package structs import ( "fmt" "reflect" "strings" "testing" "github.com/hashicorp/consul/api" "github.com/hashicorp/consul/types" ) func TestEncodeDecode(t *testing.T) { arg := &RegisterRequest{ Datacenter: "foo", Node: "bar", Address: "baz", Service: &NodeService{ Service: "test", Address: "127.0.0.2", }, } buf, err := Encode(RegisterRequestType, arg) if err != nil { t.Fatalf("err: %v", err) } var out RegisterRequest err = Decode(buf[1:], &out) if err != nil { t.Fatalf("err: %v", err) } if !reflect.DeepEqual(arg.Service, out.Service) { t.Fatalf("bad: %#v %#v", arg.Service, out.Service) } if !reflect.DeepEqual(arg, &out) { t.Fatalf("bad: %#v %#v", arg, out) } } func TestStructs_Implements(t *testing.T) { var ( _ RPCInfo = &RegisterRequest{} _ RPCInfo = &DeregisterRequest{} _ RPCInfo = &DCSpecificRequest{} _ RPCInfo = &ServiceSpecificRequest{} _ RPCInfo = &NodeSpecificRequest{} _ RPCInfo = &ChecksInStateRequest{} _ RPCInfo = &KVSRequest{} _ RPCInfo = &KeyRequest{} _ RPCInfo = &KeyListRequest{} _ RPCInfo = &SessionRequest{} _ RPCInfo = &SessionSpecificRequest{} _ RPCInfo = &EventFireRequest{} _ RPCInfo = &ACLPolicyRequest{} _ RPCInfo = &KeyringRequest{} _ CompoundResponse = &KeyringResponses{} ) } func TestStructs_RegisterRequest_ChangesNode(t *testing.T) { req := &RegisterRequest{ ID: types.NodeID("40e4a748-2192-161a-0510-9bf59fe950b5"), Node: "test", Address: "127.0.0.1", Datacenter: "dc1", TaggedAddresses: make(map[string]string), NodeMeta: map[string]string{ "role": "server", }, } node := &Node{ ID: types.NodeID("40e4a748-2192-161a-0510-9bf59fe950b5"), Node: "test", Address: "127.0.0.1", Datacenter: "dc1", TaggedAddresses: make(map[string]string), Meta: map[string]string{ "role": "server", }, } check := func(twiddle, restore func()) { if req.ChangesNode(node) { t.Fatalf("should not change") } twiddle() if !req.ChangesNode(node) { t.Fatalf("should change") } req.SkipNodeUpdate = true if req.ChangesNode(node) { t.Fatalf("should skip") } req.SkipNodeUpdate = false if !req.ChangesNode(node) { t.Fatalf("should change") } restore() if req.ChangesNode(node) { t.Fatalf("should not change") } } check(func() { req.ID = "nope" }, func() { req.ID = types.NodeID("40e4a748-2192-161a-0510-9bf59fe950b5") }) check(func() { req.Node = "nope" }, func() { req.Node = "test" }) check(func() { req.Address = "127.0.0.2" }, func() { req.Address = "127.0.0.1" }) check(func() { req.Datacenter = "dc2" }, func() { req.Datacenter = "dc1" }) check(func() { req.TaggedAddresses["wan"] = "nope" }, func() { delete(req.TaggedAddresses, "wan") }) check(func() { req.NodeMeta["invalid"] = "nope" }, func() { delete(req.NodeMeta, "invalid") }) if !req.ChangesNode(nil) { t.Fatalf("should change") } } // testServiceNode gives a fully filled out ServiceNode instance. func testServiceNode() *ServiceNode { return &ServiceNode{ ID: types.NodeID("40e4a748-2192-161a-0510-9bf59fe950b5"), Node: "node1", Address: "127.0.0.1", Datacenter: "dc1", TaggedAddresses: map[string]string{ "hello": "world", }, NodeMeta: map[string]string{ "tag": "value", }, ServiceID: "service1", ServiceName: "dogs", ServiceTags: []string{"prod", "v1"}, ServiceAddress: "127.0.0.2", ServicePort: 8080, ServiceMeta: map[string]string{ "service": "metadata", }, ServiceEnableTagOverride: true, RaftIndex: RaftIndex{ CreateIndex: 1, ModifyIndex: 2, }, } } func TestStructs_ServiceNode_PartialClone(t *testing.T) { sn := testServiceNode() clone := sn.PartialClone() // Make sure the parts that weren't supposed to be cloned didn't get // copied over, then zero-value them out so we can do a DeepEqual() on // the rest of the contents. if clone.ID != "" || clone.Address != "" || clone.Datacenter != "" || len(clone.TaggedAddresses) != 0 || len(clone.NodeMeta) != 0 { t.Fatalf("bad: %v", clone) } sn.ID = "" sn.Address = "" sn.Datacenter = "" sn.TaggedAddresses = nil sn.NodeMeta = nil if !reflect.DeepEqual(sn, clone) { t.Fatalf("bad: %v", clone) } sn.ServiceTags = append(sn.ServiceTags, "hello") if reflect.DeepEqual(sn, clone) { t.Fatalf("clone wasn't independent of the original") } revert := make([]string, len(sn.ServiceTags)-1) copy(revert, sn.ServiceTags[0:len(sn.ServiceTags)-1]) sn.ServiceTags = revert if !reflect.DeepEqual(sn, clone) { t.Fatalf("bad: %v VS %v", clone, sn) } sn.ServiceMeta["new_meta"] = "new_value" if reflect.DeepEqual(sn, clone) { t.Fatalf("clone wasn't independent of the original for ServiceMeta") } } func TestStructs_ServiceNode_Conversions(t *testing.T) { sn := testServiceNode() sn2 := sn.ToNodeService().ToServiceNode("node1") // These two fields get lost in the conversion, so we have to zero-value // them out before we do the compare. sn.ID = "" sn.Address = "" sn.Datacenter = "" sn.TaggedAddresses = nil sn.NodeMeta = nil if !reflect.DeepEqual(sn, sn2) { t.Fatalf("bad: %v", sn2) } } func TestStructs_NodeService_IsSame(t *testing.T) { ns := &NodeService{ ID: "node1", Service: "theservice", Tags: []string{"foo", "bar"}, Address: "127.0.0.1", ServiceMeta: map[string]string{ "meta1": "value1", "meta2": "value2", }, Port: 1234, EnableTagOverride: true, } if !ns.IsSame(ns) { t.Fatalf("should be equal to itself") } other := &NodeService{ ID: "node1", Service: "theservice", Tags: []string{"foo", "bar"}, Address: "127.0.0.1", Port: 1234, EnableTagOverride: true, ServiceMeta: map[string]string{ // We don't care about order "meta2": "value2", "meta1": "value1", }, RaftIndex: RaftIndex{ CreateIndex: 1, ModifyIndex: 2, }, } if !ns.IsSame(other) || !other.IsSame(ns) { t.Fatalf("should not care about Raft fields") } check := func(twiddle, restore func()) { if !ns.IsSame(other) || !other.IsSame(ns) { t.Fatalf("should be the same") } twiddle() if ns.IsSame(other) || other.IsSame(ns) { t.Fatalf("should not be the same") } restore() if !ns.IsSame(other) || !other.IsSame(ns) { t.Fatalf("should be the same") } } check(func() { other.ID = "XXX" }, func() { other.ID = "node1" }) check(func() { other.Service = "XXX" }, func() { other.Service = "theservice" }) check(func() { other.Tags = nil }, func() { other.Tags = []string{"foo", "bar"} }) check(func() { other.Tags = []string{"foo"} }, func() { other.Tags = []string{"foo", "bar"} }) check(func() { other.Address = "XXX" }, func() { other.Address = "127.0.0.1" }) check(func() { other.Port = 9999 }, func() { other.Port = 1234 }) check(func() { other.ServiceMeta["meta2"] = "wrongValue" }, func() { other.ServiceMeta["meta2"] = "value2" }) check(func() { other.EnableTagOverride = false }, func() { other.EnableTagOverride = true }) } func TestStructs_HealthCheck_IsSame(t *testing.T) { hc := &HealthCheck{ Node: "node1", CheckID: "check1", Name: "thecheck", Status: api.HealthPassing, Notes: "it's all good", Output: "lgtm", ServiceID: "service1", ServiceName: "theservice", ServiceTags: []string{"foo"}, } if !hc.IsSame(hc) { t.Fatalf("should be equal to itself") } other := &HealthCheck{ Node: "node1", CheckID: "check1", Name: "thecheck", Status: api.HealthPassing, Notes: "it's all good", Output: "lgtm", ServiceID: "service1", ServiceName: "theservice", ServiceTags: []string{"foo"}, RaftIndex: RaftIndex{ CreateIndex: 1, ModifyIndex: 2, }, } if !hc.IsSame(other) || !other.IsSame(hc) { t.Fatalf("should not care about Raft fields") } checkCheckIDField := func(field *types.CheckID) { if !hc.IsSame(other) || !other.IsSame(hc) { t.Fatalf("should be the same") } old := *field *field = "XXX" if hc.IsSame(other) || other.IsSame(hc) { t.Fatalf("should not be the same") } *field = old if !hc.IsSame(other) || !other.IsSame(hc) { t.Fatalf("should be the same") } } checkStringField := func(field *string) { if !hc.IsSame(other) || !other.IsSame(hc) { t.Fatalf("should be the same") } old := *field *field = "XXX" if hc.IsSame(other) || other.IsSame(hc) { t.Fatalf("should not be the same") } *field = old if !hc.IsSame(other) || !other.IsSame(hc) { t.Fatalf("should be the same") } } checkStringField(&other.Node) checkCheckIDField(&other.CheckID) checkStringField(&other.Name) checkStringField(&other.Status) checkStringField(&other.Notes) checkStringField(&other.Output) checkStringField(&other.ServiceID) checkStringField(&other.ServiceName) } func TestStructs_HealthCheck_Clone(t *testing.T) { hc := &HealthCheck{ Node: "node1", CheckID: "check1", Name: "thecheck", Status: api.HealthPassing, Notes: "it's all good", Output: "lgtm", ServiceID: "service1", ServiceName: "theservice", } clone := hc.Clone() if !hc.IsSame(clone) { t.Fatalf("should be equal to its clone") } clone.Output = "different" if hc.IsSame(clone) { t.Fatalf("should not longer be equal to its clone") } } func TestStructs_CheckServiceNodes_Shuffle(t *testing.T) { // Make a huge list of nodes. var nodes CheckServiceNodes for i := 0; i < 100; i++ { nodes = append(nodes, CheckServiceNode{ Node: &Node{ Node: fmt.Sprintf("node%d", i), Address: fmt.Sprintf("127.0.0.%d", i+1), }, }) } // Keep track of how many unique shuffles we get. uniques := make(map[string]struct{}) for i := 0; i < 100; i++ { nodes.Shuffle() var names []string for _, node := range nodes { names = append(names, node.Node.Node) } key := strings.Join(names, "|") uniques[key] = struct{}{} } // We have to allow for the fact that there won't always be a unique // shuffle each pass, so we just look for smell here without the test // being flaky. if len(uniques) < 50 { t.Fatalf("unique shuffle ratio too low: %d/100", len(uniques)) } } func TestStructs_CheckServiceNodes_Filter(t *testing.T) { nodes := CheckServiceNodes{ CheckServiceNode{ Node: &Node{ Node: "node1", Address: "127.0.0.1", }, Checks: HealthChecks{ &HealthCheck{ Status: api.HealthWarning, }, }, }, CheckServiceNode{ Node: &Node{ Node: "node2", Address: "127.0.0.2", }, Checks: HealthChecks{ &HealthCheck{ Status: api.HealthPassing, }, }, }, CheckServiceNode{ Node: &Node{ Node: "node3", Address: "127.0.0.3", }, Checks: HealthChecks{ &HealthCheck{ Status: api.HealthCritical, }, }, }, } // Test the case where warnings are allowed. { twiddle := make(CheckServiceNodes, len(nodes)) if n := copy(twiddle, nodes); n != len(nodes) { t.Fatalf("bad: %d", n) } filtered := twiddle.Filter(false) expected := CheckServiceNodes{ nodes[0], nodes[1], } if !reflect.DeepEqual(filtered, expected) { t.Fatalf("bad: %v", filtered) } } // Limit to only passing checks. { twiddle := make(CheckServiceNodes, len(nodes)) if n := copy(twiddle, nodes); n != len(nodes) { t.Fatalf("bad: %d", n) } filtered := twiddle.Filter(true) expected := CheckServiceNodes{ nodes[1], } if !reflect.DeepEqual(filtered, expected) { t.Fatalf("bad: %v", filtered) } } } func TestStructs_DirEntry_Clone(t *testing.T) { e := &DirEntry{ LockIndex: 5, Key: "hello", Flags: 23, Value: []byte("this is a test"), Session: "session1", RaftIndex: RaftIndex{ CreateIndex: 1, ModifyIndex: 2, }, } clone := e.Clone() if !reflect.DeepEqual(e, clone) { t.Fatalf("bad: %v", clone) } e.Value = []byte("a new value") if reflect.DeepEqual(e, clone) { t.Fatalf("clone wasn't independent of the original") } } func TestStructs_ValidateMetadata(t *testing.T) { // Load a valid set of key/value pairs meta := map[string]string{ "key1": "value1", "key2": "value2", } // Should succeed if err := ValidateMetadata(meta, false); err != nil { t.Fatalf("err: %s", err) } // Should get error meta = map[string]string{ "": "value1", } if err := ValidateMetadata(meta, false); !strings.Contains(err.Error(), "Couldn't load metadata pair") { t.Fatalf("should have failed") } // Should get error meta = make(map[string]string) for i := 0; i < metaMaxKeyPairs+1; i++ { meta[string(i)] = "value" } if err := ValidateMetadata(meta, false); !strings.Contains(err.Error(), "cannot contain more than") { t.Fatalf("should have failed") } // Should not error meta = map[string]string{ metaKeyReservedPrefix + "key": "value1", } // Should fail if err := ValidateMetadata(meta, false); err == nil || !strings.Contains(err.Error(), "reserved for internal use") { t.Fatalf("err: %s", err) } // Should succeed if err := ValidateMetadata(meta, true); err != nil { t.Fatalf("err: %s", err) } } func TestStructs_validateMetaPair(t *testing.T) { longKey := strings.Repeat("a", metaKeyMaxLength+1) longValue := strings.Repeat("b", metaValueMaxLength+1) pairs := []struct { Key string Value string Error string AllowConsulPrefix bool }{ // valid pair {"key", "value", "", false}, // invalid, blank key {"", "value", "cannot be blank", false}, // allowed special chars in key name {"k_e-y", "value", "", false}, // disallowed special chars in key name {"(%key&)", "value", "invalid characters", false}, // key too long {longKey, "value", "Key is too long", false}, // reserved prefix {metaKeyReservedPrefix + "key", "value", "reserved for internal use", false}, // reserved prefix, allowed {metaKeyReservedPrefix + "key", "value", "", true}, // value too long {"key", longValue, "Value is too long", false}, } for _, pair := range pairs { err := validateMetaPair(pair.Key, pair.Value, pair.AllowConsulPrefix) if pair.Error == "" && err != nil { t.Fatalf("should have succeeded: %v, %v", pair, err) } else if pair.Error != "" && !strings.Contains(err.Error(), pair.Error) { t.Fatalf("should have failed: %v, %v", pair, err) } } }