tahoe-lafs/misc/simulators/simulate_load.py

157 lines
4.8 KiB
Python

#!/usr/bin/env python
# WARNING. There is a bug in this script so that it does not simulate the actual Tahoe Two server selection algorithm that it was intended to simulate. See http://allmydata.org/trac/tahoe-lafs/ticket/302 (stop permuting peerlist, use SI as offset into ring instead?)
from __future__ import print_function
import random
SERVER_CAPACITY = 10**12
class Server:
def __init__(self):
self.si = random.randrange(0, 2**31)
self.used = 0
self.max = SERVER_CAPACITY
self.full_at_tick = None
def __repr__(self):
if self.full_at_tick is not None:
return "<%s %s full at %d>" % (self.__class__.__name__, self.si, self.full_at_tick)
else:
return "<%s %s>" % (self.__class__.__name__, self.si)
SERVERS = 4
K = 3
N = 10
def make_up_a_file_size():
return (2 ** random.randrange(8, 31))
def go(permutedpeerlist):
servers = [ Server() for x in range(SERVERS) ]
servers.sort(cmp=lambda x,y: cmp(x.si, y.si))
doubled_up_shares = 0
tick = 0
fullservers = 0
while True:
nextsharesize = make_up_a_file_size() / K
if permutedpeerlist:
random.shuffle(servers)
else:
# rotate a random number
rot = random.randrange(0, len(servers))
servers = servers[rot:] + servers[:rot]
i = 0
wrapped = False
sharestoput = N
while sharestoput:
server = servers[i]
if server.used + nextsharesize < server.max:
server.used += nextsharesize
sharestoput -= 1
if wrapped:
doubled_up_shares += 1
else:
if server.full_at_tick is None:
server.full_at_tick = tick
fullservers += 1
if fullservers == len(servers):
# print "Couldn't place share -- all servers full. Stopping."
return (servers, doubled_up_shares)
i += 1
if i == len(servers):
wrapped = True
i = 0
tick += 1
def div_ceil(n, d):
"""
The smallest integer k such that k*d >= n.
"""
return (n/d) + (n%d != 0)
DESIRED_COLUMNS = 70
START_FILES = 137000
STOP_FILES = 144000
def test(permutedpeerlist, iters):
# The i'th element of the filledat list is how many servers got full when the i'th file was uploaded.
filledat = []
for test in range(iters):
(servers, doubled_up_shares) = go(permutedpeerlist)
print("doubled_up_shares: ", doubled_up_shares)
for server in servers:
fidx = server.full_at_tick
filledat.extend([0]*(fidx-len(filledat)+1))
filledat[fidx] += 1
startfiles = 0
while filledat[startfiles] == 0:
startfiles += 1
filespercolumn = div_ceil(len(filledat) - startfiles, (DESIRED_COLUMNS - 3))
# to make comparisons between runs line up:
# startfiles = START_FILES
# filespercolumn = div_ceil(STOP_FILES - startfiles, (DESIRED_COLUMNS - 3))
# The i'th element of the compressedfilledat list is how many servers got full when the filespercolumn files starting at startfiles + i were uploaded.
compressedfilledat = []
idx = startfiles
while idx < len(filledat):
compressedfilledat.append(0)
for i in range(filespercolumn):
compressedfilledat[-1] += filledat[idx]
idx += 1
if idx >= len(filledat):
break
# The i'th element of the fullat list is how many servers were full by the tick numbered startfiles + i * filespercolumn (on average).
fullat = [0] * len(compressedfilledat)
for idx, num in enumerate(compressedfilledat):
for fidx in range(idx, len(fullat)):
fullat[fidx] += num
for idx in range(len(fullat)):
fullat[idx] = fullat[idx] / float(iters)
# Now print it out as an ascii art graph.
import sys
for serversfull in range(40, 0, -1):
sys.stdout.write("%2d " % serversfull)
for numfull in fullat:
if int(numfull) == serversfull:
sys.stdout.write("*")
else:
sys.stdout.write(" ")
sys.stdout.write("\n")
sys.stdout.write(" ^-- servers full\n")
idx = 0
while idx < len(fullat):
nextmark = "%d--^ " % (startfiles + idx * filespercolumn)
sys.stdout.write(nextmark)
idx += len(nextmark)
sys.stdout.write("\nfiles uploaded --> \n")
if __name__ == "__main__":
import sys
iters = 16
for arg in sys.argv:
if arg.startswith("--iters="):
iters = int(arg[8:])
if "--permute" in sys.argv:
print("doing permuted peerlist, iterations: %d" % iters)
test(True, iters)
else:
print("doing simple ring, iterations: %d" % iters)
test(False, iters)