// Copyright 2020 the Pinniped contributors. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 package manager import ( "net/http" "strings" "sync" "go.pinniped.dev/internal/oidc/dynamiccodec" corev1client "k8s.io/client-go/kubernetes/typed/core/v1" "go.pinniped.dev/internal/oidc" "go.pinniped.dev/internal/oidc/auth" "go.pinniped.dev/internal/oidc/callback" "go.pinniped.dev/internal/oidc/csrftoken" "go.pinniped.dev/internal/oidc/discovery" "go.pinniped.dev/internal/oidc/jwks" "go.pinniped.dev/internal/oidc/provider" "go.pinniped.dev/internal/oidc/token" "go.pinniped.dev/internal/plog" "go.pinniped.dev/pkg/oidcclient/nonce" "go.pinniped.dev/pkg/oidcclient/pkce" ) // Manager can manage multiple active OIDC providers. It acts as a request router for them. // // It is thread-safe. type Manager struct { mu sync.RWMutex providers []*provider.OIDCProvider providerHandlers map[string]http.Handler // map of all routes for all providers nextHandler http.Handler // the next handler in a chain, called when this manager didn't know how to handle a request dynamicJWKSProvider jwks.DynamicJWKSProvider // in-memory cache of per-issuer JWKS data idpListGetter oidc.IDPListGetter // in-memory cache of upstream IDPs secretsClient corev1client.SecretInterface } // NewManager returns an empty Manager. // nextHandler will be invoked for any requests that could not be handled by this manager's providers. // dynamicJWKSProvider will be used as an in-memory cache for per-issuer JWKS data. // idpListGetter will be used as an in-memory cache of currently configured upstream IDPs. func NewManager( nextHandler http.Handler, dynamicJWKSProvider jwks.DynamicJWKSProvider, idpListGetter oidc.IDPListGetter, secretsClient corev1client.SecretInterface, ) *Manager { return &Manager{ providerHandlers: make(map[string]http.Handler), nextHandler: nextHandler, dynamicJWKSProvider: dynamicJWKSProvider, idpListGetter: idpListGetter, secretsClient: secretsClient, } } // SetProviders adds or updates all the given providerHandlers using each provider's issuer string // as the name of the provider to decide if it is an add or update operation. // // It also removes any providerHandlers that were previously added but were not passed in to // the current invocation. // // This method assumes that all of the OIDCProvider arguments have already been validated // by someone else before they are passed to this method. func (m *Manager) SetProviders(oidcProviders ...*provider.OIDCProvider) { m.mu.Lock() defer m.mu.Unlock() m.providers = oidcProviders m.providerHandlers = make(map[string]http.Handler) for _, incomingProvider := range oidcProviders { issuer := incomingProvider.Issuer() issuerHostWithPath := strings.ToLower(incomingProvider.IssuerHost()) + "/" + incomingProvider.IssuerPath() fositeHMACSecretForThisProvider := []byte("some secret - must have at least 32 bytes") // TODO replace this secret // Use NullStorage for the authorize endpoint because we do not actually want to store anything until // the upstream callback endpoint is called later. oauthHelperWithNullStorage := oidc.FositeOauth2Helper(oidc.NullStorage{}, issuer, fositeHMACSecretForThisProvider, nil, oidc.DefaultOIDCTimeoutsConfiguration()) // For all the other endpoints, make another oauth helper with exactly the same settings except use real storage. oauthHelperWithKubeStorage := oidc.FositeOauth2Helper(oidc.NewKubeStorage(m.secretsClient), issuer, fositeHMACSecretForThisProvider, m.dynamicJWKSProvider, oidc.DefaultOIDCTimeoutsConfiguration()) // TODO use different codecs for the state and the cookie, because: // 1. we would like to state to have an embedded expiration date while the cookie does not need that // 2. we would like each downstream provider to use different secrets for signing/encrypting the upstream state, not share secrets // 3. we would like *all* downstream providers to use the *same* signing key for the CSRF cookie (which doesn't need to be encrypted) because cookies are sent per-domain and our issuers can share a domain name (but have different paths) var upstreamStateEncoderHashKeyFunc = func() []byte { return []byte("fake-state-hash-secret") } // TODO replace this secret var upstreamStateEncoderBlockKeyFunc = func() []byte { return []byte("16-bytes-STATE01") } // TODO replace this secret var upstreamStateEncoder = dynamiccodec.New(upstreamStateEncoderHashKeyFunc, upstreamStateEncoderBlockKeyFunc) var csrfCookieEncoderHashKeyFunc = func() []byte { return []byte("fake-csrf-hash-secret") } // TODO replace this secret var csrEncoderBlockKeyFunc = func() []byte { return nil } // TODO replace this secret var csrfCookieEncoder = dynamiccodec.New(csrfCookieEncoderHashKeyFunc, csrEncoderBlockKeyFunc) m.providerHandlers[(issuerHostWithPath + oidc.WellKnownEndpointPath)] = discovery.NewHandler(issuer) m.providerHandlers[(issuerHostWithPath + oidc.JWKSEndpointPath)] = jwks.NewHandler(issuer, m.dynamicJWKSProvider) m.providerHandlers[(issuerHostWithPath + oidc.AuthorizationEndpointPath)] = auth.NewHandler( issuer, m.idpListGetter, oauthHelperWithNullStorage, csrftoken.Generate, pkce.Generate, nonce.Generate, upstreamStateEncoder, csrfCookieEncoder, ) m.providerHandlers[(issuerHostWithPath + oidc.CallbackEndpointPath)] = callback.NewHandler( m.idpListGetter, oauthHelperWithKubeStorage, upstreamStateEncoder, csrfCookieEncoder, issuer+oidc.CallbackEndpointPath, ) m.providerHandlers[(issuerHostWithPath + oidc.TokenEndpointPath)] = token.NewHandler( oauthHelperWithKubeStorage, ) plog.Debug("oidc provider manager added or updated issuer", "issuer", issuer) } } // ServeHTTP implements the http.Handler interface. func (m *Manager) ServeHTTP(resp http.ResponseWriter, req *http.Request) { requestHandler := m.findHandler(req) plog.Debug( "oidc provider manager examining request", "method", req.Method, "host", req.Host, "path", req.URL.Path, "foundMatchingIssuer", requestHandler != nil, ) if requestHandler == nil { requestHandler = m.nextHandler // couldn't find an issuer to handle the request } requestHandler.ServeHTTP(resp, req) } func (m *Manager) findHandler(req *http.Request) http.Handler { m.mu.RLock() defer m.mu.RUnlock() return m.providerHandlers[strings.ToLower(req.Host)+"/"+req.URL.Path] }