ContainerImage.Pinniped/internal/federationdomain/endpointsmanager/manager_test.go

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// Copyright 2020-2023 the Pinniped contributors. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package endpointsmanager
import (
"crypto/ecdsa"
"encoding/json"
"fmt"
"io"
"net/http"
"net/http/httptest"
"net/url"
"strings"
"testing"
"github.com/sclevine/spec"
"github.com/stretchr/testify/require"
"gopkg.in/square/go-jose.v2"
"k8s.io/client-go/kubernetes/fake"
supervisorfake "go.pinniped.dev/generated/latest/client/supervisor/clientset/versioned/fake"
"go.pinniped.dev/internal/federationdomain/endpoints/discovery"
"go.pinniped.dev/internal/federationdomain/endpoints/jwks"
"go.pinniped.dev/internal/federationdomain/federationdomainproviders"
"go.pinniped.dev/internal/federationdomain/oidc"
"go.pinniped.dev/internal/here"
"go.pinniped.dev/internal/idtransform"
"go.pinniped.dev/internal/secret"
"go.pinniped.dev/internal/testutil"
"go.pinniped.dev/internal/testutil/oidctestutil"
)
func TestManager(t *testing.T) {
spec.Run(t, "ServeHTTP", func(t *testing.T, when spec.G, it spec.S) {
var (
r *require.Assertions
subject *Manager
nextHandler http.HandlerFunc
fallbackHandlerWasCalled bool
dynamicJWKSProvider jwks.DynamicJWKSProvider
federationDomainIDPs []*federationdomainproviders.FederationDomainIdentityProvider
kubeClient *fake.Clientset
)
const (
issuer1 = "https://example.com/some/path"
issuer1DifferentCaseHostname = "https://eXamPle.coM/some/path"
issuer1KeyID = "issuer1-key"
issuer2 = "https://example.com/some/path/more/deeply/nested/path" // note that this is a sub-path of the other issuer url
issuer2DifferentCaseHostname = "https://exAmPlE.Com/some/path/more/deeply/nested/path"
issuer2KeyID = "issuer2-key"
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upstreamIDPAuthorizationURL1 = "https://test-upstream.com/auth1"
upstreamIDPAuthorizationURL2 = "https://test-upstream.com/auth2"
upstreamIDPDisplayName1 = "test-idp-display-name-1"
upstreamIDPDisplayName2 = "test-idp-display-name-2"
upstreamIDPName1 = "test-idp-1"
upstreamIDPName2 = "test-idp-2"
upstreamResourceUID1 = "test-resource-uid-1"
upstreamResourceUID2 = "test-resource-uid-2"
upstreamIDPType = "oidc"
downstreamClientID = "pinniped-cli"
downstreamRedirectURL = "http://127.0.0.1:12345/callback"
downstreamPKCECodeVerifier = "some-pkce-verifier-that-must-be-at-least-43-characters-to-meet-entropy-requirements"
)
var (
upstreamIDPFlows = []string{"browser_authcode"}
)
newGetRequest := func(url string) *http.Request {
return httptest.NewRequest(http.MethodGet, url, nil)
}
newPostRequest := func(url, body string) *http.Request {
req := httptest.NewRequest(http.MethodPost, url, strings.NewReader(body))
req.Header.Set("Content-Type", "application/x-www-form-urlencoded")
return req
}
requireDiscoveryRequestToBeHandled := func(requestIssuer, requestURLSuffix, expectedIssuer string) {
recorder := httptest.NewRecorder()
subject.ServeHTTP(recorder, newGetRequest(requestIssuer+oidc.WellKnownEndpointPath+requestURLSuffix))
r.False(fallbackHandlerWasCalled)
// Minimal check to ensure that the right discovery endpoint was called
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r.Equal(http.StatusOK, recorder.Code, "unexpected response:", recorder)
responseBody, err := io.ReadAll(recorder.Body)
r.NoError(err)
parsedDiscoveryResult := discovery.Metadata{}
err = json.Unmarshal(responseBody, &parsedDiscoveryResult)
r.NoError(err)
r.Equal(expectedIssuer, parsedDiscoveryResult.Issuer)
r.Equal(parsedDiscoveryResult.SupervisorDiscovery.PinnipedIDPsEndpoint, expectedIssuer+oidc.PinnipedIDPsPathV1Alpha1)
}
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requirePinnipedIDPsDiscoveryRequestToBeHandled := func(requestIssuer, requestURLSuffix string, expectedIDPNames []string, expectedIDPTypes string, expectedFlows []string) {
recorder := httptest.NewRecorder()
subject.ServeHTTP(recorder, newGetRequest(requestIssuer+oidc.PinnipedIDPsPathV1Alpha1+requestURLSuffix))
r.False(fallbackHandlerWasCalled)
expectedFlowsJSON, err := json.Marshal(expectedFlows)
require.NoError(t, err)
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expectedIDPJSONList := []string{}
for i := range expectedIDPNames {
expectedIDPJSONList = append(expectedIDPJSONList, fmt.Sprintf(`{"name":"%s","type":"%s","flows":%s}`,
expectedIDPNames[i], expectedIDPTypes, expectedFlowsJSON))
}
// Minimal check to ensure that the right IDP discovery endpoint was called
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r.Equal(http.StatusOK, recorder.Code, "unexpected response:", recorder)
responseBody, err := io.ReadAll(recorder.Body)
r.NoError(err)
r.Equal(
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fmt.Sprintf(`{"pinniped_identity_providers":[%s]}`+"\n", strings.Join(expectedIDPJSONList, ",")),
string(responseBody),
)
}
requireAuthorizationRequestToBeHandled := func(requestIssuer, requestURLSuffix, expectedRedirectLocationPrefix string) (string, string) {
recorder := httptest.NewRecorder()
subject.ServeHTTP(recorder, newGetRequest(requestIssuer+oidc.AuthorizationEndpointPath+requestURLSuffix))
r.False(fallbackHandlerWasCalled)
// Minimal check to ensure that the right endpoint was called
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r.Equal(http.StatusSeeOther, recorder.Code, "unexpected response:", recorder)
actualLocation := recorder.Header().Get("Location")
r.True(
strings.HasPrefix(actualLocation, expectedRedirectLocationPrefix),
"actual location %s did not start with expected prefix %s",
actualLocation, expectedRedirectLocationPrefix,
)
parsedLocation, err := url.Parse(actualLocation)
r.NoError(err)
redirectStateParam := parsedLocation.Query().Get("state")
r.NotEmpty(redirectStateParam)
cookies := recorder.Result().Cookies() //nolint:bodyclose
r.Len(cookies, 1)
csrfCookie := cookies[0]
r.Equal("__Host-pinniped-csrf", csrfCookie.Name)
r.NotEmpty(csrfCookie.Value)
// Return the important parts of the response so we can use them in our next request to the callback endpoint
return csrfCookie.Value, redirectStateParam
}
requireCallbackRequestToBeHandled := func(requestIssuer, requestURLSuffix, csrfCookieValue string) string {
recorder := httptest.NewRecorder()
numberOfKubeActionsBeforeThisRequest := len(kubeClient.Actions())
getRequest := newGetRequest(requestIssuer + oidc.CallbackEndpointPath + requestURLSuffix)
getRequest.AddCookie(&http.Cookie{
Name: "__Host-pinniped-csrf",
Value: csrfCookieValue,
})
subject.ServeHTTP(recorder, getRequest)
r.False(fallbackHandlerWasCalled)
// Check just enough of the response to ensure that we wired up the callback endpoint correctly.
// The endpoint's own unit tests cover everything else.
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r.Equal(http.StatusSeeOther, recorder.Code, "unexpected response:", recorder)
actualLocation := recorder.Header().Get("Location")
r.True(
strings.HasPrefix(actualLocation, downstreamRedirectURL),
"actual location %s did not start with expected prefix %s",
actualLocation, downstreamRedirectURL,
)
parsedLocation, err := url.Parse(actualLocation)
r.NoError(err)
actualLocationQueryParams := parsedLocation.Query()
r.Contains(actualLocationQueryParams, "code")
Create username scope, required for clients to get username in ID token - For backwards compatibility with older Pinniped CLIs, the pinniped-cli client does not need to request the username or groups scopes for them to be granted. For dynamic clients, the usual OAuth2 rules apply: the client must be allowed to request the scopes according to its configuration, and the client must actually request the scopes in the authorization request. - If the username scope was not granted, then there will be no username in the ID token, and the cluster-scoped token exchange will fail since there would be no username in the resulting cluster-scoped ID token. - The OIDC well-known discovery endpoint lists the username and groups scopes in the scopes_supported list, and lists the username and groups claims in the claims_supported list. - Add username and groups scopes to the default list of scopes put into kubeconfig files by "pinniped get kubeconfig" CLI command, and the default list of scopes used by "pinniped login oidc" when no list of scopes is specified in the kubeconfig file - The warning header about group memberships changing during upstream refresh will only be sent to the pinniped-cli client, since it is only intended for kubectl and it could leak the username to the client (which may not have the username scope granted) through the warning message text. - Add the user's username to the session storage as a new field, so that during upstream refresh we can compare the original username from the initial authorization to the refreshed username, even in the case when the username scope was not granted (and therefore the username is not stored in the ID token claims of the session storage) - Bump the Supervisor session storage format version from 2 to 3 due to the username field being added to the session struct - Extract commonly used string constants related to OIDC flows to api package. - Change some import names to make them consistent: - Always import github.com/coreos/go-oidc/v3/oidc as "coreosoidc" - Always import go.pinniped.dev/generated/latest/apis/supervisor/oidc as "oidcapi" - Always import go.pinniped.dev/internal/oidc as "oidc"
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r.Equal("openid username groups", actualLocationQueryParams.Get("scope"))
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r.Equal("some-state", actualLocationQueryParams.Get("state"))
// Make sure that we wired up the callback endpoint to use kube storage for fosite sessions.
r.Equal(len(kubeClient.Actions()), numberOfKubeActionsBeforeThisRequest+3,
"did not perform any kube actions during the callback request, but should have")
// Return the important parts of the response so we can use them in our next request to the token endpoint.
return actualLocationQueryParams.Get("code")
}
requireTokenRequestToBeHandled := func(requestIssuer, authCode string, jwks *jose.JSONWebKeySet, jwkIssuer string) {
recorder := httptest.NewRecorder()
numberOfKubeActionsBeforeThisRequest := len(kubeClient.Actions())
tokenRequestBody := url.Values{
"code": []string{authCode},
"client_id": []string{downstreamClientID},
"redirect_uri": []string{downstreamRedirectURL},
"code_verifier": []string{downstreamPKCECodeVerifier},
"grant_type": []string{"authorization_code"},
}.Encode()
subject.ServeHTTP(recorder, newPostRequest(requestIssuer+oidc.TokenEndpointPath, tokenRequestBody))
r.False(fallbackHandlerWasCalled)
// Minimal check to ensure that the right endpoint was called
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r.Equal(http.StatusOK, recorder.Code, "unexpected response:", recorder)
var body map[string]interface{}
r.NoError(json.Unmarshal(recorder.Body.Bytes(), &body))
r.Contains(body, "id_token")
r.Contains(body, "access_token")
// Validate ID token is signed by the correct JWK to make sure we wired the token endpoint
// signing key correctly.
idToken, ok := body["id_token"].(string)
r.True(ok, "wanted id_token type to be string, but was %T", body["id_token"])
r.GreaterOrEqual(len(jwks.Keys), 1)
privateKey, ok := jwks.Keys[0].Key.(*ecdsa.PrivateKey)
r.True(ok, "wanted private key to be *ecdsa.PrivateKey, but was %T", jwks.Keys[0].Key)
oidctestutil.VerifyECDSAIDToken(t, jwkIssuer, downstreamClientID, privateKey, idToken)
// Make sure that we wired up the callback endpoint to use kube storage for fosite sessions.
r.Equal(len(kubeClient.Actions()), numberOfKubeActionsBeforeThisRequest+9,
"did not perform any kube actions during the callback request, but should have")
}
requireJWKSRequestToBeHandled := func(requestIssuer, requestURLSuffix, expectedJWKKeyID string) *jose.JSONWebKeySet {
recorder := httptest.NewRecorder()
subject.ServeHTTP(recorder, newGetRequest(requestIssuer+oidc.JWKSEndpointPath+requestURLSuffix))
r.False(fallbackHandlerWasCalled)
// Minimal check to ensure that the right JWKS endpoint was called
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r.Equal(http.StatusOK, recorder.Code, "unexpected response:", recorder)
responseBody, err := io.ReadAll(recorder.Body)
r.NoError(err)
parsedJWKSResult := jose.JSONWebKeySet{}
err = json.Unmarshal(responseBody, &parsedJWKSResult)
r.NoError(err)
r.Equal(expectedJWKKeyID, parsedJWKSResult.Keys[0].KeyID)
return &parsedJWKSResult
}
it.Before(func() {
r = require.New(t)
nextHandler = func(http.ResponseWriter, *http.Request) {
fallbackHandlerWasCalled = true
}
dynamicJWKSProvider = jwks.NewDynamicJWKSProvider()
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parsedUpstreamIDPAuthorizationURL1, err := url.Parse(upstreamIDPAuthorizationURL1)
r.NoError(err)
parsedUpstreamIDPAuthorizationURL2, err := url.Parse(upstreamIDPAuthorizationURL2)
r.NoError(err)
federationDomainIDPs = []*federationdomainproviders.FederationDomainIdentityProvider{
{
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DisplayName: upstreamIDPDisplayName1,
UID: upstreamResourceUID1,
Transforms: idtransform.NewTransformationPipeline(),
},
{
DisplayName: upstreamIDPDisplayName2,
UID: upstreamResourceUID2,
Transforms: idtransform.NewTransformationPipeline(),
},
}
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idpLister := oidctestutil.NewUpstreamIDPListerBuilder().
WithOIDC(oidctestutil.NewTestUpstreamOIDCIdentityProviderBuilder().
WithName(upstreamIDPName1).
WithClientID("test-client-id-1").
WithResourceUID(upstreamResourceUID1).
WithAuthorizationURL(*parsedUpstreamIDPAuthorizationURL1).
WithScopes([]string{"test-scope"}).
WithIDTokenClaim("iss", "https://some-issuer.com").
WithIDTokenClaim("sub", "some-subject").
WithIDTokenClaim("username", "test-username").
WithIDTokenClaim("groups", "test-group1").
WithRefreshToken("some-opaque-token").
WithoutAccessToken().
Build(),
).
WithOIDC(oidctestutil.NewTestUpstreamOIDCIdentityProviderBuilder().
WithName(upstreamIDPName2).
WithClientID("test-client-id-2").
WithResourceUID(upstreamResourceUID2).
WithAuthorizationURL(*parsedUpstreamIDPAuthorizationURL2).
WithScopes([]string{"test-scope"}).
WithIDTokenClaim("iss", "https://some-issuer.com").
WithIDTokenClaim("sub", "some-subject").
WithIDTokenClaim("username", "test-username").
WithIDTokenClaim("groups", "test-group1").
WithRefreshToken("some-opaque-token").
WithoutAccessToken().
Build(),
).BuildDynamicUpstreamIDPProvider()
kubeClient = fake.NewSimpleClientset()
secretsClient := kubeClient.CoreV1().Secrets("some-namespace")
oidcClientsClient := supervisorfake.NewSimpleClientset().ConfigV1alpha1().OIDCClients("some-namespace")
cache := secret.Cache{}
cache.SetCSRFCookieEncoderHashKey([]byte("fake-csrf-hash-secret"))
cache.SetTokenHMACKey(issuer1, []byte("some secret 1 - must have at least 32 bytes"))
cache.SetStateEncoderHashKey(issuer1, []byte("some-state-encoder-hash-key-1"))
cache.SetStateEncoderBlockKey(issuer1, []byte("16-bytes-STATE01"))
cache.SetTokenHMACKey(issuer2, []byte("some secret 2 - must have at least 32 bytes"))
cache.SetStateEncoderHashKey(issuer2, []byte("some-state-encoder-hash-key-2"))
cache.SetStateEncoderBlockKey(issuer2, []byte("16-bytes-STATE02"))
subject = NewManager(nextHandler, dynamicJWKSProvider, idpLister, &cache, secretsClient, oidcClientsClient)
})
when("given no providers via SetFederationDomains()", func() {
it("sends all requests to the nextHandler", func() {
r.False(fallbackHandlerWasCalled)
subject.ServeHTTP(httptest.NewRecorder(), newGetRequest("/anything"))
r.True(fallbackHandlerWasCalled)
})
})
newTestJWK := func(keyID string) *jose.JSONWebKey {
testJWKSJSONString := here.Docf(`
{
"use": "sig",
"kty": "EC",
"kid": "%s",
"crv": "P-256",
"alg": "ES256",
"x": "9c_oMKjd_ruVIy4pA5y9quT1E-Fampx0w270OtPx5Ng",
"y": "-Y-9nfrtJdFPl-9kzXv55-Fq9Oo2AWDg5zZBs9P-Vds",
"d": "LXdNChAEtGKETBzYXiL_G0wESXceBuajE_EBQbcRuGg"
}
`, keyID)
k := jose.JSONWebKey{}
r.NoError(json.Unmarshal([]byte(testJWKSJSONString), &k))
return &k
}
requireRoutesMatchingRequestsToAppropriateProvider := func() {
requireDiscoveryRequestToBeHandled(issuer1, "", issuer1)
requireDiscoveryRequestToBeHandled(issuer2, "", issuer2)
requireDiscoveryRequestToBeHandled(issuer2, "?some=query", issuer2)
// Hostnames are case-insensitive, so test that we can handle that.
requireDiscoveryRequestToBeHandled(issuer1DifferentCaseHostname, "", issuer1)
requireDiscoveryRequestToBeHandled(issuer2DifferentCaseHostname, "", issuer2)
requireDiscoveryRequestToBeHandled(issuer2DifferentCaseHostname, "?some=query", issuer2)
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requirePinnipedIDPsDiscoveryRequestToBeHandled(issuer1, "", []string{upstreamIDPDisplayName1, upstreamIDPDisplayName2}, upstreamIDPType, upstreamIDPFlows)
requirePinnipedIDPsDiscoveryRequestToBeHandled(issuer2, "", []string{upstreamIDPDisplayName1, upstreamIDPDisplayName2}, upstreamIDPType, upstreamIDPFlows)
requirePinnipedIDPsDiscoveryRequestToBeHandled(issuer2, "?some=query", []string{upstreamIDPDisplayName1, upstreamIDPDisplayName2}, upstreamIDPType, upstreamIDPFlows)
// Hostnames are case-insensitive, so test that we can handle that.
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requirePinnipedIDPsDiscoveryRequestToBeHandled(issuer1DifferentCaseHostname, "", []string{upstreamIDPDisplayName1, upstreamIDPDisplayName2}, upstreamIDPType, upstreamIDPFlows)
requirePinnipedIDPsDiscoveryRequestToBeHandled(issuer2DifferentCaseHostname, "", []string{upstreamIDPDisplayName1, upstreamIDPDisplayName2}, upstreamIDPType, upstreamIDPFlows)
requirePinnipedIDPsDiscoveryRequestToBeHandled(issuer2DifferentCaseHostname, "?some=query", []string{upstreamIDPDisplayName1, upstreamIDPDisplayName2}, upstreamIDPType, upstreamIDPFlows)
issuer1JWKS := requireJWKSRequestToBeHandled(issuer1, "", issuer1KeyID)
issuer2JWKS := requireJWKSRequestToBeHandled(issuer2, "", issuer2KeyID)
requireJWKSRequestToBeHandled(issuer2, "?some=query", issuer2KeyID)
// Hostnames are case-insensitive, so test that we can handle that.
requireJWKSRequestToBeHandled(issuer1DifferentCaseHostname, "", issuer1KeyID)
requireJWKSRequestToBeHandled(issuer2DifferentCaseHostname, "", issuer2KeyID)
requireJWKSRequestToBeHandled(issuer2DifferentCaseHostname, "?some=query", issuer2KeyID)
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authRequestParamsIDP1 := "?" + url.Values{
"pinniped_idp_name": []string{upstreamIDPDisplayName1},
"response_type": []string{"code"},
Create username scope, required for clients to get username in ID token - For backwards compatibility with older Pinniped CLIs, the pinniped-cli client does not need to request the username or groups scopes for them to be granted. For dynamic clients, the usual OAuth2 rules apply: the client must be allowed to request the scopes according to its configuration, and the client must actually request the scopes in the authorization request. - If the username scope was not granted, then there will be no username in the ID token, and the cluster-scoped token exchange will fail since there would be no username in the resulting cluster-scoped ID token. - The OIDC well-known discovery endpoint lists the username and groups scopes in the scopes_supported list, and lists the username and groups claims in the claims_supported list. - Add username and groups scopes to the default list of scopes put into kubeconfig files by "pinniped get kubeconfig" CLI command, and the default list of scopes used by "pinniped login oidc" when no list of scopes is specified in the kubeconfig file - The warning header about group memberships changing during upstream refresh will only be sent to the pinniped-cli client, since it is only intended for kubectl and it could leak the username to the client (which may not have the username scope granted) through the warning message text. - Add the user's username to the session storage as a new field, so that during upstream refresh we can compare the original username from the initial authorization to the refreshed username, even in the case when the username scope was not granted (and therefore the username is not stored in the ID token claims of the session storage) - Bump the Supervisor session storage format version from 2 to 3 due to the username field being added to the session struct - Extract commonly used string constants related to OIDC flows to api package. - Change some import names to make them consistent: - Always import github.com/coreos/go-oidc/v3/oidc as "coreosoidc" - Always import go.pinniped.dev/generated/latest/apis/supervisor/oidc as "oidcapi" - Always import go.pinniped.dev/internal/oidc as "oidc"
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"scope": []string{"openid profile email username groups"},
"client_id": []string{downstreamClientID},
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"state": []string{"some-state"},
"nonce": []string{"some-nonce-value-with-enough-bytes-to-exceed-min-allowed"},
"code_challenge": []string{testutil.SHA256(downstreamPKCECodeVerifier)},
"code_challenge_method": []string{"S256"},
"redirect_uri": []string{downstreamRedirectURL},
}.Encode()
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authRequestParamsIDP2 := "?" + url.Values{
"pinniped_idp_name": []string{upstreamIDPDisplayName2},
"response_type": []string{"code"},
"scope": []string{"openid profile email username groups"},
"client_id": []string{downstreamClientID},
"state": []string{"some-state"},
"nonce": []string{"some-nonce-value-with-enough-bytes-to-exceed-min-allowed"},
"code_challenge": []string{testutil.SHA256(downstreamPKCECodeVerifier)},
"code_challenge_method": []string{"S256"},
"redirect_uri": []string{downstreamRedirectURL},
}.Encode()
requireAuthorizationRequestToBeHandled(issuer1, authRequestParamsIDP1, upstreamIDPAuthorizationURL1)
requireAuthorizationRequestToBeHandled(issuer2, authRequestParamsIDP1, upstreamIDPAuthorizationURL1)
requireAuthorizationRequestToBeHandled(issuer1, authRequestParamsIDP2, upstreamIDPAuthorizationURL2)
requireAuthorizationRequestToBeHandled(issuer2, authRequestParamsIDP2, upstreamIDPAuthorizationURL2)
// Hostnames are case-insensitive, so test that we can handle that.
csrfCookieValue1, upstreamStateParam1 :=
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requireAuthorizationRequestToBeHandled(issuer1DifferentCaseHostname, authRequestParamsIDP1, upstreamIDPAuthorizationURL1)
csrfCookieValue2, upstreamStateParam2 :=
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requireAuthorizationRequestToBeHandled(issuer2DifferentCaseHostname, authRequestParamsIDP1, upstreamIDPAuthorizationURL1)
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csrfCookieValue3, upstreamStateParam3 :=
requireAuthorizationRequestToBeHandled(issuer1DifferentCaseHostname, authRequestParamsIDP2, upstreamIDPAuthorizationURL2)
csrfCookieValue4, upstreamStateParam4 :=
requireAuthorizationRequestToBeHandled(issuer2DifferentCaseHostname, authRequestParamsIDP2, upstreamIDPAuthorizationURL2)
callbackRequestParams1 := "?" + url.Values{"code": []string{"some-fake-code"}, "state": []string{upstreamStateParam1}}.Encode()
callbackRequestParams2 := "?" + url.Values{"code": []string{"some-fake-code"}, "state": []string{upstreamStateParam2}}.Encode()
callbackRequestParams3 := "?" + url.Values{"code": []string{"some-fake-code"}, "state": []string{upstreamStateParam3}}.Encode()
callbackRequestParams4 := "?" + url.Values{"code": []string{"some-fake-code"}, "state": []string{upstreamStateParam4}}.Encode()
downstreamAuthCode1 := requireCallbackRequestToBeHandled(issuer1, callbackRequestParams1, csrfCookieValue1)
downstreamAuthCode2 := requireCallbackRequestToBeHandled(issuer2, callbackRequestParams2, csrfCookieValue2)
// Hostnames are case-insensitive, so test that we can handle that.
downstreamAuthCode3 := requireCallbackRequestToBeHandled(issuer1DifferentCaseHostname, callbackRequestParams1, csrfCookieValue1)
downstreamAuthCode4 := requireCallbackRequestToBeHandled(issuer2DifferentCaseHostname, callbackRequestParams2, csrfCookieValue2)
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downstreamAuthCode5 := requireCallbackRequestToBeHandled(issuer1DifferentCaseHostname, callbackRequestParams3, csrfCookieValue3)
downstreamAuthCode6 := requireCallbackRequestToBeHandled(issuer2DifferentCaseHostname, callbackRequestParams4, csrfCookieValue4)
requireTokenRequestToBeHandled(issuer1, downstreamAuthCode1, issuer1JWKS, issuer1)
requireTokenRequestToBeHandled(issuer2, downstreamAuthCode2, issuer2JWKS, issuer2)
// Hostnames are case-insensitive, so test that we can handle that.
requireTokenRequestToBeHandled(issuer1DifferentCaseHostname, downstreamAuthCode3, issuer1JWKS, issuer1)
requireTokenRequestToBeHandled(issuer2DifferentCaseHostname, downstreamAuthCode4, issuer2JWKS, issuer2)
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requireTokenRequestToBeHandled(issuer1DifferentCaseHostname, downstreamAuthCode5, issuer1JWKS, issuer1)
requireTokenRequestToBeHandled(issuer2DifferentCaseHostname, downstreamAuthCode6, issuer2JWKS, issuer2)
}
when("given some valid providers via SetFederationDomains()", func() {
it.Before(func() {
fd1, err := federationdomainproviders.NewFederationDomainIssuer(issuer1, federationDomainIDPs)
r.NoError(err)
fd2, err := federationdomainproviders.NewFederationDomainIssuer(issuer2, federationDomainIDPs)
r.NoError(err)
subject.SetFederationDomains(fd1, fd2)
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jwksMap := map[string]*jose.JSONWebKeySet{
issuer1: {Keys: []jose.JSONWebKey{*newTestJWK(issuer1KeyID)}},
issuer2: {Keys: []jose.JSONWebKey{*newTestJWK(issuer2KeyID)}},
}
activeJWK := map[string]*jose.JSONWebKey{
issuer1: newTestJWK(issuer1KeyID),
issuer2: newTestJWK(issuer2KeyID),
}
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dynamicJWKSProvider.SetIssuerToJWKSMap(jwksMap, activeJWK)
})
it("sends all non-matching host requests to the nextHandler", func() {
r.False(fallbackHandlerWasCalled)
wrongHostURL := strings.ReplaceAll(issuer1+oidc.WellKnownEndpointPath, "example.com", "wrong-host.com")
subject.ServeHTTP(httptest.NewRecorder(), newGetRequest(wrongHostURL))
r.True(fallbackHandlerWasCalled)
})
it("sends all non-matching path requests to the nextHandler", func() {
r.False(fallbackHandlerWasCalled)
subject.ServeHTTP(httptest.NewRecorder(), newGetRequest("https://example.com/path-does-not-match-any-provider"))
r.True(fallbackHandlerWasCalled)
})
it("sends requests which match the issuer prefix but do not match any of that provider's known paths to the nextHandler", func() {
r.False(fallbackHandlerWasCalled)
subject.ServeHTTP(httptest.NewRecorder(), newGetRequest(issuer1+"/unhandled-sub-path"))
r.True(fallbackHandlerWasCalled)
})
it("routes matching requests to the appropriate provider", func() {
requireRoutesMatchingRequestsToAppropriateProvider()
})
})
when("given the same valid providers as arguments to SetFederationDomains() in reverse order", func() {
it.Before(func() {
fd1, err := federationdomainproviders.NewFederationDomainIssuer(issuer1, federationDomainIDPs)
r.NoError(err)
fd2, err := federationdomainproviders.NewFederationDomainIssuer(issuer2, federationDomainIDPs)
r.NoError(err)
subject.SetFederationDomains(fd2, fd1)
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jwksMap := map[string]*jose.JSONWebKeySet{
issuer1: {Keys: []jose.JSONWebKey{*newTestJWK(issuer1KeyID)}},
issuer2: {Keys: []jose.JSONWebKey{*newTestJWK(issuer2KeyID)}},
}
activeJWK := map[string]*jose.JSONWebKey{
issuer1: newTestJWK(issuer1KeyID),
issuer2: newTestJWK(issuer2KeyID),
}
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dynamicJWKSProvider.SetIssuerToJWKSMap(jwksMap, activeJWK)
})
it("still routes matching requests to the appropriate provider", func() {
requireRoutesMatchingRequestsToAppropriateProvider()
})
})
})
}