package main
import (
"context"
"embed"
"encoding/base64"
"encoding/json"
"errors"
"fmt"
"net"
"net/http"
"net/url"
"os"
"os/signal"
"regexp"
"strings"
"syscall"
"time"
"github.com/gorilla/mux"
"github.com/justinas/alice"
ipapi "github.com/oauth2-proxy/oauth2-proxy/v7/pkg/apis/ip"
middlewareapi "github.com/oauth2-proxy/oauth2-proxy/v7/pkg/apis/middleware"
"github.com/oauth2-proxy/oauth2-proxy/v7/pkg/apis/options"
sessionsapi "github.com/oauth2-proxy/oauth2-proxy/v7/pkg/apis/sessions"
"github.com/oauth2-proxy/oauth2-proxy/v7/pkg/app/pagewriter"
"github.com/oauth2-proxy/oauth2-proxy/v7/pkg/app/redirect"
"github.com/oauth2-proxy/oauth2-proxy/v7/pkg/authentication/basic"
"github.com/oauth2-proxy/oauth2-proxy/v7/pkg/cookies"
"github.com/oauth2-proxy/oauth2-proxy/v7/pkg/encryption"
proxyhttp "github.com/oauth2-proxy/oauth2-proxy/v7/pkg/http"
"github.com/oauth2-proxy/oauth2-proxy/v7/pkg/util"
"github.com/oauth2-proxy/oauth2-proxy/v7/pkg/ip"
"github.com/oauth2-proxy/oauth2-proxy/v7/pkg/logger"
"github.com/oauth2-proxy/oauth2-proxy/v7/pkg/middleware"
requestutil "github.com/oauth2-proxy/oauth2-proxy/v7/pkg/requests/util"
"github.com/oauth2-proxy/oauth2-proxy/v7/pkg/sessions"
"github.com/oauth2-proxy/oauth2-proxy/v7/pkg/upstream"
"github.com/oauth2-proxy/oauth2-proxy/v7/providers"
)
const (
schemeHTTP = "http"
schemeHTTPS = "https"
applicationJSON = "application/json"
robotsPath = "/robots.txt"
signInPath = "/sign_in"
signOutPath = "/sign_out"
oauthStartPath = "/start"
oauthCallbackPath = "/callback"
authOnlyPath = "/auth"
userInfoPath = "/userinfo"
staticPathPrefix = "/static/"
)
var (
// ErrNeedsLogin means the user should be redirected to the login page
ErrNeedsLogin = errors.New("redirect to login page")
// ErrAccessDenied means the user should receive a 401 Unauthorized response
ErrAccessDenied = errors.New("access denied")
//go:embed static/*
staticFiles embed.FS
)
// allowedRoute manages method + path based allowlists
type allowedRoute struct {
method string
negate bool
pathRegex *regexp.Regexp
}
type apiRoute struct {
pathRegex *regexp.Regexp
}
// OAuthProxy is the main authentication proxy
type OAuthProxy struct {
CookieOptions *options.Cookie
Validator func(string) bool
SignInPath string
allowedRoutes []allowedRoute
apiRoutes []apiRoute
redirectURL *url.URL // the url to receive requests at
relativeRedirectURL bool
whitelistDomains []string
provider providers.Provider
sessionStore sessionsapi.SessionStore
ProxyPrefix string
basicAuthValidator basic.Validator
basicAuthGroups []string
SkipProviderButton bool
skipAuthPreflight bool
skipJwtBearerTokens bool
forceJSONErrors bool
allowQuerySemicolons bool
realClientIPParser ipapi.RealClientIPParser
trustedIPs *ip.NetSet
sessionChain alice.Chain
headersChain alice.Chain
preAuthChain alice.Chain
pageWriter pagewriter.Writer
server proxyhttp.Server
upstreamProxy http.Handler
serveMux *mux.Router
redirectValidator redirect.Validator
appDirector redirect.AppDirector
encodeState bool
}
// NewOAuthProxy creates a new instance of OAuthProxy from the options provided
func NewOAuthProxy(opts *options.Options, validator func(string) bool) (*OAuthProxy, error) {
sessionStore, err := sessions.NewSessionStore(&opts.Session, &opts.Cookie)
if err != nil {
return nil, fmt.Errorf("error initialising session store: %v", err)
}
var basicAuthValidator basic.Validator
if opts.HtpasswdFile != "" {
logger.Printf("using htpasswd file: %s", opts.HtpasswdFile)
var err error
basicAuthValidator, err = basic.NewHTPasswdValidator(opts.HtpasswdFile)
if err != nil {
return nil, fmt.Errorf("could not validate htpasswd: %v", err)
}
}
provider, err := providers.NewProvider(opts.Providers[0])
if err != nil {
return nil, fmt.Errorf("error initialising provider: %v", err)
}
pageWriter, err := pagewriter.NewWriter(pagewriter.Opts{
TemplatesPath: opts.Templates.Path,
CustomLogo: opts.Templates.CustomLogo,
ProxyPrefix: opts.ProxyPrefix,
Footer: opts.Templates.Footer,
Version: VERSION,
Debug: opts.Templates.Debug,
ProviderName: buildProviderName(provider, opts.Providers[0].Name),
SignInMessage: buildSignInMessage(opts),
DisplayLoginForm: basicAuthValidator != nil && opts.Templates.DisplayLoginForm,
})
if err != nil {
return nil, fmt.Errorf("error initialising page writer: %v", err)
}
upstreamProxy, err := upstream.NewProxy(opts.UpstreamServers, opts.GetSignatureData(), pageWriter)
if err != nil {
return nil, fmt.Errorf("error initialising upstream proxy: %v", err)
}
if opts.SkipJwtBearerTokens {
logger.Printf("Skipping JWT tokens from configured OIDC issuer: %q", opts.Providers[0].OIDCConfig.IssuerURL)
for _, issuer := range opts.ExtraJwtIssuers {
logger.Printf("Skipping JWT tokens from extra JWT issuer: %q", issuer)
}
}
redirectURL := opts.GetRedirectURL()
if redirectURL.Path == "" {
redirectURL.Path = fmt.Sprintf("%s/callback", opts.ProxyPrefix)
}
logger.Printf("OAuthProxy configured for %s Client ID: %s", provider.Data().ProviderName, opts.Providers[0].ClientID)
refresh := "disabled"
if opts.Cookie.Refresh != time.Duration(0) {
refresh = fmt.Sprintf("after %s", opts.Cookie.Refresh)
}
logger.Printf("Cookie settings: name:%s secure(https):%v httponly:%v expiry:%s domains:%s path:%s samesite:%s refresh:%s", opts.Cookie.Name, opts.Cookie.Secure, opts.Cookie.HTTPOnly, opts.Cookie.Expire, strings.Join(opts.Cookie.Domains, ","), opts.Cookie.Path, opts.Cookie.SameSite, refresh)
trustedIPs := ip.NewNetSet()
for _, ipStr := range opts.TrustedIPs {
if ipNet := ip.ParseIPNet(ipStr); ipNet != nil {
trustedIPs.AddIPNet(*ipNet)
} else {
return nil, fmt.Errorf("could not parse IP network (%s)", ipStr)
}
}
allowedRoutes, err := buildRoutesAllowlist(opts)
if err != nil {
return nil, err
}
apiRoutes, err := buildAPIRoutes(opts)
if err != nil {
return nil, err
}
preAuthChain, err := buildPreAuthChain(opts, sessionStore)
if err != nil {
return nil, fmt.Errorf("could not build pre-auth chain: %v", err)
}
sessionChain := buildSessionChain(opts, provider, sessionStore, basicAuthValidator)
headersChain, err := buildHeadersChain(opts)
if err != nil {
return nil, fmt.Errorf("could not build headers chain: %v", err)
}
redirectValidator := redirect.NewValidator(opts.WhitelistDomains)
appDirector := redirect.NewAppDirector(redirect.AppDirectorOpts{
ProxyPrefix: opts.ProxyPrefix,
Validator: redirectValidator,
})
p := &OAuthProxy{
CookieOptions: &opts.Cookie,
Validator: validator,
SignInPath: fmt.Sprintf("%s/sign_in", opts.ProxyPrefix),
ProxyPrefix: opts.ProxyPrefix,
provider: provider,
sessionStore: sessionStore,
redirectURL: redirectURL,
relativeRedirectURL: opts.RelativeRedirectURL,
apiRoutes: apiRoutes,
allowedRoutes: allowedRoutes,
whitelistDomains: opts.WhitelistDomains,
skipAuthPreflight: opts.SkipAuthPreflight,
skipJwtBearerTokens: opts.SkipJwtBearerTokens,
realClientIPParser: opts.GetRealClientIPParser(),
SkipProviderButton: opts.SkipProviderButton,
forceJSONErrors: opts.ForceJSONErrors,
allowQuerySemicolons: opts.AllowQuerySemicolons,
trustedIPs: trustedIPs,
basicAuthValidator: basicAuthValidator,
basicAuthGroups: opts.HtpasswdUserGroups,
sessionChain: sessionChain,
headersChain: headersChain,
preAuthChain: preAuthChain,
pageWriter: pageWriter,
upstreamProxy: upstreamProxy,
redirectValidator: redirectValidator,
appDirector: appDirector,
encodeState: opts.EncodeState,
}
p.buildServeMux(opts.ProxyPrefix)
if err := p.setupServer(opts); err != nil {
return nil, fmt.Errorf("error setting up server: %v", err)
}
return p, nil
}
func (p *OAuthProxy) Start() error {
if p.server == nil {
// We have to call setupServer before Start is called.
// If this doesn't happen it's a programming error.
panic("server has not been initialised")
}
ctx, cancel := context.WithCancel(context.Background())
// Observe signals in background goroutine.
go func() {
sigint := make(chan os.Signal, 1)
signal.Notify(sigint, os.Interrupt, syscall.SIGTERM)
<-sigint
cancel() // cancel the context
}()
return p.server.Start(ctx)
}
func (p *OAuthProxy) setupServer(opts *options.Options) error {
serverOpts := proxyhttp.Opts{
Handler: p,
BindAddress: opts.Server.BindAddress,
SecureBindAddress: opts.Server.SecureBindAddress,
TLS: opts.Server.TLS,
}
// Option: AllowQuerySemicolons
if opts.AllowQuerySemicolons {
serverOpts.Handler = http.AllowQuerySemicolons(serverOpts.Handler)
}
appServer, err := proxyhttp.NewServer(serverOpts)
if err != nil {
return fmt.Errorf("could not build app server: %v", err)
}
metricsServer, err := proxyhttp.NewServer(proxyhttp.Opts{
Handler: middleware.DefaultMetricsHandler,
BindAddress: opts.MetricsServer.BindAddress,
SecureBindAddress: opts.MetricsServer.SecureBindAddress,
TLS: opts.MetricsServer.TLS,
})
if err != nil {
return fmt.Errorf("could not build metrics server: %v", err)
}
p.server = proxyhttp.NewServerGroup(appServer, metricsServer)
return nil
}
func (p *OAuthProxy) buildServeMux(proxyPrefix string) {
// Use the encoded path here so we can have the option to pass it on in the upstream mux.
// Otherwise something like /%2F/ would be redirected to / here already.
r := mux.NewRouter().UseEncodedPath()
// Everything served by the router must go through the preAuthChain first.
r.Use(p.preAuthChain.Then)
// Register the robots path writer
r.Path(robotsPath).HandlerFunc(p.pageWriter.WriteRobotsTxt)
// The authonly path should be registered separately to prevent it from getting no-cache headers.
// We do this to allow users to have a short cache (via nginx) of the response to reduce the
// likelihood of multiple requests trying to refresh sessions simultaneously.
r.Path(proxyPrefix + authOnlyPath).Handler(p.sessionChain.ThenFunc(p.AuthOnly))
// This will register all of the paths under the proxy prefix, except the auth only path so that no cache headers
// are not applied.
p.buildProxySubrouter(r.PathPrefix(proxyPrefix).Subrouter())
// Register serveHTTP last so it catches anything that isn't already caught earlier.
// Anything that got to this point needs to have a session loaded.
r.PathPrefix("/").Handler(p.sessionChain.ThenFunc(p.Proxy))
p.serveMux = r
}
func (p *OAuthProxy) buildProxySubrouter(s *mux.Router) {
s.Use(prepareNoCacheMiddleware)
s.Path(signInPath).HandlerFunc(p.SignIn)
s.Path(oauthStartPath).HandlerFunc(p.OAuthStart)
s.Path(oauthCallbackPath).HandlerFunc(p.OAuthCallback)
// Static file paths
s.PathPrefix(staticPathPrefix).Handler(http.StripPrefix(p.ProxyPrefix, http.FileServer(http.FS(staticFiles))))
// The userinfo and logout endpoints needs to load sessions before handling the request
s.Path(userInfoPath).Handler(p.sessionChain.ThenFunc(p.UserInfo))
s.Path(signOutPath).Handler(p.sessionChain.ThenFunc(p.SignOut))
}
// buildPreAuthChain constructs a chain that should process every request before
// the OAuth2 Proxy authentication logic kicks in.
// For example forcing HTTPS or health checks.
func buildPreAuthChain(opts *options.Options, sessionStore sessionsapi.SessionStore) (alice.Chain, error) {
chain := alice.New(middleware.NewScope(opts.ReverseProxy, opts.Logging.RequestIDHeader))
if opts.ForceHTTPS {
_, httpsPort, err := net.SplitHostPort(opts.Server.SecureBindAddress)
if err != nil {
return alice.Chain{}, fmt.Errorf("invalid HTTPS address %q: %v", opts.Server.SecureBindAddress, err)
}
chain = chain.Append(middleware.NewRedirectToHTTPS(httpsPort))
}
healthCheckPaths := []string{opts.PingPath}
healthCheckUserAgents := []string{opts.PingUserAgent}
if opts.GCPHealthChecks {
logger.Printf("WARNING: GCP HealthChecks are now deprecated: Reconfigure apps to use the ping path for liveness and readiness checks, set the ping user agent to \"GoogleHC/1.0\" to preserve existing behaviour")
healthCheckPaths = append(healthCheckPaths, "/liveness_check", "/readiness_check")
healthCheckUserAgents = append(healthCheckUserAgents, "GoogleHC/1.0")
}
// To silence logging of health checks, register the health check handler before
// the logging handler
if opts.Logging.SilencePing {
chain = chain.Append(
middleware.NewHealthCheck(healthCheckPaths, healthCheckUserAgents),
middleware.NewReadynessCheck(opts.ReadyPath, sessionStore),
middleware.NewRequestLogger(),
)
} else {
chain = chain.Append(
middleware.NewRequestLogger(),
middleware.NewHealthCheck(healthCheckPaths, healthCheckUserAgents),
middleware.NewReadynessCheck(opts.ReadyPath, sessionStore),
)
}
chain = chain.Append(middleware.NewRequestMetricsWithDefaultRegistry())
return chain, nil
}
func buildSessionChain(opts *options.Options, provider providers.Provider, sessionStore sessionsapi.SessionStore, validator basic.Validator) alice.Chain {
chain := alice.New()
if opts.SkipJwtBearerTokens {
sessionLoaders := []middlewareapi.TokenToSessionFunc{
provider.CreateSessionFromToken,
}
for _, verifier := range opts.GetJWTBearerVerifiers() {
sessionLoaders = append(sessionLoaders,
middlewareapi.CreateTokenToSessionFunc(verifier.Verify))
}
chain = chain.Append(middleware.NewJwtSessionLoader(sessionLoaders))
}
if validator != nil {
chain = chain.Append(middleware.NewBasicAuthSessionLoader(validator, opts.HtpasswdUserGroups, opts.LegacyPreferEmailToUser))
}
chain = chain.Append(middleware.NewStoredSessionLoader(&middleware.StoredSessionLoaderOptions{
SessionStore: sessionStore,
RefreshPeriod: opts.Cookie.Refresh,
RefreshSession: provider.RefreshSession,
ValidateSession: provider.ValidateSession,
}))
return chain
}
func buildHeadersChain(opts *options.Options) (alice.Chain, error) {
requestInjector, err := middleware.NewRequestHeaderInjector(opts.InjectRequestHeaders)
if err != nil {
return alice.Chain{}, fmt.Errorf("error constructing request header injector: %v", err)
}
responseInjector, err := middleware.NewResponseHeaderInjector(opts.InjectResponseHeaders)
if err != nil {
return alice.Chain{}, fmt.Errorf("error constructing request header injector: %v", err)
}
return alice.New(requestInjector, responseInjector), nil
}
func buildSignInMessage(opts *options.Options) string {
var msg string
if len(opts.Templates.Banner) >= 1 {
if opts.Templates.Banner == "-" {
msg = ""
} else {
msg = opts.Templates.Banner
}
} else if len(opts.EmailDomains) != 0 && opts.AuthenticatedEmailsFile == "" {
if len(opts.EmailDomains) > 1 {
msg = fmt.Sprintf("Authenticate using one of the following domains: %v", strings.Join(opts.EmailDomains, ", "))
} else if opts.EmailDomains[0] != "*" {
msg = fmt.Sprintf("Authenticate using %v", opts.EmailDomains[0])
}
}
return msg
}
func buildProviderName(p providers.Provider, override string) string {
if override != "" {
return override
}
return p.Data().ProviderName
}
// buildRoutesAllowlist builds an []allowedRoute list from either the legacy
// SkipAuthRegex option (paths only support) or newer SkipAuthRoutes option
// (method=path support)
func buildRoutesAllowlist(opts *options.Options) ([]allowedRoute, error) {
routes := make([]allowedRoute, 0, len(opts.SkipAuthRegex)+len(opts.SkipAuthRoutes))
for _, path := range opts.SkipAuthRegex {
compiledRegex, err := regexp.Compile(path)
if err != nil {
return nil, err
}
logger.Printf("Skipping auth - Method: ALL | Path: %s", path)
routes = append(routes, allowedRoute{
method: "",
pathRegex: compiledRegex,
})
}
for _, methodPath := range opts.SkipAuthRoutes {
var (
method string
path string
negate = strings.Contains(methodPath, "!=")
)
parts := regexp.MustCompile("!?=").Split(methodPath, 2)
if len(parts) == 1 {
method = ""
path = parts[0]
} else {
method = strings.ToUpper(parts[0])
path = parts[1]
}
compiledRegex, err := regexp.Compile(path)
if err != nil {
return nil, err
}
logger.Printf("Skipping auth - Method: %s | Path: %s", method, path)
routes = append(routes, allowedRoute{
method: method,
negate: negate,
pathRegex: compiledRegex,
})
}
return routes, nil
}
// buildAPIRoutes builds an []apiRoute from ApiRoutes option
func buildAPIRoutes(opts *options.Options) ([]apiRoute, error) {
routes := make([]apiRoute, 0, len(opts.APIRoutes))
for _, path := range opts.APIRoutes {
compiledRegex, err := regexp.Compile(path)
if err != nil {
return nil, err
}
logger.Printf("API route - Path: %s", path)
routes = append(routes, apiRoute{
pathRegex: compiledRegex,
})
}
return routes, nil
}
// ClearSessionCookie creates a cookie to unset the user's authentication cookie
// stored in the user's session
func (p *OAuthProxy) ClearSessionCookie(rw http.ResponseWriter, req *http.Request) error {
return p.sessionStore.Clear(rw, req)
}
// LoadCookiedSession reads the user's authentication details from the request
func (p *OAuthProxy) LoadCookiedSession(req *http.Request) (*sessionsapi.SessionState, error) {
return p.sessionStore.Load(req)
}
// SaveSession creates a new session cookie value and sets this on the response
func (p *OAuthProxy) SaveSession(rw http.ResponseWriter, req *http.Request, s *sessionsapi.SessionState) error {
return p.sessionStore.Save(rw, req, s)
}
func (p *OAuthProxy) ServeHTTP(rw http.ResponseWriter, req *http.Request) {
p.serveMux.ServeHTTP(rw, req)
}
// ErrorPage writes an error response
func (p *OAuthProxy) ErrorPage(rw http.ResponseWriter, req *http.Request, code int, appError string, messages ...interface{}) {
redirectURL, err := p.appDirector.GetRedirect(req)
if err != nil {
logger.Errorf("Error obtaining redirect: %v", err)
}
if redirectURL == p.SignInPath || redirectURL == "" {
redirectURL = "/"
}
scope := middlewareapi.GetRequestScope(req)
p.pageWriter.WriteErrorPage(rw, pagewriter.ErrorPageOpts{
Status: code,
RedirectURL: redirectURL,
RequestID: scope.RequestID,
AppError: appError,
Messages: messages,
})
}
// IsAllowedRequest is used to check if auth should be skipped for this request
func (p *OAuthProxy) IsAllowedRequest(req *http.Request) bool {
isPreflightRequestAllowed := p.skipAuthPreflight && req.Method == "OPTIONS"
return isPreflightRequestAllowed || p.isAllowedRoute(req) || p.isTrustedIP(req)
}
func isAllowedMethod(req *http.Request, route allowedRoute) bool {
return route.method == "" || req.Method == route.method
}
func isAllowedPath(req *http.Request, route allowedRoute) bool {
matches := route.pathRegex.MatchString(requestutil.GetRequestURI(req))
if route.negate {
return !matches
}
return matches
}
// IsAllowedRoute is used to check if the request method & path is allowed without auth
func (p *OAuthProxy) isAllowedRoute(req *http.Request) bool {
for _, route := range p.allowedRoutes {
if isAllowedMethod(req, route) && isAllowedPath(req, route) {
return true
}
}
return false
}
func (p *OAuthProxy) isAPIPath(req *http.Request) bool {
for _, route := range p.apiRoutes {
if route.pathRegex.MatchString(requestutil.GetRequestURI(req)) {
return true
}
}
return false
}
// isTrustedIP is used to check if a request comes from a trusted client IP address.
func (p *OAuthProxy) isTrustedIP(req *http.Request) bool {
if p.trustedIPs == nil {
return false
}
remoteAddr, err := ip.GetClientIP(p.realClientIPParser, req)
if err != nil {
logger.Errorf("Error obtaining real IP for trusted IP list: %v", err)
// Possibly spoofed X-Real-IP header
return false
}
if remoteAddr == nil {
return false
}
return p.trustedIPs.Has(remoteAddr)
}
// SignInPage writes the sign in template to the response
func (p *OAuthProxy) SignInPage(rw http.ResponseWriter, req *http.Request, code int) {
prepareNoCache(rw)
err := p.ClearSessionCookie(rw, req)
if err != nil {
logger.Printf("Error clearing session cookie: %v", err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
return
}
rw.WriteHeader(code)
redirectURL, err := p.appDirector.GetRedirect(req)
if err != nil {
logger.Errorf("Error obtaining redirect: %v", err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
return
}
if redirectURL == p.SignInPath {
redirectURL = "/"
}
p.pageWriter.WriteSignInPage(rw, req, redirectURL, code)
}
// ManualSignIn handles basic auth logins to the proxy
func (p *OAuthProxy) ManualSignIn(req *http.Request) (string, bool, int) {
if req.Method != "POST" || p.basicAuthValidator == nil {
return "", false, http.StatusOK
}
user := req.FormValue("username")
passwd := req.FormValue("password")
if user == "" {
return "", false, http.StatusBadRequest
}
// check auth
if p.basicAuthValidator.Validate(user, passwd) {
logger.PrintAuthf(user, req, logger.AuthSuccess, "Authenticated via HtpasswdFile")
return user, true, http.StatusOK
}
logger.PrintAuthf(user, req, logger.AuthFailure, "Invalid authentication via HtpasswdFile")
return "", false, http.StatusUnauthorized
}
// SignIn serves a page prompting users to sign in
func (p *OAuthProxy) SignIn(rw http.ResponseWriter, req *http.Request) {
redirect, err := p.appDirector.GetRedirect(req)
if err != nil {
logger.Errorf("Error obtaining redirect: %v", err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
return
}
user, ok, statusCode := p.ManualSignIn(req)
if ok {
session := &sessionsapi.SessionState{User: user, Groups: p.basicAuthGroups}
err = p.SaveSession(rw, req, session)
if err != nil {
logger.Printf("Error saving session: %v", err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
return
}
http.Redirect(rw, req, redirect, http.StatusFound)
} else {
if p.SkipProviderButton {
p.OAuthStart(rw, req)
} else {
// TODO - should we pass on /oauth2/sign_in query params to /oauth2/start?
p.SignInPage(rw, req, statusCode)
}
}
}
// UserInfo endpoint outputs session email and preferred username in JSON format
func (p *OAuthProxy) UserInfo(rw http.ResponseWriter, req *http.Request) {
session, err := p.getAuthenticatedSession(rw, req)
if err != nil {
http.Error(rw, http.StatusText(http.StatusUnauthorized), http.StatusUnauthorized)
return
}
rw.Header().Set("Content-Type", "application/json")
rw.WriteHeader(http.StatusOK)
if session == nil {
if _, err := rw.Write([]byte("{}")); err != nil {
logger.Printf("Error encoding empty user info: %v", err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
}
return
}
userInfo := struct {
User string `json:"user"`
Email string `json:"email"`
Groups []string `json:"groups,omitempty"`
PreferredUsername string `json:"preferredUsername,omitempty"`
}{
User: session.User,
Email: session.Email,
Groups: session.Groups,
PreferredUsername: session.PreferredUsername,
}
if err := json.NewEncoder(rw).Encode(userInfo); err != nil {
logger.Printf("Error encoding user info: %v", err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
}
}
// SignOut sends a response to clear the authentication cookie
func (p *OAuthProxy) SignOut(rw http.ResponseWriter, req *http.Request) {
redirect, err := p.appDirector.GetRedirect(req)
if err != nil {
logger.Errorf("Error obtaining redirect: %v", err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
return
}
err = p.ClearSessionCookie(rw, req)
if err != nil {
logger.Errorf("Error clearing session cookie: %v", err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
return
}
p.backendLogout(rw, req)
http.Redirect(rw, req, redirect, http.StatusFound)
}
func (p *OAuthProxy) backendLogout(rw http.ResponseWriter, req *http.Request) {
session, err := p.getAuthenticatedSession(rw, req)
if err != nil {
logger.Errorf("error getting authenticated session during backend logout: %v", err)
return
}
if session == nil {
return
}
providerData := p.provider.Data()
if providerData.BackendLogoutURL == "" {
return
}
backendLogoutURL := strings.ReplaceAll(providerData.BackendLogoutURL, "{id_token}", session.IDToken)
// security exception because URL is dynamic ({id_token} replacement) but
// base is not end-user provided but comes from configuration somewhat secure
resp, err := http.Get(backendLogoutURL) // #nosec G107
if err != nil {
logger.Errorf("error while calling backend logout: %v", err)
return
}
defer resp.Body.Close()
if resp.StatusCode != 200 {
logger.Errorf("error while calling backend logout url, returned error code %v", resp.StatusCode)
}
}
// OAuthStart starts the OAuth2 authentication flow
func (p *OAuthProxy) OAuthStart(rw http.ResponseWriter, req *http.Request) {
// start the flow permitting login URL query parameters to be overridden from the request URL
p.doOAuthStart(rw, req, req.URL.Query())
}
func (p *OAuthProxy) doOAuthStart(rw http.ResponseWriter, req *http.Request, overrides url.Values) {
extraParams := p.provider.Data().LoginURLParams(overrides)
prepareNoCache(rw)
var (
err error
codeChallenge, codeVerifier, codeChallengeMethod string
)
if p.provider.Data().CodeChallengeMethod != "" {
codeChallengeMethod = p.provider.Data().CodeChallengeMethod
codeVerifier, err = encryption.GenerateRandomASCIIString(96)
if err != nil {
logger.Errorf("Unable to build random ASCII string for code verifier: %v", err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
return
}
codeChallenge, err = encryption.GenerateCodeChallenge(p.provider.Data().CodeChallengeMethod, codeVerifier)
if err != nil {
logger.Errorf("Error creating code challenge: %v", err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
return
}
extraParams.Add("code_challenge", codeChallenge)
extraParams.Add("code_challenge_method", codeChallengeMethod)
}
csrf, err := cookies.NewCSRF(p.CookieOptions, codeVerifier)
if err != nil {
logger.Errorf("Error creating CSRF nonce: %v", err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
return
}
appRedirect, err := p.appDirector.GetRedirect(req)
if err != nil {
logger.Errorf("Error obtaining application redirect: %v", err)
p.ErrorPage(rw, req, http.StatusBadRequest, err.Error())
return
}
callbackRedirect := p.getOAuthRedirectURI(req)
loginURL := p.provider.GetLoginURL(
callbackRedirect,
encodeState(csrf.HashOAuthState(), appRedirect, p.encodeState),
csrf.HashOIDCNonce(),
extraParams,
)
if _, err := csrf.SetCookie(rw, req); err != nil {
logger.Errorf("Error setting CSRF cookie: %v", err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
return
}
http.Redirect(rw, req, loginURL, http.StatusFound)
}
// OAuthCallback is the OAuth2 authentication flow callback that finishes the
// OAuth2 authentication flow
func (p *OAuthProxy) OAuthCallback(rw http.ResponseWriter, req *http.Request) {
remoteAddr := ip.GetClientString(p.realClientIPParser, req, true)
// finish the oauth cycle
err := req.ParseForm()
if err != nil {
logger.Errorf("Error while parsing OAuth2 callback: %v", err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
return
}
errorString := req.Form.Get("error")
if errorString != "" {
logger.Errorf("Error while parsing OAuth2 callback: %s", errorString)
message := fmt.Sprintf("Login Failed: The upstream identity provider returned an error: %s", errorString)
// Set the debug message and override the non debug message to be the same for this case
p.ErrorPage(rw, req, http.StatusForbidden, message, message)
return
}
csrf, err := cookies.LoadCSRFCookie(req, p.CookieOptions)
if err != nil {
logger.Println(req, logger.AuthFailure, "Invalid authentication via OAuth2. Error while loading CSRF cookie:", err.Error())
p.ErrorPage(rw, req, http.StatusForbidden, err.Error(), "Login Failed: Unable to find a valid CSRF token. Please try again.")
return
}
session, err := p.redeemCode(req, csrf.GetCodeVerifier())
if err != nil {
logger.Errorf("Error redeeming code during OAuth2 callback: %v", err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
return
}
err = p.enrichSessionState(req.Context(), session)
if err != nil {
logger.Errorf("Error creating session during OAuth2 callback: %v", err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
return
}
csrf.ClearCookie(rw, req)
nonce, appRedirect, err := decodeState(req.Form.Get("state"), p.encodeState)
if err != nil {
logger.Errorf("Error while parsing OAuth2 state: %v", err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
return
}
if !csrf.CheckOAuthState(nonce) {
logger.PrintAuthf(session.Email, req, logger.AuthFailure, "Invalid authentication via OAuth2: CSRF token mismatch, potential attack")
p.ErrorPage(rw, req, http.StatusForbidden, "CSRF token mismatch, potential attack", "Login Failed: Unable to find a valid CSRF token. Please try again.")
return
}
csrf.SetSessionNonce(session)
if !p.provider.ValidateSession(req.Context(), session) {
logger.PrintAuthf(session.Email, req, logger.AuthFailure, "Session validation failed: %s", session)
p.ErrorPage(rw, req, http.StatusForbidden, "Session validation failed")
return
}
if !p.redirectValidator.IsValidRedirect(appRedirect) {
appRedirect = "/"
}
// set cookie, or deny
authorized, err := p.provider.Authorize(req.Context(), session)
if err != nil {
logger.Errorf("Error with authorization: %v", err)
}
if p.Validator(session.Email) && authorized {
logger.PrintAuthf(session.Email, req, logger.AuthSuccess, "Authenticated via OAuth2: %s", session)
err := p.SaveSession(rw, req, session)
if err != nil {
logger.Errorf("Error saving session state for %s: %v", remoteAddr, err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
return
}
http.Redirect(rw, req, appRedirect, http.StatusFound)
} else {
logger.PrintAuthf(session.Email, req, logger.AuthFailure, "Invalid authentication via OAuth2: unauthorized")
p.ErrorPage(rw, req, http.StatusForbidden, "Invalid session: unauthorized")
}
}
func (p *OAuthProxy) redeemCode(req *http.Request, codeVerifier string) (*sessionsapi.SessionState, error) {
code := req.Form.Get("code")
if code == "" {
return nil, providers.ErrMissingCode
}
redirectURI := p.getOAuthRedirectURI(req)
s, err := p.provider.Redeem(req.Context(), redirectURI, code, codeVerifier)
if err != nil {
return nil, err
}
// Force setting these in case the Provider didn't
if s.CreatedAt == nil {
s.CreatedAtNow()
}
if s.ExpiresOn == nil {
s.ExpiresIn(p.CookieOptions.Expire)
}
return s, nil
}
func (p *OAuthProxy) enrichSessionState(ctx context.Context, s *sessionsapi.SessionState) error {
var err error
if s.Email == "" {
// TODO(@NickMeves): Remove once all provider are updated to implement EnrichSession
// nolint:staticcheck
s.Email, err = p.provider.GetEmailAddress(ctx, s)
if err != nil && !errors.Is(err, providers.ErrNotImplemented) {
return err
}
}
return p.provider.EnrichSession(ctx, s)
}
// AuthOnly checks whether the user is currently logged in (both authentication
// and optional authorization).
func (p *OAuthProxy) AuthOnly(rw http.ResponseWriter, req *http.Request) {
session, err := p.getAuthenticatedSession(rw, req)
if err != nil {
http.Error(rw, http.StatusText(http.StatusUnauthorized), http.StatusUnauthorized)
return
}
// Unauthorized cases need to return 403 to prevent infinite redirects with
// subrequest architectures
if !authOnlyAuthorize(req, session) {
http.Error(rw, http.StatusText(http.StatusForbidden), http.StatusForbidden)
return
}
// we are authenticated
p.addHeadersForProxying(rw, session)
p.headersChain.Then(http.HandlerFunc(func(rw http.ResponseWriter, req *http.Request) {
rw.WriteHeader(http.StatusAccepted)
})).ServeHTTP(rw, req)
}
// Proxy proxies the user request if the user is authenticated else it prompts
// them to authenticate
func (p *OAuthProxy) Proxy(rw http.ResponseWriter, req *http.Request) {
session, err := p.getAuthenticatedSession(rw, req)
switch err {
case nil:
// we are authenticated
p.addHeadersForProxying(rw, session)
p.headersChain.Then(p.upstreamProxy).ServeHTTP(rw, req)
case ErrNeedsLogin:
// we need to send the user to a login screen
if p.forceJSONErrors || isAjax(req) || p.isAPIPath(req) {
logger.Printf("No valid authentication in request. Access Denied.")
// no point redirecting an AJAX request
p.errorJSON(rw, http.StatusUnauthorized)
return
}
logger.Printf("No valid authentication in request. Initiating login.")
if p.SkipProviderButton {
// start OAuth flow, but only with the default login URL params - do not
// consider this request's query params as potential overrides, since
// the user did not explicitly start the login flow
p.doOAuthStart(rw, req, nil)
} else {
p.SignInPage(rw, req, http.StatusForbidden)
}
case ErrAccessDenied:
if p.forceJSONErrors {
p.errorJSON(rw, http.StatusForbidden)
} else {
p.ErrorPage(rw, req, http.StatusForbidden, "The session failed authorization checks")
}
default:
// unknown error
logger.Errorf("Unexpected internal error: %v", err)
p.ErrorPage(rw, req, http.StatusInternalServerError, err.Error())
}
}
// See https://developers.google.com/web/fundamentals/performance/optimizing-content-efficiency/http-caching?hl=en
var noCacheHeaders = map[string]string{
"Expires": time.Unix(0, 0).Format(time.RFC1123),
"Cache-Control": "no-cache, no-store, must-revalidate, max-age=0",
"X-Accel-Expires": "0", // https://www.nginx.com/resources/wiki/start/topics/examples/x-accel/
}
// prepareNoCache prepares headers for preventing browser caching.
func prepareNoCache(w http.ResponseWriter) {
// Set NoCache headers
for k, v := range noCacheHeaders {
w.Header().Set(k, v)
}
}
func prepareNoCacheMiddleware(next http.Handler) http.Handler {
return http.HandlerFunc(func(rw http.ResponseWriter, req *http.Request) {
prepareNoCache(rw)
next.ServeHTTP(rw, req)
})
}
// getOAuthRedirectURI returns the redirectURL that the upstream OAuth Provider will
// redirect clients to once authenticated.
// This is usually the OAuthProxy callback URL.
func (p *OAuthProxy) getOAuthRedirectURI(req *http.Request) string {
// if `p.redirectURL` already has a host, return it
if p.relativeRedirectURL || p.redirectURL.Host != "" {
return p.redirectURL.String()
}
// Otherwise figure out the scheme + host from the request
rd := *p.redirectURL
rd.Host = requestutil.GetRequestHost(req)
rd.Scheme = requestutil.GetRequestProto(req)
// If there's no scheme in the request, we should still include one
if rd.Scheme == "" {
rd.Scheme = schemeHTTP
}
// If CookieSecure is true, return `https` no matter what
// Not all reverse proxies set X-Forwarded-Proto
if p.CookieOptions.Secure {
rd.Scheme = schemeHTTPS
}
return rd.String()
}
// getAuthenticatedSession checks whether a user is authenticated and returns a session object and nil error if so
// Returns:
// - `nil, ErrNeedsLogin` if user needs to login.
// - `nil, ErrAccessDenied` if the authenticated user is not authorized
// Set-Cookie headers may be set on the response as a side-effect of calling this method.
func (p *OAuthProxy) getAuthenticatedSession(rw http.ResponseWriter, req *http.Request) (*sessionsapi.SessionState, error) {
session := middlewareapi.GetRequestScope(req).Session
// Check this after loading the session so that if a valid session exists, we can add headers from it
if p.IsAllowedRequest(req) {
return session, nil
}
if session == nil {
return nil, ErrNeedsLogin
}
invalidEmail := session.Email != "" && !p.Validator(session.Email)
authorized, err := p.provider.Authorize(req.Context(), session)
if err != nil {
logger.Errorf("Error with authorization: %v", err)
}
if invalidEmail || !authorized {
cause := "unauthorized"
if invalidEmail {
cause = "invalid email"
}
logger.PrintAuthf(session.Email, req, logger.AuthFailure, "Invalid authorization via session (%s): removing session %s", cause, session)
// Invalid session, clear it
err := p.ClearSessionCookie(rw, req)
if err != nil {
logger.Errorf("Error clearing session cookie: %v", err)
}
return nil, ErrAccessDenied
}
return session, nil
}
// authOnlyAuthorize handles special authorization logic that is only done
// on the AuthOnly endpoint for use with Nginx subrequest architectures.
func authOnlyAuthorize(req *http.Request, s *sessionsapi.SessionState) bool {
// Allow requests previously allowed to be bypassed
if s == nil {
return true
}
constraints := []func(*http.Request, *sessionsapi.SessionState) bool{
checkAllowedGroups,
checkAllowedEmailDomains,
checkAllowedEmails,
}
for _, constraint := range constraints {
if !constraint(req, s) {
return false
}
}
return true
}
// extractAllowedEntities aims to extract and split allowed entities linked by a key,
// from an HTTP request query. Output is a map[string]struct{} where keys are valuable,
// the goal is to avoid time complexity O(N^2) while finding matches during membership checks.
func extractAllowedEntities(req *http.Request, key string) map[string]struct{} {
entities := map[string]struct{}{}
query := req.URL.Query()
for _, allowedEntities := range query[key] {
for _, entity := range strings.Split(allowedEntities, ",") {
if entity != "" {
entities[entity] = struct{}{}
}
}
}
return entities
}
// checkAllowedEmailDomains allow email domain restrictions based on the `allowed_email_domains`
// querystring parameter
func checkAllowedEmailDomains(req *http.Request, s *sessionsapi.SessionState) bool {
allowedEmailDomains := extractAllowedEntities(req, "allowed_email_domains")
if len(allowedEmailDomains) == 0 {
return true
}
splitEmail := strings.Split(s.Email, "@")
if len(splitEmail) != 2 {
return false
}
endpoint, _ := url.Parse("")
endpoint.Host = splitEmail[1]
allowedEmailDomainsList := []string{}
for ed := range allowedEmailDomains {
allowedEmailDomainsList = append(allowedEmailDomainsList, ed)
}
return util.IsEndpointAllowed(endpoint, allowedEmailDomainsList)
}
// checkAllowedGroups allow secondary group restrictions based on the `allowed_groups`
// querystring parameter
func checkAllowedGroups(req *http.Request, s *sessionsapi.SessionState) bool {
allowedGroups := extractAllowedEntities(req, "allowed_groups")
if len(allowedGroups) == 0 {
return true
}
for _, group := range s.Groups {
if _, ok := allowedGroups[group]; ok {
return true
}
}
return false
}
// checkAllowedEmails allow email restrictions based on the `allowed_emails`
// querystring parameter
func checkAllowedEmails(req *http.Request, s *sessionsapi.SessionState) bool {
allowedEmails := extractAllowedEntities(req, "allowed_emails")
if len(allowedEmails) == 0 {
return true
}
allowed := false
for email := range allowedEmails {
if email == s.Email {
allowed = true
break
}
}
return allowed
}
// encodedState builds the OAuth state param out of our nonce and
// original application redirect
func encodeState(nonce string, redirect string, encode bool) string {
rawString := fmt.Sprintf("%v:%v", nonce, redirect)
if encode {
return base64.RawURLEncoding.EncodeToString([]byte(rawString))
}
return rawString
}
// decodeState splits the reflected OAuth state response back into
// the nonce and original application redirect
func decodeState(state string, encode bool) (string, string, error) {
toParse := state
if encode {
decoded, _ := base64.RawURLEncoding.DecodeString(state)
toParse = string(decoded)
}
parsedState := strings.SplitN(toParse, ":", 2)
if len(parsedState) != 2 {
return "", "", errors.New("invalid length")
}
return parsedState[0], parsedState[1], nil
}
// addHeadersForProxying adds the appropriate headers the request / response for proxying
func (p *OAuthProxy) addHeadersForProxying(rw http.ResponseWriter, session *sessionsapi.SessionState) {
if session == nil {
return
}
if session.Email == "" {
rw.Header().Set("GAP-Auth", session.User)
} else {
rw.Header().Set("GAP-Auth", session.Email)
}
}
// isAjax checks if a request is an ajax request
func isAjax(req *http.Request) bool {
acceptValues := req.Header.Values("Accept")
const ajaxReq = applicationJSON
// Iterate over multiple Accept headers, i.e.
// Accept: application/json
// Accept: text/plain
for _, mimeTypes := range acceptValues {
// Iterate over multiple mimetypes in a single header, i.e.
// Accept: application/json, text/plain, */*
for _, mimeType := range strings.Split(mimeTypes, ",") {
mimeType = strings.TrimSpace(mimeType)
if mimeType == ajaxReq {
return true
}
}
}
return false
}
// errorJSON returns the error code with an application/json mime type
func (p *OAuthProxy) errorJSON(rw http.ResponseWriter, code int) {
rw.Header().Set("Content-Type", applicationJSON)
rw.WriteHeader(code)
// we need to send some JSON response because we set the Content-Type to
// application/json
rw.Write([]byte("{}"))
}