core: nuke legacy snapshot supporting (#22663)

4 years ago · d6ffa14035
parent 653b7e959d
commit d6ffa14035
4 changed files with 12 additions and 472 deletions
--- a/core/blockchain.go
+++ b/core/blockchain.go
@ -207,9 +207,8 @@ type BlockChain struct {
 	processor  Processor // Block transaction processor interface
 	vmConfig   vm.Config
-	shouldPreserve     func(*types.Block) bool        // Function used to determine whether should preserve the given block.
+	shouldPreserve  func(*types.Block) bool        // Function used to determine whether should preserve the given block.
-	terminateInsert    func(common.Hash, uint64) bool // Testing hook used to terminate ancient receipt chain insertion.
+	terminateInsert func(common.Hash, uint64) bool // Testing hook used to terminate ancient receipt chain insertion.
 	writeLegacyJournal bool                           // Testing flag used to flush the snapshot journal in legacy format.
 }
 // NewBlockChain returns a fully initialised block chain using information
@ -1002,14 +1001,8 @@ func (bc *BlockChain) Stop() {
 	var snapBase common.Hash
 	if bc.snaps != nil {
 		var err error
-		if bc.writeLegacyJournal {
+		if snapBase, err = bc.snaps.Journal(bc.CurrentBlock().Root()); err != nil {
-			if snapBase, err = bc.snaps.LegacyJournal(bc.CurrentBlock().Root()); err != nil {
+			log.Error("Failed to journal state snapshot", "err", err)
 				log.Error("Failed to journal state snapshot", "err", err)
 			}
 		} else {
 			if snapBase, err = bc.snaps.Journal(bc.CurrentBlock().Root()); err != nil {
 				log.Error("Failed to journal state snapshot", "err", err)
 			}
 		}
 	}
 	// Ensure the state of a recent block is also stored to disk before exiting.
--- a/core/blockchain_snapshot_test.go
+++ b/core/blockchain_snapshot_test.go
@ -39,7 +39,6 @@ import (
 // snapshotTestBasic wraps the common testing fields in the snapshot tests.
 type snapshotTestBasic struct {
 	legacy        bool   // Wether write the snapshot journal in legacy format
 	chainBlocks   int    // Number of blocks to generate for the canonical chain
 	snapshotBlock uint64 // Block number of the relevant snapshot disk layer
 	commitBlock   uint64 // Block number for which to commit the state to disk
@ -104,19 +103,13 @@ func (basic *snapshotTestBasic) prepare(t *testing.T) (*BlockChain, []*types.Blo
 			chain.stateCache.TrieDB().Commit(blocks[point-1].Root(), true, nil)
 		}
 		if basic.snapshotBlock > 0 && basic.snapshotBlock == point {
-			if basic.legacy {
+			// Flushing the entire snap tree into the disk, the
-				// Here we commit the snapshot disk root to simulate
+			// relavant (a) snapshot root and (b) snapshot generator
-				// committing the legacy snapshot.
+			// will be persisted atomically.
-				rawdb.WriteSnapshotRoot(db, blocks[point-1].Root())
+			chain.snaps.Cap(blocks[point-1].Root(), 0)
-			} else {
+			diskRoot, blockRoot := chain.snaps.DiskRoot(), blocks[point-1].Root()
-				// Flushing the entire snap tree into the disk, the
+			if !bytes.Equal(diskRoot.Bytes(), blockRoot.Bytes()) {
-				// relavant (a) snapshot root and (b) snapshot generator
+				t.Fatalf("Failed to flush disk layer change, want %x, got %x", blockRoot, diskRoot)
 				// will be persisted atomically.
 				chain.snaps.Cap(blocks[point-1].Root(), 0)
 				diskRoot, blockRoot := chain.snaps.DiskRoot(), blocks[point-1].Root()
 				if !bytes.Equal(diskRoot.Bytes(), blockRoot.Bytes()) {
 					t.Fatalf("Failed to flush disk layer change, want %x, got %x", blockRoot, diskRoot)
 				}
 			}
 		}
 	}
@ -129,12 +122,6 @@ func (basic *snapshotTestBasic) prepare(t *testing.T) (*BlockChain, []*types.Blo
 	basic.db = db
 	basic.gendb = gendb
 	basic.engine = engine
 	// Ugly hack, notify the chain to flush the journal in legacy format
 	// if it's requested.
 	if basic.legacy {
 		chain.writeLegacyJournal = true
 	}
 	return chain, blocks
 }
@ -484,46 +471,6 @@ func TestRestartWithNewSnapshot(t *testing.T) {
 	// Expected snapshot disk  : G
 	test := &snapshotTest{
 		snapshotTestBasic{
 			legacy:             false,
 			chainBlocks:        8,
 			snapshotBlock:      0,
 			commitBlock:        0,
 			expCanonicalBlocks: 8,
 			expHeadHeader:      8,
 			expHeadFastBlock:   8,
 			expHeadBlock:       8,
 			expSnapshotBottom:  0, // Initial disk layer built from genesis
 		},
 	}
 	test.test(t)
 	test.teardown()
 }
 // Tests a Geth restart with valid but "legacy" snapshot. Before the shutdown,
 // all snapshot journal will be persisted correctly. In this case no snapshot
 // recovery is required.
 func TestRestartWithLegacySnapshot(t *testing.T) {
 	// Chain:
 	//   G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
 	//
 	// Commit:   G
 	// Snapshot: G
 	//
 	// SetHead(0)
 	//
 	// ------------------------------
 	//
 	// Expected in leveldb:
 	//   G->C1->C2->C3->C4->C5->C6->C7->C8
 	//
 	// Expected head header    : C8
 	// Expected head fast block: C8
 	// Expected head block     : C8
 	// Expected snapshot disk  : G
 	t.Skip("Legacy format testing is not supported")
 	test := &snapshotTest{
 		snapshotTestBasic{
 			legacy:             true,
 			chainBlocks:        8,
 			snapshotBlock:      0,
 			commitBlock:        0,
@ -563,7 +510,6 @@ func TestNoCommitCrashWithNewSnapshot(t *testing.T) {
 	// Expected snapshot disk  : C4
 	test := &crashSnapshotTest{
 		snapshotTestBasic{
 			legacy:             false,
 			chainBlocks:        8,
 			snapshotBlock:      4,
 			commitBlock:        0,
@ -603,7 +549,6 @@ func TestLowCommitCrashWithNewSnapshot(t *testing.T) {
 	// Expected snapshot disk  : C4
 	test := &crashSnapshotTest{
 		snapshotTestBasic{
 			legacy:             false,
 			chainBlocks:        8,
 			snapshotBlock:      4,
 			commitBlock:        2,
@ -643,7 +588,6 @@ func TestHighCommitCrashWithNewSnapshot(t *testing.T) {
 	// Expected snapshot disk  : C4
 	test := &crashSnapshotTest{
 		snapshotTestBasic{
 			legacy:             false,
 			chainBlocks:        8,
 			snapshotBlock:      4,
 			commitBlock:        6,
@ -658,131 +602,6 @@ func TestHighCommitCrashWithNewSnapshot(t *testing.T) {
 	test.teardown()
 }
 // Tests a Geth was crashed and restarts with a broken and "legacy format"
 // snapshot. In this case the entire legacy snapshot should be discared
 // and rebuild from the new chain head. The new head here refers to the
 // genesis because there is no committed point.
 func TestNoCommitCrashWithLegacySnapshot(t *testing.T) {
 	// Chain:
 	//   G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
 	//
 	// Commit:   G
 	// Snapshot: G, C4
 	//
 	// CRASH
 	//
 	// ------------------------------
 	//
 	// Expected in leveldb:
 	//   G->C1->C2->C3->C4->C5->C6->C7->C8
 	//
 	// Expected head header    : C8
 	// Expected head fast block: C8
 	// Expected head block     : G
 	// Expected snapshot disk  : G
 	t.Skip("Legacy format testing is not supported")
 	test := &crashSnapshotTest{
 		snapshotTestBasic{
 			legacy:             true,
 			chainBlocks:        8,
 			snapshotBlock:      4,
 			commitBlock:        0,
 			expCanonicalBlocks: 8,
 			expHeadHeader:      8,
 			expHeadFastBlock:   8,
 			expHeadBlock:       0,
 			expSnapshotBottom:  0, // Rebuilt snapshot from the latest HEAD(genesis)
 		},
 	}
 	test.test(t)
 	test.teardown()
 }
 // Tests a Geth was crashed and restarts with a broken and "legacy format"
 // snapshot. In this case the entire legacy snapshot should be discared
 // and rebuild from the new chain head. The new head here refers to the
 // block-2 because it's committed into the disk.
 func TestLowCommitCrashWithLegacySnapshot(t *testing.T) {
 	// Chain:
 	//   G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
 	//
 	// Commit:   G, C2
 	// Snapshot: G, C4
 	//
 	// CRASH
 	//
 	// ------------------------------
 	//
 	// Expected in leveldb:
 	//   G->C1->C2->C3->C4->C5->C6->C7->C8
 	//
 	// Expected head header    : C8
 	// Expected head fast block: C8
 	// Expected head block     : C2
 	// Expected snapshot disk  : C2
 	t.Skip("Legacy format testing is not supported")
 	test := &crashSnapshotTest{
 		snapshotTestBasic{
 			legacy:             true,
 			chainBlocks:        8,
 			snapshotBlock:      4,
 			commitBlock:        2,
 			expCanonicalBlocks: 8,
 			expHeadHeader:      8,
 			expHeadFastBlock:   8,
 			expHeadBlock:       2,
 			expSnapshotBottom:  2, // Rebuilt snapshot from the latest HEAD
 		},
 	}
 	test.test(t)
 	test.teardown()
 }
 // Tests a Geth was crashed and restarts with a broken and "legacy format"
 // snapshot. In this case the entire legacy snapshot should be discared
 // and rebuild from the new chain head.
 //
 // The new head here refers to the the genesis, the reason is:
 //   - the state of block-6 is committed into the disk
 //   - the legacy disk layer of block-4 is committed into the disk
 //   - the head is rewound the genesis in order to find an available
 //     state lower than disk layer
 func TestHighCommitCrashWithLegacySnapshot(t *testing.T) {
 	// Chain:
 	//   G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
 	//
 	// Commit:   G, C6
 	// Snapshot: G, C4
 	//
 	// CRASH
 	//
 	// ------------------------------
 	//
 	// Expected in leveldb:
 	//   G->C1->C2->C3->C4->C5->C6->C7->C8
 	//
 	// Expected head header    : C8
 	// Expected head fast block: C8
 	// Expected head block     : G
 	// Expected snapshot disk  : G
 	t.Skip("Legacy format testing is not supported")
 	test := &crashSnapshotTest{
 		snapshotTestBasic{
 			legacy:             true,
 			chainBlocks:        8,
 			snapshotBlock:      4,
 			commitBlock:        6,
 			expCanonicalBlocks: 8,
 			expHeadHeader:      8,
 			expHeadFastBlock:   8,
 			expHeadBlock:       0,
 			expSnapshotBottom:  0, // Rebuilt snapshot from the latest HEAD(genesis)
 		},
 	}
 	test.test(t)
 	test.teardown()
 }
 // Tests a Geth was running with snapshot enabled. Then restarts without
 // enabling snapshot and after that re-enable the snapshot again. In this
 // case the snapshot should be rebuilt with latest chain head.
@ -806,47 +625,6 @@ func TestGappedNewSnapshot(t *testing.T) {
 	// Expected snapshot disk  : C10
 	test := &gappedSnapshotTest{
 		snapshotTestBasic: snapshotTestBasic{
 			legacy:             false,
 			chainBlocks:        8,
 			snapshotBlock:      0,
 			commitBlock:        0,
 			expCanonicalBlocks: 10,
 			expHeadHeader:      10,
 			expHeadFastBlock:   10,
 			expHeadBlock:       10,
 			expSnapshotBottom:  10, // Rebuilt snapshot from the latest HEAD
 		},
 		gapped: 2,
 	}
 	test.test(t)
 	test.teardown()
 }
 // Tests a Geth was running with leagcy snapshot enabled. Then restarts
 // without enabling snapshot and after that re-enable the snapshot again.
 // In this case the snapshot should be rebuilt with latest chain head.
 func TestGappedLegacySnapshot(t *testing.T) {
 	// Chain:
 	//   G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
 	//
 	// Commit:   G
 	// Snapshot: G
 	//
 	// SetHead(0)
 	//
 	// ------------------------------
 	//
 	// Expected in leveldb:
 	//   G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10
 	//
 	// Expected head header    : C10
 	// Expected head fast block: C10
 	// Expected head block     : C10
 	// Expected snapshot disk  : C10
 	t.Skip("Legacy format testing is not supported")
 	test := &gappedSnapshotTest{
 		snapshotTestBasic: snapshotTestBasic{
 			legacy:             true,
 			chainBlocks:        8,
 			snapshotBlock:      0,
 			commitBlock:        0,
@ -885,7 +663,6 @@ func TestSetHeadWithNewSnapshot(t *testing.T) {
 	// Expected snapshot disk  : G
 	test := &setHeadSnapshotTest{
 		snapshotTestBasic: snapshotTestBasic{
 			legacy:             false,
 			chainBlocks:        8,
 			snapshotBlock:      0,
 			commitBlock:        0,
@ -901,88 +678,6 @@ func TestSetHeadWithNewSnapshot(t *testing.T) {
 	test.teardown()
 }
 // Tests the Geth was running with snapshot(legacy-format) enabled and resetHead
 // is applied. In this case the head is rewound to the target(with state available).
 // After that the chain is restarted and the original disk layer is kept.
 func TestSetHeadWithLegacySnapshot(t *testing.T) {
 	// Chain:
 	//   G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
 	//
 	// Commit:   G
 	// Snapshot: G
 	//
 	// SetHead(4)
 	//
 	// ------------------------------
 	//
 	// Expected in leveldb:
 	//   G->C1->C2->C3->C4
 	//
 	// Expected head header    : C4
 	// Expected head fast block: C4
 	// Expected head block     : C4
 	// Expected snapshot disk  : G
 	t.Skip("Legacy format testing is not supported")
 	test := &setHeadSnapshotTest{
 		snapshotTestBasic: snapshotTestBasic{
 			legacy:             true,
 			chainBlocks:        8,
 			snapshotBlock:      0,
 			commitBlock:        0,
 			expCanonicalBlocks: 4,
 			expHeadHeader:      4,
 			expHeadFastBlock:   4,
 			expHeadBlock:       4,
 			expSnapshotBottom:  0, // The initial disk layer is built from the genesis
 		},
 		setHead: 4,
 	}
 	test.test(t)
 	test.teardown()
 }
 // Tests the Geth was running with snapshot(legacy-format) enabled and upgrades
 // the disk layer journal(journal generator) to latest format. After that the Geth
 // is restarted from a crash. In this case Geth will find the new-format disk layer
 // journal but with legacy-format diff journal(the new-format is never committed),
 // and the invalid diff journal is expected to be dropped.
 func TestRecoverSnapshotFromCrashWithLegacyDiffJournal(t *testing.T) {
 	// Chain:
 	//   G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
 	//
 	// Commit:   G
 	// Snapshot: G
 	//
 	// SetHead(0)
 	//
 	// ------------------------------
 	//
 	// Expected in leveldb:
 	//   G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10
 	//
 	// Expected head header    : C10
 	// Expected head fast block: C10
 	// Expected head block     : C8
 	// Expected snapshot disk  : C10
 	t.Skip("Legacy format testing is not supported")
 	test := &restartCrashSnapshotTest{
 		snapshotTestBasic: snapshotTestBasic{
 			legacy:             true,
 			chainBlocks:        8,
 			snapshotBlock:      0,
 			commitBlock:        0,
 			expCanonicalBlocks: 10,
 			expHeadHeader:      10,
 			expHeadFastBlock:   10,
 			expHeadBlock:       8,  // The persisted state in the first running
 			expSnapshotBottom:  10, // The persisted disk layer in the second running
 		},
 		newBlocks: 2,
 	}
 	test.test(t)
 	test.teardown()
 }
 // Tests the Geth was running with a complete snapshot and then imports a few
 // more new blocks on top without enabling the snapshot. After the restart,
 // crash happens. Check everything is ok after the restart.
@ -1006,7 +701,6 @@ func TestRecoverSnapshotFromWipingCrash(t *testing.T) {
 	// Expected snapshot disk  : C10
 	test := &wipeCrashSnapshotTest{
 		snapshotTestBasic: snapshotTestBasic{
 			legacy:             false,
 			chainBlocks:        8,
 			snapshotBlock:      4,
 			commitBlock:        0,
--- a/core/state/snapshot/journal.go
+++ b/core/state/snapshot/journal.go
@ -66,30 +66,6 @@ type journalStorage struct {
 	Vals [][]byte
 }
 // loadAndParseLegacyJournal tries to parse the snapshot journal in legacy format.
 func loadAndParseLegacyJournal(db ethdb.KeyValueStore, base *diskLayer) (snapshot, journalGenerator, error) {
 	// Retrieve the journal, for legacy journal it must exist since even for
 	// 0 layer it stores whether we've already generated the snapshot or are
 	// in progress only.
 	journal := rawdb.ReadSnapshotJournal(db)
 	if len(journal) == 0 {
 		return nil, journalGenerator{}, errors.New("missing or corrupted snapshot journal")
 	}
 	r := rlp.NewStream(bytes.NewReader(journal), 0)
 	// Read the snapshot generation progress for the disk layer
 	var generator journalGenerator
 	if err := r.Decode(&generator); err != nil {
 		return nil, journalGenerator{}, fmt.Errorf("failed to load snapshot progress marker: %v", err)
 	}
 	// Load all the snapshot diffs from the journal
 	snapshot, err := loadDiffLayer(base, r)
 	if err != nil {
 		return nil, generator, err
 	}
 	return snapshot, generator, nil
 }
 // loadAndParseJournal tries to parse the snapshot journal in latest format.
 func loadAndParseJournal(db ethdb.KeyValueStore, base *diskLayer) (snapshot, journalGenerator, error) {
 	// Retrieve the disk layer generator. It must exist, no matter the
@ -163,14 +139,9 @@ func loadSnapshot(diskdb ethdb.KeyValueStore, triedb *trie.Database, cache int,
 		cache:  fastcache.New(cache * 1024 * 1024),
 		root:   baseRoot,
 	}
 	var legacy bool
 	snapshot, generator, err := loadAndParseJournal(diskdb, base)
 	if err != nil {
 		log.Warn("Failed to load new-format journal", "error", err)
 		snapshot, generator, err = loadAndParseLegacyJournal(diskdb, base)
 		legacy = true
 	}
 	if err != nil {
 		return nil, err
 	}
 	// Entire snapshot journal loaded, sanity check the head. If the loaded
@ -185,7 +156,7 @@ func loadSnapshot(diskdb ethdb.KeyValueStore, triedb *trie.Database, cache int,
 		// If it's legacy snapshot, or it's new-format snapshot but
 		// it's not in recovery mode, returns the error here for
 		// rebuilding the entire snapshot forcibly.
-		if legacy || !recovery {
+		if !recovery {
 			return nil, fmt.Errorf("head doesn't match snapshot: have %#x, want %#x", head, root)
 		}
 		// It's in snapshot recovery, the assumption is held that
@ -346,94 +317,3 @@ func (dl *diffLayer) Journal(buffer *bytes.Buffer) (common.Hash, error) {
 	log.Debug("Journalled diff layer", "root", dl.root, "parent", dl.parent.Root())
 	return base, nil
 }
 // LegacyJournal writes the persistent layer generator stats into a buffer
 // to be stored in the database as the snapshot journal.
 //
 // Note it's the legacy version which is only used in testing right now.
 func (dl *diskLayer) LegacyJournal(buffer *bytes.Buffer) (common.Hash, error) {
 	// If the snapshot is currently being generated, abort it
 	var stats *generatorStats
 	if dl.genAbort != nil {
 		abort := make(chan *generatorStats)
 		dl.genAbort <- abort
 		if stats = <-abort; stats != nil {
 			stats.Log("Journalling in-progress snapshot", dl.root, dl.genMarker)
 		}
 	}
 	// Ensure the layer didn't get stale
 	dl.lock.RLock()
 	defer dl.lock.RUnlock()
 	if dl.stale {
 		return common.Hash{}, ErrSnapshotStale
 	}
 	// Write out the generator marker
 	entry := journalGenerator{
 		Done:   dl.genMarker == nil,
 		Marker: dl.genMarker,
 	}
 	if stats != nil {
 		entry.Accounts = stats.accounts
 		entry.Slots = stats.slots
 		entry.Storage = uint64(stats.storage)
 	}
 	log.Debug("Legacy journalled disk layer", "root", dl.root)
 	if err := rlp.Encode(buffer, entry); err != nil {
 		return common.Hash{}, err
 	}
 	return dl.root, nil
 }
 // Journal writes the memory layer contents into a buffer to be stored in the
 // database as the snapshot journal.
 //
 // Note it's the legacy version which is only used in testing right now.
 func (dl *diffLayer) LegacyJournal(buffer *bytes.Buffer) (common.Hash, error) {
 	// Journal the parent first
 	base, err := dl.parent.LegacyJournal(buffer)
 	if err != nil {
 		return common.Hash{}, err
 	}
 	// Ensure the layer didn't get stale
 	dl.lock.RLock()
 	defer dl.lock.RUnlock()
 	if dl.Stale() {
 		return common.Hash{}, ErrSnapshotStale
 	}
 	// Everything below was journalled, persist this layer too
 	if err := rlp.Encode(buffer, dl.root); err != nil {
 		return common.Hash{}, err
 	}
 	destructs := make([]journalDestruct, 0, len(dl.destructSet))
 	for hash := range dl.destructSet {
 		destructs = append(destructs, journalDestruct{Hash: hash})
 	}
 	if err := rlp.Encode(buffer, destructs); err != nil {
 		return common.Hash{}, err
 	}
 	accounts := make([]journalAccount, 0, len(dl.accountData))
 	for hash, blob := range dl.accountData {
 		accounts = append(accounts, journalAccount{Hash: hash, Blob: blob})
 	}
 	if err := rlp.Encode(buffer, accounts); err != nil {
 		return common.Hash{}, err
 	}
 	storage := make([]journalStorage, 0, len(dl.storageData))
 	for hash, slots := range dl.storageData {
 		keys := make([]common.Hash, 0, len(slots))
 		vals := make([][]byte, 0, len(slots))
 		for key, val := range slots {
 			keys = append(keys, key)
 			vals = append(vals, val)
 		}
 		storage = append(storage, journalStorage{Hash: hash, Keys: keys, Vals: vals})
 	}
 	if err := rlp.Encode(buffer, storage); err != nil {
 		return common.Hash{}, err
 	}
 	log.Debug("Legacy journalled diff layer", "root", dl.root, "parent", dl.parent.Root())
 	return base, nil
 }
--- a/core/state/snapshot/snapshot.go
+++ b/core/state/snapshot/snapshot.go
@ -137,10 +137,6 @@ type snapshot interface {
 	// flattening everything down (bad for reorgs).
 	Journal(buffer *bytes.Buffer) (common.Hash, error)
 	// LegacyJournal is basically identical to Journal. it's the legacy version for
 	// flushing legacy journal. Now the only purpose of this function is for testing.
 	LegacyJournal(buffer *bytes.Buffer) (common.Hash, error)
 	// Stale return whether this layer has become stale (was flattened across) or
 	// if it's still live.
 	Stale() bool
@ -622,29 +618,6 @@ func (t *Tree) Journal(root common.Hash) (common.Hash, error) {
 	return base, nil
 }
 // LegacyJournal is basically identical to Journal. it's the legacy
 // version for flushing legacy journal. Now the only purpose of this
 // function is for testing.
 func (t *Tree) LegacyJournal(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).LegacyJournal(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.