oauth2_proxy/oauthproxy.go

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package main
import (
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b64 "encoding/base64"
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"errors"
"fmt"
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"html/template"
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"log"
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"net"
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"net/http"
"net/http/httputil"
"net/url"
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"regexp"
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"strings"
"time"
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"github.com/mbland/hmacauth"
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"github.com/pusher/oauth2_proxy/cookie"
"github.com/pusher/oauth2_proxy/providers"
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)
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const (
// SignatureHeader is the name of the request header containing the GAP Signature
// Part of hmacauth
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SignatureHeader = "GAP-Signature"
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httpScheme = "http"
httpsScheme = "https"
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// Cookies are limited to 4kb including the length of the cookie name,
// the cookie name can be up to 256 bytes
maxCookieLength = 3840
applicationJSON = "application/json"
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)
// SignatureHeaders contains the headers to be signed by the hmac algorithm
// Part of hmacauth
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var SignatureHeaders = []string{
"Content-Length",
"Content-Md5",
"Content-Type",
"Date",
"Authorization",
"X-Forwarded-User",
"X-Forwarded-Email",
"X-Forwarded-Access-Token",
"Cookie",
"Gap-Auth",
}
// OAuthProxy is the main authentication proxy
type OAuthProxy struct {
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CookieSeed string
CookieName string
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CSRFCookieName string
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CookieDomain string
CookieSecure bool
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CookieHTTPOnly bool
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CookieExpire time.Duration
CookieRefresh time.Duration
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Validator func(string) bool
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RobotsPath string
PingPath string
SignInPath string
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SignOutPath string
OAuthStartPath string
OAuthCallbackPath string
AuthOnlyPath string
redirectURL *url.URL // the url to receive requests at
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whitelistDomains []string
provider providers.Provider
ProxyPrefix string
SignInMessage string
HtpasswdFile *HtpasswdFile
DisplayHtpasswdForm bool
serveMux http.Handler
SetXAuthRequest bool
PassBasicAuth bool
SkipProviderButton bool
PassUserHeaders bool
BasicAuthPassword string
PassAccessToken bool
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SetAuthorization bool
PassAuthorization bool
CookieCipher *cookie.Cipher
skipAuthRegex []string
skipAuthPreflight bool
compiledRegex []*regexp.Regexp
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templates *template.Template
Footer string
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}
// UpstreamProxy represents an upstream server to proxy to
type UpstreamProxy struct {
upstream string
handler http.Handler
auth hmacauth.HmacAuth
}
// ServeHTTP proxies requests to the upstream provider while signing the
// request headers
func (u *UpstreamProxy) ServeHTTP(w http.ResponseWriter, r *http.Request) {
w.Header().Set("GAP-Upstream-Address", u.upstream)
if u.auth != nil {
r.Header.Set("GAP-Auth", w.Header().Get("GAP-Auth"))
u.auth.SignRequest(r)
}
u.handler.ServeHTTP(w, r)
}
// NewReverseProxy creates a new reverse proxy for proxying requests to upstream
// servers
func NewReverseProxy(target *url.URL, flushInterval time.Duration) (proxy *httputil.ReverseProxy) {
proxy = httputil.NewSingleHostReverseProxy(target)
proxy.FlushInterval = flushInterval
return proxy
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}
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func setProxyUpstreamHostHeader(proxy *httputil.ReverseProxy, target *url.URL) {
director := proxy.Director
proxy.Director = func(req *http.Request) {
director(req)
// use RequestURI so that we aren't unescaping encoded slashes in the request path
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req.Host = target.Host
req.URL.Opaque = req.RequestURI
req.URL.RawQuery = ""
}
}
func setProxyDirector(proxy *httputil.ReverseProxy) {
director := proxy.Director
proxy.Director = func(req *http.Request) {
director(req)
// use RequestURI so that we aren't unescaping encoded slashes in the request path
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req.URL.Opaque = req.RequestURI
req.URL.RawQuery = ""
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}
}
// NewFileServer creates a http.Handler to serve files from the filesystem
func NewFileServer(path string, filesystemPath string) (proxy http.Handler) {
return http.StripPrefix(path, http.FileServer(http.Dir(filesystemPath)))
}
// NewOAuthProxy creates a new instance of OOuthProxy from the options provided
func NewOAuthProxy(opts *Options, validator func(string) bool) *OAuthProxy {
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serveMux := http.NewServeMux()
var auth hmacauth.HmacAuth
if sigData := opts.signatureData; sigData != nil {
auth = hmacauth.NewHmacAuth(sigData.hash, []byte(sigData.key),
SignatureHeader, SignatureHeaders)
}
for _, u := range opts.proxyURLs {
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path := u.Path
switch u.Scheme {
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case httpScheme, httpsScheme:
u.Path = ""
log.Printf("mapping path %q => upstream %q", path, u)
proxy := NewReverseProxy(u, opts.FlushInterval)
if !opts.PassHostHeader {
setProxyUpstreamHostHeader(proxy, u)
} else {
setProxyDirector(proxy)
}
serveMux.Handle(path,
&UpstreamProxy{u.Host, proxy, auth})
case "file":
if u.Fragment != "" {
path = u.Fragment
}
log.Printf("mapping path %q => file system %q", path, u.Path)
proxy := NewFileServer(path, u.Path)
serveMux.Handle(path, &UpstreamProxy{path, proxy, nil})
default:
panic(fmt.Sprintf("unknown upstream protocol %s", u.Scheme))
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}
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}
for _, u := range opts.CompiledRegex {
log.Printf("compiled skip-auth-regex => %q", u)
}
redirectURL := opts.redirectURL
redirectURL.Path = fmt.Sprintf("%s/callback", opts.ProxyPrefix)
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log.Printf("OAuthProxy configured for %s Client ID: %s", opts.provider.Data().ProviderName, opts.ClientID)
refresh := "disabled"
if opts.CookieRefresh != time.Duration(0) {
refresh = fmt.Sprintf("after %s", opts.CookieRefresh)
}
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log.Printf("Cookie settings: name:%s secure(https):%v httponly:%v expiry:%s domain:%s refresh:%s", opts.CookieName, opts.CookieSecure, opts.CookieHTTPOnly, opts.CookieExpire, opts.CookieDomain, refresh)
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var cipher *cookie.Cipher
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if opts.PassAccessToken || opts.SetAuthorization || opts.PassAuthorization || (opts.CookieRefresh != time.Duration(0)) {
var err error
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cipher, err = cookie.NewCipher(secretBytes(opts.CookieSecret))
if err != nil {
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log.Fatal("cookie-secret error: ", err)
}
}
return &OAuthProxy{
CookieName: opts.CookieName,
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CSRFCookieName: fmt.Sprintf("%v_%v", opts.CookieName, "csrf"),
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CookieSeed: opts.CookieSecret,
CookieDomain: opts.CookieDomain,
CookieSecure: opts.CookieSecure,
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CookieHTTPOnly: opts.CookieHTTPOnly,
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CookieExpire: opts.CookieExpire,
CookieRefresh: opts.CookieRefresh,
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Validator: validator,
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RobotsPath: "/robots.txt",
PingPath: "/ping",
SignInPath: fmt.Sprintf("%s/sign_in", opts.ProxyPrefix),
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SignOutPath: fmt.Sprintf("%s/sign_out", opts.ProxyPrefix),
OAuthStartPath: fmt.Sprintf("%s/start", opts.ProxyPrefix),
OAuthCallbackPath: fmt.Sprintf("%s/callback", opts.ProxyPrefix),
AuthOnlyPath: fmt.Sprintf("%s/auth", opts.ProxyPrefix),
ProxyPrefix: opts.ProxyPrefix,
provider: opts.provider,
serveMux: serveMux,
redirectURL: redirectURL,
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whitelistDomains: opts.WhitelistDomains,
skipAuthRegex: opts.SkipAuthRegex,
skipAuthPreflight: opts.SkipAuthPreflight,
compiledRegex: opts.CompiledRegex,
SetXAuthRequest: opts.SetXAuthRequest,
PassBasicAuth: opts.PassBasicAuth,
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PassUserHeaders: opts.PassUserHeaders,
BasicAuthPassword: opts.BasicAuthPassword,
PassAccessToken: opts.PassAccessToken,
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SetAuthorization: opts.SetAuthorization,
PassAuthorization: opts.PassAuthorization,
SkipProviderButton: opts.SkipProviderButton,
CookieCipher: cipher,
templates: loadTemplates(opts.CustomTemplatesDir),
Footer: opts.Footer,
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}
}
// GetRedirectURI returns the redirectURL that the upstream OAuth Provider will
// redirect clients to once authenticated
func (p *OAuthProxy) GetRedirectURI(host string) string {
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// default to the request Host if not set
if p.redirectURL.Host != "" {
return p.redirectURL.String()
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}
var u url.URL
u = *p.redirectURL
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if u.Scheme == "" {
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if p.CookieSecure {
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u.Scheme = httpsScheme
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} else {
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u.Scheme = httpScheme
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}
}
u.Host = host
return u.String()
}
func (p *OAuthProxy) displayCustomLoginForm() bool {
return p.HtpasswdFile != nil && p.DisplayHtpasswdForm
}
func (p *OAuthProxy) redeemCode(host, code string) (s *providers.SessionState, err error) {
if code == "" {
return nil, errors.New("missing code")
}
redirectURI := p.GetRedirectURI(host)
s, err = p.provider.Redeem(redirectURI, code)
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if err != nil {
return
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}
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if s.Email == "" {
s.Email, err = p.provider.GetEmailAddress(s)
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}
if s.User == "" {
s.User, err = p.provider.GetUserName(s)
if err != nil && err.Error() == "not implemented" {
err = nil
}
}
return
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}
// MakeSessionCookie creates an http.Cookie containing the authenticated user's
// authentication details
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func (p *OAuthProxy) MakeSessionCookie(req *http.Request, value string, expiration time.Duration, now time.Time) []*http.Cookie {
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if value != "" {
value = cookie.SignedValue(p.CookieSeed, p.CookieName, value, now)
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}
c := p.makeCookie(req, p.CookieName, value, expiration, now)
if len(c.Value) > 4096-len(p.CookieName) {
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return splitCookie(c)
}
return []*http.Cookie{c}
}
func copyCookie(c *http.Cookie) *http.Cookie {
return &http.Cookie{
Name: c.Name,
Value: c.Value,
Path: c.Path,
Domain: c.Domain,
Expires: c.Expires,
RawExpires: c.RawExpires,
MaxAge: c.MaxAge,
Secure: c.Secure,
HttpOnly: c.HttpOnly,
Raw: c.Raw,
Unparsed: c.Unparsed,
}
}
// splitCookie reads the full cookie generated to store the session and splits
// it into a slice of cookies which fit within the 4kb cookie limit indexing
// the cookies from 0
func splitCookie(c *http.Cookie) []*http.Cookie {
if len(c.Value) < maxCookieLength {
return []*http.Cookie{c}
}
cookies := []*http.Cookie{}
valueBytes := []byte(c.Value)
count := 0
for len(valueBytes) > 0 {
new := copyCookie(c)
new.Name = fmt.Sprintf("%s_%d", c.Name, count)
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count++
if len(valueBytes) < maxCookieLength {
new.Value = string(valueBytes)
valueBytes = []byte{}
} else {
newValue := valueBytes[:maxCookieLength]
valueBytes = valueBytes[maxCookieLength:]
new.Value = string(newValue)
}
cookies = append(cookies, new)
}
return cookies
}
// joinCookies takes a slice of cookies from the request and reconstructs the
// full session cookie
func joinCookies(cookies []*http.Cookie) (*http.Cookie, error) {
if len(cookies) == 0 {
return nil, fmt.Errorf("list of cookies must be > 0")
}
if len(cookies) == 1 {
return cookies[0], nil
}
c := copyCookie(cookies[0])
for i := 1; i < len(cookies); i++ {
c.Value += cookies[i].Value
}
c.Name = strings.TrimRight(c.Name, "_0")
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return c, nil
}
// loadCookie retreieves the sessions state cookie from the http request.
// If a single cookie is present this will be returned, otherwise it attempts
// to reconstruct a cookie split up by splitCookie
func loadCookie(req *http.Request, cookieName string) (*http.Cookie, error) {
c, err := req.Cookie(cookieName)
if err == nil {
return c, nil
}
cookies := []*http.Cookie{}
err = nil
count := 0
for err == nil {
var c *http.Cookie
c, err = req.Cookie(fmt.Sprintf("%s_%d", cookieName, count))
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if err == nil {
cookies = append(cookies, c)
count++
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}
}
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if len(cookies) == 0 {
return nil, fmt.Errorf("Could not find cookie %s", cookieName)
}
return joinCookies(cookies)
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}
// MakeCSRFCookie creates a cookie for CSRF
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func (p *OAuthProxy) MakeCSRFCookie(req *http.Request, value string, expiration time.Duration, now time.Time) *http.Cookie {
return p.makeCookie(req, p.CSRFCookieName, value, expiration, now)
}
func (p *OAuthProxy) makeCookie(req *http.Request, name string, value string, expiration time.Duration, now time.Time) *http.Cookie {
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if p.CookieDomain != "" {
domain := req.Host
if h, _, err := net.SplitHostPort(domain); err == nil {
domain = h
}
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if !strings.HasSuffix(domain, p.CookieDomain) {
log.Printf("Warning: request host is %q but using configured cookie domain of %q", domain, p.CookieDomain)
}
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}
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return &http.Cookie{
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Name: name,
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Value: value,
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Path: "/",
Domain: p.CookieDomain,
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HttpOnly: p.CookieHTTPOnly,
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Secure: p.CookieSecure,
Expires: now.Add(expiration),
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}
}
// ClearCSRFCookie creates a cookie to unset the CSRF cookie stored in the user's
// session
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func (p *OAuthProxy) ClearCSRFCookie(rw http.ResponseWriter, req *http.Request) {
http.SetCookie(rw, p.MakeCSRFCookie(req, "", time.Hour*-1, time.Now()))
}
// SetCSRFCookie adds a CSRF cookie to the response
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func (p *OAuthProxy) SetCSRFCookie(rw http.ResponseWriter, req *http.Request, val string) {
http.SetCookie(rw, p.MakeCSRFCookie(req, val, p.CookieExpire, time.Now()))
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}
// ClearSessionCookie creates a cookie to unset the user's authentication cookie
// stored in the user's session
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func (p *OAuthProxy) ClearSessionCookie(rw http.ResponseWriter, req *http.Request) {
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cookies := p.MakeSessionCookie(req, "", time.Hour*-1, time.Now())
for _, clr := range cookies {
http.SetCookie(rw, clr)
}
// ugly hack because default domain changed
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if p.CookieDomain == "" && len(cookies) > 0 {
clr2 := *cookies[0]
clr2.Domain = req.Host
http.SetCookie(rw, &clr2)
}
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}
// SetSessionCookie adds the user's session cookie to the response
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func (p *OAuthProxy) SetSessionCookie(rw http.ResponseWriter, req *http.Request, val string) {
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for _, c := range p.MakeSessionCookie(req, val, p.CookieExpire, time.Now()) {
http.SetCookie(rw, c)
}
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}
// LoadCookiedSession reads the user's authentication details from the request
func (p *OAuthProxy) LoadCookiedSession(req *http.Request) (*providers.SessionState, time.Duration, error) {
var age time.Duration
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c, err := loadCookie(req, p.CookieName)
if err != nil {
// always http.ErrNoCookie
return nil, age, fmt.Errorf("Cookie %q not present", p.CookieName)
}
val, timestamp, ok := cookie.Validate(c, p.CookieSeed, p.CookieExpire)
if !ok {
return nil, age, errors.New("Cookie Signature not valid")
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}
session, err := p.provider.SessionFromCookie(val, p.CookieCipher)
if err != nil {
return nil, age, err
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}
age = time.Now().Truncate(time.Second).Sub(timestamp)
return session, age, nil
}
// SaveSession creates a new session cookie value and sets this on the response
func (p *OAuthProxy) SaveSession(rw http.ResponseWriter, req *http.Request, s *providers.SessionState) error {
value, err := p.provider.CookieForSession(s, p.CookieCipher)
if err != nil {
return err
}
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p.SetSessionCookie(rw, req, value)
return nil
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}
// RobotsTxt disallows scraping pages from the OAuthProxy
func (p *OAuthProxy) RobotsTxt(rw http.ResponseWriter) {
rw.WriteHeader(http.StatusOK)
fmt.Fprintf(rw, "User-agent: *\nDisallow: /")
}
// PingPage responds 200 OK to requests
func (p *OAuthProxy) PingPage(rw http.ResponseWriter) {
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rw.WriteHeader(http.StatusOK)
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fmt.Fprintf(rw, "OK")
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}
// ErrorPage writes an error response
func (p *OAuthProxy) ErrorPage(rw http.ResponseWriter, code int, title string, message string) {
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log.Printf("ErrorPage %d %s %s", code, title, message)
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rw.WriteHeader(code)
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t := struct {
Title string
Message string
ProxyPrefix string
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}{
Title: fmt.Sprintf("%d %s", code, title),
Message: message,
ProxyPrefix: p.ProxyPrefix,
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}
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p.templates.ExecuteTemplate(rw, "error.html", t)
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}
// SignInPage writes the sing in template to the response
func (p *OAuthProxy) SignInPage(rw http.ResponseWriter, req *http.Request, code int) {
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p.ClearSessionCookie(rw, req)
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rw.WriteHeader(code)
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redirecURL := req.URL.RequestURI()
if req.Header.Get("X-Auth-Request-Redirect") != "" {
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redirecURL = req.Header.Get("X-Auth-Request-Redirect")
}
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if redirecURL == p.SignInPath {
redirecURL = "/"
}
t := struct {
ProviderName string
SignInMessage string
CustomLogin bool
Redirect string
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Version string
ProxyPrefix string
Footer template.HTML
}{
ProviderName: p.provider.Data().ProviderName,
SignInMessage: p.SignInMessage,
CustomLogin: p.displayCustomLoginForm(),
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Redirect: redirecURL,
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Version: VERSION,
ProxyPrefix: p.ProxyPrefix,
Footer: template.HTML(p.Footer),
}
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p.templates.ExecuteTemplate(rw, "sign_in.html", t)
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}
// ManualSignIn handles basic auth logins to the proxy
func (p *OAuthProxy) ManualSignIn(rw http.ResponseWriter, req *http.Request) (string, bool) {
if req.Method != "POST" || p.HtpasswdFile == nil {
return "", false
}
user := req.FormValue("username")
passwd := req.FormValue("password")
if user == "" {
return "", false
}
// check auth
if p.HtpasswdFile.Validate(user, passwd) {
log.Printf("authenticated %q via HtpasswdFile", user)
return user, true
}
return "", false
}
// GetRedirect reads the query parameter to get the URL to redirect clients to
// once authenticated with the OAuthProxy
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func (p *OAuthProxy) GetRedirect(req *http.Request) (redirect string, err error) {
err = req.ParseForm()
if err != nil {
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return
}
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redirect = req.Form.Get("rd")
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if !p.IsValidRedirect(redirect) {
redirect = req.URL.Path
if strings.HasPrefix(redirect, p.ProxyPrefix) {
redirect = "/"
}
}
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return
}
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// IsValidRedirect checks whether the redirect URL is whitelisted
func (p *OAuthProxy) IsValidRedirect(redirect string) bool {
switch {
case strings.HasPrefix(redirect, "/") && !strings.HasPrefix(redirect, "//"):
return true
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case strings.HasPrefix(redirect, "http://") || strings.HasPrefix(redirect, "https://"):
redirectURL, err := url.Parse(redirect)
if err != nil {
return false
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}
for _, domain := range p.whitelistDomains {
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if (redirectURL.Host == domain) || (strings.HasPrefix(domain, ".") && strings.HasSuffix(redirectURL.Host, domain)) {
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return true
}
}
return false
default:
return false
}
}
// IsWhitelistedRequest is used to check if auth should be skipped for this request
func (p *OAuthProxy) IsWhitelistedRequest(req *http.Request) (ok bool) {
isPreflightRequestAllowed := p.skipAuthPreflight && req.Method == "OPTIONS"
return isPreflightRequestAllowed || p.IsWhitelistedPath(req.URL.Path)
}
// IsWhitelistedPath is used to check if the request path is allowed without auth
func (p *OAuthProxy) IsWhitelistedPath(path string) (ok bool) {
for _, u := range p.compiledRegex {
ok = u.MatchString(path)
if ok {
return
}
}
return
}
func getRemoteAddr(req *http.Request) (s string) {
s = req.RemoteAddr
if req.Header.Get("X-Real-IP") != "" {
s += fmt.Sprintf(" (%q)", req.Header.Get("X-Real-IP"))
}
return
}
func (p *OAuthProxy) ServeHTTP(rw http.ResponseWriter, req *http.Request) {
switch path := req.URL.Path; {
case path == p.RobotsPath:
p.RobotsTxt(rw)
case path == p.PingPath:
p.PingPage(rw)
case p.IsWhitelistedRequest(req):
p.serveMux.ServeHTTP(rw, req)
case path == p.SignInPath:
p.SignIn(rw, req)
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case path == p.SignOutPath:
p.SignOut(rw, req)
case path == p.OAuthStartPath:
p.OAuthStart(rw, req)
case path == p.OAuthCallbackPath:
p.OAuthCallback(rw, req)
case path == p.AuthOnlyPath:
p.AuthenticateOnly(rw, req)
default:
p.Proxy(rw, req)
}
}
// SignIn serves a page prompting users to sign in
func (p *OAuthProxy) SignIn(rw http.ResponseWriter, req *http.Request) {
redirect, err := p.GetRedirect(req)
if err != nil {
p.ErrorPage(rw, 500, "Internal Error", err.Error())
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return
}
user, ok := p.ManualSignIn(rw, req)
if ok {
session := &providers.SessionState{User: user}
p.SaveSession(rw, req, session)
http.Redirect(rw, req, redirect, 302)
} else {
if p.SkipProviderButton {
p.OAuthStart(rw, req)
} else {
p.SignInPage(rw, req, http.StatusOK)
}
}
}
// SignOut sends a response to clear the authentication cookie
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func (p *OAuthProxy) SignOut(rw http.ResponseWriter, req *http.Request) {
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p.ClearSessionCookie(rw, req)
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http.Redirect(rw, req, "/", 302)
}
// OAuthStart starts the OAuth2 authentication flow
func (p *OAuthProxy) OAuthStart(rw http.ResponseWriter, req *http.Request) {
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nonce, err := cookie.Nonce()
if err != nil {
p.ErrorPage(rw, 500, "Internal Error", err.Error())
return
}
p.SetCSRFCookie(rw, req, nonce)
redirect, err := p.GetRedirect(req)
if err != nil {
p.ErrorPage(rw, 500, "Internal Error", err.Error())
return
}
redirectURI := p.GetRedirectURI(req.Host)
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http.Redirect(rw, req, p.provider.GetLoginURL(redirectURI, fmt.Sprintf("%v:%v", nonce, redirect)), 302)
}
// OAuthCallback is the OAuth2 authentication flow callback that finishes the
// OAuth2 authentication flow
func (p *OAuthProxy) OAuthCallback(rw http.ResponseWriter, req *http.Request) {
remoteAddr := getRemoteAddr(req)
// finish the oauth cycle
err := req.ParseForm()
if err != nil {
p.ErrorPage(rw, 500, "Internal Error", err.Error())
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return
}
errorString := req.Form.Get("error")
if errorString != "" {
p.ErrorPage(rw, 403, "Permission Denied", errorString)
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return
}
session, err := p.redeemCode(req.Host, req.Form.Get("code"))
if err != nil {
log.Printf("%s error redeeming code %s", remoteAddr, err)
p.ErrorPage(rw, 500, "Internal Error", "Internal Error")
return
}
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s := strings.SplitN(req.Form.Get("state"), ":", 2)
if len(s) != 2 {
p.ErrorPage(rw, 500, "Internal Error", "Invalid State")
return
}
nonce := s[0]
redirect := s[1]
c, err := req.Cookie(p.CSRFCookieName)
if err != nil {
p.ErrorPage(rw, 403, "Permission Denied", err.Error())
return
}
p.ClearCSRFCookie(rw, req)
if c.Value != nonce {
log.Printf("%s csrf token mismatch, potential attack", remoteAddr)
p.ErrorPage(rw, 403, "Permission Denied", "csrf failed")
return
}
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if !p.IsValidRedirect(redirect) {
redirect = "/"
}
// set cookie, or deny
if p.Validator(session.Email) && p.provider.ValidateGroup(session.Email) {
log.Printf("%s authentication complete %s", remoteAddr, session)
err := p.SaveSession(rw, req, session)
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if err != nil {
log.Printf("%s %s", remoteAddr, err)
p.ErrorPage(rw, 500, "Internal Error", "Internal Error")
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return
}
http.Redirect(rw, req, redirect, 302)
} else {
log.Printf("%s Permission Denied: %q is unauthorized", remoteAddr, session.Email)
p.ErrorPage(rw, 403, "Permission Denied", "Invalid Account")
}
}
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// AuthenticateOnly checks whether the user is currently logged in
func (p *OAuthProxy) AuthenticateOnly(rw http.ResponseWriter, req *http.Request) {
status := p.Authenticate(rw, req)
if status == http.StatusAccepted {
rw.WriteHeader(http.StatusAccepted)
} else {
http.Error(rw, "unauthorized request", http.StatusUnauthorized)
}
}
// 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) {
status := p.Authenticate(rw, req)
if status == http.StatusInternalServerError {
p.ErrorPage(rw, http.StatusInternalServerError,
"Internal Error", "Internal Error")
} else if status == http.StatusForbidden {
if p.SkipProviderButton {
p.OAuthStart(rw, req)
} else {
p.SignInPage(rw, req, http.StatusForbidden)
}
} else if status == http.StatusUnauthorized {
p.ErrorJSON(rw, status)
} else {
p.serveMux.ServeHTTP(rw, req)
}
}
// Authenticate checks whether a user is authenticated
func (p *OAuthProxy) Authenticate(rw http.ResponseWriter, req *http.Request) int {
var saveSession, clearSession, revalidated bool
remoteAddr := getRemoteAddr(req)
session, sessionAge, err := p.LoadCookiedSession(req)
if err != nil {
log.Printf("%s %s", remoteAddr, err)
}
if session != nil && sessionAge > p.CookieRefresh && p.CookieRefresh != time.Duration(0) {
log.Printf("%s refreshing %s old session cookie for %s (refresh after %s)", remoteAddr, sessionAge, session, p.CookieRefresh)
saveSession = true
}
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var ok bool
if ok, err = p.provider.RefreshSessionIfNeeded(session); err != nil {
log.Printf("%s removing session. error refreshing access token %s %s", remoteAddr, err, session)
clearSession = true
session = nil
} else if ok {
saveSession = true
revalidated = true
}
if session != nil && session.IsExpired() {
log.Printf("%s removing session. token expired %s", remoteAddr, session)
session = nil
saveSession = false
clearSession = true
}
if saveSession && !revalidated && session != nil && session.AccessToken != "" {
if !p.provider.ValidateSessionState(session) {
log.Printf("%s removing session. error validating %s", remoteAddr, session)
saveSession = false
session = nil
clearSession = true
}
}
if session != nil && session.Email != "" && !p.Validator(session.Email) {
log.Printf("%s Permission Denied: removing session %s", remoteAddr, session)
session = nil
saveSession = false
clearSession = true
}
if saveSession && session != nil {
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err = p.SaveSession(rw, req, session)
if err != nil {
log.Printf("%s %s", remoteAddr, err)
return http.StatusInternalServerError
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}
}
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if clearSession {
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p.ClearSessionCookie(rw, req)
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}
if session == nil {
session, err = p.CheckBasicAuth(req)
if err != nil {
log.Printf("%s %s", remoteAddr, err)
}
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}
if session == nil {
// Check if is an ajax request and return unauthorized to avoid a redirect
// to the login page
if p.isAjax(req) {
return http.StatusUnauthorized
}
return http.StatusForbidden
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}
// At this point, the user is authenticated. proxy normally
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if p.PassBasicAuth {
req.SetBasicAuth(session.User, p.BasicAuthPassword)
req.Header["X-Forwarded-User"] = []string{session.User}
if session.Email != "" {
req.Header["X-Forwarded-Email"] = []string{session.Email}
}
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}
if p.PassUserHeaders {
req.Header["X-Forwarded-User"] = []string{session.User}
if session.Email != "" {
req.Header["X-Forwarded-Email"] = []string{session.Email}
}
}
if p.SetXAuthRequest {
rw.Header().Set("X-Auth-Request-User", session.User)
if session.Email != "" {
rw.Header().Set("X-Auth-Request-Email", session.Email)
}
}
if p.PassAccessToken && session.AccessToken != "" {
req.Header["X-Forwarded-Access-Token"] = []string{session.AccessToken}
}
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if p.PassAuthorization && session.IDToken != "" {
req.Header["Authorization"] = []string{fmt.Sprintf("Bearer %s", session.IDToken)}
}
if p.SetAuthorization && session.IDToken != "" {
rw.Header().Set("Authorization", fmt.Sprintf("Bearer %s", session.IDToken))
}
if session.Email == "" {
rw.Header().Set("GAP-Auth", session.User)
} else {
rw.Header().Set("GAP-Auth", session.Email)
}
return http.StatusAccepted
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}
// CheckBasicAuth checks the requests Authorization header for basic auth
// credentials and authenticates these against the proxies HtpasswdFile
func (p *OAuthProxy) CheckBasicAuth(req *http.Request) (*providers.SessionState, error) {
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if p.HtpasswdFile == nil {
return nil, nil
}
auth := req.Header.Get("Authorization")
if auth == "" {
return nil, nil
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}
s := strings.SplitN(auth, " ", 2)
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if len(s) != 2 || s[0] != "Basic" {
return nil, fmt.Errorf("invalid Authorization header %s", req.Header.Get("Authorization"))
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}
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b, err := b64.StdEncoding.DecodeString(s[1])
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if err != nil {
return nil, err
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}
pair := strings.SplitN(string(b), ":", 2)
if len(pair) != 2 {
return nil, fmt.Errorf("invalid format %s", b)
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}
if p.HtpasswdFile.Validate(pair[0], pair[1]) {
log.Printf("authenticated %q via basic auth", pair[0])
return &providers.SessionState{User: pair[0]}, nil
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}
return nil, fmt.Errorf("%s not in HtpasswdFile", pair[0])
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}
// isAjax checks if a request is an ajax request
func (p *OAuthProxy) isAjax(req *http.Request) bool {
acceptValues, ok := req.Header["accept"]
if !ok {
acceptValues = req.Header["Accept"]
}
const ajaxReq = applicationJSON
for _, v := range acceptValues {
if v == ajaxReq {
return true
}
}
return false
}
// ErrorJSON returns the error code witht an application/json mime type
func (p *OAuthProxy) ErrorJSON(rw http.ResponseWriter, code int) {
rw.Header().Set("Content-Type", applicationJSON)
rw.WriteHeader(code)
}