mirror of
https://github.com/danog/ton.git
synced 2024-11-30 04:29:19 +01:00
13140ddf29
1. Updated block header, proofs now contain more data Notice, that old proofs may become invalid in the future 2. Fixed message routing 3. Fixed block creator id in block header 4. Support for full proofs in tonlib 5. Support for partial state download 6. Some other bugfixes
267 lines
12 KiB
C++
267 lines
12 KiB
C++
/*
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This file is part of TON Blockchain Library.
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TON Blockchain Library is free software: you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License as published by
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the Free Software Foundation, either version 2 of the License, or
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(at your option) any later version.
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TON Blockchain Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public License
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along with TON Blockchain Library. If not, see <http://www.gnu.org/licenses/>.
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Copyright 2017-2019 Telegram Systems LLP
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*/
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#include "validator-group.hpp"
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#include "fabric.h"
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#include "ton/ton-io.hpp"
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#include "td/utils/overloaded.h"
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namespace ton {
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namespace validator {
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void ValidatorGroup::generate_block_candidate(td::uint32 round_id, td::Promise<BlockCandidate> promise) {
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if (round_id > last_known_round_id_) {
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last_known_round_id_ = round_id;
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}
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run_collate_query(shard_, min_ts_, min_masterchain_block_id_, prev_block_ids_,
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Ed25519_PublicKey{local_id_full_.ed25519_value().raw()}, validator_set_, manager_,
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td::Timestamp::in(10.0), std::move(promise));
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}
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void ValidatorGroup::validate_block_candidate(td::uint32 round_id, BlockCandidate block,
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td::Promise<UnixTime> promise) {
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if (round_id > last_known_round_id_) {
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last_known_round_id_ = round_id;
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}
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if (round_id < last_known_round_id_) {
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promise.set_error(td::Status::Error(ErrorCode::notready, "too old"));
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return;
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}
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auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), round_id, block = block.clone(),
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promise = std::move(promise)](td::Result<ValidateCandidateResult> R) mutable {
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if (R.is_error()) {
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auto S = R.move_as_error();
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if (S.code() != ErrorCode::timeout && S.code() != ErrorCode::notready) {
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LOG(ERROR) << "failed to validate candidate: " << S;
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}
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td::actor::send_closure(SelfId, &ValidatorGroup::validate_block_candidate, round_id, std::move(block),
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std::move(promise));
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} else {
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auto v = R.move_as_ok();
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v.visit(td::overloaded([&](UnixTime ts) { promise.set_result(ts); },
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[&](CandidateReject reject) {
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promise.set_error(td::Status::Error(ErrorCode::protoviolation,
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PSTRING() << "bad candidate: " << reject.reason));
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}));
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}
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});
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auto next_block_id = create_next_block_id(block.id.root_hash, block.id.file_hash);
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VLOG(VALIDATOR_DEBUG) << "validating block candidate " << next_block_id;
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block.id = next_block_id;
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run_validate_query(shard_, min_ts_, min_masterchain_block_id_, prev_block_ids_, std::move(block), validator_set_,
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manager_, td::Timestamp::in(10.0), std::move(P));
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}
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void ValidatorGroup::accept_block_candidate(td::uint32 round_id, PublicKeyHash src, td::BufferSlice block_data,
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RootHash root_hash, FileHash file_hash,
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std::vector<BlockSignature> signatures,
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std::vector<BlockSignature> approve_signatures,
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td::Promise<td::Unit> promise) {
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if (round_id >= last_known_round_id_) {
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last_known_round_id_ = round_id + 1;
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}
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auto sig_set = create_signature_set(std::move(signatures));
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validator_set_->check_signatures(root_hash, file_hash, sig_set).ensure();
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auto approve_sig_set = create_signature_set(std::move(approve_signatures));
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validator_set_->check_approve_signatures(root_hash, file_hash, approve_sig_set).ensure();
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auto next_block_id = create_next_block_id(root_hash, file_hash);
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auto block =
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block_data.size() > 0 ? create_block(next_block_id, std::move(block_data)).move_as_ok() : td::Ref<BlockData>{};
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auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), block_id = next_block_id, block, prev = prev_block_ids_,
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sig_set, approve_sig_set,
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promise = std::move(promise)](td::Result<td::Unit> R) mutable {
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if (R.is_error()) {
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if (R.error().code() == ErrorCode::cancelled) {
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promise.set_value(td::Unit());
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return;
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}
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LOG_CHECK(R.error().code() == ErrorCode::timeout || R.error().code() == ErrorCode::notready) << R.move_as_error();
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td::actor::send_closure(SelfId, &ValidatorGroup::retry_accept_block_query, block_id, std::move(block),
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std::move(prev), std::move(sig_set), std::move(approve_sig_set), std::move(promise));
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} else {
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promise.set_value(R.move_as_ok());
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}
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});
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run_accept_block_query(next_block_id, std::move(block), prev_block_ids_, validator_set_, std::move(sig_set),
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std::move(approve_sig_set), src == local_id_, manager_, std::move(P));
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prev_block_ids_ = std::vector<BlockIdExt>{next_block_id};
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}
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void ValidatorGroup::retry_accept_block_query(BlockIdExt block_id, td::Ref<BlockData> block,
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std::vector<BlockIdExt> prev, td::Ref<BlockSignatureSet> sig_set,
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td::Ref<BlockSignatureSet> approve_sig_set,
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td::Promise<td::Unit> promise) {
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auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), block_id, block, prev, sig_set, approve_sig_set,
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promise = std::move(promise)](td::Result<td::Unit> R) mutable {
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if (R.is_error()) {
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LOG_CHECK(R.error().code() == ErrorCode::timeout) << R.move_as_error();
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td::actor::send_closure(SelfId, &ValidatorGroup::retry_accept_block_query, block_id, std::move(block),
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std::move(prev), std::move(sig_set), std::move(approve_sig_set), std::move(promise));
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} else {
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promise.set_value(R.move_as_ok());
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}
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});
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run_accept_block_query(block_id, std::move(block), prev, validator_set_, std::move(sig_set),
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std::move(approve_sig_set), false, manager_, std::move(P));
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}
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void ValidatorGroup::skip_round(td::uint32 round_id) {
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if (round_id >= last_known_round_id_) {
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last_known_round_id_ = round_id + 1;
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}
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}
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void ValidatorGroup::get_approved_candidate(PublicKey source, RootHash root_hash, FileHash file_hash,
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FileHash collated_data_file_hash, td::Promise<BlockCandidate> promise) {
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BlockIdExt id = create_next_block_id(root_hash, file_hash);
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td::actor::send_closure(manager_, &ValidatorManager::get_block_candidate_from_db, source, id, collated_data_file_hash,
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std::move(promise));
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}
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BlockIdExt ValidatorGroup::create_next_block_id(RootHash root_hash, FileHash file_hash) const {
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BlockSeqno seqno = 0;
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for (auto &p : prev_block_ids_) {
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if (seqno < p.id.seqno) {
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seqno = p.id.seqno;
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}
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}
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return BlockIdExt{shard_.workchain, shard_.shard, seqno + 1, root_hash, file_hash};
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}
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std::unique_ptr<validatorsession::ValidatorSession::Callback> ValidatorGroup::make_validator_session_callback() {
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class Callback : public validatorsession::ValidatorSession::Callback {
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public:
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Callback(td::actor::ActorId<ValidatorGroup> id) : id_(id) {
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}
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void on_candidate(td::uint32 round, PublicKey source, validatorsession::ValidatorSessionRootHash root_hash,
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td::BufferSlice data, td::BufferSlice collated_data,
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td::Promise<validatorsession::ValidatorSession::CandidateDecision> promise) override {
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auto P = td::PromiseCreator::lambda([id = id_, promise = std::move(promise)](td::Result<td::uint32> R) mutable {
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if (R.is_ok()) {
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promise.set_value(validatorsession::ValidatorSession::CandidateDecision{R.move_as_ok()});
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} else {
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auto S = R.move_as_error();
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promise.set_value(
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validatorsession::ValidatorSession::CandidateDecision{S.message().c_str(), td::BufferSlice()});
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}
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});
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BlockCandidate candidate{Ed25519_PublicKey{source.ed25519_value().raw()},
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BlockIdExt{0, 0, 0, root_hash, sha256_bits256(data.as_slice())},
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sha256_bits256(collated_data.as_slice()), data.clone(), collated_data.clone()};
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td::actor::send_closure(id_, &ValidatorGroup::validate_block_candidate, round, std::move(candidate),
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std::move(P));
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}
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void on_generate_slot(td::uint32 round, td::Promise<BlockCandidate> promise) override {
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td::actor::send_closure(id_, &ValidatorGroup::generate_block_candidate, round, std::move(promise));
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}
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void on_block_committed(td::uint32 round, PublicKey source, validatorsession::ValidatorSessionRootHash root_hash,
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validatorsession::ValidatorSessionFileHash file_hash, td::BufferSlice data,
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std::vector<std::pair<PublicKeyHash, td::BufferSlice>> signatures,
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std::vector<std::pair<PublicKeyHash, td::BufferSlice>> approve_signatures) override {
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std::vector<BlockSignature> sigs;
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for (auto &sig : signatures) {
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sigs.emplace_back(BlockSignature{sig.first.bits256_value(), std::move(sig.second)});
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}
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std::vector<BlockSignature> approve_sigs;
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for (auto &sig : approve_signatures) {
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approve_sigs.emplace_back(BlockSignature{sig.first.bits256_value(), std::move(sig.second)});
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}
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auto P = td::PromiseCreator::lambda([](td::Result<td::Unit>) {});
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td::actor::send_closure(id_, &ValidatorGroup::accept_block_candidate, round, source.compute_short_id(),
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std::move(data), root_hash, file_hash, std::move(sigs), std::move(approve_sigs),
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std::move(P));
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}
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void on_block_skipped(td::uint32 round) override {
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td::actor::send_closure(id_, &ValidatorGroup::skip_round, round);
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}
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void get_approved_candidate(PublicKey source, validatorsession::ValidatorSessionRootHash root_hash,
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validatorsession::ValidatorSessionFileHash file_hash,
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validatorsession::ValidatorSessionCollatedDataFileHash collated_data_file_hash,
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td::Promise<BlockCandidate> promise) override {
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td::actor::send_closure(id_, &ValidatorGroup::get_approved_candidate, source, root_hash, file_hash,
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collated_data_file_hash, std::move(promise));
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}
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private:
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td::actor::ActorId<ValidatorGroup> id_;
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};
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return std::make_unique<Callback>(actor_id(this));
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}
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void ValidatorGroup::create_session() {
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CHECK(!init_);
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init_ = true;
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std::vector<validatorsession::ValidatorSessionNode> vec;
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auto v = validator_set_->export_vector();
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bool found = false;
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for (auto &el : v) {
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validatorsession::ValidatorSessionNode n;
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n.pub_key = ValidatorFullId{el.key};
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n.weight = el.weight;
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if (n.pub_key.compute_short_id() == local_id_) {
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CHECK(!found);
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found = true;
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local_id_full_ = n.pub_key;
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}
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if (el.addr.is_zero()) {
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n.adnl_id = adnl::AdnlNodeIdShort{n.pub_key.compute_short_id()};
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} else {
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n.adnl_id = adnl::AdnlNodeIdShort{el.addr};
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}
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vec.emplace_back(std::move(n));
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}
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CHECK(found);
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session_ = validatorsession::ValidatorSession::create(session_id_, config_, local_id_, std::move(vec),
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make_validator_session_callback(), keyring_, adnl_, rldp_,
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overlays_, db_root_);
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if (prev_block_ids_.size() > 0) {
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td::actor::send_closure(session_, &validatorsession::ValidatorSession::start);
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}
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}
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void ValidatorGroup::start(std::vector<BlockIdExt> prev, BlockIdExt min_masterchain_block_id, UnixTime min_ts) {
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prev_block_ids_ = prev;
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min_masterchain_block_id_ = min_masterchain_block_id;
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min_ts_ = min_ts;
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if (init_) {
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td::actor::send_closure(session_, &validatorsession::ValidatorSession::start);
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}
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}
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void ValidatorGroup::destroy() {
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if (!session_.empty()) {
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td::actor::send_closure(session_, &validatorsession::ValidatorSession::destroy);
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session_.release();
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}
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stop();
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}
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} // namespace validator
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} // namespace ton
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