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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 <cassert>
#include <stack>
#include "hotstuff/util.h"
#include "hotstuff/consensus.h"
#define LOG_INFO HOTSTUFF_LOG_INFO
#define LOG_DEBUG HOTSTUFF_LOG_DEBUG
#define LOG_WARN HOTSTUFF_LOG_WARN
#define LOG_PROTO HOTSTUFF_LOG_PROTO
namespace hotstuff {
/* The core logic of HotStuff, is fairly simple :). */
/*** begin HotStuff protocol logic ***/
HotStuffCore::HotStuffCore(ReplicaID id,
privkey_bt &&priv_key):
b0(new Block(true, 1)),
b_lock(b0),
b_exec(b0),
vheight(0),
priv_key(std::move(priv_key)),
tails{b0},
vote_disabled(false),
id(id),
storage(new EntityStorage()) {
storage->add_blk(b0);
}
void HotStuffCore::sanity_check_delivered(const block_t &blk) {
if (!blk->delivered)
throw std::runtime_error("block not delivered");
}
block_t HotStuffCore::get_delivered_blk(const uint256_t &blk_hash) {
block_t blk = storage->find_blk(blk_hash);
if (blk == nullptr || !blk->delivered)
throw std::runtime_error("block not delivered");
return std::move(blk);
}
bool HotStuffCore::on_deliver_blk(const block_t &blk) {
if (blk->delivered)
{
LOG_WARN("attempt to deliver a block twice");
return false;
}
blk->parents.clear();
for (const auto &hash: blk->parent_hashes)
blk->parents.push_back(get_delivered_blk(hash));
blk->height = blk->parents[0]->height + 1;
if (blk->qc)
{
block_t _blk = storage->find_blk(blk->qc->get_obj_hash());
if (_blk == nullptr)
throw std::runtime_error("block referred by qc not fetched");
blk->qc_ref = std::move(_blk);
} // otherwise blk->qc_ref remains null
for (auto pblk: blk->parents) tails.erase(pblk);
tails.insert(blk);
blk->delivered = true;
LOG_DEBUG("deliver %s", std::string(*blk).c_str());
return true;
}
void HotStuffCore::update_hqc(const block_t &_hqc, const quorum_cert_bt &qc) {
if (_hqc->height > hqc.first->height)
{
hqc = std::make_pair(_hqc, qc->clone());
on_hqc_update();
}
}
void HotStuffCore::update(const block_t &nblk) {
/* nblk = b*, blk2 = b'', blk1 = b', blk = b */
#ifndef HOTSTUFF_TWO_STEP
/* three-step HotStuff */
const block_t &blk2 = nblk->qc_ref;
if (blk2 == nullptr) return;
/* decided blk could possible be incomplete due to pruning */
if (blk2->decision) return;
update_hqc(blk2, nblk->qc);
const block_t &blk1 = blk2->qc_ref;
if (blk1 == nullptr) return;
if (blk1->decision) return;
if (blk1->height > b_lock->height) b_lock = blk1;
const block_t &blk = blk1->qc_ref;
if (blk == nullptr) return;
if (blk->decision) return;
/* commit requires direct parent */
if (blk2->parents[0] != blk1 || blk1->parents[0] != blk) return;
#else
/* two-step HotStuff */
const block_t &blk1 = nblk->qc_ref;
if (blk1 == nullptr) return;
if (blk1->decision) return;
update_hqc(blk1, nblk->qc);
if (blk1->height > b_lock->height) b_lock = blk1;
const block_t &blk = blk1->qc_ref;
if (blk == nullptr) return;
if (blk->decision) return;
/* commit requires direct parent */
if (blk1->parents[0] != blk) return;
#endif
/* otherwise commit */
std::vector<block_t> commit_queue;
block_t b;
for (b = blk; b->height > b_exec->height; b = b->parents[0])
{ /* TODO: also commit the uncles/aunts */
commit_queue.push_back(b);
}
if (b != b_exec)
throw std::runtime_error("safety breached :( " +
std::string(*blk) + " " +
std::string(*b_exec));
for (auto it = commit_queue.rbegin(); it != commit_queue.rend(); it++)
{
const block_t &blk = *it;
blk->decision = 1;
LOG_PROTO("commit %s", std::string(*blk).c_str());
for (size_t i = 0; i < blk->cmds.size(); i++)
do_decide(Finality(id, 1, i, blk->height,
blk->cmds[i], blk->get_hash()));
}
b_exec = blk;
}
void HotStuffCore::on_propose(const std::vector<uint256_t> &cmds,
const std::vector<block_t> &parents,
bytearray_t &&extra) {
if (parents.empty())
throw std::runtime_error("empty parents");
for (const auto &_: parents) tails.erase(_);
block_t p = parents[0];
quorum_cert_bt qc = nullptr;
block_t qc_ref = nullptr;
/* a block can optionally carray a QC */
if (p->voted.size() >= config.nmajority)
{
qc = p->self_qc->clone();
qc_ref = p;
}
/* create the new block */
block_t bnew = storage->add_blk(
new Block(parents, cmds,
std::move(qc), std::move(extra),
p->height + 1,
qc_ref,
nullptr
));
const uint256_t bnew_hash = bnew->get_hash();
bnew->self_qc = create_quorum_cert(bnew_hash);
on_deliver_blk(bnew);
update(bnew);
Proposal prop(id, bnew, nullptr);
LOG_PROTO("propose %s", std::string(*bnew).c_str());
/* self-vote */
if (bnew->height <= vheight)
throw std::runtime_error("new block should be higher than vheight");
vheight = bnew->height;
on_receive_vote(
Vote(id, bnew_hash,
create_part_cert(*priv_key, bnew_hash), this));
on_propose_(prop);
/* boradcast to other replicas */
do_broadcast_proposal(prop);
}
void HotStuffCore::on_receive_proposal(const Proposal &prop) {
LOG_PROTO("got %s", std::string(prop).c_str());
block_t bnew = prop.blk;
sanity_check_delivered(bnew);
update(bnew);
bool opinion = false;
if (bnew->height > vheight)
{
if (bnew->qc_ref && bnew->qc_ref->height > b_lock->height)
{
opinion = true; // liveness condition
vheight = bnew->height;
}
else
{ // safety condition (extend the locked branch)
block_t b;
for (b = bnew;
b->height > b_lock->height;
b = b->parents[0]);
if (b == b_lock) /* on the same branch */
{
opinion = true;
vheight = bnew->height;
}
}
}
LOG_PROTO("now state: %s", std::string(*this).c_str());
if (bnew->qc_ref)
on_qc_finish(bnew->qc_ref);
on_receive_proposal_(prop);
if (opinion && !vote_disabled)
do_vote(prop.proposer,
Vote(id, bnew->get_hash(),
create_part_cert(*priv_key, bnew->get_hash()), this));
}
void HotStuffCore::on_receive_vote(const Vote &vote) {
LOG_PROTO("got %s", std::string(vote).c_str());
LOG_PROTO("now state: %s", std::string(*this).c_str());
block_t blk = get_delivered_blk(vote.blk_hash);
assert(vote.cert);
size_t qsize = blk->voted.size();
if (qsize >= config.nmajority) return;
if (!blk->voted.insert(vote.voter).second)
{
LOG_WARN("duplicate vote from %d", vote.voter);
return;
}
auto &qc = blk->self_qc;
if (qc == nullptr)
{
LOG_WARN("vote for block not proposed by itself");
qc = create_quorum_cert(blk->get_hash());
}
qc->add_part(vote.voter, *vote.cert);
if (qsize + 1 == config.nmajority)
{
qc->compute();
on_qc_finish(blk);
update_hqc(blk, qc);
}
}
/*** end HotStuff protocol logic ***/
void HotStuffCore::on_init(uint32_t nfaulty) {
config.nmajority = config.nreplicas - nfaulty;
b0->qc = create_quorum_cert(b0->get_hash());
b0->qc->compute();
b0->self_qc = b0->qc->clone();
b0->qc_ref = b0;
hqc = std::make_pair(b0, b0->qc->clone());
}
void HotStuffCore::prune(uint32_t staleness) {
block_t start;
/* skip the blocks */
for (start = b_exec; staleness; staleness--, start = start->parents[0])
if (!start->parents.size()) return;
std::stack<block_t> s;
start->qc_ref = nullptr;
s.push(start);
while (!s.empty())
{
auto &blk = s.top();
if (blk->parents.empty())
{
storage->try_release_blk(blk);
s.pop();
continue;
}
blk->qc_ref = nullptr;
s.push(blk->parents.back());
blk->parents.pop_back();
}
}
void HotStuffCore::add_replica(ReplicaID rid, const NetAddr &addr,
pubkey_bt &&pub_key) {
config.add_replica(rid,
ReplicaInfo(rid, addr, std::move(pub_key)));
b0->voted.insert(rid);
}
promise_t HotStuffCore::async_qc_finish(const block_t &blk) {
if (blk->voted.size() >= config.nmajority)
return promise_t([](promise_t &pm) {
pm.resolve();
});
auto it = qc_waiting.find(blk);
if (it == qc_waiting.end())
it = qc_waiting.insert(std::make_pair(blk, promise_t())).first;
return it->second;
}
void HotStuffCore::on_qc_finish(const block_t &blk) {
auto it = qc_waiting.find(blk);
if (it != qc_waiting.end())
{
it->second.resolve();
qc_waiting.erase(it);
}
}
promise_t HotStuffCore::async_wait_proposal() {
return propose_waiting.then([](const Proposal &prop) {
return prop;
});
}
promise_t HotStuffCore::async_wait_receive_proposal() {
return receive_proposal_waiting.then([](const Proposal &prop) {
return prop;
});
}
promise_t HotStuffCore::async_hqc_update() {
return hqc_update_waiting.then([this]() {
return hqc.first;
});
}
void HotStuffCore::on_propose_(const Proposal &prop) {
auto t = std::move(propose_waiting);
propose_waiting = promise_t();
t.resolve(prop);
}
void HotStuffCore::on_receive_proposal_(const Proposal &prop) {
auto t = std::move(receive_proposal_waiting);
receive_proposal_waiting = promise_t();
t.resolve(prop);
}
void HotStuffCore::on_hqc_update() {
auto t = std::move(hqc_update_waiting);
hqc_update_waiting = promise_t();
t.resolve();
}
HotStuffCore::operator std::string () const {
DataStream s;
s << "<hotstuff "
<< "hqc=" << get_hex10(hqc.first->get_hash()) << " "
<< "hqc.height=" << std::to_string(hqc.first->height) << " "
<< "b_lock=" << get_hex10(b_lock->get_hash()) << " "
<< "b_exec=" << get_hex10(b_exec->get_hash()) << " "
<< "vheight=" << std::to_string(vheight) << " "
<< "tails=" << std::to_string(tails.size()) << ">";
return std::move(s);
}
}
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