package structs import ( "encoding/json" "fmt" "github.com/hashicorp/consul/api" "github.com/hashicorp/consul/lib" ) const ( defaultExposeProtocol = "http" ) var allowedExposeProtocols = map[string]bool{"http": true, "http2": true} 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 Upstrea Connect connections // should be made to a mesh gateway in the local datacenter. This is 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 configured and used // This is a struct to allow for future additions without having more free-hanging // configuration items all over the place type MeshGatewayConfig struct { // The Mesh Gateway routing mode Mode MeshGatewayMode `json:",omitempty"` } func (c *MeshGatewayConfig) IsZero() bool { zeroVal := MeshGatewayConfig{} return *c == zeroVal } func (base *MeshGatewayConfig) OverlayWith(overlay MeshGatewayConfig) MeshGatewayConfig { out := *base if overlay.Mode != MeshGatewayModeDefault { out.Mode = overlay.Mode } return out } func ValidateMeshGatewayMode(mode string) (MeshGatewayMode, error) { switch MeshGatewayMode(mode) { case MeshGatewayModeNone: return MeshGatewayModeNone, nil case MeshGatewayModeDefault: return MeshGatewayModeDefault, nil case MeshGatewayModeLocal: return MeshGatewayModeLocal, nil case MeshGatewayModeRemote: return MeshGatewayModeRemote, nil default: return MeshGatewayModeDefault, fmt.Errorf("Invalid Mesh Gateway Mode: %q", mode) } } func (c *MeshGatewayConfig) ToAPI() api.MeshGatewayConfig { return api.MeshGatewayConfig{Mode: api.MeshGatewayMode(c.Mode)} } // ConnectProxyConfig describes the configuration needed for any proxy managed // or unmanaged. It describes a single logical service's listener and optionally // upstreams and sidecar-related config for a single instance. To describe a // centralized proxy that routed traffic for multiple services, a different one // of these would be needed for each, sharing the same LogicalProxyID. type ConnectProxyConfig struct { // DestinationServiceName is required and is the name of the service to accept // traffic for. DestinationServiceName string `json:",omitempty" alias:"destination_service_name"` // DestinationServiceID is optional and should only be specified for // "side-car" style proxies where the proxy is in front of just a single // instance of the service. It should be set to the service ID of the instance // being represented which must be registered to the same agent. It's valid to // provide a service ID that does not yet exist to avoid timing issues when // bootstrapping a service with a proxy. DestinationServiceID string `json:",omitempty" alias:"destination_service_id"` // LocalServiceAddress is the address of the local service instance. It is // optional and should only be specified for "side-car" style proxies. It will // default to 127.0.0.1 if the proxy is a "side-car" (DestinationServiceID is // set) but otherwise will be ignored. LocalServiceAddress string `json:",omitempty" alias:"local_service_address"` // LocalServicePort is the port of the local service instance. It is optional // and should only be specified for "side-car" style proxies. It will default // to the registered port for the instance if the proxy is a "side-car" // (DestinationServiceID is set) but otherwise will be ignored. LocalServicePort int `json:",omitempty" alias:"local_service_port"` // Config is the arbitrary configuration data provided with the proxy // registration. Config map[string]interface{} `json:",omitempty" bexpr:"-"` // Upstreams describes any upstream dependencies the proxy instance should // setup. Upstreams Upstreams `json:",omitempty"` // MeshGateway defines the mesh gateway configuration for this upstream MeshGateway MeshGatewayConfig `json:",omitempty" alias:"mesh_gateway"` // Expose defines whether checks or paths are exposed through the proxy Expose ExposeConfig `json:",omitempty"` // TransparentProxy toggles whether inbound and outbound traffic is being // redirected to the proxy. TransparentProxy bool `json:",omitempty" alias:"transparent_proxy"` } func (t *ConnectProxyConfig) UnmarshalJSON(data []byte) (err error) { type Alias ConnectProxyConfig aux := &struct { DestinationServiceNameSnake string `json:"destination_service_name"` DestinationServiceIDSnake string `json:"destination_service_id"` LocalServiceAddressSnake string `json:"local_service_address"` LocalServicePortSnake int `json:"local_service_port"` MeshGatewaySnake MeshGatewayConfig `json:"mesh_gateway"` TransparentProxySnake bool `json:"transparent_proxy"` *Alias }{ Alias: (*Alias)(t), } if err = lib.UnmarshalJSON(data, &aux); err != nil { return err } if t.DestinationServiceName == "" { t.DestinationServiceName = aux.DestinationServiceNameSnake } if t.DestinationServiceID == "" { t.DestinationServiceID = aux.DestinationServiceIDSnake } if t.LocalServiceAddress == "" { t.LocalServiceAddress = aux.LocalServiceAddressSnake } if t.LocalServicePort == 0 { t.LocalServicePort = aux.LocalServicePortSnake } if t.MeshGateway.Mode == "" { t.MeshGateway.Mode = aux.MeshGatewaySnake.Mode } if !t.TransparentProxy { t.TransparentProxy = aux.TransparentProxySnake } return nil } func (c *ConnectProxyConfig) MarshalJSON() ([]byte, error) { type typeCopy ConnectProxyConfig copy := typeCopy(*c) proxyConfig, err := lib.MapWalk(copy.Config) if err != nil { return nil, err } copy.Config = proxyConfig return json.Marshal(©) } // ToAPI returns the api struct with the same fields. We have duplicates to // avoid the api package depending on this one which imports a ton of Consul's // core which you don't want if you are just trying to use our client in your // app. func (c *ConnectProxyConfig) ToAPI() *api.AgentServiceConnectProxyConfig { return &api.AgentServiceConnectProxyConfig{ DestinationServiceName: c.DestinationServiceName, DestinationServiceID: c.DestinationServiceID, LocalServiceAddress: c.LocalServiceAddress, LocalServicePort: c.LocalServicePort, Config: c.Config, Upstreams: c.Upstreams.ToAPI(), MeshGateway: c.MeshGateway.ToAPI(), Expose: c.Expose.ToAPI(), TransparentProxy: c.TransparentProxy, } } const ( UpstreamDestTypeService = "service" UpstreamDestTypePreparedQuery = "prepared_query" ) // Upstreams is a list of upstreams. Aliased to allow ToAPI method. type Upstreams []Upstream // ToAPI returns the api structs with the same fields. We have duplicates to // avoid the api package depending on this one which imports a ton of Consul's // core which you don't want if you are just trying to use our client in your // app. func (us Upstreams) ToAPI() []api.Upstream { a := make([]api.Upstream, len(us)) for i, u := range us { a[i] = u.ToAPI() } return a } // UpstreamsFromAPI is a helper for converting api.Upstream to Upstream. func UpstreamsFromAPI(us []api.Upstream) Upstreams { a := make([]Upstream, len(us)) for i, u := range us { a[i] = UpstreamFromAPI(u) } return a } // Upstream represents a single upstream dependency for a service or proxy. It // describes the mechanism used to discover instances to communicate with (the // Target) as well as any potential client configuration that may be useful such // as load balancer options, timeouts etc. type Upstream struct { // Destination fields are the required ones for determining what this upstream // points to. Depending on DestinationType some other fields below might // further restrict the set of instances allowable. // // DestinationType would be better as an int constant but even with custom // JSON marshallers it causes havoc with all the mapstructure mangling we do // on service definitions in various places. DestinationType string `alias:"destination_type"` DestinationNamespace string `json:",omitempty" alias:"destination_namespace"` DestinationName string `alias:"destination_name"` // Datacenter that the service discovery request should be run against. Note // for prepared queries, the actual results might be from a different // datacenter. Datacenter string // LocalBindAddress is the ip address a side-car proxy should listen on for // traffic destined for this upstream service. Default if empty is 127.0.0.1. LocalBindAddress string `json:",omitempty" alias:"local_bind_address"` // LocalBindPort is the ip address a side-car proxy should listen on for traffic // destined for this upstream service. Required. LocalBindPort int `alias:"local_bind_port"` // Config is an opaque config that is specific to the proxy process being run. // It can be used to pass arbitrary configuration for this specific upstream // to the proxy. Config map[string]interface{} `json:",omitempty" bexpr:"-"` // MeshGateway is the configuration for mesh gateway usage of this upstream MeshGateway MeshGatewayConfig `json:",omitempty" alias:"mesh_gateway"` // IngressHosts are a list of hosts that should route to this upstream from // an ingress gateway. This cannot and should not be set by a user, it is // used internally to store the association of hosts to an upstream service. IngressHosts []string `json:"-" bexpr:"-"` // CentrallyConfigured indicates whether the upstream was defined in a proxy // instance registration or whether it was generated from a config entry. CentrallyConfigured bool } func (t *Upstream) UnmarshalJSON(data []byte) (err error) { type Alias Upstream aux := &struct { DestinationTypeSnake string `json:"destination_type"` DestinationNamespaceSnake string `json:"destination_namespace"` DestinationNameSnake string `json:"destination_name"` LocalBindAddressSnake string `json:"local_bind_address"` LocalBindPortSnake int `json:"local_bind_port"` MeshGatewaySnake MeshGatewayConfig `json:"mesh_gateway"` *Alias }{ Alias: (*Alias)(t), } if err = lib.UnmarshalJSON(data, &aux); err != nil { return err } if t.DestinationType == "" { t.DestinationType = aux.DestinationTypeSnake } if t.DestinationNamespace == "" { t.DestinationNamespace = aux.DestinationNamespaceSnake } if t.DestinationName == "" { t.DestinationName = aux.DestinationNameSnake } if t.LocalBindAddress == "" { t.LocalBindAddress = aux.LocalBindAddressSnake } if t.LocalBindPort == 0 { t.LocalBindPort = aux.LocalBindPortSnake } if t.MeshGateway.Mode == "" { t.MeshGateway.Mode = aux.MeshGatewaySnake.Mode } return nil } // Validate sanity checks the struct is valid func (u *Upstream) Validate() error { switch u.DestinationType { case UpstreamDestTypePreparedQuery: case UpstreamDestTypeService, "": default: return fmt.Errorf("unknown upstream destination type: %q", u.DestinationType) } if u.DestinationName == "" { return fmt.Errorf("upstream destination name cannot be empty") } if u.LocalBindPort == 0 && !u.CentrallyConfigured { return fmt.Errorf("upstream local bind port cannot be zero") } return nil } // ToAPI returns the api structs with the same fields. We have duplicates to // avoid the api package depending on this one which imports a ton of Consul's // core which you don't want if you are just trying to use our client in your // app. func (u *Upstream) ToAPI() api.Upstream { return api.Upstream{ DestinationType: api.UpstreamDestType(u.DestinationType), DestinationNamespace: u.DestinationNamespace, DestinationName: u.DestinationName, Datacenter: u.Datacenter, LocalBindAddress: u.LocalBindAddress, LocalBindPort: u.LocalBindPort, Config: u.Config, MeshGateway: u.MeshGateway.ToAPI(), } } // ToKey returns a value-type representation that uniquely identifies the // upstream in a canonical way. Set and unset values are deliberately handled // differently. // // These fields should be user-specificed explicit values and not inferred // values. func (u *Upstream) ToKey() UpstreamKey { return UpstreamKey{ DestinationType: u.DestinationType, DestinationNamespace: u.DestinationNamespace, DestinationName: u.DestinationName, Datacenter: u.Datacenter, } } type UpstreamKey struct { DestinationType string DestinationName string DestinationNamespace string Datacenter string } func (k UpstreamKey) String() string { return fmt.Sprintf( "[type=%q, name=%q, namespace=%q, datacenter=%q]", k.DestinationType, k.DestinationName, k.DestinationNamespace, k.Datacenter, ) } // Identifier returns a string representation that uniquely identifies the // upstream in a canonical but human readable way. func (u *Upstream) Identifier() string { name := u.DestinationName typ := u.DestinationType if typ != UpstreamDestTypePreparedQuery && u.DestinationNamespace != "" && u.DestinationNamespace != IntentionDefaultNamespace { name = u.DestinationNamespace + "/" + u.DestinationName } if u.Datacenter != "" { name += "?dc=" + u.Datacenter } // Service is default type so never prefix it. This is more readable and long // term it is the only type that matters so we can drop the prefix and have // nicer naming in metrics etc. if typ == "" || typ == UpstreamDestTypeService { return name } return typ + ":" + name } // String implements Stringer by returning the Identifier. func (u *Upstream) String() string { return u.Identifier() } // UpstreamFromAPI is a helper for converting api.Upstream to Upstream. func UpstreamFromAPI(u api.Upstream) Upstream { return Upstream{ DestinationType: string(u.DestinationType), DestinationNamespace: u.DestinationNamespace, DestinationName: u.DestinationName, Datacenter: u.Datacenter, LocalBindAddress: u.LocalBindAddress, LocalBindPort: u.LocalBindPort, Config: u.Config, } } // 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"` } func (e ExposeConfig) Clone() ExposeConfig { e2 := e if len(e.Paths) > 0 { e2.Paths = make([]ExposePath, 0, len(e.Paths)) for _, p := range e.Paths { e2.Paths = append(e2.Paths, p) } } return e2 } 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 `json:",omitempty" alias:"parsed_from_check"` } func (t *ExposePath) UnmarshalJSON(data []byte) (err error) { type Alias ExposePath aux := &struct { ListenerPortSnake int `json:"listener_port"` LocalPathPortSnake int `json:"local_path_port"` ParsedFromCheckSnake bool `json:"parsed_from_check"` *Alias }{ Alias: (*Alias)(t), } if err = lib.UnmarshalJSON(data, &aux); err != nil { return err } if t.LocalPathPort == 0 { t.LocalPathPort = aux.LocalPathPortSnake } if t.ListenerPort == 0 { t.ListenerPort = aux.ListenerPortSnake } if aux.ParsedFromCheckSnake { t.ParsedFromCheck = true } return nil } func (e *ExposeConfig) ToAPI() api.ExposeConfig { paths := make([]api.ExposePath, 0) for _, p := range e.Paths { paths = append(paths, p.ToAPI()) } if e.Paths == nil { paths = nil } return api.ExposeConfig{ Checks: e.Checks, Paths: paths, } } func (p *ExposePath) ToAPI() api.ExposePath { return api.ExposePath{ ListenerPort: p.ListenerPort, Path: p.Path, LocalPathPort: p.LocalPathPort, Protocol: p.Protocol, ParsedFromCheck: p.ParsedFromCheck, } } // Finalize validates ExposeConfig and sets default values func (e *ExposeConfig) Finalize() { for i := 0; i < len(e.Paths); i++ { path := &e.Paths[i] if path.Protocol == "" { path.Protocol = defaultExposeProtocol } } }