eth-statediff-service/pkg/builder_test.go

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// 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 statediff_test
import (
"bytes"
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"encoding/json"
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"math/big"
"sort"
"testing"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/core/types"
"github.com/ethereum/go-ethereum/crypto"
"github.com/ethereum/go-ethereum/rlp"
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sd "github.com/ethereum/go-ethereum/statediff"
"github.com/ethereum/go-ethereum/statediff/indexer/ipld"
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"github.com/ethereum/go-ethereum/statediff/indexer/shared"
"github.com/ethereum/go-ethereum/statediff/test_helpers"
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sdtypes "github.com/ethereum/go-ethereum/statediff/types"
statediff "github.com/cerc-io/eth-statediff-service/pkg"
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)
var (
contractLeafKey []byte
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emptyDiffs = make([]sdtypes.StateLeafNode, 0)
emptyStorage = make([]sdtypes.StorageLeafNode, 0)
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block0, block1, block2, block3, block4, block5, block6 *types.Block
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builder sd.Builder
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minerAddress = common.HexToAddress("0x0")
minerLeafKey = test_helpers.AddressToLeafKey(minerAddress)
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workerCounts = []uint{0, 1, 2, 4, 8}
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slot0 = common.BigToHash(big.NewInt(0))
slot1 = common.BigToHash(big.NewInt(1))
slot2 = common.BigToHash(big.NewInt(2))
slot3 = common.BigToHash(big.NewInt(3))
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slot0StorageKey = crypto.Keccak256Hash(slot0[:])
slot1StorageKey = crypto.Keccak256Hash(slot1[:])
slot2StorageKey = crypto.Keccak256Hash(slot2[:])
slot3StorageKey = crypto.Keccak256Hash(slot3[:])
slot0StorageValue = common.Hex2Bytes("94703c4b2bd70c169f5717101caee543299fc946c7") // prefixed AccountAddr1
slot1StorageValue = common.Hex2Bytes("01")
slot2StorageValue = common.Hex2Bytes("09")
slot3StorageValue = common.Hex2Bytes("03")
slot0StorageLeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("390decd9548b62a8d60345a988386fc84ba6bc95484008f6362f93160ef3e563"),
slot0StorageValue,
})
slot1StorageLeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("310e2d527612073b26eecdfd717e6a320cf44b4afac2b0732d9fcbe2b7fa0cf6"),
slot1StorageValue,
})
slot2StorageLeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("305787fa12a823e0f2b7631cc41b3ba8828b3321ca811111fa75cd3aa3bb5ace"),
slot2StorageValue,
})
slot3StorageLeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("32575a0e9e593c00f959f8c92f12db2869c3395a3b0502d05e2516446f71f85b"),
slot3StorageValue,
})
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contractAccountAtBlock2 = &types.StateAccount{
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Nonce: 1,
Balance: big.NewInt(0),
CodeHash: common.HexToHash("0xaaea5efba4fd7b45d7ec03918ac5d8b31aa93b48986af0e6b591f0f087c80127").Bytes(),
Root: crypto.Keccak256Hash(block2StorageBranchRootNode),
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}
contractAccountAtBlock2RLP, _ = rlp.EncodeToBytes(contractAccountAtBlock2)
contractAccountAtBlock2LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("3114658a74d9cc9f7acf2c5cd696c3494d7c344d78bfec3add0d91ec4e8d1c45"),
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contractAccountAtBlock2RLP,
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})
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contractAccountAtBlock3 = &types.StateAccount{
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Nonce: 1,
Balance: big.NewInt(0),
CodeHash: common.HexToHash("0xaaea5efba4fd7b45d7ec03918ac5d8b31aa93b48986af0e6b591f0f087c80127").Bytes(),
Root: crypto.Keccak256Hash(block3StorageBranchRootNode),
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}
contractAccountAtBlock3RLP, _ = rlp.EncodeToBytes(contractAccountAtBlock3)
contractAccountAtBlock3LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("3114658a74d9cc9f7acf2c5cd696c3494d7c344d78bfec3add0d91ec4e8d1c45"),
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contractAccountAtBlock3RLP,
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})
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contractAccountAtBlock4 = &types.StateAccount{
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Nonce: 1,
Balance: big.NewInt(0),
CodeHash: common.HexToHash("0xaaea5efba4fd7b45d7ec03918ac5d8b31aa93b48986af0e6b591f0f087c80127").Bytes(),
Root: crypto.Keccak256Hash(block4StorageBranchRootNode),
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}
contractAccountAtBlock4RLP, _ = rlp.EncodeToBytes(contractAccountAtBlock4)
contractAccountAtBlock4LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("3114658a74d9cc9f7acf2c5cd696c3494d7c344d78bfec3add0d91ec4e8d1c45"),
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contractAccountAtBlock4RLP,
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})
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contractAccountAtBlock5 = &types.StateAccount{
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Nonce: 1,
Balance: big.NewInt(0),
CodeHash: common.HexToHash("0xaaea5efba4fd7b45d7ec03918ac5d8b31aa93b48986af0e6b591f0f087c80127").Bytes(),
Root: crypto.Keccak256Hash(block5StorageBranchRootNode),
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}
contractAccountAtBlock5RLP, _ = rlp.EncodeToBytes(contractAccountAtBlock5)
contractAccountAtBlock5LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("3114658a74d9cc9f7acf2c5cd696c3494d7c344d78bfec3add0d91ec4e8d1c45"),
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contractAccountAtBlock5RLP,
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})
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minerAccountAtBlock1 = &types.StateAccount{
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Nonce: 0,
Balance: big.NewInt(2000002625000000000),
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
minerAccountAtBlock1RLP, _ = rlp.EncodeToBytes(minerAccountAtBlock1)
minerAccountAtBlock1LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("3380c7b7ae81a58eb98d9c78de4a1fd7fd9535fc953ed2be602daaa41767312a"),
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minerAccountAtBlock1RLP,
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})
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minerAccountAtBlock2 = &types.StateAccount{
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Nonce: 0,
Balance: big.NewInt(4000111203461610525),
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
minerAccountAtBlock2RLP, _ = rlp.EncodeToBytes(minerAccountAtBlock2)
minerAccountAtBlock2LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("3380c7b7ae81a58eb98d9c78de4a1fd7fd9535fc953ed2be602daaa41767312a"),
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minerAccountAtBlock2RLP,
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})
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account1AtBlock1 = &types.StateAccount{
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Nonce: 0,
Balance: test_helpers.Block1Account1Balance,
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
account1AtBlock1RLP, _ = rlp.EncodeToBytes(account1AtBlock1)
account1AtBlock1LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("3926db69aaced518e9b9f0f434a473e7174109c943548bb8f23be41ca76d9ad2"),
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account1AtBlock1RLP,
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})
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account1AtBlock2 = &types.StateAccount{
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Nonce: 2,
Balance: big.NewInt(999555797000009000),
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
account1AtBlock2RLP, _ = rlp.EncodeToBytes(account1AtBlock2)
account1AtBlock2LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("3926db69aaced518e9b9f0f434a473e7174109c943548bb8f23be41ca76d9ad2"),
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account1AtBlock2RLP,
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})
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account1AtBlock5 = &types.StateAccount{
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Nonce: 2,
Balance: big.NewInt(2999586469962854280),
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
account1AtBlock5RLP, _ = rlp.EncodeToBytes(account1AtBlock5)
account1AtBlock5LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("3926db69aaced518e9b9f0f434a473e7174109c943548bb8f23be41ca76d9ad2"),
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account1AtBlock5RLP,
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})
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account1AtBlock6 = &types.StateAccount{
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Nonce: 3,
Balance: big.NewInt(2999557977962854280),
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
account1AtBlock6RLP, _ = rlp.EncodeToBytes(account1AtBlock6)
account1AtBlock6LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("3926db69aaced518e9b9f0f434a473e7174109c943548bb8f23be41ca76d9ad2"),
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account1AtBlock6RLP,
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})
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account2AtBlock2 = &types.StateAccount{
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Nonce: 0,
Balance: big.NewInt(1000),
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
account2AtBlock2RLP, _ = rlp.EncodeToBytes(account2AtBlock2)
account2AtBlock2LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("3957f3e2f04a0764c3a0491b175f69926da61efbcc8f61fa1455fd2d2b4cdd45"),
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account2AtBlock2RLP,
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})
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account2AtBlock3 = &types.StateAccount{
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Nonce: 0,
Balance: big.NewInt(2000013574009435976),
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
account2AtBlock3RLP, _ = rlp.EncodeToBytes(account2AtBlock3)
account2AtBlock3LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("3957f3e2f04a0764c3a0491b175f69926da61efbcc8f61fa1455fd2d2b4cdd45"),
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account2AtBlock3RLP,
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})
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account2AtBlock4 = &types.StateAccount{
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Nonce: 0,
Balance: big.NewInt(4000048088163070348),
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
account2AtBlock4RLP, _ = rlp.EncodeToBytes(account2AtBlock4)
account2AtBlock4LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("3957f3e2f04a0764c3a0491b175f69926da61efbcc8f61fa1455fd2d2b4cdd45"),
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account2AtBlock4RLP,
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})
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account2AtBlock6 = &types.StateAccount{
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Nonce: 0,
Balance: big.NewInt(6000063258066544204),
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
account2AtBlock6RLP, _ = rlp.EncodeToBytes(account2AtBlock6)
account2AtBlock6LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("3957f3e2f04a0764c3a0491b175f69926da61efbcc8f61fa1455fd2d2b4cdd45"),
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account2AtBlock6RLP,
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})
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bankAccountAtBlock0 = &types.StateAccount{
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Nonce: 0,
Balance: big.NewInt(test_helpers.TestBankFunds.Int64()),
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
bankAccountAtBlock0RLP, _ = rlp.EncodeToBytes(bankAccountAtBlock0)
bankAccountAtBlock0LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("2000bf49f440a1cd0527e4d06e2765654c0f56452257516d793a9b8d604dcfdf2a"),
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bankAccountAtBlock0RLP,
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})
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block1BankBalance = big.NewInt(test_helpers.TestBankFunds.Int64() - test_helpers.BalanceChange10000 - test_helpers.GasFees)
bankAccountAtBlock1 = &types.StateAccount{
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Nonce: 1,
Balance: block1BankBalance,
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
bankAccountAtBlock1RLP, _ = rlp.EncodeToBytes(bankAccountAtBlock1)
bankAccountAtBlock1LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("30bf49f440a1cd0527e4d06e2765654c0f56452257516d793a9b8d604dcfdf2a"),
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bankAccountAtBlock1RLP,
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})
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block2BankBalance = block1BankBalance.Int64() - test_helpers.BalanceChange1Ether - test_helpers.GasFees
bankAccountAtBlock2 = &types.StateAccount{
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Nonce: 2,
Balance: big.NewInt(block2BankBalance),
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
bankAccountAtBlock2RLP, _ = rlp.EncodeToBytes(bankAccountAtBlock2)
bankAccountAtBlock2LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("30bf49f440a1cd0527e4d06e2765654c0f56452257516d793a9b8d604dcfdf2a"),
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bankAccountAtBlock2RLP,
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})
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bankAccountAtBlock3 = &types.StateAccount{
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Nonce: 3,
Balance: big.NewInt(999914255999990000),
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
bankAccountAtBlock3RLP, _ = rlp.EncodeToBytes(bankAccountAtBlock3)
bankAccountAtBlock3LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("30bf49f440a1cd0527e4d06e2765654c0f56452257516d793a9b8d604dcfdf2a"),
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bankAccountAtBlock3RLP,
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})
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bankAccountAtBlock4 = &types.StateAccount{
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Nonce: 6,
Balance: big.NewInt(999826859999990000),
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
bankAccountAtBlock4RLP, _ = rlp.EncodeToBytes(&bankAccountAtBlock4)
bankAccountAtBlock4LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("30bf49f440a1cd0527e4d06e2765654c0f56452257516d793a9b8d604dcfdf2a"),
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bankAccountAtBlock4RLP,
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})
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bankAccountAtBlock5 = &types.StateAccount{
Nonce: 8,
Balance: big.NewInt(999761283999990000),
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
bankAccountAtBlock5RLP, _ = rlp.EncodeToBytes(bankAccountAtBlock5)
bankAccountAtBlock5LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("30bf49f440a1cd0527e4d06e2765654c0f56452257516d793a9b8d604dcfdf2a"),
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bankAccountAtBlock5RLP,
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})
block1BranchRootNode, _ = rlp.EncodeToBytes(&[]interface{}{
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crypto.Keccak256(bankAccountAtBlock1LeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(minerAccountAtBlock1LeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(account1AtBlock1LeafNode),
[]byte{},
[]byte{},
})
block2BranchRootNode, _ = rlp.EncodeToBytes(&[]interface{}{
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crypto.Keccak256(bankAccountAtBlock2LeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(minerAccountAtBlock2LeafNode),
crypto.Keccak256(contractAccountAtBlock2LeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(account2AtBlock2LeafNode),
[]byte{},
crypto.Keccak256(account1AtBlock2LeafNode),
[]byte{},
[]byte{},
})
block3BranchRootNode, _ = rlp.EncodeToBytes(&[]interface{}{
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crypto.Keccak256(bankAccountAtBlock3LeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(minerAccountAtBlock2LeafNode),
crypto.Keccak256(contractAccountAtBlock3LeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(account2AtBlock3LeafNode),
[]byte{},
crypto.Keccak256(account1AtBlock2LeafNode),
[]byte{},
[]byte{},
})
block4BranchRootNode, _ = rlp.EncodeToBytes(&[]interface{}{
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crypto.Keccak256(bankAccountAtBlock4LeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(minerAccountAtBlock2LeafNode),
crypto.Keccak256(contractAccountAtBlock4LeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(account2AtBlock4LeafNode),
[]byte{},
crypto.Keccak256(account1AtBlock2LeafNode),
[]byte{},
[]byte{},
})
block5BranchRootNode, _ = rlp.EncodeToBytes(&[]interface{}{
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crypto.Keccak256(bankAccountAtBlock5LeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(minerAccountAtBlock2LeafNode),
crypto.Keccak256(contractAccountAtBlock5LeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(account2AtBlock4LeafNode),
[]byte{},
crypto.Keccak256(account1AtBlock5LeafNode),
[]byte{},
[]byte{},
})
block6BranchRootNode, _ = rlp.EncodeToBytes(&[]interface{}{
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crypto.Keccak256(bankAccountAtBlock5LeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(minerAccountAtBlock2LeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(account2AtBlock6LeafNode),
[]byte{},
crypto.Keccak256(account1AtBlock6LeafNode),
[]byte{},
[]byte{},
})
block2StorageBranchRootNode, _ = rlp.EncodeToBytes(&[]interface{}{
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[]byte{},
[]byte{},
crypto.Keccak256(slot0StorageLeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(slot1StorageLeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
})
block3StorageBranchRootNode, _ = rlp.EncodeToBytes(&[]interface{}{
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[]byte{},
[]byte{},
crypto.Keccak256(slot0StorageLeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(slot1StorageLeafNode),
crypto.Keccak256(slot3StorageLeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
})
block4StorageBranchRootNode, _ = rlp.EncodeToBytes(&[]interface{}{
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[]byte{},
[]byte{},
crypto.Keccak256(slot0StorageLeafNode),
[]byte{},
crypto.Keccak256(slot2StorageLeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
})
block5StorageBranchRootNode, _ = rlp.EncodeToBytes(&[]interface{}{
[]byte{},
[]byte{},
crypto.Keccak256(slot0StorageLeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(slot3StorageLeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
})
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)
func TestBuilder(t *testing.T) {
blocks, chain := test_helpers.MakeChain(3, test_helpers.Genesis, test_helpers.TestChainGen)
contractLeafKey = test_helpers.AddressToLeafKey(test_helpers.ContractAddr)
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defer chain.Stop()
block0 = test_helpers.Genesis
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block1 = blocks[0]
block2 = blocks[1]
block3 = blocks[2]
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params := sd.Params{}
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var tests = []struct {
name string
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startingArguments sd.Args
expected *sdtypes.StateObject
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}{
{
"testEmptyDiff",
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sd.Args{
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OldStateRoot: block0.Root(),
NewStateRoot: block0.Root(),
BlockNumber: block0.Number(),
BlockHash: block0.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block0.Number(),
BlockHash: block0.Hash(),
Nodes: emptyDiffs,
},
},
{
"testBlock0",
//10000 transferred from testBankAddress to account1Addr
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sd.Args{
OldStateRoot: test_helpers.NullHash,
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NewStateRoot: block0.Root(),
BlockNumber: block0.Number(),
BlockHash: block0.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block0.Number(),
BlockHash: block0.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: bankAccountAtBlock0,
LeafKey: test_helpers.BankLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock0LeafNode)).String()},
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StorageDiff: emptyStorage,
},
},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock0LeafNode)).String(),
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Content: bankAccountAtBlock0LeafNode,
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},
},
},
},
{
"testBlock1",
//10000 transferred from testBankAddress to account1Addr
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sd.Args{
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OldStateRoot: block0.Root(),
NewStateRoot: block1.Root(),
BlockNumber: block1.Number(),
BlockHash: block1.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block1.Number(),
BlockHash: block1.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: bankAccountAtBlock1,
LeafKey: test_helpers.BankLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock1LeafNode)).String()},
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StorageDiff: emptyStorage,
},
{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: minerAccountAtBlock1,
LeafKey: minerLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(minerAccountAtBlock1LeafNode)).String()},
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StorageDiff: emptyStorage,
},
{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account1AtBlock1,
LeafKey: test_helpers.Account1LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock1LeafNode)).String()},
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StorageDiff: emptyStorage,
},
},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block1BranchRootNode)).String(),
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Content: block1BranchRootNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock1LeafNode)).String(),
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Content: bankAccountAtBlock1LeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(minerAccountAtBlock1LeafNode)).String(),
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Content: minerAccountAtBlock1LeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock1LeafNode)).String(),
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Content: account1AtBlock1LeafNode,
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},
},
},
},
{
"testBlock2",
// 1000 transferred from testBankAddress to account1Addr
// 1000 transferred from account1Addr to account2Addr
// account1addr creates a new contract
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sd.Args{
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OldStateRoot: block1.Root(),
NewStateRoot: block2.Root(),
BlockNumber: block2.Number(),
BlockHash: block2.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block2.Number(),
BlockHash: block2.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: bankAccountAtBlock2,
LeafKey: test_helpers.BankLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock2LeafNode)).String()},
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StorageDiff: emptyStorage,
},
{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: minerAccountAtBlock2,
LeafKey: minerLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(minerAccountAtBlock2LeafNode)).String()},
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StorageDiff: emptyStorage,
},
{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account1AtBlock2,
LeafKey: test_helpers.Account1LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock2LeafNode)).String()},
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StorageDiff: emptyStorage,
},
{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: contractAccountAtBlock2,
LeafKey: contractLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock2LeafNode)).String()},
StorageDiff: []sdtypes.StorageLeafNode{
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{
Removed: false,
Value: slot0StorageValue,
LeafKey: slot0StorageKey.Bytes(),
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot0StorageLeafNode)).String(),
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},
{
Removed: false,
Value: slot1StorageValue,
LeafKey: slot1StorageKey.Bytes(),
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot1StorageLeafNode)).String(),
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},
},
},
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{
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Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account2AtBlock2,
LeafKey: test_helpers.Account2LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account2AtBlock2LeafNode)).String()},
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StorageDiff: emptyStorage,
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},
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},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.RawBinary, test_helpers.CodeHash.Bytes()).String(),
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Content: test_helpers.ByteCodeAfterDeployment,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block2BranchRootNode)).String(),
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Content: block2BranchRootNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock2LeafNode)).String(),
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Content: bankAccountAtBlock2LeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(minerAccountAtBlock2LeafNode)).String(),
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Content: minerAccountAtBlock2LeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock2LeafNode)).String(),
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Content: account1AtBlock2LeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock2LeafNode)).String(),
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Content: contractAccountAtBlock2LeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block2StorageBranchRootNode)).String(),
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Content: block2StorageBranchRootNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot0StorageLeafNode)).String(),
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Content: slot0StorageLeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot1StorageLeafNode)).String(),
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Content: slot1StorageLeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account2AtBlock2LeafNode)).String(),
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Content: account2AtBlock2LeafNode,
},
},
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},
},
{
"testBlock3",
//the contract's storage is changed
//and the block is mined by account 2
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sd.Args{
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OldStateRoot: block2.Root(),
NewStateRoot: block3.Root(),
BlockNumber: block3.Number(),
BlockHash: block3.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block3.Number(),
BlockHash: block3.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: bankAccountAtBlock3,
LeafKey: test_helpers.BankLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock3LeafNode)).String()},
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StorageDiff: emptyStorage,
},
{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: contractAccountAtBlock3,
LeafKey: contractLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock3LeafNode)).String()},
StorageDiff: []sdtypes.StorageLeafNode{
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{
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Removed: false,
Value: slot3StorageValue,
LeafKey: slot3StorageKey.Bytes(),
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot3StorageLeafNode)).String(),
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},
},
},
{
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Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account2AtBlock3,
LeafKey: test_helpers.Account2LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account2AtBlock3LeafNode)).String()},
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StorageDiff: emptyStorage,
},
},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block3BranchRootNode)).String(),
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Content: block3BranchRootNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock3LeafNode)).String(),
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Content: bankAccountAtBlock3LeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock3LeafNode)).String(),
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Content: contractAccountAtBlock3LeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block3StorageBranchRootNode)).String(),
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Content: block3StorageBranchRootNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot3StorageLeafNode)).String(),
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Content: slot3StorageLeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account2AtBlock3LeafNode)).String(),
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Content: account2AtBlock3LeafNode,
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},
},
},
},
}
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for _, workers := range workerCounts {
builder, _ = statediff.NewBuilder(chain.StateCache(), workers)
for _, test := range tests {
diff, err := builder.BuildStateDiffObject(test.startingArguments, params)
if err != nil {
t.Error(err)
}
receivedStateDiffRlp, err := rlp.EncodeToBytes(&diff)
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if err != nil {
t.Error(err)
}
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expectedStateDiffRlp, err := rlp.EncodeToBytes(test.expected)
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if err != nil {
t.Error(err)
}
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sort.Slice(receivedStateDiffRlp, func(i, j int) bool { return receivedStateDiffRlp[i] < receivedStateDiffRlp[j] })
sort.Slice(expectedStateDiffRlp, func(i, j int) bool { return expectedStateDiffRlp[i] < expectedStateDiffRlp[j] })
if !bytes.Equal(receivedStateDiffRlp, expectedStateDiffRlp) {
actual, err := json.Marshal(diff)
if err != nil {
t.Error(err)
}
expected, err := json.Marshal(test.expected)
if err != nil {
t.Error(err)
}
t.Logf("Test failed: %s", test.name)
t.Errorf("actual state diff: %s\r\n\r\n\r\nexpected state diff: %s", actual, expected)
}
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}
}
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// Let's also confirm that our root state nodes form the state root hash in the headers
if !bytes.Equal(block0.Root().Bytes(), crypto.Keccak256(bankAccountAtBlock0LeafNode)) {
t.Errorf("block0 expected root %x does not match actual root %x", block0.Root().Bytes(), crypto.Keccak256(bankAccountAtBlock0LeafNode))
}
if !bytes.Equal(block1.Root().Bytes(), crypto.Keccak256(block1BranchRootNode)) {
t.Errorf("block1 expected root %x does not match actual root %x", block1.Root().Bytes(), crypto.Keccak256(block1BranchRootNode))
}
if !bytes.Equal(block2.Root().Bytes(), crypto.Keccak256(block2BranchRootNode)) {
t.Errorf("block2 expected root %x does not match actual root %x", block2.Root().Bytes(), crypto.Keccak256(block2BranchRootNode))
}
if !bytes.Equal(block3.Root().Bytes(), crypto.Keccak256(block3BranchRootNode)) {
t.Errorf("block3 expected root %x does not match actual root %x", block3.Root().Bytes(), crypto.Keccak256(block3BranchRootNode))
}
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}
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func TestBuilderWithWatchedAddressList(t *testing.T) {
blocks, chain := test_helpers.MakeChain(3, test_helpers.Genesis, test_helpers.TestChainGen)
contractLeafKey = test_helpers.AddressToLeafKey(test_helpers.ContractAddr)
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defer chain.Stop()
block0 = test_helpers.Genesis
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block1 = blocks[0]
block2 = blocks[1]
block3 = blocks[2]
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params := sd.Params{
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WatchedAddresses: []common.Address{test_helpers.Account1Addr, test_helpers.ContractAddr},
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}
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params.ComputeWatchedAddressesLeafPaths()
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var tests = []struct {
name string
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startingArguments sd.Args
expected *sdtypes.StateObject
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}{
{
"testEmptyDiff",
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sd.Args{
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OldStateRoot: block0.Root(),
NewStateRoot: block0.Root(),
BlockNumber: block0.Number(),
BlockHash: block0.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block0.Number(),
BlockHash: block0.Hash(),
Nodes: emptyDiffs,
},
},
{
"testBlock0",
//10000 transferred from testBankAddress to account1Addr
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sd.Args{
OldStateRoot: test_helpers.NullHash,
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NewStateRoot: block0.Root(),
BlockNumber: block0.Number(),
BlockHash: block0.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block0.Number(),
BlockHash: block0.Hash(),
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Nodes: emptyDiffs,
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},
},
{
"testBlock1",
//10000 transferred from testBankAddress to account1Addr
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sd.Args{
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OldStateRoot: block0.Root(),
NewStateRoot: block1.Root(),
BlockNumber: block1.Number(),
BlockHash: block1.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block1.Number(),
BlockHash: block1.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account1AtBlock1,
LeafKey: test_helpers.Account1LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock1LeafNode)).String()},
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StorageDiff: emptyStorage,
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},
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},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block1BranchRootNode)).String(),
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Content: block1BranchRootNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock1LeafNode)).String(),
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Content: account1AtBlock1LeafNode,
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},
},
},
},
{
"testBlock2",
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//1000 transferred from testBankAddress to account1Addr
//1000 transferred from account1Addr to account2Addr
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sd.Args{
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OldStateRoot: block1.Root(),
NewStateRoot: block2.Root(),
BlockNumber: block2.Number(),
BlockHash: block2.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block2.Number(),
BlockHash: block2.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: contractAccountAtBlock2,
LeafKey: contractLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock2LeafNode)).String()},
StorageDiff: []sdtypes.StorageLeafNode{
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{
Removed: false,
Value: slot0StorageValue,
LeafKey: slot0StorageKey.Bytes(),
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot0StorageLeafNode)).String(),
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},
{
Removed: false,
Value: slot1StorageValue,
LeafKey: slot1StorageKey.Bytes(),
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot1StorageLeafNode)).String(),
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},
},
},
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{
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Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account1AtBlock2,
LeafKey: test_helpers.Account1LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock2LeafNode)).String()},
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StorageDiff: emptyStorage,
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},
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},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.RawBinary, test_helpers.CodeHash.Bytes()).String(),
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Content: test_helpers.ByteCodeAfterDeployment,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block2BranchRootNode)).String(),
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Content: block2BranchRootNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock2LeafNode)).String(),
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Content: contractAccountAtBlock2LeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block2StorageBranchRootNode)).String(),
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Content: block2StorageBranchRootNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot0StorageLeafNode)).String(),
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Content: slot0StorageLeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot1StorageLeafNode)).String(),
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Content: slot1StorageLeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock2LeafNode)).String(),
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Content: account1AtBlock2LeafNode,
},
},
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},
},
{
"testBlock3",
//the contract's storage is changed
//and the block is mined by account 2
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sd.Args{
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OldStateRoot: block2.Root(),
NewStateRoot: block3.Root(),
BlockNumber: block3.Number(),
BlockHash: block3.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block3.Number(),
BlockHash: block3.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: contractAccountAtBlock3,
LeafKey: contractLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock3LeafNode)).String()},
StorageDiff: []sdtypes.StorageLeafNode{
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{
Removed: false,
Value: slot3StorageValue,
LeafKey: slot3StorageKey.Bytes(),
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot3StorageLeafNode)).String(),
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},
},
},
},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block3BranchRootNode)).String(),
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Content: block3BranchRootNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock3LeafNode)).String(),
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Content: contractAccountAtBlock3LeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block3StorageBranchRootNode)).String(),
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Content: block3StorageBranchRootNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot3StorageLeafNode)).String(),
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Content: slot3StorageLeafNode,
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},
},
},
},
}
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for _, workers := range workerCounts {
builder, _ = statediff.NewBuilder(chain.StateCache(), workers)
for _, test := range tests {
diff, err := builder.BuildStateDiffObject(test.startingArguments, params)
if err != nil {
t.Error(err)
}
receivedStateDiffRlp, err := rlp.EncodeToBytes(&diff)
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if err != nil {
t.Error(err)
}
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expectedStateDiffRlp, err := rlp.EncodeToBytes(test.expected)
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if err != nil {
t.Error(err)
}
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sort.Slice(receivedStateDiffRlp, func(i, j int) bool { return receivedStateDiffRlp[i] < receivedStateDiffRlp[j] })
sort.Slice(expectedStateDiffRlp, func(i, j int) bool { return expectedStateDiffRlp[i] < expectedStateDiffRlp[j] })
if !bytes.Equal(receivedStateDiffRlp, expectedStateDiffRlp) {
actual, err := json.Marshal(diff)
if err != nil {
t.Error(err)
}
expected, err := json.Marshal(test.expected)
if err != nil {
t.Error(err)
}
t.Logf("Test failed: %s", test.name)
t.Errorf("actual state diff: %s\r\n\r\n\r\nexpected state diff: %s", actual, expected)
}
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}
}
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// Let's also confirm that our root state nodes form the state root hash in the headers
if !bytes.Equal(block0.Root().Bytes(), crypto.Keccak256(bankAccountAtBlock0LeafNode)) {
t.Errorf("block0 expected root %x does not match actual root %x", block0.Root().Bytes(), crypto.Keccak256(bankAccountAtBlock0LeafNode))
}
if !bytes.Equal(block1.Root().Bytes(), crypto.Keccak256(block1BranchRootNode)) {
t.Errorf("block1 expected root %x does not match actual root %x", block1.Root().Bytes(), crypto.Keccak256(block1BranchRootNode))
}
if !bytes.Equal(block2.Root().Bytes(), crypto.Keccak256(block2BranchRootNode)) {
t.Errorf("block2 expected root %x does not match actual root %x", block2.Root().Bytes(), crypto.Keccak256(block2BranchRootNode))
}
if !bytes.Equal(block3.Root().Bytes(), crypto.Keccak256(block3BranchRootNode)) {
t.Errorf("block3 expected root %x does not match actual root %x", block3.Root().Bytes(), crypto.Keccak256(block3BranchRootNode))
}
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}
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func TestBuilderWithRemovedAccountAndStorage(t *testing.T) {
blocks, chain := test_helpers.MakeChain(6, test_helpers.Genesis, test_helpers.TestChainGen)
contractLeafKey = test_helpers.AddressToLeafKey(test_helpers.ContractAddr)
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defer chain.Stop()
block3 = blocks[2]
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block4 = blocks[3]
block5 = blocks[4]
block6 = blocks[5]
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params := sd.Params{}
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var tests = []struct {
name string
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startingArguments sd.Args
expected *sdtypes.StateObject
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}{
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// blocks 0-3 are the same as in TestBuilderWithIntermediateNodes
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{
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"testBlock4",
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sd.Args{
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OldStateRoot: block3.Root(),
NewStateRoot: block4.Root(),
BlockNumber: block4.Number(),
BlockHash: block4.Hash(),
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},
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&sdtypes.StateObject{
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BlockNumber: block4.Number(),
BlockHash: block4.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: bankAccountAtBlock4,
LeafKey: test_helpers.BankLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock4LeafNode)).String()},
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StorageDiff: emptyStorage,
},
{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: contractAccountAtBlock4,
LeafKey: contractLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock4LeafNode)).String()},
StorageDiff: []sdtypes.StorageLeafNode{
{
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Removed: false,
Value: slot2StorageValue,
LeafKey: slot2StorageKey.Bytes(),
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot2StorageLeafNode)).String(),
},
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{
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Removed: true,
LeafKey: slot1StorageKey.Bytes(),
CID: shared.RemovedNodeStorageCID,
Value: []byte{},
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},
{
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Removed: true,
LeafKey: slot3StorageKey.Bytes(),
CID: shared.RemovedNodeStorageCID,
Value: []byte{},
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},
},
},
{
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Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account2AtBlock4,
LeafKey: test_helpers.Account2LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account2AtBlock4LeafNode)).String()},
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StorageDiff: emptyStorage,
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},
},
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IPLDs: []sdtypes.IPLD{
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block4BranchRootNode)).String(),
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Content: block4BranchRootNode,
},
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock4LeafNode)).String(),
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Content: bankAccountAtBlock4LeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock4LeafNode)).String(),
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Content: contractAccountAtBlock4LeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block4StorageBranchRootNode)).String(),
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Content: block4StorageBranchRootNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot2StorageLeafNode)).String(),
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Content: slot2StorageLeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account2AtBlock4LeafNode)).String(),
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Content: account2AtBlock4LeafNode,
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},
},
},
},
{
"testBlock5",
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sd.Args{
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OldStateRoot: block4.Root(),
NewStateRoot: block5.Root(),
BlockNumber: block5.Number(),
BlockHash: block5.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block5.Number(),
BlockHash: block5.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: bankAccountAtBlock5,
LeafKey: test_helpers.BankLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock5LeafNode)).String()},
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StorageDiff: emptyStorage,
},
{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: contractAccountAtBlock5,
LeafKey: contractLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock5LeafNode)).String()},
StorageDiff: []sdtypes.StorageLeafNode{
{
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Removed: false,
Value: slot3StorageValue,
LeafKey: slot3StorageKey.Bytes(),
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot3StorageLeafNode)).String(),
},
{
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Removed: true,
LeafKey: slot2StorageKey.Bytes(),
CID: shared.RemovedNodeStorageCID,
Value: []byte{},
},
},
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},
{
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Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account1AtBlock5,
LeafKey: test_helpers.Account1LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock5LeafNode)).String()},
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StorageDiff: emptyStorage,
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},
},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block5BranchRootNode)).String(),
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Content: block5BranchRootNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock5LeafNode)).String(),
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Content: bankAccountAtBlock5LeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock5LeafNode)).String(),
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Content: contractAccountAtBlock5LeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block5StorageBranchRootNode)).String(),
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Content: block5StorageBranchRootNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot3StorageLeafNode)).String(),
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Content: slot3StorageLeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock5LeafNode)).String(),
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Content: account1AtBlock5LeafNode,
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},
},
},
},
{
"testBlock6",
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sd.Args{
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OldStateRoot: block5.Root(),
NewStateRoot: block6.Root(),
BlockNumber: block6.Number(),
BlockHash: block6.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block6.Number(),
BlockHash: block6.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: true,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: nil,
LeafKey: contractLeafKey,
CID: shared.RemovedNodeStateCID},
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StorageDiff: []sdtypes.StorageLeafNode{
{
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Removed: true,
LeafKey: slot0StorageKey.Bytes(),
CID: shared.RemovedNodeStorageCID,
Value: []byte{},
},
{
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Removed: true,
LeafKey: slot3StorageKey.Bytes(),
CID: shared.RemovedNodeStorageCID,
Value: []byte{},
},
},
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},
{
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Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account2AtBlock6,
LeafKey: test_helpers.Account2LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account2AtBlock6LeafNode)).String()},
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StorageDiff: emptyStorage,
},
{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account1AtBlock6,
LeafKey: test_helpers.Account1LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock6LeafNode)).String()},
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StorageDiff: emptyStorage,
},
},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block6BranchRootNode)).String(),
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Content: block6BranchRootNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account2AtBlock6LeafNode)).String(),
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Content: account2AtBlock6LeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock6LeafNode)).String(),
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Content: account1AtBlock6LeafNode,
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},
},
},
},
}
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for _, workers := range workerCounts {
builder, _ = statediff.NewBuilder(chain.StateCache(), workers)
for _, test := range tests {
diff, err := builder.BuildStateDiffObject(test.startingArguments, params)
if err != nil {
t.Error(err)
}
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receivedStateDiffRlp, err := rlp.EncodeToBytes(&diff)
if err != nil {
t.Error(err)
}
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expectedStateDiffRlp, err := rlp.EncodeToBytes(test.expected)
if err != nil {
t.Error(err)
}
sort.Slice(receivedStateDiffRlp, func(i, j int) bool { return receivedStateDiffRlp[i] < receivedStateDiffRlp[j] })
sort.Slice(expectedStateDiffRlp, func(i, j int) bool { return expectedStateDiffRlp[i] < expectedStateDiffRlp[j] })
if !bytes.Equal(receivedStateDiffRlp, expectedStateDiffRlp) {
actual, err := json.Marshal(diff)
if err != nil {
t.Error(err)
}
expected, err := json.Marshal(test.expected)
if err != nil {
t.Error(err)
}
t.Logf("Test failed: %s", test.name)
t.Errorf("actual state diff: %s\r\n\r\n\r\nexpected state diff: %s", actual, expected)
}
}
}
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// Let's also confirm that our root state nodes form the state root hash in the headers
if !bytes.Equal(block4.Root().Bytes(), crypto.Keccak256(block4BranchRootNode)) {
t.Errorf("block4 expected root %x does not match actual root %x", block4.Root().Bytes(), crypto.Keccak256(block4BranchRootNode))
}
if !bytes.Equal(block5.Root().Bytes(), crypto.Keccak256(block5BranchRootNode)) {
t.Errorf("block5 expected root %x does not match actual root %x", block5.Root().Bytes(), crypto.Keccak256(block5BranchRootNode))
}
if !bytes.Equal(block6.Root().Bytes(), crypto.Keccak256(block6BranchRootNode)) {
t.Errorf("block6 expected root %x does not match actual root %x", block6.Root().Bytes(), crypto.Keccak256(block6BranchRootNode))
}
}
func TestBuilderWithRemovedNonWatchedAccount(t *testing.T) {
blocks, chain := test_helpers.MakeChain(6, test_helpers.Genesis, test_helpers.TestChainGen)
contractLeafKey = test_helpers.AddressToLeafKey(test_helpers.ContractAddr)
defer chain.Stop()
block3 = blocks[2]
block4 = blocks[3]
block5 = blocks[4]
block6 = blocks[5]
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params := sd.Params{
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WatchedAddresses: []common.Address{test_helpers.Account1Addr, test_helpers.Account2Addr},
}
params.ComputeWatchedAddressesLeafPaths()
var tests = []struct {
name string
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startingArguments sd.Args
expected *sdtypes.StateObject
}{
{
"testBlock4",
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sd.Args{
OldStateRoot: block3.Root(),
NewStateRoot: block4.Root(),
BlockNumber: block4.Number(),
BlockHash: block4.Hash(),
},
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&sdtypes.StateObject{
BlockNumber: block4.Number(),
BlockHash: block4.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account2AtBlock4,
LeafKey: test_helpers.Account2LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account2AtBlock4LeafNode)).String()},
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StorageDiff: emptyStorage,
},
},
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IPLDs: []sdtypes.IPLD{
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block4BranchRootNode)).String(),
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Content: block4BranchRootNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account2AtBlock4LeafNode)).String(),
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Content: account2AtBlock4LeafNode,
},
},
},
},
{
"testBlock5",
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sd.Args{
OldStateRoot: block4.Root(),
NewStateRoot: block5.Root(),
BlockNumber: block5.Number(),
BlockHash: block5.Hash(),
},
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&sdtypes.StateObject{
BlockNumber: block5.Number(),
BlockHash: block5.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account1AtBlock5,
LeafKey: test_helpers.Account1LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock5LeafNode)).String()},
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StorageDiff: emptyStorage,
},
},
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IPLDs: []sdtypes.IPLD{
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block5BranchRootNode)).String(),
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Content: block5BranchRootNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock5LeafNode)).String(),
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Content: account1AtBlock5LeafNode,
},
},
},
},
{
"testBlock6",
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sd.Args{
OldStateRoot: block5.Root(),
NewStateRoot: block6.Root(),
BlockNumber: block6.Number(),
BlockHash: block6.Hash(),
},
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&sdtypes.StateObject{
BlockNumber: block6.Number(),
BlockHash: block6.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account2AtBlock6,
LeafKey: test_helpers.Account2LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account2AtBlock6LeafNode)).String()},
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StorageDiff: emptyStorage,
},
{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account1AtBlock6,
LeafKey: test_helpers.Account1LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock6LeafNode)).String()},
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StorageDiff: emptyStorage,
},
},
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IPLDs: []sdtypes.IPLD{
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block6BranchRootNode)).String(),
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Content: block6BranchRootNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account2AtBlock6LeafNode)).String(),
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Content: account2AtBlock6LeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock6LeafNode)).String(),
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Content: account1AtBlock6LeafNode,
},
},
},
},
}
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for _, workers := range workerCounts {
builder, _ = statediff.NewBuilder(chain.StateCache(), workers)
for _, test := range tests {
diff, err := builder.BuildStateDiffObject(test.startingArguments, params)
if err != nil {
t.Error(err)
}
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receivedStateDiffRlp, err := rlp.EncodeToBytes(&diff)
if err != nil {
t.Error(err)
}
expectedStateDiffRlp, err := rlp.EncodeToBytes(test.expected)
if err != nil {
t.Error(err)
}
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sort.Slice(receivedStateDiffRlp, func(i, j int) bool { return receivedStateDiffRlp[i] < receivedStateDiffRlp[j] })
sort.Slice(expectedStateDiffRlp, func(i, j int) bool { return expectedStateDiffRlp[i] < expectedStateDiffRlp[j] })
if !bytes.Equal(receivedStateDiffRlp, expectedStateDiffRlp) {
actual, err := json.Marshal(diff)
if err != nil {
t.Error(err)
}
expected, err := json.Marshal(test.expected)
if err != nil {
t.Error(err)
}
t.Logf("Test failed: %s", test.name)
t.Errorf("actual state diff: %s\r\n\r\n\r\nexpected state diff: %s", actual, expected)
}
}
}
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// Let's also confirm that our root state nodes form the state root hash in the headers
if !bytes.Equal(block4.Root().Bytes(), crypto.Keccak256(block4BranchRootNode)) {
t.Errorf("block4 expected root %x does not match actual root %x", block4.Root().Bytes(), crypto.Keccak256(block4BranchRootNode))
}
if !bytes.Equal(block5.Root().Bytes(), crypto.Keccak256(block5BranchRootNode)) {
t.Errorf("block5 expected root %x does not match actual root %x", block5.Root().Bytes(), crypto.Keccak256(block5BranchRootNode))
}
if !bytes.Equal(block6.Root().Bytes(), crypto.Keccak256(block6BranchRootNode)) {
t.Errorf("block6 expected root %x does not match actual root %x", block6.Root().Bytes(), crypto.Keccak256(block6BranchRootNode))
}
}
func TestBuilderWithRemovedWatchedAccount(t *testing.T) {
blocks, chain := test_helpers.MakeChain(6, test_helpers.Genesis, test_helpers.TestChainGen)
contractLeafKey = test_helpers.AddressToLeafKey(test_helpers.ContractAddr)
defer chain.Stop()
block3 = blocks[2]
block4 = blocks[3]
block5 = blocks[4]
block6 = blocks[5]
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params := sd.Params{
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WatchedAddresses: []common.Address{test_helpers.Account1Addr, test_helpers.ContractAddr},
}
params.ComputeWatchedAddressesLeafPaths()
var tests = []struct {
name string
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startingArguments sd.Args
expected *sdtypes.StateObject
}{
{
"testBlock4",
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sd.Args{
OldStateRoot: block3.Root(),
NewStateRoot: block4.Root(),
BlockNumber: block4.Number(),
BlockHash: block4.Hash(),
},
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&sdtypes.StateObject{
BlockNumber: block4.Number(),
BlockHash: block4.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: contractAccountAtBlock4,
LeafKey: contractLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock4LeafNode)).String()},
StorageDiff: []sdtypes.StorageLeafNode{
{
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Removed: false,
LeafKey: slot2StorageKey.Bytes(),
Value: slot2StorageValue,
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot2StorageLeafNode)).String(),
},
{
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Removed: true,
LeafKey: slot1StorageKey.Bytes(),
CID: shared.RemovedNodeStorageCID,
Value: []byte{},
},
{
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Removed: true,
LeafKey: slot3StorageKey.Bytes(),
CID: shared.RemovedNodeStorageCID,
Value: []byte{},
},
},
},
},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block4BranchRootNode)).String(),
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Content: block4BranchRootNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock4LeafNode)).String(),
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Content: contractAccountAtBlock4LeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block4StorageBranchRootNode)).String(),
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Content: block4StorageBranchRootNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot2StorageLeafNode)).String(),
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Content: slot2StorageLeafNode,
},
},
},
},
{
"testBlock5",
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sd.Args{
OldStateRoot: block4.Root(),
NewStateRoot: block5.Root(),
BlockNumber: block5.Number(),
BlockHash: block5.Hash(),
},
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&sdtypes.StateObject{
BlockNumber: block5.Number(),
BlockHash: block5.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: contractAccountAtBlock5,
LeafKey: contractLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock5LeafNode)).String()},
StorageDiff: []sdtypes.StorageLeafNode{
{
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Removed: false,
LeafKey: slot3StorageKey.Bytes(),
Value: slot3StorageValue,
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot3StorageLeafNode)).String(),
},
{
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Removed: true,
LeafKey: slot2StorageKey.Bytes(),
CID: shared.RemovedNodeStorageCID,
Value: []byte{},
},
},
},
{
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Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account1AtBlock5,
LeafKey: test_helpers.Account1LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock5LeafNode)).String()},
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StorageDiff: emptyStorage,
},
},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block5BranchRootNode)).String(),
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Content: block5BranchRootNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock5LeafNode)).String(),
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Content: contractAccountAtBlock5LeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block5StorageBranchRootNode)).String(),
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Content: block5StorageBranchRootNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot3StorageLeafNode)).String(),
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Content: slot3StorageLeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock5LeafNode)).String(),
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Content: account1AtBlock5LeafNode,
},
},
},
},
{
"testBlock6",
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sd.Args{
OldStateRoot: block5.Root(),
NewStateRoot: block6.Root(),
BlockNumber: block6.Number(),
BlockHash: block6.Hash(),
},
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&sdtypes.StateObject{
BlockNumber: block6.Number(),
BlockHash: block6.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: true,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: nil,
LeafKey: contractLeafKey,
CID: shared.RemovedNodeStateCID},
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StorageDiff: []sdtypes.StorageLeafNode{
{
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Removed: true,
LeafKey: slot0StorageKey.Bytes(),
CID: shared.RemovedNodeStorageCID,
Value: []byte{},
},
{
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Removed: true,
LeafKey: slot3StorageKey.Bytes(),
CID: shared.RemovedNodeStorageCID,
Value: []byte{},
},
},
},
{
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Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account1AtBlock6,
LeafKey: test_helpers.Account1LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock6LeafNode)).String()},
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StorageDiff: emptyStorage,
},
},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block6BranchRootNode)).String(),
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Content: block6BranchRootNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock6LeafNode)).String(),
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Content: account1AtBlock6LeafNode,
},
},
},
},
}
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for _, workers := range workerCounts {
builder, _ = statediff.NewBuilder(chain.StateCache(), workers)
for _, test := range tests {
diff, err := builder.BuildStateDiffObject(test.startingArguments, params)
if err != nil {
t.Error(err)
}
receivedStateDiffRlp, err := rlp.EncodeToBytes(&diff)
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if err != nil {
t.Error(err)
}
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expectedStateDiffRlp, err := rlp.EncodeToBytes(test.expected)
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if err != nil {
t.Error(err)
}
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sort.Slice(receivedStateDiffRlp, func(i, j int) bool { return receivedStateDiffRlp[i] < receivedStateDiffRlp[j] })
sort.Slice(expectedStateDiffRlp, func(i, j int) bool { return expectedStateDiffRlp[i] < expectedStateDiffRlp[j] })
if !bytes.Equal(receivedStateDiffRlp, expectedStateDiffRlp) {
actual, err := json.Marshal(diff)
if err != nil {
t.Error(err)
}
expected, err := json.Marshal(test.expected)
if err != nil {
t.Error(err)
}
t.Logf("Test failed: %s", test.name)
t.Errorf("actual state diff: %s\r\n\r\n\r\nexpected state diff: %s", actual, expected)
}
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}
}
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// Let's also confirm that our root state nodes form the state root hash in the headers
if !bytes.Equal(block4.Root().Bytes(), crypto.Keccak256(block4BranchRootNode)) {
t.Errorf("block4 expected root %x does not match actual root %x", block4.Root().Bytes(), crypto.Keccak256(block4BranchRootNode))
}
if !bytes.Equal(block5.Root().Bytes(), crypto.Keccak256(block5BranchRootNode)) {
t.Errorf("block5 expected root %x does not match actual root %x", block5.Root().Bytes(), crypto.Keccak256(block5BranchRootNode))
}
if !bytes.Equal(block6.Root().Bytes(), crypto.Keccak256(block6BranchRootNode)) {
t.Errorf("block6 expected root %x does not match actual root %x", block6.Root().Bytes(), crypto.Keccak256(block6BranchRootNode))
}
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}
var (
slot00StorageValue = common.Hex2Bytes("9471562b71999873db5b286df957af199ec94617f7") // prefixed TestBankAddress
slot00StorageLeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("390decd9548b62a8d60345a988386fc84ba6bc95484008f6362f93160ef3e563"),
slot00StorageValue,
})
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contractAccountAtBlock01 = &types.StateAccount{
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Nonce: 1,
Balance: big.NewInt(0),
CodeHash: common.HexToHash("0xaaea5efba4fd7b45d7ec03918ac5d8b31aa93b48986af0e6b591f0f087c80127").Bytes(),
Root: crypto.Keccak256Hash(block01StorageBranchRootNode),
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}
contractAccountAtBlock01RLP, _ = rlp.EncodeToBytes(contractAccountAtBlock01)
contractAccountAtBlock01LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("3cb2583748c26e89ef19c2a8529b05a270f735553b4d44b6f2a1894987a71c8b"),
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contractAccountAtBlock01RLP,
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})
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bankAccountAtBlock01 = &types.StateAccount{
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Nonce: 1,
Balance: big.NewInt(3999629697375000000),
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
bankAccountAtBlock01RLP, _ = rlp.EncodeToBytes(bankAccountAtBlock01)
bankAccountAtBlock01LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("30bf49f440a1cd0527e4d06e2765654c0f56452257516d793a9b8d604dcfdf2a"),
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bankAccountAtBlock01RLP,
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})
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bankAccountAtBlock02 = &types.StateAccount{
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Nonce: 2,
Balance: big.NewInt(5999607323457344852),
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
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}
bankAccountAtBlock02RLP, _ = rlp.EncodeToBytes(bankAccountAtBlock02)
bankAccountAtBlock02LeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
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common.Hex2Bytes("2000bf49f440a1cd0527e4d06e2765654c0f56452257516d793a9b8d604dcfdf2a"),
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bankAccountAtBlock02RLP,
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})
block01BranchRootNode, _ = rlp.EncodeToBytes(&[]interface{}{
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crypto.Keccak256Hash(bankAccountAtBlock01LeafNode),
crypto.Keccak256Hash(contractAccountAtBlock01LeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
})
block01StorageBranchRootNode, _ = rlp.EncodeToBytes(&[]interface{}{
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[]byte{},
[]byte{},
crypto.Keccak256(slot00StorageLeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(slot1StorageLeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
})
)
func TestBuilderWithMovedAccount(t *testing.T) {
blocks, chain := test_helpers.MakeChain(2, test_helpers.Genesis, test_helpers.TestSelfDestructChainGen)
contractLeafKey = test_helpers.AddressToLeafKey(test_helpers.ContractAddr)
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defer chain.Stop()
block0 = test_helpers.Genesis
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block1 = blocks[0]
block2 = blocks[1]
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params := sd.Params{}
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var tests = []struct {
name string
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startingArguments sd.Args
expected *sdtypes.StateObject
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}{
{
"testBlock1",
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sd.Args{
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OldStateRoot: block0.Root(),
NewStateRoot: block1.Root(),
BlockNumber: block1.Number(),
BlockHash: block1.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block1.Number(),
BlockHash: block1.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: bankAccountAtBlock01,
LeafKey: test_helpers.BankLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock01LeafNode)).String()},
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StorageDiff: emptyStorage,
},
{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: contractAccountAtBlock01,
LeafKey: contractLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock01LeafNode)).String()},
StorageDiff: []sdtypes.StorageLeafNode{
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{
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Removed: false,
LeafKey: slot0StorageKey.Bytes(),
Value: slot00StorageValue,
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot00StorageLeafNode)).String(),
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},
{
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Removed: false,
LeafKey: slot1StorageKey.Bytes(),
Value: slot1StorageValue,
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot1StorageLeafNode)).String(),
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},
},
},
},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.RawBinary, test_helpers.CodeHash.Bytes()).String(),
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Content: test_helpers.ByteCodeAfterDeployment,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block01BranchRootNode)).String(),
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Content: block01BranchRootNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock01LeafNode)).String(),
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Content: bankAccountAtBlock01LeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock01LeafNode)).String(),
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Content: contractAccountAtBlock01LeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block01StorageBranchRootNode)).String(),
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Content: block01StorageBranchRootNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot00StorageLeafNode)).String(),
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Content: slot00StorageLeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot1StorageLeafNode)).String(),
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Content: slot1StorageLeafNode,
},
},
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},
},
{
"testBlock2",
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sd.Args{
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OldStateRoot: block1.Root(),
NewStateRoot: block2.Root(),
BlockNumber: block2.Number(),
BlockHash: block2.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block2.Number(),
BlockHash: block2.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: bankAccountAtBlock02,
LeafKey: test_helpers.BankLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock02LeafNode)).String()},
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StorageDiff: emptyStorage,
},
{
Removed: true,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: nil,
LeafKey: contractLeafKey,
CID: shared.RemovedNodeStateCID},
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StorageDiff: []sdtypes.StorageLeafNode{
{
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Removed: true,
LeafKey: slot0StorageKey.Bytes(),
CID: shared.RemovedNodeStorageCID,
Value: []byte{},
},
{
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Removed: true,
LeafKey: slot1StorageKey.Bytes(),
CID: shared.RemovedNodeStorageCID,
Value: []byte{},
},
},
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},
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},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock02LeafNode)).String(),
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Content: bankAccountAtBlock02LeafNode,
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},
},
},
},
}
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for _, workers := range workerCounts {
builder, _ = statediff.NewBuilder(chain.StateCache(), workers)
for _, test := range tests {
diff, err := builder.BuildStateDiffObject(test.startingArguments, params)
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if err != nil {
t.Error(err)
}
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receivedStateDiffRlp, err := rlp.EncodeToBytes(&diff)
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if err != nil {
t.Error(err)
}
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expectedStateDiffRlp, err := rlp.EncodeToBytes(test.expected)
if err != nil {
t.Error(err)
}
sort.Slice(receivedStateDiffRlp, func(i, j int) bool { return receivedStateDiffRlp[i] < receivedStateDiffRlp[j] })
sort.Slice(expectedStateDiffRlp, func(i, j int) bool { return expectedStateDiffRlp[i] < expectedStateDiffRlp[j] })
if !bytes.Equal(receivedStateDiffRlp, expectedStateDiffRlp) {
actual, err := json.Marshal(diff)
if err != nil {
t.Error(err)
}
expected, err := json.Marshal(test.expected)
if err != nil {
t.Error(err)
}
t.Logf("Test failed: %s", test.name)
t.Errorf("actual state diff: %s\r\n\r\n\r\nexpected state diff: %s", actual, expected)
}
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}
}
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// Let's also confirm that our root state nodes form the state root hash in the headers
if !bytes.Equal(block1.Root().Bytes(), crypto.Keccak256(block01BranchRootNode)) {
t.Errorf("block01 expected root %x does not match actual root %x", block1.Root().Bytes(), crypto.Keccak256(block01BranchRootNode))
}
if !bytes.Equal(block2.Root().Bytes(), crypto.Keccak256(bankAccountAtBlock02LeafNode)) {
t.Errorf("block02 expected root %x does not match actual root %x", block2.Root().Bytes(), crypto.Keccak256(bankAccountAtBlock02LeafNode))
}
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}
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/*
pragma solidity ^0.5.10;
contract test {
address payable owner;
modifier onlyOwner {
require(
msg.sender == owner,
"Only owner can call this function."
);
_;
}
uint256[100] data;
constructor() public {
owner = msg.sender;
data = [1];
}
function Put(uint256 addr, uint256 value) public {
data[addr] = value;
}
function close() public onlyOwner { //onlyOwner is custom modifier
selfdestruct(owner); // `owner` is the owners address
}
}
*/
var (
b = big.NewInt(0).Sub(test_helpers.TestBIGBankFunds, test_helpers.BalanceChangeBIG)
block1BankBigBalance = big.NewInt(0).Sub(b, big.NewInt(test_helpers.GasFees2))
bankAccountAtBlock1b = &types.StateAccount{
Nonce: 1,
Balance: block1BankBigBalance,
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
}
bankAccountAtBlock1bRLP, _ = rlp.EncodeToBytes(bankAccountAtBlock1b)
bankAccountAtBlock1bLeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
common.Hex2Bytes("30bf49f440a1cd0527e4d06e2765654c0f56452257516d793a9b8d604dcfdf2a"),
bankAccountAtBlock1bRLP,
})
account1AtBlock1b = &types.StateAccount{
Nonce: 0,
Balance: test_helpers.Block1bAccount1Balance,
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
}
account1AtBlock1bRLP, _ = rlp.EncodeToBytes(account1AtBlock1b)
account1AtBlock1bLeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
common.Hex2Bytes("3926db69aaced518e9b9f0f434a473e7174109c943548bb8f23be41ca76d9ad2"),
account1AtBlock1bRLP,
})
account1AtBlock2bBalance, _ = big.NewInt(0).SetString("1999999999999999999999999761539571000000000", 10)
account1AtBlock2b = &types.StateAccount{
Nonce: 1,
Balance: account1AtBlock2bBalance,
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
}
account1AtBlock2bRLP, _ = rlp.EncodeToBytes(account1AtBlock2b)
account1AtBlock2bLeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
common.Hex2Bytes("3926db69aaced518e9b9f0f434a473e7174109c943548bb8f23be41ca76d9ad2"),
account1AtBlock2bRLP,
})
minerAccountAtBlock2b = &types.StateAccount{
Nonce: 0,
Balance: big.NewInt(4055891787808414571),
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
}
minerAccountAtBlock2bRLP, _ = rlp.EncodeToBytes(minerAccountAtBlock2b)
minerAccountAtBlock2bLeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
common.Hex2Bytes("3380c7b7ae81a58eb98d9c78de4a1fd7fd9535fc953ed2be602daaa41767312a"),
minerAccountAtBlock2bRLP,
})
contractAccountAtBlock2b = &types.StateAccount{
Nonce: 1,
Balance: big.NewInt(0),
CodeHash: test_helpers.CodeHashForInternalizedLeafNode.Bytes(),
Root: crypto.Keccak256Hash(block2StorageBranchRootNode),
}
contractAccountAtBlock2bRLP, _ = rlp.EncodeToBytes(contractAccountAtBlock2b)
contractAccountAtBlock2bLeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
common.Hex2Bytes("3d7e14f1723fa19b5d6d9f8b86b49acefbc9c400bf4ed686c10d6b6467fc5b3a"),
contractAccountAtBlock2bRLP,
})
bankAccountAtBlock3bBalance, _ = big.NewInt(0).SetString("18000000000000000000000001999920365757724976", 10)
bankAccountAtBlock3b = &types.StateAccount{
Nonce: 3,
Balance: bankAccountAtBlock3bBalance,
CodeHash: test_helpers.NullCodeHash.Bytes(),
Root: test_helpers.EmptyContractRoot,
}
bankAccountAtBlock3bRLP, _ = rlp.EncodeToBytes(bankAccountAtBlock3b)
bankAccountAtBlock3bLeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
common.Hex2Bytes("30bf49f440a1cd0527e4d06e2765654c0f56452257516d793a9b8d604dcfdf2a"),
bankAccountAtBlock3bRLP,
})
contractAccountAtBlock3b = &types.StateAccount{
Nonce: 1,
Balance: big.NewInt(0),
CodeHash: test_helpers.CodeHashForInternalizedLeafNode.Bytes(),
Root: crypto.Keccak256Hash(block3bStorageBranchRootNode),
}
contractAccountAtBlock3bRLP, _ = rlp.EncodeToBytes(contractAccountAtBlock3b)
contractAccountAtBlock3bLeafNode, _ = rlp.EncodeToBytes(&[]interface{}{
common.Hex2Bytes("3d7e14f1723fa19b5d6d9f8b86b49acefbc9c400bf4ed686c10d6b6467fc5b3a"),
contractAccountAtBlock3bRLP,
})
slot40364 = common.BigToHash(big.NewInt(40364))
slot105566 = common.BigToHash(big.NewInt(105566))
slot40364StorageValue = common.Hex2Bytes("01")
slot105566StorageValue = common.Hex2Bytes("02")
slot40364StorageKey = crypto.Keccak256Hash(slot40364[:])
slot105566StorageKey = crypto.Keccak256Hash(slot105566[:])
slot40364StorageInternalLeafNode = []interface{}{
common.Hex2Bytes("3077bbc951a04529defc15da8c06e427cde0d7a1499c50975bbe8aab"),
slot40364StorageValue,
}
slot105566StorageInternalLeafNode = []interface{}{
common.Hex2Bytes("3c62586c18bf1ecfda161ced374b7a894630e2db426814c24e5d42af"),
slot105566StorageValue,
}
block3bStorageBranchRootNode, _ = rlp.EncodeToBytes(&[]interface{}{
[]byte{},
[]byte{},
crypto.Keccak256(slot0StorageLeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(slot1StorageLeafNode),
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(block3bStorageExtensionNode),
[]byte{},
})
block3bStorageExtensionNode, _ = rlp.EncodeToBytes(&[]interface{}{
common.Hex2Bytes("1291631c"),
crypto.Keccak256(block3bStorageBranchNodeWithInternalLeaves),
})
block3bStorageBranchNodeWithInternalLeaves, _ = rlp.EncodeToBytes(&[]interface{}{
slot105566StorageInternalLeafNode,
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
slot40364StorageInternalLeafNode,
[]byte{},
[]byte{},
[]byte{},
})
block1bBranchRootNode, _ = rlp.EncodeToBytes(&[]interface{}{
crypto.Keccak256(bankAccountAtBlock1bLeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(minerAccountAtBlock1LeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(account1AtBlock1bLeafNode),
[]byte{},
[]byte{},
})
block2bBranchRootNode, _ = rlp.EncodeToBytes(&[]interface{}{
crypto.Keccak256(bankAccountAtBlock1bLeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(minerAccountAtBlock2bLeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(account1AtBlock2bLeafNode),
crypto.Keccak256(contractAccountAtBlock2bLeafNode),
[]byte{},
})
block3bBranchRootNode, _ = rlp.EncodeToBytes(&[]interface{}{
crypto.Keccak256(bankAccountAtBlock3bLeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(minerAccountAtBlock2bLeafNode),
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
[]byte{},
crypto.Keccak256(account1AtBlock2bLeafNode),
crypto.Keccak256(contractAccountAtBlock3bLeafNode),
[]byte{},
})
)
func TestBuilderWithInternalizedLeafNode(t *testing.T) {
blocks, chain := test_helpers.MakeChain(3, test_helpers.GenesisForInternalLeafNodeTest, test_helpers.TestChainGenWithInternalLeafNode)
contractLeafKey = test_helpers.AddressToLeafKey(test_helpers.ContractAddr)
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defer chain.Stop()
block0 = test_helpers.Genesis
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block1 = blocks[0]
block2 = blocks[1]
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block3 = blocks[2]
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params := sd.Params{}
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var tests = []struct {
name string
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startingArguments sd.Args
expected *sdtypes.StateObject
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}{
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{
"testEmptyDiff",
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sd.Args{
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OldStateRoot: block0.Root(),
NewStateRoot: block0.Root(),
BlockNumber: block0.Number(),
BlockHash: block0.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block0.Number(),
BlockHash: block0.Hash(),
Nodes: emptyDiffs,
},
},
{
"testBlock0",
//10000 transferred from testBankAddress to account1Addr
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sd.Args{
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OldStateRoot: test_helpers.NullHash,
NewStateRoot: block0.Root(),
BlockNumber: block0.Number(),
BlockHash: block0.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block0.Number(),
BlockHash: block0.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: bankAccountAtBlock0,
LeafKey: test_helpers.BankLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock0LeafNode)).String()},
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StorageDiff: emptyStorage,
},
},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock0LeafNode)).String(),
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Content: bankAccountAtBlock0LeafNode,
},
},
},
},
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{
"testBlock1",
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//10000 transferred from testBankAddress to account1Addr
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sd.Args{
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OldStateRoot: block0.Root(),
NewStateRoot: block1.Root(),
BlockNumber: block1.Number(),
BlockHash: block1.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block1.Number(),
BlockHash: block1.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: bankAccountAtBlock1b,
LeafKey: test_helpers.BankLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock1bLeafNode)).String()},
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StorageDiff: emptyStorage,
},
{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: minerAccountAtBlock1,
LeafKey: minerLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(minerAccountAtBlock1LeafNode)).String()},
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StorageDiff: emptyStorage,
},
{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account1AtBlock1b,
LeafKey: test_helpers.Account1LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock1bLeafNode)).String()},
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StorageDiff: emptyStorage,
},
},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block1bBranchRootNode)).String(),
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Content: block1bBranchRootNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock1bLeafNode)).String(),
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Content: bankAccountAtBlock1bLeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(minerAccountAtBlock1LeafNode)).String(),
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Content: minerAccountAtBlock1LeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock1bLeafNode)).String(),
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Content: account1AtBlock1bLeafNode,
},
},
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},
},
{
"testBlock2",
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// 1000 transferred from testBankAddress to account1Addr
// 1000 transferred from account1Addr to account2Addr
// account1addr creates a new contract
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sd.Args{
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OldStateRoot: block1.Root(),
NewStateRoot: block2.Root(),
BlockNumber: block2.Number(),
BlockHash: block2.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block2.Number(),
BlockHash: block2.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: minerAccountAtBlock2b,
LeafKey: minerLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(minerAccountAtBlock2bLeafNode)).String()},
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StorageDiff: emptyStorage,
},
{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: account1AtBlock2b,
LeafKey: test_helpers.Account1LeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock2bLeafNode)).String()},
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StorageDiff: emptyStorage,
},
{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: contractAccountAtBlock2b,
LeafKey: contractLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock2bLeafNode)).String()},
StorageDiff: []sdtypes.StorageLeafNode{
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{
Removed: false,
Value: slot0StorageValue,
LeafKey: slot0StorageKey.Bytes(),
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot0StorageLeafNode)).String(),
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},
{
Removed: false,
Value: slot1StorageValue,
LeafKey: slot1StorageKey.Bytes(),
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot1StorageLeafNode)).String(),
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},
},
},
},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.RawBinary, test_helpers.CodeHashForInternalizedLeafNode.Bytes()).String(),
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Content: test_helpers.ByteCodeAfterDeploymentForInternalLeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block2bBranchRootNode)).String(),
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Content: block2bBranchRootNode,
},
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(minerAccountAtBlock2bLeafNode)).String(),
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Content: minerAccountAtBlock2bLeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(account1AtBlock2bLeafNode)).String(),
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Content: account1AtBlock2bLeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock2bLeafNode)).String(),
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Content: contractAccountAtBlock2bLeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block2StorageBranchRootNode)).String(),
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Content: block2StorageBranchRootNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot0StorageLeafNode)).String(),
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Content: slot0StorageLeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot1StorageLeafNode)).String(),
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Content: slot1StorageLeafNode,
},
},
},
},
{
"testBlock3",
//the contract's storage is changed
//and the block is mined by account 2
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sd.Args{
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OldStateRoot: block2.Root(),
NewStateRoot: block3.Root(),
BlockNumber: block3.Number(),
BlockHash: block3.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block3.Number(),
BlockHash: block3.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: bankAccountAtBlock3b,
LeafKey: test_helpers.BankLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock3bLeafNode)).String()},
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StorageDiff: emptyStorage,
},
{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: contractAccountAtBlock3b,
LeafKey: contractLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock3bLeafNode)).String()},
StorageDiff: []sdtypes.StorageLeafNode{
{
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Removed: false,
Value: slot105566StorageValue,
LeafKey: slot105566StorageKey.Bytes(),
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block3bStorageBranchNodeWithInternalLeaves)).String(),
},
{
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Removed: false,
Value: slot40364StorageValue,
LeafKey: slot40364StorageKey.Bytes(),
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block3bStorageBranchNodeWithInternalLeaves)).String(),
},
},
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},
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},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block3bBranchRootNode)).String(),
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Content: block3bBranchRootNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(bankAccountAtBlock3bLeafNode)).String(),
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Content: bankAccountAtBlock3bLeafNode,
},
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock3bLeafNode)).String(),
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Content: contractAccountAtBlock3bLeafNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block3bStorageBranchRootNode)).String(),
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Content: block3bStorageBranchRootNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block3bStorageExtensionNode)).String(),
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Content: block3bStorageExtensionNode,
},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block3bStorageBranchNodeWithInternalLeaves)).String(),
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Content: block3bStorageBranchNodeWithInternalLeaves,
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},
},
},
},
}
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for _, workers := range workerCounts {
builder, _ = statediff.NewBuilder(chain.StateCache(), workers)
for _, test := range tests {
diff, err := builder.BuildStateDiffObject(test.startingArguments, params)
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if err != nil {
t.Error(err)
}
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receivedStateDiffRlp, err := rlp.EncodeToBytes(&diff)
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if err != nil {
t.Error(err)
}
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expectedStateDiffRlp, err := rlp.EncodeToBytes(test.expected)
if err != nil {
t.Error(err)
}
sort.Slice(receivedStateDiffRlp, func(i, j int) bool { return receivedStateDiffRlp[i] < receivedStateDiffRlp[j] })
sort.Slice(expectedStateDiffRlp, func(i, j int) bool { return expectedStateDiffRlp[i] < expectedStateDiffRlp[j] })
if !bytes.Equal(receivedStateDiffRlp, expectedStateDiffRlp) {
actual, err := json.Marshal(diff)
if err != nil {
t.Error(err)
}
expected, err := json.Marshal(test.expected)
if err != nil {
t.Error(err)
}
t.Logf("Test failed: %s", test.name)
t.Errorf("actual state diff: %s\r\n\r\n\r\nexpected state diff: %s", actual, expected)
}
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}
}
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// Let's also confirm that our root state nodes form the state root hash in the headers
if !bytes.Equal(block1.Root().Bytes(), crypto.Keccak256(block1bBranchRootNode)) {
t.Errorf("block1 expected root %x does not match actual root %x", block1.Root().Bytes(), crypto.Keccak256(block1bBranchRootNode))
}
if !bytes.Equal(block2.Root().Bytes(), crypto.Keccak256(block2bBranchRootNode)) {
t.Errorf("block2 expected root %x does not match actual root %x", block2.Root().Bytes(), crypto.Keccak256(block2bBranchRootNode))
}
if !bytes.Equal(block3.Root().Bytes(), crypto.Keccak256(block3bBranchRootNode)) {
t.Errorf("block3 expected root %x does not match actual root %x", block3.Root().Bytes(), crypto.Keccak256(block3bBranchRootNode))
}
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}
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func TestBuilderWithInternalizedLeafNodeAndWatchedAddress(t *testing.T) {
blocks, chain := test_helpers.MakeChain(3, test_helpers.GenesisForInternalLeafNodeTest, test_helpers.TestChainGenWithInternalLeafNode)
contractLeafKey = test_helpers.AddressToLeafKey(test_helpers.ContractAddr)
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defer chain.Stop()
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block0 = test_helpers.Genesis
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block1 = blocks[0]
block2 = blocks[1]
block3 = blocks[2]
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params := sd.Params{
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WatchedAddresses: []common.Address{
test_helpers.ContractAddr,
},
}
params.ComputeWatchedAddressesLeafPaths()
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var tests = []struct {
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name string
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startingArguments sd.Args
expected *sdtypes.StateObject
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}{
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{
"testEmptyDiff",
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sd.Args{
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OldStateRoot: block0.Root(),
NewStateRoot: block0.Root(),
BlockNumber: block0.Number(),
BlockHash: block0.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block0.Number(),
BlockHash: block0.Hash(),
Nodes: emptyDiffs,
},
},
{
"testBlock0",
//10000 transferred from testBankAddress to account1Addr
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sd.Args{
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OldStateRoot: test_helpers.NullHash,
NewStateRoot: block0.Root(),
BlockNumber: block0.Number(),
BlockHash: block0.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block0.Number(),
BlockHash: block0.Hash(),
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Nodes: []sdtypes.StateLeafNode{},
IPLDs: []sdtypes.IPLD{}, // there's some kind of weird behavior where if our root node is a leaf node
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// even though it is along the path to the watched leaf (necessarily, as it is the root) it doesn't get included
// unconsequential, but kinda odd.
},
},
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{
"testBlock1",
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//10000 transferred from testBankAddress to account1Addr
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sd.Args{
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OldStateRoot: block0.Root(),
NewStateRoot: block1.Root(),
BlockNumber: block1.Number(),
BlockHash: block1.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block1.Number(),
BlockHash: block1.Hash(),
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Nodes: []sdtypes.StateLeafNode{},
IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block1bBranchRootNode)).String(),
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Content: block1bBranchRootNode,
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},
},
},
},
{
"testBlock2",
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// 1000 transferred from testBankAddress to account1Addr
// 1000 transferred from account1Addr to account2Addr
// account1addr creates a new contract
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sd.Args{
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OldStateRoot: block1.Root(),
NewStateRoot: block2.Root(),
BlockNumber: block2.Number(),
BlockHash: block2.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block2.Number(),
BlockHash: block2.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: contractAccountAtBlock2b,
LeafKey: contractLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock2bLeafNode)).String()},
StorageDiff: []sdtypes.StorageLeafNode{
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{
Removed: false,
Value: slot0StorageValue,
LeafKey: slot0StorageKey.Bytes(),
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot0StorageLeafNode)).String(),
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},
{
Removed: false,
Value: slot1StorageValue,
LeafKey: slot1StorageKey.Bytes(),
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot1StorageLeafNode)).String(),
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},
},
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},
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},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.RawBinary, test_helpers.CodeHashForInternalizedLeafNode.Bytes()).String(),
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Content: test_helpers.ByteCodeAfterDeploymentForInternalLeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block2bBranchRootNode)).String(),
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Content: block2bBranchRootNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock2bLeafNode)).String(),
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Content: contractAccountAtBlock2bLeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block2StorageBranchRootNode)).String(),
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Content: block2StorageBranchRootNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot0StorageLeafNode)).String(),
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Content: slot0StorageLeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(slot1StorageLeafNode)).String(),
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Content: slot1StorageLeafNode,
},
},
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},
},
{
"testBlock3",
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//the contract's storage is changed
//and the block is mined by account 2
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sd.Args{
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OldStateRoot: block2.Root(),
NewStateRoot: block3.Root(),
BlockNumber: block3.Number(),
BlockHash: block3.Hash(),
},
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&sdtypes.StateObject{
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BlockNumber: block3.Number(),
BlockHash: block3.Hash(),
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Nodes: []sdtypes.StateLeafNode{
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{
Removed: false,
AccountWrapper: struct {
Account *types.StateAccount
LeafKey []byte
CID string
}{
Account: contractAccountAtBlock3b,
LeafKey: contractLeafKey,
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock3bLeafNode)).String()},
StorageDiff: []sdtypes.StorageLeafNode{
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{
Removed: false,
Value: slot105566StorageValue,
LeafKey: slot105566StorageKey.Bytes(),
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block3bStorageBranchNodeWithInternalLeaves)).String(),
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},
{
Removed: false,
Value: slot40364StorageValue,
LeafKey: slot40364StorageKey.Bytes(),
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block3bStorageBranchNodeWithInternalLeaves)).String(),
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},
},
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},
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},
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IPLDs: []sdtypes.IPLD{
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{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(block3bBranchRootNode)).String(),
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Content: block3bBranchRootNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStateTrie, crypto.Keccak256(contractAccountAtBlock3bLeafNode)).String(),
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Content: contractAccountAtBlock3bLeafNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block3bStorageBranchRootNode)).String(),
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Content: block3bStorageBranchRootNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block3bStorageExtensionNode)).String(),
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Content: block3bStorageExtensionNode,
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},
{
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CID: ipld.Keccak256ToCid(ipld.MEthStorageTrie, crypto.Keccak256(block3bStorageBranchNodeWithInternalLeaves)).String(),
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Content: block3bStorageBranchNodeWithInternalLeaves,
},
},
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},
},
}
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for _, workers := range workerCounts {
builder, _ = statediff.NewBuilder(chain.StateCache(), workers)
for _, test := range tests {
diff, err := builder.BuildStateDiffObject(test.startingArguments, params)
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if err != nil {
t.Error(err)
}
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receivedStateDiffRlp, err := rlp.EncodeToBytes(&diff)
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if err != nil {
t.Error(err)
}
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expectedStateDiffRlp, err := rlp.EncodeToBytes(test.expected)
if err != nil {
t.Error(err)
}
sort.Slice(receivedStateDiffRlp, func(i, j int) bool { return receivedStateDiffRlp[i] < receivedStateDiffRlp[j] })
sort.Slice(expectedStateDiffRlp, func(i, j int) bool { return expectedStateDiffRlp[i] < expectedStateDiffRlp[j] })
if !bytes.Equal(receivedStateDiffRlp, expectedStateDiffRlp) {
actual, err := json.Marshal(diff)
if err != nil {
t.Error(err)
}
expected, err := json.Marshal(test.expected)
if err != nil {
t.Error(err)
}
t.Logf("Test failed: %s", test.name)
t.Errorf("actual state diff: %s\r\n\r\n\r\nexpected state diff: %s", actual, expected)
}
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}
}
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// Let's also confirm that our root state nodes form the state root hash in the headers
if !bytes.Equal(block1.Root().Bytes(), crypto.Keccak256(block1bBranchRootNode)) {
t.Errorf("block1 expected root %x does not match actual root %x", block1.Root().Bytes(), crypto.Keccak256(block1bBranchRootNode))
}
if !bytes.Equal(block2.Root().Bytes(), crypto.Keccak256(block2bBranchRootNode)) {
t.Errorf("block2 expected root %x does not match actual root %x", block2.Root().Bytes(), crypto.Keccak256(block2bBranchRootNode))
}
if !bytes.Equal(block3.Root().Bytes(), crypto.Keccak256(block3bBranchRootNode)) {
t.Errorf("block3 expected root %x does not match actual root %x", block3.Root().Bytes(), crypto.Keccak256(block3bBranchRootNode))
}
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}
/*
pragma solidity ^0.5.10;
contract test {
address payable owner;
modifier onlyOwner {
require(
msg.sender == owner,
"Only owner can call this function."
);
_;
}
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uint256[105566] data;
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constructor() public {
owner = msg.sender;
data = [1];
}
function Put(uint256 addr, uint256 value) public {
data[addr] = value;
}
function close() public onlyOwner { //onlyOwner is custom modifier
selfdestruct(owner); // `owner` is the owners address
}
}
*/