go-ethereum/core/stateless/database.go

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// Copyright 2024 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 stateless
import (
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/core/rawdb"
"github.com/ethereum/go-ethereum/crypto"
"github.com/ethereum/go-ethereum/ethdb"
)
// MakeHashDB imports tries, codes and block hashes from a witness into a new
// hash-based memory db. We could eventually rewrite this into a pathdb, but
// simple is better for now.
beacon, core, eth, miner: integrate witnesses into production Geth (#30069) This PR integrates witness-enabled block production, witness-creating payload execution and stateless cross-validation into the `engine` API. The purpose of the PR is to enable the following use-cases (for API details, please see next section): - Cross validating locally created blocks: - Call `forkchoiceUpdatedWithWitness` instead of `forkchoiceUpdated` to trigger witness creation too. - Call `getPayload` as before to retrieve the new block and also the above created witness. - Call `executeStatelessPayload` against another client to cross-validate the block. - Cross validating locally processed blocks: - Call `newPayloadWithWitness` instead of `newPayload` to trigger witness creation too. - Call `executeStatelessPayload` against another client to cross-validate the block. - Block production for stateless clients (local or MEV builders): - Call `forkchoiceUpdatedWithWitness` instead of `forkchoiceUpdated` to trigger witness creation too. - Call `getPayload` as before to retrieve the new block and also the above created witness. - Propagate witnesses across the consensus libp2p network for stateless Ethereum. - Stateless validator validation: - Call `executeStatelessPayload` with the propagated witness to statelessly validate the block. *Note, the various `WithWitness` methods could also *just be* an additional boolean flag on the base methods, but this PR wanted to keep the methods separate until a final consensus is reached on how to integrate in production.* --- The following `engine` API types are introduced: ```go // StatelessPayloadStatusV1 is the result of a stateless payload execution. type StatelessPayloadStatusV1 struct { Status string `json:"status"` StateRoot common.Hash `json:"stateRoot"` ReceiptsRoot common.Hash `json:"receiptsRoot"` ValidationError *string `json:"validationError"` } ``` - Add `forkchoiceUpdatedWithWitnessV1,2,3` with same params and returns as `forkchoiceUpdatedV1,2,3`, but triggering a stateless witness building if block production is requested. - Extend `getPayloadV2,3` to return `executionPayloadEnvelope` with an additional `witness` field of type `bytes` iff created via `forkchoiceUpdatedWithWitnessV2,3`. - Add `newPayloadWithWitnessV1,2,3,4` with same params and returns as `newPayloadV1,2,3,4`, but triggering a stateless witness creation during payload execution to allow cross validating it. - Extend `payloadStatusV1` with a `witness` field of type `bytes` if returned by `newPayloadWithWitnessV1,2,3,4`. - Add `executeStatelessPayloadV1,2,3,4` with same base params as `newPayloadV1,2,3,4` and one more additional param (`witness`) of type `bytes`. The method returns `statelessPayloadStatusV1`, which mirrors `payloadStatusV1` but replaces `latestValidHash` with `stateRoot` and `receiptRoot`.
2024-09-20 16:43:42 +03:00
//
// Note, this hashdb approach is quite strictly self-validating:
// - Headers are persisted keyed by hash, so blockhash will error on junk
// - Codes are persisted keyed by hash, so bytecode lookup will error on junk
// - Trie nodes are persisted keyed by hash, so trie expansion will error on junk
//
// Acceleration structures built would need to explicitly validate the witness.
func (w *Witness) MakeHashDB() ethdb.Database {
var (
memdb = rawdb.NewMemoryDatabase()
hasher = crypto.NewKeccakState()
hash = make([]byte, 32)
)
// Inject all the "block hashes" (i.e. headers) into the ephemeral database
for _, header := range w.Headers {
rawdb.WriteHeader(memdb, header)
}
// Inject all the bytecodes into the ephemeral database
for code := range w.Codes {
blob := []byte(code)
hasher.Reset()
hasher.Write(blob)
hasher.Read(hash)
rawdb.WriteCode(memdb, common.BytesToHash(hash), blob)
}
// Inject all the MPT trie nodes into the ephemeral database
for node := range w.State {
blob := []byte(node)
hasher.Reset()
hasher.Write(blob)
hasher.Read(hash)
rawdb.WriteLegacyTrieNode(memdb, common.BytesToHash(hash), blob)
}
return memdb
}