// Copyright (C) 2018 Storj Labs, Inc. // See LICENSE for copying information package kademlia import ( "sync" "testing" "time" "github.com/golang/protobuf/proto" "github.com/stretchr/testify/assert" "github.com/zeebo/errs" "go.uber.org/zap" "storj.io/storj/pkg/pb" "storj.io/storj/storage" "storj.io/storj/storage/storelogger" "storj.io/storj/storage/teststore" ) // newTestRoutingTable returns a newly configured instance of a RoutingTable func newTestRoutingTable(localNode pb.Node) (*RoutingTable, error) { rt := &RoutingTable{ self: localNode, kadBucketDB: storelogger.New(zap.L(), teststore.New()), nodeBucketDB: storelogger.New(zap.L(), teststore.New()), transport: &defaultTransport, mutex: &sync.Mutex{}, replacementCache: make(map[string][]*pb.Node), idLength: 16, bucketSize: 6, rcBucketSize: 2, } ok, err := rt.addNode(&localNode) if !ok || err != nil { return nil, RoutingErr.New("could not add localNode to routing table: %s", err) } return rt, nil } func createRoutingTable(t *testing.T, localNodeID []byte) (*RoutingTable, func()) { if localNodeID == nil { localNodeID = []byte("AA") } localNode := pb.Node{Id: string(localNodeID)} rt, err := newTestRoutingTable(localNode) if err != nil { t.Fatal(err) } return rt, func() { err := rt.Close() if err != nil { t.Fatal(err) } } } func mockNode(id string) *pb.Node { var node pb.Node node.Id = id return &node } func TestAddNode(t *testing.T) { rt, cleanup := createRoutingTable(t, []byte("OO")) defer cleanup() bucket, err := rt.kadBucketDB.Get(storage.Key([]byte{255, 255})) assert.NoError(t, err) assert.NotNil(t, bucket) cases := []struct { testID string node *pb.Node added bool kadIDs [][]byte nodeIDs [][]string }{ {testID: "PO: add node to unfilled kbucket", node: mockNode("PO"), added: true, kadIDs: [][]byte{{255, 255}}, nodeIDs: [][]string{{"OO", "PO"}}, }, {testID: "NO: add node to full kbucket and split", node: mockNode("NO"), added: true, kadIDs: [][]byte{{255, 255}}, nodeIDs: [][]string{{"NO", "OO", "PO"}}, }, {testID: "MO", node: mockNode("MO"), added: true, kadIDs: [][]byte{{255, 255}}, nodeIDs: [][]string{{"MO", "NO", "OO", "PO"}}, }, {testID: "LO", node: mockNode("LO"), added: true, kadIDs: [][]byte{{255, 255}}, nodeIDs: [][]string{{"LO", "MO", "NO", "OO", "PO"}}, }, {testID: "QO", node: mockNode("QO"), added: true, kadIDs: [][]byte{{255, 255}}, nodeIDs: [][]string{{"LO", "MO", "NO", "OO", "PO", "QO"}}, }, {testID: "SO: split bucket", node: mockNode("SO"), added: true, kadIDs: [][]byte{{63, 255}, {79, 255}, {95, 255}, {127, 255}, {255, 255}}, nodeIDs: [][]string{{}, {"LO", "MO", "NO", "OO"}, {"PO", "QO", "SO"}, {}, {}}, }, {testID: "?O", node: mockNode("?O"), added: true, kadIDs: [][]byte{{63, 255}, {79, 255}, {95, 255}, {127, 255}, {255, 255}}, nodeIDs: [][]string{{"?O"}, {"LO", "MO", "NO", "OO"}, {"PO", "QO", "SO"}, {}, {}}, }, {testID: ">O", node: mockNode(">O"), added: true, kadIDs: [][]byte{[]byte{63, 255}, []byte{79, 255}, []byte{95, 255}, []byte{127, 255}, []byte{255, 255}}, nodeIDs: [][]string{{">O", "?O"}, {"LO", "MO", "NO", "OO"}, {"PO", "QO", "SO"}, {}, {}}, }, {testID: "=O", node: mockNode("=O"), added: true, kadIDs: [][]byte{[]byte{63, 255}, []byte{79, 255}, []byte{95, 255}, []byte{127, 255}, []byte{255, 255}}, nodeIDs: [][]string{{"=O", ">O", "?O"}, {"LO", "MO", "NO", "OO"}, {"PO", "QO", "SO"}, {}, {}}, }, {testID: ";O", node: mockNode(";O"), added: true, kadIDs: [][]byte{[]byte{63, 255}, []byte{79, 255}, []byte{95, 255}, []byte{127, 255}, []byte{255, 255}}, nodeIDs: [][]string{{";O", "=O", ">O", "?O"}, {"LO", "MO", "NO", "OO"}, {"PO", "QO", "SO"}, {}, {}}, }, {testID: ":O", node: mockNode(":O"), added: true, kadIDs: [][]byte{[]byte{63, 255}, []byte{79, 255}, []byte{95, 255}, []byte{127, 255}, []byte{255, 255}}, nodeIDs: [][]string{{":O", ";O", "=O", ">O", "?O"}, {"LO", "MO", "NO", "OO"}, {"PO", "QO", "SO"}, {}, {}}, }, {testID: "9O", node: mockNode("9O"), added: true, kadIDs: [][]byte{[]byte{63, 255}, []byte{79, 255}, []byte{95, 255}, []byte{127, 255}, []byte{255, 255}}, nodeIDs: [][]string{{"9O", ":O", ";O", "=O", ">O", "?O"}, {"LO", "MO", "NO", "OO"}, {"PO", "QO", "SO"}, {}, {}}, }, {testID: "8O: should drop", node: mockNode("8O"), added: false, kadIDs: [][]byte{[]byte{63, 255}, []byte{79, 255}, []byte{95, 255}, []byte{127, 255}, []byte{255, 255}}, nodeIDs: [][]string{{"9O", ":O", ";O", "=O", ">O", "?O"}, {"LO", "MO", "NO", "OO"}, {"PO", "QO", "SO"}, {}, {}}, }, {testID: "KO", node: mockNode("KO"), added: true, kadIDs: [][]byte{[]byte{63, 255}, []byte{79, 255}, []byte{95, 255}, []byte{127, 255}, []byte{255, 255}}, nodeIDs: [][]string{{"9O", ":O", ";O", "=O", ">O", "?O"}, {"KO", "LO", "MO", "NO", "OO"}, {"PO", "QO", "SO"}, {}, {}}, }, {testID: "JO", node: mockNode("JO"), added: true, kadIDs: [][]byte{[]byte{63, 255}, []byte{79, 255}, []byte{95, 255}, []byte{127, 255}, []byte{255, 255}}, nodeIDs: [][]string{{"9O", ":O", ";O", "=O", ">O", "?O"}, {"JO", "KO", "LO", "MO", "NO", "OO"}, {"PO", "QO", "SO"}, {}, {}}, }, {testID: "]O", node: mockNode("]O"), added: true, kadIDs: [][]byte{[]byte{63, 255}, []byte{79, 255}, []byte{95, 255}, []byte{127, 255}, []byte{255, 255}}, nodeIDs: [][]string{{"9O", ":O", ";O", "=O", ">O", "?O"}, {"JO", "KO", "LO", "MO", "NO", "OO"}, {"PO", "QO", "SO", "]O"}, {}, {}}, }, {testID: "^O", node: mockNode("^O"), added: true, kadIDs: [][]byte{[]byte{63, 255}, []byte{79, 255}, []byte{95, 255}, []byte{127, 255}, []byte{255, 255}}, nodeIDs: [][]string{{"9O", ":O", ";O", "=O", ">O", "?O"}, {"JO", "KO", "LO", "MO", "NO", "OO"}, {"PO", "QO", "SO", "]O", "^O"}, {}, {}}, }, {testID: "_O", node: mockNode("_O"), added: true, kadIDs: [][]byte{[]byte{63, 255}, []byte{79, 255}, []byte{95, 255}, []byte{127, 255}, []byte{255, 255}}, nodeIDs: [][]string{{"9O", ":O", ";O", "=O", ">O", "?O"}, {"JO", "KO", "LO", "MO", "NO", "OO"}, {"PO", "QO", "SO", "]O", "^O", "_O"}, {}, {}}, }, {testID: "@O: split bucket 2", node: mockNode("@O"), added: true, kadIDs: [][]byte{[]byte{63, 255}, []byte{71, 255}, []byte{79, 255}, []byte{95, 255}, []byte{127, 255}, []byte{255, 255}}, nodeIDs: [][]string{{"9O", ":O", ";O", "=O", ">O", "?O"}, {"@O"}, {"JO", "KO", "LO", "MO", "NO", "OO"}, {"PO", "QO", "SO", "]O", "^O", "_O"}, {}, {}}, }, } for _, c := range cases { t.Run(c.testID, func(t *testing.T) { ok, err := rt.addNode(c.node) assert.Equal(t, c.added, ok) assert.NoError(t, err) kadKeys, err := rt.kadBucketDB.List(nil, 0) assert.NoError(t, err) for i, v := range kadKeys { assert.Equal(t, storage.Key(c.kadIDs[i]), v) a, err := rt.getNodeIDsWithinKBucket(v) assert.NoError(t, err) for j, w := range a { assert.Equal(t, c.nodeIDs[i][j], string(w)) } } if c.testID == "8O" { n := rt.replacementCache["8O"] assert.Equal(t, "8O", n[0].Id) } }) } } func TestUpdateNode(t *testing.T) { rt, cleanup := createRoutingTable(t, []byte("AA")) defer cleanup() node := mockNode("BB") ok, err := rt.addNode(node) assert.True(t, ok) assert.NoError(t, err) val, err := rt.nodeBucketDB.Get(storage.Key(node.Id)) assert.NoError(t, err) unmarshaled, err := unmarshalNodes(storage.Keys{storage.Key(node.Id)}, []storage.Value{val}) assert.NoError(t, err) x := unmarshaled[0].Address assert.Nil(t, x) node.Address = &pb.NodeAddress{Address: "BB"} err = rt.updateNode(node) assert.NoError(t, err) val, err = rt.nodeBucketDB.Get(storage.Key(node.Id)) assert.NoError(t, err) unmarshaled, err = unmarshalNodes(storage.Keys{storage.Key(node.Id)}, []storage.Value{val}) assert.NoError(t, err) y := unmarshaled[0].Address.Address assert.Equal(t, "BB", y) } func TestRemoveNode(t *testing.T) { rt, cleanup := createRoutingTable(t, []byte("AA")) defer cleanup() kadBucketID := []byte{255, 255} node := mockNode("BB") ok, err := rt.addNode(node) assert.True(t, ok) assert.NoError(t, err) val, err := rt.nodeBucketDB.Get(storage.Key(node.Id)) assert.NoError(t, err) assert.NotNil(t, val) node2 := mockNode("CC") rt.addToReplacementCache(kadBucketID, node2) err = rt.removeNode(kadBucketID, storage.Key(node.Id)) assert.NoError(t, err) val, err = rt.nodeBucketDB.Get(storage.Key(node.Id)) assert.Nil(t, val) assert.Error(t, err) val2, err := rt.nodeBucketDB.Get(storage.Key(node2.Id)) assert.NoError(t, err) assert.NotNil(t, val2) assert.Equal(t, 0, len(rt.replacementCache[string(kadBucketID)])) //try to remove node not in rt err = rt.removeNode(kadBucketID, storage.Key("DD")) assert.NoError(t, err) } func TestCreateOrUpdateKBucket(t *testing.T) { id := []byte{255, 255} rt, cleanup := createRoutingTable(t, nil) defer cleanup() err := rt.createOrUpdateKBucket(storage.Key(id), time.Now()) assert.NoError(t, err) val, e := rt.kadBucketDB.Get(storage.Key(id)) assert.NotNil(t, val) assert.NoError(t, e) } func TestGetKBucketID(t *testing.T) { kadIDA := storage.Key([]byte{255, 255}) nodeIDA := []byte("AA") rt, cleanup := createRoutingTable(t, nodeIDA) defer cleanup() keyA, err := rt.getKBucketID(nodeIDA) assert.NoError(t, err) assert.Equal(t, kadIDA, keyA) } func TestXorTwoIds(t *testing.T) { x := xorTwoIds([]byte{191}, []byte{159}) assert.Equal(t, []byte{32}, x) //00100000 } func TestSortByXOR(t *testing.T) { node1 := []byte{127, 255} //xor 0 rt, cleanup := createRoutingTable(t, node1) defer cleanup() node2 := []byte{143, 255} //xor 240 assert.NoError(t, rt.nodeBucketDB.Put(node2, []byte(""))) node3 := []byte{255, 255} //xor 128 assert.NoError(t, rt.nodeBucketDB.Put(node3, []byte(""))) node4 := []byte{191, 255} //xor 192 assert.NoError(t, rt.nodeBucketDB.Put(node4, []byte(""))) node5 := []byte{133, 255} //xor 250 assert.NoError(t, rt.nodeBucketDB.Put(node5, []byte(""))) nodes, err := rt.nodeBucketDB.List(nil, 0) assert.NoError(t, err) expectedNodes := storage.Keys{node1, node5, node2, node4, node3} assert.Equal(t, expectedNodes, nodes) sortedNodes := sortByXOR(nodes, node1) expectedSorted := storage.Keys{node1, node3, node4, node2, node5} assert.Equal(t, expectedSorted, sortedNodes) nodes, err = rt.nodeBucketDB.List(nil, 0) assert.NoError(t, err) assert.Equal(t, expectedNodes, nodes) } func TestDetermineFurthestIDWithinK(t *testing.T) { rt, cleanup := createRoutingTable(t, []byte{127, 255}) defer cleanup() cases := []struct { testID string nodeID []byte expectedFurthest []byte }{ {testID: "xor 0", nodeID: []byte{127, 255}, expectedFurthest: []byte{127, 255}, }, {testID: "xor 240", nodeID: []byte{143, 255}, expectedFurthest: []byte{143, 255}, }, {testID: "xor 128", nodeID: []byte{255, 255}, expectedFurthest: []byte{143, 255}, }, {testID: "xor 192", nodeID: []byte{191, 255}, expectedFurthest: []byte{143, 255}, }, {testID: "xor 250", nodeID: []byte{133, 255}, expectedFurthest: []byte{133, 255}, }, } for _, c := range cases { t.Run(c.testID, func(t *testing.T) { assert.NoError(t, rt.nodeBucketDB.Put(c.nodeID, []byte(""))) nodes, err := rt.nodeBucketDB.List(nil, 0) assert.NoError(t, err) furthest, err := rt.determineFurthestIDWithinK(nodes) assert.NoError(t, err) assert.Equal(t, c.expectedFurthest, furthest) }) } } func TestNodeIsWithinNearestK(t *testing.T) { rt, cleanup := createRoutingTable(t, []byte{127, 255}) defer cleanup() rt.bucketSize = 2 cases := []struct { testID string nodeID []byte closest bool }{ {testID: "A", nodeID: []byte{127, 255}, closest: true, }, {testID: "B", nodeID: []byte{143, 255}, closest: true, }, {testID: "C", nodeID: []byte{255, 255}, closest: true, }, {testID: "D", nodeID: []byte{191, 255}, closest: true, }, {testID: "E", nodeID: []byte{133, 255}, closest: false, }, } for _, c := range cases { t.Run(c.testID, func(t *testing.T) { result, err := rt.nodeIsWithinNearestK(c.nodeID) assert.NoError(t, err) assert.Equal(t, c.closest, result) assert.NoError(t, rt.nodeBucketDB.Put(c.nodeID, []byte(""))) }) } } func TestKadBucketContainsLocalNode(t *testing.T) { nodeIDA := []byte{183, 255} //[10110111, 1111111] rt, cleanup := createRoutingTable(t, nodeIDA) defer cleanup() kadIDA := storage.Key([]byte{255, 255}) kadIDB := storage.Key([]byte{127, 255}) now := time.Now() err := rt.createOrUpdateKBucket(kadIDB, now) assert.NoError(t, err) resultTrue, err := rt.kadBucketContainsLocalNode(kadIDA) assert.NoError(t, err) resultFalse, err := rt.kadBucketContainsLocalNode(kadIDB) assert.NoError(t, err) assert.True(t, resultTrue) assert.False(t, resultFalse) } func TestKadBucketHasRoom(t *testing.T) { node1 := []byte{255, 255} kadIDA := storage.Key([]byte{255, 255}) rt, cleanup := createRoutingTable(t, node1) defer cleanup() node2 := []byte{191, 255} node3 := []byte{127, 255} node4 := []byte{63, 255} node5 := []byte{159, 255} node6 := []byte{0, 127} resultA, err := rt.kadBucketHasRoom(kadIDA) assert.NoError(t, err) assert.True(t, resultA) assert.NoError(t, rt.nodeBucketDB.Put(node2, []byte(""))) assert.NoError(t, rt.nodeBucketDB.Put(node3, []byte(""))) assert.NoError(t, rt.nodeBucketDB.Put(node4, []byte(""))) assert.NoError(t, rt.nodeBucketDB.Put(node5, []byte(""))) assert.NoError(t, rt.nodeBucketDB.Put(node6, []byte(""))) resultB, err := rt.kadBucketHasRoom(kadIDA) assert.NoError(t, err) assert.False(t, resultB) } func TestGetNodeIDsWithinKBucket(t *testing.T) { nodeIDA := []byte{183, 255} //[10110111, 1111111] rt, cleanup := createRoutingTable(t, nodeIDA) defer cleanup() kadIDA := storage.Key([]byte{255, 255}) kadIDB := storage.Key([]byte{127, 255}) now := time.Now() assert.NoError(t, rt.createOrUpdateKBucket(kadIDB, now)) nodeIDB := []byte{111, 255} //[01101111, 1111111] nodeIDC := []byte{47, 255} //[00101111, 1111111] assert.NoError(t, rt.nodeBucketDB.Put(nodeIDB, []byte(""))) assert.NoError(t, rt.nodeBucketDB.Put(nodeIDC, []byte(""))) cases := []struct { testID string kadID []byte expected storage.Keys }{ {testID: "A", kadID: kadIDA, expected: storage.Keys{nodeIDA}, }, {testID: "B", kadID: kadIDB, expected: storage.Keys{nodeIDC, nodeIDB}, }, } for _, c := range cases { t.Run(c.testID, func(t *testing.T) { n, err := rt.getNodeIDsWithinKBucket(c.kadID) assert.NoError(t, err) assert.Equal(t, c.expected, n) }) } } func TestGetNodesFromIDs(t *testing.T) { nodeA := mockNode("AA") nodeB := mockNode("BB") nodeC := mockNode("CC") nodeIDA := []byte(nodeA.Id) nodeIDB := []byte(nodeB.Id) nodeIDC := []byte(nodeC.Id) a, err := proto.Marshal(nodeA) assert.NoError(t, err) b, err := proto.Marshal(nodeB) assert.NoError(t, err) c, err := proto.Marshal(nodeC) assert.NoError(t, err) rt, cleanup := createRoutingTable(t, nodeIDA) defer cleanup() assert.NoError(t, rt.nodeBucketDB.Put(nodeIDA, a)) assert.NoError(t, rt.nodeBucketDB.Put(nodeIDB, b)) assert.NoError(t, rt.nodeBucketDB.Put(nodeIDC, c)) expected := []storage.Value{a, b, c} nodeIDs, err := rt.nodeBucketDB.List(nil, 0) assert.NoError(t, err) _, values, err := rt.getNodesFromIDs(nodeIDs) assert.NoError(t, err) assert.Equal(t, expected, values) } func TestUnmarshalNodes(t *testing.T) { nodeA := mockNode("AA") nodeB := mockNode("BB") nodeC := mockNode("CC") nodeIDA := []byte(nodeA.Id) nodeIDB := []byte(nodeB.Id) nodeIDC := []byte(nodeC.Id) a, err := proto.Marshal(nodeA) assert.NoError(t, err) b, err := proto.Marshal(nodeB) assert.NoError(t, err) c, err := proto.Marshal(nodeC) assert.NoError(t, err) rt, cleanup := createRoutingTable(t, nodeIDA) defer cleanup() assert.NoError(t, rt.nodeBucketDB.Put(nodeIDA, a)) assert.NoError(t, rt.nodeBucketDB.Put(nodeIDB, b)) assert.NoError(t, rt.nodeBucketDB.Put(nodeIDC, c)) nodeIDs, err := rt.nodeBucketDB.List(nil, 0) assert.NoError(t, err) ids, values, err := rt.getNodesFromIDs(nodeIDs) assert.NoError(t, err) nodes, err := unmarshalNodes(ids, values) assert.NoError(t, err) expected := []*pb.Node{nodeA, nodeB, nodeC} for i, v := range expected { assert.True(t, proto.Equal(v, nodes[i])) } } func TestGetUnmarshaledNodesFromBucket(t *testing.T) { bucketID := []byte{255, 255} nodeA := mockNode("AA") rt, cleanup := createRoutingTable(t, []byte(nodeA.Id)) defer cleanup() nodeB := mockNode("BB") nodeC := mockNode("CC") var err error _, err = rt.addNode(nodeB) assert.NoError(t, err) _, err = rt.addNode(nodeC) assert.NoError(t, err) nodes, err := rt.getUnmarshaledNodesFromBucket(bucketID) expected := []*pb.Node{nodeA, nodeB, nodeC} assert.NoError(t, err) for i, v := range expected { assert.True(t, proto.Equal(v, nodes[i])) } } func TestGetKBucketRange(t *testing.T) { rt, cleanup := createRoutingTable(t, nil) defer cleanup() idA := []byte{255, 255} idB := []byte{127, 255} idC := []byte{63, 255} assert.NoError(t, rt.kadBucketDB.Put(idA, []byte(""))) assert.NoError(t, rt.kadBucketDB.Put(idB, []byte(""))) assert.NoError(t, rt.kadBucketDB.Put(idC, []byte(""))) cases := []struct { testID string id []byte expected storage.Keys }{ {testID: "A", id: idA, expected: storage.Keys{idB, idA}, }, {testID: "B", id: idB, expected: storage.Keys{idC, idB}}, {testID: "C", id: idC, expected: storage.Keys{rt.createZeroAsStorageKey(), idC}, }, } for _, c := range cases { t.Run(c.testID, func(t *testing.T) { ep, err := rt.getKBucketRange(c.id) assert.NoError(t, err) assert.Equal(t, c.expected, ep) }) } } func TestCreateFirstBucketID(t *testing.T) { rt, cleanup := createRoutingTable(t, nil) defer cleanup() x := rt.createFirstBucketID() expected := []byte{255, 255} assert.Equal(t, x, expected) } func TestCreateZeroAsStorageKey(t *testing.T) { rt, cleanup := createRoutingTable(t, nil) defer cleanup() zero := rt.createZeroAsStorageKey() expected := []byte{0, 0} assert.Equal(t, zero, storage.Key(expected)) } func TestDetermineLeafDepth(t *testing.T) { rt, cleanup := createRoutingTable(t, nil) defer cleanup() idA := []byte{255, 255} idB := []byte{127, 255} idC := []byte{63, 255} cases := []struct { testID string id []byte depth int addNode func() }{ {testID: "A", id: idA, depth: 0, addNode: func() { e := rt.kadBucketDB.Put(idA, []byte("")) assert.NoError(t, e) }, }, {testID: "B", id: idB, depth: 1, addNode: func() { e := rt.kadBucketDB.Put(idB, []byte("")) assert.NoError(t, e) }, }, {testID: "C", id: idA, depth: 1, addNode: func() { e := rt.kadBucketDB.Put(idC, []byte("")) assert.NoError(t, e) }, }, {testID: "D", id: idB, depth: 2, addNode: func() {}, }, {testID: "E", id: idC, depth: 2, addNode: func() {}, }, } for _, c := range cases { t.Run(c.testID, func(t *testing.T) { c.addNode() d, err := rt.determineLeafDepth(c.id) assert.NoError(t, err) assert.Equal(t, c.depth, d) }) } } func TestDetermineDifferingBitIndex(t *testing.T) { rt, cleanup := createRoutingTable(t, nil) defer cleanup() cases := []struct { testID string bucketID []byte key []byte expected int err *errs.Class }{ {testID: "A", bucketID: []byte{191, 255}, key: []byte{255, 255}, expected: 1, err: nil, }, {testID: "B", bucketID: []byte{255, 255}, key: []byte{191, 255}, expected: 1, err: nil, }, {testID: "C", bucketID: []byte{95, 255}, key: []byte{127, 255}, expected: 2, err: nil, }, {testID: "D", bucketID: []byte{95, 255}, key: []byte{79, 255}, expected: 3, err: nil, }, {testID: "E", bucketID: []byte{95, 255}, key: []byte{63, 255}, expected: 2, err: nil, }, {testID: "F", bucketID: []byte{95, 255}, key: []byte{79, 255}, expected: 3, err: nil, }, {testID: "G", bucketID: []byte{255, 255}, key: []byte{255, 255}, expected: -2, err: &RoutingErr, }, {testID: "H", bucketID: []byte{255, 255}, key: []byte{0, 0}, expected: -1, err: nil, }, {testID: "I", bucketID: []byte{127, 255}, key: []byte{0, 0}, expected: 0, err: nil, }, {testID: "J", bucketID: []byte{63, 255}, key: []byte{0, 0}, expected: 1, err: nil, }, {testID: "K", bucketID: []byte{31, 255}, key: []byte{0, 0}, expected: 2, err: nil, }, {testID: "L", bucketID: []byte{95, 255}, key: []byte{63, 255}, expected: 2, err: nil, }, } for _, c := range cases { t.Run(c.testID, func(t *testing.T) { diff, err := rt.determineDifferingBitIndex(c.bucketID, c.key) assertErrClass(t, c.err, err) assert.Equal(t, c.expected, diff) }) } } func TestSplitBucket(t *testing.T) { rt, cleanup := createRoutingTable(t, nil) defer cleanup() cases := []struct { testID string idA []byte idB []byte depth int }{ {testID: "A: [11111111, 11111111] -> [10111111, 11111111]", idA: []byte{255, 255}, idB: []byte{191, 255}, depth: 1, }, {testID: "B: [10111111, 11111111] -> [10011111, 11111111]", idA: []byte{191, 255}, idB: []byte{159, 255}, depth: 2, }, {testID: "C: [01111111, 11111111] -> [00111111, 11111111]", idA: []byte{127, 255}, idB: []byte{63, 255}, depth: 1, }, {testID: "D: [00000000, 11111111] -> [00000000, 01111111]", idA: []byte{0, 255}, idB: []byte{0, 127}, depth: 8, }, {testID: "E: [01011111, 11111111] -> [01010111, 11111111]", idA: []byte{95, 255}, idB: []byte{87, 255}, depth: 4, }, {testID: "F: [01011111, 11111111] -> [01001111, 11111111]", idA: []byte{95, 255}, idB: []byte{79, 255}, depth: 3, }, } for _, c := range cases { t.Run(c.testID, func(t *testing.T) { newID := rt.splitBucket(c.idA, c.depth) assert.Equal(t, c.idB, newID) }) } } func assertErrClass(t *testing.T, class *errs.Class, err error) { t.Helper() if class != nil { assert.True(t, class.Has(err)) } else { assert.NoError(t, err) } }