package state import ( "reflect" "runtime" "runtime/debug" "testing" ethpb "github.com/prysmaticlabs/ethereumapis/eth/v1alpha1" "github.com/prysmaticlabs/go-bitfield" p2ppb "github.com/prysmaticlabs/prysm/proto/beacon/p2p/v1" "github.com/prysmaticlabs/prysm/shared/bytesutil" "github.com/prysmaticlabs/prysm/shared/testutil/assert" "github.com/prysmaticlabs/prysm/shared/testutil/require" ) func TestStateReferenceSharing_Finalizer(t *testing.T) { // This test showcases the logic on a the RandaoMixes field with the GC finalizer. a, err := InitializeFromProtoUnsafe(&p2ppb.BeaconState{RandaoMixes: [][]byte{[]byte("foo")}}) require.NoError(t, err) assert.Equal(t, uint(1), a.sharedFieldReferences[randaoMixes].refs, "Expected a single reference for RANDAO mixes") func() { // Create object in a different scope for GC b := a.Copy() assert.Equal(t, uint(2), a.sharedFieldReferences[randaoMixes].refs, "Expected 2 references to RANDAO mixes") _ = b }() runtime.GC() // Should run finalizer on object b assert.Equal(t, uint(1), a.sharedFieldReferences[randaoMixes].refs, "Expected 1 shared reference to RANDAO mixes!") b := a.Copy() assert.Equal(t, uint(2), b.sharedFieldReferences[randaoMixes].refs, "Expected 2 shared references to RANDAO mixes") require.NoError(t, b.UpdateRandaoMixesAtIndex(0, []byte("bar"))) if b.sharedFieldReferences[randaoMixes].refs != 1 || a.sharedFieldReferences[randaoMixes].refs != 1 { t.Error("Expected 1 shared reference to RANDAO mix for both a and b") } } func TestStateReferenceCopy_NoUnexpectedRootsMutation(t *testing.T) { root1, root2 := bytesutil.ToBytes32([]byte("foo")), bytesutil.ToBytes32([]byte("bar")) a, err := InitializeFromProtoUnsafe(&p2ppb.BeaconState{ BlockRoots: [][]byte{ root1[:], }, StateRoots: [][]byte{ root1[:], }, }) require.NoError(t, err) assertRefCount(t, a, blockRoots, 1) assertRefCount(t, a, stateRoots, 1) // Copy, increases reference count. b := a.Copy() assertRefCount(t, a, blockRoots, 2) assertRefCount(t, a, stateRoots, 2) assertRefCount(t, b, blockRoots, 2) assertRefCount(t, b, stateRoots, 2) assert.Equal(t, 1, len(b.state.GetBlockRoots()), "No block roots found") assert.Equal(t, 1, len(b.state.GetStateRoots()), "No state roots found") // Assert shared state. blockRootsA := a.state.GetBlockRoots() stateRootsA := a.state.GetStateRoots() blockRootsB := b.state.GetBlockRoots() stateRootsB := b.state.GetStateRoots() if len(blockRootsA) != len(blockRootsB) || len(blockRootsA) < 1 { t.Errorf("Unexpected number of block roots, want: %v", 1) } if len(stateRootsA) != len(stateRootsB) || len(stateRootsA) < 1 { t.Errorf("Unexpected number of state roots, want: %v", 1) } assertValFound(t, blockRootsA, root1[:]) assertValFound(t, blockRootsB, root1[:]) assertValFound(t, stateRootsA, root1[:]) assertValFound(t, stateRootsB, root1[:]) // Mutator should only affect calling state: a. require.NoError(t, a.UpdateBlockRootAtIndex(0, root2)) require.NoError(t, a.UpdateStateRootAtIndex(0, root2)) // Assert no shared state mutation occurred only on state a (copy on write). assertValNotFound(t, a.state.GetBlockRoots(), root1[:]) assertValNotFound(t, a.state.GetStateRoots(), root1[:]) assertValFound(t, a.state.GetBlockRoots(), root2[:]) assertValFound(t, a.state.GetStateRoots(), root2[:]) assertValFound(t, b.state.GetBlockRoots(), root1[:]) assertValFound(t, b.state.GetStateRoots(), root1[:]) if len(blockRootsA) != len(blockRootsB) || len(blockRootsA) < 1 { t.Errorf("Unexpected number of block roots, want: %v", 1) } if len(stateRootsA) != len(stateRootsB) || len(stateRootsA) < 1 { t.Errorf("Unexpected number of state roots, want: %v", 1) } assert.DeepEqual(t, root2[:], a.state.GetBlockRoots()[0], "Expected mutation not found") assert.DeepEqual(t, root2[:], a.state.GetStateRoots()[0], "Expected mutation not found") assert.DeepEqual(t, root1[:], blockRootsB[0], "Unexpected mutation found") assert.DeepEqual(t, root1[:], stateRootsB[0], "Unexpected mutation found") // Copy on write happened, reference counters are reset. assertRefCount(t, a, blockRoots, 1) assertRefCount(t, a, stateRoots, 1) assertRefCount(t, b, blockRoots, 1) assertRefCount(t, b, stateRoots, 1) } func TestStateReferenceCopy_NoUnexpectedRandaoMutation(t *testing.T) { val1, val2 := []byte("foo"), []byte("bar") a, err := InitializeFromProtoUnsafe(&p2ppb.BeaconState{ RandaoMixes: [][]byte{ val1, }, }) require.NoError(t, err) assertRefCount(t, a, randaoMixes, 1) // Copy, increases reference count. b := a.Copy() assertRefCount(t, a, randaoMixes, 2) assertRefCount(t, b, randaoMixes, 2) assert.Equal(t, 1, len(b.state.GetRandaoMixes()), "No randao mixes found") // Assert shared state. mixesA := a.state.GetRandaoMixes() mixesB := b.state.GetRandaoMixes() if len(mixesA) != len(mixesB) || len(mixesA) < 1 { t.Errorf("Unexpected number of mix values, want: %v", 1) } assertValFound(t, mixesA, val1) assertValFound(t, mixesB, val1) // Mutator should only affect calling state: a. require.NoError(t, a.UpdateRandaoMixesAtIndex(0, val2)) // Assert no shared state mutation occurred only on state a (copy on write). if len(mixesA) != len(mixesB) || len(mixesA) < 1 { t.Errorf("Unexpected number of mix values, want: %v", 1) } assertValFound(t, a.state.GetRandaoMixes(), val2) assertValNotFound(t, a.state.GetRandaoMixes(), val1) assertValFound(t, b.state.GetRandaoMixes(), val1) assertValNotFound(t, b.state.GetRandaoMixes(), val2) assertValFound(t, mixesB, val1) assertValNotFound(t, mixesB, val2) assert.DeepEqual(t, val2, a.state.GetRandaoMixes()[0], "Expected mutation not found") assert.DeepEqual(t, val1, mixesB[0], "Unexpected mutation found") // Copy on write happened, reference counters are reset. assertRefCount(t, a, randaoMixes, 1) assertRefCount(t, b, randaoMixes, 1) } func TestStateReferenceCopy_NoUnexpectedAttestationsMutation(t *testing.T) { assertAttFound := func(vals []*p2ppb.PendingAttestation, val uint64) { for i := range vals { if reflect.DeepEqual(vals[i].AggregationBits, bitfield.NewBitlist(val)) { return } } t.Log(string(debug.Stack())) t.Fatalf("Expected attestation not found (%v), want: %v", vals, val) } assertAttNotFound := func(vals []*p2ppb.PendingAttestation, val uint64) { for i := range vals { if reflect.DeepEqual(vals[i].AggregationBits, bitfield.NewBitlist(val)) { t.Log(string(debug.Stack())) t.Fatalf("Unexpected attestation found (%v): %v", vals, val) return } } } a, err := InitializeFromProtoUnsafe(&p2ppb.BeaconState{}) require.NoError(t, err) assertRefCount(t, a, previousEpochAttestations, 1) assertRefCount(t, a, currentEpochAttestations, 1) // Update initial state. atts := []*p2ppb.PendingAttestation{ {AggregationBits: bitfield.NewBitlist(1)}, {AggregationBits: bitfield.NewBitlist(2)}, } require.NoError(t, a.SetPreviousEpochAttestations(atts[:1])) require.NoError(t, a.SetCurrentEpochAttestations(atts[:1])) assert.Equal(t, 1, len(a.CurrentEpochAttestations()), "Unexpected number of attestations") assert.Equal(t, 1, len(a.PreviousEpochAttestations()), "Unexpected number of attestations") // Copy, increases reference count. b := a.Copy() assertRefCount(t, a, previousEpochAttestations, 2) assertRefCount(t, a, currentEpochAttestations, 2) assertRefCount(t, b, previousEpochAttestations, 2) assertRefCount(t, b, currentEpochAttestations, 2) assert.Equal(t, 1, len(b.state.GetPreviousEpochAttestations()), "Unexpected number of attestations") assert.Equal(t, 1, len(b.state.GetCurrentEpochAttestations()), "Unexpected number of attestations") // Assert shared state. curAttsA := a.state.GetCurrentEpochAttestations() prevAttsA := a.state.GetPreviousEpochAttestations() curAttsB := b.state.GetCurrentEpochAttestations() prevAttsB := b.state.GetPreviousEpochAttestations() if len(curAttsA) != len(curAttsB) || len(curAttsA) < 1 { t.Errorf("Unexpected number of attestations, want: %v", 1) } if len(prevAttsA) != len(prevAttsB) || len(prevAttsA) < 1 { t.Errorf("Unexpected number of attestations, want: %v", 1) } assertAttFound(curAttsA, 1) assertAttFound(prevAttsA, 1) assertAttFound(curAttsB, 1) assertAttFound(prevAttsB, 1) // Extends state a attestations. require.NoError(t, a.AppendCurrentEpochAttestations(atts[1])) require.NoError(t, a.AppendPreviousEpochAttestations(atts[1])) assert.Equal(t, 2, len(a.CurrentEpochAttestations()), "Unexpected number of attestations") assert.Equal(t, 2, len(a.PreviousEpochAttestations()), "Unexpected number of attestations") assertAttFound(a.state.GetCurrentEpochAttestations(), 1) assertAttFound(a.state.GetPreviousEpochAttestations(), 1) assertAttFound(a.state.GetCurrentEpochAttestations(), 2) assertAttFound(a.state.GetPreviousEpochAttestations(), 2) assertAttFound(b.state.GetCurrentEpochAttestations(), 1) assertAttFound(b.state.GetPreviousEpochAttestations(), 1) assertAttNotFound(b.state.GetCurrentEpochAttestations(), 2) assertAttNotFound(b.state.GetPreviousEpochAttestations(), 2) // Mutator should only affect calling state: a. applyToEveryAttestation := func(state *p2ppb.BeaconState) { // One MUST copy on write. atts = make([]*p2ppb.PendingAttestation, len(state.CurrentEpochAttestations)) copy(atts, state.CurrentEpochAttestations) state.CurrentEpochAttestations = atts for i := range state.GetCurrentEpochAttestations() { att := CopyPendingAttestation(state.CurrentEpochAttestations[i]) att.AggregationBits = bitfield.NewBitlist(3) state.CurrentEpochAttestations[i] = att } atts = make([]*p2ppb.PendingAttestation, len(state.PreviousEpochAttestations)) copy(atts, state.PreviousEpochAttestations) state.PreviousEpochAttestations = atts for i := range state.GetPreviousEpochAttestations() { att := CopyPendingAttestation(state.PreviousEpochAttestations[i]) att.AggregationBits = bitfield.NewBitlist(3) state.PreviousEpochAttestations[i] = att } } applyToEveryAttestation(a.state) // Assert no shared state mutation occurred only on state a (copy on write). assertAttFound(a.state.GetCurrentEpochAttestations(), 3) assertAttFound(a.state.GetPreviousEpochAttestations(), 3) assertAttNotFound(a.state.GetCurrentEpochAttestations(), 1) assertAttNotFound(a.state.GetPreviousEpochAttestations(), 1) assertAttNotFound(a.state.GetCurrentEpochAttestations(), 2) assertAttNotFound(a.state.GetPreviousEpochAttestations(), 2) // State b must be unaffected. assertAttNotFound(b.state.GetCurrentEpochAttestations(), 3) assertAttNotFound(b.state.GetPreviousEpochAttestations(), 3) assertAttFound(b.state.GetCurrentEpochAttestations(), 1) assertAttFound(b.state.GetPreviousEpochAttestations(), 1) assertAttNotFound(b.state.GetCurrentEpochAttestations(), 2) assertAttNotFound(b.state.GetPreviousEpochAttestations(), 2) // Copy on write happened, reference counters are reset. assertRefCount(t, a, currentEpochAttestations, 1) assertRefCount(t, b, currentEpochAttestations, 1) assertRefCount(t, a, previousEpochAttestations, 1) assertRefCount(t, b, previousEpochAttestations, 1) } func TestValidatorReferences_RemainsConsistent(t *testing.T) { a, err := InitializeFromProtoUnsafe(&p2ppb.BeaconState{ Validators: []*ethpb.Validator{ {PublicKey: []byte{'A'}}, {PublicKey: []byte{'B'}}, {PublicKey: []byte{'C'}}, {PublicKey: []byte{'D'}}, {PublicKey: []byte{'E'}}, }, }) require.NoError(t, err) // Create a second state. b := a.Copy() // Update First Validator. assert.NoError(t, a.UpdateValidatorAtIndex(0, ðpb.Validator{PublicKey: []byte{'Z'}})) assert.DeepNotEqual(t, a.state.Validators[0], b.state.Validators[0], "validators are equal when they are supposed to be different") // Modify all validators from copied state. assert.NoError(t, b.ApplyToEveryValidator(func(idx int, val *ethpb.Validator) (bool, *ethpb.Validator, error) { return true, ðpb.Validator{PublicKey: []byte{'V'}}, nil })) // Ensure reference is properly accounted for. assert.NoError(t, a.ReadFromEveryValidator(func(idx int, val ReadOnlyValidator) error { assert.NotEqual(t, bytesutil.ToBytes48([]byte{'V'}), val.PublicKey()) return nil })) } // assertRefCount checks whether reference count for a given state // at a given index is equal to expected amount. func assertRefCount(t *testing.T, b *BeaconState, idx fieldIndex, want uint) { if cnt := b.sharedFieldReferences[idx].refs; cnt != want { t.Errorf("Unexpected count of references for index %d, want: %v, got: %v", idx, want, cnt) } } // assertValFound checks whether item with a given value exists in list. func assertValFound(t *testing.T, vals [][]byte, val []byte) { for i := range vals { if reflect.DeepEqual(vals[i], val) { return } } t.Log(string(debug.Stack())) t.Fatalf("Expected value not found (%v), want: %v", vals, val) } // assertValNotFound checks whether item with a given value doesn't exist in list. func assertValNotFound(t *testing.T, vals [][]byte, val []byte) { for i := range vals { if reflect.DeepEqual(vals[i], val) { t.Log(string(debug.Stack())) t.Errorf("Unexpected value found (%v),: %v", vals, val) return } } }