mirror of https://github.com/status-im/op-geth.git
604 lines
22 KiB
Go
604 lines
22 KiB
Go
// Copyright 2019 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 snapshot implements a journalled, dynamic state dump.
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package snapshot
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import (
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"bytes"
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"errors"
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"fmt"
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"sync"
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"sync/atomic"
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"github.com/ethereum/go-ethereum/common"
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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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"github.com/ethereum/go-ethereum/metrics"
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"github.com/ethereum/go-ethereum/trie"
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)
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var (
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snapshotCleanAccountHitMeter = metrics.NewRegisteredMeter("state/snapshot/clean/account/hit", nil)
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snapshotCleanAccountMissMeter = metrics.NewRegisteredMeter("state/snapshot/clean/account/miss", nil)
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snapshotCleanAccountInexMeter = metrics.NewRegisteredMeter("state/snapshot/clean/account/inex", nil)
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snapshotCleanAccountReadMeter = metrics.NewRegisteredMeter("state/snapshot/clean/account/read", nil)
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snapshotCleanAccountWriteMeter = metrics.NewRegisteredMeter("state/snapshot/clean/account/write", nil)
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snapshotCleanStorageHitMeter = metrics.NewRegisteredMeter("state/snapshot/clean/storage/hit", nil)
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snapshotCleanStorageMissMeter = metrics.NewRegisteredMeter("state/snapshot/clean/storage/miss", nil)
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snapshotCleanStorageInexMeter = metrics.NewRegisteredMeter("state/snapshot/clean/storage/inex", nil)
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snapshotCleanStorageReadMeter = metrics.NewRegisteredMeter("state/snapshot/clean/storage/read", nil)
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snapshotCleanStorageWriteMeter = metrics.NewRegisteredMeter("state/snapshot/clean/storage/write", nil)
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snapshotDirtyAccountHitMeter = metrics.NewRegisteredMeter("state/snapshot/dirty/account/hit", nil)
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snapshotDirtyAccountMissMeter = metrics.NewRegisteredMeter("state/snapshot/dirty/account/miss", nil)
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snapshotDirtyAccountInexMeter = metrics.NewRegisteredMeter("state/snapshot/dirty/account/inex", nil)
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snapshotDirtyAccountReadMeter = metrics.NewRegisteredMeter("state/snapshot/dirty/account/read", nil)
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snapshotDirtyAccountWriteMeter = metrics.NewRegisteredMeter("state/snapshot/dirty/account/write", nil)
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snapshotDirtyStorageHitMeter = metrics.NewRegisteredMeter("state/snapshot/dirty/storage/hit", nil)
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snapshotDirtyStorageMissMeter = metrics.NewRegisteredMeter("state/snapshot/dirty/storage/miss", nil)
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snapshotDirtyStorageInexMeter = metrics.NewRegisteredMeter("state/snapshot/dirty/storage/inex", nil)
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snapshotDirtyStorageReadMeter = metrics.NewRegisteredMeter("state/snapshot/dirty/storage/read", nil)
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snapshotDirtyStorageWriteMeter = metrics.NewRegisteredMeter("state/snapshot/dirty/storage/write", nil)
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snapshotDirtyAccountHitDepthHist = metrics.NewRegisteredHistogram("state/snapshot/dirty/account/hit/depth", nil, metrics.NewExpDecaySample(1028, 0.015))
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snapshotDirtyStorageHitDepthHist = metrics.NewRegisteredHistogram("state/snapshot/dirty/storage/hit/depth", nil, metrics.NewExpDecaySample(1028, 0.015))
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snapshotFlushAccountItemMeter = metrics.NewRegisteredMeter("state/snapshot/flush/account/item", nil)
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snapshotFlushAccountSizeMeter = metrics.NewRegisteredMeter("state/snapshot/flush/account/size", nil)
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snapshotFlushStorageItemMeter = metrics.NewRegisteredMeter("state/snapshot/flush/storage/item", nil)
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snapshotFlushStorageSizeMeter = metrics.NewRegisteredMeter("state/snapshot/flush/storage/size", nil)
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snapshotBloomIndexTimer = metrics.NewRegisteredResettingTimer("state/snapshot/bloom/index", nil)
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snapshotBloomErrorGauge = metrics.NewRegisteredGaugeFloat64("state/snapshot/bloom/error", nil)
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snapshotBloomAccountTrueHitMeter = metrics.NewRegisteredMeter("state/snapshot/bloom/account/truehit", nil)
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snapshotBloomAccountFalseHitMeter = metrics.NewRegisteredMeter("state/snapshot/bloom/account/falsehit", nil)
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snapshotBloomAccountMissMeter = metrics.NewRegisteredMeter("state/snapshot/bloom/account/miss", nil)
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snapshotBloomStorageTrueHitMeter = metrics.NewRegisteredMeter("state/snapshot/bloom/storage/truehit", nil)
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snapshotBloomStorageFalseHitMeter = metrics.NewRegisteredMeter("state/snapshot/bloom/storage/falsehit", nil)
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snapshotBloomStorageMissMeter = metrics.NewRegisteredMeter("state/snapshot/bloom/storage/miss", nil)
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// ErrSnapshotStale is returned from data accessors if the underlying snapshot
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// layer had been invalidated due to the chain progressing forward far enough
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// to not maintain the layer's original state.
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ErrSnapshotStale = errors.New("snapshot stale")
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// ErrNotCoveredYet is returned from data accessors if the underlying snapshot
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// is being generated currently and the requested data item is not yet in the
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// range of accounts covered.
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ErrNotCoveredYet = errors.New("not covered yet")
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// errSnapshotCycle is returned if a snapshot is attempted to be inserted
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// that forms a cycle in the snapshot tree.
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errSnapshotCycle = errors.New("snapshot cycle")
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)
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// Snapshot represents the functionality supported by a snapshot storage layer.
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type Snapshot interface {
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// Root returns the root hash for which this snapshot was made.
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Root() common.Hash
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// Account directly retrieves the account associated with a particular hash in
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// the snapshot slim data format.
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Account(hash common.Hash) (*Account, error)
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// AccountRLP directly retrieves the account RLP associated with a particular
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// hash in the snapshot slim data format.
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AccountRLP(hash common.Hash) ([]byte, error)
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// Storage directly retrieves the storage data associated with a particular hash,
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// within a particular account.
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Storage(accountHash, storageHash common.Hash) ([]byte, error)
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}
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// snapshot is the internal version of the snapshot data layer that supports some
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// additional methods compared to the public API.
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type snapshot interface {
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Snapshot
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// Parent returns the subsequent layer of a snapshot, or nil if the base was
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// reached.
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//
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// Note, the method is an internal helper to avoid type switching between the
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// disk and diff layers. There is no locking involved.
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Parent() snapshot
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// Update creates a new layer on top of the existing snapshot diff tree with
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// the specified data items.
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//
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// Note, the maps are retained by the method to avoid copying everything.
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Update(blockRoot common.Hash, destructs map[common.Hash]struct{}, accounts map[common.Hash][]byte, storage map[common.Hash]map[common.Hash][]byte) *diffLayer
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// Journal commits an entire diff hierarchy to disk into a single journal entry.
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// This is meant to be used during shutdown to persist the snapshot without
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// flattening everything down (bad for reorgs).
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Journal(buffer *bytes.Buffer) (common.Hash, error)
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// Stale return whether this layer has become stale (was flattened across) or
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// if it's still live.
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Stale() bool
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// AccountIterator creates an account iterator over an arbitrary layer.
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AccountIterator(seek common.Hash) AccountIterator
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}
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// SnapshotTree is an Ethereum state snapshot tree. It consists of one persistent
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// base layer backed by a key-value store, on top of which arbitrarily many in-
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// memory diff layers are topped. The memory diffs can form a tree with branching,
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// but the disk layer is singleton and common to all. If a reorg goes deeper than
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// the disk layer, everything needs to be deleted.
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//
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// The goal of a state snapshot is twofold: to allow direct access to account and
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// storage data to avoid expensive multi-level trie lookups; and to allow sorted,
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// cheap iteration of the account/storage tries for sync aid.
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type Tree struct {
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diskdb ethdb.KeyValueStore // Persistent database to store the snapshot
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triedb *trie.Database // In-memory cache to access the trie through
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cache int // Megabytes permitted to use for read caches
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layers map[common.Hash]snapshot // Collection of all known layers
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lock sync.RWMutex
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}
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// New attempts to load an already existing snapshot from a persistent key-value
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// store (with a number of memory layers from a journal), ensuring that the head
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// of the snapshot matches the expected one.
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//
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// If the snapshot is missing or inconsistent, the entirety is deleted and will
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// be reconstructed from scratch based on the tries in the key-value store, on a
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// background thread.
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func New(diskdb ethdb.KeyValueStore, triedb *trie.Database, cache int, root common.Hash, async bool) *Tree {
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// Create a new, empty snapshot tree
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snap := &Tree{
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diskdb: diskdb,
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triedb: triedb,
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cache: cache,
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layers: make(map[common.Hash]snapshot),
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}
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if !async {
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defer snap.waitBuild()
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}
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// Attempt to load a previously persisted snapshot and rebuild one if failed
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head, err := loadSnapshot(diskdb, triedb, cache, root)
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if err != nil {
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log.Warn("Failed to load snapshot, regenerating", "err", err)
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snap.Rebuild(root)
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return snap
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}
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// Existing snapshot loaded, seed all the layers
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for head != nil {
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snap.layers[head.Root()] = head
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head = head.Parent()
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}
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return snap
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}
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// waitBuild blocks until the snapshot finishes rebuilding. This method is meant
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// to be used by tests to ensure we're testing what we believe we are.
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func (t *Tree) waitBuild() {
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// Find the rebuild termination channel
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var done chan struct{}
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t.lock.RLock()
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for _, layer := range t.layers {
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if layer, ok := layer.(*diskLayer); ok {
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done = layer.genPending
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break
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}
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}
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t.lock.RUnlock()
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// Wait until the snapshot is generated
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if done != nil {
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<-done
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}
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}
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// Snapshot retrieves a snapshot belonging to the given block root, or nil if no
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// snapshot is maintained for that block.
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func (t *Tree) Snapshot(blockRoot common.Hash) Snapshot {
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t.lock.RLock()
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defer t.lock.RUnlock()
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return t.layers[blockRoot]
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}
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// Update adds a new snapshot into the tree, if that can be linked to an existing
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// old parent. It is disallowed to insert a disk layer (the origin of all).
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func (t *Tree) Update(blockRoot common.Hash, parentRoot common.Hash, destructs map[common.Hash]struct{}, accounts map[common.Hash][]byte, storage map[common.Hash]map[common.Hash][]byte) error {
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// Reject noop updates to avoid self-loops in the snapshot tree. This is a
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// special case that can only happen for Clique networks where empty blocks
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// don't modify the state (0 block subsidy).
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//
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// Although we could silently ignore this internally, it should be the caller's
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// responsibility to avoid even attempting to insert such a snapshot.
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if blockRoot == parentRoot {
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return errSnapshotCycle
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}
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// Generate a new snapshot on top of the parent
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parent := t.Snapshot(parentRoot).(snapshot)
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if parent == nil {
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return fmt.Errorf("parent [%#x] snapshot missing", parentRoot)
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}
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snap := parent.Update(blockRoot, destructs, accounts, storage)
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// Save the new snapshot for later
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t.lock.Lock()
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defer t.lock.Unlock()
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t.layers[snap.root] = snap
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return nil
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}
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// Cap traverses downwards the snapshot tree from a head block hash until the
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// number of allowed layers are crossed. All layers beyond the permitted number
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// are flattened downwards.
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func (t *Tree) Cap(root common.Hash, layers int) error {
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// Retrieve the head snapshot to cap from
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snap := t.Snapshot(root)
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if snap == nil {
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return fmt.Errorf("snapshot [%#x] missing", root)
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}
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diff, ok := snap.(*diffLayer)
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if !ok {
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return fmt.Errorf("snapshot [%#x] is disk layer", root)
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}
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// Run the internal capping and discard all stale layers
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t.lock.Lock()
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defer t.lock.Unlock()
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// Flattening the bottom-most diff layer requires special casing since there's
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// no child to rewire to the grandparent. In that case we can fake a temporary
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// child for the capping and then remove it.
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var persisted *diskLayer
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switch layers {
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case 0:
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// If full commit was requested, flatten the diffs and merge onto disk
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diff.lock.RLock()
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base := diffToDisk(diff.flatten().(*diffLayer))
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diff.lock.RUnlock()
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// Replace the entire snapshot tree with the flat base
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t.layers = map[common.Hash]snapshot{base.root: base}
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return nil
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case 1:
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// If full flattening was requested, flatten the diffs but only merge if the
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// memory limit was reached
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var (
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bottom *diffLayer
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base *diskLayer
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)
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diff.lock.RLock()
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bottom = diff.flatten().(*diffLayer)
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if bottom.memory >= aggregatorMemoryLimit {
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base = diffToDisk(bottom)
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}
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diff.lock.RUnlock()
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// If all diff layers were removed, replace the entire snapshot tree
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if base != nil {
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t.layers = map[common.Hash]snapshot{base.root: base}
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return nil
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}
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// Merge the new aggregated layer into the snapshot tree, clean stales below
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t.layers[bottom.root] = bottom
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default:
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// Many layers requested to be retained, cap normally
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persisted = t.cap(diff, layers)
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}
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// Remove any layer that is stale or links into a stale layer
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children := make(map[common.Hash][]common.Hash)
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for root, snap := range t.layers {
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if diff, ok := snap.(*diffLayer); ok {
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parent := diff.parent.Root()
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children[parent] = append(children[parent], root)
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}
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}
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var remove func(root common.Hash)
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remove = func(root common.Hash) {
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delete(t.layers, root)
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for _, child := range children[root] {
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remove(child)
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}
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delete(children, root)
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}
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for root, snap := range t.layers {
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if snap.Stale() {
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remove(root)
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}
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}
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// If the disk layer was modified, regenerate all the cummulative blooms
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if persisted != nil {
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var rebloom func(root common.Hash)
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rebloom = func(root common.Hash) {
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if diff, ok := t.layers[root].(*diffLayer); ok {
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diff.rebloom(persisted)
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}
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for _, child := range children[root] {
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rebloom(child)
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}
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}
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rebloom(persisted.root)
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}
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return nil
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}
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// cap traverses downwards the diff tree until the number of allowed layers are
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// crossed. All diffs beyond the permitted number are flattened downwards. If the
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// layer limit is reached, memory cap is also enforced (but not before).
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//
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// The method returns the new disk layer if diffs were persistend into it.
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func (t *Tree) cap(diff *diffLayer, layers int) *diskLayer {
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// Dive until we run out of layers or reach the persistent database
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for ; layers > 2; layers-- {
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// If we still have diff layers below, continue down
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if parent, ok := diff.parent.(*diffLayer); ok {
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diff = parent
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} else {
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// Diff stack too shallow, return without modifications
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return nil
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}
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}
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// We're out of layers, flatten anything below, stopping if it's the disk or if
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// the memory limit is not yet exceeded.
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switch parent := diff.parent.(type) {
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case *diskLayer:
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return nil
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case *diffLayer:
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// Flatten the parent into the grandparent. The flattening internally obtains a
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// write lock on grandparent.
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flattened := parent.flatten().(*diffLayer)
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t.layers[flattened.root] = flattened
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diff.lock.Lock()
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defer diff.lock.Unlock()
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diff.parent = flattened
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if flattened.memory < aggregatorMemoryLimit {
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// Accumulator layer is smaller than the limit, so we can abort, unless
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// there's a snapshot being generated currently. In that case, the trie
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// will move fron underneath the generator so we **must** merge all the
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// partial data down into the snapshot and restart the generation.
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if flattened.parent.(*diskLayer).genAbort == nil {
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return nil
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}
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}
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default:
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panic(fmt.Sprintf("unknown data layer: %T", parent))
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}
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// If the bottom-most layer is larger than our memory cap, persist to disk
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bottom := diff.parent.(*diffLayer)
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bottom.lock.RLock()
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base := diffToDisk(bottom)
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bottom.lock.RUnlock()
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t.layers[base.root] = base
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diff.parent = base
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return base
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}
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// diffToDisk merges a bottom-most diff into the persistent disk layer underneath
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// it. The method will panic if called onto a non-bottom-most diff layer.
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func diffToDisk(bottom *diffLayer) *diskLayer {
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var (
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base = bottom.parent.(*diskLayer)
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batch = base.diskdb.NewBatch()
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stats *generatorStats
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)
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// If the disk layer is running a snapshot generator, abort it
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if base.genAbort != nil {
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abort := make(chan *generatorStats)
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base.genAbort <- abort
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stats = <-abort
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}
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// Start by temporarily deleting the current snapshot block marker. This
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// ensures that in the case of a crash, the entire snapshot is invalidated.
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rawdb.DeleteSnapshotRoot(batch)
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// Mark the original base as stale as we're going to create a new wrapper
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base.lock.Lock()
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if base.stale {
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panic("parent disk layer is stale") // we've committed into the same base from two children, boo
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}
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base.stale = true
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base.lock.Unlock()
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// Destroy all the destructed accounts from the database
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for hash := range bottom.destructSet {
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// Skip any account not covered yet by the snapshot
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if base.genMarker != nil && bytes.Compare(hash[:], base.genMarker) > 0 {
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continue
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}
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// Remove all storage slots
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rawdb.DeleteAccountSnapshot(batch, hash)
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base.cache.Set(hash[:], nil)
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it := rawdb.IterateStorageSnapshots(base.diskdb, hash)
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for it.Next() {
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if key := it.Key(); len(key) == 65 { // TODO(karalabe): Yuck, we should move this into the iterator
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batch.Delete(key)
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base.cache.Del(key[1:])
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snapshotFlushStorageItemMeter.Mark(1)
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}
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}
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it.Release()
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}
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// Push all updated accounts into the database
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for hash, data := range bottom.accountData {
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// Skip any account not covered yet by the snapshot
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if base.genMarker != nil && bytes.Compare(hash[:], base.genMarker) > 0 {
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continue
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}
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// Push the account to disk
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rawdb.WriteAccountSnapshot(batch, hash, data)
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base.cache.Set(hash[:], data)
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snapshotCleanAccountWriteMeter.Mark(int64(len(data)))
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if batch.ValueSize() > ethdb.IdealBatchSize {
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if err := batch.Write(); err != nil {
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log.Crit("Failed to write account snapshot", "err", err)
|
|
}
|
|
batch.Reset()
|
|
}
|
|
snapshotFlushAccountItemMeter.Mark(1)
|
|
snapshotFlushAccountSizeMeter.Mark(int64(len(data)))
|
|
}
|
|
// Push all the storage slots into the database
|
|
for accountHash, storage := range bottom.storageData {
|
|
// Skip any account not covered yet by the snapshot
|
|
if base.genMarker != nil && bytes.Compare(accountHash[:], base.genMarker) > 0 {
|
|
continue
|
|
}
|
|
// Generation might be mid-account, track that case too
|
|
midAccount := base.genMarker != nil && bytes.Equal(accountHash[:], base.genMarker[:common.HashLength])
|
|
|
|
for storageHash, data := range storage {
|
|
// Skip any slot not covered yet by the snapshot
|
|
if midAccount && bytes.Compare(storageHash[:], base.genMarker[common.HashLength:]) > 0 {
|
|
continue
|
|
}
|
|
if len(data) > 0 {
|
|
rawdb.WriteStorageSnapshot(batch, accountHash, storageHash, data)
|
|
base.cache.Set(append(accountHash[:], storageHash[:]...), data)
|
|
snapshotCleanStorageWriteMeter.Mark(int64(len(data)))
|
|
} else {
|
|
rawdb.DeleteStorageSnapshot(batch, accountHash, storageHash)
|
|
base.cache.Set(append(accountHash[:], storageHash[:]...), nil)
|
|
}
|
|
snapshotFlushStorageItemMeter.Mark(1)
|
|
snapshotFlushStorageSizeMeter.Mark(int64(len(data)))
|
|
}
|
|
if batch.ValueSize() > ethdb.IdealBatchSize {
|
|
if err := batch.Write(); err != nil {
|
|
log.Crit("Failed to write storage snapshot", "err", err)
|
|
}
|
|
batch.Reset()
|
|
}
|
|
}
|
|
// Update the snapshot block marker and write any remainder data
|
|
rawdb.WriteSnapshotRoot(batch, bottom.root)
|
|
if err := batch.Write(); err != nil {
|
|
log.Crit("Failed to write leftover snapshot", "err", err)
|
|
}
|
|
res := &diskLayer{
|
|
root: bottom.root,
|
|
cache: base.cache,
|
|
diskdb: base.diskdb,
|
|
triedb: base.triedb,
|
|
genMarker: base.genMarker,
|
|
genPending: base.genPending,
|
|
}
|
|
// If snapshot generation hasn't finished yet, port over all the starts and
|
|
// continue where the previous round left off.
|
|
//
|
|
// Note, the `base.genAbort` comparison is not used normally, it's checked
|
|
// to allow the tests to play with the marker without triggering this path.
|
|
if base.genMarker != nil && base.genAbort != nil {
|
|
res.genMarker = base.genMarker
|
|
res.genAbort = make(chan chan *generatorStats)
|
|
go res.generate(stats)
|
|
}
|
|
return res
|
|
}
|
|
|
|
// Journal commits an entire diff hierarchy to disk into a single journal entry.
|
|
// This is meant to be used during shutdown to persist the snapshot without
|
|
// flattening everything down (bad for reorgs).
|
|
//
|
|
// The method returns the root hash of the base layer that needs to be persisted
|
|
// to disk as a trie too to allow continuing any pending generation op.
|
|
func (t *Tree) Journal(root common.Hash) (common.Hash, error) {
|
|
// Retrieve the head snapshot to journal from var snap snapshot
|
|
snap := t.Snapshot(root)
|
|
if snap == nil {
|
|
return common.Hash{}, fmt.Errorf("snapshot [%#x] missing", root)
|
|
}
|
|
// Run the journaling
|
|
t.lock.Lock()
|
|
defer t.lock.Unlock()
|
|
|
|
journal := new(bytes.Buffer)
|
|
base, err := snap.(snapshot).Journal(journal)
|
|
if err != nil {
|
|
return common.Hash{}, err
|
|
}
|
|
// Store the journal into the database and return
|
|
rawdb.WriteSnapshotJournal(t.diskdb, journal.Bytes())
|
|
return base, nil
|
|
}
|
|
|
|
// Rebuild wipes all available snapshot data from the persistent database and
|
|
// discard all caches and diff layers. Afterwards, it starts a new snapshot
|
|
// generator with the given root hash.
|
|
func (t *Tree) Rebuild(root common.Hash) {
|
|
t.lock.Lock()
|
|
defer t.lock.Unlock()
|
|
|
|
// Track whether there's a wipe currently running and keep it alive if so
|
|
var wiper chan struct{}
|
|
|
|
// Iterate over and mark all layers stale
|
|
for _, layer := range t.layers {
|
|
switch layer := layer.(type) {
|
|
case *diskLayer:
|
|
// If the base layer is generating, abort it and save
|
|
if layer.genAbort != nil {
|
|
abort := make(chan *generatorStats)
|
|
layer.genAbort <- abort
|
|
|
|
if stats := <-abort; stats != nil {
|
|
wiper = stats.wiping
|
|
}
|
|
}
|
|
// Layer should be inactive now, mark it as stale
|
|
layer.lock.Lock()
|
|
layer.stale = true
|
|
layer.lock.Unlock()
|
|
|
|
case *diffLayer:
|
|
// If the layer is a simple diff, simply mark as stale
|
|
layer.lock.Lock()
|
|
atomic.StoreUint32(&layer.stale, 1)
|
|
layer.lock.Unlock()
|
|
|
|
default:
|
|
panic(fmt.Sprintf("unknown layer type: %T", layer))
|
|
}
|
|
}
|
|
// Start generating a new snapshot from scratch on a backgroung thread. The
|
|
// generator will run a wiper first if there's not one running right now.
|
|
log.Info("Rebuilding state snapshot")
|
|
t.layers = map[common.Hash]snapshot{
|
|
root: generateSnapshot(t.diskdb, t.triedb, t.cache, root, wiper),
|
|
}
|
|
}
|
|
|
|
// AccountIterator creates a new account iterator for the specified root hash and
|
|
// seeks to a starting account hash.
|
|
func (t *Tree) AccountIterator(root common.Hash, seek common.Hash) (AccountIterator, error) {
|
|
return newFastAccountIterator(t, root, seek)
|
|
}
|