/* This file is part of TON Blockchain source code. TON Blockchain 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 2 of the License, or (at your option) any later version. TON Blockchain 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. You should have received a copy of the GNU General Public License along with TON Blockchain. If not, see . In addition, as a special exception, the copyright holders give permission to link the code of portions of this program with the OpenSSL library. You must obey the GNU General Public License in all respects for all of the code used other than OpenSSL. If you modify file(s) with this exception, you may extend this exception to your version of the file(s), but you are not obligated to do so. If you do not wish to do so, delete this exception statement from your version. If you delete this exception statement from all source files in the program, then also delete it here. Copyright 2017-2019 Telegram Systems LLP */ #include "adnl/adnl-network-manager.h" #include "adnl/adnl-test-loopback-implementation.h" #include "adnl/adnl.h" #include "rldp/rldp.h" #include "td/utils/port/signals.h" #include "td/utils/port/path.h" #include "td/utils/Random.h" #include #include int main() { SET_VERBOSITY_LEVEL(verbosity_INFO); std::string db_root_ = "tmp-ee"; td::mkdir(db_root_).ensure(); td::set_default_failure_signal_handler().ensure(); td::actor::ActorOwn keyring; td::actor::ActorOwn network_manager; td::actor::ActorOwn adnl; td::actor::ActorOwn rldp; ton::adnl::AdnlNodeIdShort src; ton::adnl::AdnlNodeIdShort dst; td::actor::Scheduler scheduler({7}); scheduler.run_in_context([&] { keyring = ton::keyring::Keyring::create(db_root_); network_manager = td::actor::create_actor("test net"); adnl = ton::adnl::Adnl::create(db_root_, keyring.get()); rldp = ton::rldp::Rldp::create(adnl.get()); td::actor::send_closure(adnl, &ton::adnl::Adnl::register_network_manager, network_manager.get()); auto pk1 = ton::PrivateKey{ton::privkeys::Ed25519::random()}; auto pub1 = pk1.compute_public_key(); src = ton::adnl::AdnlNodeIdShort{pub1.compute_short_id()}; td::actor::send_closure(keyring, &ton::keyring::Keyring::add_key, std::move(pk1), true, [](td::Unit) {}); auto pk2 = ton::PrivateKey{ton::privkeys::Ed25519::random()}; auto pub2 = pk2.compute_public_key(); dst = ton::adnl::AdnlNodeIdShort{pub2.compute_short_id()}; td::actor::send_closure(keyring, &ton::keyring::Keyring::add_key, std::move(pk2), true, [](td::Unit) {}); auto addr = ton::adnl::TestLoopbackNetworkManager::generate_dummy_addr_list(); td::actor::send_closure(adnl, &ton::adnl::Adnl::add_id, ton::adnl::AdnlNodeIdFull{pub1}, addr); td::actor::send_closure(adnl, &ton::adnl::Adnl::add_id, ton::adnl::AdnlNodeIdFull{pub2}, addr); td::actor::send_closure(rldp, &ton::rldp::Rldp::add_id, src); td::actor::send_closure(rldp, &ton::rldp::Rldp::add_id, dst); td::actor::send_closure(adnl, &ton::adnl::Adnl::add_peer, src, ton::adnl::AdnlNodeIdFull{pub2}, addr); td::actor::send_closure(network_manager, &ton::adnl::TestLoopbackNetworkManager::add_node_id, src, true, true); td::actor::send_closure(network_manager, &ton::adnl::TestLoopbackNetworkManager::add_node_id, dst, true, true); }); auto send_packet = [&](td::uint32 i) { td::BufferSlice d{5}; d.as_slice()[0] = '1'; d.as_slice().remove_prefix(1).copy_from(td::Slice{reinterpret_cast(&i), 4}); return d; }; std::atomic remaining{0}; scheduler.run_in_context([&] { class Callback : public ton::adnl::Adnl::Callback { public: void receive_message(ton::adnl::AdnlNodeIdShort src, ton::adnl::AdnlNodeIdShort dst, td::BufferSlice data) override { CHECK(src == src); CHECK(dst == dst); if (data.size() >= 5) { CHECK(td::crc32c(data.as_slice().truncate(data.size() - 4)) == *reinterpret_cast(data.as_slice().remove_prefix(data.size() - 4).begin())); } CHECK(remaining_ > 0); remaining_--; } void receive_query(ton::adnl::AdnlNodeIdShort src, ton::adnl::AdnlNodeIdShort dst, td::BufferSlice data, td::Promise promise) override { CHECK(data.size() == 5); td::uint32 s = *reinterpret_cast(data.as_slice().remove_prefix(1).begin()); td::BufferSlice d{s}; if (s >= 4) { td::Random::secure_bytes(d.as_slice().truncate(s - 4)); auto x = td::crc32c(d.as_slice().truncate(d.size() - 4)); d.as_slice().remove_prefix(d.size() - 4).copy_from(td::Slice{reinterpret_cast(&x), 4}); } else { td::Random::secure_bytes(d.as_slice()); } promise.set_value(std::move(d)); } Callback(std::atomic &remaining) : remaining_(remaining) { } private: std::atomic &remaining_; }; td::actor::send_closure(adnl, &ton::adnl::Adnl::subscribe, dst, "1", std::make_unique(remaining)); }); std::vector sizes{1, 1024, 1 << 20, 2 << 20, 3 << 20, 10 << 20, 16 << 20}; for (auto &size : sizes) { LOG(ERROR) << "testing delivering of packet of size " << size; auto f = td::Clocks::system(); scheduler.run_in_context([&] { remaining++; td::actor::send_closure(rldp, &ton::rldp::Rldp::send_query_ex, src, dst, std::string("t"), td::PromiseCreator::lambda([&](td::Result R) { R.ensure(); remaining--; }), td::Timestamp::in(1024.0), send_packet(size), size + 1024); }); auto t = td::Timestamp::in(1024.0); while (scheduler.run(16)) { if (!remaining) { break; } if (t.is_in_past()) { LOG(FATAL) << "failed to receive packets: remaining=" << remaining; } } LOG(ERROR) << "success. Time=" << (td::Clocks::system() - f); } scheduler.run_in_context([&] { td::actor::send_closure(network_manager, &ton::adnl::TestLoopbackNetworkManager::set_loss_probability, 0.1); }); LOG(ERROR) << "set loss to 10%"; for (auto &size : sizes) { LOG(ERROR) << "testing delivering of packet of size " << size; auto f = td::Clocks::system(); scheduler.run_in_context([&] { remaining++; td::actor::send_closure(rldp, &ton::rldp::Rldp::send_query_ex, src, dst, std::string("t"), td::PromiseCreator::lambda([&](td::Result R) { R.ensure(); remaining--; }), td::Timestamp::in(1024.0), send_packet(size), size + 1024); }); auto t = td::Timestamp::in(1024.0); while (scheduler.run(16)) { if (!remaining) { break; } if (t.is_in_past()) { LOG(FATAL) << "failed to receive packets: remaining=" << remaining; } } LOG(ERROR) << "success. Time=" << (td::Clocks::system() - f); } td::rmrf(db_root_).ensure(); std::_Exit(0); return 0; }