/* This file is part of TON Blockchain Library. TON Blockchain Library is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation, either version 2 of the License, or (at your option) any later version. TON Blockchain Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with TON Blockchain Library. If not, see . Copyright 2017-2019 Telegram Systems LLP */ #include "validator-session.hpp" #include "td/utils/Random.h" #include "td/utils/crypto.h" namespace ton { namespace validatorsession { void ValidatorSessionImpl::process_blocks(std::vector blocks) { VLOG(VALIDATOR_SESSION_DEBUG) << this << ": processing " << blocks.size() << " blocks"; requested_new_block_ = false; requested_new_block_now_ = false; for (auto block : blocks) { auto e = dynamic_cast(block->extra()); CHECK(e != nullptr); real_state_ = ValidatorSessionState::merge(description(), real_state_, e->get_ref()); } if (real_state_->cur_round_seqno() != cur_round_) { on_new_round(real_state_->cur_round_seqno()); } td::uint32 cnt = 0; auto ts = description().get_ts(); auto att = description().get_attempt_seqno(ts); std::vector> msgs; if (generated_ && !sent_generated_) { auto it = blocks_[0].find(generated_block_); CHECK(it != blocks_[0].end()); auto &B = it->second; auto file_hash = sha256_bits256(B->data_); auto collated_data_file_hash = sha256_bits256(B->collated_data_); msgs.emplace_back(create_tl_object( cur_round_, B->root_hash_, file_hash, collated_data_file_hash)); cnt++; sent_generated_ = true; } auto to_approve = real_state_->choose_blocks_to_approve(description(), local_idx()); for (auto &block : to_approve) { auto id = SentBlock::get_block_id(block); if (approved_.count(id) && approved_[id].first <= td::Clocks::system()) { msgs.emplace_back(create_tl_object( cur_round_, id, approved_[id].second.clone())); cnt++; } } for (auto &B : pending_reject_) { msgs.emplace_back( create_tl_object(cur_round_, B.first, std::move(B.second))); } pending_reject_.clear(); if (signed_) { bool found = false; auto B = real_state_->choose_block_to_sign(description(), local_idx(), found); if (found) { CHECK(SentBlock::get_block_id(B) == signed_block_); msgs.emplace_back( create_tl_object(cur_round_, signed_block_, std::move(signature_))); cnt++; } } for (auto &msg : msgs) { VLOG(VALIDATOR_SESSION_INFO) << this << ": applying action: " << msg.get(); real_state_ = ValidatorSessionState::action(description(), real_state_, local_idx(), att, msg.get()); } if (real_state_->check_need_generate_vote_for(description(), local_idx(), att)) { VLOG(VALIDATOR_SESSION_INFO) << this << ": generating VOTEFOR"; auto msg = real_state_->generate_vote_for(description(), local_idx(), att); CHECK(msg); real_state_ = ValidatorSessionState::action(description(), real_state_, local_idx(), att, msg.get()); msgs.push_back(std::move(msg)); } while (true) { auto msg = real_state_->create_action(description(), local_idx(), att); bool stop = false; if (msg->get_id() == ton_api::validatorSession_message_empty::ID) { stop = true; } VLOG(VALIDATOR_SESSION_INFO) << this << ": applying action: " << msg.get(); real_state_ = ValidatorSessionState::action(description(), real_state_, local_idx(), att, msg.get()); msgs.emplace_back(std::move(msg)); cnt++; if (stop) { break; } } real_state_ = ValidatorSessionState::move_to_persistent(description(), real_state_); VLOG(VALIDATOR_SESSION_DEBUG) << this << ": created block: root_hash=" << real_state_->get_hash(description()); auto payload = create_tl_object(ts, std::move(msgs), real_state_->get_hash(description())); td::actor::send_closure(catchain_, &catchain::CatChain::processed_block, serialize_tl_object(payload, true)); auto round = real_state_->cur_round_seqno(); if (round > cur_round_) { on_new_round(round); } virtual_state_ = ValidatorSessionState::merge(description(), virtual_state_, real_state_); virtual_state_ = ValidatorSessionState::move_to_persistent(description(), virtual_state_); description().clear_temp_memory(); } void ValidatorSessionImpl::finished_processing() { if (virtual_state_->get_hash(description()) != real_state_->get_hash(description())) { VLOG(VALIDATOR_SESSION_WARNING) << this << ": hash mismatch (maybe some node blamed)"; } virtual_state_ = real_state_; check_all(); } void ValidatorSessionImpl::preprocess_block(catchain::CatChainBlock *block) { auto start_time = td::Timestamp::now(); td::PerfWarningTimer p_timer{"Loong block preprocess", 0.1}; td::PerfWarningTimer q_timer{"Looong block preprocess", 0.1}; auto prev = block->prev(); const ValidatorSessionState *state; if (prev) { auto e = dynamic_cast(prev->extra()); CHECK(e != nullptr); state = e->get_ref(); } else { state = ValidatorSessionState::create(description()); } auto deps = block->deps(); for (auto b : deps) { auto e = dynamic_cast(b->extra()); CHECK(e != nullptr); state = ValidatorSessionState::merge(description(), state, e->get_ref()); } if (block->payload().size() != 0 || deps.size() != 0) { auto R = fetch_tl_object(block->payload().clone(), true); if (!R.is_error()) { auto B = R.move_as_ok(); auto att = description().get_attempt_seqno(B->ts_); for (auto &msg : B->actions_) { VLOG(VALIDATOR_SESSION_INFO) << this << "[node " << description().get_source_id(block->source()) << "][block " << block->hash() << "]: applying action " << msg.get(); state = ValidatorSessionState::action(description(), state, block->source(), att, msg.get()); } state = ValidatorSessionState::make_all(description(), state, block->source(), att); if (state->get_hash(description()) != static_cast(B->state_)) { VLOG(VALIDATOR_SESSION_WARNING) << this << "[node " << description().get_source_id(block->source()) << "][block " << block->hash() << "]: state hash mismatch: computed=" << state->get_hash(description()) << " received=" << B->state_; for (auto &msg : B->actions_) { VLOG(VALIDATOR_SESSION_WARNING) << this << "[node " << description().get_source_id(block->source()) << "][block " << block->hash() << "]: applied action " << msg.get(); } } } else { VLOG(VALIDATOR_SESSION_WARNING) << this << "[node " << description().get_source_id(block->source()) << "][block " << block->hash() << "]: failed to parse: " << R.move_as_error(); state = ValidatorSessionState::make_all(description(), state, block->source(), state->get_ts(block->source())); } } q_timer.reset(); state = ValidatorSessionState::move_to_persistent(description(), state); block->set_extra(std::make_unique(state)); if (block->source() == local_idx() && !catchain_started_) { real_state_ = state; } virtual_state_ = ValidatorSessionState::merge(description(), virtual_state_, state); virtual_state_ = ValidatorSessionState::move_to_persistent(description(), virtual_state_); description().clear_temp_memory(); if (real_state_->cur_round_seqno() != cur_round_) { on_new_round(real_state_->cur_round_seqno()); } check_all(); VLOG(VALIDATOR_SESSION_DEBUG) << this << ": preprocessed block " << block->hash() << " in " << static_cast(1000 * (td::Timestamp::now().at() - start_time.at())) << "ms: state=" << state->get_hash(description()); } void ValidatorSessionImpl::process_broadcast(PublicKeyHash src, td::BufferSlice data) { auto src_idx = description().get_source_idx(src); auto R = fetch_tl_object(data.clone(), true); if (R.is_error()) { VLOG(VALIDATOR_SESSION_WARNING) << this << "[node " << src << "][broadcast " << sha256_bits256(data.as_slice()) << "]: failed to parse: " << R.move_as_error(); return; } auto candidate = R.move_as_ok(); if (PublicKeyHash{candidate->src_} != src) { VLOG(VALIDATOR_SESSION_WARNING) << this << "[node " << src << "][broadcast " << sha256_bits256(data.as_slice()) << "]: source mismatch"; return; } if (candidate->data_.size() > description().opts().max_block_size || candidate->collated_data_.size() > description().opts().max_collated_data_size) { VLOG(VALIDATOR_SESSION_WARNING) << this << "[node " << src << "][broadcast " << sha256_bits256(data.as_slice()) << "]: too big broadcast size=" << candidate->data_.size() << " " << candidate->collated_data_.size(); return; } auto file_hash = sha256_bits256(candidate->data_.as_slice()); auto collated_data_file_hash = sha256_bits256(candidate->collated_data_.as_slice()); auto block_round = static_cast(candidate->round_); auto block_id = description().candidate_id(src_idx, candidate->root_hash_, file_hash, collated_data_file_hash); if (block_round < cur_round_ || block_round >= cur_round_ + blocks_.size()) { VLOG(VALIDATOR_SESSION_NOTICE) << this << "[node " << src << "][broadcast " << block_id << "]: bad round=" << block_round << " cur_round" << cur_round_; return; } auto it = blocks_[block_round - cur_round_].find(block_id); if (it != blocks_[block_round - cur_round_].end()) { VLOG(VALIDATOR_SESSION_INFO) << this << "[node " << src << "][broadcast " << block_id << "]: duplicate"; return; } auto priority = description().get_node_priority(src_idx, block_round); if (priority < 0) { VLOG(VALIDATOR_SESSION_WARNING) << this << "[node " << src << "][broadcast " << block_id << "]: source is not allowed to generate blocks in this round"; return; } blocks_[block_round - cur_round_][block_id] = std::move(candidate); VLOG(VALIDATOR_SESSION_WARNING) << this << ": received broadcast " << block_id; if (block_round != cur_round_) { return; } CHECK(!pending_approve_.count(block_id)); CHECK(!approved_.count(block_id)); CHECK(!pending_reject_.count(block_id)); CHECK(!rejected_.count(block_id)); auto v = virtual_state_->choose_blocks_to_approve(description(), local_idx()); for (auto &b : v) { if (b && SentBlock::get_block_id(b) == block_id) { try_approve_block(b); break; } } } void ValidatorSessionImpl::process_message(PublicKeyHash src, td::BufferSlice data) { } void ValidatorSessionImpl::process_query(PublicKeyHash src, td::BufferSlice data, td::Promise promise) { if (!started_) { promise.set_error(td::Status::Error(ErrorCode::notready, "not started")); return; } auto F = fetch_tl_object(std::move(data), true); if (F.is_error()) { promise.set_error(F.move_as_error_prefix("validator session: cannot parse query: ")); return; } auto f = F.move_as_ok(); auto round_id = static_cast(f->round_); if (round_id > real_state_->cur_round_seqno()) { promise.set_error(td::Status::Error(ErrorCode::notready, "too big round id")); return; } const SentBlock *block = nullptr; auto id = description().candidate_id(description().get_source_idx(PublicKeyHash{f->id_->src_}), f->id_->root_hash_, f->id_->file_hash_, f->id_->collated_data_file_hash_); if (round_id < real_state_->cur_round_seqno()) { block = real_state_->get_committed_block(description(), round_id); if (!block || SentBlock::get_block_id(block) != id) { promise.set_error(td::Status::Error(ErrorCode::notready, "wrong block in old round")); return; } } else { CHECK(round_id == real_state_->cur_round_seqno()); bool found; block = real_state_->get_block(description(), id, found); if (!found || !block) { promise.set_error(td::Status::Error(ErrorCode::notready, "wrong block")); return; } if (!real_state_->check_block_is_approved_by(description(), local_idx(), id)) { promise.set_error(td::Status::Error(ErrorCode::notready, "not approved block")); return; } } CHECK(block); auto P = td::PromiseCreator::lambda( [promise = std::move(promise), src = f->id_->src_, round_id](td::Result R) mutable { if (R.is_error()) { promise.set_error(R.move_as_error_prefix("failed to get candidate: ")); } else { auto c = R.move_as_ok(); auto obj = create_tl_object( src, round_id, c.id.root_hash, std::move(c.data), std::move(c.collated_data)); promise.set_value(serialize_tl_object(obj, true)); } }); callback_->get_approved_candidate(description().get_source_public_key(block->get_src_idx()), f->id_->root_hash_, f->id_->file_hash_, f->id_->collated_data_file_hash_, std::move(P)); } void ValidatorSessionImpl::candidate_decision_fail(td::uint32 round, ValidatorSessionCandidateId hash, std::string result, td::BufferSlice proof) { if (round != cur_round_) { return; } LOG(ERROR) << this << ": failed candidate " << hash << ": " << result; pending_approve_.erase(hash); pending_reject_.emplace(hash, td::BufferSlice{result}); rejected_.insert(hash); } void ValidatorSessionImpl::candidate_decision_ok(td::uint32 round, ValidatorSessionCandidateId hash, RootHash root_hash, FileHash file_hash, td::uint32 ok_from) { if (round != cur_round_) { return; } LOG(INFO) << this << ": approved candidate " << hash; auto obj = create_tl_object(root_hash, file_hash); auto data = serialize_tl_object(obj, true); auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), print_id = print_id(), hash, ok_from, round = cur_round_](td::Result R) { if (R.is_error()) { LOG(FATAL) << print_id << ": failed to sign: " << R.move_as_error(); } else { td::actor::send_closure(SelfId, &ValidatorSessionImpl::candidate_approved_signed, round, hash, ok_from, R.move_as_ok()); } }); td::actor::send_closure(keyring_, &keyring::Keyring::sign_message, local_id(), std::move(data), std::move(P)); } void ValidatorSessionImpl::candidate_approved_signed(td::uint32 round, ValidatorSessionCandidateId hash, td::uint32 ok_from, td::BufferSlice signature) { pending_approve_.erase(hash); approved_[hash] = std::pair{ok_from, std::move(signature)}; if (ok_from <= td::Clocks::system()) { request_new_block(false); } else { LOG(WARNING) << "too new block. ts=" << ok_from; alarm_timestamp().relax(td::Timestamp::at_unix(ok_from)); } } void ValidatorSessionImpl::generated_block(td::uint32 round, ValidatorSessionCandidateId root_hash, td::BufferSlice data, td::BufferSlice collated_data) { if (round != cur_round_) { return; } if (data.size() > description().opts().max_block_size || collated_data.size() > description().opts().max_collated_data_size) { LOG(ERROR) << this << ": generated candidate is too big. Dropping. size=" << data.size() << " " << collated_data.size(); return; } auto file_hash = sha256_bits256(data.as_slice()); auto collated_data_file_hash = sha256_bits256(collated_data.as_slice()); auto b = create_tl_object(local_id().tl(), round, root_hash, std::move(data), std::move(collated_data)); auto B = serialize_tl_object(b, true); auto block_id = description().candidate_id(local_idx(), root_hash, file_hash, collated_data_file_hash); td::actor::send_closure(catchain_, &catchain::CatChain::send_broadcast, std::move(B)); blocks_[0].emplace(block_id, std::move(b)); pending_generate_ = false; generated_ = true; generated_block_ = block_id; request_new_block(true); } void ValidatorSessionImpl::signed_block(td::uint32 round, ValidatorSessionCandidateId hash, td::BufferSlice signature) { if (round != cur_round_) { return; } pending_sign_ = false; signed_ = true; signed_block_ = hash; signature_ = std::move(signature); request_new_block(false); } void ValidatorSessionImpl::alarm() { alarm_timestamp() = td::Timestamp::never(); check_all(); } void ValidatorSessionImpl::check_vote_for_slot(td::uint32 att) { if (!catchain_started_) { return; } if (!started_) { return; } if (virtual_state_->check_need_generate_vote_for(description(), local_idx(), att)) { request_new_block(false); } } void ValidatorSessionImpl::check_generate_slot() { if (!catchain_started_) { return; } if (!generated_ && !pending_generate_ && started_) { if (real_state_->check_block_is_sent_by(description(), local_idx())) { generated_ = true; sent_generated_ = true; return; } auto priority = description().get_node_priority(local_idx(), cur_round_); if (priority >= 0) { auto t = td::Timestamp::at(round_started_at_.at() + description().get_delay(priority)); if (t.is_in_past()) { pending_generate_ = true; td::PerfWarningTimer timer{"too long block generation", 1.0}; auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), print_id = print_id(), timer = std::move(timer), round = cur_round_](td::Result R) { if (R.is_ok()) { auto c = R.move_as_ok(); td::actor::send_closure(SelfId, &ValidatorSessionImpl::generated_block, round, c.id.root_hash, c.data.clone(), c.collated_data.clone()); } else { LOG(WARNING) << print_id << ": failed to generate block candidate: " << R.move_as_error(); } }); callback_->on_generate_slot(cur_round_, std::move(P)); } else { alarm_timestamp().relax(t); } } } } void ValidatorSessionImpl::try_approve_block(const SentBlock *block) { auto block_id = SentBlock::get_block_id(block); { auto it = approved_.find(block_id); if (it != approved_.end()) { if (it->second.first <= td::Clocks::system()) { request_new_block(false); } else { alarm_timestamp().relax(td::Timestamp::at_unix(it->second.first)); } return; } } if (pending_approve_.count(block_id) || rejected_.count(block_id)) { return; } auto delay = block ? description().get_delay(description().get_node_priority(block->get_src_idx(), cur_round_)) : description().get_empty_block_delay(); auto T = td::Timestamp::at(round_started_at_.at() + delay); if (!T.is_in_past()) { alarm_timestamp().relax(T); return; } if (block) { auto T = td::Timestamp::at(round_started_at_.at() + description().get_delay(block->get_src_idx()) + 2.0); auto it = blocks_[0].find(block_id); if (it != blocks_[0].end()) { td::PerfWarningTimer timer{"too long block validation", 1.0}; auto &B = it->second; auto P = td::PromiseCreator::lambda([round = cur_round_, hash = block_id, root_hash = block->get_root_hash(), file_hash = block->get_file_hash(), timer = std::move(timer), SelfId = actor_id(this)](td::Result res) { auto R = res.move_as_ok(); if (R.is_ok()) { td::actor::send_closure(SelfId, &ValidatorSessionImpl::candidate_decision_ok, round, hash, root_hash, file_hash, R.ok_from()); } else { td::actor::send_closure(SelfId, &ValidatorSessionImpl::candidate_decision_fail, round, hash, R.reason(), R.proof()); } }); pending_approve_.insert(block_id); CHECK(static_cast(cur_round_) == B->round_); callback_->on_candidate(cur_round_, description().get_source_public_key(block->get_src_idx()), B->root_hash_, B->data_.clone(), B->collated_data_.clone(), std::move(P)); } else if (T.is_in_past()) { if (!active_requests_.count(block_id)) { auto v = virtual_state_->get_block_approvers(description(), block_id); if (v.size() > 0) { auto id = description().get_source_id(v[td::Random::fast(0, static_cast(v.size() - 1))]); auto src_id = description().get_source_id(block->get_src_idx()); active_requests_.insert(block_id); auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), id, src_id, print_id = print_id(), hash = block_id, round = cur_round_](td::Result R) { td::actor::send_closure(SelfId, &ValidatorSessionImpl::end_request, round, hash); if (R.is_error()) { VLOG(VALIDATOR_SESSION_WARNING) << print_id << ": failed to get candidate " << hash << " from " << id << ": " << R.move_as_error(); } else { td::actor::send_closure(SelfId, &ValidatorSessionImpl::process_broadcast, src_id, R.move_as_ok()); } }); get_broadcast_p2p(id, block->get_file_hash(), block->get_collated_data_file_hash(), description().get_source_id(block->get_src_idx()), cur_round_, block->get_root_hash(), std::move(P), td::Timestamp::in(2.0)); } else { LOG(VALIDATOR_SESSION_DEBUG) << this << ": no nodes to download candidate " << block << " from"; } } } else { alarm_timestamp().relax(T); } } else { approved_[block_id] = std::pair{0, td::BufferSlice{}}; request_new_block(false); } } void ValidatorSessionImpl::get_broadcast_p2p(PublicKeyHash node, ValidatorSessionFileHash file_hash, ValidatorSessionCollatedDataFileHash collated_data_file_hash, PublicKeyHash src, td::uint32 round, ValidatorSessionRootHash root_hash, td::Promise promise, td::Timestamp timeout) { if (timeout.is_in_past()) { promise.set_error(td::Status::Error(ErrorCode::timeout, "timeout")); return; } auto obj = create_tl_object( round, create_tl_object(src.tl(), root_hash, file_hash, collated_data_file_hash)); td::actor::send_closure(catchain_, &catchain::CatChain::send_query_via, node, "download candidate", std::move(promise), timeout, serialize_tl_object(obj, true), description().opts().max_block_size + description().opts().max_collated_data_size + 1024, rldp_); } void ValidatorSessionImpl::check_sign_slot() { if (!catchain_started_) { return; } if (pending_sign_ || !started_) { return; } if (real_state_->check_block_is_signed_by(description(), local_idx())) { signed_ = true; return; } if (signed_) { request_new_block(false); return; } auto found = false; auto B = virtual_state_->choose_block_to_sign(description(), local_idx(), found); if (found) { if (!B) { signed_ = true; signed_block_ = skip_round_candidate_id(); request_new_block(false); } else { pending_sign_ = true; auto obj = create_tl_object(B->get_root_hash(), B->get_file_hash()); auto data = serialize_tl_object(obj, true); auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), print_id = print_id(), hash = SentBlock::get_block_id(B), round = cur_round_](td::Result R) { if (R.is_error()) { LOG(FATAL) << print_id << ": failed to sign: " << R.move_as_error(); } else { td::actor::send_closure(SelfId, &ValidatorSessionImpl::signed_block, round, hash, R.move_as_ok()); } }); td::actor::send_closure(keyring_, &keyring::Keyring::sign_message, local_id(), std::move(data), std::move(P)); } } } void ValidatorSessionImpl::check_approve() { if (!catchain_started_) { return; } if (!started_) { return; } auto to_approve = virtual_state_->choose_blocks_to_approve(description(), local_idx()); for (auto &block : to_approve) { try_approve_block(block); } } void ValidatorSessionImpl::check_action(td::uint32 att) { if (!catchain_started_) { return; } if (!requested_new_block_) { auto action = virtual_state_->create_action(description(), local_idx(), att); if (action && action->get_id() != ton_api::validatorSession_message_empty::ID) { request_new_block(false); } } } void ValidatorSessionImpl::check_all() { if (!catchain_started_) { return; } if (virtual_state_->cur_round_seqno() != cur_round_) { request_new_block(false); return; } if (round_debug_at_.is_in_past()) { td::BufferSlice buf{10000}; td::StringBuilder sb{buf.as_slice()}; real_state_->dump_cur_attempt(description(), sb); virtual_state_->dump_cur_attempt(description(), sb); auto to_approve = virtual_state_->choose_blocks_to_approve(description(), local_idx()); sb << "to approve: \n"; for (auto &B : to_approve) { if (B) { auto block_id = SentBlock::get_block_id(B); auto pending = pending_approve_.count(block_id) == 1; auto rejected = rejected_.count(block_id) == 1; auto accepted = approved_.count(block_id) == 1; sb << " " << block_id << " pending: " << pending << " rejected: " << rejected << " accepted: " << accepted << "\n"; } else { sb << " SKIP\n"; } } LOG(ERROR) << sb.as_cslice(); round_debug_at_ = td::Timestamp::in(60.0); } auto att = description().get_attempt_seqno(description().get_ts()); check_sign_slot(); check_approve(); check_generate_slot(); check_action(att); check_vote_for_slot(att); alarm_timestamp().relax(round_debug_at_); alarm_timestamp().relax(description().attempt_start_at(att + 1)); } void ValidatorSessionImpl::request_new_block(bool now) { if (requested_new_block_now_) { return; } if (!now && requested_new_block_) { return; } requested_new_block_ = true; if (now) { requested_new_block_now_ = true; td::actor::send_closure(catchain_, &catchain::CatChain::need_new_block, td::Timestamp::now()); } else { double lambda = 10.0 / description().get_total_nodes(); double x = -1 / lambda * log(td::Random::fast(1, 999) * 0.001); if (x > 0.5) { x = 0.5; } td::actor::send_closure(catchain_, &catchain::CatChain::need_new_block, td::Timestamp::in(x)); } } void ValidatorSessionImpl::on_new_round(td::uint32 round) { if (round != 0) { CHECK(cur_round_ < round); pending_generate_ = false; generated_ = false; sent_generated_ = false; pending_approve_.clear(); rejected_.clear(); pending_reject_.clear(); approved_.clear(); pending_sign_ = false; signed_ = false; signature_ = td::BufferSlice{}; signed_block_ = skip_round_candidate_id(); active_requests_.clear(); } while (cur_round_ < round) { auto block = real_state_->get_committed_block(description(), cur_round_); //CHECK(block); auto sigs = real_state_->get_committed_block_signatures(description(), cur_round_); CHECK(sigs); auto approve_sigs = real_state_->get_committed_block_approve_signatures(description(), cur_round_); CHECK(approve_sigs); std::vector> export_sigs; CHECK(sigs->size() == description().get_total_nodes()); for (td::uint32 i = 0; i < description().get_total_nodes(); i++) { auto sig = sigs->at(i); if (sig) { CHECK(description().is_persistent(sig)); export_sigs.emplace_back(description().get_source_id(i), sig->value().clone()); } } std::vector> export_approve_sigs; CHECK(approve_sigs->size() == description().get_total_nodes()); for (td::uint32 i = 0; i < description().get_total_nodes(); i++) { auto sig = approve_sigs->at(i); if (sig) { CHECK(description().is_persistent(sig)); export_approve_sigs.emplace_back(description().get_source_id(i), sig->value().clone()); } } auto it = blocks_[0].find(SentBlock::get_block_id(block)); if (!block) { callback_->on_block_skipped(cur_round_); } else if (it == blocks_[0].end()) { callback_->on_block_committed(cur_round_, description().get_source_public_key(block->get_src_idx()), block->get_root_hash(), block->get_file_hash(), td::BufferSlice(), std::move(export_sigs), std::move(export_approve_sigs)); } else { callback_->on_block_committed(cur_round_, description().get_source_public_key(block->get_src_idx()), block->get_root_hash(), block->get_file_hash(), it->second->data_.clone(), std::move(export_sigs), std::move(export_approve_sigs)); } cur_round_++; for (size_t i = 0; i < blocks_.size() - 1; i++) { blocks_[i] = std::move(blocks_[i + 1]); } blocks_[blocks_.size() - 1].clear(); } round_started_at_ = td::Timestamp::now(); round_debug_at_ = td::Timestamp::in(60.0); check_all(); } void ValidatorSessionImpl::on_catchain_started() { catchain_started_ = true; auto X = virtual_state_->get_blocks_approved_by(description(), local_idx()); for (auto &x : X) { if (x) { auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), round = virtual_state_->cur_round_seqno(), src = description().get_source_id(x->get_src_idx()), root_hash = x->get_root_hash()](td::Result R) { if (R.is_error()) { LOG(ERROR) << "failed to get candidate: " << R.move_as_error(); } else { auto B = R.move_as_ok(); auto broadcast = create_tl_object( src.tl(), round, root_hash, std::move(B.data), std::move(B.collated_data)); td::actor::send_closure(SelfId, &ValidatorSessionImpl::process_broadcast, src, serialize_tl_object(broadcast, true)); } }); callback_->get_approved_candidate(description().get_source_public_key(x->get_src_idx()), x->get_root_hash(), x->get_file_hash(), x->get_collated_data_file_hash(), std::move(P)); } } check_all(); } ValidatorSessionImpl::ValidatorSessionImpl(catchain::CatChainSessionId session_id, ValidatorSessionOptions opts, PublicKeyHash local_id, std::vector nodes, std::unique_ptr callback, td::actor::ActorId keyring, td::actor::ActorId adnl, td::actor::ActorId rldp, td::actor::ActorId overlays, std::string db_root) : unique_hash_(session_id) , callback_(std::move(callback)) , db_root_(db_root) , keyring_(keyring) , adnl_(adnl) , rldp_(rldp) , overlay_manager_(overlays) { description_ = ValidatorSessionDescription::create(std::move(opts), nodes, local_id); } void ValidatorSessionImpl::start() { started_ = true; VLOG(VALIDATOR_SESSION_NOTICE) << this << ": started"; auto w = description().export_catchain_nodes(); catchain_ = catchain::CatChain::create( make_catchain_callback(), catchain::CatChainOptions{description().opts().catchain_idle_timeout, description().opts().catchain_max_deps}, keyring_, adnl_, overlay_manager_, std::move(w), local_id(), unique_hash_, db_root_); check_all(); } void ValidatorSessionImpl::destroy() { if (!catchain_.empty()) { td::actor::send_closure(catchain_, &catchain::CatChain::destroy); catchain_.release(); } stop(); } void ValidatorSessionImpl::start_up() { CHECK(!rldp_.empty()); cur_round_ = 0; round_started_at_ = td::Timestamp::now(); round_debug_at_ = td::Timestamp::in(60.0); real_state_ = ValidatorSessionState::create(description()); real_state_ = ValidatorSessionState::move_to_persistent(description(), real_state_); virtual_state_ = real_state_; check_all(); td::actor::send_closure(rldp_, &rldp::Rldp::add_id, description().get_source_adnl_id(local_idx())); } td::actor::ActorOwn ValidatorSession::create( catchain::CatChainSessionId session_id, ValidatorSessionOptions opts, PublicKeyHash local_id, std::vector nodes, std::unique_ptr callback, td::actor::ActorId keyring, td::actor::ActorId adnl, td::actor::ActorId rldp, td::actor::ActorId overlays, std::string db_root) { return td::actor::create_actor("session", session_id, std::move(opts), local_id, std::move(nodes), std::move(callback), keyring, adnl, rldp, overlays, db_root); } td::Bits256 ValidatorSessionOptions::get_hash() const { return create_hash_tl_object( catchain_idle_timeout, catchain_max_deps, round_candidates, next_candidate_delay, round_attempt_duration, max_round_attempts, max_block_size, max_collated_data_size); } ValidatorSessionOptions::ValidatorSessionOptions(const ValidatorSessionConfig &conf) { CHECK(!conf.proto_version); catchain_idle_timeout = conf.catchain_idle_timeout; catchain_max_deps = conf.catchain_max_deps; max_block_size = conf.max_block_size; max_collated_data_size = conf.max_collated_data_size; max_round_attempts = conf.max_round_attempts; next_candidate_delay = conf.next_candidate_delay; round_attempt_duration = conf.round_attempt_duration; round_candidates = conf.round_candidates; } } // namespace validatorsession } // namespace ton