forked from cerc-io/plugeth
fff843cfaf
This change implements CommitteeChain which is a key component of the beacon light client. It is a passive data structure that can validate, hold and update a chain of beacon light sync committees and updates, starting from a checkpoint that proves the starting committee through a beacon block hash, header and corresponding state. Once synced to the current sync period, CommitteeChain can also validate signed beacon headers.
515 lines
19 KiB
Go
515 lines
19 KiB
Go
// Copyright 2023 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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package light
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import (
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"errors"
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"fmt"
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"math"
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"sync"
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"time"
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"github.com/ethereum/go-ethereum/beacon/params"
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"github.com/ethereum/go-ethereum/beacon/types"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/common/lru"
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"github.com/ethereum/go-ethereum/common/mclock"
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"github.com/ethereum/go-ethereum/core/rawdb"
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"github.com/ethereum/go-ethereum/ethdb"
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"github.com/ethereum/go-ethereum/log"
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)
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var (
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ErrNeedCommittee = errors.New("sync committee required")
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ErrInvalidUpdate = errors.New("invalid committee update")
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ErrInvalidPeriod = errors.New("invalid update period")
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ErrWrongCommitteeRoot = errors.New("wrong committee root")
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ErrCannotReorg = errors.New("can not reorg committee chain")
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)
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// CommitteeChain is a passive data structure that can validate, hold and update
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// a chain of beacon light sync committees and updates. It requires at least one
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// externally set fixed committee root at the beginning of the chain which can
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// be set either based on a BootstrapData or a trusted source (a local beacon
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// full node). This makes the structure useful for both light client and light
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// server setups.
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//
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// It always maintains the following consistency constraints:
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// - a committee can only be present if its root hash matches an existing fixed
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// root or if it is proven by an update at the previous period
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// - an update can only be present if a committee is present at the same period
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// and the update signature is valid and has enough participants.
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// The committee at the next period (proven by the update) should also be
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// present (note that this means they can only be added together if neither
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// is present yet). If a fixed root is present at the next period then the
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// update can only be present if it proves the same committee root.
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//
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// Once synced to the current sync period, CommitteeChain can also validate
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// signed beacon headers.
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type CommitteeChain struct {
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// chainmu guards against concurrent access to the canonicalStore structures
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// (updates, committees, fixedCommitteeRoots) and ensures that they stay consistent
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// with each other and with committeeCache.
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chainmu sync.RWMutex
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db ethdb.KeyValueStore
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updates *canonicalStore[*types.LightClientUpdate]
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committees *canonicalStore[*types.SerializedSyncCommittee]
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fixedCommitteeRoots *canonicalStore[common.Hash]
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committeeCache *lru.Cache[uint64, syncCommittee] // cache deserialized committees
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clock mclock.Clock // monotonic clock (simulated clock in tests)
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unixNano func() int64 // system clock (simulated clock in tests)
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sigVerifier committeeSigVerifier // BLS sig verifier (dummy verifier in tests)
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config *types.ChainConfig
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signerThreshold int
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minimumUpdateScore types.UpdateScore
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enforceTime bool // enforceTime specifies whether the age of a signed header should be checked
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}
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// NewCommitteeChain creates a new CommitteeChain.
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func NewCommitteeChain(db ethdb.KeyValueStore, config *types.ChainConfig, signerThreshold int, enforceTime bool) *CommitteeChain {
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return newCommitteeChain(db, config, signerThreshold, enforceTime, blsVerifier{}, &mclock.System{}, func() int64 { return time.Now().UnixNano() })
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}
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// newCommitteeChain creates a new CommitteeChain with the option of replacing the
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// clock source and signature verification for testing purposes.
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func newCommitteeChain(db ethdb.KeyValueStore, config *types.ChainConfig, signerThreshold int, enforceTime bool, sigVerifier committeeSigVerifier, clock mclock.Clock, unixNano func() int64) *CommitteeChain {
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s := &CommitteeChain{
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committeeCache: lru.NewCache[uint64, syncCommittee](10),
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db: db,
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sigVerifier: sigVerifier,
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clock: clock,
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unixNano: unixNano,
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config: config,
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signerThreshold: signerThreshold,
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enforceTime: enforceTime,
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minimumUpdateScore: types.UpdateScore{
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SignerCount: uint32(signerThreshold),
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SubPeriodIndex: params.SyncPeriodLength / 16,
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},
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}
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var err1, err2, err3 error
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if s.fixedCommitteeRoots, err1 = newCanonicalStore[common.Hash](db, rawdb.FixedCommitteeRootKey); err1 != nil {
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log.Error("Error creating fixed committee root store", "error", err1)
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}
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if s.committees, err2 = newCanonicalStore[*types.SerializedSyncCommittee](db, rawdb.SyncCommitteeKey); err2 != nil {
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log.Error("Error creating committee store", "error", err2)
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}
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if s.updates, err3 = newCanonicalStore[*types.LightClientUpdate](db, rawdb.BestUpdateKey); err3 != nil {
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log.Error("Error creating update store", "error", err3)
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}
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if err1 != nil || err2 != nil || err3 != nil || !s.checkConstraints() {
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log.Info("Resetting invalid committee chain")
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s.Reset()
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}
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// roll back invalid updates (might be necessary if forks have been changed since last time)
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for !s.updates.periods.isEmpty() {
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update, ok := s.updates.get(s.db, s.updates.periods.End-1)
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if !ok {
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log.Error("Sync committee update missing", "period", s.updates.periods.End-1)
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s.Reset()
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break
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}
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if valid, err := s.verifyUpdate(update); err != nil {
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log.Error("Error validating update", "period", s.updates.periods.End-1, "error", err)
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} else if valid {
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break
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}
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if err := s.rollback(s.updates.periods.End); err != nil {
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log.Error("Error writing batch into chain database", "error", err)
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}
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}
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if !s.committees.periods.isEmpty() {
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log.Trace("Sync committee chain loaded", "first period", s.committees.periods.Start, "last period", s.committees.periods.End-1)
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}
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return s
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}
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// checkConstraints checks committee chain validity constraints
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func (s *CommitteeChain) checkConstraints() bool {
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isNotInFixedCommitteeRootRange := func(r periodRange) bool {
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return s.fixedCommitteeRoots.periods.isEmpty() ||
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r.Start < s.fixedCommitteeRoots.periods.Start ||
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r.Start >= s.fixedCommitteeRoots.periods.End
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}
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valid := true
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if !s.updates.periods.isEmpty() {
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if isNotInFixedCommitteeRootRange(s.updates.periods) {
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log.Error("Start update is not in the fixed roots range")
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valid = false
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}
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if s.committees.periods.Start > s.updates.periods.Start || s.committees.periods.End <= s.updates.periods.End {
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log.Error("Missing committees in update range")
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valid = false
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}
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}
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if !s.committees.periods.isEmpty() {
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if isNotInFixedCommitteeRootRange(s.committees.periods) {
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log.Error("Start committee is not in the fixed roots range")
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valid = false
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}
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if s.committees.periods.End > s.fixedCommitteeRoots.periods.End && s.committees.periods.End > s.updates.periods.End+1 {
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log.Error("Last committee is neither in the fixed roots range nor proven by updates")
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valid = false
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}
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}
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return valid
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}
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// Reset resets the committee chain.
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func (s *CommitteeChain) Reset() {
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s.chainmu.Lock()
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defer s.chainmu.Unlock()
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if err := s.rollback(0); err != nil {
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log.Error("Error writing batch into chain database", "error", err)
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}
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}
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// CheckpointInit initializes a CommitteeChain based on the checkpoint.
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// Note: if the chain is already initialized and the committees proven by the
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// checkpoint do match the existing chain then the chain is retained and the
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// new checkpoint becomes fixed.
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func (s *CommitteeChain) CheckpointInit(bootstrap *types.BootstrapData) error {
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s.chainmu.Lock()
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defer s.chainmu.Unlock()
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if err := bootstrap.Validate(); err != nil {
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return err
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}
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period := bootstrap.Header.SyncPeriod()
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if err := s.deleteFixedCommitteeRootsFrom(period + 2); err != nil {
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s.Reset()
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return err
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}
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if s.addFixedCommitteeRoot(period, bootstrap.CommitteeRoot) != nil {
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s.Reset()
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if err := s.addFixedCommitteeRoot(period, bootstrap.CommitteeRoot); err != nil {
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s.Reset()
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return err
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}
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}
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if err := s.addFixedCommitteeRoot(period+1, common.Hash(bootstrap.CommitteeBranch[0])); err != nil {
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s.Reset()
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return err
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}
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if err := s.addCommittee(period, bootstrap.Committee); err != nil {
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s.Reset()
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return err
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}
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return nil
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}
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// addFixedCommitteeRoot sets a fixed committee root at the given period.
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// Note that the period where the first committee is added has to have a fixed
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// root which can either come from a BootstrapData or a trusted source.
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func (s *CommitteeChain) addFixedCommitteeRoot(period uint64, root common.Hash) error {
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if root == (common.Hash{}) {
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return ErrWrongCommitteeRoot
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}
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batch := s.db.NewBatch()
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oldRoot := s.getCommitteeRoot(period)
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if !s.fixedCommitteeRoots.periods.canExpand(period) {
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// Note: the fixed committee root range should always be continuous and
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// therefore the expected syncing method is to forward sync and optionally
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// backward sync periods one by one, starting from a checkpoint. The only
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// case when a root that is not adjacent to the already fixed ones can be
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// fixed is when the same root has already been proven by an update chain.
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// In this case the all roots in between can and should be fixed.
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// This scenario makes sense when a new trusted checkpoint is added to an
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// existing chain, ensuring that it will not be rolled back (might be
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// important in case of low signer participation rate).
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if root != oldRoot {
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return ErrInvalidPeriod
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}
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// if the old root exists and matches the new one then it is guaranteed
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// that the given period is after the existing fixed range and the roots
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// in between can also be fixed.
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for p := s.fixedCommitteeRoots.periods.End; p < period; p++ {
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if err := s.fixedCommitteeRoots.add(batch, p, s.getCommitteeRoot(p)); err != nil {
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return err
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}
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}
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}
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if oldRoot != (common.Hash{}) && (oldRoot != root) {
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// existing old root was different, we have to reorg the chain
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if err := s.rollback(period); err != nil {
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return err
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}
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}
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if err := s.fixedCommitteeRoots.add(batch, period, root); err != nil {
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return err
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}
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if err := batch.Write(); err != nil {
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log.Error("Error writing batch into chain database", "error", err)
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return err
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}
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return nil
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}
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// deleteFixedCommitteeRootsFrom deletes fixed roots starting from the given period.
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// It also maintains chain consistency, meaning that it also deletes updates and
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// committees if they are no longer supported by a valid update chain.
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func (s *CommitteeChain) deleteFixedCommitteeRootsFrom(period uint64) error {
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if period >= s.fixedCommitteeRoots.periods.End {
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return nil
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}
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batch := s.db.NewBatch()
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s.fixedCommitteeRoots.deleteFrom(batch, period)
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if s.updates.periods.isEmpty() || period <= s.updates.periods.Start {
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// Note: the first period of the update chain should always be fixed so if
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// the fixed root at the first update is removed then the entire update chain
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// and the proven committees have to be removed. Earlier committees in the
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// remaining fixed root range can stay.
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s.updates.deleteFrom(batch, period)
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s.deleteCommitteesFrom(batch, period)
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} else {
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// The update chain stays intact, some previously fixed committee roots might
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// get unfixed but are still proven by the update chain. If there were
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// committees present after the range proven by updates, those should be
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// removed if the belonging fixed roots are also removed.
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fromPeriod := s.updates.periods.End + 1 // not proven by updates
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if period > fromPeriod {
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fromPeriod = period // also not justified by fixed roots
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}
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s.deleteCommitteesFrom(batch, fromPeriod)
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}
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if err := batch.Write(); err != nil {
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log.Error("Error writing batch into chain database", "error", err)
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return err
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}
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return nil
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}
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// deleteCommitteesFrom deletes committees starting from the given period.
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func (s *CommitteeChain) deleteCommitteesFrom(batch ethdb.Batch, period uint64) {
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deleted := s.committees.deleteFrom(batch, period)
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for period := deleted.Start; period < deleted.End; period++ {
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s.committeeCache.Remove(period)
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}
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}
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// addCommittee adds a committee at the given period if possible.
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func (s *CommitteeChain) addCommittee(period uint64, committee *types.SerializedSyncCommittee) error {
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if !s.committees.periods.canExpand(period) {
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return ErrInvalidPeriod
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}
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root := s.getCommitteeRoot(period)
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if root == (common.Hash{}) {
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return ErrInvalidPeriod
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}
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if root != committee.Root() {
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return ErrWrongCommitteeRoot
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}
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if !s.committees.periods.contains(period) {
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if err := s.committees.add(s.db, period, committee); err != nil {
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return err
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}
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s.committeeCache.Remove(period)
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}
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return nil
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}
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// InsertUpdate adds a new update if possible.
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func (s *CommitteeChain) InsertUpdate(update *types.LightClientUpdate, nextCommittee *types.SerializedSyncCommittee) error {
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s.chainmu.Lock()
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defer s.chainmu.Unlock()
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period := update.AttestedHeader.Header.SyncPeriod()
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if !s.updates.periods.canExpand(period) || !s.committees.periods.contains(period) {
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return ErrInvalidPeriod
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}
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if s.minimumUpdateScore.BetterThan(update.Score()) {
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return ErrInvalidUpdate
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}
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oldRoot := s.getCommitteeRoot(period + 1)
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reorg := oldRoot != (common.Hash{}) && oldRoot != update.NextSyncCommitteeRoot
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if oldUpdate, ok := s.updates.get(s.db, period); ok && !update.Score().BetterThan(oldUpdate.Score()) {
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// a better or equal update already exists; no changes, only fail if new one tried to reorg
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if reorg {
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return ErrCannotReorg
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}
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return nil
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}
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if s.fixedCommitteeRoots.periods.contains(period+1) && reorg {
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return ErrCannotReorg
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}
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if ok, err := s.verifyUpdate(update); err != nil {
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return err
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} else if !ok {
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return ErrInvalidUpdate
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}
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addCommittee := !s.committees.periods.contains(period+1) || reorg
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if addCommittee {
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if nextCommittee == nil {
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return ErrNeedCommittee
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}
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if nextCommittee.Root() != update.NextSyncCommitteeRoot {
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return ErrWrongCommitteeRoot
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}
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}
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if reorg {
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if err := s.rollback(period + 1); err != nil {
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return err
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}
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}
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batch := s.db.NewBatch()
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if addCommittee {
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if err := s.committees.add(batch, period+1, nextCommittee); err != nil {
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return err
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}
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s.committeeCache.Remove(period + 1)
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}
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if err := s.updates.add(batch, period, update); err != nil {
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return err
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}
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if err := batch.Write(); err != nil {
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log.Error("Error writing batch into chain database", "error", err)
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return err
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}
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log.Info("Inserted new committee update", "period", period, "next committee root", update.NextSyncCommitteeRoot)
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return nil
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}
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// NextSyncPeriod returns the next period where an update can be added and also
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// whether the chain is initialized at all.
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func (s *CommitteeChain) NextSyncPeriod() (uint64, bool) {
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s.chainmu.RLock()
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defer s.chainmu.RUnlock()
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if s.committees.periods.isEmpty() {
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return 0, false
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}
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if !s.updates.periods.isEmpty() {
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return s.updates.periods.End, true
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}
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return s.committees.periods.End - 1, true
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}
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// rollback removes all committees and fixed roots from the given period and updates
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// starting from the previous period.
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func (s *CommitteeChain) rollback(period uint64) error {
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max := s.updates.periods.End + 1
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if s.committees.periods.End > max {
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max = s.committees.periods.End
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}
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if s.fixedCommitteeRoots.periods.End > max {
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max = s.fixedCommitteeRoots.periods.End
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}
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for max > period {
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max--
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batch := s.db.NewBatch()
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s.deleteCommitteesFrom(batch, max)
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s.fixedCommitteeRoots.deleteFrom(batch, max)
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if max > 0 {
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s.updates.deleteFrom(batch, max-1)
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}
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if err := batch.Write(); err != nil {
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log.Error("Error writing batch into chain database", "error", err)
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return err
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}
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}
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return nil
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}
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// getCommitteeRoot returns the committee root at the given period, either fixed,
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// proven by a previous update or both. It returns an empty hash if the committee
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// root is unknown.
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func (s *CommitteeChain) getCommitteeRoot(period uint64) common.Hash {
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if root, ok := s.fixedCommitteeRoots.get(s.db, period); ok || period == 0 {
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return root
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}
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if update, ok := s.updates.get(s.db, period-1); ok {
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return update.NextSyncCommitteeRoot
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}
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return common.Hash{}
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}
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// getSyncCommittee returns the deserialized sync committee at the given period.
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func (s *CommitteeChain) getSyncCommittee(period uint64) (syncCommittee, error) {
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if c, ok := s.committeeCache.Get(period); ok {
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return c, nil
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}
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if sc, ok := s.committees.get(s.db, period); ok {
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c, err := s.sigVerifier.deserializeSyncCommittee(sc)
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if err != nil {
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return nil, fmt.Errorf("Sync committee #%d deserialization error: %v", period, err)
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}
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s.committeeCache.Add(period, c)
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return c, nil
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}
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return nil, fmt.Errorf("Missing serialized sync committee #%d", period)
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}
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// VerifySignedHeader returns true if the given signed header has a valid signature
|
|
// according to the local committee chain. The caller should ensure that the
|
|
// committees advertised by the same source where the signed header came from are
|
|
// synced before verifying the signature.
|
|
// The age of the header is also returned (the time elapsed since the beginning
|
|
// of the given slot, according to the local system clock). If enforceTime is
|
|
// true then negative age (future) headers are rejected.
|
|
func (s *CommitteeChain) VerifySignedHeader(head types.SignedHeader) (bool, time.Duration, error) {
|
|
s.chainmu.RLock()
|
|
defer s.chainmu.RUnlock()
|
|
|
|
return s.verifySignedHeader(head)
|
|
}
|
|
|
|
func (s *CommitteeChain) verifySignedHeader(head types.SignedHeader) (bool, time.Duration, error) {
|
|
var age time.Duration
|
|
now := s.unixNano()
|
|
if head.Header.Slot < (uint64(now-math.MinInt64)/uint64(time.Second)-s.config.GenesisTime)/12 {
|
|
age = time.Duration(now - int64(time.Second)*int64(s.config.GenesisTime+head.Header.Slot*12))
|
|
} else {
|
|
age = time.Duration(math.MinInt64)
|
|
}
|
|
if s.enforceTime && age < 0 {
|
|
return false, age, nil
|
|
}
|
|
committee, err := s.getSyncCommittee(types.SyncPeriod(head.SignatureSlot))
|
|
if err != nil {
|
|
return false, 0, err
|
|
}
|
|
if committee == nil {
|
|
return false, age, nil
|
|
}
|
|
if signingRoot, err := s.config.Forks.SigningRoot(head.Header); err == nil {
|
|
return s.sigVerifier.verifySignature(committee, signingRoot, &head.Signature), age, nil
|
|
}
|
|
return false, age, nil
|
|
}
|
|
|
|
// verifyUpdate checks whether the header signature is correct and the update
|
|
// fits into the specified constraints (assumes that the update has been
|
|
// successfully validated previously)
|
|
func (s *CommitteeChain) verifyUpdate(update *types.LightClientUpdate) (bool, error) {
|
|
// Note: SignatureSlot determines the sync period of the committee used for signature
|
|
// verification. Though in reality SignatureSlot is always bigger than update.Header.Slot,
|
|
// setting them as equal here enforces the rule that they have to be in the same sync
|
|
// period in order for the light client update proof to be meaningful.
|
|
ok, age, err := s.verifySignedHeader(update.AttestedHeader)
|
|
if age < 0 {
|
|
log.Warn("Future committee update received", "age", age)
|
|
}
|
|
return ok, err
|
|
}
|