/* 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 . Copyright 2017-2019 Telegram Systems LLP */ #include "statedb.hpp" #include "ton/ton-tl.hpp" #include "adnl/utils.hpp" #include "td/db/RocksDb.h" #include "ton/ton-shard.h" namespace ton { namespace validator { void StateDb::update_init_masterchain_block(BlockIdExt block, td::Promise promise) { auto key = create_hash_tl_object(); kv_->begin_transaction().ensure(); kv_->set(key.as_slice(), create_serialize_tl_object(create_tl_block_id(block)).as_slice()) .ensure(); kv_->commit_transaction().ensure(); promise.set_value(td::Unit()); } void StateDb::get_init_masterchain_block(td::Promise promise) { auto key = create_hash_tl_object(); std::string value; auto R = kv_->get(key.as_slice(), value); R.ensure(); if (R.move_as_ok() == td::KeyValue::GetStatus::NotFound) { promise.set_error(td::Status::Error(ErrorCode::notready, "not found")); return; } auto F = fetch_tl_object(td::BufferSlice{value}, true); F.ensure(); auto obj = F.move_as_ok(); promise.set_value(create_block_id(obj->block_)); } void StateDb::update_gc_masterchain_block(BlockIdExt block, td::Promise promise) { auto key = create_hash_tl_object(); kv_->begin_transaction().ensure(); kv_->set(key.as_slice(), create_serialize_tl_object(create_tl_block_id(block)).as_slice()) .ensure(); kv_->commit_transaction().ensure(); promise.set_value(td::Unit()); } void StateDb::get_gc_masterchain_block(td::Promise promise) { auto key = create_hash_tl_object(); std::string value; auto R = kv_->get(key.as_slice(), value); R.ensure(); if (R.move_as_ok() == td::KeyValue::GetStatus::NotFound) { promise.set_error(td::Status::Error(ErrorCode::notready, "not found")); return; } auto F = fetch_tl_object(td::BufferSlice{value}, true); F.ensure(); auto obj = F.move_as_ok(); promise.set_value(create_block_id(obj->block_)); } void StateDb::update_shard_client_state(BlockIdExt masterchain_block_id, td::Promise promise) { auto key = create_hash_tl_object(); kv_->begin_transaction().ensure(); kv_->set(key.as_slice(), create_serialize_tl_object(create_tl_block_id(masterchain_block_id))) .ensure(); kv_->commit_transaction().ensure(); promise.set_value(td::Unit()); } void StateDb::get_shard_client_state(td::Promise promise) { auto key = create_hash_tl_object(); std::string value; auto R = kv_->get(key.as_slice(), value); R.ensure(); if (R.move_as_ok() == td::KeyValue::GetStatus::NotFound) { promise.set_error(td::Status::Error(ErrorCode::notready, "not found")); return; } auto F = fetch_tl_object(td::BufferSlice{value}, true); F.ensure(); auto obj = F.move_as_ok(); promise.set_value(create_block_id(obj->block_)); } void StateDb::update_destroyed_validator_sessions(std::vector sessions, td::Promise promise) { auto key = create_hash_tl_object(); kv_->begin_transaction().ensure(); kv_->set(key.as_slice(), create_serialize_tl_object(std::move(sessions))) .ensure(); kv_->commit_transaction().ensure(); promise.set_value(td::Unit()); } void StateDb::get_destroyed_validator_sessions(td::Promise> promise) { auto key = create_hash_tl_object(); std::string value; auto R = kv_->get(key.as_slice(), value); R.ensure(); if (R.move_as_ok() == td::KeyValue::GetStatus::NotFound) { promise.set_value(std::vector{}); return; } auto F = fetch_tl_object(td::BufferSlice{value}, true); F.ensure(); auto obj = F.move_as_ok(); promise.set_value(std::move(obj->sessions_)); } void StateDb::update_async_serializer_state(AsyncSerializerState state, td::Promise promise) { auto key = create_hash_tl_object(); auto value = create_serialize_tl_object( create_tl_block_id(state.last_block_id), create_tl_block_id(state.last_written_block_id), state.last_written_block_ts); kv_->begin_transaction().ensure(); kv_->set(key.as_slice(), value.as_slice()).ensure(); kv_->commit_transaction().ensure(); promise.set_value(td::Unit()); } void StateDb::get_async_serializer_state(td::Promise promise) { auto key = create_hash_tl_object(); std::string value; auto R = kv_->get(key.as_slice(), value); R.ensure(); if (R.move_as_ok() == td::KeyValue::GetStatus::NotFound) { promise.set_value(AsyncSerializerState{BlockIdExt{}, BlockIdExt{}, 0}); return; } auto F = fetch_tl_object(td::BufferSlice{value}, true); F.ensure(); auto obj = F.move_as_ok(); promise.set_value(AsyncSerializerState{create_block_id(obj->block_), create_block_id(obj->last_), static_cast(obj->last_ts_)}); } void StateDb::update_hardforks(std::vector blocks, td::Promise promise) { auto key = create_hash_tl_object(); std::vector> vec; for (auto &e : blocks) { vec.push_back(create_tl_block_id(e)); } kv_->begin_transaction().ensure(); kv_->set(key.as_slice(), create_serialize_tl_object(std::move(vec))).ensure(); kv_->commit_transaction(); promise.set_value(td::Unit()); } void StateDb::get_hardforks(td::Promise> promise) { auto key = create_hash_tl_object(); std::string value; auto R = kv_->get(key.as_slice(), value); R.ensure(); if (R.move_as_ok() == td::KeyValue::GetStatus::NotFound) { promise.set_value(std::vector{}); return; } auto F = fetch_tl_object(value, true); F.ensure(); auto f = F.move_as_ok(); std::vector vec; for (auto &e : f->blocks_) { vec.push_back(create_block_id(e)); } promise.set_value(std::move(vec)); } StateDb::StateDb(td::actor::ActorId root_db, std::string db_path) : root_db_(root_db), db_path_(db_path) { } void StateDb::start_up() { kv_ = std::make_shared(td::RocksDb::open(db_path_).move_as_ok()); std::string value; auto R = kv_->get(create_serialize_tl_object(), value); R.ensure(); if (R.move_as_ok() == td::KeyValue::GetStatus::Ok) { auto F = fetch_tl_object(value, true); F.ensure(); auto f = F.move_as_ok(); CHECK(f->version_ == 2); } else { kv_->begin_transaction().ensure(); kv_->set(create_serialize_tl_object(), create_serialize_tl_object(2)) .ensure(); kv_->commit_transaction().ensure(); } } } // namespace validator } // namespace ton