#ifndef _HOTSTUFF_CONSENSUS_H
#define _HOTSTUFF_CONSENSUS_H
#include <cassert>
#include <set>
#include <unordered_map>
#include "hotstuff/promise.hpp"
#include "hotstuff/type.h"
#include "hotstuff/entity.h"
#include "hotstuff/crypto.h"
namespace hotstuff {
struct Proposal;
struct Vote;
struct Finality;
/** Abstraction for HotStuff protocol state machine (without network implementation). */
class HotStuffCore {
block_t b0; /** the genesis block */
/* === state variables === */
/** block containing the QC for the highest block having one */
block_t bqc;
block_t bexec; /**< last executed block */
uint32_t vheight; /**< height of the block last voted for */
/* === auxilliary variables === */
privkey_bt priv_key; /**< private key for signing votes */
std::set<block_t, BlockHeightCmp> tails; /**< set of tail blocks */
ReplicaConfig config; /**< replica configuration */
/* === async event queues === */
std::unordered_map<block_t, promise_t> qc_waiting;
promise_t propose_waiting;
promise_t receive_proposal_waiting;
promise_t bqc_update_waiting;
/* == feature switches == */
/** always vote negatively, useful for some PaceMakers */
bool neg_vote;
block_t get_delivered_blk(const uint256_t &blk_hash);
void sanity_check_delivered(const block_t &blk);
void check_commit(const block_t &_bqc);
bool update(const uint256_t &bqc_hash);
void on_bqc_update();
void on_qc_finish(const block_t &blk);
void on_propose_(const Proposal &prop);
void on_receive_proposal_(const Proposal &prop);
protected:
ReplicaID id; /**< identity of the replica itself */
public:
BoxObj<EntityStorage> storage;
HotStuffCore(ReplicaID id, privkey_bt &&priv_key);
virtual ~HotStuffCore() {
b0->qc_ref = nullptr;
}
/* Inputs of the state machine triggered by external events, should called
* by the class user, with proper invariants. */
/** Call to initialize the protocol, should be called once before all other
* functions. */
void on_init(uint32_t nfaulty) { config.nmajority = 2 * nfaulty + 1; }
/* TODO: better name for "delivery" ? */
/** Call to inform the state machine that a block is ready to be handled.
* A block is only delivered if itself is fetched, the block for the
* contained qc is fetched and all parents are delivered. The user should
* always ensure this invariant. The invalid blocks will be dropped by this
* function.
* @return true if valid */
bool on_deliver_blk(const block_t &blk);
/** Call upon the delivery of a proposal message.
* The block mentioned in the message should be already delivered. */
void on_receive_proposal(const Proposal &prop);
/** Call upon the delivery of a vote message.
* The block mentioned in the message should be already delivered. */
void on_receive_vote(const Vote &vote);
/** Call to submit new commands to be decided (executed). "Parents" must
* contain at least one block, and the first block is the actual parent,
* while the others are uncles/aunts */
void on_propose(const std::vector<command_t> &cmds,
const std::vector<block_t> &parents,
bytearray_t &&extra = bytearray_t());
/* Functions required to construct concrete instances for abstract classes.
* */
/* Outputs of the state machine triggering external events. The virtual
* functions should be implemented by the user to specify the behavior upon
* the events. */
protected:
/** Called by HotStuffCore upon the decision being made for cmd. */
virtual void do_decide(Finality &&fin) = 0;
/** Called by HotStuffCore upon broadcasting a new proposal.
* The user should send the proposal message to all replicas except for
* itself. */
virtual void do_broadcast_proposal(const Proposal &prop) = 0;
/** Called upon sending out a new vote to the next proposer. The user
* should send the vote message to a *good* proposer to have good liveness,
* while safety is always guaranteed by HotStuffCore. */
virtual void do_vote(ReplicaID last_proposer, const Vote &vote) = 0;
/* The user plugs in the detailed instances for those
* polymorphic data types. */
public:
/** Create a partial certificate that proves the vote for a block. */
virtual part_cert_bt create_part_cert(const PrivKey &priv_key, const uint256_t &blk_hash) = 0;
/** Create a partial certificate from its seralized form. */
virtual part_cert_bt parse_part_cert(DataStream &s) = 0;
/** Create a quorum certificate that proves 2f+1 votes for a block. */
virtual quorum_cert_bt create_quorum_cert(const uint256_t &blk_hash) = 0;
/** Create a quorum certificate from its serialized form. */
virtual quorum_cert_bt parse_quorum_cert(DataStream &s) = 0;
/** Create a command object from its serialized form. */
virtual command_t parse_cmd(DataStream &s) = 0;
public:
/** Add a replica to the current configuration. This should only be called
* before running HotStuffCore protocol. */
void add_replica(ReplicaID rid, const NetAddr &addr, pubkey_bt &&pub_key);
/** Try to prune blocks lower than last committed height - staleness. */
void prune(uint32_t staleness);
/* PaceMaker can use these functions to monitor the core protocol state
* transition */
/** Get a promise resolved when the block gets a QC. */
promise_t async_qc_finish(const block_t &blk);
/** Get a promise resolved when a new block is proposed. */
promise_t async_wait_proposal();
/** Get a promise resolved when a new proposal is received. */
promise_t async_wait_receive_proposal();
/** Get a promise resolved when bqc is updated. */
promise_t async_bqc_update();
/* Other useful functions */
block_t get_genesis() { return b0; }
const ReplicaConfig &get_config() { return config; }
ReplicaID get_id() const { return id; }
const std::set<block_t, BlockHeightCmp> get_tails() const { return tails; }
operator std::string () const;
void set_neg_vote(bool _neg_vote) { neg_vote = _neg_vote; }
};
/** Abstraction for proposal messages. */
struct Proposal: public Serializable {
ReplicaID proposer;
/** hash for the block containing the highest QC */
uint256_t bqc_hash;
/** block being proposed */
block_t blk;
/** handle of the core object to allow polymorphism. The user should use
* a pointer to the object of the class derived from HotStuffCore */
HotStuffCore *hsc;
Proposal(): blk(nullptr), hsc(nullptr) {}
Proposal(ReplicaID proposer,
const uint256_t &bqc_hash,
const block_t &blk,
HotStuffCore *hsc):
proposer(proposer),
bqc_hash(bqc_hash),
blk(blk), hsc(hsc) {}
void serialize(DataStream &s) const override {
s << proposer
<< bqc_hash
<< *blk;
}
void unserialize(DataStream &s) override {
assert(hsc != nullptr);
s >> proposer
>> bqc_hash;
Block _blk;
_blk.unserialize(s, hsc);
blk = hsc->storage->add_blk(std::move(_blk), hsc->get_config());
}
operator std::string () const {
DataStream s;
s << "<proposal "
<< "rid=" << std::to_string(proposer) << " "
<< "bqc=" << get_hex10(bqc_hash) << " "
<< "blk=" << get_hex10(blk->get_hash()) << ">";
return std::move(s);
}
};
/** Abstraction for vote messages. */
struct Vote: public Serializable {
ReplicaID voter;
/** hash for the block containing the highest QC */
uint256_t bqc_hash;
/** block being voted */
uint256_t blk_hash;
/** proof of validity for the vote (nullptr for a negative vote) */
part_cert_bt cert;
/** handle of the core object to allow polymorphism */
HotStuffCore *hsc;
Vote(): cert(nullptr), hsc(nullptr) {}
Vote(ReplicaID voter,
const uint256_t &bqc_hash,
const uint256_t &blk_hash,
part_cert_bt &&cert,
HotStuffCore *hsc):
voter(voter),
bqc_hash(bqc_hash),
blk_hash(blk_hash),
cert(std::move(cert)), hsc(hsc) {}
Vote(const Vote &other):
voter(other.voter),
bqc_hash(other.bqc_hash),
blk_hash(other.blk_hash),
cert(other.cert ? other.cert->clone() : nullptr),
hsc(other.hsc) {}
Vote(Vote &&other) = default;
void serialize(DataStream &s) const override {
s << voter
<< bqc_hash
<< blk_hash;
if (cert == nullptr)
s << (uint8_t)0;
else
s << (uint8_t)1 << *cert;
}
void unserialize(DataStream &s) override {
assert(hsc != nullptr);
uint8_t has_cert;
s >> voter
>> bqc_hash
>> blk_hash
>> has_cert;
cert = has_cert ? hsc->parse_part_cert(s) : nullptr;
}
bool verify() const {
assert(hsc != nullptr);
return cert->verify(hsc->get_config().get_pubkey(voter)) &&
cert->get_blk_hash() == blk_hash;
}
operator std::string () const {
DataStream s;
s << "<vote "
<< "rid=" << std::to_string(voter) << " "
<< "bqc=" << get_hex10(bqc_hash) << " "
<< "blk=" << get_hex10(blk_hash) << " "
<< "cert=" << (cert ? "yes" : "no") << ">";
return std::move(s);
}
};
struct Finality: public Serializable {
ReplicaID rid;
int8_t decision;
uint32_t cmd_idx;
uint32_t cmd_height;
uint256_t cmd_hash;
uint256_t blk_hash;
public:
Finality() = default;
Finality(ReplicaID rid,
int8_t decision,
uint32_t cmd_idx,
uint32_t cmd_height,
uint256_t cmd_hash,
uint256_t blk_hash):
rid(rid), decision(decision),
cmd_idx(cmd_idx), cmd_height(cmd_height),
cmd_hash(cmd_hash), blk_hash(blk_hash) {}
void serialize(DataStream &s) const override {
s << rid << decision
<< cmd_idx << cmd_height
<< cmd_hash;
if (decision == 1) s << blk_hash;
}
void unserialize(DataStream &s) override {
s >> rid >> decision
>> cmd_idx >> cmd_height
>> cmd_hash;
if (decision == 1) s >> blk_hash;
}
operator std::string () const {
DataStream s;
s << "<fin "
<< "decision=" << std::to_string(decision) << " "
<< "cmd_idx=" << std::to_string(cmd_idx) << " "
<< "cmd_height=" << std::to_string(cmd_height) << " "
<< "cmd=" << get_hex10(cmd_hash) << " "
<< "blk=" << get_hex10(blk_hash) << ">";
return std::move(s);
}
};
}
#endif