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Classes.py
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Classes.py
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from selenium import webdriver
from selenium.webdriver.remote.webdriver import WebDriver
from selenium.webdriver.common.action_chains import ActionChains
from selenium.common.exceptions import (StaleElementReferenceException,
TimeoutException,
UnexpectedAlertPresentException,
NoSuchFrameException,
NoAlertPresentException,
WebDriverException,
InvalidElementStateException
)
from urllib.parse import urlparse, urljoin
import json
import pprint
import datetime
import tldextract
import math
import os
import traceback
import random
import re
import time
import itertools
import string
from Functions import *
from extractors.Events import extract_events
from extractors.Forms import extract_forms, parse_form
from extractors.Urls import extract_urls
from extractors.Iframes import extract_iframes
from extractors.Ui_forms import extract_ui_forms
import logging
log_file = os.path.join(os.getcwd(), 'logs', 'crawl-'+str(time.time())+'.log')
logging.basicConfig(filename=log_file, format='%(asctime)s\t%(name)s\t%(levelname)s\t[%(filename)s:%(lineno)d]\t%(message)s', datefmt='%Y-%m-%d:%H:%M:%S', level=logging.DEBUG)
# Turn off all other loggers that we don't care about.
for v in logging.Logger.manager.loggerDict.values():
v.disabled = True
# This should be the main class for nodes in the graph
# Should contain GET/POST, Form data, cookies,
# events too?
class Request:
def __init__(self, url, method):
self.url = url
# GET / POST
self.method = method
# Form data
# self.forms = []
def __repr__(self):
if not self:
return "NO SELF IN REPR"
ret = ""
if not self.method:
ret = ret + "[NO METHOD?] "
else:
ret = ret + "[" + self.method + "] "
if not self.url:
ret = ret + "[NO URL?]"
else:
ret = ret + self.url
return ret
def __eq__(self, other):
"""Overrides the default implementation"""
if isinstance(other, Request):
return (self.url == other.url and
self.method == other.method)
return False
def __hash__(self):
return hash(self.url + self.method)
class Graph:
def __init__(self):
self.nodes = []
self.edges = []
self.data = {} # Meta data that can be used for anything
# Separate node class for storing meta data.
class Node:
def __init__(self, value):
self.value = value
# Meta data for algorithms
self.visited = False
def __repr__(self):
return str(self.value)
def __eq__(self, other):
return self.value == other.value
def __hash__(self):
return hash(self.value)
class Edge:
# Value can be anything
# For the crawler (type, data) is used,
# where type = {"get", "form", "event"}
# and data = {None, data about form, data about event}
def __init__(self, n1, n2, value, parent=None):
self.n1 = n1
self.n2 = n2
self.value = value
self.visited = False
self.parent = parent
def __eq__(self, other):
return self.n1 == other.n1 and self.n2 == other.n2 and self.value == other.value
def __hash__(self):
return hash( hash(self.n1) + hash(self.n2) + hash(self.value))
def __repr__(self):
return str(self.n1) + " -("+str(self.value)+"["+str(self.visited)+"])-> " + str(self.n2)
def add(self, value):
node = self.Node(value)
if not node in self.nodes:
self.nodes.append(node)
return True
logging.info("failed to add node %s, already added" % str(value))
return False
def create_edge(self, v1, v2 , value, parent=None):
n1 = self.Node(v1)
n2 = self.Node(v2)
edge = self.Edge(n1, n2, value, parent)
return edge
def connect(self, v1, v2, value, parent=None):
#print("[connect]",v1,v2,value)
n1 = self.Node(v1)
n2 = self.Node(v2)
edge = self.Edge(n1, n2, value, parent)
p1 = n1 in self.nodes
p2 = n2 in self.nodes
p3 = not (edge in self.edges)
#print(p1,p2,p3)
if (p1 and p2 and p3):
self.edges.append( edge )
return True
logging.warning("Failed to connect edge, %s (%s %s %s)" % (str(value), p1, p2, p3))
return False
def visit_node(self, value):
node = self.Node(value)
if node in self.nodes:
target = self.nodes[self.nodes.index(node)]
target.visited = True
return True
return False
def visit_edge(self, edge):
if ( edge in self.edges ):
target = self.edges[self.edges.index(edge)]
target.visited = True
return True
return False
def unvisit_edge(self, edge):
if ( edge in self.edges ):
target = self.edges[self.edges.index(edge)]
target.visited = False
return True
return False
def get_parents(self, value):
node = self.Node(value)
return [edge.n1.value for edge in self.edges if node == edge.n2]
def __repr__(self):
res = "---GRAPH---\n"
for n in self.nodes:
res += str(n) + " "
res += "\n"
for edge in self.edges:
res += str(edge.n1) + " -("+str(edge.value)+"["+str(edge.visited)+"])-> " + str(edge.n2) + "\n"
res += "\n---/GRAPH---"
return res
# Generates strings that can be pasted into mathematica to draw a graph.
def toMathematica(self):
cons = [ ('"' + str(edge.n1) + '" -> "' + str(edge.n2) + '"') for edge in self.edges ]
data = "{" + ",".join(cons) + "}"
edge_cons = [ ('("' + str(edge.n1) + '" -> "' + str(edge.n2) + '") -> "' + edge.value.method + "," + str(edge.value.method_data) + '"') for edge in self.edges ]
edge_data = "{" + ",".join(edge_cons) + "}"
vertex_labels = 'VertexLabels -> All'
edge_labels = 'EdgeLabels -> ' + edge_data
arrow_size = 'EdgeShapeFunction -> GraphElementData["FilledArrow", "ArrowSize" -> 0.005]'
vertex_size = 'VertexSize -> 0.1'
image_size = 'ImageSize->Scaled[3]'
settings = [vertex_labels, edge_labels, arrow_size, vertex_size, image_size]
res = "Graph["+data+", " + ','.join(settings) + " ]"
return res
class Form:
def __init__(self):
self.action = None
self.method = None
self.inputs = {}
# Can we attack this form?
def attackable(self):
for input_el in self.inputs:
if not input_el.itype:
return True
if input_el.itype in ["text", "password", "textarea"]:
return True
return False
class Element:
def __init__(self, itype, name, value):
self.itype = itype
self.name = name
self.value = value
def __repr__(self):
return str( (self.itype, self.name, self.value) )
def __eq__(self, other):
return (self.itype == other.itype) and (self.name == other.name)
def __hash__(self):
return hash(hash(self.itype) + hash(self.name))
class SubmitElement:
def __init__(self, itype, name, value, use):
self.itype = itype
self.name = name
self.value = value
# If many submit button are available, one must be picked.
self.use = use
def __repr__(self):
return str( (self.itype, self.name, self.value, self.use) )
def __eq__(self, other):
return ((self.itype == other.itype) and
(self.name == other.name) and
(self.use == other.use))
def __hash__(self):
return hash(hash(self.itype) + hash(self.name) + hash(self.use))
class RadioElement:
def __init__(self, itype, name, value):
self.itype = itype
self.name = name
self.value = value
# Click is used when filling out the form
self.click = False
# User for fuzzing
self.override_value = ""
def __repr__(self):
return str( (self.itype, self.name, self.value, self.override_value) )
def __eq__(self, other):
p1 = (self.itype == other.itype)
p2 = (self.name == other.name)
p3 = (self.value == other.value)
return (p1 and p2 and p3)
def __hash__(self):
return hash(hash(self.itype) + hash(self.name) + hash(self.value))
class SelectElement:
def __init__(self, itype, name):
self.itype = itype
self.name = name
self.options = []
self.selected = None
self.override_value = ""
def add_option(self, value):
self.options.append( value )
def __repr__(self):
return str( (self.itype, self.name, self.options, self.selected, self.override_value) )
def __eq__(self, other):
return (self.itype == other.itype) and (self.name == other.name)
def __hash__(self):
return hash(hash(self.itype) + hash(self.name) )
class CheckboxElement:
def __init__(self, itype, name, value, checked):
self.itype = itype
self.name = name
self.value = value
self.checked = checked
self.override_value = ""
def __repr__(self):
return str( (self.itype, self.name, self.value, self.checked) )
def __eq__(self, other):
return (self.itype == other.itype) and (self.name == other.name) and (self.checked == other.checked)
def __hash__(self):
return hash(hash(self.itype) + hash(self.name) + hash(self.checked))
# <select>
def add_select(self, itype, name):
new_el = self.SelectElement(itype, name)
self.inputs[new_el] = new_el
return self.inputs[new_el]
# <input>
def add_input(self, itype, name, value, checked):
if itype == "radio":
new_el = self.RadioElement(itype, name, value)
key = self.RadioElement(itype, name, value)
elif itype == "checkbox":
new_el = self.CheckboxElement(itype, name, value, checked)
key = self.CheckboxElement(itype, name, value, None)
elif itype == "submit":
new_el = self.SubmitElement(itype, name, value, True)
key = self.SubmitElement(itype, name, value, None)
else:
new_el = self.Element(itype, name, value)
key = self.Element(itype, name, value)
self.inputs[key] = new_el
return self.inputs[key]
# <button>
def add_button(self, itype, name, value):
if itype == "submit":
new_el = self.SubmitElement(itype, name, value, True)
key = self.SubmitElement(itype, name, value, None)
else:
logging.error("Unknown button " + str((itype,name,value)))
new_el = self.Element(itype, name, value)
key = self.Element(itype, name, value)
self.inputs[key] = new_el
return self.inputs[key]
# <textarea>
def add_textarea(self, name, value):
# Textarea functions close enough to a normal text element
new_el = self.Element("textarea", name, value)
self.inputs[new_el] = new_el
return self.inputs[new_el]
# <iframe>
def add_iframe_body(self, id):
new_el = self.Element("iframe", id, "")
self.inputs[new_el] = new_el
return self.inputs[new_el]
def print(self):
print("[form", self.action, self.method)
for i in self.inputs:
print("--", i)
print("]")
# For entire Form
def __repr__(self):
s = "Form("+str(len(self.inputs))+", " + str(self.action) + ", " + str(self.method) + ")"
return s
def __eq__(self, other):
return ( self.action == other.action
and self.method == other.method
and self.inputs == other.inputs)
def __hash__(self):
return hash( hash(self.action) + hash(self.method) + hash(frozenset(self.inputs)) )
# JavaScript events, clicks, onmouse etc.
class Event:
def __init__(self, fid, event, i, tag, addr, c):
self.function_id = fid
self.event = event
self.id = i
self.tag = tag
self.addr = addr
self.event_class = c
def __repr__(self):
s = "Event("+str(self.event)+", " + self.addr + ")"
return s
def __eq__(self, other):
return (self.function_id == other.function_id and
self.id == other.id and
self.tag == other.tag and
self.addr == other.addr)
def __hash__(self):
if self.tag == {}:
logging.warning("Strange tag... %s " % str(self.tag) )
self.tag = ""
return hash( hash(self.function_id) +
hash(self.id) +
hash(self.tag) +
hash(self.addr) )
class Iframe:
def __init__(self, i, src):
self.id = i
self.src = src
def __repr__(self):
id_str = ""
src_str = ""
if self.id:
id_str = "id=" + str(self.id)
if self.src:
src_str = "src=" + str(self.src)
s = "Iframe(" + id_str + "," + src_str +")"
return s
def __eq__(self, other):
return (self.id == other.id and
self.src == other.src
)
def __hash__(self):
return hash( hash(self.id) +
hash(self.src)
)
class Ui_form:
def __init__(self, sources, submit):
self.sources = sources
self.submit = submit
def __repr__(self):
return "Ui_form(" + str(self.sources) + ", " + str(self.submit) + ")"
def __eq__(self, other):
self_l = set([ source['xpath'] for source in self.sources ])
other_l = set([ source['xpath'] for source in other.sources ])
return self_l == other_l
def __hash__(self):
return hash( frozenset([ source['xpath'] for source in self.sources ]) )
class Crawler:
def __init__(self, driver, url):
self.driver = driver
# Start url
self.url = url
self.graph = Graph()
self.session_id = str(time.time()) + "-" + str(random.randint(1,10000000))
# Used to track injections. Each injection will have unique key.
self.attack_lookup_table = {}
# input / output graph
self.io_graph = {}
# Optimization to do multiple events in a row without
# page reloads.
self.events_in_row = 0
self.max_events_in_row = 15
# Start with gets
self.early_gets = 0
self.max_early_gets = 100
# Dont attack same form too many times
# hash -> number of attacks
self.attacked_forms = {}
# Dont submit same form too many times
self.done_form = {}
self.max_done_form = 5
logging.info("Init crawl on " + url)
def start(self, debug_mode=False):
self.root_req = Request("ROOTREQ", "get")
req = Request(self.url, "get")
self.graph.add(self.root_req)
self.graph.add(req)
self.graph.connect(self.root_req, req, CrawlEdge("get", None, None) )
self.debug_mode = debug_mode
# Path deconstruction
# TODO arg for this
if not debug_mode:
purl = urlparse(self.url)
if purl.path :
path_builder = ""
for d in purl.path.split("/")[:-1]:
if d:
path_builder += d + "/"
tmp_purl = purl._replace(path=path_builder)
req = Request(tmp_purl.geturl(), "get")
self.graph.add(req)
self.graph.connect(self.root_req, req, CrawlEdge("get", None, None) )
self.graph.data['urls'] = {}
self.graph.data['form_urls'] = {}
open("run.flag", "w+").write("1")
open("queue.txt", "w+").write("")
open("command.txt", "w+").write("")
random.seed( 6 ) # chosen by fair dice roll
still_work = True
while still_work:
print("-"*50)
new_edges = len([edge for edge in self.graph.edges if edge.visited == False])
print("Edges left: %s" % str(new_edges))
try:
#f = open("graph.txt", "w")
#f.write( self.graph.toMathematica() )
if "0" in open("run.flag", "r").read():
logging.info("Run set to 0, stop crawling")
break
if "2" in open("run.flag", "r").read():
logging.info("Run set to 2, pause crawling")
input("Crawler paused, press enter to continue")
open("run.flag", "w+").write("3")
n_gets = 0
n_forms = 0
n_events = 0
for edge in self.graph.edges:
if edge.visited == False:
if edge.value.method == "get":
n_gets += 1
elif edge.value.method == "form":
n_forms += 1
elif edge.value.method == "event":
n_events += 1
print()
print("----------------------")
print("GETS | FROMS | EVENTS ")
print(str(n_gets).ljust(7), "|", str(n_forms).ljust(6), "|", n_events)
print("----------------------")
# for edge in self.graph.edges:
# if edge.visited == False and edge.value.method=="get":
# print(edge)
# input()
try:
still_work = self.rec_crawl()
except Exception as e:
still_work = n_gets + n_forms + n_events
print(e)
print(traceback.format_exc())
logging.error(e)
logging.error("Top level error while crawling")
#input("Enter to continue")
except KeyboardInterrupt:
print("CTRL-C, abort mission")
#print(self.graph.toMathematica())
break
print("Done crawling, ready to attack!")
self.attack()
def extract_vectors(self):
print("Extracting urls")
vectors = []
added = set()
exploitable_events = ["input", "oninput", "onchange", "compositionstart"]
# GET
for node in self.graph.nodes:
if node.value.url != "ROOTREQ":
purl = urlparse(node.value.url)
if purl.scheme[:4] == "http" and not node.value.url in added:
vectors.append( ("get", node.value.url) )
added.add(node.value.url)
# FORMS and EVENTS
for edge in self.graph.edges:
method = edge.value.method
method_data = edge.value.method_data
if method == "form":
vectors.append( ("form", edge) )
if method == "event":
event = method_data
# check both for event and onevent, e.g input and oninput
print("ATTACK EVENT",event)
if ((event.event in exploitable_events) or
("on" + event.event in exploitable_events)):
if not event in added:
vectors.append( ("event", edge) )
added.add(event)
return vectors
def attack_404(self, driver, attack_lookup_table):
successful_xss = set()
# TODO make global somehow or better
# %RAND will be replaced, useful for tracking
alert_text = "jaekpot%RAND"
xss_payloads = ["<script>xss('"+alert_text+"')</script>",
'x" onerror="xss(\''+alert_text+'\')"']
for payload_template in xss_payloads:
random_id = random.randint(1,10000000)
random_id_padded = "[" + str(random_id) + "]"
payload = payload_template.replace("%RAND", random_id_padded)
lookup_id = alert_text.replace("%RAND", random_id_padded)
attack_lookup_table[lookup_id] = (self.url,"404",payload)
purl = urlparse(self.url)
parts = purl.path.split("/")
parts[-1] = payload
purl = purl._replace( path="/".join(parts) )
attack_vector = purl.geturl()
driver.get(attack_vector)
# Inspect
successful_xss = successful_xss.union( self.inspect_attack(url) )
return successful_xss
def attack_event(self, driver, vector_edge):
print("-"*50)
successful_xss = set()
xss_payloads = self.get_payloads()
print("Will try to attack vector", vector_edge)
for payload_template in xss_payloads:
(lookup_id, payload) = self.arm_payload(payload_template)
# Arm the payload
event = vector_edge.value.method_data
self.use_payload(lookup_id, (vector_edge,event.event,payload))
# Launch!
follow_edge(driver, self.graph, vector_edge)
try:
if event.event == "oninput" or event.event == "input":
el = driver.find_element_by_xpath(event.addr)
el.clear()
el.send_keys(payload)
el.send_keys(Keys.RETURN)
logging.info("oninput %s" % driver.find_element_by_xpath(event.addr) )
if event.event == "oncompositionstart" or event.event == "compositionstart":
el = driver.find_element_by_xpath(event.addr)
el.click()
el.clear()
el.send_keys(payload)
el.send_keys(Keys.RETURN)
logging.info("oncompositionstart %s" % driver.find_element_by_xpath(event.addr) )
else:
logging.error("Could not attack event.event %s" % event.event)
except:
print("PROBLEM ATTACKING EVENT: ", event)
logging.error("Can't attack event " + str(event))
# Inspect
inspect_result = self.inspect_attack(vector_edge)
if inspect_result:
successful_xss = successful_xss.union()
logging.info("Found injection, don't test all")
break
return successful_xss
def attack_get(self, driver, vector):
successful_xss = set()
xss_payloads = self.get_payloads()
purl = urlparse(vector)
print(purl)
for parameter in purl.query.split("&"):
if parameter:
for payload_template in xss_payloads:
(lookup_id, payload) = self.arm_payload(payload_template)
# Look for ?a=b&c=d
if "=" in parameter:
# Only split on first to allow ?a=b=C => (a, b=c)
(key,value) = parameter.split("=", 1)
# Singleton parameters ?x&y&z
else:
(key, value) = (parameter, "")
value = payload
self.use_payload(lookup_id, (vector,key,payload))
attack_query = purl.query.replace(parameter, key+"="+value)
#print("--Attack query: ", attack_query)
attack_vector = vector.replace(purl.query, attack_query)
print("--Attack vector: ", attack_vector)
driver.get(attack_vector)
# Inspect
inspect_result = self.inspect_attack(vector)
if inspect_result:
successful_xss = successful_xss.union()
logging.info("Found injection, don't test all")
break
return successful_xss
def xss_find_state(self, driver, edge):
graph = self.graph
path = rec_find_path(graph, edge)
for edge_in_path in path:
method = edge_in_path.value.method
method_data = edge_in_path.value.method_data
logging.info("find_state method %s" % method)
if method == "form":
form = method_data
try:
form_fill(driver, form)
except:
logging.error("NO FORM FILL IN xss_find_state")
def fix_form(self, form, payload_template, safe_attack):
alert_text = "%RAND"
# Optimization. If aggressive fuzzing doesn't add any new
# types of elements then skip it
only_aggressive = ["hidden", "radio", "checkbox", "select", "file"]
need_aggressive = False
for parameter in form.inputs:
if parameter.itype in only_aggressive:
need_aggressive = True
break
for parameter in form.inputs:
(lookup_id, payload) = self.arm_payload(payload_template)
if safe_attack:
# SAFE.
logging.debug("Starting SAFE attack")
# List all injectable input types text, textarea, etc.
if parameter.itype in ["text", "textarea", "password", "email"]:
# Arm the payload
form.inputs[parameter].value = payload
self.use_payload(lookup_id, (form,parameter,payload))
else:
logging.info("SAFE: Ignore parameter " + str(parameter))
elif need_aggressive:
# AGGRESSIVE
logging.debug("Starting AGGRESSIVE attack")
# List all injectable input types text, textarea, etc.
if parameter.itype in ["text", "textarea", "password", "email", "hidden"]:
# Arm the payload
form.inputs[parameter].value = payload
self.use_payload(lookup_id, (form,parameter,payload))
elif parameter.itype in ["radio", "checkbox", "select"]:
form.inputs[parameter].override_value = payload
self.use_payload(lookup_id, (form,parameter,payload))
elif parameter.itype == "file":
file_payload_template = "<img src=x onerror=xss(%RAND)>"
(lookup_id, payload) = self.arm_payload(file_payload_template)
form.inputs[parameter].value = payload
self.use_payload(lookup_id, (form,parameter,payload))
else:
logging.info("AGGRESSIVE: Ignore parameter " + str(parameter))
return form
def get_payloads(self):
payloads = []
# %RAND will be replaced, useful for tracking
alert_text = "%RAND"
xss_payloads = ["<script>xss("+alert_text+")</script>",
"\"'><script>xss("+alert_text+")</script>",
'<img src="x" onerror="xss('+alert_text+')">',
'<a href="" jaekpot-attribute="'+alert_text+'">jaekpot</a>',
'x" jaekpot-attribute="'+alert_text+'" fix=" ',
'x" onerror="xss('+alert_text+')"',
"</title></option><script>xss("+alert_text+")</script>",
]
# xss_payloads = ['<a href="" jaekpot-attribute="'+alert_text+'">jaekpot</a>']
return xss_payloads
def arm_payload(self, payload_template):
# IDs are strings to allow all strings as IDs in the attack table
lookup_id = str(random.randint(1,100000000))
payload = payload_template.replace("%RAND", lookup_id)
return (lookup_id, payload)
# Adds it to the attack table
def use_payload(self, lookup_id, vector_with_payload):
self.attack_lookup_table[str(lookup_id)] = {"injected": vector_with_payload,
"reflected": set()}
# Checks for successful injections
def inspect_attack(self, vector_edge):
successful_xss = set()
# attribute injections
attribute_injects = self.driver.find_elements_by_xpath("//*[@jaekpot-attribute]")
for attribute in attribute_injects:
lookup_id = attribute.get_attribute("jaekpot-attribute")
successful_xss.add(lookup_id)
self.reflected_payload(lookup_id, vector_edge)
xsses_json = self.driver.execute_script("return JSON.stringify(xss_array)")
lookup_ids = json.loads(xsses_json)
for lookup_id in lookup_ids:
successful_xss.add(lookup_id)
self.reflected_payload(lookup_id, vector_edge)
# Save successful attacks to file
if successful_xss:
f = open("successful_injections-"+self.session_id+".txt", "a+")
for xss in successful_xss:
attack_entry = self.get_table_entry(xss)
if attack_entry:
print("-"*50)
print("Found vulnerability: ", attack_entry)
print("-"*50)
#f.write( str(attack_entry) + "\n")
simple_entry = {'reflected': str(attack_entry['reflected']),
'injected': str(attack_entry['injected'])}
f.write( json.dumps(simple_entry) + "\n")
return successful_xss
def reflected_payload(self, lookup_id, location):
if str(lookup_id) in self.attack_lookup_table:
#self.attack_lookup_table[str(lookup_id)]["reflected"].append((self.driver.current_url, location))
self.attack_lookup_table[str(lookup_id)]["reflected"].add((self.driver.current_url, location))
else:
logging.warning("Could not find lookup_id %s, perhaps from an older attack session?" % lookup_id)
# Surprisingly tricky to get the string/int types right for numeric ids...
def get_table_entry(self, lookup_id):
if lookup_id in self.attack_lookup_table:
return self.attack_lookup_table[lookup_id]
if str(lookup_id) in self.attack_lookup_table:
return self.attack_lookup_table[str(lookup_id)]
logging.warning("Could not find lookup_id %s " % lookup_id)
return None
def execute_path(self, driver, path):
graph = self.graph
for edge_in_path in path:
method = edge_in_path.value.method
method_data = edge_in_path.value.method_data
logging.info("find_state method %s" % method)
if method == "get":
if allow_edge(graph, edge_in_path ):
driver.get(edge_in_path.n2.value.url)
self.inspect_attack(edge_in_path)
else:
logging.warning("Not allowed to get: " + str(edge_in_path.n2.value.url))
return False
elif method == "form":
form = method_data
try:
fill_result = form_fill(driver, form)
self.inspect_attack(edge_in_path)
if not fill_result:
logging.warning("Failed to fill form:" + str(form))
return False
except Exception as e:
print(e)
print(traceback.format_exc())
logging.error(e)
return False
elif method == "event":
event = method_data
execute_event(driver, event)
remove_alerts(driver)
self.inspect_attack(edge_in_path)
elif method == "iframe":
logging.info("iframe, do find_state")
if not find_state(driver, graph, edge_in_path):
logging.warning("Could not enter iframe" + str(edge_in_path))
return False
self.inspect_attack(edge_in_path)
elif method == "javascript":
# The javascript code is stored in the to-node
# "[11:]" gives everything after "javascript:"
js_code = edge_in_path.n2.value.url[11:]
try:
driver.execute_script(js_code)
self.inspect_attack(edge_in_path)
except Exception as e:
print(e)
print(traceback.format_exc())
logging.error(e)
return False
return True
def get_tracker(self):
letters = string.ascii_lowercase
return ''.join(random.choice(letters) for i in range(8))
def use_tracker(self, tracker, vector_with_payload):
self.io_graph[tracker] = {"injected": vector_with_payload,
"reflected": set()}
def inspect_tracker(self, vector_edge):
try:
body_text = self.driver.find_element_by_tag_name("body").text
for tracker in self.io_graph:
if tracker in body_text:
self.io_graph[tracker]['reflected'].add(vector_edge)
print("Found from tracker! " + str(vector_edge))
logging.info("Found from tracker! " + str(vector_edge))
#print(self.io_graph[tracker])
prev_edge = self.io_graph[tracker]['injected'][0]
attackable = prev_edge.value.method_data.attackable()
if attackable:
self.path_attack_form(self.driver, prev_edge, vector_edge)
except:
print("Failed to find tracker in body_text")
def track_form(self, driver, vector_edge):
successful_xss = set()
graph = self.graph
path = rec_find_path(graph, vector_edge)
form_edges = []
for edge in path:
if edge.value.method=="form":
form_edges.append(edge)
for form_edge in form_edges:
form = form_edge.value.method_data
tracker = self.get_tracker()
for parameter in form.inputs:
# List all injectable input types text, textarea, etc.
if parameter.itype == "text" or parameter.itype == "textarea":
# Arm the payload
form.inputs[parameter].value = tracker
self.use_tracker(tracker, (form_edge,parameter,tracker))
self.execute_path(driver, path)
# Inspect
inspect_tracker = self.inspect_tracker(vector_edge)
return successful_xss
def path_attack_form(self, driver, vector_edge, check_edge=None):
logging.info("ATTACKING VECTOR_EDGE: " + str(vector_edge))
successful_xss = set()
graph = self.graph
path = rec_find_path(graph, vector_edge)
logging.info("PATH LENGTH: " + str(len(path)))