#! /usr/bin/python # used to discuss ticket #302: "stop permuting peerlist?" # import time from __future__ import print_function import math from hashlib import md5 # sha1, sha256 myhash = md5 # md5: 1520 "uploads" per second # sha1: 1350 ups # sha256: 930 ups from itertools import count from twisted.python import usage def abbreviate_space(s, SI=True): if s is None: return "unknown" if SI: U = 1000.0 isuffix = "B" else: U = 1024.0 isuffix = "iB" def r(count, suffix): return "%.2f %s%s" % (count, suffix, isuffix) if s < 1024: # 1000-1023 get emitted as bytes, even in SI mode return "%d B" % s if s < U*U: return r(s/U, "k") if s < U*U*U: return r(s/(U*U), "M") if s < U*U*U*U: return r(s/(U*U*U), "G") if s < U*U*U*U*U: return r(s/(U*U*U*U), "T") return r(s/(U*U*U*U*U), "P") def make_up_a_file_size(seed): h = int(myhash(seed).hexdigest(),16) # exponential distribution e = 8 + (h % (31-8)) return 2 ** e # uniform distribution #max=2**31 #return h % max # avg 1GB sizes = [make_up_a_file_size(str(i)) for i in range(10000)] avg_filesize = sum(sizes)/len(sizes) print("average file size:", abbreviate_space(avg_filesize)) SERVER_CAPACITY = 10**12 class Server(object): def __init__(self, nodeid, capacity): self.nodeid = nodeid self.used = 0 self.capacity = capacity self.numshares = 0 self.full_at_tick = None def upload(self, sharesize): if self.used + sharesize < self.capacity: self.used += sharesize self.numshares += 1 return True return False def __repr__(self): if self.full_at_tick is not None: return "<%s %s full at %d>" % (self.__class__.__name__, self.nodeid, self.full_at_tick) else: return "<%s %s>" % (self.__class__.__name__, self.nodeid) class Ring(object): SHOW_MINMAX = False def __init__(self, numservers, seed, permute): self.servers = [] for i in range(numservers): nodeid = myhash(str(seed)+str(i)).hexdigest() capacity = SERVER_CAPACITY s = Server(nodeid, capacity) self.servers.append(s) self.servers.sort(key=lambda s: s.nodeid) self.permute = permute #self.list_servers() def list_servers(self): for i in range(len(self.servers)): s = self.servers[i] next_s = self.servers[(i+1)%len(self.servers)] diff = "%032x" % (int(next_s.nodeid,16) - int(s.nodeid,16)) s.next_diff = diff prev_s = self.servers[(i-1)%len(self.servers)] diff = "%032x" % (int(s.nodeid,16) - int(prev_s.nodeid,16)) s.prev_diff = diff print(s, s.prev_diff) print("sorted by delta") for s in sorted(self.servers, key=lambda s:s.prev_diff): print(s, s.prev_diff) def servers_for_si(self, si): if self.permute: def sortkey(s): return myhash(s.nodeid+si).digest() return sorted(self.servers, key=sortkey) for i in range(len(self.servers)): if self.servers[i].nodeid >= si: return self.servers[i:] + self.servers[:i] return list(self.servers) def show_servers(self, picked): bits = [] for s in self.servers: if s in picked: bits.append("1") else: bits.append("0") #d = [s in picked and "1" or "0" for s in self.servers] return "".join(bits) def dump_usage(self, numfiles, avg_space_per_file): print("uploaded", numfiles) # avg_space_per_file measures expected grid-wide ciphertext per file used = list(reversed(sorted([s.used for s in self.servers]))) # used is actual per-server ciphertext usedpf = [1.0*u/numfiles for u in used] # usedpf is actual per-server-per-file ciphertext #print "min/max usage: %s/%s" % (abbreviate_space(used[-1]), # abbreviate_space(used[0])) avg_usage_per_file = avg_space_per_file/len(self.servers) # avg_usage_per_file is expected per-server-per-file ciphertext spreadpf = usedpf[0] - usedpf[-1] average_usagepf = sum(usedpf) / len(usedpf) variance = sum([(u-average_usagepf)**2 for u in usedpf])/(len(usedpf)-1) std_deviation = math.sqrt(variance) sd_of_total = std_deviation / avg_usage_per_file print("min/max/(exp) usage-pf-ps %s/%s/(%s):" % ( abbreviate_space(usedpf[-1]), abbreviate_space(usedpf[0]), abbreviate_space(avg_usage_per_file) ), end=' ') print("spread-pf: %s (%.2f%%)" % ( abbreviate_space(spreadpf), 100.0*spreadpf/avg_usage_per_file), end=' ') #print "average_usage:", abbreviate_space(average_usagepf) print("stddev: %s (%.2f%%)" % (abbreviate_space(std_deviation), 100.0*sd_of_total)) if self.SHOW_MINMAX: s2 = sorted(self.servers, key=lambda s: s.used) print("least:", s2[0].nodeid) print("most:", s2[-1].nodeid) class Options(usage.Options): optParameters = [ ("k", "k", 3, "required shares", int), ("N", "N", 10, "total shares", int), ("servers", None, 100, "number of servers", int), ("seed", None, None, "seed to use for creating ring"), ("fileseed", None, "blah", "seed to use for creating files"), ("permute", "p", 1, "1 to permute, 0 to use flat ring", int), ] def postOptions(self): assert self["seed"] def do_run(ring, opts): avg_space_per_file = avg_filesize * opts["N"] / opts["k"] fileseed = opts["fileseed"] all_servers_have_room = True no_files_have_wrapped = True for filenum in count(0): #used = list(reversed(sorted([s.used for s in ring.servers]))) #used = [s.used for s in ring.servers] #print used si = myhash(fileseed+str(filenum)).hexdigest() filesize = make_up_a_file_size(si) sharesize = filesize / opts["k"] if filenum%4000==0 and filenum > 1: ring.dump_usage(filenum, avg_space_per_file) servers = ring.servers_for_si(si) #print ring.show_servers(servers[:opts["N"]]) remaining_shares = opts["N"] index = 0 server_was_full = False file_was_wrapped = False remaining_servers = set(servers) while remaining_shares: if index >= len(servers): index = 0 file_was_wrapped = True s = servers[index] accepted = s.upload(sharesize) if not accepted: server_was_full = True remaining_servers.discard(s) if not remaining_servers: print("-- GRID IS FULL") ring.dump_usage(filenum, avg_space_per_file) return filenum index += 1 continue remaining_shares -= 1 index += 1 # file is done being uploaded if server_was_full and all_servers_have_room: all_servers_have_room = False print("-- FIRST SERVER FULL") ring.dump_usage(filenum, avg_space_per_file) if file_was_wrapped and no_files_have_wrapped: no_files_have_wrapped = False print("-- FIRST FILE WRAPPED") ring.dump_usage(filenum, avg_space_per_file) def do_ring(opts): total_capacity = opts["servers"]*SERVER_CAPACITY avg_space_per_file = avg_filesize * opts["N"] / opts["k"] avg_files = total_capacity / avg_space_per_file print("expected number of uploads:", avg_files) if opts["permute"]: print(" PERMUTED") else: print(" LINEAR") seed = opts["seed"] ring = Ring(opts["servers"], seed, opts["permute"]) do_run(ring, opts) def run(opts): do_ring(opts) if __name__ == "__main__": opts = Options() opts.parseOptions() run(opts)