package netmap import ( "errors" "fmt" "testing" "github.com/nspcc-dev/neofs-api-go/v2/netmap" "github.com/stretchr/testify/require" ) func TestPlacementPolicy_UnspecifiedClause(t *testing.T) { p := newPlacementPolicy(1, []*Replica{newReplica(1, "X")}, []*Selector{ newSelector("X", "", ClauseDistinct, 4, "*"), }, nil, ) nodes := []NodeInfo{ nodeInfoFromAttributes("ID", "1", "Country", "RU", "City", "St.Petersburg", "SSD", "0"), nodeInfoFromAttributes("ID", "2", "Country", "RU", "City", "St.Petersburg", "SSD", "1"), nodeInfoFromAttributes("ID", "3", "Country", "RU", "City", "Moscow", "SSD", "1"), nodeInfoFromAttributes("ID", "4", "Country", "RU", "City", "Moscow", "SSD", "1"), } nm, err := NewNetmap(NodesFromInfo(nodes)) require.NoError(t, err) v, err := nm.GetContainerNodes(p, nil) require.NoError(t, err) require.Equal(t, 4, len(v.Flatten())) } func TestPlacementPolicy_GetPlacementVectors(t *testing.T) { p := newPlacementPolicy(2, []*Replica{ newReplica(1, "SPB"), newReplica(2, "Americas"), }, []*Selector{ newSelector("SPB", "City", ClauseSame, 1, "SPBSSD"), newSelector("Americas", "City", ClauseDistinct, 2, "Americas"), }, []*Filter{ newFilter("SPBSSD", "", "", OpAND, newFilter("", "Country", "RU", OpEQ), newFilter("", "City", "St.Petersburg", OpEQ), newFilter("", "SSD", "1", OpEQ)), newFilter("Americas", "", "", OpOR, newFilter("", "Continent", "NA", OpEQ), newFilter("", "Continent", "SA", OpEQ)), }) nodes := []NodeInfo{ nodeInfoFromAttributes("ID", "1", "Country", "RU", "City", "St.Petersburg", "SSD", "0"), nodeInfoFromAttributes("ID", "2", "Country", "RU", "City", "St.Petersburg", "SSD", "1"), nodeInfoFromAttributes("ID", "3", "Country", "RU", "City", "Moscow", "SSD", "1"), nodeInfoFromAttributes("ID", "4", "Country", "RU", "City", "Moscow", "SSD", "1"), nodeInfoFromAttributes("ID", "5", "Country", "RU", "City", "St.Petersburg", "SSD", "1"), nodeInfoFromAttributes("ID", "6", "Continent", "NA", "City", "NewYork"), nodeInfoFromAttributes("ID", "7", "Continent", "AF", "City", "Cairo"), nodeInfoFromAttributes("ID", "8", "Continent", "AF", "City", "Cairo"), nodeInfoFromAttributes("ID", "9", "Continent", "SA", "City", "Lima"), nodeInfoFromAttributes("ID", "10", "Continent", "AF", "City", "Cairo"), nodeInfoFromAttributes("ID", "11", "Continent", "NA", "City", "NewYork"), nodeInfoFromAttributes("ID", "12", "Continent", "NA", "City", "LosAngeles"), nodeInfoFromAttributes("ID", "13", "Continent", "SA", "City", "Lima"), } nm, err := NewNetmap(NodesFromInfo(nodes)) require.NoError(t, err) v, err := nm.GetContainerNodes(p, nil) require.NoError(t, err) require.Equal(t, 2, len(v.Replicas())) require.Equal(t, 6, len(v.Flatten())) require.Equal(t, 2, len(v.Replicas()[0])) ids := map[string]struct{}{} for _, ni := range v.Replicas()[0] { require.Equal(t, "RU", ni.Attribute("Country")) require.Equal(t, "St.Petersburg", ni.Attribute("City")) require.Equal(t, "1", ni.Attribute("SSD")) ids[ni.Attribute("ID")] = struct{}{} } require.Equal(t, len(v.Replicas()[0]), len(ids), "not all nodes we distinct") require.Equal(t, 4, len(v.Replicas()[1])) // 2 cities * 2 HRWB ids = map[string]struct{}{} for _, ni := range v.Replicas()[1] { require.Contains(t, []string{"NA", "SA"}, ni.Attribute("Continent")) ids[ni.Attribute("ID")] = struct{}{} } require.Equal(t, len(v.Replicas()[1]), len(ids), "not all nodes we distinct") } func TestPlacementPolicy_LowerBound(t *testing.T) { p := newPlacementPolicy( 2, // backup factor []*Replica{ newReplica(1, "X"), }, []*Selector{ newSelector("X", "Country", ClauseSame, 2, "*"), }, nil, // filters ) nodes := []NodeInfo{ nodeInfoFromAttributes("ID", "1", "Country", "DE"), nodeInfoFromAttributes("ID", "2", "Country", "DE"), nodeInfoFromAttributes("ID", "3", "Country", "DE"), } nm, err := NewNetmap(NodesFromInfo(nodes)) require.NoError(t, err) v, err := nm.GetContainerNodes(p, nil) require.NoError(t, err) require.Equal(t, 3, len(v.Flatten())) } func TestIssue213(t *testing.T) { p := newPlacementPolicy(1, []*Replica{ newReplica(4, ""), }, []*Selector{ newSelector("", "", ClauseDistinct, 4, "LOC_EU"), }, []*Filter{ newFilter("LOC_EU", "Location", "Europe", OpEQ), }) nodes := []NodeInfo{ nodeInfoFromAttributes("Location", "Europe", "Country", "Russia", "City", "Moscow"), nodeInfoFromAttributes("Location", "Europe", "Country", "Russia", "City", "Saint-Petersburg"), nodeInfoFromAttributes("Location", "Europe", "Country", "Sweden", "City", "Stockholm"), nodeInfoFromAttributes("Location", "Europe", "Country", "Finalnd", "City", "Helsinki"), } nm, err := NewNetmap(NodesFromInfo(nodes)) require.NoError(t, err) v, err := nm.GetContainerNodes(p, nil) require.NoError(t, err) require.Equal(t, 4, len(v.Flatten())) } func TestPlacementPolicy_ProcessSelectors(t *testing.T) { p := newPlacementPolicy(2, nil, []*Selector{ newSelector("SameRU", "City", ClauseSame, 2, "FromRU"), newSelector("DistinctRU", "City", ClauseDistinct, 2, "FromRU"), newSelector("Good", "Country", ClauseDistinct, 2, "Good"), newSelector("Main", "Country", ClauseDistinct, 3, "*"), }, []*Filter{ newFilter("FromRU", "Country", "Russia", OpEQ), newFilter("Good", "Rating", "4", OpGE), }) nodes := []NodeInfo{ nodeInfoFromAttributes("Country", "Russia", "Rating", "1", "City", "SPB"), nodeInfoFromAttributes("Country", "Germany", "Rating", "5", "City", "Berlin"), nodeInfoFromAttributes("Country", "Russia", "Rating", "6", "City", "Moscow"), nodeInfoFromAttributes("Country", "France", "Rating", "4", "City", "Paris"), nodeInfoFromAttributes("Country", "France", "Rating", "1", "City", "Lyon"), nodeInfoFromAttributes("Country", "Russia", "Rating", "5", "City", "SPB"), nodeInfoFromAttributes("Country", "Russia", "Rating", "7", "City", "Moscow"), nodeInfoFromAttributes("Country", "Germany", "Rating", "3", "City", "Darmstadt"), nodeInfoFromAttributes("Country", "Germany", "Rating", "7", "City", "Frankfurt"), nodeInfoFromAttributes("Country", "Russia", "Rating", "9", "City", "SPB"), nodeInfoFromAttributes("Country", "Russia", "Rating", "9", "City", "SPB"), } nm, err := NewNetmap(NodesFromInfo(nodes)) require.NoError(t, err) c := NewContext(nm) require.NoError(t, c.processFilters(p)) require.NoError(t, c.processSelectors(p)) for _, s := range p.Selectors() { sel := c.Selections[s.Name()] s := c.Selectors[s.Name()] bucketCount, nodesInBucket := GetNodesCount(p, s) nodesInBucket *= int(p.ContainerBackupFactor()) targ := fmt.Sprintf("selector '%s'", s.Name()) require.Equal(t, bucketCount, len(sel), targ) for _, res := range sel { require.Equal(t, nodesInBucket, len(res), targ) for j := range res { require.True(t, c.applyFilter(s.Filter(), res[j]), targ) } } } } func TestPlacementPolicy_ProcessSelectorsHRW(t *testing.T) { p := newPlacementPolicy(1, nil, []*Selector{ newSelector("Main", "Country", ClauseDistinct, 3, "*"), }, nil) // bucket weight order: RU > DE > FR nodes := []NodeInfo{ nodeInfoFromAttributes("Country", "Germany", PriceAttr, "2", CapacityAttr, "10000"), nodeInfoFromAttributes("Country", "Germany", PriceAttr, "4", CapacityAttr, "1"), nodeInfoFromAttributes("Country", "France", PriceAttr, "3", CapacityAttr, "10"), nodeInfoFromAttributes("Country", "Russia", PriceAttr, "2", CapacityAttr, "10000"), nodeInfoFromAttributes("Country", "Russia", PriceAttr, "1", CapacityAttr, "10000"), nodeInfoFromAttributes("Country", "Russia", CapacityAttr, "10000"), nodeInfoFromAttributes("Country", "France", PriceAttr, "100", CapacityAttr, "1"), nodeInfoFromAttributes("Country", "France", PriceAttr, "7", CapacityAttr, "10000"), nodeInfoFromAttributes("Country", "Russia", PriceAttr, "2", CapacityAttr, "1"), } nm, err := NewNetmap(NodesFromInfo(nodes)) require.NoError(t, err) c := NewContext(nm) c.setPivot([]byte("containerID")) c.weightFunc = newWeightFunc(newMaxNorm(10000), newReverseMinNorm(1)) c.aggregator = func() aggregator { return new(maxAgg) } require.NoError(t, c.processFilters(p)) require.NoError(t, c.processSelectors(p)) cnt := c.Selections["Main"] expected := []Nodes{ {{Index: 4, Capacity: 10000, Price: 1}}, // best RU {{Index: 0, Capacity: 10000, Price: 2}}, // best DE {{Index: 7, Capacity: 10000, Price: 7}}, // best FR } require.Equal(t, len(expected), len(cnt)) for i := range expected { require.Equal(t, len(expected[i]), len(cnt[i])) require.Equal(t, expected[i][0].Index, cnt[i][0].Index) require.Equal(t, expected[i][0].Capacity, cnt[i][0].Capacity) require.Equal(t, expected[i][0].Price, cnt[i][0].Price) } res, err := nm.GetPlacementVectors(containerNodes(cnt), []byte("objectID")) require.NoError(t, err) require.Equal(t, res, cnt) } func newMaxNorm(max float64) normalizer { return &maxNorm{max: max} } func TestPlacementPolicy_ProcessSelectorsInvalid(t *testing.T) { testCases := []struct { name string p *PlacementPolicy err error }{ { "MissingSelector", newPlacementPolicy(2, nil, []*Selector{nil}, []*Filter{}), ErrMissingField, }, { "InvalidFilterReference", newPlacementPolicy(1, nil, []*Selector{newSelector("MyStore", "Country", ClauseDistinct, 1, "FromNL")}, []*Filter{newFilter("FromRU", "Country", "Russia", OpEQ)}), ErrFilterNotFound, }, { "NotEnoughNodes (backup factor)", newPlacementPolicy(2, nil, []*Selector{newSelector("MyStore", "Country", ClauseDistinct, 2, "FromRU")}, []*Filter{newFilter("FromRU", "Country", "Russia", OpEQ)}), ErrNotEnoughNodes, }, { "NotEnoughNodes (buckets)", newPlacementPolicy(1, nil, []*Selector{newSelector("MyStore", "Country", ClauseDistinct, 2, "FromRU")}, []*Filter{newFilter("FromRU", "Country", "Russia", OpEQ)}), ErrNotEnoughNodes, }, } nodes := []NodeInfo{ nodeInfoFromAttributes("Country", "Russia"), nodeInfoFromAttributes("Country", "Germany"), nodeInfoFromAttributes(), } for _, tc := range testCases { t.Run(tc.name, func(t *testing.T) { nm, err := NewNetmap(NodesFromInfo(nodes)) require.NoError(t, err) c := NewContext(nm) require.NoError(t, c.processFilters(tc.p)) err = c.processSelectors(tc.p) require.True(t, errors.Is(err, tc.err), "got: %v", err) }) } } func testSelector() *Selector { s := new(Selector) s.SetName("name") s.SetCount(3) s.SetFilter("filter") s.SetAttribute("attribute") s.SetClause(ClauseDistinct) return s } func TestSelectorFromV2(t *testing.T) { sV2 := new(netmap.Selector) sV2.SetName("name") sV2.SetCount(3) sV2.SetClause(netmap.Distinct) sV2.SetAttribute("attribute") sV2.SetFilter("filter") s := NewSelectorFromV2(sV2) require.Equal(t, sV2, s.ToV2()) } func TestSelector_Name(t *testing.T) { s := NewSelector() name := "some name" s.SetName(name) require.Equal(t, name, s.Name()) } func TestSelector_Count(t *testing.T) { s := NewSelector() c := uint32(3) s.SetCount(c) require.Equal(t, c, s.Count()) } func TestSelector_Clause(t *testing.T) { s := NewSelector() c := ClauseSame s.SetClause(c) require.Equal(t, c, s.Clause()) } func TestSelector_Attribute(t *testing.T) { s := NewSelector() a := "some attribute" s.SetAttribute(a) require.Equal(t, a, s.Attribute()) } func TestSelector_Filter(t *testing.T) { s := NewSelector() f := "some filter" s.SetFilter(f) require.Equal(t, f, s.Filter()) } func TestSelectorEncoding(t *testing.T) { s := newSelector("name", "atte", ClauseSame, 1, "filter") t.Run("binary", func(t *testing.T) { data, err := s.Marshal() require.NoError(t, err) s2 := NewSelector() require.NoError(t, s2.Unmarshal(data)) require.Equal(t, s, s2) }) t.Run("json", func(t *testing.T) { data, err := s.MarshalJSON() require.NoError(t, err) s2 := NewSelector() require.NoError(t, s2.UnmarshalJSON(data)) require.Equal(t, s, s2) }) }