prysm-pulse/beacon-chain/sync/initial-sync/round_robin_test.go
Victor Farazdagi a069738c20
ETH2 Types: Slot (#8408)
* update shared/params

* update eth2-types deps

* update protobufs

* update shared/*

* fix testutil/state

* update beacon-chain/state

* update beacon-chain/db

* update tests

* fix test

* update beacon-chain/core

* update beacon-chain/blockchain

* update beacon-chain/cache

* beacon-chain/forkchoice

* update beacon-chain/operations

* update beacon-chain/p2p

* update beacon-chain/rpc

* update sync/initial-sync

* update deps

* update deps

* go fmt

* update beacon-chain/sync

* update endtoend/

* bazel build //beacon-chain - works w/o issues

* update slasher code

* udpate tools/

* update validator/

* update fastssz

* fix build

* fix test building

* update tests

* update ethereumapis deps

* fix tests

* update state/stategen

* fix build

* fix test

* add FarFutureSlot

* go imports

* Radek's suggestions

* Ivan's suggestions

* type conversions

* Nishant's suggestions

* add more tests to rpc_send_request

* fix test

* clean up

* fix conflicts

Co-authored-by: prylabs-bulldozer[bot] <58059840+prylabs-bulldozer[bot]@users.noreply.github.com>
Co-authored-by: nisdas <nishdas93@gmail.com>
2021-02-16 07:45:34 +00:00

636 lines
18 KiB
Go

package initialsync
import (
"context"
"testing"
"time"
"github.com/paulbellamy/ratecounter"
types "github.com/prysmaticlabs/eth2-types"
eth "github.com/prysmaticlabs/ethereumapis/eth/v1alpha1"
mock "github.com/prysmaticlabs/prysm/beacon-chain/blockchain/testing"
dbtest "github.com/prysmaticlabs/prysm/beacon-chain/db/testing"
p2pt "github.com/prysmaticlabs/prysm/beacon-chain/p2p/testing"
"github.com/prysmaticlabs/prysm/shared/abool"
"github.com/prysmaticlabs/prysm/shared/sliceutil"
"github.com/prysmaticlabs/prysm/shared/testutil"
"github.com/prysmaticlabs/prysm/shared/testutil/assert"
"github.com/prysmaticlabs/prysm/shared/testutil/require"
logTest "github.com/sirupsen/logrus/hooks/test"
)
func TestService_roundRobinSync(t *testing.T) {
tests := []struct {
name string
currentSlot types.Slot
availableBlockSlots []types.Slot
expectedBlockSlots []types.Slot
peers []*peerData
}{
{
name: "Single peer with no finalized blocks",
currentSlot: 2,
availableBlockSlots: makeSequence(1, 32),
expectedBlockSlots: makeSequence(1, 2),
peers: []*peerData{
{
blocks: makeSequence(1, 2),
finalizedEpoch: 0,
headSlot: 2,
},
},
},
{
name: "Multiple peers with no finalized blocks",
currentSlot: 2,
availableBlockSlots: makeSequence(1, 32),
expectedBlockSlots: makeSequence(1, 2),
peers: []*peerData{
{
blocks: makeSequence(1, 2),
finalizedEpoch: 0,
headSlot: 2,
},
{
blocks: makeSequence(1, 2),
finalizedEpoch: 0,
headSlot: 2,
},
{
blocks: makeSequence(1, 2),
finalizedEpoch: 0,
headSlot: 2,
},
},
},
{
name: "Single peer with all blocks",
currentSlot: 131,
availableBlockSlots: makeSequence(1, 192),
expectedBlockSlots: makeSequence(1, 131),
peers: []*peerData{
{
blocks: makeSequence(1, 192),
finalizedEpoch: 1,
headSlot: 131,
},
},
},
{
name: "Multiple peers with all blocks",
currentSlot: 131,
availableBlockSlots: makeSequence(1, 192),
expectedBlockSlots: makeSequence(1, 131),
peers: []*peerData{
{
blocks: makeSequence(1, 192),
finalizedEpoch: 1,
headSlot: 131,
},
{
blocks: makeSequence(1, 192),
finalizedEpoch: 1,
headSlot: 131,
},
{
blocks: makeSequence(1, 192),
finalizedEpoch: 1,
headSlot: 131,
},
{
blocks: makeSequence(1, 192),
finalizedEpoch: 1,
headSlot: 131,
},
},
},
{
name: "Multiple peers with failures",
currentSlot: 320, // 10 epochs
availableBlockSlots: makeSequence(1, 384),
expectedBlockSlots: makeSequence(1, 320),
peers: []*peerData{
{
blocks: makeSequence(1, 384),
finalizedEpoch: 8,
headSlot: 320,
},
{
blocks: makeSequence(1, 384),
finalizedEpoch: 8,
headSlot: 320,
failureSlots: makeSequence(1, 32), // first epoch
},
{
blocks: makeSequence(1, 384),
finalizedEpoch: 8,
headSlot: 320,
},
{
blocks: makeSequence(1, 384),
finalizedEpoch: 8,
headSlot: 320,
},
},
},
{
name: "Multiple peers with many skipped slots",
currentSlot: 1280,
availableBlockSlots: append(makeSequence(1, 64), makeSequence(1000, 1300)...),
expectedBlockSlots: append(makeSequence(1, 64), makeSequence(1000, 1280)...),
peers: []*peerData{
{
blocks: append(makeSequence(1, 64), makeSequence(1000, 1300)...),
finalizedEpoch: 36,
headSlot: 1280,
},
{
blocks: append(makeSequence(1, 64), makeSequence(1000, 1300)...),
finalizedEpoch: 36,
headSlot: 1280,
},
{
blocks: append(makeSequence(1, 64), makeSequence(1000, 1300)...),
finalizedEpoch: 36,
headSlot: 1280,
},
},
},
{
name: "Multiple peers with multiple failures",
currentSlot: 320, // 10 epochs
availableBlockSlots: makeSequence(1, 384),
expectedBlockSlots: makeSequence(1, 320),
peers: []*peerData{
{
blocks: makeSequence(1, 384),
finalizedEpoch: 9,
headSlot: 384,
},
{
blocks: makeSequence(1, 320),
finalizedEpoch: 9,
headSlot: 384,
failureSlots: makeSequence(1, 320),
},
{
blocks: makeSequence(1, 320),
finalizedEpoch: 9,
headSlot: 384,
failureSlots: makeSequence(1, 320),
},
{
blocks: makeSequence(1, 320),
finalizedEpoch: 9,
headSlot: 384,
failureSlots: makeSequence(1, 320),
},
},
},
{
name: "Multiple peers with different finalized epoch",
currentSlot: 320, // 10 epochs
availableBlockSlots: makeSequence(1, 384),
expectedBlockSlots: makeSequence(1, 320),
peers: []*peerData{
{
blocks: makeSequence(1, 384),
finalizedEpoch: 10,
headSlot: 384,
},
{
blocks: makeSequence(1, 384),
finalizedEpoch: 10,
headSlot: 384,
},
{
blocks: makeSequence(1, 256),
finalizedEpoch: 5,
headSlot: 256,
},
{
blocks: makeSequence(1, 192),
finalizedEpoch: 2,
headSlot: 192,
},
},
},
{
name: "Multiple peers with missing parent blocks",
currentSlot: 160, // 5 epochs
availableBlockSlots: makeSequence(1, 192),
expectedBlockSlots: makeSequence(1, 160),
peers: []*peerData{
{
blocks: makeSequence(1, 192),
finalizedEpoch: 4,
headSlot: 160,
},
{
blocks: append(makeSequence(1, 6), makeSequence(161, 165)...),
finalizedEpoch: 4,
headSlot: 160,
forkedPeer: true,
},
{
blocks: makeSequence(1, 192),
finalizedEpoch: 4,
headSlot: 160,
},
{
blocks: makeSequence(1, 192),
finalizedEpoch: 4,
headSlot: 160,
},
{
blocks: makeSequence(1, 192),
finalizedEpoch: 4,
headSlot: 160,
},
{
blocks: makeSequence(1, 192),
finalizedEpoch: 4,
headSlot: 160,
},
{
blocks: makeSequence(1, 192),
finalizedEpoch: 4,
headSlot: 160,
},
{
blocks: makeSequence(1, 192),
finalizedEpoch: 4,
headSlot: 160,
},
},
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
if tt.availableBlockSlots == nil {
tt.availableBlockSlots = tt.expectedBlockSlots
}
cache.initializeRootCache(tt.availableBlockSlots, t)
p := p2pt.NewTestP2P(t)
beaconDB := dbtest.SetupDB(t)
connectPeers(t, p, tt.peers, p.Peers())
cache.RLock()
genesisRoot := cache.rootCache[0]
cache.RUnlock()
err := beaconDB.SaveBlock(context.Background(), testutil.NewBeaconBlock())
require.NoError(t, err)
st, err := testutil.NewBeaconState()
require.NoError(t, err)
mc := &mock.ChainService{
State: st,
Root: genesisRoot[:],
DB: beaconDB,
FinalizedCheckPoint: &eth.Checkpoint{
Epoch: 0,
},
} // no-op mock
s := &Service{
ctx: context.Background(),
chain: mc,
p2p: p,
db: beaconDB,
synced: abool.New(),
chainStarted: abool.NewBool(true),
}
assert.NoError(t, s.roundRobinSync(makeGenesisTime(tt.currentSlot)))
if s.chain.HeadSlot() < tt.currentSlot {
t.Errorf("Head slot (%d) is less than expected currentSlot (%d)", s.chain.HeadSlot(), tt.currentSlot)
}
assert.Equal(t, true, len(tt.expectedBlockSlots) <= len(mc.BlocksReceived), "Processes wrong number of blocks")
var receivedBlockSlots []types.Slot
for _, blk := range mc.BlocksReceived {
receivedBlockSlots = append(receivedBlockSlots, blk.Block.Slot)
}
missing := sliceutil.NotSlot(sliceutil.IntersectionSlot(tt.expectedBlockSlots, receivedBlockSlots), tt.expectedBlockSlots)
if len(missing) > 0 {
t.Errorf("Missing blocks at slots %v", missing)
}
})
}
}
func TestService_processBlock(t *testing.T) {
beaconDB := dbtest.SetupDB(t)
genesisBlk := testutil.NewBeaconBlock()
genesisBlkRoot, err := genesisBlk.Block.HashTreeRoot()
require.NoError(t, err)
err = beaconDB.SaveBlock(context.Background(), genesisBlk)
require.NoError(t, err)
st, err := testutil.NewBeaconState()
require.NoError(t, err)
s := NewService(context.Background(), &Config{
P2P: p2pt.NewTestP2P(t),
DB: beaconDB,
Chain: &mock.ChainService{
State: st,
Root: genesisBlkRoot[:],
DB: beaconDB,
FinalizedCheckPoint: &eth.Checkpoint{
Epoch: 0,
},
},
StateNotifier: &mock.MockStateNotifier{},
})
ctx := context.Background()
genesis := makeGenesisTime(32)
t.Run("process duplicate block", func(t *testing.T) {
blk1 := testutil.NewBeaconBlock()
blk1.Block.Slot = 1
blk1.Block.ParentRoot = genesisBlkRoot[:]
blk1Root, err := blk1.Block.HashTreeRoot()
require.NoError(t, err)
blk2 := testutil.NewBeaconBlock()
blk2.Block.Slot = 2
blk2.Block.ParentRoot = blk1Root[:]
// Process block normally.
err = s.processBlock(ctx, genesis, blk1, func(
ctx context.Context, block *eth.SignedBeaconBlock, blockRoot [32]byte) error {
assert.NoError(t, s.chain.ReceiveBlock(ctx, block, blockRoot))
return nil
})
assert.NoError(t, err)
// Duplicate processing should trigger error.
err = s.processBlock(ctx, genesis, blk1, func(
ctx context.Context, block *eth.SignedBeaconBlock, blockRoot [32]byte) error {
return nil
})
assert.ErrorContains(t, errBlockAlreadyProcessed.Error(), err)
// Continue normal processing, should proceed w/o errors.
err = s.processBlock(ctx, genesis, blk2, func(
ctx context.Context, block *eth.SignedBeaconBlock, blockRoot [32]byte) error {
assert.NoError(t, s.chain.ReceiveBlock(ctx, block, blockRoot))
return nil
})
assert.NoError(t, err)
assert.Equal(t, types.Slot(2), s.chain.HeadSlot(), "Unexpected head slot")
})
}
func TestService_processBlockBatch(t *testing.T) {
beaconDB := dbtest.SetupDB(t)
genesisBlk := testutil.NewBeaconBlock()
genesisBlkRoot, err := genesisBlk.Block.HashTreeRoot()
require.NoError(t, err)
err = beaconDB.SaveBlock(context.Background(), genesisBlk)
require.NoError(t, err)
st, err := testutil.NewBeaconState()
require.NoError(t, err)
s := NewService(context.Background(), &Config{
P2P: p2pt.NewTestP2P(t),
DB: beaconDB,
Chain: &mock.ChainService{
State: st,
Root: genesisBlkRoot[:],
DB: beaconDB,
FinalizedCheckPoint: &eth.Checkpoint{
Epoch: 0,
},
},
StateNotifier: &mock.MockStateNotifier{},
})
ctx := context.Background()
genesis := makeGenesisTime(32)
t.Run("process non-linear batch", func(t *testing.T) {
var batch []*eth.SignedBeaconBlock
currBlockRoot := genesisBlkRoot
for i := types.Slot(1); i < 10; i++ {
parentRoot := currBlockRoot
blk1 := testutil.NewBeaconBlock()
blk1.Block.Slot = i
blk1.Block.ParentRoot = parentRoot[:]
blk1Root, err := blk1.Block.HashTreeRoot()
require.NoError(t, err)
err = beaconDB.SaveBlock(context.Background(), blk1)
require.NoError(t, err)
batch = append(batch, blk1)
currBlockRoot = blk1Root
}
var batch2 []*eth.SignedBeaconBlock
for i := types.Slot(10); i < 20; i++ {
parentRoot := currBlockRoot
blk1 := testutil.NewBeaconBlock()
blk1.Block.Slot = i
blk1.Block.ParentRoot = parentRoot[:]
blk1Root, err := blk1.Block.HashTreeRoot()
require.NoError(t, err)
err = beaconDB.SaveBlock(context.Background(), blk1)
require.NoError(t, err)
batch2 = append(batch2, blk1)
currBlockRoot = blk1Root
}
// Process block normally.
err = s.processBatchedBlocks(ctx, genesis, batch, func(
ctx context.Context, blks []*eth.SignedBeaconBlock, blockRoots [][32]byte) error {
assert.NoError(t, s.chain.ReceiveBlockBatch(ctx, blks, blockRoots))
return nil
})
assert.NoError(t, err)
// Duplicate processing should trigger error.
err = s.processBatchedBlocks(ctx, genesis, batch, func(
ctx context.Context, blocks []*eth.SignedBeaconBlock, blockRoots [][32]byte) error {
return nil
})
assert.ErrorContains(t, "no good blocks in batch", err)
var badBatch2 []*eth.SignedBeaconBlock
for i, b := range batch2 {
// create a non-linear batch
if i%3 == 0 && i != 0 {
continue
}
badBatch2 = append(badBatch2, b)
}
// Bad batch should fail because it is non linear
err = s.processBatchedBlocks(ctx, genesis, badBatch2, func(
ctx context.Context, blks []*eth.SignedBeaconBlock, blockRoots [][32]byte) error {
return nil
})
expectedSubErr := "expected linear block list"
assert.ErrorContains(t, expectedSubErr, err)
// Continue normal processing, should proceed w/o errors.
err = s.processBatchedBlocks(ctx, genesis, batch2, func(
ctx context.Context, blks []*eth.SignedBeaconBlock, blockRoots [][32]byte) error {
assert.NoError(t, s.chain.ReceiveBlockBatch(ctx, blks, blockRoots))
return nil
})
assert.NoError(t, err)
assert.Equal(t, types.Slot(19), s.chain.HeadSlot(), "Unexpected head slot")
})
}
func TestService_blockProviderScoring(t *testing.T) {
cache.initializeRootCache(makeSequence(1, 640), t)
p := p2pt.NewTestP2P(t)
beaconDB := dbtest.SetupDB(t)
peerData := []*peerData{
{
// The slowest peer, only a single block in couple of epochs.
blocks: []types.Slot{1, 65, 129},
finalizedEpoch: 5,
headSlot: 160,
},
{
// A relatively slow peer, still should perform better than the slowest peer.
blocks: append([]types.Slot{1, 2, 3, 4, 65, 66, 67, 68, 129, 130}, makeSequence(131, 160)...),
finalizedEpoch: 5,
headSlot: 160,
},
{
// This peer has all blocks - should be a preferred one.
blocks: makeSequence(1, 320),
finalizedEpoch: 5,
headSlot: 160,
},
}
peer1 := connectPeer(t, p, peerData[0], p.Peers())
peer2 := connectPeer(t, p, peerData[1], p.Peers())
peer3 := connectPeer(t, p, peerData[2], p.Peers())
cache.RLock()
genesisRoot := cache.rootCache[0]
cache.RUnlock()
err := beaconDB.SaveBlock(context.Background(), testutil.NewBeaconBlock())
require.NoError(t, err)
st, err := testutil.NewBeaconState()
require.NoError(t, err)
require.NoError(t, err)
mc := &mock.ChainService{
State: st,
Root: genesisRoot[:],
DB: beaconDB,
FinalizedCheckPoint: &eth.Checkpoint{
Epoch: 0,
Root: make([]byte, 32),
},
} // no-op mock
s := &Service{
ctx: context.Background(),
chain: mc,
p2p: p,
db: beaconDB,
synced: abool.New(),
chainStarted: abool.NewBool(true),
}
scorer := s.p2p.Peers().Scorers().BlockProviderScorer()
expectedBlockSlots := makeSequence(1, 160)
currentSlot := types.Slot(160)
assert.Equal(t, scorer.MaxScore(), scorer.Score(peer1))
assert.Equal(t, scorer.MaxScore(), scorer.Score(peer2))
assert.Equal(t, scorer.MaxScore(), scorer.Score(peer3))
assert.NoError(t, s.roundRobinSync(makeGenesisTime(currentSlot)))
if s.chain.HeadSlot() < currentSlot {
t.Errorf("Head slot (%d) is less than expected currentSlot (%d)", s.chain.HeadSlot(), currentSlot)
}
assert.Equal(t, true, len(expectedBlockSlots) <= len(mc.BlocksReceived), "Processes wrong number of blocks")
var receivedBlockSlots []types.Slot
for _, blk := range mc.BlocksReceived {
receivedBlockSlots = append(receivedBlockSlots, blk.Block.Slot)
}
missing := sliceutil.NotSlot(sliceutil.IntersectionSlot(expectedBlockSlots, receivedBlockSlots), expectedBlockSlots)
if len(missing) > 0 {
t.Errorf("Missing blocks at slots %v", missing)
}
// Increment all peers' stats, so that nobody is boosted (as new, not yet used peer).
scorer.IncrementProcessedBlocks(peer1, 1)
scorer.IncrementProcessedBlocks(peer2, 1)
scorer.IncrementProcessedBlocks(peer3, 1)
score1 := scorer.Score(peer1)
score2 := scorer.Score(peer2)
score3 := scorer.Score(peer3)
assert.Equal(t, true, score1 < score3, "Incorrect score (%v) for peer: %v (must be lower than %v)", score1, peer1, score3)
assert.Equal(t, true, score2 < score3, "Incorrect score (%v) for peer: %v (must be lower than %v)", score2, peer2, score3)
assert.Equal(t, true, scorer.ProcessedBlocks(peer3) > 100, "Not enough blocks returned by healthy peer: %d", scorer.ProcessedBlocks(peer3))
}
func TestService_syncToFinalizedEpoch(t *testing.T) {
cache.initializeRootCache(makeSequence(1, 640), t)
p := p2pt.NewTestP2P(t)
beaconDB := dbtest.SetupDB(t)
cache.RLock()
genesisRoot := cache.rootCache[0]
cache.RUnlock()
err := beaconDB.SaveBlock(context.Background(), testutil.NewBeaconBlock())
require.NoError(t, err)
st, err := testutil.NewBeaconState()
require.NoError(t, err)
mc := &mock.ChainService{
State: st,
Root: genesisRoot[:],
DB: beaconDB,
FinalizedCheckPoint: &eth.Checkpoint{
Epoch: 0,
Root: make([]byte, 32),
},
}
s := &Service{
ctx: context.Background(),
chain: mc,
p2p: p,
db: beaconDB,
synced: abool.New(),
chainStarted: abool.NewBool(true),
counter: ratecounter.NewRateCounter(counterSeconds * time.Second),
}
expectedBlockSlots := makeSequence(1, 191)
currentSlot := types.Slot(191)
// Sync to finalized epoch.
hook := logTest.NewGlobal()
connectPeer(t, p, &peerData{
blocks: makeSequence(1, 240),
finalizedEpoch: 5,
headSlot: 195,
}, p.Peers())
genesis := makeGenesisTime(currentSlot)
assert.NoError(t, s.syncToFinalizedEpoch(context.Background(), genesis))
if s.chain.HeadSlot() < currentSlot {
t.Errorf("Head slot (%d) is less than expected currentSlot (%d)", s.chain.HeadSlot(), currentSlot)
}
assert.Equal(t, true, len(expectedBlockSlots) <= len(mc.BlocksReceived), "Processes wrong number of blocks")
var receivedBlockSlots []types.Slot
for _, blk := range mc.BlocksReceived {
receivedBlockSlots = append(receivedBlockSlots, blk.Block.Slot)
}
missing := sliceutil.NotSlot(sliceutil.IntersectionSlot(expectedBlockSlots, receivedBlockSlots), expectedBlockSlots)
if len(missing) > 0 {
t.Errorf("Missing blocks at slots %v", missing)
}
assert.LogsDoNotContain(t, hook, "Already synced to finalized epoch")
// Try to re-sync, should be exited immediately (node is already synced to finalized epoch).
hook.Reset()
assert.NoError(t, s.syncToFinalizedEpoch(context.Background(), genesis))
assert.LogsContain(t, hook, "Already synced to finalized epoch")
}