package push_notification_client import ( "bytes" "context" "crypto/aes" "crypto/cipher" "crypto/ecdsa" "crypto/rand" "encoding/hex" "encoding/json" "errors" "io" "math" "sort" "time" "github.com/golang/protobuf/proto" "github.com/google/uuid" "github.com/status-im/status-go/eth-node/crypto" "github.com/status-im/status-go/eth-node/crypto/ecies" "github.com/status-im/status-go/eth-node/types" "github.com/status-im/status-go/protocol/common" "github.com/status-im/status-go/protocol/protobuf" "go.uber.org/zap" ) const encryptedPayloadKeyLength = 16 const accessTokenKeyLength = 16 const staleQueryTimeInSeconds = 86400 // maxRegistrationRetries is the maximum number of attempts we do before giving up registering with a server const maxRegistrationRetries int64 = 12 // maxPushNotificationRetries is the maximum number of attempts before we give up sending a push notification const maxPushNotificationRetries int64 = 4 // pushNotificationBackoffTime is the step of the exponential backoff const pushNotificationBackoffTime int64 = 2 // RegistrationBackoffTime is the step of the exponential backoff const RegistrationBackoffTime int64 = 15 type PushNotificationServer struct { PublicKey *ecdsa.PublicKey `json:"-"` Registered bool `json:"registered,omitempty"` RegisteredAt int64 `json:"registeredAt,omitempty"` LastRetriedAt int64 `json:"lastRetriedAt,omitempty"` RetryCount int64 `json:"retryCount,omitempty"` AccessToken string `json:"accessToken,omitempty"` } func (s *PushNotificationServer) MarshalJSON() ([]byte, error) { type ServerAlias PushNotificationServer item := struct { *ServerAlias PublicKeyString string `json:"publicKey"` }{ ServerAlias: (*ServerAlias)(s), PublicKeyString: types.EncodeHex(crypto.FromECDSAPub(s.PublicKey)), } return json.Marshal(item) } type PushNotificationInfo struct { AccessToken string InstallationID string PublicKey *ecdsa.PublicKey ServerPublicKey *ecdsa.PublicKey RetrievedAt int64 Version uint64 } type SentNotification struct { PublicKey *ecdsa.PublicKey InstallationID string LastTriedAt int64 RetryCount int64 MessageID []byte Success bool Error protobuf.PushNotificationReport_ErrorType } func (s *SentNotification) HashedPublicKey() []byte { return common.HashPublicKey(s.PublicKey) } type Config struct { // Identity is our identity key Identity *ecdsa.PrivateKey // SendEnabled indicates whether we should be sending push notifications SendEnabled bool // RemoteNotificationsEnabled is whether we should register with a remote server for push notifications RemoteNotificationsEnabled bool // allowyFromContactsOnly indicates whether we should be receiving push notifications // only from contacts allowFromContactsOnly bool // InstallationID is the installation-id for this device InstallationID string Logger *zap.Logger // TokenType is the type of token TokenType protobuf.PushNotificationRegistration_TokenType } type Client struct { persistence *Persistence quit chan struct{} config *Config // lastPushNotificationRegistration is the latest known push notification version lastPushNotificationRegistration *protobuf.PushNotificationRegistration // lastContactIDs is the latest contact ids array lastContactIDs []*ecdsa.PublicKey // AccessToken is the access token that is currently being used AccessToken string // deviceToken is the device token for this device deviceToken string // randomReader only used for testing so we have deterministic encryption reader io.Reader //messageProcessor is a message processor used to send and being notified of messages messageProcessor *common.MessageProcessor // registrationLoopQuitChan is a channel to indicate to the registration loop that should be terminating registrationLoopQuitChan chan struct{} // resendingLoopQuitChan is a channel to indicate to the send loop that shoudl be terminating resendingLoopQuitChan chan struct{} } func New(persistence *Persistence, config *Config, processor *common.MessageProcessor) *Client { return &Client{ quit: make(chan struct{}), config: config, messageProcessor: processor, persistence: persistence, reader: rand.Reader, } } func (c *Client) subscribeForSentMessages() { go func() { c.config.Logger.Info("subscribing for messages") subscription := c.messageProcessor.Subscribe() for { select { case m, more := <-subscription: if !more { c.config.Logger.Info("no more") return } c.config.Logger.Info("handling message sent") if err := c.HandleMessageSent(m); err != nil { c.config.Logger.Error("failed to handle message", zap.Error(err)) } case <-c.quit: return } } }() } func (c *Client) loadLastPushNotificationRegistration() error { lastRegistration, lastContactIDs, err := c.persistence.GetLastPushNotificationRegistration() if err != nil { return err } if lastRegistration == nil { lastRegistration = &protobuf.PushNotificationRegistration{} } c.lastContactIDs = lastContactIDs c.lastPushNotificationRegistration = lastRegistration c.deviceToken = lastRegistration.Token return nil } func (c *Client) stopRegistrationLoop() { // stop old registration loop if c.registrationLoopQuitChan != nil { close(c.registrationLoopQuitChan) c.registrationLoopQuitChan = nil } } func (c *Client) stopResendingLoop() { // stop old registration loop if c.resendingLoopQuitChan != nil { close(c.resendingLoopQuitChan) c.resendingLoopQuitChan = nil } } func (c *Client) startRegistrationLoop() { c.stopRegistrationLoop() c.registrationLoopQuitChan = make(chan struct{}) go c.registrationLoop() } func (c *Client) startResendingLoop() { c.stopResendingLoop() c.resendingLoopQuitChan = make(chan struct{}) go c.resendingLoop() } func (c *Client) Start() error { if c.messageProcessor == nil { return errors.New("can't start, missing message processor") } err := c.loadLastPushNotificationRegistration() if err != nil { return err } c.subscribeForSentMessages() c.startRegistrationLoop() c.startResendingLoop() return nil } func (c *Client) Stop() error { close(c.quit) c.stopRegistrationLoop() c.stopResendingLoop() return nil } func (c *Client) queryNotificationInfo(publicKey *ecdsa.PublicKey, force bool) error { // Check if we queried recently queriedAt, err := c.persistence.GetQueriedAt(publicKey) if err != nil { return err } // Naively query again if too much time has passed. // Here it might not be necessary if force || time.Now().Unix()-queriedAt > staleQueryTimeInSeconds { c.config.Logger.Info("querying info") err := c.QueryPushNotificationInfo(publicKey) if err != nil { c.config.Logger.Error("could not query pn info", zap.Error(err)) return err } // This is just horrible, but for now will do, // the issue is that we don't really know how long it will // take to reply, as there might be multiple servers // replying to us. // The only time we are 100% certain that we can proceed is // when we have non-stale info for each device, but // most devices are not going to be registered, so we'd still // have to wait teh maximum amount of time allowed. time.Sleep(3 * time.Second) } return nil } func (c *Client) HandleMessageSent(sentMessage *common.SentMessage) error { c.config.Logger.Info("sent message", zap.Any("sent message", sentMessage)) if !c.config.SendEnabled { c.config.Logger.Info("send not enabled, ignoring") return nil } publicKey := sentMessage.PublicKey // Check we track this messages fist var trackedMessageIDs [][]byte for _, messageID := range sentMessage.MessageIDs { tracked, err := c.persistence.TrackedMessage(messageID) if err != nil { return err } if tracked { trackedMessageIDs = append(trackedMessageIDs, messageID) } } // Nothing to do if len(trackedMessageIDs) == 0 { return nil } sendToAllDevices := len(sentMessage.Spec.Installations) == 0 var installationIDs []string anyActionableMessage := sendToAllDevices c.config.Logger.Info("send to all devices", zap.Bool("send to all", sendToAllDevices)) // Collect installationIDs for _, messageID := range trackedMessageIDs { for _, installation := range sentMessage.Spec.Installations { installationID := installation.ID shouldNotify, err := c.shouldNotifyOn(publicKey, installationID, messageID) if err != nil { return err } if shouldNotify { anyActionableMessage = true installationIDs = append(installationIDs, installation.ID) } } } // Is there anything we should be notifying on? if !anyActionableMessage { c.config.Logger.Info("no actionable installation IDs") return nil } c.config.Logger.Info("actionable messages", zap.Any("message-ids", trackedMessageIDs), zap.Any("installation-ids", installationIDs)) infos, err := c.sendNotification(publicKey, installationIDs, trackedMessageIDs[0]) if err != nil { return err } // Mark message as sent, this is at-most-once semantic // for all messageIDs for _, i := range infos { for _, messageID := range trackedMessageIDs { c.config.Logger.Info("marking as sent ", zap.Binary("mid", messageID), zap.String("id", i.InstallationID)) if err := c.notifiedOn(publicKey, i.InstallationID, messageID); err != nil { return err } } } return nil } // NotifyOnMessageID keeps track of the message to make sure we notify on it func (c *Client) NotifyOnMessageID(chatID string, messageID []byte) error { return c.persistence.TrackPushNotification(chatID, messageID) } func (c *Client) shouldNotifyOn(publicKey *ecdsa.PublicKey, installationID string, messageID []byte) (bool, error) { if len(installationID) == 0 { return c.persistence.ShouldSendNotificationToAllInstallationIDs(publicKey, messageID) } else { return c.persistence.ShouldSendNotificationFor(publicKey, installationID, messageID) } } func (c *Client) notifiedOn(publicKey *ecdsa.PublicKey, installationID string, messageID []byte) error { return c.persistence.UpsertSentNotification(&SentNotification{ PublicKey: publicKey, LastTriedAt: time.Now().Unix(), InstallationID: installationID, MessageID: messageID, }) } func (p *Client) mutedChatIDsHashes(chatIDs []string) [][]byte { var mutedChatListHashes [][]byte for _, chatID := range chatIDs { mutedChatListHashes = append(mutedChatListHashes, common.Shake256([]byte(chatID))) } return mutedChatListHashes } func (p *Client) encryptToken(publicKey *ecdsa.PublicKey, token []byte) ([]byte, error) { sharedKey, err := ecies.ImportECDSA(p.config.Identity).GenerateShared( ecies.ImportECDSAPublic(publicKey), accessTokenKeyLength, accessTokenKeyLength, ) if err != nil { return nil, err } encryptedToken, err := encryptAccessToken(token, sharedKey, p.reader) if err != nil { return nil, err } return encryptedToken, nil } func (p *Client) decryptToken(publicKey *ecdsa.PublicKey, token []byte) ([]byte, error) { sharedKey, err := ecies.ImportECDSA(p.config.Identity).GenerateShared( ecies.ImportECDSAPublic(publicKey), accessTokenKeyLength, accessTokenKeyLength, ) if err != nil { return nil, err } decryptedToken, err := common.Decrypt(token, sharedKey) if err != nil { return nil, err } return decryptedToken, nil } func (c *Client) allowedUserList(token []byte, contactIDs []*ecdsa.PublicKey) ([][]byte, error) { // If we allow everyone, don't set the list if !c.config.allowFromContactsOnly { return nil, nil } var encryptedTokens [][]byte for _, publicKey := range contactIDs { encryptedToken, err := c.encryptToken(publicKey, token) if err != nil { return nil, err } encryptedTokens = append(encryptedTokens, encryptedToken) } return encryptedTokens, nil } // getToken checks if we need to refresh the token // and return a new one in that case func (c *Client) getToken(contactIDs []*ecdsa.PublicKey) string { if c.lastPushNotificationRegistration == nil || len(c.lastPushNotificationRegistration.AccessToken) == 0 || c.shouldRefreshToken(c.lastContactIDs, contactIDs) { c.config.Logger.Info("refreshing access token") return uuid.New().String() } return c.lastPushNotificationRegistration.AccessToken } func (c *Client) getVersion() uint64 { if c.lastPushNotificationRegistration == nil { return 1 } return c.lastPushNotificationRegistration.Version + 1 } func (c *Client) buildPushNotificationRegistrationMessage(contactIDs []*ecdsa.PublicKey, mutedChatIDs []string) (*protobuf.PushNotificationRegistration, error) { token := c.getToken(contactIDs) allowedUserList, err := c.allowedUserList([]byte(token), contactIDs) if err != nil { return nil, err } options := &protobuf.PushNotificationRegistration{ AccessToken: token, TokenType: c.config.TokenType, Version: c.getVersion(), InstallationId: c.config.InstallationID, Token: c.deviceToken, AllowFromContactsOnly: c.config.allowFromContactsOnly, Enabled: c.config.RemoteNotificationsEnabled, BlockedChatList: c.mutedChatIDsHashes(mutedChatIDs), AllowedUserList: allowedUserList, } return options, nil } func (c *Client) buildPushNotificationUnregisterMessage() *protobuf.PushNotificationRegistration { options := &protobuf.PushNotificationRegistration{ Version: c.getVersion(), InstallationId: c.config.InstallationID, Unregister: true, } return options } // shouldRefreshToken tells us whether we should pull a new token, that's only necessary when a contact is removed func (c *Client) shouldRefreshToken(oldContactIDs, newContactIDs []*ecdsa.PublicKey) bool { newContactIDsMap := make(map[string]bool) for _, pk := range newContactIDs { newContactIDsMap[types.EncodeHex(crypto.FromECDSAPub(pk))] = true } for _, pk := range oldContactIDs { if ok := newContactIDsMap[types.EncodeHex(crypto.FromECDSAPub(pk))]; !ok { return true } } return false } func nextServerRetry(server *PushNotificationServer) int64 { return server.LastRetriedAt + RegistrationBackoffTime*server.RetryCount*int64(math.Exp2(float64(server.RetryCount))) } func nextPushNotificationRetry(pn *SentNotification) int64 { return pn.LastTriedAt + pushNotificationBackoffTime*pn.RetryCount*int64(math.Exp2(float64(pn.RetryCount))) } // We calculate if it's too early to retry, by exponentially backing off func shouldRetryRegisteringWithServer(server *PushNotificationServer) bool { return time.Now().Unix() >= nextServerRetry(server) } // We calculate if it's too early to retry, by exponentially backing off func shouldRetryPushNotification(pn *SentNotification) bool { if pn.RetryCount > maxPushNotificationRetries { return false } return time.Now().Unix() > nextPushNotificationRetry(pn) } func (c *Client) resetServers() error { servers, err := c.persistence.GetServers() if err != nil { return err } for _, server := range servers { // Reset server registration data server.Registered = false server.RegisteredAt = 0 server.RetryCount = 0 server.LastRetriedAt = time.Now().Unix() server.AccessToken = "" if err := c.persistence.UpsertServer(server); err != nil { return err } } return nil } func (c *Client) registerWithServer(registration *protobuf.PushNotificationRegistration, server *PushNotificationServer) error { // Reset server registration data server.Registered = false server.RegisteredAt = 0 server.RetryCount += 1 server.LastRetriedAt = time.Now().Unix() server.AccessToken = registration.AccessToken if err := c.persistence.UpsertServer(server); err != nil { return err } grant, err := c.buildGrantSignature(server.PublicKey, registration.AccessToken) if err != nil { c.config.Logger.Error("failed to build grant", zap.Error(err)) return err } registration.Grant = grant marshaledRegistration, err := proto.Marshal(registration) if err != nil { return err } // Dispatch message encryptedRegistration, err := c.encryptRegistration(server.PublicKey, marshaledRegistration) if err != nil { return err } rawMessage := &common.RawMessage{ Payload: encryptedRegistration, MessageType: protobuf.ApplicationMetadataMessage_PUSH_NOTIFICATION_REGISTRATION, } _, err = c.messageProcessor.SendPrivate(context.Background(), server.PublicKey, rawMessage) if err != nil { return err } return nil } func (c *Client) sendNotification(publicKey *ecdsa.PublicKey, installationIDs []string, messageID []byte) ([]*PushNotificationInfo, error) { err := c.queryNotificationInfo(publicKey, false) if err != nil { return nil, err } c.config.Logger.Info("queried info") // Retrieve infos info, err := c.GetPushNotificationInfo(publicKey, installationIDs) if err != nil { c.config.Logger.Error("could not get pn info", zap.Error(err)) return nil, err } // Naively dispatch to the first server for now // This wait for an acknowledgement and try a different server after a timeout // Also we sent a single notification for multiple message ids, need to check with UI what's the desired behavior // Sort by server so we tend to hit the same one sort.Slice(info, func(i, j int) bool { return info[i].ServerPublicKey.X.Cmp(info[j].ServerPublicKey.X) <= 0 }) c.config.Logger.Info("retrieved info") installationIDsMap := make(map[string]bool) // One info per installation id, grouped by server actionableInfos := make(map[string][]*PushNotificationInfo) for _, i := range info { c.config.Logger.Info("queried info", zap.String("id", i.InstallationID)) if !installationIDsMap[i.InstallationID] { serverKey := hex.EncodeToString(crypto.CompressPubkey(i.ServerPublicKey)) actionableInfos[serverKey] = append(actionableInfos[serverKey], i) installationIDsMap[i.InstallationID] = true } } c.config.Logger.Info("actionable info", zap.Int("count", len(actionableInfos))) var actionedInfo []*PushNotificationInfo for _, infos := range actionableInfos { var pushNotifications []*protobuf.PushNotification for _, i := range infos { // TODO: Add ChatID, message, public_key pushNotifications = append(pushNotifications, &protobuf.PushNotification{ AccessToken: i.AccessToken, PublicKey: common.HashPublicKey(publicKey), InstallationId: i.InstallationID, }) } request := &protobuf.PushNotificationRequest{ MessageId: messageID, Requests: pushNotifications, } serverPublicKey := infos[0].ServerPublicKey payload, err := proto.Marshal(request) if err != nil { return nil, err } rawMessage := &common.RawMessage{ Payload: payload, MessageType: protobuf.ApplicationMetadataMessage_PUSH_NOTIFICATION_REQUEST, } // TODO: We should use the messageID for the response _, err = c.messageProcessor.SendPrivate(context.Background(), serverPublicKey, rawMessage) if err != nil { return nil, err } actionedInfo = append(actionedInfo, infos...) } return actionedInfo, nil } func (c *Client) resendNotification(pn *SentNotification) error { c.config.Logger.Info("resending notification", zap.Any("notification", pn)) pn.RetryCount += 1 pn.LastTriedAt = time.Now().Unix() err := c.persistence.UpsertSentNotification(pn) if err != nil { return err } // Re-fetch push notification info err = c.queryNotificationInfo(pn.PublicKey, true) if err != nil { return err } if err != nil { c.config.Logger.Error("could not get pn info", zap.Error(err)) return err } _, err = c.sendNotification(pn.PublicKey, []string{pn.InstallationID}, pn.MessageID) return err } func (c *Client) resendingLoop() error { for { c.config.Logger.Info("running resending loop") var lowestNextRetry int64 retriableNotifications, err := c.persistence.GetRetriablePushNotifications() if err != nil { c.config.Logger.Error("failed retrieving notifications, quitting resending loop", zap.Error(err)) return err } if len(retriableNotifications) == 0 { c.config.Logger.Debug("no retriable notifications, quitting") return nil } for _, pn := range retriableNotifications { nR := nextPushNotificationRetry(pn) c.config.Logger.Info("Next retry", zap.Int64("now", time.Now().Unix()), zap.Int64("next", nR)) if shouldRetryPushNotification(pn) { c.config.Logger.Info("retrying pn", zap.Any("pn", pn)) err := c.resendNotification(pn) if err != nil { return err } } nextRetry := nextPushNotificationRetry(pn) if lowestNextRetry == 0 || nextRetry < lowestNextRetry { lowestNextRetry = nextRetry } } nextRetry := lowestNextRetry - time.Now().Unix() waitFor := time.Duration(nextRetry) select { case <-time.After(waitFor * time.Second): case <-c.resendingLoopQuitChan: return nil } } } func (c *Client) registrationLoop() error { for { c.config.Logger.Info("running registration loop") servers, err := c.persistence.GetServers() if err != nil { c.config.Logger.Error("failed retrieving servers, quitting registration loop", zap.Error(err)) return err } if len(servers) == 0 { c.config.Logger.Debug("nothing to do, quitting registration loop") return nil } var nonRegisteredServers []*PushNotificationServer for _, server := range servers { if !server.Registered && server.RetryCount < maxRegistrationRetries { nonRegisteredServers = append(nonRegisteredServers, server) } } if len(nonRegisteredServers) == 0 { c.config.Logger.Debug("registered with all servers, quitting registration loop") return nil } c.config.Logger.Info("Trying to register with", zap.Int("servers", len(nonRegisteredServers))) var lowestNextRetry int64 for _, server := range nonRegisteredServers { nR := nextServerRetry(server) c.config.Logger.Info("Next retry", zap.Int64("now", time.Now().Unix()), zap.Int64("next", nR)) if shouldRetryRegisteringWithServer(server) { c.config.Logger.Info("registering with server", zap.Any("server", server)) err := c.registerWithServer(c.lastPushNotificationRegistration, server) if err != nil { return err } } nextRetry := nextServerRetry(server) if lowestNextRetry == 0 || nextRetry < lowestNextRetry { lowestNextRetry = nextRetry } } nextRetry := lowestNextRetry - time.Now().Unix() waitFor := time.Duration(nextRetry) c.config.Logger.Info("Waiting for", zap.Any("wait for", waitFor)) select { case <-time.After(waitFor * time.Second): case <-c.registrationLoopQuitChan: return nil } } } func (c *Client) Unregister() error { // stop registration loop c.stopRegistrationLoop() registration := c.buildPushNotificationUnregisterMessage() err := c.SaveLastPushNotificationRegistration(registration, nil) if err != nil { return err } // Reset servers err = c.resetServers() if err != nil { return err } // and asynchronously register c.startRegistrationLoop() return nil } func (c *Client) SaveLastPushNotificationRegistration(registration *protobuf.PushNotificationRegistration, contactIDs []*ecdsa.PublicKey) error { // stop registration loop c.stopRegistrationLoop() err := c.persistence.SaveLastPushNotificationRegistration(registration, contactIDs) if err != nil { return err } c.lastPushNotificationRegistration = registration c.lastContactIDs = contactIDs c.startRegistrationLoop() return nil } func (c *Client) Registered() (bool, error) { servers, err := c.persistence.GetServers() if err != nil { return false, err } for _, s := range servers { if !s.Registered { return false, nil } } return true, nil } func (c *Client) GetSentNotification(hashedPublicKey []byte, installationID string, messageID []byte) (*SentNotification, error) { return c.persistence.GetSentNotification(hashedPublicKey, installationID, messageID) } func (c *Client) GetServers() ([]*PushNotificationServer, error) { return c.persistence.GetServers() } func (c *Client) Reregister(contactIDs []*ecdsa.PublicKey, mutedChatIDs []string) error { c.config.Logger.Info("re-registering") if len(c.deviceToken) == 0 { c.config.Logger.Info("no device token, not registering") return nil } return c.Register(c.deviceToken, contactIDs, mutedChatIDs) } func (c *Client) Register(deviceToken string, contactIDs []*ecdsa.PublicKey, mutedChatIDs []string) error { // stop registration loop c.stopRegistrationLoop() // Reset servers err := c.resetServers() if err != nil { return err } c.deviceToken = deviceToken registration, err := c.buildPushNotificationRegistrationMessage(contactIDs, mutedChatIDs) if err != nil { return err } err = c.SaveLastPushNotificationRegistration(registration, contactIDs) if err != nil { return err } c.startRegistrationLoop() return nil } // HandlePushNotificationRegistrationResponse should check whether the response was successful or not, retry if necessary otherwise store the result in the database func (c *Client) HandlePushNotificationRegistrationResponse(publicKey *ecdsa.PublicKey, response protobuf.PushNotificationRegistrationResponse) error { c.config.Logger.Info("received push notification registration response", zap.Any("response", response)) // TODO: handle non successful response and match request id // Not successful ignore for now if !response.Success { return errors.New("response was not successful") } servers, err := c.persistence.GetServersByPublicKey([]*ecdsa.PublicKey{publicKey}) if err != nil { return err } // We haven't registered with this server if len(servers) != 1 { return errors.New("not registered with this server, ignoring") } server := servers[0] server.Registered = true server.RegisteredAt = time.Now().Unix() return c.persistence.UpsertServer(server) } // HandlePushNotificationAdvertisement should store any info related to push notifications func (p *Client) HandlePushNotificationAdvertisement(info *protobuf.PushNotificationAdvertisementInfo) error { return nil } // buildGrantSignatureMaterial builds a grant for a specific server. // We use 3 components: // 1) The client public key. Not sure this applies to our signature scheme, but best to be conservative. https://crypto.stackexchange.com/questions/15538/given-a-message-and-signature-find-a-public-key-that-makes-the-signature-valid // 2) The server public key // 3) The access token // By verifying this signature, a client can trust the server was instructed to store this access token. func (c *Client) buildGrantSignatureMaterial(clientPublicKey *ecdsa.PublicKey, serverPublicKey *ecdsa.PublicKey, accessToken string) []byte { var signatureMaterial []byte signatureMaterial = append(signatureMaterial, crypto.CompressPubkey(clientPublicKey)...) signatureMaterial = append(signatureMaterial, crypto.CompressPubkey(serverPublicKey)...) signatureMaterial = append(signatureMaterial, []byte(accessToken)...) return crypto.Keccak256(signatureMaterial) } func (c *Client) buildGrantSignature(serverPublicKey *ecdsa.PublicKey, accessToken string) ([]byte, error) { signatureMaterial := c.buildGrantSignatureMaterial(&c.config.Identity.PublicKey, serverPublicKey, accessToken) return crypto.Sign(signatureMaterial, c.config.Identity) } func (c *Client) handleGrant(clientPublicKey *ecdsa.PublicKey, serverPublicKey *ecdsa.PublicKey, grant []byte, accessToken string) error { signatureMaterial := c.buildGrantSignatureMaterial(clientPublicKey, serverPublicKey, accessToken) extractedPublicKey, err := crypto.SigToPub(signatureMaterial, grant) if err != nil { return err } if !common.IsPubKeyEqual(clientPublicKey, extractedPublicKey) { return errors.New("invalid grant") } return nil } func (c *Client) handleAllowedUserList(publicKey *ecdsa.PublicKey, allowedUserList [][]byte) string { c.config.Logger.Info("handling allowed user list") for _, encryptedToken := range allowedUserList { token, err := c.decryptToken(publicKey, encryptedToken) if err != nil { c.config.Logger.Warn("could not decrypt token", zap.Error(err)) continue } c.config.Logger.Info("decrypted token") return string(token) } return "" } // HandlePushNotificationQueryResponse should update the data in the database for a given user func (c *Client) HandlePushNotificationQueryResponse(serverPublicKey *ecdsa.PublicKey, response protobuf.PushNotificationQueryResponse) error { c.config.Logger.Info("received push notification query response", zap.Any("response", response)) if len(response.Info) == 0 { return errors.New("empty response from the server") } publicKey, err := c.persistence.GetQueryPublicKey(response.MessageId) if err != nil { return err } if publicKey == nil { c.config.Logger.Info("query not found") return nil } var pushNotificationInfo []*PushNotificationInfo for _, info := range response.Info { if bytes.Compare(info.PublicKey, common.HashPublicKey(publicKey)) != 0 { c.config.Logger.Warn("reply for different key, ignoring") continue } accessToken := info.AccessToken if len(accessToken) == 0 && len(info.AllowedUserList) != 0 { accessToken = c.handleAllowedUserList(publicKey, info.AllowedUserList) } if len(accessToken) == 0 { c.config.Logger.Info("not in the allowed users list") continue } // We check the user has allowed this server to store this particular // access token, otherwise anyone could reply with a fake token // and receive notifications for a user if err := c.handleGrant(publicKey, serverPublicKey, info.Grant, accessToken); err != nil { c.config.Logger.Warn("grant verification failed, ignoring", zap.Error(err)) continue } pushNotificationInfo = append(pushNotificationInfo, &PushNotificationInfo{ PublicKey: publicKey, ServerPublicKey: serverPublicKey, AccessToken: accessToken, InstallationID: info.InstallationId, Version: info.Version, RetrievedAt: time.Now().Unix(), }) } err = c.persistence.SavePushNotificationInfo(pushNotificationInfo) if err != nil { c.config.Logger.Error("failed to save push notifications", zap.Error(err)) return err } return nil } // HandlePushNotificationResponse should set the request as processed func (c *Client) HandlePushNotificationResponse(serverKey *ecdsa.PublicKey, response protobuf.PushNotificationResponse) error { messageID := response.MessageId for _, report := range response.Reports { err := c.persistence.UpdateNotificationResponse(messageID, report) if err != nil { return err } } // Restart resending loop c.stopResendingLoop() c.startResendingLoop() return nil } func (c *Client) RemovePushNotificationServer(publicKey *ecdsa.PublicKey) error { c.config.Logger.Info("removing push notification server", zap.Any("public-key", publicKey)) //TODO: this needs implementing. It requires unregistering from the server and // likely invalidate the device token of the user return errors.New("not implemented") } func (c *Client) AddPushNotificationServer(publicKey *ecdsa.PublicKey) error { c.config.Logger.Info("adding push notification server", zap.Any("public-key", publicKey)) currentServers, err := c.persistence.GetServers() if err != nil { return err } for _, server := range currentServers { if common.IsPubKeyEqual(server.PublicKey, publicKey) { return errors.New("push notification server already added") } } err = c.persistence.UpsertServer(&PushNotificationServer{ PublicKey: publicKey, }) if err != nil { return err } if c.config.RemoteNotificationsEnabled { c.startRegistrationLoop() } return nil } func (c *Client) QueryPushNotificationInfo(publicKey *ecdsa.PublicKey) error { hashedPublicKey := common.HashPublicKey(publicKey) query := &protobuf.PushNotificationQuery{ PublicKeys: [][]byte{hashedPublicKey}, } encodedMessage, err := proto.Marshal(query) if err != nil { return err } rawMessage := &common.RawMessage{ Payload: encodedMessage, MessageType: protobuf.ApplicationMetadataMessage_PUSH_NOTIFICATION_QUERY, } encodedPublicKey := hex.EncodeToString(hashedPublicKey) c.config.Logger.Info("sending query") messageID, err := c.messageProcessor.SendPublic(context.Background(), encodedPublicKey, rawMessage) if err != nil { return err } return c.persistence.SavePushNotificationQuery(publicKey, messageID) } func (c *Client) GetPushNotificationInfo(publicKey *ecdsa.PublicKey, installationIDs []string) ([]*PushNotificationInfo, error) { if len(installationIDs) == 0 { return c.persistence.GetPushNotificationInfoByPublicKey(publicKey) } else { return c.persistence.GetPushNotificationInfo(publicKey, installationIDs) } } func (c *Client) EnableSending() { c.config.SendEnabled = true } func (c *Client) DisableSending() { c.config.SendEnabled = false } func (c *Client) EnablePushNotificationsFromContactsOnly(contactIDs []*ecdsa.PublicKey, mutedChatIDs []string) error { c.config.allowFromContactsOnly = true if c.lastPushNotificationRegistration != nil { return c.Register(c.deviceToken, contactIDs, mutedChatIDs) } return nil } func (c *Client) DisablePushNotificationsFromContactsOnly(contactIDs []*ecdsa.PublicKey, mutedChatIDs []string) error { c.config.allowFromContactsOnly = false if c.lastPushNotificationRegistration != nil { return c.Register(c.deviceToken, contactIDs, mutedChatIDs) } return nil } func (c *Client) listenToPublicKeyQueryTopic(hashedPublicKey []byte) error { encodedPublicKey := hex.EncodeToString(hashedPublicKey) return c.messageProcessor.JoinPublic(encodedPublicKey) } func encryptAccessToken(plaintext []byte, key []byte, reader io.Reader) ([]byte, error) { c, err := aes.NewCipher(key) if err != nil { return nil, err } gcm, err := cipher.NewGCM(c) if err != nil { return nil, err } nonce := make([]byte, gcm.NonceSize()) if _, err = io.ReadFull(reader, nonce); err != nil { return nil, err } return gcm.Seal(nonce, nonce, plaintext, nil), nil } func (c *Client) encryptRegistration(publicKey *ecdsa.PublicKey, payload []byte) ([]byte, error) { sharedKey, err := c.generateSharedKey(publicKey) if err != nil { return nil, err } return common.Encrypt(payload, sharedKey, c.reader) } func (c *Client) generateSharedKey(publicKey *ecdsa.PublicKey) ([]byte, error) { return ecies.ImportECDSA(c.config.Identity).GenerateShared( ecies.ImportECDSAPublic(publicKey), encryptedPayloadKeyLength, encryptedPayloadKeyLength, ) }