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2ce00adb55
bsc/core/blockchain_repair_test.go
zjubfd 2ce00adb55
[R4R] performance improvement in many aspects (#257) 
* focus on performance improvement in many aspects.

1. Do BlockBody verification concurrently;
2. Do calculation of intermediate root concurrently;
3. Preload accounts before processing blocks;
4. Make the snapshot layers configurable.
5. Reuse some object to reduce GC.

add

* rlp: improve decoder stream implementation (#22858)

This commit makes various cleanup changes to rlp.Stream.

* rlp: shrink Stream struct

This removes a lot of unused padding space in Stream by reordering the
fields. The size of Stream changes from 120 bytes to 88 bytes. Stream
instances are internally cached and reused using sync.Pool, so this does
not improve performance.

* rlp: simplify list stack

The list stack kept track of the size of the current list context as
well as the current offset into it. The size had to be stored in the
stack in order to subtract it from the remaining bytes of any enclosing
list in ListEnd. It seems that this can be implemented in a simpler
way: just subtract the size from the enclosing list context in List instead.

* rlp: use atomic.Value for type cache (#22902)

All encoding/decoding operations read the type cache to find the
writer/decoder function responsible for a type. When analyzing CPU
profiles of geth during sync, I found that the use of sync.RWMutex in
cache lookups appears in the profiles. It seems we are running into
CPU cache contention problems when package rlp is heavily used
on all CPU cores during sync.

This change makes it use atomic.Value + a writer lock instead of
sync.RWMutex. In the common case where the typeinfo entry is present in
the cache, we simply fetch the map and lookup the type.

* rlp: optimize byte array handling (#22924)

This change improves the performance of encoding/decoding [N]byte.

    name                     old time/op    new time/op    delta
    DecodeByteArrayStruct-8     336ns ± 0%     246ns ± 0%  -26.98%  (p=0.000 n=9+10)
    EncodeByteArrayStruct-8     225ns ± 1%     148ns ± 1%  -34.12%  (p=0.000 n=10+10)

    name                     old alloc/op   new alloc/op   delta
    DecodeByteArrayStruct-8      120B ± 0%       48B ± 0%  -60.00%  (p=0.000 n=10+10)
    EncodeByteArrayStruct-8     0.00B          0.00B          ~     (all equal)

* rlp: optimize big.Int decoding for size <= 32 bytes (#22927)

This change grows the static integer buffer in Stream to 32 bytes,
making it possible to decode 256bit integers without allocating a
temporary buffer.

In the recent commit 088da24, Stream struct size decreased from 120
bytes down to 88 bytes. This commit grows the struct to 112 bytes again,
but the size change will not degrade performance because Stream
instances are internally cached in sync.Pool.

    name             old time/op    new time/op    delta
    DecodeBigInts-8    12.2µs ± 0%     8.6µs ± 4%  -29.58%  (p=0.000 n=9+10)

    name             old speed      new speed      delta
    DecodeBigInts-8   230MB/s ± 0%   326MB/s ± 4%  +42.04%  (p=0.000 n=9+10)

* eth/protocols/eth, les: avoid Raw() when decoding HashOrNumber (#22841)

Getting the raw value is not necessary to decode this type, and
decoding it directly from the stream is faster.

* fix testcase

* debug no lazy

* fix can not repair

* address comments

Co-authored-by: Felix Lange <fjl@twurst.com>
2021-07-29 17:16:53 +08:00

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// Copyright 2020 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum library is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// The go-ethereum library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
// Tests that abnormal program termination (i.e.crash) and restart doesn't leave
// the database in some strange state with gaps in the chain, nor with block data
// dangling in the future.
package core
import (
"io/ioutil"
"math/big"
"os"
"testing"
"time"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/consensus/ethash"
"github.com/ethereum/go-ethereum/core/rawdb"
"github.com/ethereum/go-ethereum/core/types"
"github.com/ethereum/go-ethereum/core/vm"
"github.com/ethereum/go-ethereum/params"
)
// Tests a recovery for a short canonical chain where a recent block was already
// committed to disk and then the process crashed. In this case we expect the full
// chain to be rolled back to the committed block, but the chain data itself left
// in the database for replaying.
func TestShortRepair(t *testing.T) { testShortRepair(t, false) }
func TestShortRepairWithSnapshots(t *testing.T) { testShortRepair(t, true) }
func testShortRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
//
// Frozen: none
// Commit: G, C4
// Pivot : none
//
// 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 : C4
testRepair(t, &rewindTest{
canonicalBlocks: 8,
sidechainBlocks: 0,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: nil,
expCanonicalBlocks: 8,
expSidechainBlocks: 0,
expFrozen: 0,
expHeadHeader: 8,
expHeadFastBlock: 8,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a short canonical chain where the fast sync pivot point was
// already committed, after which the process crashed. In this case we expect the full
// chain to be rolled back to the committed block, but the chain data itself left in
// the database for replaying.
func TestShortFastSyncedRepair(t *testing.T) { testShortFastSyncedRepair(t, false) }
func TestShortFastSyncedRepairWithSnapshots(t *testing.T) { testShortFastSyncedRepair(t, true) }
func testShortFastSyncedRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
//
// Frozen: none
// Commit: G, C4
// Pivot : 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 : C4
testRepair(t, &rewindTest{
canonicalBlocks: 8,
sidechainBlocks: 0,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 8,
expSidechainBlocks: 0,
expFrozen: 0,
expHeadHeader: 8,
expHeadFastBlock: 8,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a short canonical chain where the fast sync pivot point was
// not yet committed, but the process crashed. In this case we expect the chain to
// detect that it was fast syncing and not delete anything, since we can just pick
// up directly where we left off.
func TestShortFastSyncingRepair(t *testing.T) { testShortFastSyncingRepair(t, false) }
func TestShortFastSyncingRepairWithSnapshots(t *testing.T) { testShortFastSyncingRepair(t, true) }
func testShortFastSyncingRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
//
// Frozen: none
// Commit: G
// Pivot : 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
testRepair(t, &rewindTest{
canonicalBlocks: 8,
sidechainBlocks: 0,
freezeThreshold: 16,
commitBlock: 0,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 8,
expSidechainBlocks: 0,
expFrozen: 0,
expHeadHeader: 8,
expHeadFastBlock: 8,
expHeadBlock: 0,
}, snapshots)
}
// Tests a recovery for a short canonical chain and a shorter side chain, where a
// recent block was already committed to disk and then the process crashed. In this
// test scenario the side chain is below the committed block. In this case we expect
// the canonical chain to be rolled back to the committed block, but the chain data
// itself left in the database for replaying.
func TestShortOldForkedRepair(t *testing.T) { testShortOldForkedRepair(t, false) }
func TestShortOldForkedRepairWithSnapshots(t *testing.T) { testShortOldForkedRepair(t, true) }
func testShortOldForkedRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
// └->S1->S2->S3
//
// Frozen: none
// Commit: G, C4
// Pivot : none
//
// CRASH
//
// ------------------------------
//
// Expected in leveldb:
// G->C1->C2->C3->C4->C5->C6->C7->C8
// └->S1->S2->S3
//
// Expected head header : C8
// Expected head fast block: C8
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 8,
sidechainBlocks: 3,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: nil,
expCanonicalBlocks: 8,
expSidechainBlocks: 3,
expFrozen: 0,
expHeadHeader: 8,
expHeadFastBlock: 8,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a short canonical chain and a shorter side chain, where
// the fast sync pivot point was already committed to disk and then the process
// crashed. In this test scenario the side chain is below the committed block. In
// this case we expect the canonical chain to be rolled back to the committed block,
// but the chain data itself left in the database for replaying.
func TestShortOldForkedFastSyncedRepair(t *testing.T) {
testShortOldForkedFastSyncedRepair(t, false)
}
func TestShortOldForkedFastSyncedRepairWithSnapshots(t *testing.T) {
testShortOldForkedFastSyncedRepair(t, true)
}
func testShortOldForkedFastSyncedRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
// └->S1->S2->S3
//
// Frozen: none
// Commit: G, C4
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in leveldb:
// G->C1->C2->C3->C4->C5->C6->C7->C8
// └->S1->S2->S3
//
// Expected head header : C8
// Expected head fast block: C8
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 8,
sidechainBlocks: 3,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 8,
expSidechainBlocks: 3,
expFrozen: 0,
expHeadHeader: 8,
expHeadFastBlock: 8,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a short canonical chain and a shorter side chain, where
// the fast sync pivot point was not yet committed, but the process crashed. In this
// test scenario the side chain is below the committed block. In this case we expect
// the chain to detect that it was fast syncing and not delete anything, since we
// can just pick up directly where we left off.
func TestShortOldForkedFastSyncingRepair(t *testing.T) {
testShortOldForkedFastSyncingRepair(t, false)
}
func TestShortOldForkedFastSyncingRepairWithSnapshots(t *testing.T) {
testShortOldForkedFastSyncingRepair(t, true)
}
func testShortOldForkedFastSyncingRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
// └->S1->S2->S3
//
// Frozen: none
// Commit: G
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in leveldb:
// G->C1->C2->C3->C4->C5->C6->C7->C8
// └->S1->S2->S3
//
// Expected head header : C8
// Expected head fast block: C8
// Expected head block : G
testRepair(t, &rewindTest{
canonicalBlocks: 8,
sidechainBlocks: 3,
freezeThreshold: 16,
commitBlock: 0,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 8,
expSidechainBlocks: 3,
expFrozen: 0,
expHeadHeader: 8,
expHeadFastBlock: 8,
expHeadBlock: 0,
}, snapshots)
}
// Tests a recovery for a short canonical chain and a shorter side chain, where a
// recent block was already committed to disk and then the process crashed. In this
// test scenario the side chain reaches above the committed block. In this case we
// expect the canonical chain to be rolled back to the committed block, but the
// chain data itself left in the database for replaying.
func TestShortNewlyForkedRepair(t *testing.T) { testShortNewlyForkedRepair(t, false) }
func TestShortNewlyForkedRepairWithSnapshots(t *testing.T) { testShortNewlyForkedRepair(t, true) }
func testShortNewlyForkedRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
// └->S1->S2->S3->S4->S5->S6
//
// Frozen: none
// Commit: G, C4
// Pivot : none
//
// CRASH
//
// ------------------------------
//
// Expected in leveldb:
// G->C1->C2->C3->C4->C5->C6->C7->C8
// └->S1->S2->S3->S4->S5->S6
//
// Expected head header : C8
// Expected head fast block: C8
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 8,
sidechainBlocks: 6,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: nil,
expCanonicalBlocks: 8,
expSidechainBlocks: 6,
expFrozen: 0,
expHeadHeader: 8,
expHeadFastBlock: 8,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a short canonical chain and a shorter side chain, where
// the fast sync pivot point was already committed to disk and then the process
// crashed. In this test scenario the side chain reaches above the committed block.
// In this case we expect the canonical chain to be rolled back to the committed
// block, but the chain data itself left in the database for replaying.
func TestShortNewlyForkedFastSyncedRepair(t *testing.T) {
testShortNewlyForkedFastSyncedRepair(t, false)
}
func TestShortNewlyForkedFastSyncedRepairWithSnapshots(t *testing.T) {
testShortNewlyForkedFastSyncedRepair(t, true)
}
func testShortNewlyForkedFastSyncedRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
// └->S1->S2->S3->S4->S5->S6
//
// Frozen: none
// Commit: G, C4
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in leveldb:
// G->C1->C2->C3->C4->C5->C6->C7->C8
// └->S1->S2->S3->S4->S5->S6
//
// Expected head header : C8
// Expected head fast block: C8
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 8,
sidechainBlocks: 6,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 8,
expSidechainBlocks: 6,
expFrozen: 0,
expHeadHeader: 8,
expHeadFastBlock: 8,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a short canonical chain and a shorter side chain, where
// the fast sync pivot point was not yet committed, but the process crashed. In
// this test scenario the side chain reaches above the committed block. In this
// case we expect the chain to detect that it was fast syncing and not delete
// anything, since we can just pick up directly where we left off.
func TestShortNewlyForkedFastSyncingRepair(t *testing.T) {
testShortNewlyForkedFastSyncingRepair(t, false)
}
func TestShortNewlyForkedFastSyncingRepairWithSnapshots(t *testing.T) {
testShortNewlyForkedFastSyncingRepair(t, true)
}
func testShortNewlyForkedFastSyncingRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
// └->S1->S2->S3->S4->S5->S6
//
// Frozen: none
// Commit: G
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in leveldb:
// G->C1->C2->C3->C4->C5->C6->C7->C8
// └->S1->S2->S3->S4->S5->S6
//
// Expected head header : C8
// Expected head fast block: C8
// Expected head block : G
testRepair(t, &rewindTest{
canonicalBlocks: 8,
sidechainBlocks: 6,
freezeThreshold: 16,
commitBlock: 0,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 8,
expSidechainBlocks: 6,
expFrozen: 0,
expHeadHeader: 8,
expHeadFastBlock: 8,
expHeadBlock: 0,
}, snapshots)
}
// Tests a recovery for a short canonical chain and a longer side chain, where a
// recent block was already committed to disk and then the process crashed. In this
// case we expect the canonical chain to be rolled back to the committed block, but
// the chain data itself left in the database for replaying.
func TestShortReorgedRepair(t *testing.T) { testShortReorgedRepair(t, false) }
func TestShortReorgedRepairWithSnapshots(t *testing.T) { testShortReorgedRepair(t, true) }
func testShortReorgedRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10
//
// Frozen: none
// Commit: G, C4
// Pivot : none
//
// CRASH
//
// ------------------------------
//
// Expected in leveldb:
// G->C1->C2->C3->C4->C5->C6->C7->C8
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10
//
// Expected head header : C8
// Expected head fast block: C8
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 8,
sidechainBlocks: 10,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: nil,
expCanonicalBlocks: 8,
expSidechainBlocks: 10,
expFrozen: 0,
expHeadHeader: 8,
expHeadFastBlock: 8,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a short canonical chain and a longer side chain, where
// the fast sync pivot point was already committed to disk and then the process
// crashed. In this case we expect the canonical chain to be rolled back to the
// committed block, but the chain data itself left in the database for replaying.
func TestShortReorgedFastSyncedRepair(t *testing.T) {
testShortReorgedFastSyncedRepair(t, false)
}
func TestShortReorgedFastSyncedRepairWithSnapshots(t *testing.T) {
testShortReorgedFastSyncedRepair(t, true)
}
func testShortReorgedFastSyncedRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10
//
// Frozen: none
// Commit: G, C4
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in leveldb:
// G->C1->C2->C3->C4->C5->C6->C7->C8
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10
//
// Expected head header : C8
// Expected head fast block: C8
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 8,
sidechainBlocks: 10,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 8,
expSidechainBlocks: 10,
expFrozen: 0,
expHeadHeader: 8,
expHeadFastBlock: 8,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a short canonical chain and a longer side chain, where
// the fast sync pivot point was not yet committed, but the process crashed. In
// this case we expect the chain to detect that it was fast syncing and not delete
// anything, since we can just pick up directly where we left off.
func TestShortReorgedFastSyncingRepair(t *testing.T) {
testShortReorgedFastSyncingRepair(t, false)
}
func TestShortReorgedFastSyncingRepairWithSnapshots(t *testing.T) {
testShortReorgedFastSyncingRepair(t, true)
}
func testShortReorgedFastSyncingRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8 (HEAD)
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10
//
// Frozen: none
// Commit: G
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in leveldb:
// G->C1->C2->C3->C4->C5->C6->C7->C8
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10
//
// Expected head header : C8
// Expected head fast block: C8
// Expected head block : G
testRepair(t, &rewindTest{
canonicalBlocks: 8,
sidechainBlocks: 10,
freezeThreshold: 16,
commitBlock: 0,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 8,
expSidechainBlocks: 10,
expFrozen: 0,
expHeadHeader: 8,
expHeadFastBlock: 8,
expHeadBlock: 0,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks where a recent
// block - newer than the ancient limit - was already committed to disk and then
// the process crashed. In this case we expect the chain to be rolled back to the
// committed block, with everything afterwads kept as fast sync data.
func TestLongShallowRepair(t *testing.T) { testLongShallowRepair(t, false) }
func TestLongShallowRepairWithSnapshots(t *testing.T) { testLongShallowRepair(t, true) }
func testLongShallowRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18 (HEAD)
//
// Frozen:
// G->C1->C2
//
// Commit: G, C4
// Pivot : none
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2
//
// Expected in leveldb:
// C2)->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18
//
// Expected head header : C18
// Expected head fast block: C18
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 18,
sidechainBlocks: 0,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: nil,
expCanonicalBlocks: 18,
expSidechainBlocks: 0,
expFrozen: 3,
expHeadHeader: 18,
expHeadFastBlock: 18,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks where a recent
// block - older than the ancient limit - was already committed to disk and then
// the process crashed. In this case we expect the chain to be rolled back to the
// committed block, with everything afterwads deleted.
func TestLongDeepRepair(t *testing.T) { testLongDeepRepair(t, false) }
func TestLongDeepRepairWithSnapshots(t *testing.T) { testLongDeepRepair(t, true) }
func testLongDeepRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18->C19->C20->C21->C22->C23->C24 (HEAD)
//
// Frozen:
// G->C1->C2->C3->C4->C5->C6->C7->C8
//
// Commit: G, C4
// Pivot : none
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2->C3->C4
//
// Expected in leveldb: none
//
// Expected head header : C4
// Expected head fast block: C4
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 24,
sidechainBlocks: 0,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: nil,
expCanonicalBlocks: 4,
expSidechainBlocks: 0,
expFrozen: 5,
expHeadHeader: 4,
expHeadFastBlock: 4,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks where the fast
// sync pivot point - newer than the ancient limit - was already committed, after
// which the process crashed. In this case we expect the chain to be rolled back
// to the committed block, with everything afterwads kept as fast sync data.
func TestLongFastSyncedShallowRepair(t *testing.T) {
testLongFastSyncedShallowRepair(t, false)
}
func TestLongFastSyncedShallowRepairWithSnapshots(t *testing.T) {
testLongFastSyncedShallowRepair(t, true)
}
func testLongFastSyncedShallowRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18 (HEAD)
//
// Frozen:
// G->C1->C2
//
// Commit: G, C4
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2
//
// Expected in leveldb:
// C2)->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18
//
// Expected head header : C18
// Expected head fast block: C18
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 18,
sidechainBlocks: 0,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 18,
expSidechainBlocks: 0,
expFrozen: 3,
expHeadHeader: 18,
expHeadFastBlock: 18,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks where the fast
// sync pivot point - older than the ancient limit - was already committed, after
// which the process crashed. In this case we expect the chain to be rolled back
// to the committed block, with everything afterwads deleted.
func TestLongFastSyncedDeepRepair(t *testing.T) { testLongFastSyncedDeepRepair(t, false) }
func TestLongFastSyncedDeepRepairWithSnapshots(t *testing.T) { testLongFastSyncedDeepRepair(t, true) }
func testLongFastSyncedDeepRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18->C19->C20->C21->C22->C23->C24 (HEAD)
//
// Frozen:
// G->C1->C2->C3->C4->C5->C6->C7->C8
//
// Commit: G, C4
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2->C3->C4
//
// Expected in leveldb: none
//
// Expected head header : C4
// Expected head fast block: C4
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 24,
sidechainBlocks: 0,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 4,
expSidechainBlocks: 0,
expFrozen: 5,
expHeadHeader: 4,
expHeadFastBlock: 4,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks where the fast
// sync pivot point - older than the ancient limit - was not yet committed, but the
// process crashed. In this case we expect the chain to detect that it was fast
// syncing and not delete anything, since we can just pick up directly where we
// left off.
func TestLongFastSyncingShallowRepair(t *testing.T) {
testLongFastSyncingShallowRepair(t, false)
}
func TestLongFastSyncingShallowRepairWithSnapshots(t *testing.T) {
testLongFastSyncingShallowRepair(t, true)
}
func testLongFastSyncingShallowRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18 (HEAD)
//
// Frozen:
// G->C1->C2
//
// Commit: G
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2
//
// Expected in leveldb:
// C2)->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18
//
// Expected head header : C18
// Expected head fast block: C18
// Expected head block : G
testRepair(t, &rewindTest{
canonicalBlocks: 18,
sidechainBlocks: 0,
freezeThreshold: 16,
commitBlock: 0,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 18,
expSidechainBlocks: 0,
expFrozen: 3,
expHeadHeader: 18,
expHeadFastBlock: 18,
expHeadBlock: 0,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks where the fast
// sync pivot point - newer than the ancient limit - was not yet committed, but the
// process crashed. In this case we expect the chain to detect that it was fast
// syncing and not delete anything, since we can just pick up directly where we
// left off.
func TestLongFastSyncingDeepRepair(t *testing.T) { testLongFastSyncingDeepRepair(t, false) }
func TestLongFastSyncingDeepRepairWithSnapshots(t *testing.T) { testLongFastSyncingDeepRepair(t, true) }
func testLongFastSyncingDeepRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18->C19->C20->C21->C22->C23->C24 (HEAD)
//
// Frozen:
// G->C1->C2->C3->C4->C5->C6->C7->C8
//
// Commit: G
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2->C3->C4->C5->C6->C7->C8
//
// Expected in leveldb:
// C8)->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18->C19->C20->C21->C22->C23->C24
//
// Expected head header : C24
// Expected head fast block: C24
// Expected head block : G
testRepair(t, &rewindTest{
canonicalBlocks: 24,
sidechainBlocks: 0,
freezeThreshold: 16,
commitBlock: 0,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 24,
expSidechainBlocks: 0,
expFrozen: 9,
expHeadHeader: 24,
expHeadFastBlock: 24,
expHeadBlock: 0,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a shorter
// side chain, where a recent block - newer than the ancient limit - was already
// committed to disk and then the process crashed. In this test scenario the side
// chain is below the committed block. In this case we expect the chain to be
// rolled back to the committed block, with everything afterwads kept as fast
// sync data; the side chain completely nuked by the freezer.
func TestLongOldForkedShallowRepair(t *testing.T) {
testLongOldForkedShallowRepair(t, false)
}
func TestLongOldForkedShallowRepairWithSnapshots(t *testing.T) {
testLongOldForkedShallowRepair(t, true)
}
func testLongOldForkedShallowRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18 (HEAD)
// └->S1->S2->S3
//
// Frozen:
// G->C1->C2
//
// Commit: G, C4
// Pivot : none
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2
//
// Expected in leveldb:
// C2)->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18
//
// Expected head header : C18
// Expected head fast block: C18
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 18,
sidechainBlocks: 3,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: nil,
expCanonicalBlocks: 18,
expSidechainBlocks: 0,
expFrozen: 3,
expHeadHeader: 18,
expHeadFastBlock: 18,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a shorter
// side chain, where a recent block - older than the ancient limit - was already
// committed to disk and then the process crashed. In this test scenario the side
// chain is below the committed block. In this case we expect the canonical chain
// to be rolled back to the committed block, with everything afterwads deleted;
// the side chain completely nuked by the freezer.
func TestLongOldForkedDeepRepair(t *testing.T) { testLongOldForkedDeepRepair(t, false) }
func TestLongOldForkedDeepRepairWithSnapshots(t *testing.T) { testLongOldForkedDeepRepair(t, true) }
func testLongOldForkedDeepRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18->C19->C20->C21->C22->C23->C24 (HEAD)
// └->S1->S2->S3
//
// Frozen:
// G->C1->C2->C3->C4->C5->C6->C7->C8
//
// Commit: G, C4
// Pivot : none
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2->C3->C4
//
// Expected in leveldb: none
//
// Expected head header : C4
// Expected head fast block: C4
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 24,
sidechainBlocks: 3,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: nil,
expCanonicalBlocks: 4,
expSidechainBlocks: 0,
expFrozen: 5,
expHeadHeader: 4,
expHeadFastBlock: 4,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a shorter
// side chain, where the fast sync pivot point - newer than the ancient limit -
// was already committed to disk and then the process crashed. In this test scenario
// the side chain is below the committed block. In this case we expect the chain
// to be rolled back to the committed block, with everything afterwads kept as
// fast sync data; the side chain completely nuked by the freezer.
func TestLongOldForkedFastSyncedShallowRepair(t *testing.T) {
testLongOldForkedFastSyncedShallowRepair(t, false)
}
func TestLongOldForkedFastSyncedShallowRepairWithSnapshots(t *testing.T) {
testLongOldForkedFastSyncedShallowRepair(t, true)
}
func testLongOldForkedFastSyncedShallowRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18 (HEAD)
// └->S1->S2->S3
//
// Frozen:
// G->C1->C2
//
// Commit: G, C4
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2
//
// Expected in leveldb:
// C2)->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18
//
// Expected head header : C18
// Expected head fast block: C18
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 18,
sidechainBlocks: 3,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 18,
expSidechainBlocks: 0,
expFrozen: 3,
expHeadHeader: 18,
expHeadFastBlock: 18,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a shorter
// side chain, where the fast sync pivot point - older than the ancient limit -
// was already committed to disk and then the process crashed. In this test scenario
// the side chain is below the committed block. In this case we expect the canonical
// chain to be rolled back to the committed block, with everything afterwads deleted;
// the side chain completely nuked by the freezer.
func TestLongOldForkedFastSyncedDeepRepair(t *testing.T) {
testLongOldForkedFastSyncedDeepRepair(t, false)
}
func TestLongOldForkedFastSyncedDeepRepairWithSnapshots(t *testing.T) {
testLongOldForkedFastSyncedDeepRepair(t, true)
}
func testLongOldForkedFastSyncedDeepRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18->C19->C20->C21->C22->C23->C24 (HEAD)
// └->S1->S2->S3
//
// Frozen:
// G->C1->C2->C3->C4->C5->C6->C7->C8
//
// Commit: G, C4
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2->C3->C4
//
// Expected in leveldb: none
//
// Expected head header : C4
// Expected head fast block: C4
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 24,
sidechainBlocks: 3,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 4,
expSidechainBlocks: 0,
expFrozen: 5,
expHeadHeader: 4,
expHeadFastBlock: 4,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a shorter
// side chain, where the fast sync pivot point - older than the ancient limit -
// was not yet committed, but the process crashed. In this test scenario the side
// chain is below the committed block. In this case we expect the chain to detect
// that it was fast syncing and not delete anything. The side chain is completely
// nuked by the freezer.
func TestLongOldForkedFastSyncingShallowRepair(t *testing.T) {
testLongOldForkedFastSyncingShallowRepair(t, false)
}
func TestLongOldForkedFastSyncingShallowRepairWithSnapshots(t *testing.T) {
testLongOldForkedFastSyncingShallowRepair(t, true)
}
func testLongOldForkedFastSyncingShallowRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18 (HEAD)
// └->S1->S2->S3
//
// Frozen:
// G->C1->C2
//
// Commit: G
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2
//
// Expected in leveldb:
// C2)->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18
//
// Expected head header : C18
// Expected head fast block: C18
// Expected head block : G
testRepair(t, &rewindTest{
canonicalBlocks: 18,
sidechainBlocks: 3,
freezeThreshold: 16,
commitBlock: 0,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 18,
expSidechainBlocks: 0,
expFrozen: 3,
expHeadHeader: 18,
expHeadFastBlock: 18,
expHeadBlock: 0,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a shorter
// side chain, where the fast sync pivot point - older than the ancient limit -
// was not yet committed, but the process crashed. In this test scenario the side
// chain is below the committed block. In this case we expect the chain to detect
// that it was fast syncing and not delete anything. The side chain is completely
// nuked by the freezer.
func TestLongOldForkedFastSyncingDeepRepair(t *testing.T) {
testLongOldForkedFastSyncingDeepRepair(t, false)
}
func TestLongOldForkedFastSyncingDeepRepairWithSnapshots(t *testing.T) {
testLongOldForkedFastSyncingDeepRepair(t, true)
}
func testLongOldForkedFastSyncingDeepRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18->C19->C20->C21->C22->C23->C24 (HEAD)
// └->S1->S2->S3
//
// Frozen:
// G->C1->C2->C3->C4->C5->C6->C7->C8
//
// Commit: G
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2->C3->C4->C5->C6->C7->C8
//
// Expected in leveldb:
// C8)->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18->C19->C20->C21->C22->C23->C24
//
// Expected head header : C24
// Expected head fast block: C24
// Expected head block : G
testRepair(t, &rewindTest{
canonicalBlocks: 24,
sidechainBlocks: 3,
freezeThreshold: 16,
commitBlock: 0,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 24,
expSidechainBlocks: 0,
expFrozen: 9,
expHeadHeader: 24,
expHeadFastBlock: 24,
expHeadBlock: 0,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a shorter
// side chain, where a recent block - newer than the ancient limit - was already
// committed to disk and then the process crashed. In this test scenario the side
// chain is above the committed block. In this case we expect the chain to be
// rolled back to the committed block, with everything afterwads kept as fast
// sync data; the side chain completely nuked by the freezer.
func TestLongNewerForkedShallowRepair(t *testing.T) {
testLongNewerForkedShallowRepair(t, false)
}
func TestLongNewerForkedShallowRepairWithSnapshots(t *testing.T) {
testLongNewerForkedShallowRepair(t, true)
}
func testLongNewerForkedShallowRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18 (HEAD)
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10->S11->S12
//
// Frozen:
// G->C1->C2
//
// Commit: G, C4
// Pivot : none
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2
//
// Expected in leveldb:
// C2)->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18
//
// Expected head header : C18
// Expected head fast block: C18
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 18,
sidechainBlocks: 12,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: nil,
expCanonicalBlocks: 18,
expSidechainBlocks: 0,
expFrozen: 3,
expHeadHeader: 18,
expHeadFastBlock: 18,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a shorter
// side chain, where a recent block - older than the ancient limit - was already
// committed to disk and then the process crashed. In this test scenario the side
// chain is above the committed block. In this case we expect the canonical chain
// to be rolled back to the committed block, with everything afterwads deleted;
// the side chain completely nuked by the freezer.
func TestLongNewerForkedDeepRepair(t *testing.T) { testLongNewerForkedDeepRepair(t, false) }
func TestLongNewerForkedDeepRepairWithSnapshots(t *testing.T) { testLongNewerForkedDeepRepair(t, true) }
func testLongNewerForkedDeepRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18->C19->C20->C21->C22->C23->C24 (HEAD)
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10->S11->S12
//
// Frozen:
// G->C1->C2->C3->C4->C5->C6->C7->C8
//
// Commit: G, C4
// Pivot : none
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2->C3->C4
//
// Expected in leveldb: none
//
// Expected head header : C4
// Expected head fast block: C4
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 24,
sidechainBlocks: 12,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: nil,
expCanonicalBlocks: 4,
expSidechainBlocks: 0,
expFrozen: 5,
expHeadHeader: 4,
expHeadFastBlock: 4,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a shorter
// side chain, where the fast sync pivot point - newer than the ancient limit -
// was already committed to disk and then the process crashed. In this test scenario
// the side chain is above the committed block. In this case we expect the chain
// to be rolled back to the committed block, with everything afterwads kept as fast
// sync data; the side chain completely nuked by the freezer.
func TestLongNewerForkedFastSyncedShallowRepair(t *testing.T) {
testLongNewerForkedFastSyncedShallowRepair(t, false)
}
func TestLongNewerForkedFastSyncedShallowRepairWithSnapshots(t *testing.T) {
testLongNewerForkedFastSyncedShallowRepair(t, true)
}
func testLongNewerForkedFastSyncedShallowRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18 (HEAD)
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10->S11->S12
//
// Frozen:
// G->C1->C2
//
// Commit: G, C4
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2
//
// Expected in leveldb:
// C2)->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18
//
// Expected head header : C18
// Expected head fast block: C18
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 18,
sidechainBlocks: 12,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 18,
expSidechainBlocks: 0,
expFrozen: 3,
expHeadHeader: 18,
expHeadFastBlock: 18,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a shorter
// side chain, where the fast sync pivot point - older than the ancient limit -
// was already committed to disk and then the process crashed. In this test scenario
// the side chain is above the committed block. In this case we expect the canonical
// chain to be rolled back to the committed block, with everything afterwads deleted;
// the side chain completely nuked by the freezer.
func TestLongNewerForkedFastSyncedDeepRepair(t *testing.T) {
testLongNewerForkedFastSyncedDeepRepair(t, false)
}
func TestLongNewerForkedFastSyncedDeepRepairWithSnapshots(t *testing.T) {
testLongNewerForkedFastSyncedDeepRepair(t, true)
}
func testLongNewerForkedFastSyncedDeepRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18->C19->C20->C21->C22->C23->C24 (HEAD)
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10->S11->S12
//
// Frozen:
// G->C1->C2->C3->C4->C5->C6->C7->C8
//
// Commit: G, C4
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2->C3->C4
//
// Expected in leveldb: none
//
// Expected head header : C4
// Expected head fast block: C4
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 24,
sidechainBlocks: 12,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 4,
expSidechainBlocks: 0,
expFrozen: 5,
expHeadHeader: 4,
expHeadFastBlock: 4,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a shorter
// side chain, where the fast sync pivot point - older than the ancient limit -
// was not yet committed, but the process crashed. In this test scenario the side
// chain is above the committed block. In this case we expect the chain to detect
// that it was fast syncing and not delete anything. The side chain is completely
// nuked by the freezer.
func TestLongNewerForkedFastSyncingShallowRepair(t *testing.T) {
testLongNewerForkedFastSyncingShallowRepair(t, false)
}
func TestLongNewerForkedFastSyncingShallowRepairWithSnapshots(t *testing.T) {
testLongNewerForkedFastSyncingShallowRepair(t, true)
}
func testLongNewerForkedFastSyncingShallowRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18 (HEAD)
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10->S11->S12
//
// Frozen:
// G->C1->C2
//
// Commit: G
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2
//
// Expected in leveldb:
// C2)->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18
//
// Expected head header : C18
// Expected head fast block: C18
// Expected head block : G
testRepair(t, &rewindTest{
canonicalBlocks: 18,
sidechainBlocks: 12,
freezeThreshold: 16,
commitBlock: 0,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 18,
expSidechainBlocks: 0,
expFrozen: 3,
expHeadHeader: 18,
expHeadFastBlock: 18,
expHeadBlock: 0,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a shorter
// side chain, where the fast sync pivot point - older than the ancient limit -
// was not yet committed, but the process crashed. In this test scenario the side
// chain is above the committed block. In this case we expect the chain to detect
// that it was fast syncing and not delete anything. The side chain is completely
// nuked by the freezer.
func TestLongNewerForkedFastSyncingDeepRepair(t *testing.T) {
testLongNewerForkedFastSyncingDeepRepair(t, false)
}
func TestLongNewerForkedFastSyncingDeepRepairWithSnapshots(t *testing.T) {
testLongNewerForkedFastSyncingDeepRepair(t, true)
}
func testLongNewerForkedFastSyncingDeepRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18->C19->C20->C21->C22->C23->C24 (HEAD)
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10->S11->S12
//
// Frozen:
// G->C1->C2->C3->C4->C5->C6->C7->C8
//
// Commit: G
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2->C3->C4->C5->C6->C7->C8
//
// Expected in leveldb:
// C8)->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18->C19->C20->C21->C22->C23->C24
//
// Expected head header : C24
// Expected head fast block: C24
// Expected head block : G
testRepair(t, &rewindTest{
canonicalBlocks: 24,
sidechainBlocks: 12,
freezeThreshold: 16,
commitBlock: 0,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 24,
expSidechainBlocks: 0,
expFrozen: 9,
expHeadHeader: 24,
expHeadFastBlock: 24,
expHeadBlock: 0,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a longer side
// chain, where a recent block - newer than the ancient limit - was already committed
// to disk and then the process crashed. In this case we expect the chain to be
// rolled back to the committed block, with everything afterwads kept as fast sync
// data. The side chain completely nuked by the freezer.
func TestLongReorgedShallowRepair(t *testing.T) { testLongReorgedShallowRepair(t, false) }
func TestLongReorgedShallowRepairWithSnapshots(t *testing.T) { testLongReorgedShallowRepair(t, true) }
func testLongReorgedShallowRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18 (HEAD)
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10->S11->S12->S13->S14->S15->S16->S17->S18->S19->S20->S21->S22->S23->S24->S25->S26
//
// Frozen:
// G->C1->C2
//
// Commit: G, C4
// Pivot : none
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2
//
// Expected in leveldb:
// C2)->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18
//
// Expected head header : C18
// Expected head fast block: C18
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 18,
sidechainBlocks: 26,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: nil,
expCanonicalBlocks: 18,
expSidechainBlocks: 0,
expFrozen: 3,
expHeadHeader: 18,
expHeadFastBlock: 18,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a longer side
// chain, where a recent block - older than the ancient limit - was already committed
// to disk and then the process crashed. In this case we expect the canonical chains
// to be rolled back to the committed block, with everything afterwads deleted. The
// side chain completely nuked by the freezer.
func TestLongReorgedDeepRepair(t *testing.T) { testLongReorgedDeepRepair(t, false) }
func TestLongReorgedDeepRepairWithSnapshots(t *testing.T) { testLongReorgedDeepRepair(t, true) }
func testLongReorgedDeepRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18->C19->C20->C21->C22->C23->C24 (HEAD)
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10->S11->S12->S13->S14->S15->S16->S17->S18->S19->S20->S21->S22->S23->S24->S25->S26
//
// Frozen:
// G->C1->C2->C3->C4->C5->C6->C7->C8
//
// Commit: G, C4
// Pivot : none
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2->C3->C4
//
// Expected in leveldb: none
//
// Expected head header : C4
// Expected head fast block: C4
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 24,
sidechainBlocks: 26,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: nil,
expCanonicalBlocks: 4,
expSidechainBlocks: 0,
expFrozen: 5,
expHeadHeader: 4,
expHeadFastBlock: 4,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a longer
// side chain, where the fast sync pivot point - newer than the ancient limit -
// was already committed to disk and then the process crashed. In this case we
// expect the chain to be rolled back to the committed block, with everything
// afterwads kept as fast sync data. The side chain completely nuked by the
// freezer.
func TestLongReorgedFastSyncedShallowRepair(t *testing.T) {
testLongReorgedFastSyncedShallowRepair(t, false)
}
func TestLongReorgedFastSyncedShallowRepairWithSnapshots(t *testing.T) {
testLongReorgedFastSyncedShallowRepair(t, true)
}
func testLongReorgedFastSyncedShallowRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18 (HEAD)
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10->S11->S12->S13->S14->S15->S16->S17->S18->S19->S20->S21->S22->S23->S24->S25->S26
//
// Frozen:
// G->C1->C2
//
// Commit: G, C4
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2
//
// Expected in leveldb:
// C2)->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18
//
// Expected head header : C18
// Expected head fast block: C18
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 18,
sidechainBlocks: 26,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 18,
expSidechainBlocks: 0,
expFrozen: 3,
expHeadHeader: 18,
expHeadFastBlock: 18,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a longer
// side chain, where the fast sync pivot point - older than the ancient limit -
// was already committed to disk and then the process crashed. In this case we
// expect the canonical chains to be rolled back to the committed block, with
// everything afterwads deleted. The side chain completely nuked by the freezer.
func TestLongReorgedFastSyncedDeepRepair(t *testing.T) {
testLongReorgedFastSyncedDeepRepair(t, false)
}
func TestLongReorgedFastSyncedDeepRepairWithSnapshots(t *testing.T) {
testLongReorgedFastSyncedDeepRepair(t, true)
}
func testLongReorgedFastSyncedDeepRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18->C19->C20->C21->C22->C23->C24 (HEAD)
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10->S11->S12->S13->S14->S15->S16->S17->S18->S19->S20->S21->S22->S23->S24->S25->S26
//
// Frozen:
// G->C1->C2->C3->C4->C5->C6->C7->C8
//
// Commit: G, C4
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2->C3->C4
//
// Expected in leveldb: none
//
// Expected head header : C4
// Expected head fast block: C4
// Expected head block : C4
testRepair(t, &rewindTest{
canonicalBlocks: 24,
sidechainBlocks: 26,
freezeThreshold: 16,
commitBlock: 4,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 4,
expSidechainBlocks: 0,
expFrozen: 5,
expHeadHeader: 4,
expHeadFastBlock: 4,
expHeadBlock: 4,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a longer
// side chain, where the fast sync pivot point - newer than the ancient limit -
// was not yet committed, but the process crashed. In this case we expect the
// chain to detect that it was fast syncing and not delete anything, since we
// can just pick up directly where we left off.
func TestLongReorgedFastSyncingShallowRepair(t *testing.T) {
testLongReorgedFastSyncingShallowRepair(t, false)
}
func TestLongReorgedFastSyncingShallowRepairWithSnapshots(t *testing.T) {
testLongReorgedFastSyncingShallowRepair(t, true)
}
func testLongReorgedFastSyncingShallowRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18 (HEAD)
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10->S11->S12->S13->S14->S15->S16->S17->S18->S19->S20->S21->S22->S23->S24->S25->S26
//
// Frozen:
// G->C1->C2
//
// Commit: G
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2
//
// Expected in leveldb:
// C2)->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18
//
// Expected head header : C18
// Expected head fast block: C18
// Expected head block : G
testRepair(t, &rewindTest{
canonicalBlocks: 18,
sidechainBlocks: 26,
freezeThreshold: 16,
commitBlock: 0,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 18,
expSidechainBlocks: 0,
expFrozen: 3,
expHeadHeader: 18,
expHeadFastBlock: 18,
expHeadBlock: 0,
}, snapshots)
}
// Tests a recovery for a long canonical chain with frozen blocks and a longer
// side chain, where the fast sync pivot point - older than the ancient limit -
// was not yet committed, but the process crashed. In this case we expect the
// chain to detect that it was fast syncing and not delete anything, since we
// can just pick up directly where we left off.
func TestLongReorgedFastSyncingDeepRepair(t *testing.T) {
testLongReorgedFastSyncingDeepRepair(t, false)
}
func TestLongReorgedFastSyncingDeepRepairWithSnapshots(t *testing.T) {
testLongReorgedFastSyncingDeepRepair(t, true)
}
func testLongReorgedFastSyncingDeepRepair(t *testing.T, snapshots bool) {
// Chain:
// G->C1->C2->C3->C4->C5->C6->C7->C8->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18->C19->C20->C21->C22->C23->C24 (HEAD)
// └->S1->S2->S3->S4->S5->S6->S7->S8->S9->S10->S11->S12->S13->S14->S15->S16->S17->S18->S19->S20->S21->S22->S23->S24->S25->S26
//
// Frozen:
// G->C1->C2->C3->C4->C5->C6->C7->C8
//
// Commit: G
// Pivot : C4
//
// CRASH
//
// ------------------------------
//
// Expected in freezer:
// G->C1->C2->C3->C4->C5->C6->C7->C8
//
// Expected in leveldb:
// C8)->C9->C10->C11->C12->C13->C14->C15->C16->C17->C18->C19->C20->C21->C22->C23->C24
//
// Expected head header : C24
// Expected head fast block: C24
// Expected head block : G
testRepair(t, &rewindTest{
canonicalBlocks: 24,
sidechainBlocks: 26,
freezeThreshold: 16,
commitBlock: 0,
pivotBlock: uint64ptr(4),
expCanonicalBlocks: 24,
expSidechainBlocks: 0,
expFrozen: 9,
expHeadHeader: 24,
expHeadFastBlock: 24,
expHeadBlock: 0,
}, snapshots)
}
func testRepair(t *testing.T, tt *rewindTest, snapshots bool) {
// It's hard to follow the test case, visualize the input
//log.Root().SetHandler(log.LvlFilterHandler(log.LvlTrace, log.StreamHandler(os.Stderr, log.TerminalFormat(true))))
// fmt.Println(tt.dump(true))
// Create a temporary persistent database
datadir, err := ioutil.TempDir("", "")
if err != nil {
t.Fatalf("Failed to create temporary datadir: %v", err)
}
os.RemoveAll(datadir)
db, err := rawdb.NewLevelDBDatabaseWithFreezer(datadir, 0, 0, datadir, "", false)
if err != nil {
t.Fatalf("Failed to create persistent database: %v", err)
}
defer db.Close() // Might double close, should be fine
// Initialize a fresh chain
var (
genesis = new(Genesis).MustCommit(db)
engine = ethash.NewFullFaker()
config = &CacheConfig{
TrieCleanLimit: 256,
TrieDirtyLimit: 256,
TrieTimeLimit: 5 * time.Minute,
SnapshotLimit: 0, // Disable snapshot by default
}
)
if snapshots {
config.SnapshotLimit = 256
config.SnapshotWait = true
}
config.TriesInMemory = 128
chain, err := NewBlockChain(db, config, params.AllEthashProtocolChanges, engine, vm.Config{}, nil, nil)
if err != nil {
t.Fatalf("Failed to create chain: %v", err)
}
// If sidechain blocks are needed, make a light chain and import it
var sideblocks types.Blocks
if tt.sidechainBlocks > 0 {
sideblocks, _ = GenerateChain(params.TestChainConfig, genesis, engine, rawdb.NewMemoryDatabase(), tt.sidechainBlocks, func(i int, b *BlockGen) {
b.SetCoinbase(common.Address{0x01})
})
if _, err := chain.InsertChain(sideblocks); err != nil {
t.Fatalf("Failed to import side chain: %v", err)
}
}
canonblocks, _ := GenerateChain(params.TestChainConfig, genesis, engine, rawdb.NewMemoryDatabase(), tt.canonicalBlocks, func(i int, b *BlockGen) {
b.SetCoinbase(common.Address{0x02})
b.SetDifficulty(big.NewInt(1000000))
})
if _, err := chain.InsertChain(canonblocks[:tt.commitBlock]); err != nil {
t.Fatalf("Failed to import canonical chain start: %v", err)
}
if tt.commitBlock > 0 {
chain.stateCache.TrieDB().Commit(canonblocks[tt.commitBlock-1].Root(), true, nil)
if snapshots {
if err := chain.snaps.Cap(canonblocks[tt.commitBlock-1].Root(), 0); err != nil {
t.Fatalf("Failed to flatten snapshots: %v", err)
}
}
}
if _, err := chain.InsertChain(canonblocks[tt.commitBlock:]); err != nil {
t.Fatalf("Failed to import canonical chain tail: %v", err)
}
// Force run a freeze cycle
type freezer interface {
Freeze(threshold uint64) error
Ancients() (uint64, error)
}
db.(freezer).Freeze(tt.freezeThreshold)
// Set the simulated pivot block
if tt.pivotBlock != nil {
rawdb.WriteLastPivotNumber(db, *tt.pivotBlock)
}
// Pull the plug on the database, simulating a hard crash
db.Close()
// Start a new blockchain back up and see where the repait leads us
db, err = rawdb.NewLevelDBDatabaseWithFreezer(datadir, 0, 0, datadir, "", false)
if err != nil {
t.Fatalf("Failed to reopen persistent database: %v", err)
}
defer db.Close()
chain, err = NewBlockChain(db, nil, params.AllEthashProtocolChanges, engine, vm.Config{}, nil, nil)
if err != nil {
t.Fatalf("Failed to recreate chain: %v", err)
}
defer chain.Stop()
// Iterate over all the remaining blocks and ensure there are no gaps
verifyNoGaps(t, chain, true, canonblocks)
verifyNoGaps(t, chain, false, sideblocks)
verifyCutoff(t, chain, true, canonblocks, tt.expCanonicalBlocks)
verifyCutoff(t, chain, false, sideblocks, tt.expSidechainBlocks)
if head := chain.CurrentHeader(); head.Number.Uint64() != tt.expHeadHeader {
t.Errorf("Head header mismatch: have %d, want %d", head.Number, tt.expHeadHeader)
}
if head := chain.CurrentFastBlock(); head.NumberU64() != tt.expHeadFastBlock {
t.Errorf("Head fast block mismatch: have %d, want %d", head.NumberU64(), tt.expHeadFastBlock)
}
if head := chain.CurrentBlock(); head.NumberU64() != tt.expHeadBlock {
t.Errorf("Head block mismatch: have %d, want %d", head.NumberU64(), tt.expHeadBlock)
}
if frozen, err := db.(freezer).Ancients(); err != nil {
t.Errorf("Failed to retrieve ancient count: %v\n", err)
} else if int(frozen) != tt.expFrozen {
t.Errorf("Frozen block count mismatch: have %d, want %d", frozen, tt.expFrozen)
}
}
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