package vault import ( "bytes" "context" "crypto/ecdsa" "crypto/elliptic" "crypto/rand" "crypto/sha256" "crypto/tls" "crypto/x509" "crypto/x509/pkix" "encoding/base64" "encoding/pem" "errors" "fmt" "io" "io/ioutil" "math/big" mathrand "math/rand" "net" "net/http" "os" "path/filepath" "sync" "sync/atomic" "time" "github.com/armon/go-metrics" cleanhttp "github.com/hashicorp/go-cleanhttp" log "github.com/hashicorp/go-hclog" raftlib "github.com/hashicorp/raft" "github.com/hashicorp/vault/api" "github.com/hashicorp/vault/audit" "github.com/hashicorp/vault/command/server" "github.com/hashicorp/vault/helper/metricsutil" "github.com/hashicorp/vault/helper/namespace" "github.com/hashicorp/vault/internalshared/configutil" "github.com/hashicorp/vault/internalshared/reloadutil" dbMysql "github.com/hashicorp/vault/plugins/database/mysql" dbPostgres "github.com/hashicorp/vault/plugins/database/postgresql" "github.com/hashicorp/vault/sdk/framework" "github.com/hashicorp/vault/sdk/helper/consts" "github.com/hashicorp/vault/sdk/helper/logging" "github.com/hashicorp/vault/sdk/helper/salt" "github.com/hashicorp/vault/sdk/logical" "github.com/hashicorp/vault/sdk/physical" physInmem "github.com/hashicorp/vault/sdk/physical/inmem" "github.com/hashicorp/vault/vault/cluster" "github.com/hashicorp/vault/vault/seal" "github.com/mitchellh/copystructure" testing "github.com/mitchellh/go-testing-interface" "golang.org/x/crypto/ed25519" "golang.org/x/net/http2" ) // This file contains a number of methods that are useful for unit // tests within other packages. const ( testSharedPublicKey = ` ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQC9i+hFxZHGo6KblVme4zrAcJstR6I0PTJozW286X4WyvPnkMYDQ5mnhEYC7UWCvjoTWbPEXPX7NjhRtwQTGD67bV+lrxgfyzK1JZbUXK4PwgKJvQD+XyyWYMzDgGSQY61KUSqCxymSm/9NZkPU3ElaQ9xQuTzPpztM4ROfb8f2Yv6/ZESZsTo0MTAkp8Pcy+WkioI/uJ1H7zqs0EA4OMY4aDJRu0UtP4rTVeYNEAuRXdX+eH4aW3KMvhzpFTjMbaJHJXlEeUm2SaX5TNQyTOvghCeQILfYIL/Ca2ij8iwCmulwdV6eQGfd4VDu40PvSnmfoaE38o6HaPnX0kUcnKiT ` testSharedPrivateKey = ` -----BEGIN RSA PRIVATE KEY----- MIIEogIBAAKCAQEAvYvoRcWRxqOim5VZnuM6wHCbLUeiND0yaM1tvOl+Fsrz55DG A0OZp4RGAu1Fgr46E1mzxFz1+zY4UbcEExg+u21fpa8YH8sytSWW1FyuD8ICib0A /l8slmDMw4BkkGOtSlEqgscpkpv/TWZD1NxJWkPcULk8z6c7TOETn2/H9mL+v2RE mbE6NDEwJKfD3MvlpIqCP7idR+86rNBAODjGOGgyUbtFLT+K01XmDRALkV3V/nh+ GltyjL4c6RU4zG2iRyV5RHlJtkml+UzUMkzr4IQnkCC32CC/wmtoo/IsAprpcHVe nkBn3eFQ7uND70p5n6GhN/KOh2j519JFHJyokwIDAQABAoIBAHX7VOvBC3kCN9/x +aPdup84OE7Z7MvpX6w+WlUhXVugnmsAAVDczhKoUc/WktLLx2huCGhsmKvyVuH+ MioUiE+vx75gm3qGx5xbtmOfALVMRLopjCnJYf6EaFA0ZeQ+NwowNW7Lu0PHmAU8 Z3JiX8IwxTz14DU82buDyewO7v+cEr97AnERe3PUcSTDoUXNaoNxjNpEJkKREY6h 4hAY676RT/GsRcQ8tqe/rnCqPHNd7JGqL+207FK4tJw7daoBjQyijWuB7K5chSal oPInylM6b13ASXuOAOT/2uSUBWmFVCZPDCmnZxy2SdnJGbsJAMl7Ma3MUlaGvVI+ Tfh1aQkCgYEA4JlNOabTb3z42wz6mz+Nz3JRwbawD+PJXOk5JsSnV7DtPtfgkK9y 6FTQdhnozGWShAvJvc+C4QAihs9AlHXoaBY5bEU7R/8UK/pSqwzam+MmxmhVDV7G IMQPV0FteoXTaJSikhZ88mETTegI2mik+zleBpVxvfdhE5TR+lq8Br0CgYEA2AwJ CUD5CYUSj09PluR0HHqamWOrJkKPFPwa+5eiTTCzfBBxImYZh7nXnWuoviXC0sg2 AuvCW+uZ48ygv/D8gcz3j1JfbErKZJuV+TotK9rRtNIF5Ub7qysP7UjyI7zCssVM kuDd9LfRXaB/qGAHNkcDA8NxmHW3gpln4CFdSY8CgYANs4xwfercHEWaJ1qKagAe rZyrMpffAEhicJ/Z65lB0jtG4CiE6w8ZeUMWUVJQVcnwYD+4YpZbX4S7sJ0B8Ydy AhkSr86D/92dKTIt2STk6aCN7gNyQ1vW198PtaAWH1/cO2UHgHOy3ZUt5X/Uwxl9 cex4flln+1Viumts2GgsCQKBgCJH7psgSyPekK5auFdKEr5+Gc/jB8I/Z3K9+g4X 5nH3G1PBTCJYLw7hRzw8W/8oALzvddqKzEFHphiGXK94Lqjt/A4q1OdbCrhiE68D My21P/dAKB1UYRSs9Y8CNyHCjuZM9jSMJ8vv6vG/SOJPsnVDWVAckAbQDvlTHC9t O98zAoGAcbW6uFDkrv0XMCpB9Su3KaNXOR0wzag+WIFQRXCcoTvxVi9iYfUReQPi oOyBJU/HMVvBfv4g+OVFLVgSwwm6owwsouZ0+D/LasbuHqYyqYqdyPJQYzWA2Y+F +B6f4RoPdSXj24JHPg/ioRxjaj094UXJxua2yfkcecGNEuBQHSs= -----END RSA PRIVATE KEY----- ` ) // TestCore returns a pure in-memory, uninitialized core for testing. func TestCore(t testing.T) *Core { return TestCoreWithSeal(t, nil, false) } // TestCoreRaw returns a pure in-memory, uninitialized core for testing. The raw // storage endpoints are enabled with this core. func TestCoreRaw(t testing.T) *Core { return TestCoreWithSeal(t, nil, true) } // TestCoreNewSeal returns a pure in-memory, uninitialized core with // the new seal configuration. func TestCoreNewSeal(t testing.T) *Core { seal := NewTestSeal(t, nil) return TestCoreWithSeal(t, seal, false) } // TestCoreWithConfig returns a pure in-memory, uninitialized core with the // specified core configurations overridden for testing. func TestCoreWithConfig(t testing.T, conf *CoreConfig) *Core { return TestCoreWithSealAndUI(t, conf) } // TestCoreWithSeal returns a pure in-memory, uninitialized core with the // specified seal for testing. func TestCoreWithSeal(t testing.T, testSeal Seal, enableRaw bool) *Core { conf := &CoreConfig{ Seal: testSeal, EnableUI: false, EnableRaw: enableRaw, BuiltinRegistry: NewMockBuiltinRegistry(), } return TestCoreWithSealAndUI(t, conf) } func TestCoreUI(t testing.T, enableUI bool) *Core { conf := &CoreConfig{ EnableUI: enableUI, EnableRaw: true, BuiltinRegistry: NewMockBuiltinRegistry(), } return TestCoreWithSealAndUI(t, conf) } func TestCoreWithSealAndUI(t testing.T, opts *CoreConfig) *Core { logger := logging.NewVaultLogger(log.Trace) physicalBackend, err := physInmem.NewInmem(nil, logger) if err != nil { t.Fatal(err) } errInjector := physical.NewErrorInjector(physicalBackend, 0, logger) // Start off with base test core config conf := testCoreConfig(t, errInjector, logger) // Override config values with ones that gets passed in conf.EnableUI = opts.EnableUI conf.EnableRaw = opts.EnableRaw conf.Seal = opts.Seal conf.LicensingConfig = opts.LicensingConfig conf.DisableKeyEncodingChecks = opts.DisableKeyEncodingChecks conf.MetricsHelper = opts.MetricsHelper if opts.Logger != nil { conf.Logger = opts.Logger } for k, v := range opts.LogicalBackends { conf.LogicalBackends[k] = v } for k, v := range opts.CredentialBackends { conf.CredentialBackends[k] = v } for k, v := range opts.AuditBackends { conf.AuditBackends[k] = v } c, err := NewCore(conf) if err != nil { t.Fatalf("err: %s", err) } return c } func testCoreConfig(t testing.T, physicalBackend physical.Backend, logger log.Logger) *CoreConfig { t.Helper() noopAudits := map[string]audit.Factory{ "noop": func(_ context.Context, config *audit.BackendConfig) (audit.Backend, error) { view := &logical.InmemStorage{} view.Put(context.Background(), &logical.StorageEntry{ Key: "salt", Value: []byte("foo"), }) config.SaltConfig = &salt.Config{ HMAC: sha256.New, HMACType: "hmac-sha256", } config.SaltView = view n := &noopAudit{ Config: config, } n.formatter.AuditFormatWriter = &audit.JSONFormatWriter{ SaltFunc: n.Salt, } return n, nil }, } noopBackends := make(map[string]logical.Factory) noopBackends["noop"] = func(ctx context.Context, config *logical.BackendConfig) (logical.Backend, error) { b := new(framework.Backend) b.Setup(ctx, config) b.BackendType = logical.TypeCredential return b, nil } noopBackends["http"] = func(ctx context.Context, config *logical.BackendConfig) (logical.Backend, error) { return new(rawHTTP), nil } credentialBackends := make(map[string]logical.Factory) for backendName, backendFactory := range noopBackends { credentialBackends[backendName] = backendFactory } for backendName, backendFactory := range testCredentialBackends { credentialBackends[backendName] = backendFactory } logicalBackends := make(map[string]logical.Factory) for backendName, backendFactory := range noopBackends { logicalBackends[backendName] = backendFactory } logicalBackends["kv"] = LeasedPassthroughBackendFactory for backendName, backendFactory := range testLogicalBackends { logicalBackends[backendName] = backendFactory } conf := &CoreConfig{ Physical: physicalBackend, AuditBackends: noopAudits, LogicalBackends: logicalBackends, CredentialBackends: credentialBackends, DisableMlock: true, Logger: logger, BuiltinRegistry: NewMockBuiltinRegistry(), } return conf } // TestCoreInit initializes the core with a single key, and returns // the key that must be used to unseal the core and a root token. func TestCoreInit(t testing.T, core *Core) ([][]byte, string) { t.Helper() secretShares, _, root := TestCoreInitClusterWrapperSetup(t, core, nil) return secretShares, root } func TestCoreInitClusterWrapperSetup(t testing.T, core *Core, handler http.Handler) ([][]byte, [][]byte, string) { t.Helper() core.SetClusterHandler(handler) barrierConfig := &SealConfig{ SecretShares: 3, SecretThreshold: 3, } switch core.seal.StoredKeysSupported() { case seal.StoredKeysNotSupported: barrierConfig.StoredShares = 0 default: barrierConfig.StoredShares = 1 } recoveryConfig := &SealConfig{ SecretShares: 3, SecretThreshold: 3, } initParams := &InitParams{ BarrierConfig: barrierConfig, RecoveryConfig: recoveryConfig, } if core.seal.StoredKeysSupported() == seal.StoredKeysNotSupported { initParams.LegacyShamirSeal = true } result, err := core.Initialize(context.Background(), initParams) if err != nil { t.Fatalf("err: %s", err) } return result.SecretShares, result.RecoveryShares, result.RootToken } func TestCoreUnseal(core *Core, key []byte) (bool, error) { return core.Unseal(key) } func TestCoreUnsealWithRecoveryKeys(core *Core, key []byte) (bool, error) { return core.UnsealWithRecoveryKeys(key) } // TestCoreUnsealed returns a pure in-memory core that is already // initialized and unsealed. func TestCoreUnsealed(t testing.T) (*Core, [][]byte, string) { t.Helper() core := TestCore(t) return testCoreUnsealed(t, core) } // TestCoreUnsealedRaw returns a pure in-memory core that is already // initialized, unsealed, and with raw endpoints enabled. func TestCoreUnsealedRaw(t testing.T) (*Core, [][]byte, string) { t.Helper() core := TestCoreRaw(t) return testCoreUnsealed(t, core) } // TestCoreUnsealedWithConfig returns a pure in-memory core that is already // initialized, unsealed, with the any provided core config values overridden. func TestCoreUnsealedWithConfig(t testing.T, conf *CoreConfig) (*Core, [][]byte, string) { t.Helper() core := TestCoreWithConfig(t, conf) return testCoreUnsealed(t, core) } func testCoreUnsealed(t testing.T, core *Core) (*Core, [][]byte, string) { t.Helper() keys, token := TestCoreInit(t, core) for _, key := range keys { if _, err := TestCoreUnseal(core, TestKeyCopy(key)); err != nil { t.Fatalf("unseal err: %s", err) } } if core.Sealed() { t.Fatal("should not be sealed") } testCoreAddSecretMount(t, core, token) return core, keys, token } func testCoreAddSecretMount(t testing.T, core *Core, token string) { kvReq := &logical.Request{ Operation: logical.UpdateOperation, ClientToken: token, Path: "sys/mounts/secret", Data: map[string]interface{}{ "type": "kv", "path": "secret/", "description": "key/value secret storage", "options": map[string]string{ "version": "1", }, }, } resp, err := core.HandleRequest(namespace.RootContext(nil), kvReq) if err != nil { t.Fatal(err) } if resp.IsError() { t.Fatal(err) } } func TestCoreUnsealedBackend(t testing.T, backend physical.Backend) (*Core, [][]byte, string) { t.Helper() logger := logging.NewVaultLogger(log.Trace) conf := testCoreConfig(t, backend, logger) conf.Seal = NewTestSeal(t, nil) core, err := NewCore(conf) if err != nil { t.Fatalf("err: %s", err) } keys, token := TestCoreInit(t, core) for _, key := range keys { if _, err := TestCoreUnseal(core, TestKeyCopy(key)); err != nil { t.Fatalf("unseal err: %s", err) } } if err := core.UnsealWithStoredKeys(context.Background()); err != nil { t.Fatal(err) } if core.Sealed() { t.Fatal("should not be sealed") } return core, keys, token } // TestKeyCopy is a silly little function to just copy the key so that // it can be used with Unseal easily. func TestKeyCopy(key []byte) []byte { result := make([]byte, len(key)) copy(result, key) return result } func TestDynamicSystemView(c *Core) *dynamicSystemView { me := &MountEntry{ Config: MountConfig{ DefaultLeaseTTL: 24 * time.Hour, MaxLeaseTTL: 2 * 24 * time.Hour, }, } return &dynamicSystemView{c, me} } // TestAddTestPlugin registers the testFunc as part of the plugin command to the // plugin catalog. If provided, uses tmpDir as the plugin directory. func TestAddTestPlugin(t testing.T, c *Core, name string, pluginType consts.PluginType, testFunc string, env []string, tempDir string) { file, err := os.Open(os.Args[0]) if err != nil { t.Fatal(err) } defer file.Close() dirPath := filepath.Dir(os.Args[0]) fileName := filepath.Base(os.Args[0]) if tempDir != "" { fi, err := file.Stat() if err != nil { t.Fatal(err) } // Copy over the file to the temp dir dst := filepath.Join(tempDir, fileName) out, err := os.OpenFile(dst, os.O_WRONLY|os.O_CREATE|os.O_TRUNC, fi.Mode()) if err != nil { t.Fatal(err) } defer out.Close() if _, err = io.Copy(out, file); err != nil { t.Fatal(err) } err = out.Sync() if err != nil { t.Fatal(err) } dirPath = tempDir } // Determine plugin directory full path, evaluating potential symlink path fullPath, err := filepath.EvalSymlinks(dirPath) if err != nil { t.Fatal(err) } reader, err := os.Open(filepath.Join(fullPath, fileName)) if err != nil { t.Fatal(err) } defer reader.Close() // Find out the sha256 hash := sha256.New() _, err = io.Copy(hash, reader) if err != nil { t.Fatal(err) } sum := hash.Sum(nil) // Set core's plugin directory and plugin catalog directory c.pluginDirectory = fullPath c.pluginCatalog.directory = fullPath args := []string{fmt.Sprintf("--test.run=%s", testFunc)} err = c.pluginCatalog.Set(context.Background(), name, pluginType, fileName, args, env, sum) if err != nil { t.Fatal(err) } } var testLogicalBackends = map[string]logical.Factory{} var testCredentialBackends = map[string]logical.Factory{} // This adds a credential backend for the test core. This needs to be // invoked before the test core is created. func AddTestCredentialBackend(name string, factory logical.Factory) error { if name == "" { return fmt.Errorf("missing backend name") } if factory == nil { return fmt.Errorf("missing backend factory function") } testCredentialBackends[name] = factory return nil } // This adds a logical backend for the test core. This needs to be // invoked before the test core is created. func AddTestLogicalBackend(name string, factory logical.Factory) error { if name == "" { return fmt.Errorf("missing backend name") } if factory == nil { return fmt.Errorf("missing backend factory function") } testLogicalBackends[name] = factory return nil } type noopAudit struct { Config *audit.BackendConfig salt *salt.Salt saltMutex sync.RWMutex formatter audit.AuditFormatter records [][]byte l sync.RWMutex } func (n *noopAudit) GetHash(ctx context.Context, data string) (string, error) { salt, err := n.Salt(ctx) if err != nil { return "", err } return salt.GetIdentifiedHMAC(data), nil } func (n *noopAudit) LogRequest(ctx context.Context, in *logical.LogInput) error { n.l.Lock() defer n.l.Unlock() var w bytes.Buffer err := n.formatter.FormatRequest(ctx, &w, audit.FormatterConfig{}, in) if err != nil { return err } n.records = append(n.records, w.Bytes()) return nil } func (n *noopAudit) LogResponse(ctx context.Context, in *logical.LogInput) error { n.l.Lock() defer n.l.Unlock() var w bytes.Buffer err := n.formatter.FormatResponse(ctx, &w, audit.FormatterConfig{}, in) if err != nil { return err } n.records = append(n.records, w.Bytes()) return nil } func (n *noopAudit) Reload(_ context.Context) error { return nil } func (n *noopAudit) Invalidate(_ context.Context) { n.saltMutex.Lock() defer n.saltMutex.Unlock() n.salt = nil } func (n *noopAudit) Salt(ctx context.Context) (*salt.Salt, error) { n.saltMutex.RLock() if n.salt != nil { defer n.saltMutex.RUnlock() return n.salt, nil } n.saltMutex.RUnlock() n.saltMutex.Lock() defer n.saltMutex.Unlock() if n.salt != nil { return n.salt, nil } salt, err := salt.NewSalt(ctx, n.Config.SaltView, n.Config.SaltConfig) if err != nil { return nil, err } n.salt = salt return salt, nil } func AddNoopAudit(conf *CoreConfig, records **[][]byte) { conf.AuditBackends = map[string]audit.Factory{ "noop": func(_ context.Context, config *audit.BackendConfig) (audit.Backend, error) { view := &logical.InmemStorage{} view.Put(context.Background(), &logical.StorageEntry{ Key: "salt", Value: []byte("foo"), }) n := &noopAudit{ Config: config, } n.formatter.AuditFormatWriter = &audit.JSONFormatWriter{ SaltFunc: n.Salt, } if records != nil { *records = &n.records } return n, nil }, } } type rawHTTP struct{} func (n *rawHTTP) HandleRequest(ctx context.Context, req *logical.Request) (*logical.Response, error) { return &logical.Response{ Data: map[string]interface{}{ logical.HTTPStatusCode: 200, logical.HTTPContentType: "plain/text", logical.HTTPRawBody: []byte("hello world"), }, }, nil } func (n *rawHTTP) HandleExistenceCheck(ctx context.Context, req *logical.Request) (bool, bool, error) { return false, false, nil } func (n *rawHTTP) SpecialPaths() *logical.Paths { return &logical.Paths{Unauthenticated: []string{"*"}} } func (n *rawHTTP) System() logical.SystemView { return logical.StaticSystemView{ DefaultLeaseTTLVal: time.Hour * 24, MaxLeaseTTLVal: time.Hour * 24 * 32, } } func (n *rawHTTP) Logger() log.Logger { return logging.NewVaultLogger(log.Trace) } func (n *rawHTTP) Cleanup(ctx context.Context) { // noop } func (n *rawHTTP) Initialize(ctx context.Context, req *logical.InitializationRequest) error { return nil } func (n *rawHTTP) InvalidateKey(context.Context, string) { // noop } func (n *rawHTTP) Setup(ctx context.Context, config *logical.BackendConfig) error { // noop return nil } func (n *rawHTTP) Type() logical.BackendType { return logical.TypeLogical } func GenerateRandBytes(length int) ([]byte, error) { if length < 0 { return nil, fmt.Errorf("length must be >= 0") } buf := make([]byte, length) if length == 0 { return buf, nil } n, err := rand.Read(buf) if err != nil { return nil, err } if n != length { return nil, fmt.Errorf("unable to read %d bytes; only read %d", length, n) } return buf, nil } func TestWaitActive(t testing.T, core *Core) { t.Helper() if err := TestWaitActiveWithError(core); err != nil { t.Fatal(err) } } func TestWaitActiveWithError(core *Core) error { start := time.Now() var standby bool var err error for time.Now().Sub(start) < 30*time.Second { standby, err = core.Standby() if err != nil { return err } if !standby { break } } if standby { return errors.New("should not be in standby mode") } return nil } type TestCluster struct { BarrierKeys [][]byte RecoveryKeys [][]byte CACert *x509.Certificate CACertBytes []byte CACertPEM []byte CACertPEMFile string CAKey *ecdsa.PrivateKey CAKeyPEM []byte Cores []*TestClusterCore ID string RootToken string RootCAs *x509.CertPool TempDir string ClientAuthRequired bool Logger log.Logger CleanupFunc func() SetupFunc func() cleanupFuncs []func() base *CoreConfig pubKey interface{} priKey interface{} } func (c *TestCluster) Start() { for i, core := range c.Cores { if core.Server != nil { for _, ln := range core.Listeners { c.Logger.Info("starting listener for test core", "core", i, "port", ln.Address.Port) go core.Server.Serve(ln) } } } if c.SetupFunc != nil { c.SetupFunc() } } // UnsealCores uses the cluster barrier keys to unseal the test cluster cores func (c *TestCluster) UnsealCores(t testing.T) { t.Helper() if err := c.UnsealCoresWithError(false); err != nil { t.Fatal(err) } } func (c *TestCluster) UnsealCoresWithError(useStoredKeys bool) error { unseal := func(core *Core) error { for _, key := range c.BarrierKeys { if _, err := core.Unseal(TestKeyCopy(key)); err != nil { return err } } return nil } if useStoredKeys { unseal = func(core *Core) error { return core.UnsealWithStoredKeys(context.Background()) } } // Unseal first core if err := unseal(c.Cores[0].Core); err != nil { return fmt.Errorf("unseal core %d err: %s", 0, err) } // Verify unsealed if c.Cores[0].Sealed() { return fmt.Errorf("should not be sealed") } if err := TestWaitActiveWithError(c.Cores[0].Core); err != nil { return err } // Unseal other cores for i := 1; i < len(c.Cores); i++ { if err := unseal(c.Cores[i].Core); err != nil { return fmt.Errorf("unseal core %d err: %s", i, err) } } // Let them come fully up to standby time.Sleep(2 * time.Second) // Ensure cluster connection info is populated. // Other cores should not come up as leaders. for i := 1; i < len(c.Cores); i++ { isLeader, _, _, err := c.Cores[i].Leader() if err != nil { return err } if isLeader { return fmt.Errorf("core[%d] should not be leader", i) } } return nil } func (c *TestCluster) UnsealCore(t testing.T, core *TestClusterCore) { var keys [][]byte if core.seal.RecoveryKeySupported() { keys = c.RecoveryKeys } else { keys = c.BarrierKeys } for _, key := range keys { if _, err := core.Core.Unseal(TestKeyCopy(key)); err != nil { t.Fatalf("unseal err: %s", err) } } } func (c *TestCluster) UnsealCoreWithStoredKeys(t testing.T, core *TestClusterCore) { if err := core.UnsealWithStoredKeys(context.Background()); err != nil { t.Fatal(err) } } func (c *TestCluster) EnsureCoresSealed(t testing.T) { t.Helper() if err := c.ensureCoresSealed(); err != nil { t.Fatal(err) } } func (c *TestClusterCore) Seal(t testing.T) { t.Helper() if err := c.Core.sealInternal(); err != nil { t.Fatal(err) } } func (c *TestClusterCore) stop() error { c.Logger().Info("stopping vault test core") if c.Listeners != nil { for _, ln := range c.Listeners { ln.Close() } c.Logger().Info("listeners successfully shut down") } if c.licensingStopCh != nil { close(c.licensingStopCh) c.licensingStopCh = nil } if err := c.Shutdown(); err != nil { return err } timeout := time.Now().Add(60 * time.Second) for { if time.Now().After(timeout) { return errors.New("timeout waiting for core to seal") } if c.Sealed() { break } time.Sleep(250 * time.Millisecond) } c.Logger().Info("vault test core stopped") return nil } func CleanupClusters(clusters []*TestCluster) { wg := &sync.WaitGroup{} for _, cluster := range clusters { wg.Add(1) lc := cluster go func() { defer wg.Done() lc.Cleanup() }() } wg.Wait() } func (c *TestCluster) Cleanup() { c.Logger.Info("cleaning up vault cluster") for _, core := range c.Cores { // Upgrade logger to emit errors if not doing so already if !core.CoreConfig.Logger.IsError() { core.CoreConfig.Logger.SetLevel(log.Error) } } wg := &sync.WaitGroup{} for _, core := range c.Cores { wg.Add(1) lc := core go func() { defer wg.Done() if err := lc.stop(); err != nil { lc.Logger().Error("error during cleanup", "error", err) } }() } wg.Wait() // Remove any temp dir that exists if c.TempDir != "" { os.RemoveAll(c.TempDir) } // Give time to actually shut down/clean up before the next test time.Sleep(time.Second) if c.CleanupFunc != nil { c.CleanupFunc() } } func (c *TestCluster) ensureCoresSealed() error { for _, core := range c.Cores { if err := core.Shutdown(); err != nil { return err } timeout := time.Now().Add(60 * time.Second) for { if time.Now().After(timeout) { return fmt.Errorf("timeout waiting for core to seal") } if core.Sealed() { break } time.Sleep(250 * time.Millisecond) } } return nil } func SetReplicationFailureMode(core *TestClusterCore, mode uint32) { atomic.StoreUint32(core.Core.replicationFailure, mode) } type TestListener struct { net.Listener Address *net.TCPAddr } type TestClusterCore struct { *Core CoreConfig *CoreConfig Client *api.Client Handler http.Handler Address *net.TCPAddr Listeners []*TestListener ReloadFuncs *map[string][]reloadutil.ReloadFunc ReloadFuncsLock *sync.RWMutex Server *http.Server ServerCert *x509.Certificate ServerCertBytes []byte ServerCertPEM []byte ServerKey *ecdsa.PrivateKey ServerKeyPEM []byte TLSConfig *tls.Config UnderlyingStorage physical.Backend UnderlyingRawStorage physical.Backend UnderlyingHAStorage physical.HABackend Barrier SecurityBarrier NodeID string } type PhysicalBackendBundle struct { Backend physical.Backend HABackend physical.HABackend Cleanup func() } type TestClusterOptions struct { KeepStandbysSealed bool SkipInit bool HandlerFunc func(*HandlerProperties) http.Handler DefaultHandlerProperties HandlerProperties // BaseListenAddress is used to explicitly assign ports in sequence to the // listener of each core. It shoud be a string of the form // "127.0.0.1:20000" // // WARNING: Using an explicitly assigned port above 30000 may clash with // ephemeral ports that have been assigned by the OS in other tests. The // use of explictly assigned ports below 30000 is strongly recommended. // In addition, you should be careful to use explictly assigned ports that // do not clash with any other explicitly assigned ports in other tests. BaseListenAddress string // BaseClusterListenPort is used to explicitly assign ports in sequence to // the cluster listener of each core. If BaseClusterListenPort is // specified, then BaseListenAddress must also be specified. Each cluster // listener will use the same host as the one specified in // BaseListenAddress. // // WARNING: Using an explicitly assigned port above 30000 may clash with // ephemeral ports that have been assigned by the OS in other tests. The // use of explictly assigned ports below 30000 is strongly recommended. // In addition, you should be careful to use explictly assigned ports that // do not clash with any other explicitly assigned ports in other tests. BaseClusterListenPort int NumCores int SealFunc func() Seal Logger log.Logger TempDir string CACert []byte CAKey *ecdsa.PrivateKey // PhysicalFactory is used to create backends. // The int argument is the index of the core within the cluster, i.e. first // core in cluster will have 0, second 1, etc. // If the backend is shared across the cluster (i.e. is not Raft) then it // should return nil when coreIdx != 0. PhysicalFactory func(t testing.T, coreIdx int, logger log.Logger) *PhysicalBackendBundle // FirstCoreNumber is used to assign a unique number to each core within // a multi-cluster setup. FirstCoreNumber int RequireClientAuth bool // SetupFunc is called after the cluster is started. SetupFunc func(t testing.T, c *TestCluster) PR1103Disabled bool // ClusterLayers are used to override the default cluster connection layer ClusterLayers cluster.NetworkLayerSet // RaftAddressProvider is used to set the raft ServerAddressProvider on // each core. // // If SkipInit is true, then RaftAddressProvider has no effect. // RaftAddressProvider should only be specified if the underlying physical // storage is Raft. RaftAddressProvider raftlib.ServerAddressProvider } var DefaultNumCores = 3 type certInfo struct { cert *x509.Certificate certPEM []byte certBytes []byte key *ecdsa.PrivateKey keyPEM []byte } type TestLogger struct { log.Logger Path string File *os.File } func NewTestLogger(t testing.T) *TestLogger { var logDir = os.Getenv("VAULT_TEST_LOG_DIR") if logDir == "" { return &TestLogger{ Logger: logging.NewVaultLogger(log.Trace).Named(t.Name()), } } logFileName := filepath.Join(logDir, t.Name()+".log") // t.Name may include slashes. dir, _ := filepath.Split(logFileName) if err := os.MkdirAll(dir, 0755); err != nil { t.Fatal(err) } logFile, err := os.Create(logFileName) if err != nil { t.Fatal(err) } return &TestLogger{ Path: logFileName, File: logFile, Logger: logging.NewVaultLoggerWithWriter(logFile, log.Trace), } } // NewTestCluster creates a new test cluster based on the provided core config // and test cluster options. // // N.B. Even though a single base CoreConfig is provided, NewTestCluster will instantiate a // core config for each core it creates. If separate seal per core is desired, opts.SealFunc // can be provided to generate a seal for each one. Otherwise, the provided base.Seal will be // shared among cores. NewCore's default behavior is to generate a new DefaultSeal if the // provided Seal in coreConfig (i.e. base.Seal) is nil. // // If opts.Logger is provided, it takes precedence and will be used as the cluster // logger and will be the basis for each core's logger. If no opts.Logger is // given, one will be generated based on t.Name() for the cluster logger, and if // no base.Logger is given will also be used as the basis for each core's logger. func NewTestCluster(t testing.T, base *CoreConfig, opts *TestClusterOptions) *TestCluster { var err error var numCores int if opts == nil || opts.NumCores == 0 { numCores = DefaultNumCores } else { numCores = opts.NumCores } certIPs := []net.IP{ net.IPv6loopback, net.ParseIP("127.0.0.1"), } var baseAddr *net.TCPAddr if opts != nil && opts.BaseListenAddress != "" { baseAddr, err = net.ResolveTCPAddr("tcp", opts.BaseListenAddress) if err != nil { t.Fatal("could not parse given base IP") } certIPs = append(certIPs, baseAddr.IP) } else { baseAddr = &net.TCPAddr{ IP: net.ParseIP("127.0.0.1"), Port: 0, } } var testCluster TestCluster testCluster.base = base switch { case opts != nil && opts.Logger != nil: testCluster.Logger = opts.Logger default: testCluster.Logger = NewTestLogger(t) } if opts != nil && opts.TempDir != "" { if _, err := os.Stat(opts.TempDir); os.IsNotExist(err) { if err := os.MkdirAll(opts.TempDir, 0700); err != nil { t.Fatal(err) } } testCluster.TempDir = opts.TempDir } else { tempDir, err := ioutil.TempDir("", "vault-test-cluster-") if err != nil { t.Fatal(err) } testCluster.TempDir = tempDir } var caKey *ecdsa.PrivateKey if opts != nil && opts.CAKey != nil { caKey = opts.CAKey } else { caKey, err = ecdsa.GenerateKey(elliptic.P256(), rand.Reader) if err != nil { t.Fatal(err) } } testCluster.CAKey = caKey var caBytes []byte if opts != nil && len(opts.CACert) > 0 { caBytes = opts.CACert } else { caCertTemplate := &x509.Certificate{ Subject: pkix.Name{ CommonName: "localhost", }, DNSNames: []string{"localhost"}, IPAddresses: certIPs, KeyUsage: x509.KeyUsage(x509.KeyUsageCertSign | x509.KeyUsageCRLSign), SerialNumber: big.NewInt(mathrand.Int63()), NotBefore: time.Now().Add(-30 * time.Second), NotAfter: time.Now().Add(262980 * time.Hour), BasicConstraintsValid: true, IsCA: true, } caBytes, err = x509.CreateCertificate(rand.Reader, caCertTemplate, caCertTemplate, caKey.Public(), caKey) if err != nil { t.Fatal(err) } } caCert, err := x509.ParseCertificate(caBytes) if err != nil { t.Fatal(err) } testCluster.CACert = caCert testCluster.CACertBytes = caBytes testCluster.RootCAs = x509.NewCertPool() testCluster.RootCAs.AddCert(caCert) caCertPEMBlock := &pem.Block{ Type: "CERTIFICATE", Bytes: caBytes, } testCluster.CACertPEM = pem.EncodeToMemory(caCertPEMBlock) testCluster.CACertPEMFile = filepath.Join(testCluster.TempDir, "ca_cert.pem") err = ioutil.WriteFile(testCluster.CACertPEMFile, testCluster.CACertPEM, 0755) if err != nil { t.Fatal(err) } marshaledCAKey, err := x509.MarshalECPrivateKey(caKey) if err != nil { t.Fatal(err) } caKeyPEMBlock := &pem.Block{ Type: "EC PRIVATE KEY", Bytes: marshaledCAKey, } testCluster.CAKeyPEM = pem.EncodeToMemory(caKeyPEMBlock) err = ioutil.WriteFile(filepath.Join(testCluster.TempDir, "ca_key.pem"), testCluster.CAKeyPEM, 0755) if err != nil { t.Fatal(err) } var certInfoSlice []*certInfo // // Certs generation // for i := 0; i < numCores; i++ { key, err := ecdsa.GenerateKey(elliptic.P256(), rand.Reader) if err != nil { t.Fatal(err) } certTemplate := &x509.Certificate{ Subject: pkix.Name{ CommonName: "localhost", }, // Include host.docker.internal for the sake of benchmark-vault running on MacOS/Windows. // This allows Prometheus running in docker to scrape the cluster for metrics. DNSNames: []string{"localhost", "host.docker.internal"}, IPAddresses: certIPs, ExtKeyUsage: []x509.ExtKeyUsage{ x509.ExtKeyUsageServerAuth, x509.ExtKeyUsageClientAuth, }, KeyUsage: x509.KeyUsageDigitalSignature | x509.KeyUsageKeyEncipherment | x509.KeyUsageKeyAgreement, SerialNumber: big.NewInt(mathrand.Int63()), NotBefore: time.Now().Add(-30 * time.Second), NotAfter: time.Now().Add(262980 * time.Hour), } certBytes, err := x509.CreateCertificate(rand.Reader, certTemplate, caCert, key.Public(), caKey) if err != nil { t.Fatal(err) } cert, err := x509.ParseCertificate(certBytes) if err != nil { t.Fatal(err) } certPEMBlock := &pem.Block{ Type: "CERTIFICATE", Bytes: certBytes, } certPEM := pem.EncodeToMemory(certPEMBlock) marshaledKey, err := x509.MarshalECPrivateKey(key) if err != nil { t.Fatal(err) } keyPEMBlock := &pem.Block{ Type: "EC PRIVATE KEY", Bytes: marshaledKey, } keyPEM := pem.EncodeToMemory(keyPEMBlock) certInfoSlice = append(certInfoSlice, &certInfo{ cert: cert, certPEM: certPEM, certBytes: certBytes, key: key, keyPEM: keyPEM, }) } // // Listener setup // addresses := []*net.TCPAddr{} listeners := [][]*TestListener{} servers := []*http.Server{} handlers := []http.Handler{} tlsConfigs := []*tls.Config{} certGetters := []*reloadutil.CertificateGetter{} for i := 0; i < numCores; i++ { addr := &net.TCPAddr{ IP: baseAddr.IP, Port: 0, } if baseAddr.Port != 0 { addr.Port = baseAddr.Port + i } ln, err := net.ListenTCP("tcp", addr) if err != nil { t.Fatal(err) } addresses = append(addresses, addr) certFile := filepath.Join(testCluster.TempDir, fmt.Sprintf("node%d_port_%d_cert.pem", i+1, ln.Addr().(*net.TCPAddr).Port)) keyFile := filepath.Join(testCluster.TempDir, fmt.Sprintf("node%d_port_%d_key.pem", i+1, ln.Addr().(*net.TCPAddr).Port)) err = ioutil.WriteFile(certFile, certInfoSlice[i].certPEM, 0755) if err != nil { t.Fatal(err) } err = ioutil.WriteFile(keyFile, certInfoSlice[i].keyPEM, 0755) if err != nil { t.Fatal(err) } tlsCert, err := tls.X509KeyPair(certInfoSlice[i].certPEM, certInfoSlice[i].keyPEM) if err != nil { t.Fatal(err) } certGetter := reloadutil.NewCertificateGetter(certFile, keyFile, "") certGetters = append(certGetters, certGetter) certGetter.Reload() tlsConfig := &tls.Config{ Certificates: []tls.Certificate{tlsCert}, RootCAs: testCluster.RootCAs, ClientCAs: testCluster.RootCAs, ClientAuth: tls.RequestClientCert, NextProtos: []string{"h2", "http/1.1"}, GetCertificate: certGetter.GetCertificate, } if opts != nil && opts.RequireClientAuth { tlsConfig.ClientAuth = tls.RequireAndVerifyClientCert testCluster.ClientAuthRequired = true } tlsConfig.BuildNameToCertificate() tlsConfigs = append(tlsConfigs, tlsConfig) lns := []*TestListener{&TestListener{ Listener: tls.NewListener(ln, tlsConfig), Address: ln.Addr().(*net.TCPAddr), }, } listeners = append(listeners, lns) var handler http.Handler = http.NewServeMux() handlers = append(handlers, handler) server := &http.Server{ Handler: handler, ErrorLog: testCluster.Logger.StandardLogger(nil), } servers = append(servers, server) } // Create three cores with the same physical and different redirect/cluster // addrs. // N.B.: On OSX, instead of random ports, it assigns new ports to new // listeners sequentially. Aside from being a bad idea in a security sense, // it also broke tests that assumed it was OK to just use the port above // the redirect addr. This has now been changed to 105 ports above, but if // we ever do more than three nodes in a cluster it may need to be bumped. // Note: it's 105 so that we don't conflict with a running Consul by // default. coreConfig := &CoreConfig{ LogicalBackends: make(map[string]logical.Factory), CredentialBackends: make(map[string]logical.Factory), AuditBackends: make(map[string]audit.Factory), RedirectAddr: fmt.Sprintf("https://127.0.0.1:%d", listeners[0][0].Address.Port), ClusterAddr: "https://127.0.0.1:0", DisableMlock: true, EnableUI: true, EnableRaw: true, BuiltinRegistry: NewMockBuiltinRegistry(), } if base != nil { coreConfig.RawConfig = base.RawConfig coreConfig.DisableCache = base.DisableCache coreConfig.EnableUI = base.EnableUI coreConfig.DefaultLeaseTTL = base.DefaultLeaseTTL coreConfig.MaxLeaseTTL = base.MaxLeaseTTL coreConfig.CacheSize = base.CacheSize coreConfig.PluginDirectory = base.PluginDirectory coreConfig.Seal = base.Seal coreConfig.UnwrapSeal = base.UnwrapSeal coreConfig.DevToken = base.DevToken coreConfig.EnableRaw = base.EnableRaw coreConfig.DisableSealWrap = base.DisableSealWrap coreConfig.DevLicenseDuration = base.DevLicenseDuration coreConfig.DisableCache = base.DisableCache coreConfig.LicensingConfig = base.LicensingConfig coreConfig.DisablePerformanceStandby = base.DisablePerformanceStandby coreConfig.MetricsHelper = base.MetricsHelper coreConfig.SecureRandomReader = base.SecureRandomReader if base.BuiltinRegistry != nil { coreConfig.BuiltinRegistry = base.BuiltinRegistry } if !coreConfig.DisableMlock { base.DisableMlock = false } if base.Physical != nil { coreConfig.Physical = base.Physical } if base.HAPhysical != nil { coreConfig.HAPhysical = base.HAPhysical } // Used to set something non-working to test fallback switch base.ClusterAddr { case "empty": coreConfig.ClusterAddr = "" case "": default: coreConfig.ClusterAddr = base.ClusterAddr } if base.LogicalBackends != nil { for k, v := range base.LogicalBackends { coreConfig.LogicalBackends[k] = v } } if base.CredentialBackends != nil { for k, v := range base.CredentialBackends { coreConfig.CredentialBackends[k] = v } } if base.AuditBackends != nil { for k, v := range base.AuditBackends { coreConfig.AuditBackends[k] = v } } if base.Logger != nil { coreConfig.Logger = base.Logger } coreConfig.ClusterCipherSuites = base.ClusterCipherSuites coreConfig.DisableCache = base.DisableCache coreConfig.DevToken = base.DevToken coreConfig.CounterSyncInterval = base.CounterSyncInterval coreConfig.RecoveryMode = base.RecoveryMode } if coreConfig.RawConfig == nil { c := new(server.Config) c.SharedConfig = &configutil.SharedConfig{LogFormat: logging.UnspecifiedFormat.String()} coreConfig.RawConfig = c } addAuditBackend := len(coreConfig.AuditBackends) == 0 if addAuditBackend { AddNoopAudit(coreConfig, nil) } if coreConfig.Physical == nil && (opts == nil || opts.PhysicalFactory == nil) { coreConfig.Physical, err = physInmem.NewInmem(nil, testCluster.Logger) if err != nil { t.Fatal(err) } } if coreConfig.HAPhysical == nil && (opts == nil || opts.PhysicalFactory == nil) { haPhys, err := physInmem.NewInmemHA(nil, testCluster.Logger) if err != nil { t.Fatal(err) } coreConfig.HAPhysical = haPhys.(physical.HABackend) } pubKey, priKey, err := testGenerateCoreKeys() if err != nil { t.Fatalf("err: %v", err) } testCluster.pubKey = pubKey testCluster.priKey = priKey // Create cores testCluster.cleanupFuncs = []func(){} cores := []*Core{} coreConfigs := []*CoreConfig{} for i := 0; i < numCores; i++ { cleanup, c, localConfig, handler := testCluster.newCore(t, i, coreConfig, opts, listeners[i], pubKey) testCluster.cleanupFuncs = append(testCluster.cleanupFuncs, cleanup) cores = append(cores, c) coreConfigs = append(coreConfigs, &localConfig) if handler != nil { handlers[i] = handler servers[i].Handler = handlers[i] } } // Clustering setup for i := 0; i < numCores; i++ { testCluster.setupClusterListener(t, i, cores[i], coreConfigs[i], opts, listeners[i], handlers[i]) } // Create TestClusterCores var ret []*TestClusterCore for i := 0; i < numCores; i++ { tcc := &TestClusterCore{ Core: cores[i], CoreConfig: coreConfigs[i], ServerKey: certInfoSlice[i].key, ServerKeyPEM: certInfoSlice[i].keyPEM, ServerCert: certInfoSlice[i].cert, ServerCertBytes: certInfoSlice[i].certBytes, ServerCertPEM: certInfoSlice[i].certPEM, Address: addresses[i], Listeners: listeners[i], Handler: handlers[i], Server: servers[i], TLSConfig: tlsConfigs[i], Barrier: cores[i].barrier, NodeID: fmt.Sprintf("core-%d", i), UnderlyingRawStorage: coreConfigs[i].Physical, UnderlyingHAStorage: coreConfigs[i].HAPhysical, } tcc.ReloadFuncs = &cores[i].reloadFuncs tcc.ReloadFuncsLock = &cores[i].reloadFuncsLock tcc.ReloadFuncsLock.Lock() (*tcc.ReloadFuncs)["listener|tcp"] = []reloadutil.ReloadFunc{certGetters[i].Reload} tcc.ReloadFuncsLock.Unlock() testAdjustTestCore(base, tcc) ret = append(ret, tcc) } testCluster.Cores = ret // Initialize cores if opts == nil || !opts.SkipInit { testCluster.initCores(t, opts, addAuditBackend) } // Assign clients for i := 0; i < numCores; i++ { testCluster.Cores[i].Client = testCluster.getAPIClient(t, opts, listeners[i][0].Address.Port, tlsConfigs[i]) } // Extra Setup for _, tcc := range testCluster.Cores { testExtraTestCoreSetup(t, priKey, tcc) } // Cleanup testCluster.CleanupFunc = func() { for _, c := range testCluster.cleanupFuncs { c() } if l, ok := testCluster.Logger.(*TestLogger); ok { if t.Failed() { _ = l.File.Close() } else { _ = os.Remove(l.Path) } } } // Setup if opts != nil { if opts.SetupFunc != nil { testCluster.SetupFunc = func() { opts.SetupFunc(t, &testCluster) } } } return &testCluster } // StopCore performs an orderly shutdown of a core. func (cluster *TestCluster) StopCore(t testing.T, idx int) { t.Helper() if idx < 0 || idx > len(cluster.Cores) { t.Fatalf("invalid core index %d", idx) } tcc := cluster.Cores[idx] tcc.Logger().Info("stopping core", "core", idx) // Stop listeners and call Shutdown() if err := tcc.stop(); err != nil { t.Fatal(err) } // Run cleanup cluster.cleanupFuncs[idx]() } // Restart a TestClusterCore that was stopped, by replacing the // underlying Core. func (cluster *TestCluster) StartCore(t testing.T, idx int, opts *TestClusterOptions) { t.Helper() if idx < 0 || idx > len(cluster.Cores) { t.Fatalf("invalid core index %d", idx) } tcc := cluster.Cores[idx] tcc.Logger().Info("restarting core", "core", idx) // Set up listeners ln, err := net.ListenTCP("tcp", tcc.Address) if err != nil { t.Fatal(err) } tcc.Listeners = []*TestListener{&TestListener{ Listener: tls.NewListener(ln, tcc.TLSConfig), Address: ln.Addr().(*net.TCPAddr), }, } tcc.Handler = http.NewServeMux() tcc.Server = &http.Server{ Handler: tcc.Handler, ErrorLog: cluster.Logger.StandardLogger(nil), } // Create a new Core cleanup, newCore, localConfig, coreHandler := cluster.newCore( t, idx, tcc.CoreConfig, opts, tcc.Listeners, cluster.pubKey) if coreHandler != nil { tcc.Handler = coreHandler tcc.Server.Handler = coreHandler } cluster.cleanupFuncs[idx] = cleanup tcc.Core = newCore tcc.CoreConfig = &localConfig tcc.UnderlyingRawStorage = localConfig.Physical cluster.setupClusterListener( t, idx, newCore, tcc.CoreConfig, opts, tcc.Listeners, tcc.Handler) tcc.Client = cluster.getAPIClient(t, opts, tcc.Listeners[0].Address.Port, tcc.TLSConfig) testAdjustTestCore(cluster.base, tcc) testExtraTestCoreSetup(t, cluster.priKey, tcc) // Start listeners for _, ln := range tcc.Listeners { tcc.Logger().Info("starting listener for core", "port", ln.Address.Port) go tcc.Server.Serve(ln) } tcc.Logger().Info("restarted test core", "core", idx) } func (testCluster *TestCluster) newCore( t testing.T, idx int, coreConfig *CoreConfig, opts *TestClusterOptions, listeners []*TestListener, pubKey interface{}, ) (func(), *Core, CoreConfig, http.Handler) { localConfig := *coreConfig cleanupFunc := func() {} var handler http.Handler var disablePR1103 bool if opts != nil && opts.PR1103Disabled { disablePR1103 = true } var firstCoreNumber int if opts != nil { firstCoreNumber = opts.FirstCoreNumber } localConfig.RedirectAddr = fmt.Sprintf("https://127.0.0.1:%d", listeners[0].Address.Port) // if opts.SealFunc is provided, use that to generate a seal for the config instead if opts != nil && opts.SealFunc != nil { localConfig.Seal = opts.SealFunc() } if coreConfig.Logger == nil || (opts != nil && opts.Logger != nil) { localConfig.Logger = testCluster.Logger.Named(fmt.Sprintf("core%d", idx)) } if opts != nil && opts.PhysicalFactory != nil { physBundle := opts.PhysicalFactory(t, idx, localConfig.Logger) switch { case physBundle == nil && coreConfig.Physical != nil: case physBundle == nil && coreConfig.Physical == nil: t.Fatal("PhysicalFactory produced no physical and none in CoreConfig") case physBundle != nil: // Storage backend setup if physBundle.Backend != nil { testCluster.Logger.Info("created physical backend", "instance", idx) coreConfig.Physical = physBundle.Backend localConfig.Physical = physBundle.Backend } // HA Backend setup haBackend := physBundle.HABackend if haBackend == nil { if ha, ok := physBundle.Backend.(physical.HABackend); ok { haBackend = ha } } coreConfig.HAPhysical = haBackend localConfig.HAPhysical = haBackend // Cleanup setup if physBundle.Cleanup != nil { cleanupFunc = physBundle.Cleanup } } } if opts != nil && opts.ClusterLayers != nil { localConfig.ClusterNetworkLayer = opts.ClusterLayers.Layers()[idx] } switch { case localConfig.LicensingConfig != nil: if pubKey != nil { localConfig.LicensingConfig.AdditionalPublicKeys = append(localConfig.LicensingConfig.AdditionalPublicKeys, pubKey.(ed25519.PublicKey)) } default: localConfig.LicensingConfig = testGetLicensingConfig(pubKey) } if localConfig.MetricsHelper == nil { inm := metrics.NewInmemSink(10*time.Second, time.Minute) metrics.DefaultInmemSignal(inm) localConfig.MetricsHelper = metricsutil.NewMetricsHelper(inm, false) } c, err := NewCore(&localConfig) if err != nil { t.Fatalf("err: %v", err) } c.coreNumber = firstCoreNumber + idx c.PR1103disabled = disablePR1103 if opts != nil && opts.HandlerFunc != nil { props := opts.DefaultHandlerProperties props.Core = c if props.ListenerConfig != nil && props.ListenerConfig.MaxRequestDuration == 0 { props.ListenerConfig.MaxRequestDuration = DefaultMaxRequestDuration } handler = opts.HandlerFunc(&props) } // Set this in case the Seal was manually set before the core was // created if localConfig.Seal != nil { localConfig.Seal.SetCore(c) } return cleanupFunc, c, localConfig, handler } func (testCluster *TestCluster) setupClusterListener( t testing.T, idx int, core *Core, coreConfig *CoreConfig, opts *TestClusterOptions, listeners []*TestListener, handler http.Handler) { if coreConfig.ClusterAddr == "" { return } clusterAddrGen := func(lns []*TestListener, port int) []*net.TCPAddr { ret := make([]*net.TCPAddr, len(lns)) for i, ln := range lns { ret[i] = &net.TCPAddr{ IP: ln.Address.IP, Port: port, } } return ret } baseClusterListenPort := 0 if opts != nil && opts.BaseClusterListenPort != 0 { if opts.BaseListenAddress == "" { t.Fatal("BaseListenAddress is not specified") } baseClusterListenPort = opts.BaseClusterListenPort } port := 0 if baseClusterListenPort != 0 { port = baseClusterListenPort + idx } core.Logger().Info("assigning cluster listener for test core", "core", idx, "port", port) core.SetClusterListenerAddrs(clusterAddrGen(listeners, port)) core.SetClusterHandler(handler) } func (tc *TestCluster) initCores(t testing.T, opts *TestClusterOptions, addAuditBackend bool) { leader := tc.Cores[0] bKeys, rKeys, root := TestCoreInitClusterWrapperSetup(t, leader.Core, leader.Handler) barrierKeys, _ := copystructure.Copy(bKeys) tc.BarrierKeys = barrierKeys.([][]byte) recoveryKeys, _ := copystructure.Copy(rKeys) tc.RecoveryKeys = recoveryKeys.([][]byte) tc.RootToken = root // Write root token and barrier keys err := ioutil.WriteFile(filepath.Join(tc.TempDir, "root_token"), []byte(root), 0755) if err != nil { t.Fatal(err) } var buf bytes.Buffer for i, key := range tc.BarrierKeys { buf.Write([]byte(base64.StdEncoding.EncodeToString(key))) if i < len(tc.BarrierKeys)-1 { buf.WriteRune('\n') } } err = ioutil.WriteFile(filepath.Join(tc.TempDir, "barrier_keys"), buf.Bytes(), 0755) if err != nil { t.Fatal(err) } for i, key := range tc.RecoveryKeys { buf.Write([]byte(base64.StdEncoding.EncodeToString(key))) if i < len(tc.RecoveryKeys)-1 { buf.WriteRune('\n') } } err = ioutil.WriteFile(filepath.Join(tc.TempDir, "recovery_keys"), buf.Bytes(), 0755) if err != nil { t.Fatal(err) } // Unseal first core for _, key := range bKeys { if _, err := leader.Core.Unseal(TestKeyCopy(key)); err != nil { t.Fatalf("unseal err: %s", err) } } ctx := context.Background() // If stored keys is supported, the above will no no-op, so trigger auto-unseal // using stored keys to try to unseal if err := leader.Core.UnsealWithStoredKeys(ctx); err != nil { t.Fatal(err) } // Verify unsealed if leader.Core.Sealed() { t.Fatal("should not be sealed") } TestWaitActive(t, leader.Core) // Existing tests rely on this; we can make a toggle to disable it // later if we want kvReq := &logical.Request{ Operation: logical.UpdateOperation, ClientToken: tc.RootToken, Path: "sys/mounts/secret", Data: map[string]interface{}{ "type": "kv", "path": "secret/", "description": "key/value secret storage", "options": map[string]string{ "version": "1", }, }, } resp, err := leader.Core.HandleRequest(namespace.RootContext(ctx), kvReq) if err != nil { t.Fatal(err) } if resp.IsError() { t.Fatal(err) } cfg, err := leader.Core.seal.BarrierConfig(ctx) if err != nil { t.Fatal(err) } // Unseal other cores unless otherwise specified numCores := len(tc.Cores) if (opts == nil || !opts.KeepStandbysSealed) && numCores > 1 { for i := 1; i < numCores; i++ { tc.Cores[i].Core.seal.SetCachedBarrierConfig(cfg) for _, key := range bKeys { if _, err := tc.Cores[i].Core.Unseal(TestKeyCopy(key)); err != nil { t.Fatalf("unseal err: %s", err) } } // If stored keys is supported, the above will no no-op, so trigger auto-unseal // using stored keys if err := tc.Cores[i].Core.UnsealWithStoredKeys(ctx); err != nil { t.Fatal(err) } } // Let them come fully up to standby time.Sleep(2 * time.Second) // Ensure cluster connection info is populated. // Other cores should not come up as leaders. for i := 1; i < numCores; i++ { isLeader, _, _, err := tc.Cores[i].Core.Leader() if err != nil { t.Fatal(err) } if isLeader { t.Fatalf("core[%d] should not be leader", i) } } } // // Set test cluster core(s) and test cluster // cluster, err := leader.Core.Cluster(context.Background()) if err != nil { t.Fatal(err) } tc.ID = cluster.ID if addAuditBackend { // Enable auditing. auditReq := &logical.Request{ Operation: logical.UpdateOperation, ClientToken: tc.RootToken, Path: "sys/audit/noop", Data: map[string]interface{}{ "type": "noop", }, } resp, err = leader.Core.HandleRequest(namespace.RootContext(ctx), auditReq) if err != nil { t.Fatal(err) } if resp.IsError() { t.Fatal(err) } } } func (testCluster *TestCluster) getAPIClient( t testing.T, opts *TestClusterOptions, port int, tlsConfig *tls.Config) *api.Client { transport := cleanhttp.DefaultPooledTransport() transport.TLSClientConfig = tlsConfig.Clone() if err := http2.ConfigureTransport(transport); err != nil { t.Fatal(err) } client := &http.Client{ Transport: transport, CheckRedirect: func(*http.Request, []*http.Request) error { // This can of course be overridden per-test by using its own client return fmt.Errorf("redirects not allowed in these tests") }, } config := api.DefaultConfig() if config.Error != nil { t.Fatal(config.Error) } config.Address = fmt.Sprintf("https://127.0.0.1:%d", port) config.HttpClient = client config.MaxRetries = 0 apiClient, err := api.NewClient(config) if err != nil { t.Fatal(err) } if opts == nil || !opts.SkipInit { apiClient.SetToken(testCluster.RootToken) } return apiClient } func NewMockBuiltinRegistry() *mockBuiltinRegistry { return &mockBuiltinRegistry{ forTesting: map[string]consts.PluginType{ "mysql-database-plugin": consts.PluginTypeDatabase, "postgresql-database-plugin": consts.PluginTypeDatabase, }, } } type mockBuiltinRegistry struct { forTesting map[string]consts.PluginType } func (m *mockBuiltinRegistry) Get(name string, pluginType consts.PluginType) (func() (interface{}, error), bool) { testPluginType, ok := m.forTesting[name] if !ok { return nil, false } if pluginType != testPluginType { return nil, false } if name == "postgresql-database-plugin" { return dbPostgres.New, true } return dbMysql.New(dbMysql.MetadataLen, dbMysql.MetadataLen, dbMysql.UsernameLen), true } // Keys only supports getting a realistic list of the keys for database plugins. func (m *mockBuiltinRegistry) Keys(pluginType consts.PluginType) []string { if pluginType != consts.PluginTypeDatabase { return []string{} } /* This is a hard-coded reproduction of the db plugin keys in helper/builtinplugins/registry.go. The registry isn't directly used because it causes import cycles. */ return []string{ "mysql-database-plugin", "mysql-aurora-database-plugin", "mysql-rds-database-plugin", "mysql-legacy-database-plugin", "postgresql-database-plugin", "elasticsearch-database-plugin", "mssql-database-plugin", "cassandra-database-plugin", "mongodb-database-plugin", "mongodbatlas-database-plugin", "hana-database-plugin", "influxdb-database-plugin", "redshift-database-plugin", } } func (m *mockBuiltinRegistry) Contains(name string, pluginType consts.PluginType) bool { return false } type NoopAudit struct { Config *audit.BackendConfig ReqErr error ReqAuth []*logical.Auth Req []*logical.Request ReqHeaders []map[string][]string ReqNonHMACKeys []string ReqErrs []error RespErr error RespAuth []*logical.Auth RespReq []*logical.Request Resp []*logical.Response RespNonHMACKeys []string RespReqNonHMACKeys []string RespErrs []error salt *salt.Salt saltMutex sync.RWMutex } func (n *NoopAudit) LogRequest(ctx context.Context, in *logical.LogInput) error { n.ReqAuth = append(n.ReqAuth, in.Auth) n.Req = append(n.Req, in.Request) n.ReqHeaders = append(n.ReqHeaders, in.Request.Headers) n.ReqNonHMACKeys = in.NonHMACReqDataKeys n.ReqErrs = append(n.ReqErrs, in.OuterErr) return n.ReqErr } func (n *NoopAudit) LogResponse(ctx context.Context, in *logical.LogInput) error { n.RespAuth = append(n.RespAuth, in.Auth) n.RespReq = append(n.RespReq, in.Request) n.Resp = append(n.Resp, in.Response) n.RespErrs = append(n.RespErrs, in.OuterErr) if in.Response != nil { n.RespNonHMACKeys = in.NonHMACRespDataKeys n.RespReqNonHMACKeys = in.NonHMACReqDataKeys } return n.RespErr } func (n *NoopAudit) Salt(ctx context.Context) (*salt.Salt, error) { n.saltMutex.RLock() if n.salt != nil { defer n.saltMutex.RUnlock() return n.salt, nil } n.saltMutex.RUnlock() n.saltMutex.Lock() defer n.saltMutex.Unlock() if n.salt != nil { return n.salt, nil } salt, err := salt.NewSalt(ctx, n.Config.SaltView, n.Config.SaltConfig) if err != nil { return nil, err } n.salt = salt return salt, nil } func (n *NoopAudit) GetHash(ctx context.Context, data string) (string, error) { salt, err := n.Salt(ctx) if err != nil { return "", err } return salt.GetIdentifiedHMAC(data), nil } func (n *NoopAudit) Reload(ctx context.Context) error { return nil } func (n *NoopAudit) Invalidate(ctx context.Context) { n.saltMutex.Lock() defer n.saltMutex.Unlock() n.salt = nil }