package sink import ( "context" "errors" "io/ioutil" "math/rand" "os" "sync/atomic" "time" "github.com/hashicorp/errwrap" hclog "github.com/hashicorp/go-hclog" "github.com/hashicorp/vault/api" "github.com/hashicorp/vault/helper/dhutil" "github.com/hashicorp/vault/sdk/helper/jsonutil" ) type Sink interface { WriteToken(string) error } type SinkReader interface { Token() string } type SinkConfig struct { Sink Logger hclog.Logger Config map[string]interface{} Client *api.Client WrapTTL time.Duration DHType string DHPath string DeriveKey bool AAD string cachedRemotePubKey []byte cachedPubKey []byte cachedPriKey []byte } type SinkServerConfig struct { Logger hclog.Logger Client *api.Client Context context.Context ExitAfterAuth bool } // SinkServer is responsible for pushing tokens to sinks type SinkServer struct { logger hclog.Logger client *api.Client random *rand.Rand exitAfterAuth bool remaining *int32 } func NewSinkServer(conf *SinkServerConfig) *SinkServer { ss := &SinkServer{ logger: conf.Logger, client: conf.Client, random: rand.New(rand.NewSource(int64(time.Now().Nanosecond()))), exitAfterAuth: conf.ExitAfterAuth, remaining: new(int32), } return ss } // Run executes the server's run loop, which is responsible for reading // in new tokens and pushing them out to the various sinks. func (ss *SinkServer) Run(ctx context.Context, incoming chan string, sinks []*SinkConfig) error { latestToken := new(string) writeSink := func(currSink *SinkConfig, currToken string) error { if currToken != *latestToken { return nil } var err error if currSink.WrapTTL != 0 { if currToken, err = currSink.wrapToken(ss.client, currSink.WrapTTL, currToken); err != nil { return err } } if currSink.DHType != "" { if currToken, err = currSink.encryptToken(currToken); err != nil { return err } } return currSink.WriteToken(currToken) } if incoming == nil { return errors.New("sink server: incoming channel is nil") } ss.logger.Info("starting sink server") defer func() { ss.logger.Info("sink server stopped") }() type sinkToken struct { sink *SinkConfig token string } sinkCh := make(chan sinkToken, len(sinks)) for { select { case <-ctx.Done(): return nil case token := <-incoming: if len(sinks) > 0 { if token != *latestToken { // Drain the existing funcs drainLoop: for { select { case <-sinkCh: atomic.AddInt32(ss.remaining, -1) default: break drainLoop } } *latestToken = token for _, s := range sinks { atomic.AddInt32(ss.remaining, 1) sinkCh <- sinkToken{s, token} } } } else { ss.logger.Trace("no sinks, ignoring new token") if ss.exitAfterAuth { ss.logger.Trace("no sinks, exitAfterAuth, bye") return nil } } case st := <-sinkCh: atomic.AddInt32(ss.remaining, -1) select { case <-ctx.Done(): return nil default: } if err := writeSink(st.sink, st.token); err != nil { backoff := 2*time.Second + time.Duration(ss.random.Int63()%int64(time.Second*2)-int64(time.Second)) ss.logger.Error("error returned by sink function, retrying", "error", err, "backoff", backoff.String()) select { case <-ctx.Done(): return nil case <-time.After(backoff): atomic.AddInt32(ss.remaining, 1) sinkCh <- st } } else { if atomic.LoadInt32(ss.remaining) == 0 && ss.exitAfterAuth { return nil } } } } } func (s *SinkConfig) encryptToken(token string) (string, error) { var aesKey []byte var err error resp := new(dhutil.Envelope) switch s.DHType { case "curve25519": if len(s.cachedRemotePubKey) == 0 { _, err = os.Lstat(s.DHPath) if err != nil { if !os.IsNotExist(err) { return "", errwrap.Wrapf("error stat-ing dh parameters file: {{err}}", err) } return "", errors.New("no dh parameters file found, and no cached pub key") } fileBytes, err := ioutil.ReadFile(s.DHPath) if err != nil { return "", errwrap.Wrapf("error reading file for dh parameters: {{err}}", err) } theirPubKey := new(dhutil.PublicKeyInfo) if err := jsonutil.DecodeJSON(fileBytes, theirPubKey); err != nil { return "", errwrap.Wrapf("error decoding public key: {{err}}", err) } if len(theirPubKey.Curve25519PublicKey) == 0 { return "", errors.New("public key is nil") } s.cachedRemotePubKey = theirPubKey.Curve25519PublicKey } if len(s.cachedPubKey) == 0 { s.cachedPubKey, s.cachedPriKey, err = dhutil.GeneratePublicPrivateKey() if err != nil { return "", errwrap.Wrapf("error generating pub/pri curve25519 keys: {{err}}", err) } } resp.Curve25519PublicKey = s.cachedPubKey } secret, err := dhutil.GenerateSharedSecret(s.cachedPriKey, s.cachedRemotePubKey) if err != nil { return "", errwrap.Wrapf("error calculating shared key: {{err}}", err) } if s.DeriveKey { aesKey, err = dhutil.DeriveSharedKey(secret, s.cachedPubKey, s.cachedRemotePubKey) } else { aesKey = secret } if err != nil { return "", errwrap.Wrapf("error deriving shared key: {{err}}", err) } if len(aesKey) == 0 { return "", errors.New("derived AES key is empty") } resp.EncryptedPayload, resp.Nonce, err = dhutil.EncryptAES(aesKey, []byte(token), []byte(s.AAD)) if err != nil { return "", errwrap.Wrapf("error encrypting with shared key: {{err}}", err) } m, err := jsonutil.EncodeJSON(resp) if err != nil { return "", errwrap.Wrapf("error encoding encrypted payload: {{err}}", err) } return string(m), nil } func (s *SinkConfig) wrapToken(client *api.Client, wrapTTL time.Duration, token string) (string, error) { wrapClient, err := client.Clone() if err != nil { return "", errwrap.Wrapf("error deriving client for wrapping, not writing out to sink: {{err}})", err) } wrapClient.SetToken(token) wrapClient.SetWrappingLookupFunc(func(string, string) string { return wrapTTL.String() }) secret, err := wrapClient.Logical().Write("sys/wrapping/wrap", map[string]interface{}{ "token": token, }) if err != nil { return "", errwrap.Wrapf("error wrapping token, not writing out to sink: {{err}})", err) } if secret == nil { return "", errors.New("nil secret returned, not writing out to sink") } if secret.WrapInfo == nil { return "", errors.New("nil wrap info returned, not writing out to sink") } m, err := jsonutil.EncodeJSON(secret.WrapInfo) if err != nil { return "", errwrap.Wrapf("error marshaling token, not writing out to sink: {{err}})", err) } return string(m), nil }