package communities import ( "bytes" "context" "errors" "image" "image/png" "math" "math/big" "os" "testing" "time" gethcommon "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common/hexutil" "github.com/status-im/status-go/appdatabase" "github.com/status-im/status-go/eth-node/crypto" "github.com/status-im/status-go/eth-node/types" userimages "github.com/status-im/status-go/images" "github.com/status-im/status-go/params" "github.com/status-im/status-go/protocol/common" community_token "github.com/status-im/status-go/protocol/communities/token" "github.com/status-im/status-go/protocol/protobuf" "github.com/status-im/status-go/protocol/requests" "github.com/status-im/status-go/protocol/sqlite" "github.com/status-im/status-go/protocol/transport" v1 "github.com/status-im/status-go/protocol/v1" "github.com/status-im/status-go/services/wallet/bigint" walletCommon "github.com/status-im/status-go/services/wallet/common" "github.com/status-im/status-go/services/wallet/thirdparty" "github.com/status-im/status-go/services/wallet/token" "github.com/status-im/status-go/t/helpers" "github.com/golang/protobuf/proto" _ "github.com/mutecomm/go-sqlcipher/v4" // require go-sqlcipher that overrides default implementation "github.com/stretchr/testify/suite" "go.uber.org/zap" ) func TestManagerSuite(t *testing.T) { suite.Run(t, new(ManagerSuite)) } type ManagerSuite struct { suite.Suite manager *Manager archiveManager *ArchiveManager } func (s *ManagerSuite) buildManagers(ownerVerifier OwnerVerifier) (*Manager, *ArchiveManager) { db, err := helpers.SetupTestMemorySQLDB(appdatabase.DbInitializer{}) s.Require().NoError(err, "creating sqlite db instance") err = sqlite.Migrate(db) s.Require().NoError(err, "protocol migrate") key, err := crypto.GenerateKey() s.Require().NoError(err) logger, err := zap.NewDevelopment() s.Require().NoError(err) m, err := NewManager(key, "", db, nil, logger, nil, ownerVerifier, nil, &TimeSourceStub{}, nil, nil) s.Require().NoError(err) s.Require().NoError(m.Start()) amc := &ArchiveManagerConfig{ TorrentConfig: buildTorrentConfig(), Logger: logger, Persistence: m.GetPersistence(), Transport: nil, Identity: key, Encryptor: nil, Publisher: m, } t := NewArchiveManager(amc) s.Require().NoError(err) return m, t } func (s *ManagerSuite) SetupTest() { m, t := s.buildManagers(nil) SetValidateInterval(30 * time.Millisecond) s.manager = m s.archiveManager = t } func intToBig(n int64) *hexutil.Big { return (*hexutil.Big)(big.NewInt(n)) } func uintToDecBig(n uint64) *bigint.BigInt { return &bigint.BigInt{Int: big.NewInt(int64(n))} } func tokenBalance(tokenID uint64, balance uint64) thirdparty.TokenBalance { return thirdparty.TokenBalance{ TokenID: uintToDecBig(tokenID), Balance: uintToDecBig(balance), } } func (s *ManagerSuite) getHistoryTasksCount() int { // sync.Map doesn't have a Len function, so we need to count manually count := 0 s.archiveManager.historyArchiveTasks.Range(func(_, _ interface{}) bool { count++ return true }) return count } type testCollectiblesManager struct { response map[uint64]map[gethcommon.Address]thirdparty.TokenBalancesPerContractAddress } func (m *testCollectiblesManager) setResponse(chainID uint64, walletAddress gethcommon.Address, contractAddress gethcommon.Address, balances []thirdparty.TokenBalance) { if m.response == nil { m.response = make(map[uint64]map[gethcommon.Address]thirdparty.TokenBalancesPerContractAddress) } if m.response[chainID] == nil { m.response[chainID] = make(map[gethcommon.Address]thirdparty.TokenBalancesPerContractAddress) } if m.response[chainID][walletAddress] == nil { m.response[chainID][walletAddress] = make(thirdparty.TokenBalancesPerContractAddress) } m.response[chainID][walletAddress][contractAddress] = balances } func (m *testCollectiblesManager) FetchBalancesByOwnerAndContractAddress(ctx context.Context, chainID walletCommon.ChainID, ownerAddress gethcommon.Address, contractAddresses []gethcommon.Address) (thirdparty.TokenBalancesPerContractAddress, error) { return m.response[uint64(chainID)][ownerAddress], nil } func (m *testCollectiblesManager) GetCollectibleOwnership(id thirdparty.CollectibleUniqueID) ([]thirdparty.AccountBalance, error) { return nil, errors.New("GetCollectibleOwnership is not implemented for testCollectiblesManager") } func (m *testCollectiblesManager) FetchCollectibleOwnersByContractAddress(ctx context.Context, chainID walletCommon.ChainID, contractAddress gethcommon.Address) (*thirdparty.CollectibleContractOwnership, error) { ret := &thirdparty.CollectibleContractOwnership{ ContractAddress: contractAddress, Owners: []thirdparty.CollectibleOwner{}, } balancesPerOwner, ok := m.response[uint64(chainID)] if !ok { return ret, nil } for ownerAddress, collectibles := range balancesPerOwner { for collectibleAddress, balances := range collectibles { if collectibleAddress == contractAddress { ret.Owners = append(ret.Owners, thirdparty.CollectibleOwner{ OwnerAddress: ownerAddress, TokenBalances: balances, }) break } } } return ret, nil } func (m *testCollectiblesManager) FetchCachedBalancesByOwnerAndContractAddress(ctx context.Context, chainID walletCommon.ChainID, ownerAddress gethcommon.Address, contractAddresses []gethcommon.Address) (thirdparty.TokenBalancesPerContractAddress, error) { return m.response[uint64(chainID)][ownerAddress], nil } type testTokenManager struct { response map[uint64]map[gethcommon.Address]map[gethcommon.Address]*hexutil.Big } func (m *testTokenManager) setResponse(chainID uint64, walletAddress, tokenAddress gethcommon.Address, balance int64) { if m.response == nil { m.response = make(map[uint64]map[gethcommon.Address]map[gethcommon.Address]*hexutil.Big) } if m.response[chainID] == nil { m.response[chainID] = make(map[gethcommon.Address]map[gethcommon.Address]*hexutil.Big) } if m.response[chainID][walletAddress] == nil { m.response[chainID][walletAddress] = make(map[gethcommon.Address]*hexutil.Big) } m.response[chainID][walletAddress][tokenAddress] = intToBig(balance) } func (m *testTokenManager) GetAllChainIDs() ([]uint64, error) { return []uint64{5}, nil } func (m *testTokenManager) GetBalancesByChain(ctx context.Context, accounts, tokenAddresses []gethcommon.Address, chainIDs []uint64) (map[uint64]map[gethcommon.Address]map[gethcommon.Address]*hexutil.Big, error) { return m.response, nil } func (m *testTokenManager) GetCachedBalancesByChain(ctx context.Context, accounts, tokenAddresses []gethcommon.Address, chainIDs []uint64) (BalancesByChain, error) { return m.response, nil } func (m *testTokenManager) FindOrCreateTokenByAddress(ctx context.Context, chainID uint64, address gethcommon.Address) *token.Token { return nil } func (s *ManagerSuite) setupManagerForTokenPermissions() (*Manager, *testCollectiblesManager, *testTokenManager) { db, err := helpers.SetupTestMemorySQLDB(appdatabase.DbInitializer{}) s.NoError(err, "creating sqlite db instance") err = sqlite.Migrate(db) s.NoError(err, "protocol migrate") key, err := crypto.GenerateKey() s.Require().NoError(err) s.Require().NoError(err) cm := &testCollectiblesManager{} tm := &testTokenManager{} options := []ManagerOption{ WithWalletConfig(¶ms.WalletConfig{ OpenseaAPIKey: "some-key", }), WithCollectiblesManager(cm), WithTokenManager(tm), } m, err := NewManager(key, "", db, nil, nil, nil, nil, nil, &TimeSourceStub{}, nil, nil, options...) s.Require().NoError(err) s.Require().NoError(m.Start()) return m, cm, tm } func (s *ManagerSuite) TestRetrieveTokens() { m, _, tm := s.setupManagerForTokenPermissions() var chainID uint64 = 5 contractAddresses := make(map[uint64]string) contractAddresses[chainID] = "0x3d6afaa395c31fcd391fe3d562e75fe9e8ec7e6a" var decimals uint64 = 18 var tokenCriteria = []*protobuf.TokenCriteria{ &protobuf.TokenCriteria{ ContractAddresses: contractAddresses, Symbol: "STT", Type: protobuf.CommunityTokenType_ERC20, Name: "Status Test Token", AmountInWei: "1000000000000000000", Decimals: decimals, }, } var permissions = []*CommunityTokenPermission{ &CommunityTokenPermission{ CommunityTokenPermission: &protobuf.CommunityTokenPermission{ Id: "some-id", Type: protobuf.CommunityTokenPermission_BECOME_MEMBER, TokenCriteria: tokenCriteria, }, }, } preParsedPermissions := preParsedCommunityPermissionsData(permissions) accountChainIDsCombination := []*AccountChainIDsCombination{ &AccountChainIDsCombination{ Address: gethcommon.HexToAddress("0xD6b912e09E797D291E8D0eA3D3D17F8000e01c32"), ChainIDs: []uint64{chainID}, }, } // Set response to exactly the right one tm.setResponse(chainID, accountChainIDsCombination[0].Address, gethcommon.HexToAddress(contractAddresses[chainID]), int64(1*math.Pow(10, float64(decimals)))) resp, err := m.PermissionChecker.CheckPermissions(preParsedPermissions, accountChainIDsCombination, false) s.Require().NoError(err) s.Require().NotNil(resp) s.Require().True(resp.Satisfied) // Set response to 0 tm.setResponse(chainID, accountChainIDsCombination[0].Address, gethcommon.HexToAddress(contractAddresses[chainID]), 0) resp, err = m.PermissionChecker.CheckPermissions(preParsedPermissions, accountChainIDsCombination, false) s.Require().NoError(err) s.Require().NotNil(resp) s.Require().False(resp.Satisfied) } func (s *ManagerSuite) TestRetrieveCollectibles() { m, cm, _ := s.setupManagerForTokenPermissions() var chainID uint64 = 5 contractAddresses := make(map[uint64]string) contractAddresses[chainID] = "0x3d6afaa395c31fcd391fe3d562e75fe9e8ec7e6a" tokenID := uint64(10) var tokenBalances []thirdparty.TokenBalance var tokenCriteria = []*protobuf.TokenCriteria{ { ContractAddresses: contractAddresses, TokenIds: []uint64{tokenID}, Type: protobuf.CommunityTokenType_ERC721, AmountInWei: "1", }, } var permissions = []*CommunityTokenPermission{ { CommunityTokenPermission: &protobuf.CommunityTokenPermission{ Id: "some-id", Type: protobuf.CommunityTokenPermission_BECOME_MEMBER, TokenCriteria: tokenCriteria, }, }, } preParsedPermissions := preParsedCommunityPermissionsData(permissions) accountChainIDsCombination := []*AccountChainIDsCombination{ { Address: gethcommon.HexToAddress("0xD6b912e09E797D291E8D0eA3D3D17F8000e01c32"), ChainIDs: []uint64{chainID}, }, } // Set response to exactly the right one tokenBalances = []thirdparty.TokenBalance{tokenBalance(tokenID, 1)} cm.setResponse(chainID, accountChainIDsCombination[0].Address, gethcommon.HexToAddress(contractAddresses[chainID]), tokenBalances) resp, err := m.PermissionChecker.CheckPermissions(preParsedPermissions, accountChainIDsCombination, false) s.Require().NoError(err) s.Require().NotNil(resp) s.Require().True(resp.Satisfied) // Set balances to 0 tokenBalances = []thirdparty.TokenBalance{} cm.setResponse(chainID, accountChainIDsCombination[0].Address, gethcommon.HexToAddress(contractAddresses[chainID]), tokenBalances) resp, err = m.PermissionChecker.CheckPermissions(preParsedPermissions, accountChainIDsCombination, false) s.Require().NoError(err) s.Require().NotNil(resp) s.Require().False(resp.Satisfied) } func (s *ManagerSuite) TestCreateCommunity() { request := &requests.CreateCommunity{ Name: "status", Description: "token membership description", Membership: protobuf.CommunityPermissions_AUTO_ACCEPT, } community, err := s.manager.CreateCommunity(request, true) s.Require().NoError(err) s.Require().NotNil(community) communities, err := s.manager.All() s.Require().NoError(err) s.Require().Len(communities, 1) actualCommunity := communities[0] if bytes.Equal(community.ID(), communities[0].ID()) { actualCommunity = communities[0] } s.Require().Equal(community.ID(), actualCommunity.ID()) s.Require().Equal(community.PrivateKey(), actualCommunity.PrivateKey()) s.Require().True(community.IsControlNode()) s.Require().True(proto.Equal(community.config.CommunityDescription, actualCommunity.config.CommunityDescription)) } func (s *ManagerSuite) TestCreateCommunity_WithBanner() { // Generate test image bigger than BannerDim testImage := image.NewRGBA(image.Rect(0, 0, 20, 10)) tmpTestFilePath := s.T().TempDir() + "/test.png" file, err := os.Create(tmpTestFilePath) s.NoError(err) defer file.Close() err = png.Encode(file, testImage) s.Require().NoError(err) request := &requests.CreateCommunity{ Name: "with_banner", Description: "community with banner ", Membership: protobuf.CommunityPermissions_AUTO_ACCEPT, Banner: userimages.CroppedImage{ ImagePath: tmpTestFilePath, X: 1, Y: 1, Width: 10, Height: 5, }, } community, err := s.manager.CreateCommunity(request, true) s.Require().NoError(err) s.Require().NotNil(community) communities, err := s.manager.All() s.Require().NoError(err) s.Require().Len(communities, 1) s.Require().Equal(len(community.config.CommunityDescription.Identity.Images), 1) testIdentityImage, isMapContainsKey := community.config.CommunityDescription.Identity.Images[userimages.BannerIdentityName] s.Require().True(isMapContainsKey) s.Require().Positive(len(testIdentityImage.Payload)) } func (s *ManagerSuite) TestEditCommunity() { //create community createRequest := &requests.CreateCommunity{ Name: "status", Description: "status community description", Membership: protobuf.CommunityPermissions_AUTO_ACCEPT, Image: "../../_assets/tests/elephant.jpg", } community, err := s.manager.CreateCommunity(createRequest, true) s.Require().NoError(err) s.Require().NotNil(community) update := &requests.EditCommunity{ CommunityID: community.ID(), CreateCommunity: requests.CreateCommunity{ Name: "statusEdited", Description: "status community description edited", Image: "../../_assets/tests/status.png", ImageBx: 5, ImageBy: 5, }, } updatedCommunity, err := s.manager.EditCommunity(update) s.Require().NoError(err) s.Require().NotNil(updatedCommunity) // Make sure the version of the image got updated with the new image communityImageVersion, ok := s.manager.communityImageVersions[community.IDString()] s.Require().True(ok) s.Require().Equal(uint32(1), communityImageVersion) //ensure updated community successfully stored communities, err := s.manager.All() s.Require().NoError(err) s.Require().Len(communities, 1) storedCommunity := communities[0] if bytes.Equal(community.ID(), communities[0].ID()) { storedCommunity = communities[0] } s.Require().Equal(updatedCommunity.ID(), storedCommunity.ID()) s.Require().Equal(updatedCommunity.PrivateKey(), storedCommunity.PrivateKey()) s.Require().Equal(update.CreateCommunity.Name, storedCommunity.config.CommunityDescription.Identity.DisplayName) s.Require().Equal(update.CreateCommunity.Description, storedCommunity.config.CommunityDescription.Identity.Description) } func (s *ManagerSuite) TestGetControlledCommunitiesChatIDs() { community, _, err := s.buildCommunityWithChat() s.Require().NoError(err) s.Require().NotNil(community) controlledChatIDs, err := s.manager.GetOwnedCommunitiesChatIDs() s.Require().NoError(err) s.Require().Len(controlledChatIDs, 1) } func (s *ManagerSuite) TestStartAndStopTorrentClient() { err := s.archiveManager.StartTorrentClient() s.Require().NoError(err) s.Require().NotNil(s.archiveManager.torrentClient) defer s.archiveManager.Stop() //nolint: errcheck _, err = os.Stat(s.archiveManager.torrentConfig.DataDir) s.Require().NoError(err) s.Require().Equal(s.archiveManager.torrentClientStarted(), true) } func (s *ManagerSuite) TestStartHistoryArchiveTasksInterval() { err := s.archiveManager.StartTorrentClient() s.Require().NoError(err) defer s.archiveManager.Stop() //nolint: errcheck community, _, err := s.buildCommunityWithChat() s.Require().NoError(err) interval := 10 * time.Second go s.archiveManager.StartHistoryArchiveTasksInterval(community, interval) // Due to async exec we need to wait a bit until we check // the task count. time.Sleep(5 * time.Second) count := s.getHistoryTasksCount() s.Require().Equal(count, 1) // We wait another 5 seconds to ensure the first tick has kicked in time.Sleep(5 * time.Second) _, err = os.Stat(torrentFile(s.archiveManager.torrentConfig.TorrentDir, community.IDString())) s.Require().Error(err) s.archiveManager.StopHistoryArchiveTasksInterval(community.ID()) s.archiveManager.historyArchiveTasksWaitGroup.Wait() count = s.getHistoryTasksCount() s.Require().Equal(count, 0) } func (s *ManagerSuite) TestStopHistoryArchiveTasksIntervals() { err := s.archiveManager.StartTorrentClient() s.Require().NoError(err) defer s.archiveManager.Stop() //nolint: errcheck community, _, err := s.buildCommunityWithChat() s.Require().NoError(err) interval := 10 * time.Second go s.archiveManager.StartHistoryArchiveTasksInterval(community, interval) time.Sleep(2 * time.Second) count := s.getHistoryTasksCount() s.Require().Equal(count, 1) s.archiveManager.stopHistoryArchiveTasksIntervals() count = s.getHistoryTasksCount() s.Require().Equal(count, 0) } func (s *ManagerSuite) TestStopTorrentClient_ShouldStopHistoryArchiveTasks() { err := s.archiveManager.StartTorrentClient() s.Require().NoError(err) defer s.archiveManager.Stop() //nolint: errcheck community, _, err := s.buildCommunityWithChat() s.Require().NoError(err) interval := 10 * time.Second go s.archiveManager.StartHistoryArchiveTasksInterval(community, interval) // Due to async exec we need to wait a bit until we check // the task count. time.Sleep(2 * time.Second) count := s.getHistoryTasksCount() s.Require().Equal(count, 1) err = s.archiveManager.Stop() s.Require().NoError(err) count = s.getHistoryTasksCount() s.Require().Equal(count, 0) } func (s *ManagerSuite) TestStartTorrentClient_DelayedUntilOnline() { s.Require().False(s.archiveManager.torrentClientStarted()) s.archiveManager.SetOnline(true) s.Require().True(s.archiveManager.torrentClientStarted()) } func (s *ManagerSuite) TestCreateHistoryArchiveTorrent_WithoutMessages() { community, chatID, err := s.buildCommunityWithChat() s.Require().NoError(err) topic := types.BytesToTopic(transport.ToTopic(chatID)) topics := []types.TopicType{topic} // Time range of 7 days startDate := time.Date(2020, 1, 1, 00, 00, 00, 0, time.UTC) endDate := time.Date(2020, 1, 7, 00, 00, 00, 0, time.UTC) // Partition of 7 days partition := 7 * 24 * time.Hour _, err = s.archiveManager.CreateHistoryArchiveTorrentFromDB(community.ID(), topics, startDate, endDate, partition, false) s.Require().NoError(err) // There are no waku messages in the database so we don't expect // any archives to be created _, err = os.Stat(s.archiveManager.archiveDataFile(community.IDString())) s.Require().Error(err) _, err = os.Stat(s.archiveManager.archiveIndexFile(community.IDString())) s.Require().Error(err) _, err = os.Stat(torrentFile(s.archiveManager.torrentConfig.TorrentDir, community.IDString())) s.Require().Error(err) } func (s *ManagerSuite) TestCreateHistoryArchiveTorrent_ShouldCreateArchive() { community, chatID, err := s.buildCommunityWithChat() s.Require().NoError(err) topic := types.BytesToTopic(transport.ToTopic(chatID)) topics := []types.TopicType{topic} // Time range of 7 days startDate := time.Date(2020, 1, 1, 00, 00, 00, 0, time.UTC) endDate := time.Date(2020, 1, 7, 00, 00, 00, 0, time.UTC) // Partition of 7 days, this should create a single archive partition := 7 * 24 * time.Hour message1 := buildMessage(startDate.Add(1*time.Hour), topic, []byte{1}) message2 := buildMessage(startDate.Add(2*time.Hour), topic, []byte{2}) // This message is outside of the startDate-endDate range and should not // be part of the archive message3 := buildMessage(endDate.Add(2*time.Hour), topic, []byte{3}) err = s.manager.StoreWakuMessage(&message1) s.Require().NoError(err) err = s.manager.StoreWakuMessage(&message2) s.Require().NoError(err) err = s.manager.StoreWakuMessage(&message3) s.Require().NoError(err) _, err = s.archiveManager.CreateHistoryArchiveTorrentFromDB(community.ID(), topics, startDate, endDate, partition, false) s.Require().NoError(err) _, err = os.Stat(s.archiveManager.archiveDataFile(community.IDString())) s.Require().NoError(err) _, err = os.Stat(s.archiveManager.archiveIndexFile(community.IDString())) s.Require().NoError(err) _, err = os.Stat(torrentFile(s.archiveManager.torrentConfig.TorrentDir, community.IDString())) s.Require().NoError(err) index, err := s.archiveManager.LoadHistoryArchiveIndexFromFile(s.manager.identity, community.ID()) s.Require().NoError(err) s.Require().Len(index.Archives, 1) totalData, err := os.ReadFile(s.archiveManager.archiveDataFile(community.IDString())) s.Require().NoError(err) for _, metadata := range index.Archives { archive := &protobuf.WakuMessageArchive{} data := totalData[metadata.Offset : metadata.Offset+metadata.Size-metadata.Padding] err = proto.Unmarshal(data, archive) s.Require().NoError(err) s.Require().Len(archive.Messages, 2) } } func (s *ManagerSuite) TestCreateHistoryArchiveTorrent_ShouldCreateMultipleArchives() { community, chatID, err := s.buildCommunityWithChat() s.Require().NoError(err) topic := types.BytesToTopic(transport.ToTopic(chatID)) topics := []types.TopicType{topic} // Time range of 3 weeks startDate := time.Date(2020, 1, 1, 00, 00, 00, 0, time.UTC) endDate := time.Date(2020, 1, 21, 00, 00, 00, 0, time.UTC) // 7 days partition, this should create three archives partition := 7 * 24 * time.Hour message1 := buildMessage(startDate.Add(1*time.Hour), topic, []byte{1}) message2 := buildMessage(startDate.Add(2*time.Hour), topic, []byte{2}) // We expect 2 archives to be created for startDate - endDate of each // 7 days of data. This message should end up in the second archive message3 := buildMessage(startDate.Add(8*24*time.Hour), topic, []byte{3}) // This one should end up in the third archive message4 := buildMessage(startDate.Add(14*24*time.Hour), topic, []byte{4}) err = s.manager.StoreWakuMessage(&message1) s.Require().NoError(err) err = s.manager.StoreWakuMessage(&message2) s.Require().NoError(err) err = s.manager.StoreWakuMessage(&message3) s.Require().NoError(err) err = s.manager.StoreWakuMessage(&message4) s.Require().NoError(err) _, err = s.archiveManager.CreateHistoryArchiveTorrentFromDB(community.ID(), topics, startDate, endDate, partition, false) s.Require().NoError(err) index, err := s.archiveManager.LoadHistoryArchiveIndexFromFile(s.manager.identity, community.ID()) s.Require().NoError(err) s.Require().Len(index.Archives, 3) totalData, err := os.ReadFile(s.archiveManager.archiveDataFile(community.IDString())) s.Require().NoError(err) // First archive has 2 messages // Second archive has 1 message // Third archive has 1 message fromMap := map[uint64]int{ uint64(startDate.Unix()): 2, uint64(startDate.Add(partition).Unix()): 1, uint64(startDate.Add(partition * 2).Unix()): 1, } for _, metadata := range index.Archives { archive := &protobuf.WakuMessageArchive{} data := totalData[metadata.Offset : metadata.Offset+metadata.Size-metadata.Padding] err = proto.Unmarshal(data, archive) s.Require().NoError(err) s.Require().Len(archive.Messages, fromMap[metadata.Metadata.From]) } } func (s *ManagerSuite) TestCreateHistoryArchiveTorrent_ShouldAppendArchives() { community, chatID, err := s.buildCommunityWithChat() s.Require().NoError(err) topic := types.BytesToTopic(transport.ToTopic(chatID)) topics := []types.TopicType{topic} // Time range of 1 week startDate := time.Date(2020, 1, 1, 00, 00, 00, 0, time.UTC) endDate := time.Date(2020, 1, 7, 00, 00, 00, 0, time.UTC) // 7 days partition, this should create one archive partition := 7 * 24 * time.Hour message1 := buildMessage(startDate.Add(1*time.Hour), topic, []byte{1}) err = s.manager.StoreWakuMessage(&message1) s.Require().NoError(err) _, err = s.archiveManager.CreateHistoryArchiveTorrentFromDB(community.ID(), topics, startDate, endDate, partition, false) s.Require().NoError(err) index, err := s.archiveManager.LoadHistoryArchiveIndexFromFile(s.manager.identity, community.ID()) s.Require().NoError(err) s.Require().Len(index.Archives, 1) // Time range of next week startDate = time.Date(2020, 1, 7, 00, 00, 00, 0, time.UTC) endDate = time.Date(2020, 1, 14, 00, 00, 00, 0, time.UTC) message2 := buildMessage(startDate.Add(2*time.Hour), topic, []byte{2}) err = s.manager.StoreWakuMessage(&message2) s.Require().NoError(err) _, err = s.archiveManager.CreateHistoryArchiveTorrentFromDB(community.ID(), topics, startDate, endDate, partition, false) s.Require().NoError(err) index, err = s.archiveManager.LoadHistoryArchiveIndexFromFile(s.manager.identity, community.ID()) s.Require().NoError(err) s.Require().Len(index.Archives, 2) } func (s *ManagerSuite) TestCreateHistoryArchiveTorrentFromMessages() { community, chatID, err := s.buildCommunityWithChat() s.Require().NoError(err) topic := types.BytesToTopic(transport.ToTopic(chatID)) topics := []types.TopicType{topic} // Time range of 7 days startDate := time.Date(2020, 1, 1, 00, 00, 00, 0, time.UTC) endDate := time.Date(2020, 1, 7, 00, 00, 00, 0, time.UTC) // Partition of 7 days, this should create a single archive partition := 7 * 24 * time.Hour message1 := buildMessage(startDate.Add(1*time.Hour), topic, []byte{1}) message2 := buildMessage(startDate.Add(2*time.Hour), topic, []byte{2}) // This message is outside of the startDate-endDate range and should not // be part of the archive message3 := buildMessage(endDate.Add(2*time.Hour), topic, []byte{3}) _, err = s.archiveManager.CreateHistoryArchiveTorrentFromMessages(community.ID(), []*types.Message{&message1, &message2, &message3}, topics, startDate, endDate, partition, false) s.Require().NoError(err) _, err = os.Stat(s.archiveManager.archiveDataFile(community.IDString())) s.Require().NoError(err) _, err = os.Stat(s.archiveManager.archiveIndexFile(community.IDString())) s.Require().NoError(err) _, err = os.Stat(torrentFile(s.archiveManager.torrentConfig.TorrentDir, community.IDString())) s.Require().NoError(err) index, err := s.archiveManager.LoadHistoryArchiveIndexFromFile(s.manager.identity, community.ID()) s.Require().NoError(err) s.Require().Len(index.Archives, 1) totalData, err := os.ReadFile(s.archiveManager.archiveDataFile(community.IDString())) s.Require().NoError(err) for _, metadata := range index.Archives { archive := &protobuf.WakuMessageArchive{} data := totalData[metadata.Offset : metadata.Offset+metadata.Size-metadata.Padding] err = proto.Unmarshal(data, archive) s.Require().NoError(err) s.Require().Len(archive.Messages, 2) } } func (s *ManagerSuite) TestCreateHistoryArchiveTorrentFromMessages_ShouldCreateMultipleArchives() { community, chatID, err := s.buildCommunityWithChat() s.Require().NoError(err) topic := types.BytesToTopic(transport.ToTopic(chatID)) topics := []types.TopicType{topic} // Time range of 3 weeks startDate := time.Date(2020, 1, 1, 00, 00, 00, 0, time.UTC) endDate := time.Date(2020, 1, 21, 00, 00, 00, 0, time.UTC) // 7 days partition, this should create three archives partition := 7 * 24 * time.Hour message1 := buildMessage(startDate.Add(1*time.Hour), topic, []byte{1}) message2 := buildMessage(startDate.Add(2*time.Hour), topic, []byte{2}) // We expect 2 archives to be created for startDate - endDate of each // 7 days of data. This message should end up in the second archive message3 := buildMessage(startDate.Add(8*24*time.Hour), topic, []byte{3}) // This one should end up in the third archive message4 := buildMessage(startDate.Add(14*24*time.Hour), topic, []byte{4}) _, err = s.archiveManager.CreateHistoryArchiveTorrentFromMessages(community.ID(), []*types.Message{&message1, &message2, &message3, &message4}, topics, startDate, endDate, partition, false) s.Require().NoError(err) index, err := s.archiveManager.LoadHistoryArchiveIndexFromFile(s.manager.identity, community.ID()) s.Require().NoError(err) s.Require().Len(index.Archives, 3) totalData, err := os.ReadFile(s.archiveManager.archiveDataFile(community.IDString())) s.Require().NoError(err) // First archive has 2 messages // Second archive has 1 message // Third archive has 1 message fromMap := map[uint64]int{ uint64(startDate.Unix()): 2, uint64(startDate.Add(partition).Unix()): 1, uint64(startDate.Add(partition * 2).Unix()): 1, } for _, metadata := range index.Archives { archive := &protobuf.WakuMessageArchive{} data := totalData[metadata.Offset : metadata.Offset+metadata.Size-metadata.Padding] err = proto.Unmarshal(data, archive) s.Require().NoError(err) s.Require().Len(archive.Messages, fromMap[metadata.Metadata.From]) } } func (s *ManagerSuite) TestCreateHistoryArchiveTorrentFromMessages_ShouldAppendArchives() { community, chatID, err := s.buildCommunityWithChat() s.Require().NoError(err) topic := types.BytesToTopic(transport.ToTopic(chatID)) topics := []types.TopicType{topic} // Time range of 1 week startDate := time.Date(2020, 1, 1, 00, 00, 00, 0, time.UTC) endDate := time.Date(2020, 1, 7, 00, 00, 00, 0, time.UTC) // 7 days partition, this should create one archive partition := 7 * 24 * time.Hour message1 := buildMessage(startDate.Add(1*time.Hour), topic, []byte{1}) _, err = s.archiveManager.CreateHistoryArchiveTorrentFromMessages(community.ID(), []*types.Message{&message1}, topics, startDate, endDate, partition, false) s.Require().NoError(err) index, err := s.archiveManager.LoadHistoryArchiveIndexFromFile(s.manager.identity, community.ID()) s.Require().NoError(err) s.Require().Len(index.Archives, 1) // Time range of next week startDate = time.Date(2020, 1, 7, 00, 00, 00, 0, time.UTC) endDate = time.Date(2020, 1, 14, 00, 00, 00, 0, time.UTC) message2 := buildMessage(startDate.Add(2*time.Hour), topic, []byte{2}) _, err = s.archiveManager.CreateHistoryArchiveTorrentFromMessages(community.ID(), []*types.Message{&message2}, topics, startDate, endDate, partition, false) s.Require().NoError(err) index, err = s.archiveManager.LoadHistoryArchiveIndexFromFile(s.manager.identity, community.ID()) s.Require().NoError(err) s.Require().Len(index.Archives, 2) } func (s *ManagerSuite) TestSeedHistoryArchiveTorrent() { err := s.archiveManager.StartTorrentClient() s.Require().NoError(err) defer s.archiveManager.Stop() //nolint: errcheck community, chatID, err := s.buildCommunityWithChat() s.Require().NoError(err) topic := types.BytesToTopic(transport.ToTopic(chatID)) topics := []types.TopicType{topic} startDate := time.Date(2020, 1, 1, 00, 00, 00, 0, time.UTC) endDate := time.Date(2020, 1, 7, 00, 00, 00, 0, time.UTC) partition := 7 * 24 * time.Hour message1 := buildMessage(startDate.Add(1*time.Hour), topic, []byte{1}) err = s.manager.StoreWakuMessage(&message1) s.Require().NoError(err) _, err = s.archiveManager.CreateHistoryArchiveTorrentFromDB(community.ID(), topics, startDate, endDate, partition, false) s.Require().NoError(err) err = s.archiveManager.SeedHistoryArchiveTorrent(community.ID()) s.Require().NoError(err) s.Require().Len(s.archiveManager.torrentTasks, 1) metaInfoHash := s.archiveManager.torrentTasks[community.IDString()] torrent, ok := s.archiveManager.torrentClient.Torrent(metaInfoHash) defer torrent.Drop() s.Require().Equal(ok, true) s.Require().Equal(torrent.Seeding(), true) } func (s *ManagerSuite) TestUnseedHistoryArchiveTorrent() { err := s.archiveManager.StartTorrentClient() s.Require().NoError(err) defer s.archiveManager.Stop() //nolint: errcheck community, chatID, err := s.buildCommunityWithChat() s.Require().NoError(err) topic := types.BytesToTopic(transport.ToTopic(chatID)) topics := []types.TopicType{topic} startDate := time.Date(2020, 1, 1, 00, 00, 00, 0, time.UTC) endDate := time.Date(2020, 1, 7, 00, 00, 00, 0, time.UTC) partition := 7 * 24 * time.Hour message1 := buildMessage(startDate.Add(1*time.Hour), topic, []byte{1}) err = s.manager.StoreWakuMessage(&message1) s.Require().NoError(err) _, err = s.archiveManager.CreateHistoryArchiveTorrentFromDB(community.ID(), topics, startDate, endDate, partition, false) s.Require().NoError(err) err = s.archiveManager.SeedHistoryArchiveTorrent(community.ID()) s.Require().NoError(err) s.Require().Len(s.archiveManager.torrentTasks, 1) metaInfoHash := s.archiveManager.torrentTasks[community.IDString()] s.archiveManager.UnseedHistoryArchiveTorrent(community.ID()) _, ok := s.archiveManager.torrentClient.Torrent(metaInfoHash) s.Require().Equal(ok, false) } func (s *ManagerSuite) TestCheckChannelPermissions_NoPermissions() { m, _, tm := s.setupManagerForTokenPermissions() var chainID uint64 = 5 contractAddresses := make(map[uint64]string) contractAddresses[chainID] = "0x3d6afaa395c31fcd391fe3d562e75fe9e8ec7e6a" accountChainIDsCombination := []*AccountChainIDsCombination{ &AccountChainIDsCombination{ Address: gethcommon.HexToAddress("0xD6b912e09E797D291E8D0eA3D3D17F8000e01c32"), ChainIDs: []uint64{chainID}, }, } var viewOnlyPermissions = make([]*CommunityTokenPermission, 0) var viewAndPostPermissions = make([]*CommunityTokenPermission, 0) viewOnlyPreParsedPermissions := preParsedCommunityPermissionsData(viewOnlyPermissions) viewAndPostPreParsedPermissions := preParsedCommunityPermissionsData(viewAndPostPermissions) tm.setResponse(chainID, accountChainIDsCombination[0].Address, gethcommon.HexToAddress(contractAddresses[chainID]), 0) resp, err := m.checkChannelPermissions(viewOnlyPreParsedPermissions, viewAndPostPreParsedPermissions, accountChainIDsCombination, false) s.Require().NoError(err) s.Require().NotNil(resp) // Both viewOnly and viewAndPost permissions are expected to be satisfied // because we call `checkChannelPermissions()` with no permissions to check s.Require().True(resp.ViewOnlyPermissions.Satisfied) s.Require().True(resp.ViewAndPostPermissions.Satisfied) } func (s *ManagerSuite) TestCheckChannelPermissions_ViewOnlyPermissions() { m, _, tm := s.setupManagerForTokenPermissions() var chainID uint64 = 5 contractAddresses := make(map[uint64]string) contractAddresses[chainID] = "0x3d6afaa395c31fcd391fe3d562e75fe9e8ec7e6a" var decimals uint64 = 18 accountChainIDsCombination := []*AccountChainIDsCombination{ &AccountChainIDsCombination{ Address: gethcommon.HexToAddress("0xD6b912e09E797D291E8D0eA3D3D17F8000e01c32"), ChainIDs: []uint64{chainID}, }, } var tokenCriteria = []*protobuf.TokenCriteria{ &protobuf.TokenCriteria{ ContractAddresses: contractAddresses, Symbol: "STT", Type: protobuf.CommunityTokenType_ERC20, Name: "Status Test Token", AmountInWei: "1000000000000000000", Decimals: decimals, }, } var viewOnlyPermissions = []*CommunityTokenPermission{ &CommunityTokenPermission{ CommunityTokenPermission: &protobuf.CommunityTokenPermission{ Id: "some-id", Type: protobuf.CommunityTokenPermission_CAN_VIEW_CHANNEL, TokenCriteria: tokenCriteria, ChatIds: []string{"test-channel-id", "test-channel-id-2"}, }, }, } var viewAndPostPermissions = make([]*CommunityTokenPermission, 0) viewOnlyPreParsedPermissions := preParsedCommunityPermissionsData(viewOnlyPermissions) viewAndPostPreParsedPermissions := preParsedCommunityPermissionsData(viewAndPostPermissions) tm.setResponse(chainID, accountChainIDsCombination[0].Address, gethcommon.HexToAddress(contractAddresses[chainID]), 0) resp, err := m.checkChannelPermissions(viewOnlyPreParsedPermissions, viewAndPostPreParsedPermissions, accountChainIDsCombination, false) s.Require().NoError(err) s.Require().NotNil(resp) s.Require().False(resp.ViewOnlyPermissions.Satisfied) // if viewOnly permissions are not satisfied then viewAndPost // permissions shouldn't be satisfied either s.Require().False(resp.ViewAndPostPermissions.Satisfied) // Set response to exactly the right one tm.setResponse(chainID, accountChainIDsCombination[0].Address, gethcommon.HexToAddress(contractAddresses[chainID]), int64(1*math.Pow(10, float64(decimals)))) resp, err = m.checkChannelPermissions(viewOnlyPreParsedPermissions, viewAndPostPreParsedPermissions, accountChainIDsCombination, false) s.Require().NoError(err) s.Require().NotNil(resp) s.Require().True(resp.ViewOnlyPermissions.Satisfied) s.Require().False(resp.ViewAndPostPermissions.Satisfied) } func (s *ManagerSuite) TestCheckChannelPermissions_ViewAndPostPermissions() { m, _, tm := s.setupManagerForTokenPermissions() var chainID uint64 = 5 contractAddresses := make(map[uint64]string) contractAddresses[chainID] = "0x3d6afaa395c31fcd391fe3d562e75fe9e8ec7e6a" var decimals uint64 = 18 accountChainIDsCombination := []*AccountChainIDsCombination{ &AccountChainIDsCombination{ Address: gethcommon.HexToAddress("0xD6b912e09E797D291E8D0eA3D3D17F8000e01c32"), ChainIDs: []uint64{chainID}, }, } var tokenCriteria = []*protobuf.TokenCriteria{ &protobuf.TokenCriteria{ ContractAddresses: contractAddresses, Symbol: "STT", Type: protobuf.CommunityTokenType_ERC20, Name: "Status Test Token", AmountInWei: "1000000000000000000", Decimals: decimals, }, } var viewAndPostPermissions = []*CommunityTokenPermission{ &CommunityTokenPermission{ CommunityTokenPermission: &protobuf.CommunityTokenPermission{ Id: "some-id", Type: protobuf.CommunityTokenPermission_CAN_VIEW_CHANNEL, TokenCriteria: tokenCriteria, ChatIds: []string{"test-channel-id", "test-channel-id-2"}, }, }, } var viewOnlyPermissions = make([]*CommunityTokenPermission, 0) viewOnlyPreParsedPermissions := preParsedCommunityPermissionsData(viewOnlyPermissions) viewAndPostPreParsedPermissions := preParsedCommunityPermissionsData(viewAndPostPermissions) tm.setResponse(chainID, accountChainIDsCombination[0].Address, gethcommon.HexToAddress(contractAddresses[chainID]), 0) resp, err := m.checkChannelPermissions(viewOnlyPreParsedPermissions, viewAndPostPreParsedPermissions, accountChainIDsCombination, false) s.Require().NoError(err) s.Require().NotNil(resp) s.Require().False(resp.ViewAndPostPermissions.Satisfied) // viewOnly permissions are flagged as not satisfied because we have no viewOnly // permissions on this channel and the viewAndPost permission is not satisfied either s.Require().False(resp.ViewOnlyPermissions.Satisfied) // Set response to exactly the right one tm.setResponse(chainID, accountChainIDsCombination[0].Address, gethcommon.HexToAddress(contractAddresses[chainID]), int64(1*math.Pow(10, float64(decimals)))) resp, err = m.checkChannelPermissions(viewOnlyPreParsedPermissions, viewAndPostPreParsedPermissions, accountChainIDsCombination, false) s.Require().NoError(err) s.Require().NotNil(resp) s.Require().True(resp.ViewAndPostPermissions.Satisfied) // if viewAndPost is satisfied then viewOnly should be automatically satisfied s.Require().True(resp.ViewOnlyPermissions.Satisfied) } func (s *ManagerSuite) TestCheckChannelPermissions_ViewAndPostPermissionsCombination() { m, _, tm := s.setupManagerForTokenPermissions() var chainID uint64 = 5 contractAddresses := make(map[uint64]string) contractAddresses[chainID] = "0x3d6afaa395c31fcd391fe3d562e75fe9e8ec7e6a" var decimals uint64 = 18 accountChainIDsCombination := []*AccountChainIDsCombination{ &AccountChainIDsCombination{ Address: gethcommon.HexToAddress("0xD6b912e09E797D291E8D0eA3D3D17F8000e01c32"), ChainIDs: []uint64{chainID}, }, } var viewOnlyTokenCriteria = []*protobuf.TokenCriteria{ &protobuf.TokenCriteria{ ContractAddresses: contractAddresses, Symbol: "STT", Type: protobuf.CommunityTokenType_ERC20, Name: "Status Test Token", AmountInWei: "1000000000000000000", Decimals: decimals, }, } var viewOnlyPermissions = []*CommunityTokenPermission{ &CommunityTokenPermission{ CommunityTokenPermission: &protobuf.CommunityTokenPermission{ Id: "some-id", Type: protobuf.CommunityTokenPermission_CAN_VIEW_CHANNEL, TokenCriteria: viewOnlyTokenCriteria, ChatIds: []string{"test-channel-id", "test-channel-id-2"}, }, }, } testContractAddresses := make(map[uint64]string) testContractAddresses[chainID] = "0x123" // Set up token criteria that won't be satisfied var viewAndPostTokenCriteria = []*protobuf.TokenCriteria{ &protobuf.TokenCriteria{ ContractAddresses: testContractAddresses, Symbol: "TEST", Type: protobuf.CommunityTokenType_ERC20, Name: "TEST token", AmountInWei: "1000000000000000000", Decimals: decimals, }, } var viewAndPostPermissions = []*CommunityTokenPermission{ &CommunityTokenPermission{ CommunityTokenPermission: &protobuf.CommunityTokenPermission{ Id: "some-id", Type: protobuf.CommunityTokenPermission_CAN_VIEW_CHANNEL, TokenCriteria: viewAndPostTokenCriteria, ChatIds: []string{"test-channel-id", "test-channel-id-2"}, }, }, } // Set response for viewOnly permissions tm.setResponse(chainID, accountChainIDsCombination[0].Address, gethcommon.HexToAddress(contractAddresses[chainID]), int64(1*math.Pow(10, float64(decimals)))) // Set resopnse for viewAndPost permissions tm.setResponse(chainID, accountChainIDsCombination[0].Address, gethcommon.HexToAddress(testContractAddresses[chainID]), 0) viewOnlyPreParsedPermissions := preParsedCommunityPermissionsData(viewOnlyPermissions) viewAndPostPreParsedPermissions := preParsedCommunityPermissionsData(viewAndPostPermissions) resp, err := m.checkChannelPermissions(viewOnlyPreParsedPermissions, viewAndPostPreParsedPermissions, accountChainIDsCombination, false) s.Require().NoError(err) s.Require().NotNil(resp) // viewOnly permission should be satisfied, even though viewAndPost is not satisfied s.Require().True(resp.ViewOnlyPermissions.Satisfied) s.Require().False(resp.ViewAndPostPermissions.Satisfied) } // Same as the one above, but reversed where the View permission is not satisfied, but the view and post is func (s *ManagerSuite) TestCheckChannelPermissions_ViewAndPostPermissionsCombination2() { m, _, tm := s.setupManagerForTokenPermissions() var chainID uint64 = 5 contractAddresses := make(map[uint64]string) contractAddresses[chainID] = "0x3d6afaa395c31fcd391fe3d562e75fe9e8ec7e6a" var decimals uint64 = 18 accountChainIDsCombination := []*AccountChainIDsCombination{ &AccountChainIDsCombination{ Address: gethcommon.HexToAddress("0xD6b912e09E797D291E8D0eA3D3D17F8000e01c32"), ChainIDs: []uint64{chainID}, }, } var viewOnlyTokenCriteria = []*protobuf.TokenCriteria{ &protobuf.TokenCriteria{ ContractAddresses: contractAddresses, Symbol: "STT", Type: protobuf.CommunityTokenType_ERC20, Name: "Status Test Token", AmountInWei: "1000000000000000000", Decimals: decimals, }, } var viewOnlyPermissions = []*CommunityTokenPermission{ &CommunityTokenPermission{ CommunityTokenPermission: &protobuf.CommunityTokenPermission{ Id: "some-id", Type: protobuf.CommunityTokenPermission_CAN_VIEW_CHANNEL, TokenCriteria: viewOnlyTokenCriteria, ChatIds: []string{"test-channel-id", "test-channel-id-2"}, }, }, } testContractAddresses := make(map[uint64]string) testContractAddresses[chainID] = "0x123" // Set up token criteria that won't be satisfied var viewAndPostTokenCriteria = []*protobuf.TokenCriteria{ &protobuf.TokenCriteria{ ContractAddresses: testContractAddresses, Symbol: "TEST", Type: protobuf.CommunityTokenType_ERC20, Name: "TEST token", AmountInWei: "1000000000000000000", Decimals: decimals, }, } var viewAndPostPermissions = []*CommunityTokenPermission{ &CommunityTokenPermission{ CommunityTokenPermission: &protobuf.CommunityTokenPermission{ Id: "some-id", Type: protobuf.CommunityTokenPermission_CAN_VIEW_CHANNEL, TokenCriteria: viewAndPostTokenCriteria, ChatIds: []string{"test-channel-id", "test-channel-id-2"}, }, }, } // Set response for viewOnly permissions tm.setResponse(chainID, accountChainIDsCombination[0].Address, gethcommon.HexToAddress(contractAddresses[chainID]), 0) // Set resopnse for viewAndPost permissions tm.setResponse(chainID, accountChainIDsCombination[0].Address, gethcommon.HexToAddress(testContractAddresses[chainID]), int64(1*math.Pow(10, float64(decimals)))) viewOnlyPreParsedPermissions := preParsedCommunityPermissionsData(viewOnlyPermissions) viewAndPostPreParsedPermissions := preParsedCommunityPermissionsData(viewAndPostPermissions) resp, err := m.checkChannelPermissions(viewOnlyPreParsedPermissions, viewAndPostPreParsedPermissions, accountChainIDsCombination, false) s.Require().NoError(err) s.Require().NotNil(resp) // Both permissions should be satisfied, even though view is not satisfied s.Require().True(resp.ViewOnlyPermissions.Satisfied) s.Require().True(resp.ViewAndPostPermissions.Satisfied) } func (s *ManagerSuite) TestCheckAllChannelsPermissions_EmptyPermissions() { m, _, _ := s.setupManagerForTokenPermissions() createRequest := &requests.CreateCommunity{ Name: "channel permission community", Description: "some description", Membership: protobuf.CommunityPermissions_AUTO_ACCEPT, } community, err := m.CreateCommunity(createRequest, true) s.Require().NoError(err) // create community chats chat := &protobuf.CommunityChat{ Identity: &protobuf.ChatIdentity{ DisplayName: "chat1", Description: "description", }, Permissions: &protobuf.CommunityPermissions{ Access: protobuf.CommunityPermissions_AUTO_ACCEPT, }, Members: make(map[string]*protobuf.CommunityMember), } changes, err := m.CreateChat(community.ID(), chat, true, "") s.Require().NoError(err) var chatID string for cid := range changes.ChatsAdded { chatID = community.IDString() + cid } response, err := m.CheckAllChannelsPermissions(community.ID(), []gethcommon.Address{ gethcommon.HexToAddress("0xD6b912e09E797D291E8D0eA3D3D17F8000e01c32"), }) s.Require().NoError(err) s.Require().NotNil(response) s.Require().Len(response.Channels, 1) // we expect both, viewOnly and viewAndPost permissions to be satisfied // as there aren't any permissions on this channel s.Require().True(response.Channels[chatID].ViewOnlyPermissions.Satisfied) s.Require().True(response.Channels[chatID].ViewAndPostPermissions.Satisfied) s.Require().Len(response.Channels[chatID].ViewOnlyPermissions.Permissions, 0) s.Require().Len(response.Channels[chatID].ViewAndPostPermissions.Permissions, 0) } func (s *ManagerSuite) TestCheckAllChannelsPermissions() { m, _, tm := s.setupManagerForTokenPermissions() var chatID1 string var chatID2 string // create community createRequest := &requests.CreateCommunity{ Name: "channel permission community", Description: "some description", Membership: protobuf.CommunityPermissions_AUTO_ACCEPT, } community, err := m.CreateCommunity(createRequest, true) s.Require().NoError(err) // create first community chat chat := &protobuf.CommunityChat{ Identity: &protobuf.ChatIdentity{ DisplayName: "chat1", Description: "description", }, Permissions: &protobuf.CommunityPermissions{ Access: protobuf.CommunityPermissions_AUTO_ACCEPT, }, Members: make(map[string]*protobuf.CommunityMember), } changes, err := m.CreateChat(community.ID(), chat, true, "") s.Require().NoError(err) for chatID := range changes.ChatsAdded { chatID1 = community.IDString() + chatID } // create second community chat chat = &protobuf.CommunityChat{ Identity: &protobuf.ChatIdentity{ DisplayName: "chat2", Description: "description", }, Permissions: &protobuf.CommunityPermissions{ Access: protobuf.CommunityPermissions_AUTO_ACCEPT, }, Members: make(map[string]*protobuf.CommunityMember), } changes, err = m.CreateChat(community.ID(), chat, true, "") s.Require().NoError(err) for chatID := range changes.ChatsAdded { chatID2 = community.IDString() + chatID } var chainID uint64 = 5 contractAddresses := make(map[uint64]string) contractAddresses[chainID] = "0x3d6afaa395c31fcd391fe3d562e75fe9e8ec7e6a" var decimals uint64 = 18 accountChainIDsCombination := []*AccountChainIDsCombination{ &AccountChainIDsCombination{ Address: gethcommon.HexToAddress("0xD6b912e09E797D291E8D0eA3D3D17F8000e01c32"), ChainIDs: []uint64{chainID}, }, } var tokenCriteria = []*protobuf.TokenCriteria{ &protobuf.TokenCriteria{ ContractAddresses: contractAddresses, Symbol: "STT", Type: protobuf.CommunityTokenType_ERC20, Name: "Status Test Token", AmountInWei: "1000000000000000000", Decimals: decimals, }, } // create view only permission viewOnlyPermission := &requests.CreateCommunityTokenPermission{ CommunityID: community.ID(), Type: protobuf.CommunityTokenPermission_CAN_VIEW_CHANNEL, TokenCriteria: tokenCriteria, ChatIds: []string{chatID1, chatID2}, } _, changes, err = m.CreateCommunityTokenPermission(viewOnlyPermission) s.Require().NoError(err) var viewOnlyPermissionID string for permissionID := range changes.TokenPermissionsAdded { viewOnlyPermissionID = permissionID } response, err := m.CheckAllChannelsPermissions(community.ID(), []gethcommon.Address{ gethcommon.HexToAddress("0xD6b912e09E797D291E8D0eA3D3D17F8000e01c32"), }) s.Require().NoError(err) s.Require().NotNil(response) // we've added to chats to the community, so there should be 2 items s.Require().Len(response.Channels, 2) // viewOnly permissions should not be satisfied because the account doesn't // have the necessary funds // channel1 s.Require().False(response.Channels[chatID1].ViewOnlyPermissions.Satisfied) s.Require().Len(response.Channels[chatID1].ViewOnlyPermissions.Permissions, 1) s.Require().Len(response.Channels[chatID1].ViewOnlyPermissions.Permissions[viewOnlyPermissionID].Criteria, 1) s.Require().False(response.Channels[chatID1].ViewOnlyPermissions.Permissions[viewOnlyPermissionID].Criteria[0]) // channel2 s.Require().False(response.Channels[chatID2].ViewOnlyPermissions.Satisfied) s.Require().Len(response.Channels[chatID2].ViewOnlyPermissions.Permissions, 1) s.Require().Len(response.Channels[chatID2].ViewOnlyPermissions.Permissions[viewOnlyPermissionID].Criteria, 1) s.Require().False(response.Channels[chatID2].ViewOnlyPermissions.Permissions[viewOnlyPermissionID].Criteria[0]) // viewAndPost permissions are flagged as not satisfied either because // viewOnly permission is not satisfied and there are no viewAndPost permissions // channel1 s.Require().False(response.Channels[chatID1].ViewAndPostPermissions.Satisfied) s.Require().Len(response.Channels[chatID1].ViewAndPostPermissions.Permissions, 0) // channel2 s.Require().False(response.Channels[chatID2].ViewAndPostPermissions.Satisfied) s.Require().Len(response.Channels[chatID2].ViewAndPostPermissions.Permissions, 0) // now change balance such that viewOnly permission should be satisfied tm.setResponse(chainID, accountChainIDsCombination[0].Address, gethcommon.HexToAddress(contractAddresses[chainID]), int64(1*math.Pow(10, float64(decimals)))) response, err = m.CheckAllChannelsPermissions(community.ID(), []gethcommon.Address{ gethcommon.HexToAddress("0xD6b912e09E797D291E8D0eA3D3D17F8000e01c32"), }) s.Require().NoError(err) s.Require().NotNil(response) s.Require().Len(response.Channels, 2) // viewOnly permissions should be satisfied for both channels while // viewAndPost permissions should not be satisfied (as there aren't any) // channel1 s.Require().True(response.Channels[chatID1].ViewOnlyPermissions.Satisfied) s.Require().Len(response.Channels[chatID1].ViewOnlyPermissions.Permissions, 1) s.Require().Len(response.Channels[chatID1].ViewOnlyPermissions.Permissions[viewOnlyPermissionID].Criteria, 1) s.Require().True(response.Channels[chatID1].ViewOnlyPermissions.Permissions[viewOnlyPermissionID].Criteria[0]) s.Require().False(response.Channels[chatID1].ViewAndPostPermissions.Satisfied) s.Require().Len(response.Channels[chatID1].ViewAndPostPermissions.Permissions, 0) // channel2 s.Require().True(response.Channels[chatID2].ViewOnlyPermissions.Satisfied) s.Require().Len(response.Channels[chatID2].ViewOnlyPermissions.Permissions, 1) s.Require().Len(response.Channels[chatID2].ViewOnlyPermissions.Permissions[viewOnlyPermissionID].Criteria, 1) s.Require().True(response.Channels[chatID2].ViewOnlyPermissions.Permissions[viewOnlyPermissionID].Criteria[0]) s.Require().False(response.Channels[chatID2].ViewAndPostPermissions.Satisfied) s.Require().Len(response.Channels[chatID2].ViewAndPostPermissions.Permissions, 0) // next, create viewAndPost permission // create view only permission viewAndPostPermission := &requests.CreateCommunityTokenPermission{ CommunityID: community.ID(), Type: protobuf.CommunityTokenPermission_CAN_VIEW_AND_POST_CHANNEL, TokenCriteria: tokenCriteria, ChatIds: []string{chatID1, chatID2}, } _, changes, err = m.CreateCommunityTokenPermission(viewAndPostPermission) s.Require().NoError(err) var viewAndPostPermissionID string for permissionID := range changes.TokenPermissionsAdded { viewAndPostPermissionID = permissionID } // now change balance such that viewAndPost permission is not satisfied tm.setResponse(chainID, accountChainIDsCombination[0].Address, gethcommon.HexToAddress(contractAddresses[chainID]), 0) response, err = m.CheckAllChannelsPermissions(community.ID(), []gethcommon.Address{ gethcommon.HexToAddress("0xD6b912e09E797D291E8D0eA3D3D17F8000e01c32"), }) s.Require().NoError(err) s.Require().NotNil(response) s.Require().Len(response.Channels, 2) // Both, viewOnly and viewAndPost permissions exist on channel1 and channel2 // but shouldn't be satisfied // channel1 s.Require().False(response.Channels[chatID1].ViewOnlyPermissions.Satisfied) s.Require().Len(response.Channels[chatID1].ViewOnlyPermissions.Permissions, 1) s.Require().Len(response.Channels[chatID1].ViewOnlyPermissions.Permissions[viewOnlyPermissionID].Criteria, 1) s.Require().False(response.Channels[chatID1].ViewOnlyPermissions.Permissions[viewOnlyPermissionID].Criteria[0]) s.Require().False(response.Channels[chatID1].ViewAndPostPermissions.Satisfied) s.Require().Len(response.Channels[chatID1].ViewAndPostPermissions.Permissions, 1) s.Require().Len(response.Channels[chatID1].ViewAndPostPermissions.Permissions[viewAndPostPermissionID].Criteria, 1) s.Require().False(response.Channels[chatID1].ViewAndPostPermissions.Permissions[viewAndPostPermissionID].Criteria[0]) // channel2 s.Require().False(response.Channels[chatID2].ViewOnlyPermissions.Satisfied) s.Require().Len(response.Channels[chatID2].ViewOnlyPermissions.Permissions, 1) s.Require().Len(response.Channels[chatID2].ViewOnlyPermissions.Permissions[viewOnlyPermissionID].Criteria, 1) s.Require().False(response.Channels[chatID2].ViewOnlyPermissions.Permissions[viewOnlyPermissionID].Criteria[0]) s.Require().False(response.Channels[chatID2].ViewAndPostPermissions.Satisfied) s.Require().Len(response.Channels[chatID2].ViewAndPostPermissions.Permissions, 1) s.Require().Len(response.Channels[chatID2].ViewAndPostPermissions.Permissions[viewAndPostPermissionID].Criteria, 1) s.Require().False(response.Channels[chatID2].ViewAndPostPermissions.Permissions[viewAndPostPermissionID].Criteria[0]) // now change balance such that both, viewOnly and viewAndPost permission, are satisfied tm.setResponse(chainID, accountChainIDsCombination[0].Address, gethcommon.HexToAddress(contractAddresses[chainID]), int64(1*math.Pow(10, float64(decimals)))) response, err = m.CheckAllChannelsPermissions(community.ID(), []gethcommon.Address{ gethcommon.HexToAddress("0xD6b912e09E797D291E8D0eA3D3D17F8000e01c32"), }) s.Require().NoError(err) s.Require().NotNil(response) s.Require().Len(response.Channels, 2) // Both, viewOnly and viewAndPost permissions exist on channel1 and channel2 // and are satisfied // channel1 s.Require().True(response.Channels[chatID1].ViewOnlyPermissions.Satisfied) s.Require().Len(response.Channels[chatID1].ViewOnlyPermissions.Permissions, 1) s.Require().Len(response.Channels[chatID1].ViewOnlyPermissions.Permissions[viewOnlyPermissionID].Criteria, 1) s.Require().True(response.Channels[chatID1].ViewOnlyPermissions.Permissions[viewOnlyPermissionID].Criteria[0]) s.Require().True(response.Channels[chatID1].ViewAndPostPermissions.Satisfied) s.Require().Len(response.Channels[chatID1].ViewAndPostPermissions.Permissions, 1) s.Require().Len(response.Channels[chatID1].ViewAndPostPermissions.Permissions[viewAndPostPermissionID].Criteria, 1) s.Require().True(response.Channels[chatID1].ViewAndPostPermissions.Permissions[viewAndPostPermissionID].Criteria[0]) // channel2 s.Require().True(response.Channels[chatID2].ViewOnlyPermissions.Satisfied) s.Require().Len(response.Channels[chatID2].ViewOnlyPermissions.Permissions, 1) s.Require().Len(response.Channels[chatID2].ViewOnlyPermissions.Permissions[viewOnlyPermissionID].Criteria, 1) s.Require().True(response.Channels[chatID2].ViewOnlyPermissions.Permissions[viewOnlyPermissionID].Criteria[0]) s.Require().True(response.Channels[chatID2].ViewAndPostPermissions.Satisfied) s.Require().Len(response.Channels[chatID2].ViewAndPostPermissions.Permissions, 1) s.Require().Len(response.Channels[chatID2].ViewAndPostPermissions.Permissions[viewAndPostPermissionID].Criteria, 1) s.Require().True(response.Channels[chatID2].ViewAndPostPermissions.Permissions[viewAndPostPermissionID].Criteria[0]) // next, delete viewOnly permission so we can check the viewAndPost permission-only case deleteViewOnlyPermission := &requests.DeleteCommunityTokenPermission{ CommunityID: community.ID(), PermissionID: viewOnlyPermissionID, } _, _, err = m.DeleteCommunityTokenPermission(deleteViewOnlyPermission) s.Require().NoError(err) response, err = m.CheckAllChannelsPermissions(community.ID(), []gethcommon.Address{ gethcommon.HexToAddress("0xD6b912e09E797D291E8D0eA3D3D17F8000e01c32"), }) s.Require().NoError(err) s.Require().NotNil(response) s.Require().Len(response.Channels, 2) // Both, channel1 and channel2 now have viewAndPost only permissions that should // be satisfied, there's no viewOnly permission anymore the response should mark it // as satisfied as well // channel1 s.Require().True(response.Channels[chatID1].ViewAndPostPermissions.Satisfied) s.Require().Len(response.Channels[chatID1].ViewAndPostPermissions.Permissions, 1) s.Require().Len(response.Channels[chatID1].ViewAndPostPermissions.Permissions[viewAndPostPermissionID].Criteria, 1) s.Require().True(response.Channels[chatID1].ViewAndPostPermissions.Permissions[viewAndPostPermissionID].Criteria[0]) s.Require().True(response.Channels[chatID1].ViewOnlyPermissions.Satisfied) s.Require().Len(response.Channels[chatID1].ViewOnlyPermissions.Permissions, 0) // channel2 s.Require().True(response.Channels[chatID2].ViewAndPostPermissions.Satisfied) s.Require().Len(response.Channels[chatID2].ViewAndPostPermissions.Permissions, 1) s.Require().Len(response.Channels[chatID2].ViewAndPostPermissions.Permissions[viewAndPostPermissionID].Criteria, 1) s.Require().True(response.Channels[chatID2].ViewAndPostPermissions.Permissions[viewAndPostPermissionID].Criteria[0]) s.Require().True(response.Channels[chatID2].ViewOnlyPermissions.Satisfied) s.Require().Len(response.Channels[chatID2].ViewOnlyPermissions.Permissions, 0) // now change balance such that viewAndPost permission is no longer satisfied tm.setResponse(chainID, accountChainIDsCombination[0].Address, gethcommon.HexToAddress(contractAddresses[chainID]), 0) response, err = m.CheckAllChannelsPermissions(community.ID(), []gethcommon.Address{ gethcommon.HexToAddress("0xD6b912e09E797D291E8D0eA3D3D17F8000e01c32"), }) s.Require().NoError(err) s.Require().NotNil(response) s.Require().Len(response.Channels, 2) // because viewAndPost permission is not satisfied and there are no viewOnly permissions // on the channels, the response should mark the viewOnly permissions as not satisfied as well // channel1 s.Require().False(response.Channels[chatID1].ViewAndPostPermissions.Satisfied) s.Require().Len(response.Channels[chatID1].ViewAndPostPermissions.Permissions, 1) s.Require().Len(response.Channels[chatID1].ViewAndPostPermissions.Permissions[viewAndPostPermissionID].Criteria, 1) s.Require().False(response.Channels[chatID1].ViewAndPostPermissions.Permissions[viewAndPostPermissionID].Criteria[0]) s.Require().False(response.Channels[chatID1].ViewOnlyPermissions.Satisfied) s.Require().Len(response.Channels[chatID1].ViewOnlyPermissions.Permissions, 0) // channel2 s.Require().False(response.Channels[chatID2].ViewAndPostPermissions.Satisfied) s.Require().Len(response.Channels[chatID2].ViewAndPostPermissions.Permissions, 1) s.Require().Len(response.Channels[chatID2].ViewAndPostPermissions.Permissions[viewAndPostPermissionID].Criteria, 1) s.Require().False(response.Channels[chatID2].ViewAndPostPermissions.Permissions[viewAndPostPermissionID].Criteria[0]) s.Require().False(response.Channels[chatID2].ViewOnlyPermissions.Satisfied) s.Require().Len(response.Channels[chatID2].ViewOnlyPermissions.Permissions, 0) } func buildTorrentConfig() *params.TorrentConfig { return ¶ms.TorrentConfig{ Enabled: true, DataDir: os.TempDir() + "/archivedata", TorrentDir: os.TempDir() + "/torrents", Port: 0, } } func buildMessage(timestamp time.Time, topic types.TopicType, hash []byte) types.Message { message := types.Message{ Sig: []byte{1}, Timestamp: uint32(timestamp.Unix()), Topic: topic, Payload: []byte{1}, Padding: []byte{1}, Hash: hash, } return message } func (s *ManagerSuite) buildCommunityWithChat() (*Community, string, error) { createRequest := &requests.CreateCommunity{ Name: "status", Description: "status community description", Membership: protobuf.CommunityPermissions_AUTO_ACCEPT, } community, err := s.manager.CreateCommunity(createRequest, true) if err != nil { return nil, "", err } chat := &protobuf.CommunityChat{ Identity: &protobuf.ChatIdentity{ DisplayName: "added-chat", Description: "description", }, Permissions: &protobuf.CommunityPermissions{ Access: protobuf.CommunityPermissions_AUTO_ACCEPT, }, Members: make(map[string]*protobuf.CommunityMember), } changes, err := s.manager.CreateChat(community.ID(), chat, true, "") if err != nil { return nil, "", err } chatID := "" for cID := range changes.ChatsAdded { chatID = cID break } return community, chatID, nil } type testOwnerVerifier struct { called int ownersMap map[string]string } func (t *testOwnerVerifier) SafeGetSignerPubKey(ctx context.Context, chainID uint64, communityID string) (string, error) { t.called++ return t.ownersMap[communityID], nil } func (s *ManagerSuite) TestCommunityQueue() { owner, err := crypto.GenerateKey() s.Require().NoError(err) verifier := &testOwnerVerifier{} m, _ := s.buildManagers(verifier) createRequest := &requests.CreateCommunity{ Name: "status", Description: "status community description", Membership: protobuf.CommunityPermissions_AUTO_ACCEPT, } community, err := s.manager.CreateCommunity(createRequest, true) s.Require().NoError(err) // set verifier public key verifier.ownersMap = make(map[string]string) verifier.ownersMap[community.IDString()] = common.PubkeyToHex(&owner.PublicKey) description := community.config.CommunityDescription // safety check s.Require().Equal(uint64(0), CommunityDescriptionTokenOwnerChainID(description)) // set up permissions description.TokenPermissions = make(map[string]*protobuf.CommunityTokenPermission) description.TokenPermissions["some-id"] = &protobuf.CommunityTokenPermission{ Type: protobuf.CommunityTokenPermission_BECOME_TOKEN_OWNER, Id: "some-token-id", TokenCriteria: []*protobuf.TokenCriteria{ &protobuf.TokenCriteria{ ContractAddresses: map[uint64]string{ 2: "some-address", }, }, }} // Should have now a token owner s.Require().Equal(uint64(2), CommunityDescriptionTokenOwnerChainID(description)) payload, err := community.MarshaledDescription() s.Require().NoError(err) payload, err = v1.WrapMessageV1(payload, protobuf.ApplicationMetadataMessage_COMMUNITY_DESCRIPTION, owner) s.Require().NoError(err) // Create a signer, that is not the owner notTheOwner, err := crypto.GenerateKey() s.Require().NoError(err) subscription := m.Subscribe() response, err := m.HandleCommunityDescriptionMessage(¬TheOwner.PublicKey, description, payload, nil, nil) s.Require().NoError(err) // No response, as it should be queued s.Require().Nil(response) published := false for !published { select { case event := <-subscription: if event.TokenCommunityValidated == nil { continue } published = true case <-time.After(2 * time.Second): s.FailNow("no subscription") } } // Check it's not called multiple times s.Require().Equal(1, verifier.called) // Cleans up the communities to validate communitiesToValidate, err := m.persistence.getCommunitiesToValidate() s.Require().NoError(err) s.Require().Empty(communitiesToValidate) } // 1) We create a community // 2) We have 2 owners, but only new owner is returned by the contract // 3) We receive the old owner community first // 4) We receive the new owner community second // 5) We start the queue // 6) We should only process 4, and ignore anything else if that is successful, as that's the most recent func (s *ManagerSuite) TestCommunityQueueMultipleDifferentSigners() { newOwner, err := crypto.GenerateKey() s.Require().NoError(err) oldOwner, err := crypto.GenerateKey() s.Require().NoError(err) verifier := &testOwnerVerifier{} m, _ := s.buildManagers(verifier) createRequest := &requests.CreateCommunity{ Name: "status", Description: "status community description", Membership: protobuf.CommunityPermissions_AUTO_ACCEPT, } community, err := s.manager.CreateCommunity(createRequest, true) s.Require().NoError(err) // set verifier public key verifier.ownersMap = make(map[string]string) verifier.ownersMap[community.IDString()] = common.PubkeyToHex(&newOwner.PublicKey) description := community.config.CommunityDescription // safety check s.Require().Equal(uint64(0), CommunityDescriptionTokenOwnerChainID(description)) // set up permissions description.TokenPermissions = make(map[string]*protobuf.CommunityTokenPermission) description.TokenPermissions["some-id"] = &protobuf.CommunityTokenPermission{ Type: protobuf.CommunityTokenPermission_BECOME_TOKEN_OWNER, Id: "some-token-id", TokenCriteria: []*protobuf.TokenCriteria{ &protobuf.TokenCriteria{ ContractAddresses: map[uint64]string{ 2: "some-address", }, }, }} // Should have now a token owner s.Require().Equal(uint64(2), CommunityDescriptionTokenOwnerChainID(description)) // We nil owner verifier so that messages won't be processed m.ownerVerifier = nil // Send message from old owner first payload, err := community.MarshaledDescription() s.Require().NoError(err) payload, err = v1.WrapMessageV1(payload, protobuf.ApplicationMetadataMessage_COMMUNITY_DESCRIPTION, oldOwner) s.Require().NoError(err) subscription := m.Subscribe() response, err := m.HandleCommunityDescriptionMessage(&oldOwner.PublicKey, description, payload, nil, nil) s.Require().NoError(err) // No response, as it should be queued s.Require().Nil(response) // Send message from new owner now community.config.CommunityDescription.Clock++ clock2 := community.config.CommunityDescription.Clock payload, err = community.MarshaledDescription() s.Require().NoError(err) payload, err = v1.WrapMessageV1(payload, protobuf.ApplicationMetadataMessage_COMMUNITY_DESCRIPTION, newOwner) s.Require().NoError(err) response, err = m.HandleCommunityDescriptionMessage(&newOwner.PublicKey, description, payload, nil, nil) s.Require().NoError(err) // No response, as it should be queued s.Require().Nil(response) count, err := m.persistence.getCommunitiesToValidateCount() s.Require().NoError(err) s.Require().Equal(2, count) communitiesToValidate, err := m.persistence.getCommunitiesToValidate() s.Require().NoError(err) s.Require().NotNil(communitiesToValidate) s.Require().NotNil(communitiesToValidate[community.IDString()]) s.Require().Len(communitiesToValidate[community.IDString()], 2) // We set owner verifier so that we start processing the queue m.ownerVerifier = verifier published := false for !published { select { case event := <-subscription: if event.TokenCommunityValidated == nil { continue } published = true case <-time.After(2 * time.Second): s.FailNow("no subscription") } } // Check it's not called multiple times, since we should be checking newest first s.Require().Equal(1, verifier.called) // Cleans up the communities to validate communitiesToValidate, err = m.persistence.getCommunitiesToValidate() s.Require().NoError(err) s.Require().Empty(communitiesToValidate) // Check clock of community is of the last community description fetchedCommunity, err := m.GetByID(community.ID()) s.Require().NoError(err) s.Require().Equal(clock2, fetchedCommunity.config.CommunityDescription.Clock) } // 1) We create a community // 2) We have 2 owners, but only old owner is returned by the contract // 3) We receive the old owner community first // 4) We receive the new owner community second (that could be a malicious user) // 5) We start the queue // 6) We should process both, but ignore the last community description func (s *ManagerSuite) TestCommunityQueueMultipleDifferentSignersIgnoreIfNotReturned() { newOwner, err := crypto.GenerateKey() s.Require().NoError(err) oldOwner, err := crypto.GenerateKey() s.Require().NoError(err) verifier := &testOwnerVerifier{} m, _ := s.buildManagers(verifier) createRequest := &requests.CreateCommunity{ Name: "status", Description: "status community description", Membership: protobuf.CommunityPermissions_AUTO_ACCEPT, } community, err := s.manager.CreateCommunity(createRequest, true) s.Require().NoError(err) // set verifier public key verifier.ownersMap = make(map[string]string) verifier.ownersMap[community.IDString()] = common.PubkeyToHex(&oldOwner.PublicKey) description := community.config.CommunityDescription // safety check s.Require().Equal(uint64(0), CommunityDescriptionTokenOwnerChainID(description)) // set up permissions description.TokenPermissions = make(map[string]*protobuf.CommunityTokenPermission) description.TokenPermissions["some-id"] = &protobuf.CommunityTokenPermission{ Type: protobuf.CommunityTokenPermission_BECOME_TOKEN_OWNER, Id: "some-token-id", TokenCriteria: []*protobuf.TokenCriteria{ &protobuf.TokenCriteria{ ContractAddresses: map[uint64]string{ 2: "some-address", }, }, }} // Should have now a token owner s.Require().Equal(uint64(2), CommunityDescriptionTokenOwnerChainID(description)) // We nil owner verifier so that messages won't be processed m.ownerVerifier = nil clock1 := community.config.CommunityDescription.Clock // Send message from old owner first payload, err := community.MarshaledDescription() s.Require().NoError(err) payload, err = v1.WrapMessageV1(payload, protobuf.ApplicationMetadataMessage_COMMUNITY_DESCRIPTION, oldOwner) s.Require().NoError(err) subscription := m.Subscribe() response, err := m.HandleCommunityDescriptionMessage(&oldOwner.PublicKey, description, payload, nil, nil) s.Require().NoError(err) // No response, as it should be queued s.Require().Nil(response) // Send message from new owner now community.config.CommunityDescription.Clock++ payload, err = community.MarshaledDescription() s.Require().NoError(err) payload, err = v1.WrapMessageV1(payload, protobuf.ApplicationMetadataMessage_COMMUNITY_DESCRIPTION, newOwner) s.Require().NoError(err) response, err = m.HandleCommunityDescriptionMessage(&newOwner.PublicKey, description, payload, nil, nil) s.Require().NoError(err) // No response, as it should be queued s.Require().Nil(response) count, err := m.persistence.getCommunitiesToValidateCount() s.Require().NoError(err) s.Require().Equal(2, count) communitiesToValidate, err := m.persistence.getCommunitiesToValidate() s.Require().NoError(err) s.Require().NotNil(communitiesToValidate) s.Require().NotNil(communitiesToValidate[community.IDString()]) s.Require().Len(communitiesToValidate[community.IDString()], 2) // We set owner verifier so that we start processing the queue m.ownerVerifier = verifier published := false for !published { select { case event := <-subscription: if event.TokenCommunityValidated == nil { continue } published = true case <-time.After(2 * time.Second): s.FailNow("no subscription") } } // Check it's not called multiple times, since we should be checking newest first s.Require().Equal(2, verifier.called) // Cleans up the communities to validate communitiesToValidate, err = m.persistence.getCommunitiesToValidate() s.Require().NoError(err) s.Require().Empty(communitiesToValidate) // Check clock of community is of the first community description fetchedCommunity, err := m.GetByID(community.ID()) s.Require().NoError(err) s.Require().Equal(clock1, fetchedCommunity.config.CommunityDescription.Clock) } func (s *ManagerSuite) TestFillMissingCommunityTokens() { // Create community request := &requests.CreateCommunity{ Name: "status", Description: "token membership description", Membership: protobuf.CommunityPermissions_AUTO_ACCEPT, } community, err := s.manager.CreateCommunity(request, true) s.Require().NoError(err) s.Require().NotNil(community) s.Require().Len(community.CommunityTokensMetadata(), 0) // Create community token but without adding to the description token := community_token.CommunityToken{ TokenType: protobuf.CommunityTokenType_ERC721, CommunityID: community.IDString(), Address: "0x001", Name: "TestTok", Symbol: "TST", Description: "Desc", Supply: &bigint.BigInt{Int: big.NewInt(0)}, InfiniteSupply: true, Transferable: true, RemoteSelfDestruct: true, ChainID: 1, DeployState: community_token.Deployed, Base64Image: "", Decimals: 18, Deployer: "0x0002", PrivilegesLevel: community_token.CommunityLevel, } err = s.manager.persistence.AddCommunityToken(&token) s.Require().NoError(err) // Fill community with missing token err = s.manager.fillMissingCommunityTokens() s.Require().NoError(err) community, err = s.manager.GetByID(community.ID()) s.Require().NoError(err) s.Require().Len(community.CommunityTokensMetadata(), 1) } func (s *ManagerSuite) TestDetermineChannelsForHRKeysRequest() { request := &requests.CreateCommunity{ Name: "status", Description: "token membership description", Membership: protobuf.CommunityPermissions_AUTO_ACCEPT, } community, err := s.manager.CreateCommunity(request, true) s.Require().NoError(err) s.Require().NotNil(community) channel := &protobuf.CommunityChat{ Members: map[string]*protobuf.CommunityMember{ common.PubkeyToHex(&s.manager.identity.PublicKey): {}, }, } description := community.config.CommunityDescription description.Chats = map[string]*protobuf.CommunityChat{} description.Chats["channel-id"] = channel // Simulate channel encrypted _, err = community.UpsertTokenPermission(&protobuf.CommunityTokenPermission{ ChatIds: []string{ChatID(community.IDString(), "channel-id")}, }) s.Require().NoError(err) err = generateBloomFiltersForChannels(description, s.manager.identity) s.Require().NoError(err) now := int64(1) tenMinutes := int64(10 * 60 * 1000) // Member does not have missing encryption keys channels, err := s.manager.determineChannelsForHRKeysRequest(community, now) s.Require().NoError(err) s.Require().Empty(channels) // Simulate missing encryption key channel.Members = map[string]*protobuf.CommunityMember{} // Channel without prior request should be returned channels, err = s.manager.determineChannelsForHRKeysRequest(community, now) s.Require().NoError(err) s.Require().Len(channels, 1) s.Require().Equal("channel-id", channels[0]) // Simulate encryption keys request err = s.manager.updateEncryptionKeysRequests(community.ID(), []string{"channel-id"}, now) s.Require().NoError(err) // Channel with prior request should not be returned before backoff interval channels, err = s.manager.determineChannelsForHRKeysRequest(community, now) s.Require().NoError(err) s.Require().Len(channels, 0) // Channel with prior request should be returned only after backoff interval channels, err = s.manager.determineChannelsForHRKeysRequest(community, now+tenMinutes) s.Require().NoError(err) s.Require().Len(channels, 1) s.Require().Equal("channel-id", channels[0]) // Simulate multiple encryption keys request err = s.manager.updateEncryptionKeysRequests(community.ID(), []string{"channel-id"}, now+tenMinutes) s.Require().NoError(err) err = s.manager.updateEncryptionKeysRequests(community.ID(), []string{"channel-id"}, now+2*tenMinutes) s.Require().NoError(err) // Channel with prior request should not be returned before backoff interval channels, err = s.manager.determineChannelsForHRKeysRequest(community, now+2*tenMinutes) s.Require().NoError(err) s.Require().Len(channels, 0) // Channel with prior request should be returned only after backoff interval channels, err = s.manager.determineChannelsForHRKeysRequest(community, now+6*tenMinutes) s.Require().NoError(err) s.Require().Len(channels, 1) s.Require().Equal("channel-id", channels[0]) // Simulate encryption key being received (it will remove request for given channel) err = s.manager.updateEncryptionKeysRequests(community.ID(), []string{}, now) s.Require().NoError(err) // Channel without prior request should be returned channels, err = s.manager.determineChannelsForHRKeysRequest(community, now) s.Require().NoError(err) s.Require().Len(channels, 1) s.Require().Equal("channel-id", channels[0]) } // Covers solution for: https://github.com/status-im/status-desktop/issues/16226 func (s *ManagerSuite) TestCommunityIDIsHydratedWhenMarshaling() { request := &requests.CreateCommunity{ Name: "status", Description: "description", Membership: protobuf.CommunityPermissions_AUTO_ACCEPT, } community, err := s.manager.CreateCommunity(request, true) s.Require().NoError(err) s.Require().NotNil(community) // Simulate legacy community that wasn't aware of ID field in `CommunityDescription` protobuf community.config.CommunityDescription.ID = "" // The fix is applied when community is marshaled, effectively hydrating empty ID err = s.manager.SaveCommunity(community) s.Require().NoError(err) community, err = s.manager.GetByID(community.ID()) s.Require().NoError(err) s.Require().Equal(community.IDString(), community.config.CommunityDescription.ID) }