ContainerImage.Pinniped/internal/testutil/oidctestutil/oidctestutil.go

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// Copyright 2020-2022 the Pinniped contributors. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
package oidctestutil
import (
"context"
"crypto"
"crypto/ecdsa"
"fmt"
"net/url"
"regexp"
"strings"
"testing"
"time"
coreosoidc "github.com/coreos/go-oidc/v3/oidc"
"github.com/ory/fosite"
"github.com/stretchr/testify/require"
"golang.org/x/oauth2"
"gopkg.in/square/go-jose.v2"
"k8s.io/apimachinery/pkg/labels"
"k8s.io/apimachinery/pkg/types"
"k8s.io/client-go/kubernetes/fake"
v1 "k8s.io/client-go/kubernetes/typed/core/v1"
"go.pinniped.dev/internal/authenticators"
"go.pinniped.dev/internal/crud"
"go.pinniped.dev/internal/fositestorage/authorizationcode"
"go.pinniped.dev/internal/fositestorage/openidconnect"
pkce2 "go.pinniped.dev/internal/fositestorage/pkce"
"go.pinniped.dev/internal/fositestoragei"
"go.pinniped.dev/internal/oidc/provider"
"go.pinniped.dev/internal/psession"
"go.pinniped.dev/internal/testutil"
"go.pinniped.dev/pkg/oidcclient/nonce"
"go.pinniped.dev/pkg/oidcclient/oidctypes"
"go.pinniped.dev/pkg/oidcclient/pkce"
)
// Test helpers for the OIDC package.
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// ExchangeAuthcodeAndValidateTokenArgs is used to spy on calls to
// TestUpstreamOIDCIdentityProvider.ExchangeAuthcodeAndValidateTokensFunc().
type ExchangeAuthcodeAndValidateTokenArgs struct {
Ctx context.Context
Authcode string
PKCECodeVerifier pkce.Code
ExpectedIDTokenNonce nonce.Nonce
RedirectURI string
}
// PasswordCredentialsGrantAndValidateTokensArgs is used to spy on calls to
// TestUpstreamOIDCIdentityProvider.PasswordCredentialsGrantAndValidateTokensFunc().
type PasswordCredentialsGrantAndValidateTokensArgs struct {
Ctx context.Context
Username string
Password string
}
// PerformRefreshArgs is used to spy on calls to
// TestUpstreamOIDCIdentityProvider.PerformRefreshFunc().
type PerformRefreshArgs struct {
Ctx context.Context
RefreshToken string
DN string
ExpectedUsername string
ExpectedSubject string
}
// RevokeRefreshTokenArgs is used to spy on calls to
// TestUpstreamOIDCIdentityProvider.RevokeRefreshTokenArgsFunc().
type RevokeRefreshTokenArgs struct {
Ctx context.Context
RefreshToken string
}
// ValidateTokenArgs is used to spy on calls to
// TestUpstreamOIDCIdentityProvider.ValidateTokenFunc().
type ValidateTokenArgs struct {
Ctx context.Context
Tok *oauth2.Token
ExpectedIDTokenNonce nonce.Nonce
}
type ValidateRefreshArgs struct {
Ctx context.Context
Tok *oauth2.Token
StoredAttributes provider.StoredRefreshAttributes
}
type TestUpstreamLDAPIdentityProvider struct {
Name string
ResourceUID types.UID
URL *url.URL
AuthenticateFunc func(ctx context.Context, username, password string) (*authenticators.Response, bool, error)
performRefreshCallCount int
performRefreshArgs []*PerformRefreshArgs
PerformRefreshErr error
}
var _ provider.UpstreamLDAPIdentityProviderI = &TestUpstreamLDAPIdentityProvider{}
func (u *TestUpstreamLDAPIdentityProvider) GetResourceUID() types.UID {
return u.ResourceUID
}
func (u *TestUpstreamLDAPIdentityProvider) GetName() string {
return u.Name
}
func (u *TestUpstreamLDAPIdentityProvider) AuthenticateUser(ctx context.Context, username, password string) (*authenticators.Response, bool, error) {
return u.AuthenticateFunc(ctx, username, password)
}
func (u *TestUpstreamLDAPIdentityProvider) GetURL() *url.URL {
return u.URL
}
func (u *TestUpstreamLDAPIdentityProvider) PerformRefresh(ctx context.Context, storedRefreshAttributes provider.StoredRefreshAttributes) error {
if u.performRefreshArgs == nil {
u.performRefreshArgs = make([]*PerformRefreshArgs, 0)
}
u.performRefreshCallCount++
u.performRefreshArgs = append(u.performRefreshArgs, &PerformRefreshArgs{
Ctx: ctx,
DN: storedRefreshAttributes.DN,
ExpectedUsername: storedRefreshAttributes.Username,
ExpectedSubject: storedRefreshAttributes.Subject,
})
if u.PerformRefreshErr != nil {
return u.PerformRefreshErr
}
return nil
}
func (u *TestUpstreamLDAPIdentityProvider) PerformRefreshCallCount() int {
return u.performRefreshCallCount
}
func (u *TestUpstreamLDAPIdentityProvider) PerformRefreshArgs(call int) *PerformRefreshArgs {
if u.performRefreshArgs == nil {
u.performRefreshArgs = make([]*PerformRefreshArgs, 0)
}
return u.performRefreshArgs[call]
}
type TestUpstreamOIDCIdentityProvider struct {
Name string
ClientID string
ResourceUID types.UID
AuthorizationURL url.URL
UserInfoURL bool
RevocationURL *url.URL
UsernameClaim string
GroupsClaim string
Scopes []string
AdditionalAuthcodeParams map[string]string
AllowPasswordGrant bool
ExchangeAuthcodeAndValidateTokensFunc func(
ctx context.Context,
authcode string,
pkceCodeVerifier pkce.Code,
expectedIDTokenNonce nonce.Nonce,
) (*oidctypes.Token, error)
PasswordCredentialsGrantAndValidateTokensFunc func(
ctx context.Context,
username string,
password string,
) (*oidctypes.Token, error)
PerformRefreshFunc func(ctx context.Context, refreshToken string) (*oauth2.Token, error)
RevokeRefreshTokenFunc func(ctx context.Context, refreshToken string) error
ValidateTokenFunc func(ctx context.Context, tok *oauth2.Token, expectedIDTokenNonce nonce.Nonce) (*oidctypes.Token, error)
exchangeAuthcodeAndValidateTokensCallCount int
exchangeAuthcodeAndValidateTokensArgs []*ExchangeAuthcodeAndValidateTokenArgs
passwordCredentialsGrantAndValidateTokensCallCount int
passwordCredentialsGrantAndValidateTokensArgs []*PasswordCredentialsGrantAndValidateTokensArgs
performRefreshCallCount int
performRefreshArgs []*PerformRefreshArgs
revokeRefreshTokenCallCount int
revokeRefreshTokenArgs []*RevokeRefreshTokenArgs
validateTokenCallCount int
validateTokenArgs []*ValidateTokenArgs
}
var _ provider.UpstreamOIDCIdentityProviderI = &TestUpstreamOIDCIdentityProvider{}
func (u *TestUpstreamOIDCIdentityProvider) GetResourceUID() types.UID {
return u.ResourceUID
}
func (u *TestUpstreamOIDCIdentityProvider) GetAdditionalAuthcodeParams() map[string]string {
return u.AdditionalAuthcodeParams
}
func (u *TestUpstreamOIDCIdentityProvider) GetName() string {
return u.Name
}
func (u *TestUpstreamOIDCIdentityProvider) GetClientID() string {
return u.ClientID
}
func (u *TestUpstreamOIDCIdentityProvider) GetAuthorizationURL() *url.URL {
return &u.AuthorizationURL
}
func (u *TestUpstreamOIDCIdentityProvider) HasUserInfoURL() bool {
return u.UserInfoURL
}
func (u *TestUpstreamOIDCIdentityProvider) GetRevocationURL() *url.URL {
return u.RevocationURL
}
func (u *TestUpstreamOIDCIdentityProvider) GetScopes() []string {
return u.Scopes
}
func (u *TestUpstreamOIDCIdentityProvider) GetUsernameClaim() string {
return u.UsernameClaim
}
func (u *TestUpstreamOIDCIdentityProvider) GetGroupsClaim() string {
return u.GroupsClaim
}
func (u *TestUpstreamOIDCIdentityProvider) AllowsPasswordGrant() bool {
return u.AllowPasswordGrant
}
func (u *TestUpstreamOIDCIdentityProvider) PasswordCredentialsGrantAndValidateTokens(ctx context.Context, username, password string) (*oidctypes.Token, error) {
u.passwordCredentialsGrantAndValidateTokensCallCount++
u.passwordCredentialsGrantAndValidateTokensArgs = append(u.passwordCredentialsGrantAndValidateTokensArgs, &PasswordCredentialsGrantAndValidateTokensArgs{
Ctx: ctx,
Username: username,
Password: password,
})
return u.PasswordCredentialsGrantAndValidateTokensFunc(ctx, username, password)
}
func (u *TestUpstreamOIDCIdentityProvider) ExchangeAuthcodeAndValidateTokens(
ctx context.Context,
authcode string,
pkceCodeVerifier pkce.Code,
expectedIDTokenNonce nonce.Nonce,
redirectURI string,
) (*oidctypes.Token, error) {
if u.exchangeAuthcodeAndValidateTokensArgs == nil {
u.exchangeAuthcodeAndValidateTokensArgs = make([]*ExchangeAuthcodeAndValidateTokenArgs, 0)
}
u.exchangeAuthcodeAndValidateTokensCallCount++
u.exchangeAuthcodeAndValidateTokensArgs = append(u.exchangeAuthcodeAndValidateTokensArgs, &ExchangeAuthcodeAndValidateTokenArgs{
Ctx: ctx,
Authcode: authcode,
PKCECodeVerifier: pkceCodeVerifier,
ExpectedIDTokenNonce: expectedIDTokenNonce,
RedirectURI: redirectURI,
})
return u.ExchangeAuthcodeAndValidateTokensFunc(ctx, authcode, pkceCodeVerifier, expectedIDTokenNonce)
}
func (u *TestUpstreamOIDCIdentityProvider) ExchangeAuthcodeAndValidateTokensCallCount() int {
return u.exchangeAuthcodeAndValidateTokensCallCount
}
func (u *TestUpstreamOIDCIdentityProvider) ExchangeAuthcodeAndValidateTokensArgs(call int) *ExchangeAuthcodeAndValidateTokenArgs {
if u.exchangeAuthcodeAndValidateTokensArgs == nil {
u.exchangeAuthcodeAndValidateTokensArgs = make([]*ExchangeAuthcodeAndValidateTokenArgs, 0)
}
return u.exchangeAuthcodeAndValidateTokensArgs[call]
}
func (u *TestUpstreamOIDCIdentityProvider) PerformRefresh(ctx context.Context, refreshToken string) (*oauth2.Token, error) {
if u.performRefreshArgs == nil {
u.performRefreshArgs = make([]*PerformRefreshArgs, 0)
}
u.performRefreshCallCount++
u.performRefreshArgs = append(u.performRefreshArgs, &PerformRefreshArgs{
Ctx: ctx,
RefreshToken: refreshToken,
})
return u.PerformRefreshFunc(ctx, refreshToken)
}
func (u *TestUpstreamOIDCIdentityProvider) RevokeRefreshToken(ctx context.Context, refreshToken string) error {
if u.revokeRefreshTokenArgs == nil {
u.revokeRefreshTokenArgs = make([]*RevokeRefreshTokenArgs, 0)
}
u.revokeRefreshTokenCallCount++
u.revokeRefreshTokenArgs = append(u.revokeRefreshTokenArgs, &RevokeRefreshTokenArgs{
Ctx: ctx,
RefreshToken: refreshToken,
})
return u.RevokeRefreshTokenFunc(ctx, refreshToken)
}
func (u *TestUpstreamOIDCIdentityProvider) PerformRefreshCallCount() int {
return u.performRefreshCallCount
}
func (u *TestUpstreamOIDCIdentityProvider) PerformRefreshArgs(call int) *PerformRefreshArgs {
if u.performRefreshArgs == nil {
u.performRefreshArgs = make([]*PerformRefreshArgs, 0)
}
return u.performRefreshArgs[call]
}
func (u *TestUpstreamOIDCIdentityProvider) RevokeRefreshTokenCallCount() int {
return u.performRefreshCallCount
}
func (u *TestUpstreamOIDCIdentityProvider) RevokeRefreshTokenArgs(call int) *RevokeRefreshTokenArgs {
if u.revokeRefreshTokenArgs == nil {
u.revokeRefreshTokenArgs = make([]*RevokeRefreshTokenArgs, 0)
}
return u.revokeRefreshTokenArgs[call]
}
func (u *TestUpstreamOIDCIdentityProvider) ValidateTokenAndMergeWithUserInfo(ctx context.Context, tok *oauth2.Token, expectedIDTokenNonce nonce.Nonce, requireIDToken bool) (*oidctypes.Token, error) {
if u.validateTokenArgs == nil {
u.validateTokenArgs = make([]*ValidateTokenArgs, 0)
}
u.validateTokenCallCount++
u.validateTokenArgs = append(u.validateTokenArgs, &ValidateTokenArgs{
Ctx: ctx,
Tok: tok,
ExpectedIDTokenNonce: expectedIDTokenNonce,
})
return u.ValidateTokenFunc(ctx, tok, expectedIDTokenNonce)
}
func (u *TestUpstreamOIDCIdentityProvider) ValidateTokenCallCount() int {
return u.validateTokenCallCount
}
func (u *TestUpstreamOIDCIdentityProvider) ValidateTokenArgs(call int) *ValidateTokenArgs {
if u.validateTokenArgs == nil {
u.validateTokenArgs = make([]*ValidateTokenArgs, 0)
}
return u.validateTokenArgs[call]
}
type UpstreamIDPListerBuilder struct {
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upstreamOIDCIdentityProviders []*TestUpstreamOIDCIdentityProvider
upstreamLDAPIdentityProviders []*TestUpstreamLDAPIdentityProvider
upstreamActiveDirectoryIdentityProviders []*TestUpstreamLDAPIdentityProvider
}
func (b *UpstreamIDPListerBuilder) WithOIDC(upstreamOIDCIdentityProviders ...*TestUpstreamOIDCIdentityProvider) *UpstreamIDPListerBuilder {
b.upstreamOIDCIdentityProviders = append(b.upstreamOIDCIdentityProviders, upstreamOIDCIdentityProviders...)
return b
}
func (b *UpstreamIDPListerBuilder) WithLDAP(upstreamLDAPIdentityProviders ...*TestUpstreamLDAPIdentityProvider) *UpstreamIDPListerBuilder {
b.upstreamLDAPIdentityProviders = append(b.upstreamLDAPIdentityProviders, upstreamLDAPIdentityProviders...)
return b
}
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func (b *UpstreamIDPListerBuilder) WithActiveDirectory(upstreamActiveDirectoryIdentityProviders ...*TestUpstreamLDAPIdentityProvider) *UpstreamIDPListerBuilder {
b.upstreamActiveDirectoryIdentityProviders = append(b.upstreamActiveDirectoryIdentityProviders, upstreamActiveDirectoryIdentityProviders...)
return b
}
func (b *UpstreamIDPListerBuilder) Build() provider.DynamicUpstreamIDPProvider {
idpProvider := provider.NewDynamicUpstreamIDPProvider()
oidcUpstreams := make([]provider.UpstreamOIDCIdentityProviderI, len(b.upstreamOIDCIdentityProviders))
for i := range b.upstreamOIDCIdentityProviders {
oidcUpstreams[i] = provider.UpstreamOIDCIdentityProviderI(b.upstreamOIDCIdentityProviders[i])
}
idpProvider.SetOIDCIdentityProviders(oidcUpstreams)
ldapUpstreams := make([]provider.UpstreamLDAPIdentityProviderI, len(b.upstreamLDAPIdentityProviders))
for i := range b.upstreamLDAPIdentityProviders {
ldapUpstreams[i] = provider.UpstreamLDAPIdentityProviderI(b.upstreamLDAPIdentityProviders[i])
}
idpProvider.SetLDAPIdentityProviders(ldapUpstreams)
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adUpstreams := make([]provider.UpstreamLDAPIdentityProviderI, len(b.upstreamActiveDirectoryIdentityProviders))
for i := range b.upstreamActiveDirectoryIdentityProviders {
adUpstreams[i] = provider.UpstreamLDAPIdentityProviderI(b.upstreamActiveDirectoryIdentityProviders[i])
}
idpProvider.SetActiveDirectoryIdentityProviders(adUpstreams)
return idpProvider
}
func (b *UpstreamIDPListerBuilder) RequireExactlyOneCallToPasswordCredentialsGrantAndValidateTokens(
t *testing.T,
expectedPerformedByUpstreamName string,
expectedArgs *PasswordCredentialsGrantAndValidateTokensArgs,
) {
t.Helper()
var actualArgs *PasswordCredentialsGrantAndValidateTokensArgs
var actualNameOfUpstreamWhichMadeCall string
actualCallCountAcrossAllOIDCUpstreams := 0
for _, upstreamOIDC := range b.upstreamOIDCIdentityProviders {
callCountOnThisUpstream := upstreamOIDC.passwordCredentialsGrantAndValidateTokensCallCount
actualCallCountAcrossAllOIDCUpstreams += callCountOnThisUpstream
if callCountOnThisUpstream == 1 {
actualNameOfUpstreamWhichMadeCall = upstreamOIDC.Name
actualArgs = upstreamOIDC.passwordCredentialsGrantAndValidateTokensArgs[0]
}
}
require.Equal(t, 1, actualCallCountAcrossAllOIDCUpstreams,
"should have been exactly one call to PasswordCredentialsGrantAndValidateTokens() by all OIDC upstreams",
)
require.Equal(t, expectedPerformedByUpstreamName, actualNameOfUpstreamWhichMadeCall,
"PasswordCredentialsGrantAndValidateTokens() was called on the wrong OIDC upstream",
)
require.Equal(t, expectedArgs, actualArgs)
}
func (b *UpstreamIDPListerBuilder) RequireExactlyZeroCallsToPasswordCredentialsGrantAndValidateTokens(t *testing.T) {
t.Helper()
actualCallCountAcrossAllOIDCUpstreams := 0
for _, upstreamOIDC := range b.upstreamOIDCIdentityProviders {
actualCallCountAcrossAllOIDCUpstreams += upstreamOIDC.passwordCredentialsGrantAndValidateTokensCallCount
}
require.Equal(t, 0, actualCallCountAcrossAllOIDCUpstreams,
"expected exactly zero calls to PasswordCredentialsGrantAndValidateTokens()",
)
}
func (b *UpstreamIDPListerBuilder) RequireExactlyOneCallToExchangeAuthcodeAndValidateTokens(
t *testing.T,
expectedPerformedByUpstreamName string,
expectedArgs *ExchangeAuthcodeAndValidateTokenArgs,
) {
t.Helper()
var actualArgs *ExchangeAuthcodeAndValidateTokenArgs
var actualNameOfUpstreamWhichMadeCall string
actualCallCountAcrossAllOIDCUpstreams := 0
for _, upstreamOIDC := range b.upstreamOIDCIdentityProviders {
callCountOnThisUpstream := upstreamOIDC.exchangeAuthcodeAndValidateTokensCallCount
actualCallCountAcrossAllOIDCUpstreams += callCountOnThisUpstream
if callCountOnThisUpstream == 1 {
actualNameOfUpstreamWhichMadeCall = upstreamOIDC.Name
actualArgs = upstreamOIDC.exchangeAuthcodeAndValidateTokensArgs[0]
}
}
require.Equal(t, 1, actualCallCountAcrossAllOIDCUpstreams,
"should have been exactly one call to ExchangeAuthcodeAndValidateTokens() by all OIDC upstreams",
)
require.Equal(t, expectedPerformedByUpstreamName, actualNameOfUpstreamWhichMadeCall,
"ExchangeAuthcodeAndValidateTokens() was called on the wrong OIDC upstream",
)
require.Equal(t, expectedArgs, actualArgs)
}
func (b *UpstreamIDPListerBuilder) RequireExactlyZeroCallsToExchangeAuthcodeAndValidateTokens(t *testing.T) {
t.Helper()
actualCallCountAcrossAllOIDCUpstreams := 0
for _, upstreamOIDC := range b.upstreamOIDCIdentityProviders {
actualCallCountAcrossAllOIDCUpstreams += upstreamOIDC.exchangeAuthcodeAndValidateTokensCallCount
}
require.Equal(t, 0, actualCallCountAcrossAllOIDCUpstreams,
"expected exactly zero calls to ExchangeAuthcodeAndValidateTokens()",
)
}
func (b *UpstreamIDPListerBuilder) RequireExactlyOneCallToPerformRefresh(
t *testing.T,
expectedPerformedByUpstreamName string,
expectedArgs *PerformRefreshArgs,
) {
t.Helper()
var actualArgs *PerformRefreshArgs
var actualNameOfUpstreamWhichMadeCall string
actualCallCountAcrossAllUpstreams := 0
for _, upstreamOIDC := range b.upstreamOIDCIdentityProviders {
callCountOnThisUpstream := upstreamOIDC.performRefreshCallCount
actualCallCountAcrossAllUpstreams += callCountOnThisUpstream
if callCountOnThisUpstream == 1 {
actualNameOfUpstreamWhichMadeCall = upstreamOIDC.Name
actualArgs = upstreamOIDC.performRefreshArgs[0]
}
}
for _, upstreamLDAP := range b.upstreamLDAPIdentityProviders {
callCountOnThisUpstream := upstreamLDAP.performRefreshCallCount
actualCallCountAcrossAllUpstreams += callCountOnThisUpstream
if callCountOnThisUpstream == 1 {
actualNameOfUpstreamWhichMadeCall = upstreamLDAP.Name
actualArgs = upstreamLDAP.performRefreshArgs[0]
}
}
for _, upstreamAD := range b.upstreamActiveDirectoryIdentityProviders {
callCountOnThisUpstream := upstreamAD.performRefreshCallCount
actualCallCountAcrossAllUpstreams += callCountOnThisUpstream
if callCountOnThisUpstream == 1 {
actualNameOfUpstreamWhichMadeCall = upstreamAD.Name
actualArgs = upstreamAD.performRefreshArgs[0]
}
}
require.Equal(t, 1, actualCallCountAcrossAllUpstreams,
"should have been exactly one call to PerformRefresh() by all upstreams",
)
require.Equal(t, expectedPerformedByUpstreamName, actualNameOfUpstreamWhichMadeCall,
"PerformRefresh() was called on the wrong upstream",
)
require.Equal(t, expectedArgs, actualArgs)
}
func (b *UpstreamIDPListerBuilder) RequireExactlyZeroCallsToPerformRefresh(t *testing.T) {
t.Helper()
actualCallCountAcrossAllUpstreams := 0
for _, upstreamOIDC := range b.upstreamOIDCIdentityProviders {
actualCallCountAcrossAllUpstreams += upstreamOIDC.performRefreshCallCount
}
for _, upstreamLDAP := range b.upstreamLDAPIdentityProviders {
actualCallCountAcrossAllUpstreams += upstreamLDAP.performRefreshCallCount
}
for _, upstreamActiveDirectory := range b.upstreamActiveDirectoryIdentityProviders {
actualCallCountAcrossAllUpstreams += upstreamActiveDirectory.performRefreshCallCount
}
require.Equal(t, 0, actualCallCountAcrossAllUpstreams,
"expected exactly zero calls to PerformRefresh()",
)
}
func (b *UpstreamIDPListerBuilder) RequireExactlyOneCallToValidateToken(
t *testing.T,
expectedPerformedByUpstreamName string,
expectedArgs *ValidateTokenArgs,
) {
t.Helper()
var actualArgs *ValidateTokenArgs
var actualNameOfUpstreamWhichMadeCall string
actualCallCountAcrossAllOIDCUpstreams := 0
for _, upstreamOIDC := range b.upstreamOIDCIdentityProviders {
callCountOnThisUpstream := upstreamOIDC.validateTokenCallCount
actualCallCountAcrossAllOIDCUpstreams += callCountOnThisUpstream
if callCountOnThisUpstream == 1 {
actualNameOfUpstreamWhichMadeCall = upstreamOIDC.Name
actualArgs = upstreamOIDC.validateTokenArgs[0]
}
}
require.Equal(t, 1, actualCallCountAcrossAllOIDCUpstreams,
"should have been exactly one call to ValidateTokenAndMergeWithUserInfo() by all OIDC upstreams",
)
require.Equal(t, expectedPerformedByUpstreamName, actualNameOfUpstreamWhichMadeCall,
"ValidateTokenAndMergeWithUserInfo() was called on the wrong OIDC upstream",
)
require.Equal(t, expectedArgs, actualArgs)
}
func (b *UpstreamIDPListerBuilder) RequireExactlyZeroCallsToValidateToken(t *testing.T) {
t.Helper()
actualCallCountAcrossAllOIDCUpstreams := 0
for _, upstreamOIDC := range b.upstreamOIDCIdentityProviders {
actualCallCountAcrossAllOIDCUpstreams += upstreamOIDC.validateTokenCallCount
}
require.Equal(t, 0, actualCallCountAcrossAllOIDCUpstreams,
"expected exactly zero calls to ValidateTokenAndMergeWithUserInfo()",
)
}
func (b *UpstreamIDPListerBuilder) RequireExactlyOneCallToRevokeRefreshToken(
t *testing.T,
expectedPerformedByUpstreamName string,
expectedArgs *RevokeRefreshTokenArgs,
) {
t.Helper()
var actualArgs *RevokeRefreshTokenArgs
var actualNameOfUpstreamWhichMadeCall string
actualCallCountAcrossAllOIDCUpstreams := 0
for _, upstreamOIDC := range b.upstreamOIDCIdentityProviders {
callCountOnThisUpstream := upstreamOIDC.revokeRefreshTokenCallCount
actualCallCountAcrossAllOIDCUpstreams += callCountOnThisUpstream
if callCountOnThisUpstream == 1 {
actualNameOfUpstreamWhichMadeCall = upstreamOIDC.Name
actualArgs = upstreamOIDC.revokeRefreshTokenArgs[0]
}
}
require.Equal(t, 1, actualCallCountAcrossAllOIDCUpstreams,
"should have been exactly one call to RevokeRefreshToken() by all OIDC upstreams",
)
require.Equal(t, expectedPerformedByUpstreamName, actualNameOfUpstreamWhichMadeCall,
"RevokeRefreshToken() was called on the wrong OIDC upstream",
)
require.Equal(t, expectedArgs, actualArgs)
}
func (b *UpstreamIDPListerBuilder) RequireExactlyZeroCallsToRevokeRefreshToken(t *testing.T) {
t.Helper()
actualCallCountAcrossAllOIDCUpstreams := 0
for _, upstreamOIDC := range b.upstreamOIDCIdentityProviders {
actualCallCountAcrossAllOIDCUpstreams += upstreamOIDC.revokeRefreshTokenCallCount
}
require.Equal(t, 0, actualCallCountAcrossAllOIDCUpstreams,
"expected exactly zero calls to RevokeRefreshToken()",
)
}
func NewUpstreamIDPListerBuilder() *UpstreamIDPListerBuilder {
return &UpstreamIDPListerBuilder{}
}
type TestUpstreamOIDCIdentityProviderBuilder struct {
name string
resourceUID types.UID
clientID string
scopes []string
idToken map[string]interface{}
refreshToken *oidctypes.RefreshToken
accessToken *oidctypes.AccessToken
usernameClaim string
groupsClaim string
refreshedTokens *oauth2.Token
validatedTokens *oidctypes.Token
authorizationURL url.URL
hasUserInfoURL bool
additionalAuthcodeParams map[string]string
allowPasswordGrant bool
authcodeExchangeErr error
passwordGrantErr error
performRefreshErr error
revokeRefreshTokenErr error
validateTokenErr error
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithName(value string) *TestUpstreamOIDCIdentityProviderBuilder {
u.name = value
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithResourceUID(value types.UID) *TestUpstreamOIDCIdentityProviderBuilder {
u.resourceUID = value
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithClientID(value string) *TestUpstreamOIDCIdentityProviderBuilder {
u.clientID = value
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithAuthorizationURL(value url.URL) *TestUpstreamOIDCIdentityProviderBuilder {
u.authorizationURL = value
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithUserInfoURL() *TestUpstreamOIDCIdentityProviderBuilder {
u.hasUserInfoURL = true
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithoutUserInfoURL() *TestUpstreamOIDCIdentityProviderBuilder {
u.hasUserInfoURL = false
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithAllowPasswordGrant(value bool) *TestUpstreamOIDCIdentityProviderBuilder {
u.allowPasswordGrant = value
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithScopes(values []string) *TestUpstreamOIDCIdentityProviderBuilder {
u.scopes = values
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithUsernameClaim(value string) *TestUpstreamOIDCIdentityProviderBuilder {
u.usernameClaim = value
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithoutUsernameClaim() *TestUpstreamOIDCIdentityProviderBuilder {
u.usernameClaim = ""
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithGroupsClaim(value string) *TestUpstreamOIDCIdentityProviderBuilder {
u.groupsClaim = value
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithoutGroupsClaim() *TestUpstreamOIDCIdentityProviderBuilder {
u.groupsClaim = ""
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithIDTokenClaim(name string, value interface{}) *TestUpstreamOIDCIdentityProviderBuilder {
if u.idToken == nil {
u.idToken = map[string]interface{}{}
}
u.idToken[name] = value
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithoutIDTokenClaim(claim string) *TestUpstreamOIDCIdentityProviderBuilder {
delete(u.idToken, claim)
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithAdditionalAuthcodeParams(params map[string]string) *TestUpstreamOIDCIdentityProviderBuilder {
u.additionalAuthcodeParams = params
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithRefreshToken(token string) *TestUpstreamOIDCIdentityProviderBuilder {
u.refreshToken = &oidctypes.RefreshToken{Token: token}
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithEmptyRefreshToken() *TestUpstreamOIDCIdentityProviderBuilder {
u.refreshToken = &oidctypes.RefreshToken{Token: ""}
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithoutRefreshToken() *TestUpstreamOIDCIdentityProviderBuilder {
u.refreshToken = nil
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithAccessToken(token string) *TestUpstreamOIDCIdentityProviderBuilder {
u.accessToken = &oidctypes.AccessToken{Token: token}
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithEmptyAccessToken() *TestUpstreamOIDCIdentityProviderBuilder {
u.accessToken = &oidctypes.AccessToken{Token: ""}
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithoutAccessToken() *TestUpstreamOIDCIdentityProviderBuilder {
u.accessToken = nil
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithUpstreamAuthcodeExchangeError(err error) *TestUpstreamOIDCIdentityProviderBuilder {
u.authcodeExchangeErr = err
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithPasswordGrantError(err error) *TestUpstreamOIDCIdentityProviderBuilder {
u.passwordGrantErr = err
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithRefreshedTokens(tokens *oauth2.Token) *TestUpstreamOIDCIdentityProviderBuilder {
u.refreshedTokens = tokens
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithPerformRefreshError(err error) *TestUpstreamOIDCIdentityProviderBuilder {
u.performRefreshErr = err
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithValidatedTokens(tokens *oidctypes.Token) *TestUpstreamOIDCIdentityProviderBuilder {
u.validatedTokens = tokens
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithValidateTokenError(err error) *TestUpstreamOIDCIdentityProviderBuilder {
u.validateTokenErr = err
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) WithRevokeRefreshTokenError(err error) *TestUpstreamOIDCIdentityProviderBuilder {
u.revokeRefreshTokenErr = err
return u
}
func (u *TestUpstreamOIDCIdentityProviderBuilder) Build() *TestUpstreamOIDCIdentityProvider {
return &TestUpstreamOIDCIdentityProvider{
Name: u.name,
ClientID: u.clientID,
ResourceUID: u.resourceUID,
UsernameClaim: u.usernameClaim,
GroupsClaim: u.groupsClaim,
Scopes: u.scopes,
AllowPasswordGrant: u.allowPasswordGrant,
AuthorizationURL: u.authorizationURL,
UserInfoURL: u.hasUserInfoURL,
AdditionalAuthcodeParams: u.additionalAuthcodeParams,
ExchangeAuthcodeAndValidateTokensFunc: func(ctx context.Context, authcode string, pkceCodeVerifier pkce.Code, expectedIDTokenNonce nonce.Nonce) (*oidctypes.Token, error) {
if u.authcodeExchangeErr != nil {
return nil, u.authcodeExchangeErr
}
return &oidctypes.Token{IDToken: &oidctypes.IDToken{Claims: u.idToken}, RefreshToken: u.refreshToken, AccessToken: u.accessToken}, nil
},
PasswordCredentialsGrantAndValidateTokensFunc: func(ctx context.Context, username, password string) (*oidctypes.Token, error) {
if u.passwordGrantErr != nil {
return nil, u.passwordGrantErr
}
return &oidctypes.Token{IDToken: &oidctypes.IDToken{Claims: u.idToken}, RefreshToken: u.refreshToken, AccessToken: u.accessToken}, nil
},
PerformRefreshFunc: func(ctx context.Context, refreshToken string) (*oauth2.Token, error) {
if u.performRefreshErr != nil {
return nil, u.performRefreshErr
}
return u.refreshedTokens, nil
},
RevokeRefreshTokenFunc: func(ctx context.Context, refreshToken string) error {
return u.revokeRefreshTokenErr
},
ValidateTokenFunc: func(ctx context.Context, tok *oauth2.Token, expectedIDTokenNonce nonce.Nonce) (*oidctypes.Token, error) {
if u.validateTokenErr != nil {
return nil, u.validateTokenErr
}
return u.validatedTokens, nil
},
}
}
func NewTestUpstreamOIDCIdentityProviderBuilder() *TestUpstreamOIDCIdentityProviderBuilder {
return &TestUpstreamOIDCIdentityProviderBuilder{}
}
// Declare a separate type from the production code to ensure that the state param's contents was serialized
// in the format that we expect, with the json keys that we expect, etc. This also ensure that the order of
// the serialized fields is the same, which doesn't really matter expect that we can make simpler equality
// assertions about the redirect URL in this test.
type ExpectedUpstreamStateParamFormat struct {
P string `json:"p"`
U string `json:"u"`
N string `json:"n"`
C string `json:"c"`
K string `json:"k"`
V string `json:"v"`
}
type staticKeySet struct {
publicKey crypto.PublicKey
}
func newStaticKeySet(publicKey crypto.PublicKey) coreosoidc.KeySet {
return &staticKeySet{publicKey}
}
func (s *staticKeySet) VerifySignature(_ context.Context, jwt string) ([]byte, error) {
jws, err := jose.ParseSigned(jwt)
if err != nil {
return nil, fmt.Errorf("oidc: malformed jwt: %w", err)
}
return jws.Verify(s.publicKey)
}
// VerifyECDSAIDToken verifies that the provided idToken was issued via the provided jwtSigningKey.
// It also performs some light validation on the claims, i.e., it makes sure the provided idToken
// has the provided issuer and clientID.
//
// Further validation can be done via callers via the returned coreosoidc.IDToken.
func VerifyECDSAIDToken(
t *testing.T,
issuer, clientID string,
jwtSigningKey *ecdsa.PrivateKey,
idToken string,
) *coreosoidc.IDToken {
t.Helper()
keySet := newStaticKeySet(jwtSigningKey.Public())
verifyConfig := coreosoidc.Config{ClientID: clientID, SupportedSigningAlgs: []string{coreosoidc.ES256}}
verifier := coreosoidc.NewVerifier(issuer, keySet, &verifyConfig)
token, err := verifier.Verify(context.Background(), idToken)
require.NoError(t, err)
return token
}
func RequireAuthCodeRegexpMatch(
t *testing.T,
actualContent string,
wantRegexp string,
kubeClient *fake.Clientset,
secretsClient v1.SecretInterface,
oauthStore fositestoragei.AllFositeStorage,
wantDownstreamGrantedScopes []string,
wantDownstreamIDTokenSubject string,
wantDownstreamIDTokenUsername string,
wantDownstreamIDTokenGroups []string,
wantDownstreamRequestedScopes []string,
wantDownstreamPKCEChallenge string,
wantDownstreamPKCEChallengeMethod string,
wantDownstreamNonce string,
wantDownstreamClientID string,
wantDownstreamRedirectURI string,
wantCustomSessionData *psession.CustomSessionData,
) {
t.Helper()
// Assert that Location header matches regular expression.
regex := regexp.MustCompile(wantRegexp)
submatches := regex.FindStringSubmatch(actualContent)
require.Lenf(t, submatches, 2, "no regexp match in actualContent: %", actualContent)
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)
// Several Secrets should have been created
expectedNumberOfCreatedSecrets := 2
if includesOpenIDScope(wantDownstreamGrantedScopes) {
expectedNumberOfCreatedSecrets++
}
require.Len(t, kubeClient.Actions(), expectedNumberOfCreatedSecrets)
// One authcode should have been stored.
testutil.RequireNumberOfSecretsMatchingLabelSelector(t, secretsClient, labels.Set{crud.SecretLabelKey: authorizationcode.TypeLabelValue}, 1)
storedRequestFromAuthcode, storedSessionFromAuthcode := validateAuthcodeStorage(
t,
oauthStore,
authcodeDataAndSignature[1], // Authcode store key is authcode signature
wantDownstreamGrantedScopes,
wantDownstreamIDTokenSubject,
wantDownstreamIDTokenUsername,
wantDownstreamIDTokenGroups,
wantDownstreamRequestedScopes,
wantDownstreamClientID,
wantDownstreamRedirectURI,
wantCustomSessionData,
)
// One PKCE should have been stored.
testutil.RequireNumberOfSecretsMatchingLabelSelector(t, secretsClient, labels.Set{crud.SecretLabelKey: pkce2.TypeLabelValue}, 1)
validatePKCEStorage(
t,
oauthStore,
authcodeDataAndSignature[1], // PKCE store key is authcode signature
storedRequestFromAuthcode,
storedSessionFromAuthcode,
wantDownstreamPKCEChallenge,
wantDownstreamPKCEChallengeMethod,
)
// One IDSession should have been stored, if the downstream actually requested the "openid" scope
if includesOpenIDScope(wantDownstreamGrantedScopes) {
testutil.RequireNumberOfSecretsMatchingLabelSelector(t, secretsClient, labels.Set{crud.SecretLabelKey: openidconnect.TypeLabelValue}, 1)
validateIDSessionStorage(
t,
oauthStore,
capturedAuthCode, // IDSession store key is full authcode
storedRequestFromAuthcode,
storedSessionFromAuthcode,
wantDownstreamNonce,
)
}
}
func includesOpenIDScope(scopes []string) bool {
for _, scope := range scopes {
if scope == "openid" {
return true
}
}
return false
}
func validateAuthcodeStorage(
t *testing.T,
oauthStore fositestoragei.AllFositeStorage,
storeKey string,
wantDownstreamGrantedScopes []string,
wantDownstreamIDTokenSubject string,
wantDownstreamIDTokenUsername string,
wantDownstreamIDTokenGroups []string,
wantDownstreamRequestedScopes []string,
wantDownstreamClientID string,
wantDownstreamRedirectURI string,
wantCustomSessionData *psession.CustomSessionData,
) (*fosite.Request, *psession.PinnipedSession) {
t.Helper()
const (
authCodeExpirationSeconds = 10 * 60 // Currently, we set our auth code expiration to 10 minutes
timeComparisonFudgeFactor = time.Second * 15
)
// 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.
require.ElementsMatch(t, wantDownstreamGrantedScopes, storedRequestFromAuthcode.GetGrantedScopes())
// Check all the other fields of the stored request.
require.NotEmpty(t, storedRequestFromAuthcode.ID)
require.Equal(t, wantDownstreamClientID, 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{wantDownstreamRedirectURI}}, 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.Fosite.Subject)
require.Empty(t, storedSessionFromAuthcode.Fosite.Username)
require.Empty(t, storedSessionFromAuthcode.Fosite.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(authCodeExpirationSeconds*time.Second), storedSessionFromAuthcode.Fosite.ExpiresAt[fosite.AuthorizeCode], timeComparisonFudgeFactor)
require.Len(t, storedSessionFromAuthcode.Fosite.ExpiresAt, 1)
// Now confirm the ID token claims.
actualClaims := storedSessionFromAuthcode.Fosite.Claims
// Check the user's identity, which are put into the downstream ID token's subject, username and groups claims.
require.Equal(t, wantDownstreamIDTokenSubject, actualClaims.Subject)
require.Equal(t, wantDownstreamIDTokenUsername, actualClaims.Extra["username"])
require.Len(t, actualClaims.Extra, 2)
actualDownstreamIDTokenGroups := actualClaims.Extra["groups"]
require.NotNil(t, actualDownstreamIDTokenGroups)
require.ElementsMatch(t, wantDownstreamIDTokenGroups, actualDownstreamIDTokenGroups)
// 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)
Update all deps to latest where possible, bump Kube deps to v0.23.1 Highlights from this dep bump: 1. Made a copy of the v0.4.0 github.com/go-logr/stdr implementation for use in tests. We must bump this dep as Kube code uses a newer version now. We would have to rewrite hundreds of test log assertions without this copy. 2. Use github.com/felixge/httpsnoop to undo the changes made by ory/fosite#636 for CLI based login flows. This is required for backwards compatibility with older versions of our CLI. A separate change after this will update the CLI to be more flexible (it is purposefully not part of this change to confirm that we did not break anything). For all browser login flows, we now redirect using http.StatusSeeOther instead of http.StatusFound. 3. Drop plog.RemoveKlogGlobalFlags as klog no longer mutates global process flags 4. Only bump github.com/ory/x to v0.0.297 instead of the latest v0.0.321 because v0.0.298+ pulls in a newer version of go.opentelemetry.io/otel/semconv which breaks k8s.io/apiserver. We should update k8s.io/apiserver to use the newer code. 5. Migrate all code from k8s.io/apimachinery/pkg/util/clock to k8s.io/utils/clock and k8s.io/utils/clock/testing 6. Delete testutil.NewDeleteOptionsRecorder and migrate to the new kubetesting.NewDeleteActionWithOptions 7. Updated ExpectedAuthorizeCodeSessionJSONFromFuzzing caused by fosite's new rotated_secrets OAuth client field. This new field is currently not relevant to us as we have no private clients. Signed-off-by: Monis Khan <mok@vmware.com>
2021-12-10 22:22:36 +00:00
require.Empty(t, actualClaims.AuthenticationMethodsReferences)
// Check that the custom Pinniped session data matches.
require.Equal(t, wantCustomSessionData, storedSessionFromAuthcode.Custom)
return storedRequestFromAuthcode, storedSessionFromAuthcode
}
func validatePKCEStorage(
t *testing.T,
oauthStore fositestoragei.AllFositeStorage,
storeKey string,
storedRequestFromAuthcode *fosite.Request,
storedSessionFromAuthcode *psession.PinnipedSession,
wantDownstreamPKCEChallenge, wantDownstreamPKCEChallengeMethod string,
) {
t.Helper()
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 fositestoragei.AllFositeStorage,
storeKey string,
storedRequestFromAuthcode *fosite.Request,
storedSessionFromAuthcode *psession.PinnipedSession,
wantDownstreamNonce string,
) {
t.Helper()
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"))
}
func castStoredAuthorizeRequest(t *testing.T, storedAuthorizeRequest fosite.Requester) (*fosite.Request, *psession.PinnipedSession) {
t.Helper()
storedRequest, ok := storedAuthorizeRequest.(*fosite.Request)
require.Truef(t, ok, "could not cast %T to %T", storedAuthorizeRequest, &fosite.Request{})
storedSession, ok := storedAuthorizeRequest.GetSession().(*psession.PinnipedSession)
require.Truef(t, ok, "could not cast %T to %T", storedAuthorizeRequest.GetSession(), &psession.PinnipedSession{})
return storedRequest, storedSession
}