tdlight/td/telegram/Global.cpp
levlam 98b8929932 Fix includes.
GitOrigin-RevId: 7b62de39f2d62ac8c14c24fb83041c717ba49873
2019-07-23 01:50:12 +03:00

192 lines
5.8 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/Global.h"
#include "td/telegram/ConfigShared.h"
#include "td/telegram/net/ConnectionCreator.h"
#include "td/telegram/net/MtprotoHeader.h"
#include "td/telegram/net/NetQueryDispatcher.h"
#include "td/telegram/net/TempAuthKeyWatchdog.h"
#include "td/telegram/StateManager.h"
#include "td/telegram/TdDb.h"
#include "td/actor/PromiseFuture.h"
#include "td/utils/format.h"
#include "td/utils/logging.h"
#include "td/utils/port/Clocks.h"
#include "td/utils/tl_helpers.h"
#include <cmath>
namespace td {
Global::Global() = default;
Global::~Global() = default;
void Global::close_all(Promise<> on_finished) {
td_db_->close_all(std::move(on_finished));
state_manager_.clear();
parameters_ = TdParameters();
}
void Global::close_and_destroy_all(Promise<> on_finished) {
td_db_->close_and_destroy_all(std::move(on_finished));
state_manager_.clear();
parameters_ = TdParameters();
}
ActorId<ConnectionCreator> Global::connection_creator() const {
return connection_creator_.get();
}
void Global::set_connection_creator(ActorOwn<ConnectionCreator> connection_creator) {
connection_creator_ = std::move(connection_creator);
}
ActorId<TempAuthKeyWatchdog> Global::temp_auth_key_watchdog() const {
return temp_auth_key_watchdog_.get();
}
void Global::set_temp_auth_key_watchdog(ActorOwn<TempAuthKeyWatchdog> actor) {
temp_auth_key_watchdog_ = std::move(actor);
}
MtprotoHeader &Global::mtproto_header() {
return *mtproto_header_;
}
void Global::set_mtproto_header(unique_ptr<MtprotoHeader> mtproto_header) {
mtproto_header_ = std::move(mtproto_header);
}
Status Global::init(const TdParameters &parameters, ActorId<Td> td, unique_ptr<TdDb> td_db_ptr) {
parameters_ = parameters;
gc_scheduler_id_ = min(Scheduler::instance()->sched_id() + 2, Scheduler::instance()->sched_count() - 1);
slow_net_scheduler_id_ = min(Scheduler::instance()->sched_id() + 3, Scheduler::instance()->sched_count() - 1);
td_ = td;
td_db_ = std::move(td_db_ptr);
string save_diff_str = td_db()->get_binlog_pmc()->get("server_time_difference");
auto default_time_difference = Clocks::system() - Time::now();
if (save_diff_str.empty()) {
server_time_difference_ = default_time_difference;
server_time_difference_was_updated_ = false;
} else {
double save_diff;
unserialize(save_diff, save_diff_str).ensure();
double diff = save_diff + default_time_difference;
LOG(DEBUG) << "LOAD: " << tag("server_time_difference", diff);
server_time_difference_ = diff;
server_time_difference_was_updated_ = false;
}
dns_time_difference_ = default_time_difference;
dns_time_difference_was_updated_ = false;
return Status::OK();
}
void Global::update_server_time_difference(double diff) {
if (!server_time_difference_was_updated_ || server_time_difference_ < diff) {
server_time_difference_ = diff;
server_time_difference_was_updated_ = true;
// diff = server_time - Time::now
// save_diff = server_time - Clocks::system
double save_diff = diff + Time::now() - Clocks::system();
auto str = serialize(save_diff);
td_db()->get_binlog_pmc()->set("server_time_difference", str);
}
}
void Global::update_dns_time_difference(double diff) {
dns_time_difference_ = diff;
dns_time_difference_was_updated_ = true;
}
double Global::get_dns_time_difference() const {
// rely that was updated flag is monotonic. Currenly it is true. If it stops being monitonic at some point it won't
// lead to problems anyway.
bool dns_flag = dns_time_difference_was_updated_;
double dns_diff = dns_time_difference_;
bool server_flag = server_time_difference_was_updated_;
double server_diff = server_time_difference_;
if (dns_flag != server_flag) {
return dns_flag ? dns_diff : server_diff;
}
if (dns_flag) {
return max(dns_diff, server_diff);
}
if (td_db_) {
return server_diff;
}
return Clocks::system() - Time::now();
}
DcId Global::get_webfile_dc_id() const {
CHECK(shared_config_ != nullptr);
int32 dc_id = shared_config_->get_option_integer("webfile_dc_id");
if (!DcId::is_valid(dc_id)) {
if (is_test_dc()) {
dc_id = 2;
} else {
dc_id = 4;
}
CHECK(DcId::is_valid(dc_id));
}
return DcId::internal(dc_id);
}
bool Global::ignore_backgrond_updates() const {
return !parameters_.use_file_db && !parameters_.use_secret_chats &&
shared_config_->get_option_boolean("ignore_background_updates");
}
void Global::set_net_query_dispatcher(unique_ptr<NetQueryDispatcher> net_query_dispatcher) {
net_query_dispatcher_ = std::move(net_query_dispatcher);
}
void Global::set_shared_config(unique_ptr<ConfigShared> shared_config) {
shared_config_ = std::move(shared_config);
}
int64 Global::get_location_key(double latitude, double longitude) {
const double PI = 3.14159265358979323846;
latitude *= PI / 180;
longitude *= PI / 180;
int64 key = 0;
if (latitude < 0) {
latitude = -latitude;
key = 65536;
}
double f = std::tan(PI / 4 - latitude / 2);
key += static_cast<int64>(f * std::cos(longitude) * 128) * 256;
key += static_cast<int64>(f * std::sin(longitude) * 128);
return key;
}
int64 Global::get_location_access_hash(double latitude, double longitude) {
auto it = location_access_hashes_.find(get_location_key(latitude, longitude));
if (it == location_access_hashes_.end()) {
return 0;
}
return it->second;
}
void Global::add_location_access_hash(double latitude, double longitude, int64 access_hash) {
if (access_hash == 0) {
return;
}
location_access_hashes_[get_location_key(latitude, longitude)] = access_hash;
}
} // namespace td