open-vault/vault/identity_store_oidc_test.go

1722 lines
51 KiB
Go

// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
package vault
import (
"context"
"encoding/json"
"strconv"
"strings"
"testing"
"time"
"github.com/go-jose/go-jose/v3"
"github.com/go-jose/go-jose/v3/jwt"
"github.com/go-test/deep"
"github.com/hashicorp/go-hclog"
"github.com/hashicorp/vault/helper/identity"
"github.com/hashicorp/vault/helper/namespace"
"github.com/hashicorp/vault/sdk/framework"
"github.com/hashicorp/vault/sdk/logical"
gocache "github.com/patrickmn/go-cache"
)
// TestOIDC_Path_OIDC_RoleNoKeyParameter tests that a role cannot be created
// without a key parameter
func TestOIDC_Path_OIDC_RoleNoKeyParameter(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
// Create a test role "test-role1" without a key param -- should fail
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role1",
Operation: logical.CreateOperation,
Storage: storage,
})
expectError(t, resp, err)
// validate error message
expectedStrings := map[string]interface{}{
"the key parameter is required": true,
}
expectStrings(t, []string{resp.Data["error"].(string)}, expectedStrings)
}
// TestOIDC_Path_OIDC_RoleNilKeyEntry tests that a role cannot be created when
// a key parameter is provided but the key does not exist
func TestOIDC_Path_OIDC_RoleNilKeyEntry(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
// Create a test role "test-role1" with a non-existent key -- should fail
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role1",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"key": "test-key",
},
Storage: storage,
})
expectError(t, resp, err)
// validate error message
expectedStrings := map[string]interface{}{
"cannot find key \"test-key\"": true,
}
expectStrings(t, []string{resp.Data["error"].(string)}, expectedStrings)
}
// TestOIDC_Path_OIDCRole_UpdateNoKey test that we cannot update a role without
// prividing a key param
func TestOIDC_Path_OIDCRole_UpdateNoKey(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
// Create a test key "test-key"
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"verification_ttl": "2m",
"rotation_period": "2m",
},
Storage: storage,
})
// Create a test role "test-role1" with a valid key -- should succeed
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role1",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"key": "test-key",
"ttl": "1m",
},
Storage: storage,
})
expectSuccess(t, resp, err)
// Update "test-role1" without prividing a key param -- should succeed
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role1",
Operation: logical.UpdateOperation,
Data: map[string]interface{}{
"ttl": "2m",
},
Storage: storage,
})
expectSuccess(t, resp, err)
// Read "test-role1" again and validate
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role1",
Operation: logical.ReadOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
expected := map[string]interface{}{
"key": "test-key",
"ttl": int64(120),
"template": "",
"client_id": resp.Data["client_id"],
}
if diff := deep.Equal(expected, resp.Data); diff != nil {
t.Fatal(diff)
}
}
// TestOIDC_Path_OIDCRole_UpdateEmptyKey test that we cannot update a role with an
// empty key
func TestOIDC_Path_OIDCRole_UpdateEmptyKey(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
// Create a test key "test-key"
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.CreateOperation,
Storage: storage,
})
// Create a test role "test-role1" with a valid key -- should succeed
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role1",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"key": "test-key",
},
Storage: storage,
})
expectSuccess(t, resp, err)
// Update "test-role1" with valid parameters -- should fail
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role1",
Operation: logical.UpdateOperation,
Data: map[string]interface{}{
"key": "",
},
Storage: storage,
})
expectError(t, resp, err)
// Read "test-role1" again and validate
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role1",
Operation: logical.ReadOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
expected := map[string]interface{}{
"key": "test-key",
"ttl": int64(86400),
"template": "",
"client_id": resp.Data["client_id"],
}
if diff := deep.Equal(expected, resp.Data); diff != nil {
t.Fatal(diff)
}
}
// TestOIDC_Path_OIDCRoleRole tests CRUD operations for roles
func TestOIDC_Path_OIDCRoleRole(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
// Create a test key "test-key"
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.CreateOperation,
Storage: storage,
})
// Create a test role "test-role1" with a valid key -- should succeed with warning
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role1",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"key": "test-key",
},
Storage: storage,
})
expectSuccess(t, resp, err)
// Read "test-role1" and validate
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role1",
Operation: logical.ReadOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
expected := map[string]interface{}{
"key": "test-key",
"ttl": int64(86400),
"template": "",
"client_id": resp.Data["client_id"],
}
if diff := deep.Equal(expected, resp.Data); diff != nil {
t.Fatal(diff)
}
// Update "test-role1" with valid parameters -- should succeed
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role1",
Operation: logical.UpdateOperation,
Data: map[string]interface{}{
"template": "{\"some-key\":\"some-value\"}",
"ttl": "2h",
"client_id": "my_custom_id",
},
Storage: storage,
})
expectSuccess(t, resp, err)
// Read "test-role1" again and validate
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role1",
Operation: logical.ReadOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
expected = map[string]interface{}{
"key": "test-key",
"ttl": int64(7200),
"template": "{\"some-key\":\"some-value\"}",
"client_id": "my_custom_id",
}
if diff := deep.Equal(expected, resp.Data); diff != nil {
t.Fatal(diff)
}
// Delete "test-role1"
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role1",
Operation: logical.DeleteOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
// Read "test-role1"
respReadTestRole1AfterDelete, err3 := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role1",
Operation: logical.ReadOperation,
Storage: storage,
})
// Ensure that "test-role1" has been deleted
expectSuccess(t, respReadTestRole1AfterDelete, err3)
if respReadTestRole1AfterDelete != nil {
t.Fatalf("Expected a nil response but instead got:\n%#v", respReadTestRole1AfterDelete)
}
if respReadTestRole1AfterDelete != nil {
t.Fatalf("Expected role to have been deleted but read response was:\n%#v", respReadTestRole1AfterDelete)
}
}
// TestOIDC_Path_OIDCRole_InvalidTokenTTL tests the TokenTTL validation
func TestOIDC_Path_OIDCRole_InvalidTokenTTL(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
// Create a test key "test-key"
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"verification_ttl": int64(60),
},
Storage: storage,
})
// Create a test role "test-role1" with a ttl longer than the
// verification_ttl -- should fail with error
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role1",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"key": "test-key",
"ttl": int64(3600),
},
Storage: storage,
})
expectError(t, resp, err)
// Read "test-role1"
respReadTestRole1, err3 := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role1",
Operation: logical.ReadOperation,
Storage: storage,
})
// Ensure that "test-role1" was not created
expectSuccess(t, respReadTestRole1, err3)
if respReadTestRole1 != nil {
t.Fatalf("Expected a nil response but instead got:\n%#v", respReadTestRole1)
}
}
// TestOIDC_Path_OIDCRole tests the List operation for roles
func TestOIDC_Path_OIDCRole(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
// Prepare two roles, test-role1 and test-role2
// Create a test key "test-key"
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"allowed_client_ids": "test-role1,test-role2",
},
Storage: storage,
})
// Create "test-role1"
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role1",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"key": "test-key",
},
Storage: storage,
})
// Create "test-role2"
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role2",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"key": "test-key",
},
Storage: storage,
})
// list roles
respListRole, listErr := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role",
Operation: logical.ListOperation,
Storage: storage,
})
expectSuccess(t, respListRole, listErr)
// validate list response
expectedStrings := map[string]interface{}{"test-role1": true, "test-role2": true}
expectStrings(t, respListRole.Data["keys"].([]string), expectedStrings)
// delete test-role2
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role2",
Operation: logical.DeleteOperation,
Storage: storage,
})
// list roles again and validate response
respListRoleAfterDelete, listErrAfterDelete := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role",
Operation: logical.ListOperation,
Storage: storage,
})
expectSuccess(t, respListRoleAfterDelete, listErrAfterDelete)
// validate list response
delete(expectedStrings, "test-role2")
expectStrings(t, respListRoleAfterDelete.Data["keys"].([]string), expectedStrings)
}
// TestOIDC_Path_OIDCKeyKey tests CRUD operations for keys
func TestOIDC_Path_OIDCKeyKey(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
// Create a test key "test-key" -- should succeed
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.CreateOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
// Read "test-key" and validate
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.ReadOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
expected := map[string]interface{}{
"rotation_period": int64(86400),
"verification_ttl": int64(86400),
"algorithm": "RS256",
"allowed_client_ids": []string{},
}
if diff := deep.Equal(expected, resp.Data); diff != nil {
t.Fatal(diff)
}
// Update "test-key" -- should succeed
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.UpdateOperation,
Data: map[string]interface{}{
"rotation_period": "10m",
"verification_ttl": "1h",
"allowed_client_ids": "allowed-test-role",
},
Storage: storage,
})
expectSuccess(t, resp, err)
// Read "test-key" again and validate
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.ReadOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
expected = map[string]interface{}{
"rotation_period": int64(600),
"verification_ttl": int64(3600),
"algorithm": "RS256",
"allowed_client_ids": []string{"allowed-test-role"},
}
if diff := deep.Equal(expected, resp.Data); diff != nil {
t.Fatal(diff)
}
// Create a role that depends on test key
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/allowed-test-role",
Operation: logical.UpdateOperation,
Data: map[string]interface{}{
"key": "test-key",
},
Storage: storage,
})
expectSuccess(t, resp, err)
// fmt.Printf("resp is:\n%#v", resp)
// Delete test-key -- should fail because test-role depends on test-key
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.DeleteOperation,
Storage: storage,
})
expectError(t, resp, err)
// validate error message
expectedStrings := map[string]interface{}{
"unable to delete key \"test-key\" because it is currently referenced by these roles: allowed-test-role": true,
}
expectStrings(t, []string{resp.Data["error"].(string)}, expectedStrings)
// Delete allowed-test-role
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/allowed-test-role",
Operation: logical.DeleteOperation,
Storage: storage,
})
// Delete test-key -- should succeed this time because no roles depend on test-key
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.DeleteOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
}
// TestOIDC_Path_OIDCKey_InvalidTokenTTL tests the TokenTTL validation
func TestOIDC_Path_OIDCKey_InvalidTokenTTL(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
// Create a test key "test-key" -- should succeed
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"verification_ttl": "4m",
},
Storage: storage,
})
expectSuccess(t, resp, err)
// Create a role that depends on test key
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/allowed-test-role",
Operation: logical.UpdateOperation,
Data: map[string]interface{}{
"key": "test-key",
"ttl": "4m",
},
Storage: storage,
})
expectSuccess(t, resp, err)
// Update "test-key" -- should fail since allowed-test-role ttl is less than 2m
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.UpdateOperation,
Data: map[string]interface{}{
"rotation_period": "10m",
"verification_ttl": "2m",
"allowed_client_ids": "allowed-test-role",
},
Storage: storage,
})
expectError(t, resp, err)
// Create a client that depends on test key
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/client/test-client",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"key": "test-key",
"id_token_ttl": "4m",
},
Storage: storage,
})
expectSuccess(t, resp, err)
// Update test key "test-key" -- should fail since id_token_ttl is greater than 2m
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.UpdateOperation,
Data: map[string]interface{}{
"verification_ttl": "2m",
},
Storage: storage,
})
expectError(t, resp, err)
}
// TestOIDC_Path_OIDCKey tests the List operation for keys
func TestOIDC_Path_OIDCKey(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
// Prepare two keys, test-key1 and test-key2
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key1",
Operation: logical.CreateOperation,
Storage: storage,
})
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key2",
Operation: logical.CreateOperation,
Storage: storage,
})
// list keys
respListKey, listErr := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key",
Operation: logical.ListOperation,
Storage: storage,
})
expectSuccess(t, respListKey, listErr)
// validate list response
expectedStrings := map[string]interface{}{"test-key1": true, "test-key2": true}
expectStrings(t, respListKey.Data["keys"].([]string), expectedStrings)
// delete test-key2
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key2",
Operation: logical.DeleteOperation,
Storage: storage,
})
// list keyes again and validate response
respListKeyAfterDelete, listErrAfterDelete := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key",
Operation: logical.ListOperation,
Storage: storage,
})
expectSuccess(t, respListKeyAfterDelete, listErrAfterDelete)
// validate list response
delete(expectedStrings, "test-key2")
expectStrings(t, respListKeyAfterDelete.Data["keys"].([]string), expectedStrings)
}
// TestOIDC_Path_OIDCKey_DeleteWithExistingClient tests that a key cannot be
// deleted if it is referenced by an existing client
func TestOIDC_Path_OIDCKey_DeleteWithExistingClient(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
// Prepare test key test-key
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.CreateOperation,
Storage: storage,
})
// Create a test client "test-client" -- should succeed
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/client/test-client",
Operation: logical.CreateOperation,
Storage: storage,
Data: map[string]interface{}{
"key": "test-key",
},
})
expectSuccess(t, resp, err)
// Delete test key "test-key" -- should fail
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.DeleteOperation,
Storage: storage,
})
expectError(t, resp, err)
}
// TestOIDC_PublicKeys_NoRole tests that public keys are not returned by the
// oidc/.well-known/keys endpoint when they are not associated with a role
func TestOIDC_PublicKeys_NoRole(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
s := &logical.InmemStorage{}
// Create a test key "test-key"
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.CreateOperation,
Storage: s,
})
expectSuccess(t, resp, err)
// .well-known/keys should contain 0 public keys
assertPublicKeyCount(t, ctx, s, c, 0)
}
func assertPublicKeyCount(t *testing.T, ctx context.Context, s logical.Storage, c *Core, keyCount int) {
t.Helper()
// .well-known/keys should contain keyCount public keys
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/.well-known/keys",
Operation: logical.ReadOperation,
Storage: s,
})
expectSuccess(t, resp, err)
assertRespPublicKeyCount(t, resp, keyCount)
}
func assertRespPublicKeyCount(t *testing.T, resp *logical.Response, keyCount int) {
t.Helper()
// parse response
responseJWKS := &jose.JSONWebKeySet{}
json.Unmarshal(resp.Data["http_raw_body"].([]byte), responseJWKS)
if len(responseJWKS.Keys) != keyCount {
t.Fatalf("expected %d public keys but instead got %d", keyCount, len(responseJWKS.Keys))
}
}
// TestOIDC_PublicKeys tests that public keys are updated by
// key creation, rotation, and deletion
func TestOIDC_PublicKeys(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
// Create a test key "test-key"
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.CreateOperation,
Storage: storage,
})
// Create a test role "test-role"
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"key": "test-key",
},
Storage: storage,
})
// .well-known/keys should contain 2 public keys
assertPublicKeyCount(t, ctx, storage, c, 2)
// rotate test-key a few times, each rotate should increase the length of public keys returned
// by the .well-known endpoint
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key/rotate",
Operation: logical.UpdateOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key/rotate",
Operation: logical.UpdateOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
// .well-known/keys should contain 4 public keys
assertPublicKeyCount(t, ctx, storage, c, 4)
// create another named key "test-key2"
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key2",
Operation: logical.CreateOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
// Create a test role "test-role2"
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role2",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"key": "test-key2",
},
Storage: storage,
})
expectSuccess(t, resp, err)
// .well-known/keys should contain 6 public keys
assertPublicKeyCount(t, ctx, storage, c, 6)
// delete test role that references "test-key"
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role",
Operation: logical.DeleteOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
// delete test key
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.DeleteOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
// .well-known/keys should contain 2 public keys, all of the public keys
// from named key "test-key" should have been deleted
assertPublicKeyCount(t, ctx, storage, c, 2)
}
// TestOIDC_PublicKeys tests that public keys are updated by
// key creation, rotation, and deletion
func TestOIDC_SharedPublicKeysByRoles(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
// Create a test key "test-key"
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.CreateOperation,
Storage: storage,
})
// Create a test role "test-role"
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"key": "test-key",
},
Storage: storage,
})
// Create a test role "test-role2"
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role2",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"key": "test-key",
},
Storage: storage,
})
// Create a test role "test-role3"
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role3",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"key": "test-key",
},
Storage: storage,
})
// .well-known/keys should contain 2 public keys
assertPublicKeyCount(t, ctx, storage, c, 2)
}
// TestOIDC_SignIDToken tests acquiring a signed token and verifying the public portion
// of the signing key
func TestOIDC_SignIDToken(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
// Create and load an entity, an entity is required to generate an ID token
testEntity := &identity.Entity{
Name: "test-entity-name",
ID: "test-entity-id",
BucketKey: "test-entity-bucket-key",
}
txn := c.identityStore.db.Txn(true)
defer txn.Abort()
err := c.identityStore.upsertEntityInTxn(ctx, txn, testEntity, nil, true)
if err != nil {
t.Fatal(err)
}
txn.Commit()
// Create a test key "test-key"
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"allowed_client_ids": "*",
},
Storage: storage,
})
// Create a test role "test-role" -- expect no warning
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"key": "test-key",
},
Storage: storage,
})
expectSuccess(t, resp, err)
if resp != nil {
t.Fatalf("was expecting a nil response but instead got: %#v", resp)
}
// Determine test-role's client_id
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role",
Operation: logical.ReadOperation,
Data: map[string]interface{}{
"allowed_client_ids": "",
},
Storage: storage,
})
expectSuccess(t, resp, err)
clientID := resp.Data["client_id"].(string)
// remove test-role as an allowed role from test-key
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"allowed_client_ids": "",
},
Storage: storage,
})
// Generate a token against the role "test-role" -- should fail
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/token/test-role",
Operation: logical.ReadOperation,
Storage: storage,
EntityID: "test-entity-id",
})
expectError(t, resp, err)
// validate error message
expectedStrings := map[string]interface{}{
"the key \"test-key\" does not list the client ID of the role \"test-role\" as an allowed client ID": true,
}
expectStrings(t, []string{resp.Data["error"].(string)}, expectedStrings)
// add test-role as an allowed role from test-key
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/test-key",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"allowed_client_ids": clientID,
},
Storage: storage,
})
// Generate a token against the role "test-role" -- should succeed
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/token/test-role",
Operation: logical.ReadOperation,
Storage: storage,
EntityID: "test-entity-id",
})
expectSuccess(t, resp, err)
parsedToken, err := jwt.ParseSigned(resp.Data["token"].(string))
if err != nil {
t.Fatalf("error parsing token: %s", err.Error())
}
// Acquire the public parts of the key that signed parsedToken
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/.well-known/keys",
Operation: logical.ReadOperation,
Storage: storage,
})
if err != nil {
t.Fatal(err)
}
responseJWKS := &jose.JSONWebKeySet{}
json.Unmarshal(resp.Data["http_raw_body"].([]byte), responseJWKS)
keyCount := len(responseJWKS.Keys)
errorCount := 0
for _, key := range responseJWKS.Keys {
// Validate the signature
claims := &jwt.Claims{}
if err := parsedToken.Claims(key, claims); err != nil {
t.Logf("unable to validate signed token, err:\n%#v", err)
errorCount += 1
}
}
if errorCount == keyCount {
t.Fatalf("unable to validate signed token with any of the .well-known keys")
}
}
// TestOIDC_SignIDToken_NilSigningKey tests that an error is returned when
// attempting to sign an ID token with a nil signing key
func TestOIDC_SignIDToken_NilSigningKey(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
// Create and load an entity, an entity is required to generate an ID token
testEntity := &identity.Entity{
Name: "test-entity-name",
ID: "test-entity-id",
BucketKey: "test-entity-bucket-key",
}
txn := c.identityStore.db.Txn(true)
defer txn.Abort()
err := c.identityStore.upsertEntityInTxn(ctx, txn, testEntity, nil, true)
if err != nil {
t.Fatal(err)
}
txn.Commit()
// Create a test key "test-key" with a nil SigningKey
namedKey := &namedKey{
name: "test-key",
AllowedClientIDs: []string{"*"},
Algorithm: "RS256",
VerificationTTL: 60 * time.Second,
RotationPeriod: 60 * time.Second,
KeyRing: nil,
SigningKey: nil,
NextSigningKey: nil,
NextRotation: time.Now(),
}
s := c.router.MatchingStorageByAPIPath(ctx, "identity/oidc")
if err := namedKey.generateAndSetNextKey(ctx, hclog.NewNullLogger(), s); err != nil {
t.Fatalf("failed to set next signing key")
}
// Store namedKey
entry, _ := logical.StorageEntryJSON(namedKeyConfigPath+namedKey.name, namedKey)
if err := s.Put(ctx, entry); err != nil {
t.Fatalf("writing to in mem storage failed")
}
// Create a test role "test-role" -- expect no warning
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/test-role",
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"key": "test-key",
"ttl": "1m",
},
Storage: s,
})
expectSuccess(t, resp, err)
if resp != nil {
t.Fatalf("was expecting a nil response but instead got: %#v", resp)
}
// Generate a token against the role "test-role" -- should fail
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/token/test-role",
Operation: logical.ReadOperation,
Storage: s,
EntityID: "test-entity-id",
})
expectError(t, resp, err)
// validate error message
expectedStrings := map[string]interface{}{
"error signing OIDC token: signing key is nil; rotate the key and try again": true,
}
expectStrings(t, []string{err.Error()}, expectedStrings)
}
func testNamedKey(name string) *namedKey {
return &namedKey{
name: name,
Algorithm: "RS256",
VerificationTTL: 1 * time.Second,
RotationPeriod: 2 * time.Second,
KeyRing: nil,
SigningKey: nil,
NextSigningKey: nil,
NextRotation: time.Now(),
}
}
// TestOIDC_PeriodicFunc tests timing logic for running key
// rotations and expiration actions.
func TestOIDC_PeriodicFunc(t *testing.T) {
type testCase struct {
cycle int
numKeys int
numPublicKeys int
}
testSets := []struct {
namedKey *namedKey
expectedKeyCount int
setSigningKey bool
setNextSigningKey bool
testCases []testCase
}{
{
namedKey: testNamedKey("test-key"),
setSigningKey: true,
setNextSigningKey: true,
testCases: []testCase{
{1, 2, 2},
{2, 2, 4},
{3, 2, 4},
{4, 2, 4},
},
},
{
// don't set SigningKey to ensure its non-existence can be handled
namedKey: testNamedKey("test-key-nil-signing-key"),
setSigningKey: false,
setNextSigningKey: true,
testCases: []testCase{
{1, 1, 2},
{2, 2, 4},
},
},
{
// don't set NextSigningKey to ensure its non-existence can be handled
namedKey: testNamedKey("test-key-nil-next-signing-key"),
setSigningKey: true,
setNextSigningKey: false,
testCases: []testCase{
{1, 1, 2},
{2, 2, 4},
},
},
{
// don't set keys to ensure non-existence can be handled
namedKey: testNamedKey("test-key-nil-signing-and-next-signing-key"),
setSigningKey: false,
setNextSigningKey: false,
testCases: []testCase{
{1, 0, 2},
{2, 2, 4},
},
},
}
for _, testSet := range testSets {
testSet := testSet
t.Run(testSet.namedKey.name, func(t *testing.T) {
t.Parallel()
// Prepare a storage to run through periodicFunc
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := c.router.MatchingStorageByAPIPath(ctx, "identity/oidc")
if testSet.setSigningKey {
if err := testSet.namedKey.generateAndSetKey(ctx, hclog.NewNullLogger(), storage); err != nil {
t.Fatalf("failed to set signing key")
}
}
if testSet.setNextSigningKey {
if err := testSet.namedKey.generateAndSetNextKey(ctx, hclog.NewNullLogger(), storage); err != nil {
t.Fatalf("failed to set next signing key")
}
}
testSet.namedKey.NextRotation = time.Now().Add(testSet.namedKey.RotationPeriod)
// Store namedKey
entry, _ := logical.StorageEntryJSON(namedKeyConfigPath+testSet.namedKey.name, testSet.namedKey)
if err := storage.Put(ctx, entry); err != nil {
t.Fatalf("writing to in mem storage failed")
}
currentCycle := 1
numCases := len(testSet.testCases)
lastCycle := testSet.testCases[numCases-1].cycle
namedKeySamples := make([]*logical.StorageEntry, numCases)
publicKeysSamples := make([][]string, numCases)
i := 0
for currentCycle <= lastCycle {
c.identityStore.oidcPeriodicFunc(ctx)
if currentCycle == testSet.testCases[i].cycle {
namedKeyEntry, _ := storage.Get(ctx, namedKeyConfigPath+testSet.namedKey.name)
publicKeysEntry, _ := storage.List(ctx, publicKeysConfigPath)
namedKeySamples[i] = namedKeyEntry
publicKeysSamples[i] = publicKeysEntry
i = i + 1
}
currentCycle = currentCycle + 1
// sleep until we are in the next cycle - where a next run will happen
v, _, _ := c.identityStore.oidcCache.Get(noNamespace, "nextRun")
nextRun := v.(time.Time)
now := time.Now()
diff := nextRun.Sub(now)
if now.Before(nextRun) {
time.Sleep(diff)
}
}
// measure collected samples
for i := range testSet.testCases {
expectedKeyCount := testSet.testCases[i].numKeys
namedKeySamples[i].DecodeJSON(&testSet.namedKey)
actualKeyRingLen := len(testSet.namedKey.KeyRing)
if actualKeyRingLen < expectedKeyCount {
t.Errorf(
"For key: %s at cycle: %d expected namedKey's KeyRing to be at least of length %d but was: %d",
testSet.namedKey.name,
testSet.testCases[i].cycle,
expectedKeyCount,
actualKeyRingLen,
)
}
expectedPublicKeyCount := testSet.testCases[i].numPublicKeys
actualPubKeysLen := len(publicKeysSamples[i])
if actualPubKeysLen < expectedPublicKeyCount {
t.Errorf(
"For key: %s at cycle: %d expected public keys to be at least of length %d but was: %d",
testSet.namedKey.name,
testSet.testCases[i].cycle,
expectedPublicKeyCount,
actualPubKeysLen,
)
}
}
if err := storage.Delete(ctx, namedKeyConfigPath+testSet.namedKey.name); err != nil {
t.Fatalf("deleting from in mem storage failed")
}
})
}
}
// TestOIDC_Config tests CRUD operations for configuring the OIDC backend
func TestOIDC_Config(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
testIssuer := "https://example.com:1234"
// Read Config - expect defaults
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/config",
Operation: logical.ReadOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
// issuer should not be set
if resp.Data["issuer"].(string) != "" {
t.Fatalf("Expected issuer to not be set but found %q instead", resp.Data["issuer"].(string))
}
// Update Config
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/config",
Operation: logical.UpdateOperation,
Storage: storage,
Data: map[string]interface{}{
"issuer": testIssuer,
},
})
expectSuccess(t, resp, err)
// Read Config - expect updated issuer value
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/config",
Operation: logical.ReadOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
// issuer should be set
if resp.Data["issuer"].(string) != testIssuer {
t.Fatalf("Expected issuer to be %q but found %q instead", testIssuer, resp.Data["issuer"].(string))
}
// Test bad issuers
for _, iss := range []string{"asldfk", "ftp://a.com", "a.com", "http://a.com/", "https://a.com/foo", "http:://a.com"} {
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/config",
Operation: logical.UpdateOperation,
Storage: storage,
Data: map[string]interface{}{
"issuer": iss,
},
})
if err != nil {
t.Fatal(err)
}
if resp == nil || !resp.IsError() {
t.Fatalf("Expected issuer %q to fail but it succeeded.", iss)
}
}
}
// TestOIDC_pathOIDCKeyExistenceCheck tests pathOIDCKeyExistenceCheck
func TestOIDC_pathOIDCKeyExistenceCheck(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
keyName := "test"
// Expect nil with empty storage
exists, err := c.identityStore.pathOIDCKeyExistenceCheck(
ctx,
&logical.Request{
Storage: storage,
},
&framework.FieldData{
Raw: map[string]interface{}{"name": keyName},
Schema: map[string]*framework.FieldSchema{
"name": {
Type: framework.TypeString,
},
},
},
)
if err != nil {
t.Fatalf("Error during existence check on an expected nil entry, err:\n%#v", err)
}
if exists {
t.Fatalf("Expected existence check to return false but instead returned: %t", exists)
}
// Populte storage with a namedKey
namedKey := &namedKey{}
entry, _ := logical.StorageEntryJSON(namedKeyConfigPath+keyName, namedKey)
if err := storage.Put(ctx, entry); err != nil {
t.Fatalf("writing to in mem storage failed")
}
// Expect true with a populated storage
exists, err = c.identityStore.pathOIDCKeyExistenceCheck(
ctx,
&logical.Request{
Storage: storage,
},
&framework.FieldData{
Raw: map[string]interface{}{"name": keyName},
Schema: map[string]*framework.FieldSchema{
"name": {
Type: framework.TypeString,
},
},
},
)
if err != nil {
t.Fatalf("Error during existence check on an expected nil entry, err:\n%#v", err)
}
if !exists {
t.Fatalf("Expected existence check to return true but instead returned: %t", exists)
}
}
// TestOIDC_pathOIDCRoleExistenceCheck tests pathOIDCRoleExistenceCheck
func TestOIDC_pathOIDCRoleExistenceCheck(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
roleName := "test"
// Expect nil with empty storage
exists, err := c.identityStore.pathOIDCRoleExistenceCheck(
ctx,
&logical.Request{
Storage: storage,
},
&framework.FieldData{
Raw: map[string]interface{}{"name": roleName},
Schema: map[string]*framework.FieldSchema{
"name": {
Type: framework.TypeString,
},
},
},
)
if err != nil {
t.Fatalf("Error during existence check on an expected nil entry, err:\n%#v", err)
}
if exists {
t.Fatalf("Expected existence check to return false but instead returned: %t", exists)
}
// Populate storage with a role
role := &role{}
entry, _ := logical.StorageEntryJSON(roleConfigPath+roleName, role)
if err := storage.Put(ctx, entry); err != nil {
t.Fatalf("writing to in mem storage failed")
}
// Expect true with a populated storage
exists, err = c.identityStore.pathOIDCRoleExistenceCheck(
ctx,
&logical.Request{
Storage: storage,
},
&framework.FieldData{
Raw: map[string]interface{}{"name": roleName},
Schema: map[string]*framework.FieldSchema{
"name": {
Type: framework.TypeString,
},
},
},
)
if err != nil {
t.Fatalf("Error during existence check on an expected nil entry, err:\n%#v", err)
}
if !exists {
t.Fatalf("Expected existence check to return true but instead returned: %t", exists)
}
}
// TestOIDC_Path_OpenIDConfig tests read operations for the openid-configuration path
func TestOIDC_Path_OpenIDConfig(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
// Expect defaults from .well-known/openid-configuration
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/.well-known/openid-configuration",
Operation: logical.ReadOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
// Validate configurable parts - for now just issuer
discoveryResp := &discovery{}
json.Unmarshal(resp.Data["http_raw_body"].([]byte), discoveryResp)
expected := "/v1/identity/oidc"
if discoveryResp.Issuer != expected {
t.Fatalf("Expected Issuer path to be %q but found %q instead", expected, discoveryResp.Issuer)
}
// Update issuer config
testIssuer := "https://example.com:1234"
c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/config",
Operation: logical.UpdateOperation,
Storage: storage,
Data: map[string]interface{}{
"issuer": testIssuer,
},
})
// Expect updates from .well-known/openid-configuration
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/.well-known/openid-configuration",
Operation: logical.ReadOperation,
Storage: storage,
})
expectSuccess(t, resp, err)
// Validate configurable parts - for now just issuer
json.Unmarshal(resp.Data["http_raw_body"].([]byte), discoveryResp)
expected = "https://example.com:1234/v1/identity/oidc"
if discoveryResp.Issuer != expected {
t.Fatalf("Expected Issuer path to be %q but found %q instead", expected, discoveryResp.Issuer)
}
}
// TestOIDC_Path_Introspect tests update operations on the introspect path
func TestOIDC_Path_Introspect(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
ctx := namespace.RootContext(nil)
storage := &logical.InmemStorage{}
// Expect active false and an error from a malformed token
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/introspect/",
Operation: logical.UpdateOperation,
Data: map[string]interface{}{
"token": "not-a-valid-token",
},
Storage: storage,
})
expectSuccess(t, resp, err)
type introspectResponse struct {
Active bool `json:"active"`
Error string `json:"error"`
}
iresp := &introspectResponse{}
json.Unmarshal(resp.Data["http_raw_body"].([]byte), iresp)
if iresp.Active {
t.Fatalf("expected active state of a malformed token to be false but what was found to be: %t", iresp.Active)
}
if iresp.Error == "" {
t.Fatalf("expected a malformed token to return an error message but instead returned %q", iresp.Error)
}
// Populate backend with a valid token ---
// Create and load an entity, an entity is required to generate an ID token
testEntity := &identity.Entity{
Name: "test-entity-name",
ID: "test-entity-id",
BucketKey: "test-entity-bucket-key",
}
txn := c.identityStore.db.Txn(true)
defer txn.Abort()
err = c.identityStore.upsertEntityInTxn(ctx, txn, testEntity, nil, true)
if err != nil {
t.Fatal(err)
}
txn.Commit()
for _, alg := range []string{"RS256", "RS384", "RS512", "ES256", "ES384", "ES512", "EdDSA"} {
key := "test-key-" + alg
role := "test-role-" + alg
// Create a test key "test-key"
resp, err := c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/key/" + key,
Operation: logical.CreateOperation,
Storage: storage,
Data: map[string]interface{}{
"algorithm": alg,
"allowed_client_ids": "*",
},
})
expectSuccess(t, resp, err)
// Create a test role "test-role"
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/role/" + role,
Operation: logical.CreateOperation,
Data: map[string]interface{}{
"key": key,
},
Storage: storage,
})
expectSuccess(t, resp, err)
// Generate a token against the role "test-role" -- should succeed
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/token/" + role,
Operation: logical.ReadOperation,
Storage: storage,
EntityID: "test-entity-id",
})
expectSuccess(t, resp, err)
validToken := resp.Data["token"].(string)
// Expect active true and no error from a valid token
resp, err = c.identityStore.HandleRequest(ctx, &logical.Request{
Path: "oidc/introspect/",
Operation: logical.UpdateOperation,
Data: map[string]interface{}{
"token": validToken,
},
Storage: storage,
})
expectSuccess(t, resp, err)
iresp2 := &introspectResponse{}
json.Unmarshal(resp.Data["http_raw_body"].([]byte), iresp2)
if !iresp2.Active {
t.Fatalf("expected active state of a valid token to be true but what was found to be: %t", iresp2.Active)
}
if iresp2.Error != "" {
t.Fatalf("expected a valid token to return an empty error message but instead got %q", iresp.Error)
}
}
}
func TestOIDC_isTargetNamespacedKey(t *testing.T) {
tests := []struct {
nsTargets []string
nskey string
expected bool
}{
{[]string{"nsid"}, "v0:nsid:key", true},
{[]string{"nsid"}, "v0:nsid:", true},
{[]string{"nsid"}, "v0:nsid", false},
{[]string{"nsid"}, "v0:", false},
{[]string{"nsid"}, "v0", false},
{[]string{"nsid"}, "", false},
{[]string{"nsid1"}, "v0:nsid2:key", false},
{[]string{"nsid1"}, "nsid1:nsid2:nsid1", false},
{[]string{"nsid1"}, "nsid1:nsid1:nsid1", true},
{[]string{"nsid"}, "nsid:nsid:nsid:nsid:nsid:nsid", true},
{[]string{"nsid"}, ":::", false},
{[]string{""}, ":::", true}, // "" is a valid key for cache.Set/Get
{[]string{"nsid1"}, "nsid0:nsid1:nsid0:nsid1:nsid0:nsid1", true},
{[]string{"nsid0"}, "nsid0:nsid1:nsid0:nsid1:nsid0:nsid1", false},
{[]string{"nsid0", "nsid1"}, "v0:nsid2:key", false},
{[]string{"nsid0", "nsid1", "nsid2", "nsid3", "nsid4"}, "v0:nsid3:key", true},
{[]string{"nsid0", "nsid1", "nsid2", "nsid3", "nsid4"}, "nsid0:nsid1:nsid2:nsid3:nsid4:nsid5", true},
{[]string{"nsid0", "nsid1", "nsid2", "nsid3", "nsid4"}, "nsid4:nsid5:nsid6:nsid7:nsid8:nsid9", false},
{[]string{"nsid0", "nsid0", "nsid0", "nsid0", "nsid0"}, "nsid0:nsid0:nsid0:nsid0:nsid0:nsid0", true},
{[]string{"nsid1", "nsid1", "nsid2", "nsid2"}, "nsid0:nsid0:nsid0:nsid0:nsid0:nsid0", false},
{[]string{"nsid1", "nsid1", "nsid2", "nsid2"}, "nsid0:nsid0:nsid0:nsid0:nsid0:nsid0", false},
}
for _, test := range tests {
actual := isTargetNamespacedKey(test.nskey, test.nsTargets)
if test.expected != actual {
t.Fatalf("expected %t but got %t for nstargets: %q and nskey: %q", test.expected, actual, test.nsTargets, test.nskey)
}
}
}
func TestOIDC_Flush(t *testing.T) {
c := newOIDCCache(gocache.NoExpiration, gocache.NoExpiration)
ns := []*namespace.Namespace{
noNamespace, // ns[0] is nilNamespace
{ID: "ns1"},
{ID: "ns2"},
}
// populateNs populates cache by ns with some data
populateNs := func() {
for i := range ns {
for _, val := range []string{"keyA", "keyB", "keyC"} {
if err := c.SetDefault(ns[i], val, struct{}{}); err != nil {
t.Fatal(err)
}
}
}
}
// validate verifies that cache items exist or do not exist based on their namespaced key
verify := func(items map[string]gocache.Item, expect, doNotExpect []*namespace.Namespace) {
for _, expectNs := range expect {
found := false
for i := range items {
if isTargetNamespacedKey(i, []string{expectNs.ID}) {
found = true
break
}
}
if !found {
t.Fatalf("Expected cache to contain an entry with a namespaced key for namespace: %q but did not find one", expectNs.ID)
}
}
for _, doNotExpectNs := range doNotExpect {
for i := range items {
if isTargetNamespacedKey(i, []string{doNotExpectNs.ID}) {
t.Fatalf("Did not expect cache to contain an entry with a namespaced key for namespace: %q but found the key: %q", doNotExpectNs.ID, i)
}
}
}
}
// flushing ns1 should flush ns1 and nilNamespace but not ns2
populateNs()
if err := c.Flush(ns[1]); err != nil {
t.Fatal(err)
}
items := c.c.Items()
verify(items, []*namespace.Namespace{ns[2]}, []*namespace.Namespace{ns[0], ns[1]})
// flushing nilNamespace should flush nilNamespace but not ns1 or ns2
populateNs()
if err := c.Flush(ns[0]); err != nil {
t.Fatal(err)
}
items = c.c.Items()
verify(items, []*namespace.Namespace{ns[1], ns[2]}, []*namespace.Namespace{ns[0]})
}
func TestOIDC_CacheNamespaceNilCheck(t *testing.T) {
cache := newOIDCCache(gocache.NoExpiration, gocache.NoExpiration)
if _, _, err := cache.Get(nil, "foo"); err == nil {
t.Fatal("expected error, got nil")
}
if err := cache.SetDefault(nil, "foo", 42); err == nil {
t.Fatal("expected error, got nil")
}
if err := cache.Flush(nil); err == nil {
t.Fatal("expected error, got nil")
}
}
func TestOIDC_GetKeysCacheControlHeader(t *testing.T) {
c, _, _ := TestCoreUnsealed(t)
// get default value
header, err := c.identityStore.getKeysCacheControlHeader()
if err != nil {
t.Fatalf("expected success, got error:\n%v", err)
}
expectedHeader := ""
if header != expectedHeader {
t.Fatalf("expected %s, got %s", expectedHeader, header)
}
// set nextRun
nextRun := time.Now().Add(24 * time.Hour)
if err = c.identityStore.oidcCache.SetDefault(noNamespace, "nextRun", nextRun); err != nil {
t.Fatal(err)
}
header, err = c.identityStore.getKeysCacheControlHeader()
if err != nil {
t.Fatalf("expected success, got error:\n%v", err)
}
expectedNextRun := "max-age=86400"
if header != expectedNextRun {
t.Fatalf("expected %s, got %s", expectedNextRun, header)
}
// set jwksCacheControlMaxAge
durationSeconds := 60
jwksCacheControlMaxAge := time.Duration(durationSeconds) * time.Second
if err = c.identityStore.oidcCache.SetDefault(noNamespace, "jwksCacheControlMaxAge", jwksCacheControlMaxAge); err != nil {
t.Fatal(err)
}
header, err = c.identityStore.getKeysCacheControlHeader()
if err != nil {
t.Fatalf("expected success, got error:\n%v", err)
}
if header == "" {
t.Fatalf("expected header to be set, got %s", header)
}
maxAgeValue := strings.Split(header, "=")[1]
headerVal, err := strconv.Atoi(maxAgeValue)
if err != nil {
t.Fatal(err)
}
// headerVal will be a random value between 0 and jwksCacheControlMaxAge (in seconds)
if headerVal > durationSeconds {
t.Logf("jwksCacheControlMaxAge: %d", int(jwksCacheControlMaxAge))
t.Fatalf("unexpected header value, got %d expected less than %d", headerVal, durationSeconds)
}
}
// some helpers
func expectSuccess(t *testing.T, resp *logical.Response, err error) {
t.Helper()
if err != nil || (resp != nil && resp.IsError()) {
t.Fatalf("expected success but got error:\n%v\nresp: %#v", err, resp)
}
}
func expectError(t *testing.T, resp *logical.Response, err error) {
t.Helper()
if err == nil {
if resp == nil || !resp.IsError() {
t.Fatalf("expected error but got success; error:\n%v\nresp: %#v", err, resp)
}
}
}
// expectString fails unless every string in actualStrings is also included in expectedStrings and
// the length of actualStrings and expectedStrings are the same
func expectStrings(t *testing.T, actualStrings []string, expectedStrings map[string]interface{}) {
t.Helper()
if len(actualStrings) != len(expectedStrings) {
t.Fatalf("expectStrings mismatch:\nactual strings:\n%#v\nexpected strings:\n%#v\n", actualStrings, expectedStrings)
}
for _, actualString := range actualStrings {
_, ok := expectedStrings[actualString]
if !ok {
t.Fatalf("the string %q was not expected", actualString)
}
}
}