package protocol import ( "context" "fmt" "testing" "github.com/stretchr/testify/suite" "go.uber.org/zap" "github.com/status-im/status-go/deprecation" "github.com/status-im/status-go/eth-node/crypto" "github.com/status-im/status-go/eth-node/types" multiaccountscommon "github.com/status-im/status-go/multiaccounts/common" "github.com/status-im/status-go/multiaccounts/settings" "github.com/status-im/status-go/protocol/common" "github.com/status-im/status-go/protocol/protobuf" "github.com/status-im/status-go/protocol/requests" v1protocol "github.com/status-im/status-go/protocol/v1" ) func TestMessengerContactRequestSuite(t *testing.T) { suite.Run(t, new(MessengerContactRequestSuite)) } type MessengerContactRequestSuite struct { MessengerBaseTestSuite } func (s *MessengerContactRequestSuite) findFirstByContentType(messages []*common.Message, contentType protobuf.ChatMessage_ContentType) *common.Message { return FindFirstByContentType(messages, contentType) } func (s *MessengerContactRequestSuite) sendContactRequest(request *requests.SendContactRequest, messenger *Messenger) { s.logger.Info("sendContactRequest", zap.String("sender", messenger.IdentityPublicKeyString()), zap.String("receiver", request.ID)) // Send contact request resp, err := messenger.SendContactRequest(context.Background(), request) s.Require().NoError(err) s.Require().NotNil(resp) // Check CR and mutual state update messages s.Require().Len(resp.Messages(), 2) mutualStateUpdate := s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_SYSTEM_MESSAGE_MUTUAL_EVENT_SENT) s.Require().NotNil(mutualStateUpdate) s.Require().NotNil(mutualStateUpdate.ID) s.Require().Equal(mutualStateUpdate.From, messenger.myHexIdentity()) s.Require().Equal(mutualStateUpdate.ChatId, request.ID) s.Require().Equal(mutualStateUpdate.Text, fmt.Sprintf(outgoingMutualStateEventSentDefaultText, request.ID)) contactRequest := s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_CONTACT_REQUEST) s.Require().NotNil(contactRequest) s.Require().Equal(common.ContactRequestStatePending, contactRequest.ContactRequestState) s.Require().Equal(request.Message, contactRequest.Text) // Check pending notification s.Require().Len(resp.ActivityCenterNotifications(), 1) s.Require().Equal(ActivityCenterNotificationTypeContactRequest, resp.ActivityCenterNotifications()[0].Type) s.Require().Equal(contactRequest.ID, resp.ActivityCenterNotifications()[0].Message.ID) s.Require().Equal(contactRequest.ContactRequestState, resp.ActivityCenterNotifications()[0].Message.ContactRequestState) s.Require().Equal(resp.ActivityCenterNotifications()[0].Read, true) // Check contacts s.Require().Len(resp.Contacts, 1) contact := resp.Contacts[0] s.Require().False(contact.mutual()) // Make sure it's not returned as coming from us contactRequests, _, err := messenger.PendingContactRequests("", 10) s.Require().NoError(err) s.Require().Len(contactRequests, 0) // Make sure contact is added on the sender side contacts := messenger.AddedContacts() s.Require().Len(contacts, 1) s.Require().Equal(ContactRequestStateSent, contacts[0].ContactRequestLocalState) s.Require().NotNil(contacts[0].DisplayName) // Check contact's primary name matches notification's name s.Require().Equal(resp.ActivityCenterNotifications()[0].Name, contacts[0].PrimaryName()) } func (s *MessengerContactRequestSuite) receiveContactRequest(messageText string, theirMessenger *Messenger) *common.Message { s.logger.Info("receiveContactRequest", zap.String("receiver", theirMessenger.IdentityPublicKeyString())) // Wait for the message to reach its destination resp, err := WaitOnMessengerResponse( theirMessenger, func(r *MessengerResponse) bool { return len(r.Contacts) == 1 && len(r.Messages()) >= 2 && len(r.ActivityCenterNotifications()) == 1 }, "no messages", ) // Check contact request has been received s.Require().NoError(err) s.Require().NotNil(resp) // Check CR and mutual state update messages s.Require().Len(resp.Messages(), 2) contactRequest := s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_CONTACT_REQUEST) s.Require().NotNil(contactRequest) s.Require().Equal(common.ContactRequestStatePending, contactRequest.ContactRequestState) s.Require().Equal(messageText, contactRequest.Text) mutualStateUpdate := s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_SYSTEM_MESSAGE_MUTUAL_EVENT_SENT) s.Require().NotNil(mutualStateUpdate) s.Require().Equal(mutualStateUpdate.From, contactRequest.From) s.Require().Equal(mutualStateUpdate.ChatId, contactRequest.From) s.Require().Equal(mutualStateUpdate.Text, fmt.Sprintf(incomingMutualStateEventSentDefaultText, contactRequest.From)) // Check activity center notification is of the right type s.Require().Len(resp.ActivityCenterNotifications(), 1) s.Require().Equal(ActivityCenterNotificationTypeContactRequest, resp.ActivityCenterNotifications()[0].Type) s.Require().Equal(contactRequest.ID, resp.ActivityCenterNotifications()[0].Message.ID) s.Require().Equal(contactRequest.ContactRequestState, resp.ActivityCenterNotifications()[0].Message.ContactRequestState) s.Require().Equal(resp.ActivityCenterNotifications()[0].Read, false) s.Require().Equal(resp.ActivityCenterNotifications()[0].Accepted, false) s.Require().Equal(resp.ActivityCenterNotifications()[0].Dismissed, false) notifications, err := theirMessenger.ActivityCenterNotifications(ActivityCenterNotificationsRequest{ Cursor: "", Limit: 10, ActivityTypes: []ActivityCenterType{ActivityCenterNotificationTypeContactRequest}, ReadType: ActivityCenterQueryParamsReadUnread, }, ) s.Require().NoError(err) s.Require().Len(notifications.Notifications, 1) s.Require().Equal(contactRequest.ID, notifications.Notifications[0].Message.ID) s.Require().Equal(contactRequest.ContactRequestState, notifications.Notifications[0].Message.ContactRequestState) // Check the contact state is correctly set s.Require().Len(resp.Contacts, 1) contact := resp.Contacts[0] s.Require().Equal(ContactRequestStateReceived, contact.ContactRequestRemoteState) // Check contact's primary name matches notification's name s.Require().Equal(resp.ActivityCenterNotifications()[0].Name, contact.PrimaryName()) // Make sure it's the latest pending contact requests contactRequests, _, err := theirMessenger.PendingContactRequests("", 10) s.Require().NoError(err) s.Require().Greater(len(contactRequests), 0) s.Require().Equal(contactRequests[0].ID, contactRequest.ID) // Confirm latest pending contact request resp, err = theirMessenger.GetLatestContactRequestForContact(contactRequest.From) s.Require().NoError(err) s.Require().Len(resp.Messages(), 1) s.Require().Equal(contactRequest.ID, resp.Messages()[0].ID) s.Require().Equal(common.ContactRequestStatePending, resp.Messages()[0].ContactRequestState) return contactRequest } // This function partially logs given MessengerResponse with description. // This is helpful for testing response content during long tests. // Logged contents: Messages, Contacts, ActivityCenterNotifications func (s *MessengerContactRequestSuite) logResponse(response *MessengerResponse, description string) { s.logger.Debug("MessengerResponse", zap.String("description", description)) for i, message := range response.Messages() { s.logger.Debug("message", zap.Int("index", i), zap.String("Text", message.Text), zap.Any("ContentType", message.ContentType), ) } for i, contact := range response.Contacts { s.logger.Debug("contact", zap.Int("index", i), zap.Bool("Blocked", contact.Blocked), zap.Bool("Removed", contact.Removed), zap.Any("crRemoteState", contact.ContactRequestLocalState), zap.Any("crLocalState", contact.ContactRequestRemoteState), ) } for i, notification := range response.ActivityCenterNotifications() { messageText := "" if notification.Message != nil { messageText = notification.Message.Text } s.logger.Debug("acNotification", zap.Int("index", i), zap.Any("id", notification.ID), zap.Any("Type", notification.Type), zap.String("Message", messageText), zap.String("Name", notification.Name), zap.String("Author", notification.Author), ) } } func (s *MessengerContactRequestSuite) acceptContactRequest( contactRequest *common.Message, sender *Messenger, receiver *Messenger) { s.logger.Info("acceptContactRequest", zap.String("sender", sender.IdentityPublicKeyString()), zap.String("receiver", receiver.IdentityPublicKeyString())) // Accept contact request, receiver side resp, err := receiver.AcceptContactRequest(context.Background(), &requests.AcceptContactRequest{ID: types.Hex2Bytes(contactRequest.ID)}) s.Require().NoError(err) // Chack updated contact request message and mutual state update s.Require().NotNil(resp) s.Require().Len(resp.Messages(), 2) contactRequestMsg := s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_CONTACT_REQUEST) s.Require().NotNil(contactRequestMsg) mutualStateUpdate := s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_SYSTEM_MESSAGE_MUTUAL_EVENT_ACCEPTED) s.Require().NotNil(mutualStateUpdate) s.Require().Equal(contactRequestMsg.ID, contactRequest.ID) s.Require().Equal(common.ContactRequestStateAccepted, contactRequestMsg.ContactRequestState) s.Require().Equal(mutualStateUpdate.ChatId, contactRequestMsg.From) s.Require().Equal(mutualStateUpdate.From, contactRequestMsg.ChatId) s.Require().Equal(mutualStateUpdate.Text, fmt.Sprintf(outgoingMutualStateEventAcceptedDefaultText, contactRequestMsg.From)) s.Require().Len(resp.ActivityCenterNotifications(), 1) s.Require().Equal(resp.ActivityCenterNotifications()[0].ID.String(), contactRequest.ID) s.Require().NotNil(resp.ActivityCenterNotifications()[0].Message) s.Require().Equal(common.ContactRequestStateAccepted, resp.ActivityCenterNotifications()[0].Message.ContactRequestState) // Check the contact state is correctly set s.Require().Len(resp.Contacts, 1) s.Require().True(resp.Contacts[0].mutual()) // Check contact's primary name matches notification's name s.Require().Equal(resp.ActivityCenterNotifications()[0].Name, resp.Contacts[0].PrimaryName()) // Check we have active chat in the response s.Require().Len(resp.Chats(), 1) s.Require().True(resp.Chats()[0].Active) // Make sure the sender is added to our contacts contacts := receiver.AddedContacts() s.Require().Len(contacts, 1) // Make sure we consider them a mutual contact, receiver side mutualContacts := receiver.MutualContacts() s.Require().Len(mutualContacts, 1) // Confirm latest pending contact request resp, err = receiver.GetLatestContactRequestForContact(sender.IdentityPublicKeyString()) s.Require().NoError(err) s.Require().Len(resp.Messages(), 1) s.Require().Equal(contactRequest.ID, resp.Messages()[0].ID) s.Require().Equal(common.ContactRequestStateAccepted, resp.Messages()[0].ContactRequestState) // Wait for the message to reach its destination resp, err = WaitOnMessengerResponse(sender, func(r *MessengerResponse) bool { return len(r.Contacts) == 1 && len(r.Messages()) == 2 }, "contact request acceptance not received", ) s.logResponse(resp, "acceptContactRequest") s.Require().NoError(err) s.Require().NotNil(resp) // Check activity center notification is of the right type s.Require().Len(resp.ActivityCenterNotifications(), 1) s.Require().Equal(ActivityCenterNotificationTypeContactRequest, resp.ActivityCenterNotifications()[0].Type) s.Require().Equal(common.ContactRequestStateAccepted, resp.ActivityCenterNotifications()[0].Message.ContactRequestState) s.Require().Equal(resp.ActivityCenterNotifications()[0].Read, true) s.Require().Equal(resp.ActivityCenterNotifications()[0].Accepted, true) s.Require().Equal(resp.ActivityCenterNotifications()[0].Dismissed, false) s.Require().NotNil(resp.ActivityCenterNotifications()[0].Message) // Make sure the message is updated, sender side s.Require().Len(resp.Messages(), 2) contactRequestMsg = s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_CONTACT_REQUEST) s.Require().NotNil(contactRequestMsg) mutualStateUpdate = s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_SYSTEM_MESSAGE_MUTUAL_EVENT_ACCEPTED) s.Require().NotNil(mutualStateUpdate) s.Require().Equal(contactRequest.ID, contactRequestMsg.ID) s.Require().Equal(contactRequest.Text, contactRequestMsg.Text) s.Require().Equal(common.ContactRequestStateAccepted, contactRequestMsg.ContactRequestState) s.Require().Equal(mutualStateUpdate.From, contactRequestMsg.ChatId) s.Require().Equal(mutualStateUpdate.ChatId, contactRequestMsg.ChatId) s.Require().Equal(mutualStateUpdate.Text, fmt.Sprintf(incomingMutualStateEventAcceptedDefaultText, contactRequestMsg.ChatId)) // Make sure we consider them a mutual contact, sender side mutualContacts = s.m.MutualContacts() s.Require().Len(mutualContacts, 1) // Check the contact state is correctly set s.Require().Len(resp.Contacts, 1) contact := resp.Contacts[0] s.Require().True(contact.mutual()) // Check contact's primary name matches notification's name s.Require().Equal(resp.ActivityCenterNotifications()[0].Name, contact.PrimaryName()) // Sender's side chat should be active after the accepting the CR chat, ok := s.m.allChats.Load(contact.ID) s.Require().True(ok) s.Require().NotNil(chat) s.Require().True(chat.Active) // Receiver's side chat should be also active after the accepting the CR myID := types.EncodeHex(crypto.FromECDSAPub(&s.m.identity.PublicKey)) chat, ok = receiver.allChats.Load(myID) s.Require().True(ok) s.Require().NotNil(chat) s.Require().True(chat.Active) } func (s *MessengerContactRequestSuite) checkMutualContact(messenger *Messenger, contactPublicKey string) { contacts := messenger.AddedContacts() s.Require().Len(contacts, 1) contact := contacts[0] s.Require().Equal(contactPublicKey, contact.ID) s.Require().True(contact.mutual()) } func (s *MessengerContactRequestSuite) createContactRequest(contactPublicKey string, messageText string) *requests.SendContactRequest { return &requests.SendContactRequest{ ID: contactPublicKey, Message: messageText, } } func (s *MessengerContactRequestSuite) declineContactRequest(contactRequest *common.Message, theirMessenger *Messenger) { // Dismiss contact request, receiver side resp, err := theirMessenger.DeclineContactRequest(context.Background(), &requests.DeclineContactRequest{ID: types.Hex2Bytes(contactRequest.ID)}) s.Require().NoError(err) // Check the contact state is correctly set s.Require().Len(resp.Contacts, 1) s.Require().Equal(ContactRequestStateDismissed, resp.Contacts[0].ContactRequestLocalState) // Make sure the message is updated s.Require().NotNil(resp) s.Require().Len(resp.Messages(), 1) s.Require().Equal(resp.Messages()[0].ID, contactRequest.ID) s.Require().Equal(common.ContactRequestStateDismissed, resp.Messages()[0].ContactRequestState) s.Require().Len(resp.ActivityCenterNotifications(), 1) s.Require().Equal(resp.ActivityCenterNotifications()[0].ID.String(), contactRequest.ID) s.Require().NotNil(resp.ActivityCenterNotifications()[0].Message) s.Require().Equal(resp.ActivityCenterNotifications()[0].Read, true) s.Require().Equal(resp.ActivityCenterNotifications()[0].Accepted, false) s.Require().Equal(resp.ActivityCenterNotifications()[0].Dismissed, true) s.Require().Equal(common.ContactRequestStateDismissed, resp.ActivityCenterNotifications()[0].Message.ContactRequestState) // Check contact's primary name matches notification's name s.Require().Equal(resp.ActivityCenterNotifications()[0].Name, resp.Contacts[0].PrimaryName()) // Make sure the sender is not added to our contacts contacts := theirMessenger.AddedContacts() s.Require().Len(contacts, 0) } func (s *MessengerContactRequestSuite) retractContactRequest(contactID string, theirMessenger *Messenger) { resp, err := s.m.RetractContactRequest(&requests.RetractContactRequest{ID: types.Hex2Bytes(contactID)}) s.Require().NoError(err) s.Require().NotNil(resp) s.Require().Len(resp.Contacts, 1) s.Require().False(resp.Contacts[0].hasAddedUs()) s.Require().False(resp.Contacts[0].added()) // Check the contact state is correctly set s.Require().Len(resp.Contacts, 1) s.Require().Equal(ContactRequestStateNone, resp.Contacts[0].ContactRequestLocalState) s.Require().Equal(ContactRequestStateNone, resp.Contacts[0].ContactRequestRemoteState) // Check outgoing mutual state message s.Require().Len(resp.Messages(), 1) mutualStateUpdate := s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_SYSTEM_MESSAGE_MUTUAL_EVENT_REMOVED) s.Require().NotNil(mutualStateUpdate) myID := types.EncodeHex(crypto.FromECDSAPub(&s.m.identity.PublicKey)) s.Require().Equal(mutualStateUpdate.From, myID) s.Require().Equal(mutualStateUpdate.ChatId, contactID) s.Require().Equal(mutualStateUpdate.Text, fmt.Sprintf(outgoingMutualStateEventRemovedDefaultText, contactID)) // Wait for the message to reach its destination resp, err = WaitOnMessengerResponse( theirMessenger, func(r *MessengerResponse) bool { return len(r.Contacts) > 0 && len(r.ActivityCenterNotifications()) == 1 }, "no messages", ) s.Require().NoError(err) s.Require().NotNil(resp) s.Require().Len(resp.Contacts, 1) s.Require().Equal(myID, resp.Contacts[0].ID) s.Require().False(resp.Contacts[0].added()) s.Require().False(resp.Contacts[0].hasAddedUs()) s.Require().Equal(ContactRequestStateNone, resp.Contacts[0].ContactRequestLocalState) s.Require().Equal(ContactRequestStateNone, resp.Contacts[0].ContactRequestRemoteState) // Check pending notification s.Require().Len(resp.ActivityCenterNotifications(), 1) s.Require().Equal(ActivityCenterNotificationTypeContactRemoved, resp.ActivityCenterNotifications()[0].Type) s.Require().Equal(resp.ActivityCenterNotifications()[0].Read, false) // Check incoming mutual state message s.Require().Len(resp.Messages(), 1) mutualStateUpdate = s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_SYSTEM_MESSAGE_MUTUAL_EVENT_REMOVED) s.Require().NotNil(mutualStateUpdate) s.Require().Equal(mutualStateUpdate.From, myID) s.Require().Equal(mutualStateUpdate.ChatId, myID) s.Require().Equal(mutualStateUpdate.Text, fmt.Sprintf(incomingMutualStateEventRemovedDefaultText, myID)) } func (s *MessengerContactRequestSuite) syncInstallationContactV2FromContact(contact *Contact) protobuf.SyncInstallationContactV2 { return protobuf.SyncInstallationContactV2{ LastUpdatedLocally: contact.LastUpdatedLocally, LastUpdated: contact.LastUpdated, Id: contact.ID, DisplayName: contact.DisplayName, EnsName: contact.EnsName, LocalNickname: contact.LocalNickname, Added: contact.added(), Blocked: contact.Blocked, Muted: false, HasAddedUs: contact.hasAddedUs(), Removed: contact.Removed, ContactRequestLocalState: int64(contact.ContactRequestLocalState), ContactRequestRemoteState: int64(contact.ContactRequestRemoteState), ContactRequestRemoteClock: int64(contact.ContactRequestRemoteClock), ContactRequestLocalClock: int64(contact.ContactRequestLocalClock), VerificationStatus: int64(contact.VerificationStatus), TrustStatus: int64(contact.TrustStatus), } } func (s *MessengerContactRequestSuite) TestReceiveAndAcceptContactRequest() { //nolint: unused messageText := "hello!" theirMessenger := s.newMessenger() defer TearDownMessenger(&s.Suite, theirMessenger) contactID := types.EncodeHex(crypto.FromECDSAPub(&theirMessenger.identity.PublicKey)) request := &requests.SendContactRequest{ ID: contactID, Message: messageText, } s.sendContactRequest(request, s.m) contactRequest := s.receiveContactRequest(messageText, theirMessenger) s.acceptContactRequest(contactRequest, s.m, theirMessenger) } func (s *MessengerContactRequestSuite) TestReceiveAndDismissContactRequest() { messageText := "hello!" theirMessenger := s.newMessenger() defer TearDownMessenger(&s.Suite, theirMessenger) contactID := types.EncodeHex(crypto.FromECDSAPub(&theirMessenger.identity.PublicKey)) request := &requests.SendContactRequest{ ID: contactID, Message: messageText, } s.sendContactRequest(request, s.m) contactRequest := s.receiveContactRequest(messageText, theirMessenger) s.declineContactRequest(contactRequest, theirMessenger) } func (s *MessengerContactRequestSuite) TestReceiveAcceptAndRetractContactRequest() { //nolint: unused messageText := "hello!" theirMessenger := s.newMessenger() defer TearDownMessenger(&s.Suite, theirMessenger) s.Require().NoError(theirMessenger.settings.SaveSettingField(settings.MutualContactEnabled, true)) contactID := types.EncodeHex(crypto.FromECDSAPub(&theirMessenger.identity.PublicKey)) request := &requests.SendContactRequest{ ID: contactID, Message: messageText, } s.sendContactRequest(request, s.m) contactRequest := s.receiveContactRequest(messageText, theirMessenger) s.acceptContactRequest(contactRequest, s.m, theirMessenger) s.retractContactRequest(contactID, theirMessenger) } // The scenario tested is as follow: // 1. Repeat 5 times: // 2.1) Alice sends a contact request to Bob // 2.2) Bob accepts the contact request // 2.3) Alice removes bob from contacts func (s *MessengerContactRequestSuite) TestAcceptCRRemoveAndRepeat() { theirMessenger := s.newMessenger() defer TearDownMessenger(&s.Suite, theirMessenger) contactID := types.EncodeHex(crypto.FromECDSAPub(&theirMessenger.identity.PublicKey)) for i := 0; i < 5; i++ { messageText := fmt.Sprintf("hello %d", i) request := &requests.SendContactRequest{ ID: contactID, Message: messageText, } s.sendContactRequest(request, s.m) contactRequest := s.receiveContactRequest(messageText, theirMessenger) s.acceptContactRequest(contactRequest, s.m, theirMessenger) s.retractContactRequest(contactID, theirMessenger) } } // The scenario tested is as follow: // 1) Alice sends a contact request to Bob // 2) Bob declines the contact request // 3) Alice fails to send a new contact request to Bob func (s *MessengerContactRequestSuite) TestAliceTriesToSpamBobWithContactRequests() { messageTextAlice := "You wanna play with fire, Bobby?!" alice := s.m bob := s.newMessenger() defer TearDownMessenger(&s.Suite, bob) bobID := types.EncodeHex(crypto.FromECDSAPub(&bob.identity.PublicKey)) // Alice sends a contact request to Bob request := &requests.SendContactRequest{ ID: bobID, Message: messageTextAlice, } s.sendContactRequest(request, alice) contactRequest := s.receiveContactRequest(messageTextAlice, bob) s.Require().NotNil(contactRequest) // Bob declines the contact request s.declineContactRequest(contactRequest, bob) // Alice sends a new contact request resp, err := alice.SendContactRequest(context.Background(), request) s.Require().NoError(err) s.Require().NotNil(resp) // Check CR and mutual state update messages s.Require().Len(resp.Messages(), 2) contactRequest = s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_CONTACT_REQUEST) s.Require().NotNil(contactRequest) s.Require().Equal(common.ContactRequestStatePending, contactRequest.ContactRequestState) s.Require().Equal(request.Message, contactRequest.Text) // We should not receive a CR from a rejected contact _, err = WaitOnMessengerResponse( bob, func(r *MessengerResponse) bool { return len(r.Messages()) > 0 && s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_CONTACT_REQUEST) != nil }, "no messages", ) s.Require().Error(err) s.Require().ErrorContains(err, "no messages") } // The scenario tested is as follow: // 1) Alice sends a contact request to Bob // 2) Bob accepts the contact // 3) Bob accepts the contact request (again!) // 4) No extra mesages on Alice's side func (s *MessengerContactRequestSuite) TestAliceSeesOnlyOneAcceptFromBob() { messageTextAlice := "You wanna play with fire, Bobby?!" alice := s.m bob := s.newMessenger() defer TearDownMessenger(&s.Suite, bob) bobID := types.EncodeHex(crypto.FromECDSAPub(&bob.identity.PublicKey)) // Alice sends a contact request to Bob request := &requests.SendContactRequest{ ID: bobID, Message: messageTextAlice, } s.sendContactRequest(request, alice) contactRequest := s.receiveContactRequest(messageTextAlice, bob) s.Require().NotNil(contactRequest) // Bob accepts the contact request s.acceptContactRequest(contactRequest, alice, bob) // Accept contact request again _, err := bob.AcceptContactRequest(context.Background(), &requests.AcceptContactRequest{ID: types.Hex2Bytes(contactRequest.ID)}) s.Require().NoError(err) // Check we don't have extra messages on Alice's side resp, err := WaitOnMessengerResponse(alice, func(r *MessengerResponse) bool { return len(r.ActivityCenterNotifications()) == 1 && len(r.Messages()) == 1 }, "contact request acceptance not received", ) s.Require().NoError(err) s.Require().NotNil(resp) // Check activity center notification is of the right type s.Require().Len(resp.ActivityCenterNotifications(), 1) s.Require().Equal(ActivityCenterNotificationTypeContactRequest, resp.ActivityCenterNotifications()[0].Type) s.Require().Equal(common.ContactRequestStateAccepted, resp.ActivityCenterNotifications()[0].Message.ContactRequestState) s.Require().Equal(resp.ActivityCenterNotifications()[0].Read, true) s.Require().Equal(resp.ActivityCenterNotifications()[0].Accepted, true) s.Require().Equal(resp.ActivityCenterNotifications()[0].Dismissed, false) s.Require().NotNil(resp.ActivityCenterNotifications()[0].Message) // Make sure the message is updated, sender side s.Require().Len(resp.Messages(), 1) contactRequest = s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_CONTACT_REQUEST) s.Require().NotNil(contactRequest) s.Require().Equal(common.ContactRequestStateAccepted, contactRequest.ContactRequestState) s.Require().Equal(request.Message, contactRequest.Text) } func (s *MessengerContactRequestSuite) TestReceiveAndAcceptContactRequestTwice() { //nolint: unused messageText := "hello!" theirMessenger := s.newMessenger() defer TearDownMessenger(&s.Suite, theirMessenger) contactID := types.EncodeHex(crypto.FromECDSAPub(&theirMessenger.identity.PublicKey)) request := &requests.SendContactRequest{ ID: contactID, Message: messageText, } s.sendContactRequest(request, s.m) contactRequest := s.receiveContactRequest(messageText, theirMessenger) s.acceptContactRequest(contactRequest, s.m, theirMessenger) // Resend contact request with higher clock value resp, err := s.m.SendContactRequest(context.Background(), request) s.Require().NoError(err) s.Require().NotNil(resp) // Check CR and mutual state update messages s.Require().Len(resp.Messages(), 2) contactRequest = s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_CONTACT_REQUEST) s.Require().NotNil(contactRequest) s.Require().Equal(common.ContactRequestStateAccepted, contactRequest.ContactRequestState) s.Require().Equal(request.Message, contactRequest.Text) // We should not receive a CR from a mutual contact _, err = WaitOnMessengerResponse( theirMessenger, func(r *MessengerResponse) bool { return len(r.Messages()) > 0 && s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_CONTACT_REQUEST) != nil }, "no messages", ) s.Require().Error(err) s.Require().ErrorContains(err, "no messages") } func (s *MessengerContactRequestSuite) TestAcceptLatestContactRequestForContact() { messageText := "hello!" theirMessenger := s.newMessenger() defer TearDownMessenger(&s.Suite, theirMessenger) contactID := types.EncodeHex(crypto.FromECDSAPub(&theirMessenger.identity.PublicKey)) request := &requests.SendContactRequest{ ID: contactID, Message: messageText, } s.sendContactRequest(request, s.m) contactRequest := s.receiveContactRequest(messageText, theirMessenger) // Accept latest contact request, receiver side myID := types.EncodeHex(crypto.FromECDSAPub(&s.m.identity.PublicKey)) resp, err := theirMessenger.AcceptLatestContactRequestForContact(context.Background(), &requests.AcceptLatestContactRequestForContact{ID: types.Hex2Bytes(myID)}) s.Require().NoError(err) // Make sure the message is updated s.Require().NotNil(resp) s.Require().Len(resp.Messages(), 2) contactRequestMsg := s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_CONTACT_REQUEST) s.Require().NotNil(contactRequestMsg) mutualStateUpdate := s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_SYSTEM_MESSAGE_MUTUAL_EVENT_ACCEPTED) s.Require().NotNil(mutualStateUpdate) s.Require().Equal(contactRequestMsg.ID, contactRequest.ID) s.Require().Equal(common.ContactRequestStateAccepted, contactRequestMsg.ContactRequestState) s.Require().Equal(mutualStateUpdate.From, contactRequest.ChatId) s.Require().Equal(mutualStateUpdate.ChatId, contactRequest.From) s.Require().Len(resp.ActivityCenterNotifications(), 1) s.Require().Equal(resp.ActivityCenterNotifications()[0].ID.String(), contactRequest.ID) s.Require().NotNil(resp.ActivityCenterNotifications()[0].Message) s.Require().Equal(common.ContactRequestStateAccepted, resp.ActivityCenterNotifications()[0].Message.ContactRequestState) // Check the contact state is correctly set s.Require().Len(resp.Contacts, 1) s.Require().True(resp.Contacts[0].mutual()) // Make sure the sender is added to our contacts contacts := theirMessenger.AddedContacts() s.Require().Len(contacts, 1) // Make sure we consider them a mutual contact, receiver side mutualContacts := theirMessenger.MutualContacts() s.Require().Len(mutualContacts, 1) // Wait for the message to reach its destination resp, err = WaitOnMessengerResponse( s.m, func(r *MessengerResponse) bool { return len(r.Contacts) == 1 && len(r.Messages()) == 2 && len(r.ActivityCenterNotifications()) == 1 }, "no messages", ) s.Require().NoError(err) // Make sure the message is updated, sender side s.Require().NotNil(resp) s.Require().Len(resp.Messages(), 2) contactRequestMsg = s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_CONTACT_REQUEST) s.Require().NotNil(contactRequestMsg) mutualStateUpdate = s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_SYSTEM_MESSAGE_MUTUAL_EVENT_ACCEPTED) s.Require().NotNil(mutualStateUpdate) s.Require().Equal(common.ContactRequestStateAccepted, contactRequestMsg.ContactRequestState) s.Require().Equal(mutualStateUpdate.From, contactRequest.ChatId) s.Require().Equal(mutualStateUpdate.ChatId, contactRequest.ChatId) // Check activity center notification is of the right type s.Require().Len(resp.ActivityCenterNotifications(), 1) s.Require().Equal(ActivityCenterNotificationTypeContactRequest, resp.ActivityCenterNotifications()[0].Type) s.Require().NotNil(resp.ActivityCenterNotifications()[0].Message) s.Require().Equal(common.ContactRequestStateAccepted, resp.ActivityCenterNotifications()[0].Message.ContactRequestState) // Make sure we consider them a mutual contact, sender side mutualContacts = s.m.MutualContacts() s.Require().Len(mutualContacts, 1) // Check the contact state is correctly set s.Require().Len(resp.Contacts, 1) s.Require().True(resp.Contacts[0].mutual()) } func (s *MessengerContactRequestSuite) TestDismissLatestContactRequestForContact() { messageText := "hello!" theirMessenger := s.newMessenger() defer TearDownMessenger(&s.Suite, theirMessenger) contactID := types.EncodeHex(crypto.FromECDSAPub(&theirMessenger.identity.PublicKey)) request := &requests.SendContactRequest{ ID: contactID, Message: messageText, } s.sendContactRequest(request, s.m) contactRequest := s.receiveContactRequest(messageText, theirMessenger) // Dismiss latest contact request, receiver side myID := types.EncodeHex(crypto.FromECDSAPub(&s.m.identity.PublicKey)) resp, err := theirMessenger.DismissLatestContactRequestForContact(context.Background(), &requests.DismissLatestContactRequestForContact{ID: types.Hex2Bytes(myID)}) s.Require().NoError(err) // Make sure the message is updated s.Require().NotNil(resp) s.Require().Len(resp.Messages(), 1) s.Require().Equal(resp.Messages()[0].ID, contactRequest.ID) s.Require().Equal(common.ContactRequestStateDismissed, resp.Messages()[0].ContactRequestState) s.Require().Len(resp.ActivityCenterNotifications(), 1) s.Require().Equal(resp.ActivityCenterNotifications()[0].ID.String(), contactRequest.ID) s.Require().NotNil(resp.ActivityCenterNotifications()[0].Message) s.Require().Equal(common.ContactRequestStateDismissed, resp.ActivityCenterNotifications()[0].Message.ContactRequestState) } func (s *MessengerContactRequestSuite) TestPairedDevicesRemoveContact() { messageText := "hello!" alice1 := s.m alice2, err := newMessengerWithKey(s.shh, s.m.identity, s.logger, nil) s.Require().NoError(err) defer TearDownMessenger(&s.Suite, alice2) prepAliceMessengersForPairing(&s.Suite, alice1, alice2) PairDevices(&s.Suite, alice1, alice2) PairDevices(&s.Suite, alice2, alice1) bob := s.newMessenger() defer TearDownMessenger(&s.Suite, bob) // Alice sends a contact request to bob contactID := types.EncodeHex(crypto.FromECDSAPub(&bob.identity.PublicKey)) request := &requests.SendContactRequest{ ID: contactID, Message: messageText, } s.sendContactRequest(request, alice1) contactRequest := s.receiveContactRequest(messageText, bob) s.acceptContactRequest(contactRequest, alice1, bob) // Wait for the message to reach its destination resp, err := WaitOnMessengerResponse( alice2, func(r *MessengerResponse) bool { return len(r.Contacts) > 0 }, "no messages", ) s.Require().NoError(err) // Make sure we consider them a mutual contact, sender side mutualContacts := alice2.MutualContacts() s.Require().Len(mutualContacts, 1) // Check the contact state is correctly set s.Require().Len(resp.Contacts, 1) s.Require().True(resp.Contacts[0].mutual()) s.retractContactRequest(contactID, bob) // Check on alice2 side resp, err = WaitOnMessengerResponse( alice2, func(r *MessengerResponse) bool { return len(r.Contacts) > 0 }, "no messages", ) s.Require().NoError(err) s.Require().NotNil(resp) s.Require().Len(resp.Contacts, 1) // Check the contact state is correctly set s.Require().Equal(ContactRequestStateNone, resp.Contacts[0].ContactRequestLocalState) s.Require().Equal(ContactRequestStateNone, resp.Contacts[0].ContactRequestRemoteState) } // The scenario tested is as follow: // 1) Alice sends a contact request to Bob // 2) Bob accepts the contact request // 3) Alice restores state on a different device // 4) Alice sends a contact request to bob // Bob will need to help Alice recover her state, since as far as he can see // that's an already accepted contact request func (s *MessengerContactRequestSuite) TestAliceRecoverStateSendContactRequest() { messageText := "hello!" alice1 := s.m bob := s.newMessenger() defer TearDownMessenger(&s.Suite, bob) bobID := types.EncodeHex(crypto.FromECDSAPub(&bob.identity.PublicKey)) // Alice sends a contact request to bob request := &requests.SendContactRequest{ ID: bobID, Message: messageText, } s.sendContactRequest(request, alice1) contactRequest := s.receiveContactRequest(messageText, bob) s.Require().NotNil(contactRequest) // Bob accepts the contact request s.acceptContactRequest(contactRequest, alice1, bob) // Alice resets her device alice2, err := newMessengerWithKey(s.shh, s.m.identity, s.logger, nil) s.Require().NoError(err) defer TearDownMessenger(&s.Suite, alice2) // adds bob again to her device s.sendContactRequest(request, alice2) // Wait for the message to reach its destination _, err = WaitOnMessengerResponse( bob, func(r *MessengerResponse) bool { return len(r.Contacts) > 0 }, "no messages", ) s.Require().NoError(err) // Bob should be a mutual contact with alice, nothing has changed s.Require().Len(bob.MutualContacts(), 1) // Alice retrieves her messages, she should have been notified by // dear bobby that they were contacts resp, err := WaitOnMessengerResponse( alice2, func(r *MessengerResponse) bool { return len(r.Contacts) > 0 }, "no messages", ) s.Require().NoError(err) s.Require().NotNil(resp) s.Require().Len(resp.Contacts, 1) // Check the contact state is correctly set s.Require().True(resp.Contacts[0].mutual()) } // The scenario tested is as follow: // 1) Alice sends a contact request to Bob // 2) Bob accepts the contact request // 3) Alice restores state on a different device // 4) Bob sends a message to alice // Alice will show a contact request from bob func (s *MessengerContactRequestSuite) TestAliceRecoverStateReceiveContactRequest() { messageText := "hello!" alice1 := s.m bob := s.newMessenger() defer TearDownMessenger(&s.Suite, bob) bobID := types.EncodeHex(crypto.FromECDSAPub(&bob.identity.PublicKey)) // Alice sends a contact request to bob request := &requests.SendContactRequest{ ID: bobID, Message: messageText, } s.sendContactRequest(request, alice1) contactRequest := s.receiveContactRequest(messageText, bob) s.Require().NotNil(contactRequest) // Bob accepts the contact request s.acceptContactRequest(contactRequest, alice1, bob) // Alice resets her device alice2, err := newMessengerWithKey(s.shh, s.m.identity, s.logger, nil) s.Require().NoError(err) defer TearDownMessenger(&s.Suite, alice2) // We want to facilitate the discovery of the x3dh bundl here, since bob does not know about alice device alice2Bundle, err := alice2.encryptor.GetBundle(alice2.identity) s.Require().NoError(err) _, err = bob.encryptor.ProcessPublicBundle(bob.identity, alice2Bundle) s.Require().NoError(err) // Bob sends a chat message to alice var chat Chat chats := bob.Chats() for i, c := range chats { if c.ID == alice1.myHexIdentity() && c.OneToOne() { chat = *chats[i] } } s.Require().NotNil(chat) inputMessage := buildTestMessage(chat) _, err = bob.SendChatMessage(context.Background(), inputMessage) s.NoError(err) // Alice retrieves the chat message, it should be resp, err := WaitOnMessengerResponse( alice2, func(r *MessengerResponse) bool { return len(r.ActivityCenterNotifications()) == 1 }, "no messages", ) s.Require().NoError(err) s.Require().NotNil(resp) s.Require().Equal(ActivityCenterNotificationTypeContactRequest, resp.ActivityCenterNotifications()[0].Type) s.Require().Len(resp.Contacts, 1) // Check the contact state is correctly set s.Require().Equal(ContactRequestStateNone, resp.Contacts[0].ContactRequestLocalState) s.Require().Equal(ContactRequestStateReceived, resp.Contacts[0].ContactRequestRemoteState) } // The scenario tested is as follow: // 1) Alice sends a contact request to Bob // 2) Bob accepts the contact request // 3) Bob goes offline // 4) Alice retracts the contact request // 5) Alice adds bob back to her contacts // 6) Bob goes online, they receive 4 and 5 in the correct order func (s *MessengerContactRequestSuite) TestAliceOfflineRetractsAndAddsCorrectOrder() { messageText := "hello!" alice1 := s.m bob := s.newMessenger() defer TearDownMessenger(&s.Suite, bob) bobID := types.EncodeHex(crypto.FromECDSAPub(&bob.identity.PublicKey)) // Alice sends a contact request to bob request := &requests.SendContactRequest{ ID: bobID, Message: messageText, } s.sendContactRequest(request, alice1) contactRequest := s.receiveContactRequest(messageText, bob) s.Require().NotNil(contactRequest) // Bob accepts the contact request s.acceptContactRequest(contactRequest, alice1, bob) // Alice removes Bob from contacts _, err := alice1.RetractContactRequest(&requests.RetractContactRequest{ID: types.Hex2Bytes(bob.myHexIdentity())}) s.Require().NoError(err) // Adds bob again to her device s.sendContactRequest(request, alice1) // Wait for the message to reach its destination _, err = WaitOnMessengerResponse( bob, func(r *MessengerResponse) bool { return len(r.ActivityCenterNotifications()) > 0 }, "no messages", ) s.Require().NoError(err) } // The scenario tested is as follow: // 1) Alice sends a contact request to Bob // 2) Bob accepts the contact request // 3) Bob goes offline // 4) Alice retracts the contact request // 5) Alice adds bob back to her contacts // 6) Bob goes online, they receive 4 and 5 in the wrong order func (s *MessengerContactRequestSuite) TestAliceOfflineRetractsAndAddsWrongOrder() { messageText := "hello!" alice1 := s.m bob := s.newMessenger() defer TearDownMessenger(&s.Suite, bob) bobID := types.EncodeHex(crypto.FromECDSAPub(&bob.identity.PublicKey)) // Alice sends a contact request to bob request := &requests.SendContactRequest{ ID: bobID, Message: messageText, } s.sendContactRequest(request, alice1) contactRequest := s.receiveContactRequest(messageText, bob) s.Require().NotNil(contactRequest) // Bob accepts the contact request s.acceptContactRequest(contactRequest, alice1, bob) // Alice removes Bob from contacts _, err := alice1.RetractContactRequest(&requests.RetractContactRequest{ID: types.Hex2Bytes(bob.myHexIdentity())}) s.Require().NoError(err) // Adds bob again to her device s.sendContactRequest(request, alice1) // Get alice perspective of bob bobFromAlice := alice1.AddedContacts()[0] // Get bob perspective of alice aliceFromBob := bob.MutualContacts()[0] s.Require().NotNil(bobFromAlice) s.Require().NotNil(aliceFromBob) // We can't simulate out-of-order messages easily, so we need to do // things manually here result := aliceFromBob.ContactRequestPropagatedStateReceived(bobFromAlice.ContactRequestPropagatedState()) s.Require().True(result.newContactRequestReceived) } // The scenario tested is as follow: // 1) Alice sends a contact request to Bob // 2) Bob accepts the contact request // 3) Alice removes Bob from contacts // 4) Make sure Alice and Bob are not mutual contacts // 5) Alice sends new contact request // 6) Bob accepts new contact request func (s *MessengerContactRequestSuite) TestAliceResendsContactRequestAfterRemovingBobFromContacts() { messageTextFirst := "hello 1!" theirMessenger := s.newMessenger() defer TearDownMessenger(&s.Suite, theirMessenger) contactID := types.EncodeHex(crypto.FromECDSAPub(&theirMessenger.identity.PublicKey)) // Alice sends a contact request to Bob request := &requests.SendContactRequest{ ID: contactID, Message: messageTextFirst, } s.sendContactRequest(request, s.m) // Bob accepts the contact request contactRequest := s.receiveContactRequest(messageTextFirst, theirMessenger) s.Require().NotNil(contactRequest) s.acceptContactRequest(contactRequest, s.m, theirMessenger) // Alice removes Bob from contacts s.retractContactRequest(contactID, theirMessenger) // Send new contact request messageTextSecond := "hello 2!" // Alice sends new contact request request = &requests.SendContactRequest{ ID: contactID, Message: messageTextSecond, } s.sendContactRequest(request, s.m) // Make sure bob and alice are not mutual after sending CR s.Require().Len(s.m.MutualContacts(), 0) s.Require().Len(theirMessenger.MutualContacts(), 0) // Bob accepts new contact request contactRequest = s.receiveContactRequest(messageTextSecond, theirMessenger) s.Require().NotNil(contactRequest) s.acceptContactRequest(contactRequest, s.m, theirMessenger) // Make sure bob and alice are not mutual after sending CR s.Require().Len(s.m.MutualContacts(), 1) s.Require().Len(theirMessenger.MutualContacts(), 1) } // The scenario tested is as follow: // 1) Alice sends a contact request to Bob // 2) Bob declines the contact request from Alice // 3) Bob sends a contact request to Alice // 4) Alice and Bob are mutual contacts (because Alice's CR is "pending" on her side), Both CRs are accepted func (s *MessengerContactRequestSuite) TestBobSendsContactRequestAfterDecliningOneFromAlice() { messageTextAlice := "hello, Bobby!" alice := s.m bob := s.newMessenger() defer TearDownMessenger(&s.Suite, bob) bobID := types.EncodeHex(crypto.FromECDSAPub(&bob.identity.PublicKey)) // Alice sends a contact request to bob requestFromAlice := &requests.SendContactRequest{ ID: bobID, Message: messageTextAlice, } s.sendContactRequest(requestFromAlice, alice) contactRequest := s.receiveContactRequest(messageTextAlice, bob) s.Require().NotNil(contactRequest) // Bob declines the contact request s.declineContactRequest(contactRequest, bob) messageTextBob := "hello, Alice!" aliceID := types.EncodeHex(crypto.FromECDSAPub(&alice.identity.PublicKey)) // Bob sends a contact request to Alice requestFromBob := &requests.SendContactRequest{ ID: aliceID, Message: messageTextBob, } // Send contact request resp, err := bob.SendContactRequest(context.Background(), requestFromBob) s.Require().NoError(err) s.Require().NotNil(resp) // Check CR message, it should be accepted s.Require().Len(resp.Messages(), 2) contactRequest = s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_CONTACT_REQUEST) s.Require().NotNil(contactRequest) s.Require().Equal(common.ContactRequestStateAccepted, contactRequest.ContactRequestState) s.Require().Equal(requestFromBob.Message, contactRequest.Text) // Check pending notification s.Require().Len(resp.ActivityCenterNotifications(), 1) s.Require().Equal(ActivityCenterNotificationTypeContactRequest, resp.ActivityCenterNotifications()[0].Type) s.Require().Equal(contactRequest.ID, resp.ActivityCenterNotifications()[0].Message.ID) s.Require().Equal(contactRequest.ContactRequestState, resp.ActivityCenterNotifications()[0].Message.ContactRequestState) s.Require().Equal(resp.ActivityCenterNotifications()[0].Read, true) // Check contacts Bob's side s.Require().Len(resp.Contacts, 1) contact := resp.Contacts[0] s.Require().True(contact.mutual()) } func (s *MessengerContactRequestSuite) TestBuildContact() { contactKey, err := crypto.GenerateKey() s.Require().NoError(err) contactID := types.EncodeHex(crypto.FromECDSAPub(&contactKey.PublicKey)) contact, err := s.m.BuildContact(&requests.BuildContact{PublicKey: contactID}) s.Require().NoError(err) s.Require().Equal(contact.EnsName, "") s.Require().False(contact.ENSVerified) contact, err = s.m.BuildContact(&requests.BuildContact{PublicKey: contactID, ENSName: "foobar"}) s.Require().NoError(err) s.Require().Equal(contact.EnsName, "foobar") s.Require().True(contact.ENSVerified) } func (s *MessengerContactRequestSuite) TestReceiveAcceptAndRetractContactRequestOutOfOrder() { message := protobuf.ChatMessage{ Clock: 4, Timestamp: 1, Text: "some text", ChatId: common.PubkeyToHex(&s.m.identity.PublicKey), MessageType: protobuf.MessageType_ONE_TO_ONE, ContentType: protobuf.ChatMessage_CONTACT_REQUEST, } contactKey, err := crypto.GenerateKey() s.Require().NoError(err) contact, err := BuildContactFromPublicKey(&contactKey.PublicKey) s.Require().NoError(err) state := s.m.buildMessageState() state.CurrentMessageState = &CurrentMessageState{ PublicKey: &contactKey.PublicKey, MessageID: "0xa", StatusMessage: &v1protocol.StatusMessage{TransportLayer: v1protocol.TransportLayer{Message: &types.Message{Timestamp: 1}}, ApplicationLayer: v1protocol.ApplicationLayer{ID: []byte("test-id")}}, Contact: contact, WhisperTimestamp: 1, } response := state.Response err = s.m.HandleChatMessage(state, &message, nil, false) s.Require().NoError(err) s.Require().Len(response.ActivityCenterNotifications(), 1) contacts := s.m.Contacts() s.Require().Len(contacts, 1) s.Require().Equal(ContactRequestStateReceived, contacts[0].ContactRequestRemoteState) retract := protobuf.RetractContactRequest{ Clock: 2, } err = s.m.HandleRetractContactRequest(state, &retract, nil) s.Require().NoError(err) // Nothing should have changed contacts = s.m.Contacts() s.Require().Len(contacts, 1) s.Require().Equal(ContactRequestStateReceived, contacts[0].ContactRequestRemoteState) } // The scenario tested is as follow: // 1) Alice sends a contact request to Bob // 2) Bob receives CR from Alice // 3) Bob resets his device // 4) Bob restores Alice's contact from backup, CR is created // 5) Bob succesefully accepts restored contact request // 6) Alice get notified properly func (s *MessengerContactRequestSuite) TestBobRestoresIncomingContactRequestFromSyncInstallationContactV2() { messageText := "hello, Bobby!" alice := s.m alice.account.CustomizationColor = multiaccountscommon.CustomizationColorBeige bob1 := s.newMessenger() defer TearDownMessenger(&s.Suite, bob1) aliceID := types.EncodeHex(crypto.FromECDSAPub(&alice.identity.PublicKey)) bobID := types.EncodeHex(crypto.FromECDSAPub(&bob1.identity.PublicKey)) // Alice sends a contact request to bob requestFromAlice := &requests.SendContactRequest{ ID: bobID, Message: messageText, } s.sendContactRequest(requestFromAlice, alice) // Bob receives CR from Alice contactRequest := s.receiveContactRequest(messageText, bob1) s.Require().NotNil(contactRequest) // Bob resets his device bob2, err := newMessengerWithKey(s.shh, bob1.identity, s.logger, nil) s.Require().NoError(err) defer TearDownMessenger(&s.Suite, bob2) // Get bob perspective of alice for backup aliceFromBob := bob1.Contacts()[0] s.Require().Equal(aliceFromBob.CustomizationColor, alice.account.GetCustomizationColor()) state := bob2.buildMessageState() // Restore alice's contact from backup sync := s.syncInstallationContactV2FromContact(aliceFromBob) err = bob2.HandleSyncInstallationContactV2(state, &sync, nil) s.Require().NoError(err) // Accept latest CR for a contact resp, err := bob2.AcceptLatestContactRequestForContact(context.Background(), &requests.AcceptLatestContactRequestForContact{ID: types.Hex2Bytes(aliceID)}) s.Require().NoError(err) s.Require().Len(resp.Contacts, 1) // Make sure the message is updated s.Require().NotNil(resp) s.Require().Len(resp.Messages(), 2) contactRequestMsg := s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_CONTACT_REQUEST) s.Require().NotNil(contactRequestMsg) // NOTE: We don't restore CR message // s.Require().Equal(resp.Messages()[0].ID, contactRequest.ID) s.Require().Equal(common.ContactRequestStateAccepted, contactRequestMsg.ContactRequestState) s.Require().Len(resp.ActivityCenterNotifications(), 1) s.Require().NotNil(resp.ActivityCenterNotifications()[0].Message) s.Require().Equal(common.ContactRequestStateAccepted, resp.ActivityCenterNotifications()[0].Message.ContactRequestState) // Check the contact state is correctly set s.Require().Len(resp.Contacts, 1) s.Require().True(resp.Contacts[0].mutual()) // Make sure the sender is added to our contacts contacts := bob2.AddedContacts() s.Require().Len(contacts, 1) // Make sure we consider them a mutual contact, receiver side mutualContacts := bob2.MutualContacts() s.Require().Len(mutualContacts, 1) } // The scenario tested is as follow: // 1) Alice sends a contact request to Bob // 2) Bob receives CR from Alice // 3) Alice resets her device // 4) Alice restores Bob's contact from backup, CR is created // 5) Bob accepts contact request // 6) Alice get notified properly func (s *MessengerContactRequestSuite) TestAliceRestoresOutgoingContactRequestFromSyncInstallationContactV2() { messageText := "hello, Bobby!" alice1 := s.m bob := s.newMessenger() defer TearDownMessenger(&s.Suite, bob) aliceID := types.EncodeHex(crypto.FromECDSAPub(&alice1.identity.PublicKey)) bobID := types.EncodeHex(crypto.FromECDSAPub(&bob.identity.PublicKey)) // Alice sends a contact request to bob requestFromAlice := &requests.SendContactRequest{ ID: bobID, Message: messageText, } s.sendContactRequest(requestFromAlice, alice1) // Bob receives CR from Alice contactRequest := s.receiveContactRequest(messageText, bob) s.Require().NotNil(contactRequest) // Bob resets his device alice2, err := newMessengerWithKey(s.shh, alice1.identity, s.logger, nil) s.Require().NoError(err) defer TearDownMessenger(&s.Suite, alice2) // Get bob perspective of alice for backup bobFromAlice := alice1.Contacts()[0] state := alice2.buildMessageState() // Restore alice's contact from backup sync := s.syncInstallationContactV2FromContact(bobFromAlice) err = alice2.HandleSyncInstallationContactV2(state, &sync, nil) s.Require().NoError(err) // Accept latest CR for a contact resp, err := bob.AcceptLatestContactRequestForContact(context.Background(), &requests.AcceptLatestContactRequestForContact{ID: types.Hex2Bytes(aliceID)}) s.Require().NoError(err) // Make sure the message is updated s.Require().NotNil(resp) s.Require().Len(resp.Messages(), 2) contactRequestMsg := s.findFirstByContentType(resp.Messages(), protobuf.ChatMessage_CONTACT_REQUEST) s.Require().NotNil(contactRequestMsg) // NOTE: We don't restore CR message // s.Require().Equal(resp.Messages()[0].ID, contactRequest.ID) s.Require().Equal(common.ContactRequestStateAccepted, contactRequestMsg.ContactRequestState) s.Require().Len(resp.ActivityCenterNotifications(), 1) s.Require().NotNil(resp.ActivityCenterNotifications()[0].Message) s.Require().Equal(common.ContactRequestStateAccepted, resp.ActivityCenterNotifications()[0].Message.ContactRequestState) // Check the contact state is correctly set s.Require().Len(resp.Contacts, 1) s.Require().True(resp.Contacts[0].mutual()) // Make sure the sender is added to our contacts contacts := bob.AddedContacts() s.Require().Len(contacts, 1) // Make sure we consider them a mutual contact, receiver side mutualContacts := bob.MutualContacts() s.Require().Len(mutualContacts, 1) } /* Makes Alice and Bob mutual contacts. Verifies that Alice device-2 receives mutual contact information. Contact request is sent from Alice device 1. */ func (s *MessengerContactRequestSuite) makeMutualContactsAndSync(alice1 *Messenger, alice2 *Messenger, bob *Messenger, messageText string) { bobPublicKey := bob.IdentityPublicKeyString() cr := s.createContactRequest(bobPublicKey, messageText) s.sendContactRequest(cr, alice1) receivedCR := s.receiveContactRequest(cr.Message, bob) s.acceptContactRequest(receivedCR, alice1, bob) s.checkMutualContact(alice1, bobPublicKey) // Wait for Alice-2 to sync new contact resp, _ := WaitOnMessengerResponse(alice2, func(r *MessengerResponse) bool { // FIXME: https://github.com/status-im/status-go/issues/3803 // No condition here. There are randomly received 1-3 messages. return false // len(r.Contacts) == 1 && len(r.Messages()) == 3 }, "alice-2 didn't receive bob contact") s.logResponse(resp, "Wait for Alice-2 to sync new contact") s.Require().NotNil(resp) //s.Require().NoError(err) // WARNING: Uncomment when bug fixed. https://github.com/status-im/status-go/issues/3803 // Check that Alice-2 has Bob as a contact s.Require().Len(alice2.Contacts(), 1) s.Require().Equal(bobPublicKey, alice2.Contacts()[0].ID) // TODO: https://github.com/status-im/status-go/issues/3803 // Check response messages and AC notifications when } func (s *MessengerContactRequestSuite) blockContactAndSync(alice1 *Messenger, alice2 *Messenger, bob *Messenger) { bobPublicKey := bob.IdentityPublicKeyString() bobDisplayName, err := bob.settings.DisplayName() s.Require().NoError(err) // Alice-1 blocks Bob _, err = alice1.BlockContact(context.Background(), bobPublicKey, false) s.Require().NoError(err) s.Require().Len(alice1.BlockedContacts(), 1) s.Require().Equal(bobPublicKey, alice1.BlockedContacts()[0].ID) // Wait for Bob to receive message that he was removed as contact resp, err := WaitOnMessengerResponse(bob, func(r *MessengerResponse) bool { return len(r.Contacts) == 1 && len(r.Messages()) == 1 }, "Bob didn't receive a message that he was removed as contact") s.Require().NoError(err) s.Require().NotNil(resp) s.logResponse(resp, "Wait for Bob to receive message that he was removed as contact") // Check response contacts s.Require().Len(resp.Contacts, 1) respContact := resp.Contacts[0] s.Require().Equal(respContact.ID, alice1.IdentityPublicKeyString()) s.Require().Equal(ContactRequestStateNone, respContact.ContactRequestLocalState) s.Require().Equal(ContactRequestStateNone, respContact.ContactRequestRemoteState) // Check response messages s.Require().Len(resp.Messages(), 1) s.Require().Equal(resp.Messages()[0].Text, fmt.Sprintf(incomingMutualStateEventRemovedDefaultText, alice1.IdentityPublicKeyString())) // Check response AC notifications s.Require().Len(resp.ActivityCenterNotifications(), 1) s.Require().Equal(resp.ActivityCenterNotifications()[0].Type, ActivityCenterNotificationTypeContactRemoved) alice2.logger.Info("STARTING") // Wait for Alice-2 to sync Bob blocked state resp, err = WaitOnMessengerResponse(alice2, func(r *MessengerResponse) bool { return len(r.Contacts) == 1 }, "Alice-2 didn't receive blocking bob") s.logResponse(resp, "Wait for Alice-2 to sync Bob blocked state") s.Require().NoError(err) s.Require().NotNil(resp) // Check that Bob contact is synced with correct display name and blocked s.Require().Len(alice2.Contacts(), 1) respContact = alice2.Contacts()[0] s.Require().True(respContact.Blocked) s.Require().True(respContact.Removed) s.Require().Equal(bobPublicKey, respContact.ID) s.Require().Equal(bobDisplayName, respContact.DisplayName) s.Require().Equal(ContactRequestStateDismissed, respContact.ContactRequestLocalState) s.Require().Equal(ContactRequestStateReceived, respContact.ContactRequestRemoteState) // Check chats list s.Require().Len(alice2.Chats(), deprecation.AddChatsCount(2)) } func (s *MessengerContactRequestSuite) unblockContactAndSync(alice1 *Messenger, alice2 *Messenger, bob *Messenger) { bobPublicKey := bob.IdentityPublicKeyString() _, err := alice1.UnblockContact(bobPublicKey) s.Require().NoError(err) s.Require().Len(alice1.BlockedContacts(), 0) // Bob doesn't receive any message on blocking. // No response wait here. // Wait for Alice-2 to receive Bob unblocked state resp, err := WaitOnMessengerResponse(alice2, func(r *MessengerResponse) bool { return len(r.Contacts) == 1 }, "Alice-2 didn't receive Bob unblocked state") s.logResponse(resp, "Wait for Alice-2 to receive Bob unblocked state") s.Require().NoError(err) s.Require().NotNil(resp) // Check that Alice-2 has Bob unblocked and removed s.Require().Len(alice2.Contacts(), 1) respContact := alice2.Contacts()[0] s.Require().Equal(bobPublicKey, respContact.ID) s.Require().False(respContact.Blocked) s.Require().True(respContact.Removed) s.Require().Equal(respContact.ContactRequestLocalState, ContactRequestStateNone) s.Require().Equal(respContact.ContactRequestRemoteState, ContactRequestStateNone) // Check chats list s.Require().Len(alice2.Chats(), deprecation.AddChatsCount(2)) } func (s *MessengerContactRequestSuite) TestBlockedContactSyncing() { // Setup Bob bob := s.newMessenger() defer TearDownMessenger(&s.Suite, bob) _ = bob.SetDisplayName("bob-1") s.logger.Info("Bob account set up", zap.String("publicKey", bob.IdentityPublicKeyString())) // Setup Alice-1 alice1 := s.m s.logger.Info("Alice account set up", zap.String("publicKey", alice1.IdentityPublicKeyString())) // Setup Alice-2 alice2, err := newMessengerWithKey(s.shh, s.m.identity, s.logger, nil) s.Require().NoError(err) defer TearDownMessenger(&s.Suite, alice2) // Pair alice-1 <-> alice-2 // NOTE: This doesn't include initial data sync. Local pairing could be used. s.logger.Info("pairing Alice-1 and Alice-2") prepAliceMessengersForPairing(&s.Suite, alice1, alice2) PairDevices(&s.Suite, alice1, alice2) PairDevices(&s.Suite, alice2, alice1) s.logger.Info("pairing Alice-1 and Alice-2 finished") // Loop cr-block-unblock. Some bugs happen at second iteration. for i := 0; i < 2; i++ { crText := fmt.Sprintf("hello-%d", i) s.makeMutualContactsAndSync(alice1, alice2, bob, crText) s.blockContactAndSync(alice1, alice2, bob) s.unblockContactAndSync(alice1, alice2, bob) } }