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ton/validator/impl/fabric.cpp
ton 9d6853ef24 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 18:14:55 +04:00

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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 "fabric.h"
#include "collator-impl.h"
#include "validator/db/rootdb.hpp"
#include "validator/block-handle.hpp"
#include "apply-block.hpp"
#include "accept-block.hpp"
#include "shard.hpp"
#include "block.hpp"
#include "proof.hpp"
#include "signature-set.hpp"
#include "external-message.hpp"
#include "ihr-message.hpp"
#include "validate-query.hpp"
#include "check-proof.hpp"
#include "top-shard-descr.hpp"
#include "ton/ton-io.hpp"
#include "liteserver.hpp"
namespace ton {
namespace validator {
td::actor::ActorOwn<Db> create_db_actor(td::actor::ActorId<ValidatorManager> manager, std::string db_root_,
td::uint32 depth) {
return td::actor::create_actor<RootDb>("db", manager, db_root_, depth);
}
td::Result<td::Ref<BlockData>> create_block(BlockIdExt block_id, td::BufferSlice data) {
auto res = BlockQ::create(block_id, std::move(data));
if (res.is_error()) {
return res.move_as_error();
} else {
return td::Ref<BlockData>{res.move_as_ok()};
}
}
td::Result<td::Ref<BlockData>> create_block(ReceivedBlock data) {
return create_block(data.id, std::move(data.data));
}
td::Result<td::Ref<Proof>> create_proof(BlockIdExt masterchain_block_id, td::BufferSlice proof) {
return Ref<ProofQ>{true, masterchain_block_id, std::move(proof)};
}
td::Result<td::Ref<ProofLink>> create_proof_link(BlockIdExt block_id, td::BufferSlice proof_link) {
return Ref<ProofLinkQ>{true, block_id, std::move(proof_link)};
}
td::Result<td::Ref<BlockSignatureSet>> create_signature_set(td::BufferSlice sig_set) {
return BlockSignatureSetQ::fetch(std::move(sig_set));
}
td::Result<td::Ref<ShardState>> create_shard_state(BlockIdExt block_id, td::BufferSlice data) {
auto res = ShardStateQ::fetch(block_id, std::move(data));
if (res.is_error()) {
return res.move_as_error();
} else {
return td::Ref<ShardState>{res.move_as_ok()};
}
}
td::Result<td::Ref<ShardState>> create_shard_state(BlockIdExt block_id, td::Ref<vm::DataCell> root_cell) {
auto res = ShardStateQ::fetch(block_id, {}, std::move(root_cell));
if (res.is_error()) {
return res.move_as_error();
} else {
return td::Ref<ShardState>{res.move_as_ok()};
}
}
td::Result<BlockHandle> create_block_handle(td::BufferSlice data) {
return ton::validator::BlockHandleImpl::create(std::move(data));
}
BlockHandle create_empty_block_handle(BlockIdExt id) {
return ton::validator::BlockHandleImpl::create_empty(id);
}
td::Ref<BlockSignatureSet> create_signature_set(std::vector<BlockSignature> sig_set) {
return td::Ref<BlockSignatureSetQ>{true, std::move(sig_set)};
}
td::Result<td::Ref<ExtMessage>> create_ext_message(td::BufferSlice data) {
TRY_RESULT(res, ExtMessageQ::create_ext_message(std::move(data)));
return std::move(res);
}
td::Result<td::Ref<IhrMessage>> create_ihr_message(td::BufferSlice data) {
TRY_RESULT(res, IhrMessageQ::create_ihr_message(std::move(data)));
return std::move(res);
}
void run_accept_block_query(BlockIdExt id, td::Ref<BlockData> data, std::vector<BlockIdExt> prev,
td::Ref<ValidatorSet> validator_set, td::Ref<BlockSignatureSet> signatures,
td::Ref<BlockSignatureSet> approve_signatures, bool send_broadcast,
td::actor::ActorId<ValidatorManager> manager, td::Promise<td::Unit> promise) {
td::actor::create_actor<AcceptBlockQuery>("accept", id, std::move(data), prev, std::move(validator_set),
std::move(signatures), send_broadcast, manager, std::move(promise))
.release();
}
void run_fake_accept_block_query(BlockIdExt id, td::Ref<BlockData> data, std::vector<BlockIdExt> prev,
td::Ref<ValidatorSet> validator_set, td::actor::ActorId<ValidatorManager> manager,
td::Promise<td::Unit> promise) {
td::actor::create_actor<AcceptBlockQuery>("fakeaccept", AcceptBlockQuery::IsFake(), id, std::move(data),
std::move(prev), std::move(validator_set), std::move(manager),
std::move(promise))
.release();
}
void run_apply_block_query(BlockIdExt id, td::Ref<BlockData> block, td::actor::ActorId<ValidatorManager> manager,
td::Timestamp timeout, td::Promise<td::Unit> promise) {
td::actor::create_actor<ApplyBlock>(PSTRING() << "apply " << id, id, std::move(block), manager, timeout,
std::move(promise))
.release();
}
void run_check_proof_query(BlockIdExt id, td::Ref<Proof> proof, td::actor::ActorId<ValidatorManager> manager,
td::Timestamp timeout, td::Promise<BlockHandle> promise, bool skip_check_signatures) {
td::actor::create_actor<CheckProof>("checkproof", id, std::move(proof), manager, timeout, std::move(promise),
skip_check_signatures)
.release();
}
void run_check_proof_query(BlockIdExt id, td::Ref<Proof> proof, td::actor::ActorId<ValidatorManager> manager,
td::Timestamp timeout, td::Promise<BlockHandle> promise,
td::Ref<ProofLink> rel_key_block_proof, bool skip_check_signatures) {
td::actor::create_actor<CheckProof>("checkproof/key", id, std::move(proof), manager, timeout, std::move(promise),
skip_check_signatures, std::move(rel_key_block_proof))
.release();
}
void run_check_proof_query(BlockIdExt id, td::Ref<Proof> proof, td::actor::ActorId<ValidatorManager> manager,
td::Timestamp timeout, td::Promise<BlockHandle> promise,
td::Ref<MasterchainState> rel_mc_state, bool skip_check_signatures) {
td::actor::create_actor<CheckProof>("checkproof/st", id, std::move(proof), manager, timeout, std::move(promise),
skip_check_signatures, std::move(rel_mc_state))
.release();
}
void run_check_proof_link_query(BlockIdExt id, td::Ref<ProofLink> proof, td::actor::ActorId<ValidatorManager> manager,
td::Timestamp timeout, td::Promise<BlockHandle> promise) {
td::actor::create_actor<CheckProof>("checkprooflink", id, std::move(proof), manager, timeout, std::move(promise))
.release();
}
void run_validate_query(ShardIdFull shard, UnixTime min_ts, BlockIdExt min_masterchain_block_id,
std::vector<BlockIdExt> prev, BlockCandidate candidate, td::Ref<ValidatorSet> validator_set,
td::actor::ActorId<ValidatorManager> manager, td::Timestamp timeout,
td::Promise<ValidateCandidateResult> promise, bool is_fake) {
BlockSeqno seqno = 0;
for (auto& p : prev) {
if (p.seqno() > seqno) {
seqno = p.seqno();
}
}
td::actor::create_actor<ValidateQuery>(
PSTRING() << (is_fake ? "fakevalidate" : "validateblock") << shard.to_str() << ":" << (seqno + 1), shard, min_ts,
min_masterchain_block_id, std::move(prev), std::move(candidate), std::move(validator_set), std::move(manager),
timeout, std::move(promise), is_fake)
.release();
}
void run_collate_query(ShardIdFull shard, td::uint32 min_ts, const BlockIdExt& min_masterchain_block_id,
std::vector<BlockIdExt> prev, PublicKeyHash collator_id, td::Ref<ValidatorSet> validator_set,
td::actor::ActorId<ValidatorManager> manager, td::Timestamp timeout,
td::Promise<BlockCandidate> promise) {
BlockSeqno seqno = 0;
for (auto& p : prev) {
if (p.seqno() > seqno) {
seqno = p.seqno();
}
}
td::actor::create_actor<Collator>(PSTRING() << "collate" << shard.to_str() << ":" << (seqno + 1), shard, min_ts,
min_masterchain_block_id, std::move(prev), std::move(validator_set),
collator_id.bits256_value(), std::move(manager), timeout, std::move(promise))
.release();
}
void run_liteserver_query(td::BufferSlice data, td::actor::ActorId<ValidatorManager> manager,
td::Promise<td::BufferSlice> promise) {
LiteQuery::run_query(std::move(data), std::move(manager), std::move(promise));
}
void run_validate_shard_block_description(td::BufferSlice data, BlockHandle masterchain_block,
td::Ref<MasterchainState> masterchain_state,
td::actor::ActorId<ValidatorManager> manager, td::Timestamp timeout,
td::Promise<td::Ref<ShardTopBlockDescription>> promise, bool is_fake) {
auto id = masterchain_block->id();
td::actor::create_actor<ValidateShardTopBlockDescr>("topshardfetch", std::move(data), id,
std::move(masterchain_block), std::move(masterchain_state),
manager, timeout, is_fake, std::move(promise))
.release();
}
} // namespace validator
} // namespace ton
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