/* This file is part of Telegram Desktop, the official desktop version of Telegram messaging app, see https://telegram.org Telegram Desktop is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. It is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. In addition, as a special exception, the copyright holders give permission to link the code of portions of this program with the OpenSSL library. Full license: https://github.com/telegramdesktop/tdesktop/blob/master/LICENSE Copyright (c) 2014-2017 John Preston, https://desktop.telegram.org */ #include "stdafx.h" #include "mtproto/dc_options.h" namespace MTP { void DcOptions::constructFromBuiltIn() { QWriteLocker lock(&_mutex); _data.clear(); auto bdcs = builtInDcs(); for (auto i = 0, l = builtInDcsCount(); i != l; ++i) { auto flags = MTPDdcOption::Flags(0); auto idWithShift = MTP::shiftDcId(bdcs[i].id, flags); _data.insert(std::make_pair(idWithShift, Option(bdcs[i].id, flags, bdcs[i].ip, bdcs[i].port))); DEBUG_LOG(("MTP Info: adding built in DC %1 connect option: %2:%3").arg(bdcs[i].id).arg(bdcs[i].ip).arg(bdcs[i].port)); } auto bdcsipv6 = builtInDcsIPv6(); for (auto i = 0, l = builtInDcsCountIPv6(); i != l; ++i) { auto flags = MTPDdcOption::Flags(MTPDdcOption::Flag::f_ipv6); auto idWithShift = MTP::shiftDcId(bdcsipv6[i].id, flags); _data.insert(std::make_pair(idWithShift, Option(bdcsipv6[i].id, flags, bdcsipv6[i].ip, bdcsipv6[i].port))); DEBUG_LOG(("MTP Info: adding built in DC %1 IPv6 connect option: %2:%3").arg(bdcsipv6[i].id).arg(bdcsipv6[i].ip).arg(bdcsipv6[i].port)); } } void DcOptions::processFromList(const QVector &options, bool overwrite) { if (options.empty()) { return; } auto idsChanged = std::vector(); idsChanged.reserve(options.size()); auto shiftedIdsProcessed = std::vector(); shiftedIdsProcessed.reserve(options.size()); { QWriteLocker lock(&_mutex); if (overwrite) { idsChanged.reserve(_data.size()); } for (auto &mtpOption : options) { if (mtpOption.type() != mtpc_dcOption) { LOG(("Wrong type in DcOptions: %1").arg(mtpOption.type())); continue; } auto &option = mtpOption.c_dcOption(); auto dcId = option.vid.v; auto flags = option.vflags.v; auto dcIdWithShift = MTP::shiftDcId(dcId, flags); if (base::contains(shiftedIdsProcessed, dcIdWithShift)) { continue; } shiftedIdsProcessed.push_back(dcIdWithShift); auto &ip = option.vip_address.c_string().v; auto port = option.vport.v; if (applyOneGuarded(dcId, flags, ip, port)) { if (!base::contains(idsChanged, dcId)) { idsChanged.push_back(dcId); } } } if (overwrite && shiftedIdsProcessed.size() < _data.size()) { for (auto i = _data.begin(); i != _data.end();) { if (base::contains(shiftedIdsProcessed, i->first)) { ++i; } else { if (!base::contains(idsChanged, i->second.id)) { idsChanged.push_back(i->second.id); } i = _data.erase(i); } } } } if (!idsChanged.empty()) { _changed.notify(std::move(idsChanged)); } } void DcOptions::setFromList(const MTPVector &options) { processFromList(options.c_vector().v, true); } void DcOptions::addFromList(const MTPVector &options) { processFromList(options.c_vector().v, false); } void DcOptions::addFromOther(const DcOptions &options) { if (this == &options) { return; } auto idsChanged = std::vector(); { QReadLocker lock(&options._mutex); if (options._data.empty()) { return; } idsChanged.reserve(options._data.size()); { QWriteLocker lock(&_mutex); for (auto &item : options._data) { auto dcId = item.second.id; auto flags = item.second.flags; auto &ip = item.second.ip; auto port = item.second.port; if (applyOneGuarded(dcId, flags, ip, port)) { if (!base::contains(idsChanged, dcId)) { idsChanged.push_back(dcId); } } } } } if (!idsChanged.empty()) { _changed.notify(std::move(idsChanged)); } } void DcOptions::constructAddOne(int id, MTPDdcOption::Flags flags, const std::string &ip, int port) { QWriteLocker lock(&_mutex); applyOneGuarded(bareDcId(id), flags, ip, port); } bool DcOptions::applyOneGuarded(DcId dcId, MTPDdcOption::Flags flags, const std::string &ip, int port) { auto dcIdWithShift = MTP::shiftDcId(dcId, flags); auto i = _data.find(dcIdWithShift); if (i != _data.cend()) { if (i->second.ip == ip && i->second.port == port) { return false; } i->second.ip = ip; i->second.port = port; } else { _data.insert(std::make_pair(dcIdWithShift, Option(dcId, flags, ip, port))); } return true; } QByteArray DcOptions::serialize() const { QReadLocker lock(&_mutex); auto size = sizeof(qint32); for (auto &item : _data) { size += sizeof(qint32) + sizeof(qint32) + sizeof(qint32); // id + flags + port size += sizeof(qint32) + item.second.ip.size(); } auto result = QByteArray(); result.reserve(size); { QBuffer buffer(&result); if (!buffer.open(QIODevice::WriteOnly)) { LOG(("MTP Error: Can't open data for DcOptions::serialize()")); return result; } QDataStream stream(&buffer); stream.setVersion(QDataStream::Qt_5_1); stream << qint32(_data.size()); for (auto &item : _data) { stream << qint32(item.second.id) << qint32(item.second.flags) << qint32(item.second.port); stream << qint32(item.second.ip.size()); stream.writeRawData(item.second.ip.data(), item.second.ip.size()); } } return result; } void DcOptions::constructFromSerialized(const QByteArray &serialized) { auto readonly = serialized; QBuffer buffer(&readonly); if (!buffer.open(QIODevice::ReadOnly)) { LOG(("MTP Error: Can't open data for DcOptions::setFromSerialized()")); return; } QDataStream stream(&buffer); qint32 count = 0; stream >> count; if (stream.status() != QDataStream::Ok) { LOG(("MTP Error: Bad data for DcOptions::setFromSerialized()")); return; } QWriteLocker lock(&_mutex); _data.clear(); for (auto i = 0; i != count; ++i) { qint32 id = 0, flags = 0, port = 0, ipSize = 0; stream >> id >> flags >> port >> ipSize; std::string ip(ipSize, ' '); stream.readRawData(&ip[0], ipSize); if (stream.status() != QDataStream::Ok) { LOG(("MTP Error: Bad data inside DcOptions::setFromSerialized()")); return; } applyOneGuarded(DcId(id), MTPDdcOption::Flags(flags), ip, port); } } DcOptions::Ids DcOptions::sortedDcIds() const { auto result = Ids(); { QReadLocker lock(&_mutex); result.reserve(_data.size()); for (auto &item : _data) { if (!base::contains(result, item.second.id)) { result.push_back(item.second.id); } } } std::sort(result.begin(), result.end()); return result; } DcId DcOptions::getDefaultDcId() const { auto result = sortedDcIds(); t_assert(!result.empty()); auto main = internal::mainDC(); if (base::contains(result, main)) { return main; } return result[0]; } DcOptions::Variants DcOptions::lookup(DcId dcId, DcType type) const { auto isMediaDownload = (type == DcType::MediaDownload); int shifts[2][2][4] = { { // IPv4 { // TCP IPv4 isMediaDownload ? (MTPDdcOption::Flag::f_media_only | MTPDdcOption::Flag::f_tcpo_only) : -1, qFlags(MTPDdcOption::Flag::f_tcpo_only), isMediaDownload ? qFlags(MTPDdcOption::Flag::f_media_only) : -1, 0 }, { // HTTP IPv4 -1, -1, isMediaDownload ? qFlags(MTPDdcOption::Flag::f_media_only) : -1, 0 }, }, { // IPv6 { // TCP IPv6 isMediaDownload ? (MTPDdcOption::Flag::f_media_only | MTPDdcOption::Flag::f_tcpo_only | MTPDdcOption::Flag::f_ipv6) : -1, MTPDdcOption::Flag::f_tcpo_only | MTPDdcOption::Flag::f_ipv6, isMediaDownload ? (MTPDdcOption::Flag::f_media_only | MTPDdcOption::Flag::f_ipv6) : -1, qFlags(MTPDdcOption::Flag::f_ipv6) }, { // HTTP IPv6 -1, -1, isMediaDownload ? (MTPDdcOption::Flag::f_media_only | MTPDdcOption::Flag::f_ipv6) : -1, qFlags(MTPDdcOption::Flag::f_ipv6) }, }, }; auto result = Variants(); { QReadLocker lock(&_mutex); for (auto address = 0; address != Variants::AddressTypeCount; ++address) { for (auto protocol = 0; protocol != Variants::ProtocolCount; ++protocol) { for (auto variant = 0; variant != base::array_size(shifts[address][protocol]); ++variant) { auto shift = shifts[address][protocol][variant]; if (shift < 0) continue; auto it = _data.find(shiftDcId(dcId, shift)); if (it != _data.cend()) { result.data[address][protocol].ip = it->second.ip; result.data[address][protocol].flags = it->second.flags; result.data[address][protocol].port = it->second.port; break; } } } } } return result; } } // namespace MTP