ipld-eth-statedb/trie_by_cid/trie/database_node.go

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package trie
import (
"fmt"
"io"
"reflect"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/rlp"
)
// rawNode is a simple binary blob used to differentiate between collapsed trie
// nodes and already encoded RLP binary blobs (while at the same time store them
// in the same cache fields).
type rawNode []byte
func (n rawNode) cache() (hashNode, bool) { panic("this should never end up in a live trie") }
func (n rawNode) fstring(ind string) string { panic("this should never end up in a live trie") }
func (n rawNode) EncodeRLP(w io.Writer) error {
_, err := w.Write(n)
return err
}
// rawFullNode represents only the useful data content of a full node, with the
// caches and flags stripped out to minimize its data storage. This type honors
// the same RLP encoding as the original parent.
type rawFullNode [17]node
func (n rawFullNode) cache() (hashNode, bool) { panic("this should never end up in a live trie") }
func (n rawFullNode) fstring(ind string) string { panic("this should never end up in a live trie") }
func (n rawFullNode) EncodeRLP(w io.Writer) error {
eb := rlp.NewEncoderBuffer(w)
n.encode(eb)
return eb.Flush()
}
// rawShortNode represents only the useful data content of a short node, with the
// caches and flags stripped out to minimize its data storage. This type honors
// the same RLP encoding as the original parent.
type rawShortNode struct {
Key []byte
Val node
}
func (n rawShortNode) cache() (hashNode, bool) { panic("this should never end up in a live trie") }
func (n rawShortNode) fstring(ind string) string { panic("this should never end up in a live trie") }
// cachedNode is all the information we know about a single cached trie node
// in the memory database write layer.
type cachedNode struct {
node node // Cached collapsed trie node, or raw rlp data
size uint16 // Byte size of the useful cached data
parents uint32 // Number of live nodes referencing this one
children map[common.Hash]uint16 // External children referenced by this node
flushPrev common.Hash // Previous node in the flush-list
flushNext common.Hash // Next node in the flush-list
}
// cachedNodeSize is the raw size of a cachedNode data structure without any
// node data included. It's an approximate size, but should be a lot better
// than not counting them.
var cachedNodeSize = int(reflect.TypeOf(cachedNode{}).Size())
// cachedNodeChildrenSize is the raw size of an initialized but empty external
// reference map.
const cachedNodeChildrenSize = 48
// rlp returns the raw rlp encoded blob of the cached trie node, either directly
// from the cache, or by regenerating it from the collapsed node.
func (n *cachedNode) rlp() []byte {
if node, ok := n.node.(rawNode); ok {
return node
}
return nodeToBytes(n.node)
}
// obj returns the decoded and expanded trie node, either directly from the cache,
// or by regenerating it from the rlp encoded blob.
func (n *cachedNode) obj(hash common.Hash) node {
if node, ok := n.node.(rawNode); ok {
// The raw-blob format nodes are loaded either from the
// clean cache or the database, they are all in their own
// copy and safe to use unsafe decoder.
return mustDecodeNodeUnsafe(hash[:], node)
}
return expandNode(hash[:], n.node)
}
// forChilds invokes the callback for all the tracked children of this node,
// both the implicit ones from inside the node as well as the explicit ones
// from outside the node.
func (n *cachedNode) forChilds(onChild func(hash common.Hash)) {
for child := range n.children {
onChild(child)
}
if _, ok := n.node.(rawNode); !ok {
forGatherChildren(n.node, onChild)
}
}
// forGatherChildren traverses the node hierarchy of a collapsed storage node and
// invokes the callback for all the hashnode children.
func forGatherChildren(n node, onChild func(hash common.Hash)) {
switch n := n.(type) {
case *rawShortNode:
forGatherChildren(n.Val, onChild)
case rawFullNode:
for i := 0; i < 16; i++ {
forGatherChildren(n[i], onChild)
}
case hashNode:
onChild(common.BytesToHash(n))
case valueNode, nil, rawNode:
default:
panic(fmt.Sprintf("unknown node type: %T", n))
}
}
// simplifyNode traverses the hierarchy of an expanded memory node and discards
// all the internal caches, returning a node that only contains the raw data.
func simplifyNode(n node) node {
switch n := n.(type) {
case *shortNode:
// Short nodes discard the flags and cascade
return &rawShortNode{Key: n.Key, Val: simplifyNode(n.Val)}
case *fullNode:
// Full nodes discard the flags and cascade
node := rawFullNode(n.Children)
for i := 0; i < len(node); i++ {
if node[i] != nil {
node[i] = simplifyNode(node[i])
}
}
return node
case valueNode, hashNode, rawNode:
return n
default:
panic(fmt.Sprintf("unknown node type: %T", n))
}
}
// expandNode traverses the node hierarchy of a collapsed storage node and converts
// all fields and keys into expanded memory form.
func expandNode(hash hashNode, n node) node {
switch n := n.(type) {
case *rawShortNode:
// Short nodes need key and child expansion
return &shortNode{
Key: compactToHex(n.Key),
Val: expandNode(nil, n.Val),
flags: nodeFlag{
hash: hash,
},
}
case rawFullNode:
// Full nodes need child expansion
node := &fullNode{
flags: nodeFlag{
hash: hash,
},
}
for i := 0; i < len(node.Children); i++ {
if n[i] != nil {
node.Children[i] = expandNode(nil, n[i])
}
}
return node
case valueNode, hashNode:
return n
default:
panic(fmt.Sprintf("unknown node type: %T", n))
}
}