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ton/validator/manager.hpp
ton 9d6853ef24 liteclient signature check support
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
2019-09-14 18:14:55 +04:00

562 lines
24 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
*/
#pragma once
#include "interfaces/validator-manager.h"
#include "interfaces/db.h"
#include "validator-group.hpp"
#include "shard-client.hpp"
#include "manager-init.h"
#include "state-serializer.hpp"
#include "rldp/rldp.h"
#include "token-manager.h"
#include <map>
#include <set>
#include <list>
namespace ton {
namespace validator {
class WaitBlockState;
class WaitZeroState;
class WaitShardState;
class WaitBlockData;
template <class MType>
struct MessageId {
AccountIdPrefixFull dst;
typename MType::Hash hash;
bool operator<(const MessageId &msg) const {
if (dst < msg.dst) {
return true;
}
if (msg.dst < dst) {
return false;
}
return hash < msg.hash;
}
};
template <class MType>
class MessageExt {
public:
auto shard() const {
return message_->shard();
}
auto ext_id() const {
auto shard = message_->shard();
return MessageId<MType>{shard, message_->hash()};
}
auto message() const {
return message_;
}
auto hash() const {
return message_->hash();
}
bool is_active() {
if (!active_) {
if (reactivate_at_.is_in_past()) {
active_ = true;
generation_++;
}
}
return active_;
}
bool can_postpone() const {
return generation_ <= 2;
}
void postpone() {
if (!active_) {
return;
}
active_ = false;
reactivate_at_ = td::Timestamp::in(generation_ * 5.0);
}
bool expired() const {
return delete_at_.is_in_past();
}
MessageExt(td::Ref<MType> msg) : message_(std::move(msg)) {
delete_at_ = td::Timestamp::in(600);
}
private:
td::Ref<MType> message_;
td::uint32 generation_ = 0;
bool active_ = true;
td::Timestamp reactivate_at_;
td::Timestamp delete_at_;
};
class BlockHandleLru : public td::ListNode {
public:
BlockHandle handle() const {
return handle_;
}
BlockHandleLru(BlockHandle h) : handle_(std::move(h)) {
}
static inline BlockHandleLru *from_list_node(ListNode *node) {
return static_cast<BlockHandleLru *>(node);
}
private:
BlockHandle handle_;
};
class ValidatorManagerImpl : public ValidatorManager {
private:
// WAITERS
//
// list of promises waiting for same object
template <typename ResType>
struct Waiter {
td::Timestamp timeout;
td::uint32 priority;
td::Promise<ResType> promise;
Waiter() {
}
Waiter(td::Timestamp timeout, td::uint32 priority, td::Promise<ResType> promise)
: timeout(timeout), priority(priority), promise(std::move(promise)) {
}
};
template <typename ActorT, typename ResType>
struct WaitList {
std::vector<Waiter<ResType>> waiting_;
td::actor::ActorId<ActorT> actor_;
std::pair<td::Timestamp, td::uint32> get_timeout() const {
td::Timestamp t = td::Timestamp::now();
td::uint32 prio = 0;
for (auto &v : waiting_) {
if (v.timeout.at() > t.at()) {
t = v.timeout;
}
if (v.priority > prio) {
prio = v.priority;
}
}
return {td::Timestamp::at(t.at() + 10.0), prio};
}
void check_timers() {
td::uint32 j = 0;
auto f = waiting_.begin();
auto t = waiting_.end();
while (f < t) {
if (f->timeout.is_in_past()) {
f->promise.set_error(td::Status::Error(ErrorCode::timeout, "timeout"));
t--;
std::swap(*f, *t);
} else {
f++;
j++;
}
}
waiting_.resize(j);
}
};
std::map<BlockIdExt, WaitList<WaitBlockState, td::Ref<ShardState>>> wait_state_;
std::map<BlockIdExt, WaitList<WaitBlockData, td::Ref<BlockData>>> wait_block_data_;
struct WaitBlockHandle {
std::vector<td::Promise<BlockHandle>> waiting_;
};
std::map<BlockIdExt, WaitBlockHandle> wait_block_handle_;
private:
// HANDLES CACHE
std::map<BlockIdExt, std::weak_ptr<BlockHandleInterface>> handles_;
static constexpr td::uint32 handle_lru_max_size_ = 16;
td::uint32 handle_lru_size_ = 0;
std::map<BlockIdExt, std::unique_ptr<BlockHandleLru>> handle_lru_map_;
td::ListNode handle_lru_;
void add_handle_to_lru(BlockHandle handle);
BlockHandle get_handle_from_lru(BlockIdExt id);
private:
struct ShardTopBlockDescriptionId {
ShardIdFull id;
CatchainSeqno cc_seqno;
bool operator<(const ShardTopBlockDescriptionId &with) const {
return id < with.id || (id == with.id && cc_seqno < with.cc_seqno);
}
};
// DATA FOR COLLATOR
std::map<ShardTopBlockDescriptionId, td::Ref<ShardTopBlockDescription>> shard_blocks_;
std::map<MessageId<ExtMessage>, std::unique_ptr<MessageExt<ExtMessage>>> ext_messages_;
std::map<ExtMessage::Hash, MessageId<ExtMessage>> ext_messages_hashes_;
// IHR ?
std::map<MessageId<IhrMessage>, std::unique_ptr<MessageExt<IhrMessage>>> ihr_messages_;
std::map<IhrMessage::Hash, MessageId<IhrMessage>> ihr_messages_hashes_;
private:
// VALIDATOR GROUPS
ValidatorSessionId get_validator_set_id(ShardIdFull shard, td::Ref<ValidatorSet> val_set, td::Bits256 opts_hash);
td::actor::ActorOwn<ValidatorGroup> create_validator_group(ValidatorSessionId session_id, ShardIdFull shard,
td::Ref<ValidatorSet> validator_set,
validatorsession::ValidatorSessionOptions opts,
bool create_catchain);
std::map<ValidatorSessionId, td::actor::ActorOwn<ValidatorGroup>> validator_groups_;
std::map<ValidatorSessionId, td::actor::ActorOwn<ValidatorGroup>> next_validator_groups_;
std::set<ValidatorSessionId> check_gc_list_;
std::vector<ValidatorSessionId> gc_list_;
private:
// MASTERCHAIN LAST BLOCK
BlockSeqno last_masterchain_seqno_ = 0;
BlockSeqno last_init_masterchain_seqno_ = 0;
td::Ref<MasterchainState> last_masterchain_state_;
BlockIdExt last_masterchain_block_id_;
BlockHandle last_masterchain_block_handle_;
BlockHandle last_key_block_handle_;
BlockHandle last_known_key_block_handle_;
BlockHandle gc_masterchain_handle_;
td::Ref<MasterchainState> gc_masterchain_state_;
bool gc_advancing_ = false;
BlockIdExt last_rotate_block_id_;
std::map<BlockSeqno, std::tuple<BlockHandle, td::Ref<MasterchainState>, std::vector<td::Promise<td::Unit>>>>
pending_masterchain_states_;
void new_masterchain_block();
void update_shards();
void update_shard_blocks();
void written_destroyed_validator_sessions(std::vector<td::actor::ActorId<ValidatorGroup>> groups);
void updated_init_block(BlockIdExt last_rotate_block_id) {
last_rotate_block_id_ = last_rotate_block_id;
}
void got_next_gc_masterchain_handle(BlockHandle handle);
void got_next_gc_masterchain_state(BlockHandle handle, td::Ref<MasterchainState> state);
void advance_gc(BlockHandle handle, td::Ref<MasterchainState> state);
void try_advance_gc_masterchain_block();
void update_gc_block_handle(BlockHandle handle, td::Promise<td::Unit> promise) override;
public:
void install_callback(std::unique_ptr<Callback> new_callback, td::Promise<td::Unit> promise) override {
callback_ = std::move(new_callback);
promise.set_value(td::Unit());
}
void add_permanent_key(PublicKeyHash key, td::Promise<td::Unit> promise) override {
permanent_keys_.insert(key);
promise.set_value(td::Unit());
}
void add_temp_key(PublicKeyHash key, td::Promise<td::Unit> promise) override {
temp_keys_.insert(key);
promise.set_value(td::Unit());
}
void del_permanent_key(PublicKeyHash key, td::Promise<td::Unit> promise) override {
permanent_keys_.erase(key);
promise.set_value(td::Unit());
}
void del_temp_key(PublicKeyHash key, td::Promise<td::Unit> promise) override {
temp_keys_.erase(key);
promise.set_value(td::Unit());
}
void validate_block_is_next_proof(BlockIdExt prev_block_id, BlockIdExt next_block_id, td::BufferSlice proof,
td::Promise<td::Unit> promise) override;
void validate_block_proof(BlockIdExt block_id, td::BufferSlice proof, td::Promise<td::Unit> promise) override;
void validate_block_proof_link(BlockIdExt block_id, td::BufferSlice proof, td::Promise<td::Unit> promise) override;
void validate_block_proof_rel(BlockIdExt block_id, BlockIdExt rel_block_id, td::BufferSlice proof,
td::Promise<td::Unit> promise) override;
void validate_block(ReceivedBlock block, td::Promise<BlockHandle> promise) override;
void prevalidate_block(BlockBroadcast broadcast, td::Promise<td::Unit> promise) override;
//void create_validate_block(BlockId block, td::BufferSlice data, td::Promise<Block> promise) = 0;
void sync_complete(td::Promise<td::Unit> promise) override;
void get_next_block(BlockIdExt block_id, td::Promise<BlockHandle> promise) override;
void get_next_key_blocks(BlockIdExt block_id, td::uint32 cnt, td::Promise<std::vector<BlockIdExt>> promise) override;
void get_block_data(BlockHandle handle, td::Promise<td::BufferSlice> promise) override;
void check_zero_state_exists(BlockIdExt block_id, td::Promise<bool> promise) override;
void get_zero_state(BlockIdExt block_id, td::Promise<td::BufferSlice> promise) override;
void check_persistent_state_exists(BlockIdExt block_id, BlockIdExt masterchain_block_id,
td::Promise<bool> promise) override;
void get_persistent_state(BlockIdExt block_id, BlockIdExt masterchain_block_id,
td::Promise<td::BufferSlice> promise) override;
void get_block_proof(BlockHandle handle, td::Promise<td::BufferSlice> promise) override;
void get_block_proof_link(BlockHandle block_id, td::Promise<td::BufferSlice> promise) override;
//void get_block_description(BlockIdExt block_id, td::Promise<BlockDescription> promise) override;
void new_external_message(td::BufferSlice data) override;
void new_ihr_message(td::BufferSlice data) override;
void new_shard_block(BlockIdExt block_id, CatchainSeqno cc_seqno, td::BufferSlice data) override;
void add_ext_server_id(adnl::AdnlNodeIdShort id) override;
void add_ext_server_port(td::uint16 port) override;
void run_ext_query(td::BufferSlice data, td::Promise<td::BufferSlice> promise) override;
void get_block_handle(BlockIdExt id, bool force, td::Promise<BlockHandle> promise) override;
void set_block_state(BlockHandle handle, td::Ref<ShardState> state,
td::Promise<td::Ref<ShardState>> promise) override;
void store_persistent_state_file(BlockIdExt block_id, BlockIdExt masterchain_block_id, td::BufferSlice state,
td::Promise<td::Unit> promise) override;
void store_zero_state_file(BlockIdExt block_id, td::BufferSlice state, td::Promise<td::Unit> promise) override;
void wait_block_state(BlockHandle handle, td::uint32 priority, td::Timestamp timeout,
td::Promise<td::Ref<ShardState>> promise) override;
void wait_block_state_short(BlockIdExt block_id, td::uint32 priority, td::Timestamp timeout,
td::Promise<td::Ref<ShardState>> promise) override;
void set_block_data(BlockHandle handle, td::Ref<BlockData> data, td::Promise<td::Unit> promise) override;
void wait_block_data(BlockHandle handle, td::uint32 priority, td::Timestamp,
td::Promise<td::Ref<BlockData>> promise) override;
void wait_block_data_short(BlockIdExt block_id, td::uint32 priority, td::Timestamp,
td::Promise<td::Ref<BlockData>> promise) override;
void set_block_proof(BlockHandle handle, td::Ref<Proof> proof, td::Promise<td::Unit> promise) override;
void wait_block_proof(BlockHandle handle, td::Timestamp timeout, td::Promise<td::Ref<Proof>> promise) override;
void wait_block_proof_short(BlockIdExt id, td::Timestamp timeout, td::Promise<td::Ref<Proof>> promise) override;
void set_block_proof_link(BlockHandle handle, td::Ref<ProofLink> proof, td::Promise<td::Unit> promise) override;
void wait_block_proof_link(BlockHandle handle, td::Timestamp timeout,
td::Promise<td::Ref<ProofLink>> promise) override;
void wait_block_proof_link_short(BlockIdExt id, td::Timestamp timeout,
td::Promise<td::Ref<ProofLink>> promise) override;
void set_block_signatures(BlockHandle handle, td::Ref<BlockSignatureSet> signatures,
td::Promise<td::Unit> promise) override;
void wait_block_signatures(BlockHandle handle, td::Timestamp timeout,
td::Promise<td::Ref<BlockSignatureSet>> promise) override;
void wait_block_signatures_short(BlockIdExt id, td::Timestamp timeout,
td::Promise<td::Ref<BlockSignatureSet>> promise) override;
void set_block_candidate(BlockIdExt id, BlockCandidate candidate, td::Promise<td::Unit> promise) override;
void wait_block_state_merge(BlockIdExt left_id, BlockIdExt right_id, td::uint32 priority, td::Timestamp timeout,
td::Promise<td::Ref<ShardState>> promise) override;
void wait_prev_block_state(BlockHandle handle, td::uint32 priority, td::Timestamp timeout,
td::Promise<td::Ref<ShardState>> promise) override;
void wait_block_message_queue(BlockHandle handle, td::uint32 priority, td::Timestamp timeout,
td::Promise<td::Ref<MessageQueue>> promise) override;
void wait_block_message_queue_short(BlockIdExt id, td::uint32 priority, td::Timestamp timeout,
td::Promise<td::Ref<MessageQueue>> promise) override;
void get_external_messages(ShardIdFull shard, td::Promise<std::vector<td::Ref<ExtMessage>>> promise) override;
void get_ihr_messages(ShardIdFull shard, td::Promise<std::vector<td::Ref<IhrMessage>>> promise) override;
void get_shard_blocks(BlockIdExt masterchain_block_id,
td::Promise<std::vector<td::Ref<ShardTopBlockDescription>>> promise) override;
void complete_external_messages(std::vector<ExtMessage::Hash> to_delay,
std::vector<ExtMessage::Hash> to_delete) override;
void complete_ihr_messages(std::vector<IhrMessage::Hash> to_delay, std::vector<IhrMessage::Hash> to_delete) override;
void set_next_block(BlockIdExt prev, BlockIdExt next, td::Promise<td::Unit> promise) override;
void get_block_data_from_db(BlockHandle handle, td::Promise<td::Ref<BlockData>> promise) override;
void get_block_data_from_db_short(BlockIdExt block_id, td::Promise<td::Ref<BlockData>> promise) override;
void get_shard_state_from_db(BlockHandle handle, td::Promise<td::Ref<ShardState>> promise) override;
void get_shard_state_from_db_short(BlockIdExt block_id, td::Promise<td::Ref<ShardState>> promise) override;
void get_block_candidate_from_db(PublicKey source, BlockIdExt id, FileHash collated_data_file_hash,
td::Promise<BlockCandidate> promise) override;
void get_block_proof_from_db(BlockHandle handle, td::Promise<td::Ref<Proof>> promise) override;
void get_block_proof_from_db_short(BlockIdExt id, td::Promise<td::Ref<Proof>> promise) override;
void get_block_proof_link_from_db(BlockHandle handle, td::Promise<td::Ref<ProofLink>> promise) override;
void get_block_proof_link_from_db_short(BlockIdExt id, td::Promise<td::Ref<ProofLink>> promise) override;
void get_block_by_lt_from_db(AccountIdPrefixFull account, LogicalTime lt, td::Promise<BlockIdExt> promise) override;
void get_block_by_unix_time_from_db(AccountIdPrefixFull account, UnixTime ts,
td::Promise<BlockIdExt> promise) override;
void get_block_by_seqno_from_db(AccountIdPrefixFull account, BlockSeqno seqno,
td::Promise<BlockIdExt> promise) override;
// get block handle declared in parent class
void write_handle(BlockHandle handle, td::Promise<td::Unit> promise) override;
void written_handle(BlockHandle handle, td::Promise<td::Unit> promise);
void new_block(BlockHandle handle, td::Ref<ShardState> state, td::Promise<td::Unit> promise) override;
void new_block_cont(BlockHandle handle, td::Ref<ShardState> state, td::Promise<td::Unit> promise);
void get_top_masterchain_state(td::Promise<td::Ref<MasterchainState>> promise) override;
void get_top_masterchain_block(td::Promise<BlockIdExt> promise) override;
void get_top_masterchain_state_block(td::Promise<std::pair<td::Ref<MasterchainState>, BlockIdExt>> promise) override;
void send_get_block_request(BlockIdExt id, td::uint32 priority, td::Promise<ReceivedBlock> promise) override;
void send_get_zero_state_request(BlockIdExt id, td::uint32 priority, td::Promise<td::BufferSlice> promise) override;
void send_get_persistent_state_request(BlockIdExt id, BlockIdExt masterchain_block_id, td::uint32 priority,
td::Promise<td::BufferSlice> promise) override;
void send_get_block_proof_request(BlockIdExt block_id, td::uint32 priority,
td::Promise<td::BufferSlice> promise) override;
void send_get_block_proof_link_request(BlockIdExt block_id, td::uint32 priority,
td::Promise<td::BufferSlice> promise) override;
void send_get_next_key_blocks_request(BlockIdExt block_id, td::uint32 priority,
td::Promise<std::vector<BlockIdExt>> promise) override;
void send_external_message(td::Ref<ExtMessage> message) override;
void send_ihr_message(td::Ref<IhrMessage> message) override;
void send_top_shard_block_description(td::Ref<ShardTopBlockDescription> desc) override;
void send_block_broadcast(BlockBroadcast broadcast) override;
void update_shard_client_state(BlockIdExt masterchain_block_id, td::Promise<td::Unit> promise) override;
void get_shard_client_state(td::Promise<BlockIdExt> promise) override;
void subscribe_to_shard(ShardIdFull shard) override;
void update_async_serializer_state(AsyncSerializerState state, td::Promise<td::Unit> promise) override;
void get_async_serializer_state(td::Promise<AsyncSerializerState> promise) override;
void try_get_static_file(FileHash file_hash, td::Promise<td::BufferSlice> promise) override;
void get_download_token(size_t download_size, td::uint32 priority, td::Timestamp timeout,
td::Promise<std::unique_ptr<DownloadToken>> promise) override {
td::actor::send_closure(token_manager_, &TokenManager::get_download_token, download_size, priority, timeout,
std::move(promise));
}
void check_is_hardfork(BlockIdExt block_id, td::Promise<bool> promise) override {
CHECK(block_id.is_masterchain());
promise.set_result(opts_->is_hardfork(block_id));
}
void get_vertical_height(BlockSeqno seqno, td::Promise<td::uint32> promise) override {
promise.set_result(opts_->get_vertical_height(seqno));
}
void add_shard_block_description(td::Ref<ShardTopBlockDescription> desc);
void register_block_handle(BlockHandle handle);
void finished_wait_state(BlockHandle handle, td::Result<td::Ref<ShardState>> R);
void finished_wait_data(BlockHandle handle, td::Result<td::Ref<BlockData>> R);
void start_up() override;
void started(ValidatorManagerInitResult result);
void read_gc_list(std::vector<ValidatorSessionId> list);
bool is_validator();
PublicKeyHash get_validator(td::Ref<ValidatorSet> val_set);
ValidatorManagerImpl(td::Ref<ValidatorManagerOptions> opts, std::string db_root,
td::actor::ActorId<keyring::Keyring> keyring, td::actor::ActorId<adnl::Adnl> adnl,
td::actor::ActorId<rldp::Rldp> rldp, td::actor::ActorId<overlay::Overlays> overlays)
: opts_(std::move(opts)), db_root_(db_root), keyring_(keyring), adnl_(adnl), rldp_(rldp), overlays_(overlays) {
}
public:
void allow_delete(BlockIdExt block_id, td::Promise<bool> promise);
void allow_archive(BlockIdExt block_id, td::Promise<bool> promise);
void allow_block_data_gc(BlockIdExt block_id, bool is_archive, td::Promise<bool> promise) override {
if (!is_archive) {
allow_archive(block_id, std::move(promise));
} else {
allow_delete(block_id, std::move(promise));
}
}
void allow_block_state_gc(BlockIdExt block_id, td::Promise<bool> promise) override;
void allow_zero_state_file_gc(BlockIdExt block_id, td::Promise<bool> promise) override {
promise.set_result(false);
}
void allow_persistent_state_file_gc(BlockIdExt block_id, BlockIdExt masterchain_block_id,
td::Promise<bool> promise) override;
void allow_block_signatures_gc(BlockIdExt block_id, td::Promise<bool> promise) override {
allow_archive(block_id, std::move(promise));
}
void allow_block_proof_gc(BlockIdExt block_id, bool is_archive, td::Promise<bool> promise) override {
if (!is_archive) {
allow_archive(block_id, std::move(promise));
} else {
allow_delete(block_id, std::move(promise));
}
}
void allow_block_proof_link_gc(BlockIdExt block_id, bool is_archive, td::Promise<bool> promise) override {
if (!is_archive) {
allow_archive(block_id, std::move(promise));
} else {
allow_delete(block_id, std::move(promise));
}
}
void allow_block_candidate_gc(BlockIdExt block_id, td::Promise<bool> promise) override {
allow_block_state_gc(block_id, std::move(promise));
}
void allow_block_info_gc(BlockIdExt block_id, td::Promise<bool> promise) override {
allow_delete(block_id, std::move(promise));
}
void send_peek_key_block_request();
void got_next_key_blocks(std::vector<BlockIdExt> vec);
void update_last_known_key_block(BlockHandle handle, bool send_request) override;
void prepare_stats(td::Promise<std::vector<std::pair<std::string, std::string>>> promise) override;
private:
td::Timestamp resend_shard_blocks_at_;
td::Timestamp check_waiters_at_;
td::Timestamp check_shard_clients_;
void alarm() override;
std::map<ShardTopBlockDescriptionId, td::Ref<ShardTopBlockDescription>> out_shard_blocks_;
private:
td::actor::ActorOwn<TokenManager> token_manager_;
private:
std::set<PublicKeyHash> permanent_keys_;
std::set<PublicKeyHash> temp_keys_;
private:
td::Ref<ValidatorManagerOptions> opts_;
private:
td::actor::ActorOwn<adnl::AdnlExtServer> lite_server_;
std::vector<td::uint16> pending_ext_ports_;
std::vector<adnl::AdnlNodeIdShort> pending_ext_ids_;
void created_ext_server(td::actor::ActorOwn<adnl::AdnlExtServer> lite_server);
private:
td::actor::ActorOwn<ShardClient> shard_client_;
BlockSeqno min_confirmed_masterchain_seqno_{0};
BlockSeqno state_serializer_masterchain_seqno_{0};
void shard_client_update(BlockSeqno seqno);
void state_serializer_update(BlockSeqno seqno);
std::string db_root_;
td::actor::ActorId<keyring::Keyring> keyring_;
td::actor::ActorId<adnl::Adnl> adnl_;
td::actor::ActorId<rldp::Rldp> rldp_;
td::actor::ActorId<overlay::Overlays> overlays_;
td::actor::ActorOwn<AsyncStateSerializer> serializer_;
private:
std::unique_ptr<Callback> callback_;
td::actor::ActorOwn<Db> db_;
bool started_ = false;
bool allow_validate_ = false;
private:
double state_ttl() const {
return opts_->state_ttl();
}
double block_ttl() const {
return opts_->block_ttl();
}
};
} // namespace validator
} // namespace ton