eth-statediff-service/pkg/builder.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/>.
// Contains a batch of utility type declarations used by the tests. As the node
// operates on unique types, a lot of them are needed to check various features.
package statediff
import (
"bytes"
"fmt"
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"math/bits"
"sync"
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"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/core/state"
"github.com/ethereum/go-ethereum/core/types"
"github.com/ethereum/go-ethereum/crypto"
"github.com/ethereum/go-ethereum/log"
"github.com/ethereum/go-ethereum/rlp"
sd "github.com/ethereum/go-ethereum/statediff"
sdtrie "github.com/ethereum/go-ethereum/statediff/trie_helpers"
sdtypes "github.com/ethereum/go-ethereum/statediff/types"
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"github.com/ethereum/go-ethereum/trie"
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"github.com/sirupsen/logrus"
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iter "github.com/vulcanize/go-eth-state-node-iterator"
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)
var (
nullHashBytes = common.Hex2Bytes("0000000000000000000000000000000000000000000000000000000000000000")
emptyNode, _ = rlp.EncodeToBytes([]byte{})
emptyContractRoot = crypto.Keccak256Hash(emptyNode)
nullCodeHash = crypto.Keccak256Hash([]byte{}).Bytes()
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)
// Builder interface exposes the method for building a state diff between two blocks
type Builder interface {
BuildStateDiffObject(args sd.Args, params sd.Params) (sdtypes.StateObject, error)
BuildStateTrieObject(current *types.Block) (sdtypes.StateObject, error)
WriteStateDiffObject(args sdtypes.StateRoots, params sd.Params, output sdtypes.StateNodeSink, codeOutput sdtypes.CodeSink) error
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}
type builder struct {
stateCache state.Database
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numWorkers uint
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}
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type iterPair struct {
older, newer trie.NodeIterator
}
func resolveNode(it trie.NodeIterator, trieDB *trie.Database) (sdtypes.StateNode, []interface{}, error) {
nodePath := make([]byte, len(it.Path()))
copy(nodePath, it.Path())
node, err := trieDB.Node(it.Hash())
if err != nil {
return sdtypes.StateNode{}, nil, err
}
var nodeElements []interface{}
if err := rlp.DecodeBytes(node, &nodeElements); err != nil {
return sdtypes.StateNode{}, nil, err
}
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ty, err := sdtrie.CheckKeyType(nodeElements)
if err != nil {
return sdtypes.StateNode{}, nil, err
}
return sdtypes.StateNode{
NodeType: ty,
Path: nodePath,
NodeValue: node,
}, nodeElements, nil
}
// convenience
func stateNodeAppender(nodes *[]sdtypes.StateNode) sdtypes.StateNodeSink {
return func(node sdtypes.StateNode) error {
*nodes = append(*nodes, node)
return nil
}
}
func storageNodeAppender(nodes *[]sdtypes.StorageNode) sdtypes.StorageNodeSink {
return func(node sdtypes.StorageNode) error {
*nodes = append(*nodes, node)
return nil
}
}
func codeMappingAppender(data *[]sdtypes.CodeAndCodeHash) sdtypes.CodeSink {
return func(c sdtypes.CodeAndCodeHash) error {
*data = append(*data, c)
return nil
}
}
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// NewBuilder is used to create a statediff builder
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func NewBuilder(stateCache state.Database, workers uint) (Builder, error) {
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if workers == 0 {
workers = 1
}
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if bits.OnesCount(workers) != 1 {
return nil, fmt.Errorf("workers must be a power of 2")
}
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return &builder{
stateCache: stateCache, // state cache is safe for concurrent reads
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numWorkers: workers,
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}, nil
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}
// BuildStateTrieObject builds a state trie object from the provided block
func (sdb *builder) BuildStateTrieObject(current *types.Block) (sdtypes.StateObject, error) {
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currentTrie, err := sdb.stateCache.OpenTrie(current.Root())
if err != nil {
return sdtypes.StateObject{}, fmt.Errorf("error creating trie for block %d: %v", current.Number(), err)
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}
it := currentTrie.NodeIterator([]byte{})
stateNodes, codeAndCodeHashes, err := sdb.buildStateTrie(it)
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if err != nil {
return sdtypes.StateObject{}, fmt.Errorf("error collecting state nodes for block %d: %v", current.Number(), err)
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}
return sdtypes.StateObject{
BlockNumber: current.Number(),
BlockHash: current.Hash(),
Nodes: stateNodes,
CodeAndCodeHashes: codeAndCodeHashes,
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}, nil
}
func (sdb *builder) buildStateTrie(it trie.NodeIterator) ([]sdtypes.StateNode, []sdtypes.CodeAndCodeHash, error) {
stateNodes := make([]sdtypes.StateNode, 0)
codeAndCodeHashes := make([]sdtypes.CodeAndCodeHash, 0)
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for it.Next(true) {
// skip value nodes
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if it.Leaf() || bytes.Equal(nullHashBytes, it.Hash().Bytes()) {
continue
}
node, nodeElements, err := resolveNode(it, sdb.stateCache.TrieDB())
if err != nil {
return nil, nil, err
}
switch node.NodeType {
case sdtypes.Leaf:
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var account types.StateAccount
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if err := rlp.DecodeBytes(nodeElements[1].([]byte), &account); err != nil {
return nil, nil, fmt.Errorf("error decoding account for leaf node at path %x nerror: %v", node.Path, err)
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}
partialPath := trie.CompactToHex(nodeElements[0].([]byte))
valueNodePath := append(node.Path, partialPath...)
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encodedPath := trie.HexToCompact(valueNodePath)
leafKey := encodedPath[1:]
node.LeafKey = leafKey
if !bytes.Equal(account.CodeHash, nullCodeHash) {
var storageNodes []sdtypes.StorageNode
err := sdb.buildStorageNodesEventual(account.Root, nil, true, storageNodeAppender(&storageNodes))
if err != nil {
return nil, nil, fmt.Errorf("failed building eventual storage diffs for account %+v\r\nerror: %v", account, err)
}
node.StorageNodes = storageNodes
// emit codehash => code mappings for cod
codeHash := common.BytesToHash(account.CodeHash)
code, err := sdb.stateCache.ContractCode(common.Hash{}, codeHash)
if err != nil {
return nil, nil, fmt.Errorf("failed to retrieve code for codehash %s\r\n error: %v", codeHash.String(), err)
}
codeAndCodeHashes = append(codeAndCodeHashes, sdtypes.CodeAndCodeHash{
Hash: codeHash,
Code: code,
})
}
stateNodes = append(stateNodes, node)
case sdtypes.Extension, sdtypes.Branch:
stateNodes = append(stateNodes, node)
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default:
return nil, nil, fmt.Errorf("unexpected node type %s", node.NodeType)
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}
}
return stateNodes, codeAndCodeHashes, it.Error()
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}
// BuildStateDiffObject builds a statediff object from two blocks and the provided parameters
func (sdb *builder) BuildStateDiffObject(args sd.Args, params sd.Params) (sdtypes.StateObject, error) {
var stateNodes []sdtypes.StateNode
var codeAndCodeHashes []sdtypes.CodeAndCodeHash
err := sdb.WriteStateDiffObject(
sdtypes.StateRoots{OldStateRoot: args.OldStateRoot, NewStateRoot: args.NewStateRoot},
params, stateNodeAppender(&stateNodes), codeMappingAppender(&codeAndCodeHashes))
if err != nil {
return sdtypes.StateObject{}, err
}
return sdtypes.StateObject{
BlockHash: args.BlockHash,
BlockNumber: args.BlockNumber,
Nodes: stateNodes,
CodeAndCodeHashes: codeAndCodeHashes,
}, nil
}
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// WriteStateDiffObject writes a statediff object to output callback
func (sdb *builder) WriteStateDiffObject(args sdtypes.StateRoots, params sd.Params, output sdtypes.StateNodeSink, codeOutput sdtypes.CodeSink) error {
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if len(params.WatchedAddresses) > 0 {
// if we are watching only specific accounts then we are only diffing leaf nodes
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log.Info("Ignoring intermediate state nodes because WatchedAddresses was passed")
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params.IntermediateStateNodes = false
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}
// Load tries for old and new states
oldTrie, err := sdb.stateCache.OpenTrie(args.OldStateRoot)
if err != nil {
return fmt.Errorf("error creating trie for old state root: %v", err)
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}
newTrie, err := sdb.stateCache.OpenTrie(args.NewStateRoot)
if err != nil {
return fmt.Errorf("error creating trie for new state root: %v", err)
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}
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// Split old and new tries into corresponding subtrie iterators
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oldIterFac := iter.NewSubtrieIteratorFactory(oldTrie, sdb.numWorkers)
newIterFac := iter.NewSubtrieIteratorFactory(newTrie, sdb.numWorkers)
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// Create iterators ahead of time to avoid race condition in state.Trie access
// We do two state iterations per subtrie: one for new/updated nodes,
// one for deleted/updated nodes; prepare 2 iterator instances for each task
var iterPairs [][]iterPair
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for i := uint(0); i < sdb.numWorkers; i++ {
iterPairs = append(iterPairs, []iterPair{
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{older: oldIterFac.IteratorAt(i), newer: newIterFac.IteratorAt(i)},
{older: oldIterFac.IteratorAt(i), newer: newIterFac.IteratorAt(i)},
})
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}
// Dispatch workers to process trie data; sync and collect results here via channels
nodeChan := make(chan sdtypes.StateNode)
codeChan := make(chan sdtypes.CodeAndCodeHash)
go func() {
nodeSender := func(node sdtypes.StateNode) error { nodeChan <- node; return nil }
codeSender := func(code sdtypes.CodeAndCodeHash) error { codeChan <- code; return nil }
var wg sync.WaitGroup
for w := uint(0); w < sdb.numWorkers; w++ {
wg.Add(1)
go func(worker uint) {
defer wg.Done()
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if err := sdb.buildStateDiff(iterPairs[worker], params, nodeSender, codeSender); err != nil {
logrus.Errorf("buildStateDiff error for worker %d, pparams %+v", worker, params)
}
}(w)
}
wg.Wait()
close(nodeChan)
close(codeChan)
}()
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for nodeChan != nil || codeChan != nil {
select {
case node, more := <-nodeChan:
if more {
if err := output(node); err != nil {
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return err
}
} else {
nodeChan = nil
}
case codeAndCodeHash, more := <-codeChan:
if more {
if err := codeOutput(codeAndCodeHash); err != nil {
return err
}
} else {
codeChan = nil
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}
}
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}
return nil
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}
func (sdb *builder) buildStateDiff(args []iterPair, params sd.Params, output sdtypes.StateNodeSink, codeOutput sdtypes.CodeSink) error {
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// collect a slice of all the intermediate nodes that were touched and exist at B
// a map of their leafkey to all the accounts that were touched and exist at B
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// and a slice of all the paths for the nodes in both of the above sets
var diffAccountsAtB AccountMap
var diffPathsAtB map[string]bool
var err error
if params.IntermediateStateNodes {
diffAccountsAtB, diffPathsAtB, err = sdb.createdAndUpdatedStateWithIntermediateNodes(args[0], output)
} else {
diffAccountsAtB, diffPathsAtB, err = sdb.createdAndUpdatedState(args[0], params.WatchedAddresses)
}
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if err != nil {
return fmt.Errorf("error collecting createdAndUpdatedNodes: %v", err)
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}
// collect a slice of all the nodes that existed at a path in A that doesn't exist in B
// a map of their leafkey to all the accounts that were touched and exist at A
diffAccountsAtA, err := sdb.deletedOrUpdatedState(args[1], diffPathsAtB, output)
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if err != nil {
return fmt.Errorf("error collecting deletedOrUpdatedNodes: %v", err)
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}
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// collect and sort the leafkey keys for both account mappings into a slice
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createKeys := sortKeys(diffAccountsAtB)
deleteKeys := sortKeys(diffAccountsAtA)
// and then find the intersection of these keys
// these are the leafkeys for the accounts which exist at both A and B but are different
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// this also mutates the passed in createKeys and deleteKeys, removing the intersection keys
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// and leaving the truly created or deleted keys in place
updatedKeys := findIntersection(createKeys, deleteKeys)
// build the diff nodes for the updated accounts using the mappings at both A and B as directed by the keys found as the intersection of the two
err = sdb.buildAccountUpdates(
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diffAccountsAtB, diffAccountsAtA, updatedKeys,
params.WatchedStorageSlots, params.IntermediateStorageNodes, output)
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if err != nil {
return fmt.Errorf("error building diff for updated accounts: %v", err)
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}
// build the diff nodes for created accounts
err = sdb.buildAccountCreations(diffAccountsAtB, params.WatchedStorageSlots, params.IntermediateStorageNodes, output, codeOutput)
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if err != nil {
return fmt.Errorf("error building diff for created accounts: %v", err)
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}
return nil
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}
// createdAndUpdatedState returns
// a mapping of their leafkeys to all the accounts that exist in a different state at B than A
// and a slice of the paths for all of the nodes included in both
func (sdb *builder) createdAndUpdatedState(iters iterPair, watchedAddresses []common.Address) (AccountMap, map[string]bool, error) {
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diffPathsAtB := make(map[string]bool)
diffAcountsAtB := make(AccountMap)
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it, _ := trie.NewDifferenceIterator(iters.older, iters.newer)
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for it.Next(true) {
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if it.Leaf() || bytes.Equal(nullHashBytes, it.Hash().Bytes()) {
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continue
}
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node, nodeElements, err := resolveNode(it, sdb.stateCache.TrieDB())
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if err != nil {
return nil, nil, err
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}
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switch node.NodeType {
case sdtypes.Leaf:
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// created vs updated is important for leaf nodes since we need to diff their storage
// so we need to map all changed accounts at B to their leafkey, since account can change pathes but not leafkey
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var account types.StateAccount
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if err := rlp.DecodeBytes(nodeElements[1].([]byte), &account); err != nil {
return nil, nil, fmt.Errorf("error decoding account for leaf node at path %x nerror: %v", node.Path, err)
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}
partialPath := trie.CompactToHex(nodeElements[0].([]byte))
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valueNodePath := append(node.Path, partialPath...)
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encodedPath := trie.HexToCompact(valueNodePath)
leafKey := encodedPath[1:]
if isWatchedAddress(watchedAddresses, leafKey) {
diffAcountsAtB[common.Bytes2Hex(leafKey)] = accountWrapper{
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NodeType: node.NodeType,
Path: node.Path,
NodeValue: node.NodeValue,
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LeafKey: leafKey,
Account: &account,
}
}
}
// add both intermediate and leaf node paths to the list of diffPathsAtB
diffPathsAtB[common.Bytes2Hex(node.Path)] = true
}
return diffAcountsAtB, diffPathsAtB, it.Error()
}
// createdAndUpdatedStateWithIntermediateNodes returns
// a slice of all the intermediate nodes that exist in a different state at B than A
// a mapping of their leafkeys to all the accounts that exist in a different state at B than A
// and a slice of the paths for all of the nodes included in both
func (sdb *builder) createdAndUpdatedStateWithIntermediateNodes(iters iterPair, output sdtypes.StateNodeSink) (AccountMap, map[string]bool, error) {
diffPathsAtB := make(map[string]bool)
diffAcountsAtB := make(AccountMap)
it, _ := trie.NewDifferenceIterator(iters.older, iters.newer)
for it.Next(true) {
if it.Leaf() || bytes.Equal(nullHashBytes, it.Hash().Bytes()) {
continue
}
node, nodeElements, err := resolveNode(it, sdb.stateCache.TrieDB())
if err != nil {
return nil, nil, err
}
switch node.NodeType {
case sdtypes.Leaf:
// created vs updated is important for leaf nodes since we need to diff their storage
// so we need to map all changed accounts at B to their leafkey, since account can change paths but not leafkey
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var account types.StateAccount
if err := rlp.DecodeBytes(nodeElements[1].([]byte), &account); err != nil {
return nil, nil, fmt.Errorf("error decoding account for leaf node at path %x nerror: %v", node.Path, err)
}
partialPath := trie.CompactToHex(nodeElements[0].([]byte))
valueNodePath := append(node.Path, partialPath...)
encodedPath := trie.HexToCompact(valueNodePath)
leafKey := encodedPath[1:]
diffAcountsAtB[common.Bytes2Hex(leafKey)] = accountWrapper{
NodeType: node.NodeType,
Path: node.Path,
NodeValue: node.NodeValue,
LeafKey: leafKey,
Account: &account,
}
case sdtypes.Extension, sdtypes.Branch:
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// create a diff for any intermediate node that has changed at b
// created vs updated makes no difference for intermediate nodes since we do not need to diff storage
if err := output(sdtypes.StateNode{
NodeType: node.NodeType,
Path: node.Path,
NodeValue: node.NodeValue,
}); err != nil {
return nil, nil, err
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}
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default:
return nil, nil, fmt.Errorf("unexpected node type %s", node.NodeType)
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}
// add both intermediate and leaf node paths to the list of diffPathsAtB
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diffPathsAtB[common.Bytes2Hex(node.Path)] = true
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}
return diffAcountsAtB, diffPathsAtB, it.Error()
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}
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// deletedOrUpdatedState returns a slice of all the paths that are emptied at B
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// and a mapping of their leafkeys to all the accounts that exist in a different state at A than B
func (sdb *builder) deletedOrUpdatedState(iters iterPair, diffPathsAtB map[string]bool, output sdtypes.StateNodeSink) (AccountMap, error) {
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diffAccountAtA := make(AccountMap)
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it, _ := trie.NewDifferenceIterator(iters.newer, iters.older)
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for it.Next(true) {
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if it.Leaf() || bytes.Equal(nullHashBytes, it.Hash().Bytes()) {
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continue
}
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node, nodeElements, err := resolveNode(it, sdb.stateCache.TrieDB())
if err != nil {
return nil, err
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}
switch node.NodeType {
case sdtypes.Leaf:
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// map all different accounts at A to their leafkey
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var account types.StateAccount
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if err := rlp.DecodeBytes(nodeElements[1].([]byte), &account); err != nil {
return nil, fmt.Errorf("error decoding account for leaf node at path %x nerror: %v", node.Path, err)
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}
partialPath := trie.CompactToHex(nodeElements[0].([]byte))
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valueNodePath := append(node.Path, partialPath...)
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encodedPath := trie.HexToCompact(valueNodePath)
leafKey := encodedPath[1:]
diffAccountAtA[common.Bytes2Hex(leafKey)] = accountWrapper{
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NodeType: node.NodeType,
Path: node.Path,
NodeValue: node.NodeValue,
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LeafKey: leafKey,
Account: &account,
}
// if this node's path did not show up in diffPathsAtB
// that means the node at this path was deleted (or moved) in B
// emit an empty "removed" diff to signify as such
if _, ok := diffPathsAtB[common.Bytes2Hex(node.Path)]; !ok {
if err := output(sdtypes.StateNode{
Path: node.Path,
NodeValue: []byte{},
NodeType: sdtypes.Removed,
LeafKey: leafKey,
}); err != nil {
return nil, err
}
}
case sdtypes.Extension, sdtypes.Branch:
// if this node's path did not show up in diffPathsAtB
// that means the node at this path was deleted (or moved) in B
// emit an empty "removed" diff to signify as such
if _, ok := diffPathsAtB[common.Bytes2Hex(node.Path)]; !ok {
if err := output(sdtypes.StateNode{
Path: node.Path,
NodeValue: []byte{},
NodeType: sdtypes.Removed,
}); err != nil {
return nil, err
}
}
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// fall through, we did everything we need to do with these node types
default:
return nil, fmt.Errorf("unexpected node type %s", node.NodeType)
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}
}
return diffAccountAtA, it.Error()
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}
// buildAccountUpdates uses the account diffs maps for A => B and B => A and the known intersection of their leafkeys
// to generate the statediff node objects for all of the accounts that existed at both A and B but in different states
// needs to be called before building account creations and deletions as this mutates
// those account maps to remove the accounts which were updated
func (sdb *builder) buildAccountUpdates(creations, deletions AccountMap, updatedKeys []string, watchedStorageKeys []common.Hash, intermediateStorageNodes bool, output sdtypes.StateNodeSink) error {
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var err error
for _, key := range updatedKeys {
createdAcc := creations[key]
deletedAcc := deletions[key]
var storageDiffs []sdtypes.StorageNode
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if deletedAcc.Account != nil && createdAcc.Account != nil {
oldSR := deletedAcc.Account.Root
newSR := createdAcc.Account.Root
err = sdb.buildStorageNodesIncremental(oldSR, newSR, watchedStorageKeys, intermediateStorageNodes, storageNodeAppender(&storageDiffs))
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if err != nil {
return fmt.Errorf("failed building incremental storage diffs for account with leafkey %s\r\nerror: %v", key, err)
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}
}
if err = output(sdtypes.StateNode{
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NodeType: createdAcc.NodeType,
Path: createdAcc.Path,
NodeValue: createdAcc.NodeValue,
LeafKey: createdAcc.LeafKey,
StorageNodes: storageDiffs,
}); err != nil {
return err
}
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delete(creations, key)
delete(deletions, key)
}
return nil
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}
// buildAccountCreations returns the statediff node objects for all the accounts that exist at B but not at A
// it also returns the code and codehash for created contract accounts
func (sdb *builder) buildAccountCreations(accounts AccountMap, watchedStorageKeys []common.Hash, intermediateStorageNodes bool, output sdtypes.StateNodeSink, codeOutput sdtypes.CodeSink) error {
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for _, val := range accounts {
diff := sdtypes.StateNode{
NodeType: val.NodeType,
Path: val.Path,
LeafKey: val.LeafKey,
NodeValue: val.NodeValue,
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}
if !bytes.Equal(val.Account.CodeHash, nullCodeHash) {
// For contract creations, any storage node contained is a diff
var storageDiffs []sdtypes.StorageNode
err := sdb.buildStorageNodesEventual(val.Account.Root, watchedStorageKeys, intermediateStorageNodes, storageNodeAppender(&storageDiffs))
if err != nil {
return fmt.Errorf("failed building eventual storage diffs for node %x\r\nerror: %v", val.Path, err)
}
diff.StorageNodes = storageDiffs
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// emit codehash => code mappings for code
codeHash := common.BytesToHash(val.Account.CodeHash)
code, err := sdb.stateCache.ContractCode(common.Hash{}, codeHash)
if err != nil {
return fmt.Errorf("failed to retrieve code for codehash %s\r\n error: %v", codeHash.String(), err)
}
if err := codeOutput(sdtypes.CodeAndCodeHash{
Hash: codeHash,
Code: code,
}); err != nil {
return err
}
}
if err := output(diff); err != nil {
return err
}
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}
return nil
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}
// buildStorageNodesEventual builds the storage diff node objects for a created account
// i.e. it returns all the storage nodes at this state, since there is no previous state
func (sdb *builder) buildStorageNodesEventual(sr common.Hash, watchedStorageKeys []common.Hash, intermediateNodes bool, output sdtypes.StorageNodeSink) error {
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if bytes.Equal(sr.Bytes(), emptyContractRoot.Bytes()) {
return nil
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}
log.Debug("Storage Root For Eventual Diff", "root", sr.Hex())
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sTrie, err := sdb.stateCache.OpenTrie(sr)
if err != nil {
log.Info("error in build storage diff eventual", "error", err)
return err
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}
it := sTrie.NodeIterator(make([]byte, 0))
err = sdb.buildStorageNodesFromTrie(it, watchedStorageKeys, intermediateNodes, output)
if err != nil {
return err
}
return nil
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}
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// buildStorageNodesFromTrie returns all the storage diff node objects in the provided node iterator
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// if any storage keys are provided it will only return those leaf nodes
// including intermediate nodes can be turned on or off
func (sdb *builder) buildStorageNodesFromTrie(it trie.NodeIterator, watchedStorageKeys []common.Hash, intermediateNodes bool, output sdtypes.StorageNodeSink) error {
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for it.Next(true) {
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if it.Leaf() || bytes.Equal(nullHashBytes, it.Hash().Bytes()) {
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continue
}
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node, nodeElements, err := resolveNode(it, sdb.stateCache.TrieDB())
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if err != nil {
return err
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}
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switch node.NodeType {
case sdtypes.Leaf:
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partialPath := trie.CompactToHex(nodeElements[0].([]byte))
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valueNodePath := append(node.Path, partialPath...)
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encodedPath := trie.HexToCompact(valueNodePath)
leafKey := encodedPath[1:]
if isWatchedStorageKey(watchedStorageKeys, leafKey) {
if err := output(sdtypes.StorageNode{
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NodeType: node.NodeType,
Path: node.Path,
NodeValue: node.NodeValue,
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LeafKey: leafKey,
}); err != nil {
return err
}
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}
case sdtypes.Extension, sdtypes.Branch:
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if intermediateNodes {
if err := output(sdtypes.StorageNode{
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NodeType: node.NodeType,
Path: node.Path,
NodeValue: node.NodeValue,
}); err != nil {
return err
}
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}
default:
return fmt.Errorf("unexpected node type %s", node.NodeType)
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}
}
return it.Error()
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}
// buildStorageNodesIncremental builds the storage diff node objects for all nodes that exist in a different state at B than A
func (sdb *builder) buildStorageNodesIncremental(oldSR common.Hash, newSR common.Hash, watchedStorageKeys []common.Hash, intermediateNodes bool, output sdtypes.StorageNodeSink) error {
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if bytes.Equal(newSR.Bytes(), oldSR.Bytes()) {
return nil
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}
log.Debug("Storage Roots for Incremental Diff", "old", oldSR.Hex(), "new", newSR.Hex())
oldTrie, err := sdb.stateCache.OpenTrie(oldSR)
if err != nil {
return err
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}
newTrie, err := sdb.stateCache.OpenTrie(newSR)
if err != nil {
return err
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}
diffPathsAtB, err := sdb.createdAndUpdatedStorage(oldTrie.NodeIterator([]byte{}), newTrie.NodeIterator([]byte{}), watchedStorageKeys, intermediateNodes, output)
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if err != nil {
return err
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}
err = sdb.deletedOrUpdatedStorage(oldTrie.NodeIterator([]byte{}), newTrie.NodeIterator([]byte{}), diffPathsAtB, watchedStorageKeys, intermediateNodes, output)
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if err != nil {
return err
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}
return nil
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}
func (sdb *builder) createdAndUpdatedStorage(a, b trie.NodeIterator, watchedKeys []common.Hash, intermediateNodes bool, output sdtypes.StorageNodeSink) (map[string]bool, error) {
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diffPathsAtB := make(map[string]bool)
it, _ := trie.NewDifferenceIterator(a, b)
for it.Next(true) {
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if it.Leaf() || bytes.Equal(nullHashBytes, it.Hash().Bytes()) {
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continue
}
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node, nodeElements, err := resolveNode(it, sdb.stateCache.TrieDB())
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if err != nil {
return nil, err
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}
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switch node.NodeType {
case sdtypes.Leaf:
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partialPath := trie.CompactToHex(nodeElements[0].([]byte))
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valueNodePath := append(node.Path, partialPath...)
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encodedPath := trie.HexToCompact(valueNodePath)
leafKey := encodedPath[1:]
if isWatchedStorageKey(watchedKeys, leafKey) {
if err := output(sdtypes.StorageNode{
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NodeType: node.NodeType,
Path: node.Path,
NodeValue: node.NodeValue,
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LeafKey: leafKey,
}); err != nil {
return nil, err
}
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}
case sdtypes.Extension, sdtypes.Branch:
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if intermediateNodes {
if err := output(sdtypes.StorageNode{
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NodeType: node.NodeType,
Path: node.Path,
NodeValue: node.NodeValue,
}); err != nil {
return nil, err
}
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}
default:
return nil, fmt.Errorf("unexpected node type %s", node.NodeType)
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}
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diffPathsAtB[common.Bytes2Hex(node.Path)] = true
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}
return diffPathsAtB, it.Error()
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}
func (sdb *builder) deletedOrUpdatedStorage(a, b trie.NodeIterator, diffPathsAtB map[string]bool, watchedKeys []common.Hash, intermediateNodes bool, output sdtypes.StorageNodeSink) error {
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it, _ := trie.NewDifferenceIterator(b, a)
for it.Next(true) {
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if it.Leaf() || bytes.Equal(nullHashBytes, it.Hash().Bytes()) {
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continue
}
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node, nodeElements, err := resolveNode(it, sdb.stateCache.TrieDB())
if err != nil {
return err
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}
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// if this node path showed up in diffPathsAtB
// that means this node was updated at B and we already have the updated diff for it
// otherwise that means this node was deleted in B and we need to add a "removed" diff to represent that event
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if _, ok := diffPathsAtB[common.Bytes2Hex(node.Path)]; ok {
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continue
}
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switch node.NodeType {
case sdtypes.Leaf:
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partialPath := trie.CompactToHex(nodeElements[0].([]byte))
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valueNodePath := append(node.Path, partialPath...)
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encodedPath := trie.HexToCompact(valueNodePath)
leafKey := encodedPath[1:]
if isWatchedStorageKey(watchedKeys, leafKey) {
if err := output(sdtypes.StorageNode{
NodeType: sdtypes.Removed,
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Path: node.Path,
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NodeValue: []byte{},
LeafKey: leafKey,
}); err != nil {
return err
}
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}
case sdtypes.Extension, sdtypes.Branch:
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if intermediateNodes {
if err := output(sdtypes.StorageNode{
NodeType: sdtypes.Removed,
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Path: node.Path,
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NodeValue: []byte{},
}); err != nil {
return err
}
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}
default:
return fmt.Errorf("unexpected node type %s", node.NodeType)
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}
}
return it.Error()
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}
// isWatchedAddress is used to check if a state account corresponds to one of the addresses the builder is configured to watch
func isWatchedAddress(watchedAddresses []common.Address, stateLeafKey []byte) bool {
// If we aren't watching any specific addresses, we are watching everything
if len(watchedAddresses) == 0 {
return true
}
for _, addr := range watchedAddresses {
addrHashKey := crypto.Keccak256(addr.Bytes())
if bytes.Equal(addrHashKey, stateLeafKey) {
return true
}
}
return false
}
// isWatchedStorageKey is used to check if a storage leaf corresponds to one of the storage slots the builder is configured to watch
func isWatchedStorageKey(watchedKeys []common.Hash, storageLeafKey []byte) bool {
// If we aren't watching any specific addresses, we are watching everything
if len(watchedKeys) == 0 {
return true
}
for _, hashKey := range watchedKeys {
if bytes.Equal(hashKey.Bytes(), storageLeafKey) {
return true
}
}
return false
}