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authentik/internal/outpost/flow/executor.go

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package flow
import (
"context"
"errors"
"fmt"
"net/http"
"net/http/cookiejar"
"net/url"
"strconv"
"strings"
"github.com/getsentry/sentry-go"
"github.com/prometheus/client_golang/prometheus"
"github.com/prometheus/client_golang/prometheus/promauto"
log "github.com/sirupsen/logrus"
"goauthentik.io/api/v3"
"goauthentik.io/internal/constants"
"goauthentik.io/internal/outpost/ak"
"goauthentik.io/internal/utils/web"
)
var (
FlowTimingGet = promauto.NewHistogramVec(prometheus.HistogramOpts{
Name: "authentik_outpost_flow_timing_get",
Help: "Duration it took to get a challenge",
}, []string{"stage", "flow"})
FlowTimingPost = promauto.NewHistogramVec(prometheus.HistogramOpts{
Name: "authentik_outpost_flow_timing_post",
Help: "Duration it took to send a challenge",
}, []string{"stage", "flow"})
)
type FlowExecutor struct {
Params url.Values
Answers map[StageComponent]string
Context context.Context
cip string
api *api.APIClient
flowSlug string
log *log.Entry
token string
session *http.Cookie
transport http.RoundTripper
sp *sentry.Span
}
func NewFlowExecutor(ctx context.Context, flowSlug string, refConfig *api.Configuration, logFields log.Fields) *FlowExecutor {
rsp := sentry.StartSpan(ctx, "authentik.outposts.flow_executor")
rsp.Description = flowSlug
l := log.WithField("flow", flowSlug).WithFields(logFields)
jar, err := cookiejar.New(nil)
if err != nil {
l.WithError(err).Warning("Failed to create cookiejar")
panic(err)
}
transport := web.NewUserAgentTransport(constants.OutpostUserAgent(), web.NewTracingTransport(rsp.Context(), ak.GetTLSTransport()))
fe := &FlowExecutor{
Params: url.Values{},
Answers: make(map[StageComponent]string),
Context: rsp.Context(),
flowSlug: flowSlug,
log: l,
sp: rsp,
cip: "",
transport: transport,
}
// Create new http client that also sets the correct ip
config := api.NewConfiguration()
config.Host = refConfig.Host
config.Scheme = refConfig.Scheme
config.HTTPClient = &http.Client{
Jar: jar,
Transport: fe,
}
fe.token = strings.Split(refConfig.DefaultHeader["Authorization"], " ")[1]
config.AddDefaultHeader(HeaderAuthentikOutpostToken, fe.token)
fe.api = api.NewAPIClient(config)
return fe
}
func (fe *FlowExecutor) RoundTrip(req *http.Request) (*http.Response, error) {
res, err := fe.transport.RoundTrip(req)
if res != nil {
for _, cookie := range res.Cookies() {
if cookie.Name == "authentik_session" {
fe.session = cookie
}
}
}
return res, err
}
func (fe *FlowExecutor) ApiClient() *api.APIClient {
return fe.api
}
type ChallengeInt interface {
GetComponent() string
GetType() api.ChallengeChoices
GetResponseErrors() map[string][]api.ErrorDetail
}
func (fe *FlowExecutor) DelegateClientIP(a string) {
fe.cip = a
fe.api.GetConfig().AddDefaultHeader(HeaderAuthentikRemoteIP, fe.cip)
}
func (fe *FlowExecutor) CheckApplicationAccess(appSlug string) (bool, error) {
acsp := sentry.StartSpan(fe.Context, "authentik.outposts.flow_executor.check_access")
defer acsp.Finish()
p, _, err := fe.api.CoreApi.CoreApplicationsCheckAccessRetrieve(acsp.Context(), appSlug).Execute()
if err != nil {
return false, fmt.Errorf("failed to check access: %w", err)
}
if !p.Passing {
fe.log.Info("Access denied for user")
return false, nil
}
fe.log.Debug("User has access")
return true, nil
}
func (fe *FlowExecutor) getAnswer(stage StageComponent) string {
if v, o := fe.Answers[stage]; o {
return v
}
return ""
}
func (fe *FlowExecutor) GetSession() *http.Cookie {
return fe.session
}
// WarmUp Ensure authentik's flow cache is warmed up
func (fe *FlowExecutor) WarmUp() error {
gcsp := sentry.StartSpan(fe.Context, "authentik.outposts.flow_executor.get_challenge")
defer gcsp.Finish()
req := fe.api.FlowsApi.FlowsExecutorGet(gcsp.Context(), fe.flowSlug).Query(fe.Params.Encode())
_, _, err := req.Execute()
return err
}
func (fe *FlowExecutor) Execute() (bool, error) {
return fe.solveFlowChallenge(1)
}
func (fe *FlowExecutor) solveFlowChallenge(depth int) (bool, error) {
defer fe.sp.Finish()
// Get challenge
gcsp := sentry.StartSpan(fe.Context, "authentik.outposts.flow_executor.get_challenge")
req := fe.api.FlowsApi.FlowsExecutorGet(gcsp.Context(), fe.flowSlug).Query(fe.Params.Encode())
challenge, _, err := req.Execute()
if err != nil {
return false, errors.New("failed to get challenge")
}
ch := challenge.GetActualInstance().(ChallengeInt)
fe.log.WithField("component", ch.GetComponent()).WithField("type", ch.GetType()).Debug("Got challenge")
gcsp.SetTag("authentik.flow.challenge", string(ch.GetType()))
gcsp.SetTag("authentik.flow.component", ch.GetComponent())
gcsp.Finish()
FlowTimingGet.With(prometheus.Labels{
"stage": ch.GetComponent(),
"flow": fe.flowSlug,
}).Observe(float64(gcsp.EndTime.Sub(gcsp.StartTime)))
// Resole challenge
scsp := sentry.StartSpan(fe.Context, "authentik.outposts.flow_executor.solve_challenge")
responseReq := fe.api.FlowsApi.FlowsExecutorSolve(scsp.Context(), fe.flowSlug).Query(fe.Params.Encode())
switch ch.GetComponent() {
case string(StageIdentification):
r := api.NewIdentificationChallengeResponseRequest(fe.getAnswer(StageIdentification))
r.SetPassword(fe.getAnswer(StagePassword))
responseReq = responseReq.FlowChallengeResponseRequest(api.IdentificationChallengeResponseRequestAsFlowChallengeResponseRequest(r))
case string(StagePassword):
responseReq = responseReq.FlowChallengeResponseRequest(api.PasswordChallengeResponseRequestAsFlowChallengeResponseRequest(api.NewPasswordChallengeResponseRequest(fe.getAnswer(StagePassword))))
case string(StageAuthenticatorValidate):
// We only support duo as authenticator, check if that's allowed
var deviceChallenge *api.DeviceChallenge
for _, devCh := range challenge.AuthenticatorValidationChallenge.DeviceChallenges {
if devCh.DeviceClass == string(api.DEVICECLASSESENUM_DUO) {
deviceChallenge = &devCh
}
}
if deviceChallenge == nil {
return false, errors.New("no compatible authenticator class found")
}
devId, err := strconv.Atoi(deviceChallenge.DeviceUid)
if err != nil {
return false, errors.New("failed to convert duo device id to int")
}
devId32 := int32(devId)
inner := api.NewAuthenticatorValidationChallengeResponseRequest()
inner.SelectedChallenge = (*api.DeviceChallengeRequest)(deviceChallenge)
inner.Duo = &devId32
responseReq = responseReq.FlowChallengeResponseRequest(api.AuthenticatorValidationChallengeResponseRequestAsFlowChallengeResponseRequest(inner))
case string(StageAccessDenied):
return false, errors.New("got ak-stage-access-denied")
default:
return false, fmt.Errorf("unsupported challenge type %s", ch.GetComponent())
}
response, _, err := responseReq.Execute()
ch = response.GetActualInstance().(ChallengeInt)
fe.log.WithField("component", ch.GetComponent()).WithField("type", ch.GetType()).Debug("Got response")
scsp.SetTag("authentik.flow.challenge", string(ch.GetType()))
scsp.SetTag("authentik.flow.component", ch.GetComponent())
scsp.Finish()
switch ch.GetComponent() {
case string(StageAccessDenied):
return false, nil
}
if ch.GetType() == "redirect" {
return true, nil
}
if err != nil {
return false, fmt.Errorf("failed to submit challenge %w", err)
}
if len(ch.GetResponseErrors()) > 0 {
for key, errs := range ch.GetResponseErrors() {
for _, err := range errs {
return false, fmt.Errorf("flow error %s: %s", key, err.String)
}
}
}
FlowTimingPost.With(prometheus.Labels{
"stage": ch.GetComponent(),
"flow": fe.flowSlug,
}).Observe(float64(scsp.EndTime.Sub(scsp.StartTime)))
if depth >= 10 {
return false, errors.New("exceeded stage recursion depth")
}
return fe.solveFlowChallenge(depth + 1)
}