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ton/validator/validator-group.cpp

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