pypush-plus-plus/emulated/nac.py
2023-07-23 15:47:35 -04:00

417 lines
No EOL
13 KiB
Python

import hashlib
from . import mparser as macholibre
from .jelly import Jelly
import plistlib
BINARY_HASH = "e1181ccad82e6629d52c6a006645ad87ee59bd13"
BINARY_PATH = "emulated/IMDAppleServices"
BINARY_URL = "https://github.com/JJTech0130/nacserver/raw/main/IMDAppleServices"
FAKE_DATA = plistlib.load(open("emulated/data.plist", "rb"))
def load_binary() -> bytes:
# Open the file at BINARY_PATH, check the hash, and return the binary
# If the hash doesn't match, raise an exception
# Download the binary if it doesn't exist
import os, requests
if not os.path.exists(BINARY_PATH):
print("Downloading binary...")
resp = requests.get(BINARY_URL)
b = resp.content
# Save the binary
open(BINARY_PATH, "wb").write(b)
else:
b = open(BINARY_PATH, "rb").read()
if hashlib.sha1(b).hexdigest() != BINARY_HASH:
raise Exception("Hashes don't match")
return b
def get_x64_slice(binary: bytes) -> bytes:
# Get the x64 slice of the binary
# If there is no x64 slice, raise an exception
p = macholibre.Parser(binary)
# Parse the binary to find the x64 slice
off, size = p.u_get_offset(cpu_type="X86_64")
return binary[off : off + size]
def nac_init(j: Jelly, cert: bytes):
# Allocate memory for the cert
cert_addr = j.malloc(len(cert))
j.uc.mem_write(cert_addr, cert)
# Allocate memory for the outputs
out_validation_ctx_addr = j.malloc(8)
out_request_bytes_addr = j.malloc(8)
out_request_len_addr = j.malloc(8)
# Call the function
ret = j.instr.call(
0xB1DB0,
[
cert_addr,
len(cert),
out_validation_ctx_addr,
out_request_bytes_addr,
out_request_len_addr,
],
)
#print(hex(ret))
if ret != 0:
n = ret & 0xffffffff
n = (n ^ 0x80000000) - 0x80000000
raise Exception(f"Error calling nac_init: {n}")
# Get the outputs
validation_ctx_addr = j.uc.mem_read(out_validation_ctx_addr, 8)
request_bytes_addr = j.uc.mem_read(out_request_bytes_addr, 8)
request_len = j.uc.mem_read(out_request_len_addr, 8)
request_bytes_addr = int.from_bytes(request_bytes_addr, 'little')
request_len = int.from_bytes(request_len, 'little')
print(f"Request @ {hex(request_bytes_addr)} : {hex(request_len)}")
request = j.uc.mem_read(request_bytes_addr, request_len)
validation_ctx_addr = int.from_bytes(validation_ctx_addr, 'little')
return validation_ctx_addr, request
def nac_submit(j: Jelly, validation_ctx: int, response: bytes):
response_addr = j.malloc(len(response))
j.uc.mem_write(response_addr, response)
ret = j.instr.call(
0xB1DD0,
[
validation_ctx,
response_addr,
len(response),
],
)
if ret != 0:
n = ret & 0xffffffff
n = (n ^ 0x80000000) - 0x80000000
raise Exception(f"Error calling nac_submit: {n}")
def nac_generate(j: Jelly, validation_ctx: int):
#void *validation_ctx, void *unk_bytes, int unk_len,
# void **validation_data, int *validation_data_len
out_validation_data_addr = j.malloc(8)
out_validation_data_len_addr = j.malloc(8)
ret = j.instr.call(
0xB1DF0,
[
validation_ctx,
0,
0,
out_validation_data_addr,
out_validation_data_len_addr,
],
)
if ret != 0:
n = ret & 0xffffffff
n = (n ^ 0x80000000) - 0x80000000
raise Exception(f"Error calling nac_generate: {n}")
validation_data_addr = j.uc.mem_read(out_validation_data_addr, 8)
validation_data_len = j.uc.mem_read(out_validation_data_len_addr, 8)
validation_data_addr = int.from_bytes(validation_data_addr, 'little')
validation_data_len = int.from_bytes(validation_data_len, 'little')
validation_data = j.uc.mem_read(validation_data_addr, validation_data_len)
return validation_data
def hook_code(uc, address: int, size: int, user_data):
print(">>> Tracing instruction at 0x%x, instruction size = 0x%x" % (address, size))
def malloc(j: Jelly, len: int) -> int:
# Hook malloc
# Return the address of the allocated memory
#print("malloc hook called with len = %d" % len)
return j.malloc(len)
def memset_chk(j: Jelly, dest: int, c: int, len: int, destlen: int):
print(
"memset_chk called with dest = 0x%x, c = 0x%x, len = 0x%x, destlen = 0x%x"
% (dest, c, len, destlen)
)
j.uc.mem_write(dest, bytes([c]) * len)
return 0
def sysctlbyname(j: Jelly):
return 0 # The output is not checked
def memcpy(j: Jelly, dest: int, src: int, len: int):
print("memcpy called with dest = 0x%x, src = 0x%x, len = 0x%x" % (dest, src, len))
orig = j.uc.mem_read(src, len)
j.uc.mem_write(dest, bytes(orig))
return 0
CF_OBJECTS = []
# struct __builtin_CFString {
# int *isa; // point to __CFConstantStringClassReference
# int flags;
# const char *str;
# long length;
# }
import struct
def _parse_cfstr_ptr(j: Jelly, ptr: int) -> str:
size = struct.calcsize("<QQQQ")
data = j.uc.mem_read(ptr, size)
isa, flags, str_ptr, length = struct.unpack("<QQQQ", data)
str_data = j.uc.mem_read(str_ptr, length)
return str_data.decode("utf-8")
def _parse_cstr_ptr(j: Jelly, ptr: int) -> str:
data = j.uc.mem_read(ptr, 256) # Lazy way to do it
return data.split(b"\x00")[0].decode("utf-8")
def IORegistryEntryCreateCFProperty(j: Jelly, entry: int, key: int, allocator: int, options: int):
key_str = _parse_cfstr_ptr(j, key)
if key_str in FAKE_DATA["iokit"]:
fake = FAKE_DATA["iokit"][key_str]
print(f"IOKit Entry: {key_str} -> {fake}")
# Return the index of the fake data in CF_OBJECTS
CF_OBJECTS.append(fake)
return len(CF_OBJECTS) # NOTE: We will have to subtract 1 from this later, can't return 0 here since that means NULL
else:
print(f"IOKit Entry: {key_str} -> None")
return 0
def CFGetTypeID(j: Jelly, obj: int):
obj = CF_OBJECTS[obj - 1]
if isinstance(obj, bytes):
return 1
elif isinstance(obj, str):
return 2
else:
raise Exception("Unknown CF object type")
def CFDataGetLength(j: Jelly, obj: int):
obj = CF_OBJECTS[obj - 1]
if isinstance(obj, bytes):
return len(obj)
else:
raise Exception("Unknown CF object type")
def CFDataGetBytes(j: Jelly, obj: int, range_start: int, range_end: int, buf: int):
obj = CF_OBJECTS[obj - 1]
if isinstance(obj, bytes):
data = obj[range_start:range_end]
j.uc.mem_write(buf, data)
print(f"CFDataGetBytes: {hex(range_start)}-{hex(range_end)} -> {hex(buf)}")
return len(data)
else:
raise Exception("Unknown CF object type")
def CFDictionaryCreateMutable(j: Jelly) -> int:
CF_OBJECTS.append({})
return len(CF_OBJECTS)
def maybe_object_maybe_string(j: Jelly, obj: int):
# If it's already a str
if isinstance(obj, str):
return obj
elif obj > len(CF_OBJECTS):
return obj
#raise Exception(f"WTF: {hex(obj)}")
# This is probably a CFString
# return _parse_cfstr_ptr(j, obj)
else:
return CF_OBJECTS[obj - 1]
def CFDictionaryGetValue(j: Jelly, d: int, key: int) -> int:
print(f"CFDictionaryGetValue: {d} {hex(key)}")
d = CF_OBJECTS[d - 1]
if key == 0xc3c3c3c3c3c3c3c3:
key = "DADiskDescriptionVolumeUUIDKey" # Weirdness, this is a hack
key = maybe_object_maybe_string(j, key)
if isinstance(d, dict):
if key in d:
val = d[key]
print(f"CFDictionaryGetValue: {key} -> {val}")
CF_OBJECTS.append(val)
return len(CF_OBJECTS)
else:
raise Exception("Key not found")
return 0
else:
raise Exception("Unknown CF object type")
def CFDictionarySetValue(j: Jelly, d: int, key: int, val: int):
d = CF_OBJECTS[d - 1]
key = maybe_object_maybe_string(j, key)
val = maybe_object_maybe_string(j, val)
if isinstance(d, dict):
d[key] = val
else:
raise Exception("Unknown CF object type")
def DADiskCopyDescription(j: Jelly) -> int:
description = CFDictionaryCreateMutable(j)
CFDictionarySetValue(j, description, "DADiskDescriptionVolumeUUIDKey", FAKE_DATA["root_disk_uuid"])
return description
def CFStringCreate(j: Jelly, string: str) -> int:
CF_OBJECTS.append(string)
return len(CF_OBJECTS)
def CFStringGetLength(j: Jelly, string: int) -> int:
string = CF_OBJECTS[string - 1]
if isinstance(string, str):
return len(string)
else:
raise Exception("Unknown CF object type")
def CFStringGetCString(j: Jelly, string: int, buf: int, buf_len: int, encoding: int) -> int:
string = CF_OBJECTS[string - 1]
if isinstance(string, str):
data = string.encode("utf-8")
j.uc.mem_write(buf, data)
print(f"CFStringGetCString: {string} -> {hex(buf)}")
return len(data)
else:
raise Exception("Unknown CF object type")
def IOServiceMatching(j: Jelly, name: int) -> int:
# Read the raw c string pointed to by name
name = _parse_cstr_ptr(j, name)
print(f"IOServiceMatching: {name}")
# Create a CFString from the name
name = CFStringCreate(j, name)
# Create a dictionary
d = CFDictionaryCreateMutable(j)
# Set the key "IOProviderClass" to the name
CFDictionarySetValue(j, d, "IOProviderClass", name)
# Return the dictionary
return d
def IOServiceGetMatchingService(j: Jelly) -> int:
return 92
ETH_ITERATOR_HACK = False
def IOServiceGetMatchingServices(j: Jelly, port, match, existing) -> int:
global ETH_ITERATOR_HACK
ETH_ITERATOR_HACK = True
# Write 93 to existing
j.uc.mem_write(existing, bytes([93]))
return 0
def IOIteratorNext(j: Jelly, iterator: int) -> int:
global ETH_ITERATOR_HACK
if ETH_ITERATOR_HACK:
ETH_ITERATOR_HACK = False
return 94
else:
return 0
def bzero(j: Jelly, ptr: int, len: int):
j.uc.mem_write(ptr, bytes([0]) * len)
return 0
def IORegistryEntryGetParentEntry(j: Jelly, entry: int, _, parent: int) -> int:
j.uc.mem_write(parent, bytes([entry + 100]))
return 0
import requests, plistlib
def get_cert():
resp = requests.get("http://static.ess.apple.com/identity/validation/cert-1.0.plist")
resp = plistlib.loads(resp.content)
return resp["cert"]
def get_session_info(req: bytes) -> bytes:
body = {
'session-info-request': req,
}
body = plistlib.dumps(body)
resp = requests.post("https://identity.ess.apple.com/WebObjects/TDIdentityService.woa/wa/initializeValidation", data=body, verify=False)
resp = plistlib.loads(resp.content)
return resp["session-info"]
def arc4random(j: Jelly) -> int:
import random
return random.randint(0, 0xFFFFFFFF)
#return 0
def load_nac() -> Jelly:
binary = load_binary()
binary = get_x64_slice(binary)
# Create a Jelly object from the binary
j = Jelly(binary)
hooks = {
"_malloc": malloc,
"___stack_chk_guard": lambda: 0,
"___memset_chk": memset_chk,
"_sysctlbyname": lambda _: 0,
"_memcpy": memcpy,
"_kIOMasterPortDefault": lambda: 0,
"_IORegistryEntryFromPath": lambda _: 1,
"_kCFAllocatorDefault": lambda: 0,
"_IORegistryEntryCreateCFProperty": IORegistryEntryCreateCFProperty,
"_CFGetTypeID": CFGetTypeID,
"_CFStringGetTypeID": lambda _: 2,
"_CFDataGetTypeID": lambda _: 1,
"_CFDataGetLength": CFDataGetLength,
"_CFDataGetBytes": CFDataGetBytes,
"_CFRelease": lambda _: 0,
"_IOObjectRelease": lambda _: 0,
"_statfs$INODE64": lambda _: 0,
"_DASessionCreate": lambda _: 201,
"_DADiskCreateFromBSDName": lambda _: 202,
"_kDADiskDescriptionVolumeUUIDKey": lambda: 0,
"_DADiskCopyDescription": DADiskCopyDescription,
"_CFDictionaryGetValue": CFDictionaryGetValue,
"_CFUUIDCreateString": lambda _, __, uuid: uuid,
"_CFStringGetLength": CFStringGetLength,
"_CFStringGetMaximumSizeForEncoding": lambda _, length, __: length,
"_CFStringGetCString": CFStringGetCString,
"_free": lambda _: 0,
"_IOServiceMatching": IOServiceMatching,
"_IOServiceGetMatchingService": IOServiceGetMatchingService,
"_CFDictionaryCreateMutable": CFDictionaryCreateMutable,
"_kCFBooleanTrue": lambda: 0,
"_CFDictionarySetValue": CFDictionarySetValue,
"_IOServiceGetMatchingServices": IOServiceGetMatchingServices,
"_IOIteratorNext": IOIteratorNext,
"___bzero": bzero,
"_IORegistryEntryGetParentEntry": IORegistryEntryGetParentEntry,
"_arc4random": arc4random
}
j.setup(hooks)
return j
def generate_validation_data() -> bytes:
j = load_nac()
val_ctx, req = nac_init(j,get_cert())
session_info = get_session_info(req)
nac_submit(j, val_ctx, session_info)
val_data = nac_generate(j, val_ctx)
return bytes(val_data)
if __name__ == "__main__":
from base64 import b64encode
val_data = generate_validation_data()
print(f"Validation Data: {b64encode(val_data).decode()}")
#main()
else:
# lazy hack: Disable print so that it's clean when not debugging
print = lambda *args, **kwargs: None