tdesktop/Telegram/SourceFiles/main/main_account.cpp

627 lines
16 KiB
C++

/*
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
*/
#include "main/main_account.h"
#include "base/platform/base_platform_info.h"
#include "core/application.h"
#include "core/shortcuts.h"
#include "storage/storage_account.h"
#include "storage/storage_domain.h" // Storage::StartResult.
#include "storage/serialize_common.h"
#include "storage/serialize_peer.h"
#include "storage/localstorage.h"
#include "data/data_session.h"
#include "data/data_user.h"
#include "data/data_changes.h"
#include "window/window_controller.h"
#include "media/audio/media_audio.h"
#include "mtproto/mtproto_config.h"
#include "mtproto/mtproto_dc_options.h"
#include "mtproto/mtp_instance.h"
#include "ui/image/image.h"
#include "mainwidget.h"
#include "api/api_updates.h"
#include "main/main_app_config.h"
#include "main/main_session.h"
#include "main/main_domain.h"
#include "main/main_session_settings.h"
namespace Main {
namespace {
constexpr auto kWideIdsTag = ~uint64(0);
[[nodiscard]] QString ComposeDataString(const QString &dataName, int index) {
auto result = dataName;
result.replace('#', QString());
if (index > 0) {
result += '#' + QString::number(index + 1);
}
return result;
}
} // namespace
Account::Account(not_null<Domain*> domain, const QString &dataName, int index)
: _domain(domain)
, _local(std::make_unique<Storage::Account>(
this,
ComposeDataString(dataName, index))) {
}
Account::~Account() {
if (const auto session = maybeSession()) {
session->saveSettingsNowIfNeeded();
}
destroySession(DestroyReason::Quitting);
}
Storage::Domain &Account::domainLocal() const {
return _domain->local();
}
[[nodiscard]] Storage::StartResult Account::legacyStart(
const QByteArray &passcode) {
Expects(!_appConfig);
return _local->legacyStart(passcode);
}
std::unique_ptr<MTP::Config> Account::prepareToStart(
std::shared_ptr<MTP::AuthKey> localKey) {
return _local->start(std::move(localKey));
}
void Account::start(std::unique_ptr<MTP::Config> config) {
_appConfig = std::make_unique<AppConfig>(this);
startMtp(config
? std::move(config)
: std::make_unique<MTP::Config>(
Core::App().fallbackProductionConfig()));
_appConfig->start();
watchProxyChanges();
watchSessionChanges();
}
void Account::prepareToStartAdded(
std::shared_ptr<MTP::AuthKey> localKey) {
_local->startAdded(std::move(localKey));
}
void Account::watchProxyChanges() {
using ProxyChange = Core::Application::ProxyChange;
Core::App().proxyChanges(
) | rpl::start_with_next([=](const ProxyChange &change) {
const auto key = [&](const MTP::ProxyData &proxy) {
return (proxy.type == MTP::ProxyData::Type::Mtproto)
? std::make_pair(proxy.host, proxy.port)
: std::make_pair(QString(), uint32(0));
};
if (_mtp) {
_mtp->restart();
if (key(change.was) != key(change.now)) {
_mtp->reInitConnection(_mtp->mainDcId());
}
}
if (_mtpForKeysDestroy) {
_mtpForKeysDestroy->restart();
}
}, _lifetime);
}
void Account::watchSessionChanges() {
sessionChanges(
) | rpl::start_with_next([=](Session *session) {
if (!session && _mtp) {
_mtp->setUserPhone(QString());
}
}, _lifetime);
}
uint64 Account::willHaveSessionUniqueId(MTP::Config *config) const {
// See also Session::uniqueId.
if (!_sessionUserId) {
return 0;
}
return _sessionUserId.bare
| (config && config->isTestMode() ? 0x0100'0000'0000'0000ULL : 0ULL);
}
void Account::createSession(
const MTPUser &user,
std::unique_ptr<SessionSettings> settings) {
createSession(
user,
QByteArray(),
0,
settings ? std::move(settings) : std::make_unique<SessionSettings>());
}
void Account::createSession(
UserId id,
QByteArray serialized,
int streamVersion,
std::unique_ptr<SessionSettings> settings) {
DEBUG_LOG(("sessionUserSerialized.size: %1").arg(serialized.size()));
QDataStream peekStream(serialized);
const auto phone = Serialize::peekUserPhone(streamVersion, peekStream);
const auto flags = MTPDuser::Flag::f_self | (phone.isEmpty()
? MTPDuser::Flag()
: MTPDuser::Flag::f_phone);
createSession(
MTP_user(
MTP_flags(flags),
MTP_long(base::take(_sessionUserId).bare),
MTPlong(), // access_hash
MTPstring(), // first_name
MTPstring(), // last_name
MTPstring(), // username
MTP_string(phone),
MTPUserProfilePhoto(),
MTPUserStatus(),
MTPint(), // bot_info_version
MTPVector<MTPRestrictionReason>(),
MTPstring(), // bot_inline_placeholder
MTPstring(), // lang_code
MTPEmojiStatus(),
MTPVector<MTPUsername>()),
serialized,
streamVersion,
std::move(settings));
}
void Account::createSession(
const MTPUser &user,
QByteArray serialized,
int streamVersion,
std::unique_ptr<SessionSettings> settings) {
Expects(_mtp != nullptr);
Expects(_session == nullptr);
Expects(_sessionValue.current() == nullptr);
_session = std::make_unique<Session>(this, user, std::move(settings));
if (!serialized.isEmpty()) {
local().readSelf(_session.get(), serialized, streamVersion);
}
_sessionValue = _session.get();
Ensures(_session != nullptr);
}
void Account::destroySession(DestroyReason reason) {
_storedSessionSettings.reset();
_sessionUserId = 0;
_sessionUserSerialized = {};
if (!sessionExists()) {
return;
}
_sessionValue = nullptr;
if (reason == DestroyReason::LoggedOut) {
_session->finishLogout();
}
_session = nullptr;
}
bool Account::sessionExists() const {
return (_sessionValue.current() != nullptr);
}
Session &Account::session() const {
Expects(sessionExists());
return *_sessionValue.current();
}
Session *Account::maybeSession() const {
return _sessionValue.current();
}
rpl::producer<Session*> Account::sessionValue() const {
return _sessionValue.value();
}
rpl::producer<Session*> Account::sessionChanges() const {
return _sessionValue.changes();
}
rpl::producer<not_null<MTP::Instance*>> Account::mtpValue() const {
return _mtpValue.value() | rpl::map([](MTP::Instance *instance) {
return not_null{ instance };
});
}
rpl::producer<not_null<MTP::Instance*>> Account::mtpMainSessionValue() const {
return mtpValue() | rpl::map([=](not_null<MTP::Instance*> instance) {
return instance->mainDcIdValue() | rpl::map_to(instance);
}) | rpl::flatten_latest();
}
rpl::producer<MTPUpdates> Account::mtpUpdates() const {
return _mtpUpdates.events();
}
rpl::producer<> Account::mtpNewSessionCreated() const {
return _mtpNewSessionCreated.events();
}
void Account::setMtpMainDcId(MTP::DcId mainDcId) {
Expects(!_mtp);
_mtpFields.mainDcId = mainDcId;
}
void Account::setLegacyMtpKey(std::shared_ptr<MTP::AuthKey> key) {
Expects(!_mtp);
Expects(key != nullptr);
_mtpFields.keys.push_back(std::move(key));
}
QByteArray Account::serializeMtpAuthorization() const {
const auto serialize = [&](
MTP::DcId mainDcId,
const MTP::AuthKeysList &keys,
const MTP::AuthKeysList &keysToDestroy) {
const auto keysSize = [](auto &list) {
const auto keyDataSize = MTP::AuthKey::Data().size();
return sizeof(qint32)
+ list.size() * (sizeof(qint32) + keyDataSize);
};
const auto writeKeys = [](
QDataStream &stream,
const MTP::AuthKeysList &keys) {
stream << qint32(keys.size());
for (const auto &key : keys) {
stream << qint32(key->dcId());
key->write(stream);
}
};
auto result = QByteArray();
// wide tag + userId + mainDcId
auto size = 2 * sizeof(quint64) + sizeof(qint32);
size += keysSize(keys) + keysSize(keysToDestroy);
result.reserve(size);
{
QDataStream stream(&result, QIODevice::WriteOnly);
stream.setVersion(QDataStream::Qt_5_1);
const auto currentUserId = sessionExists()
? session().userId()
: UserId();
stream
<< quint64(kWideIdsTag)
<< quint64(currentUserId.bare)
<< qint32(mainDcId);
writeKeys(stream, keys);
writeKeys(stream, keysToDestroy);
DEBUG_LOG(("MTP Info: Keys written, userId: %1, dcId: %2"
).arg(currentUserId.bare
).arg(mainDcId));
}
return result;
};
if (_mtp) {
const auto keys = _mtp->getKeysForWrite();
const auto keysToDestroy = _mtpForKeysDestroy
? _mtpForKeysDestroy->getKeysForWrite()
: MTP::AuthKeysList();
return serialize(_mtp->mainDcId(), keys, keysToDestroy);
}
const auto &keys = _mtpFields.keys;
const auto &keysToDestroy = _mtpKeysToDestroy;
return serialize(_mtpFields.mainDcId, keys, keysToDestroy);
}
void Account::setSessionUserId(UserId userId) {
Expects(!sessionExists());
_sessionUserId = userId;
}
void Account::setSessionFromStorage(
std::unique_ptr<SessionSettings> data,
QByteArray &&selfSerialized,
int32 selfStreamVersion) {
Expects(!sessionExists());
DEBUG_LOG(("sessionUserSerialized set: %1"
).arg(selfSerialized.size()));
_storedSessionSettings = std::move(data);
_sessionUserSerialized = std::move(selfSerialized);
_sessionUserStreamVersion = selfStreamVersion;
}
SessionSettings *Account::getSessionSettings() {
if (_sessionUserId) {
return _storedSessionSettings
? _storedSessionSettings.get()
: nullptr;
} else if (const auto session = maybeSession()) {
return &session->settings();
}
return nullptr;
}
void Account::setMtpAuthorization(const QByteArray &serialized) {
Expects(!_mtp);
QDataStream stream(serialized);
stream.setVersion(QDataStream::Qt_5_1);
auto legacyUserId = Serialize::read<qint32>(stream);
auto legacyMainDcId = Serialize::read<qint32>(stream);
auto userId = quint64();
auto mainDcId = qint32();
if (((uint64(legacyUserId) << 32) | uint64(legacyMainDcId))
== kWideIdsTag) {
userId = Serialize::read<quint64>(stream);
mainDcId = Serialize::read<qint32>(stream);
} else {
userId = legacyUserId;
mainDcId = legacyMainDcId;
}
if (stream.status() != QDataStream::Ok) {
LOG(("MTP Error: "
"Could not read main fields from mtp authorization."));
return;
}
setSessionUserId(userId);
_mtpFields.mainDcId = mainDcId;
const auto readKeys = [&](auto &keys) {
const auto count = Serialize::read<qint32>(stream);
if (stream.status() != QDataStream::Ok) {
LOG(("MTP Error: "
"Could not read keys count from mtp authorization."));
return;
}
keys.reserve(count);
for (auto i = 0; i != count; ++i) {
const auto dcId = Serialize::read<qint32>(stream);
const auto keyData = Serialize::read<MTP::AuthKey::Data>(stream);
if (stream.status() != QDataStream::Ok) {
LOG(("MTP Error: "
"Could not read key from mtp authorization."));
return;
}
keys.push_back(std::make_shared<MTP::AuthKey>(MTP::AuthKey::Type::ReadFromFile, dcId, keyData));
}
};
readKeys(_mtpFields.keys);
readKeys(_mtpKeysToDestroy);
LOG(("MTP Info: "
"read keys, current: %1, to destroy: %2"
).arg(_mtpFields.keys.size()
).arg(_mtpKeysToDestroy.size()));
}
void Account::startMtp(std::unique_ptr<MTP::Config> config) {
Expects(!_mtp);
auto fields = base::take(_mtpFields);
fields.config = std::move(config);
fields.deviceModel = Platform::DeviceModelPretty();
fields.systemVersion = Platform::SystemVersionPretty();
_mtp = std::make_unique<MTP::Instance>(
MTP::Instance::Mode::Normal,
std::move(fields));
const auto writingKeys = _mtp->lifetime().make_state<bool>(false);
_mtp->writeKeysRequests(
) | rpl::filter([=] {
return !*writingKeys;
}) | rpl::start_with_next([=] {
*writingKeys = true;
Ui::PostponeCall(_mtp.get(), [=] {
local().writeMtpData();
*writingKeys = false;
});
}, _mtp->lifetime());
const auto writingConfig = _lifetime.make_state<bool>(false);
rpl::merge(
_mtp->config().updates(),
_mtp->dcOptions().changed() | rpl::to_empty
) | rpl::filter([=] {
return !*writingConfig;
}) | rpl::start_with_next([=] {
*writingConfig = true;
Ui::PostponeCall(_mtp.get(), [=] {
local().writeMtpConfig();
*writingConfig = false;
});
}, _lifetime);
_mtpFields.mainDcId = _mtp->mainDcId();
_mtp->setUpdatesHandler([=](const MTP::Response &message) {
checkForUpdates(message) || checkForNewSession(message);
});
_mtp->setGlobalFailHandler([=](const MTP::Error &, const MTP::Response &) {
if (const auto session = maybeSession()) {
crl::on_main(session, [=] { logOut(); });
}
});
_mtp->setStateChangedHandler([=](MTP::ShiftedDcId dc, int32 state) {
if (dc == _mtp->mainDcId()) {
Core::App().settings().proxy().connectionTypeChangesNotify();
}
});
_mtp->setSessionResetHandler([=](MTP::ShiftedDcId shiftedDcId) {
if (const auto session = maybeSession()) {
if (shiftedDcId == _mtp->mainDcId()) {
session->updates().getDifference();
}
}
});
if (!_mtpKeysToDestroy.empty()) {
destroyMtpKeys(base::take(_mtpKeysToDestroy));
}
if (_sessionUserId) {
createSession(
_sessionUserId,
base::take(_sessionUserSerialized),
base::take(_sessionUserStreamVersion),
(_storedSessionSettings
? std::move(_storedSessionSettings)
: std::make_unique<SessionSettings>()));
}
_storedSessionSettings = nullptr;
if (const auto session = maybeSession()) {
// Skip all pending self updates so that we won't local().writeSelf.
session->changes().sendNotifications();
}
_mtpValue = _mtp.get();
}
bool Account::checkForUpdates(const MTP::Response &message) {
auto updates = MTPUpdates();
auto from = message.reply.constData();
if (!updates.read(from, from + message.reply.size())) {
return false;
}
_mtpUpdates.fire(std::move(updates));
return true;
}
bool Account::checkForNewSession(const MTP::Response &message) {
auto newSession = MTPNewSession();
auto from = message.reply.constData();
if (!newSession.read(from, from + message.reply.size())) {
return false;
}
_mtpNewSessionCreated.fire({});
return true;
}
void Account::logOut() {
if (_loggingOut) {
return;
}
_loggingOut = true;
if (_mtp) {
_mtp->logout([=] { loggedOut(); });
} else {
// We log out because we've forgotten passcode.
loggedOut();
}
}
bool Account::loggingOut() const {
return _loggingOut;
}
void Account::forcedLogOut() {
if (sessionExists()) {
resetAuthorizationKeys();
loggedOut();
}
}
void Account::loggedOut() {
_loggingOut = false;
Media::Player::mixer()->stopAndClear();
destroySession(DestroyReason::LoggedOut);
local().reset();
cSetOtherOnline(0);
}
void Account::destroyMtpKeys(MTP::AuthKeysList &&keys) {
Expects(_mtp != nullptr);
if (keys.empty()) {
return;
}
if (_mtpForKeysDestroy) {
_mtpForKeysDestroy->addKeysForDestroy(std::move(keys));
local().writeMtpData();
return;
}
auto destroyFields = MTP::Instance::Fields();
destroyFields.mainDcId = MTP::Instance::Fields::kNoneMainDc;
destroyFields.config = std::make_unique<MTP::Config>(_mtp->config());
destroyFields.keys = std::move(keys);
destroyFields.deviceModel = Platform::DeviceModelPretty();
destroyFields.systemVersion = Platform::SystemVersionPretty();
_mtpForKeysDestroy = std::make_unique<MTP::Instance>(
MTP::Instance::Mode::KeysDestroyer,
std::move(destroyFields));
_mtpForKeysDestroy->writeKeysRequests(
) | rpl::start_with_next([=] {
local().writeMtpData();
}, _mtpForKeysDestroy->lifetime());
_mtpForKeysDestroy->allKeysDestroyed(
) | rpl::start_with_next([=] {
LOG(("MTP Info: all keys scheduled for destroy are destroyed."));
crl::on_main(this, [=] {
_mtpForKeysDestroy = nullptr;
local().writeMtpData();
});
}, _mtpForKeysDestroy->lifetime());
}
void Account::suggestMainDcId(MTP::DcId mainDcId) {
Expects(_mtp != nullptr);
_mtp->suggestMainDcId(mainDcId);
if (_mtpFields.mainDcId != MTP::Instance::Fields::kNotSetMainDc) {
_mtpFields.mainDcId = mainDcId;
}
}
void Account::destroyStaleAuthorizationKeys() {
Expects(_mtp != nullptr);
for (const auto &key : _mtp->getKeysForWrite()) {
// Disable this for now.
if (key->type() == MTP::AuthKey::Type::ReadFromFile) {
_mtpKeysToDestroy = _mtp->getKeysForWrite();
LOG(("MTP Info: destroying stale keys, count: %1"
).arg(_mtpKeysToDestroy.size()));
resetAuthorizationKeys();
return;
}
}
}
void Account::setHandleLoginCode(Fn<void(QString)> callback) {
_handleLoginCode = std::move(callback);
}
void Account::handleLoginCode(const QString &code) const {
if (_handleLoginCode) {
_handleLoginCode(code);
}
}
void Account::resetAuthorizationKeys() {
Expects(_mtp != nullptr);
{
const auto old = base::take(_mtp);
auto config = std::make_unique<MTP::Config>(old->config());
startMtp(std::move(config));
}
local().writeMtpData();
}
} // namespace Main