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ton/overlay/overlay-peers.cpp
2019-09-07 14:33:36 +04:00

301 lines
8.6 KiB
C++

/*
This file is part of TON Blockchain Library.
TON Blockchain Library is free software: you can redistribute it and/or modify
it under the terms of the GNU Lesser 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 Library 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 Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with TON Blockchain Library. If not, see <http://www.gnu.org/licenses/>.
Copyright 2017-2019 Telegram Systems LLP
*/
#include "overlay.hpp"
namespace ton {
namespace overlay {
void OverlayImpl::del_peer(adnl::AdnlNodeIdShort id) {
auto P = peers_.get(id);
CHECK(P != nullptr);
VLOG(OVERLAY_DEBUG) << this << ": deleting peer " << id;
if (P->is_neighbour()) {
VLOG(OVERLAY_INFO) << this << ": deleting neighbour " << id;
bool deleted = false;
for (auto &n : neighbours_) {
if (n == id) {
n = neighbours_[neighbours_.size() - 1];
neighbours_.resize(neighbours_.size() - 1);
deleted = true;
break;
}
}
CHECK(deleted);
P->set_neighbour(false);
}
peers_.remove(id);
update_neighbours(0);
}
void OverlayImpl::del_some_peers() {
if (!public_) {
return;
}
while (peers_.size() > max_peers()) {
auto P = get_random_peer();
if (P) {
auto id = P->get_id();
del_peer(id);
}
}
}
void OverlayImpl::do_add_peer(OverlayNode node) {
auto id = node.adnl_id_short();
auto V = peers_.get(id);
if (V) {
VLOG(OVERLAY_DEBUG) << this << ": updating peer " << id << " up to version " << node.version();
V->update(std::move(node));
} else {
VLOG(OVERLAY_DEBUG) << this << ": adding peer " << id << " of version " << node.version();
peers_.insert(id, OverlayPeer(std::move(node)));
del_some_peers();
update_neighbours(0);
}
}
void OverlayImpl::add_peer_in_cont(OverlayNode node) {
CHECK(public_);
do_add_peer(std::move(node));
}
void OverlayImpl::add_peer_in(OverlayNode node) {
CHECK(public_);
if (node.overlay_id() != overlay_id_) {
VLOG(OVERLAY_WARNING) << this << ": received node with bad overlay";
return;
}
auto t = td::Clocks::system();
if (node.version() + 600 < t || node.version() > t + 60) {
VLOG(OVERLAY_INFO) << this << ": ignoring node of too old version " << node.version();
return;
}
auto pub_id = node.adnl_id_full();
if (pub_id.compute_short_id() == local_id_) {
VLOG(OVERLAY_DEBUG) << this << ": ignoring self node";
return;
}
auto S = node.check_signature();
if (S.is_error()) {
VLOG(OVERLAY_WARNING) << this << ": bad signature: " << S;
return;
}
add_peer_in_cont(std::move(node));
}
void OverlayImpl::add_peers(std::vector<OverlayNode> peers) {
for (auto &node : peers) {
add_peer_in(std::move(node));
}
}
void OverlayImpl::add_peer(OverlayNode P) {
add_peer_in(std::move(P));
}
void OverlayImpl::receive_random_peers(adnl::AdnlNodeIdShort src, td::BufferSlice data) {
CHECK(public_);
auto R = fetch_tl_object<ton_api::overlay_nodes>(std::move(data), true);
if (R.is_error()) {
VLOG(OVERLAY_WARNING) << this << ": dropping incorrect answer to overlay.getRandomPeers query from " << src << ": "
<< R.move_as_error();
return;
}
auto res = R.move_as_ok();
std::vector<OverlayNode> nodes;
for (auto &n : res->nodes_) {
auto N = OverlayNode::create(n);
if (N.is_ok()) {
nodes.emplace_back(N.move_as_ok());
}
}
add_peers(std::move(nodes));
}
void OverlayImpl::send_random_peers_cont(adnl::AdnlNodeIdShort src, OverlayNode node,
td::Promise<td::BufferSlice> promise) {
std::vector<tl_object_ptr<ton_api::overlay_node>> vec;
vec.emplace_back(node.tl());
for (td::uint32 i = 0; i < nodes_to_send(); i++) {
auto P = get_random_peer();
if (P) {
vec.emplace_back(P->get().tl());
} else {
break;
}
}
if (promise) {
auto Q = create_tl_object<ton_api::overlay_nodes>(std::move(vec));
promise.set_value(serialize_tl_object(Q, true));
} else {
auto P =
td::PromiseCreator::lambda([SelfId = actor_id(this), src, oid = print_id()](td::Result<td::BufferSlice> res) {
if (res.is_error()) {
VLOG(OVERLAY_NOTICE) << oid << ": failed getRandomPeers query: " << res.move_as_error();
return;
}
td::actor::send_closure(SelfId, &OverlayImpl::receive_random_peers, src, res.move_as_ok());
});
auto Q =
create_tl_object<ton_api::overlay_getRandomPeers>(create_tl_object<ton_api::overlay_nodes>(std::move(vec)));
td::actor::send_closure(manager_, &OverlayManager::send_query, src, local_id_, overlay_id_,
"overlay getRandomPeers", std::move(P),
td::Timestamp::in(5.0 + td::Random::fast(0, 50) * 0.1), serialize_tl_object(Q, true));
}
}
void OverlayImpl::send_random_peers(adnl::AdnlNodeIdShort src, td::Promise<td::BufferSlice> promise) {
auto P = td::PromiseCreator::lambda([src, promise = std::move(promise),
SelfId = actor_id(this)](td::Result<OverlayNode> res) mutable {
if (res.is_error()) {
promise.set_error(td::Status::Error(ErrorCode::error, "cannot get self node"));
return;
}
td::actor::send_closure(SelfId, &OverlayImpl::send_random_peers_cont, src, res.move_as_ok(), std::move(promise));
});
get_self_node(std::move(P));
}
void OverlayImpl::update_neighbours(td::uint32 nodes_to_change) {
if (peers_.size() == 0) {
return;
}
td::uint32 iter = 0;
while (iter < 10 && (nodes_to_change > 0 || neighbours_.size() < max_neighbours())) {
auto X = peers_.get_random();
if (!X) {
break;
}
if (X->get_id() == local_id_) {
iter++;
continue;
}
if (X->get_version() <= td::Clocks::system() - 600) {
if (X->is_neighbour()) {
bool found = false;
for (auto &n : neighbours_) {
if (n == X->get_id()) {
n = *neighbours_.rbegin();
found = true;
break;
}
}
CHECK(found);
neighbours_.pop_back();
X->set_neighbour(false);
}
peers_.remove(X->get_id());
continue;
}
if (X->is_neighbour()) {
iter++;
continue;
}
if (neighbours_.size() < max_neighbours()) {
VLOG(OVERLAY_INFO) << this << ": adding new neighbour " << X->get_id();
neighbours_.push_back(X->get_id());
X->set_neighbour(true);
} else {
CHECK(nodes_to_change > 0);
auto i = td::Random::fast(0, static_cast<td::uint32>(neighbours_.size()) - 1);
auto Y = peers_.get(neighbours_[i]);
CHECK(Y != nullptr);
CHECK(Y->is_neighbour());
Y->set_neighbour(false);
neighbours_[i] = X->get_id();
X->set_neighbour(true);
nodes_to_change--;
VLOG(OVERLAY_INFO) << this << ": changing neighbour " << Y->get_id() << " -> " << X->get_id();
}
}
}
OverlayPeer *OverlayImpl::get_random_peer() {
while (peers_.size() > 0) {
auto P = peers_.get_random();
if (public_ && P->get_version() + 3600 < td::Clocks::system()) {
VLOG(OVERLAY_INFO) << this << ": deleting outdated peer " << P->get_id();
del_peer(P->get_id());
} else {
return P;
}
}
return nullptr;
}
void OverlayImpl::get_overlay_random_peers(td::uint32 max_peers,
td::Promise<std::vector<adnl::AdnlNodeIdShort>> promise) {
std::vector<adnl::AdnlNodeIdShort> v;
auto t = td::Clocks::system();
while (peers_.size() > v.size()) {
auto P = peers_.get_random();
if (P->get_version() + 3600 < t) {
VLOG(OVERLAY_INFO) << this << ": deleting outdated peer " << P->get_id();
del_peer(P->get_id());
} else {
bool dup = false;
for (auto &n : v) {
if (n == P->get_id()) {
dup = true;
continue;
}
}
if (!dup) {
v.push_back(P->get_id());
}
}
}
promise.set_result(std::move(v));
}
void OverlayImpl::receive_nodes_from_db(tl_object_ptr<ton_api::overlay_nodes> tl_nodes) {
if (public_) {
std::vector<OverlayNode> nodes;
for (auto &n : tl_nodes->nodes_) {
auto N = OverlayNode::create(n);
if (N.is_ok()) {
nodes.emplace_back(N.move_as_ok());
}
}
add_peers(std::move(nodes));
}
}
} // namespace overlay
} // namespace ton