package ext import ( "context" "encoding/hex" "errors" "fmt" "math/big" "time" "github.com/ethereum/go-ethereum/log" "github.com/ethereum/go-ethereum/rlp" "github.com/status-im/status-go/eth-node/types" enstypes "github.com/status-im/status-go/eth-node/types/ens" "github.com/status-im/status-go/mailserver" "github.com/status-im/status-go/params" "github.com/status-im/status-go/protocol" "github.com/status-im/status-go/protocol/encryption/multidevice" "github.com/status-im/status-go/protocol/transport" "github.com/status-im/status-go/services/ext/mailservers" ) const ( // defaultRequestTimeout is the default request timeout in seconds defaultRequestTimeout = 10 // ensContractAddress is the address of the ENS resolver ensContractAddress = "0x314159265dd8dbb310642f98f50c066173c1259b" ) var ( // ErrInvalidMailServerPeer is returned when it fails to parse enode from params. ErrInvalidMailServerPeer = errors.New("invalid mailServerPeer value") // ErrInvalidSymKeyID is returned when it fails to get a symmetric key. ErrInvalidSymKeyID = errors.New("invalid symKeyID value") // ErrInvalidPublicKey is returned when public key can't be extracted // from MailServer's nodeID. ErrInvalidPublicKey = errors.New("can't extract public key") // ErrPFSNotEnabled is returned when an endpoint PFS only is called but // PFS is disabled ErrPFSNotEnabled = errors.New("pfs not enabled") ) // ----- // PAYLOADS // ----- // MessagesRequest is a RequestMessages() request payload. type MessagesRequest struct { // MailServerPeer is MailServer's enode address. MailServerPeer string `json:"mailServerPeer"` // From is a lower bound of time range (optional). // Default is 24 hours back from now. From uint32 `json:"from"` // To is a upper bound of time range (optional). // Default is now. To uint32 `json:"to"` // Limit determines the number of messages sent by the mail server // for the current paginated request Limit uint32 `json:"limit"` // Cursor is used as starting point for paginated requests Cursor string `json:"cursor"` // Topic is a regular Whisper topic. // DEPRECATED Topic types.TopicType `json:"topic"` // Topics is a list of Whisper topics. Topics []types.TopicType `json:"topics"` // SymKeyID is an ID of a symmetric key to authenticate to MailServer. // It's derived from MailServer password. SymKeyID string `json:"symKeyID"` // Timeout is the time to live of the request specified in seconds. // Default is 10 seconds Timeout time.Duration `json:"timeout"` // Force ensures that requests will bypass enforced delay. Force bool `json:"force"` } func (r *MessagesRequest) SetDefaults(now time.Time) { // set From and To defaults if r.To == 0 { r.To = uint32(now.UTC().Unix()) } if r.From == 0 { oneDay := uint32(86400) // -24 hours if r.To < oneDay { r.From = 0 } else { r.From = r.To - oneDay } } if r.Timeout == 0 { r.Timeout = defaultRequestTimeout } } // MessagesResponse is a response for requestMessages2 method. type MessagesResponse struct { // Cursor from the response can be used to retrieve more messages // for the previous request. Cursor string `json:"cursor"` // Error indicates that something wrong happened when sending messages // to the requester. Error error `json:"error"` } // ----- // PUBLIC API // ----- // PublicAPI extends whisper public API. type PublicAPI struct { service *Service eventSub mailservers.EnvelopeEventSubscriber log log.Logger } // NewPublicAPI returns instance of the public API. func NewPublicAPI(s *Service, eventSub mailservers.EnvelopeEventSubscriber) *PublicAPI { return &PublicAPI{ service: s, eventSub: eventSub, log: log.New("package", "status-go/services/sshext.PublicAPI"), } } // RetryConfig specifies configuration for retries with timeout and max amount of retries. type RetryConfig struct { BaseTimeout time.Duration // StepTimeout defines duration increase per each retry. StepTimeout time.Duration MaxRetries int } func WaitForExpiredOrCompleted(requestID types.Hash, events chan types.EnvelopeEvent, timeout time.Duration) (*types.MailServerResponse, error) { expired := fmt.Errorf("request %x expired", requestID) after := time.NewTimer(timeout) defer after.Stop() for { var ev types.EnvelopeEvent select { case ev = <-events: case <-after.C: return nil, expired } if ev.Hash != requestID { continue } switch ev.Event { case types.EventMailServerRequestCompleted: data, ok := ev.Data.(*types.MailServerResponse) if ok { return data, nil } return nil, errors.New("invalid event data type") case types.EventMailServerRequestExpired: return nil, expired } } } type Author struct { PublicKey types.HexBytes `json:"publicKey"` Alias string `json:"alias"` Identicon string `json:"identicon"` } type Metadata struct { DedupID []byte `json:"dedupId"` EncryptionID types.HexBytes `json:"encryptionId"` MessageID types.HexBytes `json:"messageId"` Author Author `json:"author"` } // ConfirmMessagesProcessedByID is a method to confirm that messages was consumed by // the client side. // TODO: this is broken now as it requires dedup ID while a message hash should be used. func (api *PublicAPI) ConfirmMessagesProcessedByID(messageConfirmations []*Metadata) error { confirmationCount := len(messageConfirmations) dedupIDs := make([][]byte, confirmationCount) encryptionIDs := make([][]byte, confirmationCount) for i, confirmation := range messageConfirmations { dedupIDs[i] = confirmation.DedupID encryptionIDs[i] = confirmation.EncryptionID } return api.service.ConfirmMessagesProcessed(encryptionIDs) } // SendPublicMessage sends a public chat message to the underlying transport. // Message's payload is a transit encoded message. // It's important to call PublicAPI.afterSend() so that the client receives a signal // with confirmation that the message left the device. func (api *PublicAPI) SendPublicMessage(ctx context.Context, msg SendPublicMessageRPC) (types.HexBytes, error) { chat := protocol.Chat{ Name: msg.Chat, } return api.service.messenger.SendRaw(ctx, chat, msg.Payload) } // SendDirectMessage sends a 1:1 chat message to the underlying transport // Message's payload is a transit encoded message. // It's important to call PublicAPI.afterSend() so that the client receives a signal // with confirmation that the message left the device. func (api *PublicAPI) SendDirectMessage(ctx context.Context, msg SendDirectMessageRPC) (types.HexBytes, error) { chat := protocol.Chat{ ChatType: protocol.ChatTypeOneToOne, ID: types.EncodeHex(msg.PubKey), } return api.service.messenger.SendRaw(ctx, chat, msg.Payload) } func (api *PublicAPI) Join(chat protocol.Chat) error { return api.service.messenger.Join(chat) } func (api *PublicAPI) Leave(chat protocol.Chat) error { return api.service.messenger.Leave(chat) } func (api *PublicAPI) LeaveGroupChat(ctx Context, chatID string) (*protocol.MessengerResponse, error) { return api.service.messenger.LeaveGroupChat(ctx, chatID) } func (api *PublicAPI) CreateGroupChatWithMembers(ctx Context, name string, members []string) (*protocol.MessengerResponse, error) { return api.service.messenger.CreateGroupChatWithMembers(ctx, name, members) } func (api *PublicAPI) AddMembersToGroupChat(ctx Context, chatID string, members []string) (*protocol.MessengerResponse, error) { return api.service.messenger.AddMembersToGroupChat(ctx, chatID, members) } func (api *PublicAPI) RemoveMemberFromGroupChat(ctx Context, chatID string, member string) (*protocol.MessengerResponse, error) { return api.service.messenger.RemoveMemberFromGroupChat(ctx, chatID, member) } func (api *PublicAPI) AddAdminsToGroupChat(ctx Context, chatID string, members []string) (*protocol.MessengerResponse, error) { return api.service.messenger.AddAdminsToGroupChat(ctx, chatID, members) } func (api *PublicAPI) ConfirmJoiningGroup(ctx context.Context, chatID string) (*protocol.MessengerResponse, error) { return api.service.messenger.ConfirmJoiningGroup(ctx, chatID) } func (api *PublicAPI) LoadFilters(parent context.Context, chats []*transport.Filter) ([]*transport.Filter, error) { return api.service.messenger.LoadFilters(chats) } func (api *PublicAPI) SaveChat(parent context.Context, chat *protocol.Chat) error { api.log.Info("saving chat", "chat", chat) return api.service.messenger.SaveChat(chat) } func (api *PublicAPI) Chats(parent context.Context) []*protocol.Chat { return api.service.messenger.Chats() } func (api *PublicAPI) DeleteChat(parent context.Context, chatID string) error { return api.service.messenger.DeleteChat(chatID) } func (api *PublicAPI) SaveContact(parent context.Context, contact *protocol.Contact) error { return api.service.messenger.SaveContact(contact) } func (api *PublicAPI) BlockContact(parent context.Context, contact *protocol.Contact) ([]*protocol.Chat, error) { api.log.Info("blocking contact", "contact", contact.ID) return api.service.messenger.BlockContact(contact) } func (api *PublicAPI) Contacts(parent context.Context) []*protocol.Contact { return api.service.messenger.Contacts() } func (api *PublicAPI) RemoveFilters(parent context.Context, chats []*transport.Filter) error { return api.service.messenger.RemoveFilters(chats) } // EnableInstallation enables an installation for multi-device sync. func (api *PublicAPI) EnableInstallation(installationID string) error { return api.service.messenger.EnableInstallation(installationID) } // DisableInstallation disables an installation for multi-device sync. func (api *PublicAPI) DisableInstallation(installationID string) error { return api.service.messenger.DisableInstallation(installationID) } // GetOurInstallations returns all the installations available given an identity func (api *PublicAPI) GetOurInstallations() []*multidevice.Installation { return api.service.messenger.Installations() } // SetInstallationMetadata sets the metadata for our own installation func (api *PublicAPI) SetInstallationMetadata(installationID string, data *multidevice.InstallationMetadata) error { return api.service.messenger.SetInstallationMetadata(installationID, data) } // VerifyENSNames takes a list of ensdetails and returns whether they match the public key specified func (api *PublicAPI) VerifyENSNames(details []enstypes.ENSDetails) (map[string]enstypes.ENSResponse, error) { return api.service.messenger.VerifyENSNames(params.MainnetEthereumNetworkURL, ensContractAddress, details) } type ApplicationMessagesResponse struct { Messages []*protocol.Message `json:"messages"` Cursor string `json:"cursor"` } func (api *PublicAPI) ChatMessages(chatID, cursor string, limit int) (*ApplicationMessagesResponse, error) { messages, cursor, err := api.service.messenger.MessageByChatID(chatID, cursor, limit) if err != nil { return nil, err } return &ApplicationMessagesResponse{ Messages: messages, Cursor: cursor, }, nil } func (api *PublicAPI) DeleteMessage(id string) error { return api.service.messenger.DeleteMessage(id) } func (api *PublicAPI) DeleteMessagesByChatID(id string) error { return api.service.messenger.DeleteMessagesByChatID(id) } func (api *PublicAPI) MarkMessagesSeen(chatID string, ids []string) error { return api.service.messenger.MarkMessagesSeen(chatID, ids) } func (api *PublicAPI) UpdateMessageOutgoingStatus(id, newOutgoingStatus string) error { return api.service.messenger.UpdateMessageOutgoingStatus(id, newOutgoingStatus) } func (api *PublicAPI) SendChatMessage(ctx context.Context, message *protocol.Message) (*protocol.MessengerResponse, error) { return api.service.messenger.SendChatMessage(ctx, message) } func (api *PublicAPI) ReSendChatMessage(ctx context.Context, messageID string) error { return api.service.messenger.ReSendChatMessage(ctx, messageID) } func (api *PublicAPI) RequestTransaction(ctx context.Context, chatID, value, contract, address string) (*protocol.MessengerResponse, error) { return api.service.messenger.RequestTransaction(ctx, chatID, value, contract, address) } func (api *PublicAPI) RequestAddressForTransaction(ctx context.Context, chatID, from, value, contract string) (*protocol.MessengerResponse, error) { return api.service.messenger.RequestAddressForTransaction(ctx, chatID, from, value, contract) } func (api *PublicAPI) DeclineRequestAddressForTransaction(ctx context.Context, messageID string) (*protocol.MessengerResponse, error) { return api.service.messenger.DeclineRequestAddressForTransaction(ctx, messageID) } func (api *PublicAPI) DeclineRequestTransaction(ctx context.Context, messageID string) (*protocol.MessengerResponse, error) { return api.service.messenger.DeclineRequestTransaction(ctx, messageID) } func (api *PublicAPI) AcceptRequestAddressForTransaction(ctx context.Context, messageID, address string) (*protocol.MessengerResponse, error) { return api.service.messenger.AcceptRequestAddressForTransaction(ctx, messageID, address) } func (api *PublicAPI) SendTransaction(ctx context.Context, chatID, value, contract, transactionHash string, signature types.HexBytes) (*protocol.MessengerResponse, error) { return api.service.messenger.SendTransaction(ctx, chatID, value, contract, transactionHash, signature) } func (api *PublicAPI) AcceptRequestTransaction(ctx context.Context, transactionHash, messageID string, signature types.HexBytes) (*protocol.MessengerResponse, error) { return api.service.messenger.AcceptRequestTransaction(ctx, transactionHash, messageID, signature) } func (api *PublicAPI) SendContactUpdates(ctx context.Context, name, picture string) error { return api.service.messenger.SendContactUpdates(ctx, name, picture) } func (api *PublicAPI) SendContactUpdate(ctx context.Context, contactID, name, picture string) (*protocol.MessengerResponse, error) { return api.service.messenger.SendContactUpdate(ctx, contactID, name, picture) } func (api *PublicAPI) SendPairInstallation(ctx context.Context) (*protocol.MessengerResponse, error) { return api.service.messenger.SendPairInstallation(ctx) } func (api *PublicAPI) SyncDevices(ctx context.Context, name, picture string) error { return api.service.messenger.SyncDevices(ctx, name, picture) } // Echo is a method for testing purposes. func (api *PublicAPI) Echo(ctx context.Context, message string) (string, error) { return message, nil } // ----- // HELPER // ----- // MakeMessagesRequestPayload makes a specific payload for MailServer // to request historic messages. // DEPRECATED func MakeMessagesRequestPayload(r MessagesRequest) ([]byte, error) { cursor, err := hex.DecodeString(r.Cursor) if err != nil { return nil, fmt.Errorf("invalid cursor: %v", err) } if len(cursor) > 0 && len(cursor) != mailserver.CursorLength { return nil, fmt.Errorf("invalid cursor size: expected %d but got %d", mailserver.CursorLength, len(cursor)) } payload := mailserver.MessagesRequestPayload{ Lower: r.From, Upper: r.To, Bloom: createBloomFilter(r), Limit: r.Limit, Cursor: cursor, // Client must tell the MailServer if it supports batch responses. // This can be removed in the future. Batch: true, } return rlp.EncodeToBytes(payload) } func createBloomFilter(r MessagesRequest) []byte { if len(r.Topics) > 0 { return topicsToBloom(r.Topics...) } return types.TopicToBloom(r.Topic) } func topicsToBloom(topics ...types.TopicType) []byte { i := new(big.Int) for _, topic := range topics { bloom := types.TopicToBloom(topic) i.Or(i, new(big.Int).SetBytes(bloom[:])) } combined := make([]byte, types.BloomFilterSize) data := i.Bytes() copy(combined[types.BloomFilterSize-len(data):], data[:]) return combined } // TopicsToBloom squashes all topics into a single bloom filter. func TopicsToBloom(topics ...types.TopicType) []byte { return topicsToBloom(topics...) }