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log2dot.py
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log2dot.py
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from __future__ import print_function
import os, sys
import fileinput
import re
def sanitise_var(varname):
# dot will complain if we have strange chars
varname = varname.replace('[','_').replace(']','_')
varname = varname.replace('.','_').replace('.','_')
# E.g. <address>_unknownobj -> a<address>
if "_unknownobj" in varname:
varname = 'a' + varname.split("_unknownobj")[0]
# E.g. <varname>:<address> -> a<address>
if ":" in varname:
varname = 'a' + varname.split(":")[1]
# dot will complain if var name starts with a number
if re.match('^[0-9]',varname):
varname = 'g' + varname
# dot will complain if var name contains a space
if ' ' in varname:
varname = varname.split(' ')[0]
return varname
# Get the location/function of a line
# E.g. Input is '0x8048507: main (sign32.c:10)',
# Output is 'main'
def get_loc(line):
if '(' in line.split()[1]:
return line.split()[1].split('(')[0]
return line.split()[1]
# g: array to collect nodes by function
# label: node label
# loc: function
def add_node(g, label, loc):
if loc not in g:
g[loc] = ""
elif label not in g[loc]:
g[loc] += " %s\n" % (label)
return g
# Extract the function name from, e.g.
# 0x4CC398D: free (malloc.c:3103)
# Expected output from above: free (malloc.c)
def getfuncname(addr):
funcname = addr
# Get rid of address
if ": " in addr:
funcname = addr.split(": ")[1]
# Remove all digits and colons
funcname = re.sub(r'[0-9:]', '', funcname)
return funcname
TAINT_SINKS = ["__memcpy_sse_unaligned_erms (memmove-vec-unaligned-erms.S)",
"memcpy@GLIBC_.. (memmove-vec-unaligned-erms.S)",
"_int_malloc (malloc.c)",
]
# array to store all lines
data = []
# associative array to retrieve by variable name if any
var = {}
f = []
for line in fileinput.input():
f.append(line)
# Pass 1: Remove non-taintgrind output
for i in range(len(f)):
line = f[i]
if not line.startswith("0x"):
continue
# Need to remove valgrind warnings, which add a LF
# We need to add the next line as well
if "-- warning:" in line:
elts = line.split("|")
nextline = f[i+1]
c = 2
while "-- warning:" in nextline:
nextline = f[i+c]
c += 1
elts[-1] = " " + nextline
line = "|".join(elts)
data.append(line)
# Pass 2: Construct the graph; define nodes and edges
edges = []
nodes = {}
for line in data:
addr = ""
insn = ""
insnty = ""
val = ""
flow = ""
a = line.rstrip().split(" | ")
if len(a) == 5:
(addr,insn,insnty,val,flow) = line.rstrip().split(" | ")
elif len(a) == 4:
(addr,insnty,val,flow) = line.rstrip().split(" | ")
elif len(a) == 2:
(addr,flow) = line.rstrip().split(" | ")
else:
print("%d" % (len(a)))
sys.exit(0)
funcname = getfuncname(addr)
# If there is taint flow
if len(flow) >= 4:
# Get location/function of line
loc = get_loc(line)
if " <- " in flow:
(sink,sources) = flow.split(" <- ")
for source in sources.split():
# Add an edge for each source
if "(" not in source:
# Direct source
edges.append("%s -> %s" % (sanitise_var(source),sanitise_var(sink)))
if source not in nodes:
nodes[source] = ("%s [label=\"%s\"]" % (sanitise_var(source), source), loc)
else:
# Indirect source, colour it red
source2 = source[1:-1]
edges.append("%s -> %s[color=\"red\"]" % (sanitise_var(source2),sanitise_var(sink)))
if source2 not in nodes:
nodes[source2] = ("%s [label=\"%s\"]" % (sanitise_var(source2), source2), loc)
vname = sanitise_var(sink)
if (funcname in TAINT_SINKS) and ("Store" in insnty):
# If we find Stores in predefined TAINT_SINKS, e.g. malloc or memcpy, colour it red
nodes[sink] = ("%s [label=\"%s:%s (%s)\",fillcolor=red,style=filled]" % (vname,sink,val,insnty), loc)
elif (len(sources.split()) > 1) and ("Store" in insnty):
# If both address and data to this Store are tainted, colour it red
nodes[sink] = ("%s [label=\"%s:%s (%s)\",fillcolor=red,style=filled]" % (vname,sink,val,insnty), loc)
elif val and insnty:
#os.system(">&2 echo \"%s\" %s" % (funcname, insnty))
nodes[sink] = ("%s [label=\"%s:%s (%s)\"]" % (vname,sink,val,insnty), loc)
else:
nodes[sink] = ("%s [label=\"\" shape=point]" % (vname), loc)
elif "Jmp" in insnty:
vname = sanitise_var(flow)
# If jump target is tainted, colour it red
nodes[flow] = ("%s [label=\"%s:%s (%s)\",fillcolor=red,style=filled]" % (vname,flow,val,insnty), loc)
elif "IfGoto" in insnty and funcname in TAINT_SINKS:
vname = sanitise_var(flow)
# If if-goto is in a taint sink, colour it red
nodes[flow] = ("%s [label=\"%s:%s (%s)\",fillcolor=red,style=filled]" % (vname,flow,val,insnty), loc)
elif val and insnty:
vname = sanitise_var(flow)
nodes[flow] = ("%s [label=\"%s:%s (%s)\"]" % (vname,flow,val,insnty), loc)
else:
vname = sanitise_var(flow)
nodes[flow] = ("%s [label=\"\" shape=point]" % (vname), loc)
# Pass 3: Collect the nodes into subgraphs,
# Grouped together by function
subgraph = {}
for line in data:
addr = ""
insn = ""
insnty = ""
val = ""
flow = ""
a = line.rstrip().split(" | ")
if len(a) == 5:
(_,_,_,_,flow) = line.rstrip().split(" | ")
elif len(a) == 4:
(_,_,_,flow) = line.rstrip().split(" | ")
elif len(a) == 2:
(_,flow) = line.rstrip().split(" | ")
else:
print("%d" % (len(a)))
sys.exit(0)
# If there is taint flow
if len(flow) >= 4:
# Get location/function of line
loc = get_loc(line)
if " <- " in flow:
(sink,sources) = flow.split(" <- ")
for source in sources.split():
# Add an edge for each source
if "(" not in source:
# Direct source
subgraph = add_node(subgraph, nodes[source][0], nodes[source][1])
else:
# Indirect source, colour it red
source2 = source[1:-1]
subgraph = add_node(subgraph, nodes[source2][0], nodes[source2][1])
subgraph = add_node(subgraph, nodes[sink][0], nodes[sink][1])
else:
subgraph = add_node(subgraph, nodes[flow][0], nodes[flow][1])
# Now we construct the graph
print("digraph {")
# Print subgraphs
for s in subgraph:
sname = s.replace("???","unknown")
sname = re.sub(r'[^a-zA-Z0-9_]', '_', sname)
print(" subgraph cluster_%s{" % (sname))
print(" label=\"%s\"" % (s))
print(subgraph[s])
print(" }")
# Print the edges
for e in edges:
print(" " + e)
print("}")