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ton/lite-client/ext-client.cpp
SpyCheese 954a96a077
Accelerator: partial fullnodes (#1393) 
* Accelerator: partial fullnodes

1) Node can monitor a subset of shards
2) New archive slice format (sharded)
3) Validators are still required to have all shards
4) Support partial liteservers in lite-client, blockchain explorer, tonlib
5) Proxy liteserver

* Fix compilation error
2024-11-26 14:46:58 +03:00

228 lines
8.5 KiB
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/*
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/>.
*/
#include "ext-client.h"
#include "td/utils/Random.h"
#include "ton/ton-shard.h"
namespace liteclient {
class ExtClientImpl : public ExtClient {
public:
ExtClientImpl(std::vector<LiteServerConfig> liteservers, td::unique_ptr<Callback> callback, bool connect_to_all)
: callback_(std::move(callback)), connect_to_all_(connect_to_all) {
CHECK(!liteservers.empty());
servers_.resize(liteservers.size());
for (size_t i = 0; i < servers_.size(); ++i) {
servers_[i].config = std::move(liteservers[i]);
servers_[i].idx = i;
}
}
void start_up() override {
LOG(INFO) << "Started ext client, " << servers_.size() << " liteservers";
td::Random::Fast rnd;
td::random_shuffle(td::as_mutable_span(servers_), rnd);
server_indices_.resize(servers_.size());
for (size_t i = 0; i < servers_.size(); ++i) {
server_indices_[servers_[i].idx] = i;
}
if (connect_to_all_) {
for (size_t i = 0; i < servers_.size(); ++i) {
prepare_server(i, nullptr);
}
}
}
void send_query(std::string name, td::BufferSlice data, td::Timestamp timeout,
td::Promise<td::BufferSlice> promise) override {
QueryInfo query_info = get_query_info(data);
TRY_RESULT_PROMISE(promise, server_idx, select_server(query_info));
send_query_internal(std::move(name), std::move(data), std::move(query_info), server_idx, timeout,
std::move(promise));
}
void send_query_to_server(std::string name, td::BufferSlice data, size_t server_idx, td::Timestamp timeout,
td::Promise<td::BufferSlice> promise) override {
if (server_idx >= servers_.size()) {
promise.set_error(td::Status::Error(PSTRING() << "server idx " << server_idx << " is too big"));
return;
}
server_idx = server_indices_[server_idx];
QueryInfo query_info = get_query_info(data);
prepare_server(server_idx, &query_info);
send_query_internal(std::move(name), std::move(data), std::move(query_info), server_idx, timeout,
std::move(promise));
}
void get_servers_status(td::Promise<std::vector<bool>> promise) override {
std::vector<bool> status(servers_.size());
for (const Server& s : servers_) {
status[s.idx] = s.alive;
}
promise.set_result(std::move(status));
}
void reset_servers() override {
LOG(INFO) << "Force resetting all liteservers";
for (Server& server : servers_) {
server.alive = false;
server.timeout = {};
server.ignore_until = {};
server.client.reset();
}
}
private:
void send_query_internal(std::string name, td::BufferSlice data, QueryInfo query_info, size_t server_idx,
td::Timestamp timeout, td::Promise<td::BufferSlice> promise) {
auto& server = servers_[server_idx];
CHECK(!server.client.empty());
if (!connect_to_all_) {
alarm_timestamp().relax(server.timeout = td::Timestamp::in(MAX_NO_QUERIES_TIMEOUT));
}
td::Promise<td::BufferSlice> P = [SelfId = actor_id(this), server_idx,
promise = std::move(promise)](td::Result<td::BufferSlice> R) mutable {
if (R.is_error() &&
(R.error().code() == ton::ErrorCode::timeout || R.error().code() == ton::ErrorCode::cancelled)) {
td::actor::send_closure(SelfId, &ExtClientImpl::on_server_error, server_idx);
}
promise.set_result(std::move(R));
};
LOG(DEBUG) << "Sending query " << query_info.to_str() << " to server #" << server.idx << " ("
<< server.config.addr.get_ip_str() << ":" << server.config.addr.get_port() << ")";
send_closure(server.client, &ton::adnl::AdnlExtClient::send_query, std::move(name), std::move(data), timeout,
std::move(P));
}
td::Result<size_t> select_server(const QueryInfo& query_info) {
for (size_t i = 0; i < servers_.size(); ++i) {
if (servers_[i].alive && servers_[i].config.accepts_query(query_info)) {
return i;
}
}
size_t server_idx = servers_.size();
int cnt = 0;
int best_priority = -1;
for (size_t i = 0; i < servers_.size(); ++i) {
Server& server = servers_[i];
if (!server.config.accepts_query(query_info)) {
continue;
}
int priority = 0;
priority += (server.ignore_until && !server.ignore_until.is_in_past() ? 0 : 10);
if (priority < best_priority) {
continue;
}
if (priority > best_priority) {
best_priority = priority;
cnt = 0;
}
if (td::Random::fast(0, cnt) == 0) {
server_idx = i;
}
++cnt;
}
if (server_idx == servers_.size()) {
return td::Status::Error(PSTRING() << "no liteserver for query " << query_info.to_str());
}
prepare_server(server_idx, &query_info);
return server_idx;
}
void prepare_server(size_t server_idx, const QueryInfo* query_info) {
Server& server = servers_[server_idx];
if (server.alive) {
return;
}
server.alive = true;
server.ignore_until = {};
if (!connect_to_all_) {
alarm_timestamp().relax(server.timeout = td::Timestamp::in(MAX_NO_QUERIES_TIMEOUT));
}
if (!server.client.empty()) {
return;
}
class Callback : public ton::adnl::AdnlExtClient::Callback {
public:
explicit Callback(td::actor::ActorId<ExtClientImpl> parent, size_t idx) : parent_(std::move(parent)), idx_(idx) {
}
void on_ready() override {
}
void on_stop_ready() override {
td::actor::send_closure(parent_, &ExtClientImpl::on_server_error, idx_);
}
private:
td::actor::ActorId<ExtClientImpl> parent_;
size_t idx_;
};
LOG(INFO) << "Connecting to liteserver #" << server.idx << " (" << server.config.addr.get_ip_str() << ":"
<< server.config.addr.get_port() << ") for query " << (query_info ? query_info->to_str() : "[none]");
server.client = ton::adnl::AdnlExtClient::create(server.config.adnl_id, server.config.addr,
std::make_unique<Callback>(actor_id(this), server_idx));
}
struct Server {
LiteServerConfig config;
size_t idx = 0;
td::actor::ActorOwn<ton::adnl::AdnlExtClient> client;
bool alive = false;
td::Timestamp timeout = td::Timestamp::never();
td::Timestamp ignore_until = td::Timestamp::never();
};
std::vector<Server> servers_;
std::vector<size_t> server_indices_;
td::unique_ptr<Callback> callback_;
bool connect_to_all_ = false;
static constexpr double MAX_NO_QUERIES_TIMEOUT = 100.0;
static constexpr double BAD_SERVER_TIMEOUT = 30.0;
void alarm() override {
if (connect_to_all_) {
return;
}
for (Server& server : servers_) {
if (server.timeout && server.timeout.is_in_past()) {
LOG(INFO) << "Closing connection to liteserver #" << server.idx << " (" << server.config.addr.get_ip_str()
<< ":" << server.config.addr.get_port() << ")";
server.client.reset();
server.alive = false;
server.ignore_until = {};
}
}
}
void on_server_error(size_t idx) {
servers_[idx].alive = false;
servers_[idx].ignore_until = td::Timestamp::in(BAD_SERVER_TIMEOUT);
}
};
td::actor::ActorOwn<ExtClient> ExtClient::create(ton::adnl::AdnlNodeIdFull dst, td::IPAddress dst_addr,
td::unique_ptr<Callback> callback) {
return create({LiteServerConfig{dst, dst_addr}}, std::move(callback));
}
td::actor::ActorOwn<ExtClient> ExtClient::create(std::vector<LiteServerConfig> liteservers,
td::unique_ptr<Callback> callback, bool connect_to_all) {
return td::actor::create_actor<ExtClientImpl>("ExtClient", std::move(liteservers), std::move(callback),
connect_to_all);
}
} // namespace liteclient
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