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path: root/light/trie.go
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// Copyright 2015 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 light

import (
    "context"
    "fmt"

    "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/trie"
)

func NewState(ctx context.Context, head *types.Header, odr OdrBackend) *state.StateDB {
    state, _ := state.New(head.Root, NewStateDatabase(ctx, head, odr))
    return state
}

func NewStateDatabase(ctx context.Context, head *types.Header, odr OdrBackend) state.Database {
    return &odrDatabase{ctx, StateTrieID(head), odr}
}

type odrDatabase struct {
    ctx     context.Context
    id      *TrieID
    backend OdrBackend
}

func (db *odrDatabase) OpenTrie(root common.Hash) (state.Trie, error) {
    return &odrTrie{db: db, id: db.id}, nil
}

func (db *odrDatabase) OpenStorageTrie(addrHash, root common.Hash) (state.Trie, error) {
    return &odrTrie{db: db, id: StorageTrieID(db.id, addrHash, root)}, nil
}

func (db *odrDatabase) CopyTrie(t state.Trie) state.Trie {
    switch t := t.(type) {
    case *odrTrie:
        cpy := &odrTrie{db: t.db, id: t.id}
        if t.trie != nil {
            cpytrie := *t.trie
            cpy.trie = &cpytrie
        }
        return cpy
    default:
        panic(fmt.Errorf("unknown trie type %T", t))
    }
}

func (db *odrDatabase) ContractCode(addrHash, codeHash common.Hash) ([]byte, error) {
    if codeHash == sha3_nil {
        return nil, nil
    }
    if code, err := db.backend.Database().Get(codeHash[:]); err == nil {
        return code, nil
    }
    id := *db.id
    id.AccKey = addrHash[:]
    req := &CodeRequest{Id: &id, Hash: codeHash}
    err := db.backend.Retrieve(db.ctx, req)
    return req.Data, err
}

func (db *odrDatabase) ContractCodeSize(addrHash, codeHash common.Hash) (int, error) {
    code, err := db.ContractCode(addrHash, codeHash)
    return len(code), err
}

type odrTrie struct {
    db   *odrDatabase
    id   *TrieID
    trie *trie.Trie
}

func (t *odrTrie) TryGet(key []byte) ([]byte, error) {
    key = crypto.Keccak256(key)
    var res []byte
    err := t.do(key, func() (err error) {
        res, err = t.trie.TryGet(key)
        return err
    })
    return res, err
}

func (t *odrTrie) TryUpdate(key, value []byte) error {
    key = crypto.Keccak256(key)
    return t.do(key, func() error {
        return t.trie.TryDelete(key)
    })
}

func (t *odrTrie) TryDelete(key []byte) error {
    key = crypto.Keccak256(key)
    return t.do(key, func() error {
        return t.trie.TryDelete(key)
    })
}

func (t *odrTrie) CommitTo(db trie.DatabaseWriter) (common.Hash, error) {
    if t.trie == nil {
        return t.id.Root, nil
    }
    return t.trie.CommitTo(db)
}

func (t *odrTrie) Hash() common.Hash {
    if t.trie == nil {
        return t.id.Root
    }
    return t.trie.Hash()
}

func (t *odrTrie) NodeIterator(startkey []byte) trie.NodeIterator {
    return newNodeIterator(t, startkey)
}

func (t *odrTrie) GetKey(sha []byte) []byte {
    return nil
}

// do tries and retries to execute a function until it returns with no error or
// an error type other than MissingNodeError
func (t *odrTrie) do(key []byte, fn func() error) error {
    for {
        var err error
        if t.trie == nil {
            t.trie, err = trie.New(t.id.Root, t.db.backend.Database())
        }
        if err == nil {
            err = fn()
        }
        if _, ok := err.(*trie.MissingNodeError); !ok {
            return err
        }
        r := &TrieRequest{Id: t.id, Key: key}
        if err := t.db.backend.Retrieve(t.db.ctx, r); err != nil {
            return err
        }
    }
}

type nodeIterator struct {
    trie.NodeIterator
    t   *odrTrie
    err error
}

func newNodeIterator(t *odrTrie, startkey []byte) trie.NodeIterator {
    it := &nodeIterator{t: t}
    // Open the actual non-ODR trie if that hasn't happened yet.
    if t.trie == nil {
        it.do(func() error {
            t, err := trie.New(t.id.Root, t.db.backend.Database())
            if err == nil {
                it.t.trie = t
            }
            return err
        })
    }
    it.do(func() error {
        it.NodeIterator = it.t.trie.NodeIterator(startkey)
        return it.NodeIterator.Error()
    })
    return it
}

func (it *nodeIterator) Next(descend bool) bool {
    var ok bool
    it.do(func() error {
        ok = it.NodeIterator.Next(descend)
        return it.NodeIterator.Error()
    })
    return ok
}

// do runs fn and attempts to fill in missing nodes by retrieving.
func (it *nodeIterator) do(fn func() error) {
    var lasthash common.Hash
    for {
        it.err = fn()
        missing, ok := it.err.(*trie.MissingNodeError)
        if !ok {
            return
        }
        if missing.NodeHash == lasthash {
            it.err = fmt.Errorf("retrieve loop for trie node %x", missing.NodeHash)
            return
        }
        lasthash = missing.NodeHash
        r := &TrieRequest{Id: it.t.id, Key: nibblesToKey(missing.Path)}
        if it.err = it.t.db.backend.Retrieve(it.t.db.ctx, r); it.err != nil {
            return
        }
    }
}

func (it *nodeIterator) Error() error {
    if it.err != nil {
        return it.err
    }
    return it.NodeIterator.Error()
}

func nibblesToKey(nib []byte) []byte {
    if len(nib) > 0 && nib[len(nib)-1] == 0x10 {
        nib = nib[:len(nib)-1] // drop terminator
    }
    if len(nib)&1 == 1 {
        nib = append(nib, 0) // make even
    }
    key := make([]byte, len(nib)/2)
    for bi, ni := 0, 0; ni < len(nib); bi, ni = bi+1, ni+2 {
        key[bi] = nib[ni]<<4 | nib[ni+1]
    }
    return key
}