authelia/internal/middlewares/authelia_context.go

611 lines
18 KiB
Go

package middlewares
import (
"encoding/json"
"errors"
"fmt"
"net"
"net/url"
"path"
"strings"
"github.com/asaskevich/govalidator"
"github.com/sirupsen/logrus"
"github.com/valyala/fasthttp"
"github.com/authelia/authelia/v4/internal/configuration/schema"
"github.com/authelia/authelia/v4/internal/logging"
"github.com/authelia/authelia/v4/internal/model"
"github.com/authelia/authelia/v4/internal/session"
"github.com/authelia/authelia/v4/internal/utils"
)
// NewRequestLogger create a new request logger for the given request.
func NewRequestLogger(ctx *AutheliaCtx) *logrus.Entry {
return logging.Logger().WithFields(logrus.Fields{
"method": string(ctx.Method()),
"path": string(ctx.Path()),
"remote_ip": ctx.RemoteIP().String(),
})
}
// NewAutheliaCtx instantiate an AutheliaCtx out of a RequestCtx.
func NewAutheliaCtx(requestCTX *fasthttp.RequestCtx, configuration schema.Configuration, providers Providers) (ctx *AutheliaCtx) {
ctx = new(AutheliaCtx)
ctx.RequestCtx = requestCTX
ctx.Providers = providers
ctx.Configuration = configuration
ctx.Logger = NewRequestLogger(ctx)
ctx.Clock = utils.RealClock{}
return ctx
}
// AvailableSecondFactorMethods returns the available 2FA methods.
func (ctx *AutheliaCtx) AvailableSecondFactorMethods() (methods []string) {
methods = make([]string, 0, 3)
if !ctx.Configuration.TOTP.Disable {
methods = append(methods, model.SecondFactorMethodTOTP)
}
if !ctx.Configuration.Webauthn.Disable {
methods = append(methods, model.SecondFactorMethodWebauthn)
}
if !ctx.Configuration.DuoAPI.Disable {
methods = append(methods, model.SecondFactorMethodDuo)
}
return methods
}
// Error reply with an error and display the stack trace in the logs.
func (ctx *AutheliaCtx) Error(err error, message string) {
ctx.SetJSONError(message)
ctx.Logger.Error(err)
}
// SetJSONError sets the body of the response to an JSON error KO message.
func (ctx *AutheliaCtx) SetJSONError(message string) {
if replyErr := ctx.ReplyJSON(ErrorResponse{Status: "KO", Message: message}, 0); replyErr != nil {
ctx.Logger.Error(replyErr)
}
}
// ReplyError reply with an error but does not display any stack trace in the logs.
func (ctx *AutheliaCtx) ReplyError(err error, message string) {
b, marshalErr := json.Marshal(ErrorResponse{Status: "KO", Message: message})
if marshalErr != nil {
ctx.Logger.Error(marshalErr)
}
ctx.SetContentTypeApplicationJSON()
ctx.SetBody(b)
ctx.Logger.Debug(err)
}
// ReplyStatusCode resets a response and replies with the given status code and relevant message.
func (ctx *AutheliaCtx) ReplyStatusCode(statusCode int) {
ctx.Response.Reset()
ctx.SetStatusCode(statusCode)
ctx.SetContentTypeTextPlain()
ctx.SetBodyString(fmt.Sprintf("%d %s", statusCode, fasthttp.StatusMessage(statusCode)))
}
// ReplyJSON writes a JSON response.
func (ctx *AutheliaCtx) ReplyJSON(data any, statusCode int) (err error) {
var (
body []byte
)
if body, err = json.Marshal(data); err != nil {
return fmt.Errorf("unable to marshal JSON body: %w", err)
}
if statusCode > 0 {
ctx.SetStatusCode(statusCode)
}
ctx.SetContentTypeApplicationJSON()
ctx.SetBody(body)
return nil
}
// ReplyUnauthorized response sent when user is unauthorized.
func (ctx *AutheliaCtx) ReplyUnauthorized() {
ctx.ReplyStatusCode(fasthttp.StatusUnauthorized)
}
// ReplyForbidden response sent when access is forbidden to user.
func (ctx *AutheliaCtx) ReplyForbidden() {
ctx.ReplyStatusCode(fasthttp.StatusForbidden)
}
// ReplyBadRequest response sent when bad request has been sent.
func (ctx *AutheliaCtx) ReplyBadRequest() {
ctx.ReplyStatusCode(fasthttp.StatusBadRequest)
}
// XForwardedMethod returns the content of the X-Forwarded-Method header.
func (ctx *AutheliaCtx) XForwardedMethod() (method []byte) {
return ctx.Request.Header.PeekBytes(headerXForwardedMethod)
}
// XForwardedProto returns the content of the X-Forwarded-Proto header.
func (ctx *AutheliaCtx) XForwardedProto() (proto []byte) {
proto = ctx.Request.Header.PeekBytes(headerXForwardedProto)
if proto == nil {
if ctx.IsTLS() {
return protoHTTPS
}
return protoHTTP
}
return proto
}
// XForwardedHost returns the content of the X-Forwarded-Host header.
func (ctx *AutheliaCtx) XForwardedHost() (host []byte) {
return ctx.Request.Header.PeekBytes(headerXForwardedHost)
}
// GetXForwardedHost returns the content of the X-Forwarded-Host header falling back to the Host header.
func (ctx *AutheliaCtx) GetXForwardedHost() (host []byte) {
host = ctx.XForwardedHost()
if host == nil {
return ctx.RequestCtx.Host()
}
return host
}
// XForwardedURI returns the content of the X-Forwarded-Uri header.
func (ctx *AutheliaCtx) XForwardedURI() (host []byte) {
return ctx.Request.Header.PeekBytes(headerXForwardedURI)
}
// GetXForwardedURI returns the content of the X-Forwarded-URI header, falling back to the start-line request path.
func (ctx *AutheliaCtx) GetXForwardedURI() (uri []byte) {
uri = ctx.XForwardedURI()
if len(uri) == 0 {
return ctx.RequestURI()
}
return uri
}
// XOriginalMethod returns the content of the X-Original-Method header.
func (ctx *AutheliaCtx) XOriginalMethod() []byte {
return ctx.Request.Header.PeekBytes(headerXOriginalMethod)
}
// XOriginalURL returns the content of the X-Original-URL header.
func (ctx *AutheliaCtx) XOriginalURL() []byte {
return ctx.Request.Header.PeekBytes(headerXOriginalURL)
}
// XAutheliaURL returns the content of the X-Authelia-URL header which is used to communicate the location of the
// portal when using proxies like Envoy.
func (ctx *AutheliaCtx) XAutheliaURL() []byte {
return ctx.Request.Header.PeekBytes(headerXAutheliaURL)
}
// QueryArgRedirect returns the content of the 'rd' query argument.
func (ctx *AutheliaCtx) QueryArgRedirect() []byte {
return ctx.QueryArgs().PeekBytes(qryArgRedirect)
}
// QueryArgAutheliaURL returns the content of the 'authelia_url' query argument.
func (ctx *AutheliaCtx) QueryArgAutheliaURL() []byte {
return ctx.QueryArgs().PeekBytes(qryArgAutheliaURL)
}
// AuthzPath returns the 'authz_path' value.
func (ctx *AutheliaCtx) AuthzPath() (uri []byte) {
if uv := ctx.UserValueBytes(keyUserValueAuthzPath); uv != nil {
return []byte(uv.(string))
}
return nil
}
// BasePath returns the base_url as per the path visited by the client.
func (ctx *AutheliaCtx) BasePath() string {
if baseURL := ctx.UserValueBytes(keyUserValueBaseURL); baseURL != nil {
return baseURL.(string)
}
return ""
}
// BasePathSlash is the same as BasePath but returns a final slash as well.
func (ctx *AutheliaCtx) BasePathSlash() string {
if baseURL := ctx.UserValueBytes(keyUserValueBaseURL); baseURL != nil {
return baseURL.(string) + strSlash
}
return strSlash
}
// RootURL returns the Root URL.
func (ctx *AutheliaCtx) RootURL() (issuerURL *url.URL) {
return &url.URL{
Scheme: string(ctx.XForwardedProto()),
Host: string(ctx.GetXForwardedHost()),
Path: ctx.BasePath(),
}
}
// RootURLSlash is the same as RootURL but includes a final slash as well.
func (ctx *AutheliaCtx) RootURLSlash() (issuerURL *url.URL) {
return &url.URL{
Scheme: string(ctx.XForwardedProto()),
Host: string(ctx.GetXForwardedHost()),
Path: ctx.BasePathSlash(),
}
}
// GetTargetURICookieDomain returns the session provider for the targetURI domain.
func (ctx *AutheliaCtx) GetTargetURICookieDomain(targetURI *url.URL) string {
if targetURI == nil {
return ""
}
hostname := targetURI.Hostname()
for _, domain := range ctx.Configuration.Session.Cookies {
if utils.HasDomainSuffix(hostname, domain.Domain) {
return domain.Domain
}
}
return ""
}
// IsSafeRedirectionTargetURI returns true if the targetURI is within the scope of a cookie domain and secure.
func (ctx *AutheliaCtx) IsSafeRedirectionTargetURI(targetURI *url.URL) bool {
if !utils.IsURISecure(targetURI) {
return false
}
return ctx.GetTargetURICookieDomain(targetURI) != ""
}
// GetCookieDomain returns the cookie domain for the current request.
func (ctx *AutheliaCtx) GetCookieDomain() (domain string, err error) {
var targetURI *url.URL
if targetURI, err = ctx.GetXOriginalURLOrXForwardedURL(); err != nil {
return "", fmt.Errorf("unable to retrieve cookie domain: %s", err)
}
return ctx.GetTargetURICookieDomain(targetURI), nil
}
// GetSessionProviderByTargetURL returns the session provider for the Request's domain.
func (ctx *AutheliaCtx) GetSessionProviderByTargetURL(targetURL *url.URL) (provider *session.Session, err error) {
domain := ctx.GetTargetURICookieDomain(targetURL)
if domain == "" {
return nil, fmt.Errorf("unable to retrieve domain session: %w", err)
}
return ctx.Providers.SessionProvider.Get(domain)
}
// GetSessionProvider returns the session provider for the Request's domain.
func (ctx *AutheliaCtx) GetSessionProvider() (provider *session.Session, err error) {
if ctx.session == nil {
var domain string
if domain, err = ctx.GetCookieDomain(); err != nil {
return nil, err
}
if ctx.session, err = ctx.GetCookieDomainSessionProvider(domain); err != nil {
return nil, err
}
}
return ctx.session, nil
}
// GetCookieDomainSessionProvider returns the session provider for the provided domain.
func (ctx *AutheliaCtx) GetCookieDomainSessionProvider(domain string) (provider *session.Session, err error) {
if domain == "" {
return nil, fmt.Errorf("unable to retrieve domain session: %w", err)
}
return ctx.Providers.SessionProvider.Get(domain)
}
// GetSession returns the user session provided the cookie provider could be discovered. It is recommended to get the
// provider itself if you also need to update or destroy sessions.
func (ctx *AutheliaCtx) GetSession() (userSession session.UserSession, err error) {
var provider *session.Session
if provider, err = ctx.GetSessionProvider(); err != nil {
return userSession, err
}
if userSession, err = provider.GetSession(ctx.RequestCtx); err != nil {
ctx.Logger.Error("Unable to retrieve user session")
return provider.NewDefaultUserSession(), nil
}
if userSession.CookieDomain != provider.Config.Domain {
ctx.Logger.Warnf("Destroying session cookie as the cookie domain '%s' does not match the requests detected cookie domain '%s' which may be a sign a user tried to move this cookie from one domain to another", userSession.CookieDomain, provider.Config.Domain)
if err = provider.DestroySession(ctx.RequestCtx); err != nil {
ctx.Logger.WithError(err).Error("Error occurred trying to destroy the session cookie")
}
userSession = provider.NewDefaultUserSession()
if err = provider.SaveSession(ctx.RequestCtx, userSession); err != nil {
ctx.Logger.WithError(err).Error("Error occurred trying to save the new session cookie")
}
}
return userSession, nil
}
// SaveSession saves the content of the session.
func (ctx *AutheliaCtx) SaveSession(userSession session.UserSession) error {
provider, err := ctx.GetSessionProvider()
if err != nil {
return fmt.Errorf("unable to save user session: %s", err)
}
return provider.SaveSession(ctx.RequestCtx, userSession)
}
// RegenerateSession regenerates a user session.
func (ctx *AutheliaCtx) RegenerateSession() error {
provider, err := ctx.GetSessionProvider()
if err != nil {
return fmt.Errorf("unable to regenerate user session: %s", err)
}
return provider.RegenerateSession(ctx.RequestCtx)
}
// DestroySession destroys a user session.
func (ctx *AutheliaCtx) DestroySession() error {
provider, err := ctx.GetSessionProvider()
if err != nil {
return fmt.Errorf("unable to destroy user session: %s", err)
}
return provider.DestroySession(ctx.RequestCtx)
}
// ReplyOK is a helper method to reply ok.
func (ctx *AutheliaCtx) ReplyOK() {
ctx.SetContentTypeApplicationJSON()
ctx.SetBody(okMessageBytes)
}
// ParseBody parse the request body into the type of value.
func (ctx *AutheliaCtx) ParseBody(value any) error {
err := json.Unmarshal(ctx.PostBody(), &value)
if err != nil {
return fmt.Errorf("unable to parse body: %w", err)
}
valid, err := govalidator.ValidateStruct(value)
if err != nil {
return fmt.Errorf("unable to validate body: %w", err)
}
if !valid {
return fmt.Errorf("Body is not valid")
}
return nil
}
// SetContentTypeApplicationJSON sets the Content-Type header to 'application/json; charset=utf-8'.
func (ctx *AutheliaCtx) SetContentTypeApplicationJSON() {
ctx.SetContentTypeBytes(contentTypeApplicationJSON)
}
// SetContentTypeTextPlain efficiently sets the Content-Type header to 'text/plain; charset=utf-8'.
func (ctx *AutheliaCtx) SetContentTypeTextPlain() {
ctx.SetContentTypeBytes(contentTypeTextPlain)
}
// SetContentTypeTextHTML efficiently sets the Content-Type header to 'text/html; charset=utf-8'.
func (ctx *AutheliaCtx) SetContentTypeTextHTML() {
ctx.SetContentTypeBytes(contentTypeTextHTML)
}
// SetContentTypeApplicationYAML efficiently sets the Content-Type header to 'application/yaml; charset=utf-8'.
func (ctx *AutheliaCtx) SetContentTypeApplicationYAML() {
ctx.SetContentTypeBytes(contentTypeApplicationYAML)
}
// SetContentSecurityPolicy sets the Content-Security-Policy header.
func (ctx *AutheliaCtx) SetContentSecurityPolicy(value string) {
ctx.Response.Header.SetBytesK(headerContentSecurityPolicy, value)
}
// SetContentSecurityPolicyBytes sets the Content-Security-Policy header.
func (ctx *AutheliaCtx) SetContentSecurityPolicyBytes(value []byte) {
ctx.Response.Header.SetBytesKV(headerContentSecurityPolicy, value)
}
// SetJSONBody Set json body.
func (ctx *AutheliaCtx) SetJSONBody(value any) error {
return ctx.ReplyJSON(OKResponse{Status: "OK", Data: value}, 0)
}
// RemoteIP return the remote IP taking X-Forwarded-For header into account if provided.
func (ctx *AutheliaCtx) RemoteIP() net.IP {
XForwardedFor := ctx.Request.Header.PeekBytes(headerXForwardedFor)
if XForwardedFor != nil {
ips := strings.Split(string(XForwardedFor), ",")
if len(ips) > 0 {
return net.ParseIP(strings.Trim(ips[0], " "))
}
}
return ctx.RequestCtx.RemoteIP()
}
// GetXForwardedURL returns the parsed X-Forwarded-Proto, X-Forwarded-Host, and X-Forwarded-URI request header as a
// *url.URL.
func (ctx *AutheliaCtx) GetXForwardedURL() (requestURI *url.URL, err error) {
forwardedProto, forwardedHost, forwardedURI := ctx.XForwardedProto(), ctx.GetXForwardedHost(), ctx.GetXForwardedURI()
if forwardedProto == nil {
return nil, ErrMissingXForwardedProto
}
if forwardedHost == nil {
return nil, ErrMissingXForwardedHost
}
value := utils.BytesJoin(forwardedProto, protoHostSeparator, forwardedHost, forwardedURI)
if requestURI, err = url.ParseRequestURI(string(value)); err != nil {
return nil, fmt.Errorf("failed to parse X-Forwarded Headers: %w", err)
}
return requestURI, nil
}
// GetXOriginalURL returns the parsed X-OriginalURL request header as a *url.URL.
func (ctx *AutheliaCtx) GetXOriginalURL() (requestURI *url.URL, err error) {
value := ctx.XOriginalURL()
if value == nil {
return nil, ErrMissingXOriginalURL
}
if requestURI, err = url.ParseRequestURI(string(value)); err != nil {
return nil, fmt.Errorf("failed to parse X-Original-URL header: %w", err)
}
return requestURI, nil
}
// GetXOriginalURLOrXForwardedURL returns the parsed X-Original-URL request header if it's available or the parsed
// X-Forwarded request headers if not.
func (ctx *AutheliaCtx) GetXOriginalURLOrXForwardedURL() (requestURI *url.URL, err error) {
requestURI, err = ctx.GetXOriginalURL()
switch {
case err == nil:
return requestURI, nil
case errors.Is(err, ErrMissingXOriginalURL):
return ctx.GetXForwardedURL()
default:
return requestURI, err
}
}
// IssuerURL returns the expected Issuer.
func (ctx *AutheliaCtx) IssuerURL() (issuerURL *url.URL, err error) {
issuerURL = &url.URL{
Scheme: strProtoHTTPS,
}
if scheme := ctx.XForwardedProto(); scheme != nil {
issuerURL.Scheme = string(scheme)
}
if host := ctx.GetXForwardedHost(); len(host) != 0 {
issuerURL.Host = string(host)
} else {
return nil, ErrMissingXForwardedHost
}
if base := ctx.BasePath(); base != "" {
issuerURL.Path = path.Join(issuerURL.Path, base)
}
return issuerURL, nil
}
// IsXHR returns true if the request is a XMLHttpRequest.
func (ctx *AutheliaCtx) IsXHR() (xhr bool) {
if requestedWith := ctx.Request.Header.PeekBytes(headerXRequestedWith); requestedWith != nil && strings.EqualFold(string(requestedWith), headerValueXRequestedWithXHR) {
return true
}
return false
}
// AcceptsMIME takes a mime type and returns true if the request accepts that type or the wildcard type.
func (ctx *AutheliaCtx) AcceptsMIME(mime string) (acceptsMime bool) {
accepts := strings.Split(string(ctx.Request.Header.PeekBytes(headerAccept)), ",")
for i, accept := range accepts {
mimeType := strings.Trim(strings.SplitN(accept, ";", 2)[0], " ")
if mimeType == mime || (i == 0 && mimeType == "*/*") {
return true
}
}
return false
}
// SpecialRedirect performs a redirect similar to fasthttp.RequestCtx except it allows statusCode 401 and includes body
// content in the form of a link to the location if the request method was not head.
func (ctx *AutheliaCtx) SpecialRedirect(uri string, statusCode int) {
var u []byte
u, statusCode = ctx.setSpecialRedirect(uri, statusCode)
ctx.SetContentTypeTextHTML()
ctx.SetBodyString(fmt.Sprintf("<a href=\"%s\">%d %s</a>", utils.StringHTMLEscape(string(u)), statusCode, fasthttp.StatusMessage(statusCode)))
}
// SpecialRedirectNoBody performs a redirect similar to fasthttp.RequestCtx except it allows statusCode 401 and includes
// no body.
func (ctx *AutheliaCtx) SpecialRedirectNoBody(uri string, statusCode int) {
_, _ = ctx.setSpecialRedirect(uri, statusCode)
}
func (ctx *AutheliaCtx) setSpecialRedirect(uri string, statusCode int) ([]byte, int) {
if statusCode < fasthttp.StatusMovedPermanently || (statusCode > fasthttp.StatusSeeOther && statusCode != fasthttp.StatusTemporaryRedirect && statusCode != fasthttp.StatusPermanentRedirect && statusCode != fasthttp.StatusUnauthorized) {
statusCode = fasthttp.StatusFound
}
ctx.SetStatusCode(statusCode)
u := fasthttp.AcquireURI()
ctx.URI().CopyTo(u)
u.Update(uri)
raw := u.FullURI()
ctx.Response.Header.SetBytesKV(headerLocation, raw)
fasthttp.ReleaseURI(u)
return raw, statusCode
}
// RecordAuthn records authentication metrics.
func (ctx *AutheliaCtx) RecordAuthn(success, regulated bool, method string) {
if ctx.Providers.Metrics == nil {
return
}
ctx.Providers.Metrics.RecordAuthn(success, regulated, method)
}