pypush-plus-plus/ids/identity.py
Kasherpete af41a96343
Daemon flag addition (#41)
* `--keepalive` flag added

* Time zones fixed, minor changes and bug fixes

* Update logging, `--daemon` is finished

* Reuse APNs connection when running `--daemon`

* Stability updates for `--daemon`

* refactor daemon code

---------

Co-authored-by: JJTech0130 <jjtech@jjtech.dev>
2023-11-01 20:59:13 -04:00

193 lines
No EOL
7.2 KiB
Python

import plistlib
from base64 import b64decode
import requests
from ._helpers import PROTOCOL_VERSION, USER_AGENT, KeyPair, parse_key, serialize_key
from .signing import add_auth_signature, armour_cert
from io import BytesIO
from cryptography.hazmat.primitives.asymmetric import ec, rsa
import logging
logger = logging.getLogger("ids")
class IDSIdentity:
def __init__(self, signing_key: str | None = None, encryption_key: str | None = None, signing_public_key: str | None = None, encryption_public_key: str | None = None):
if signing_key is not None:
self.signing_key = signing_key
self.signing_public_key = serialize_key(parse_key(signing_key).public_key())# type: ignore
elif signing_public_key is not None:
self.signing_key = None
self.signing_public_key = signing_public_key
else:
# Generate a new key
self.signing_key = serialize_key(ec.generate_private_key(ec.SECP256R1()))
self.signing_public_key = serialize_key(parse_key(self.signing_key).public_key())# type: ignore
if encryption_key is not None:
self.encryption_key = encryption_key
self.encryption_public_key = serialize_key(parse_key(encryption_key).public_key())# type: ignore
elif encryption_public_key is not None:
self.encryption_key = None
self.encryption_public_key = encryption_public_key
else:
self.encryption_key = serialize_key(rsa.generate_private_key(65537, 1280))
self.encryption_public_key = serialize_key(parse_key(self.encryption_key).public_key())# type: ignore
@staticmethod
def decode(inp: bytes) -> 'IDSIdentity':
input = BytesIO(inp)
assert input.read(5) == b'\x30\x81\xF6\x81\x43' # DER header
raw_ecdsa = input.read(67)
assert input.read(3) == b'\x82\x81\xAE' # DER header
raw_rsa = input.read(174)
# Parse the RSA key
raw_rsa = BytesIO(raw_rsa)
assert raw_rsa.read(2) == b'\x00\xAC' # Not sure what this is
assert raw_rsa.read(3) == b'\x30\x81\xA9' # Inner DER header
assert raw_rsa.read(3) == b'\x02\x81\xA1'
rsa_modulus = raw_rsa.read(161)
rsa_modulus = int.from_bytes(rsa_modulus, "big")
assert raw_rsa.read(5) == b'\x02\x03\x01\x00\x01' # Exponent, should always be 65537
# Parse the EC key
assert raw_ecdsa[:3] == b'\x00\x41\x04'
raw_ecdsa = raw_ecdsa[3:]
ec_x = int.from_bytes(raw_ecdsa[:32], "big")
ec_y = int.from_bytes(raw_ecdsa[32:], "big")
ec_key = ec.EllipticCurvePublicNumbers(ec_x, ec_y, ec.SECP256R1())
ec_key = ec_key.public_key()
rsa_key = rsa.RSAPublicNumbers(e=65537, n=rsa_modulus)
rsa_key = rsa_key.public_key()
return IDSIdentity(signing_public_key=serialize_key(ec_key), encryption_public_key=serialize_key(rsa_key))
def encode(self) -> bytes:
output = BytesIO()
raw_rsa = BytesIO()
raw_rsa.write(b'\x00\xAC')
raw_rsa.write(b'\x30\x81\xA9')
raw_rsa.write(b'\x02\x81\xA1')
raw_rsa.write(parse_key(self.encryption_public_key).public_numbers().n.to_bytes(161, "big")) # type: ignore
raw_rsa.write(b'\x02\x03\x01\x00\x01') # Hardcode the exponent
output.write(b'\x30\x81\xF6\x81\x43')
output.write(b'\x00\x41\x04')
output.write(parse_key(self.signing_public_key).public_numbers().x.to_bytes(32, "big"))# type: ignore
output.write(parse_key(self.signing_public_key).public_numbers().y.to_bytes(32, "big"))# type: ignore
output.write(b'\x82\x81\xAE')
output.write(raw_rsa.getvalue())
return output.getvalue()
import apns
from . import _helpers
import uuid
from base64 import b64encode
def register(
push_connection: apns.APNSConnection, signing_users: list[tuple[str, _helpers.KeyPair]], user_payloads: list[dict], validation_data, device_id: uuid.UUID
):
body = {
# TODO: Abstract this out
"device-name": "iPhone",
"hardware-version": "iPhone9,4",
"language": "en-US",
"os-version": "iPhone OS,15.7.5,19H332",
"software-version": "19H332",
# "private-device-data": {
# "ap": "1",
# "c": "#c8caca",
# "d": "717284928.014101",
# "dt": 2,
# "ec": "#dcdede",
# "gt": "0",
# "h": "1",
# "ktf": "0",
# "m": "1",
# "p": "1",
# "pb": "19H332",
# "pn": "iPhone OS",
# "pv": "15.7.5",
# "s": "1",
# "t": "1",
# "u": "68DCE294-AE02-4740-8AD8-9689A1470505",
# "v": "1",
# },
"services": [
{
"capabilities": [{"flags": 1, "name": "Messenger", "version": 1}],
"service": "com.apple.madrid",
"sub-services": ["com.apple.private.alloy.sms",
"com.apple.private.alloy.biz",
"com.apple.private.alloy.gamecenter.imessage"],
"users": user_payloads,
}
],
"validation-data": b64decode(validation_data),
# "validation-data": b64decode("""
# Au1sqv8fuZVdB2nCX4pVx3/s6FLDr5+bIzK+NUsMkjEhAAAA4AYAAAAAAAAAgA1uoKC3
# E4nBdWTD+QVCDx7Xu2Ih6ds2l02C5N1c2M2kCUHV1kMquP0ZtFe+UflhXdUJgapdkiN2
# Hn/L8GRMvfwIKZcPUUZXRFcjtE5UkwnWoTQ6pO37eDGV0ioggZJG1lv/zCEJDodB6qRB
# nqzdprSzIgQJKurqMkBqb8oCszd/AAAAAAAAAE8BbRfGn/FGhbN4rpbN/HDJu5yXCvcA
# AAA2CABPOkmSAuxjuaJK7fou9SkxZRCv+WrtU73TrSBnDLgZ60wRnlDQ7pHtRpFOQe99
# Us6D/TwC
# """.replace("\n", "").replace(" ", "")),
}
logger.debug(f"Sending IDS registration request: {body}")
body = plistlib.dumps(body)
# Construct headers
headers = {
"x-protocol-version": PROTOCOL_VERSION,
}
for i, (user_id, keypair) in enumerate(signing_users):
headers[f"x-auth-user-id-{i}"] = user_id
add_auth_signature(headers, body, "id-register", keypair, _helpers.get_key_pair(push_connection.credentials), b64encode(push_connection.credentials.token).decode(), i)
logger.debug(f"Headers: {headers}")
r = requests.post(
"https://identity.ess.apple.com/WebObjects/TDIdentityService.woa/wa/register",
headers=headers,
data=body,
verify=False,
)
r = plistlib.loads(r.content)
logger.debug(f"Received response to IDS registration: {r}")
if "status" in r and r["status"] == 6004:
raise Exception("Validation data expired!")
# TODO: Do validation of nested statuses
if "status" in r and r["status"] != 0:
raise Exception(f"Failed to register: {r}")
if not "services" in r:
raise Exception(f"No services in response: {r}")
if not "users" in r["services"][0]:
raise Exception(f"No users in response: {r}")
output = {}
for user in r["services"][0]["users"]:
if not "cert" in user:
raise Exception(f"No cert in response: {r}")
for uri in user["uris"]:
if uri["status"] != 0:
raise Exception(f"Failed to register URI {uri['uri']}: {r}")
output[user["user-id"]] = armour_cert(user["cert"])
return output