package server import ( "errors" "fmt" "net/http" "net/url" "path" "sync/atomic" "time" "github.com/gorilla/mux" "github.com/coreos/dex/connector" "github.com/coreos/dex/storage" ) // Connector is a connector with metadata. type Connector struct { ID string DisplayName string Connector connector.Connector } // Config holds the server's configuration options. // // Multiple servers using the same storage are expected to be configured identically. type Config struct { Issuer string // The backing persistence layer. Storage storage.Storage // Strategies for federated identity. Connectors []Connector // Valid values are "code" to enable the code flow and "token" to enable the implicit // flow. If no response types are supplied this value defaults to "code". SupportedResponseTypes []string RotateKeysAfter time.Duration // Defaults to 6 hours. IDTokensValidFor time.Duration // Defaults to 24 hours // If specified, the server will use this function for determining time. Now func() time.Time } func value(val, defaultValue time.Duration) time.Duration { if val == 0 { return defaultValue } return val } // Server is the top level object. type Server struct { issuerURL url.URL // Read-only map of connector IDs to connectors. connectors map[string]Connector storage storage.Storage mux http.Handler // If enabled, don't prompt user for approval after logging in through connector. // No package level API to set this, only used in tests. skipApproval bool supportedResponseTypes map[string]bool now func() time.Time idTokensValidFor time.Duration } // New constructs a server from the provided config. func New(c Config) (*Server, error) { return newServer(c, defaultRotationStrategy( value(c.RotateKeysAfter, 6*time.Hour), value(c.IDTokensValidFor, 24*time.Hour), )) } func newServer(c Config, rotationStrategy rotationStrategy) (*Server, error) { issuerURL, err := url.Parse(c.Issuer) if err != nil { return nil, fmt.Errorf("server: can't parse issuer URL") } if len(c.Connectors) == 0 { return nil, errors.New("server: no connectors specified") } if c.Storage == nil { return nil, errors.New("server: storage cannot be nil") } if len(c.SupportedResponseTypes) == 0 { c.SupportedResponseTypes = []string{responseTypeCode} } supported := make(map[string]bool) for _, respType := range c.SupportedResponseTypes { switch respType { case responseTypeCode, responseTypeToken: default: return nil, fmt.Errorf("unsupported response_type %q", respType) } supported[respType] = true } now := c.Now if now == nil { now = time.Now } s := &Server{ issuerURL: *issuerURL, connectors: make(map[string]Connector), storage: newKeyCacher( storageWithKeyRotation( c.Storage, rotationStrategy, now, ), now, ), supportedResponseTypes: supported, idTokensValidFor: value(c.IDTokensValidFor, 24*time.Hour), now: now, } for _, conn := range c.Connectors { s.connectors[conn.ID] = conn } r := mux.NewRouter() handleFunc := func(p string, h http.HandlerFunc) { r.HandleFunc(path.Join(issuerURL.Path, p), h) } r.NotFoundHandler = http.HandlerFunc(s.notFound) discoveryHandler, err := s.discoveryHandler() if err != nil { return nil, err } handleFunc("/.well-known/openid-configuration", discoveryHandler) // TODO(ericchiang): rate limit certain paths based on IP. handleFunc("/token", s.handleToken) handleFunc("/keys", s.handlePublicKeys) handleFunc("/auth", s.handleAuthorization) handleFunc("/auth/{connector}", s.handleConnectorLogin) handleFunc("/callback/{connector}", s.handleConnectorCallback) handleFunc("/approval", s.handleApproval) s.mux = r return s, nil } func (s *Server) ServeHTTP(w http.ResponseWriter, r *http.Request) { s.mux.ServeHTTP(w, r) } func (s *Server) absPath(pathItems ...string) string { paths := make([]string, len(pathItems)+1) paths[0] = s.issuerURL.Path copy(paths[1:], pathItems) return path.Join(paths...) } func (s *Server) absURL(pathItems ...string) string { u := s.issuerURL u.Path = s.absPath(pathItems...) return u.String() } // newKeyCacher returns a storage which caches keys so long as the next func newKeyCacher(s storage.Storage, now func() time.Time) storage.Storage { if now == nil { now = time.Now } return &keyCacher{Storage: s, now: now} } type keyCacher struct { storage.Storage now func() time.Time keys atomic.Value // Always holds nil or type *storage.Keys. } func (k *keyCacher) GetKeys() (storage.Keys, error) { keys, ok := k.keys.Load().(*storage.Keys) if ok && keys != nil && k.now().Before(keys.NextRotation) { return *keys, nil } storageKeys, err := k.Storage.GetKeys() if err != nil { return storageKeys, err } if k.now().Before(storageKeys.NextRotation) { k.keys.Store(&storageKeys) } return storageKeys, nil }