaitingWithMeta:
// We need to check that the waiting list (stage 1) internals
// match with the expected set. Check the peer->hash mappings
// first.
for peer, announces := range step {
waiting := fetcher.waitslots[peer]
if waiting == nil {
t.Errorf("step %d: peer %s missing from waitslots", i, peer)
continue
}
for _, ann := range announces {
if meta, ok := waiting[ann.hash]; !ok {
t.Errorf("step %d, peer %s: hash %x missing from waitslots", i, peer, ann.hash)
} else {
if (meta == nil && (ann.kind != nil || ann.size != nil)) ||
(meta != nil && (ann.kind == nil || ann.size == nil)) ||
(meta != nil && (meta.kind != *ann.kind || meta.size != *ann.size)) {
t.Errorf("step %d, peer %s, hash %x: waitslot metadata mismatch: want %v, have %v/%v", i, peer, ann.hash, meta, *ann.kind, *ann.size)
}
}
}
for hash, meta := range waiting {
ann := announce{hash: hash}
if meta != nil {
ann.kind, ann.size = &meta.kind, &meta.size
}
if !containsAnnounce(announces, ann) {
t.Errorf("step %d, peer %s: announce %v extra in waitslots", i, peer, ann)
}
}
}
for peer := range fetcher.waitslots {
if _, ok := step[peer]; !ok {
t.Errorf("step %d: peer %s extra in waitslots", i, peer)
}
}
// Peer->hash sets correct, check the hash->peer and timeout sets
for peer, announces := range step {
for _, ann := range announces {
if _, ok := fetcher.waitlist[ann.hash][peer]; !ok {
t.Errorf("step %d, hash %x: peer %s missing from waitlist", i, ann.hash, peer)
}
if _, ok := fetcher.waittime[ann.hash]; !ok {
t.Errorf("step %d: hash %x missing from waittime", i, ann.hash)
}
}
}
for hash, peers := range fetcher.waitlist {
if len(peers) == 0 {
t.Errorf("step %d, hash %x: empty peerset in waitlist", i, hash)
}
for peer := range peers {
if !containsHashInAnnounces(step[peer], hash) {
t.Errorf("step %d, hash %x: peer %s extra in waitlist", i, hash, peer)
}
}
}
for hash := range fetcher.waittime {
var found bool
for _, announces := range step {
if containsHashInAnnounces(announces, hash) {
found = true
break
}
}
if !found {
t.Errorf("step %d,: hash %x extra in waittime", i, hash)
}
}
case isScheduledWithMeta:
// Check that all scheduled announces are accounted for and no
// extra ones are present.
for peer, announces := range step.tracking {
scheduled := fetcher.announces[peer]
if scheduled == nil {
t.Errorf("step %d: peer %s missing from announces", i, peer)
continue
}
for _, ann := range announces {
if meta, ok := scheduled[ann.hash]; !ok {
t.Errorf("step %d, peer %s: hash %x missing from announces", i, peer, ann.hash)
} else {
if (meta == nil && (ann.kind != nil || ann.size != nil)) ||
(meta != nil && (ann.kind == nil || ann.size == nil)) ||
(meta != nil && (meta.kind != *ann.kind || meta.size != *ann.size)) {
t.Errorf("step %d, peer %s, hash %x: announce metadata mismatch: want %v, have %v/%v", i, peer, ann.hash, meta, *ann.kind, *ann.size)
}
}
}
for hash, meta := range scheduled {
ann := announce{hash: hash}
if meta != nil {
ann.kind, ann.size = &meta.kind, &meta.size
}
if !containsAnnounce(announces, ann) {
t.Errorf("step %d, peer %s: announce %x extra in announces", i, peer, hash)
}
}
}
for peer := range fetcher.announces {
if _, ok := step.tracking[peer]; !ok {
t.Errorf("step %d: peer %s extra in announces", i, peer)
}
}
// Check that all announces required to be fetching are in the
// appropriate sets
for peer, hashes := range step.fetching {
request := fetcher.requests[peer]
if request == nil {
t.Errorf("step %d: peer %s missing from requests", i, peer)
continue
}
for _, hash := range hashes {
if !containsHash(request.hashes, hash) {
t.Errorf("step %d, peer %s: hash %x missing from requests", i, peer, hash)
}
}
for _, hash := range request.hashes {
if !containsHash(hashes, hash) {
t.Errorf("step %d, peer %s: hash %x extra in requests", i, peer, hash)
}
}
}
for peer := range fetcher.requests {
if _, ok := step.fetching[peer]; !ok {
if _, ok := step.dangling[peer]; !ok {
t.Errorf("step %d: peer %s extra in requests", i, peer)
}
}
}
for peer, hashes := range step.fetching {
for _, hash := range hashes {
if _, ok := fetcher.fetching[hash]; !ok {
t.Errorf("step %d, peer %s: hash %x missing from fetching", i, peer, hash)
}
}
}
for hash := range fetcher.fetching {
var found bool
for _, req := range fetcher.requests {
if containsHash(req.hashes, hash) {
found = true
break
}
}
if !found {
t.Errorf("step %d: hash %x extra in fetching", i, hash)
}
}
for _, hashes := range step.fetching {
for _, hash := range hashes {
alternates := fetcher.alternates[hash]
if alternates == nil {
t.Errorf("step %d: hash %x missing from alternates", i, hash)
continue
}
for peer := range alternates {
if _, ok := fetcher.announces[peer]; !ok {
t.Errorf("step %d: peer %s extra in alternates", i, peer)
continue
}
if _, ok := fetcher.announces[peer][hash]; !ok {
t.Errorf("step %d, peer %s: hash %x extra in alternates", i, hash, peer)
continue
}
}
for p := range fetcher.announced[hash] {
if _, ok := alternates[p]; !ok {
t.Errorf("step %d, hash %x: peer %s missing from alternates", i, hash, p)
continue
}
}
}
}
for peer, hashes := range step.dangling {
request := fetcher.requests[peer]
if request == nil {
t.Errorf("step %d: peer %s missing from requests", i, peer)
continue
}
for _, hash := range hashes {
if !containsHash(request.hashes, hash) {
t.Errorf("step %d, peer %s: hash %x missing from requests", i, peer, hash)
}
}
for _, hash := range request.hashes {
if !containsHash(hashes, hash) {
t.Errorf("step %d, peer %s: hash %x extra in requests", i, peer, hash)
}
}
}
// Check that all transaction announces that are scheduled for
// retrieval but not actively being downloaded are tracked only
// in the stage 2 `announced` map.
var queued []common.Hash
for _, announces := range step.tracking {
for _, ann := range announces {
var found bool
for _, hs := range step.fetching {
if containsHash(hs, ann.hash) {
found = true
break
}
}
if !found {
queued = append(queued, ann.hash)
}
}
}
for _, hash := range queued {
if _, ok := fetcher.announced[hash]; !ok {
t.Errorf("step %d: hash %x missing from announced", i, hash)
}
}
for hash := range fetcher.announced {
if !containsHash(queued, hash) {
t.Errorf("step %d: hash %x extra in announced", i, hash)
}
}
case isUnderpriced:
if fetcher.underpriced.Len() != int(step) {
t.Errorf("step %d: underpriced set size mismatch: have %d, want %d", i, fetcher.underpriced.Len(), step)
}
default:
t.Fatalf("step %d: unknown step type %T", i, step)
}
// After every step, cross validate the internal uniqueness invariants
// between stage one and stage two.
for hash := range fetcher.waittime {
if _, ok := fetcher.announced[hash]; ok {
t.Errorf("step %d: hash %s present in both stage 1 and 2", i, hash)
}
}
}
}
// containsAnnounce returns whether an announcement is contained within a slice
// of announcements.
func containsAnnounce(slice []announce, ann announce) bool {
for _, have := range slice {
if have.hash == ann.hash {
if have.kind == nil || ann.kind == nil {
if have.kind != ann.kind {
return false
}
} else if *have.kind != *ann.kind {
return false
}
if have.size == nil || ann.size == nil {
if have.size != ann.size {
return false
}
} else if *have.size != *ann.size {
return false
}
return true
}
}
return false
}
// containsHashInAnnounces returns whether a hash is contained within a slice
// of announcements.
func containsHashInAnnounces(slice []announce, hash common.Hash) bool {
for _, have := range slice {
if have.hash == hash {
return true
}
}
return false
}
// containsHash returns whether a hash is contained within a hash slice.
func containsHash(slice []common.Hash, hash common.Hash) bool {
for _, have := range slice {
if have == hash {
return true
}
}
return false
}
// Tests that a transaction is forgotten after the timeout.
func TestTransactionForgotten(t *testing.T) {
fetcher := NewTxFetcher(
func(common.Hash) bool { return false },
func(peer string, txs []*types.Transaction) []error {
errs := make([]error, len(txs))
for i := 0; i < len(errs); i++ {
errs[i] = txpool.ErrUnderpriced
}
return errs
},
func(string, []common.Hash) error { return nil },
func(string) {},
)
fetcher.Start()
defer fetcher.Stop()
// Create one TX which is 5 minutes old, and one which is recent
tx1 := types.NewTx(&types.LegacyTx{Nonce: 0})
tx1.SetTime(time.Now().Add(-maxTxUnderpricedTimeout - 1*time.Second))
tx2 := types.NewTx(&types.LegacyTx{Nonce: 1})
// Enqueue both in the fetcher. They will be immediately tagged as underpriced
if err := fetcher.Enqueue("asdf", []*types.Transaction{tx1, tx2}, false); err != nil {
t.Fatal(err)
}
// isKnownUnderpriced should trigger removal of the first tx (no longer be known underpriced)
if fetcher.isKnownUnderpriced(tx1.Hash()) {
t.Fatal("transaction should be forgotten by now")
}
// isKnownUnderpriced should not trigger removal of the second
if !fetcher.isKnownUnderpriced(tx2.Hash()) {
t.Fatal("transaction should be known underpriced")
}
}