#!/usr/bin/env python # copy .rrd files from a remote munin master host, sum the 'df' stats from a # list of hosts, use them to estimate a rate-of-change for the past month, # then extrapolate to guess how many weeks/months/years of storage space we # have left, and output it to another munin graph from __future__ import print_function import sys, os, time import rrdtool MUNIN_HOST = "munin.allmydata.com" PREFIX = "%s:/var/lib/munin/prodtahoe/" % MUNIN_HOST FILES = [ "prodtahoe%d.allmydata.com-df-_dev_sd%s3-g.rrd" % (a,b) for a in (1,2,3,4,5) for b in ("a", "b", "c", "d") ] REMOTEFILES = [ PREFIX + f for f in FILES ] LOCALFILES = ["/var/lib/munin/prodtahoe/" + f for f in FILES ] WEBFILE = "/var/www/tahoe/spacetime.json" def rsync_rrd(): # copy the RRD files from your munin master host to a local one cmd = "rsync %s rrds/" % (" ".join(REMOTEFILES)) rc = os.system(cmd) assert rc == 0, rc def format_time(t): return time.strftime("%b %d %H:%M", time.localtime(t)) def predict_future(past_s): start_df = [] end_df = [] durations = [] for fn in LOCALFILES: d = rrdtool.fetch(fn, "AVERAGE", "-s", "-"+past_s, "-e", "-1hr") # ((start, end, step), (name1, name2, ...), [(data1, data2, ..), ...]) (start_time, end_time ,step) = d[0] #print format_time(start_time), " - ", format_time(end_time), step #for points in d[2]: # point = points[0] # print point start_space = d[2][0][0] if start_space is None: return None # I don't know why, but the last few points are always bogus. Running # 'rrdtool fetch' on the command line is usually ok.. I blame the python # bindinds. end_space = d[2][-4][0] if end_space is None: return None end_time = end_time - (4*step) start_df.append(start_space) end_df.append(end_space) durations.append(end_time - start_time) avg_start_df = sum(start_df) / len(start_df) avg_end_df = sum(end_df) / len(end_df) avg_duration = sum(durations) / len(durations) #print avg_start_df, avg_end_df, avg_duration rate = (avg_end_df - avg_start_df) / avg_duration #print "Rate", rate, " %/s" #print "measured over", avg_duration / 86400, "days" remaining = 100 - avg_end_df remaining_seconds = remaining / rate #print "remaining seconds", remaining_seconds remaining_days = remaining_seconds / 86400 #print "remaining days", remaining_days return remaining_days def write_to_file(samples): # write a JSON-formatted dictionary f = open(WEBFILE + ".tmp", "w") f.write("{ ") f.write(", ".join(['"%s": %s' % (k, samples[k]) for k in sorted(samples.keys())])) f.write("}\n") f.close() os.rename(WEBFILE + ".tmp", WEBFILE) if len(sys.argv) > 1 and sys.argv[1] == "config": print("""\ graph_title Tahoe Remaining Space Predictor graph_vlabel days remaining graph_category tahoe graph_info This graph shows the estimated number of days left until storage space is exhausted days_2wk.label days left (2wk sample) days_2wk.draw LINE2 days_4wk.label days left (4wk sample) days_4wk.draw LINE2""") sys.exit(0) #rsync_rrd() samples = {} remaining_4wk = predict_future("4wk") if remaining_4wk is not None: print("days_4wk.value", remaining_4wk) samples["remaining_4wk"] = remaining_4wk remaining_2wk = predict_future("2wk") if remaining_2wk is not None: print("days_2wk.value", remaining_2wk) samples["remaining_2wk"] = remaining_2wk write_to_file(samples)