mirror of
https://gitlab.com/pulsechaincom/erigon-pulse.git
synced 2024-12-24 20:47:16 +00:00
c12f4df910
Reworked the EVM gas instructions to use 64bit integers rather than arbitrary size big ints. All gas operations, be it additions, multiplications or divisions, are checked and guarded against 64 bit integer overflows. In additon, most of the protocol paramaters in the params package have been converted to uint64 and are now constants rather than variables. * common/math: added overflow check ops * core: vmenv, env renamed to evm * eth, internal/ethapi, les: unmetered eth_call and cancel methods * core/vm: implemented big.Int pool for evm instructions * core/vm: unexported intPool methods & verification methods * core/vm: added memoryGasCost overflow check and test
364 lines
12 KiB
Go
364 lines
12 KiB
Go
// Copyright 2016 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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// This file contains some shares testing functionality, common to multiple
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// different files and modules being tested.
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package les
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import (
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"crypto/ecdsa"
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"crypto/rand"
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"math/big"
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"sync"
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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"
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"github.com/ethereum/go-ethereum/core/types"
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"github.com/ethereum/go-ethereum/core/vm"
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"github.com/ethereum/go-ethereum/crypto"
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"github.com/ethereum/go-ethereum/ethdb"
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"github.com/ethereum/go-ethereum/event"
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"github.com/ethereum/go-ethereum/les/flowcontrol"
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"github.com/ethereum/go-ethereum/light"
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"github.com/ethereum/go-ethereum/p2p"
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"github.com/ethereum/go-ethereum/p2p/discover"
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"github.com/ethereum/go-ethereum/params"
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)
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var (
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testBankKey, _ = crypto.HexToECDSA("b71c71a67e1177ad4e901695e1b4b9ee17ae16c6668d313eac2f96dbcda3f291")
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testBankAddress = crypto.PubkeyToAddress(testBankKey.PublicKey)
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testBankFunds = big.NewInt(1000000)
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acc1Key, _ = crypto.HexToECDSA("8a1f9a8f95be41cd7ccb6168179afb4504aefe388d1e14474d32c45c72ce7b7a")
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acc2Key, _ = crypto.HexToECDSA("49a7b37aa6f6645917e7b807e9d1c00d4fa71f18343b0d4122a4d2df64dd6fee")
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acc1Addr = crypto.PubkeyToAddress(acc1Key.PublicKey)
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acc2Addr = crypto.PubkeyToAddress(acc2Key.PublicKey)
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testContractCode = common.Hex2Bytes("606060405260cc8060106000396000f360606040526000357c01000000000000000000000000000000000000000000000000000000009004806360cd2685146041578063c16431b914606b57603f565b005b6055600480803590602001909190505060a9565b6040518082815260200191505060405180910390f35b60886004808035906020019091908035906020019091905050608a565b005b80600060005083606481101560025790900160005b50819055505b5050565b6000600060005082606481101560025790900160005b5054905060c7565b91905056")
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testContractAddr common.Address
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testContractCodeDeployed = testContractCode[16:]
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testContractDeployed = uint64(2)
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testBufLimit = uint64(100)
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bigTxGas = new(big.Int).SetUint64(params.TxGas)
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)
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/*
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contract test {
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uint256[100] data;
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function Put(uint256 addr, uint256 value) {
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data[addr] = value;
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}
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function Get(uint256 addr) constant returns (uint256 value) {
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return data[addr];
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}
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}
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*/
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func testChainGen(i int, block *core.BlockGen) {
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signer := types.HomesteadSigner{}
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switch i {
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case 0:
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// In block 1, the test bank sends account #1 some ether.
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tx, _ := types.SignTx(types.NewTransaction(block.TxNonce(testBankAddress), acc1Addr, big.NewInt(10000), bigTxGas, nil, nil), signer, testBankKey)
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block.AddTx(tx)
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case 1:
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// In block 2, the test bank sends some more ether to account #1.
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// acc1Addr passes it on to account #2.
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// acc1Addr creates a test contract.
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tx1, _ := types.SignTx(types.NewTransaction(block.TxNonce(testBankAddress), acc1Addr, big.NewInt(1000), bigTxGas, nil, nil), signer, testBankKey)
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nonce := block.TxNonce(acc1Addr)
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tx2, _ := types.SignTx(types.NewTransaction(nonce, acc2Addr, big.NewInt(1000), bigTxGas, nil, nil), signer, acc1Key)
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nonce++
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tx3, _ := types.SignTx(types.NewContractCreation(nonce, big.NewInt(0), big.NewInt(200000), big.NewInt(0), testContractCode), signer, acc1Key)
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testContractAddr = crypto.CreateAddress(acc1Addr, nonce)
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block.AddTx(tx1)
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block.AddTx(tx2)
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block.AddTx(tx3)
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case 2:
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// Block 3 is empty but was mined by account #2.
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block.SetCoinbase(acc2Addr)
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block.SetExtra([]byte("yeehaw"))
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data := common.Hex2Bytes("C16431B900000000000000000000000000000000000000000000000000000000000000010000000000000000000000000000000000000000000000000000000000000001")
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tx, _ := types.SignTx(types.NewTransaction(block.TxNonce(testBankAddress), testContractAddr, big.NewInt(0), big.NewInt(100000), nil, data), signer, testBankKey)
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block.AddTx(tx)
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case 3:
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// Block 4 includes blocks 2 and 3 as uncle headers (with modified extra data).
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b2 := block.PrevBlock(1).Header()
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b2.Extra = []byte("foo")
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block.AddUncle(b2)
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b3 := block.PrevBlock(2).Header()
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b3.Extra = []byte("foo")
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block.AddUncle(b3)
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data := common.Hex2Bytes("C16431B900000000000000000000000000000000000000000000000000000000000000020000000000000000000000000000000000000000000000000000000000000002")
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tx, _ := types.SignTx(types.NewTransaction(block.TxNonce(testBankAddress), testContractAddr, big.NewInt(0), big.NewInt(100000), nil, data), signer, testBankKey)
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block.AddTx(tx)
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}
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}
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func testRCL() RequestCostList {
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cl := make(RequestCostList, len(reqList))
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for i, code := range reqList {
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cl[i].MsgCode = code
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cl[i].BaseCost = 0
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cl[i].ReqCost = 0
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}
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return cl
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}
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// newTestProtocolManager creates a new protocol manager for testing purposes,
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// with the given number of blocks already known, and potential notification
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// channels for different events.
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func newTestProtocolManager(lightSync bool, blocks int, generator func(int, *core.BlockGen)) (*ProtocolManager, ethdb.Database, *LesOdr, error) {
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var (
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evmux = new(event.TypeMux)
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pow = new(core.FakePow)
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db, _ = ethdb.NewMemDatabase()
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genesis = core.WriteGenesisBlockForTesting(db, core.GenesisAccount{Address: testBankAddress, Balance: testBankFunds})
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chainConfig = ¶ms.ChainConfig{HomesteadBlock: big.NewInt(0)} // homestead set to 0 because of chain maker
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odr *LesOdr
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chain BlockChain
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)
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if lightSync {
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odr = NewLesOdr(db)
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chain, _ = light.NewLightChain(odr, chainConfig, pow, evmux)
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} else {
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blockchain, _ := core.NewBlockChain(db, chainConfig, pow, evmux, vm.Config{})
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gchain, _ := core.GenerateChain(chainConfig, genesis, db, blocks, generator)
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if _, err := blockchain.InsertChain(gchain); err != nil {
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panic(err)
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}
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chain = blockchain
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}
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pm, err := NewProtocolManager(chainConfig, lightSync, NetworkId, evmux, pow, chain, nil, db, odr, nil)
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if err != nil {
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return nil, nil, nil, err
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}
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if !lightSync {
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srv := &LesServer{protocolManager: pm}
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pm.server = srv
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srv.defParams = &flowcontrol.ServerParams{
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BufLimit: testBufLimit,
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MinRecharge: 1,
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}
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srv.fcManager = flowcontrol.NewClientManager(50, 10, 1000000000)
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srv.fcCostStats = newCostStats(nil)
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}
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pm.Start(nil)
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return pm, db, odr, nil
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}
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// newTestProtocolManagerMust creates a new protocol manager for testing purposes,
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// with the given number of blocks already known, and potential notification
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// channels for different events. In case of an error, the constructor force-
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// fails the test.
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func newTestProtocolManagerMust(t *testing.T, lightSync bool, blocks int, generator func(int, *core.BlockGen)) (*ProtocolManager, ethdb.Database, *LesOdr) {
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pm, db, odr, err := newTestProtocolManager(lightSync, blocks, generator)
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if err != nil {
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t.Fatalf("Failed to create protocol manager: %v", err)
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}
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return pm, db, odr
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}
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// testTxPool is a fake, helper transaction pool for testing purposes
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type testTxPool struct {
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pool []*types.Transaction // Collection of all transactions
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added chan<- []*types.Transaction // Notification channel for new transactions
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lock sync.RWMutex // Protects the transaction pool
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}
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// AddTransactions appends a batch of transactions to the pool, and notifies any
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// listeners if the addition channel is non nil
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func (p *testTxPool) AddBatch(txs []*types.Transaction) {
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p.lock.Lock()
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defer p.lock.Unlock()
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p.pool = append(p.pool, txs...)
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if p.added != nil {
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p.added <- txs
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}
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}
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// GetTransactions returns all the transactions known to the pool
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func (p *testTxPool) GetTransactions() types.Transactions {
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p.lock.RLock()
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defer p.lock.RUnlock()
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txs := make([]*types.Transaction, len(p.pool))
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copy(txs, p.pool)
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return txs
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}
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// newTestTransaction create a new dummy transaction.
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func newTestTransaction(from *ecdsa.PrivateKey, nonce uint64, datasize int) *types.Transaction {
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tx := types.NewTransaction(nonce, common.Address{}, big.NewInt(0), big.NewInt(100000), big.NewInt(0), make([]byte, datasize))
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tx, _ = types.SignTx(tx, types.HomesteadSigner{}, from)
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return tx
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}
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// testPeer is a simulated peer to allow testing direct network calls.
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type testPeer struct {
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net p2p.MsgReadWriter // Network layer reader/writer to simulate remote messaging
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app *p2p.MsgPipeRW // Application layer reader/writer to simulate the local side
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*peer
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}
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// newTestPeer creates a new peer registered at the given protocol manager.
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func newTestPeer(t *testing.T, name string, version int, pm *ProtocolManager, shake bool) (*testPeer, <-chan error) {
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// Create a message pipe to communicate through
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app, net := p2p.MsgPipe()
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// Generate a random id and create the peer
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var id discover.NodeID
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rand.Read(id[:])
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peer := pm.newPeer(version, NetworkId, p2p.NewPeer(id, name, nil), net)
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// Start the peer on a new thread
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errc := make(chan error, 1)
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go func() {
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select {
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case pm.newPeerCh <- peer:
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errc <- pm.handle(peer)
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case <-pm.quitSync:
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errc <- p2p.DiscQuitting
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}
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}()
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tp := &testPeer{
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app: app,
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net: net,
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peer: peer,
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}
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// Execute any implicitly requested handshakes and return
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if shake {
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td, head, genesis := pm.blockchain.Status()
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headNum := pm.blockchain.CurrentHeader().Number.Uint64()
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tp.handshake(t, td, head, headNum, genesis)
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}
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return tp, errc
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}
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func newTestPeerPair(name string, version int, pm, pm2 *ProtocolManager) (*peer, <-chan error, *peer, <-chan error) {
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// Create a message pipe to communicate through
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app, net := p2p.MsgPipe()
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// Generate a random id and create the peer
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var id discover.NodeID
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rand.Read(id[:])
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peer := pm.newPeer(version, NetworkId, p2p.NewPeer(id, name, nil), net)
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peer2 := pm2.newPeer(version, NetworkId, p2p.NewPeer(id, name, nil), app)
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// Start the peer on a new thread
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errc := make(chan error, 1)
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errc2 := make(chan error, 1)
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go func() {
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select {
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case pm.newPeerCh <- peer:
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errc <- pm.handle(peer)
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case <-pm.quitSync:
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errc <- p2p.DiscQuitting
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}
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}()
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go func() {
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select {
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case pm2.newPeerCh <- peer2:
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errc2 <- pm2.handle(peer2)
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case <-pm2.quitSync:
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errc2 <- p2p.DiscQuitting
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}
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}()
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return peer, errc, peer2, errc2
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}
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// handshake simulates a trivial handshake that expects the same state from the
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// remote side as we are simulating locally.
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func (p *testPeer) handshake(t *testing.T, td *big.Int, head common.Hash, headNum uint64, genesis common.Hash) {
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var expList keyValueList
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expList = expList.add("protocolVersion", uint64(p.version))
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expList = expList.add("networkId", uint64(NetworkId))
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expList = expList.add("headTd", td)
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expList = expList.add("headHash", head)
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expList = expList.add("headNum", headNum)
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expList = expList.add("genesisHash", genesis)
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sendList := make(keyValueList, len(expList))
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copy(sendList, expList)
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expList = expList.add("serveHeaders", nil)
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expList = expList.add("serveChainSince", uint64(0))
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expList = expList.add("serveStateSince", uint64(0))
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expList = expList.add("txRelay", nil)
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expList = expList.add("flowControl/BL", testBufLimit)
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expList = expList.add("flowControl/MRR", uint64(1))
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expList = expList.add("flowControl/MRC", testRCL())
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if err := p2p.ExpectMsg(p.app, StatusMsg, expList); err != nil {
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t.Fatalf("status recv: %v", err)
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}
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if err := p2p.Send(p.app, StatusMsg, sendList); err != nil {
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t.Fatalf("status send: %v", err)
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}
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p.fcServerParams = &flowcontrol.ServerParams{
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BufLimit: testBufLimit,
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MinRecharge: 1,
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}
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}
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// close terminates the local side of the peer, notifying the remote protocol
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// manager of termination.
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func (p *testPeer) close() {
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p.app.Close()
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}
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type testServerPool struct {
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peer *peer
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lock sync.RWMutex
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}
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func (p *testServerPool) setPeer(peer *peer) {
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p.lock.Lock()
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defer p.lock.Unlock()
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p.peer = peer
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}
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func (p *testServerPool) selectPeerWait(uint64, func(*peer) (bool, time.Duration), <-chan struct{}) *peer {
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p.lock.RLock()
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defer p.lock.RUnlock()
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return p.peer
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}
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func (p *testServerPool) adjustResponseTime(*poolEntry, time.Duration, bool) {
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}
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