ContainerImage.Pinniped/internal/oidc/callback/callback_handler_test.go
2020-11-20 15:50:26 -08:00

829 lines
34 KiB
Go

// Copyright 2020 the Pinniped contributors. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package callback
import (
"context"
"errors"
"net/http"
"net/http/httptest"
"net/url"
"regexp"
"strings"
"testing"
"time"
"github.com/gorilla/securecookie"
"github.com/ory/fosite"
"github.com/ory/fosite/handler/openid"
"github.com/ory/fosite/storage"
"github.com/stretchr/testify/require"
"go.pinniped.dev/internal/oidc"
"go.pinniped.dev/internal/oidc/oidctestutil"
"go.pinniped.dev/internal/testutil"
"go.pinniped.dev/pkg/oidcclient"
"go.pinniped.dev/pkg/oidcclient/nonce"
"go.pinniped.dev/pkg/oidcclient/pkce"
)
const (
happyUpstreamIDPName = "upstream-idp-name"
upstreamIssuer = "https://my-upstream-issuer.com"
upstreamSubject = "abc123-some-guid"
upstreamUsername = "test-pinniped-username"
upstreamUsernameClaim = "the-user-claim"
upstreamGroupsClaim = "the-groups-claim"
happyUpstreamAuthcode = "upstream-auth-code"
happyDownstreamState = "some-downstream-state-with-at-least-32-bytes"
happyDownstreamCSRF = "test-csrf"
happyDownstreamPKCE = "test-pkce"
happyDownstreamNonce = "test-nonce"
happyDownstreamStateVersion = "1"
downstreamIssuer = "https://my-downstream-issuer.com/path"
downstreamRedirectURI = "http://127.0.0.1/callback"
downstreamClientID = "pinniped-cli"
downstreamNonce = "some-nonce-value"
downstreamPKCEChallenge = "some-challenge"
downstreamPKCEChallengeMethod = "S256"
timeComparisonFudgeFactor = time.Second * 15
)
var (
upstreamGroupMembership = []string{"test-pinniped-group-0", "test-pinniped-group-1"}
happyDownstreamScopesRequested = []string{"openid", "profile", "email"}
happyDownstreamRequestParamsQuery = url.Values{
"response_type": []string{"code"},
"scope": []string{strings.Join(happyDownstreamScopesRequested, " ")},
"client_id": []string{downstreamClientID},
"state": []string{happyDownstreamState},
"nonce": []string{downstreamNonce},
"code_challenge": []string{downstreamPKCEChallenge},
"code_challenge_method": []string{downstreamPKCEChallengeMethod},
"redirect_uri": []string{downstreamRedirectURI},
}
happyDownstreamRequestParams = happyDownstreamRequestParamsQuery.Encode()
)
func TestCallbackEndpoint(t *testing.T) {
otherUpstreamOIDCIdentityProvider := oidctestutil.TestUpstreamOIDCIdentityProvider{
Name: "other-upstream-idp-name",
ClientID: "other-some-client-id",
Scopes: []string{"other-scope1", "other-scope2"},
}
var stateEncoderHashKey = []byte("fake-hash-secret")
var stateEncoderBlockKey = []byte("0123456789ABCDEF") // block encryption requires 16/24/32 bytes for AES
var cookieEncoderHashKey = []byte("fake-hash-secret2")
var cookieEncoderBlockKey = []byte("0123456789ABCDE2") // block encryption requires 16/24/32 bytes for AES
require.NotEqual(t, stateEncoderHashKey, cookieEncoderHashKey)
require.NotEqual(t, stateEncoderBlockKey, cookieEncoderBlockKey)
var happyStateCodec = securecookie.New(stateEncoderHashKey, stateEncoderBlockKey)
happyStateCodec.SetSerializer(securecookie.JSONEncoder{})
var happyCookieCodec = securecookie.New(cookieEncoderHashKey, cookieEncoderBlockKey)
happyCookieCodec.SetSerializer(securecookie.JSONEncoder{})
happyState := happyUpstreamStateParam().Build(t, happyStateCodec)
encodedIncomingCookieCSRFValue, err := happyCookieCodec.Encode("csrf", happyDownstreamCSRF)
require.NoError(t, err)
happyCSRFCookie := "__Host-pinniped-csrf=" + encodedIncomingCookieCSRFValue
happyExchangeAndValidateTokensArgs := &oidctestutil.ExchangeAuthcodeAndValidateTokenArgs{
Authcode: happyUpstreamAuthcode,
PKCECodeVerifier: pkce.Code(happyDownstreamPKCE),
ExpectedIDTokenNonce: nonce.Nonce(happyDownstreamNonce),
}
// Note that fosite puts the granted scopes as a param in the redirect URI even though the spec doesn't seem to require it
happyDownstreamRedirectLocationRegexp := downstreamRedirectURI + `\?code=([^&]+)&scope=openid&state=` + happyDownstreamState
tests := []struct {
name string
idp oidctestutil.TestUpstreamOIDCIdentityProvider
method string
path string
csrfCookie string
wantStatus int
wantBody string
wantRedirectLocationRegexp string
wantGrantedOpenidScope bool
wantDownstreamIDTokenSubject string
wantDownstreamIDTokenGroups []string
wantDownstreamRequestedScopes []string
wantDownstreamNonce string
wantDownstreamPKCEChallenge string
wantDownstreamPKCEChallengeMethod string
wantExchangeAndValidateTokensCall *oidctestutil.ExchangeAuthcodeAndValidateTokenArgs
}{
{
name: "GET with good state and cookie and successful upstream token exchange returns 302 to downstream client callback with its state and code",
idp: happyUpstream().Build(),
method: http.MethodGet,
path: newRequestPath().WithState(happyState).String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusFound,
wantRedirectLocationRegexp: happyDownstreamRedirectLocationRegexp,
wantGrantedOpenidScope: true,
wantBody: "",
wantDownstreamIDTokenSubject: upstreamUsername,
wantDownstreamIDTokenGroups: upstreamGroupMembership,
wantDownstreamRequestedScopes: happyDownstreamScopesRequested,
wantDownstreamNonce: downstreamNonce,
wantDownstreamPKCEChallenge: downstreamPKCEChallenge,
wantDownstreamPKCEChallengeMethod: downstreamPKCEChallengeMethod,
wantExchangeAndValidateTokensCall: happyExchangeAndValidateTokensArgs,
},
{
name: "upstream IDP provides no username or group claim configuration, so we use default username claim and skip groups",
idp: happyUpstream().WithoutUsernameClaim().WithoutGroupsClaim().Build(),
method: http.MethodGet,
path: newRequestPath().WithState(happyState).String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusFound,
wantRedirectLocationRegexp: happyDownstreamRedirectLocationRegexp,
wantGrantedOpenidScope: true,
wantBody: "",
wantDownstreamIDTokenSubject: upstreamIssuer + "?sub=" + upstreamSubject,
wantDownstreamIDTokenGroups: nil,
wantDownstreamRequestedScopes: happyDownstreamScopesRequested,
wantDownstreamNonce: downstreamNonce,
wantDownstreamPKCEChallenge: downstreamPKCEChallenge,
wantDownstreamPKCEChallengeMethod: downstreamPKCEChallengeMethod,
wantExchangeAndValidateTokensCall: happyExchangeAndValidateTokensArgs,
},
{
name: "upstream IDP provides username claim configuration as `sub`, so the downstream token subject should be exactly what they asked for",
idp: happyUpstream().WithUsernameClaim("sub").Build(),
method: http.MethodGet,
path: newRequestPath().WithState(happyState).String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusFound,
wantRedirectLocationRegexp: happyDownstreamRedirectLocationRegexp,
wantGrantedOpenidScope: true,
wantBody: "",
wantDownstreamIDTokenSubject: upstreamSubject,
wantDownstreamIDTokenGroups: upstreamGroupMembership,
wantDownstreamRequestedScopes: happyDownstreamScopesRequested,
wantDownstreamNonce: downstreamNonce,
wantDownstreamPKCEChallenge: downstreamPKCEChallenge,
wantDownstreamPKCEChallengeMethod: downstreamPKCEChallengeMethod,
wantExchangeAndValidateTokensCall: happyExchangeAndValidateTokensArgs,
},
// Pre-upstream-exchange verification
{
name: "PUT method is invalid",
method: http.MethodPut,
path: newRequestPath().String(),
wantStatus: http.StatusMethodNotAllowed,
wantBody: "Method Not Allowed: PUT (try GET)\n",
},
{
name: "POST method is invalid",
method: http.MethodPost,
path: newRequestPath().String(),
wantStatus: http.StatusMethodNotAllowed,
wantBody: "Method Not Allowed: POST (try GET)\n",
},
{
name: "PATCH method is invalid",
method: http.MethodPatch,
path: newRequestPath().String(),
wantStatus: http.StatusMethodNotAllowed,
wantBody: "Method Not Allowed: PATCH (try GET)\n",
},
{
name: "DELETE method is invalid",
method: http.MethodDelete,
path: newRequestPath().String(),
wantStatus: http.StatusMethodNotAllowed,
wantBody: "Method Not Allowed: DELETE (try GET)\n",
},
{
name: "code param was not included on request",
method: http.MethodGet,
path: newRequestPath().WithState(happyState).WithoutCode().String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusBadRequest,
wantBody: "Bad Request: code param not found\n",
},
{
name: "state param was not included on request",
method: http.MethodGet,
path: newRequestPath().WithoutState().String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusBadRequest,
wantBody: "Bad Request: state param not found\n",
},
{
name: "state param was not signed correctly, has expired, or otherwise cannot be decoded for any reason",
idp: happyUpstream().Build(),
method: http.MethodGet,
path: newRequestPath().WithState("this-will-not-decode").String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusBadRequest,
wantBody: "Bad Request: error reading state\n",
},
{
// This shouldn't happen in practice because the authorize endpoint should have already run the same
// validations, but we would like to test the error handling in this endpoint anyway.
name: "state param contains authorization request params which fail validation",
idp: happyUpstream().Build(),
method: http.MethodGet,
path: newRequestPath().WithState(
happyUpstreamStateParam().
WithAuthorizeRequestParams(shallowCopyAndModifyQuery(happyDownstreamRequestParamsQuery, map[string]string{"prompt": "none login"}).Encode()).
Build(t, happyStateCodec),
).String(),
csrfCookie: happyCSRFCookie,
wantExchangeAndValidateTokensCall: happyExchangeAndValidateTokensArgs,
wantStatus: http.StatusInternalServerError,
wantBody: "Internal Server Error: error while generating and saving authcode\n",
},
{
name: "state's internal version does not match what we want",
idp: happyUpstream().Build(),
method: http.MethodGet,
path: newRequestPath().WithState(happyUpstreamStateParam().WithStateVersion("wrong-state-version").Build(t, happyStateCodec)).String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusUnprocessableEntity,
wantBody: "Unprocessable Entity: state format version is invalid\n",
},
{
name: "state's downstream auth params element is invalid",
idp: happyUpstream().Build(),
method: http.MethodGet,
path: newRequestPath().WithState(happyUpstreamStateParam().
WithAuthorizeRequestParams("the following is an invalid url encoding token, and therefore this is an invalid param: %z").
Build(t, happyStateCodec)).String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusBadRequest,
wantBody: "Bad Request: error reading state downstream auth params\n",
},
{
name: "state's downstream auth params are missing required value (e.g., client_id)",
idp: happyUpstream().Build(),
method: http.MethodGet,
path: newRequestPath().WithState(
happyUpstreamStateParam().
WithAuthorizeRequestParams(shallowCopyAndModifyQuery(happyDownstreamRequestParamsQuery, map[string]string{"client_id": ""}).Encode()).
Build(t, happyStateCodec),
).String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusBadRequest,
wantBody: "Bad Request: error using state downstream auth params\n",
},
{
name: "state's downstream auth params does not contain openid scope",
idp: happyUpstream().Build(),
method: http.MethodGet,
path: newRequestPath().
WithState(
happyUpstreamStateParam().
WithAuthorizeRequestParams(shallowCopyAndModifyQuery(happyDownstreamRequestParamsQuery, map[string]string{"scope": "profile email"}).Encode()).
Build(t, happyStateCodec),
).String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusFound,
wantRedirectLocationRegexp: downstreamRedirectURI + `\?code=([^&]+)&scope=&state=` + happyDownstreamState,
wantDownstreamIDTokenSubject: upstreamUsername,
wantDownstreamRequestedScopes: []string{"profile", "email"},
wantDownstreamIDTokenGroups: upstreamGroupMembership,
wantDownstreamNonce: downstreamNonce,
wantDownstreamPKCEChallenge: downstreamPKCEChallenge,
wantDownstreamPKCEChallengeMethod: downstreamPKCEChallengeMethod,
wantExchangeAndValidateTokensCall: happyExchangeAndValidateTokensArgs,
},
{
name: "the UpstreamOIDCProvider CRD has been deleted",
idp: otherUpstreamOIDCIdentityProvider,
method: http.MethodGet,
path: newRequestPath().WithState(happyState).String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusUnprocessableEntity,
wantBody: "Unprocessable Entity: upstream provider not found\n",
},
{
name: "the CSRF cookie does not exist on request",
idp: happyUpstream().Build(),
method: http.MethodGet,
path: newRequestPath().WithState(happyState).String(),
wantStatus: http.StatusForbidden,
wantBody: "Forbidden: CSRF cookie is missing\n",
},
{
name: "cookie was not signed correctly, has expired, or otherwise cannot be decoded for any reason",
idp: happyUpstream().Build(),
method: http.MethodGet,
path: newRequestPath().WithState(happyState).String(),
csrfCookie: "__Host-pinniped-csrf=this-value-was-not-signed-by-pinniped",
wantStatus: http.StatusForbidden,
wantBody: "Forbidden: error reading CSRF cookie\n",
},
{
name: "cookie csrf value does not match state csrf value",
idp: happyUpstream().Build(),
method: http.MethodGet,
path: newRequestPath().WithState(happyUpstreamStateParam().WithCSRF("wrong-csrf-value").Build(t, happyStateCodec)).String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusForbidden,
wantBody: "Forbidden: CSRF value does not match\n",
},
// Upstream exchange
{
name: "upstream auth code exchange fails",
idp: happyUpstream().WithoutUpstreamAuthcodeExchangeError(errors.New("some error")).Build(),
method: http.MethodGet,
path: newRequestPath().WithState(happyState).String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusBadGateway,
wantBody: "Bad Gateway: error exchanging and validating upstream tokens\n",
wantExchangeAndValidateTokensCall: happyExchangeAndValidateTokensArgs,
},
{
name: "upstream ID token does not contain requested username claim",
idp: happyUpstream().WithoutIDTokenClaim(upstreamUsernameClaim).Build(),
method: http.MethodGet,
path: newRequestPath().WithState(happyState).String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusUnprocessableEntity,
wantBody: "Unprocessable Entity: no username claim in upstream ID token\n",
wantExchangeAndValidateTokensCall: happyExchangeAndValidateTokensArgs,
},
{
name: "upstream ID token does not contain requested groups claim",
idp: happyUpstream().WithoutIDTokenClaim(upstreamGroupsClaim).Build(),
method: http.MethodGet,
path: newRequestPath().WithState(happyState).String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusUnprocessableEntity,
wantBody: "Unprocessable Entity: no groups claim in upstream ID token\n",
wantExchangeAndValidateTokensCall: happyExchangeAndValidateTokensArgs,
},
{
name: "upstream ID token contains username claim with weird format",
idp: happyUpstream().WithIDTokenClaim(upstreamUsernameClaim, 42).Build(),
method: http.MethodGet,
path: newRequestPath().WithState(happyState).String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusUnprocessableEntity,
wantBody: "Unprocessable Entity: username claim in upstream ID token has invalid format\n",
wantExchangeAndValidateTokensCall: happyExchangeAndValidateTokensArgs,
},
{
name: "upstream ID token does not contain iss claim when using default username claim config",
idp: happyUpstream().WithIDTokenClaim("iss", "").WithoutUsernameClaim().Build(),
method: http.MethodGet,
path: newRequestPath().WithState(happyState).String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusUnprocessableEntity,
wantBody: "Unprocessable Entity: issuer claim in upstream ID token missing\n",
wantExchangeAndValidateTokensCall: happyExchangeAndValidateTokensArgs,
},
{
name: "upstream ID token has an non-string iss claim when using default username claim config",
idp: happyUpstream().WithIDTokenClaim("iss", 42).WithoutUsernameClaim().Build(),
method: http.MethodGet,
path: newRequestPath().WithState(happyState).String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusUnprocessableEntity,
wantBody: "Unprocessable Entity: issuer claim in upstream ID token has invalid format\n",
wantExchangeAndValidateTokensCall: happyExchangeAndValidateTokensArgs,
},
{
name: "upstream ID token contains groups claim with weird format",
idp: happyUpstream().WithIDTokenClaim(upstreamGroupsClaim, 42).Build(),
method: http.MethodGet,
path: newRequestPath().WithState(happyState).String(),
csrfCookie: happyCSRFCookie,
wantStatus: http.StatusUnprocessableEntity,
wantBody: "Unprocessable Entity: groups claim in upstream ID token has invalid format\n",
wantExchangeAndValidateTokensCall: happyExchangeAndValidateTokensArgs,
},
}
for _, test := range tests {
test := test
t.Run(test.name, func(t *testing.T) {
// Configure fosite the same way that the production code would, except use in-memory storage.
// Inject this into our test subject at the last second so we get a fresh storage for every test.
oauthStore := &storage.MemoryStore{
Clients: map[string]fosite.Client{oidc.PinnipedCLIOIDCClient().ID: oidc.PinnipedCLIOIDCClient()},
AuthorizeCodes: map[string]storage.StoreAuthorizeCode{},
PKCES: map[string]fosite.Requester{},
IDSessions: map[string]fosite.Requester{},
}
hmacSecret := []byte("some secret - must have at least 32 bytes")
require.GreaterOrEqual(t, len(hmacSecret), 32, "fosite requires that hmac secrets have at least 32 bytes")
oauthHelper := oidc.FositeOauth2Helper(oauthStore, downstreamIssuer, hmacSecret)
idpListGetter := oidctestutil.NewIDPListGetter(&test.idp)
subject := NewHandler(idpListGetter, oauthHelper, happyStateCodec, happyCookieCodec)
req := httptest.NewRequest(test.method, test.path, nil)
if test.csrfCookie != "" {
req.Header.Set("Cookie", test.csrfCookie)
}
rsp := httptest.NewRecorder()
subject.ServeHTTP(rsp, req)
t.Logf("response: %#v", rsp)
t.Logf("response body: %q", rsp.Body.String())
if test.wantExchangeAndValidateTokensCall != nil {
require.Equal(t, 1, test.idp.ExchangeAuthcodeAndValidateTokensCallCount())
test.wantExchangeAndValidateTokensCall.Ctx = req.Context()
require.Equal(t, test.wantExchangeAndValidateTokensCall, test.idp.ExchangeAuthcodeAndValidateTokensArgs(0))
} else {
require.Equal(t, 0, test.idp.ExchangeAuthcodeAndValidateTokensCallCount())
}
require.Equal(t, test.wantStatus, rsp.Code)
if test.wantBody != "" {
require.Equal(t, test.wantBody, rsp.Body.String())
} else {
require.Empty(t, rsp.Body.String())
}
if test.wantRedirectLocationRegexp != "" { //nolint:nestif // don't mind have several sequential if statements in this test
// Assert that Location header matches regular expression.
require.Len(t, rsp.Header().Values("Location"), 1)
actualLocation := rsp.Header().Get("Location")
regex := regexp.MustCompile(test.wantRedirectLocationRegexp)
submatches := regex.FindStringSubmatch(actualLocation)
require.Lenf(t, submatches, 2, "no regexp match in actualLocation: %q", actualLocation)
capturedAuthCode := submatches[1]
// fosite authcodes are in the format `data.signature`, so grab the signature part, which is the lookup key in the storage interface
authcodeDataAndSignature := strings.Split(capturedAuthCode, ".")
require.Len(t, authcodeDataAndSignature, 2)
storedRequestFromAuthcode, storedSessionFromAuthcode := validateAuthcodeStorage(
t,
oauthStore,
authcodeDataAndSignature[1], // Authcode store key is authcode signature
test.wantGrantedOpenidScope,
test.wantDownstreamIDTokenSubject,
test.wantDownstreamIDTokenGroups,
test.wantDownstreamRequestedScopes,
)
validatePKCEStorage(
t,
oauthStore,
authcodeDataAndSignature[1], // PKCE store key is authcode signature
storedRequestFromAuthcode,
storedSessionFromAuthcode,
test.wantDownstreamPKCEChallenge,
test.wantDownstreamPKCEChallengeMethod,
)
validateIDSessionStorage(
t,
oauthStore,
capturedAuthCode, // IDSession store key is full authcode
storedRequestFromAuthcode,
storedSessionFromAuthcode,
test.wantGrantedOpenidScope,
test.wantDownstreamNonce,
)
}
})
}
}
type requestPath struct {
code, state *string
}
func newRequestPath() *requestPath {
c := happyUpstreamAuthcode
s := "4321"
return &requestPath{
code: &c,
state: &s,
}
}
func (r *requestPath) WithCode(code string) *requestPath {
r.code = &code
return r
}
func (r *requestPath) WithoutCode() *requestPath {
r.code = nil
return r
}
func (r *requestPath) WithState(state string) *requestPath {
r.state = &state
return r
}
func (r *requestPath) WithoutState() *requestPath {
r.state = nil
return r
}
func (r *requestPath) String() string {
path := "/downstream-provider-name/callback?"
params := url.Values{}
if r.code != nil {
params.Add("code", *r.code)
}
if r.state != nil {
params.Add("state", *r.state)
}
return path + params.Encode()
}
type upstreamStateParamBuilder oidctestutil.ExpectedUpstreamStateParamFormat
func happyUpstreamStateParam() *upstreamStateParamBuilder {
return &upstreamStateParamBuilder{
U: happyUpstreamIDPName,
P: happyDownstreamRequestParams,
N: happyDownstreamNonce,
C: happyDownstreamCSRF,
K: happyDownstreamPKCE,
V: happyDownstreamStateVersion,
}
}
func (b upstreamStateParamBuilder) Build(t *testing.T, stateEncoder *securecookie.SecureCookie) string {
state, err := stateEncoder.Encode("s", b)
require.NoError(t, err)
return state
}
func (b *upstreamStateParamBuilder) WithAuthorizeRequestParams(params string) *upstreamStateParamBuilder {
b.P = params
return b
}
func (b *upstreamStateParamBuilder) WithNonce(nonce string) *upstreamStateParamBuilder {
b.N = nonce
return b
}
func (b *upstreamStateParamBuilder) WithCSRF(csrf string) *upstreamStateParamBuilder {
b.C = csrf
return b
}
func (b *upstreamStateParamBuilder) WithPKCVE(pkce string) *upstreamStateParamBuilder {
b.K = pkce
return b
}
func (b *upstreamStateParamBuilder) WithStateVersion(version string) *upstreamStateParamBuilder {
b.V = version
return b
}
type upstreamOIDCIdentityProviderBuilder struct {
idToken map[string]interface{}
usernameClaim, groupsClaim string
authcodeExchangeErr error
}
func happyUpstream() *upstreamOIDCIdentityProviderBuilder {
return &upstreamOIDCIdentityProviderBuilder{
usernameClaim: upstreamUsernameClaim,
groupsClaim: upstreamGroupsClaim,
idToken: map[string]interface{}{
"iss": upstreamIssuer,
"sub": upstreamSubject,
upstreamUsernameClaim: upstreamUsername,
upstreamGroupsClaim: upstreamGroupMembership,
"other-claim": "should be ignored",
},
}
}
func (u *upstreamOIDCIdentityProviderBuilder) WithUsernameClaim(claim string) *upstreamOIDCIdentityProviderBuilder {
u.usernameClaim = claim
return u
}
func (u *upstreamOIDCIdentityProviderBuilder) WithoutUsernameClaim() *upstreamOIDCIdentityProviderBuilder {
u.usernameClaim = ""
return u
}
func (u *upstreamOIDCIdentityProviderBuilder) WithoutGroupsClaim() *upstreamOIDCIdentityProviderBuilder {
u.groupsClaim = ""
return u
}
func (u *upstreamOIDCIdentityProviderBuilder) WithIDTokenClaim(name string, value interface{}) *upstreamOIDCIdentityProviderBuilder {
u.idToken[name] = value
return u
}
func (u *upstreamOIDCIdentityProviderBuilder) WithoutIDTokenClaim(claim string) *upstreamOIDCIdentityProviderBuilder {
delete(u.idToken, claim)
return u
}
func (u *upstreamOIDCIdentityProviderBuilder) WithoutUpstreamAuthcodeExchangeError(err error) *upstreamOIDCIdentityProviderBuilder {
u.authcodeExchangeErr = err
return u
}
func (u *upstreamOIDCIdentityProviderBuilder) Build() oidctestutil.TestUpstreamOIDCIdentityProvider {
return oidctestutil.TestUpstreamOIDCIdentityProvider{
Name: happyUpstreamIDPName,
ClientID: "some-client-id",
UsernameClaim: u.usernameClaim,
GroupsClaim: u.groupsClaim,
Scopes: []string{"scope1", "scope2"},
ExchangeAuthcodeAndValidateTokensFunc: func(ctx context.Context, authcode string, pkceCodeVerifier pkce.Code, expectedIDTokenNonce nonce.Nonce) (oidcclient.Token, map[string]interface{}, error) {
return oidcclient.Token{}, u.idToken, u.authcodeExchangeErr
},
}
}
func shallowCopyAndModifyQuery(query url.Values, modifications map[string]string) url.Values {
copied := url.Values{}
for key, value := range query {
copied[key] = value
}
for key, value := range modifications {
if value == "" {
copied.Del(key)
} else {
copied[key] = []string{value}
}
}
return copied
}
func validateAuthcodeStorage(
t *testing.T,
oauthStore *storage.MemoryStore,
storeKey string,
wantGrantedOpenidScope bool,
wantDownstreamIDTokenSubject string,
wantDownstreamIDTokenGroups []string,
wantDownstreamRequestedScopes []string,
) (*fosite.Request, *openid.DefaultSession) {
t.Helper()
// One authcode should have been stored.
require.Len(t, oauthStore.AuthorizeCodes, 1)
// Get the authcode session back from storage so we can require that it was stored correctly.
storedAuthorizeRequestFromAuthcode, err := oauthStore.GetAuthorizeCodeSession(context.Background(), storeKey, nil)
require.NoError(t, err)
// Check that storage returned the expected concrete data types.
storedRequestFromAuthcode, storedSessionFromAuthcode := castStoredAuthorizeRequest(t, storedAuthorizeRequestFromAuthcode)
// Check which scopes were granted.
if wantGrantedOpenidScope {
require.Contains(t, storedRequestFromAuthcode.GetGrantedScopes(), "openid")
} else {
require.NotContains(t, storedRequestFromAuthcode.GetGrantedScopes(), "openid")
}
// Check all the other fields of the stored request.
require.NotEmpty(t, storedRequestFromAuthcode.ID)
require.Equal(t, downstreamClientID, storedRequestFromAuthcode.Client.GetID())
require.ElementsMatch(t, wantDownstreamRequestedScopes, storedRequestFromAuthcode.RequestedScope)
require.Nil(t, storedRequestFromAuthcode.RequestedAudience)
require.Empty(t, storedRequestFromAuthcode.GrantedAudience)
require.Equal(t, url.Values{"redirect_uri": []string{downstreamRedirectURI}}, storedRequestFromAuthcode.Form)
testutil.RequireTimeInDelta(t, time.Now(), storedRequestFromAuthcode.RequestedAt, timeComparisonFudgeFactor)
// We're not using these fields yet, so confirm that we did not set them (for now).
require.Empty(t, storedSessionFromAuthcode.Subject)
require.Empty(t, storedSessionFromAuthcode.Username)
require.Empty(t, storedSessionFromAuthcode.Headers)
// The authcode that we are issuing should be good for the length of time that we declare in the fosite config.
testutil.RequireTimeInDelta(t, time.Now().Add(time.Minute*3), storedSessionFromAuthcode.ExpiresAt[fosite.AuthorizeCode], timeComparisonFudgeFactor)
require.Len(t, storedSessionFromAuthcode.ExpiresAt, 1)
// Now confirm the ID token claims.
actualClaims := storedSessionFromAuthcode.Claims
// Check the user's identity, which are put into the downstream ID token's subject and groups claims.
require.Equal(t, wantDownstreamIDTokenSubject, actualClaims.Subject)
if wantDownstreamIDTokenGroups != nil {
require.Len(t, actualClaims.Extra, 1)
require.Equal(t, wantDownstreamIDTokenGroups, actualClaims.Extra["groups"])
} else {
require.Empty(t, actualClaims.Extra)
require.NotContains(t, actualClaims.Extra, "groups")
}
// Check the rest of the downstream ID token's claims. Fosite wants us to set these (in UTC time).
testutil.RequireTimeInDelta(t, time.Now().UTC(), actualClaims.RequestedAt, timeComparisonFudgeFactor)
testutil.RequireTimeInDelta(t, time.Now().UTC(), actualClaims.AuthTime, timeComparisonFudgeFactor)
requestedAtZone, _ := actualClaims.RequestedAt.Zone()
require.Equal(t, "UTC", requestedAtZone)
authTimeZone, _ := actualClaims.AuthTime.Zone()
require.Equal(t, "UTC", authTimeZone)
// Fosite will set these fields for us in the token endpoint based on the store session
// information. Therefore, we assert that they are empty because we want the library to do the
// lifting for us.
require.Empty(t, actualClaims.Issuer)
require.Nil(t, actualClaims.Audience)
require.Empty(t, actualClaims.Nonce)
require.Zero(t, actualClaims.ExpiresAt)
require.Zero(t, actualClaims.IssuedAt)
// These are not needed yet.
require.Empty(t, actualClaims.JTI)
require.Empty(t, actualClaims.CodeHash)
require.Empty(t, actualClaims.AccessTokenHash)
require.Empty(t, actualClaims.AuthenticationContextClassReference)
require.Empty(t, actualClaims.AuthenticationMethodsReference)
return storedRequestFromAuthcode, storedSessionFromAuthcode
}
func validatePKCEStorage(
t *testing.T,
oauthStore *storage.MemoryStore,
storeKey string,
storedRequestFromAuthcode *fosite.Request,
storedSessionFromAuthcode *openid.DefaultSession,
wantDownstreamPKCEChallenge, wantDownstreamPKCEChallengeMethod string,
) {
t.Helper()
// One PKCE should have been stored.
require.Len(t, oauthStore.PKCES, 1)
storedAuthorizeRequestFromPKCE, err := oauthStore.GetPKCERequestSession(context.Background(), storeKey, nil)
require.NoError(t, err)
// Check that storage returned the expected concrete data types.
storedRequestFromPKCE, storedSessionFromPKCE := castStoredAuthorizeRequest(t, storedAuthorizeRequestFromPKCE)
// The stored PKCE request should be the same as the stored authcode request.
require.Equal(t, storedRequestFromAuthcode.ID, storedRequestFromPKCE.ID)
require.Equal(t, storedSessionFromAuthcode, storedSessionFromPKCE)
// The stored PKCE request should also contain the PKCE challenge that the downstream sent us.
require.Equal(t, wantDownstreamPKCEChallenge, storedRequestFromPKCE.Form.Get("code_challenge"))
require.Equal(t, wantDownstreamPKCEChallengeMethod, storedRequestFromPKCE.Form.Get("code_challenge_method"))
}
func validateIDSessionStorage(
t *testing.T,
oauthStore *storage.MemoryStore,
storeKey string,
storedRequestFromAuthcode *fosite.Request,
storedSessionFromAuthcode *openid.DefaultSession,
wantGrantedOpenidScope bool,
wantDownstreamNonce string,
) {
t.Helper()
// One IDSession should have been stored, if the downstream actually requested the "openid" scope..
if wantGrantedOpenidScope {
require.Len(t, oauthStore.IDSessions, 1)
storedAuthorizeRequestFromIDSession, err := oauthStore.GetOpenIDConnectSession(context.Background(), storeKey, nil)
require.NoError(t, err)
// Check that storage returned the expected concrete data types.
storedRequestFromIDSession, storedSessionFromIDSession := castStoredAuthorizeRequest(t, storedAuthorizeRequestFromIDSession)
// The stored IDSession request should be the same as the stored authcode request.
require.Equal(t, storedRequestFromAuthcode.ID, storedRequestFromIDSession.ID)
require.Equal(t, storedSessionFromAuthcode, storedSessionFromIDSession)
// The stored IDSession request should also contain the nonce that the downstream sent us.
require.Equal(t, wantDownstreamNonce, storedRequestFromIDSession.Form.Get("nonce"))
} else {
require.Len(t, oauthStore.IDSessions, 0)
}
}
func castStoredAuthorizeRequest(t *testing.T, storedAuthorizeRequest fosite.Requester) (*fosite.Request, *openid.DefaultSession) {
t.Helper()
storedRequest, ok := storedAuthorizeRequest.(*fosite.Request)
require.Truef(t, ok, "could not cast %T to %T", storedAuthorizeRequest, &fosite.Request{})
storedSession, ok := storedAuthorizeRequest.GetSession().(*openid.DefaultSession)
require.Truef(t, ok, "could not cast %T to %T", storedAuthorizeRequest.GetSession(), &openid.DefaultSession{})
return storedRequest, storedSession
}