package api import ( "bytes" "encoding/json" "fmt" "io" "strconv" "strings" "time" "github.com/mitchellh/mapstructure" ) const ( ServiceDefaults string = "service-defaults" ProxyDefaults string = "proxy-defaults" ServiceRouter string = "service-router" ServiceSplitter string = "service-splitter" ServiceResolver string = "service-resolver" IngressGateway string = "ingress-gateway" TerminatingGateway string = "terminating-gateway" ServiceIntentions string = "service-intentions" ClusterConfig string = "cluster" ProxyConfigGlobal string = "global" ClusterConfigCluster string = "cluster" ) type ConfigEntry interface { GetKind() string GetName() string GetNamespace() string GetMeta() map[string]string GetCreateIndex() uint64 GetModifyIndex() uint64 } type MeshGatewayMode string const ( // MeshGatewayModeDefault represents no specific mode and should // be used to indicate that a different layer of the configuration // chain should take precedence MeshGatewayModeDefault MeshGatewayMode = "" // MeshGatewayModeNone represents that the Upstream Connect connections // should be direct and not flow through a mesh gateway. MeshGatewayModeNone MeshGatewayMode = "none" // MeshGatewayModeLocal represents that the Upstream Connect connections // should be made to a mesh gateway in the local datacenter. MeshGatewayModeLocal MeshGatewayMode = "local" // MeshGatewayModeRemote represents that the Upstream Connect connections // should be made to a mesh gateway in a remote datacenter. MeshGatewayModeRemote MeshGatewayMode = "remote" ) // MeshGatewayConfig controls how Mesh Gateways are used for upstream Connect // services type MeshGatewayConfig struct { // Mode is the mode that should be used for the upstream connection. Mode MeshGatewayMode `json:",omitempty"` } // ExposeConfig describes HTTP paths to expose through Envoy outside of Connect. // Users can expose individual paths and/or all HTTP/GRPC paths for checks. type ExposeConfig struct { // Checks defines whether paths associated with Consul checks will be exposed. // This flag triggers exposing all HTTP and GRPC check paths registered for the service. Checks bool `json:",omitempty"` // Paths is the list of paths exposed through the proxy. Paths []ExposePath `json:",omitempty"` } type ExposePath struct { // ListenerPort defines the port of the proxy's listener for exposed paths. ListenerPort int `json:",omitempty" alias:"listener_port"` // Path is the path to expose through the proxy, ie. "/metrics." Path string `json:",omitempty"` // LocalPathPort is the port that the service is listening on for the given path. LocalPathPort int `json:",omitempty" alias:"local_path_port"` // Protocol describes the upstream's service protocol. // Valid values are "http" and "http2", defaults to "http" Protocol string `json:",omitempty"` // ParsedFromCheck is set if this path was parsed from a registered check ParsedFromCheck bool } type ConnectConfiguration struct { // UpstreamConfigs is a map of service to per-upstream configuration UpstreamConfigs map[string]UpstreamConfig `json:",omitempty" alias:"upstream_configs"` // UpstreamDefaults contains default configuration for all upstreams of a given service UpstreamDefaults *UpstreamConfig `json:",omitempty" alias:"upstream_defaults"` } type UpstreamConfig struct { // EnvoyListenerJSON is a complete override ("escape hatch") for the upstream's // listener. // // Note: This escape hatch is NOT compatible with the discovery chain and // will be ignored if a discovery chain is active. EnvoyListenerJSON string `json:",omitempty" alias:"envoy_listener_json"` // EnvoyClusterJSON is a complete override ("escape hatch") for the upstream's // cluster. The Connect client TLS certificate and context will be injected // overriding any TLS settings present. // // Note: This escape hatch is NOT compatible with the discovery chain and // will be ignored if a discovery chain is active. EnvoyClusterJSON string `json:",omitempty" alias:"envoy_cluster_json"` // Protocol describes the upstream's service protocol. Valid values are "tcp", // "http" and "grpc". Anything else is treated as tcp. The enables protocol // aware features like per-request metrics and connection pooling, tracing, // routing etc. Protocol string `json:",omitempty"` // ConnectTimeoutMs is the number of milliseconds to timeout making a new // connection to this upstream. Defaults to 5000 (5 seconds) if not set. ConnectTimeoutMs int `json:",omitempty" alias:"connect_timeout_ms"` // Limits are the set of limits that are applied to the proxy for a specific upstream of a // service instance. Limits *UpstreamLimits `json:",omitempty"` // PassiveHealthCheck configuration determines how upstream proxy instances will // be monitored for removal from the load balancing pool. PassiveHealthCheck *PassiveHealthCheck `json:",omitempty" alias:"passive_health_check"` // MeshGatewayConfig controls how Mesh Gateways are configured and used MeshGateway MeshGatewayConfig `json:",omitempty" alias:"mesh_gateway" ` } type PassiveHealthCheck struct { // Interval between health check analysis sweeps. Each sweep may remove // hosts or return hosts to the pool. Interval time.Duration `json:",omitempty"` // MaxFailures is the count of consecutive failures that results in a host // being removed from the pool. MaxFailures uint32 `alias:"max_failures"` } // UpstreamLimits describes the limits that are associated with a specific // upstream of a service instance. type UpstreamLimits struct { // MaxConnections is the maximum number of connections the local proxy can // make to the upstream service. MaxConnections int `alias:"max_connections"` // MaxPendingRequests is the maximum number of requests that will be queued // waiting for an available connection. This is mostly applicable to HTTP/1.1 // clusters since all HTTP/2 requests are streamed over a single // connection. MaxPendingRequests int `alias:"max_pending_requests"` // MaxConcurrentRequests is the maximum number of in-flight requests that will be allowed // to the upstream cluster at a point in time. This is mostly applicable to HTTP/2 // clusters since all HTTP/1.1 requests are limited by MaxConnections. MaxConcurrentRequests int `alias:"max_concurrent_requests"` } type ServiceConfigEntry struct { Kind string Name string Namespace string `json:",omitempty"` Protocol string `json:",omitempty"` MeshGateway MeshGatewayConfig `json:",omitempty" alias:"mesh_gateway"` Connect ConnectConfiguration `json:",omitempty"` Expose ExposeConfig `json:",omitempty"` TransparentProxy bool `json:",omitempty" alias:"transparent_proxy"` ExternalSNI string `json:",omitempty" alias:"external_sni"` Meta map[string]string `json:",omitempty"` CreateIndex uint64 ModifyIndex uint64 } func (s *ServiceConfigEntry) GetKind() string { return s.Kind } func (s *ServiceConfigEntry) GetName() string { return s.Name } func (s *ServiceConfigEntry) GetNamespace() string { return s.Namespace } func (s *ServiceConfigEntry) GetMeta() map[string]string { return s.Meta } func (s *ServiceConfigEntry) GetCreateIndex() uint64 { return s.CreateIndex } func (s *ServiceConfigEntry) GetModifyIndex() uint64 { return s.ModifyIndex } type ProxyConfigEntry struct { Kind string Name string Namespace string `json:",omitempty"` Config map[string]interface{} `json:",omitempty"` MeshGateway MeshGatewayConfig `json:",omitempty" alias:"mesh_gateway"` Expose ExposeConfig `json:",omitempty"` TransparentProxy bool `json:",omitempty" alias:"transparent_proxy"` Meta map[string]string `json:",omitempty"` CreateIndex uint64 ModifyIndex uint64 } func (p *ProxyConfigEntry) GetKind() string { return p.Kind } func (p *ProxyConfigEntry) GetName() string { return p.Name } func (p *ProxyConfigEntry) GetNamespace() string { return p.Namespace } func (p *ProxyConfigEntry) GetMeta() map[string]string { return p.Meta } func (p *ProxyConfigEntry) GetCreateIndex() uint64 { return p.CreateIndex } func (p *ProxyConfigEntry) GetModifyIndex() uint64 { return p.ModifyIndex } func makeConfigEntry(kind, name string) (ConfigEntry, error) { switch kind { case ServiceDefaults: return &ServiceConfigEntry{Kind: kind, Name: name}, nil case ProxyDefaults: return &ProxyConfigEntry{Kind: kind, Name: name}, nil case ServiceRouter: return &ServiceRouterConfigEntry{Kind: kind, Name: name}, nil case ServiceSplitter: return &ServiceSplitterConfigEntry{Kind: kind, Name: name}, nil case ServiceResolver: return &ServiceResolverConfigEntry{Kind: kind, Name: name}, nil case IngressGateway: return &IngressGatewayConfigEntry{Kind: kind, Name: name}, nil case TerminatingGateway: return &TerminatingGatewayConfigEntry{Kind: kind, Name: name}, nil case ServiceIntentions: return &ServiceIntentionsConfigEntry{Kind: kind, Name: name}, nil case ClusterConfig: return &ClusterConfigEntry{Kind: kind, Name: name}, nil default: return nil, fmt.Errorf("invalid config entry kind: %s", kind) } } func MakeConfigEntry(kind, name string) (ConfigEntry, error) { return makeConfigEntry(kind, name) } // DecodeConfigEntry will decode the result of using json.Unmarshal of a config // entry into a map[string]interface{}. // // Important caveats: // // - This will NOT work if the map[string]interface{} was produced using HCL // decoding as that requires more extensive parsing to work around the issues // with map[string][]interface{} that arise. // // - This will only decode fields using their camel case json field // representations. func DecodeConfigEntry(raw map[string]interface{}) (ConfigEntry, error) { var entry ConfigEntry kindVal, ok := raw["Kind"] if !ok { kindVal, ok = raw["kind"] } if !ok { return nil, fmt.Errorf("Payload does not contain a kind/Kind key at the top level") } if kindStr, ok := kindVal.(string); ok { newEntry, err := makeConfigEntry(kindStr, "") if err != nil { return nil, err } entry = newEntry } else { return nil, fmt.Errorf("Kind value in payload is not a string") } decodeConf := &mapstructure.DecoderConfig{ DecodeHook: mapstructure.ComposeDecodeHookFunc( mapstructure.StringToTimeDurationHookFunc(), mapstructure.StringToTimeHookFunc(time.RFC3339), ), Result: &entry, WeaklyTypedInput: true, } decoder, err := mapstructure.NewDecoder(decodeConf) if err != nil { return nil, err } return entry, decoder.Decode(raw) } func DecodeConfigEntryFromJSON(data []byte) (ConfigEntry, error) { var raw map[string]interface{} if err := json.Unmarshal(data, &raw); err != nil { return nil, err } return DecodeConfigEntry(raw) } func decodeConfigEntrySlice(raw []map[string]interface{}) ([]ConfigEntry, error) { var entries []ConfigEntry for _, rawEntry := range raw { entry, err := DecodeConfigEntry(rawEntry) if err != nil { return nil, err } entries = append(entries, entry) } return entries, nil } // ConfigEntries can be used to query the Config endpoints type ConfigEntries struct { c *Client } // Config returns a handle to the Config endpoints func (c *Client) ConfigEntries() *ConfigEntries { return &ConfigEntries{c} } func (conf *ConfigEntries) Get(kind string, name string, q *QueryOptions) (ConfigEntry, *QueryMeta, error) { if kind == "" || name == "" { return nil, nil, fmt.Errorf("Both kind and name parameters must not be empty") } entry, err := makeConfigEntry(kind, name) if err != nil { return nil, nil, err } r := conf.c.newRequest("GET", fmt.Sprintf("/v1/config/%s/%s", kind, name)) r.setQueryOptions(q) rtt, resp, err := requireOK(conf.c.doRequest(r)) if err != nil { return nil, nil, err } defer resp.Body.Close() qm := &QueryMeta{} parseQueryMeta(resp, qm) qm.RequestTime = rtt if err := decodeBody(resp, entry); err != nil { return nil, nil, err } return entry, qm, nil } func (conf *ConfigEntries) List(kind string, q *QueryOptions) ([]ConfigEntry, *QueryMeta, error) { if kind == "" { return nil, nil, fmt.Errorf("The kind parameter must not be empty") } r := conf.c.newRequest("GET", fmt.Sprintf("/v1/config/%s", kind)) r.setQueryOptions(q) rtt, resp, err := requireOK(conf.c.doRequest(r)) if err != nil { return nil, nil, err } defer resp.Body.Close() qm := &QueryMeta{} parseQueryMeta(resp, qm) qm.RequestTime = rtt var raw []map[string]interface{} if err := decodeBody(resp, &raw); err != nil { return nil, nil, err } entries, err := decodeConfigEntrySlice(raw) if err != nil { return nil, nil, err } return entries, qm, nil } func (conf *ConfigEntries) Set(entry ConfigEntry, w *WriteOptions) (bool, *WriteMeta, error) { return conf.set(entry, nil, w) } func (conf *ConfigEntries) CAS(entry ConfigEntry, index uint64, w *WriteOptions) (bool, *WriteMeta, error) { return conf.set(entry, map[string]string{"cas": strconv.FormatUint(index, 10)}, w) } func (conf *ConfigEntries) set(entry ConfigEntry, params map[string]string, w *WriteOptions) (bool, *WriteMeta, error) { r := conf.c.newRequest("PUT", "/v1/config") r.setWriteOptions(w) for param, value := range params { r.params.Set(param, value) } r.obj = entry rtt, resp, err := requireOK(conf.c.doRequest(r)) if err != nil { return false, nil, err } defer resp.Body.Close() var buf bytes.Buffer if _, err := io.Copy(&buf, resp.Body); err != nil { return false, nil, fmt.Errorf("Failed to read response: %v", err) } res := strings.Contains(buf.String(), "true") wm := &WriteMeta{RequestTime: rtt} return res, wm, nil } func (conf *ConfigEntries) Delete(kind string, name string, w *WriteOptions) (*WriteMeta, error) { if kind == "" || name == "" { return nil, fmt.Errorf("Both kind and name parameters must not be empty") } r := conf.c.newRequest("DELETE", fmt.Sprintf("/v1/config/%s/%s", kind, name)) r.setWriteOptions(w) rtt, resp, err := requireOK(conf.c.doRequest(r)) if err != nil { return nil, err } resp.Body.Close() wm := &WriteMeta{RequestTime: rtt} return wm, nil }