status-go/protocol/messenger_peersyncing_test.go

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package protocol
import (
"context"
"encoding/hex"
"testing"
"time"
"github.com/stretchr/testify/suite"
"go.uber.org/zap"
gethbridge "github.com/status-im/status-go/eth-node/bridge/geth"
"github.com/status-im/status-go/eth-node/crypto"
"github.com/status-im/status-go/eth-node/types"
"github.com/status-im/status-go/protocol/common"
"github.com/status-im/status-go/protocol/communities"
"github.com/status-im/status-go/protocol/peersyncing"
"github.com/status-im/status-go/protocol/protobuf"
"github.com/status-im/status-go/protocol/requests"
"github.com/status-im/status-go/protocol/tt"
"github.com/status-im/status-go/waku"
)
func TestMessengerPeersyncingSuite(t *testing.T) {
t.SkipNow() // FIXME
suite.Run(t, new(MessengerPeersyncingSuite))
}
type MessengerPeersyncingSuite struct {
suite.Suite
owner *Messenger
bob *Messenger
alice *Messenger
// If one wants to send messages between different instances of Messenger,
// a single Waku service should be shared.
shh types.Waku
logger *zap.Logger
}
func (s *MessengerPeersyncingSuite) SetupTest() {
s.logger = tt.MustCreateTestLogger()
peerSyncingLoopInterval = 500 * time.Millisecond
config := waku.DefaultConfig
config.MinimumAcceptedPoW = 0
shh := waku.New(&config, s.logger)
s.shh = gethbridge.NewGethWakuWrapper(shh)
s.Require().NoError(shh.Start())
s.owner = s.newMessenger()
s.bob = s.newMessenger()
s.alice = s.newMessenger()
s.alice.featureFlags.ResendRawMessagesDisabled = true
s.bob.featureFlags.ResendRawMessagesDisabled = true
s.owner.featureFlags.ResendRawMessagesDisabled = true
s.owner.communitiesManager.RekeyInterval = 50 * time.Millisecond
_, err := s.owner.Start()
s.Require().NoError(err)
_, err = s.bob.Start()
s.Require().NoError(err)
_, err = s.alice.Start()
s.Require().NoError(err)
}
func (s *MessengerPeersyncingSuite) TearDownTest() {
TearDownMessenger(&s.Suite, s.owner)
TearDownMessenger(&s.Suite, s.bob)
TearDownMessenger(&s.Suite, s.alice)
_ = s.logger.Sync()
}
func (s *MessengerPeersyncingSuite) newMessenger() *Messenger {
return newTestCommunitiesMessenger(&s.Suite, s.shh, testCommunitiesMessengerConfig{
testMessengerConfig: testMessengerConfig{
logger: s.logger,
},
})
}
func (s *MessengerPeersyncingSuite) joinCommunity(community *communities.Community, owner *Messenger, user *Messenger) {
request := &requests.RequestToJoinCommunity{CommunityID: community.ID()}
joinCommunity(&s.Suite, community, owner, user, request, "")
}
func (s *MessengerPeersyncingSuite) thirdPartyTest(community *communities.Community, chat *Chat) {
// We disable resending to make sure that the message is not re-transmitted
s.alice.featureFlags.Peersyncing = false
s.owner.featureFlags.Peersyncing = true
s.bob.featureFlags.Peersyncing = true
s.owner.communitiesManager.PermissionChecker = &testPermissionChecker{}
advertiseCommunityTo(&s.Suite, community, s.owner, s.alice)
s.joinCommunity(community, s.owner, s.alice)
chatID := chat.ID
inputMessage := common.NewMessage()
inputMessage.ChatId = chatID
inputMessage.ContentType = protobuf.ChatMessage_TEXT_PLAIN
inputMessage.Text = "some text"
ctx := context.Background()
if community.Encrypted() {
_, err := WaitOnMessengerResponse(
s.alice,
func(r *MessengerResponse) bool {
keys, err := s.alice.encryptor.GetKeysForGroup([]byte(chat.ID))
return err == nil && len(keys) > 0
},
"keys not received",
)
s.Require().NoError(err)
}
// Send message, it should be received
response, err := s.alice.SendChatMessage(ctx, inputMessage)
s.Require().NoError(err)
s.Require().Len(response.Messages(), 1)
messageID := response.Messages()[0].ID
// Make sure the message makes it to the owner
response, err = WaitOnMessengerResponse(
s.owner,
func(r *MessengerResponse) bool {
return len(r.Communities()) > 0 && len(r.Messages()) == 1 && r.Messages()[0].ID == messageID
},
"message not received",
)
s.Require().NoError(err)
s.Require().NotNil(response)
msg, err := s.owner.peersyncing.AvailableMessages()
s.Require().NoError(err)
s.Require().Len(msg, 1)
// Bob joins the community
advertiseCommunityTo(&s.Suite, community, s.owner, s.bob)
s.joinCommunity(community, s.owner, s.bob)
// Bob should now send an offer
_, err = WaitOnMessengerResponse(
s.bob,
func(r *MessengerResponse) bool {
return s.bob.peersyncingOffers[messageID[2:]] != 0
},
"offer not sent",
)
s.Require().NoError(err)
// Owner should now reply to the offer
_, err = WaitOnMessengerResponse(
s.owner,
func(r *MessengerResponse) bool {
return s.owner.peersyncingRequests[s.bob.myHexIdentity()+messageID[2:]] != 0
},
"request not sent",
)
s.Require().NoError(err)
// Bob should receive the message
_, err = WaitOnMessengerResponse(
s.bob,
func(r *MessengerResponse) bool {
return len(r.Messages()) == 1 && r.Messages()[0].ID == messageID
},
"message not received",
)
s.Require().NoError(err)
}
// Owner creates a community
// Owner sends a message
// Alice joins
// Alice receives the message
func (s *MessengerPeersyncingSuite) TestSyncWithPeerCommunitySender() {
s.alice.featureFlags.Peersyncing = true
s.owner.featureFlags.Peersyncing = true
// create community and make alice join it
community, chat := createCommunity(&s.Suite, s.owner)
chatID := chat.ID
inputMessage := common.NewMessage()
inputMessage.ChatId = chatID
inputMessage.ContentType = protobuf.ChatMessage_TEXT_PLAIN
inputMessage.Text = "some text"
// Send message, it should be received
response, err := s.owner.SendChatMessage(context.Background(), inputMessage)
s.Require().NoError(err)
messageID := response.Messages()[0].ID
msg, err := s.owner.peersyncing.AvailableMessages()
s.Require().NoError(err)
s.Require().Len(msg, 1)
advertiseCommunityTo(&s.Suite, community, s.owner, s.alice)
s.joinCommunity(community, s.owner, s.alice)
// Alice should now receive the message
_, err = WaitOnMessengerResponse(
s.alice,
func(r *MessengerResponse) bool {
_, err := s.owner.RetrieveAll()
if err != nil {
return false
}
return len(r.Messages()) == 1 && r.Messages()[0].ID == messageID
},
"message not received",
)
s.Require().NoError(err)
}
// Owner creates a community
// Alice joins
// Alice sends a message
// Owner receives the message
// Bob joins the community
// They should retrieve the message from the owner
func (s *MessengerPeersyncingSuite) TestSyncWithPeerCommunityThirdPartyEncrypted() {
community, chat := createEncryptedCommunity(&s.Suite, s.owner)
s.thirdPartyTest(community, chat)
}
func (s *MessengerPeersyncingSuite) TestSyncWithPeerCommunityThirdPartyNotEncrypted() {
community, chat := createCommunity(&s.Suite, s.owner)
s.thirdPartyTest(community, chat)
}
func (s *MessengerPeersyncingSuite) TestCanSyncMessageWith() {
community, chat := createCommunity(&s.Suite, s.owner)
advertiseCommunityTo(&s.Suite, community, s.owner, s.alice)
s.joinCommunity(community, s.owner, s.alice)
syncMessage := peersyncing.SyncMessage{
ID: []byte("test-id"),
ChatID: []byte(chat.ID),
Type: peersyncing.SyncMessageCommunityType,
Payload: []byte("some-payload"),
Timestamp: 1,
}
s.Require().NoError(s.owner.peersyncing.Add(syncMessage))
community, err := s.owner.communitiesManager.GetByID(community.ID())
s.Require().NoError(err)
canSyncWithBob, err := s.owner.canSyncCommunityMessageWith(chat, community, &s.bob.identity.PublicKey)
s.Require().NoError(err)
s.Require().False(canSyncWithBob)
canSyncWithAlice, err := s.owner.canSyncCommunityMessageWith(chat, community, &s.alice.identity.PublicKey)
s.Require().NoError(err)
s.Require().True(canSyncWithAlice)
}
func (s *MessengerPeersyncingSuite) TestSyncOneToOne() {
s.alice.featureFlags.Peersyncing = true
s.owner.featureFlags.Peersyncing = true
pkString := hex.EncodeToString(crypto.FromECDSAPub(&s.alice.identity.PublicKey))
chat := CreateOneToOneChat(pkString, &s.alice.identity.PublicKey, s.owner.transport)
chat.LastClockValue = uint64(100000000000000)
err := s.owner.SaveChat(chat)
s.NoError(err)
_, err = s.alice.Join(chat)
s.NoError(err)
chatID := chat.ID
inputMessage := common.NewMessage()
inputMessage.ChatId = chatID
inputMessage.ContentType = protobuf.ChatMessage_TEXT_PLAIN
inputMessage.Text = "some text"
ctx := context.Background()
// Send message, it should be received
response, err := s.alice.SendChatMessage(ctx, inputMessage)
s.Require().NoError(err)
s.Require().Len(response.Messages(), 1)
messageID := response.Messages()[0].ID
// Make sure the message makes it to the owner
response, err = WaitOnMessengerResponse(
s.owner,
func(r *MessengerResponse) bool {
return len(r.Messages()) == 1 && r.Messages()[0].ID == messageID
},
"message not received",
)
s.Require().NoError(err)
s.Require().NotNil(response)
msg, err := s.owner.peersyncing.AvailableMessages()
s.Require().NoError(err)
s.Require().Len(msg, 1)
// Alice should now send an offer
_, err = WaitOnMessengerResponse(
s.alice,
func(r *MessengerResponse) bool {
return s.alice.peersyncingOffers[messageID[2:]] != 0
},
"offer not sent",
)
s.Require().NoError(err)
// Owner should now reply to the offer
_, err = WaitOnMessengerResponse(
s.owner,
func(r *MessengerResponse) bool {
return s.owner.peersyncingRequests[s.alice.myHexIdentity()+messageID[2:]] != 0
},
"request not sent",
)
s.Require().NoError(err)
}
func (s *MessengerPeersyncingSuite) TestCanSyncOneToOneMessageWith() {
s.alice.featureFlags.Peersyncing = true
s.owner.featureFlags.Peersyncing = true
pkString := hex.EncodeToString(crypto.FromECDSAPub(&s.alice.identity.PublicKey))
chat := CreateOneToOneChat(pkString, &s.alice.identity.PublicKey, s.owner.transport)
chat.LastClockValue = uint64(100000000000000)
err := s.owner.SaveChat(chat)
s.NoError(err)
_, err = s.alice.Join(chat)
s.NoError(err)
syncMessage := peersyncing.SyncMessage{
ID: []byte("test-id"),
ChatID: []byte(chat.ID),
Type: peersyncing.SyncMessageOneToOneType,
Payload: []byte("some-payload"),
Timestamp: chat.LastClockValue,
}
s.Require().NoError(s.owner.peersyncing.Add(syncMessage))
canSyncWithBob, err := s.owner.canSyncOneToOneMessageWith(chat, &s.bob.identity.PublicKey)
s.Require().NoError(err)
s.Require().False(canSyncWithBob)
canSyncWithAlice, err := s.owner.canSyncOneToOneMessageWith(chat, &s.alice.identity.PublicKey)
s.Require().NoError(err)
s.Require().True(canSyncWithAlice)
}