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Decrypt KLAP data from PCAP files (#1041)

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Allows for decryption of pcap files capturing klap communication with devices.
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Carter Strickland 2024-07-15 07:18:43 -05:00 committed by GitHub
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27
devtools/README.md
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@ -99,3 +99,30 @@ id
New parser, parsing 100000 messages took 0.6339647499989951 seconds
Old parser, parsing 100000 messages took 9.473990250000497 seconds
```
## parse_pcap_klap
* A tool to allow KLAP data to be exported, in JSON, from a PCAP file of encrypted requests.
* NOTE: must install pyshark (`pip install pyshark`).
* pyshark requires Wireshark or tshark to be installed on windows and tshark to be installed
on linux (`apt get tshark`)
```shell
Usage: parse_pcap_klap.py [OPTIONS]
Export KLAP data in JSON format from a PCAP file.
Options:
--host TEXT the IP of the smart device as it appears in the pcap
file. [required]
--username TEXT Username/email address to authenticate to device.
[required]
--password TEXT Password to use to authenticate to device.
[required]
--pcap-file-path TEXT The path to the pcap file to parse. [required]
-o, --output TEXT The name of the output file, relative to the current
directory.
--help Show this message and exit.
```

307
devtools/parse_pcap_klap.py Executable file
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@ -0,0 +1,307 @@
#!/usr/bin/env python
"""
This code allow for the decryption of KlapV2 data from a pcap file.
It will output the decrypted data to a file.
This was designed and tested with a Tapo light strip setup using a cloud account.
"""
import codecs
import json
import re
from threading import Thread
import asyncclick as click
import pyshark
from cryptography.hazmat.primitives import padding
from kasa.credentials import Credentials
from kasa.deviceconfig import (
DeviceConfig,
DeviceConnectionParameters,
DeviceEncryptionType,
DeviceFamily,
)
from kasa.klaptransport import KlapEncryptionSession, KlapTransportV2
class MyEncryptionSession(KlapEncryptionSession):
"""A custom KlapEncryptionSession class that allows for decryption."""
def decrypt(self, msg):
"""Decrypt the data."""
decryptor = self._cipher.decryptor()
dp = decryptor.update(msg[32:]) + decryptor.finalize()
unpadder = padding.PKCS7(128).unpadder()
plaintextbytes = unpadder.update(dp) + unpadder.finalize()
return plaintextbytes.decode("utf-8", "bad_chars_replacement")
class Operator:
"""A class that handles the data decryption, and the encryption session updating."""
def __init__(self, klap, creds):
self._local_seed: bytes = None
self._remote_seed: bytes = None
self._session: MyEncryptionSession = None
self._creds = creds
self._klap: KlapTransportV2 = klap
self._auth_hash = self._klap.generate_auth_hash(self._creds)
self._local_auth_hash = None
self._remote_auth_hash = None
self._seq = 0
def update_encryption_session(self):
"""Update the encryption session used for decrypting data.
It is called whenever the local_seed, remote_seed,
or remote_auth_hash is updated.
It checks if the seeds are set and, if they are, creates a new session.
Raises:
ValueError: If the auth hashes do not match.
"""
if self._local_seed is None or self._remote_seed is None:
self._session = None
else:
self._local_auth_hash = self._klap.handshake1_seed_auth_hash(
self._local_seed, self._remote_seed, self._auth_hash
)
if (self._remote_auth_hash is not None) and (
self._local_auth_hash != self._remote_auth_hash
):
raise ValueError(
"Local and remote auth hashes do not match.\
This could mean an incorrect username and/or password."
)
self._session = MyEncryptionSession(
self._local_seed, self._remote_seed, self._auth_hash
)
self._session._seq = self._seq
self._session._generate_cipher()
@property
def seq(self) -> int:
"""Get the sequence number."""
return self._seq
@seq.setter
def seq(self, value: int):
if not isinstance(value, int):
raise ValueError("seq must be an integer")
self._seq = value
self.update_encryption_session()
@property
def local_seed(self) -> bytes:
"""Get the local seed."""
return self._local_seed
@local_seed.setter
def local_seed(self, value: bytes):
if not isinstance(value, bytes):
raise ValueError("local_seed must be bytes")
elif len(value) != 16:
raise ValueError("local_seed must be 16 bytes")
else:
self._local_seed = value
self.update_encryption_session()
@property
def remote_auth_hash(self) -> bytes:
"""Get the remote auth hash."""
return self._remote_auth_hash
@remote_auth_hash.setter
def remote_auth_hash(self, value: bytes):
print("setting remote_auth_hash")
if not isinstance(value, bytes):
raise ValueError("remote_auth_hash must be bytes")
elif len(value) != 32:
raise ValueError("remote_auth_hash must be 32 bytes")
else:
self._remote_auth_hash = value
self.update_encryption_session()
@property
def remote_seed(self) -> bytes:
"""Get the remote seed."""
return self._remote_seed
@remote_seed.setter
def remote_seed(self, value: bytes):
print("setting remote_seed")
if not isinstance(value, bytes):
raise ValueError("remote_seed must be bytes")
elif len(value) != 16:
raise ValueError("remote_seed must be 16 bytes")
else:
self._remote_seed = value
self.update_encryption_session()
# This function decrypts the data using the encryption session.
def decrypt(self, *args, **kwargs):
"""Decrypt the data using the encryption session."""
if self._session is None:
raise ValueError("No session available")
return self._session.decrypt(*args, **kwargs)
# This is a custom error handler that replaces bad characters with '*',
# in case something goes wrong in decryption.
# Without this, the decryption could yield an error.
def bad_chars_replacement(exception):
"""Replace bad characters with '*'."""
return ("*", exception.start + 1)
codecs.register_error("bad_chars_replacement", bad_chars_replacement)
def main(username, password, device_ip, pcap_file_path, output_json_name=None):
"""Run the main function."""
capture = pyshark.FileCapture(pcap_file_path, display_filter="http")
# In an effort to keep this code tied into the original code
# (so that this can hopefully leverage any future codebase updates inheriently),
# some weird initialization is done here
creds = Credentials(username, password)
fake_connection = DeviceConnectionParameters(
DeviceFamily.SmartTapoBulb, DeviceEncryptionType.Klap
)
fake_device = DeviceConfig(
device_ip, connection_type=fake_connection, credentials=creds
)
operator = Operator(KlapTransportV2(config=fake_device), creds)
packets = []
# pyshark is a little weird in how it handles iteration,
# so this is a workaround to allow for (advanced) iteration over the packets.
while True:
try:
packet = capture.next()
# packet_number = capture._current_packet
# we only care about http packets
if hasattr(
packet, "http"
): # this is redundant, as pyshark is set to only load http packets
if hasattr(packet.http, "request_uri_path"):
uri = packet.http.get("request_uri_path")
elif hasattr(packet.http, "request_uri"):
uri = packet.http.get("request_uri")
else:
uri = None
if hasattr(packet.http, "request_uri_query"):
query = packet.http.get("request_uri_query")
# use regex to get: seq=(\d+)
seq = re.search(r"seq=(\d+)", query)
if seq is not None:
operator.seq = int(
seq.group(1)
) # grab the sequence number from the query
data = (
# Windows and linux file_data attribute returns different
# pretty format so get the raw field value.
packet.http.get_field_value("file_data", raw=True)
if hasattr(packet.http, "file_data")
else None
)
match uri:
case "/app/request":
if packet.ip.dst != device_ip:
continue
message = bytes.fromhex(data)
try:
plaintext = operator.decrypt(message)
payload = json.loads(plaintext)
print(json.dumps(payload, indent=2))
packets.append(payload)
except ValueError:
print("Insufficient data to decrypt thus far")
case "/app/handshake1":
if packet.ip.dst != device_ip:
continue
message = bytes.fromhex(data)
operator.local_seed = message
response = None
while (
True
): # we are going to now look for the response to this request
response = capture.next()
if (
hasattr(response, "http")
and hasattr(response.http, "response_for_uri")
and (
response.http.response_for_uri
== packet.http.request_full_uri
)
):
break
data = response.http.get_field_value("file_data", raw=True)
message = bytes.fromhex(data)
operator.remote_seed = message[0:16]
operator.remote_auth_hash = message[16:]
case "/app/handshake2":
continue # we don't care about this
case _:
continue
except StopIteration:
break
# save the final array to a file
if output_json_name is not None:
with open(output_json_name, "w") as f:
f.write(json.dumps(packets, indent=2))
f.write("\n" * 1)
f.close()
@click.command()
@click.option(
"--host",
required=True,
help="the IP of the smart device as it appears in the pcap file.",
)
@click.option(
"--username",
required=True,
envvar="KASA_USERNAME",
help="Username/email address to authenticate to device.",
)
@click.option(
"--password",
required=True,
envvar="KASA_PASSWORD",
help="Password to use to authenticate to device.",
)
@click.option(
"--pcap-file-path",
required=True,
help="The path to the pcap file to parse.",
)
@click.option(
"-o",
"--output",
required=False,
help="The name of the output file, relative to the current directory.",
)
def cli(username, password, host, pcap_file_path, output):
"""Export KLAP data in JSON format from a PCAP file."""
# pyshark does not work within a running event loop and we don't want to
# install click as well as asyncclick so run in a new thread.
thread = Thread(
target=main, args=[username, password, host, pcap_file_path, output]
)
thread.start()
thread.join()
if __name__ == "__main__":
cli()

1
pyproject.toml
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@ -151,6 +151,7 @@ disable_error_code = "annotation-unchecked"
module = [
"devtools.bench.benchmark",
"devtools.parse_pcap",
"devtools.parse_pcap_klap",
"devtools.perftest",
"devtools.create_module_fixtures"
]