node-merged-pooler/example.js

High performance Stratum poolserver in Node.js for merged mining

var Stratum = require('./lib/index.js');

var myCoin = {
    "name": "Catcoin",
    "symbol": "CTC",
    "algorithm": "scrypt"
};

var myAuxCoins = [{
    "name": "LottoShares",
    "symbol": "LTS",
    "algorithm": "scrypt",

    /*  */
    "daemons": [
        {   //Main daemon instance
            "host": "127.0.0.1",
            "port": 23327, // **NOT ACTUAL PORT**
            "user": "lottosharesrpc",
            "password": "By66dCmyX44uUbA7P3qqXJQeT3Ywd8dZ4dJdfgxCAxbg"
        }
	],
},	{
	"name": "Syscoin",
	"symbol": "SYS",
	"algorithm": "scrypt",

	/*  */
	"daemons": [
		{   //Main daemon instance
	    	"host": "127.0.0.1",
	        "port": 23327, // **NOT ACTUAL PORT**
	        "user": "syscoinrpc",
	        "password": "By66dCmyX44uUbA7P3qqXJQeT3Ywd8dZ4dJdfgxCAxbg"
	    }
	],
}];

var pool = Stratum.createPool({

    "coin": myCoin,

    "auxes": myAuxCoins,

    // Payout address - for primary node only
    "address": "9iKR9FwwEbWCiU3ZhCAs5dQRVkYoC288Go", //Address to where block rewards are given;
    // shared between all coins, so copy your private key over with dumpprivkey and importprivkey

    /* Block rewards go to the configured pool wallet address to later be paid out to miners,
       except for a percentage that can go to, for examples, pool operator(s) as pool fees or
       or to donations address. Addresses or hashed public keys can be used. Here is an example
       of rewards going to the main pool op, a pool co-owner, and NOMP donation. */
    "rewardRecipients": {
        /* 0.1% donation to NOMP. This pubkey can accept any type of coin, please leave this in
           your config to help support NOMP development. */
        "22851477d63a085dbc2398c8430af1c09e7343f6": 0.1
    },

    "blockRefreshInterval": 1000, //How often to poll RPC daemons for new blocks, in milliseconds


    /* Some miner apps will consider the pool dead/offline if it doesn't receive anything new jobs
       for around a minute, so every time we broadcast jobs, set a timeout to rebroadcast
       in this many seconds unless we find a new job. Set to zero or remove to disable this. */
    "jobRebroadcastTimeout": 55,

    //instanceId: 37, //Recommend not using this because a crypto-random one will be generated

    /* Some attackers will create thousands of workers that use up all available socket connections,
       usually the workers are zombies and don't submit shares after connecting. This features
       detects those and disconnects them. */
    "connectionTimeout": 600, //Remove workers that haven't been in contact for this many seconds

    /* Sometimes you want the block hashes even for shares that aren't block candidates. */
    "emitInvalidBlockHashes": false,

    /* Enable for client IP addresses to be detected when using a load balancer with TCP proxy
       protocol enabled, such as HAProxy with 'send-proxy' param:
       http://haproxy.1wt.eu/download/1.5/doc/configuration.txt */
    "tcpProxyProtocol": false,

    /* If a worker is submitting a high threshold of invalid shares we can temporarily ban their IP
       to reduce system/network load. Also useful to fight against flooding attacks. If running
       behind something like HAProxy be sure to enable 'tcpProxyProtocol', otherwise you'll end up
       banning your own IP address (and therefore all workers). */
    "banning": {
        "enabled": true,
        "time": 600, //How many seconds to ban worker for
        "invalidPercent": 50, //What percent of invalid shares triggers ban
        "checkThreshold": 500, //Check invalid percent when this many shares have been submitted
        "purgeInterval": 300 //Every this many seconds clear out the list of old bans
    },

    /* Each pool can have as many ports for your miners to connect to as you wish. Each port can
       be configured to use its own pool difficulty and variable difficulty settings. varDiff is
       optional and will only be used for the ports you configure it for. */
    "ports": {
        "3032": { //A port for your miners to connect to
            "diff": 32, //the pool difficulty for this port

            /* Variable difficulty is a feature that will automatically adjust difficulty for
               individual miners based on their hashrate in order to lower networking overhead */
            "varDiff": {
                "minDiff": 8, //Minimum difficulty
                "maxDiff": 512, //Network difficulty will be used if it is lower than this
                "targetTime": 15, //Try to get 1 share per this many seconds
                "retargetTime": 90, //Check to see if we should retarget every this many seconds
                "variancePercent": 30 //Allow time to very this % from target without retargeting
            }
        },
        "3256": { //Another port for your miners to connect to, this port does not use varDiff
            "diff": 256 //The pool difficulty
        }
    },

    /* Recommended to have at least two daemon instances running in case one drops out-of-sync
       or offline. For redundancy, all instances will be polled for block/transaction updates
       and be used for submitting blocks. Creating a backup daemon involves spawning a daemon
       using the "-datadir=/backup" argument which creates a new daemon instance with it's own
       RPC config. For more info on this see:
          - https://en.bitcoin.it/wiki/Data_directory
          - https://en.bitcoin.it/wiki/Running_bitcoind */
    // This is just for the primary coin
    "daemons": [
        {   //Main daemon instance
            "host": "127.0.0.1",
            "port": 9932,
            "user": "catcoinrpc",
            "password": "74QL5rZ9h8xZbLmwdNzW3cBRjJNQ6fy3b8pB5bJ6oURF"
        }
    ],


    /* This allows the pool to connect to the daemon as a node peer to receive block updates.
       It may be the most efficient way to get block updates (faster than polling, less
       intensive than blocknotify script). It requires the additional field "peerMagic" in
       the coin config. */
    // Again, this is just for the primary coin
    "p2p": {
        "enabled": false,

        /* Host for daemon */
        "host": "127.0.0.1",

        /* Port configured for daemon (this is the actual peer port not RPC port) */
        "port": 19333,

        /* If your coin daemon is new enough (i.e. not a shitcoin) then it will support a p2p
           feature that prevents the daemon from spamming our peer node with unnecessary
           transaction data. Assume its supported but if you have problems try disabling it. */
        "disableTransactions": true

    }

// This is the authorize function. Connect this to the database in your code to check if the client is valid
}, function(ip, port , workerName, password, callback){ //stratum authorization function
    console.log("Authorize " + workerName + ":" + password + "@" + ip);
    callback({
        error: null,
        authorized: true,
        disconnect: false
    });
});

/*

'data' object contains:
    job: 4, //stratum work job ID
    ip: '71.33.19.37', //ip address of client
    port: 3333, //port of the client
    worker: 'matt.worker1', //stratum worker name
    height: 443795, //block height
    blockReward: 5000000000, //the number of satoshis received as payment for solving this block
    difficulty: 64, //stratum worker difficulty
    shareDiff: 78, //actual difficulty of the share
    blockDiff: 3349, //block difficulty adjusted for share padding
    blockDiffActual: 3349 //actual difficulty for this block


    //AKA the block solution - set if block was found
    blockHash: '110c0447171ad819dd181216d5d80f41e9218e25d833a2789cb8ba289a52eee4',

    //Exists if "emitInvalidBlockHashes" is set to true
    blockHashInvalid: '110c0447171ad819dd181216d5d80f41e9218e25d833a2789cb8ba289a52eee4'

    //txHash is the coinbase transaction hash from the block
    txHash: '41bb22d6cc409f9c0bae2c39cecd2b3e3e1be213754f23d12c5d6d2003d59b1d,

    error: 'low share difficulty' //set if share is rejected for some reason
*/
pool.on('share', function(isValidShare, isValidBlock, data){
 
    //maincoin
    var coin = myCoin.name;
    storeShare(isValidShare, isValidBlock, data, coin);

	//loop through auxcoins
	for(var i = 0; i < myAuxCoins.length; i++) {
		coin = myAuxCoins[i].name;
		storeShare(isValidShare, isValidBlock, data, coin);
	}
    
});

//store each share/block submission for a given coin
function storeShare(isValidShare, isValidBlock, data, coin) {
	var redisCommands = [];
	
	if (isValidShare){
        redisCommands.push(['hincrbyfloat', coin + ':shares:roundCurrent', data.worker, data.difficulty]);
        redisCommands.push(['hincrby', coin + ':stats', 'validShares', 1]);
    }
    else{
        redisCommands.push(['hincrby', coin + ':stats', 'invalidShares', 1]);
    }
    /* Stores share diff, worker, and unique value with a score that is the timestamp. Unique value ensures it
       doesn't overwrite an existing entry, and timestamp as score lets us query shares from last X minutes to
       generate hashrate for each worker and pool. */
    var dateNow = Date.now();
    var hashrateData = [ isValidShare ? data.difficulty : -data.difficulty, data.worker, dateNow];
    redisCommands.push(['zadd', coin + ':hashrate', dateNow / 1000 | 0, hashrateData.join(':')]);

    if (isValidBlock){
        redisCommands.push(['rename', coin + ':shares:roundCurrent', coin + ':shares:round' + data.height]);
        redisCommands.push(['sadd', coin + ':blocksPending', [data.blockHash, data.txHash, data.height].join(':')]);
        redisCommands.push(['hincrby', coin + ':stats', 'validBlocks', 1]);
    }
    else if (shareData.blockHash){
        redisCommands.push(['hincrby', coin + ':stats', 'invalidBlocks', 1]);
    }

    connection.multi(redisCommands).exec(function(err, replies){
        if (err)
            logger.error(logSystem, logComponent, logSubCat, 'Error with share processor multi ' + JSON.stringify(err));
    });
    

    console.log('share data: ' + JSON.stringify(data));
}

/*
    Called when a block, auxillery or primary, is found
    coin: The symbol of the coin found. ex: 'LTC'
    blockHash: The hash of the block found and confirmed (at least for now) is in the blockchain.
*/
pool.on('block', function(coin, height, blockHash, txHash) {
    console.log('Mined block on ' + coin + ' network!');
    console.log('HEIGHT: ' + height);
    console.log('HASH: ' + blockHash);
    console.log('TX: ' + txHash);
});

/*
'severity': can be 'debug', 'warning', 'error'
'logKey':   can be 'system' or 'client' indicating if the error
            was caused by our system or a stratum client
*/
// Go ahead and combine these with your logs if you want :)
pool.on('log', function(severity, logKey, logText){
    console.log(severity + ': ' + '[' + logKey + '] ' + logText);
});

// Start the pool!
pool.start();