/*
This file is part of Telegram Desktop,
the official desktop application for the Telegram messaging service.
For license and copyright information please follow this link:
https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL
*/
#pragma once
#include "core/single_timer.h"
#include "mtproto/rpc_sender.h"
namespace MTP {
class Instance;
class AuthKey;
using AuthKeyPtr = std::shared_ptr<AuthKey>;
namespace internal {
class Dcenter;
class Connection;
class ReceivedMsgIds {
public:
bool registerMsgId(mtpMsgId msgId, bool needAck) {
auto i = _idsNeedAck.constFind(msgId);
if (i == _idsNeedAck.cend()) {
if (_idsNeedAck.size() < MTPIdsBufferSize || msgId > min()) {
_idsNeedAck.insert(msgId, needAck);
return true;
}
MTP_LOG(-1, ("No need to handle - %1 < min = %2").arg(msgId).arg(min()));
} else {
MTP_LOG(-1, ("No need to handle - %1 already is in map").arg(msgId));
}
return false;
}
mtpMsgId min() const {
return _idsNeedAck.isEmpty() ? 0 : _idsNeedAck.cbegin().key();
}
mtpMsgId max() const {
auto end = _idsNeedAck.cend();
return _idsNeedAck.isEmpty() ? 0 : (--end).key();
}
void shrink() {
auto size = _idsNeedAck.size();
while (size-- > MTPIdsBufferSize) {
_idsNeedAck.erase(_idsNeedAck.begin());
}
}
enum class State {
NotFound,
NeedsAck,
NoAckNeeded,
};
State lookup(mtpMsgId msgId) const {
auto i = _idsNeedAck.constFind(msgId);
if (i == _idsNeedAck.cend()) {
return State::NotFound;
}
return i.value() ? State::NeedsAck : State::NoAckNeeded;
}
void clear() {
_idsNeedAck.clear();
}
private:
QMap<mtpMsgId, bool> _idsNeedAck;
};
using SerializedMessage = mtpBuffer;
inline bool ResponseNeedsAck(const SerializedMessage &response) {
if (response.size() < 8) {
return false;
}
auto seqNo = *(uint32*)(response.constData() + 6);
return (seqNo & 0x01) ? true : false;
}
struct ConnectionOptions {
ConnectionOptions() = default;
ConnectionOptions(
const QString &systemLangCode,
const QString &cloudLangCode,
const ProxyData &proxy,
bool useIPv4,
bool useIPv6,
bool useHttp,
bool useTcp);
ConnectionOptions(const ConnectionOptions &other) = default;
ConnectionOptions &operator=(const ConnectionOptions &other) = default;
QString systemLangCode;
QString cloudLangCode;
ProxyData proxy;
bool useIPv4 = true;
bool useIPv6 = true;
bool useHttp = true;
bool useTcp = true;
bool inited = false;
};
class Session;
class SessionData {
public:
SessionData(not_null<Session*> creator) : _owner(creator) {
}
void setSession(uint64 session) {
DEBUG_LOG(("MTP Info: setting server_session: %1").arg(session));
QWriteLocker locker(&_lock);
if (_session != session) {
_session = session;
_messagesSent = 0;
}
}
uint64 getSession() const {
QReadLocker locker(&_lock);
return _session;
}
void setConnectionInited(bool inited = true) {
QWriteLocker locker(&_lock);
_options.inited = inited;
}
void notifyConnectionInited(const ConnectionOptions &options);
void applyConnectionOptions(ConnectionOptions options) {
QWriteLocker locker(&_lock);
const auto inited = _options.inited;
_options = options;
_options.inited = inited;
}
ConnectionOptions connectionOptions() const {
QReadLocker locker(&_lock);
return _options;
}
void setSalt(uint64 salt) {
QWriteLocker locker(&_lock);
_salt = salt;
}
uint64 getSalt() const {
QReadLocker locker(&_lock);
return _salt;
}
const AuthKeyPtr &getKey() const {
return _authKey;
}
void setKey(const AuthKeyPtr &key);
bool isCheckedKey() const {
QReadLocker locker(&_lock);
return _keyChecked;
}
void setCheckedKey(bool checked) {
QWriteLocker locker(&_lock);
_keyChecked = checked;
}
not_null<QReadWriteLock*> keyMutex() const;
not_null<QReadWriteLock*> toSendMutex() const {
return &_toSendLock;
}
not_null<QReadWriteLock*> haveSentMutex() const {
return &_haveSentLock;
}
not_null<QReadWriteLock*> toResendMutex() const {
return &_toResendLock;
}
not_null<QReadWriteLock*> wereAckedMutex() const {
return &_wereAckedLock;
}
not_null<QReadWriteLock*> receivedIdsMutex() const {
return &_receivedIdsLock;
}
not_null<QReadWriteLock*> haveReceivedMutex() const {
return &_haveReceivedLock;
}
not_null<QReadWriteLock*> stateRequestMutex() const {
return &_stateRequestLock;
}
mtpPreRequestMap &toSendMap() {
return _toSend;
}
const mtpPreRequestMap &toSendMap() const {
return _toSend;
}
mtpRequestMap &haveSentMap() {
return _haveSent;
}
const mtpRequestMap &haveSentMap() const {
return _haveSent;
}
mtpRequestIdsMap &toResendMap() { // msgId -> requestId, on which toSend: requestId -> request for resended requests
return _toResend;
}
const mtpRequestIdsMap &toResendMap() const {
return _toResend;
}
ReceivedMsgIds &receivedIdsSet() {
return _receivedIds;
}
const ReceivedMsgIds &receivedIdsSet() const {
return _receivedIds;
}
mtpRequestIdsMap &wereAckedMap() {
return _wereAcked;
}
const mtpRequestIdsMap &wereAckedMap() const {
return _wereAcked;
}
QMap<mtpRequestId, SerializedMessage> &haveReceivedResponses() {
return _receivedResponses;
}
const QMap<mtpRequestId, SerializedMessage> &haveReceivedResponses() const {
return _receivedResponses;
}
QList<SerializedMessage> &haveReceivedUpdates() {
return _receivedUpdates;
}
const QList<SerializedMessage> &haveReceivedUpdates() const {
return _receivedUpdates;
}
mtpMsgIdsSet &stateRequestMap() {
return _stateRequest;
}
const mtpMsgIdsSet &stateRequestMap() const {
return _stateRequest;
}
not_null<Session*> owner() {
return _owner;
}
not_null<const Session*> owner() const {
return _owner;
}
uint32 nextRequestSeqNumber(bool needAck = true) {
QWriteLocker locker(&_lock);
auto result = _messagesSent;
_messagesSent += (needAck ? 1 : 0);
return result * 2 + (needAck ? 1 : 0);
}
void clear(Instance *instance);
private:
uint64 _session = 0;
uint64 _salt = 0;
uint32 _messagesSent = 0;
not_null<Session*> _owner;
AuthKeyPtr _authKey;
bool _keyChecked = false;
bool _layerInited = false;
ConnectionOptions _options;
mtpPreRequestMap _toSend; // map of request_id -> request, that is waiting to be sent
mtpRequestMap _haveSent; // map of msg_id -> request, that was sent, msDate = 0 for msgs_state_req (no resend / state req), msDate = 0, seqNo = 0 for containers
mtpRequestIdsMap _toResend; // map of msg_id -> request_id, that request_id -> request lies in toSend and is waiting to be resent
ReceivedMsgIds _receivedIds; // set of received msg_id's, for checking new msg_ids
mtpRequestIdsMap _wereAcked; // map of msg_id -> request_id, this msg_ids already were acked or do not need ack
mtpMsgIdsSet _stateRequest; // set of msg_id's, whose state should be requested
QMap<mtpRequestId, SerializedMessage> _receivedResponses; // map of request_id -> response that should be processed in the main thread
QList<SerializedMessage> _receivedUpdates; // list of updates that should be processed in the main thread
// mutexes
mutable QReadWriteLock _lock;
mutable QReadWriteLock _toSendLock;
mutable QReadWriteLock _haveSentLock;
mutable QReadWriteLock _toResendLock;
mutable QReadWriteLock _receivedIdsLock;
mutable QReadWriteLock _wereAckedLock;
mutable QReadWriteLock _haveReceivedLock;
mutable QReadWriteLock _stateRequestLock;
};
class Session : public QObject {
Q_OBJECT
public:
Session(not_null<Instance*> instance, ShiftedDcId shiftedDcId);
void start();
void restart();
void refreshOptions();
void reInitConnection();
void stop();
void kill();
void unpaused();
ShiftedDcId getDcWithShift() const;
QReadWriteLock *keyMutex() const;
void notifyKeyCreated(AuthKeyPtr &&key);
void destroyKey();
void notifyDcConnectionInited();
void ping();
void cancel(mtpRequestId requestId, mtpMsgId msgId);
int32 requestState(mtpRequestId requestId) const;
int32 getState() const;
QString transport() const;
mtpRequestId send(
mtpRequest &&request,
RPCResponseHandler &&callbacks = {},
TimeMs msCanWait = 0,
bool needsLayer = false,
bool toMainDC = false,
mtpRequestId after = 0);
// Nulls msgId and seqNo in request, if newRequest = true.
void sendPrepared(
const mtpRequest &request,
TimeMs msCanWait = 0,
bool newRequest = true);
~Session();
signals:
void authKeyCreated();
void needToSend();
void needToPing();
void needToRestart();
public slots:
void needToResumeAndSend();
mtpRequestId resend(quint64 msgId, qint64 msCanWait = 0, bool forceContainer = false, bool sendMsgStateInfo = false);
void resendMany(QVector<quint64> msgIds, qint64 msCanWait, bool forceContainer, bool sendMsgStateInfo);
void resendAll(); // after connection restart
void authKeyCreatedForDC();
void connectionWasInitedForDC();
void tryToReceive();
void checkRequestsByTimer();
void onConnectionStateChange(qint32 newState);
void onResetDone();
void sendAnything(qint64 msCanWait = 0);
void sendPong(quint64 msgId, quint64 pingId);
void sendMsgsStateInfo(quint64 msgId, QByteArray data);
private:
void createDcData();
void registerRequest(mtpRequestId requestId, ShiftedDcId dcWithShift);
mtpRequestId storeRequest(
mtpRequest &request,
RPCResponseHandler &&callbacks);
mtpRequest getRequest(mtpRequestId requestId);
bool rpcErrorOccured(mtpRequestId requestId, const RPCFailHandlerPtr &onFail, const RPCError &err);
not_null<Instance*> _instance;
std::unique_ptr<Connection> _connection;
bool _killed = false;
bool _needToReceive = false;
SessionData data;
ShiftedDcId dcWithShift = 0;
std::shared_ptr<Dcenter> dc;
TimeMs msSendCall = 0;
TimeMs msWait = 0;
bool _ping = false;
QTimer timeouter;
SingleTimer sender;
};
inline not_null<QReadWriteLock*> SessionData::keyMutex() const {
return _owner->keyMutex();
}
MTPrpcError rpcClientError(const QString &type, const QString &description = QString());
} // namespace internal
} // namespace MTP