#!/usr/bin/env python3 """ sudo apt-get install python3-dev sudo apt-get install python3 libgnutls28-dev libssl-dev sudo apt-get install python3-pip pip3 install setuptools pip3 install wheel pip3 install base58 slick-bitcoinrpc ./notarystats.py ------------------------------------------------ """ import platform import os import re import sys import time import pprint from slickrpc import Proxy # fucntion to define rpc_connection def def_credentials(chain): rpcport = ''; operating_system = platform.system() if operating_system == 'Darwin': ac_dir = os.environ['HOME'] + '/Library/Application Support/Komodo' elif operating_system == 'Linux': ac_dir = os.environ['HOME'] + '/.komodo' elif operating_system == 'Windows': ac_dir = '%s/komodo/' % os.environ['APPDATA'] if chain == 'KMD': coin_config_file = str(ac_dir + '/komodo.conf') else: coin_config_file = str(ac_dir + '/' + chain + '/' + chain + '.conf') with open(coin_config_file, 'r') as f: for line in f: l = line.rstrip() if re.search('rpcuser', l): rpcuser = l.replace('rpcuser=', '') elif re.search('rpcpassword', l): rpcpassword = l.replace('rpcpassword=', '') elif re.search('rpcport', l): rpcport = l.replace('rpcport=', '') if len(rpcport) == 0: if chain == 'KMD': rpcport = 7771 else: print("rpcport not in conf file, exiting") print("check " + coin_config_file) exit(1) return (Proxy("http://%s:%s@127.0.0.1:%d" % (rpcuser, rpcpassword, int(rpcport)))) rpc = def_credentials('KMD') pp = pprint.PrettyPrinter(indent=2) notarynames = [ "0dev1_jl777", "0dev2_kolo", "0dev3_kolo", "0dev4_decker_AR", "a-team_SH", "artik_AR", "artik_EU", "artik_NA", "artik_SH", "badass_EU", "badass_NA", "batman_AR", "batman_SH", "ca333", "chainmakers_EU", "chainmakers_NA", "chainstrike_SH", "cipi_AR", "cipi_NA", "crackers_EU", "crackers_NA", "dwy_EU", "emmanux_SH", "etszombi_EU", "fullmoon_AR", "fullmoon_NA", "fullmoon_SH", "goldenman_EU", "indenodes_AR", "indenodes_EU", "indenodes_NA", "indenodes_SH", "jackson_AR", "jeezy_EU", "karasugoi_NA", "komodoninja_EU", "komodoninja_SH", "komodopioneers_SH", "libscott_SH", "lukechilds_AR", "madmax_AR", "meshbits_AR", "meshbits_SH", "metaphilibert_AR", "metaphilibert_SH", "patchkez_SH", "pbca26_NA", "peer2cloud_AR", "peer2cloud_SH", "polycryptoblog_NA", "hyper_AR", "hyper_EU", "hyper_SH", "hyper_NA", "popcornbag_AR", "popcornbag_NA", "alien_AR", "alien_EU", "thegaltmines_NA", "titomane_AR", "titomane_EU", "titomane_SH", "webworker01_NA", "xrobesx_NA" ] notaries = 64 * [0] startheight = 821657 #Second time filter for assetchains (block 821657) for KMD its 814000 stopheight = 1307200 for i in range(startheight,stopheight): ret = rpc.getNotarisationsForBlock(i) KMD = ret['KMD'] if len(KMD) > 0: for obj in KMD: #for now skip KMD for this. As official stats are from BTC chain # this can be reversed to !== to count KMD numbers :) if obj['chain'] == 'KMD': continue; for notary in obj['notaries']: notaries[notary] = notaries[notary] + 1 i = 0 SH = [] AR = [] EU = [] NA = [] for notary in notaries: tmpnotary = {} tmpnotary['node'] = notarynames[i] tmpnotary['ac_count'] = notary if notarynames[i].endswith('SH'): SH.append(tmpnotary) elif notarynames[i].endswith('AR'): AR.append(tmpnotary) elif notarynames[i].endswith('EU'): EU.append(tmpnotary) elif notarynames[i].endswith('NA'): NA.append(tmpnotary) i = i + 1 regions = {} regions['SH'] = sorted(SH, key=lambda k: k['ac_count'], reverse=True) regions['AR'] = sorted(AR, key=lambda k: k['ac_count'], reverse=True) regions['EU'] = sorted(EU, key=lambda k: k['ac_count'], reverse=True) regions["NA"] = sorted(NA, key=lambda k: k['ac_count'], reverse=True) pp.pprint(regions)