/* 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 2017-2020 Telegram Systems LLP */ #include "manager.hpp" #include "checksum.h" #include "td/utils/buffer.h" #include "validator-group.hpp" #include "downloaders/wait-block-state.hpp" #include "downloaders/wait-block-state-merge.hpp" #include "downloaders/wait-block-data.hpp" #include "fabric.h" #include "manager.h" #include "validate-broadcast.hpp" #include "ton/ton-tl.hpp" #include "ton/ton-io.hpp" #include "state-serializer.hpp" #include "get-next-key-blocks.h" #include "import-db-slice.hpp" #include "auto/tl/lite_api.h" #include "tl-utils/lite-utils.hpp" #include "auto/tl/ton_api_json.h" #include "tl/tl_json.h" #include "td/utils/Random.h" #include "td/utils/port/path.h" #include "td/utils/JsonBuilder.h" #include "common/delay.h" #include "td/utils/filesystem.h" #include "validator/stats-merger.h" #include namespace ton { namespace validator { void ValidatorManagerImpl::validate_block_is_next_proof(BlockIdExt prev_block_id, BlockIdExt next_block_id, td::BufferSlice proof, td::Promise promise) { if (!prev_block_id.is_masterchain() || !next_block_id.is_masterchain()) { VLOG(VALIDATOR_NOTICE) << "prev=" << prev_block_id << " next=" << next_block_id; promise.set_error( td::Status::Error(ErrorCode::protoviolation, "validate_block_is_next_proof() can only work for masterchain")); return; } if (prev_block_id.seqno() + 1 != next_block_id.seqno()) { VLOG(VALIDATOR_NOTICE) << "prev=" << prev_block_id << " next=" << next_block_id; promise.set_error(td::Status::Error(ErrorCode::protoviolation, "validate_block_is_next_proof(): bad seqno")); return; } CHECK(last_masterchain_state_.not_null()); auto pp = create_proof(next_block_id, std::move(proof)); if (pp.is_error()) { promise.set_error(pp.move_as_error_prefix("failed to create proof: ")); return; } if (last_masterchain_seqno_ == prev_block_id.seqno()) { CHECK(last_masterchain_block_id_ == prev_block_id); auto P = td::PromiseCreator::lambda( [promise = std::move(promise), id = prev_block_id](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); return; } auto handle = R.move_as_ok(); CHECK(!handle->merge_before()); if (handle->one_prev(true) != id) { promise.set_error(td::Status::Error(ErrorCode::protoviolation, "prev block mismatch")); return; } promise.set_value(td::Unit()); }); run_check_proof_query(next_block_id, pp.move_as_ok(), actor_id(this), td::Timestamp::in(2.0), std::move(P), last_masterchain_state_, opts_->is_hardfork(next_block_id)); } else { auto P = td::PromiseCreator::lambda([promise = std::move(promise), next_block_id](td::Result R) mutable { R.ensure(); auto handle = R.move_as_ok(); CHECK(handle->inited_next_left()); if (handle->one_next(true) == next_block_id) { promise.set_value(td::Unit()); } else { promise.set_error(td::Status::Error("next block id mismatch")); } }); get_block_handle(prev_block_id, false, std::move(P)); } } void ValidatorManagerImpl::validate_block_proof(BlockIdExt block_id, td::BufferSlice proof, td::Promise promise) { auto pp = create_proof(block_id, std::move(proof)); if (pp.is_error()) { promise.set_error(pp.move_as_error_prefix(PSTRING() << "failed to create proof for " << block_id << ": ")); return; } auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { promise.set_value(td::Unit()); } }); run_check_proof_query(block_id, pp.move_as_ok(), actor_id(this), td::Timestamp::in(2.0), std::move(P), opts_->is_hardfork(block_id)); } void ValidatorManagerImpl::validate_block_proof_link(BlockIdExt block_id, td::BufferSlice proof, td::Promise promise) { auto pp = create_proof_link(block_id, std::move(proof)); if (pp.is_error()) { promise.set_error(pp.move_as_error_prefix(PSTRING() << "failed to create proof link for " << block_id << ": ")); return; } auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { promise.set_value(td::Unit()); } }); run_check_proof_link_query(block_id, pp.move_as_ok(), actor_id(this), td::Timestamp::in(2.0), std::move(P)); } void ValidatorManagerImpl::validate_block_proof_rel(BlockIdExt block_id, BlockIdExt rel_block_id, td::BufferSlice proof, td::Promise promise) { auto pp = create_proof(block_id, std::move(proof)); if (pp.is_error()) { promise.set_error(pp.move_as_error_prefix(PSTRING() << "failed to create proof for " << block_id << ": ")); return; } auto Q = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { promise.set_value(td::Unit()); } }); if (rel_block_id.id.seqno == 0) { auto P = td::PromiseCreator::lambda( [block_id, SelfId = actor_id(this), proof = pp.move_as_ok(), promise = std::move(Q), skip_sig = opts_->is_hardfork(block_id)](td::Result> R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { auto s = td::Ref{R.move_as_ok()}; run_check_proof_query(block_id, std::move(proof), SelfId, td::Timestamp::in(2.0), std::move(promise), std::move(s), skip_sig); } }); get_shard_state_from_db_short(rel_block_id, std::move(P)); } else { auto P = td::PromiseCreator::lambda([block_id, SelfId = actor_id(this), proof = pp.move_as_ok(), promise = std::move(Q), skip_sig = opts_->is_hardfork(block_id)](td::Result> R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { run_check_proof_query(block_id, std::move(proof), SelfId, td::Timestamp::in(2.0), std::move(promise), R.move_as_ok(), skip_sig); } }); get_block_proof_link_from_db_short(rel_block_id, std::move(P)); } } void ValidatorManagerImpl::validate_block(ReceivedBlock block, td::Promise promise) { auto blkid = block.id; auto pp = create_block(std::move(block)); if (pp.is_error()) { promise.set_error(pp.move_as_error_prefix(PSTRING() << "failed to create block for " << blkid << ": ")); return; } CHECK(blkid.is_masterchain()); auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), promise = std::move(promise), id = blkid](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { td::actor::send_closure(SelfId, &ValidatorManager::get_block_handle, id, true, std::move(promise)); } }); run_apply_block_query(block.id, pp.move_as_ok(), block.id, actor_id(this), td::Timestamp::in(10.0), std::move(P)); } void ValidatorManagerImpl::prevalidate_block(BlockBroadcast broadcast, td::Promise promise) { if (!started_) { promise.set_error(td::Status::Error(ErrorCode::notready, "node not started")); return; } if (!need_monitor(broadcast.block_id.shard_full())) { promise.set_error(td::Status::Error("not monitoring shard")); return; } promise = [SelfId = actor_id(this), promise = std::move(promise), block_id = broadcast.block_id, cc_seqno = broadcast.catchain_seqno](td::Result R) mutable { if (R.is_ok()) { td::actor::send_closure(SelfId, &ValidatorManagerImpl::validated_block_broadcast, block_id, cc_seqno); } promise.set_result(std::move(R)); }; td::actor::create_actor("broadcast", std::move(broadcast), last_masterchain_block_handle_, last_masterchain_state_, last_known_key_block_handle_, actor_id(this), td::Timestamp::in(2.0), std::move(promise)) .release(); } void ValidatorManagerImpl::validated_block_broadcast(BlockIdExt block_id, CatchainSeqno cc_seqno) { } void ValidatorManagerImpl::sync_complete(td::Promise promise) { started_ = true; VLOG(VALIDATOR_WARNING) << "completed sync. Validating " << validator_groups_.size() << " groups"; for (auto &v : validator_groups_) { if (!v.second.actor.empty()) { td::actor::send_closure(v.second.actor, &ValidatorGroup::create_session); } } for (auto &v : next_validator_groups_) { if (!v.second.actor.empty()) { td::actor::send_closure(v.second.actor, &ValidatorGroup::create_session); } } } void ValidatorManagerImpl::get_next_block(BlockIdExt block_id, 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()); return; } auto handle = R.move_as_ok(); if (!handle->inited_next_left()) { promise.set_error(td::Status::Error(ErrorCode::notready, "next block not known")); return; } td::actor::send_closure(SelfId, &ValidatorManagerImpl::get_block_handle, handle->one_next(true), true, std::move(promise)); }); get_block_handle(block_id, false, std::move(P)); } void ValidatorManagerImpl::get_next_key_blocks(BlockIdExt block_id, td::uint32 cnt, td::Promise> promise) { if (!last_masterchain_block_handle_ || !last_key_block_handle_) { promise.set_error(td::Status::Error(ErrorCode::notready, "not inited")); return; } td::actor::create_actor("nextkeyblocks", block_id, cnt, last_key_block_handle_, last_masterchain_state_, actor_id(this), td::Timestamp::in(2.0), std::move(promise)) .release(); } void ValidatorManagerImpl::get_block_data(BlockHandle handle, td::Promise promise) { auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result> R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { auto B = R.move_as_ok(); promise.set_value(B->data()); } }); td::actor::send_closure(db_, &Db::get_block_data, std::move(handle), std::move(P)); } void ValidatorManagerImpl::check_zero_state_exists(BlockIdExt block_id, td::Promise promise) { td::actor::send_closure(db_, &Db::check_zero_state_file_exists, block_id, std::move(promise)); } void ValidatorManagerImpl::get_zero_state(BlockIdExt block_id, td::Promise promise) { td::actor::send_closure(db_, &Db::get_zero_state_file, block_id, std::move(promise)); } void ValidatorManagerImpl::check_persistent_state_exists(BlockIdExt block_id, BlockIdExt masterchain_block_id, td::Promise promise) { td::actor::send_closure(db_, &Db::check_persistent_state_file_exists, block_id, masterchain_block_id, std::move(promise)); } void ValidatorManagerImpl::get_persistent_state(BlockIdExt block_id, BlockIdExt masterchain_block_id, td::Promise promise) { td::actor::send_closure(db_, &Db::get_persistent_state_file, block_id, masterchain_block_id, std::move(promise)); } void ValidatorManagerImpl::get_persistent_state_slice(BlockIdExt block_id, BlockIdExt masterchain_block_id, td::int64 offset, td::int64 max_length, td::Promise promise) { td::actor::send_closure(db_, &Db::get_persistent_state_file_slice, block_id, masterchain_block_id, offset, max_length, std::move(promise)); } void ValidatorManagerImpl::get_previous_persistent_state_files( BlockSeqno cur_mc_seqno, td::Promise>> promise) { td::actor::send_closure(db_, &Db::get_previous_persistent_state_files, cur_mc_seqno, std::move(promise)); } void ValidatorManagerImpl::get_block_proof(BlockHandle handle, td::Promise promise) { auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result> R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { auto B = R.move_as_ok(); promise.set_value(B->data()); } }); td::actor::send_closure(db_, &Db::get_block_proof, std::move(handle), std::move(P)); } void ValidatorManagerImpl::get_block_proof_link(BlockHandle handle, td::Promise promise) { auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result> R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { auto B = R.move_as_ok(); promise.set_value(B->data()); } }); td::actor::send_closure(db_, &Db::get_block_proof_link, std::move(handle), std::move(P)); } void ValidatorManagerImpl::get_key_block_proof(BlockIdExt block_id, td::Promise promise) { auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result> R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { auto B = R.move_as_ok(); promise.set_value(B->data()); } }); td::actor::send_closure(db_, &Db::get_key_block_proof, block_id, std::move(P)); } void ValidatorManagerImpl::get_key_block_proof_link(BlockIdExt block_id, td::Promise promise) { auto P = td::PromiseCreator::lambda( [promise = std::move(promise), block_id, db = db_.get()](td::Result> R) mutable { if (R.is_error()) { auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result> R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { auto B = R.move_as_ok(); promise.set_value(B->data()); } }); td::actor::send_closure(db, &Db::get_key_block_proof_link, block_id, std::move(P)); } else { auto B = R.move_as_ok()->export_as_proof_link().move_as_ok(); promise.set_value(B->data()); } }); td::actor::send_closure(db_, &Db::get_key_block_proof, block_id, std::move(P)); } void ValidatorManagerImpl::new_external_message(td::BufferSlice data, int priority) { if (!is_validator()) { return; } if (last_masterchain_state_.is_null()) { VLOG(VALIDATOR_NOTICE) << "dropping ext message: validator is not ready"; return; } if (ext_msgs_[priority].ext_messages_.size() > (size_t)max_mempool_num()) { return; } auto R = create_ext_message(std::move(data), last_masterchain_state_->get_ext_msg_limits()); if (R.is_error()) { VLOG(VALIDATOR_NOTICE) << "dropping bad ext message: " << R.move_as_error(); return; } add_external_message(R.move_as_ok(), priority); } void ValidatorManagerImpl::add_external_message(td::Ref msg, int priority) { auto &msgs = ext_msgs_[priority]; auto message = std::make_unique>(msg); auto id = message->ext_id(); auto address = message->address(); unsigned long per_address_limit = 256; auto it = msgs.ext_addr_messages_.find(address); if (it != msgs.ext_addr_messages_.end() && it->second.size() >= per_address_limit) { return; } auto it2 = ext_messages_hashes_.find(id.hash); if (it2 != ext_messages_hashes_.end()) { int old_priority = it2->second.first; if (old_priority >= priority) { return; } ext_msgs_[old_priority].erase(id); } msgs.ext_messages_.emplace(id, std::move(message)); msgs.ext_addr_messages_[address].emplace(id.hash, id); ext_messages_hashes_[id.hash] = {priority, id}; } void ValidatorManagerImpl::check_external_message(td::BufferSlice data, td::Promise> promise) { if (!started_) { promise.set_error(td::Status::Error(ErrorCode::notready, "node not synced")); return; } auto state = do_get_last_liteserver_state(); if (state.is_null()) { promise.set_error(td::Status::Error(ErrorCode::notready, "not ready")); return; } auto R = create_ext_message(std::move(data), state->get_ext_msg_limits()); if (R.is_error()) { promise.set_error(R.move_as_error_prefix("failed to parse external message: ")); return; } auto message = R.move_as_ok(); WorkchainId wc = message->wc(); StdSmcAddress addr = message->addr(); if (checked_ext_msg_counter_.get_msg_count(wc, addr) >= max_ext_msg_per_addr()) { promise.set_error( td::Status::Error(PSTRING() << "too many external messages to address " << wc << ":" << addr.to_hex())); return; } promise = [self = this, wc, addr, promise = std::move(promise), SelfId = actor_id(this)](td::Result> R) mutable { td::actor::send_lambda(SelfId, [=, promise = std::move(promise), R = std::move(R)]() mutable { ++(R.is_ok() ? self->total_check_ext_messages_ok_ : self->total_check_ext_messages_error_); TRY_RESULT_PROMISE(promise, message, std::move(R)); if (self->checked_ext_msg_counter_.inc_msg_count(wc, addr) > max_ext_msg_per_addr()) { promise.set_error( td::Status::Error(PSTRING() << "too many external messages to address " << wc << ":" << addr.to_hex())); return; } promise.set_result(std::move(message)); }); }; ++ls_stats_check_ext_messages_; run_check_external_message(std::move(message), actor_id(this), std::move(promise)); } void ValidatorManagerImpl::new_ihr_message(td::BufferSlice data) { if (!is_validator()) { return; } auto R = create_ihr_message(std::move(data)); if (R.is_error()) { VLOG(VALIDATOR_NOTICE) << "dropping bad ihr message: " << R.move_as_error(); return; } auto M = std::make_unique>(R.move_as_ok()); auto id = M->ext_id(); if (ihr_messages_hashes_.count(id.hash) == 0) { ihr_messages_.emplace(id, std::move(M)); ihr_messages_hashes_.emplace(id.hash, id); } } void ValidatorManagerImpl::new_shard_block(BlockIdExt block_id, CatchainSeqno cc_seqno, td::BufferSlice data) { if (!is_validator() && !cached_block_candidates_.count(block_id)) { return; } if (!last_masterchain_block_handle_) { VLOG(VALIDATOR_DEBUG) << "dropping top shard block broadcast: not inited"; return; } if (!started_) { return; } auto it = shard_blocks_.find(ShardTopBlockDescriptionId{block_id.shard_full(), cc_seqno}); if (it != shard_blocks_.end() && block_id.id.seqno <= it->second->block_id().id.seqno) { VLOG(VALIDATOR_DEBUG) << "dropping duplicate shard block broadcast"; return; } auto P = td::PromiseCreator::lambda([SelfId = actor_id(this)](td::Result> R) { if (R.is_error()) { VLOG(VALIDATOR_NOTICE) << "dropping invalid new shard block description: " << R.move_as_error(); } else { td::actor::send_closure(SelfId, &ValidatorManagerImpl::add_shard_block_description, R.move_as_ok()); } }); run_validate_shard_block_description(std::move(data), last_masterchain_block_handle_, last_masterchain_state_, actor_id(this), td::Timestamp::in(2.0), std::move(P)); } void ValidatorManagerImpl::new_block_candidate(BlockIdExt block_id, td::BufferSlice data) { if (!last_masterchain_block_handle_) { VLOG(VALIDATOR_DEBUG) << "dropping top shard block broadcast: not inited"; return; } if (!started_) { return; } if (!need_monitor(block_id.shard_full())) { VLOG(VALIDATOR_DEBUG) << "dropping block candidate broadcast: not monitoring shard"; return; } add_cached_block_candidate(ReceivedBlock{block_id, std::move(data)}); } void ValidatorManagerImpl::add_shard_block_description(td::Ref desc) { if (!desc->may_be_valid(last_masterchain_block_handle_, last_masterchain_state_)) { return; } auto it = shard_blocks_.find(ShardTopBlockDescriptionId{desc->shard(), desc->catchain_seqno()}); if (it != shard_blocks_.end() && desc->block_id().id.seqno <= it->second->block_id().id.seqno) { VLOG(VALIDATOR_DEBUG) << "dropping duplicate shard block broadcast"; return; } shard_blocks_[ShardTopBlockDescriptionId{desc->block_id().shard_full(), desc->catchain_seqno()}] = desc; VLOG(VALIDATOR_DEBUG) << "new shard block descr for " << desc->block_id(); if (need_monitor(desc->block_id().shard_full())) { auto P = td::PromiseCreator::lambda([](td::Result> R) { if (R.is_error()) { auto S = R.move_as_error(); if (S.code() != ErrorCode::timeout && S.code() != ErrorCode::notready) { VLOG(VALIDATOR_NOTICE) << "failed to get shard state: " << S; } else { VLOG(VALIDATOR_DEBUG) << "failed to get shard state: " << S; } } }); wait_block_state_short(desc->block_id(), 0, td::Timestamp::in(60.0), std::move(P)); } } void ValidatorManagerImpl::add_cached_block_candidate(ReceivedBlock block) { BlockIdExt id = block.id; if (block.id.is_masterchain()) { return; } if (cached_block_candidates_.emplace(id, std::move(block)).second) { cached_block_candidates_lru_.push_back(id); { auto it = wait_block_data_.find(id); if (it != wait_block_data_.end()) { auto r_block = create_block(cached_block_candidates_[id].clone()); if (r_block.is_ok()) { td::actor::send_closure(it->second.actor_, &WaitBlockData::loaded_block_data, r_block.move_as_ok()); } } } { auto it = wait_state_.find(id); if (it != wait_state_.end()) { // Proof link is not ready at this point, but this will force WaitBlockState to redo send_get_proof_link_request td::actor::send_closure(it->second.actor_, &WaitBlockState::after_get_proof_link); } } } if (cached_block_candidates_lru_.size() > max_cached_candidates()) { CHECK(cached_block_candidates_.erase(cached_block_candidates_lru_.front())); cached_block_candidates_lru_.pop_front(); } } void ValidatorManagerImpl::add_ext_server_id(adnl::AdnlNodeIdShort id) { class Cb : public adnl::Adnl::Callback { private: td::actor::ActorId id_; void receive_message(adnl::AdnlNodeIdShort src, adnl::AdnlNodeIdShort dst, td::BufferSlice data) override { } void receive_query(adnl::AdnlNodeIdShort src, adnl::AdnlNodeIdShort dst, td::BufferSlice data, td::Promise promise) override { td::actor::send_closure(id_, &ValidatorManagerImpl::run_ext_query, std::move(data), std::move(promise)); } public: Cb(td::actor::ActorId id) : id_(id) { } }; td::actor::send_closure(adnl_, &adnl::Adnl::subscribe, id, adnl::Adnl::int_to_bytestring(lite_api::liteServer_query::ID), std::make_unique(actor_id(this))); if (lite_server_.empty()) { pending_ext_ids_.push_back(id); } else { td::actor::send_closure(lite_server_, &adnl::AdnlExtServer::add_local_id, id); } } void ValidatorManagerImpl::add_ext_server_port(td::uint16 port) { if (lite_server_.empty()) { pending_ext_ports_.push_back(port); } else { td::actor::send_closure(lite_server_, &adnl::AdnlExtServer::add_tcp_port, port); } } void ValidatorManagerImpl::created_ext_server(td::actor::ActorOwn server) { lite_server_ = std::move(server); for (auto &id : pending_ext_ids_) { td::actor::send_closure(lite_server_, &adnl::AdnlExtServer::add_local_id, id); } for (auto port : pending_ext_ports_) { td::actor::send_closure(lite_server_, &adnl::AdnlExtServer::add_tcp_port, port); } pending_ext_ids_.clear(); pending_ext_ports_.clear(); } void ValidatorManagerImpl::run_ext_query(td::BufferSlice data, td::Promise promise) { if (!started_) { promise.set_error(td::Status::Error(ErrorCode::notready, "node not synced")); return; } auto F = fetch_tl_object(data.clone(), true); if (F.is_ok()) { data = std::move(F.move_as_ok()->data_); } else { auto G = fetch_tl_prefix(data, true); if (G.is_error()) { promise.set_error(G.move_as_error()); return; } } auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result R) mutable { td::BufferSlice data; if (R.is_error()) { auto S = R.move_as_error(); data = create_serialize_tl_object(S.code(), S.message().c_str()); } else { data = R.move_as_ok(); } promise.set_value(std::move(data)); }); auto E = fetch_tl_prefix(data, true); if (E.is_error()) { run_liteserver_query(std::move(data), actor_id(this), lite_server_cache_.get(), std::move(P)); } else { auto e = E.move_as_ok(); if (static_cast(e->seqno_) <= min_confirmed_masterchain_seqno_) { run_liteserver_query(std::move(data), actor_id(this), lite_server_cache_.get(), std::move(P)); } else { auto t = e->timeout_ms_ < 10000 ? e->timeout_ms_ * 0.001 : 10.0; auto Q = td::PromiseCreator::lambda([data = std::move(data), SelfId = actor_id(this), cache = lite_server_cache_.get(), promise = std::move(P)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); return; } run_liteserver_query(std::move(data), SelfId, cache, std::move(promise)); }); wait_shard_client_state(e->seqno_, td::Timestamp::in(t), std::move(Q)); } } } void ValidatorManagerImpl::wait_block_state(BlockHandle handle, td::uint32 priority, td::Timestamp timeout, td::Promise> promise) { if (last_masterchain_state_.not_null() && !opts_->need_monitor(handle->id().shard_full(), last_masterchain_state_)) { return promise.set_error( td::Status::Error(PSTRING() << "not monitoring shard " << handle->id().shard_full().to_str())); } auto it0 = block_state_cache_.find(handle->id()); if (it0 != block_state_cache_.end()) { it0->second.ttl_ = td::Timestamp::in(30.0); promise.set_result(it0->second.state_); return; } auto it = wait_state_.find(handle->id()); if (it == wait_state_.end()) { auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), handle](td::Result> R) { td::actor::send_closure(SelfId, &ValidatorManagerImpl::finished_wait_state, handle, std::move(R)); }); auto id = td::actor::create_actor("waitstate", handle, priority, actor_id(this), td::Timestamp::at(timeout.at() + 10.0), std::move(P), get_block_persistent_state_to_download(handle->id())) .release(); wait_state_[handle->id()].actor_ = id; it = wait_state_.find(handle->id()); } it->second.waiting_.emplace_back(timeout, priority, std::move(promise)); auto X = it->second.get_timeout(); td::actor::send_closure(it->second.actor_, &WaitBlockState::update_timeout, X.first, X.second); } void ValidatorManagerImpl::wait_block_state_short(BlockIdExt block_id, td::uint32 priority, td::Timestamp timeout, td::Promise> promise) { auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), priority, timeout, promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); return; } td::actor::send_closure(SelfId, &ValidatorManagerImpl::wait_block_state, R.move_as_ok(), priority, timeout, std::move(promise)); }); get_block_handle(block_id, true, std::move(P)); } void ValidatorManagerImpl::wait_block_data(BlockHandle handle, td::uint32 priority, td::Timestamp timeout, td::Promise> promise) { auto it = wait_block_data_.find(handle->id()); if (it == wait_block_data_.end()) { auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), handle](td::Result> R) { td::actor::send_closure(SelfId, &ValidatorManagerImpl::finished_wait_data, handle, std::move(R)); }); auto id = td::actor::create_actor("waitdata", handle, priority, actor_id(this), td::Timestamp::at(timeout.at() + 10.0), false, std::move(P)) .release(); wait_block_data_[handle->id()].actor_ = id; it = wait_block_data_.find(handle->id()); } it->second.waiting_.emplace_back(timeout, priority, std::move(promise)); auto X = it->second.get_timeout(); td::actor::send_closure(it->second.actor_, &WaitBlockData::update_timeout, X.first, X.second); } void ValidatorManagerImpl::wait_block_data_short(BlockIdExt block_id, td::uint32 priority, td::Timestamp timeout, td::Promise> promise) { auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), priority, timeout, promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); return; } td::actor::send_closure(SelfId, &ValidatorManagerImpl::wait_block_data, R.move_as_ok(), priority, timeout, std::move(promise)); }); get_block_handle(block_id, true, std::move(P)); } void ValidatorManagerImpl::wait_block_state_merge(BlockIdExt left_id, BlockIdExt right_id, td::uint32 priority, td::Timestamp timeout, td::Promise> promise) { if (last_masterchain_state_.not_null() && !opts_->need_monitor(left_id.shard_full(), last_masterchain_state_)) { return promise.set_error( td::Status::Error(PSTRING() << "not monitoring shard " << left_id.shard_full().to_str())); } td::actor::create_actor("merge", left_id, right_id, priority, actor_id(this), timeout, std::move(promise)) .release(); } void ValidatorManagerImpl::wait_prev_block_state(BlockHandle handle, td::uint32 priority, td::Timestamp timeout, td::Promise> promise) { CHECK(handle); CHECK(!handle->is_zero()); if (!handle->merge_before()) { auto shard = handle->id().shard_full(); auto prev_shard = handle->one_prev(true).shard_full(); if (shard == prev_shard) { wait_block_state_short(handle->one_prev(true), priority, timeout, std::move(promise)); } else { CHECK(shard_parent(shard) == prev_shard); bool left = shard_child(prev_shard, true) == shard; auto P = td::PromiseCreator::lambda([promise = std::move(promise), left](td::Result> R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { auto s = R.move_as_ok(); auto r = s->split(); if (r.is_error()) { promise.set_error(r.move_as_error()); } else { auto v = r.move_as_ok(); promise.set_value(left ? std::move(v.first) : std::move(v.second)); } } }); wait_block_state_short(handle->one_prev(true), priority, timeout, std::move(P)); } } else { wait_block_state_merge(handle->one_prev(true), handle->one_prev(false), priority, timeout, std::move(promise)); } } void ValidatorManagerImpl::wait_block_proof(BlockHandle handle, td::Timestamp timeout, td::Promise> promise) { td::actor::send_closure(db_, &Db::get_block_proof, std::move(handle), std::move(promise)); } void ValidatorManagerImpl::wait_block_proof_short(BlockIdExt block_id, td::Timestamp timeout, td::Promise> promise) { auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), timeout, promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); return; } td::actor::send_closure(SelfId, &ValidatorManagerImpl::wait_block_proof, R.move_as_ok(), timeout, std::move(promise)); }); get_block_handle(block_id, true, std::move(P)); } void ValidatorManagerImpl::wait_block_proof_link(BlockHandle handle, td::Timestamp timeout, td::Promise> promise) { td::actor::send_closure(db_, &Db::get_block_proof_link, std::move(handle), std::move(promise)); } void ValidatorManagerImpl::wait_block_proof_link_short(BlockIdExt block_id, td::Timestamp timeout, td::Promise> promise) { auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), timeout, promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); return; } td::actor::send_closure(SelfId, &ValidatorManagerImpl::wait_block_proof_link, R.move_as_ok(), timeout, std::move(promise)); }); get_block_handle(block_id, true, std::move(P)); } void ValidatorManagerImpl::wait_block_signatures(BlockHandle handle, td::Timestamp timeout, td::Promise> promise) { td::actor::send_closure(db_, &Db::get_block_signatures, handle, std::move(promise)); } void ValidatorManagerImpl::wait_block_signatures_short(BlockIdExt block_id, td::Timestamp timeout, td::Promise> promise) { auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), timeout, promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); return; } td::actor::send_closure(SelfId, &ValidatorManagerImpl::wait_block_signatures, R.move_as_ok(), timeout, std::move(promise)); }); get_block_handle(block_id, true, std::move(P)); } void ValidatorManagerImpl::wait_block_message_queue(BlockHandle handle, td::uint32 priority, td::Timestamp timeout, td::Promise> promise) { auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result> R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { auto state = R.move_as_ok(); promise.set_result(state->message_queue()); } }); wait_block_state(handle, priority, timeout, std::move(P)); } void ValidatorManagerImpl::wait_block_message_queue_short(BlockIdExt block_id, td::uint32 priority, td::Timestamp timeout, td::Promise> promise) { auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), priority, timeout, promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); return; } td::actor::send_closure(SelfId, &ValidatorManagerImpl::wait_block_message_queue, R.move_as_ok(), priority, timeout, std::move(promise)); }); get_block_handle(block_id, true, std::move(P)); } void ValidatorManagerImpl::get_external_messages( ShardIdFull shard, td::Promise, int>>> promise) { td::Timer t; size_t processed = 0, deleted = 0; std::vector, int>> res; MessageId left{AccountIdPrefixFull{shard.workchain, shard.shard & (shard.shard - 1)}, Bits256::zero()}; size_t total_msgs = 0; td::Random::Fast rnd; for (auto iter = ext_msgs_.rbegin(); iter != ext_msgs_.rend(); ++iter) { std::vector, int>> cur_res; int priority = iter->first; auto &msgs = iter->second; auto it = msgs.ext_messages_.lower_bound(left); while (it != msgs.ext_messages_.end()) { auto s = it->first; if (!shard_contains(shard, s.dst)) { break; } ++processed; if (it->second->expired()) { msgs.ext_addr_messages_[it->second->address()].erase(it->first.hash); ext_messages_hashes_.erase(it->first.hash); it = msgs.ext_messages_.erase(it); ++deleted; continue; } if (it->second->is_active()) { cur_res.emplace_back(it->second->message(), priority); } it++; } td::random_shuffle(td::as_mutable_span(cur_res), rnd); res.insert(res.end(), cur_res.begin(), cur_res.end()); total_msgs += msgs.ext_messages_.size(); } LOG(WARNING) << "get_external_messages to shard " << shard.to_str() << " : time=" << t.elapsed() << " result_size=" << res.size() << " processed=" << processed << " expired=" << deleted << " total_size=" << total_msgs; promise.set_value(std::move(res)); } void ValidatorManagerImpl::get_ihr_messages(ShardIdFull shard, td::Promise>> promise) { std::vector> res; MessageId left{AccountIdPrefixFull{shard.workchain, shard.shard & (shard.shard - 1)}, Bits256::zero()}; auto it = ihr_messages_.lower_bound(left); while (it != ihr_messages_.end()) { auto s = it->first; if (!shard_contains(shard, s.dst)) { break; } if (it->second->expired()) { ihr_messages_hashes_.erase(it->first.hash); it = ihr_messages_.erase(it); continue; } if (it->second->is_active()) { res.push_back(it->second->message()); } it++; } promise.set_value(std::move(res)); } void ValidatorManagerImpl::get_shard_blocks(BlockIdExt masterchain_block_id, td::Promise>> promise) { std::vector> v; for (auto &b : shard_blocks_) { v.push_back(b.second); } promise.set_value(std::move(v)); } void ValidatorManagerImpl::complete_external_messages(std::vector to_delay, std::vector to_delete) { for (auto &hash : to_delete) { auto it = ext_messages_hashes_.find(hash); if (it != ext_messages_hashes_.end()) { int priority = it->second.first; auto msg_id = it->second.second; ext_msgs_[priority].erase(msg_id); ext_messages_hashes_.erase(it); } } unsigned long soft_mempool_limit = 1024; for (auto &hash : to_delay) { auto it = ext_messages_hashes_.find(hash); if (it != ext_messages_hashes_.end()) { int priority = it->second.first; auto msg_id = it->second.second; auto &msgs = ext_msgs_[priority]; auto it2 = msgs.ext_messages_.find(msg_id); if ((msgs.ext_messages_.size() < soft_mempool_limit) && it2->second->can_postpone()) { it2->second->postpone(); } else { msgs.erase(msg_id); ext_messages_hashes_.erase(it); } } } } void ValidatorManagerImpl::complete_ihr_messages(std::vector to_delay, std::vector to_delete) { for (auto &hash : to_delete) { auto it = ihr_messages_hashes_.find(hash); if (it != ihr_messages_hashes_.end()) { ihr_messages_.erase(it->second); ihr_messages_hashes_.erase(it); } } for (auto &hash : to_delay) { auto it = ihr_messages_hashes_.find(hash); if (it != ihr_messages_hashes_.end()) { auto it2 = ihr_messages_.find(it->second); CHECK(it2 != ihr_messages_.end()); if (it2->second->can_postpone()) { it2->second->postpone(); } else { ihr_messages_.erase(it2); ihr_messages_hashes_.erase(it); } } } } void ValidatorManagerImpl::get_block_data_from_db(ConstBlockHandle handle, td::Promise> promise) { td::actor::send_closure(db_, &Db::get_block_data, std::move(handle), std::move(promise)); } void ValidatorManagerImpl::get_block_data_from_db_short(BlockIdExt block_id, td::Promise> promise) { auto P = td::PromiseCreator::lambda([db = db_.get(), promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { auto handle = R.move_as_ok(); td::actor::send_closure(db, &Db::get_block_data, std::move(handle), std::move(promise)); } }); get_block_handle(block_id, false, std::move(P)); } void ValidatorManagerImpl::get_shard_state_from_db(ConstBlockHandle handle, td::Promise> promise) { td::actor::send_closure(db_, &Db::get_block_state, handle, std::move(promise)); } void ValidatorManagerImpl::get_shard_state_from_db_short(BlockIdExt block_id, td::Promise> promise) { auto P = td::PromiseCreator::lambda([db = db_.get(), promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { auto handle = R.move_as_ok(); td::actor::send_closure(db, &Db::get_block_state, std::move(handle), std::move(promise)); } }); get_block_handle(block_id, false, std::move(P)); } void ValidatorManagerImpl::get_block_candidate_from_db(PublicKey source, BlockIdExt id, FileHash collated_data_file_hash, td::Promise promise) { td::actor::send_closure(db_, &Db::get_block_candidate, source, id, collated_data_file_hash, std::move(promise)); } void ValidatorManagerImpl::get_candidate_data_by_block_id_from_db(BlockIdExt id, td::Promise promise) { auto it = cached_block_candidates_.find(id); if (it != cached_block_candidates_.end()) { promise.set_result(it->second.data.clone()); return; } td::actor::send_closure(db_, &Db::get_block_candidate_by_block_id, id, promise.wrap([](BlockCandidate &&b) { return std::move(b.data); })); } void ValidatorManagerImpl::get_block_proof_from_db(ConstBlockHandle handle, td::Promise> promise) { td::actor::send_closure(db_, &Db::get_block_proof, std::move(handle), std::move(promise)); } void ValidatorManagerImpl::get_block_proof_from_db_short(BlockIdExt block_id, td::Promise> promise) { auto P = td::PromiseCreator::lambda([db = db_.get(), promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { auto handle = R.move_as_ok(); td::actor::send_closure(db, &Db::get_block_proof, std::move(handle), std::move(promise)); } }); get_block_handle(block_id, false, std::move(P)); } void ValidatorManagerImpl::get_block_proof_link_from_db(ConstBlockHandle handle, td::Promise> promise) { if (handle->inited_proof_link()) { td::actor::send_closure(db_, &Db::get_block_proof_link, std::move(handle), std::move(promise)); } else if (handle->inited_proof()) { auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result> R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { promise.set_result(R.move_as_ok()->export_as_proof_link()); } }); td::actor::send_closure(db_, &Db::get_block_proof, std::move(handle), std::move(P)); } else { promise.set_error(td::Status::Error(ErrorCode::notready, "not in db")); } } void ValidatorManagerImpl::get_block_proof_link_from_db_short(BlockIdExt block_id, 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()); } else { auto handle = R.move_as_ok(); td::actor::send_closure(SelfId, &ValidatorManager::get_block_proof_link_from_db, std::move(handle), std::move(promise)); } }); get_block_handle(block_id, false, std::move(P)); } void ValidatorManagerImpl::get_block_by_lt_from_db(AccountIdPrefixFull account, LogicalTime lt, td::Promise promise) { td::actor::send_closure(db_, &Db::get_block_by_lt, account, lt, std::move(promise)); } void ValidatorManagerImpl::get_block_by_unix_time_from_db(AccountIdPrefixFull account, UnixTime ts, td::Promise promise) { td::actor::send_closure(db_, &Db::get_block_by_unix_time, account, ts, std::move(promise)); } void ValidatorManagerImpl::get_block_by_seqno_from_db(AccountIdPrefixFull account, BlockSeqno seqno, td::Promise promise) { td::actor::send_closure(db_, &Db::get_block_by_seqno, account, seqno, std::move(promise)); } void ValidatorManagerImpl::finished_wait_state(BlockHandle handle, td::Result> R) { if (R.is_ok()) { block_state_cache_[handle->id()] = {R.ok(), td::Timestamp::in(30.0)}; } auto it = wait_state_.find(handle->id()); if (it != wait_state_.end()) { if (R.is_error()) { auto S = R.move_as_error(); if (S.code() != ErrorCode::timeout) { for (auto &X : it->second.waiting_) { X.promise.set_error(S.clone()); } } else if (it->second.waiting_.size() != 0) { auto X = it->second.get_timeout(); auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), handle](td::Result> R) { td::actor::send_closure(SelfId, &ValidatorManagerImpl::finished_wait_state, handle, std::move(R)); }); auto id = td::actor::create_actor("waitstate", handle, X.second, actor_id(this), X.first, std::move(P), get_block_persistent_state_to_download(handle->id())) .release(); it->second.actor_ = id; return; } } else { auto r = R.move_as_ok(); for (auto &X : it->second.waiting_) { X.promise.set_result(r); } } wait_state_.erase(it); } } void ValidatorManagerImpl::finished_wait_data(BlockHandle handle, td::Result> R) { auto it = wait_block_data_.find(handle->id()); if (it != wait_block_data_.end()) { if (R.is_error()) { auto S = R.move_as_error(); if (S.code() != ErrorCode::timeout) { for (auto &X : it->second.waiting_) { X.promise.set_error(S.clone()); } } else { auto X = it->second.get_timeout(); auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), handle](td::Result> R) { td::actor::send_closure(SelfId, &ValidatorManagerImpl::finished_wait_data, handle, std::move(R)); }); auto id = td::actor::create_actor("waitdata", handle, X.second, actor_id(this), X.first, false, std::move(P)) .release(); it->second.actor_ = id; return; } } else { auto r = R.move_as_ok(); for (auto &X : it->second.waiting_) { X.promise.set_result(r); } } wait_block_data_.erase(it); } } void ValidatorManagerImpl::set_block_state(BlockHandle handle, td::Ref state, td::Promise> promise) { auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), handle, promise = std::move(promise)](td::Result> R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { promise.set_value(R.move_as_ok()); td::actor::send_closure(SelfId, &ValidatorManagerImpl::written_handle, std::move(handle), [](td::Unit) {}); } }); td::actor::send_closure(db_, &Db::store_block_state, handle, state, std::move(P)); } void ValidatorManagerImpl::get_cell_db_reader(td::Promise> promise) { td::actor::send_closure(db_, &Db::get_cell_db_reader, std::move(promise)); } void ValidatorManagerImpl::store_persistent_state_file(BlockIdExt block_id, BlockIdExt masterchain_block_id, td::BufferSlice state, td::Promise promise) { td::actor::send_closure(db_, &Db::store_persistent_state_file, block_id, masterchain_block_id, std::move(state), std::move(promise)); } void ValidatorManagerImpl::store_persistent_state_file_gen(BlockIdExt block_id, BlockIdExt masterchain_block_id, std::function write_data, td::Promise promise) { td::actor::send_closure(db_, &Db::store_persistent_state_file_gen, block_id, masterchain_block_id, std::move(write_data), std::move(promise)); } void ValidatorManagerImpl::store_zero_state_file(BlockIdExt block_id, td::BufferSlice state, td::Promise promise) { td::actor::send_closure(db_, &Db::store_zero_state_file, block_id, std::move(state), std::move(promise)); } void ValidatorManagerImpl::set_block_data(BlockHandle handle, td::Ref data, td::Promise promise) { auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), data, handle, promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { promise.set_value(td::Unit()); td::actor::send_closure(SelfId, &ValidatorManagerImpl::written_handle, std::move(handle), [](td::Unit) {}); } }); td::actor::send_closure(db_, &Db::store_block_data, handle, std::move(data), std::move(P)); } void ValidatorManagerImpl::set_block_proof(BlockHandle handle, td::Ref proof, td::Promise promise) { auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), handle, promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { promise.set_value(td::Unit()); td::actor::send_closure(SelfId, &ValidatorManagerImpl::written_handle, std::move(handle), [](td::Unit) {}); } }); td::actor::send_closure(db_, &Db::store_block_proof, handle, std::move(proof), std::move(P)); } void ValidatorManagerImpl::set_block_proof_link(BlockHandle handle, td::Ref proof, td::Promise promise) { auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), handle, promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { promise.set_value(td::Unit()); td::actor::send_closure(SelfId, &ValidatorManagerImpl::written_handle, std::move(handle), [](td::Unit) {}); } }); td::actor::send_closure(db_, &Db::store_block_proof_link, handle, std::move(proof), std::move(P)); } /*void ValidatorManagerImpl::set_zero_state(ZeroStateIdExt id, td::Ref state, td::Promise promise) { td::actor::send_closure(db_, &Db::store_zero_state, id, std::move(state), std::move(promise)); }*/ void ValidatorManagerImpl::set_block_signatures(BlockHandle handle, td::Ref signatures, td::Promise promise) { td::actor::send_closure(db_, &Db::store_block_signatures, handle, std::move(signatures), std::move(promise)); } void ValidatorManagerImpl::set_next_block(BlockIdExt block_id, BlockIdExt next, td::Promise promise) { auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), next, promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { auto handle = R.move_as_ok(); handle->set_next(next); if (handle->need_flush()) { handle->flush(SelfId, handle, std::move(promise)); } else { promise.set_value(td::Unit()); } } }); get_block_handle(block_id, true, std::move(P)); } void ValidatorManagerImpl::set_block_candidate(BlockIdExt id, BlockCandidate candidate, CatchainSeqno cc_seqno, td::uint32 validator_set_hash, td::Promise promise) { if (!candidates_buffer_.empty()) { td::actor::send_closure(candidates_buffer_, &CandidatesBuffer::add_new_candidate, id, PublicKey{pubkeys::Ed25519{candidate.pubkey.as_bits256()}}, candidate.collated_file_hash); } if (!id.is_masterchain()) { add_cached_block_candidate(ReceivedBlock{id, candidate.data.clone()}); } td::actor::send_closure(db_, &Db::store_block_candidate, std::move(candidate), std::move(promise)); } void ValidatorManagerImpl::send_block_candidate_broadcast(BlockIdExt id, CatchainSeqno cc_seqno, td::uint32 validator_set_hash, td::BufferSlice data) { callback_->send_block_candidate(id, cc_seqno, validator_set_hash, std::move(data)); } void ValidatorManagerImpl::write_handle(BlockHandle handle, td::Promise promise) { auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), handle, promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { td::actor::send_closure(SelfId, &ValidatorManagerImpl::written_handle, std::move(handle), std::move(promise)); } }); td::actor::send_closure(db_, &Db::store_block_handle, std::move(handle), std::move(P)); } void ValidatorManagerImpl::written_handle(BlockHandle handle, td::Promise promise) { bool received = handle->received(); bool inited_state = handle->received_state(); bool inited_proof = handle->id().is_masterchain() ? handle->inited_proof() : handle->inited_proof_link(); if (handle->need_flush()) { handle->flush(actor_id(this), handle, std::move(promise)); return; } if (received && inited_proof) { auto it = wait_block_data_.find(handle->id()); if (it != wait_block_data_.end()) { td::actor::send_closure(it->second.actor_, &WaitBlockData::force_read_from_db); } } if (inited_state && inited_proof) { auto it = wait_state_.find(handle->id()); if (it != wait_state_.end()) { td::actor::send_closure(it->second.actor_, &WaitBlockState::force_read_from_db); } } else { if (handle->inited_proof_link()) { auto it = wait_state_.find(handle->id()); if (it != wait_state_.end()) { td::actor::send_closure(it->second.actor_, &WaitBlockState::after_get_proof_link); } } if (handle->id().is_masterchain() && handle->inited_proof()) { auto it = wait_state_.find(handle->id()); if (it != wait_state_.end()) { td::actor::send_closure(it->second.actor_, &WaitBlockState::after_get_proof); } } } promise.set_value(td::Unit()); } void ValidatorManagerImpl::new_block_cont(BlockHandle handle, td::Ref state, td::Promise promise) { if (state->get_shard().is_masterchain() && handle->id().id.seqno > last_masterchain_seqno_) { if (handle->id().id.seqno == last_masterchain_seqno_ + 1) { last_masterchain_seqno_ = handle->id().id.seqno; last_masterchain_state_ = td::Ref{state}; last_masterchain_block_id_ = handle->id(); last_masterchain_block_handle_ = handle; last_masterchain_block_handle_->set_processed(); new_masterchain_block(); promise.set_value(td::Unit()); while (true) { auto it = pending_masterchain_states_.find(last_masterchain_seqno_ + 1); if (it != pending_masterchain_states_.end()) { CHECK(it == pending_masterchain_states_.begin()); last_masterchain_block_handle_ = std::move(std::get<0>(it->second)); last_masterchain_state_ = std::move(std::get<1>(it->second)); last_masterchain_block_id_ = last_masterchain_block_handle_->id(); last_masterchain_seqno_ = last_masterchain_block_id_.id.seqno; CHECK(it->first == last_masterchain_seqno_); auto l_promise = std::move(std::get<2>(it->second)); last_masterchain_block_handle_->set_processed(); pending_masterchain_states_.erase(it); new_masterchain_block(); for (auto &p : l_promise) { p.set_value(td::Unit()); } } else { break; } } } else { auto it = pending_masterchain_states_.find(handle->id().id.seqno); if (it != pending_masterchain_states_.end()) { std::get<2>(it->second).emplace_back(std::move(promise)); } else { std::vector> v; v.emplace_back(std::move(promise)); pending_masterchain_states_.emplace( handle->id().id.seqno, std::forward_as_tuple(handle, td::Ref{std::move(state)}, std::move(v))); } } } else { handle->set_processed(); promise.set_value(td::Unit()); } } void ValidatorManagerImpl::new_block(BlockHandle handle, td::Ref state, td::Promise promise) { if (handle->is_applied()) { return new_block_cont(std::move(handle), std::move(state), std::move(promise)); } else { auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), handle, state = std::move(state), promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { td::actor::send_closure(SelfId, &ValidatorManagerImpl::new_block_cont, std::move(handle), std::move(state), std::move(promise)); } }); td::actor::send_closure(db_, &Db::apply_block, handle, std::move(P)); } } void ValidatorManagerImpl::get_block_handle(BlockIdExt id, bool force, td::Promise promise) { if (!id.is_valid()) { promise.set_error(td::Status::Error(ErrorCode::protoviolation, "bad block id")); return; } { // updates LRU position if found auto B = get_handle_from_lru(id); if (B) { CHECK(B->id() == id); promise.set_value(std::move(B)); return; } } auto it = handles_.find(id); if (it != handles_.end()) { auto handle = it->second.lock(); if (handle) { CHECK(handle->id() == id); promise.set_value(std::move(handle)); return; } else { handles_.erase(it); } } auto it2 = wait_block_handle_.find(id); if (it2 != wait_block_handle_.end()) { it2->second.waiting_.emplace_back(std::move(promise)); return; } wait_block_handle_.emplace(id, WaitBlockHandle{}); wait_block_handle_[id].waiting_.emplace_back(std::move(promise)); auto P = td::PromiseCreator::lambda([id, force = true, SelfId = actor_id(this)](td::Result R) mutable { BlockHandle handle; if (R.is_error()) { auto S = R.move_as_error(); if (S.code() == ErrorCode::notready && force) { handle = create_empty_block_handle(id); } else { LOG(FATAL) << "db error: failed to get block " << id << ": " << S; return; } } else { handle = R.move_as_ok(); } CHECK(handle); CHECK(handle->id() == id); td::actor::send_closure(SelfId, &ValidatorManagerImpl::register_block_handle, std::move(handle)); }); td::actor::send_closure(db_, &Db::get_block_handle, id, std::move(P)); } void ValidatorManagerImpl::register_block_handle(BlockHandle handle) { CHECK(handles_.find(handle->id()) == handles_.end()); handles_.emplace(handle->id(), std::weak_ptr(handle)); add_handle_to_lru(handle); { auto it = wait_block_handle_.find(handle->id()); CHECK(it != wait_block_handle_.end()); for (auto &p : it->second.waiting_) { p.set_result(handle); } wait_block_handle_.erase(it); } } void ValidatorManagerImpl::get_top_masterchain_state(td::Promise> promise) { if (last_masterchain_state_.is_null()) { promise.set_error(td::Status::Error(ton::ErrorCode::notready, "not started")); } else { promise.set_result(last_masterchain_state_); } } td::Ref ValidatorManagerImpl::do_get_last_liteserver_state() { if (last_masterchain_state_.is_null()) { return {}; } if (last_liteserver_state_.is_null()) { last_liteserver_state_ = last_masterchain_state_; return last_liteserver_state_; } if (last_liteserver_state_->get_seqno() == last_masterchain_state_->get_seqno()) { return last_liteserver_state_; } // If liteserver seqno (i.e. shard client) lags then use last masterchain state for liteserver // Allowed lag depends on the block rate double time_per_block = double(last_masterchain_state_->get_unix_time() - last_liteserver_state_->get_unix_time()) / double(last_masterchain_state_->get_seqno() - last_liteserver_state_->get_seqno()); if (td::Clocks::system() - double(last_liteserver_state_->get_unix_time()) > std::min(time_per_block * 8, 180.0)) { last_liteserver_state_ = last_masterchain_state_; } return last_liteserver_state_; } void ValidatorManagerImpl::get_top_masterchain_block(td::Promise promise) { if (!last_masterchain_block_id_.is_valid()) { promise.set_error(td::Status::Error(ton::ErrorCode::notready, "not started")); } else { promise.set_result(last_masterchain_block_id_); } } void ValidatorManagerImpl::get_top_masterchain_state_block( td::Promise, BlockIdExt>> promise) { if (last_masterchain_state_.is_null()) { promise.set_error(td::Status::Error(ton::ErrorCode::notready, "not started")); } else { promise.set_result( std::pair, BlockIdExt>{last_masterchain_state_, last_masterchain_block_id_}); } } void ValidatorManagerImpl::get_last_liteserver_state_block( td::Promise, BlockIdExt>> promise) { auto state = do_get_last_liteserver_state(); if (state.is_null()) { promise.set_error(td::Status::Error(ton::ErrorCode::notready, "not started")); } else { promise.set_result(std::pair, BlockIdExt>{state, state->get_block_id()}); } } void ValidatorManagerImpl::send_get_block_request(BlockIdExt id, td::uint32 priority, td::Promise promise) { { auto it = cached_block_candidates_.find(id); if (it != cached_block_candidates_.end()) { LOG(DEBUG) << "send_get_block_request: got result from candidates cache for " << id.to_str(); return promise.set_value(it->second.clone()); } } callback_->download_block(id, priority, td::Timestamp::in(10.0), std::move(promise)); } void ValidatorManagerImpl::send_get_zero_state_request(BlockIdExt id, td::uint32 priority, td::Promise promise) { callback_->download_zero_state(id, priority, td::Timestamp::in(10.0), std::move(promise)); } void ValidatorManagerImpl::send_get_persistent_state_request(BlockIdExt id, BlockIdExt masterchain_block_id, td::uint32 priority, td::Promise promise) { callback_->download_persistent_state(id, masterchain_block_id, priority, td::Timestamp::in(3600 * 3), std::move(promise)); } void ValidatorManagerImpl::send_get_block_proof_request(BlockIdExt block_id, td::uint32 priority, td::Promise promise) { callback_->download_block_proof(block_id, priority, td::Timestamp::in(10.0), std::move(promise)); } void ValidatorManagerImpl::send_get_block_proof_link_request(BlockIdExt block_id, td::uint32 priority, td::Promise promise) { if (!block_id.is_masterchain()) { auto it = cached_block_candidates_.find(block_id); if (it != cached_block_candidates_.end()) { // Proof link can be created from the cached block candidate LOG(DEBUG) << "send_get_block_proof_link_request: creating proof link from cached caniddate for " << block_id.to_str(); TRY_RESULT_PROMISE_PREFIX(promise, block_root, vm::std_boc_deserialize(it->second.data), "failed to create proof link: "); TRY_RESULT_PROMISE_PREFIX(promise, proof_link, WaitBlockData::generate_proof_link(it->second.id, block_root), "failed to create proof link: "); promise.set_result(std::move(proof_link)); return; } } callback_->download_block_proof_link(block_id, priority, td::Timestamp::in(10.0), std::move(promise)); } void ValidatorManagerImpl::send_get_next_key_blocks_request(BlockIdExt block_id, td::uint32 priority, td::Promise> promise) { callback_->get_next_key_blocks(block_id, td::Timestamp::in(10.0), std::move(promise)); } void ValidatorManagerImpl::send_external_message(td::Ref message) { callback_->send_ext_message(message->shard(), message->serialize()); add_external_message(std::move(message), 0); } void ValidatorManagerImpl::send_ihr_message(td::Ref message) { callback_->send_ihr_message(message->shard(), message->serialize()); } void ValidatorManagerImpl::send_top_shard_block_description(td::Ref desc) { if (!resend_shard_blocks_at_) { resend_shard_blocks_at_ = td::Timestamp::in(td::Random::fast(0, 100) * 0.01 + 2.0); alarm_timestamp().relax(resend_shard_blocks_at_); } auto it = out_shard_blocks_.find(ShardTopBlockDescriptionId{desc->block_id().shard_full(), desc->catchain_seqno()}); if (it != out_shard_blocks_.end() && desc->block_id().id.seqno <= it->second->block_id().id.seqno) { VLOG(VALIDATOR_DEBUG) << "dropping duplicate top block description"; } else { out_shard_blocks_[ShardTopBlockDescriptionId{desc->block_id().shard_full(), desc->catchain_seqno()}] = desc; callback_->send_shard_block_info(desc->block_id(), desc->catchain_seqno(), desc->serialize()); add_shard_block_description(desc); } } void ValidatorManagerImpl::send_block_broadcast(BlockBroadcast broadcast, int mode) { callback_->send_broadcast(std::move(broadcast), mode); } void ValidatorManagerImpl::send_validator_telemetry(PublicKeyHash key, tl_object_ptr telemetry) { callback_->send_validator_telemetry(key, std::move(telemetry)); } void ValidatorManagerImpl::send_get_out_msg_queue_proof_request( ShardIdFull dst_shard, std::vector blocks, block::ImportedMsgQueueLimits limits, td::Promise>> promise) { callback_->download_out_msg_queue_proof(dst_shard, std::move(blocks), limits, td::Timestamp::in(10.0), std::move(promise)); } void ValidatorManagerImpl::send_download_archive_request(BlockSeqno mc_seqno, ShardIdFull shard_prefix, std::string tmp_dir, td::Timestamp timeout, td::Promise promise) { callback_->download_archive(mc_seqno, shard_prefix, std::move(tmp_dir), timeout, std::move(promise)); } void ValidatorManagerImpl::start_up() { db_ = create_db_actor(actor_id(this), db_root_, opts_); actor_stats_ = td::actor::create_actor("actor_stats"); lite_server_cache_ = create_liteserver_cache_actor(actor_id(this), db_root_); token_manager_ = td::actor::create_actor("tokenmanager"); td::mkdir(db_root_ + "/tmp/").ensure(); td::mkdir(db_root_ + "/catchains/").ensure(); auto Q = td::PromiseCreator::lambda([SelfId = actor_id(this)](td::Result> R) { R.ensure(); td::actor::send_closure(SelfId, &ValidatorManagerImpl::created_ext_server, R.move_as_ok()); }); td::actor::send_closure(adnl_, &adnl::Adnl::create_ext_server, std::vector{}, std::vector{}, std::move(Q)); auto P = td::PromiseCreator::lambda([SelfId = actor_id(this)](td::Result R) { R.ensure(); td::actor::send_closure(SelfId, &ValidatorManagerImpl::started, R.move_as_ok()); }); auto to_import_dir = db_root_ + "/import"; auto S = td::WalkPath::run(to_import_dir, [&](td::CSlice cfname, td::WalkPath::Type t) -> void { auto fname = td::Slice(cfname); if (t == td::WalkPath::Type::NotDir) { auto d = fname.rfind(TD_DIR_SLASH); if (d != td::Slice::npos) { fname = fname.substr(d + 1); } if (fname.size() <= 13) { return; } if (fname.substr(fname.size() - 5) != ".pack") { return; } if (fname.substr(0, 8) != "archive.") { return; } fname = fname.substr(8); while (fname.size() > 1 && fname[0] == '0') { fname.remove_prefix(1); } auto i = fname.find('.'); if (i == td::Slice::npos) { return; } fname = fname.substr(0, i); auto v = td::to_integer_safe(fname); if (v.is_error()) { return; } auto seqno = v.move_as_ok(); LOG(INFO) << "found archive slice '" << cfname << "' for seqno " << seqno; to_import_[seqno].push_back(cfname.str()); } }); if (S.is_error()) { LOG(INFO) << "failed to load blocks from import dir: " << S; } validator_manager_init(opts_, actor_id(this), db_.get(), std::move(P)); check_waiters_at_ = td::Timestamp::in(1.0); alarm_timestamp().relax(check_waiters_at_); } void ValidatorManagerImpl::init_last_masterchain_state(td::Ref state) { if (last_masterchain_state_.not_null()) { return; } last_masterchain_state_ = std::move(state); update_shard_overlays(); } void ValidatorManagerImpl::started(ValidatorManagerInitResult R) { CHECK(R.handle); CHECK(R.state.not_null()); last_masterchain_block_handle_ = std::move(R.handle); last_masterchain_block_id_ = last_masterchain_block_handle_->id(); last_masterchain_seqno_ = last_masterchain_block_id_.id.seqno; last_masterchain_state_ = std::move(R.state); last_key_block_handle_ = std::move(R.last_key_block_handle_); last_known_key_block_handle_ = last_key_block_handle_; CHECK(last_masterchain_block_handle_->is_applied()); if (last_known_key_block_handle_->inited_is_key_block()) { callback_->new_key_block(last_key_block_handle_); } gc_masterchain_handle_ = std::move(R.gc_handle); gc_masterchain_state_ = std::move(R.gc_state); shard_client_ = std::move(R.clients); auto P = td::PromiseCreator::lambda([SelfId = actor_id(this)](td::Result> R) { if (R.is_error()) { if (R.error().code() == ErrorCode::notready) { td::actor::send_closure(SelfId, &ValidatorManagerImpl::read_gc_list, std::vector{}); } else { LOG(FATAL) << "db error: " << R.move_as_error(); } } else { td::actor::send_closure(SelfId, &ValidatorManagerImpl::read_gc_list, R.move_as_ok()); } }); td::actor::send_closure(db_, &Db::get_destroyed_validator_sessions, std::move(P)); if (opts_->nonfinal_ls_queries_enabled()) { candidates_buffer_ = td::actor::create_actor("candidates-buffer", actor_id(this)); } init_validator_telemetry(); auto Q = td::PromiseCreator::lambda( [SelfId = actor_id(this)](td::Result>> R) { if (R.is_error()) { LOG(FATAL) << "db error: " << R.move_as_error(); } else { td::actor::send_closure(SelfId, &ValidatorManagerImpl::got_persistent_state_descriptions, R.move_as_ok()); } }); td::actor::send_closure(db_, &Db::get_persistent_state_descriptions, std::move(Q)); update_shard_overlays(); } void ValidatorManagerImpl::read_gc_list(std::vector list) { for (auto &v : list) { check_gc_list_.insert(v); } new_masterchain_block(); serializer_ = td::actor::create_actor("serializer", last_key_block_handle_->id(), opts_, actor_id(this)); td::actor::send_closure(serializer_, &AsyncStateSerializer::update_last_known_key_block_ts, last_key_block_handle_->unix_time()); if (last_masterchain_block_handle_->inited_next_left()) { auto b = last_masterchain_block_handle_->one_next(true); if (opts_->is_hardfork(b) && !out_of_sync()) { auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), b](td::Result R) { if (R.is_error()) { LOG(INFO) << "NO HARDFORK BLOCK IN STATIC FILES"; td::actor::send_closure(SelfId, &ValidatorManagerImpl::applied_hardfork); return; } auto dataR = create_block(b, R.move_as_ok()); dataR.ensure(); auto P = td::PromiseCreator::lambda([SelfId](td::Result R) { R.ensure(); td::actor::send_closure(SelfId, &ValidatorManagerImpl::applied_hardfork); }); run_hardfork_accept_block_query(b, dataR.move_as_ok(), SelfId, std::move(P)); }); td::actor::send_closure(db_, &Db::try_get_static_file, b.file_hash, std::move(P)); return; } } if (!out_of_sync()) { completed_prestart_sync(); } else { prestart_sync(); } } void ValidatorManagerImpl::applied_hardfork() { if (!out_of_sync()) { completed_prestart_sync(); } else { prestart_sync(); } } bool ValidatorManagerImpl::out_of_sync() { auto seqno = std::min(last_masterchain_seqno_, shard_client_handle_->id().seqno()); if (seqno < opts_->sync_upto()) { return true; } if (shard_client_handle_->id().seqno() + 16 < last_masterchain_seqno_) { return true; } if (last_masterchain_block_handle_->unix_time() + 600 > td::Clocks::system()) { return false; } if (last_masterchain_seqno_ < last_known_key_block_handle_->id().seqno()) { return true; } bool masterchain_validator = false; if (!validator_groups_.size()) { auto val_set = last_masterchain_state_->get_validator_set(ShardIdFull{masterchainId}); if (!get_validator(ShardIdFull{masterchainId}, val_set).is_zero()) { masterchain_validator = true; } } if ((masterchain_validator || validator_groups_.size() > 0) && last_known_key_block_handle_->id().seqno() <= last_masterchain_seqno_) { return false; } LOG(INFO) << "groups=" << validator_groups_.size() << " seqno=" << last_known_key_block_handle_->id().seqno() << " our_seqno=" << last_masterchain_seqno_; return true; } void ValidatorManagerImpl::prestart_sync() { auto P = td::PromiseCreator::lambda([SelfId = actor_id(this)](td::Result R) { R.ensure(); td::actor::send_closure(SelfId, &ValidatorManagerImpl::download_next_archive); }); td::actor::send_closure(db_, &Db::set_async_mode, false, std::move(P)); } void ValidatorManagerImpl::download_next_archive() { if (!out_of_sync()) { finish_prestart_sync(); return; } auto seqno = std::min(last_masterchain_seqno_, shard_client_handle_->id().seqno()); std::vector to_import_files; auto it = to_import_.upper_bound(seqno + 1); if (it != to_import_.begin()) { --it; to_import_files = std::move(it->second); it->second.clear(); } auto P = td::PromiseCreator::lambda([SelfId = actor_id(this)](td::Result> R) { if (R.is_error()) { LOG(INFO) << "failed to download and import archive slice: " << R.error(); delay_action([SelfId]() { td::actor::send_closure(SelfId, &ValidatorManagerImpl::download_next_archive); }, td::Timestamp::in(2.0)); } else { td::actor::send_closure(SelfId, &ValidatorManagerImpl::checked_archive_slice, R.ok().first, R.ok().second); } }); td::actor::create_actor("archiveimport", db_root_, last_masterchain_state_, seqno, opts_, actor_id(this), std::move(to_import_files), std::move(P)) .release(); } void ValidatorManagerImpl::checked_archive_slice(BlockSeqno new_last_mc_seqno, BlockSeqno new_shard_client_seqno) { LOG(INFO) << "checked downloaded archive slice: mc_top_seqno=" << new_last_mc_seqno << " shard_top_seqno_=" << new_shard_client_seqno; CHECK(new_last_mc_seqno <= last_masterchain_seqno_); CHECK(new_shard_client_seqno <= last_masterchain_seqno_); BlockIdExt shard_client_block_id; CHECK(last_masterchain_state_->get_old_mc_block_id(new_shard_client_seqno, shard_client_block_id)); auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), db = db_.get(), client = shard_client_.get()](td::Result R) { R.ensure(); auto handle = R.move_as_ok(); auto P = td::PromiseCreator::lambda([SelfId, client, handle](td::Result> R) mutable { auto P = td::PromiseCreator::lambda([SelfId](td::Result R) { R.ensure(); td::actor::send_closure(SelfId, &ValidatorManagerImpl::download_next_archive); }); td::actor::send_closure(client, &ShardClient::force_update_shard_client_ex, std::move(handle), td::Ref{R.move_as_ok()}, std::move(P)); }); td::actor::send_closure(db, &Db::get_block_state, std::move(handle), std::move(P)); }); get_block_handle(shard_client_block_id, true, std::move(P)); } void ValidatorManagerImpl::finish_prestart_sync() { to_import_.clear(); auto P = td::PromiseCreator::lambda([SelfId = actor_id(this)](td::Result R) { R.ensure(); td::actor::send_closure(SelfId, &ValidatorManagerImpl::completed_prestart_sync); }); td::actor::send_closure(db_, &Db::set_async_mode, false, std::move(P)); } void ValidatorManagerImpl::completed_prestart_sync() { td::actor::send_closure(shard_client_, &ShardClient::start); send_peek_key_block_request(); LOG(WARNING) << "initial read complete: " << last_masterchain_block_handle_->id() << " " << last_masterchain_block_id_; callback_->initial_read_complete(last_masterchain_block_handle_); } void ValidatorManagerImpl::new_masterchain_block() { if (last_masterchain_seqno_ > 0 && last_masterchain_block_handle_->is_key_block()) { last_key_block_handle_ = last_masterchain_block_handle_; if (last_key_block_handle_->id().seqno() > last_known_key_block_handle_->id().seqno()) { last_known_key_block_handle_ = last_key_block_handle_; callback_->new_key_block(last_key_block_handle_); } if (!serializer_.empty()) { td::actor::send_closure(serializer_, &AsyncStateSerializer::update_last_known_key_block_ts, last_key_block_handle_->unix_time()); } init_validator_telemetry(); } update_shard_overlays(); update_shards(); update_shard_blocks(); if (!shard_client_.empty()) { td::actor::send_closure(shard_client_, &ShardClient::new_masterchain_block_notification, last_masterchain_block_handle_, last_masterchain_state_); } if (last_masterchain_seqno_ % 1024 == 0) { LOG(WARNING) << "applied masterchain block " << last_masterchain_block_id_; } } void ValidatorManagerImpl::update_shard_overlays() { CHECK(last_masterchain_state_.not_null()); std::set shards_to_monitor; shards_to_monitor.insert(ShardIdFull{masterchainId}); std::set workchains; for (const auto& shard : last_masterchain_state_->get_shards()) { workchains.insert(shard->shard().workchain); if (opts_->need_monitor(shard->shard(),last_masterchain_state_)) { shards_to_monitor.insert(shard->shard()); } } for (const auto &[wc, desc] : last_masterchain_state_->get_workchain_list()) { if (!workchains.count(wc) && desc->active && opts_->need_monitor(ShardIdFull{wc, shardIdAll}, last_masterchain_state_)) { shards_to_monitor.insert(ShardIdFull{wc, shardIdAll}); } } callback_->on_new_masterchain_block(last_masterchain_state_, std::move(shards_to_monitor)); } void ValidatorManagerImpl::update_shards() { if ((last_masterchain_state_->rotated_all_shards() || last_masterchain_seqno_ == 0) && opts_->get_last_fork_masterchain_seqno() <= last_masterchain_seqno_) { allow_validate_ = true; } auto exp_vec = last_masterchain_state_->get_shards(); auto config = last_masterchain_state_->get_consensus_config(); validatorsession::ValidatorSessionOptions opts{config}; td::uint32 threshold = 9407194; bool force_group_id_upgrade = last_masterchain_seqno_ == threshold; auto legacy_opts_hash = opts.get_hash(); if (last_masterchain_seqno_ >= threshold) { //TODO move to get_consensus_config() opts.proto_version = std::max(opts.proto_version, 1); } auto opts_hash = opts.get_hash(); std::map> new_shards; std::set future_shards; auto cur_time = static_cast(td::Clocks::system()); for (auto &v : exp_vec) { auto shard = v->shard(); if (v->before_split()) { CHECK(!v->before_merge()); ShardIdFull l_shard{shard.workchain, shard_child(shard.shard, true)}; ShardIdFull r_shard{shard.workchain, shard_child(shard.shard, false)}; new_shards.emplace(l_shard, std::vector{v->top_block_id()}); new_shards.emplace(r_shard, std::vector{v->top_block_id()}); } else if (v->before_merge()) { ShardIdFull p_shard{shard.workchain, shard_parent(shard.shard)}; auto it = new_shards.find(p_shard); if (it == new_shards.end()) { new_shards.emplace(p_shard, std::vector(2)); } bool left = shard_child(p_shard.shard, true) == shard.shard; new_shards[p_shard][left ? 0 : 1] = v->top_block_id(); } else { new_shards.emplace(shard, std::vector{v->top_block_id()}); } switch (v->fsm_state()) { case McShardHash::FsmState::fsm_none: { future_shards.insert(shard); break; } case McShardHash::FsmState::fsm_split: { if (v->fsm_utime() < cur_time + 60) { ShardIdFull l_shard{shard.workchain, shard_child(shard.shard, true)}; ShardIdFull r_shard{shard.workchain, shard_child(shard.shard, false)}; future_shards.insert(l_shard); future_shards.insert(r_shard); } else { future_shards.insert(shard); } break; } case McShardHash::FsmState::fsm_merge: { if (v->fsm_utime() < cur_time + 60) { ShardIdFull p_shard{shard.workchain, shard_parent(shard.shard)}; future_shards.insert(p_shard); } else { future_shards.insert(shard); } break; } default: LOG(FATAL) << "state=" << static_cast(v->fsm_state()); } } new_shards.emplace(ShardIdFull{masterchainId, shardIdAll}, std::vector{last_masterchain_block_id_}); future_shards.insert(ShardIdFull{masterchainId, shardIdAll}); VLOG(VALIDATOR_DEBUG) << "total shards=" << new_shards.size() << " config shards=" << exp_vec.size(); std::map new_validator_groups_; std::map new_next_validator_groups_; bool force_recover = false; { auto val_set = last_masterchain_state_->get_validator_set(ShardIdFull{masterchainId}); auto r = opts_->check_unsafe_catchain_rotate(last_masterchain_seqno_, val_set->get_catchain_seqno()); force_recover = r > 0; } BlockSeqno key_seqno = last_key_block_handle_->id().seqno(); if (force_group_id_upgrade) { for (auto &desc : new_shards) { auto shard = desc.first; auto prev = desc.second; for (auto &p : prev) { CHECK(p.is_valid()); } auto val_set = last_masterchain_state_->get_validator_set(shard); auto validator_id = get_validator(shard, val_set); if (!validator_id.is_zero()) { auto legacy_val_group_id = get_validator_set_id(shard, val_set, legacy_opts_hash, key_seqno, opts); auto val_group_id = get_validator_set_id(shard, val_set, opts_hash, key_seqno, opts); auto it = validator_groups_.find(legacy_val_group_id); if (it != validator_groups_.end()) { new_validator_groups_.emplace(val_group_id, std::move(it->second)); } else { auto it2 = next_validator_groups_.find(legacy_val_group_id); if (it2 != next_validator_groups_.end()) { if (!it2->second.actor.empty()) { td::actor::send_closure(it2->second.actor, &ValidatorGroup::start, prev, last_masterchain_block_id_); } new_validator_groups_.emplace(val_group_id, std::move(it2->second)); } else { auto G = create_validator_group(val_group_id, shard, val_set, key_seqno, opts, started_); if (!G.empty()) { td::actor::send_closure(G, &ValidatorGroup::start, prev, last_masterchain_block_id_); } new_validator_groups_.emplace(val_group_id, ValidatorGroupEntry{std::move(G), shard}); } } } } } active_validator_groups_master_ = active_validator_groups_shard_ = 0; if (allow_validate_) { for (auto &desc : new_shards) { auto shard = desc.first; if (force_recover && !desc.first.is_masterchain()) { continue; } auto prev = desc.second; for (auto &p : prev) { CHECK(p.is_valid()); } auto val_set = last_masterchain_state_->get_validator_set(shard); auto x = val_set->export_vector(); auto validator_id = get_validator(shard, val_set); if (!validator_id.is_zero()) { ++(shard.is_masterchain() ? active_validator_groups_master_ : active_validator_groups_shard_); auto val_group_id = get_validator_set_id(shard, val_set, opts_hash, key_seqno, opts); if (force_recover) { auto r = opts_->check_unsafe_catchain_rotate(last_masterchain_seqno_, val_set->get_catchain_seqno()); if (r) { td::uint8 b[36]; td::MutableSlice x{b, 36}; x.copy_from(val_group_id.as_slice()); x.remove_prefix(32); CHECK(x.size() == 4); x.copy_from(td::Slice(reinterpret_cast(&r), 4)); val_group_id = sha256_bits256(td::Slice(b, 36)); } } VLOG(VALIDATOR_DEBUG) << "validating group " << val_group_id; auto it = validator_groups_.find(val_group_id); if (it != validator_groups_.end()) { new_validator_groups_.emplace(val_group_id, std::move(it->second)); } else { auto it2 = next_validator_groups_.find(val_group_id); if (it2 != next_validator_groups_.end()) { if (!it2->second.actor.empty()) { td::actor::send_closure(it2->second.actor, &ValidatorGroup::start, prev, last_masterchain_block_id_); } new_validator_groups_.emplace(val_group_id, std::move(it2->second)); } else { auto G = create_validator_group(val_group_id, shard, val_set, key_seqno, opts, started_); if (!G.empty()) { td::actor::send_closure(G, &ValidatorGroup::start, prev, last_masterchain_block_id_); } new_validator_groups_.emplace(val_group_id, ValidatorGroupEntry{std::move(G), shard}); } } } } } for (auto &shard : future_shards) { auto val_set = last_masterchain_state_->get_next_validator_set(shard); if (val_set.is_null()) { continue; } auto validator_id = get_validator(shard, val_set); if (!validator_id.is_zero()) { auto val_group_id = get_validator_set_id(shard, val_set, opts_hash, key_seqno, opts); auto it = next_validator_groups_.find(val_group_id); if (it != next_validator_groups_.end()) { //CHECK(!it->second.empty()); new_next_validator_groups_.emplace(val_group_id, std::move(it->second)); } else { new_next_validator_groups_.emplace( val_group_id, ValidatorGroupEntry{ create_validator_group(val_group_id, shard, val_set, key_seqno, opts, started_), shard}); } } } std::vector> gc; for (auto &v : validator_groups_) { if (!v.second.actor.empty()) { gc_list_.push_back(v.first); gc.push_back(v.second.actor.release()); } } for (auto &v : next_validator_groups_) { if (!v.second.actor.empty()) { gc_list_.push_back(v.first); gc.push_back(v.second.actor.release()); } } validator_groups_ = std::move(new_validator_groups_); next_validator_groups_ = std::move(new_next_validator_groups_); if (last_masterchain_state_->rotated_all_shards()) { gc_list_.clear(); check_gc_list_.clear(); CHECK(last_masterchain_block_handle_->received_state()); auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), gc = std::move(gc), block_id = last_masterchain_block_id_](td::Result R) { R.ensure(); td::actor::send_closure(SelfId, &ValidatorManagerImpl::written_destroyed_validator_sessions, std::move(gc)); td::actor::send_closure(SelfId, &ValidatorManagerImpl::updated_init_block, block_id); }); td::actor::send_closure(db_, &Db::update_init_masterchain_block, last_masterchain_block_id_, std::move(P)); } else { auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), gc = std::move(gc)](td::Result R) { R.ensure(); td::actor::send_closure(SelfId, &ValidatorManagerImpl::written_destroyed_validator_sessions, std::move(gc)); }); td::actor::send_closure(db_, &Db::update_destroyed_validator_sessions, gc_list_, std::move(P)); } if (!serializer_.empty()) { td::actor::send_closure(serializer_, &AsyncStateSerializer::auto_disable_serializer, is_validator() && last_masterchain_state_->get_global_id() == -239); // mainnet only } } void ValidatorManagerImpl::written_destroyed_validator_sessions(std::vector> list) { for (auto &v : list) { td::actor::send_closure(v, &ValidatorGroup::destroy); } } void ValidatorManagerImpl::update_shard_blocks() { { auto it = shard_blocks_.begin(); while (it != shard_blocks_.end()) { auto &B = it->second; if (!B->may_be_valid(last_masterchain_block_handle_, last_masterchain_state_)) { auto it2 = it++; shard_blocks_.erase(it2); } else { ++it; } } } { auto it = out_shard_blocks_.begin(); while (it != out_shard_blocks_.end()) { auto &B = it->second; if (!B->may_be_valid(last_masterchain_block_handle_, last_masterchain_state_)) { auto it2 = it++; out_shard_blocks_.erase(it2); } else { ++it; } } } } ValidatorSessionId ValidatorManagerImpl::get_validator_set_id(ShardIdFull shard, td::Ref val_set, td::Bits256 opts_hash, BlockSeqno last_key_block_seqno, const validatorsession::ValidatorSessionOptions &opts) { std::vector> vec; auto v = val_set->export_vector(); auto vert_seqno = opts_->get_maximal_vertical_seqno(); for (auto &n : v) { auto pub_key = PublicKey{pubkeys::Ed25519{n.key}}; vec.push_back( create_tl_object(pub_key.compute_short_id().bits256_value(), n.addr, n.weight)); } if (!opts.new_catchain_ids) { if (vert_seqno == 0) { return create_hash_tl_object(shard.workchain, shard.shard, val_set->get_catchain_seqno(), opts_hash, std::move(vec)); } else { return create_hash_tl_object( shard.workchain, shard.shard, vert_seqno, val_set->get_catchain_seqno(), opts_hash, std::move(vec)); } } else { return create_hash_tl_object(shard.workchain, shard.shard, vert_seqno, last_key_block_seqno, val_set->get_catchain_seqno(), opts_hash, std::move(vec)); } } td::actor::ActorOwn ValidatorManagerImpl::create_validator_group( ValidatorSessionId session_id, ShardIdFull shard, td::Ref validator_set, BlockSeqno key_seqno, validatorsession::ValidatorSessionOptions opts, bool init_session) { if (check_gc_list_.count(session_id) == 1) { return td::actor::ActorOwn{}; } else { // Call get_external_messages to cleanup mempool for the shard get_external_messages(shard, [](td::Result, int>>>) {}); auto validator_id = get_validator(shard, validator_set); CHECK(!validator_id.is_zero()); auto G = td::actor::create_actor( PSTRING() << "valgroup" << shard.to_str(), shard, validator_id, session_id, validator_set, key_seqno, opts, keyring_, adnl_, rldp_, overlays_, db_root_, actor_id(this), init_session, opts_->check_unsafe_resync_allowed(validator_set->get_catchain_seqno()), opts_); return G; } } void ValidatorManagerImpl::add_handle_to_lru(BlockHandle handle) { auto it = handle_lru_map_.find(handle->id()); if (it != handle_lru_map_.end()) { CHECK(it->second->handle() == handle); it->second->remove(); handle_lru_.put(it->second.get()); } else { auto id = handle->id(); auto x = std::make_unique(std::move(handle)); handle_lru_.put(x.get()); handle_lru_map_.emplace(id, std::move(x)); handle_lru_size_++; if (handle_lru_size_ > handle_lru_max_size_) { auto to_remove = BlockHandleLru::from_list_node(handle_lru_.get()); CHECK(to_remove); CHECK(handle_lru_map_.count(to_remove->handle()->id()) == 1); handle_lru_map_.erase(to_remove->handle()->id()); handle_lru_size_--; } } } BlockHandle ValidatorManagerImpl::get_handle_from_lru(BlockIdExt id) { auto it = handle_lru_map_.find(id); if (it != handle_lru_map_.end()) { it->second->remove(); handle_lru_.put(it->second.get()); auto handle = it->second->handle(); CHECK(handle->id() == id); return handle; } else { return nullptr; } } void ValidatorManagerImpl::try_advance_gc_masterchain_block() { if (gc_masterchain_handle_ && last_masterchain_seqno_ > 0 && !gc_advancing_ && gc_masterchain_handle_->inited_next_left() && gc_masterchain_handle_->id().id.seqno < last_rotate_block_id_.id.seqno && gc_masterchain_handle_->id().id.seqno < last_masterchain_state_->min_ref_masterchain_seqno() && gc_masterchain_handle_->id().id.seqno + 1024 < last_masterchain_seqno_ && gc_masterchain_handle_->id().id.seqno < last_masterchain_state_->last_key_block_id().seqno() && gc_masterchain_handle_->id().id.seqno < min_confirmed_masterchain_seqno_ && gc_masterchain_handle_->id().id.seqno < state_serializer_masterchain_seqno_ && gc_masterchain_state_->get_unix_time() < td::Clocks::system() - state_ttl()) { gc_advancing_ = true; auto block_id = gc_masterchain_handle_->one_next(true); auto P = td::PromiseCreator::lambda([SelfId = actor_id(this)](td::Result R) { R.ensure(); td::actor::send_closure(SelfId, &ValidatorManagerImpl::got_next_gc_masterchain_handle, R.move_as_ok()); }); get_block_handle(block_id, true, std::move(P)); } } void ValidatorManagerImpl::allow_persistent_state_file_gc(BlockIdExt block_id, BlockIdExt masterchain_block_id, td::Promise promise) { if (!gc_masterchain_handle_) { promise.set_result(false); return; } if (masterchain_block_id.seqno() == 0) { promise.set_result(false); return; } if (masterchain_block_id.seqno() >= gc_masterchain_handle_->id().seqno()) { promise.set_result(false); return; } auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result R) mutable { R.ensure(); auto handle = R.move_as_ok(); CHECK(handle->is_key_block()); promise.set_result(ValidatorManager::persistent_state_ttl(handle->unix_time()) < td::Clocks::system()); }); get_block_handle(masterchain_block_id, false, std::move(P)); } void ValidatorManagerImpl::allow_archive(BlockIdExt block_id, td::Promise promise) { /*if (!gc_masterchain_handle_) { promise.set_result(false); return; } if (!block_id.is_masterchain()) { if (!gc_masterchain_state_->workchain_is_active(block_id.id.workchain)) { promise.set_result(false); return; } bool found = false; auto S = gc_masterchain_state_->get_shard_from_config(block_id.shard_full()); if (S.not_null()) { if (block_id.id.seqno >= S->top_block_id().id.seqno) { promise.set_result(false); return; } found = true; } else { auto shards = gc_masterchain_state_->get_shards(); for (auto shard : shards) { if (shard_intersects(shard->shard(), block_id.shard_full())) { if (block_id.id.seqno >= shard->top_block_id().id.seqno) { promise.set_result(false); return; } found = true; } } } CHECK(found); } else { if (block_id.id.seqno >= gc_masterchain_handle_->id().id.seqno) { promise.set_result(false); return; } } auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); } else { promise.set_result(true); } }); td::actor::send_closure(db_, &Db::archive, block_id, std::move(P));*/ promise.set_result(false); } void ValidatorManagerImpl::allow_delete(BlockIdExt block_id, td::Promise promise) { auto key_ttl = td::Clocks::system() - opts_->key_proof_ttl(); auto ttl = td::Clocks::system() - opts_->archive_ttl(); auto P = td::PromiseCreator::lambda( [SelfId = actor_id(this), promise = std::move(promise), ttl, key_ttl](td::Result R) mutable { if (R.is_error()) { promise.set_result(true); return; } auto handle = R.move_as_ok(); if (!handle->inited_unix_time()) { promise.set_result(true); return; } if (!handle->inited_is_key_block() || !handle->is_key_block()) { promise.set_result(handle->unix_time() <= ttl); } else { promise.set_result(handle->unix_time() <= key_ttl); } }); get_block_handle(block_id, false, std::move(P)); } void ValidatorManagerImpl::allow_block_state_gc(BlockIdExt block_id, td::Promise promise) { if (!gc_masterchain_handle_) { promise.set_result(false); return; } if (block_id.is_masterchain()) { promise.set_result(block_id.id.seqno < gc_masterchain_handle_->id().id.seqno); return; } if (!gc_masterchain_state_->workchain_is_active(block_id.id.workchain)) { promise.set_result(false); return; } auto S = gc_masterchain_state_->get_shard_from_config(block_id.shard_full()); if (S.not_null()) { promise.set_result(block_id.id.seqno < S->top_block_id().id.seqno); return; } auto shards = gc_masterchain_state_->get_shards(); for (const auto &shard : shards) { if (shard_intersects(shard->shard(), block_id.shard_full())) { promise.set_result(block_id.id.seqno < shard->top_block_id().id.seqno); return; } } UNREACHABLE(); } void ValidatorManagerImpl::allow_block_info_gc(BlockIdExt block_id, td::Promise promise) { auto P = td::PromiseCreator::lambda([db = db_.get(), promise = std::move(promise)](td::Result R) mutable { if (R.is_error()) { promise.set_result(false); } else { auto handle = R.move_as_ok(); if (!handle->moved_to_archive() || !handle->is_applied()) { promise.set_result(false); } else { auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result R) mutable { R.ensure(); promise.set_result(true); }); td::actor::send_closure(db, &Db::store_block_handle, handle, std::move(P)); } } }); get_block_handle(block_id, false, std::move(P)); } void ValidatorManagerImpl::got_next_gc_masterchain_handle(BlockHandle handle) { CHECK(gc_advancing_); auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), handle](td::Result> R) { if (R.is_error()) { if (R.error().code() == ErrorCode::timeout) { LOG(ERROR) << "Failed to get gc masterchain state, retrying: " << R.move_as_error(); td::actor::send_closure(SelfId, &ValidatorManagerImpl::got_next_gc_masterchain_handle, std::move(handle)); } else { LOG(FATAL) << "Failed to get gc masterchain state: " << R.move_as_error(); } return; } td::actor::send_closure(SelfId, &ValidatorManagerImpl::got_next_gc_masterchain_state, std::move(handle), td::Ref{R.move_as_ok()}); }); wait_block_state(handle, 0, td::Timestamp::in(60.0), std::move(P)); } void ValidatorManagerImpl::got_next_gc_masterchain_state(BlockHandle handle, td::Ref state) { auto P = td::PromiseCreator::lambda([handle, state, SelfId = actor_id(this)](td::Result R) { R.ensure(); td::actor::send_closure(SelfId, &ValidatorManagerImpl::advance_gc, handle, state); }); update_gc_block_handle(std::move(handle), std::move(P)); } void ValidatorManagerImpl::update_gc_block_handle(BlockHandle handle, td::Promise promise) { td::actor::send_closure(db_, &Db::update_gc_masterchain_block, handle->id(), std::move(promise)); } void ValidatorManagerImpl::advance_gc(BlockHandle handle, td::Ref state) { CHECK(gc_advancing_); gc_advancing_ = false; gc_masterchain_handle_ = std::move(handle); gc_masterchain_state_ = std::move(state); try_advance_gc_masterchain_block(); } void ValidatorManagerImpl::update_shard_client_block_handle(BlockHandle handle, td::Ref state, td::Promise promise) { shard_client_handle_ = std::move(handle); auto seqno = shard_client_handle_->id().seqno(); if (state.not_null()) { shard_client_shards_ = state->get_shards(); if (last_liteserver_state_.is_null() || last_liteserver_state_->get_block_id().seqno() < seqno) { last_liteserver_state_ = std::move(state); } } shard_client_update(seqno); promise.set_value(td::Unit()); } void ValidatorManagerImpl::shard_client_update(BlockSeqno seqno) { if (min_confirmed_masterchain_seqno_ < seqno) { min_confirmed_masterchain_seqno_ = seqno; } else { return; } while (shard_client_waiters_.size() > 0) { auto it = shard_client_waiters_.begin(); if (it->first > min_confirmed_masterchain_seqno_) { break; } for (auto &y : it->second.waiting_) { y.promise.set_value(td::Unit()); } shard_client_waiters_.erase(it); } } void ValidatorManagerImpl::state_serializer_update(BlockSeqno seqno) { if (state_serializer_masterchain_seqno_ < seqno) { state_serializer_masterchain_seqno_ = seqno; } } void ValidatorManagerImpl::alarm() { try_advance_gc_masterchain_block(); alarm_timestamp() = td::Timestamp::in(1.0); if (shard_client_handle_ && gc_masterchain_handle_) { td::actor::send_closure(db_, &Db::run_gc, shard_client_handle_->unix_time(), gc_masterchain_handle_->unix_time(), static_cast(opts_->archive_ttl())); } if (log_status_at_.is_in_past()) { if (last_masterchain_block_handle_) { LOG(ERROR) << "STATUS: last_masterchain_block_ago=" << td::format::as_time(td::Clocks::system() - last_masterchain_block_handle_->unix_time()) << " last_known_key_block_ago=" << td::format::as_time(td::Clocks::system() - (last_known_key_block_handle_->inited_unix_time() ? last_known_key_block_handle_->unix_time() : 0)) << " shard_client_ago=" << td::format::as_time(td::Clocks::system() - (shard_client_handle_ ? shard_client_handle_->unix_time() : 0)); } log_status_at_ = td::Timestamp::in(60.0); } alarm_timestamp().relax(log_status_at_); if (resend_shard_blocks_at_ && resend_shard_blocks_at_.is_in_past()) { resend_shard_blocks_at_ = td::Timestamp::never(); for (auto &B : out_shard_blocks_) { callback_->send_shard_block_info(B.second->block_id(), B.second->catchain_seqno(), B.second->serialize()); } if (out_shard_blocks_.size() > 0) { resend_shard_blocks_at_ = td::Timestamp::in(td::Random::fast(0, 100) * 0.01 + 2); } } alarm_timestamp().relax(resend_shard_blocks_at_); if (check_waiters_at_.is_in_past()) { check_waiters_at_ = td::Timestamp::in(1.0); for (auto &w : wait_block_data_) { w.second.check_timers(); } for (auto &w : wait_state_) { w.second.check_timers(); } for (auto &w : shard_client_waiters_) { w.second.check_timers(); } for (auto it = block_state_cache_.begin(); it != block_state_cache_.end();) { bool del = it->second.ttl_.is_in_past(); if (del) { auto block_id = it->first; if (block_id.is_masterchain()) { if (block_id.seqno() == last_masterchain_seqno_) { it->second.ttl_ = td::Timestamp::in(30.0); del = false; } } else if (last_masterchain_state_.not_null()) { auto shard = last_masterchain_state_->get_shard_from_config(block_id.shard_full()); if (shard.not_null()) { if (block_id.seqno() == shard->top_block_id().seqno()) { it->second.ttl_ = td::Timestamp::in(30.0); del = false; } } } } if (del) { it = block_state_cache_.erase(it); } else { ++it; } } } alarm_timestamp().relax(check_waiters_at_); if (check_shard_clients_.is_in_past()) { check_shard_clients_ = td::Timestamp::in(10.0); if (!serializer_.empty()) { auto P = td::PromiseCreator::lambda([SelfId = actor_id(this)](td::Result R) { if (R.is_error()) { VLOG(VALIDATOR_WARNING) << "failed to get shard client status: " << R.move_as_error(); } else { td::actor::send_closure(SelfId, &ValidatorManagerImpl::state_serializer_update, R.move_as_ok()); } }); td::actor::send_closure(serializer_, &AsyncStateSerializer::get_masterchain_seqno, std::move(P)); } } alarm_timestamp().relax(check_shard_clients_); if (log_ls_stats_at_.is_in_past()) { if (!ls_stats_.empty() || ls_stats_check_ext_messages_ != 0) { td::StringBuilder sb; sb << "Liteserver stats (1 minute):"; td::uint32 total = 0; for (const auto &p : ls_stats_) { sb << " " << lite_query_name_by_id(p.first) << ":" << p.second; total += p.second; } if (total > 0) { sb << " TOTAL:" << total; } if (ls_stats_check_ext_messages_ > 0) { sb << " checkExtMessage:" << ls_stats_check_ext_messages_; } LOG(WARNING) << sb.as_cslice(); } ls_stats_.clear(); ls_stats_check_ext_messages_ = 0; log_ls_stats_at_ = td::Timestamp::in(60.0); } alarm_timestamp().relax(log_ls_stats_at_); if (cleanup_mempool_at_.is_in_past()) { if (is_validator()) { get_external_messages(ShardIdFull{masterchainId, shardIdAll}, [](td::Result, int>>>) {}); get_external_messages(ShardIdFull{basechainId, shardIdAll}, [](td::Result, int>>>) {}); } cleanup_mempool_at_ = td::Timestamp::in(250.0); } alarm_timestamp().relax(cleanup_mempool_at_); } void ValidatorManagerImpl::update_shard_client_state(BlockIdExt masterchain_block_id, td::Promise promise) { td::actor::send_closure(db_, &Db::update_shard_client_state, masterchain_block_id, std::move(promise)); } void ValidatorManagerImpl::get_shard_client_state(bool from_db, td::Promise promise) { if (shard_client_handle_ && !from_db) { promise.set_result(shard_client_handle_->id()); } else { td::actor::send_closure(db_, &Db::get_shard_client_state, std::move(promise)); } } void ValidatorManagerImpl::update_async_serializer_state(AsyncSerializerState state, td::Promise promise) { td::actor::send_closure(db_, &Db::update_async_serializer_state, std::move(state), std::move(promise)); } void ValidatorManagerImpl::get_async_serializer_state(td::Promise promise) { td::actor::send_closure(db_, &Db::get_async_serializer_state, std::move(promise)); } void ValidatorManagerImpl::try_get_static_file(FileHash file_hash, td::Promise promise) { td::actor::send_closure(db_, &Db::try_get_static_file, file_hash, std::move(promise)); } void ValidatorManagerImpl::get_archive_id(BlockSeqno masterchain_seqno, ShardIdFull shard_prefix, td::Promise promise) { if (masterchain_seqno > last_masterchain_seqno_) { promise.set_error(td::Status::Error(ErrorCode::notready, "masterchain seqno too big")); return; } td::actor::send_closure(db_, &Db::get_archive_id, masterchain_seqno, shard_prefix, std::move(promise)); } void ValidatorManagerImpl::get_archive_slice(td::uint64 archive_id, td::uint64 offset, td::uint32 limit, td::Promise promise) { td::actor::send_closure(db_, &Db::get_archive_slice, archive_id, offset, limit, std::move(promise)); } bool ValidatorManagerImpl::is_validator() { return temp_keys_.size() > 0 || permanent_keys_.size() > 0; } bool ValidatorManagerImpl::validating_masterchain() { return !get_validator(ShardIdFull(masterchainId), last_masterchain_state_->get_validator_set(ShardIdFull(masterchainId))) .is_zero(); } PublicKeyHash ValidatorManagerImpl::get_validator(ShardIdFull shard, td::Ref val_set) { for (auto &key : temp_keys_) { if (val_set->is_validator(key.bits256_value())) { return key; } } return PublicKeyHash::zero(); } void ValidatorManagerImpl::got_next_key_blocks(std::vector r) { if (r.size() == 0) { delay_action([SelfId = actor_id( this)]() { td::actor::send_closure(SelfId, &ValidatorManagerImpl::send_peek_key_block_request); }, td::Timestamp::in(2.0 + td::Random::fast(0, 100) * 0.01)); return; } auto block_id = *r.rbegin(); if (block_id.seqno() <= last_known_key_block_handle_->id().seqno()) { delay_action([SelfId = actor_id( this)]() { td::actor::send_closure(SelfId, &ValidatorManagerImpl::send_peek_key_block_request); }, td::Timestamp::in(2.0 + td::Random::fast(0, 100) * 0.01)); return; } auto P = td::PromiseCreator::lambda([SelfId = actor_id(this)](td::Result R) { R.ensure(); td::actor::send_closure(SelfId, &ValidatorManagerImpl::update_last_known_key_block, R.move_as_ok(), true); }); get_block_handle(block_id, false, std::move(P)); } void ValidatorManagerImpl::update_last_known_key_block(BlockHandle handle, bool send_request) { if (last_known_key_block_handle_ && handle->id().seqno() > last_known_key_block_handle_->id().seqno()) { last_known_key_block_handle_ = std::move(handle); callback_->new_key_block(last_known_key_block_handle_); } if (send_request) { delay_action([SelfId = actor_id( this)]() { td::actor::send_closure(SelfId, &ValidatorManagerImpl::send_peek_key_block_request); }, td::Timestamp::in(0.1 + td::Random::fast(0, 100) * 0.001)); } } void ValidatorManagerImpl::send_peek_key_block_request() { auto P = td::PromiseCreator::lambda([SelfId = actor_id(this)](td::Result> R) { if (R.is_error()) { td::actor::send_closure(SelfId, &ValidatorManagerImpl::got_next_key_blocks, std::vector{}); } else { td::actor::send_closure(SelfId, &ValidatorManagerImpl::got_next_key_blocks, R.move_as_ok()); } }); send_get_next_key_blocks_request(last_known_key_block_handle_->id(), 1, std::move(P)); } void ValidatorManagerImpl::prepare_actor_stats(td::Promise promise) { send_closure(actor_stats_, &td::actor::ActorStats::prepare_stats, std::move(promise)); } void ValidatorManagerImpl::prepare_stats(td::Promise>> promise) { auto merger = StatsMerger::create(std::move(promise)); std::vector> vec; vec.emplace_back("unixtime", td::to_string(static_cast(td::Clocks::system()))); if (last_masterchain_block_handle_) { vec.emplace_back("masterchainblock", last_masterchain_block_id_.to_str()); vec.emplace_back("masterchainblocktime", td::to_string(last_masterchain_block_handle_->unix_time())); vec.emplace_back("gcmasterchainblock", gc_masterchain_handle_->id().to_str()); vec.emplace_back("keymasterchainblock", last_key_block_handle_->id().to_str()); vec.emplace_back("knownkeymasterchainblock", last_known_key_block_handle_->id().to_str()); vec.emplace_back("rotatemasterchainblock", last_rotate_block_id_.to_str()); //vec.emplace_back("shardclientmasterchainseqno", td::to_string(min_confirmed_masterchain_seqno_)); } td::NamedThreadSafeCounter::get_default().for_each([&](auto key, auto value) { vec.emplace_back("counter." + key, PSTRING() << value); }); if (!shard_client_.empty()) { auto P = td::PromiseCreator::lambda([promise = merger.make_promise("")](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error()); return; } std::vector> vec; vec.emplace_back("shardclientmasterchainseqno", td::to_string(R.move_as_ok())); promise.set_value(std::move(vec)); }); td::actor::send_closure(shard_client_, &ShardClient::get_processed_masterchain_block, std::move(P)); } vec.emplace_back("start_time", td::to_string(started_at_)); for (int iter = 0; iter < 2; ++iter) { td::StringBuilder sb; td::uint32 total = 0; for (const auto &p : (iter ? total_ls_queries_error_ : total_ls_queries_ok_)) { sb << lite_query_name_by_id(p.first) << ":" << p.second << " "; total += p.second; } sb << "TOTAL:" << total; vec.emplace_back(PSTRING() << "total.ls_queries_" << (iter ? "error" : "ok"), sb.as_cslice().str()); } vec.emplace_back("total.ext_msg_check", PSTRING() << "ok:" << total_check_ext_messages_ok_ << " error:" << total_check_ext_messages_error_); vec.emplace_back("total.collated_blocks.master", PSTRING() << "ok:" << total_collated_blocks_master_ok_ << " error:" << total_collated_blocks_master_error_); vec.emplace_back("total.collated_blocks.shard", PSTRING() << "ok:" << total_collated_blocks_shard_ok_ << " error:" << total_collated_blocks_shard_error_); vec.emplace_back("total.validated_blocks.master", PSTRING() << "ok:" << total_validated_blocks_master_ok_ << " error:" << total_validated_blocks_master_error_); vec.emplace_back("total.validated_blocks.shard", PSTRING() << "ok:" << total_validated_blocks_shard_ok_ << " error:" << total_validated_blocks_shard_error_); if (is_validator()) { vec.emplace_back("active_validator_groups", PSTRING() << "master:" << active_validator_groups_master_ << " shard:" << active_validator_groups_shard_); } bool serializer_enabled = opts_->get_state_serializer_enabled(); if (is_validator() && last_masterchain_state_->get_global_id() == -239) { serializer_enabled = false; } vec.emplace_back("stateserializerenabled", serializer_enabled ? "true" : "false"); merger.make_promise("").set_value(std::move(vec)); if (!serializer_.empty()) { td::actor::send_closure(serializer_, &AsyncStateSerializer::prepare_stats, merger.make_promise("")); } td::actor::send_closure(db_, &Db::prepare_stats, merger.make_promise("db.")); for (auto &[_, p] : stats_providers_) { p.second(merger.make_promise(p.first)); } } void ValidatorManagerImpl::prepare_perf_timer_stats(td::Promise> promise) { promise.set_value(std::vector(perf_timer_stats)); } void ValidatorManagerImpl::add_perf_timer_stat(std::string name, double duration) { for (auto &s : perf_timer_stats) { if (s.name == name) { double now = td::Time::now(); while (!s.stats.empty() && s.stats.front().first < now - 3600.0) { s.stats.pop_front(); } s.stats.push_back({td::Time::now(), duration}); return; } } perf_timer_stats.push_back({name, {{td::Time::now(), duration}}}); } void ValidatorManagerImpl::truncate(BlockSeqno seqno, ConstBlockHandle handle, td::Promise promise) { td::actor::send_closure(db_, &Db::truncate, seqno, std::move(handle), std::move(promise)); } void ValidatorManagerImpl::wait_shard_client_state(BlockSeqno seqno, td::Timestamp timeout, td::Promise promise) { if (seqno <= min_confirmed_masterchain_seqno_) { promise.set_value(td::Unit()); return; } if (timeout.is_in_past()) { promise.set_error(td::Status::Error(ErrorCode::timeout, "timeout")); return; } if (seqno > min_confirmed_masterchain_seqno_ + 100) { promise.set_error(td::Status::Error(ErrorCode::notready, "too big masterchain block seqno")); return; } shard_client_waiters_[seqno].waiting_.emplace_back(timeout, 0, std::move(promise)); } void ValidatorManagerImpl::log_validator_session_stats(BlockIdExt block_id, validatorsession::ValidatorSessionStats stats) { std::string fname = opts_->get_session_logs_file(); if (fname.empty()) { return; } std::vector> rounds; for (const auto &round : stats.rounds) { std::vector> producers; for (const auto &producer : round.producers) { BlockIdExt cur_block_id{block_id.id, producer.root_hash, producer.file_hash}; auto it = recorded_block_stats_.find(cur_block_id); tl_object_ptr collation_stats; if (it != recorded_block_stats_.end() && it->second.collator_stats_) { auto &stats = it->second.collator_stats_.value(); collation_stats = create_tl_object( stats.bytes, stats.gas, stats.lt_delta, stats.cat_bytes, stats.cat_gas, stats.cat_lt_delta, stats.limits_log, stats.ext_msgs_total, stats.ext_msgs_filtered, stats.ext_msgs_accepted, stats.ext_msgs_rejected); } std::string approvers, signers; for (bool x : producer.approvers) { approvers += (x ? '1' : '0'); } for (bool x : producer.signers) { signers += (x ? '1' : '0'); } producers.push_back(create_tl_object( producer.id.bits256_value(), producer.candidate_id, producer.block_status, producer.root_hash, producer.file_hash, producer.comment, producer.block_timestamp, producer.is_accepted, producer.is_ours, producer.got_submit_at, producer.collation_time, producer.collated_at, producer.collation_cached, it == recorded_block_stats_.end() ? -1.0 : it->second.collator_work_time_, it == recorded_block_stats_.end() ? -1.0 : it->second.collator_cpu_work_time_, std::move(collation_stats), producer.validation_time, producer.validated_at, producer.validation_cached, it == recorded_block_stats_.end() ? -1.0 : it->second.validator_work_time_, it == recorded_block_stats_.end() ? -1.0 : it->second.validator_cpu_work_time_, producer.gen_utime, producer.approved_weight, producer.approved_33pct_at, producer.approved_66pct_at, std::move(approvers), producer.signed_weight, producer.signed_33pct_at, producer.signed_66pct_at, std::move(signers), producer.serialize_time, producer.deserialize_time, producer.serialized_size)); } rounds.push_back(create_tl_object(round.timestamp, std::move(producers))); } auto obj = create_tl_object( stats.success, create_tl_block_id(block_id), stats.timestamp, stats.self.bits256_value(), stats.session_id, stats.cc_seqno, stats.creator.bits256_value(), stats.total_validators, stats.total_weight, stats.signatures, stats.signatures_weight, stats.approve_signatures, stats.approve_signatures_weight, stats.first_round, std::move(rounds)); auto s = td::json_encode(td::ToJson(*obj.get()), false); s.erase(std::remove_if(s.begin(), s.end(), [](char c) { return c == '\n' || c == '\r'; }), s.end()); std::ofstream file; file.open(fname, std::ios_base::app); file << s << "\n"; file.close(); LOG(INFO) << "Writing validator session stats for " << block_id.id.to_str(); } void ValidatorManagerImpl::log_new_validator_group_stats(validatorsession::NewValidatorGroupStats stats) { std::string fname = opts_->get_session_logs_file(); if (fname.empty()) { return; } std::vector> nodes; for (const auto &node : stats.nodes) { nodes.push_back( create_tl_object(node.id.bits256_value(), node.weight)); } auto obj = create_tl_object( stats.session_id, stats.shard.workchain, stats.shard.shard, stats.cc_seqno, stats.last_key_block_seqno, stats.timestamp, stats.self_idx, std::move(nodes)); auto s = td::json_encode(td::ToJson(*obj.get()), false); s.erase(std::remove_if(s.begin(), s.end(), [](char c) { return c == '\n' || c == '\r'; }), s.end()); std::ofstream file; file.open(fname, std::ios_base::app); file << s << "\n"; file.close(); LOG(INFO) << "Writing new validator group stats for " << stats.session_id << " shard=" << stats.shard.to_str() << " cc_seqno=" << stats.cc_seqno; } void ValidatorManagerImpl::log_end_validator_group_stats(validatorsession::EndValidatorGroupStats stats) { std::string fname = opts_->get_session_logs_file(); if (fname.empty()) { return; } std::vector> nodes; for (const auto &node : stats.nodes) { nodes.push_back(create_tl_object(node.id.bits256_value(), node.catchain_blocks)); } auto obj = create_tl_object(stats.session_id, stats.timestamp, std::move(nodes)); auto s = td::json_encode(td::ToJson(*obj.get()), false); s.erase(std::remove_if(s.begin(), s.end(), [](char c) { return c == '\n' || c == '\r'; }), s.end()); std::ofstream file; file.open(fname, std::ios_base::app); file << s << "\n"; file.close(); LOG(INFO) << "Writing end validator group stats for " << stats.session_id; } void ValidatorManagerImpl::get_block_handle_for_litequery(BlockIdExt block_id, td::Promise promise) { get_block_handle(block_id, false, [SelfId = actor_id(this), block_id, promise = std::move(promise), allow_not_applied = opts_->nonfinal_ls_queries_enabled()](td::Result R) mutable { if (R.is_ok() && (allow_not_applied || R.ok()->is_applied())) { promise.set_value(R.move_as_ok()); } else { td::actor::send_closure(SelfId, &ValidatorManagerImpl::process_block_handle_for_litequery_error, block_id, std::move(R), std::move(promise)); } }); } void ValidatorManagerImpl::get_block_data_for_litequery(BlockIdExt block_id, td::Promise> promise) { if (candidates_buffer_.empty()) { get_block_handle_for_litequery( block_id, [manager = actor_id(this), promise = std::move(promise)](td::Result R) mutable { TRY_RESULT_PROMISE(promise, handle, std::move(R)); td::actor::send_closure_later(manager, &ValidatorManager::get_block_data_from_db, std::move(handle), std::move(promise)); }); } else { td::actor::send_closure( candidates_buffer_, &CandidatesBuffer::get_block_data, block_id, [manager = actor_id(this), promise = std::move(promise), block_id](td::Result> R) mutable { if (R.is_ok()) { promise.set_result(R.move_as_ok()); return; } td::actor::send_closure(manager, &ValidatorManagerImpl::get_block_handle_for_litequery, block_id, [manager, promise = std::move(promise)](td::Result R) mutable { TRY_RESULT_PROMISE(promise, handle, std::move(R)); td::actor::send_closure_later(manager, &ValidatorManager::get_block_data_from_db, std::move(handle), std::move(promise)); }); }); } } void ValidatorManagerImpl::get_block_state_for_litequery(BlockIdExt block_id, td::Promise> promise) { if (candidates_buffer_.empty()) { get_block_handle_for_litequery( block_id, [manager = actor_id(this), promise = std::move(promise)](td::Result R) mutable { TRY_RESULT_PROMISE(promise, handle, std::move(R)); td::actor::send_closure_later(manager, &ValidatorManager::get_shard_state_from_db, std::move(handle), std::move(promise)); }); } else { td::actor::send_closure( candidates_buffer_, &CandidatesBuffer::get_block_state, block_id, [manager = actor_id(this), promise = std::move(promise), block_id](td::Result> R) mutable { if (R.is_ok()) { promise.set_result(R.move_as_ok()); return; } td::actor::send_closure(manager, &ValidatorManagerImpl::get_block_handle_for_litequery, block_id, [manager, promise = std::move(promise)](td::Result R) mutable { TRY_RESULT_PROMISE(promise, handle, std::move(R)); td::actor::send_closure_later(manager, &ValidatorManager::get_shard_state_from_db, std::move(handle), std::move(promise)); }); }); } } void ValidatorManagerImpl::get_block_by_lt_for_litequery(AccountIdPrefixFull account, LogicalTime lt, td::Promise promise) { get_block_by_lt_from_db( account, lt, [=, SelfId = actor_id(this), promise = std::move(promise)](td::Result R) mutable { if (R.is_ok() && R.ok()->is_applied()) { promise.set_value(R.move_as_ok()); } else { td::actor::send_closure(SelfId, &ValidatorManagerImpl::process_lookup_block_for_litequery_error, account, 0, lt, std::move(R), std::move(promise)); } }); } void ValidatorManagerImpl::get_block_by_unix_time_for_litequery(AccountIdPrefixFull account, UnixTime ts, td::Promise promise) { get_block_by_unix_time_from_db( account, ts, [=, SelfId = actor_id(this), promise = std::move(promise)](td::Result R) mutable { if (R.is_ok() && R.ok()->is_applied()) { promise.set_value(R.move_as_ok()); } else { td::actor::send_closure(SelfId, &ValidatorManagerImpl::process_lookup_block_for_litequery_error, account, 1, ts, std::move(R), std::move(promise)); } }); } void ValidatorManagerImpl::get_block_by_seqno_for_litequery(AccountIdPrefixFull account, BlockSeqno seqno, td::Promise promise) { get_block_by_seqno_from_db( account, seqno, [=, SelfId = actor_id(this), promise = std::move(promise)](td::Result R) mutable { if (R.is_ok() && R.ok()->is_applied()) { promise.set_value(R.move_as_ok()); } else { td::actor::send_closure(SelfId, &ValidatorManagerImpl::process_lookup_block_for_litequery_error, account, 2, seqno, std::move(R), std::move(promise)); } }); } void ValidatorManagerImpl::process_block_handle_for_litequery_error(BlockIdExt block_id, td::Result r_handle, td::Promise promise) { td::Status err; if (r_handle.is_error()) { err = r_handle.move_as_error(); } else { auto handle = r_handle.move_as_ok(); if (handle->is_applied()) { promise.set_value(std::move(handle)); return; } if (!handle->received() || !handle->received_state()) { err = td::Status::Error(ErrorCode::notready, PSTRING() << "block " << block_id.id.to_str() << " is not in db"); } else { err = td::Status::Error(ErrorCode::notready, PSTRING() << "block " << block_id.id.to_str() << " is not applied"); } } if (block_id.is_masterchain()) { if (block_id.seqno() > last_masterchain_seqno_) { err = err.move_as_error_suffix(PSTRING() << " (last known masterchain block: " << last_masterchain_seqno_ << ")"); } } else { for (auto &shard : shard_client_shards_) { if (shard_intersects(shard->shard(), block_id.shard_full())) { if (block_id.seqno() > shard->top_block_id().seqno()) { err = err.move_as_error_suffix( PSTRING() << " (possibly out of sync: shard_client_seqno=" << (shard_client_handle_ ? shard_client_handle_->id().seqno() : 0) << " ls_seqno=" << (last_liteserver_state_.not_null() ? last_liteserver_state_->get_seqno() : 0) << ")"); } break; } } } promise.set_error(std::move(err)); } void ValidatorManagerImpl::process_lookup_block_for_litequery_error(AccountIdPrefixFull account, int type, td::uint64 value, td::Result r_handle, td::Promise promise) { td::Status err; if (r_handle.is_error()) { err = r_handle.move_as_error(); } else { auto handle = r_handle.move_as_ok(); if (handle->is_applied()) { promise.set_value(std::move(handle)); return; } if (!handle->received() || !handle->received_state()) { err = td::Status::Error(ErrorCode::notready, PSTRING() << "block " << handle->id().to_str() << " is not in db"); } else { err = td::Status::Error(ErrorCode::notready, PSTRING() << "block " << handle->id().to_str() << " is not applied"); } } if (account.is_masterchain()) { if (value > (type == 0 ? last_masterchain_state_->get_logical_time() : (type == 1 ? last_masterchain_state_->get_unix_time() : last_masterchain_state_->get_seqno()))) { err = err.move_as_error_suffix(PSTRING() << " (last known masterchain block: " << last_masterchain_seqno_ << ")"); } } else { for (auto &shard : shard_client_shards_) { if (shard_intersects(shard->shard(), account.as_leaf_shard())) { if (value > (type == 0 ? shard->end_lt() : (type == 1 ? (shard_client_handle_ ? shard_client_handle_->unix_time() : 0) : shard->top_block_id().seqno()))) { err = err.move_as_error_suffix( PSTRING() << " (possibly out of sync: shard_client_seqno=" << (shard_client_handle_ ? shard_client_handle_->id().seqno() : 0) << " ls_seqno=" << (last_liteserver_state_.not_null() ? last_liteserver_state_->get_seqno() : 0) << ")"); } break; } } } static std::string names[3] = {"lt", "utime", "seqno"}; err = err.move_as_error_prefix(PSTRING() << "cannot find block " << account.to_str() << " " << names[type] << "=" << value << ": "); promise.set_error(std::move(err)); } void ValidatorManagerImpl::get_block_candidate_for_litequery(PublicKey source, BlockIdExt block_id, FileHash collated_data_hash, td::Promise promise) { if (!opts_->nonfinal_ls_queries_enabled()) { promise.set_error(td::Status::Error("query is not allowed")); return; } get_block_candidate_from_db(source, block_id, collated_data_hash, std::move(promise)); } void ValidatorManagerImpl::get_validator_groups_info_for_litequery( td::optional shard, td::Promise> promise) { if (!opts_->nonfinal_ls_queries_enabled()) { promise.set_error(td::Status::Error("query is not allowed")); return; } class Actor : public td::actor::Actor { public: explicit Actor(std::vector> groups, td::Promise> promise) : groups_(std::move(groups)), promise_(std::move(promise)) { } void start_up() override { pending_ = groups_.size(); if (pending_ == 0) { promise_.set_result(std::move(result_)); stop(); return; } for (auto &x : groups_) { td::actor::send_closure( x, &ValidatorGroup::get_validator_group_info_for_litequery, [SelfId = actor_id(this)](td::Result> R) { td::actor::send_closure(SelfId, &Actor::on_result, R.is_ok() ? R.move_as_ok() : nullptr); }); } } void on_result(tl_object_ptr r) { if (r) { result_->groups_.push_back(std::move(r)); } --pending_; if (pending_ == 0) { promise_.set_result(std::move(result_)); stop(); } } private: std::vector> groups_; size_t pending_; td::Promise> promise_; tl_object_ptr result_ = create_tl_object(); }; std::vector> groups; for (auto &x : validator_groups_) { if (x.second.actor.empty()) { continue; } if (shard && shard.value() != x.second.shard) { continue; } groups.push_back(x.second.actor.get()); } td::actor::create_actor("get-validator-groups-info", std::move(groups), std::move(promise)).release(); } void ValidatorManagerImpl::update_options(td::Ref opts) { if (!shard_client_.empty()) { td::actor::send_closure(shard_client_, &ShardClient::update_options, opts); } if (!serializer_.empty()) { td::actor::send_closure(serializer_, &AsyncStateSerializer::update_options, opts); } if (!queue_size_counter_.empty()) { td::actor::send_closure(queue_size_counter_, &QueueSizeCounter::update_options, opts); } for (auto &group : validator_groups_) { td::actor::send_closure(group.second.actor, &ValidatorGroup::update_options, opts); } for (auto &group : next_validator_groups_) { td::actor::send_closure(group.second.actor, &ValidatorGroup::update_options, opts); } opts_ = std::move(opts); } void ValidatorManagerImpl::add_persistent_state_description(td::Ref desc) { auto now = (UnixTime)td::Clocks::system(); if (desc->end_time <= now) { return; } td::actor::send_closure(db_, &Db::add_persistent_state_description, desc, [](td::Result) {}); auto it = persistent_state_descriptions_.begin(); while (it != persistent_state_descriptions_.end()) { const auto &prev_desc = it->second; if (prev_desc->end_time <= now) { for (const BlockIdExt &block_id : prev_desc->shard_blocks) { persistent_state_blocks_.erase(block_id); } it = persistent_state_descriptions_.erase(it); } else { ++it; } } add_persistent_state_description_impl(std::move(desc)); } void ValidatorManagerImpl::add_persistent_state_description_impl(td::Ref desc) { if (!persistent_state_descriptions_.emplace(desc->masterchain_id.seqno(), desc).second) { return; } LOG(DEBUG) << "Add persistent state description for mc block " << desc->masterchain_id.to_str() << " start_time=" << desc->start_time << " end_time=" << desc->end_time; for (const BlockIdExt &block_id : desc->shard_blocks) { persistent_state_blocks_[block_id] = desc; LOG(DEBUG) << "Persistent state description: shard block " << block_id.to_str(); } } void ValidatorManagerImpl::got_persistent_state_descriptions(std::vector> descs) { for (auto &desc : descs) { add_persistent_state_description_impl(std::move(desc)); } } td::Ref ValidatorManagerImpl::get_block_persistent_state_to_download(BlockIdExt block_id) { if (block_id.is_masterchain()) { return {}; } auto it = persistent_state_blocks_.find(block_id); if (it == persistent_state_blocks_.end()) { return {}; } if (it->second->masterchain_id.seqno() + 16 >= min_confirmed_masterchain_seqno_) { // Do not download persistent states during ordinary shard client sync return {}; } return it->second; } td::actor::ActorOwn ValidatorManagerFactory::create( td::Ref opts, std::string db_root, td::actor::ActorId keyring, td::actor::ActorId adnl, td::actor::ActorId rldp, td::actor::ActorId overlays) { return td::actor::create_actor("manager", std::move(opts), db_root, keyring, adnl, rldp, overlays); } void ValidatorManagerImpl::record_collate_query_stats(BlockIdExt block_id, double work_time, double cpu_work_time, td::optional stats) { if (!stats) { ++(block_id.is_masterchain() ? total_collated_blocks_master_error_ : total_collated_blocks_shard_error_); return; } auto &record = new_block_stats_record(block_id); record.collator_work_time_ = work_time; record.collator_cpu_work_time_ = cpu_work_time; record.collator_stats_ = std::move(stats.value()); ++(block_id.is_masterchain() ? total_collated_blocks_master_ok_ : total_collated_blocks_shard_ok_); } void ValidatorManagerImpl::record_validate_query_stats(BlockIdExt block_id, double work_time, double cpu_work_time, bool success) { auto &record = new_block_stats_record(block_id); record.validator_work_time_ = work_time; record.validator_cpu_work_time_ = cpu_work_time; if (success) { ++(block_id.is_masterchain() ? total_validated_blocks_master_ok_ : total_validated_blocks_shard_ok_); } else { ++(block_id.is_masterchain() ? total_validated_blocks_master_error_ : total_validated_blocks_shard_error_); } } ValidatorManagerImpl::RecordedBlockStats &ValidatorManagerImpl::new_block_stats_record(BlockIdExt block_id) { if (!recorded_block_stats_.count(block_id)) { recorded_block_stats_lru_.push(block_id); if (recorded_block_stats_lru_.size() > 4096) { recorded_block_stats_.erase(recorded_block_stats_lru_.front()); recorded_block_stats_lru_.pop(); } } return recorded_block_stats_[block_id]; } void ValidatorManagerImpl::register_stats_provider( td::uint64 idx, std::string prefix, std::function>>)> callback) { stats_providers_[idx] = {std::move(prefix), std::move(callback)}; } void ValidatorManagerImpl::unregister_stats_provider(td::uint64 idx) { stats_providers_.erase(idx); } size_t ValidatorManagerImpl::CheckedExtMsgCounter::get_msg_count(WorkchainId wc, StdSmcAddress addr) { before_query(); auto it1 = counter_cur_.find({wc, addr}); auto it2 = counter_prev_.find({wc, addr}); return (it1 == counter_cur_.end() ? 0 : it1->second) + (it2 == counter_prev_.end() ? 0 : it2->second); } size_t ValidatorManagerImpl::CheckedExtMsgCounter::inc_msg_count(WorkchainId wc, StdSmcAddress addr) { before_query(); auto it2 = counter_prev_.find({wc, addr}); return (it2 == counter_prev_.end() ? 0 : it2->second) + ++counter_cur_[{wc, addr}]; } void ValidatorManagerImpl::CheckedExtMsgCounter::before_query() { while (cleanup_at_.is_in_past()) { counter_prev_ = std::move(counter_cur_); counter_cur_.clear(); if (counter_prev_.empty()) { cleanup_at_ = td::Timestamp::in(max_ext_msg_per_addr_time_window() / 2.0); break; } cleanup_at_ += max_ext_msg_per_addr_time_window() / 2.0; } } void ValidatorManagerImpl::init_validator_telemetry() { if (last_masterchain_state_.is_null()) { return; } td::Ref validator_set = last_masterchain_state_->get_total_validator_set(0); if (validator_set.is_null()) { validator_telemetry_.clear(); return; } std::set processed; for (auto& key : temp_keys_) { if (const ValidatorDescr* desc = validator_set->get_validator(key.bits256_value())) { processed.insert(key); adnl::AdnlNodeIdShort adnl_id; if (desc->addr.is_zero()) { adnl_id = adnl::AdnlNodeIdShort{ValidatorFullId{desc->key}.compute_short_id()}; } else { adnl_id = adnl::AdnlNodeIdShort{desc->addr}; } auto& telemetry = validator_telemetry_[key]; if (telemetry.empty()) { telemetry = td::actor::create_actor( "telemetry", key, adnl_id, opts_->zero_block_id().file_hash, actor_id(this)); } } } for (auto it = validator_telemetry_.begin(); it != validator_telemetry_.end();) { if (processed.contains(it->first)) { ++it; } else { it = validator_telemetry_.erase(it); } } } } // namespace validator } // namespace ton