mirror of
https://github.com/nspcc-dev/neo-go.git
synced 2024-11-27 13:58:05 +00:00
856e9cf67b
Signed-off-by: Evgeniy Stratonikov <evgeniy@nspcc.ru>
345 lines
11 KiB
Go
345 lines
11 KiB
Go
package mpt
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import (
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"bytes"
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"encoding/binary"
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"errors"
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"fmt"
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"github.com/nspcc-dev/neo-go/pkg/core/storage"
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"github.com/nspcc-dev/neo-go/pkg/io"
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"github.com/nspcc-dev/neo-go/pkg/util"
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"github.com/nspcc-dev/neo-go/pkg/util/slice"
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)
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var (
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// ErrRestoreFailed is returned when replacing HashNode by its "unhashed"
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// candidate fails.
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ErrRestoreFailed = errors.New("failed to restore MPT node")
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errStop = errors.New("stop condition is met")
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)
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// Billet is a part of MPT trie with missing hash nodes that need to be restored.
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// Billet is based on the following assumptions:
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// 1. Refcount can only be incremented (we don't change MPT structure during restore,
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// thus don't need to decrease refcount).
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// 2. Each time the part of Billet is completely restored, it is collapsed into
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// HashNode.
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// 3. Pair (node, path) must be restored only once. It's a duty of MPT pool to manage
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// MPT paths in order to provide this assumption.
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type Billet struct {
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TempStoragePrefix storage.KeyPrefix
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Store *storage.MemCachedStore
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root Node
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refcountEnabled bool
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}
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// NewBillet returns new billet for MPT trie restoring. It accepts a MemCachedStore
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// to decouple storage errors from logic errors so that all storage errors are
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// processed during `store.Persist()` at the caller. This also has the benefit,
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// that every `Put` can be considered an atomic operation.
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func NewBillet(rootHash util.Uint256, enableRefCount bool, prefix storage.KeyPrefix, store *storage.MemCachedStore) *Billet {
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return &Billet{
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TempStoragePrefix: prefix,
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Store: store,
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root: NewHashNode(rootHash),
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refcountEnabled: enableRefCount,
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}
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}
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// RestoreHashNode replaces HashNode located at the provided path by the specified Node
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// and stores it. It also maintains MPT as small as possible by collapsing those parts
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// of MPT that have been completely restored.
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func (b *Billet) RestoreHashNode(path []byte, node Node) error {
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if _, ok := node.(*HashNode); ok {
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return fmt.Errorf("%w: unable to restore node into HashNode", ErrRestoreFailed)
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}
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if _, ok := node.(EmptyNode); ok {
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return fmt.Errorf("%w: unable to restore node into EmptyNode", ErrRestoreFailed)
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}
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r, err := b.putIntoNode(b.root, path, node)
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if err != nil {
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return err
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}
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b.root = r
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// If it's a leaf, then put into temporary contract storage.
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if leaf, ok := node.(*LeafNode); ok {
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if b.TempStoragePrefix == 0 {
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panic("invalid storage prefix")
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}
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k := append([]byte{byte(b.TempStoragePrefix)}, fromNibbles(path)...)
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_ = b.Store.Put(k, leaf.value)
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}
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return nil
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}
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// putIntoNode puts val with provided path inside curr and returns updated node.
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// Reference counters are updated for both curr and returned value.
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func (b *Billet) putIntoNode(curr Node, path []byte, val Node) (Node, error) {
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switch n := curr.(type) {
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case *LeafNode:
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return b.putIntoLeaf(n, path, val)
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case *BranchNode:
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return b.putIntoBranch(n, path, val)
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case *ExtensionNode:
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return b.putIntoExtension(n, path, val)
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case *HashNode:
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return b.putIntoHash(n, path, val)
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case EmptyNode:
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return nil, fmt.Errorf("%w: can't modify EmptyNode during restore", ErrRestoreFailed)
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default:
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panic("invalid MPT node type")
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}
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}
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func (b *Billet) putIntoLeaf(curr *LeafNode, path []byte, val Node) (Node, error) {
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if len(path) != 0 {
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return nil, fmt.Errorf("%w: can't modify LeafNode during restore", ErrRestoreFailed)
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}
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if curr.Hash() != val.Hash() {
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return nil, fmt.Errorf("%w: bad Leaf node hash: expected %s, got %s", ErrRestoreFailed, curr.Hash().StringBE(), val.Hash().StringBE())
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}
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// Once Leaf node is restored, it will be collapsed into HashNode forever, so
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// there shouldn't be such situation when we try to restore Leaf node.
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panic("bug: can't restore LeafNode")
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}
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func (b *Billet) putIntoBranch(curr *BranchNode, path []byte, val Node) (Node, error) {
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if len(path) == 0 && curr.Hash().Equals(val.Hash()) {
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// This node has already been restored, so it's an MPT pool duty to avoid
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// duplicating restore requests.
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panic("bug: can't perform restoring of BranchNode twice")
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}
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i, path := splitPath(path)
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r, err := b.putIntoNode(curr.Children[i], path, val)
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if err != nil {
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return nil, err
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}
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curr.Children[i] = r
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return b.tryCollapseBranch(curr), nil
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}
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func (b *Billet) putIntoExtension(curr *ExtensionNode, path []byte, val Node) (Node, error) {
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if len(path) == 0 {
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if curr.Hash() != val.Hash() {
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return nil, fmt.Errorf("%w: bad Extension node hash: expected %s, got %s", ErrRestoreFailed, curr.Hash().StringBE(), val.Hash().StringBE())
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}
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// This node has already been restored, so it's an MPT pool duty to avoid
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// duplicating restore requests.
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panic("bug: can't perform restoring of ExtensionNode twice")
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}
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if !bytes.HasPrefix(path, curr.key) {
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return nil, fmt.Errorf("%w: can't modify ExtensionNode during restore", ErrRestoreFailed)
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}
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r, err := b.putIntoNode(curr.next, path[len(curr.key):], val)
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if err != nil {
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return nil, err
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}
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curr.next = r
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return b.tryCollapseExtension(curr), nil
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}
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func (b *Billet) putIntoHash(curr *HashNode, path []byte, val Node) (Node, error) {
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// Once a part of MPT Billet is completely restored, it will be collapsed forever, so
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// it's an MPT pool duty to avoid duplicating restore requests.
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if len(path) != 0 {
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return nil, fmt.Errorf("%w: node has already been collapsed", ErrRestoreFailed)
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}
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// `curr` hash node can be either of
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// 1) saved in storage (i.g. if we've already restored node with the same hash from the
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// other part of MPT), so just add it to local in-memory MPT.
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// 2) missing from the storage. It's OK because we're syncing MPT state, and the purpose
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// is to store missing hash nodes.
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// both cases are OK, but we still need to validate `val` against `curr`.
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if val.Hash() != curr.Hash() {
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return nil, fmt.Errorf("%w: can't restore HashNode: expected and actual hashes mismatch (%s vs %s)", ErrRestoreFailed, curr.Hash().StringBE(), val.Hash().StringBE())
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}
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if curr.Collapsed {
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// This node has already been restored and collapsed, so it's an MPT pool duty to avoid
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// duplicating restore requests.
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panic("bug: can't perform restoring of collapsed node")
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}
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// We also need to increment refcount in both cases. That's the only place where refcount
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// is changed during restore process. Also flush right now, because sync process can be
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// interrupted at any time.
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b.incrementRefAndStore(val.Hash(), val.Bytes())
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if val.Type() == LeafT {
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return b.tryCollapseLeaf(val.(*LeafNode)), nil
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}
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return val, nil
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}
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func (b *Billet) incrementRefAndStore(h util.Uint256, bs []byte) {
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key := makeStorageKey(h.BytesBE())
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if b.refcountEnabled {
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var (
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err error
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data []byte
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cnt int32
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)
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// An item may already be in store.
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data, err = b.Store.Get(key)
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if err == nil {
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cnt = int32(binary.LittleEndian.Uint32(data[len(data)-4:]))
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}
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cnt++
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if len(data) == 0 {
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data = append(bs, 0, 0, 0, 0)
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}
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binary.LittleEndian.PutUint32(data[len(data)-4:], uint32(cnt))
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_ = b.Store.Put(key, data)
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} else {
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_ = b.Store.Put(key, bs)
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}
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}
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// Traverse traverses MPT nodes (pre-order) starting from the billet root down
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// to its children calling `process` for each serialised node until true is
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// returned from `process` function. It also replaces all HashNodes to their
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// "unhashed" counterparts until the stop condition is satisfied.
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func (b *Billet) Traverse(process func(pathToNode []byte, node Node, nodeBytes []byte) bool, ignoreStorageErr bool) error {
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r, err := b.traverse(b.root, []byte{}, []byte{}, process, ignoreStorageErr)
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if err != nil && !errors.Is(err, errStop) {
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return err
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}
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b.root = r
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return nil
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}
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func (b *Billet) traverse(curr Node, path, from []byte, process func(pathToNode []byte, node Node, nodeBytes []byte) bool, ignoreStorageErr bool) (Node, error) {
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if _, ok := curr.(EmptyNode); ok {
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// We're not interested in EmptyNodes, and they do not affect the
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// traversal process, thus remain them untouched.
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return curr, nil
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}
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if hn, ok := curr.(*HashNode); ok {
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r, err := b.GetFromStore(hn.Hash())
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if err != nil {
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if ignoreStorageErr && errors.Is(err, storage.ErrKeyNotFound) {
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return hn, nil
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}
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return nil, err
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}
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return b.traverse(r, path, from, process, ignoreStorageErr)
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}
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if len(from) == 0 {
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bytes := slice.Copy(curr.Bytes())
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if process(fromNibbles(path), curr, bytes) {
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return curr, errStop
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}
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}
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switch n := curr.(type) {
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case *LeafNode:
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return b.tryCollapseLeaf(n), nil
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case *BranchNode:
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var (
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startIndex byte
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endIndex byte = childrenCount
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)
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if len(from) != 0 {
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endIndex = lastChild
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startIndex, from = splitPath(from)
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}
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for i := startIndex; i < endIndex; i++ {
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var newPath []byte
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if i == lastChild {
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newPath = path
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} else {
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newPath = append(path, i)
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}
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if i != startIndex {
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from = []byte{}
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}
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r, err := b.traverse(n.Children[i], newPath, from, process, ignoreStorageErr)
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if err != nil {
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if !errors.Is(err, errStop) {
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return nil, err
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}
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n.Children[i] = r
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return b.tryCollapseBranch(n), err
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}
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n.Children[i] = r
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}
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return b.tryCollapseBranch(n), nil
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case *ExtensionNode:
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if len(from) != 0 && bytes.HasPrefix(from, n.key) {
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from = from[len(n.key):]
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} else if len(from) == 0 || bytes.Compare(n.key, from) > 0 {
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from = []byte{}
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} else {
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return b.tryCollapseExtension(n), nil
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}
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r, err := b.traverse(n.next, append(path, n.key...), from, process, ignoreStorageErr)
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if err != nil && !errors.Is(err, errStop) {
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return nil, err
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}
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n.next = r
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return b.tryCollapseExtension(n), err
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default:
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return nil, ErrNotFound
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}
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}
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func (b *Billet) tryCollapseLeaf(curr *LeafNode) Node {
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// Leaf can always be collapsed.
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res := NewHashNode(curr.Hash())
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res.Collapsed = true
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return res
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}
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func (b *Billet) tryCollapseExtension(curr *ExtensionNode) Node {
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if !(curr.next.Type() == HashT && curr.next.(*HashNode).Collapsed) {
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return curr
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}
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res := NewHashNode(curr.Hash())
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res.Collapsed = true
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return res
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}
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func (b *Billet) tryCollapseBranch(curr *BranchNode) Node {
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canCollapse := true
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for i := 0; i < childrenCount; i++ {
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if curr.Children[i].Type() == EmptyT {
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continue
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}
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if curr.Children[i].Type() == HashT && curr.Children[i].(*HashNode).Collapsed {
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continue
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}
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canCollapse = false
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break
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}
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if !canCollapse {
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return curr
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}
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res := NewHashNode(curr.Hash())
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res.Collapsed = true
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return res
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}
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// GetFromStore returns MPT node from the storage.
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func (b *Billet) GetFromStore(h util.Uint256) (Node, error) {
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data, err := b.Store.Get(makeStorageKey(h.BytesBE()))
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if err != nil {
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return nil, err
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}
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var n NodeObject
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r := io.NewBinReaderFromBuf(data)
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n.DecodeBinary(r)
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if r.Err != nil {
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return nil, r.Err
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}
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if b.refcountEnabled {
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data = data[:len(data)-4]
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}
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n.Node.(flushedNode).setCache(data, h)
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return n.Node, nil
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}
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