status-go/protocol/messenger_testing_utils.go

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package protocol
import (
"context"
"crypto/rand"
"errors"
"fmt"
"math/big"
mathRand "math/rand"
"sync"
"time"
"github.com/libp2p/go-libp2p/core/peer"
gocommon "github.com/status-im/status-go/common"
"github.com/status-im/status-go/protocol/wakusync"
"github.com/status-im/status-go/protocol/identity"
"github.com/status-im/status-go/eth-node/types"
waku2 "github.com/status-im/status-go/wakuv2"
"github.com/stretchr/testify/suite"
"github.com/status-im/status-go/protocol/common"
"github.com/status-im/status-go/protocol/communities"
"github.com/status-im/status-go/protocol/protobuf"
"github.com/status-im/status-go/protocol/requests"
"github.com/status-im/status-go/protocol/tt"
)
var letterRunes = []rune("abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ")
var hexRunes = []rune("0123456789abcdef")
// WaitOnMessengerResponse Wait until the condition is true or the timeout is reached.
func WaitOnMessengerResponse(m *Messenger, condition func(*MessengerResponse) bool, errorMessage string) (*MessengerResponse, error) {
response := &MessengerResponse{}
err := tt.RetryWithBackOff(func() error {
var err error
r, err := m.RetrieveAll()
if err != nil {
panic(err)
}
if err := response.Merge(r); err != nil {
panic(err)
}
if err == nil && !condition(response) {
err = errors.New(errorMessage)
}
return err
})
return response, err
}
type MessengerSignalsHandlerMock struct {
MessengerSignalsHandler
responseChan chan *MessengerResponse
communityFoundChan chan *communities.Community
wakuBackedUpDataResponseChan chan *wakusync.WakuBackedUpDataResponse
}
func (m *MessengerSignalsHandlerMock) SendWakuFetchingBackupProgress(response *wakusync.WakuBackedUpDataResponse) {
m.wakuBackedUpDataResponseChan <- response
}
func (m *MessengerSignalsHandlerMock) SendWakuBackedUpProfile(*wakusync.WakuBackedUpDataResponse) {}
func (m *MessengerSignalsHandlerMock) SendWakuBackedUpSettings(*wakusync.WakuBackedUpDataResponse) {}
func (m *MessengerSignalsHandlerMock) SendWakuBackedUpKeypair(*wakusync.WakuBackedUpDataResponse) {}
func (m *MessengerSignalsHandlerMock) SendWakuBackedUpWatchOnlyAccount(*wakusync.WakuBackedUpDataResponse) {
}
func (m *MessengerSignalsHandlerMock) BackupPerformed(uint64) {}
func (m *MessengerSignalsHandlerMock) HistoryArchivesProtocolEnabled() {}
func (m *MessengerSignalsHandlerMock) HistoryArchivesProtocolDisabled() {}
func (m *MessengerSignalsHandlerMock) CreatingHistoryArchives(string) {}
func (m *MessengerSignalsHandlerMock) NoHistoryArchivesCreated(string, int, int) {}
func (m *MessengerSignalsHandlerMock) HistoryArchivesCreated(string, int, int) {}
func (m *MessengerSignalsHandlerMock) HistoryArchivesSeeding(string) {}
func (m *MessengerSignalsHandlerMock) HistoryArchivesUnseeded(string) {}
func (m *MessengerSignalsHandlerMock) HistoryArchiveDownloaded(string, int, int) {}
func (m *MessengerSignalsHandlerMock) DownloadingHistoryArchivesStarted(string) {}
func (m *MessengerSignalsHandlerMock) DownloadingHistoryArchivesFinished(string) {}
func (m *MessengerSignalsHandlerMock) ImportingHistoryArchiveMessages(string) {}
func (m *MessengerSignalsHandlerMock) MessengerResponse(response *MessengerResponse) {
// Non-blocking send
select {
case m.responseChan <- response:
default:
}
}
func (m *MessengerSignalsHandlerMock) MessageDelivered(chatID string, messageID string) {}
func (m *MessengerSignalsHandlerMock) CommunityInfoFound(community *communities.Community) {
select {
case m.communityFoundChan <- community:
default:
}
}
func WaitOnSignaledSendWakuFetchingBackupProgress(m *Messenger, condition func(*wakusync.WakuBackedUpDataResponse) bool, errorMessage string) (*wakusync.WakuBackedUpDataResponse, error) {
interval := 500 * time.Millisecond
timeoutChan := time.After(10 * time.Second)
if m.config.messengerSignalsHandler != nil {
return nil, errors.New("messengerSignalsHandler already provided/mocked")
}
responseChan := make(chan *wakusync.WakuBackedUpDataResponse, 1000)
m.config.messengerSignalsHandler = &MessengerSignalsHandlerMock{
wakuBackedUpDataResponseChan: responseChan,
}
defer func() {
m.config.messengerSignalsHandler = nil
}()
for {
_, err := m.RetrieveAll()
if err != nil {
return nil, err
}
select {
case r := <-responseChan:
if condition(r) {
return r, nil
}
case <-timeoutChan:
return nil, errors.New("timed out: " + errorMessage)
default: // No immediate response, rest & loop back to retrieve again
time.Sleep(interval)
}
}
}
func WaitOnSignaledMessengerResponse(m *Messenger, condition func(*MessengerResponse) bool, errorMessage string) (*MessengerResponse, error) {
interval := 500 * time.Millisecond
timeoutChan := time.After(10 * time.Second)
if m.config.messengerSignalsHandler != nil {
return nil, errors.New("messengerSignalsHandler already provided/mocked")
}
responseChan := make(chan *MessengerResponse, 64)
m.config.messengerSignalsHandler = &MessengerSignalsHandlerMock{
responseChan: responseChan,
}
defer func() {
m.config.messengerSignalsHandler = nil
}()
for {
_, err := m.RetrieveAll()
if err != nil {
return nil, err
}
select {
case r := <-responseChan:
if condition(r) {
return r, nil
}
case <-timeoutChan:
return nil, errors.New(errorMessage)
default: // No immediate response, rest & loop back to retrieve again
time.Sleep(interval)
}
}
}
func WaitOnSignaledCommunityFound(m *Messenger, action func(), condition func(community *communities.Community) bool, timeout time.Duration, errorMessage string) error {
timeoutChan := time.After(timeout)
if m.config.messengerSignalsHandler != nil {
return errors.New("messengerSignalsHandler already provided/mocked")
}
communityFoundChan := make(chan *communities.Community, 1)
m.config.messengerSignalsHandler = &MessengerSignalsHandlerMock{
communityFoundChan: communityFoundChan,
}
defer func() {
m.config.messengerSignalsHandler = nil
}()
// Call the action after setting up the mock
action()
// Wait for condition after
for {
select {
case c := <-communityFoundChan:
if condition(c) {
return nil
}
case <-timeoutChan:
return errors.New("timed out: " + errorMessage)
}
}
}
func WaitForConnectionStatus(s *suite.Suite, waku *waku2.Waku, action func() bool) {
subscription := waku.SubscribeToConnStatusChanges()
defer subscription.Unsubscribe()
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
defer cancel()
// Action should return the desired online status
wantedOnline := action()
for {
select {
case status := <-subscription.C:
if status.IsOnline == wantedOnline {
return
}
case <-ctx.Done():
s.Require().Fail(fmt.Sprintf("timeout waiting for waku connection status '%t'", wantedOnline))
return
}
}
}
func hasAllPeers(m map[peer.ID]types.WakuV2Peer, checkSlice peer.IDSlice) bool {
for _, check := range checkSlice {
if _, ok := m[check]; !ok {
return false
}
}
return true
}
func WaitForPeersConnected(s *suite.Suite, waku *waku2.Waku, action func() peer.IDSlice) {
subscription := waku.SubscribeToConnStatusChanges()
defer subscription.Unsubscribe()
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
defer cancel()
// Action should return the desired peer ID
peerIDs := action()
if hasAllPeers(waku.Peers(), peerIDs) {
return
}
for {
select {
case status := <-subscription.C:
if hasAllPeers(status.Peers, peerIDs) {
// Give some time for p2p events, otherwise might look like peer is available, but fail to send a message.
time.Sleep(100 * time.Millisecond)
return
}
case <-ctx.Done():
s.Require().Fail(fmt.Sprintf("timeout waiting for peers connected '%+v'", peerIDs))
return
}
}
}
func FindFirstByContentType(messages []*common.Message, contentType protobuf.ChatMessage_ContentType) *common.Message {
for _, message := range messages {
if message.ContentType == contentType {
return message
}
}
return nil
}
func PairDevices(s *suite.Suite, device1, device2 *Messenger) {
// Send pairing data
response, err := device1.SendPairInstallation(context.Background(), "", nil)
s.Require().NoError(err)
s.Require().NotNil(response)
s.Len(response.Chats(), 1)
s.False(response.Chats()[0].Active)
i, ok := device1.allInstallations.Load(device1.installationID)
s.Require().True(ok)
// Wait for the message to reach its destination
response, err = WaitOnMessengerResponse(
device2,
func(r *MessengerResponse) bool {
feat: fallback pairing seed (#5614) * feat(pairing)!: Add extra parameters and remove v2 compatibility This commit includes the following changes: I have added a flag to maintain 2.29 compatibility. Breaking change in connection string The local pairing code that was parsing the connection string had a few non-upgradable features: It was strictly checking the number of parameters, throwing an error if the number was different. This made it impossible to add parameters to it without breaking. It was strictly checking the version number. This made increasing the version number impossible as older client would just refuse to connect. The code has been changed so that: Two parameters have been added, installation-id and key-uid. Those are needed for the fallback flow. I have also removed version from the payload, since it wasn't used. This means that we don't support v1 anymore. V2 parsing is supported . Going forward there's a clear strategy on how to update the protocol (append parameters, don't change existing one). https://www.youtube.com/watch?v=oyLBGkS5ICk Is a must watch video for understanding the strategy Changed MessengerResponse to use internally a map of installations rather than an array (minor) Just moving towards maps as arrays tend to lead to subtle bugs. Moved pairing methods to messenger_pairing.go Just moved some methods Added 2 new methods for the fallback flow FinishPairingThroughSeedPhraseProcess https://github.com/status-im/status-go/pull/5567/files#diff-1ad620b07fa3bd5fbc96c9f459d88829938a162bf1aaf41c61dea6e38b488d54R29 EnableAndSyncInstallation https://github.com/status-im/status-go/pull/5567/files#diff-1ad620b07fa3bd5fbc96c9f459d88829938a162bf1aaf41c61dea6e38b488d54R18 Flow for clients Client A1 is logged in Client A2 is logged out Client A1 shows a QR code Client A2 scans a QR code If connection fails on A2, the user will be prompted to enter a seed phrase. If the generated account matches the key-uid from the QR code, A2 should call FinishPairingThroughSeedPhraseProcess with the installation id passed in the QR code. This will send installation information over waku. The user should be shown its own installation id and prompted to check the other device. Client A1 will receive new installation data through waku, if they are still on the qr code page, they should show a popup to the user showing the received installation id, and a way to Enable and Sync, which should call the EnableAndSyncInstallation endpoint. This should finish the fallback syncing flow. Current issues Currently I haven't tested that all the data is synced after finishing the flow. I see that the two devices are paired correctly, but for example the DisplayName is not changed on the receiving device. I haven't had time to look into it further. * test_: add more test for connection string parser * fix_: fix panic when parse old connection string * test_: add comments for TestMessengerPairAfterSeedPhrase * fix_: correct error description * feat_:rename FinishPairingThroughSeedPhraseProcess to EnableInstallationAndPair * fix_: delete leftover * fix_: add UniqueKey method * fix_: unify the response for InputConnectionStringForBootstrapping * fix_: remove fields installationID and keyUID in GethStatusBackend * fix_: rename messenger_pairing to messenger_pairing_and_syncing --------- Co-authored-by: Andrea Maria Piana <andrea.maria.piana@gmail.com>
2024-07-30 09:14:05 +00:00
for _, installation := range r.Installations() {
if installation.ID == device1.installationID {
return installation.InstallationMetadata != nil &&
i.InstallationMetadata.Name == installation.InstallationMetadata.Name &&
i.InstallationMetadata.DeviceType == installation.InstallationMetadata.DeviceType
}
}
return false
},
"installation not received",
)
s.Require().NoError(err)
s.Require().NotNil(response)
// Ensure installation is enabled
_, err = device2.EnableInstallation(device1.installationID)
s.Require().NoError(err)
}
func SetSettingsAndWaitForChange(s *suite.Suite, messenger *Messenger, timeout time.Duration,
actionCallback func(), eventCallback func(*SelfContactChangeEvent) bool) {
allEventsReceived := false
channel := messenger.SubscribeToSelfContactChanges()
wg := sync.WaitGroup{}
wg.Add(1)
go func() {
defer gocommon.LogOnPanic()
defer wg.Done()
for !allEventsReceived {
select {
case event := <-channel:
allEventsReceived = eventCallback(event)
case <-time.After(timeout):
return
}
}
}()
actionCallback()
wg.Wait()
s.Require().True(allEventsReceived)
}
func SetIdentityImagesAndWaitForChange(s *suite.Suite, messenger *Messenger, timeout time.Duration, actionCallback func()) {
channel := messenger.SubscribeToSelfContactChanges()
ok := false
wg := sync.WaitGroup{}
wg.Add(1)
go func() {
defer gocommon.LogOnPanic()
defer wg.Done()
select {
case event := <-channel:
if event.ImagesChanged {
ok = true
}
case <-time.After(timeout):
return
}
}()
actionCallback()
wg.Wait()
s.Require().True(ok)
}
2024-10-21 20:34:58 +00:00
func WaitForAvailableStoreNode(s *suite.Suite, m *Messenger, ctx context.Context) {
2024-10-21 21:13:30 +00:00
ctx, cancel := context.WithTimeout(ctx, 500*time.Millisecond)
defer cancel()
2024-10-21 20:34:58 +00:00
available := m.transport.WaitForAvailableStoreNode(ctx)
s.Require().True(available)
}
func TearDownMessenger(s *suite.Suite, m *Messenger) {
if m == nil {
return
}
s.Require().NoError(m.Shutdown())
if m.database != nil {
s.Require().NoError(m.database.Close())
}
if m.multiAccounts != nil {
s.Require().NoError(m.multiAccounts.Close())
}
}
func randomInt(length int) int {
max := big.NewInt(int64(length))
value, err := rand.Int(rand.Reader, max)
if err != nil {
panic(err)
}
return int(value.Int64())
}
func randomString(length int, runes []rune) string {
out := make([]rune, length)
for i := range out {
out[i] = runes[randomInt(len(runes))] // nolint: gosec
}
return string(out)
}
func RandomLettersString(length int) string {
return randomString(length, letterRunes)
}
func RandomColor() string {
return "#" + randomString(6, hexRunes)
}
func RandomCommunityTags(count int) []string {
availableTagsCount := requests.AvailableTagsCount()
if count > availableTagsCount {
count = availableTagsCount
}
//source := mathRand.New(mathRand.NewSource(time.Now().UnixNano()))
indices := mathRand.Perm(availableTagsCount)
shuffled := make([]string, count)
for i := 0; i < count; i++ {
shuffled[i] = requests.TagByIndex(uint32(indices[i]))
}
return shuffled
}
func RandomBytes(length int) []byte {
out := make([]byte, length)
_, err := rand.Read(out)
if err != nil {
panic(err)
}
return out
}
func DummyProfileShowcasePreferences(withCollectibles bool) *identity.ProfileShowcasePreferences {
preferences := &identity.ProfileShowcasePreferences{
Communities: []*identity.ProfileShowcaseCommunityPreference{
{
CommunityID: "0x254254546768764565565",
ShowcaseVisibility: identity.ProfileShowcaseVisibilityEveryone,
},
{
CommunityID: "0x865241434343432412343",
ShowcaseVisibility: identity.ProfileShowcaseVisibilityContacts,
},
},
Accounts: []*identity.ProfileShowcaseAccountPreference{
{
Address: "0x0000000000000000000000000033433445133423",
ShowcaseVisibility: identity.ProfileShowcaseVisibilityEveryone,
Order: 0,
},
{
Address: "0x0000000000000000000000000032433445133424",
ShowcaseVisibility: identity.ProfileShowcaseVisibilityContacts,
Order: 1,
},
},
VerifiedTokens: []*identity.ProfileShowcaseVerifiedTokenPreference{
{
Symbol: "ETH",
ShowcaseVisibility: identity.ProfileShowcaseVisibilityEveryone,
Order: 1,
},
{
Symbol: "DAI",
ShowcaseVisibility: identity.ProfileShowcaseVisibilityIDVerifiedContacts,
Order: 2,
},
{
Symbol: "SNT",
ShowcaseVisibility: identity.ProfileShowcaseVisibilityNoOne,
Order: 3,
},
},
UnverifiedTokens: []*identity.ProfileShowcaseUnverifiedTokenPreference{
{
ContractAddress: "0x454525452023452",
ChainID: 11155111,
ShowcaseVisibility: identity.ProfileShowcaseVisibilityEveryone,
Order: 0,
},
{
ContractAddress: "0x12312323323233",
ChainID: 1,
ShowcaseVisibility: identity.ProfileShowcaseVisibilityContacts,
Order: 1,
},
},
SocialLinks: []*identity.ProfileShowcaseSocialLinkPreference{
&identity.ProfileShowcaseSocialLinkPreference{
Text: identity.TwitterID,
URL: "https://twitter.com/ethstatus",
ShowcaseVisibility: identity.ProfileShowcaseVisibilityEveryone,
Order: 1,
},
&identity.ProfileShowcaseSocialLinkPreference{
Text: identity.TwitterID,
URL: "https://twitter.com/StatusIMBlog",
ShowcaseVisibility: identity.ProfileShowcaseVisibilityIDVerifiedContacts,
Order: 2,
},
&identity.ProfileShowcaseSocialLinkPreference{
Text: identity.GithubID,
URL: "https://github.com/status-im",
ShowcaseVisibility: identity.ProfileShowcaseVisibilityContacts,
Order: 3,
},
},
}
if withCollectibles {
preferences.Collectibles = []*identity.ProfileShowcaseCollectiblePreference{
{
ContractAddress: "0x12378534257568678487683576",
ChainID: 1,
TokenID: "12321389592999903",
ShowcaseVisibility: identity.ProfileShowcaseVisibilityEveryone,
Order: 0,
},
}
} else {
preferences.Collectibles = []*identity.ProfileShowcaseCollectiblePreference{}
}
return preferences
}