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PBTS: Protocol Specification (first draft)

This specification is OUTDATED. Please refer to the new version.

Updated Consensus Algorithm

Outline

The algorithm in the arXiv paper evaluates rules of the received messages without making explicit how these messages are received. In our solution, we will make some message filtering explicit. We will assume that there are message reception steps (where messages are received and possibly stored locally for later evaluation of rules) and processing steps (the latter roughly as described in a way similar to the pseudo code of the arXiv paper).

In contrast to the original algorithm the field proposal in the PROPOSE message is a pair (v, time), of the proposed consensus value v and the proposed time time.

[PBTS-RECEPTION-STEP.0]

In the reception step at process p at local time now_p, upon receiving a message m:

  • if the message m is of type PROPOSE and satisfies now_p - PRECISION < m.time < now_p + PRECISION + MSGDELAY, then mark the message as timely

if m does not satisfy the constraint consider it untimely

[PBTS-PROCESSING-STEP.0]

In the processing step, based on the messages stored, the rules of the algorithms are executed. Note that the processing step only operates on messages for the current height. The consensus algorithm rules are defined by the following updates to arXiv paper.

New StartRound

There are two additions

  • in case the proposer's local time is smaller than the time of the previous block, the proposer waits until this is not the case anymore (to ensure the block time is monotonically increasing)
  • the proposer sends its time now_p as part of its proposal

We update the timeout for the PROPOSE step according to the following reasoning:

  • If a correct proposer needs to wait to make sure its proposed time is larger than the blockTime of the previous block, then it sends by realtime blockTime + ACCURACY (By this time, its local clock must exceed blockTime)
  • the receiver will receive a PROPOSE message by blockTime + ACCURACY + MSGDELAY
  • the receiver's local clock will be <= blockTime + 2 * ACCURACY + MSGDELAY
  • thus when the receiver p enters this round it can set its timeout to a value waitingTime => blockTime + 2 * ACCURACY + MSGDELAY - now_p

So we should set the timeout to max(timeoutPropose(round_p), waitingTime).

If, in the future, a block delay parameter BLOCKDELAY is introduced, this means that the proposer should wait for now_p > blockTime + BLOCKDELAY before sending a PROPOSE message. Also, BLOCKDELAY needs to be added to waitingTime.

[PBTS-ALG-STARTROUND.0]

function StartRound(round) {
  blockTime  block time of block h_p - 1
  waitingTime  blockTime + 2 * ACCURACY + MSGDELAY - now_p
  round_p  round
  step_p  propose
  if proposer(h_p, round_p) = p {
    wait until now_p > blockTime // new wait condition
    if validValue_p != nil {
      proposal  (validValue_p, now_p) // added "now_p"
    }
    else {
      proposal  (getValue(), now_p)   // added "now_p"
    }
    broadcast PROPOSAL, h_p, round_p, proposal, validRound_p
  }
  else {
    schedule OnTimeoutPropose(h_p,round_p) to be executed after max(timeoutPropose(round_p), waitingTime)
  }
}

New Rule Replacing Lines 22 - 27

  • a validator prevotes for the consensus value v and the time t
  • the code changes as the PROPOSAL message carries time (while lockedValue does not)

[PBTS-ALG-UPON-PROP.0]

upon timely(PROPOSAL, h_p, round_p, (v,t), 1) from proposer(h_p, round_p) while step_p = propose do {
  if valid(v)  (lockedRound_p = 1  lockedValue_p = v) {
    broadcast PREVOTE, h_p, round_p, id(v,t) 
  }
  else {
    broadcast PREVOTE, h_p, round_p, nil 
  }
  step_p  prevote
}

New Rule Replacing Lines 28 - 33

In case consensus is not reached in round 1, in StartRound the proposer of future rounds may propose the same value but with a different time. Thus, the time tprop in the PROPOSAL message need not match the time tvote in the (old) PREVOTE messages. A validator may send PREVOTE for the current round as long as the value v matches. This gives the following rule:

[PBTS-ALG-OLD-PREVOTE.0]

upon timely(PROPOSAL, h_p, round_p, (v, tprop), vr) from proposer(h_p, round_p) AND 2f + 1 PREVOTE, h_p, vr, id((v, tvote) 
while step_p = propose  (vr  0  vr < round_p) do {
  if valid(v)  (lockedRound_p  vr  lockedValue_p = v) {
    broadcast PREVOTE, h_p, roundp, id(v, tprop)
  }
  else {
    broadcast PREVOTE, hp, roundp, nil
  }
  step_p  prevote
}

New Rule Replacing Lines 36 - 43

  • As above, in the following (v,t) is part of the message rather than v
  • the stored values (i.e., lockedValue, validValue) do not contain the time

[PBTS-ALG-NEW-PREVOTE.0]

upon timely(PROPOSAL, h_p, round_p, (v,t), ∗⟩) from proposer(h_p, round_p) AND 2f + 1 PREVOTE, h_p, round_p, id(v,t) while valid(v)  step_p  prevote for the first time do {
  if step_p = prevote {
    lockedValue_p  v
    lockedRound_p  round_p
    broadcast PRECOMMIT, h_p, round_p, id(v,t)) 
    step_p  precommit
  }
  validValue_p  v 
  validRound_p  round_p
}

New Rule Replacing Lines 49 - 54

  • we decide on v as well as on the time from the proposal message
  • here we do not care whether the proposal was received timely.

In particular we need to take care of the case where the proposer is untimely to one correct validator only. We need to ensure that this validator decides if all decide.

[PBTS-ALG-DECIDE.0]

upon PROPOSAL, h_p, r, (v,t), ∗⟩ from proposer(h_p, r) AND 2f + 1 PRECOMMIT, h_p, r, id(v,t) while decisionp[h_p] = nil do {
  if valid(v) {
    decision_p [h_p] = (v,t) // decide on time too
    h_p  h_p + 1
    reset lockedRound_p , lockedValue_p, validRound_p and validValue_p to initial values and empty message log 
    StartRound(0)
  }
}

All other rules remains unchanged.

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