authelia/internal/suites/suite_high_availability_tes...

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package suites
import (
"context"
"fmt"
"net/http"
"strings"
"testing"
"time"
log "github.com/sirupsen/logrus"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/suite"
)
type HighAvailabilityWebDriverSuite struct {
*SeleniumSuite
}
func NewHighAvailabilityWebDriverSuite() *HighAvailabilityWebDriverSuite {
return &HighAvailabilityWebDriverSuite{SeleniumSuite: new(SeleniumSuite)}
}
func (s *HighAvailabilityWebDriverSuite) SetupSuite() {
wds, err := StartWebDriver()
if err != nil {
log.Fatal(err)
}
s.WebDriverSession = wds
}
func (s *HighAvailabilityWebDriverSuite) TearDownSuite() {
err := s.WebDriverSession.Stop()
if err != nil {
log.Fatal(err)
}
}
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func (s *HighAvailabilityWebDriverSuite) SetupTest() {
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
defer cancel()
s.doLogout(ctx, s.T())
s.doVisit(s.T(), HomeBaseURL)
s.verifyIsHome(ctx, s.T())
}
func (s *HighAvailabilityWebDriverSuite) TestShouldKeepUserDataInDB() {
ctx, cancel := context.WithTimeout(context.Background(), 20*time.Second)
defer cancel()
secret := s.doRegisterThenLogout(ctx, s.T(), "john", "password")
err := haDockerEnvironment.Restart("mariadb")
s.Assert().NoError(err)
time.Sleep(2 * time.Second)
s.doLoginTwoFactor(ctx, s.T(), "john", "password", false, secret, "")
s.verifyIsSecondFactorPage(ctx, s.T())
}
func (s *HighAvailabilityWebDriverSuite) TestShouldKeepSessionAfterAutheliaRestart() {
ctx, cancel := context.WithTimeout(context.Background(), 60*time.Second)
defer cancel()
secret := s.doRegisterAndLogin2FA(ctx, s.T(), "john", "password", false, "")
err := haDockerEnvironment.Restart("authelia-backend")
s.Assert().NoError(err)
loop := true
for loop {
logs, err := haDockerEnvironment.Logs("authelia-backend", []string{"--tail", "10"})
s.Assert().NoError(err)
select {
case <-time.After(1 * time.Second):
if strings.Contains(logs, "Authelia is listening on :9091") {
loop = false
}
break
case <-ctx.Done():
loop = false
break
}
}
s.doVisit(s.T(), HomeBaseURL)
s.verifyIsHome(ctx, s.T())
// Verify the user is still authenticated
s.doVisit(s.T(), LoginBaseURL)
s.verifyIsSecondFactorPage(ctx, s.T())
// Then logout and login again to check the secret is still there
s.doLogout(ctx, s.T())
s.verifyIsFirstFactorPage(ctx, s.T())
s.doLoginTwoFactor(ctx, s.T(), "john", "password", false, secret, fmt.Sprintf("%s/secret.html", SecureBaseURL))
s.verifySecretAuthorized(ctx, s.T())
}
var UserJohn = "john"
var UserBob = "bob"
var UserHarry = "harry"
var Users = []string{UserJohn, UserBob, UserHarry}
var expectedAuthorizations = map[string](map[string]bool){
fmt.Sprintf("%s/secret.html", PublicBaseURL): map[string]bool{
UserJohn: true, UserBob: true, UserHarry: true,
},
fmt.Sprintf("%s/secret.html", SecureBaseURL): map[string]bool{
UserJohn: true, UserBob: true, UserHarry: true,
},
fmt.Sprintf("%s/secret.html", AdminBaseURL): map[string]bool{
UserJohn: true, UserBob: false, UserHarry: false,
},
fmt.Sprintf("%s/secret.html", SingleFactorBaseURL): map[string]bool{
UserJohn: true, UserBob: true, UserHarry: true,
},
fmt.Sprintf("%s/secret.html", MX1MailBaseURL): map[string]bool{
UserJohn: true, UserBob: true, UserHarry: false,
},
fmt.Sprintf("%s/secret.html", MX2MailBaseURL): map[string]bool{
UserJohn: false, UserBob: true, UserHarry: false,
},
fmt.Sprintf("%s/groups/admin/secret.html", DevBaseURL): map[string]bool{
UserJohn: true, UserBob: false, UserHarry: false,
},
fmt.Sprintf("%s/groups/dev/secret.html", DevBaseURL): map[string]bool{
UserJohn: true, UserBob: true, UserHarry: false,
},
fmt.Sprintf("%s/users/john/secret.html", DevBaseURL): map[string]bool{
UserJohn: true, UserBob: false, UserHarry: false,
},
fmt.Sprintf("%s/users/harry/secret.html", DevBaseURL): map[string]bool{
UserJohn: true, UserBob: false, UserHarry: true,
},
fmt.Sprintf("%s/users/bob/secret.html", DevBaseURL): map[string]bool{
UserJohn: true, UserBob: true, UserHarry: false,
},
}
func (s *HighAvailabilityWebDriverSuite) TestShouldVerifyAccessControl() {
verifyUserIsAuthorized := func(ctx context.Context, t *testing.T, username, targetURL string, authorized bool) {
s.doVisit(t, targetURL)
s.verifyURLIs(ctx, t, targetURL)
if authorized {
s.verifySecretAuthorized(ctx, t)
} else {
s.verifyBodyContains(ctx, t, "403 Forbidden")
}
}
verifyAuthorization := func(username string) func(t *testing.T) {
return func(t *testing.T) {
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ctx, cancel := context.WithTimeout(context.Background(), 20*time.Second)
defer cancel()
s.doRegisterAndLogin2FA(ctx, t, username, "password", false, "")
for url, authorizations := range expectedAuthorizations {
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t.Run(url, func(t *testing.T) {
verifyUserIsAuthorized(ctx, t, username, url, authorizations[username])
})
}
s.doLogout(ctx, t)
}
}
for _, user := range []string{UserJohn, UserBob, UserHarry} {
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s.T().Run(fmt.Sprintf("%s", user), verifyAuthorization(user))
}
}
type HighAvailabilitySuite struct {
suite.Suite
}
func NewHighAvailabilitySuite() *HighAvailabilitySuite {
return &HighAvailabilitySuite{}
}
func DoGetWithAuth(t *testing.T, username, password string) int {
client := NewHTTPClient()
req, err := http.NewRequest("GET", fmt.Sprintf("%s/secret.html", SingleFactorBaseURL), nil)
req.SetBasicAuth(username, password)
assert.NoError(t, err)
res, err := client.Do(req)
assert.NoError(t, err)
return res.StatusCode
}
func (s *HighAvailabilitySuite) TestBasicAuth() {
s.Assert().Equal(DoGetWithAuth(s.T(), "john", "password"), 200)
s.Assert().Equal(DoGetWithAuth(s.T(), "john", "bad-password"), 302)
s.Assert().Equal(DoGetWithAuth(s.T(), "dontexist", "password"), 302)
}
func TestHighAvailabilitySuite(t *testing.T) {
suite.Run(t, NewOneFactorScenario())
suite.Run(t, NewTwoFactorScenario())
suite.Run(t, NewRegulationScenario())
suite.Run(t, NewCustomHeadersScenario())
suite.Run(t, NewRedirectionCheckScenario())
suite.Run(t, NewHighAvailabilityWebDriverSuite())
suite.Run(t, NewHighAvailabilitySuite())
}