// Copyright (c) HashiCorp, Inc. // SPDX-License-Identifier: BUSL-1.1 package structs import ( "encoding/json" "fmt" "regexp" "sort" "strings" "github.com/miekg/dns" "golang.org/x/exp/slices" "github.com/hashicorp/consul/acl" "github.com/hashicorp/consul/lib/stringslice" "github.com/hashicorp/consul/types" ) const ( wildcardPrefix = "*." ) // IngressGatewayConfigEntry manages the configuration for an ingress service // with the given name. type IngressGatewayConfigEntry struct { // Kind of the config entry. This will be set to structs.IngressGateway. Kind string // Name is used to match the config entry with its associated ingress gateway // service. This should match the name provided in the service definition. Name string // TLS holds the TLS configuration for this gateway. It would be nicer if it // were a pointer so it could be omitempty when read back in JSON but that // would be a breaking API change now as we currently always return it. TLS GatewayTLSConfig // Listeners declares what ports the ingress gateway should listen on, and // what services to associated to those ports. Listeners []IngressListener // Defaults contains default configuration for all upstream service instances Defaults *IngressServiceConfig `json:",omitempty"` Meta map[string]string `json:",omitempty"` Hash uint64 `json:",omitempty" hash:"ignore"` acl.EnterpriseMeta `hcl:",squash" mapstructure:",squash"` RaftIndex `hash:"ignore"` } func (e *IngressGatewayConfigEntry) SetHash(h uint64) { e.Hash = h } func (e *IngressGatewayConfigEntry) GetHash() uint64 { return e.Hash } type IngressServiceConfig struct { MaxConnections uint32 MaxPendingRequests uint32 MaxConcurrentRequests uint32 // 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"` } type IngressListener struct { // Port declares the port on which the ingress gateway should listen for traffic. Port int // Protocol declares what type of traffic this listener is expected to // receive. Depending on the protocol, a listener might support multiplexing // services over a single port, or additional discovery chain features. The // current supported values are: (tcp | http | http2 | grpc). Protocol string // TLS config for this listener. TLS *GatewayTLSConfig `json:",omitempty"` // Services declares the set of services to which the listener forwards // traffic. // // For "tcp" protocol listeners, only a single service is allowed. // For "http" listeners, multiple services can be declared. Services []IngressService } type IngressService struct { // Name declares the service to which traffic should be forwarded. // // This can either be a specific service, or the wildcard specifier, // "*". If the wildcard specifier is provided, the listener must be of "http" // protocol and means that the listener will forward traffic to all services. // // A name can be specified on multiple listeners, and will be exposed on both // of the listeners Name string // Hosts is a list of hostnames which should be associated to this service on // the defined listener. Only allowed on layer 7 protocols, this will be used // to route traffic to the service by matching the Host header of the HTTP // request. // // If a host is provided for a service that also has a wildcard specifier // defined, the host will override the wildcard-specifier-provided // ".*" domain for that listener. // // This cannot be specified when using the wildcard specifier, "*", or when // using a "tcp" listener. Hosts []string // TLS configuration overrides for this service. At least one entry must exist // in Hosts to use set and the Listener must also have a default Cert loaded // from SDS. TLS *GatewayServiceTLSConfig `json:",omitempty"` // Allow HTTP header manipulation to be configured. RequestHeaders *HTTPHeaderModifiers `json:",omitempty" alias:"request_headers"` ResponseHeaders *HTTPHeaderModifiers `json:",omitempty" alias:"response_headers"` MaxConnections uint32 `json:",omitempty" alias:"max_connections"` MaxPendingRequests uint32 `json:",omitempty" alias:"max_pending_requests"` MaxConcurrentRequests uint32 `json:",omitempty" alias:"max_concurrent_requests"` // 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"` Meta map[string]string `json:",omitempty"` acl.EnterpriseMeta `hcl:",squash" mapstructure:",squash"` } type GatewayTLSConfig struct { // Indicates that TLS should be enabled for this gateway or listener Enabled bool // SDS allows configuring TLS certificate from an SDS service. SDS *GatewayTLSSDSConfig `json:",omitempty"` TLSMinVersion types.TLSVersion `json:",omitempty" alias:"tls_min_version"` TLSMaxVersion types.TLSVersion `json:",omitempty" alias:"tls_max_version"` // Define a subset of cipher suites to restrict // Only applicable to connections negotiated via TLS 1.2 or earlier CipherSuites []types.TLSCipherSuite `json:",omitempty" alias:"cipher_suites"` } type GatewayServiceTLSConfig struct { // Note no Enabled field here since it doesn't make sense to disable TLS on // one host on a TLS-configured listener. // SDS allows configuring TLS certificate from an SDS service. SDS *GatewayTLSSDSConfig `json:",omitempty"` } type GatewayTLSSDSConfig struct { ClusterName string `json:",omitempty" alias:"cluster_name"` CertResource string `json:",omitempty" alias:"cert_resource"` } func (e *IngressGatewayConfigEntry) GetKind() string { return IngressGateway } func (e *IngressGatewayConfigEntry) GetName() string { if e == nil { return "" } return e.Name } func (e *IngressGatewayConfigEntry) GetMeta() map[string]string { if e == nil { return nil } return e.Meta } func (e *IngressGatewayConfigEntry) Normalize() error { if e == nil { return fmt.Errorf("config entry is nil") } e.Kind = IngressGateway e.EnterpriseMeta.Normalize() for i, listener := range e.Listeners { if listener.Protocol == "" { listener.Protocol = "tcp" } listener.Protocol = strings.ToLower(listener.Protocol) for i := range listener.Services { listener.Services[i].EnterpriseMeta.Merge(&e.EnterpriseMeta) listener.Services[i].EnterpriseMeta.Normalize() } // Make sure to set the item back into the array, since we are not using // pointers to structs e.Listeners[i] = listener } h, err := HashConfigEntry(e) if err != nil { return err } e.Hash = h return nil } // validateServiceSDS validates the SDS config for a specific service on a // specific listener. It checks inherited config properties from listener and // gateway level and ensures they are valid all the way down. If called on // several services some of these checks will be duplicated but that isn't a big // deal and it's significantly easier to reason about and read if this is in one // place rather than threaded through the multi-level loop in Validate with // other checks. func (e *IngressGatewayConfigEntry) validateServiceSDS(lis IngressListener, svc IngressService) error { // First work out if there is valid gateway-level SDS config gwSDSClusterSet := false gwSDSCertSet := false if e.TLS.SDS != nil { // Gateway level SDS config must set ClusterName if it specifies a default // certificate. Just a clustername is OK though if certs are specified // per-listener. if e.TLS.SDS.ClusterName == "" && e.TLS.SDS.CertResource != "" { return fmt.Errorf("TLS.SDS.ClusterName is required if CertResource is set") } // Note we rely on the fact that ClusterName must be non-empty if any SDS // properties are defined at this level (as validated above) in validation // below that uses this variable. If that changes we will need to change the // code below too. gwSDSClusterSet = (e.TLS.SDS.ClusterName != "") gwSDSCertSet = (e.TLS.SDS.CertResource != "") } // Validate listener-level SDS config. lisSDSCertSet := false lisSDSClusterSet := false if lis.TLS != nil && lis.TLS.SDS != nil { lisSDSCertSet = (lis.TLS.SDS.CertResource != "") lisSDSClusterSet = (lis.TLS.SDS.ClusterName != "") } // If SDS was setup at gw level but without a default CertResource, the // listener MUST set a CertResource. if gwSDSClusterSet && !gwSDSCertSet && !lisSDSCertSet { return fmt.Errorf("TLS.SDS.CertResource is required if ClusterName is set for gateway (listener on port %d)", lis.Port) } // If listener set a cluster name then it requires a cert resource too. if lisSDSClusterSet && !lisSDSCertSet { return fmt.Errorf("TLS.SDS.CertResource is required if ClusterName is set for listener (listener on port %d)", lis.Port) } // If a listener-level cert is given, we need a cluster from at least one // level. if lisSDSCertSet && !lisSDSClusterSet && !gwSDSClusterSet { return fmt.Errorf("TLS.SDS.ClusterName is required if CertResource is set (listener on port %d)", lis.Port) } // Validate service-level SDS config svcSDSSet := (svc.TLS != nil && svc.TLS.SDS != nil && svc.TLS.SDS.CertResource != "") // Service SDS is only supported with Host names because we need to bind // specific service certs to one or more SNI hostnames. if svcSDSSet && len(svc.Hosts) < 1 { sid := NewServiceID(svc.Name, &svc.EnterpriseMeta) return fmt.Errorf("A service specifying TLS.SDS.CertResource must have at least one item in Hosts (service %q on listener on port %d)", sid.String(), lis.Port) } // If this service specified a certificate, there must be an SDS cluster set // at one of the three levels. if svcSDSSet && svc.TLS.SDS.ClusterName == "" && !lisSDSClusterSet && !gwSDSClusterSet { sid := NewServiceID(svc.Name, &svc.EnterpriseMeta) return fmt.Errorf("TLS.SDS.ClusterName is required if CertResource is set (service %q on listener on port %d)", sid.String(), lis.Port) } return nil } func validateGatewayTLSConfig(tlsCfg GatewayTLSConfig) error { return validateTLSConfig(tlsCfg.TLSMinVersion, tlsCfg.TLSMaxVersion, tlsCfg.CipherSuites) } func (e *IngressGatewayConfigEntry) Validate() error { if err := validateConfigEntryMeta(e.Meta); err != nil { return err } if err := validateGatewayTLSConfig(e.TLS); err != nil { return err } validProtocols := map[string]bool{ "tcp": true, "http": true, "http2": true, "grpc": true, } declaredPorts := make(map[int]bool) for _, listener := range e.Listeners { if _, ok := declaredPorts[listener.Port]; ok { return fmt.Errorf("port %d declared on two listeners", listener.Port) } declaredPorts[listener.Port] = true if _, ok := validProtocols[listener.Protocol]; !ok { return fmt.Errorf("protocol must be 'tcp', 'http', 'http2', or 'grpc'. '%s' is an unsupported protocol", listener.Protocol) } if len(listener.Services) == 0 { return fmt.Errorf("No service declared for listener with port %d", listener.Port) } // Validate that http features aren't being used with tcp or another non-supported protocol. if !IsProtocolHTTPLike(listener.Protocol) && len(listener.Services) > 1 { return fmt.Errorf("Multiple services per listener are only supported for L7 protocols, 'http', 'grpc' and 'http2' (listener on port %d)", listener.Port) } if listener.TLS != nil { if err := validateGatewayTLSConfig(*listener.TLS); err != nil { return err } } declaredHosts := make(map[string]bool) serviceNames := make(map[ServiceID]struct{}) for _, s := range listener.Services { sn := NewServiceName(s.Name, &s.EnterpriseMeta) if err := s.RequestHeaders.Validate(listener.Protocol); err != nil { return fmt.Errorf("request headers %s (service %q on listener on port %d)", err, sn.String(), listener.Port) } if err := s.ResponseHeaders.Validate(listener.Protocol); err != nil { return fmt.Errorf("response headers %s (service %q on listener on port %d)", err, sn.String(), listener.Port) } if listener.Protocol == "tcp" { if s.Name == WildcardSpecifier { return fmt.Errorf("Wildcard service name is only valid for protocol = 'http' (listener on port %d)", listener.Port) } if len(s.Hosts) != 0 { return fmt.Errorf("Associating hosts to a service is not supported for the %s protocol (listener on port %d)", listener.Protocol, listener.Port) } } if s.Name == "" { return fmt.Errorf("Service name cannot be blank (listener on port %d)", listener.Port) } if s.Name == WildcardSpecifier && len(s.Hosts) != 0 { return fmt.Errorf("Associating hosts to a wildcard service is not supported (listener on port %d)", listener.Port) } if s.NamespaceOrDefault() == WildcardSpecifier { return fmt.Errorf("Wildcard namespace is not supported for ingress services (listener on port %d)", listener.Port) } sid := NewServiceID(s.Name, &s.EnterpriseMeta) if _, ok := serviceNames[sid]; ok { return fmt.Errorf("Service %s cannot be added multiple times (listener on port %d)", sid, listener.Port) } serviceNames[sid] = struct{}{} // Validate SDS configuration for this service if err := e.validateServiceSDS(listener, s); err != nil { return err } for _, h := range s.Hosts { if declaredHosts[h] { return fmt.Errorf("Hosts must be unique within a specific listener (listener on port %d)", listener.Port) } declaredHosts[h] = true if err := validateHost(e.TLS.Enabled, h); err != nil { return err } } } } return nil } func validateHost(tlsEnabled bool, host string) error { // Special case '*' so that non-TLS ingress gateways can use it. This allows // an easy demo/testing experience. if host == "*" { if tlsEnabled { return fmt.Errorf("Host '*' is not allowed when TLS is enabled, all hosts must be valid DNS records to add as a DNSSAN") } return nil } if _, ok := dns.IsDomainName(host); !ok { return fmt.Errorf("Host %q must be a valid DNS hostname", host) } if strings.ContainsRune(strings.TrimPrefix(host, wildcardPrefix), '*') { return fmt.Errorf("Host %q is not valid, a wildcard specifier is only allowed as the leftmost label", host) } return nil } // ListRelatedServices implements discoveryChainConfigEntry // // For ingress-gateway config entries this only finds services that are // explicitly linked in the ingress-gateway config entry. Wildcards will not // expand to all services. // // This function is used during discovery chain graph validation to prevent // erroneous sets of config entries from being created. Wildcard ingress // filters out sets with protocol mismatch elsewhere so it isn't an issue here // that needs fixing. func (e *IngressGatewayConfigEntry) ListRelatedServices() []ServiceID { found := make(map[ServiceID]struct{}) for _, listener := range e.Listeners { for _, service := range listener.Services { if service.Name == WildcardSpecifier { continue } svcID := NewServiceID(service.Name, &service.EnterpriseMeta) found[svcID] = struct{}{} } } if len(found) == 0 { return nil } out := make([]ServiceID, 0, len(found)) for svc := range found { out = append(out, svc) } sort.Slice(out, func(i, j int) bool { return out[i].EnterpriseMeta.LessThan(&out[j].EnterpriseMeta) || out[i].ID < out[j].ID }) return out } func (e *IngressGatewayConfigEntry) CanRead(authz acl.Authorizer) error { var authzContext acl.AuthorizerContext e.FillAuthzContext(&authzContext) return authz.ToAllowAuthorizer().ServiceReadAllowed(e.Name, &authzContext) } func (e *IngressGatewayConfigEntry) CanWrite(authz acl.Authorizer) error { var authzContext acl.AuthorizerContext e.FillAuthzContext(&authzContext) return authz.ToAllowAuthorizer().MeshWriteAllowed(&authzContext) } func (e *IngressGatewayConfigEntry) GetRaftIndex() *RaftIndex { if e == nil { return &RaftIndex{} } return &e.RaftIndex } func (e *IngressGatewayConfigEntry) GetEnterpriseMeta() *acl.EnterpriseMeta { if e == nil { return nil } return &e.EnterpriseMeta } func (s *IngressService) ToServiceName() ServiceName { return NewServiceName(s.Name, &s.EnterpriseMeta) } // TerminatingGatewayConfigEntry manages the configuration for a terminating service // with the given name. type TerminatingGatewayConfigEntry struct { Kind string Name string Services []LinkedService Meta map[string]string `json:",omitempty"` Hash uint64 `json:",omitempty" hash:"ignore"` acl.EnterpriseMeta `hcl:",squash" mapstructure:",squash"` RaftIndex `hash:"ignore"` } func (e *TerminatingGatewayConfigEntry) SetHash(h uint64) { e.Hash = h } func (e *TerminatingGatewayConfigEntry) GetHash() uint64 { return e.Hash } // A LinkedService is a service represented by a terminating gateway type LinkedService struct { // Name is the name of the service, as defined in Consul's catalog Name string `json:",omitempty"` // CAFile is the optional path to a CA certificate to use for TLS connections // from the gateway to the linked service CAFile string `json:",omitempty" alias:"ca_file"` // CertFile is the optional path to a client certificate to use for TLS connections // from the gateway to the linked service CertFile string `json:",omitempty" alias:"cert_file"` // KeyFile is the optional path to a private key to use for TLS connections // from the gateway to the linked service KeyFile string `json:",omitempty" alias:"key_file"` // SNI is the optional name to specify during the TLS handshake with a linked service SNI string `json:",omitempty"` //DisableAutoHostRewrite disables terminating gateways auto host rewrite feature when set to true. DisableAutoHostRewrite bool `json:",omitempty"` acl.EnterpriseMeta `hcl:",squash" mapstructure:",squash"` } func (e *TerminatingGatewayConfigEntry) GetKind() string { return TerminatingGateway } func (e *TerminatingGatewayConfigEntry) GetName() string { if e == nil { return "" } return e.Name } func (e *TerminatingGatewayConfigEntry) GetMeta() map[string]string { if e == nil { return nil } return e.Meta } func (e *TerminatingGatewayConfigEntry) Normalize() error { if e == nil { return fmt.Errorf("config entry is nil") } e.Kind = TerminatingGateway e.EnterpriseMeta.Normalize() for i := range e.Services { e.Services[i].EnterpriseMeta.Merge(&e.EnterpriseMeta) e.Services[i].EnterpriseMeta.Normalize() } h, err := HashConfigEntry(e) if err != nil { return err } e.Hash = h return nil } func (e *TerminatingGatewayConfigEntry) Validate() error { if err := validateConfigEntryMeta(e.Meta); err != nil { return err } seen := make(map[ServiceID]bool) for _, svc := range e.Services { if svc.Name == "" { return fmt.Errorf("Service name cannot be blank.") } ns := svc.NamespaceOrDefault() if ns == WildcardSpecifier { return fmt.Errorf("Wildcard namespace is not supported for terminating gateway services") } cid := NewServiceID(svc.Name, &svc.EnterpriseMeta) if err := validateInnerEnterpriseMeta(&svc.EnterpriseMeta, &e.EnterpriseMeta); err != nil { return fmt.Errorf("service %q: %w", cid, err) } // Check for duplicates within the entry if ok := seen[cid]; ok { return fmt.Errorf("Service %q was specified more than once within a namespace", cid.String()) } seen[cid] = true // If either client cert config file was specified then the CA file, client cert, and key file must be specified // Specifying only a CAFile is allowed for one-way TLS if (svc.CertFile != "" || svc.KeyFile != "") && !(svc.CAFile != "" && svc.CertFile != "" && svc.KeyFile != "") { return fmt.Errorf("Service %q must have a CertFile, CAFile, and KeyFile specified for TLS origination", svc.Name) } } return nil } func (e *TerminatingGatewayConfigEntry) CanRead(authz acl.Authorizer) error { var authzContext acl.AuthorizerContext e.FillAuthzContext(&authzContext) return authz.ToAllowAuthorizer().ServiceReadAllowed(e.Name, &authzContext) } func (e *TerminatingGatewayConfigEntry) CanWrite(authz acl.Authorizer) error { var authzContext acl.AuthorizerContext e.FillAuthzContext(&authzContext) return authz.ToAllowAuthorizer().MeshWriteAllowed(&authzContext) } func (e *TerminatingGatewayConfigEntry) GetRaftIndex() *RaftIndex { if e == nil { return &RaftIndex{} } return &e.RaftIndex } func (e *TerminatingGatewayConfigEntry) GetEnterpriseMeta() *acl.EnterpriseMeta { if e == nil { return nil } return &e.EnterpriseMeta } func (e *TerminatingGatewayConfigEntry) Warnings() []string { if e == nil { return nil } warnings := make([]string, 0) for _, svc := range e.Services { if (svc.CAFile != "" || svc.CertFile != "" || svc.KeyFile != "") && svc.SNI == "" { warning := fmt.Sprintf("TLS is configured but SNI is not set for service %q. Enabling SNI is strongly recommended when using TLS.", svc.Name) warnings = append(warnings, warning) } } return warnings } type GatewayServiceKind string const ( GatewayServiceKindUnknown GatewayServiceKind = "" GatewayServiceKindDestination GatewayServiceKind = "destination" GatewayServiceKindService GatewayServiceKind = "service" ) // GatewayService is used to associate gateways with their linked services. type GatewayService struct { Gateway ServiceName Service ServiceName GatewayKind ServiceKind Port int `json:",omitempty"` Protocol string `json:",omitempty"` Hosts []string `json:",omitempty"` CAFile string `json:",omitempty"` CertFile string `json:",omitempty"` KeyFile string `json:",omitempty"` SNI string `json:",omitempty"` FromWildcard bool `json:",omitempty"` ServiceKind GatewayServiceKind `json:",omitempty"` RaftIndex AutoHostRewrite bool `json:",omitempty"` } type GatewayServices []*GatewayService func (g *GatewayService) Addresses(defaultHosts []string) []string { if g.Port == 0 { return nil } hosts := g.Hosts if len(hosts) == 0 { hosts = defaultHosts } var addresses []string // loop through the hosts and format that into domain.name:port format, // ensuring we trim any trailing DNS . characters from the domain name as we // go for _, h := range hosts { addresses = append(addresses, fmt.Sprintf("%s:%d", strings.TrimRight(h, "."), g.Port)) } return addresses } func (g *GatewayService) IsSame(o *GatewayService) bool { return g.Gateway.Matches(o.Gateway) && g.Service.Matches(o.Service) && g.GatewayKind == o.GatewayKind && g.Port == o.Port && g.Protocol == o.Protocol && stringslice.Equal(g.Hosts, o.Hosts) && g.CAFile == o.CAFile && g.CertFile == o.CertFile && g.KeyFile == o.KeyFile && g.SNI == o.SNI && g.ServiceKind == o.ServiceKind && g.FromWildcard == o.FromWildcard } func (g *GatewayService) Clone() *GatewayService { return &GatewayService{ Gateway: g.Gateway, Service: g.Service, GatewayKind: g.GatewayKind, Port: g.Port, Protocol: g.Protocol, // See https://github.com/go101/go101/wiki/How-to-efficiently-clone-a-slice%3F Hosts: append(g.Hosts[:0:0], g.Hosts...), CAFile: g.CAFile, CertFile: g.CertFile, KeyFile: g.KeyFile, SNI: g.SNI, FromWildcard: g.FromWildcard, RaftIndex: g.RaftIndex, ServiceKind: g.ServiceKind, AutoHostRewrite: g.AutoHostRewrite, } } // APIGatewayConfigEntry manages the configuration for an API gateway service // with the given name. type APIGatewayConfigEntry struct { // Kind of the config entry. This will be set to structs.APIGateway. Kind string // Name is used to match the config entry with its associated API gateway // service. This should match the name provided in the service definition. Name string // Listeners is the set of listener configuration to which an API Gateway // might bind. Listeners []APIGatewayListener // Status is the asynchronous status which an APIGateway propagates to the user. Status Status Meta map[string]string `json:",omitempty"` Hash uint64 `json:",omitempty" hash:"ignore"` acl.EnterpriseMeta `hcl:",squash" mapstructure:",squash"` RaftIndex `hash:"ignore"` } func (e *APIGatewayConfigEntry) SetHash(h uint64) { e.Hash = h } func (e *APIGatewayConfigEntry) GetHash() uint64 { return e.Hash } func (e *APIGatewayConfigEntry) GetKind() string { return APIGateway } func (e *APIGatewayConfigEntry) GetName() string { return e.Name } func (e *APIGatewayConfigEntry) GetMeta() map[string]string { return e.Meta } func (e *APIGatewayConfigEntry) GetRaftIndex() *RaftIndex { return &e.RaftIndex } func (e *APIGatewayConfigEntry) GetEnterpriseMeta() *acl.EnterpriseMeta { return &e.EnterpriseMeta } var _ ControlledConfigEntry = (*APIGatewayConfigEntry)(nil) func (e *APIGatewayConfigEntry) GetStatus() Status { return e.Status } func (e *APIGatewayConfigEntry) SetStatus(status Status) { e.Status = status } func (e *APIGatewayConfigEntry) DefaultStatus() Status { return Status{} } func (e *APIGatewayConfigEntry) ListenerIsReady(name string) bool { for _, condition := range e.Status.Conditions { if !condition.Resource.IsSame(&ResourceReference{ Kind: APIGateway, SectionName: name, Name: e.Name, EnterpriseMeta: e.EnterpriseMeta, }) { continue } if condition.Type == "Conflicted" && condition.Status == "True" { return false } } return true } func (e *APIGatewayConfigEntry) Normalize() error { for i, listener := range e.Listeners { protocol := strings.ToLower(string(listener.Protocol)) listener.Protocol = APIGatewayListenerProtocol(protocol) e.Listeners[i] = listener for i, cert := range listener.TLS.Certificates { if cert.Kind == "" { cert.Kind = InlineCertificate } cert.EnterpriseMeta.Merge(e.GetEnterpriseMeta()) cert.EnterpriseMeta.Normalize() listener.TLS.Certificates[i] = cert } } h, err := HashConfigEntry(e) if err != nil { return err } e.Hash = h return nil } func (e *APIGatewayConfigEntry) Validate() error { if err := validateConfigEntryMeta(e.Meta); err != nil { return err } if len(e.Listeners) == 0 { return fmt.Errorf("api gateway must have at least one listener") } if err := e.validateListenerNames(); err != nil { return err } if err := e.validateMergedListeners(); err != nil { return err } return e.validateListeners() } var listenerNameRegex = regexp.MustCompile(`^[a-z0-9]([-a-z0-9]*[a-z0-9])?(\.[a-z0-9]([-a-z0-9]*[a-z0-9])?)*$`) func (e *APIGatewayConfigEntry) validateListenerNames() error { listeners := make(map[string]struct{}) for _, listener := range e.Listeners { if len(listener.Name) < 1 || !listenerNameRegex.MatchString(listener.Name) { return fmt.Errorf("listener name %q is invalid, must be at least 1 character and contain only letters, numbers, or dashes", listener.Name) } if _, found := listeners[listener.Name]; found { return fmt.Errorf("found multiple listeners with the name %q", listener.Name) } listeners[listener.Name] = struct{}{} } return nil } func (e *APIGatewayConfigEntry) validateMergedListeners() error { listeners := make(map[int]APIGatewayListener) for _, listener := range e.Listeners { merged, found := listeners[listener.Port] if found && (merged.Hostname != listener.Hostname || merged.Protocol != listener.Protocol) { return fmt.Errorf("listeners %q and %q cannot be merged", merged.Name, listener.Name) } listeners[listener.Port] = listener } return nil } func (e *APIGatewayConfigEntry) validateListeners() error { validProtocols := map[APIGatewayListenerProtocol]bool{ ListenerProtocolHTTP: true, ListenerProtocolTCP: true, } allowedCertificateKinds := map[string]bool{ InlineCertificate: true, } for _, listener := range e.Listeners { if !validProtocols[listener.Protocol] { return fmt.Errorf("unsupported listener protocol %q, must be one of 'tcp', or 'http'", listener.Protocol) } if listener.Protocol == ListenerProtocolTCP && listener.Hostname != "" { // TODO: once we have SNI matching we should be able to implement this return fmt.Errorf("hostname specification is not supported when using TCP") } if listener.Port <= 0 || listener.Port > 65535 { return fmt.Errorf("listener port %d not in the range 1-65535", listener.Port) } if strings.ContainsRune(strings.TrimPrefix(listener.Hostname, wildcardPrefix), '*') { return fmt.Errorf("host %q is not valid, a wildcard specifier is only allowed as the left-most label", listener.Hostname) } for _, certificate := range listener.TLS.Certificates { if !allowedCertificateKinds[certificate.Kind] { return fmt.Errorf("unsupported certificate kind: %q, must be 'inline-certificate'", certificate.Kind) } if certificate.Name == "" { return fmt.Errorf("certificate reference must have a name") } } if err := validateTLSConfig(listener.TLS.MinVersion, listener.TLS.MaxVersion, listener.TLS.CipherSuites); err != nil { return err } } return nil } func (e *APIGatewayConfigEntry) CanRead(authz acl.Authorizer) error { var authzContext acl.AuthorizerContext e.FillAuthzContext(&authzContext) return authz.ToAllowAuthorizer().ServiceReadAllowed(e.Name, &authzContext) } func (e *APIGatewayConfigEntry) CanWrite(authz acl.Authorizer) error { var authzContext acl.AuthorizerContext e.FillAuthzContext(&authzContext) return authz.ToAllowAuthorizer().MeshWriteAllowed(&authzContext) } // APIGatewayListenerProtocol is the protocol that an APIGateway listener uses type APIGatewayListenerProtocol string const ( ListenerProtocolHTTP APIGatewayListenerProtocol = "http" ListenerProtocolTCP APIGatewayListenerProtocol = "tcp" ) // APIGatewayListener represents an individual listener for an APIGateway type APIGatewayListener struct { // Name is the name of the listener in a given gateway. This must be // unique within a gateway. Name string // Hostname is the host name that a listener should be bound to. If // unspecified, the listener accepts requests for all hostnames. Hostname string // Port is the port at which this listener should bind. Port int // Protocol is the protocol that a listener should use. It must // either be http or tcp. Protocol APIGatewayListenerProtocol // TLS is the TLS settings for the listener. TLS APIGatewayTLSConfiguration // Override is the policy that overrides all other policy and route specific configuration Override *APIGatewayPolicy `json:",omitempty"` // Default is the policy that is the default for the listener and route, routes can override this behavior Default *APIGatewayPolicy `json:",omitempty"` } // APIGatewayPolicy holds the policy that configures the gateway listener, this is used in the `Override` and `Default` fields of a listener type APIGatewayPolicy struct { // JWT holds the JWT configuration for the Listener JWT *APIGatewayJWTRequirement `json:",omitempty"` } func (l APIGatewayListener) GetHostname() string { if l.Hostname != "" { return l.Hostname } return "*" } // APIGatewayTLSConfiguration specifies the configuration of a listener’s // TLS settings. type APIGatewayTLSConfiguration struct { // Certificates is a set of references to certificates // that a gateway listener uses for TLS termination. Certificates []ResourceReference // MaxVersion is the maximum TLS version that the listener // should support. MaxVersion types.TLSVersion // MinVersion is the minimum TLS version that the listener // should support. MinVersion types.TLSVersion // CipherSuites is the cipher suites that the listener should support. CipherSuites []types.TLSCipherSuite } // IsEmpty returns true if all values in the struct are nil or empty. func (a *APIGatewayTLSConfiguration) IsEmpty() bool { return len(a.Certificates) == 0 && len(a.MaxVersion) == 0 && len(a.MinVersion) == 0 && len(a.CipherSuites) == 0 } // ServiceRouteReferences is a map with a key of ServiceName type for a routed to service from a // bound gateway listener with a value being a slice of resource references of the routes that reference the service type ServiceRouteReferences map[ServiceName][]ResourceReference func (s ServiceRouteReferences) AddService(key ServiceName, routeRef ResourceReference) { if s[key] == nil { s[key] = make([]ResourceReference, 0) } if slices.Contains(s[key], routeRef) { return } s[key] = append(s[key], routeRef) } func (s ServiceRouteReferences) RemoveRouteRef(routeRef ResourceReference) { for key := range s { for idx, ref := range s[key] { if ref.IsSame(&routeRef) { s[key] = append(s[key][0:idx], s[key][idx+1:]...) if len(s[key]) == 0 { delete(s, key) } } } } } // this is to make the map value serializable for tests that compare the json output of the // boundAPIGateway func (s ServiceRouteReferences) MarshalJSON() ([]byte, error) { m := make(map[string][]ResourceReference, len(s)) for key, val := range s { m[key.String()] = val } return json.Marshal(m) } // BoundAPIGatewayConfigEntry manages the configuration for a bound API // gateway with the given name. This type is never written from the client. // It is only written by the controller in order to represent an API gateway // and the resources that are bound to it. type BoundAPIGatewayConfigEntry struct { // Kind of the config entry. This will be set to structs.BoundAPIGateway. Kind string // Name is used to match the config entry with its associated API gateway // service. This should match the name provided in the corresponding API // gateway service definition. Name string // Listeners are the valid listeners of an APIGateway with information about // what certificates and routes have successfully bound to it. Listeners []BoundAPIGatewayListener // Services are all the services that are routed to from an APIGateway Services ServiceRouteReferences Meta map[string]string `json:",omitempty"` Hash uint64 `json:",omitempty" hash:"ignore"` acl.EnterpriseMeta `hcl:",squash" mapstructure:",squash"` RaftIndex `hash:"ignore"` } func (e *BoundAPIGatewayConfigEntry) SetHash(h uint64) { e.Hash = h } func (e *BoundAPIGatewayConfigEntry) GetHash() uint64 { return e.Hash } func (e *BoundAPIGatewayConfigEntry) IsSame(other *BoundAPIGatewayConfigEntry) bool { listeners := map[string]BoundAPIGatewayListener{} for _, listener := range e.Listeners { listeners[listener.Name] = listener } otherListeners := map[string]BoundAPIGatewayListener{} for _, listener := range other.Listeners { otherListeners[listener.Name] = listener } if len(listeners) != len(otherListeners) { return false } for name, listener := range listeners { otherListener, found := otherListeners[name] if !found { return false } if !listener.IsSame(otherListener) { return false } } if len(e.Services) != len(other.Services) { return false } for key, refs := range e.Services { if _, ok := other.Services[key]; !ok { return false } if len(refs) != len(other.Services[key]) { return false } for idx, ref := range refs { if !ref.IsSame(&other.Services[key][idx]) { return false } } } return true } // IsInitializedForGateway returns whether or not this bound api gateway is initialized with the given api gateway // including having corresponding listener entries for the gateway. func (e *BoundAPIGatewayConfigEntry) IsInitializedForGateway(gateway *APIGatewayConfigEntry) bool { if e.Name != gateway.Name || !e.EnterpriseMeta.IsSame(&gateway.EnterpriseMeta) { return false } // ensure that this has the same listener data (i.e. it's been reconciled) if len(gateway.Listeners) != len(e.Listeners) { return false } for i, listener := range e.Listeners { if listener.Name != gateway.Listeners[i].Name { return false } } return true } func (e *BoundAPIGatewayConfigEntry) GetKind() string { return BoundAPIGateway } func (e *BoundAPIGatewayConfigEntry) GetName() string { return e.Name } func (e *BoundAPIGatewayConfigEntry) GetMeta() map[string]string { return e.Meta } func (e *BoundAPIGatewayConfigEntry) Normalize() error { for i, listener := range e.Listeners { for j, route := range listener.Routes { route.EnterpriseMeta.Merge(&e.EnterpriseMeta) route.EnterpriseMeta.Normalize() listener.Routes[j] = route } for j, cert := range listener.Certificates { cert.EnterpriseMeta.Merge(&e.EnterpriseMeta) cert.EnterpriseMeta.Normalize() listener.Certificates[j] = cert } e.Listeners[i] = listener } h, err := HashConfigEntry(e) if err != nil { return err } e.Hash = h return nil } func (e *BoundAPIGatewayConfigEntry) Validate() error { allowedCertificateKinds := map[string]bool{ InlineCertificate: true, } allowedRouteKinds := map[string]bool{ HTTPRoute: true, TCPRoute: true, } // These should already be validated by upstream validation // logic in the gateways/routes, but just in case we validate // here as well. for _, listener := range e.Listeners { for _, certificate := range listener.Certificates { if !allowedCertificateKinds[certificate.Kind] { return fmt.Errorf("unsupported certificate kind: %q, must be 'inline-certificate'", certificate.Kind) } if certificate.Name == "" { return fmt.Errorf("certificate reference must have a name") } } for _, route := range listener.Routes { if !allowedRouteKinds[route.Kind] { return fmt.Errorf("unsupported route kind: %q, must be one of 'http-route', or 'tcp-route'", route.Kind) } if route.Name == "" { return fmt.Errorf("route reference must have a name") } } } return nil } func (e *BoundAPIGatewayConfigEntry) CanRead(authz acl.Authorizer) error { var authzContext acl.AuthorizerContext e.FillAuthzContext(&authzContext) return authz.ToAllowAuthorizer().ServiceReadAllowed(e.Name, &authzContext) } func (e *BoundAPIGatewayConfigEntry) CanWrite(_ acl.Authorizer) error { return acl.PermissionDenied("only writeable by controller") } func (e *BoundAPIGatewayConfigEntry) GetRaftIndex() *RaftIndex { if e == nil { return &RaftIndex{} } return &e.RaftIndex } func (e *BoundAPIGatewayConfigEntry) GetEnterpriseMeta() *acl.EnterpriseMeta { if e == nil { return nil } return &e.EnterpriseMeta } func (e *BoundAPIGatewayConfigEntry) ListRelatedServices() []ServiceID { if len(e.Services) == 0 { return nil } ids := make([]ServiceID, 0, len(e.Services)) for key := range e.Services { ids = append(ids, key.ToServiceID()) } return ids } // BoundAPIGatewayListener is an API gateway listener with information // about the routes and certificates that have successfully bound to it. type BoundAPIGatewayListener struct { Name string Routes []ResourceReference Certificates []ResourceReference } func sameResources(first, second []ResourceReference) bool { if len(first) != len(second) { return false } for _, firstRef := range first { found := false for _, secondRef := range second { if firstRef.IsSame(&secondRef) { found = true break } } if !found { return false } } return true } func (l BoundAPIGatewayListener) IsSame(other BoundAPIGatewayListener) bool { if l.Name != other.Name { return false } if !sameResources(l.Certificates, other.Certificates) { return false } return sameResources(l.Routes, other.Routes) } // BindRoute is used to create or update a route on the listener. // It returns true if the route was able to be bound to the listener. // Routes should only bind to listeners with their same section name // and protocol. Be sure to check both of these before attempting // to bind a route to the listener. func (l *BoundAPIGatewayListener) BindRoute(routeRef ResourceReference) bool { // If the listener has no routes, create a new slice of routes with the given route. if l.Routes == nil { l.Routes = []ResourceReference{routeRef} return true } // If the route matches an existing route, update it and return. for i, listenerRoute := range l.Routes { if listenerRoute.Kind == routeRef.Kind && listenerRoute.Name == routeRef.Name && listenerRoute.EnterpriseMeta.IsSame(&routeRef.EnterpriseMeta) { l.Routes[i] = routeRef return true } } // If the route is new to the listener, append it. l.Routes = append(l.Routes, routeRef) return true } func (l *BoundAPIGatewayListener) UnbindRoute(route ResourceReference) bool { if l == nil { return false } for i, listenerRoute := range l.Routes { if listenerRoute.Kind == route.Kind && listenerRoute.Name == route.Name && listenerRoute.EnterpriseMeta.IsSame(&route.EnterpriseMeta) { l.Routes = append(l.Routes[:i], l.Routes[i+1:]...) return true } } return false } func (e *BoundAPIGatewayConfigEntry) GetStatus() Status { return Status{} } func (e *BoundAPIGatewayConfigEntry) SetStatus(status Status) {} func (e *BoundAPIGatewayConfigEntry) DefaultStatus() Status { return Status{} }