forked from cerc-io/plugeth
230df98e4d
Prior to this change, it was possible that transactions are erroneously deemed as 'future' although they are in fact 'pending', causing them to be dropped due to 'future' not being allowed to replace 'pending'. This change fixes that, by doing a more in-depth inspection of the queue.
237 lines
9.0 KiB
Go
237 lines
9.0 KiB
Go
// Copyright 2023 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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package txpool
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import (
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"crypto/ecdsa"
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"math/big"
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"testing"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/core/rawdb"
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"github.com/ethereum/go-ethereum/core/state"
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"github.com/ethereum/go-ethereum/core/types"
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"github.com/ethereum/go-ethereum/crypto"
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"github.com/ethereum/go-ethereum/event"
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)
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func pricedValuedTransaction(nonce uint64, value int64, gaslimit uint64, gasprice *big.Int, key *ecdsa.PrivateKey) *types.Transaction {
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tx, _ := types.SignTx(types.NewTransaction(nonce, common.Address{}, big.NewInt(value), gaslimit, gasprice, nil), types.HomesteadSigner{}, key)
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return tx
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}
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func count(t *testing.T, pool *TxPool) (pending int, queued int) {
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t.Helper()
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pending, queued = pool.stats()
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if err := validatePoolInternals(pool); err != nil {
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t.Fatalf("pool internal state corrupted: %v", err)
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}
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return pending, queued
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}
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func fillPool(t testing.TB, pool *TxPool) {
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t.Helper()
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// Create a number of test accounts, fund them and make transactions
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executableTxs := types.Transactions{}
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nonExecutableTxs := types.Transactions{}
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for i := 0; i < 384; i++ {
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key, _ := crypto.GenerateKey()
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pool.currentState.AddBalance(crypto.PubkeyToAddress(key.PublicKey), big.NewInt(10000000000))
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// Add executable ones
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for j := 0; j < int(pool.config.AccountSlots); j++ {
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executableTxs = append(executableTxs, pricedTransaction(uint64(j), 100000, big.NewInt(300), key))
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}
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}
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// Import the batch and verify that limits have been enforced
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pool.AddRemotesSync(executableTxs)
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pool.AddRemotesSync(nonExecutableTxs)
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pending, queued := pool.Stats()
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slots := pool.all.Slots()
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// sanity-check that the test prerequisites are ok (pending full)
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if have, want := pending, slots; have != want {
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t.Fatalf("have %d, want %d", have, want)
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}
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if have, want := queued, 0; have != want {
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t.Fatalf("have %d, want %d", have, want)
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}
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t.Logf("pool.config: GlobalSlots=%d, GlobalQueue=%d\n", pool.config.GlobalSlots, pool.config.GlobalQueue)
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t.Logf("pending: %d queued: %d, all: %d\n", pending, queued, slots)
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}
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// Tests that if a batch high-priced of non-executables arrive, they do not kick out
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// executable transactions
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func TestTransactionFutureAttack(t *testing.T) {
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t.Parallel()
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// Create the pool to test the limit enforcement with
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statedb, _ := state.New(common.Hash{}, state.NewDatabase(rawdb.NewMemoryDatabase()), nil)
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blockchain := newTestBlockChain(1000000, statedb, new(event.Feed))
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config := testTxPoolConfig
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config.GlobalQueue = 100
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config.GlobalSlots = 100
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pool := NewTxPool(config, eip1559Config, blockchain)
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defer pool.Stop()
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fillPool(t, pool)
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pending, _ := pool.Stats()
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// Now, future transaction attack starts, let's add a bunch of expensive non-executables, and see if the pending-count drops
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{
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key, _ := crypto.GenerateKey()
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pool.currentState.AddBalance(crypto.PubkeyToAddress(key.PublicKey), big.NewInt(100000000000))
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futureTxs := types.Transactions{}
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for j := 0; j < int(pool.config.GlobalSlots+pool.config.GlobalQueue); j++ {
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futureTxs = append(futureTxs, pricedTransaction(1000+uint64(j), 100000, big.NewInt(500), key))
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}
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for i := 0; i < 5; i++ {
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pool.AddRemotesSync(futureTxs)
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newPending, newQueued := count(t, pool)
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t.Logf("pending: %d queued: %d, all: %d\n", newPending, newQueued, pool.all.Slots())
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}
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}
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newPending, _ := pool.Stats()
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// Pending should not have been touched
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if have, want := newPending, pending; have < want {
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t.Errorf("wrong pending-count, have %d, want %d (GlobalSlots: %d)",
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have, want, pool.config.GlobalSlots)
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}
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}
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// Tests that if a batch high-priced of non-executables arrive, they do not kick out
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// executable transactions
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func TestTransactionFuture1559(t *testing.T) {
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t.Parallel()
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// Create the pool to test the pricing enforcement with
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statedb, _ := state.New(common.Hash{}, state.NewDatabase(rawdb.NewMemoryDatabase()), nil)
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blockchain := newTestBlockChain(1000000, statedb, new(event.Feed))
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pool := NewTxPool(testTxPoolConfig, eip1559Config, blockchain)
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defer pool.Stop()
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// Create a number of test accounts, fund them and make transactions
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fillPool(t, pool)
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pending, _ := pool.Stats()
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// Now, future transaction attack starts, let's add a bunch of expensive non-executables, and see if the pending-count drops
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{
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key, _ := crypto.GenerateKey()
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pool.currentState.AddBalance(crypto.PubkeyToAddress(key.PublicKey), big.NewInt(100000000000))
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futureTxs := types.Transactions{}
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for j := 0; j < int(pool.config.GlobalSlots+pool.config.GlobalQueue); j++ {
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futureTxs = append(futureTxs, dynamicFeeTx(1000+uint64(j), 100000, big.NewInt(200), big.NewInt(101), key))
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}
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pool.AddRemotesSync(futureTxs)
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}
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newPending, _ := pool.Stats()
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// Pending should not have been touched
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if have, want := newPending, pending; have != want {
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t.Errorf("Wrong pending-count, have %d, want %d (GlobalSlots: %d)",
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have, want, pool.config.GlobalSlots)
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}
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}
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// Tests that if a batch of balance-overdraft txs arrive, they do not kick out
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// executable transactions
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func TestTransactionZAttack(t *testing.T) {
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t.Parallel()
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// Create the pool to test the pricing enforcement with
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statedb, _ := state.New(common.Hash{}, state.NewDatabase(rawdb.NewMemoryDatabase()), nil)
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blockchain := newTestBlockChain(1000000, statedb, new(event.Feed))
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pool := NewTxPool(testTxPoolConfig, eip1559Config, blockchain)
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defer pool.Stop()
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// Create a number of test accounts, fund them and make transactions
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fillPool(t, pool)
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countInvalidPending := func() int {
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t.Helper()
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var ivpendingNum int
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pendingtxs, _ := pool.Content()
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for account, txs := range pendingtxs {
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cur_balance := new(big.Int).Set(pool.currentState.GetBalance(account))
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for _, tx := range txs {
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if cur_balance.Cmp(tx.Value()) <= 0 {
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ivpendingNum++
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} else {
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cur_balance.Sub(cur_balance, tx.Value())
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}
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}
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}
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if err := validatePoolInternals(pool); err != nil {
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t.Fatalf("pool internal state corrupted: %v", err)
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}
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return ivpendingNum
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}
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ivPending := countInvalidPending()
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t.Logf("invalid pending: %d\n", ivPending)
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// Now, DETER-Z attack starts, let's add a bunch of expensive non-executables (from N accounts) along with balance-overdraft txs (from one account), and see if the pending-count drops
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for j := 0; j < int(pool.config.GlobalQueue); j++ {
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futureTxs := types.Transactions{}
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key, _ := crypto.GenerateKey()
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pool.currentState.AddBalance(crypto.PubkeyToAddress(key.PublicKey), big.NewInt(100000000000))
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futureTxs = append(futureTxs, pricedTransaction(1000+uint64(j), 21000, big.NewInt(500), key))
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pool.AddRemotesSync(futureTxs)
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}
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overDraftTxs := types.Transactions{}
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{
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key, _ := crypto.GenerateKey()
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pool.currentState.AddBalance(crypto.PubkeyToAddress(key.PublicKey), big.NewInt(100000000000))
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for j := 0; j < int(pool.config.GlobalSlots); j++ {
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overDraftTxs = append(overDraftTxs, pricedValuedTransaction(uint64(j), 600000000000, 21000, big.NewInt(500), key))
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}
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}
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pool.AddRemotesSync(overDraftTxs)
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pool.AddRemotesSync(overDraftTxs)
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pool.AddRemotesSync(overDraftTxs)
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pool.AddRemotesSync(overDraftTxs)
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pool.AddRemotesSync(overDraftTxs)
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newPending, newQueued := count(t, pool)
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newIvPending := countInvalidPending()
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t.Logf("pool.all.Slots(): %d\n", pool.all.Slots())
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t.Logf("pending: %d queued: %d, all: %d\n", newPending, newQueued, pool.all.Slots())
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t.Logf("invalid pending: %d\n", newIvPending)
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// Pending should not have been touched
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if newIvPending != ivPending {
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t.Errorf("Wrong invalid pending-count, have %d, want %d (GlobalSlots: %d, queued: %d)",
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newIvPending, ivPending, pool.config.GlobalSlots, newQueued)
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}
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}
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func BenchmarkFutureAttack(b *testing.B) {
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// Create the pool to test the limit enforcement with
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statedb, _ := state.New(common.Hash{}, state.NewDatabase(rawdb.NewMemoryDatabase()), nil)
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blockchain := newTestBlockChain(1000000, statedb, new(event.Feed))
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config := testTxPoolConfig
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config.GlobalQueue = 100
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config.GlobalSlots = 100
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pool := NewTxPool(config, eip1559Config, blockchain)
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defer pool.Stop()
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fillPool(b, pool)
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key, _ := crypto.GenerateKey()
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pool.currentState.AddBalance(crypto.PubkeyToAddress(key.PublicKey), big.NewInt(100000000000))
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futureTxs := types.Transactions{}
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for n := 0; n < b.N; n++ {
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futureTxs = append(futureTxs, pricedTransaction(1000+uint64(n), 100000, big.NewInt(500), key))
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}
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b.ResetTimer()
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for i := 0; i < 5; i++ {
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pool.AddRemotesSync(futureTxs)
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}
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}
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