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Monero pool hashrate checker
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#!/usr/bin/env python | |
import requests | |
import json | |
import re | |
import datetime | |
import sys | |
import matplotlib as mpl | |
mpl.use('Agg') | |
import matplotlib.pyplot as plt | |
from math import cos, sin, pi | |
# Get time and make string for title | |
utc = datetime.datetime.utcnow() | |
utc_string = utc.strftime("%Y-%m-%d %H:%M:%S") | |
# Define regular pool list | |
server_dict = { | |
'cryptonotepool.org.uk': 'http://80.71.13.55:8117/stats', | |
'extremehash.com': 'http://107.170.148.200:8117/stats', | |
'minexmr.com': 'http://pool.minexmr.com:8117/stats', | |
'monero.coolmining.club': 'http://xmr1.coolmining.club:8117/stats', | |
'monero.crypto-pool.fr': 'http://xmr.crypto-pool.fr:8090/stats', | |
'monero.graymines.net': 'http://monero.graymines.net:8117/stats', | |
'monero.kippo.eu': 'http://monero.kippo.eu:8117/stats', | |
'monero.xminingpool.com': 'http://xmr.xminingpool.com:2117/stats', | |
'moneropool.com': 'http://api.moneropool.com:8080/stats', | |
'moneropool.org': 'http://192.99.44.150:8117/stats', | |
'moneropool.net': 'http://moneropool.net:8118/stats', | |
'moneropool.ru': 'http://alxxxer.ru:8200/stats', | |
# 'mro.bitnonce.com': 'http://mro.bitnonce.com/api/stats', # for some reason hangs | |
'mro.extremepool.org': 'http://mro.extremepool.org:8117/stats', | |
'nomp.freeyy.me': 'http://nomp.freeyy.me:8117/stats', | |
'pool.cryptograben.com': 'http://xmr.cryptograben.com:8117/stats', | |
'www2.coinmine.pl': 'http://mine1.coinmine.pl:8117/stats', | |
# 'xmr.ext-pool.net': 'http://xmr.ext-pool.net:8417/stats', # for some reason hangs | |
'xmr.farm': 'http://xmr.farm:8117/stats', | |
'xmr.alimabi.cn': 'http://xmrapinew.alimabi.cn:80/stats', | |
'xmr.hashinvest.net': 'http://xmr.hashinvest.net:8117/stats', | |
'xmr.poolto.be': 'http://mro.poolto.be:8117/stats', | |
'xmr.prohash.net': 'http://xmr.prohash.net:8117/stats' | |
} | |
hashrate_list = [] #List of pool hashrates | |
name_list = [] #Ordered (to match hashrate) list of pool names | |
responded = 0 | |
# Connect to each server and get pool hashrate | |
for key, val in server_dict.items(): | |
print "Trying: " + key | |
try: | |
resp = requests.get(val, timeout=13) | |
output = json.loads(resp.text) | |
if float(output[u'pool'][u'hashrate']) != 0: | |
name_list.append(key) | |
hashrate_list.append(float(output[u'pool'][u'hashrate'])/1e6) | |
print key + " responded" | |
responded += 1 | |
except: | |
print key + " did not respond" | |
# Use last pool connects data to calculate network hashrate from diff | |
network_hash = float(output[u'network'][u'difficulty'])/60e6 | |
# Begin hack for dwarfpool | |
dwarf_url = 'http://dwarfpool.com/' | |
resp = requests.get(dwarf_url) | |
lines = resp.text.encode("utf-8").split('\n') | |
target_line = -1 | |
# Find XMR pool data and then grab hashrate | |
try: | |
for line_number, line in enumerate(lines): | |
if "Code: XMR" in line: | |
target_line = line_number + 3 | |
if line_number == target_line: | |
name_list.append('dwarfpool.com') | |
hashrate_list.append(float(re.sub("[^0-9.]", "", line))/1e3) | |
responded += 1 | |
print "dwarfpool responded" | |
except: | |
print "dwarfpool did not respond" | |
print "Out of {0} pools, {1} responded.".format(len(server_dict), responded) | |
# Calculate unknown hash | |
known_hash = sum(hashrate_list) | |
unknown_hash = network_hash - known_hash | |
print "Unknown hash = {0}".format(unknown_hash) | |
if unknown_hash < 0: | |
unknown_hash = abs(unknown_hash) | |
print "WARNING - negative nethash" | |
name_list.append('Unknown/Minergate') | |
hashrate_list.append(unknown_hash) | |
# Calculate normalized hash rates | |
normalized_list = [x/network_hash for x in hashrate_list] | |
# Setup lists | |
smallpools_names = [] | |
smallpools_hash = [] | |
smallpools_normhash = [] | |
majorpools_names = [] | |
majorpools_hash = [] | |
majorpools_normhash = [] | |
smalllabellist = [] | |
majorlabellist = [] | |
# Print pools and separate to small or major | |
print "Total network hash = " + str(network_hash) | |
for idx, val in enumerate(hashrate_list): | |
print name_list[idx], val | |
if 0.0003 < normalized_list[idx] < 0.03: | |
smallpools_names.append(name_list[idx]) | |
smallpools_hash.append(val) | |
smallpools_normhash.append(normalized_list[idx]) | |
smalllabellist.append("{0} {1:.0f} kh/s".format( | |
name_list[idx], val*1e3)) | |
elif normalized_list[idx] >= 0.03: | |
majorpools_names.append(name_list[idx]) | |
majorpools_hash.append(val) | |
majorpools_normhash.append(normalized_list[idx]) | |
majorlabellist.append("{0} {1:.2f} Mh/s".format( | |
name_list[idx], val)) | |
# Make normalized small hash for plot | |
smallpool_hashtotal = sum(smallpools_hash) | |
smallpool_normtotal = smallpool_hashtotal/network_hash | |
smallpool_smallnorm = [x/smallpool_hashtotal for x in smallpools_hash] | |
# Add small pool total to major pools | |
majorpools_names.append('Small pools (<3.5%)') | |
majorpools_hash.append(smallpool_hashtotal) | |
majorpools_normhash.append(smallpool_normtotal) | |
majorlabellist.append("{0} {1:.2f} Mh/s".format( | |
'Small pools', smallpool_hashtotal)) | |
# Make color list | |
colors = ('b', 'g', 'r', 'c', 'm', 'y', 'w', 'DeepPink', 'ForestGreen') | |
# Reorder slices to try and accomodate tiny pools | |
tmp_norm, tmp_names = (list(t) for t in zip(*sorted(zip(majorpools_normhash, majorlabellist)))) | |
large_norm, large_names = tmp_norm[:len(tmp_norm) / 2], tmp_names[:len(tmp_names) / 2] | |
small_norm, small_names = tmp_norm[len(tmp_norm) / 2:], tmp_names[len(tmp_names) / 2:] | |
reordered_norm = large_norm[::2] + small_norm[::2] + large_norm[1::2] + small_norm[1::2] | |
reordered_names = large_names[::2] + small_names[::2] + large_names[1::2] + small_names[1::2] | |
#Plot and save major pools | |
plt.figure(1, figsize=(12,10)) | |
ax1 = plt.axes([0.25, 0.2, 0.5, 0.5]) | |
pie_wedge_collection = ax1.pie(reordered_norm, | |
# explode=[0.07]*len(majorlabellist), | |
explode=[0.026*(1/(z+0.001)**0.4) for z in reordered_norm], | |
labels=reordered_names, | |
labeldistance=1.07, | |
autopct='%1.0f%%', | |
shadow=True, | |
startangle=90, | |
colors=colors) | |
for pie_wedge in pie_wedge_collection[0]: | |
pie_wedge.set_edgecolor('0.3') | |
for i in pie_wedge_collection[1]: | |
i.set_fontsize('small') | |
plt.title('Monero network hashrate: {0:.1f} Mh/s\nTime recorded:{1}'.format(network_hash, utc_string)) | |
plt.savefig('bigpools.png') | |
plt.close() | |
# Reorder slices to try and accomodate tiny pools | |
tmp_norm, tmp_names = (list(t) for t in zip(*sorted(zip(smallpool_smallnorm, smalllabellist)))) | |
large_norm, large_names = tmp_norm[:len(tmp_norm) / 2], tmp_names[:len(tmp_names) / 2] | |
small_norm, small_names = tmp_norm[len(tmp_norm) / 2:], tmp_names[len(tmp_names) / 2:] | |
reordered_norm = large_norm[::2] + small_norm[::2] + large_norm[1::2] + small_norm[1::2] | |
reordered_names = large_names[::2] + small_names[::2] + large_names[1::2] + small_names[1::2] | |
# Plot and save minor pool figure | |
plt.figure(2, figsize=(12,10)) | |
ax2 = plt.axes([0.25, 0.2, 0.5, 0.5]) | |
p = ax2.pie(reordered_norm, | |
# explode=[0.08]*len(smalllabellist), | |
explode=[0.036*(1/(z+0.001)**0.4) for z in reordered_norm], | |
labels=reordered_names, | |
labeldistance=1.05, | |
autopct='%1.1f%%', | |
shadow=True, | |
# startangle=90, | |
colors=colors) | |
for i in p[1]: | |
i.set_fontsize('small') | |
plt.title('Monero smaller pools (<3%) hash rate: {0:.0f} kh/s'.format(smallpool_hashtotal*1e3)) | |
plt.savefig('smallpools.png') | |
plt.close() |
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what version of Python to use? I've got error from 3.6.3 (x64, windows 10)
A:>A:\MoneroPoolHash.py
File "A:\MoneroPoolHash.py", line 49
print "Trying: " + key
^
SyntaxError: Missing parentheses in call to 'print'. Did you mean print(int "Trying: " + key)?
Sorry for stupid question, I use python for the first time.