package ldap import ( "context" "fmt" "reflect" "sort" "testing" "time" goldap "github.com/go-ldap/ldap/v3" "github.com/go-test/deep" hclog "github.com/hashicorp/go-hclog" "github.com/hashicorp/go-secure-stdlib/strutil" "github.com/hashicorp/vault/helper/namespace" "github.com/hashicorp/vault/helper/testhelpers/ldap" logicaltest "github.com/hashicorp/vault/helper/testhelpers/logical" "github.com/hashicorp/vault/sdk/helper/ldaputil" "github.com/hashicorp/vault/sdk/helper/policyutil" "github.com/hashicorp/vault/sdk/helper/tokenutil" "github.com/hashicorp/vault/sdk/logical" "github.com/mitchellh/mapstructure" ) func createBackendWithStorage(t *testing.T) (*backend, logical.Storage) { config := logical.TestBackendConfig() config.StorageView = &logical.InmemStorage{} b := Backend() if b == nil { t.Fatalf("failed to create backend") } err := b.Backend.Setup(context.Background(), config) if err != nil { t.Fatal(err) } return b, config.StorageView } func TestLdapAuthBackend_Listing(t *testing.T) { b, storage := createBackendWithStorage(t) // Create group "testgroup" resp, err := b.HandleRequest(namespace.RootContext(nil), &logical.Request{ Path: "groups/testgroup", Operation: logical.UpdateOperation, Storage: storage, Data: map[string]interface{}{ "policies": []string{"default"}, }, }) if err != nil || (resp != nil && resp.IsError()) { t.Fatalf("bad: resp: %#v\nerr: %v", resp, err) } // Create group "nested/testgroup" resp, err = b.HandleRequest(namespace.RootContext(nil), &logical.Request{ Path: "groups/nested/testgroup", Operation: logical.UpdateOperation, Storage: storage, Data: map[string]interface{}{ "policies": []string{"default"}, }, }) if err != nil || (resp != nil && resp.IsError()) { t.Fatalf("bad: resp: %#v\nerr: %v", resp, err) } // Create user "testuser" resp, err = b.HandleRequest(namespace.RootContext(nil), &logical.Request{ Path: "users/testuser", Operation: logical.UpdateOperation, Storage: storage, Data: map[string]interface{}{ "policies": []string{"default"}, "groups": "testgroup,nested/testgroup", }, }) if err != nil || (resp != nil && resp.IsError()) { t.Fatalf("bad: resp: %#v\nerr: %v", resp, err) } // Create user "nested/testuser" resp, err = b.HandleRequest(namespace.RootContext(nil), &logical.Request{ Path: "users/nested/testuser", Operation: logical.UpdateOperation, Storage: storage, Data: map[string]interface{}{ "policies": []string{"default"}, "groups": "testgroup,nested/testgroup", }, }) if err != nil || (resp != nil && resp.IsError()) { t.Fatalf("bad: resp: %#v\nerr: %v", resp, err) } // List users resp, err = b.HandleRequest(namespace.RootContext(nil), &logical.Request{ Path: "users/", Operation: logical.ListOperation, Storage: storage, }) if err != nil || (resp != nil && resp.IsError()) { t.Fatalf("bad: resp: %#v\nerr: %v", resp, err) } expected := []string{"testuser", "nested/testuser"} if !reflect.DeepEqual(expected, resp.Data["keys"].([]string)) { t.Fatalf("bad: listed users; expected: %#v actual: %#v", expected, resp.Data["keys"].([]string)) } // List groups resp, err = b.HandleRequest(namespace.RootContext(nil), &logical.Request{ Path: "groups/", Operation: logical.ListOperation, Storage: storage, }) if err != nil || (resp != nil && resp.IsError()) { t.Fatalf("bad: resp: %#v\nerr: %v", resp, err) } expected = []string{"testgroup", "nested/testgroup"} if !reflect.DeepEqual(expected, resp.Data["keys"].([]string)) { t.Fatalf("bad: listed groups; expected: %#v actual: %#v", expected, resp.Data["keys"].([]string)) } } func TestLdapAuthBackend_CaseSensitivity(t *testing.T) { var resp *logical.Response var err error b, storage := createBackendWithStorage(t) ctx := context.Background() testVals := func(caseSensitive bool) { // Clear storage userList, err := storage.List(ctx, "user/") if err != nil { t.Fatal(err) } for _, user := range userList { err = storage.Delete(ctx, "user/"+user) if err != nil { t.Fatal(err) } } groupList, err := storage.List(ctx, "group/") if err != nil { t.Fatal(err) } for _, group := range groupList { err = storage.Delete(ctx, "group/"+group) if err != nil { t.Fatal(err) } } configReq := &logical.Request{ Path: "config", Operation: logical.ReadOperation, Storage: storage, } resp, err = b.HandleRequest(ctx, configReq) if err != nil || (resp != nil && resp.IsError()) { t.Fatalf("err:%v resp:%#v", err, resp) } if resp == nil { t.Fatal("nil response") } if resp.Data["case_sensitive_names"].(bool) != caseSensitive { t.Fatalf("expected case sensitivity %t, got %t", caseSensitive, resp.Data["case_sensitive_names"].(bool)) } groupReq := &logical.Request{ Operation: logical.UpdateOperation, Data: map[string]interface{}{ "policies": "grouppolicy", }, Path: "groups/EngineerS", Storage: storage, } resp, err = b.HandleRequest(ctx, groupReq) if err != nil || (resp != nil && resp.IsError()) { t.Fatalf("err:%v resp:%#v", err, resp) } keys, err := storage.List(ctx, "group/") if err != nil { t.Fatal(err) } switch caseSensitive { case true: if keys[0] != "EngineerS" { t.Fatalf("bad: %s", keys[0]) } default: if keys[0] != "engineers" { t.Fatalf("bad: %s", keys[0]) } } userReq := &logical.Request{ Operation: logical.UpdateOperation, Data: map[string]interface{}{ "groups": "EngineerS", "policies": "userpolicy", }, Path: "users/hermeS conRad", Storage: storage, } resp, err = b.HandleRequest(ctx, userReq) if err != nil || (resp != nil && resp.IsError()) { t.Fatalf("err:%v resp:%#v", err, resp) } keys, err = storage.List(ctx, "user/") if err != nil { t.Fatal(err) } switch caseSensitive { case true: if keys[0] != "hermeS conRad" { t.Fatalf("bad: %s", keys[0]) } default: if keys[0] != "hermes conrad" { t.Fatalf("bad: %s", keys[0]) } } if caseSensitive { // The online test server is actually case sensitive so we need to // write again so it works userReq = &logical.Request{ Operation: logical.UpdateOperation, Data: map[string]interface{}{ "groups": "EngineerS", "policies": "userpolicy", }, Path: "users/Hermes Conrad", Storage: storage, Connection: &logical.Connection{}, } resp, err = b.HandleRequest(ctx, userReq) if err != nil || (resp != nil && resp.IsError()) { t.Fatalf("err:%v resp:%#v", err, resp) } } loginReq := &logical.Request{ Operation: logical.UpdateOperation, Path: "login/Hermes Conrad", Data: map[string]interface{}{ "password": "hermes", }, Storage: storage, Connection: &logical.Connection{}, } resp, err = b.HandleRequest(ctx, loginReq) if err != nil || (resp != nil && resp.IsError()) { t.Fatalf("err:%v resp:%#v", err, resp) } expected := []string{"grouppolicy", "userpolicy"} if !reflect.DeepEqual(expected, resp.Auth.Policies) { t.Fatalf("bad: policies: expected: %q, actual: %q", expected, resp.Auth.Policies) } } cleanup, cfg := ldap.PrepareTestContainer(t, "latest") defer cleanup() configReq := &logical.Request{ Operation: logical.UpdateOperation, Path: "config", Data: map[string]interface{}{ "url": cfg.Url, "userattr": cfg.UserAttr, "userdn": cfg.UserDN, "groupdn": cfg.GroupDN, "groupattr": cfg.GroupAttr, "binddn": cfg.BindDN, "bindpass": cfg.BindPassword, }, Storage: storage, } resp, err = b.HandleRequest(ctx, configReq) if err != nil || (resp != nil && resp.IsError()) { t.Fatalf("err:%v resp:%#v", err, resp) } testVals(false) // Check that if the value is nil, on read it is case sensitive configEntry, err := b.Config(ctx, configReq) if err != nil { t.Fatal(err) } configEntry.CaseSensitiveNames = nil entry, err := logical.StorageEntryJSON("config", configEntry) if err != nil { t.Fatal(err) } err = configReq.Storage.Put(ctx, entry) if err != nil { t.Fatal(err) } testVals(true) } func TestLdapAuthBackend_UserPolicies(t *testing.T) { var resp *logical.Response var err error b, storage := createBackendWithStorage(t) cleanup, cfg := ldap.PrepareTestContainer(t, "latest") defer cleanup() configReq := &logical.Request{ Operation: logical.UpdateOperation, Path: "config", Data: map[string]interface{}{ "url": cfg.Url, "userattr": cfg.UserAttr, "userdn": cfg.UserDN, "groupdn": cfg.GroupDN, "groupattr": cfg.GroupAttr, "binddn": cfg.BindDN, "bindpassword": cfg.BindPassword, }, Storage: storage, } resp, err = b.HandleRequest(context.Background(), configReq) if err != nil || (resp != nil && resp.IsError()) { t.Fatalf("err:%v resp:%#v", err, resp) } groupReq := &logical.Request{ Operation: logical.UpdateOperation, Data: map[string]interface{}{ "policies": "grouppolicy", }, Path: "groups/engineers", Storage: storage, Connection: &logical.Connection{}, } resp, err = b.HandleRequest(context.Background(), groupReq) if err != nil || (resp != nil && resp.IsError()) { t.Fatalf("err:%v resp:%#v", err, resp) } userReq := &logical.Request{ Operation: logical.UpdateOperation, Data: map[string]interface{}{ "groups": "engineers", "policies": "userpolicy", }, Path: "users/hermes conrad", Storage: storage, Connection: &logical.Connection{}, } resp, err = b.HandleRequest(context.Background(), userReq) if err != nil || (resp != nil && resp.IsError()) { t.Fatalf("err:%v resp:%#v", err, resp) } loginReq := &logical.Request{ Operation: logical.UpdateOperation, Path: "login/hermes conrad", Data: map[string]interface{}{ "password": "hermes", }, Storage: storage, Connection: &logical.Connection{}, } resp, err = b.HandleRequest(context.Background(), loginReq) if err != nil || (resp != nil && resp.IsError()) { t.Fatalf("err:%v resp:%#v", err, resp) } expected := []string{"grouppolicy", "userpolicy"} if !reflect.DeepEqual(expected, resp.Auth.Policies) { t.Fatalf("bad: policies: expected: %q, actual: %q", expected, resp.Auth.Policies) } } /* * Acceptance test for LDAP Auth Method * * The tests here rely on a docker LDAP server: * [https://github.com/rroemhild/docker-test-openldap] * * ...as well as existence of a person object, `cn=Hermes Conrad,dc=example,dc=com`, * which is a member of a group, `cn=admin_staff,ou=people,dc=example,dc=com` * * Querying the server from the command line: * $ docker run --privileged -d -p 389:389 --name ldap --rm rroemhild/test-openldap * $ ldapsearch -x -H ldap://localhost -b dc=planetexpress,dc=com -s sub uid=hermes * $ ldapsearch -x -H ldap://localhost -b dc=planetexpress,dc=com -s sub \ 'member=cn=Hermes Conrad,ou=people,dc=planetexpress,dc=com' */ func factory(t *testing.T) logical.Backend { defaultLeaseTTLVal := time.Hour * 24 maxLeaseTTLVal := time.Hour * 24 * 32 b, err := Factory(context.Background(), &logical.BackendConfig{ Logger: hclog.New(&hclog.LoggerOptions{ Name: "FactoryLogger", Level: hclog.Debug, }), System: &logical.StaticSystemView{ DefaultLeaseTTLVal: defaultLeaseTTLVal, MaxLeaseTTLVal: maxLeaseTTLVal, }, }) if err != nil { t.Fatalf("Unable to create backend: %s", err) } return b } func TestBackend_basic(t *testing.T) { b := factory(t) cleanup, cfg := ldap.PrepareTestContainer(t, "latest") defer cleanup() logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ testAccStepConfigUrl(t, cfg), // Map Admin_staff group (from LDAP server) with foo policy testAccStepGroup(t, "admin_staff", "foo"), // Map engineers group (local) with bar policy testAccStepGroup(t, "engineers", "bar"), // Map hermes conrad user with local engineers group testAccStepUser(t, "hermes conrad", "engineers"), // Authenticate testAccStepLogin(t, "hermes conrad", "hermes"), // Verify both groups mappings can be listed back testAccStepGroupList(t, []string{"engineers", "admin_staff"}), // Verify user mapping can be listed back testAccStepUserList(t, []string{"hermes conrad"}), }, }) } func TestBackend_basic_noPolicies(t *testing.T) { b := factory(t) cleanup, cfg := ldap.PrepareTestContainer(t, "latest") defer cleanup() logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ testAccStepConfigUrl(t, cfg), // Create LDAP user testAccStepUser(t, "hermes conrad", ""), // Authenticate testAccStepLoginNoAttachedPolicies(t, "hermes conrad", "hermes"), testAccStepUserList(t, []string{"hermes conrad"}), }, }) } func TestBackend_basic_group_noPolicies(t *testing.T) { b := factory(t) cleanup, cfg := ldap.PrepareTestContainer(t, "latest") defer cleanup() logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ testAccStepConfigUrl(t, cfg), // Create engineers group with no policies testAccStepGroup(t, "engineers", ""), // Map hermes conrad user with local engineers group testAccStepUser(t, "hermes conrad", "engineers"), // Authenticate testAccStepLoginNoAttachedPolicies(t, "hermes conrad", "hermes"), // Verify group mapping can be listed back testAccStepGroupList(t, []string{"engineers"}), }, }) } func TestBackend_basic_authbind(t *testing.T) { b := factory(t) cleanup, cfg := ldap.PrepareTestContainer(t, "latest") defer cleanup() logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ testAccStepConfigUrlWithAuthBind(t, cfg), testAccStepGroup(t, "admin_staff", "foo"), testAccStepGroup(t, "engineers", "bar"), testAccStepUser(t, "hermes conrad", "engineers"), testAccStepLogin(t, "hermes conrad", "hermes"), }, }) } func TestBackend_basic_authbind_userfilter(t *testing.T) { b := factory(t) cleanup, cfg := ldap.PrepareTestContainer(t, "latest") defer cleanup() // userattr not used in the userfilter should result in a warning in the response cfg.UserFilter = "((mail={{.Username}}))" logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ testAccStepConfigUrlWarningCheck(t, cfg, logical.UpdateOperation, []string{userFilterWarning}), testAccStepConfigUrlWarningCheck(t, cfg, logical.ReadOperation, []string{userFilterWarning}), }, }) // If both upndomain and userfilter is set, ensure that a warning is still // returned if userattr is not considered cfg.UPNDomain = "planetexpress.com" logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ testAccStepConfigUrlWarningCheck(t, cfg, logical.UpdateOperation, []string{userFilterWarning}), testAccStepConfigUrlWarningCheck(t, cfg, logical.ReadOperation, []string{userFilterWarning}), }, }) cfg.UPNDomain = "" // Add a liberal user filter, allowing to log in with either cn or email cfg.UserFilter = "(|({{.UserAttr}}={{.Username}})(mail={{.Username}}))" logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ testAccStepConfigUrl(t, cfg), // Create engineers group with no policies testAccStepGroup(t, "engineers", ""), // Map hermes conrad user with local engineers group testAccStepUser(t, "hermes conrad", "engineers"), // Authenticate with cn attribute testAccStepLoginNoAttachedPolicies(t, "hermes conrad", "hermes"), // Authenticate with mail attribute testAccStepLoginNoAttachedPolicies(t, "hermes@planetexpress.com", "hermes"), }, }) // A filter giving the same DN makes the entity_id the same entity_id := "" logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ testAccStepConfigUrl(t, cfg), // Create engineers group with no policies testAccStepGroup(t, "engineers", ""), // Map hermes conrad user with local engineers group testAccStepUser(t, "hermes conrad", "engineers"), // Authenticate with cn attribute testAccStepLoginReturnsSameEntity(t, "hermes conrad", "hermes", &entity_id), // Authenticate with mail attribute testAccStepLoginReturnsSameEntity(t, "hermes@planetexpress.com", "hermes", &entity_id), }, }) // Missing entity alias attribute means access denied cfg.UserAttr = "inexistent" cfg.UserFilter = "(|({{.UserAttr}}={{.Username}})(mail={{.Username}}))" logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ testAccStepConfigUrl(t, cfg), // Authenticate with mail attribute will find DN but missing attribute means access denied testAccStepLoginFailure(t, "hermes@planetexpress.com", "hermes"), }, }) cfg.UserAttr = "cn" // UPNDomain has precedence over userfilter, for backward compatibility cfg.UPNDomain = "planetexpress.com" addUPNAttributeToLDAPSchemaAndUser(t, cfg, "cn=Hubert J. Farnsworth,ou=people,dc=planetexpress,dc=com", "professor@planetexpress.com") logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ testAccStepConfigUrlWithAuthBind(t, cfg), testAccStepLoginNoAttachedPolicies(t, "professor", "professor"), }, }) cfg.UPNDomain = "" // Add a strict user filter, rejecting login of bureaucrats cfg.UserFilter = "(&({{.UserAttr}}={{.Username}})(!(employeeType=Bureaucrat)))" logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ testAccStepConfigUrl(t, cfg), // Authenticate with cn attribute testAccStepLoginFailure(t, "hermes conrad", "hermes"), }, }) // Login fails when multiple user match search filter (using an incorrect filter on purporse) cfg.UserFilter = "(objectClass=*)" logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ // testAccStepConfigUrl(t, cfg), testAccStepConfigUrlWithAuthBind(t, cfg), // Authenticate with cn attribute testAccStepLoginFailure(t, "hermes conrad", "hermes"), }, }) } func TestBackend_basic_authbind_metadata_name(t *testing.T) { b := factory(t) cleanup, cfg := ldap.PrepareTestContainer(t, "latest") defer cleanup() cfg.UserAttr = "cn" cfg.UPNDomain = "planetexpress.com" addUPNAttributeToLDAPSchemaAndUser(t, cfg, "cn=Hubert J. Farnsworth,ou=people,dc=planetexpress,dc=com", "professor@planetexpress.com") logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ testAccStepConfigUrlWithAuthBind(t, cfg), testAccStepLoginAliasMetadataName(t, "professor", "professor"), }, }) } func addUPNAttributeToLDAPSchemaAndUser(t *testing.T, cfg *ldaputil.ConfigEntry, testUserDN string, testUserUPN string) { // Setup connection client := &ldaputil.Client{ Logger: hclog.New(&hclog.LoggerOptions{ Name: "LDAPAuthTest", Level: hclog.Debug, }), LDAP: ldaputil.NewLDAP(), } conn, err := client.DialLDAP(cfg) if err != nil { t.Fatal(err) } defer conn.Close() if err := conn.Bind("cn=admin,cn=config", cfg.BindPassword); err != nil { t.Fatal(err) } // Add userPrincipalName attribute type userPrincipleNameTypeReq := goldap.NewModifyRequest("cn={0}core,cn=schema,cn=config", nil) userPrincipleNameTypeReq.Add("olcAttributetypes", []string{"( 2.25.247072656268950430024439664556757516066 NAME ( 'userPrincipalName' ) SYNTAX 1.3.6.1.4.1.1466.115.121.1.15 EQUALITY caseIgnoreMatch SINGLE-VALUE )"}) if err := conn.Modify(userPrincipleNameTypeReq); err != nil { t.Fatal(err) } // Add new object class userPrincipleNameObjClassReq := goldap.NewModifyRequest("cn={0}core,cn=schema,cn=config", nil) userPrincipleNameObjClassReq.Add("olcObjectClasses", []string{"( 1.2.840.113556.6.2.6 NAME 'PrincipalNameClass' AUXILIARY MAY ( userPrincipalName ) )"}) if err := conn.Modify(userPrincipleNameObjClassReq); err != nil { t.Fatal(err) } // Re-authenticate with the binddn user if err := conn.Bind(cfg.BindDN, cfg.BindPassword); err != nil { t.Fatal(err) } // Modify professor user and add userPrincipalName attribute modifyUserReq := goldap.NewModifyRequest(testUserDN, nil) modifyUserReq.Add("objectClass", []string{"PrincipalNameClass"}) modifyUserReq.Add("userPrincipalName", []string{testUserUPN}) if err := conn.Modify(modifyUserReq); err != nil { t.Fatal(err) } } func TestBackend_basic_discover(t *testing.T) { b := factory(t) cleanup, cfg := ldap.PrepareTestContainer(t, "latest") defer cleanup() logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ testAccStepConfigUrlWithDiscover(t, cfg), testAccStepGroup(t, "admin_staff", "foo"), testAccStepGroup(t, "engineers", "bar"), testAccStepUser(t, "hermes conrad", "engineers"), testAccStepLogin(t, "hermes conrad", "hermes"), }, }) } func TestBackend_basic_nogroupdn(t *testing.T) { b := factory(t) cleanup, cfg := ldap.PrepareTestContainer(t, "latest") defer cleanup() logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ testAccStepConfigUrlNoGroupDN(t, cfg), testAccStepGroup(t, "admin_staff", "foo"), testAccStepGroup(t, "engineers", "bar"), testAccStepUser(t, "hermes conrad", "engineers"), testAccStepLoginNoGroupDN(t, "hermes conrad", "hermes"), }, }) } func TestBackend_groupCrud(t *testing.T) { b := factory(t) logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ testAccStepGroup(t, "g1", "foo"), testAccStepReadGroup(t, "g1", "foo"), testAccStepDeleteGroup(t, "g1"), testAccStepReadGroup(t, "g1", ""), }, }) } /* * Test backend configuration defaults are successfully read. */ func TestBackend_configDefaultsAfterUpdate(t *testing.T) { b := factory(t) logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ { Operation: logical.UpdateOperation, Path: "config", Data: map[string]interface{}{}, }, { Operation: logical.ReadOperation, Path: "config", Check: func(resp *logical.Response) error { if resp == nil { return fmt.Errorf("bad: %#v", resp) } // Test well-known defaults cfg := resp.Data defaultGroupFilter := "(|(memberUid={{.Username}})(member={{.UserDN}})(uniqueMember={{.UserDN}}))" if cfg["groupfilter"] != defaultGroupFilter { t.Errorf("Default mismatch: groupfilter. Expected: '%s', received :'%s'", defaultGroupFilter, cfg["groupfilter"]) } defaultGroupAttr := "cn" if cfg["groupattr"] != defaultGroupAttr { t.Errorf("Default mismatch: groupattr. Expected: '%s', received :'%s'", defaultGroupAttr, cfg["groupattr"]) } defaultUserAttr := "cn" if cfg["userattr"] != defaultUserAttr { t.Errorf("Default mismatch: userattr. Expected: '%s', received :'%s'", defaultUserAttr, cfg["userattr"]) } defaultUserFilter := "({{.UserAttr}}={{.Username}})" if cfg["userfilter"] != defaultUserFilter { t.Errorf("Default mismatch: userfilter. Expected: '%s', received :'%s'", defaultUserFilter, cfg["userfilter"]) } defaultDenyNullBind := true if cfg["deny_null_bind"] != defaultDenyNullBind { t.Errorf("Default mismatch: deny_null_bind. Expected: '%t', received :'%s'", defaultDenyNullBind, cfg["deny_null_bind"]) } return nil }, }, }, }) } func testAccStepConfigUrl(t *testing.T, cfg *ldaputil.ConfigEntry) logicaltest.TestStep { return logicaltest.TestStep{ Operation: logical.UpdateOperation, Path: "config", Data: map[string]interface{}{ "url": cfg.Url, "userattr": cfg.UserAttr, "userdn": cfg.UserDN, "userfilter": cfg.UserFilter, "groupdn": cfg.GroupDN, "groupattr": cfg.GroupAttr, "binddn": cfg.BindDN, "bindpass": cfg.BindPassword, "case_sensitive_names": true, "token_policies": "abc,xyz", "request_timeout": cfg.RequestTimeout, }, } } func testAccStepConfigUrlWithAuthBind(t *testing.T, cfg *ldaputil.ConfigEntry) logicaltest.TestStep { return logicaltest.TestStep{ Operation: logical.UpdateOperation, Path: "config", Data: map[string]interface{}{ // In this test we also exercise multiple URL support "url": "foobar://ldap.example.com," + cfg.Url, "userattr": cfg.UserAttr, "userdn": cfg.UserDN, "groupdn": cfg.GroupDN, "groupattr": cfg.GroupAttr, "binddn": cfg.BindDN, "bindpass": cfg.BindPassword, "upndomain": cfg.UPNDomain, "case_sensitive_names": true, "token_policies": "abc,xyz", "request_timeout": cfg.RequestTimeout, }, } } func testAccStepConfigUrlWithDiscover(t *testing.T, cfg *ldaputil.ConfigEntry) logicaltest.TestStep { return logicaltest.TestStep{ Operation: logical.UpdateOperation, Path: "config", Data: map[string]interface{}{ "url": cfg.Url, "userattr": cfg.UserAttr, "userdn": cfg.UserDN, "groupdn": cfg.GroupDN, "groupattr": cfg.GroupAttr, "binddn": cfg.BindDN, "bindpass": cfg.BindPassword, "discoverdn": true, "case_sensitive_names": true, "token_policies": "abc,xyz", "request_timeout": cfg.RequestTimeout, }, } } func testAccStepConfigUrlNoGroupDN(t *testing.T, cfg *ldaputil.ConfigEntry) logicaltest.TestStep { return logicaltest.TestStep{ Operation: logical.UpdateOperation, Path: "config", Data: map[string]interface{}{ "url": cfg.Url, "userattr": cfg.UserAttr, "userdn": cfg.UserDN, "binddn": cfg.BindDN, "bindpass": cfg.BindPassword, "discoverdn": true, "case_sensitive_names": true, "request_timeout": cfg.RequestTimeout, }, } } func testAccStepConfigUrlWarningCheck(t *testing.T, cfg *ldaputil.ConfigEntry, operation logical.Operation, warnings []string) logicaltest.TestStep { return logicaltest.TestStep{ Operation: operation, Path: "config", Data: map[string]interface{}{ "url": cfg.Url, "userattr": cfg.UserAttr, "userdn": cfg.UserDN, "userfilter": cfg.UserFilter, "groupdn": cfg.GroupDN, "groupattr": cfg.GroupAttr, "binddn": cfg.BindDN, "bindpass": cfg.BindPassword, "case_sensitive_names": true, "token_policies": "abc,xyz", "request_timeout": cfg.RequestTimeout, }, Check: func(response *logical.Response) error { if len(response.Warnings) == 0 { return fmt.Errorf("expected warnings, got none") } if !strutil.StrListSubset(response.Warnings, warnings) { return fmt.Errorf("expected response to contain the following warnings:\n%s\ngot:\n%s", warnings, response.Warnings) } return nil }, } } func testAccStepGroup(t *testing.T, group string, policies string) logicaltest.TestStep { t.Logf("[testAccStepGroup] - Registering group %s, policy %s", group, policies) return logicaltest.TestStep{ Operation: logical.UpdateOperation, Path: "groups/" + group, Data: map[string]interface{}{ "policies": policies, }, } } func testAccStepReadGroup(t *testing.T, group string, policies string) logicaltest.TestStep { return logicaltest.TestStep{ Operation: logical.ReadOperation, Path: "groups/" + group, Check: func(resp *logical.Response) error { if resp == nil { if policies == "" { return nil } return fmt.Errorf("bad: %#v", resp) } var d struct { Policies []string `mapstructure:"policies"` } if err := mapstructure.Decode(resp.Data, &d); err != nil { return err } if !reflect.DeepEqual(d.Policies, policyutil.ParsePolicies(policies)) { return fmt.Errorf("bad: %#v", resp) } return nil }, } } func testAccStepDeleteGroup(t *testing.T, group string) logicaltest.TestStep { return logicaltest.TestStep{ Operation: logical.DeleteOperation, Path: "groups/" + group, } } func TestBackend_userCrud(t *testing.T) { b := Backend() logicaltest.Test(t, logicaltest.TestCase{ CredentialBackend: b, Steps: []logicaltest.TestStep{ testAccStepUser(t, "g1", "bar"), testAccStepReadUser(t, "g1", "bar"), testAccStepDeleteUser(t, "g1"), testAccStepReadUser(t, "g1", ""), }, }) } func testAccStepUser(t *testing.T, user string, groups string) logicaltest.TestStep { return logicaltest.TestStep{ Operation: logical.UpdateOperation, Path: "users/" + user, Data: map[string]interface{}{ "groups": groups, }, } } func testAccStepReadUser(t *testing.T, user string, groups string) logicaltest.TestStep { return logicaltest.TestStep{ Operation: logical.ReadOperation, Path: "users/" + user, Check: func(resp *logical.Response) error { if resp == nil { if groups == "" { return nil } return fmt.Errorf("bad: %#v", resp) } var d struct { Groups string `mapstructure:"groups"` } if err := mapstructure.Decode(resp.Data, &d); err != nil { return err } if d.Groups != groups { return fmt.Errorf("bad: %#v", resp) } return nil }, } } func testAccStepDeleteUser(t *testing.T, user string) logicaltest.TestStep { return logicaltest.TestStep{ Operation: logical.DeleteOperation, Path: "users/" + user, } } func testAccStepLogin(t *testing.T, user string, pass string) logicaltest.TestStep { return logicaltest.TestStep{ Operation: logical.UpdateOperation, Path: "login/" + user, Data: map[string]interface{}{ "password": pass, }, Unauthenticated: true, // Verifies user hermes conrad maps to groups via local group (engineers) as well as remote group (Scientists) Check: logicaltest.TestCheckAuth([]string{"abc", "bar", "default", "foo", "xyz"}), } } func testAccStepLoginReturnsSameEntity(t *testing.T, user string, pass string, entity_id *string) logicaltest.TestStep { return logicaltest.TestStep{ Operation: logical.UpdateOperation, Path: "login/" + user, Data: map[string]interface{}{ "password": pass, }, Unauthenticated: true, // Verifies user hermes conrad maps to groups via local group (engineers) as well as remote group (Scientists) Check: logicaltest.TestCheckAuthEntityId(entity_id), } } func testAccStepLoginNoAttachedPolicies(t *testing.T, user string, pass string) logicaltest.TestStep { return logicaltest.TestStep{ Operation: logical.UpdateOperation, Path: "login/" + user, Data: map[string]interface{}{ "password": pass, }, Unauthenticated: true, // Verifies user hermes conrad maps to groups via local group (engineers) as well as remote group (Scientists) Check: logicaltest.TestCheckAuth([]string{"abc", "default", "xyz"}), } } func testAccStepLoginAliasMetadataName(t *testing.T, user string, pass string) logicaltest.TestStep { return logicaltest.TestStep{ Operation: logical.UpdateOperation, Path: "login/" + user, Data: map[string]interface{}{ "password": pass, }, Unauthenticated: true, Check: logicaltest.TestCheckAuthEntityAliasMetadataName("name", user), } } func testAccStepLoginFailure(t *testing.T, user string, pass string) logicaltest.TestStep { return logicaltest.TestStep{ Operation: logical.UpdateOperation, Path: "login/" + user, Data: map[string]interface{}{ "password": pass, }, Unauthenticated: true, ErrorOk: true, } } func testAccStepLoginNoGroupDN(t *testing.T, user string, pass string) logicaltest.TestStep { return logicaltest.TestStep{ Operation: logical.UpdateOperation, Path: "login/" + user, Data: map[string]interface{}{ "password": pass, }, Unauthenticated: true, // Verifies a search without defined GroupDN returns a warning rather than failing Check: func(resp *logical.Response) error { if len(resp.Warnings) != 1 { return fmt.Errorf("expected a warning due to no group dn, got: %#v", resp.Warnings) } return logicaltest.TestCheckAuth([]string{"bar", "default"})(resp) }, } } func testAccStepGroupList(t *testing.T, groups []string) logicaltest.TestStep { return logicaltest.TestStep{ Operation: logical.ListOperation, Path: "groups", Check: func(resp *logical.Response) error { if resp.IsError() { return fmt.Errorf("got error response: %#v", *resp) } expected := make([]string, len(groups)) copy(expected, groups) sort.Strings(expected) sortedResponse := make([]string, len(resp.Data["keys"].([]string))) copy(sortedResponse, resp.Data["keys"].([]string)) sort.Strings(sortedResponse) if !reflect.DeepEqual(expected, sortedResponse) { return fmt.Errorf("expected:\n%#v\ngot:\n%#v\n", expected, sortedResponse) } return nil }, } } func testAccStepUserList(t *testing.T, users []string) logicaltest.TestStep { return logicaltest.TestStep{ Operation: logical.ListOperation, Path: "users", Check: func(resp *logical.Response) error { if resp.IsError() { return fmt.Errorf("got error response: %#v", *resp) } expected := make([]string, len(users)) copy(expected, users) sort.Strings(expected) sortedResponse := make([]string, len(resp.Data["keys"].([]string))) copy(sortedResponse, resp.Data["keys"].([]string)) sort.Strings(sortedResponse) if !reflect.DeepEqual(expected, sortedResponse) { return fmt.Errorf("expected:\n%#v\ngot:\n%#v\n", expected, sortedResponse) } return nil }, } } func TestLdapAuthBackend_ConfigUpgrade(t *testing.T) { var resp *logical.Response var err error b, storage := createBackendWithStorage(t) ctx := context.Background() cleanup, cfg := ldap.PrepareTestContainer(t, "latest") defer cleanup() configReq := &logical.Request{ Operation: logical.UpdateOperation, Path: "config", Data: map[string]interface{}{ "url": cfg.Url, "userattr": cfg.UserAttr, "userdn": cfg.UserDN, "userfilter": cfg.UserFilter, "groupdn": cfg.GroupDN, "groupattr": cfg.GroupAttr, "binddn": cfg.BindDN, "bindpass": cfg.BindPassword, "token_period": "5m", "token_explicit_max_ttl": "24h", "request_timeout": cfg.RequestTimeout, }, Storage: storage, Connection: &logical.Connection{}, } resp, err = b.HandleRequest(ctx, configReq) if err != nil || (resp != nil && resp.IsError()) { t.Fatalf("err:%v resp:%#v", err, resp) } fd, err := b.getConfigFieldData() if err != nil { t.Fatal(err) } defParams, err := ldaputil.NewConfigEntry(nil, fd) if err != nil { t.Fatal(err) } falseBool := new(bool) *falseBool = false exp := &ldapConfigEntry{ TokenParams: tokenutil.TokenParams{ TokenPeriod: 5 * time.Minute, TokenExplicitMaxTTL: 24 * time.Hour, }, ConfigEntry: &ldaputil.ConfigEntry{ Url: cfg.Url, UserAttr: cfg.UserAttr, UserFilter: cfg.UserFilter, UserDN: cfg.UserDN, GroupDN: cfg.GroupDN, GroupAttr: cfg.GroupAttr, BindDN: cfg.BindDN, BindPassword: cfg.BindPassword, GroupFilter: defParams.GroupFilter, DenyNullBind: defParams.DenyNullBind, TLSMinVersion: defParams.TLSMinVersion, TLSMaxVersion: defParams.TLSMaxVersion, CaseSensitiveNames: falseBool, UsePre111GroupCNBehavior: new(bool), RequestTimeout: cfg.RequestTimeout, UsernameAsAlias: false, }, } configEntry, err := b.Config(ctx, configReq) if err != nil { t.Fatal(err) } if diff := deep.Equal(exp, configEntry); diff != nil { t.Fatal(diff) } // Store just the config entry portion, for upgrade testing entry, err := logical.StorageEntryJSON("config", configEntry.ConfigEntry) if err != nil { t.Fatal(err) } err = configReq.Storage.Put(ctx, entry) if err != nil { t.Fatal(err) } configEntry, err = b.Config(ctx, configReq) if err != nil { t.Fatal(err) } // We won't have token params anymore so nil those out exp.TokenParams = tokenutil.TokenParams{} if diff := deep.Equal(exp, configEntry); diff != nil { t.Fatal(diff) } }