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https://github.com/0rangebananaspy/authelia.git
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ef549f851d
* This gives admins more control over their OIDC installation exposing options that had defaults before. Things like lifespans for authorize codes, access tokens, id tokens, refresh tokens, a option to enable the debug client messages, minimum parameter entropy. It also allows admins to configure the response modes. * Additionally this records specific values about a users session indicating when they performed a specific authz factor so this is represented in the token accurately. * Lastly we also implemented a OIDC key manager which calculates the kid for jwk's using the SHA1 digest instead of being static, or more specifically the first 7 chars. As per https://datatracker.ietf.org/doc/html/draft-ietf-jose-json-web-key#section-8.1.1 the kid should not exceed 8 chars. While it's allowed to exceed 8 chars, it must only be done so with a compelling reason, which we do not have.
191 lines
7.2 KiB
Go
191 lines
7.2 KiB
Go
package handlers
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import (
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"fmt"
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"math"
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"math/rand"
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"sync"
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"time"
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"github.com/authelia/authelia/internal/middlewares"
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"github.com/authelia/authelia/internal/regulation"
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"github.com/authelia/authelia/internal/session"
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)
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func movingAverageIteration(value time.Duration, successful bool, movingAverageCursor *int, execDurationMovingAverage *[]time.Duration, mutex sync.Locker) float64 {
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mutex.Lock()
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if successful {
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(*execDurationMovingAverage)[*movingAverageCursor] = value
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*movingAverageCursor = (*movingAverageCursor + 1) % movingAverageWindow
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}
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var sum int64
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for _, v := range *execDurationMovingAverage {
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sum += v.Milliseconds()
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}
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mutex.Unlock()
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return float64(sum / movingAverageWindow)
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}
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func calculateActualDelay(ctx *middlewares.AutheliaCtx, execDuration time.Duration, avgExecDurationMs float64, successful *bool) float64 {
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randomDelayMs := float64(rand.Int63n(msMaximumRandomDelay)) //nolint:gosec // TODO: Consider use of crypto/rand, this should be benchmarked and measured first.
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totalDelayMs := math.Max(avgExecDurationMs, msMinimumDelay1FA) + randomDelayMs
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actualDelayMs := math.Max(totalDelayMs-float64(execDuration.Milliseconds()), 1.0)
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ctx.Logger.Tracef("attempt successful: %t, exec duration: %d, avg execution duration: %d, random delay ms: %d, total delay ms: %d, actual delay ms: %d", *successful, execDuration.Milliseconds(), int64(avgExecDurationMs), int64(randomDelayMs), int64(totalDelayMs), int64(actualDelayMs))
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return actualDelayMs
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}
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func delayToPreventTimingAttacks(ctx *middlewares.AutheliaCtx, requestTime time.Time, successful *bool, movingAverageCursor *int, execDurationMovingAverage *[]time.Duration, mutex sync.Locker) {
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execDuration := time.Since(requestTime)
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avgExecDurationMs := movingAverageIteration(execDuration, *successful, movingAverageCursor, execDurationMovingAverage, mutex)
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actualDelayMs := calculateActualDelay(ctx, execDuration, avgExecDurationMs, successful)
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time.Sleep(time.Duration(actualDelayMs) * time.Millisecond)
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}
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// FirstFactorPost is the handler performing the first factory.
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//nolint:gocyclo // TODO: Consider refactoring time permitting.
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func FirstFactorPost(msInitialDelay time.Duration, delayEnabled bool) middlewares.RequestHandler {
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var execDurationMovingAverage = make([]time.Duration, movingAverageWindow)
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var movingAverageCursor = 0
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var mutex = &sync.Mutex{}
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for i := range execDurationMovingAverage {
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execDurationMovingAverage[i] = msInitialDelay * time.Millisecond
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}
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rand.Seed(time.Now().UnixNano())
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return func(ctx *middlewares.AutheliaCtx) {
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var successful bool
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requestTime := time.Now()
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if delayEnabled {
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defer delayToPreventTimingAttacks(ctx, requestTime, &successful, &movingAverageCursor, &execDurationMovingAverage, mutex)
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}
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bodyJSON := firstFactorRequestBody{}
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err := ctx.ParseBody(&bodyJSON)
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if err != nil {
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handleAuthenticationUnauthorized(ctx, err, authenticationFailedMessage)
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return
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}
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bannedUntil, err := ctx.Providers.Regulator.Regulate(bodyJSON.Username)
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if err != nil {
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if err == regulation.ErrUserIsBanned {
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handleAuthenticationUnauthorized(ctx, fmt.Errorf("User %s is banned until %s", bodyJSON.Username, bannedUntil), userBannedMessage)
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return
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}
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handleAuthenticationUnauthorized(ctx, fmt.Errorf("Unable to regulate authentication: %s", err.Error()), authenticationFailedMessage)
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return
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}
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userPasswordOk, err := ctx.Providers.UserProvider.CheckUserPassword(bodyJSON.Username, bodyJSON.Password)
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if err != nil {
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ctx.Logger.Debugf("Mark authentication attempt made by user %s", bodyJSON.Username)
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if err := ctx.Providers.Regulator.Mark(bodyJSON.Username, false); err != nil {
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ctx.Logger.Errorf("Unable to mark authentication: %s", err.Error())
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}
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handleAuthenticationUnauthorized(ctx, fmt.Errorf("Error while checking password for user %s: %s", bodyJSON.Username, err.Error()), authenticationFailedMessage)
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return
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}
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if !userPasswordOk {
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ctx.Logger.Debugf("Mark authentication attempt made by user %s", bodyJSON.Username)
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if err := ctx.Providers.Regulator.Mark(bodyJSON.Username, false); err != nil {
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ctx.Logger.Errorf("Unable to mark authentication: %s", err.Error())
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}
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handleAuthenticationUnauthorized(ctx, fmt.Errorf("Credentials are wrong for user %s", bodyJSON.Username), authenticationFailedMessage)
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return
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}
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ctx.Logger.Debugf("Mark authentication attempt made by user %s", bodyJSON.Username)
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err = ctx.Providers.Regulator.Mark(bodyJSON.Username, true)
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if err != nil {
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handleAuthenticationUnauthorized(ctx, fmt.Errorf("Unable to mark authentication: %s", err.Error()), authenticationFailedMessage)
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return
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}
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ctx.Logger.Debugf("Credentials validation of user %s is ok", bodyJSON.Username)
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userSession := ctx.GetSession()
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newSession := session.NewDefaultUserSession()
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newSession.OIDCWorkflowSession = userSession.OIDCWorkflowSession
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// Reset all values from previous session except OIDC workflow before regenerating the cookie.
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err = ctx.SaveSession(newSession)
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if err != nil {
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handleAuthenticationUnauthorized(ctx, fmt.Errorf("Unable to reset the session for user %s: %s", bodyJSON.Username, err.Error()), authenticationFailedMessage)
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return
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}
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err = ctx.Providers.SessionProvider.RegenerateSession(ctx.RequestCtx)
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if err != nil {
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handleAuthenticationUnauthorized(ctx, fmt.Errorf("Unable to regenerate session for user %s: %s", bodyJSON.Username, err.Error()), authenticationFailedMessage)
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return
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}
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// Check if bodyJSON.KeepMeLoggedIn can be deref'd and derive the value based on the configuration and JSON data
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keepMeLoggedIn := ctx.Providers.SessionProvider.RememberMe != 0 && bodyJSON.KeepMeLoggedIn != nil && *bodyJSON.KeepMeLoggedIn
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// Set the cookie to expire if remember me is enabled and the user has asked us to
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if keepMeLoggedIn {
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err = ctx.Providers.SessionProvider.UpdateExpiration(ctx.RequestCtx, ctx.Providers.SessionProvider.RememberMe)
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if err != nil {
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handleAuthenticationUnauthorized(ctx, fmt.Errorf("Unable to update expiration timer for user %s: %s", bodyJSON.Username, err.Error()), authenticationFailedMessage)
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return
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}
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}
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// Get the details of the given user from the user provider.
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userDetails, err := ctx.Providers.UserProvider.GetDetails(bodyJSON.Username)
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if err != nil {
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handleAuthenticationUnauthorized(ctx, fmt.Errorf("Error while retrieving details from user %s: %s", bodyJSON.Username, err.Error()), authenticationFailedMessage)
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return
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}
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ctx.Logger.Tracef("Details for user %s => groups: %s, emails %s", bodyJSON.Username, userDetails.Groups, userDetails.Emails)
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userSession.SetOneFactor(ctx.Clock.Now(), userDetails, keepMeLoggedIn)
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if refresh, refreshInterval := getProfileRefreshSettings(ctx.Configuration.AuthenticationBackend); refresh {
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userSession.RefreshTTL = ctx.Clock.Now().Add(refreshInterval)
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}
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err = ctx.SaveSession(userSession)
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if err != nil {
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handleAuthenticationUnauthorized(ctx, fmt.Errorf("Unable to save session of user %s", bodyJSON.Username), authenticationFailedMessage)
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return
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}
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successful = true
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if userSession.OIDCWorkflowSession != nil {
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handleOIDCWorkflowResponse(ctx)
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} else {
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Handle1FAResponse(ctx, bodyJSON.TargetURL, bodyJSON.RequestMethod, userSession.Username, userSession.Groups)
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}
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}
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}
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