mirror of
https://github.com/danog/ton.git
synced 2024-12-02 09:28:02 +01:00
9d6853ef24
1. update liteclient/liteserver. Now liteserver sends signatures of blocks and liteclient checks them. I.e. liteclient completely checks received data. 2. validator-engine: more GC options 3. blockchain-explorer: show all block transactions (instead of 256) 4. some bugfixes
286 lines
8.4 KiB
C++
286 lines
8.4 KiB
C++
/*
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This file is part of TON Blockchain Library.
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TON Blockchain Library is free software: you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License as published by
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the Free Software Foundation, either version 2 of the License, or
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(at your option) any later version.
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TON Blockchain Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public License
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along with TON Blockchain Library. If not, see <http://www.gnu.org/licenses/>.
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Copyright 2017-2019 Telegram Systems LLP
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*/
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#include "celldb.hpp"
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#include "rootdb.hpp"
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#include "td/db/RocksDb.h"
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#include "ton/ton-tl.hpp"
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#include "ton/ton-io.hpp"
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namespace ton {
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namespace validator {
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CellDbIn::CellDbIn(td::actor::ActorId<RootDb> root_db, td::actor::ActorId<CellDb> parent, std::string path)
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: root_db_(root_db), parent_(parent), path_(std::move(path)) {
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}
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void CellDbIn::start_up() {
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cell_db_ = std::make_shared<td::RocksDb>(td::RocksDb::open(path_).move_as_ok());
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boc_ = vm::DynamicBagOfCellsDb::create();
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boc_->set_loader(std::make_unique<vm::CellLoader>(cell_db_->snapshot())).ensure();
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td::actor::send_closure(parent_, &CellDb::update_snapshot, cell_db_->snapshot());
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alarm_timestamp() = td::Timestamp::in(10.0);
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auto empty = get_empty_key_hash();
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if (get_block(empty).is_error()) {
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DbEntry e{get_empty_key(), empty, empty, RootHash::zero()};
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cell_db_->begin_transaction().ensure();
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set_block(empty, std::move(e));
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cell_db_->commit_transaction().ensure();
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}
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last_gc_ = empty;
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}
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void CellDbIn::load_cell(RootHash hash, td::Promise<td::Ref<vm::DataCell>> promise) {
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td::PerfWarningTimer{"loadcell", 0.1};
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promise.set_result(boc_->load_cell(hash.as_slice()));
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}
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void CellDbIn::store_cell(BlockIdExt block_id, td::Ref<vm::Cell> cell, td::Promise<td::Ref<vm::DataCell>> promise) {
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td::PerfWarningTimer{"storecell", 0.1};
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auto key_hash = get_key_hash(block_id);
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auto R = get_block(key_hash);
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// duplicate
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if (R.is_ok()) {
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promise.set_result(boc_->load_cell(cell->get_hash().as_slice()));
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return;
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}
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auto empty = get_empty_key_hash();
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auto ER = get_block(empty);
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ER.ensure();
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auto E = ER.move_as_ok();
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auto PR = get_block(E.prev);
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PR.ensure();
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auto P = PR.move_as_ok();
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CHECK(P.next == empty);
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DbEntry D{block_id, E.prev, empty, cell->get_hash().bits()};
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E.prev = key_hash;
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P.next = key_hash;
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if (P.is_empty()) {
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E.next = key_hash;
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P.prev = key_hash;
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}
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boc_->inc(cell);
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boc_->prepare_commit().ensure();
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vm::CellStorer stor{*cell_db_.get()};
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cell_db_->begin_transaction().ensure();
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boc_->commit(stor).ensure();
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set_block(empty, std::move(E));
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set_block(D.prev, std::move(P));
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set_block(key_hash, std::move(D));
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cell_db_->commit_transaction().ensure();
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boc_->set_loader(std::make_unique<vm::CellLoader>(cell_db_->snapshot())).ensure();
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td::actor::send_closure(parent_, &CellDb::update_snapshot, cell_db_->snapshot());
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promise.set_result(boc_->load_cell(cell->get_hash().as_slice()));
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}
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void CellDbIn::alarm() {
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auto R = get_block(last_gc_);
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R.ensure();
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auto N = R.move_as_ok();
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if (N.is_empty()) {
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last_gc_ = N.next;
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alarm_timestamp() = td::Timestamp::in(0.1);
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return;
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}
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auto P = td::PromiseCreator::lambda([SelfId = actor_id(this)](td::Result<bool> R) {
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if (R.is_error()) {
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td::actor::send_closure(SelfId, &CellDbIn::skip_gc);
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} else {
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auto value = R.move_as_ok();
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if (!value) {
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td::actor::send_closure(SelfId, &CellDbIn::skip_gc);
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} else {
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td::actor::send_closure(SelfId, &CellDbIn::gc);
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}
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}
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});
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td::actor::send_closure(root_db_, &RootDb::allow_state_gc, N.block_id, std::move(P));
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}
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void CellDbIn::gc() {
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auto R = get_block(last_gc_);
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R.ensure();
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auto N = R.move_as_ok();
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auto P = td::PromiseCreator::lambda([SelfId = actor_id(this)](td::Result<BlockHandle> R) {
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R.ensure();
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td::actor::send_closure(SelfId, &CellDbIn::gc_cont, R.move_as_ok());
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});
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td::actor::send_closure(root_db_, &RootDb::get_block_handle_external, N.block_id, false, std::move(P));
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}
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void CellDbIn::gc_cont(BlockHandle handle) {
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if (!handle->inited_state_boc()) {
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LOG(WARNING) << "inited_state_boc=false, but state in db. blockid=" << handle->id();
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}
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handle->set_deleted_state_boc();
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auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), handle](td::Result<td::Unit> R) {
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R.ensure();
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td::actor::send_closure(SelfId, &CellDbIn::gc_cont2, handle);
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});
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td::actor::send_closure(root_db_, &RootDb::store_block_handle, handle, std::move(P));
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}
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void CellDbIn::gc_cont2(BlockHandle handle) {
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td::PerfWarningTimer{"gccell", 0.1};
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auto FR = get_block(last_gc_);
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FR.ensure();
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auto F = FR.move_as_ok();
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auto PR = get_block(F.prev);
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PR.ensure();
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auto P = PR.move_as_ok();
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auto NR = get_block(F.next);
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NR.ensure();
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auto N = NR.move_as_ok();
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P.next = F.next;
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N.prev = F.prev;
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if (P.is_empty() && N.is_empty()) {
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P.prev = P.next;
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N.next = N.prev;
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}
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auto cell = boc_->load_cell(F.root_hash.as_slice()).move_as_ok();
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boc_->dec(cell);
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boc_->prepare_commit().ensure();
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vm::CellStorer stor{*cell_db_.get()};
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cell_db_->begin_transaction().ensure();
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boc_->commit(stor).ensure();
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cell_db_->erase(get_key(last_gc_)).ensure();
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set_block(F.prev, std::move(P));
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set_block(F.next, std::move(N));
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cell_db_->commit_transaction().ensure();
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alarm_timestamp() = td::Timestamp::now();
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boc_->set_loader(std::make_unique<vm::CellLoader>(cell_db_->snapshot())).ensure();
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td::actor::send_closure(parent_, &CellDb::update_snapshot, cell_db_->snapshot());
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DCHECK(get_block(last_gc_).is_error());
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last_gc_ = F.next;
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}
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void CellDbIn::skip_gc() {
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auto FR = get_block(last_gc_);
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FR.ensure();
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auto F = FR.move_as_ok();
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last_gc_ = F.next;
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alarm_timestamp() = td::Timestamp::in(0.01);
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}
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std::string CellDbIn::get_key(KeyHash key_hash) {
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if (!key_hash.is_zero()) {
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return PSTRING() << "desc" << key_hash;
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} else {
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return "desczero";
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}
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}
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CellDbIn::KeyHash CellDbIn::get_key_hash(BlockIdExt block_id) {
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if (block_id.is_valid()) {
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return get_tl_object_sha_bits256(create_tl_block_id(block_id));
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} else {
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return KeyHash::zero();
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}
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}
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BlockIdExt CellDbIn::get_empty_key() {
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return BlockIdExt{workchainInvalid, 0, 0, RootHash::zero(), FileHash::zero()};
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}
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CellDbIn::KeyHash CellDbIn::get_empty_key_hash() {
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return KeyHash::zero();
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}
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td::Result<CellDbIn::DbEntry> CellDbIn::get_block(KeyHash key_hash) {
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const auto key = get_key(key_hash);
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std::string value;
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auto R = cell_db_->get(td::as_slice(key), value);
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R.ensure();
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auto S = R.move_as_ok();
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if (S == td::KeyValue::GetStatus::NotFound) {
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return td::Status::Error(ErrorCode::notready, "not in db");
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}
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auto obj = fetch_tl_object<ton_api::db_celldb_value>(td::BufferSlice{value}, true);
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obj.ensure();
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return DbEntry{obj.move_as_ok()};
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}
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void CellDbIn::set_block(KeyHash key_hash, DbEntry e) {
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const auto key = get_key(key_hash);
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cell_db_->set(td::as_slice(key), e.release()).ensure();
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}
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void CellDb::load_cell(RootHash hash, td::Promise<td::Ref<vm::DataCell>> promise) {
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if (!started_) {
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td::actor::send_closure(cell_db_, &CellDbIn::load_cell, hash, std::move(promise));
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} else {
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auto R = boc_->load_cell(hash.as_slice());
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if (R.is_error()) {
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td::actor::send_closure(cell_db_, &CellDbIn::load_cell, hash, std::move(promise));
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} else {
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promise.set_result(R.move_as_ok());
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}
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}
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}
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void CellDb::store_cell(BlockIdExt block_id, td::Ref<vm::Cell> cell, td::Promise<td::Ref<vm::DataCell>> promise) {
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td::actor::send_closure(cell_db_, &CellDbIn::store_cell, block_id, std::move(cell), std::move(promise));
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}
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void CellDb::start_up() {
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boc_ = vm::DynamicBagOfCellsDb::create();
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cell_db_ = td::actor::create_actor<CellDbIn>("celldbin", root_db_, actor_id(this), path_);
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}
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CellDbIn::DbEntry::DbEntry(tl_object_ptr<ton_api::db_celldb_value> entry)
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: block_id(create_block_id(entry->block_id_))
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, prev(entry->prev_)
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, next(entry->next_)
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, root_hash(entry->root_hash_) {
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}
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td::BufferSlice CellDbIn::DbEntry::release() {
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return create_serialize_tl_object<ton_api::db_celldb_value>(create_tl_block_id(block_id), prev, next, root_hash);
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}
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} // namespace validator
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} // namespace ton
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