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|
## This file is part of Scapy
## See http://www.secdev.org/projects/scapy for more informations
## Copyright (C) Philippe Biondi <phil@secdev.org>
## This program is published under a GPLv2 license
"""
PacketList: holds several packets and allows to do operations on them.
"""
import os,subprocess
from .config import conf
from .base_classes import BasePacket,BasePacketList
from collections import defaultdict
from .utils import do_graph,hexdump,make_table,make_lined_table,make_tex_table,get_temp_file
from scapy.arch import NETWORKX
if NETWORKX:
import networkx as nx
#############
## Results ##
#############
class PacketList(BasePacketList):
res = []
def __init__(self, res=None, name="PacketList", stats=None, vector_index = None):
"""create a packet list from a list of packets
res: the list of packets
stats: a list of classes that will appear in the stats (defaults to [TCP,UDP,ICMP])"""
if stats is None:
stats = conf.stats_classic_protocols
self.stats = stats
if res is None:
res = []
if isinstance(res, PacketList):
res = res.res
self.res = res
self.listname = name
self.vector_index = vector_index
def __len__(self):
return len(self.res)
def _elt2pkt(self, elt):
if self.vector_index == None:
return elt
else:
return elt[self.vector_index]
def _elt2sum(self, elt):
if self.vector_index == None:
return elt.summary()
else:
return "%s ==> %s" % (elt[0].summary(),elt[1].summary())
def _elt2show(self, elt):
return self._elt2sum(elt)
def __repr__(self):
stats=dict.fromkeys(self.stats,0)
other = 0
for r in self.res:
f = 0
for p in stats:
if self._elt2pkt(r).haslayer(p):
stats[p] += 1
f = 1
break
if not f:
other += 1
s = ""
ct = conf.color_theme
for p in self.stats:
s += " %s%s%s" % (ct.packetlist_proto(p.name),
ct.punct(":"),
ct.packetlist_value(stats[p]))
s += " %s%s%s" % (ct.packetlist_proto("Other"),
ct.punct(":"),
ct.packetlist_value(other))
return "%s%s%s%s%s" % (ct.punct("<"),
ct.packetlist_name(self.listname),
ct.punct(":"),
s,
ct.punct(">"))
def __getattr__(self, attr):
return getattr(self.res, attr)
def __getitem__(self, item):
if isinstance(item,type) and issubclass(item,BasePacket):
#return self.__class__(filter(lambda x: item in self._elt2pkt(x),self.res),
return self.__class__([ x for x in self.res if item in self._elt2pkt(x) ],
name="%s from %s"%(item.__name__,self.listname))
if type(item) is slice:
return self.__class__(self.res.__getitem__(item),
name = "mod %s" % self.listname)
return self.res.__getitem__(item)
def __getslice__(self, *args, **kargs):
return self.__class__(self.res.__getslice__(*args, **kargs),
name="mod %s"%self.listname)
def __add__(self, other):
return self.__class__(self.res+other.res,
name="%s+%s"%(self.listname,other.listname))
def summary(self, prn=None, lfilter=None):
"""prints a summary of each packet
prn: function to apply to each packet instead of lambda x:x.summary()
lfilter: truth function to apply to each packet to decide whether it will be displayed"""
for r in self.res:
if lfilter is not None:
if not lfilter(r):
continue
if prn is None:
print(self._elt2sum(r))
else:
print(prn(r))
def nsummary(self,prn=None, lfilter=None):
"""prints a summary of each packet with the packet's number
prn: function to apply to each packet instead of lambda x:x.summary()
lfilter: truth function to apply to each packet to decide whether it will be displayed"""
for i, p in enumerate(self.res):
if lfilter is not None:
if not lfilter(p):
continue
print(conf.color_theme.id(i,fmt="%04i"), end = " ")
if prn is None:
print(self._elt2sum(p))
else:
print(prn(p))
def display(self): # Deprecated. Use show()
"""deprecated. is show()"""
self.show()
def show(self, *args, **kargs):
"""Best way to display the packet list. Defaults to nsummary() method"""
return self.nsummary(*args, **kargs)
def filter(self, func):
"""Returns a packet list filtered by a truth function"""
return self.__class__(list(filter(func,self.res)),
name="filtered %s"%self.listname)
def plot(self, f, lfilter=None,**kargs):
"""Applies a function to each packet to get a value that will be plotted with matplotlib. A matplotlib object is returned
lfilter: a truth function that decides whether a packet must be ploted"""
return plt.plot([ f(i) for i in self.res if not lfilter or lfilter(i) ], **kargs)
def diffplot(self, f, delay=1, lfilter=None, **kargs):
"""diffplot(f, delay=1, lfilter=None)
Applies a function to couples (l[i],l[i+delay])"""
return plt.plot([ f(i, j) for i in self.res[:-delay] for j in self.res[delay:] if not lfilter or (lfilter(i) and lfilter(j))],
**kargs)
def multiplot(self, f, lfilter=None, **kargs):
"""Uses a function that returns a label and a value for this label, then plots all the values label by label"""
d = defaultdict(list)
for i in self.res:
if lfilter and not lfilter(i):
continue
k, v = f(i)
d[k].append(v)
figure = plt.figure()
ax = figure.add_axes(plt.axes())
for i in d:
ax.plot(d[i], **kargs)
return figure
def rawhexdump(self):
"""Prints an hexadecimal dump of each packet in the list"""
for p in self:
hexdump(self._elt2pkt(p))
def hexraw(self, lfilter=None):
"""Same as nsummary(), except that if a packet has a Raw layer, it will be hexdumped
lfilter: a truth function that decides whether a packet must be displayed"""
for i,p in enumerate(self.res):
p1 = self._elt2pkt(p)
if lfilter is not None and not lfilter(p1):
continue
print("%s %s %s" % (conf.color_theme.id(i,fmt="%04i"),
p1.sprintf("%.time%"),
self._elt2sum(p)))
if p1.haslayer(conf.raw_layer):
hexdump(p1.getlayer(conf.raw_layer).load)
def hexdump(self, lfilter=None):
"""Same as nsummary(), except that packets are also hexdumped
lfilter: a truth function that decides whether a packet must be displayed"""
for i,p in enumerate(self.res):
p1 = self._elt2pkt(p)
if lfilter is not None and not lfilter(p1):
continue
print("%s %s %s" % (conf.color_theme.id(i,fmt="%04i"),
p1.sprintf("%.time%"),
self._elt2sum(p)))
hexdump(p1)
def padding(self, lfilter=None):
"""Same as hexraw(), for Padding layer"""
for i,p in enumerate(self.res):
p1 = self._elt2pkt(p)
if p1.haslayer(conf.padding_layer):
if lfilter is None or lfilter(p1):
print("%s %s %s" % (conf.color_theme.id(i,fmt="%04i"),
p1.sprintf("%.time%"),
self._elt2sum(p)))
hexdump(p1.getlayer(conf.padding_layer).load)
def nzpadding(self, lfilter=None):
"""Same as padding() but only non null padding"""
for i,p in enumerate(self.res):
p1 = self._elt2pkt(p)
if p1.haslayer(conf.padding_layer):
pad = p1.getlayer(conf.padding_layer).load
if pad == pad[0]*len(pad):
continue
if lfilter is None or lfilter(p1):
print("%s %s %s" % (conf.color_theme.id(i,fmt="%04i"),
p1.sprintf("%.time%"),
self._elt2sum(p)))
hexdump(p1.getlayer(conf.padding_layer).load)
def conversations(self, getsrcdst=None, draw = True, **kargs):
"""Graphes a conversations between sources and destinations and display it
(using graphviz)
getsrcdst: a function that takes an element of the list and return the source and dest
by defaults, return source and destination IP
if networkx library is available returns a DiGraph, or draws it if draw = True otherwise graphviz is used
format: output type (svg, ps, gif, jpg, etc.), passed to dot's "-T" option
target: output filename. If None, matplotlib is used to display
prog: which graphviz program to use"""
if getsrcdst is None:
getsrcdst = lambda x:(x['IP'].src, x['IP'].dst)
conv = {}
for p in self.res:
p = self._elt2pkt(p)
try:
c = getsrcdst(p)
except:
#XXX warning()
continue
conv[c] = conv.get(c,0)+1
if NETWORKX: # networkx is available
gr = nx.DiGraph()
for s,d in conv:
if s not in gr:
gr.add_node(s)
if d not in gr:
gr.add_node(d)
gr.add_edge(s, d)
if draw:
return do_graph(gr, **kargs)
else:
return gr
else:
gr = 'digraph "conv" {\n'
for s,d in conv:
gr += '\t "%s" -> "%s"\n' % (s,d)
gr += "}\n"
return do_graph(gr, **kargs)
def afterglow(self, src=None, event=None, dst=None, **kargs):
"""Experimental clone attempt of http://sourceforge.net/projects/afterglow
each datum is reduced as src -> event -> dst and the data are graphed.
by default we have IP.src -> IP.dport -> IP.dst"""
if src is None:
src = lambda x: x['IP'].src
if event is None:
event = lambda x: x['IP'].dport
if dst is None:
dst = lambda x: x['IP'].dst
sl = {}
el = {}
dl = {}
for i in self.res:
try:
s,e,d = src(i),event(i),dst(i)
if s in sl:
n,l = sl[s]
n += 1
if e not in l:
l.append(e)
sl[s] = (n,l)
else:
sl[s] = (1,[e])
if e in el:
n,l = el[e]
n+=1
if d not in l:
l.append(d)
el[e] = (n,l)
else:
el[e] = (1,[d])
dl[d] = dl.get(d,0)+1
except:
continue
import math
def normalize(n):
return 2+math.log(n)/4.0
def minmax(x):
m,M = min(x),max(x)
if m == M:
m = 0
if M == 0:
M = 1
return m,M
#mins,maxs = minmax(map(lambda (x,y): x, sl.values()))
mins,maxs = minmax([ a[0] for a in sl.values()])
#mine,maxe = minmax(map(lambda (x,y): x, el.values()))
mine,maxe = minmax([ a[0] for a in el.values()])
mind,maxd = minmax(dl.values())
gr = 'digraph "afterglow" {\n\tedge [len=2.5];\n'
gr += "# src nodes\n"
for s in sl:
n,l = sl[s]; n = 1+(n-mins)/(maxs-mins)
gr += '"src.%s" [label = "%s", shape=box, fillcolor="#FF0000", style=filled, fixedsize=1, height=%.2f,width=%.2f];\n' % (repr(s),repr(s),n,n)
gr += "# event nodes\n"
for e in el:
n,l = el[e]; n = n = 1+(n-mine)/(maxe-mine)
gr += '"evt.%s" [label = "%s", shape=circle, fillcolor="#00FFFF", style=filled, fixedsize=1, height=%.2f, width=%.2f];\n' % (repr(e),repr(e),n,n)
for d in dl:
n = dl[d]; n = n = 1+(n-mind)/(maxd-mind)
gr += '"dst.%s" [label = "%s", shape=triangle, fillcolor="#0000ff", style=filled, fixedsize=1, height=%.2f, width=%.2f];\n' % (repr(d),repr(d),n,n)
gr += "###\n"
for s in sl:
n,l = sl[s]
for e in l:
gr += ' "src.%s" -> "evt.%s";\n' % (repr(s),repr(e))
for e in el:
n,l = el[e]
for d in l:
gr += ' "evt.%s" -> "dst.%s";\n' % (repr(e),repr(d))
gr += "}"
return do_graph(gr, **kargs)
def _dump_document(self, **kargs):
import pyx
d = pyx.document.document()
l = len(self.res)
for i in range(len(self.res)):
elt = self.res[i]
c = self._elt2pkt(elt).canvas_dump(**kargs)
cbb = c.bbox()
c.text(cbb.left(),cbb.top()+1,r"\font\cmssfont=cmss12\cmssfont{Frame %i/%i}" % (i,l),[pyx.text.size.LARGE])
if conf.verb >= 2:
os.write(1,b".")
d.append(pyx.document.page(c, paperformat=pyx.document.paperformat.A4,
margin=1*pyx.unit.t_cm,
fittosize=1))
return d
def psdump(self, filename = None, **kargs):
"""Creates a multipage poscript file with a psdump of every packet
filename: name of the file to write to. If empty, a temporary file is used and
conf.prog.psreader is called"""
d = self._dump_document(**kargs)
if filename is None:
filename = get_temp_file(autoext=".ps")
d.writePSfile(filename)
subprocess.Popen([conf.prog.psreader, filename+".ps"])
else:
d.writePSfile(filename)
print
def pdfdump(self, filename = None, **kargs):
"""Creates a PDF file with a psdump of every packet
filename: name of the file to write to. If empty, a temporary file is used and
conf.prog.pdfreader is called"""
d = self._dump_document(**kargs)
if filename is None:
filename = get_temp_file(autoext=".pdf")
d.writePDFfile(filename)
subprocess.Popen([conf.prog.pdfreader, filename+".pdf"])
else:
d.writePDFfile(filename)
print
def sr(self,multi=0):
"""sr([multi=1]) -> (SndRcvList, PacketList)
Matches packets in the list and return ( (matched couples), (unmatched packets) )"""
remain = self.res[:]
sr = []
i = 0
while i < len(remain):
s = remain[i]
j = i
while j < len(remain)-1:
j += 1
r = remain[j]
if r.answers(s):
sr.append((s,r))
if multi:
remain[i]._answered=1
remain[j]._answered=2
continue
del(remain[j])
del(remain[i])
i -= 1
break
i += 1
if multi:
remain = filter(lambda x:not hasattr(x,"_answered"), remain)
return SndRcvList(sr),PacketList(remain)
def sessions(self, session_extractor=None):
if session_extractor is None:
def session_extractor(p):
sess = "Other"
if 'Ether' in p:
if 'IP' in p:
if 'TCP' in p:
sess = p.sprintf("TCP %IP.src%:%r,TCP.sport% > %IP.dst%:%r,TCP.dport%")
elif 'UDP' in p:
sess = p.sprintf("UDP %IP.src%:%r,UDP.sport% > %IP.dst%:%r,UDP.dport%")
elif 'ICMP' in p:
sess = p.sprintf("ICMP %IP.src% > %IP.dst% type=%r,ICMP.type% code=%r,ICMP.code% id=%ICMP.id%")
else:
sess = p.sprintf("IP %IP.src% > %IP.dst% proto=%IP.proto%")
elif 'ARP' in p:
sess = p.sprintf("ARP %ARP.psrc% > %ARP.pdst%")
else:
sess = p.sprintf("Ethernet type=%04xr,Ether.type%")
return sess
sessions = defaultdict(self.__class__)
for p in self.res:
sess = session_extractor(self._elt2pkt(p))
sessions[sess].append(p)
return dict(sessions)
def replace(self, *args, **kargs):
"""
lst.replace(<field>,[<oldvalue>,]<newvalue>)
lst.replace( (fld,[ov],nv),(fld,[ov,]nv),...)
if ov is None, all values are replaced
ex:
lst.replace( IP.src, "192.168.1.1", "10.0.0.1" )
lst.replace( IP.ttl, 64 )
lst.replace( (IP.ttl, 64), (TCP.sport, 666, 777), )
"""
delete_checksums = kargs.get("delete_checksums",False)
x=PacketList(name="Replaced %s" % self.listname)
if type(args[0]) is not tuple:
args = (args,)
for p in self.res:
p = self._elt2pkt(p)
copied = False
for scheme in args:
fld = scheme[0]
old = scheme[1] # not used if len(scheme) == 2
new = scheme[-1]
for o in fld.owners:
if o in p:
if len(scheme) == 2 or p[o].getfieldval(fld.name) == old:
if not copied:
p = p.copy()
if delete_checksums:
p.delete_checksums()
copied = True
setattr(p[o], fld.name, new)
x.append(p)
return x
class SndRcvList(PacketList):
def __init__(self, res=None, name="Results", stats=None):
PacketList.__init__(self, res, name, stats, vector_index = 1)
def summary(self, prn=None, lfilter=None):
"""prints a summary of each SndRcv packet pair
prn: function to apply to each packet pair instead of lambda s, r: "%s ==> %s" % (s.summary(),r.summary())
lfilter: truth function to apply to each packet pair to decide whether it will be displayed"""
for s, r in self.res:
if lfilter is not None:
if not lfilter(s, r):
continue
if prn is None:
print(self._elt2sum((s, r)))
else:
print(prn(s, r))
def nsummary(self,prn=None, lfilter=None):
"""prints a summary of each SndRcv packet pair with the pair's number
prn: function to apply to each packet pair instead of lambda s, r: "%s ==> %s" % (s.summary(),r.summary())
lfilter: truth function to apply to each packet pair to decide whether it will be displayed"""
for i, (s, r) in enumerate(self.res):
if lfilter is not None:
if not lfilter(s, r):
continue
print(conf.color_theme.id(i,fmt="%04i"), end = " ")
if prn is None:
print(self._elt2sum((s, r)))
else:
print(prn(s, r))
def filter(self, func):
"""Returns a SndRcv list filtered by a truth function"""
return self.__class__( [ i for i in self.res if func(*i) ], name='filtered %s'%self.listname)
def make_table(self, *args, **kargs):
"""Prints a table using a function that returs for each packet its head column value, head row value and displayed value
ex: p.make_table(lambda s, r:(s[IP].dst, r[TCP].sport, s[TCP].sprintf("%flags%")) """
return make_table(self.res, *args, **kargs)
def make_lined_table(self, *args, **kargs):
"""Same as make_table, but print a table with lines"""
return make_lined_table(self.res, *args, **kargs)
def make_tex_table(self, *args, **kargs):
"""Same as make_table, but print a table with LaTeX syntax"""
return make_tex_table(self.res, *args, **kargs)
|