/* 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 "td/utils/SharedSlice.h" #include "full-node-shard.hpp" #include "ton/ton-shard.h" #include "ton/ton-tl.hpp" #include "adnl/utils.hpp" #include "net/download-next-block.hpp" #include "net/download-block.hpp" #include "net/download-state.hpp" #include "net/download-proof.hpp" #include "net/get-next-key-blocks.hpp" #include "common/delay.h" namespace ton { namespace validator { namespace fullnode { void FullNodeShardImpl::create_overlay() { class Callback : public overlay::Overlays::Callback { public: void receive_message(adnl::AdnlNodeIdShort src, overlay::OverlayIdShort overlay_id, td::BufferSlice data) override { // just ignore } void receive_query(adnl::AdnlNodeIdShort src, overlay::OverlayIdShort overlay_id, td::BufferSlice data, td::Promise promise) override { td::actor::send_closure(node_, &FullNodeShardImpl::receive_query, src, std::move(data), std::move(promise)); } void receive_broadcast(PublicKeyHash src, overlay::OverlayIdShort overlay_id, td::BufferSlice data) override { td::actor::send_closure(node_, &FullNodeShardImpl::receive_broadcast, src, std::move(data)); } Callback(td::actor::ActorId node) : node_(node) { } private: td::actor::ActorId node_; }; td::actor::send_closure(overlays_, &overlay::Overlays::create_public_overlay, adnl_id_, overlay_id_full_.clone(), std::make_unique(actor_id(this)), rules_); td::actor::send_closure(rldp_, &rldp::Rldp::add_id, adnl_id_); if (cert_) { td::actor::send_closure(overlays_, &overlay::Overlays::update_certificate, adnl_id_, overlay_id_, local_id_, cert_); } } void FullNodeShardImpl::update_adnl_id(adnl::AdnlNodeIdShort adnl_id, td::Promise promise) { td::actor::send_closure(overlays_, &ton::overlay::Overlays::delete_overlay, adnl_id_, overlay_id_); adnl_id_ = adnl_id; create_overlay(); } void FullNodeShardImpl::try_get_next_block(td::Timestamp timeout, td::Promise promise) { if (timeout.is_in_past()) { promise.set_error(td::Status::Error(ErrorCode::timeout, "timeout")); return; } td::actor::create_actor("downloadnext", adnl_id_, overlay_id_, handle_, download_next_priority(), timeout, validator_manager_, rldp_, overlays_, adnl_, std::move(promise)) .release(); } void FullNodeShardImpl::got_next_block(td::Result R) { if (R.is_error()) { if (R.error().code() == ErrorCode::timeout) { get_next_block(); return; } } attempt_ = 0; R.ensure(); auto old_seqno = handle_->id().id.seqno; handle_ = R.move_as_ok(); CHECK(handle_->id().id.seqno == old_seqno + 1); if (promise_) { if (handle_->unix_time() > td::Clocks::system() - 300) { promise_.set_value(td::Unit()); } else { sync_completed_at_ = td::Timestamp::in(60.0); } } get_next_block(); } void FullNodeShardImpl::get_next_block() { attempt_++; auto P = td::PromiseCreator::lambda([validator_manager = validator_manager_, attempt = attempt_, block_id = handle_->id(), SelfId = actor_id(this)](td::Result R) { if (R.is_ok()) { auto P = td::PromiseCreator::lambda([SelfId](td::Result R) { td::actor::send_closure(SelfId, &FullNodeShardImpl::got_next_block, std::move(R)); }); td::actor::send_closure(validator_manager, &ValidatorManagerInterface::validate_block, R.move_as_ok(), std::move(P)); } else { auto S = R.move_as_error(); if (S.code() != ErrorCode::notready && S.code() != ErrorCode::timeout) { VLOG(FULL_NODE_WARNING) << "failed to download next block after " << block_id << ": " << S; } else { if ((attempt % 128) == 0) { VLOG(FULL_NODE_INFO) << "failed to download next block after " << block_id << ": " << S; } else { VLOG(FULL_NODE_DEBUG) << "failed to download next block after " << block_id << ": " << S; } } delay_action([SelfId]() mutable { td::actor::send_closure(SelfId, &FullNodeShardImpl::get_next_block); }, td::Timestamp::in(0.1)); } }); try_get_next_block(td::Timestamp::in(2.0), std::move(P)); } void FullNodeShardImpl::process_query(adnl::AdnlNodeIdShort src, ton_api::tonNode_getNextBlockDescription &query, td::Promise promise) { if (query.prev_block_->workchain_ != masterchainId || static_cast(query.prev_block_->shard_) != shardIdAll) { promise.set_error(td::Status::Error(ErrorCode::protoviolation, "next block allowed only for masterchain")); return; } auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { auto x = create_serialize_tl_object(); promise.set_value(std::move(x)); } else { auto B = R.move_as_ok(); if (!B->received() || !B->inited_proof()) { auto x = create_serialize_tl_object(); promise.set_value(std::move(x)); } else { auto x = create_serialize_tl_object(create_tl_block_id(B->id())); promise.set_value(std::move(x)); } } }); td::actor::send_closure(validator_manager_, &ValidatorManagerInterface::get_next_block, create_block_id(query.prev_block_), std::move(P)); } void FullNodeShardImpl::process_query(adnl::AdnlNodeIdShort src, ton_api::tonNode_prepareBlock &query, td::Promise promise) { auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { auto x = create_serialize_tl_object(); promise.set_value(std::move(x)); } else { auto B = R.move_as_ok(); if (!B->received()) { auto x = create_serialize_tl_object(); promise.set_value(std::move(x)); } else { auto x = create_serialize_tl_object(); promise.set_value(std::move(x)); } } }); td::actor::send_closure(validator_manager_, &ValidatorManagerInterface::get_block_handle, create_block_id(query.block_), false, std::move(P)); } void FullNodeShardImpl::process_query(adnl::AdnlNodeIdShort src, ton_api::tonNode_downloadBlock &query, td::Promise promise) { auto P = td::PromiseCreator::lambda([validator_manager = validator_manager_, promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(td::Status::Error(ErrorCode::protoviolation, "unknown block")); } else { auto B = R.move_as_ok(); if (!B->received()) { promise.set_error(td::Status::Error(ErrorCode::protoviolation, "unknown block")); } else { td::actor::send_closure(validator_manager, &ValidatorManagerInterface::get_block_data, B, std::move(promise)); } } }); td::actor::send_closure(validator_manager_, &ValidatorManagerInterface::get_block_handle, create_block_id(query.block_), false, std::move(P)); } void FullNodeShardImpl::process_query(adnl::AdnlNodeIdShort src, ton_api::tonNode_prepareBlockProof &query, td::Promise promise) { if (query.block_->seqno_ == 0) { promise.set_error(td::Status::Error(ErrorCode::protoviolation, "cannot download proof for zero state")); return; } auto P = td::PromiseCreator::lambda([allow_partial = query.allow_partial_, promise = std::move(promise), validator_manager = validator_manager_](td::Result R) mutable { if (R.is_error()) { auto x = create_serialize_tl_object(); promise.set_value(std::move(x)); return; } else { auto handle = R.move_as_ok(); if (!handle || (!handle->inited_proof() && (!allow_partial || !handle->inited_proof_link()))) { auto x = create_serialize_tl_object(); promise.set_value(std::move(x)); return; } if (handle->inited_proof() && handle->id().is_masterchain()) { auto x = create_serialize_tl_object(); promise.set_value(std::move(x)); } else { auto x = create_serialize_tl_object(); promise.set_value(std::move(x)); } } }); td::actor::send_closure(validator_manager_, &ValidatorManagerInterface::get_block_handle, create_block_id(query.block_), false, std::move(P)); } void FullNodeShardImpl::process_query(adnl::AdnlNodeIdShort src, ton_api::tonNode_downloadBlockProof &query, td::Promise promise) { auto P = td::PromiseCreator::lambda( [promise = std::move(promise), validator_manager = validator_manager_](td::Result R) mutable { if (R.is_error()) { promise.set_error(td::Status::Error(ErrorCode::protoviolation, "unknown block proof")); return; } else { auto handle = R.move_as_ok(); if (!handle || !handle->inited_proof()) { promise.set_error(td::Status::Error(ErrorCode::protoviolation, "unknown block proof")); return; } td::actor::send_closure(validator_manager, &ValidatorManagerInterface::get_block_proof, handle, std::move(promise)); } }); td::actor::send_closure(validator_manager_, &ValidatorManagerInterface::get_block_handle, create_block_id(query.block_), false, std::move(P)); } void FullNodeShardImpl::process_query(adnl::AdnlNodeIdShort src, ton_api::tonNode_downloadBlockProofLink &query, td::Promise promise) { auto P = td::PromiseCreator::lambda( [promise = std::move(promise), validator_manager = validator_manager_](td::Result R) mutable { if (R.is_error()) { promise.set_error(td::Status::Error(ErrorCode::protoviolation, "unknown block proof")); return; } else { auto handle = R.move_as_ok(); if (!handle || !handle->inited_proof_link()) { promise.set_error(td::Status::Error(ErrorCode::protoviolation, "unknown block proof")); return; } td::actor::send_closure(validator_manager, &ValidatorManagerInterface::get_block_proof_link, handle, std::move(promise)); } }); td::actor::send_closure(validator_manager_, &ValidatorManagerInterface::get_block_handle, create_block_id(query.block_), false, std::move(P)); } void FullNodeShardImpl::process_query(adnl::AdnlNodeIdShort src, ton_api::tonNode_prepareZeroState &query, td::Promise promise) { auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), promise = std::move(promise)](td::Result R) mutable { if (R.is_error() || !R.move_as_ok()) { auto x = create_serialize_tl_object(); promise.set_value(std::move(x)); return; } auto x = create_serialize_tl_object(); promise.set_value(std::move(x)); }); auto block_id = create_block_id(query.block_); td::actor::send_closure(validator_manager_, &ValidatorManagerInterface::check_zero_state_exists, block_id, std::move(P)); } void FullNodeShardImpl::process_query(adnl::AdnlNodeIdShort src, ton_api::tonNode_preparePersistentState &query, td::Promise promise) { auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), promise = std::move(promise)](td::Result R) mutable { if (R.is_error() || !R.move_as_ok()) { auto x = create_serialize_tl_object(); promise.set_value(std::move(x)); return; } auto x = create_serialize_tl_object(); promise.set_value(std::move(x)); }); auto block_id = create_block_id(query.block_); auto masterchain_block_id = create_block_id(query.masterchain_block_); td::actor::send_closure(validator_manager_, &ValidatorManagerInterface::check_persistent_state_exists, block_id, masterchain_block_id, std::move(P)); } void FullNodeShardImpl::process_query(adnl::AdnlNodeIdShort src, ton_api::tonNode_getNextKeyBlockIds &query, td::Promise promise) { auto cnt = static_cast(query.max_size_); if (cnt > 8) { cnt = 8; } auto P = td::PromiseCreator::lambda([promise = std::move(promise), cnt](td::Result> R) mutable { if (R.is_error()) { LOG(WARNING) << "getnextkey: " << R.move_as_error(); auto x = create_serialize_tl_object( std::vector>{}, false, true); promise.set_value(std::move(x)); return; } auto res = R.move_as_ok(); std::vector> v; for (auto &b : res) { v.emplace_back(create_tl_block_id(b)); } auto x = create_serialize_tl_object(std::move(v), res.size() < cnt, false); promise.set_value(std::move(x)); }); auto block_id = create_block_id(query.block_); td::actor::send_closure(validator_manager_, &ValidatorManagerInterface::get_next_key_blocks, block_id, cnt, std::move(P)); } void FullNodeShardImpl::process_query(adnl::AdnlNodeIdShort src, ton_api::tonNode_downloadZeroState &query, td::Promise promise) { auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error_prefix("failed to get state from db: ")); return; } promise.set_value(R.move_as_ok()); }); auto block_id = create_block_id(query.block_); td::actor::send_closure(validator_manager_, &ValidatorManagerInterface::get_zero_state, block_id, std::move(P)); } void FullNodeShardImpl::process_query(adnl::AdnlNodeIdShort src, ton_api::tonNode_downloadPersistentState &query, td::Promise promise) { auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error_prefix("failed to get state from db: ")); return; } promise.set_value(R.move_as_ok()); }); auto block_id = create_block_id(query.block_); auto masterchain_block_id = create_block_id(query.masterchain_block_); td::actor::send_closure(validator_manager_, &ValidatorManagerInterface::get_persistent_state, block_id, masterchain_block_id, std::move(P)); } void FullNodeShardImpl::receive_query(adnl::AdnlNodeIdShort src, td::BufferSlice query, td::Promise promise) { auto B = fetch_tl_object(std::move(query), true); if (B.is_error()) { promise.set_error(td::Status::Error(ErrorCode::protoviolation, "cannot parse tonnode query")); return; } ton_api::downcast_call(*B.move_as_ok().get(), [&](auto &obj) { this->process_query(src, obj, std::move(promise)); }); } void FullNodeShardImpl::process_broadcast(PublicKeyHash src, ton_api::tonNode_ihrMessageBroadcast &query) { td::actor::send_closure(validator_manager_, &ValidatorManagerInterface::new_ihr_message, std::move(query.message_->data_)); } void FullNodeShardImpl::process_broadcast(PublicKeyHash src, ton_api::tonNode_externalMessageBroadcast &query) { td::actor::send_closure(validator_manager_, &ValidatorManagerInterface::new_external_message, std::move(query.message_->data_)); } void FullNodeShardImpl::process_broadcast(PublicKeyHash src, ton_api::tonNode_newShardBlockBroadcast &query) { td::actor::send_closure(validator_manager_, &ValidatorManagerInterface::new_shard_block, create_block_id(query.block_->block_), query.block_->cc_seqno_, std::move(query.block_->data_)); } void FullNodeShardImpl::process_broadcast(PublicKeyHash src, ton_api::tonNode_blockBroadcast &query) { std::vector signatures; for (auto &sig : query.signatures_) { signatures.emplace_back(BlockSignature{sig->who_, std::move(sig->signature_)}); } BlockIdExt block_id = create_block_id(query.id_); BlockBroadcast B{block_id, std::move(signatures), static_cast(query.catchain_seqno_), static_cast(query.validator_set_hash_), std::move(query.data_), std::move(query.proof_)}; auto P = td::PromiseCreator::lambda([](td::Result R) {}); td::actor::send_closure(validator_manager_, &ValidatorManagerInterface::prevalidate_block, std::move(B), std::move(P)); } void FullNodeShardImpl::receive_broadcast(PublicKeyHash src, td::BufferSlice broadcast) { auto B = fetch_tl_object(std::move(broadcast), true); if (B.is_error()) { return; } ton_api::downcast_call(*B.move_as_ok().get(), [src, Self = this](auto &obj) { Self->process_broadcast(src, obj); }); } void FullNodeShardImpl::send_ihr_message(td::BufferSlice data) { auto B = create_serialize_tl_object( create_tl_object(std::move(data))); if (B.size() <= overlay::Overlays::max_simple_broadcast_size()) { td::actor::send_closure(overlays_, &overlay::Overlays::send_broadcast_ex, adnl_id_, overlay_id_, local_id_, 0, std::move(B)); } else { td::actor::send_closure(overlays_, &overlay::Overlays::send_broadcast_fec_ex, adnl_id_, overlay_id_, local_id_, 0, std::move(B)); } } void FullNodeShardImpl::send_external_message(td::BufferSlice data) { auto B = create_serialize_tl_object( create_tl_object(std::move(data))); if (B.size() <= overlay::Overlays::max_simple_broadcast_size()) { td::actor::send_closure(overlays_, &overlay::Overlays::send_broadcast_ex, adnl_id_, overlay_id_, local_id_, 0, std::move(B)); } else { td::actor::send_closure(overlays_, &overlay::Overlays::send_broadcast_fec_ex, adnl_id_, overlay_id_, local_id_, 0, std::move(B)); } } void FullNodeShardImpl::send_shard_block_info(BlockIdExt block_id, CatchainSeqno cc_seqno, td::BufferSlice data) { auto B = create_serialize_tl_object( create_tl_object(create_tl_block_id(block_id), cc_seqno, std::move(data))); if (B.size() <= overlay::Overlays::max_simple_broadcast_size()) { td::actor::send_closure(overlays_, &overlay::Overlays::send_broadcast_ex, adnl_id_, overlay_id_, local_id_, 0, std::move(B)); } else { td::actor::send_closure(overlays_, &overlay::Overlays::send_broadcast_fec_ex, adnl_id_, overlay_id_, local_id_, overlay::Overlays::BroadcastFlagAnySender(), std::move(B)); } } void FullNodeShardImpl::send_broadcast(BlockBroadcast broadcast) { std::vector> sigs; for (auto &sig : broadcast.signatures) { sigs.emplace_back(create_tl_object(sig.node, sig.signature.clone())); } auto B = create_serialize_tl_object( create_tl_block_id(broadcast.block_id), broadcast.catchain_seqno, broadcast.validator_set_hash, std::move(sigs), broadcast.proof.clone(), broadcast.data.clone()); td::actor::send_closure(overlays_, &overlay::Overlays::send_broadcast_fec_ex, adnl_id_, overlay_id_, local_id_, overlay::Overlays::BroadcastFlagAnySender(), std::move(B)); } void FullNodeShardImpl::download_block(BlockIdExt id, td::uint32 priority, td::Timestamp timeout, td::Promise promise) { td::actor::create_actor("downloadreq", id, adnl_id_, overlay_id_, adnl::AdnlNodeIdShort::zero(), priority, timeout, validator_manager_, rldp_, overlays_, adnl_, std::move(promise)) .release(); } void FullNodeShardImpl::download_zero_state(BlockIdExt id, td::uint32 priority, td::Timestamp timeout, td::Promise promise) { td::actor::create_actor("downloadstatereq", id, BlockIdExt{}, adnl_id_, overlay_id_, adnl::AdnlNodeIdShort::zero(), priority, timeout, validator_manager_, rldp_, overlays_, adnl_, std::move(promise)) .release(); } void FullNodeShardImpl::download_persistent_state(BlockIdExt id, BlockIdExt masterchain_block_id, td::uint32 priority, td::Timestamp timeout, td::Promise promise) { td::actor::create_actor("downloadstatereq", id, masterchain_block_id, adnl_id_, overlay_id_, adnl::AdnlNodeIdShort::zero(), priority, timeout, validator_manager_, rldp_, overlays_, adnl_, std::move(promise)) .release(); } void FullNodeShardImpl::download_block_proof(BlockIdExt block_id, td::uint32 priority, td::Timestamp timeout, td::Promise promise) { td::actor::create_actor("downloadproofreq", block_id, false, adnl_id_, overlay_id_, adnl::AdnlNodeIdShort::zero(), priority, timeout, validator_manager_, rldp_, overlays_, adnl_, std::move(promise)) .release(); } void FullNodeShardImpl::download_block_proof_link(BlockIdExt block_id, td::uint32 priority, td::Timestamp timeout, td::Promise promise) { td::actor::create_actor("downloadproofreq", block_id, true, adnl_id_, overlay_id_, adnl::AdnlNodeIdShort::zero(), priority, timeout, validator_manager_, rldp_, overlays_, adnl_, std::move(promise)) .release(); } void FullNodeShardImpl::get_next_key_blocks(BlockIdExt block_id, td::Timestamp timeout, td::Promise> promise) { td::actor::create_actor("next", block_id, 16, adnl_id_, overlay_id_, adnl::AdnlNodeIdShort::zero(), 1, timeout, validator_manager_, rldp_, overlays_, adnl_, std::move(promise)) .release(); } void FullNodeShardImpl::set_handle(BlockHandle handle, td::Promise promise) { CHECK(!handle_); handle_ = std::move(handle); promise_ = std::move(promise); get_next_block(); sync_completed_at_ = td::Timestamp::in(60.0); alarm_timestamp().relax(sync_completed_at_); } void FullNodeShardImpl::alarm() { if (sync_completed_at_ && sync_completed_at_.is_in_past()) { if (promise_) { promise_.set_value(td::Unit()); } sync_completed_at_ = td::Timestamp::never(); } if (update_certificate_at_ && update_certificate_at_.is_in_past()) { if (!sign_cert_by_.is_zero()) { sign_new_certificate(sign_cert_by_); update_certificate_at_ = td::Timestamp::in(30.0); } else { update_certificate_at_ = td::Timestamp::never(); } } alarm_timestamp().relax(sync_completed_at_); alarm_timestamp().relax(update_certificate_at_); } void FullNodeShardImpl::start_up() { auto X = create_hash_tl_object(get_workchain(), get_shard(), zero_state_file_hash_); td::BufferSlice b{32}; b.as_slice().copy_from(as_slice(X)); overlay_id_full_ = overlay::OverlayIdFull{std::move(b)}; overlay_id_ = overlay_id_full_.compute_short_id(); rules_ = overlay::OverlayPrivacyRules{overlay::Overlays::max_fec_broadcast_size()}; create_overlay(); } void FullNodeShardImpl::sign_new_certificate(PublicKeyHash sign_by) { if (sign_by.is_zero()) { return; } ton::overlay::Certificate cert{sign_by, static_cast(td::Clocks::system() + 3600), overlay::Overlays::max_fec_broadcast_size(), td::BufferSlice{}}; auto to_sign = cert.to_sign(overlay_id_, local_id_); auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), cert = std::move(cert)](td::Result> R) mutable { if (R.is_error()) { // ignore VLOG(FULL_NODE_WARNING) << "failed to create certificate: failed to sign: " << R.move_as_error(); } else { auto p = R.move_as_ok(); cert.set_signature(std::move(p.first)); cert.set_issuer(p.second); td::actor::send_closure(SelfId, &FullNodeShardImpl::signed_new_certificate, std::move(cert)); } }); td::actor::send_closure(keyring_, &ton::keyring::Keyring::sign_add_get_public_key, sign_by, std::move(to_sign), std::move(P)); } void FullNodeShardImpl::signed_new_certificate(ton::overlay::Certificate cert) { LOG(WARNING) << "updated certificate"; cert_ = std::make_shared(std::move(cert)); td::actor::send_closure(overlays_, &overlay::Overlays::update_certificate, adnl_id_, overlay_id_, local_id_, cert_); } void FullNodeShardImpl::update_validators(std::vector public_key_hashes, PublicKeyHash local_hash) { bool update_cert = false; if (!local_hash.is_zero() && local_hash != sign_cert_by_) { update_cert = true; } sign_cert_by_ = local_hash; std::map authorized_keys; for (auto &key : public_key_hashes) { authorized_keys.emplace(key, overlay::Overlays::max_fec_broadcast_size()); } rules_ = overlay::OverlayPrivacyRules{overlay::Overlays::max_simple_broadcast_size(), std::move(authorized_keys)}; td::actor::send_closure(overlays_, &overlay::Overlays::set_privacy_rules, adnl_id_, overlay_id_, rules_); if (update_cert) { sign_new_certificate(sign_cert_by_); update_certificate_at_ = td::Timestamp::in(30.0); alarm_timestamp().relax(update_certificate_at_); } } FullNodeShardImpl::FullNodeShardImpl(ShardIdFull shard, PublicKeyHash local_id, adnl::AdnlNodeIdShort adnl_id, FileHash zero_state_file_hash, td::actor::ActorId keyring, td::actor::ActorId adnl, td::actor::ActorId rldp, td::actor::ActorId overlays, td::actor::ActorId validator_manager) : shard_(shard) , local_id_(local_id) , adnl_id_(adnl_id) , zero_state_file_hash_(zero_state_file_hash) , keyring_(keyring) , adnl_(adnl) , rldp_(rldp) , overlays_(overlays) , validator_manager_(validator_manager) { } td::actor::ActorOwn FullNodeShard::create( ShardIdFull shard, PublicKeyHash local_id, adnl::AdnlNodeIdShort adnl_id, FileHash zero_state_file_hash, td::actor::ActorId keyring, td::actor::ActorId adnl, td::actor::ActorId rldp, td::actor::ActorId overlays, td::actor::ActorId validator_manager) { return td::actor::create_actor("tonnode", shard, local_id, adnl_id, zero_state_file_hash, keyring, adnl, rldp, overlays, validator_manager); } } // namespace fullnode } // namespace validator } // namespace ton