proof.ts 8.58 KB
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import {LOCAL_RULES_HELPERS} from "../../../lib/rules/local_rules"
import {hashf} from "../../../lib/common"
import {DBBlock} from "../../../lib/db/DBBlock"
import {ConfDTO} from "../../../lib/dto/ConfDTO"
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import {ProverConstants} from "./constants"
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import {KeyGen} from "../../../lib/common-libs/crypto/keyring"
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import {dos2unix} from "../../../lib/common-libs/dos2unix"
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import {rawer} from "../../../lib/common-libs/index"
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import {ProcessCpuProfiler} from "../../../ProcessCpuProfiler"
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const moment = require('moment');
const querablep = require('querablep');

let computing = querablep(Promise.resolve(null));
let askedStop = false;

// By default, we do not prefix the PoW by any number
let prefix = 0;

let signatureFunc:any, lastSecret:any, currentCPU = 1;

process.on('uncaughtException', (err:any) => {
  console.error(err.stack || Error(err))
  if (process.send) {
    process.send({error: err});
  } else {
    throw Error('process.send() is not defined')
  }
});

process.on('message', async (message) => {

  switch (message.command) {

    case 'newPoW':
      (async () => {
        askedStop = true

        // Very important: do not await if the computation is already done, to keep the lock on JS engine
        if (!computing.isFulfilled()) {
          await computing;
        }

        const res = await beginNewProofOfWork(message.value);
        answer(message, res);
      })()
      break;

    case 'cancel':
      if (!computing.isFulfilled()) {
        askedStop = true;
      }
      break;

    case 'conf':
      if (message.value.cpu !== undefined) {
        currentCPU = message.value.cpu
      }
      if (message.value.prefix !== undefined) {
        prefix = message.value.prefix
      }
      answer(message, { currentCPU, prefix });
      break;
  }

})

function beginNewProofOfWork(stuff:any) {
  askedStop = false;
  computing = querablep((async () => {

    /*****************
     * PREPARE POW STUFF
     ****************/

    let nonce = 0;
    const conf = stuff.conf;
    const block = stuff.block;
    const nonceBeginning = stuff.nonceBeginning;
    const nbZeros = stuff.zeros;
    const pair = stuff.pair;
    const forcedTime = stuff.forcedTime;
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    currentCPU = conf.cpu || ProverConstants.DEFAULT_CPU;
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    prefix = parseInt(conf.prefix || prefix)
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    if (prefix && prefix < ProverConstants.NONCE_RANGE) {
      prefix *= 100 * ProverConstants.NONCE_RANGE
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    }
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    const highMark = stuff.highMark;
    let sigFunc = null;
    if (signatureFunc && lastSecret === pair.sec) {
      sigFunc = signatureFunc;
    }
    else {
      lastSecret = pair.sec;
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      sigFunc = (msg:string) => KeyGen(pair.pub, pair.sec).signSync(msg)
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    }
    signatureFunc = sigFunc;
    let pow = "", sig = "", raw = "";

    /*****************
     * GO!
     ****************/

    let testsCount = 0;
    let found = false;
    let turn = 0;
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    const profiler = new ProcessCpuProfiler(100)
    let cpuUsage = profiler.cpuUsageOverLastMilliseconds(1)
    // We limit the number of tests according to CPU usage
    let testsPerRound = 1
    let turnDuration = 20 // We initially goes quickly to the max speed = 50 reevaluations per second (1000 / 20)
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    while (!found && !askedStop) {

      /*****************
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       * A TURN ~ 100ms
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       ****************/

      await Promise.race([

        // I. Stop the turn if it exceeds `turnDuration` ms
        countDown(turnDuration),

        // II. Process the turn's PoW
        (async () => {

            // Prove
          let i = 0;
          const thisTurn = turn;

          // Time is updated regularly during the proof
          block.time = getBlockTime(block, conf, forcedTime)
          if (block.number === 0) {
            block.medianTime = block.time
          }
          block.inner_hash = getBlockInnerHash(block);

          /*****************
           * Iterations of a turn
           ****************/

          while(!found && i < testsPerRound && thisTurn === turn && !askedStop) {

            // Nonce change (what makes the PoW change if the time field remains the same)
            nonce++

            /*****************
             * A PROOF OF WORK
             ****************/

            // The final nonce is composed of 3 parts
            block.nonce = prefix + nonceBeginning + nonce
            raw = dos2unix("InnerHash: " + block.inner_hash + "\nNonce: " + block.nonce + "\n")
            sig = dos2unix(sigFunc(raw))
            pow = hashf("InnerHash: " + block.inner_hash + "\nNonce: " + block.nonce + "\n" + sig + "\n").toUpperCase()

            /*****************
             * Check the POW result
             ****************/

            let j = 0, charOK = true;
            while (j < nbZeros && charOK) {
              charOK = pow[j] === '0';
              j++;
            }
            if (charOK) {
              found = !!(pow[nbZeros].match(new RegExp('[0-' + highMark + ']')))
            }
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            if (!found && nbZeros > 0 && j - 1 >= ProverConstants.POW_MINIMAL_TO_SHOW) {
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              pSend({ pow: { pow: pow, block: block, nbZeros: nbZeros }});
            }

            /*****************
             * - Update local vars
             * - Allow to receive stop signal
             ****************/

            if (!found && !askedStop) {
              i++;
              testsCount++;
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              if (i % testsPerRound === 0) {
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                await countDown(0); // Very low pause, just the time to process eventual end of the turn
              }
            }
          }

          /*****************
           * Check the POW result
           ****************/
          if (!found) {

            // CPU speed recording
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            if (turn > 0) {
              const oldTestsPerRound = testsPerRound
              cpuUsage = profiler.cpuUsageOverLastMilliseconds(turnDuration)
              if (cpuUsage > currentCPU + 0.005 || cpuUsage < currentCPU - 0.005) {
                let powVariationFactor
                // powVariationFactor = currentCPU / (cpuUsage || 0.01) / 5 // divide by 2 to avoid extreme responses
                if (currentCPU > cpuUsage) {
                  powVariationFactor = 1.01
                  testsPerRound = Math.max(1, Math.ceil(testsPerRound * powVariationFactor))
                } else {
                  powVariationFactor = 0.99
                  testsPerRound = Math.max(1, Math.floor(testsPerRound * powVariationFactor))
                }
              }
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            }

            /*****************
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             * UNLOAD CPU CHARGE FOR THIS TURN
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             ****************/
            // We wait for a maximum time of `turnDuration`.
            // This will trigger the end of the turn by the concurrent race I. During that time, the proof.js script
            // just does nothing: this gives of a bit of breath to the CPU. Tthe amount of "breath" depends on the "cpu"
            // parameter.
            await countDown(turnDuration);
          }
        })()
      ]);

      // Next turn
      turn++
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      turnDuration += 1
      turnDuration = Math.min(turnDuration, 1000) // Max 1 second per turn
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    }

    /*****************
     * POW IS OVER
     * -----------
     *
     * We either have found a valid POW or a stop event has been detected.
     ****************/

    if (askedStop) {

      // PoW stopped
      askedStop = false;
      return null

    } else {

      // PoW success
      block.hash = pow
      block.signature = sig
      return {
        pow: {
          block: block,
          testsCount: testsCount,
          pow: pow
        }
      }
    }
  })())

  return computing;
}

function countDown(duration:number) {
  return new Promise((resolve) => setTimeout(resolve, duration));
}

function getBlockInnerHash(block:DBBlock) {
  const raw = rawer.getBlockInnerPart(block);
  return hashf(raw)
}

function getBlockTime (block:DBBlock, conf:ConfDTO, forcedTime:number|null) {
  if (forcedTime) {
    return forcedTime;
  }
  const now = moment.utc().unix();
  const maxAcceleration = LOCAL_RULES_HELPERS.maxAcceleration(conf);
  const timeoffset = block.number >= conf.medianTimeBlocks ? 0 : conf.rootoffset || 0;
  const medianTime = block.medianTime;
  const upperBound = block.number === 0 ? medianTime : Math.min(medianTime + maxAcceleration, now - timeoffset);
  return Math.max(medianTime, upperBound);
}

function answer(message:any, theAnswer:any) {
  return pSend({
    uuid: message.uuid,
    answer: theAnswer
  })
}

function pSend(stuff:any) {
  return new Promise(function (resolve, reject) {
    if (process.send) {
      process.send(stuff, function (error:any) {
        !error && resolve();
        error && reject();
      })
    } else {
      reject('process.send() is not defined')
    }
  });
}