/* * This is the source code of tgnet library v. 1.1 * It is licensed under GNU GPL v. 2 or later. * You should have received a copy of the license in this archive (see LICENSE). * * Copyright Nikolai Kudashov, 2015-2018. */ #ifndef CONNECTIONSMANAGER_H #define CONNECTIONSMANAGER_H #include #include #include #include #include #include #include #include "Defines.h" #ifdef ANDROID #include #endif class NativeByteBuffer; class Connection; class Datacenter; class Request; class DatacenterHandshake; class TLObject; class ConnectionSocket; class TL_auth_exportedAuthorization; class ByteArray; class TL_config; class EventObject; class Config; class ProxyCheckInfo; class ConnectionsManager { public: ConnectionsManager(int32_t instance); ~ConnectionsManager(); static ConnectionsManager &getInstance(int32_t instanceNum); int64_t getCurrentTimeMillis(); int64_t getCurrentTimeMonotonicMillis(); int32_t getCurrentTime(); bool isTestBackend(); int32_t getTimeDifference(); int32_t sendRequest(TLObject *object, onCompleteFunc onComplete, onQuickAckFunc onQuickAck, uint32_t flags, uint32_t datacenterId, ConnectionType connetionType, bool immediate); int32_t sendRequest(TLObject *object, onCompleteFunc onComplete, onQuickAckFunc onQuickAck, uint32_t flags, uint32_t datacenterId, ConnectionType connetionType, bool immediate, int32_t requestToken); void cancelRequest(int32_t token, bool notifyServer); void cleanUp(bool resetKeys); void cancelRequestsForGuid(int32_t guid); void bindRequestToGuid(int32_t requestToken, int32_t guid); void applyDatacenterAddress(uint32_t datacenterId, std::string ipAddress, uint32_t port); void setDatacenterPublicKey(uint32_t datacenterId, std::string publicKey, uint64_t fingerprint); void setDatacenterAddress(uint32_t datacenterId, std::string ipv4Address, std::string ipv6Address,uint32_t port); void setLayer(uint32_t layer); void saveDatacenters(); void setDelegate(ConnectiosManagerDelegate *connectiosManagerDelegate); ConnectionState getConnectionState(); void setUserId(int32_t userId); void switchBackend(); void resumeNetwork(bool partial); void pauseNetwork(); void setNetworkAvailable(bool value, int32_t type, bool slow); void setUseIpv6(bool value); void init(uint32_t version, int32_t layer, int32_t apiId, std::string deviceModel, std::string systemVersion, std::string appVersion, std::string langCode, std::string systemLangCode, std::string configPath, std::string logPath, std::string regId, std::string cFingerprint, int32_t timezoneOffset, int32_t userId, bool isPaused, bool enablePushConnection, bool hasNetwork, int32_t networkType); void setProxySettings(std::string address, uint16_t port, std::string username, std::string password, std::string secret); void setLangCode(std::string langCode); void setRegId(std::string regId); void setSystemLangCode(std::string langCode); void updateDcSettings(uint32_t datacenterId, bool workaround); void setPushConnectionEnabled(bool value); void applyDnsConfig(NativeByteBuffer *buffer, std::string phone, int32_t date); void setMtProtoVersion(int version); int32_t getMtProtoVersion(); int64_t checkProxy(std::string address, uint16_t port, std::string username, std::string password, std::string secret, onRequestTimeFunc requestTimeFunc, jobject ptr1); #ifdef ANDROID void sendRequest(TLObject *object, onCompleteFunc onComplete, onQuickAckFunc onQuickAck, onWriteToSocketFunc onWriteToSocket, uint32_t flags, uint32_t datacenterId, ConnectionType connetionType, bool immediate, int32_t requestToken, jobject ptr1, jobject ptr2, jobject ptr3); static void useJavaVM(JavaVM *vm, bool useJavaByteBuffers); #endif private: static void *ThreadProc(void *data); void initDatacenters(); void loadConfig(); void saveConfig(); void saveConfigInternal(NativeByteBuffer *buffer); void select(); void wakeup(); void processServerResponse(TLObject *message, int64_t messageId, int32_t messageSeqNo, int64_t messageSalt, Connection *connection, int64_t innerMsgId, int64_t containerMessageId); void sendPing(Datacenter *datacenter, bool usePushConnection); void sendMessagesToConnection(std::vector> &messages, Connection *connection, bool reportAck); void sendMessagesToConnectionWithConfirmation(std::vector> &messages, Connection *connection, bool reportAck); void requestSaltsForDatacenter(Datacenter *datacenter, bool media, bool useTempConnection); void clearRequestsForDatacenter(Datacenter *datacenter, HandshakeType type); void registerForInternalPushUpdates(); void processRequestQueue(uint32_t connectionType, uint32_t datacenterId); void moveToDatacenter(uint32_t datacenterId); void authorizeOnMovingDatacenter(); void authorizedOnMovingDatacenter(); Datacenter *getDatacenterWithId(uint32_t datacenterId); std::unique_ptr wrapInLayer(TLObject *object, Datacenter *datacenter, Request *baseRequest); void removeRequestFromGuid(int32_t requestToken); bool cancelRequestInternal(int32_t token, int64_t messageId, bool notifyServer, bool removeFromClass); int callEvents(int64_t now); int32_t sendRequestInternal(TLObject *object, onCompleteFunc onComplete, onQuickAckFunc onQuickAck, uint32_t flags, uint32_t datacenterId, ConnectionType connetionType, bool immediate); void checkPendingTasks(); void scheduleTask(std::function task); void scheduleEvent(EventObject *eventObject, uint32_t time); void removeEvent(EventObject *eventObject); void onConnectionClosed(Connection *connection, int reason); void onConnectionConnected(Connection *connection); void onConnectionQuickAckReceived(Connection *connection, int32_t ack); void onConnectionDataReceived(Connection *connection, NativeByteBuffer *data, uint32_t length); bool hasPendingRequestsForConnection(Connection *connection); void attachConnection(ConnectionSocket *connection); void detachConnection(ConnectionSocket *connection); TLObject *TLdeserialize(TLObject *request, uint32_t bytes, NativeByteBuffer *data); TLObject *getRequestWithMessageId(int64_t messageId); void onDatacenterHandshakeComplete(Datacenter *datacenter, HandshakeType type, int32_t timeDiff); void onDatacenterExportAuthorizationComplete(Datacenter *datacenter); int64_t generateMessageId(); bool isIpv6Enabled(); bool isNetworkAvailable(); void scheduleCheckProxyInternal(ProxyCheckInfo *proxyCheckInfo); void checkProxyInternal(ProxyCheckInfo *proxyCheckInfo); int32_t instanceNum = 0; uint32_t configVersion = 5; Config *config = nullptr; std::list events; std::map datacenters; std::map> quickAckIdToRequestIds; int32_t pingTime; bool testBackend = false; bool clientBlocked = true; std::string lastInitSystemLangcode = ""; std::atomic lastRequestToken{50000000}; uint32_t currentDatacenterId = 0; uint32_t movingToDatacenterId = DEFAULT_DATACENTER_ID; int64_t pushSessionId = 0; int32_t currentPingTime = 0; bool registeringForPush = false; int64_t lastPushPingTime = 0; int32_t nextPingTimeOffset = 60000 * 3; bool sendingPushPing = false; bool sendingPing = false; bool updatingDcSettings = false; bool updatingDcSettingsWorkaround = false; int32_t disconnectTimeoutAmount = 0; bool requestingSecondAddressByTlsHashMismatch = false; int32_t requestingSecondAddress = 0; int32_t updatingDcStartTime = 0; int32_t lastDcUpdateTime = 0; int64_t lastPingTime = getCurrentTimeMonotonicMillis(); bool networkPaused = false; int32_t nextSleepTimeout = CONNECTION_BACKGROUND_KEEP_TIME; int64_t lastPauseTime = 0; int64_t lastMonotonicPauseTime = 0; int32_t lastSystemPauseTime = 0; ConnectionState connectionState = ConnectionStateConnecting; std::unique_ptr movingAuthorization; std::vector sessionsToDestroy; int32_t lastDestroySessionRequestTime; std::map> requestsByGuids; std::map guidsByRequests; std::map resendRequests; Datacenter *deserializingDatacenter; std::string proxyUser = ""; std::string proxyPassword = ""; std::string proxyAddress = ""; std::string proxySecret = ""; uint16_t proxyPort = 1080; int32_t lastPingProxyId = 2000000; std::vector> proxyCheckQueue; std::vector> proxyActiveChecks; pthread_t networkThread; pthread_mutex_t mutex; std::queue> pendingTasks; struct epoll_event *epollEvents; timespec timeSpec; timespec timeSpecMonotonic; int32_t timeDifference = 0; int64_t lastOutgoingMessageId = 0; bool networkAvailable = true; bool networkSlow = false; bool ipv6Enabled = false; std::vector activeConnections; std::vector activeConnectionsCopy; int epolFd; int eventFd; int *pipeFd = nullptr; NativeByteBuffer *networkBuffer; requestsList requestsQueue; requestsList runningRequests; std::vector requestingSaltsForDc; int32_t lastPingId = 0; int32_t currentNetworkType = NETWORK_TYPE_WIFI; uint32_t currentVersion = 1; int32_t currentLayer = 34; int32_t currentApiId = 6; std::string currentDeviceModel; std::string currentSystemVersion; std::string currentAppVersion; std::string currentLangCode; std::string currentRegId; std::string certFingerprint; int32_t currentDeviceTimezone = 0; std::string currentSystemLangCode; std::string currentConfigPath; std::string currentLogPath; int32_t currentUserId = 0; bool registeredForInternalPush = false; bool pushConnectionEnabled = true; int32_t mtProtoVersion = 2; std::map>> genericMessagesToDatacenters; std::map>> genericMediaMessagesToDatacenters; std::map>> tempMessagesToDatacenters; std::vector unknownDatacenterIds; std::vector> neededDatacenters; std::map downloadRunningRequestCount; std::vector unauthorizedDatacenters; NativeByteBuffer *sizeCalculator; ConnectiosManagerDelegate *delegate; friend class ConnectionSocket; friend class ConnectionSession; friend class Connection; friend class Timer; friend class Datacenter; friend class TL_message; friend class TL_rpc_result; friend class Config; friend class FileLog; friend class Handshake; }; #ifdef ANDROID extern JavaVM *javaVm; extern JNIEnv *jniEnv[MAX_ACCOUNT_COUNT]; extern jclass jclass_ByteBuffer; extern jmethodID jclass_ByteBuffer_allocateDirect; #endif #endif