premiere-libtorrent/tools/parse_dht_log.py

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2010-03-05 19:12:23 +01:00
#! /usr/bin/env python
import sys
import os
import time
import calendar
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up_time_quanta = 500
f = open(sys.argv[1])
announce_histogram = {}
#TODO: make this histogram into a CDF
node_uptime_histogram = {}
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counter = 0;
# maps search_id to a list of events. Each event is a dict containing:
# t: timestamp
# d: distance (from target)
# o: outstanding searches
# e: event (NEW, COMPLETED, ADD, INVOKE, TIMEOUT)
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# i: node-id
# a: IP address and port
# s: source node-id (only for ADD events)
outstanding_searches = {}
# list of completed searches
searches = []
def convert_timestamp(t):
parts = t.split('.')
posix = time.strptime(parts[0], '%H:%M:%S')
return (posix.tm_hour * 3600 + posix.tm_min * 60 + posix.tm_sec) * 1000 + int(parts[1])
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last_incoming = ''
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our_node_id = ''
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for line in f:
counter += 1
# if counter % 1000 == 0:
# print '\r%d' % counter,
try:
l = line.split(' ')
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if 'starting DHT tracker with node id:' in line:
our_node_id = l[l.index('id:') + 1].strip()
if 'announce-distance:' in line:
idx = l.index('announce-distance:')
d = int(l[idx+1].strip())
if not d in announce_histogram: announce_histogram[d] = 0
announce_histogram[d] += 1
if 'NODE FAILED' in line:
idx = l.index('fails:')
if int(l[idx+1].strip()) != 1: continue;
idx = l.index('up-time:')
d = int(l[idx+1].strip())
# quantize
d = d - (d % up_time_quanta)
if not d in node_uptime_histogram: node_uptime_histogram[d] = 0
node_uptime_histogram[d] += 1
search_id = l[2]
ts = l[0]
event = l[3]
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if event == 'RESPONSE':
outstanding = int(l[l.index('invoke-count:')+1])
nid = l[l.index('id:')+1]
addr = l[l.index('addr:')+1]
last_response = addr
outstanding_searches[search_id].append({ 't': ts, 'd': distance,
'o': outstanding + 1, 'a':addr, 'e': event,'i':nid, 's':source})
elif event == 'NEW':
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nid = l[l.index('target:')+1]
outstanding_searches[search_id] = [{ 't': ts, 'd': 0, 'o': 0, \
'e': event, 'abstime': ts, 'i': nid}]
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last_response = ''
elif event == 'INVOKE' or event == 'ADD' or event == '1ST_TIMEOUT' or \
event == 'TIMEOUT' or event == 'PEERS':
if not search_id in outstanding_searches:
print 'orphaned event: %s' % line
else:
outstanding = int(l[l.index('invoke-count:')+1])
distance = int(l[l.index('distance:')+1])
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nid = l[l.index('id:')+1]
addr = l[l.index('addr:')+1]
source = ''
if event == 'ADD':
if last_response == '': continue
source = last_response
outstanding_searches[search_id].append({ 't': ts, 'd': distance,
'o': outstanding + 1, 'a':addr, 'e': event,'i':nid, 's':source})
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elif event == 'ABORTED':
outstanding_searches[search_id].append({ 't': ts, 'e': event})
elif event == 'COMPLETED':
distance = int(l[l.index('distance:')+1])
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lookup_type = l[l.index('type:')+1].strip()
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outstanding_searches[search_id].append({ 't': ts, 'd': distance,
'o': 0, 'e': event,'i':''})
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outstanding_searches[search_id][0]['type'] = lookup_type
s = outstanding_searches[search_id]
try:
start_time = convert_timestamp(s[0]['t'])
for i in range(len(s)):
s[i]['t'] = convert_timestamp(s[i]['t']) - start_time
except:
pass
searches.append(s)
del outstanding_searches[search_id]
except Exception, e:
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print e
print line.split(' ')
lookup_times_min = []
lookup_times_max = []
# these are the timestamps for lookups crossing distance
# to target boundaries
lookup_distance = []
for i in range(0, 15):
lookup_distance.append([])
for s in searches:
for i in s:
if not 'last_dist' in i:
i['last_dist'] = -1
cur_dist = 160 - i['d']
last_dist = i['last_dist']
if cur_dist > last_dist:
for j in range(last_dist + 1, cur_dist + 1):
if j >= len(lookup_distance): break
lookup_distance[j].append(i['t'])
i['last_dist'] = cur_dist
if i['e'] != 'PEERS': continue
lookup_times_min.append(i['t'])
break
for i in reversed(s):
if i['e'] != 'PEERS': continue
lookup_times_max.append(i['t'])
break
lookup_times_min.sort()
lookup_times_max.sort()
out = open('dht_lookup_times_cdf.txt', 'w+')
counter = 0
for i in range(len(lookup_times_min)):
counter += 1
print >>out, '%d\t%d\t%f' % (lookup_times_min[i], lookup_times_max[i], counter / float(len(lookup_times_min)))
out.close()
for i in lookup_distance:
i.sort()
dist = 0
for i in lookup_distance:
out = open('dht_lookup_distance_%d.txt' % dist, 'w+')
dist += 1
counter = 0
for j in i:
counter += 1
print >>out, '%d\t%f' % (j, counter / float(len(i)))
out.close()
out = open('dht_lookups.txt', 'w+')
for s in searches:
for i in s:
if i['e'] == 'INVOKE':
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print >>out, ' ->', i['t'], 160 - i['d'], i['i'], i['a']
elif i['e'] == '1ST_TIMEOUT':
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print >>out, ' x ', i['t'], 160 - i['d'], i['i'], i['a']
elif i['e'] == 'TIMEOUT':
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print >>out, ' X ', i['t'], 160 - i['d'], i['i'], i['a']
elif i['e'] == 'ADD':
print >>out, ' + ', i['t'], 160 - i['d'], i['i'], i['a'], i['s']
elif i['e'] == 'RESPONSE':
print >>out, ' <-', i['t'], 160 - i['d'], i['i'], i['a']
elif i['e'] == 'PEERS':
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print >>out, ' <-', i['t'], 160 - i['d'], i['i'], i['a']
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elif i['e'] == 'ABORTED':
print >>out, 'abort'
elif i['e'] == 'COMPLETED':
print >>out, '***', i['t'], 160 - i['d'], '\n'
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elif i['e'] == 'NEW':
print >>out, '===', i['abstime'], i['type'], '==='
print >>out, '<> ', 0, our_node_id, i['i']
out.close()
out = open('dht_announce_distribution.dat', 'w+')
print 'announce distribution items: %d' % len(announce_histogram)
for k,v in announce_histogram.items():
print >>out, '%d %d' % (k, v)
print '%d %d' % (k, v)
out.close()
out = open('dht_node_uptime_cdf.txt', 'w+')
s = 0
total_uptime_nodes = 0
for k,v in node_uptime_histogram.items():
total_uptime_nodes += v
for k,v in sorted(node_uptime_histogram.items()):
s += v
print >>out, '%f %f' % (k / float(60), s / float(total_uptime_nodes))
print '%f %f' % (k / float(60), s / float(total_uptime_nodes))
out.close()
out = open('dht.gnuplot', 'w+')
out.write('''
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set term png size 1200,700 small
set output "dht_lookup_times_cdf.png"
set title "portion of lookups that have received at least one data response"
set ylabel "portion of lookups"
set xlabel "time from start of lookup (ms)"
set grid
plot "dht_lookup_times_cdf.txt" using 1:3 with lines title "time to first result", \
"dht_lookup_times_cdf.txt" using 2:3 with lines title "time to last result"
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set terminal postscript
set output "dht_lookup_times_cdf.ps"
replot
set term png size 1200,700 small
set xtics 100
set xrange [0:2000]
set output "dht_min_lookup_times_cdf.png"
plot "dht_lookup_times_cdf.txt" using 1:3 with lines title "time to first result"
set terminal postscript
set output "dht_min_lookup_times_cdf.ps"
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replot
set term png size 1200,700 small
set output "dht_node_uptime_cdf.png"
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set xrange [0:*]
set title "node up time"
set ylabel "portion of nodes being offline"
set xlabel "time from first seeing the node (minutes)"
set xtics 10
unset grid
plot "dht_node_uptime_cdf.txt" using 1:2 title "nodes" with lines
set term png size 1200,700 small
set output "dht_announce_distribution.png"
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set xrange [0:30]
set xtics 1
set title "bucket # announces are made against relative to target node-id"
set ylabel "# of announces"
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set boxwidth 1
set xlabel "bit prefix of nodes in announces"
set style fill solid border -1 pattern 2
plot "dht_announce_distribution.dat" using 1:2 title "announces" with boxes
set terminal postscript
set output "dht_announce_distribution.ps"
replot
set term png size 1200,700 small
set output "dht_lookup_distance_cdf.png"
set title "portion of lookups that have reached a certain distance in their lookups"
set ylabel "portion of lookups"
set xlabel "time from start of lookup (ms)"
set xrange [0:2000]
set xtics 100
set grid
plot ''')
dist = 0
for i in lookup_distance:
if dist > 0: out.write(', ')
out.write('"dht_lookup_distance_%d.txt" using 1:2 title "%d" with lines' % (dist, dist))
dist += 1
out.close()
os.system('gnuplot dht.gnuplot');