ipld-eth-state-snapshot/pkg/snapshot/service_test.go
2023-05-17 08:16:50 -05:00

673 lines
22 KiB
Go

package snapshot
import (
"errors"
"fmt"
"math/big"
"math/rand"
"os"
"path/filepath"
"sync"
"sync/atomic"
"testing"
"time"
"github.com/ipfs/go-cid"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/statediff/indexer/models"
"github.com/golang/mock/gomock"
fixt "github.com/cerc-io/ipld-eth-state-snapshot/fixture"
mock "github.com/cerc-io/ipld-eth-state-snapshot/mocks/snapshot"
snapt "github.com/cerc-io/ipld-eth-state-snapshot/pkg/types"
"github.com/cerc-io/ipld-eth-state-snapshot/test"
)
var (
stateNodeDuplicateErr = "state node indexed multiple times (%d) for state key %v"
storageNodeDuplicateErr = "storage node indexed multiple times (%d) for state key %v and storage key %v"
stateNodeNotIndexedErr = "state node not indexed for state key %v"
storageNodeNotIndexedErr = "storage node not indexed for state key %v, storage key %v"
unexpectedStateNodeErr = "got unexpected state node for state key %v"
unexpectedStorageNodeErr = "got unexpected storage node for state key %v, storage key %v"
extraNodesIndexedErr = "number of nodes indexed (%v) is more than expected (max %v)"
)
func testConfig(leveldbpath, ancientdbpath string) *Config {
return &Config{
Eth: &EthConfig{
LevelDBPath: leveldbpath,
AncientDBPath: ancientdbpath,
NodeInfo: test.DefaultNodeInfo,
},
DB: &DBConfig{
URI: test.DefaultPgConfig.DbConnectionString(),
ConnConfig: test.DefaultPgConfig,
},
}
}
func makeMocks(t *testing.T) (*mock.MockPublisher, *mock.MockTx) {
ctl := gomock.NewController(t)
pub := mock.NewMockPublisher(ctl)
tx := mock.NewMockTx(ctl)
return pub, tx
}
func TestCreateSnapshot(t *testing.T) {
runCase := func(t *testing.T, workers int) {
expectedStateLeafKeys := sync.Map{}
for _, key := range fixt.Block1_StateNodeLeafKeys {
expectedStateLeafKeys.Store(key, struct{}{})
}
pub, tx := makeMocks(t)
pub.EXPECT().PublishHeader(gomock.Eq(&fixt.Block1_Header))
pub.EXPECT().BeginTx().Return(tx, nil).
Times(workers)
pub.EXPECT().PrepareTxForBatch(gomock.Any(), gomock.Any()).Return(tx, nil).
AnyTimes()
tx.EXPECT().Commit().
Times(workers)
pub.EXPECT().PublishStateLeafNode(
gomock.Any(),
gomock.Eq(tx)).
Do(func(stateNode *models.StateNodeModel, _ snapt.Tx) error {
if stateNode.BlockNumber != fixt.Block1_Header.Number.String() {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
if stateNode.HeaderID != fixt.Block1_Header.Hash().String() {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
if _, ok := expectedStateLeafKeys.Load(stateNode.StateKey); ok {
expectedStateLeafKeys.Delete(stateNode.StateKey)
} else {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
return nil
}).
AnyTimes()
pub.EXPECT().PublishIPLD(gomock.Any(), gomock.Any(), gomock.Eq(fixt.Block1_Header.Number), gomock.Eq(tx)).
AnyTimes()
// Note: block 1 doesn't have storage nodes. TODO: add fixtures with storage nodes
chainDataPath, ancientDataPath := fixt.GetChainDataPath("chaindata")
config := testConfig(chainDataPath, ancientDataPath)
edb, err := NewLevelDB(config.Eth)
if err != nil {
t.Fatal(err)
}
defer edb.Close()
recovery := filepath.Join(t.TempDir(), "recover.csv")
service, err := NewSnapshotService(edb, pub, recovery)
if err != nil {
t.Fatal(err)
}
params := SnapshotParams{Height: 1, Workers: uint(workers)}
err = service.CreateSnapshot(params)
if err != nil {
t.Fatal(err)
}
// Check if all expected state nodes are indexed
expectedStateLeafKeys.Range(func(key, value any) bool {
t.Fatalf(stateNodeNotIndexedErr, key.(string))
return true
})
}
testCases := []int{1, 4, 8, 16, 32}
for _, tc := range testCases {
t.Run("case", func(t *testing.T) { runCase(t, tc) })
}
}
type indexedStateLeafNode struct {
value models.StateNodeModel
isIndexed bool
}
type indexedStorageLeafNode struct {
value models.StorageNodeModel
isIndexed bool
}
type storageNodeKey struct {
stateKey string
storageKey string
}
func TestAccountSelectiveSnapshot(t *testing.T) {
snapShotHeight := uint64(32)
watchedAddresses := map[common.Address]struct{}{
common.HexToAddress("0x825a6eec09e44Cb0fa19b84353ad0f7858d7F61a"): {},
common.HexToAddress("0x0616F59D291a898e796a1FAD044C5926ed2103eC"): {},
}
expectedStateNodeIndexes := []int{0, 4}
stateKey33 := common.HexToHash("0x33153abc667e873b6036c8a46bdd847e2ade3f89b9331c78ef2553fea194c50d").String()
expectedStorageNodeIndexes33 := []int{0, 1, 2, 4, 6}
stateKey12 := common.HexToHash("0xcabc5edb305583e33f66322ceee43088aa99277da772feb5053512d03a0a702b").String()
expectedStorageNodeIndexes12 := []int{9, 11}
runCase := func(t *testing.T, workers int) {
expectedStateNodes := sync.Map{}
for _, expectedStateNodeIndex := range expectedStateNodeIndexes {
key := fixt.Chain2_Block32_StateNodes[expectedStateNodeIndex].StateKey
expectedStateNodes.Store(key, indexedStateLeafNode{
value: fixt.Chain2_Block32_StateNodes[expectedStateNodeIndex],
isIndexed: false,
})
}
expectedStorageNodes := sync.Map{}
for _, expectedStorageNodeIndex := range expectedStorageNodeIndexes33 {
key := fixt.Chain2_Block32_StorageNodes[expectedStorageNodeIndex].StorageKey
keys := storageNodeKey{
stateKey: stateKey33,
storageKey: key,
}
value := indexedStorageLeafNode{
value: fixt.Chain2_Block32_StorageNodes[expectedStorageNodeIndex],
isIndexed: false,
}
expectedStorageNodes.Store(keys, value)
}
for _, expectedStorageNodeIndex := range expectedStorageNodeIndexes12 {
key := fixt.Chain2_Block32_StorageNodes[expectedStorageNodeIndex].StorageKey
keys := storageNodeKey{
stateKey: stateKey12,
storageKey: key,
}
value := indexedStorageLeafNode{
value: fixt.Chain2_Block32_StorageNodes[expectedStorageNodeIndex],
isIndexed: false,
}
expectedStorageNodes.Store(keys, value)
}
pub, tx := makeMocks(t)
pub.EXPECT().PublishHeader(gomock.Eq(&fixt.Chain2_Block32_Header))
pub.EXPECT().BeginTx().Return(tx, nil).
Times(workers)
pub.EXPECT().PrepareTxForBatch(gomock.Any(), gomock.Any()).Return(tx, nil).
AnyTimes()
tx.EXPECT().Commit().
Times(workers)
pub.EXPECT().PublishStateLeafNode(
gomock.Any(),
gomock.Eq(tx)).
Do(func(stateNode *models.StateNodeModel, _ snapt.Tx) error {
if stateNode.BlockNumber != fixt.Chain2_Block32_Header.Number.String() {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
if stateNode.HeaderID != fixt.Chain2_Block32_Header.Hash().String() {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
key := stateNode.StateKey
// Check published nodes
if expectedStateNode, ok := expectedStateNodes.Load(key); ok {
expectedVal := expectedStateNode.(indexedStateLeafNode).value
test.ExpectEqual(t, expectedVal, *stateNode)
// Mark expected node as indexed
expectedStateNodes.Store(key, indexedStateLeafNode{
value: expectedVal,
isIndexed: true,
})
} else {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
return nil
}).
AnyTimes()
pub.EXPECT().PublishStorageLeafNode(
gomock.Any(),
gomock.Eq(tx)).
Do(func(storageNode *models.StorageNodeModel, _ snapt.Tx) error {
if storageNode.BlockNumber != fixt.Chain2_Block32_Header.Number.String() {
t.Fatalf(unexpectedStorageNodeErr, storageNode.StateKey, storageNode.StorageKey)
}
if storageNode.HeaderID != fixt.Chain2_Block32_Header.Hash().String() {
t.Fatalf(unexpectedStorageNodeErr, storageNode.StateKey, storageNode.StorageKey)
}
key := storageNodeKey{
stateKey: storageNode.StateKey,
storageKey: storageNode.StorageKey,
}
// Check published nodes
if expectedStorageNode, ok := expectedStorageNodes.Load(key); ok {
expectedVal := expectedStorageNode.(indexedStorageLeafNode).value
test.ExpectEqual(t, expectedVal, *storageNode)
// Mark expected node as indexed
expectedStorageNodes.Store(key, indexedStorageLeafNode{
value: expectedVal,
isIndexed: true,
})
} else {
t.Fatalf(unexpectedStorageNodeErr, storageNode.StateKey, storageNode.StorageKey)
}
return nil
}).
AnyTimes()
pub.EXPECT().PublishIPLD(gomock.Any(), gomock.Any(), gomock.Eq(fixt.Chain2_Block32_Header.Number), gomock.Eq(tx)).
Do(func(_ cid.Cid, _ []byte, height *big.Int, _ snapt.Tx) {
if height.String() != fixt.Chain2_Block32_Header.Number.String() {
t.Fatalf("wrong blockheight for ipld publish: %s", height.String())
}
}).
MaxTimes(len(fixt.Chain2_Block32_StateIPLDs) + len(fixt.Chain2_Block32_StorageIPLDs) + 1 + 2)
chainDataPath, ancientDataPath := fixt.GetChainDataPath("chain2data")
config := testConfig(chainDataPath, ancientDataPath)
edb, err := NewLevelDB(config.Eth)
if err != nil {
t.Fatal(err)
}
defer edb.Close()
recovery := filepath.Join(t.TempDir(), "recover.csv")
service, err := NewSnapshotService(edb, pub, recovery)
if err != nil {
t.Fatal(err)
}
params := SnapshotParams{Height: snapShotHeight, Workers: uint(workers), WatchedAddresses: watchedAddresses}
err = service.CreateSnapshot(params)
if err != nil {
t.Fatal(err)
}
expectedStateNodes.Range(func(key, value any) bool {
if !value.(indexedStateLeafNode).isIndexed {
t.Fatalf(stateNodeNotIndexedErr, key)
return false
}
return true
})
expectedStorageNodes.Range(func(key, value any) bool {
if !value.(indexedStorageLeafNode).isIndexed {
t.Fatalf(storageNodeNotIndexedErr, key.(storageNodeKey).stateKey, key.(storageNodeKey).storageKey)
return false
}
return true
})
}
testCases := []int{1, 4, 8, 16, 32}
for _, tc := range testCases {
t.Run("case", func(t *testing.T) { runCase(t, tc) })
}
}
func TestRecovery(t *testing.T) {
runCase := func(t *testing.T, workers int, interruptAt int32) {
// map: expected state path -> number of times it got published
expectedStateNodeKeys := sync.Map{}
for _, key := range fixt.Block1_StateNodeLeafKeys {
expectedStateNodeKeys.Store(key, 0)
}
var indexedStateNodesCount int32
pub, tx := makeMocks(t)
pub.EXPECT().PublishHeader(gomock.Eq(&fixt.Block1_Header))
pub.EXPECT().BeginTx().Return(tx, nil).MaxTimes(workers)
pub.EXPECT().PrepareTxForBatch(gomock.Any(), gomock.Any()).Return(tx, nil).AnyTimes()
tx.EXPECT().Rollback().MaxTimes(workers)
tx.EXPECT().Commit().MaxTimes(workers)
pub.EXPECT().PublishStateLeafNode(
gomock.Any(),
gomock.Eq(tx)).
DoAndReturn(func(stateNode *models.StateNodeModel, _ snapt.Tx) error {
if stateNode.BlockNumber != fixt.Block1_Header.Number.String() {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
if stateNode.HeaderID != fixt.Block1_Header.Hash().String() {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
// Start throwing an error after a certain number of state nodes have been indexed
if indexedStateNodesCount >= interruptAt {
return errors.New("failingPublishStateLeafNode")
} else {
if prevCount, ok := expectedStateNodeKeys.Load(stateNode.StateKey); ok {
expectedStateNodeKeys.Store(stateNode.StateKey, prevCount.(int)+1)
atomic.AddInt32(&indexedStateNodesCount, 1)
} else {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
}
return nil
}).
MaxTimes(int(interruptAt) + workers)
pub.EXPECT().PublishIPLD(gomock.Any(), gomock.Any(), gomock.Eq(fixt.Block1_Header.Number), gomock.Eq(tx)).
AnyTimes()
chainDataPath, ancientDataPath := fixt.GetChainDataPath("chaindata")
config := testConfig(chainDataPath, ancientDataPath)
edb, err := NewLevelDB(config.Eth)
if err != nil {
t.Fatal(err)
}
defer edb.Close()
recovery := filepath.Join(t.TempDir(), "recover.csv")
service, err := NewSnapshotService(edb, pub, recovery)
if err != nil {
t.Fatal(err)
}
params := SnapshotParams{Height: 1, Workers: uint(workers)}
err = service.CreateSnapshot(params)
if err == nil {
t.Fatal("expected an error")
}
if _, err = os.Stat(recovery); err != nil {
t.Fatal("cannot stat recovery file:", err)
}
// Create new mocks for recovery
recoveryPub, tx := makeMocks(t)
recoveryPub.EXPECT().PublishHeader(gomock.Eq(&fixt.Block1_Header))
recoveryPub.EXPECT().BeginTx().Return(tx, nil).AnyTimes()
recoveryPub.EXPECT().PrepareTxForBatch(gomock.Any(), gomock.Any()).Return(tx, nil).AnyTimes()
tx.EXPECT().Commit().AnyTimes()
recoveryPub.EXPECT().PublishStateLeafNode(
gomock.Any(),
gomock.Eq(tx)).
DoAndReturn(func(stateNode *models.StateNodeModel, _ snapt.Tx) error {
if stateNode.BlockNumber != fixt.Block1_Header.Number.String() {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
if stateNode.HeaderID != fixt.Block1_Header.Hash().String() {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
if prevCount, ok := expectedStateNodeKeys.Load(stateNode.StateKey); ok {
expectedStateNodeKeys.Store(stateNode.StateKey, prevCount.(int)+1)
atomic.AddInt32(&indexedStateNodesCount, 1)
} else {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
return nil
}).
AnyTimes()
recoveryPub.EXPECT().PublishIPLD(gomock.Any(), gomock.Any(), gomock.Eq(fixt.Block1_Header.Number), gomock.Eq(tx)).
AnyTimes()
// Create a new snapshot service for recovery
recoveryService, err := NewSnapshotService(edb, recoveryPub, recovery)
if err != nil {
t.Fatal(err)
}
err = recoveryService.CreateSnapshot(params)
if err != nil {
t.Fatal(err)
}
// Check if recovery file has been deleted
_, err = os.Stat(recovery)
if err == nil {
t.Fatal("recovery file still present")
} else {
if !os.IsNotExist(err) {
t.Fatal(err)
}
}
// Check if all state nodes are indexed after recovery
expectedStateNodeKeys.Range(func(key, value any) bool {
if value.(int) == 0 {
t.Fatalf(stateNodeNotIndexedErr, key.(string))
}
return true
})
// nodes along the recovery path get reindexed
maxStateNodesCount := len(fixt.Block1_StateNodeLeafKeys)
if indexedStateNodesCount > int32(maxStateNodesCount) {
t.Fatalf(extraNodesIndexedErr, indexedStateNodesCount, maxStateNodesCount)
}
}
testCases := []int{1, 2, 4, 8, 16, 32}
numInterrupts := 3
interrupts := make([]int32, numInterrupts)
for i := 0; i < numInterrupts; i++ {
rand.Seed(time.Now().UnixNano())
interrupts[i] = rand.Int31n(int32(len(fixt.Block1_StateNodeLeafKeys) / 2))
}
for _, tc := range testCases {
for _, interrupt := range interrupts {
t.Run(fmt.Sprint("case", tc, interrupt), func(t *testing.T) { runCase(t, tc, interrupt) })
}
}
}
func TestAccountSelectiveRecovery(t *testing.T) {
snapShotHeight := uint64(32)
watchedAddresses := map[common.Address]struct{}{
common.HexToAddress("0x825a6eec09e44Cb0fa19b84353ad0f7858d7F61a"): {},
common.HexToAddress("0x0616F59D291a898e796a1FAD044C5926ed2103eC"): {},
}
expectedStateNodeIndexes := []int{0, 4}
expectedStorageNodeIndexes := []int{0, 1, 2, 4, 6, 9, 11}
runCase := func(t *testing.T, workers int, interruptAt int32) {
// map: expected state path -> number of times it got published
expectedStateNodeKeys := sync.Map{}
for _, expectedStateNodeIndex := range expectedStateNodeIndexes {
key := fixt.Chain2_Block32_StateNodes[expectedStateNodeIndex].StateKey
expectedStateNodeKeys.Store(key, 0)
}
expectedStorageNodeKeys := sync.Map{}
for _, expectedStorageNodeIndex := range expectedStorageNodeIndexes {
stateKey := fixt.Chain2_Block32_StorageNodes[expectedStorageNodeIndex].StateKey
storageKey := fixt.Chain2_Block32_StorageNodes[expectedStorageNodeIndex].StorageKey
keys := storageNodeKey{
stateKey: stateKey,
storageKey: storageKey,
}
expectedStorageNodeKeys.Store(keys, 0)
}
var indexedStateNodesCount, indexedStorageNodesCount int32
pub, tx := makeMocks(t)
pub.EXPECT().PublishHeader(gomock.Eq(&fixt.Chain2_Block32_Header))
pub.EXPECT().BeginTx().Return(tx, nil).Times(workers)
pub.EXPECT().PrepareTxForBatch(gomock.Any(), gomock.Any()).Return(tx, nil).AnyTimes()
tx.EXPECT().Commit().MaxTimes(workers)
tx.EXPECT().Rollback().MaxTimes(workers)
pub.EXPECT().PublishStateLeafNode(
gomock.Any(),
gomock.Eq(tx)).
DoAndReturn(func(stateNode *models.StateNodeModel, _ snapt.Tx) error {
if stateNode.BlockNumber != fixt.Chain2_Block32_Header.Number.String() {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
if stateNode.HeaderID != fixt.Chain2_Block32_Header.Hash().String() {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
// Start throwing an error after a certain number of state nodes have been indexed
if indexedStateNodesCount >= interruptAt {
return errors.New("failingPublishStateLeafNode")
} else {
if prevCount, ok := expectedStateNodeKeys.Load(stateNode.StateKey); ok {
expectedStateNodeKeys.Store(stateNode.StateKey, prevCount.(int)+1)
atomic.AddInt32(&indexedStateNodesCount, 1)
} else {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
}
return nil
}).
MaxTimes(int(interruptAt) + workers)
pub.EXPECT().PublishStorageLeafNode(
gomock.Any(),
gomock.Eq(tx)).
Do(func(storageNode *models.StorageNodeModel, _ snapt.Tx) error {
if storageNode.BlockNumber != fixt.Chain2_Block32_Header.Number.String() {
t.Fatalf(unexpectedStorageNodeErr, storageNode.StateKey, storageNode.StorageKey)
}
if storageNode.HeaderID != fixt.Chain2_Block32_Header.Hash().String() {
t.Fatalf(unexpectedStorageNodeErr, storageNode.StateKey, storageNode.StorageKey)
}
keys := storageNodeKey{
stateKey: storageNode.StateKey,
storageKey: storageNode.StorageKey,
}
if prevCount, ok := expectedStorageNodeKeys.Load(keys); ok {
expectedStorageNodeKeys.Store(keys, prevCount.(int)+1)
atomic.AddInt32(&indexedStorageNodesCount, 1)
} else {
t.Fatalf(unexpectedStorageNodeErr, storageNode.StateKey, storageNode.StorageKey)
}
return nil
}).
AnyTimes()
pub.EXPECT().PublishIPLD(gomock.Any(), gomock.Any(), gomock.Eq(fixt.Chain2_Block32_Header.Number), gomock.Eq(tx)).
AnyTimes()
chainDataPath, ancientDataPath := fixt.GetChainDataPath("chain2data")
config := testConfig(chainDataPath, ancientDataPath)
edb, err := NewLevelDB(config.Eth)
if err != nil {
t.Fatal(err)
}
defer edb.Close()
recovery := filepath.Join(t.TempDir(), "recover.csv")
service, err := NewSnapshotService(edb, pub, recovery)
if err != nil {
t.Fatal(err)
}
params := SnapshotParams{Height: snapShotHeight, Workers: uint(workers), WatchedAddresses: watchedAddresses}
err = service.CreateSnapshot(params)
if err == nil {
t.Fatal("expected an error")
}
if _, err = os.Stat(recovery); err != nil {
t.Fatal("cannot stat recovery file:", err)
}
// Create new mocks for recovery
recoveryPub, tx := makeMocks(t)
recoveryPub.EXPECT().PublishHeader(gomock.Eq(&fixt.Chain2_Block32_Header))
recoveryPub.EXPECT().BeginTx().Return(tx, nil).MaxTimes(workers)
recoveryPub.EXPECT().PrepareTxForBatch(gomock.Any(), gomock.Any()).Return(tx, nil).AnyTimes()
tx.EXPECT().Commit().MaxTimes(workers)
recoveryPub.EXPECT().PublishStateLeafNode(
gomock.Any(),
gomock.Eq(tx)).
DoAndReturn(func(stateNode *models.StateNodeModel, _ snapt.Tx) error {
if stateNode.BlockNumber != fixt.Chain2_Block32_Header.Number.String() {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
if stateNode.HeaderID != fixt.Chain2_Block32_Header.Hash().String() {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
if prevCount, ok := expectedStateNodeKeys.Load(stateNode.StateKey); ok {
expectedStateNodeKeys.Store(stateNode.StateKey, prevCount.(int)+1)
atomic.AddInt32(&indexedStateNodesCount, 1)
} else {
t.Fatalf(unexpectedStateNodeErr, stateNode.StateKey)
}
return nil
}).
AnyTimes()
recoveryPub.EXPECT().PublishStorageLeafNode(
gomock.Any(),
gomock.Eq(tx)).
Do(func(storageNode *models.StorageNodeModel, _ snapt.Tx) error {
if storageNode.BlockNumber != fixt.Chain2_Block32_Header.Number.String() {
t.Fatalf(unexpectedStorageNodeErr, storageNode.StateKey, storageNode.StorageKey)
}
if storageNode.HeaderID != fixt.Chain2_Block32_Header.Hash().String() {
t.Fatalf(unexpectedStorageNodeErr, storageNode.StateKey, storageNode.StorageKey)
}
keys := storageNodeKey{
stateKey: storageNode.StateKey,
storageKey: storageNode.StorageKey,
}
if prevCount, ok := expectedStorageNodeKeys.Load(keys); ok {
expectedStorageNodeKeys.Store(keys, prevCount.(int)+1)
atomic.AddInt32(&indexedStorageNodesCount, 1)
} else {
t.Fatalf(unexpectedStorageNodeErr, storageNode.StateKey, storageNode.StorageKey)
}
return nil
}).
AnyTimes()
recoveryPub.EXPECT().PublishIPLD(gomock.Any(), gomock.Any(), gomock.Eq(fixt.Chain2_Block32_Header.Number), gomock.Eq(tx)).
AnyTimes()
// Create a new snapshot service for recovery
recoveryService, err := NewSnapshotService(edb, recoveryPub, recovery)
if err != nil {
t.Fatal(err)
}
err = recoveryService.CreateSnapshot(params)
if err != nil {
t.Fatal(err)
}
// Check if recovery file has been deleted
_, err = os.Stat(recovery)
if err == nil {
t.Fatal("recovery file still present")
} else {
if !os.IsNotExist(err) {
t.Fatal(err)
}
}
// Check if all expected state nodes are indexed after recovery, but not in duplicate
expectedStateNodeKeys.Range(func(key, value any) bool {
if value.(int) == 0 {
t.Fatalf(stateNodeNotIndexedErr, key.(string))
}
/* TODO: fix/figure out
if value.(int) > 1 {
t.Fatalf(stateNodeDuplicateErr, value.(int), key.(string))
}
*/
return true
})
expectedStorageNodeKeys.Range(func(key, value any) bool {
if value.(int) == 0 {
t.Fatalf(storageNodeNotIndexedErr, key.(storageNodeKey).stateKey, key.(storageNodeKey).storageKey)
}
/* TODO: fix/figure out
if value.(int) > 1 {
t.Fatalf(storageNodeDuplicateErr, value.(int), key.(storageNodeKey).stateKey, key.(storageNodeKey).storageKey)
}
*/
return true
})
maxStateNodesCount := len(expectedStateNodeIndexes) + workers
if indexedStateNodesCount > int32(maxStateNodesCount) {
t.Fatalf(extraNodesIndexedErr, indexedStateNodesCount, maxStateNodesCount)
}
}
testCases := []int{1, 2, 4, 8, 16, 32}
for _, tc := range testCases {
t.Run(fmt.Sprint("case", tc, 1), func(t *testing.T) { runCase(t, tc, 1) })
}
}