danog/ton
1
0
Fork 0
mirror of https://github.com/danog/ton.git synced 2024-11-30 04:29:19 +01:00
Code Issues Projects Releases Wiki Activity
2d3b99c2e7
ton/validator/manager-disk.cpp

918 lines
38 KiB
C++
Raw Normal View History

initial commit
2019-09-07 12:03:22 +02:00
/*
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 "manager-disk.hpp"
#include "validator-group.hpp"
#include "adnl/utils.hpp"
#include "downloaders/wait-block-state.hpp"
#include "downloaders/wait-block-state-merge.hpp"
#include "downloaders/wait-block-data-disk.hpp"
#include "validator-group.hpp"
#include "fabric.h"
#include "manager.h"
#include "ton/ton-io.hpp"
#include "td/utils/overloaded.h"
namespace ton {
namespace validator {
void ValidatorManagerImpl::validate_block_is_next_proof(BlockIdExt prev_block_id, BlockIdExt next_block_id,
td::BufferSlice proof, td::Promise<td::Unit> promise) {
UNREACHABLE();
}
void ValidatorManagerImpl::validate_block_proof(BlockIdExt block_id, td::BufferSlice proof,
td::Promise<td::Unit> promise) {
auto pp = create_proof(block_id, std::move(proof));
if (pp.is_error()) {
promise.set_error(pp.move_as_error());
return;
}
auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result<BlockHandle> 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));
}
void ValidatorManagerImpl::validate_block_proof_link(BlockIdExt block_id, td::BufferSlice proof,
td::Promise<td::Unit> promise) {
UNREACHABLE();
}
void ValidatorManagerImpl::validate_block(ReceivedBlock block, td::Promise<BlockHandle> promise) {
UNREACHABLE();
}
void ValidatorManagerImpl::prevalidate_block(BlockBroadcast broadcast, td::Promise<td::Unit> promise) {
UNREACHABLE();
}
void ValidatorManagerImpl::sync_complete(td::Promise<td::Unit> promise) {
started_ = true;
//ShardIdFull shard_id{masterchainId, shardIdAll};
auto shard_id = shard_to_generate_;
auto block_id = block_to_generate_;
std::vector<BlockIdExt> prev;
if (!block_id.is_valid()) {
if (shard_id.is_masterchain()) {
prev = {last_masterchain_block_id_};
} else {
auto S = last_masterchain_state_->get_shard_from_config(shard_id);
if (S.not_null()) {
prev = {S->top_block_id()};
} else {
S = last_masterchain_state_->get_shard_from_config(shard_parent(shard_id));
if (S.not_null()) {
CHECK(S->before_split());
prev = {S->top_block_id()};
} else {
S = last_masterchain_state_->get_shard_from_config(shard_child(shard_id, true));
CHECK(S.not_null());
CHECK(S->before_merge());
auto S2 = last_masterchain_state_->get_shard_from_config(shard_child(shard_id, false));
CHECK(S2.not_null());
CHECK(S2->before_merge());
prev = {S->top_block_id(), S2->top_block_id()};
}
}
}
} else {
CHECK(block_id.shard_full() == shard_id);
prev = {block_id};
}
//LOG(DEBUG) << "before get_validator_set";
auto val_set = last_masterchain_state_->get_validator_set(shard_id);
//LOG(DEBUG) << "after get_validator_set: addr=" << (const void*)val_set.get();
auto P = td::PromiseCreator::lambda(
[SelfId = actor_id(this), last = last_masterchain_block_id_, val_set, prev](td::Result<BlockCandidate> R) {
if (R.is_ok()) {
auto v = R.move_as_ok();
LOG(ERROR) << "created block " << v.id;
td::actor::send_closure(SelfId, &ValidatorManagerImpl::validate_fake, std::move(v), std::move(prev), last,
val_set);
} else {
LOG(ERROR) << "failed to create block: " << R.move_as_error();
std::exit(2);
}
});
LOG(ERROR) << "running collate query";
updated block header 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
2019-09-18 19:46:32 +02:00
if (local_id_.is_zero()) {
//td::as<td::uint32>(created_by_.data() + 32 - 4) = ((unsigned)std::time(nullptr) >> 8);
}
Ed25519_PublicKey created_by{td::Bits256::zero()};
td::as<td::uint32>(created_by.as_bits256().data() + 32 - 4) = ((unsigned)std::time(nullptr) >> 8);
run_collate_query(shard_id, 0, last_masterchain_block_id_, prev, created_by, val_set, actor_id(this),
initial commit
2019-09-07 12:03:22 +02:00
td::Timestamp::in(10.0), std::move(P));
}
void ValidatorManagerImpl::validate_fake(BlockCandidate candidate, std::vector<BlockIdExt> prev, BlockIdExt last,
td::Ref<ValidatorSet> val_set) {
auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), c = candidate.clone(), prev, last,
val_set](td::Result<ValidateCandidateResult> R) mutable {
if (R.is_ok()) {
auto v = R.move_as_ok();
v.visit(td::overloaded(
[&](UnixTime ts) {
td::actor::send_closure(SelfId, &ValidatorManagerImpl::write_fake, std::move(c), prev, last, val_set);
},
[&](CandidateReject reject) {
LOG(ERROR) << "failed to create block: " << reject.reason;
std::exit(2);
}));
} else {
LOG(ERROR) << "failed to create block: " << R.move_as_error();
std::exit(2);
}
});
auto shard = candidate.id.shard_full();
run_validate_query(shard, 0, last, prev, std::move(candidate), std::move(val_set), actor_id(this),
td::Timestamp::in(10.0), std::move(P), true /* fake */);
}
void ValidatorManagerImpl::write_fake(BlockCandidate candidate, std::vector<BlockIdExt> prev, BlockIdExt last,
td::Ref<ValidatorSet> val_set) {
auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), id = candidate.id](td::Result<td::Unit> R) {
if (R.is_ok()) {
td::actor::send_closure(SelfId, &ValidatorManagerImpl::complete_fake, id);
} else {
LOG(ERROR) << "failed to create block: " << R.move_as_error();
std::exit(2);
}
});
auto data = create_block(candidate.id, std::move(candidate.data)).move_as_ok();
run_fake_accept_block_query(candidate.id, data, prev, val_set, actor_id(this), std::move(P));
}
void ValidatorManagerImpl::complete_fake(BlockIdExt block_id) {
LOG(ERROR) << "success, block " << block_id << " = " << block_id.to_str() << " saved to disk";
std::exit(0);
}
void ValidatorManagerImpl::get_next_block(BlockIdExt block_id, td::Promise<BlockHandle> promise) {
UNREACHABLE();
}
void ValidatorManagerImpl::get_block_data(BlockHandle handle, td::Promise<td::BufferSlice> promise) {
auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result<td::Ref<BlockData>> 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());
}
});
get_block_data_from_db(handle, std::move(P));
}
void ValidatorManagerImpl::check_zero_state_exists(BlockIdExt block_id, td::Promise<bool> 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<td::BufferSlice> 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<bool> 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<td::BufferSlice> promise) {
td::actor::send_closure(db_, &Db::get_persistent_state_file, block_id, masterchain_block_id, std::move(promise));
}
void ValidatorManagerImpl::get_block_proof(BlockHandle handle, td::Promise<td::BufferSlice> promise) {
auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result<td::Ref<Proof>> 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, handle, std::move(P));
}
void ValidatorManagerImpl::new_external_message(td::BufferSlice data) {
auto R = create_ext_message(std::move(data));
if (R.is_ok()) {
ext_messages_.emplace_back(R.move_as_ok());
}
}
void ValidatorManagerImpl::new_ihr_message(td::BufferSlice data) {
auto R = create_ihr_message(std::move(data));
if (R.is_ok()) {
ihr_messages_.emplace_back(R.move_as_ok());
}
}
void ValidatorManagerImpl::new_shard_block(BlockIdExt block_id, CatchainSeqno cc_seqno, td::BufferSlice data) {
if (!last_masterchain_block_handle_) {
shard_blocks_raw_.push_back(std::move(data));
return;
}
auto P = td::PromiseCreator::lambda([SelfId = actor_id(this)](td::Result<td::Ref<ShardTopBlockDescription>> R) {
if (R.is_error()) {
LOG(WARNING) << "dropping invalid new shard block description: " << R.move_as_error();
td::actor::send_closure(SelfId, &ValidatorManagerImpl::dec_pending_new_blocks);
} else {
// LOG(DEBUG) << "run_validate_shard_block_description() completed successfully";
td::actor::send_closure(SelfId, &ValidatorManagerImpl::add_shard_block_description, R.move_as_ok());
}
});
++pending_new_shard_block_descr_;
// LOG(DEBUG) << "new run_validate_shard_block_description()";
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), true);
}
void ValidatorManagerImpl::add_shard_block_description(td::Ref<ShardTopBlockDescription> desc) {
if (desc->may_be_valid(last_masterchain_block_handle_, last_masterchain_state_)) {
shard_blocks_.insert(std::move(desc));
}
dec_pending_new_blocks();
}
void ValidatorManagerImpl::dec_pending_new_blocks() {
if (!--pending_new_shard_block_descr_ && !waiting_new_shard_block_descr_.empty()) {
std::vector<td::Ref<ShardTopBlockDescription>> res{shard_blocks_.begin(), shard_blocks_.end()};
auto promises = std::move(waiting_new_shard_block_descr_);
waiting_new_shard_block_descr_.clear();
for (auto &promise : promises) {
promise.set_result(res);
}
}
}
void ValidatorManagerImpl::wait_block_state(BlockHandle handle, td::uint32 priority, td::Timestamp timeout,
td::Promise<td::Ref<ShardState>> promise) {
auto it = wait_state_.find(handle->id());
if (it == wait_state_.end()) {
auto P = td::PromiseCreator::lambda([SelfId = actor_id(this), handle](td::Result<td::Ref<ShardState>> R) {
td::actor::send_closure(SelfId, &ValidatorManagerImpl::finished_wait_state, handle->id(), std::move(R));
});
auto id = td::actor::create_actor<WaitBlockState>("waitstate", handle, 0, actor_id(this), td::Timestamp::in(10.0),
std::move(P))
.release();
wait_state_[handle->id()].actor_ = id;
it = wait_state_.find(handle->id());
}
it->second.waiting_.emplace_back(
std::pair<td::Timestamp, td::Promise<td::Ref<ShardState>>>(timeout, std::move(promise)));
td::actor::send_closure(it->second.actor_, &WaitBlockState::update_timeout, timeout, 0);
}
void ValidatorManagerImpl::wait_block_state_short(BlockIdExt block_id, td::uint32 priority, td::Timestamp timeout,
td::Promise<td::Ref<ShardState>> promise) {
auto P = td::PromiseCreator::lambda(
[SelfId = actor_id(this), timeout, promise = std::move(promise)](td::Result<BlockHandle> 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(), 0, 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<td::Ref<BlockData>> 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<td::Ref<BlockData>> R) {
td::actor::send_closure(SelfId, &ValidatorManagerImpl::finished_wait_data, handle->id(), std::move(R));
});
auto id = td::actor::create_actor<WaitBlockDataDisk>("waitdata", handle, actor_id(this), td::Timestamp::in(10.0),
std::move(P))
.release();
wait_block_data_[handle->id()].actor_ = id;
it = wait_block_data_.find(handle->id());
}
it->second.waiting_.emplace_back(
std::pair<td::Timestamp, td::Promise<td::Ref<BlockData>>>(timeout, std::move(promise)));
td::actor::send_closure(it->second.actor_, &WaitBlockDataDisk::update_timeout, timeout);
}
void ValidatorManagerImpl::wait_block_data_short(BlockIdExt block_id, td::uint32 priority, td::Timestamp timeout,
td::Promise<td::Ref<BlockData>> promise) {
auto P = td::PromiseCreator::lambda(
[SelfId = actor_id(this), timeout, promise = std::move(promise)](td::Result<BlockHandle> 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(), 0, 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<td::Ref<ShardState>> promise) {
td::actor::create_actor<WaitBlockStateMerge>("merge", left_id, right_id, 0, actor_id(this), timeout,
std::move(promise))
.release();
}
void ValidatorManagerImpl::wait_prev_block_state(BlockHandle handle, td::uint32 priority, td::Timestamp timeout,
td::Promise<td::Ref<ShardState>> 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), 0, 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<td::Ref<ShardState>> 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), 0, timeout, std::move(P));
}
} else {
wait_block_state_merge(handle->one_prev(true), handle->one_prev(false), 0, timeout, std::move(promise));
}
}
void ValidatorManagerImpl::wait_block_proof(BlockHandle handle, td::Timestamp timeout,
td::Promise<td::Ref<Proof>> promise) {
td::actor::send_closure(db_, &Db::get_block_proof, handle, std::move(promise));
}
void ValidatorManagerImpl::wait_block_proof_short(BlockIdExt block_id, td::Timestamp timeout,
td::Promise<td::Ref<Proof>> promise) {
auto P = td::PromiseCreator::lambda(
[SelfId = actor_id(this), timeout, promise = std::move(promise)](td::Result<BlockHandle> 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<td::Ref<ProofLink>> 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<td::Ref<ProofLink>> promise) {
auto P = td::PromiseCreator::lambda(
[SelfId = actor_id(this), timeout, promise = std::move(promise)](td::Result<BlockHandle> 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<td::Ref<BlockSignatureSet>> 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<td::Ref<BlockSignatureSet>> promise) {
auto P = td::PromiseCreator::lambda(
[SelfId = actor_id(this), timeout, promise = std::move(promise)](td::Result<BlockHandle> 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<td::Ref<MessageQueue>> promise) {
auto P = td::PromiseCreator::lambda([promise = std::move(promise)](td::Result<td::Ref<ShardState>> 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, 0, timeout, std::move(P));
}
void ValidatorManagerImpl::wait_block_message_queue_short(BlockIdExt block_id, td::uint32 priority,
td::Timestamp timeout,
td::Promise<td::Ref<MessageQueue>> promise) {
auto P = td::PromiseCreator::lambda(
[SelfId = actor_id(this), timeout, promise = std::move(promise)](td::Result<BlockHandle> 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(), 0, timeout,
std::move(promise));
});
get_block_handle(block_id, true, std::move(P));
}
void ValidatorManagerImpl::get_external_messages(ShardIdFull shard,
td::Promise<std::vector<td::Ref<ExtMessage>>> promise) {
promise.set_result(ext_messages_);
}
void ValidatorManagerImpl::get_ihr_messages(ShardIdFull shard, td::Promise<std::vector<td::Ref<IhrMessage>>> promise) {
promise.set_result(ihr_messages_);
}
void ValidatorManagerImpl::get_shard_blocks(BlockIdExt masterchain_block_id,
td::Promise<std::vector<td::Ref<ShardTopBlockDescription>>> promise) {
if (!last_masterchain_block_handle_) {
promise.set_result(std::vector<td::Ref<ShardTopBlockDescription>>{});
return;
}
if (!shard_blocks_raw_.empty()) {
for (auto &raw : shard_blocks_raw_) {
new_shard_block(BlockIdExt{}, 0, std::move(raw));
}
shard_blocks_raw_.clear();
}
if (!pending_new_shard_block_descr_) {
promise.set_result(std::vector<td::Ref<ShardTopBlockDescription>>{shard_blocks_.begin(), shard_blocks_.end()});
} else {
// LOG(DEBUG) << "postponed get_shard_blocks query because pending_new_shard_block_descr_=" << pending_new_shard_block_descr_;
waiting_new_shard_block_descr_.push_back(std::move(promise));
}
}
void ValidatorManagerImpl::complete_external_messages(std::vector<ExtMessage::Hash> to_delay,
std::vector<ExtMessage::Hash> to_delete) {
}
void ValidatorManagerImpl::complete_ihr_messages(std::vector<IhrMessage::Hash> to_delay,
std::vector<IhrMessage::Hash> to_delete) {
}
void ValidatorManagerImpl::get_block_data_from_db(BlockHandle handle, td::Promise<td::Ref<BlockData>> promise) {
td::actor::send_closure(db_, &Db::get_block_data, handle, std::move(promise));
}
void ValidatorManagerImpl::get_block_data_from_db_short(BlockIdExt block_id, td::Promise<td::Ref<BlockData>> promise) {
auto P =
td::PromiseCreator::lambda([db = db_.get(), promise = std::move(promise)](td::Result<BlockHandle> 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(BlockHandle handle, td::Promise<td::Ref<ShardState>> 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<td::Ref<ShardState>> promise) {
auto P =
td::PromiseCreator::lambda([db = db_.get(), promise = std::move(promise)](td::Result<BlockHandle> 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<BlockCandidate> promise) {
td::actor::send_closure(db_, &Db::get_block_candidate, source, id, collated_data_file_hash, std::move(promise));
}
void ValidatorManagerImpl::get_block_proof_from_db(BlockHandle handle, td::Promise<td::Ref<Proof>> 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<td::Ref<Proof>> promise) {
auto P =
td::PromiseCreator::lambda([db = db_.get(), promise = std::move(promise)](td::Result<BlockHandle> 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(BlockHandle handle, td::Promise<td::Ref<ProofLink>> promise) {
td::actor::send_closure(db_, &Db::get_block_proof_link, std::move(handle), std::move(promise));
}
void ValidatorManagerImpl::get_block_proof_link_from_db_short(BlockIdExt block_id,
td::Promise<td::Ref<ProofLink>> promise) {
auto P =
td::PromiseCreator::lambda([db = db_.get(), promise = std::move(promise)](td::Result<BlockHandle> 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_link, 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<BlockIdExt> 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<BlockIdExt> 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<BlockIdExt> promise) {
td::actor::send_closure(db_, &Db::get_block_by_seqno, account, seqno, std::move(promise));
}
void ValidatorManagerImpl::finished_wait_state(BlockIdExt block_id, td::Result<td::Ref<ShardState>> R) {
auto it = wait_state_.find(block_id);
if (it != wait_state_.end()) {
if (R.is_error()) {
auto S = R.move_as_error();
for (auto &X : it->second.waiting_) {
X.second.set_error(S.clone());
}
} else {
auto r = R.move_as_ok();
for (auto &X : it->second.waiting_) {
X.second.set_result(r);
}
}
wait_state_.erase(it);
}
}
void ValidatorManagerImpl::finished_wait_data(BlockIdExt block_id, td::Result<td::Ref<BlockData>> R) {
auto it = wait_block_data_.find(block_id);
if (it != wait_block_data_.end()) {
if (R.is_error()) {
auto S = R.move_as_error();
for (auto &X : it->second.waiting_) {
X.second.set_error(S.clone());
}
} else {
auto r = R.move_as_ok();
for (auto &X : it->second.waiting_) {
X.second.set_result(r);
}
}
wait_block_data_.erase(it);
}
}
void ValidatorManagerImpl::set_block_state(BlockHandle handle, td::Ref<ShardState> state,
td::Promise<td::Ref<ShardState>> promise) {
td::actor::send_closure(db_, &Db::store_block_state, handle, state, std::move(promise));
}
void ValidatorManagerImpl::store_persistent_state_file(BlockIdExt block_id, BlockIdExt masterchain_block_id,
td::BufferSlice state, td::Promise<td::Unit> 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_zero_state_file(BlockIdExt block_id, td::BufferSlice state,
td::Promise<td::Unit> 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<BlockData> data, td::Promise<td::Unit> promise) {
auto P = td::PromiseCreator::lambda(
[SelfId = actor_id(this), promise = std::move(promise), handle](td::Result<td::Unit> R) mutable {
if (R.is_error()) {
promise.set_error(R.move_as_error());
} else {
handle->set_received();
handle->flush(SelfId, handle, std::move(promise));
}
});
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> proof, td::Promise<td::Unit> promise) {
auto P = td::PromiseCreator::lambda(
[SelfId = actor_id(this), promise = std::move(promise), handle](td::Result<td::Unit> R) mutable {
if (R.is_error()) {
promise.set_error(R.move_as_error());
} else {
promise.set_value(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<ProofLink> proof,
td::Promise<td::Unit> promise) {
auto P = td::PromiseCreator::lambda(
[SelfId = actor_id(this), handle, promise = std::move(promise)](td::Result<td::Unit> R) mutable {
if (R.is_error()) {
promise.set_error(R.move_as_error());
} else {
promise.set_value(td::Unit());
}
});
td::actor::send_closure(db_, &Db::store_block_proof_link, handle, std::move(proof), std::move(P));
}
void ValidatorManagerImpl::set_block_signatures(BlockHandle handle, td::Ref<BlockSignatureSet> signatures,
td::Promise<td::Unit> promise) {
auto P = td::PromiseCreator::lambda(
[SelfId = actor_id(this), promise = std::move(promise), handle](td::Result<td::Unit> R) mutable {
if (R.is_error()) {
promise.set_error(R.move_as_error());
} else {
promise.set_value(td::Unit());
}
});
td::actor::send_closure(db_, &Db::store_block_signatures, handle, std::move(signatures), std::move(P));
}
void ValidatorManagerImpl::set_next_block(BlockIdExt block_id, BlockIdExt next, td::Promise<td::Unit> promise) {
auto P = td::PromiseCreator::lambda(
[SelfId = actor_id(this), next, promise = std::move(promise)](td::Result<BlockHandle> 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, td::Promise<td::Unit> promise) {
td::actor::send_closure(db_, &Db::store_block_candidate, std::move(candidate), std::move(promise));
}
void ValidatorManagerImpl::write_handle(BlockHandle handle, td::Promise<td::Unit> promise) {
td::actor::send_closure(db_, &Db::store_block_handle, std::move(handle), std::move(promise));
}
void ValidatorManagerImpl::new_block(BlockHandle handle, td::Ref<ShardState> state, td::Promise<td::Unit> promise) {
handle->set_processed();
if (state->get_shard().is_masterchain() && handle->id().id.seqno > last_masterchain_seqno_) {
CHECK(handle->id().id.seqno == last_masterchain_seqno_ + 1);
last_masterchain_seqno_ = handle->id().id.seqno;
last_masterchain_state_ = td::Ref<MasterchainState>{state};
last_masterchain_block_id_ = handle->id();
last_masterchain_block_handle_ = handle;
update_shards();
update_shard_blocks();
td::actor::send_closure(db_, &Db::update_init_masterchain_block, last_masterchain_block_id_, std::move(promise));
} else {
promise.set_value(td::Unit());
}
}
void ValidatorManagerImpl::get_block_handle(BlockIdExt id, bool force, td::Promise<BlockHandle> promise) {
auto it = handles_.find(id);
if (it != handles_.end()) {
auto handle = it->second.lock();
if (handle) {
promise.set_value(std::move(handle));
return;
} else {
handles_.erase(it);
}
}
auto P = td::PromiseCreator::lambda(
[id, force, promise = std::move(promise), SelfId = actor_id(this)](td::Result<BlockHandle> 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 {
promise.set_error(std::move(S));
return;
}
} else {
handle = R.move_as_ok();
}
td::actor::send_closure(SelfId, &ValidatorManagerImpl::register_block_handle, std::move(handle),
std::move(promise));
});
td::actor::send_closure(db_, &Db::get_block_handle, id, std::move(P));
}
void ValidatorManagerImpl::register_block_handle(BlockHandle handle, td::Promise<BlockHandle> promise) {
auto it = handles_.find(handle->id());
if (it != handles_.end()) {
auto h = it->second.lock();
if (h) {
promise.set_value(std::move(h));
return;
}
handles_.erase(it);
}
handles_.emplace(handle->id(), std::weak_ptr<BlockHandleInterface>(handle));
promise.set_value(std::move(handle));
}
void ValidatorManagerImpl::get_top_masterchain_state(td::Promise<td::Ref<MasterchainState>> promise) {
promise.set_result(last_masterchain_state_);
}
void ValidatorManagerImpl::get_top_masterchain_block(td::Promise<BlockIdExt> promise) {
promise.set_result(last_masterchain_block_id_);
}
void ValidatorManagerImpl::get_top_masterchain_state_block(
td::Promise<std::pair<td::Ref<MasterchainState>, BlockIdExt>> promise) {
promise.set_result(
std::pair<td::Ref<MasterchainState>, BlockIdExt>{last_masterchain_state_, last_masterchain_block_id_});
}
void ValidatorManagerImpl::send_get_block_request(BlockIdExt id, td::uint32 priority,
td::Promise<ReceivedBlock> promise) {
UNREACHABLE();
}
void ValidatorManagerImpl::send_get_zero_state_request(BlockIdExt id, td::uint32 priority,
td::Promise<td::BufferSlice> promise) {
UNREACHABLE();
}
void ValidatorManagerImpl::send_get_persistent_state_request(BlockIdExt id, BlockIdExt masterchain_block_id,
td::uint32 priority,
td::Promise<td::BufferSlice> promise) {
UNREACHABLE();
}
void ValidatorManagerImpl::send_top_shard_block_description(td::Ref<ShardTopBlockDescription> desc) {
callback_->send_shard_block_info(desc->block_id(), desc->catchain_seqno(), desc->serialize());
}
void ValidatorManagerImpl::start_up() {
liteclient signature check support 1. update liteclient/liteserver. Now liteserver sends signatures of blocks and liteclient checks them. I.e. liteclient completely checks received data. 2. validator-engine: more GC options 3. blockchain-explorer: show all block transactions (instead of 256) 4. some bugfixes
2019-09-14 16:14:55 +02:00
db_ = create_db_actor(actor_id(this), db_root_, opts_->get_filedb_depth());
initial commit
2019-09-07 12:03:22 +02:00
auto P = td::PromiseCreator::lambda([SelfId = actor_id(this)](td::Result<ValidatorManagerInitResult> R) {
R.ensure();
td::actor::send_closure(SelfId, &ValidatorManagerImpl::started, R.move_as_ok());
});
validator_manager_init(opts_, actor_id(this), db_.get(), std::move(P));
}
void ValidatorManagerImpl::started(ValidatorManagerInitResult R) {
LOG(DEBUG) << "started()";
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);
//new_masterchain_block();
callback_->initial_read_complete(last_masterchain_block_handle_);
}
void ValidatorManagerImpl::update_shards() {
}
void ValidatorManagerImpl::update_shard_blocks() {
if (!last_masterchain_block_handle_) {
return;
}
if (!shard_blocks_raw_.empty()) {
for (auto &raw : shard_blocks_raw_) {
new_shard_block(BlockIdExt{}, 0, std::move(raw));
}
shard_blocks_raw_.clear();
}
{
auto it = shard_blocks_.begin();
while (it != shard_blocks_.end()) {
auto &B = *it;
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;
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<ValidatorSet> val_set) {
return create_hash_tl_object<ton_api::tonNode_sessionId>(shard.workchain, shard.shard, val_set->get_catchain_seqno(),
td::Bits256::zero());
}
void ValidatorManagerImpl::update_shard_client_state(BlockIdExt masterchain_block_id, td::Promise<td::Unit> promise) {
td::actor::send_closure(db_, &Db::update_shard_client_state, masterchain_block_id, std::move(promise));
}
updated tonlib, fixed bugs updated tonlib fixed bugs in func validator: partial support for hardforks liteserver: support for waitMasterchainBlock prefix transactions: support for gas flat rate
2019-10-03 15:04:52 +02:00
void ValidatorManagerImpl::get_shard_client_state(bool from_db, td::Promise<BlockIdExt> promise) {
initial commit
2019-09-07 12:03:22 +02:00
td::actor::send_closure(db_, &Db::get_shard_client_state, std::move(promise));
}
void ValidatorManagerImpl::try_get_static_file(FileHash file_hash, td::Promise<td::BufferSlice> promise) {
td::actor::send_closure(db_, &Db::try_get_static_file, file_hash, std::move(promise));
}
td::actor::ActorOwn<ValidatorManagerInterface> ValidatorManagerDiskFactory::create(
PublicKeyHash id, td::Ref<ValidatorManagerOptions> opts, ShardIdFull shard, BlockIdExt shard_top_block_id,
std::string db_root) {
return td::actor::create_actor<validator::ValidatorManagerImpl>("manager", id, std::move(opts), shard,
shard_top_block_id, db_root);
}
} // namespace validator
} // namespace ton
Reference in New Issue Copy Permalink