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tdlib-fork/td/telegram/net/DcAuthManager.cpp
levlam adb10460b2 Minor fixes.
GitOrigin-RevId: 0c678ad195683947355b63af5aff49875312b4a3
2019-12-23 20:48:30 +03:00

256 lines
8.1 KiB
C++

//
// Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2019
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
#include "td/telegram/net/DcAuthManager.h"
#include "td/actor/actor.h"
#include "td/telegram/ConfigShared.h"
#include "td/telegram/Global.h"
#include "td/telegram/net/AuthDataShared.h"
#include "td/telegram/net/NetQuery.h"
#include "td/telegram/net/NetQueryDispatcher.h"
#include "td/telegram/TdDb.h"
#include "td/telegram/UniqueId.h"
#include "td/telegram/telegram_api.h"
#include "td/utils/logging.h"
#include "td/utils/misc.h"
#include <algorithm>
#include <limits>
namespace td {
DcAuthManager::DcAuthManager(ActorShared<> parent) {
parent_ = std::move(parent);
auto s_main_dc_id = G()->td_db()->get_binlog_pmc()->get("main_dc_id");
if (!s_main_dc_id.empty()) {
auto main_dc_id = to_integer<int32>(s_main_dc_id);
if (DcId::is_valid(main_dc_id)) {
main_dc_id_ = DcId::internal(main_dc_id);
VLOG(dc) << "Init main DcId to " << main_dc_id_;
} else {
LOG(ERROR) << "Receive invalid main DcId " << main_dc_id;
}
}
}
void DcAuthManager::add_dc(std::shared_ptr<AuthDataShared> auth_data) {
VLOG(dc) << "Register " << auth_data->dc_id();
class Listener : public AuthDataShared::Listener {
public:
explicit Listener(ActorShared<DcAuthManager> dc_manager) : dc_manager_(std::move(dc_manager)) {
}
bool notify() override {
if (!dc_manager_.is_alive()) {
return false;
}
send_closure(dc_manager_, &DcAuthManager::update_auth_key_state);
return true;
}
private:
ActorShared<DcAuthManager> dc_manager_;
};
DcInfo info;
info.dc_id = auth_data->dc_id();
CHECK(info.dc_id.is_exact());
info.shared_auth_data = std::move(auth_data);
auto state_was_auth = info.shared_auth_data->get_auth_key_state();
info.auth_key_state = state_was_auth.first;
VLOG(dc) << "Add " << info.dc_id << " with auth key state " << info.auth_key_state
<< " and was_auth = " << state_was_auth.second;
was_auth_ |= state_was_auth.second;
if (!main_dc_id_.is_exact()) {
main_dc_id_ = info.dc_id;
VLOG(dc) << "Set main DcId to " << main_dc_id_;
}
info.shared_auth_data->add_auth_key_listener(make_unique<Listener>(actor_shared(this, info.dc_id.get_raw_id())));
dcs_.emplace_back(std::move(info));
loop();
}
void DcAuthManager::update_main_dc(DcId new_main_dc_id) {
main_dc_id_ = new_main_dc_id;
VLOG(dc) << "Update main DcId to " << main_dc_id_;
loop();
}
DcAuthManager::DcInfo &DcAuthManager::get_dc(int32 dc_id) {
auto *dc = find_dc(dc_id);
CHECK(dc);
return *dc;
}
DcAuthManager::DcInfo *DcAuthManager::find_dc(int32 dc_id) {
auto it = std::find_if(dcs_.begin(), dcs_.end(), [&](auto &x) { return x.dc_id.get_raw_id() == dc_id; });
if (it == dcs_.end()) {
return nullptr;
}
return &*it;
}
void DcAuthManager::update_auth_key_state() {
int32 dc_id = narrow_cast<int32>(get_link_token());
auto &dc = get_dc(dc_id);
auto state_was_auth = dc.shared_auth_data->get_auth_key_state();
VLOG(dc) << "Update " << dc_id << " auth key state from " << dc.auth_key_state << " to " << state_was_auth.first
<< " with was_auth = " << state_was_auth.second;
dc.auth_key_state = state_was_auth.first;
was_auth_ |= state_was_auth.second;
loop();
}
void DcAuthManager::on_result(NetQueryPtr result) {
int32 dc_id = narrow_cast<int32>(get_link_token());
auto &dc = get_dc(dc_id);
CHECK(dc.wait_id == result->id());
dc.wait_id = std::numeric_limits<decltype(dc.wait_id)>::max();
switch (dc.state) {
case DcInfo::State::Import: {
if (result->is_error()) {
LOG(WARNING) << "DC auth_exportAuthorization error: " << result->error();
dc.state = DcInfo::State::Export;
break;
}
auto r_result_auth_exported = fetch_result<telegram_api::auth_exportAuthorization>(result->ok());
if (r_result_auth_exported.is_error()) {
LOG(WARNING) << "Failed to parse result to auth_exportAuthorization: " << r_result_auth_exported.error();
dc.state = DcInfo::State::Export;
break;
}
auto result_auth_exported = r_result_auth_exported.move_as_ok();
dc.export_id = result_auth_exported->id_;
dc.export_bytes = std::move(result_auth_exported->bytes_);
break;
}
case DcInfo::State::BeforeOk: {
if (result->is_error()) {
LOG(WARNING) << "DC authImport error: " << result->error();
dc.state = DcInfo::State::Export;
break;
}
auto result_auth = fetch_result<telegram_api::auth_importAuthorization>(result->ok());
if (result_auth.is_error()) {
LOG(WARNING) << "Failed to parse result to auth_importAuthorization: " << result_auth.error();
dc.state = DcInfo::State::Export;
break;
}
dc.state = DcInfo::State::Ok;
break;
}
default:
UNREACHABLE();
}
result->clear();
loop();
}
void DcAuthManager::dc_loop(DcInfo &dc) {
VLOG(dc) << "In dc_loop: " << dc.dc_id << " " << dc.auth_key_state;
if (dc.auth_key_state == AuthKeyState::OK) {
return;
}
CHECK(dc.shared_auth_data);
switch (dc.state) {
case DcInfo::State::Waiting: {
// wait for timeout
// break;
}
case DcInfo::State::Export: {
// send auth.exportAuthorization to auth_dc
VLOG(dc) << "Send exportAuthorization to " << dc.dc_id;
auto id = UniqueId::next();
G()->net_query_dispatcher().dispatch_with_callback(
G()->net_query_creator().create(
id, create_storer(telegram_api::auth_exportAuthorization(dc.dc_id.get_raw_id())), DcId::main(),
NetQuery::Type::Common, NetQuery::AuthFlag::On, NetQuery::GzipFlag::On, 60 * 60 * 24),
actor_shared(this, dc.dc_id.get_raw_id()));
dc.wait_id = id;
dc.export_id = -1;
dc.state = DcInfo::State::Import;
break;
}
case DcInfo::State::Import: {
// send auth.importAuthorization to dc
if (dc.export_id == -1) {
break;
}
uint64 id = UniqueId::next();
VLOG(dc) << "Send importAuthorization to " << dc.dc_id;
G()->net_query_dispatcher().dispatch_with_callback(
G()->net_query_creator().create(
id, create_storer(telegram_api::auth_importAuthorization(dc.export_id, std::move(dc.export_bytes))),
dc.dc_id, NetQuery::Type::Common, NetQuery::AuthFlag::Off, NetQuery::GzipFlag::On, 60 * 60 * 24),
actor_shared(this, dc.dc_id.get_raw_id()));
dc.wait_id = id;
dc.state = DcInfo::State::BeforeOk;
break;
}
case DcInfo::State::BeforeOk: {
break;
}
case DcInfo::State::Ok: {
break;
}
}
}
void DcAuthManager::destroy(Promise<> promise) {
destroy_promise_ = std::move(promise);
loop();
}
void DcAuthManager::destroy_loop() {
if (!destroy_promise_) {
return;
}
bool is_ready{true};
for (auto &dc : dcs_) {
is_ready &= dc.auth_key_state == AuthKeyState::Empty;
}
if (is_ready) {
VLOG(dc) << "Destroy auth keys loop is ready, all keys are destroyed";
destroy_promise_.set_value(Unit());
} else {
VLOG(dc) << "DC is not ready for destroying auth key";
}
}
void DcAuthManager::loop() {
if (close_flag_) {
VLOG(dc) << "Skip loop because close_flag";
return;
}
destroy_loop();
if (!main_dc_id_.is_exact()) {
VLOG(dc) << "Skip loop because main_dc_id is unknown";
return;
}
auto main_dc = find_dc(main_dc_id_.get_raw_id());
if (!main_dc || main_dc->auth_key_state != AuthKeyState::OK) {
VLOG(dc) << "Main is " << main_dc_id_ << ", main auth key state is "
<< (main_dc ? main_dc->auth_key_state : AuthKeyState::Empty) << ", was_auth = " << was_auth_;
if (was_auth_) {
G()->shared_config().set_option_boolean("auth", false);
destroy_loop();
}
VLOG(dc) << "Skip loop because auth state of main DcId " << main_dc_id_.get_raw_id() << " is "
<< (main_dc != nullptr ? (PSTRING() << main_dc->auth_key_state) : "unknown");
return;
}
for (auto &dc : dcs_) {
dc_loop(dc);
}
}
} // namespace td