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/**
* Copyright 2018 VMware
* Copyright 2018 Ted Yin
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "hotstuff/hotstuff.h"
#include "hotstuff/client.h"
#include "hotstuff/liveness.h"
using salticidae::static_pointer_cast;
#define LOG_INFO HOTSTUFF_LOG_INFO
#define LOG_DEBUG HOTSTUFF_LOG_DEBUG
#define LOG_WARN HOTSTUFF_LOG_WARN
namespace hotstuff {
const opcode_t MsgPropose::opcode;
MsgPropose::MsgPropose(const Proposal &proposal) { serialized << proposal; }
void MsgPropose::postponed_parse(HotStuffCore *hsc) {
proposal.hsc = hsc;
serialized >> proposal;
}
const opcode_t MsgVote::opcode;
MsgVote::MsgVote(const Vote &vote) { serialized << vote; }
void MsgVote::postponed_parse(HotStuffCore *hsc) {
vote.hsc = hsc;
serialized >> vote;
}
const opcode_t MsgReqBlock::opcode;
MsgReqBlock::MsgReqBlock(const std::vector<uint256_t> &blk_hashes) {
serialized << htole((uint32_t)blk_hashes.size());
for (const auto &h: blk_hashes)
serialized << h;
}
MsgReqBlock::MsgReqBlock(DataStream &&s) {
uint32_t size;
s >> size;
size = letoh(size);
blk_hashes.resize(size);
for (auto &h: blk_hashes) s >> h;
}
const opcode_t MsgRespBlock::opcode;
MsgRespBlock::MsgRespBlock(const std::vector<block_t> &blks) {
serialized << htole((uint32_t)blks.size());
for (auto blk: blks) serialized << *blk;
}
void MsgRespBlock::postponed_parse(HotStuffCore *hsc) {
uint32_t size;
serialized >> size;
size = letoh(size);
blks.resize(size);
for (auto &blk: blks)
{
Block _blk;
_blk.unserialize(serialized, hsc);
blk = hsc->storage->add_blk(std::move(_blk), hsc->get_config());
}
}
// TODO: improve this function
void HotStuffBase::exec_command(uint256_t cmd_hash, commit_cb_t callback) {
cmd_pending.enqueue(std::make_pair(cmd_hash, callback));
}
void HotStuffBase::on_fetch_blk(const block_t &blk) {
#ifdef HOTSTUFF_BLK_PROFILE
blk_profiler.get_tx(blk->get_hash());
#endif
LOG_DEBUG("fetched %.10s", get_hex(blk->get_hash()).c_str());
part_fetched++;
fetched++;
//for (auto cmd: blk->get_cmds()) on_fetch_cmd(cmd);
const uint256_t &blk_hash = blk->get_hash();
auto it = blk_fetch_waiting.find(blk_hash);
if (it != blk_fetch_waiting.end())
{
it->second.resolve(blk);
blk_fetch_waiting.erase(it);
}
}
bool HotStuffBase::on_deliver_blk(const block_t &blk) {
const uint256_t &blk_hash = blk->get_hash();
bool valid;
/* sanity check: all parents must be delivered */
for (const auto &p: blk->get_parent_hashes())
assert(storage->is_blk_delivered(p));
if ((valid = HotStuffCore::on_deliver_blk(blk)))
{
LOG_DEBUG("block %.10s delivered",
get_hex(blk_hash).c_str());
part_parent_size += blk->get_parent_hashes().size();
part_delivered++;
delivered++;
}
else
{
LOG_WARN("dropping invalid block");
}
bool res = true;
auto it = blk_delivery_waiting.find(blk_hash);
if (it != blk_delivery_waiting.end())
{
auto &pm = it->second;
if (valid)
{
pm.elapsed.stop(false);
auto sec = pm.elapsed.elapsed_sec;
part_delivery_time += sec;
part_delivery_time_min = std::min(part_delivery_time_min, sec);
part_delivery_time_max = std::max(part_delivery_time_max, sec);
pm.resolve(blk);
}
else
{
pm.reject(blk);
res = false;
// TODO: do we need to also free it from storage?
}
blk_delivery_waiting.erase(it);
}
return res;
}
promise_t HotStuffBase::async_fetch_blk(const uint256_t &blk_hash,
const PeerId *replica,
bool fetch_now) {
if (storage->is_blk_fetched(blk_hash))
return promise_t([this, &blk_hash](promise_t pm){
pm.resolve(storage->find_blk(blk_hash));
});
auto it = blk_fetch_waiting.find(blk_hash);
if (it == blk_fetch_waiting.end())
{
#ifdef HOTSTUFF_BLK_PROFILE
blk_profiler.rec_tx(blk_hash, false);
#endif
it = blk_fetch_waiting.insert(
std::make_pair(
blk_hash,
BlockFetchContext(blk_hash, this))).first;
}
if (replica != nullptr)
it->second.add_replica(*replica, fetch_now);
return static_cast<promise_t &>(it->second);
}
promise_t HotStuffBase::async_deliver_blk(const uint256_t &blk_hash,
const PeerId &replica) {
if (storage->is_blk_delivered(blk_hash))
return promise_t([this, &blk_hash](promise_t pm) {
pm.resolve(storage->find_blk(blk_hash));
});
auto it = blk_delivery_waiting.find(blk_hash);
if (it != blk_delivery_waiting.end())
return static_cast<promise_t &>(it->second);
BlockDeliveryContext pm{[](promise_t){}};
it = blk_delivery_waiting.insert(std::make_pair(blk_hash, pm)).first;
/* otherwise the on_deliver_batch will resolve */
async_fetch_blk(blk_hash, &replica).then([this, replica](block_t blk) {
/* qc_ref should be fetched */
std::vector<promise_t> pms;
const auto &qc = blk->get_qc();
assert(qc);
if (blk == get_genesis())
pms.push_back(promise_t([](promise_t &pm){ pm.resolve(true); }));
else
pms.push_back(blk->verify(this, vpool));
pms.push_back(async_fetch_blk(qc->get_obj_hash(), &replica));
/* the parents should be delivered */
for (const auto &phash: blk->get_parent_hashes())
pms.push_back(async_deliver_blk(phash, replica));
promise::all(pms).then([this, blk](const promise::values_t values) {
auto ret = promise::any_cast<bool>(values[0]) && this->on_deliver_blk(blk);
if (!ret)
HOTSTUFF_LOG_WARN("verification failed during async delivery");
});
});
return static_cast<promise_t &>(pm);
}
void HotStuffBase::propose_handler(MsgPropose &&msg, const Net::conn_t &conn) {
const PeerId &peer = conn->get_peer_id();
if (peer.is_null()) return;
msg.postponed_parse(this);
auto &prop = msg.proposal;
block_t blk = prop.blk;
if (!blk) return;
promise::all(std::vector<promise_t>{
async_deliver_blk(blk->get_hash(), peer)
}).then([this, prop = std::move(prop)]() {
on_receive_proposal(prop);
});
}
void HotStuffBase::vote_handler(MsgVote &&msg, const Net::conn_t &conn) {
const auto &peer = conn->get_peer_id();
if (peer.is_null()) return;
msg.postponed_parse(this);
//auto &vote = msg.vote;
RcObj<Vote> v(new Vote(std::move(msg.vote)));
promise::all(std::vector<promise_t>{
async_deliver_blk(v->blk_hash, peer),
v->verify(vpool),
}).then([this, v=std::move(v)](const promise::values_t values) {
if (!promise::any_cast<bool>(values[1]))
LOG_WARN("invalid vote from %d", v->voter);
else
on_receive_vote(*v);
});
}
void HotStuffBase::req_blk_handler(MsgReqBlock &&msg, const Net::conn_t &conn) {
const PeerId replica = conn->get_peer_id();
if (replica.is_null()) return;
auto &blk_hashes = msg.blk_hashes;
std::vector<promise_t> pms;
for (const auto &h: blk_hashes)
pms.push_back(async_fetch_blk(h, nullptr));
promise::all(pms).then([replica, this](const promise::values_t values) {
std::vector<block_t> blks;
for (auto &v: values)
{
auto blk = promise::any_cast<block_t>(v);
blks.push_back(blk);
}
pn.send_msg(MsgRespBlock(blks), replica);
});
}
void HotStuffBase::resp_blk_handler(MsgRespBlock &&msg, const Net::conn_t &) {
msg.postponed_parse(this);
for (const auto &blk: msg.blks)
if (blk) on_fetch_blk(blk);
}
bool HotStuffBase::conn_handler(const salticidae::ConnPool::conn_t &conn, bool connected) {
if (connected)
{
if (!pn.enable_tls) return true;
auto cert = conn->get_peer_cert();
//SALTICIDAE_LOG_INFO("%s", salticidae::get_hash(cert->get_der()).to_hex().c_str());
return valid_tls_certs.count(salticidae::get_hash(cert->get_der()));
}
return true;
}
void HotStuffBase::print_stat() const {
LOG_INFO("===== begin stats =====");
LOG_INFO("-------- queues -------");
LOG_INFO("blk_fetch_waiting: %lu", blk_fetch_waiting.size());
LOG_INFO("blk_delivery_waiting: %lu", blk_delivery_waiting.size());
LOG_INFO("decision_waiting: %lu", decision_waiting.size());
LOG_INFO("-------- misc ---------");
LOG_INFO("fetched: %lu", fetched);
LOG_INFO("delivered: %lu", delivered);
LOG_INFO("cmd_cache: %lu", storage->get_cmd_cache_size());
LOG_INFO("blk_cache: %lu", storage->get_blk_cache_size());
LOG_INFO("------ misc (10s) -----");
LOG_INFO("fetched: %lu", part_fetched);
LOG_INFO("delivered: %lu", part_delivered);
LOG_INFO("decided: %lu", part_decided);
LOG_INFO("gened: %lu", part_gened);
LOG_INFO("avg. parent_size: %.3f",
part_delivered ? part_parent_size / double(part_delivered) : 0);
LOG_INFO("delivery time: %.3f avg, %.3f min, %.3f max",
part_delivered ? part_delivery_time / double(part_delivered) : 0,
part_delivery_time_min == double_inf ? 0 : part_delivery_time_min,
part_delivery_time_max);
part_parent_size = 0;
part_fetched = 0;
part_delivered = 0;
part_decided = 0;
part_gened = 0;
part_delivery_time = 0;
part_delivery_time_min = double_inf;
part_delivery_time_max = 0;
#ifdef HOTSTUFF_MSG_STAT
LOG_INFO("--- replica msg. (10s) ---");
size_t _nsent = 0;
size_t _nrecv = 0;
for (const auto &replica: peers)
{
auto conn = pn.get_peer_conn(replica);
if (conn == nullptr) continue;
size_t ns = conn->get_nsent();
size_t nr = conn->get_nrecv();
size_t nsb = conn->get_nsentb();
size_t nrb = conn->get_nrecvb();
conn->clear_msgstat();
LOG_INFO("%s: %u(%u), %u(%u), %u",
get_hex10(replica).c_str(), ns, nsb, nr, nrb, part_fetched_replica[replica]);
_nsent += ns;
_nrecv += nr;
part_fetched_replica[replica] = 0;
}
nsent += _nsent;
nrecv += _nrecv;
LOG_INFO("sent: %lu", _nsent);
LOG_INFO("recv: %lu", _nrecv);
LOG_INFO("--- replica msg. total ---");
LOG_INFO("sent: %lu", nsent);
LOG_INFO("recv: %lu", nrecv);
#endif
LOG_INFO("====== end stats ======");
}
HotStuffBase::HotStuffBase(uint32_t blk_size,
ReplicaID rid,
privkey_bt &&priv_key,
NetAddr listen_addr,
pacemaker_bt pmaker,
EventContext ec,
size_t nworker,
const Net::Config &netconfig):
HotStuffCore(rid, std::move(priv_key)),
listen_addr(listen_addr),
blk_size(blk_size),
ec(ec),
tcall(ec),
vpool(ec, nworker),
pn(ec, netconfig),
pmaker(std::move(pmaker)),
fetched(0), delivered(0),
nsent(0), nrecv(0),
part_parent_size(0),
part_fetched(0),
part_delivered(0),
part_decided(0),
part_gened(0),
part_delivery_time(0),
part_delivery_time_min(double_inf),
part_delivery_time_max(0)
{
/* register the handlers for msg from replicas */
pn.reg_handler(salticidae::generic_bind(&HotStuffBase::propose_handler, this, _1, _2));
pn.reg_handler(salticidae::generic_bind(&HotStuffBase::vote_handler, this, _1, _2));
pn.reg_handler(salticidae::generic_bind(&HotStuffBase::req_blk_handler, this, _1, _2));
pn.reg_handler(salticidae::generic_bind(&HotStuffBase::resp_blk_handler, this, _1, _2));
pn.reg_conn_handler(salticidae::generic_bind(&HotStuffBase::conn_handler, this, _1, _2));
pn.reg_error_handler([](const std::exception_ptr _err, bool fatal, int32_t async_id) {
try {
std::rethrow_exception(_err);
} catch (const std::exception &err) {
HOTSTUFF_LOG_WARN("network async error: %s\n", err.what());
}
});
pn.start();
pn.listen(listen_addr);
}
void HotStuffBase::do_broadcast_proposal(const Proposal &prop) {
//MsgPropose prop_msg(prop);
pn.multicast_msg(MsgPropose(prop), peers);
//for (const auto &replica: peers)
// pn.send_msg(prop_msg, replica);
}
void HotStuffBase::do_vote(ReplicaID last_proposer, const Vote &vote) {
pmaker->beat_resp(last_proposer)
.then([this, vote](ReplicaID proposer) {
if (proposer == get_id())
{
throw HotStuffError("unreachable line");
//on_receive_vote(vote);
}
else
pn.send_msg(MsgVote(vote), get_config().get_peer_id(proposer));
});
}
void HotStuffBase::do_consensus(const block_t &blk) {
pmaker->on_consensus(blk);
}
void HotStuffBase::do_decide(Finality &&fin) {
part_decided++;
state_machine_execute(fin);
auto it = decision_waiting.find(fin.cmd_hash);
if (it != decision_waiting.end())
{
it->second(std::move(fin));
decision_waiting.erase(it);
}
}
HotStuffBase::~HotStuffBase() {}
void HotStuffBase::start(
std::vector<std::tuple<NetAddr, pubkey_bt, uint256_t>> &&replicas,
bool ec_loop) {
for (size_t i = 0; i < replicas.size(); i++)
{
auto &addr = std::get<0>(replicas[i]);
auto cert_hash = std::move(std::get<2>(replicas[i]));
valid_tls_certs.insert(cert_hash);
auto peer = pn.enable_tls ? salticidae::PeerId(cert_hash) : salticidae::PeerId(addr);
HotStuffCore::add_replica(i, peer, std::move(std::get<1>(replicas[i])));
if (addr != listen_addr)
{
peers.push_back(peer);
pn.add_peer(peer);
pn.set_peer_addr(peer, addr);
pn.conn_peer(peer);
}
}
/* ((n - 1) + 1 - 1) / 3 */
uint32_t nfaulty = peers.size() / 3;
if (nfaulty == 0)
LOG_WARN("too few replicas in the system to tolerate any failure");
on_init(nfaulty);
pmaker->init(this);
if (ec_loop)
ec.dispatch();
cmd_pending.reg_handler(ec, [this](cmd_queue_t &q) {
std::pair<uint256_t, commit_cb_t> e;
while (q.try_dequeue(e))
{
ReplicaID proposer = pmaker->get_proposer();
const auto &cmd_hash = e.first;
auto it = decision_waiting.find(cmd_hash);
if (it == decision_waiting.end())
it = decision_waiting.insert(std::make_pair(cmd_hash, e.second)).first;
else
e.second(Finality(id, 0, 0, 0, cmd_hash, uint256_t()));
if (proposer != get_id()) continue;
cmd_pending_buffer.push(cmd_hash);
if (cmd_pending_buffer.size() >= blk_size)
{
std::vector<uint256_t> cmds;
for (uint32_t i = 0; i < blk_size; i++)
{
cmds.push_back(cmd_pending_buffer.front());
cmd_pending_buffer.pop();
}
pmaker->beat().then([this, cmds = std::move(cmds)](ReplicaID proposer) {
if (proposer == get_id())
on_propose(cmds, pmaker->get_parents());
});
return true;
}
}
return false;
});
}
}
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