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#ifndef _HOTSTUFF_LIVENESS_H
#define _HOTSTUFF_LIVENESS_H
#include "salticidae/util.h"
#include "hotstuff/consensus.h"
namespace hotstuff {
using salticidae::_1;
using salticidae::_2;
/** Abstraction for liveness gadget (oracle). */
class PaceMaker {
protected:
HotStuffCore *hsc;
public:
virtual ~PaceMaker() = default;
/** Initialize the PaceMaker. A derived class should also call the
* default implementation to set `hsc`. */
virtual void init(HotStuffCore *_hsc) { hsc = _hsc; }
/** Get a promise resolved when the pace maker thinks it is a *good* time
* to issue new commands. When promise is resolved, the replica should
* propose the command. */
virtual promise_t beat() = 0;
/** Get the current proposer. */
virtual ReplicaID get_proposer() = 0;
/** Select the parent blocks for a new block.
* @return Parent blocks. The block at index 0 is the direct parent, while
* the others are uncles/aunts. The returned vector should be non-empty. */
virtual std::vector<block_t> get_parents() = 0;
/** Get a promise resolved when the pace maker thinks it is a *good* time
* to vote for a block. The promise is resolved with the next proposer's ID
* */
virtual promise_t beat_resp(ReplicaID last_proposer) = 0;
/** Impeach the current proposer. */
virtual void impeach() {}
};
using pacemaker_bt = BoxObj<PaceMaker>;
/** Parent selection implementation for PaceMaker: select all parents.
* PaceMakers derived from this class will select the highest block as the
* direct parent, while including other tail blocks (up to parent_limit) as
* uncles/aunts. */
class PMAllParents: public virtual PaceMaker {
block_t bqc_tail;
const int32_t parent_limit; /**< maximum number of parents */
void reg_bqc_update() {
hsc->async_bqc_update().then([this](const block_t &bqc) {
const auto &pref = bqc->get_qc_ref();
for (const auto &blk: hsc->get_tails())
{
block_t b;
for (b = blk;
b->get_height() > pref->get_height();
b = b->get_parents()[0]);
if (b == pref && blk->get_height() > bqc_tail->get_height())
bqc_tail = blk;
}
reg_bqc_update();
});
}
void reg_proposal() {
hsc->async_wait_proposal().then([this](const Proposal &prop) {
bqc_tail = prop.blk;
reg_proposal();
});
}
void reg_receive_proposal() {
hsc->async_wait_receive_proposal().then([this](const Proposal &prop) {
const auto &pref = hsc->get_bqc()->get_qc_ref();
const auto &blk = prop.blk;
block_t b;
for (b = blk;
b->get_height() > pref->get_height();
b = b->get_parents()[0]);
if (b == pref && blk->get_height() > bqc_tail->get_height())
bqc_tail = blk;
reg_receive_proposal();
});
}
public:
PMAllParents(int32_t parent_limit): parent_limit(parent_limit) {}
void init() {
bqc_tail = hsc->get_genesis();
reg_bqc_update();
reg_proposal();
reg_receive_proposal();
}
std::vector<block_t> get_parents() override {
const auto &tails = hsc->get_tails();
std::vector<block_t> parents{bqc_tail};
auto nparents = tails.size();
if (parent_limit > 0)
nparents = std::min(nparents, (size_t)parent_limit);
nparents--;
/* add the rest of tails as "uncles/aunts" */
for (const auto &blk: tails)
{
if (blk != bqc_tail)
{
parents.push_back(blk);
if (!--nparents) break;
}
}
return std::move(parents);
}
};
/** Beat implementation for PaceMaker: simply wait for the QC of last proposed
* block. PaceMakers derived from this class will beat only when the last
* block proposed by itself gets its QC. */
class PMWaitQC: public virtual PaceMaker {
std::queue<promise_t> pending_beats;
block_t last_proposed;
bool locked;
promise_t pm_qc_finish;
promise_t pm_wait_propose;
protected:
void schedule_next() {
if (!pending_beats.empty() && !locked)
{
auto pm = pending_beats.front();
pending_beats.pop();
pm_qc_finish.reject();
(pm_qc_finish = hsc->async_qc_finish(last_proposed))
.then([this, pm]() {
pm.resolve(get_proposer());
});
locked = true;
}
}
void update_last_proposed() {
pm_wait_propose.reject();
(pm_wait_propose = hsc->async_wait_proposal()).then(
[this](const Proposal &prop) {
last_proposed = prop.blk;
locked = false;
schedule_next();
update_last_proposed();
});
}
public:
void init() {
last_proposed = hsc->get_genesis();
locked = false;
update_last_proposed();
}
ReplicaID get_proposer() override {
return hsc->get_id();
}
promise_t beat() override {
promise_t pm;
pending_beats.push(pm);
schedule_next();
return std::move(pm);
}
promise_t beat_resp(ReplicaID last_proposer) override {
return promise_t([last_proposer](promise_t &pm) {
pm.resolve(last_proposer);
});
}
};
/** Naive PaceMaker where everyone can be a proposer at any moment. */
struct PaceMakerDummy: public PMAllParents, public PMWaitQC {
PaceMakerDummy(int32_t parent_limit):
PMAllParents(parent_limit), PMWaitQC() {}
void init(HotStuffCore *hsc) override {
PaceMaker::init(hsc);
PMAllParents::init();
PMWaitQC::init();
}
};
/** PaceMakerDummy with a fixed proposer. */
class PaceMakerDummyFixed: public PaceMakerDummy {
ReplicaID proposer;
public:
PaceMakerDummyFixed(ReplicaID proposer,
int32_t parent_limit):
PaceMakerDummy(parent_limit),
proposer(proposer) {}
ReplicaID get_proposer() override {
return proposer;
}
promise_t beat_resp(ReplicaID) override {
return promise_t([this](promise_t &pm) {
pm.resolve(proposer);
});
}
};
/**
* Simple long-standing proposer liveness gadget.
* There are three roles for each replica: proposer, candidate and follower.
*
* For a proposer, it proposes a new block and refrains itself from proposing
* the next block unless it receives the QC for the previous block. It will
* give up the leadership and turn into a candidate when it hasn't seen such QC
* for a while.
*
* For a follower, it never proposes any block, but keeps a timer for the QC
* for the block last proposed by the proposer (the proposer it believes to
* be). When it times out without seeing such QC, the follower turns into a
* candidate.
*
* For a candidate, it periodically proposes empty blocks to synchronize the
* preferred branch, with randomized timeout, and check for any new QC. Once it
* sees such new QC, if the QC is given by itself, it becomes the proposer,
* otherwise yields to the creator of the QC as a follower.
*/
class PMStickyProposer: virtual public PaceMaker {
enum {
PROPOSER,
FOLLOWER,
CANDIDATE
} role;
double qc_timeout;
double candidate_timeout;
EventContext ec;
/** QC timer or randomized timeout */
Event timer;
block_t last_proposed;
/** the proposer it believes */
ReplicaID proposer;
/* extra state needed for a proposer */
std::queue<promise_t> pending_beats;
bool locked;
/* extra state needed for a candidate */
std::unordered_map<ReplicaID, promise_t> last_proposed_by;
promise_t pm_wait_receive_proposal;
promise_t pm_wait_propose;
promise_t pm_qc_finish;
void reset_qc_timer() {
timer.del();
timer.add_with_timeout(qc_timeout);
HOTSTUFF_LOG_INFO("QC timer reset");
}
void clear_promises() {
pm_wait_receive_proposal.reject();
pm_wait_propose.reject();
pm_qc_finish.reject();
for (auto &p: last_proposed_by)
p.second.reject();
last_proposed_by.clear();
}
/* helper functions for a follower */
void reg_follower_receive_proposal() {
pm_wait_receive_proposal.reject();
(pm_wait_receive_proposal = hsc->async_wait_receive_proposal())
.then(
salticidae::generic_bind(
&PMStickyProposer::follower_receive_proposal, this, _1));
}
void follower_receive_proposal(const Proposal &prop) {
if (prop.proposer == proposer)
{
auto &qc_ref = prop.blk->get_qc_ref();
if (last_proposed && qc_ref != last_proposed)
{
HOTSTUFF_LOG_INFO("proposer misbehave");
to_candidate(); /* proposer misbehave */
return;
}
HOTSTUFF_LOG_INFO("proposer emits new QC");
last_proposed = prop.blk;
//reset_qc_timer();
}
reg_follower_receive_proposal();
}
/* helper functions for a proposer */
void proposer_schedule_next() {
if (!pending_beats.empty() && !locked)
{
auto pm = pending_beats.front();
pending_beats.pop();
pm_qc_finish.reject();
(pm_qc_finish = hsc->async_qc_finish(last_proposed))
.then([this, pm]() {
timer.del();
pm.resolve(proposer);
});
locked = true;
}
}
void reg_proposer_propose() {
pm_wait_propose.reject();
(pm_wait_propose = hsc->async_wait_proposal()).then(
salticidae::generic_bind(
&PMStickyProposer::proposer_propose, this, _1));
}
void proposer_propose(const Proposal &prop) {
reset_qc_timer();
last_proposed = prop.blk;
locked = false;
proposer_schedule_next();
reg_proposer_propose();
}
void propose_elect_block() {
DataStream s;
/* FIXME: should extra data be the voter's id? */
s << hsc->get_id();
/* propose a block for leader election */
hsc->on_propose(std::vector<command_t>{},
get_parents(), std::move(s));
}
/* helper functions for a candidate */
void candidate_qc_timeout() {
pm_qc_finish.reject();
pm_wait_propose.reject();
(pm_wait_propose = hsc->async_wait_proposal()).then([this](const Proposal &prop) {
const auto &blk = prop.blk;
(pm_qc_finish = hsc->async_qc_finish(blk)).then([this, blk]() {
HOTSTUFF_LOG_INFO("collected QC for %s", std::string(*blk).c_str());
/* managed to collect a QC */
to_proposer();
propose_elect_block();
});
});
double t = salticidae::gen_rand_timeout(candidate_timeout);
timer.del();
timer.add_with_timeout(t);
HOTSTUFF_LOG_INFO("candidate next try in %.2fs", t);
propose_elect_block();
}
void reg_candidate_receive_proposal() {
pm_wait_receive_proposal.reject();
(pm_wait_receive_proposal = hsc->async_wait_receive_proposal())
.then(
salticidae::generic_bind(
&PMStickyProposer::candidate_receive_proposal, this, _1));
}
void candidate_receive_proposal(const Proposal &prop) {
auto _proposer = prop.proposer;
auto &p = last_proposed_by[_proposer];
HOTSTUFF_LOG_PROTO("got block %s from %d", std::string(*prop.blk).c_str(), _proposer);
p.reject();
(p = hsc->async_qc_finish(prop.blk)).then([this, _proposer]() {
to_follower(_proposer);
});
reg_candidate_receive_proposal();
}
/* role transitions */
void to_follower(ReplicaID new_proposer) {
HOTSTUFF_LOG_INFO("new role: follower");
clear_promises();
role = FOLLOWER;
proposer = new_proposer;
last_proposed = nullptr;
hsc->set_neg_vote(false);
timer.clear();
//timer = Event(ec, -1, 0, [this](int, short) {
// /* unable to get a QC in time */
// to_candidate();
//});
/* redirect all pending cmds to the new proposer */
while (!pending_beats.empty())
{
pending_beats.front().resolve(proposer);
pending_beats.pop();
}
reg_follower_receive_proposal();
}
void to_proposer() {
HOTSTUFF_LOG_INFO("new role: proposer");
clear_promises();
role = PROPOSER;
proposer = hsc->get_id();
last_proposed = nullptr;
hsc->set_neg_vote(true);
timer = Event(ec, -1, 0, [this](int, short) {
/* proposer unable to get a QC in time */
to_candidate();
});
proposer_propose(Proposal(-1, uint256_t(), hsc->get_genesis(), nullptr));
}
void to_candidate() {
HOTSTUFF_LOG_INFO("new role: candidate");
clear_promises();
role = CANDIDATE;
proposer = hsc->get_id();
last_proposed = nullptr;
hsc->set_neg_vote(false);
timer = Event(ec, -1, 0, [this](int, short) {
candidate_qc_timeout();
});
candidate_timeout = qc_timeout;
reg_candidate_receive_proposal();
candidate_qc_timeout();
}
protected:
void impeach() override {
if (role == CANDIDATE) return;
timer = Event(ec, -1, 0, [this](int, short) {
to_candidate();
});
timer.add_with_timeout(0);
HOTSTUFF_LOG_INFO("schedule to impeach the proposer");
}
public:
PMStickyProposer(double qc_timeout, const EventContext &ec):
qc_timeout(qc_timeout), ec(ec) {}
void init() { to_candidate(); }
ReplicaID get_proposer() override {
return proposer;
}
promise_t beat() override {
if (role != FOLLOWER)
{
promise_t pm;
pending_beats.push(pm);
if (role == PROPOSER)
proposer_schedule_next();
return std::move(pm);
}
else
return promise_t([proposer=proposer](promise_t &pm) {
pm.resolve(proposer);
});
}
promise_t beat_resp(ReplicaID last_proposer) override {
return promise_t([this, last_proposer](promise_t &pm) {
pm.resolve(last_proposer);
});
}
};
struct PaceMakerSticky: public PMAllParents, public PMStickyProposer {
PaceMakerSticky(int32_t parent_limit, double qc_timeout, EventContext eb):
PMAllParents(parent_limit), PMStickyProposer(qc_timeout, eb) {}
void init(HotStuffCore *hsc) override {
PaceMaker::init(hsc);
PMAllParents::init();
PMStickyProposer::init();
}
};
}
#endif
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