morgan/bitwarden-desktop-agent
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Morgan
2026-03-18 17:47:10 +09:00
committed by Morgan J.
commit 891b1941bd
12 changed files with 827 additions and 0 deletions
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1
.gitignore vendored Normal file
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__pycache__/

141
auth.py Normal file
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import base64
import hashlib
import hmac
import json
import sys
import urllib.parse
import urllib.request
import uuid
import log
from crypto import SymmetricKey, enc_string_decrypt_bytes
def login(email: str, password: str, server: str) -> tuple[bytes, str]:
base = server.rstrip("/")
if "bitwarden.com" in base or "bitwarden.eu" in base:
api = base.replace("vault.", "api.")
identity = base.replace("vault.", "identity.")
else:
api, identity = base + "/api", base + "/identity"
log.info(f"prelogin {api}/accounts/prelogin")
prelogin = _json_post(f"{api}/accounts/prelogin", {"email": email})
kdf_type = prelogin.get("kdf", prelogin.get("Kdf", 0))
kdf_iter = prelogin.get("kdfIterations", prelogin.get("KdfIterations", 600000))
kdf_mem = prelogin.get("kdfMemory", prelogin.get("KdfMemory", 64))
kdf_par = prelogin.get("kdfParallelism", prelogin.get("KdfParallelism", 4))
kdf_name = "pbkdf2" if kdf_type == 0 else "argon2id"
log.info(f"kdf: {kdf_name} iterations={kdf_iter}")
log.info("deriving master key...")
master_key = _derive_master_key(password, email, kdf_type, kdf_iter, kdf_mem, kdf_par)
pw_hash = base64.b64encode(
hashlib.pbkdf2_hmac("sha256", master_key, password.encode(), 1, dklen=32)
).decode()
form = {
"grant_type": "password", "username": email, "password": pw_hash,
"scope": "api offline_access", "client_id": "connector",
"deviceType": "8", "deviceIdentifier": str(uuid.uuid4()), "deviceName": "bw-bridge",
}
log.info(f"token {identity}/connect/token")
token_resp = _try_login(f"{identity}/connect/token", form)
enc_user_key = _extract_encrypted_user_key(token_resp)
log.info("decrypting user key...")
stretched = _stretch(master_key)
user_key_bytes = enc_string_decrypt_bytes(enc_user_key, stretched)
user_id = _extract_user_id(token_resp.get("access_token", ""))
log.info(f"user key decrypted ({len(user_key_bytes)}B)")
return user_key_bytes, user_id
def _try_login(url: str, form: dict) -> dict:
headers = {
"Content-Type": "application/x-www-form-urlencoded; charset=utf-8",
"Accept": "application/json", "Device-Type": "8",
}
try:
return _form_post(url, form, headers)
except _HttpError as e:
if "TwoFactor" not in e.body:
log.fatal(f"login failed: {e.body[:200]}")
body = json.loads(e.body)
providers = body.get("TwoFactorProviders2", body.get("twoFactorProviders2", {}))
if "0" not in providers and 0 not in providers:
log.fatal("2FA required but TOTP not available for this account")
log.info("TOTP required")
code = input("TOTP code: ").strip()
form["twoFactorToken"] = code
form["twoFactorProvider"] = "0"
return _form_post(url, form, headers)
def _extract_encrypted_user_key(resp: dict) -> str:
udo = resp.get("UserDecryptionOptions", resp.get("userDecryptionOptions"))
if udo:
mpu = udo.get("MasterPasswordUnlock", udo.get("masterPasswordUnlock"))
if mpu:
k = mpu.get("MasterKeyEncryptedUserKey", mpu.get("masterKeyEncryptedUserKey"))
if k:
return k
k = resp.get("Key", resp.get("key"))
if k:
return k
log.fatal("no encrypted user key in server response")
def _extract_user_id(token: str) -> str:
try:
payload = token.split(".")[1]
payload += "=" * (4 - len(payload) % 4)
return json.loads(base64.urlsafe_b64decode(payload)).get("sub", "unknown")
except Exception:
return "unknown"
def _derive_master_key(pw: str, email: str, kdf: int, iters: int, mem: int, par: int) -> bytes:
salt = email.lower().strip().encode()
if kdf == 0:
return hashlib.pbkdf2_hmac("sha256", pw.encode(), salt, iters, dklen=32)
if kdf == 1:
from argon2.low_level import hash_secret_raw, Type
return hash_secret_raw(
secret=pw.encode(), salt=salt, time_cost=iters,
memory_cost=mem * 1024, parallelism=par, hash_len=32, type=Type.ID,
)
log.fatal(f"unsupported kdf type: {kdf}")
def _stretch(master_key: bytes) -> SymmetricKey:
enc = hmac.new(master_key, b"enc\x01", hashlib.sha256).digest()
mac = hmac.new(master_key, b"mac\x01", hashlib.sha256).digest()
return SymmetricKey(enc + mac)
class _HttpError(Exception):
def __init__(self, code: int, body: str):
self.code, self.body = code, body
super().__init__(f"HTTP {code}")
def _json_post(url: str, data: dict) -> dict:
req = urllib.request.Request(url, json.dumps(data).encode(),
{"Content-Type": "application/json"})
with urllib.request.urlopen(req) as r:
return json.loads(r.read())
def _form_post(url: str, form: dict, headers: dict) -> dict:
req = urllib.request.Request(url, urllib.parse.urlencode(form).encode(), headers)
try:
with urllib.request.urlopen(req) as r:
return json.loads(r.read())
except urllib.error.HTTPError as e:
raise _HttpError(e.code, e.read().decode()) from e

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bridge.py Normal file
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#!/usr/bin/env python3
import argparse
import getpass
import hashlib
import log
from auth import login
from ipc import get_socket_path, serve
from native_messaging import BiometricBridge
from storage import get_backend
def user_hash(email: str) -> str:
return hashlib.sha256(email.lower().strip().encode()).hexdigest()[:16]
def main():
p = argparse.ArgumentParser(description="Bitwarden desktop bridge agent")
p.add_argument("--email", required=True)
p.add_argument("--password")
p.add_argument("--server", default="https://vault.bitwarden.com")
p.add_argument("--backend", choices=["tpm2", "pin"])
p.add_argument("--enroll", action="store_true", help="re-login and re-seal key")
args = p.parse_args()
uid = user_hash(args.email)
store = get_backend(args.backend)
log.info(f"storage backend: {store.name}")
if not store.has_key(uid) or args.enroll:
if not store.has_key(uid):
log.info(f"no sealed key found, need to enroll")
else:
log.info(f"re-enrolling (--enroll)")
pw = args.password or getpass.getpass("master password: ")
log.info(f"logging in as {args.email} ...")
key_bytes, server_uid = login(args.email, pw, args.server)
log.info(f"authenticated, user_id={server_uid}")
auth = getpass.getpass(f"choose {store.name} password: ")
auth2 = getpass.getpass(f"confirm: ")
if auth != auth2:
log.fatal("passwords don't match")
store.store(uid, key_bytes, auth)
log.info(f"user key sealed via {store.name}")
else:
log.info(f"sealed key ready for {args.email}")
bridge = BiometricBridge(store, uid)
sock = get_socket_path()
log.info(f"listening on {sock}")
serve(sock, bridge)
if __name__ == "__main__":
main()

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crypto.py Normal file
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import base64
import hashlib
import hmac
import os
from cryptography.hazmat.primitives import padding as sym_padding
from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes
class SymmetricKey:
def __init__(self, raw: bytes):
if len(raw) != 64:
raise ValueError(f"Expected 64 bytes, got {len(raw)}")
self.raw = raw
self.enc_key = raw[:32]
self.mac_key = raw[32:]
def to_b64(self) -> str:
return base64.b64encode(self.raw).decode()
@classmethod
def from_b64(cls, b64: str) -> "SymmetricKey":
return cls(base64.b64decode(b64))
@classmethod
def generate(cls) -> "SymmetricKey":
return cls(os.urandom(64))
def enc_string_encrypt(plaintext: str, key: SymmetricKey) -> str:
iv = os.urandom(16)
cipher = Cipher(algorithms.AES(key.enc_key), modes.CBC(iv))
padder = sym_padding.PKCS7(128).padder()
padded = padder.update(plaintext.encode()) + padder.finalize()
enc = cipher.encryptor()
ct = enc.update(padded) + enc.finalize()
mac = hmac.new(key.mac_key, iv + ct, hashlib.sha256).digest()
return f"2.{base64.b64encode(iv).decode()}|{base64.b64encode(ct).decode()}|{base64.b64encode(mac).decode()}"
def enc_string_decrypt(enc_str: str, key: SymmetricKey) -> str:
t, rest = enc_str.split(".", 1)
if t != "2":
raise ValueError(f"Unsupported type {t}")
parts = rest.split("|")
iv = base64.b64decode(parts[0])
ct = base64.b64decode(parts[1])
mac_got = base64.b64decode(parts[2])
if not hmac.compare_digest(mac_got, hmac.new(key.mac_key, iv + ct, hashlib.sha256).digest()):
raise ValueError("MAC mismatch")
dec = Cipher(algorithms.AES(key.enc_key), modes.CBC(iv)).decryptor()
padded = dec.update(ct) + dec.finalize()
unpadder = sym_padding.PKCS7(128).unpadder()
return (unpadder.update(padded) + unpadder.finalize()).decode()
def enc_string_decrypt_bytes(enc_str: str, key: SymmetricKey) -> bytes:
t, rest = enc_str.split(".", 1)
parts = rest.split("|")
iv = base64.b64decode(parts[0])
ct = base64.b64decode(parts[1])
mac_got = base64.b64decode(parts[2]) if len(parts) > 2 else None
if mac_got and not hmac.compare_digest(mac_got, hmac.new(key.mac_key, iv + ct, hashlib.sha256).digest()):
raise ValueError("MAC mismatch")
dec = Cipher(algorithms.AES(key.enc_key), modes.CBC(iv)).decryptor()
padded = dec.update(ct) + dec.finalize()
unpadder = sym_padding.PKCS7(128).unpadder()
return unpadder.update(padded) + unpadder.finalize()
def enc_string_to_dict(enc_str: str) -> dict:
t, rest = enc_str.split(".", 1)
parts = rest.split("|")
d = {"encryptionType": int(t), "encryptedString": enc_str}
if len(parts) >= 1: d["iv"] = parts[0]
if len(parts) >= 2: d["data"] = parts[1]
if len(parts) >= 3: d["mac"] = parts[2]
return d
def dict_to_enc_string(d: dict) -> str:
if d.get("encryptedString"):
return d["encryptedString"]
return f"{d.get('encryptionType', 2)}.{d.get('iv', '')}|{d.get('data', '')}|{d.get('mac', '')}"

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desktop_proxy.py Normal file
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#!/usr/bin/env python3
import os
import socket
import struct
import sys
import threading
from pathlib import Path
def ipc_socket_path() -> str:
return str(Path.home() / ".librewolf" / "s.bw")
def read_stdin_message() -> bytes | None:
header = sys.stdin.buffer.read(4)
if len(header) < 4:
return None
length = struct.unpack("=I", header)[0]
if length == 0 or length > 1024 * 1024:
return None
data = sys.stdin.buffer.read(length)
if len(data) < length:
return None
return data
def write_stdout_message(data: bytes):
header = struct.pack("=I", len(data))
sys.stdout.buffer.write(header + data)
sys.stdout.buffer.flush()
def read_ipc_message(sock: socket.socket) -> bytes | None:
header = recv_exact(sock, 4)
if header is None:
return None
length = struct.unpack("=I", header)[0]
if length == 0 or length > 1024 * 1024:
return None
return recv_exact(sock, length)
def send_ipc_message(sock: socket.socket, data: bytes):
sock.sendall(struct.pack("=I", len(data)) + data)
def recv_exact(sock: socket.socket, n: int) -> bytes | None:
buf = b""
while len(buf) < n:
chunk = sock.recv(n - len(buf))
if not chunk:
return None
buf += chunk
return buf
def ipc_to_stdout(sock: socket.socket):
try:
while True:
msg = read_ipc_message(sock)
if msg is None:
break
write_stdout_message(msg)
except (ConnectionResetError, BrokenPipeError, OSError):
pass
def main():
path = ipc_socket_path()
sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
try:
sock.connect(path)
except (FileNotFoundError, ConnectionRefusedError):
sys.exit(1)
send_ipc_message(sock, b'{"command":"connected"}')
reader = threading.Thread(target=ipc_to_stdout, args=(sock,), daemon=True)
reader.start()
try:
while True:
msg = read_stdin_message()
if msg is None:
break
send_ipc_message(sock, msg)
except (BrokenPipeError, OSError):
pass
finally:
try:
send_ipc_message(sock, b'{"command":"disconnected"}')
except OSError:
pass
sock.close()
if __name__ == "__main__":
main()

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gui.py Normal file
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import shutil
import subprocess
import sys
def ask_password(title: str = "Bitwarden", prompt: str = "Unlock password:") -> str | None:
if sys.platform == "darwin":
return _osascript(title, prompt)
if shutil.which("zenity"):
return _zenity(title, prompt)
return None
def _osascript(title: str, prompt: str) -> str | None:
script = (
f'display dialog "{prompt}" with title "{title}" '
f'default answer "" with hidden answer buttons {{"Cancel","OK"}} default button "OK"'
)
r = subprocess.run(
["osascript", "-e", script],
capture_output=True, text=True,
)
if r.returncode != 0:
return None
for part in r.stdout.strip().split(","):
if "text returned:" in part:
return part.split("text returned:")[1].strip()
return None
def _zenity(title: str, prompt: str) -> str | None:
r = subprocess.run(
["zenity", "--entry", "--hide-text", "--title", "", "--text", prompt,
"--width", "300", "--window-icon", "dialog-password"],
capture_output=True, text=True,
)
return r.stdout.strip() or None if r.returncode == 0 else None

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ipc.py Normal file
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import json
import os
import socket
import struct
from pathlib import Path
import log
def get_socket_path() -> Path:
cache = Path.home() / ".cache" / "com.bitwarden.desktop"
cache.mkdir(parents=True, exist_ok=True)
return cache / "s.bw"
def recv_exact(conn: socket.socket, n: int) -> bytes | None:
buf = b""
while len(buf) < n:
chunk = conn.recv(n - len(buf))
if not chunk:
return None
buf += chunk
return buf
def read_message(conn: socket.socket) -> dict | None:
header = recv_exact(conn, 4)
if not header:
return None
length = struct.unpack("=I", header)[0]
if length == 0 or length > 1024 * 1024:
return None
data = recv_exact(conn, length)
if not data:
return None
return json.loads(data)
def send_message(conn: socket.socket, msg: dict):
data = json.dumps(msg).encode()
conn.sendall(struct.pack("=I", len(data)) + data)
def serve(sock_path: Path, handler):
if sock_path.exists():
sock_path.unlink()
srv = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
srv.bind(str(sock_path))
srv.listen(5)
os.chmod(str(sock_path), 0o600)
try:
while True:
conn, _ = srv.accept()
log.info("client connected")
_handle_conn(conn, handler)
log.info("client disconnected")
except KeyboardInterrupt:
log.info("shutting down")
finally:
srv.close()
if sock_path.exists():
sock_path.unlink()
def _handle_conn(conn: socket.socket, handler):
try:
while True:
msg = read_message(conn)
if msg is None:
break
if "command" in msg and "appId" not in msg:
log.info(f"proxy: {msg.get('command')}")
continue
resp = handler(msg)
if resp is not None:
send_message(conn, resp)
except (ConnectionResetError, BrokenPipeError):
pass
finally:
conn.close()

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log.py Normal file
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import sys
import time
_start = time.monotonic()
def _ts() -> str:
elapsed = time.monotonic() - _start
return f"{elapsed:8.3f}"
def info(msg: str):
print(f"[{_ts()}] {msg}", file=sys.stderr, flush=True)
def warn(msg: str):
print(f"[{_ts()}] WARN {msg}", file=sys.stderr, flush=True)
def error(msg: str):
print(f"[{_ts()}] ERROR {msg}", file=sys.stderr, flush=True)
def fatal(msg: str):
error(msg)
sys.exit(1)

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native_messaging.py Normal file
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import base64
import json
import time
from cryptography.hazmat.primitives import hashes, serialization
from cryptography.hazmat.primitives.asymmetric import padding as asym_padding
import log
from crypto import SymmetricKey, enc_string_encrypt, enc_string_decrypt, enc_string_to_dict, dict_to_enc_string
from gui import ask_password
from storage import KeyStore
class BiometricBridge:
def __init__(self, store: KeyStore, user_id: str):
self._store = store
self._uid = user_id
self._sessions: dict[str, SymmetricKey] = {}
def __call__(self, msg: dict) -> dict | None:
app_id = msg.get("appId", "")
message = msg.get("message")
if message is None:
return None
if isinstance(message, dict) and message.get("command") == "setupEncryption":
return self._handshake(app_id, message)
if isinstance(message, dict) and ("encryptedString" in message or "encryptionType" in message):
return self._encrypted(app_id, message)
if isinstance(message, str) and message.startswith("2."):
return self._encrypted(app_id, {"encryptedString": message})
return None
def _handshake(self, app_id: str, msg: dict) -> dict:
pub_bytes = base64.b64decode(msg.get("publicKey", ""))
pub_key = serialization.load_der_public_key(pub_bytes)
shared = SymmetricKey.generate()
self._sessions[app_id] = shared
encrypted = pub_key.encrypt(
shared.raw,
asym_padding.OAEP(
mgf=asym_padding.MGF1(algorithm=hashes.SHA1()),
algorithm=hashes.SHA1(), label=None,
),
)
log.info(f"handshake complete, app={app_id[:12]}")
return {
"appId": app_id,
"command": "setupEncryption",
"messageId": -1,
"sharedSecret": base64.b64encode(encrypted).decode(),
}
def _encrypted(self, app_id: str, enc_msg: dict) -> dict | None:
if app_id not in self._sessions:
log.warn(f"no session for app={app_id[:12]}")
return {"appId": app_id, "command": "invalidateEncryption"}
key = self._sessions[app_id]
try:
plaintext = enc_string_decrypt(dict_to_enc_string(enc_msg), key)
except Exception:
log.error("message decryption failed")
return {"appId": app_id, "command": "invalidateEncryption"}
data = json.loads(plaintext)
cmd = data.get("command", "")
mid = data.get("messageId", 0)
log.info(f"<- {cmd} (msg={mid})")
resp = self._dispatch(cmd, mid)
if resp is None:
log.warn(f"unhandled command: {cmd}")
return None
encrypted = enc_string_encrypt(json.dumps(resp), key)
return {"appId": app_id, "messageId": mid, "message": enc_string_to_dict(encrypted)}
def _dispatch(self, cmd: str, mid: int) -> dict | None:
ts = int(time.time() * 1000)
if cmd == "unlockWithBiometricsForUser":
key_b64 = self._unseal_key()
if key_b64 is None:
log.warn("unlock denied or failed")
return {"command": cmd, "messageId": mid, "timestamp": ts, "response": False}
log.info("-> unlock granted, key delivered")
return {"command": cmd, "messageId": mid, "timestamp": ts, "response": True, "userKeyB64": key_b64}
if cmd in ("getBiometricsStatus", "getBiometricsStatusForUser"):
log.info(f"-> biometrics available")
return {"command": cmd, "messageId": mid, "timestamp": ts, "response": 0}
if cmd == "authenticateWithBiometrics":
log.info("-> authenticated")
return {"command": cmd, "messageId": mid, "timestamp": ts, "response": True}
return None
def _unseal_key(self) -> str | None:
log.info(f"requesting {self._store.name} password via GUI")
pw = ask_password("Bitwarden Unlock", f"Enter {self._store.name} password:")
if pw is None:
log.info("user cancelled dialog")
return None
try:
raw = self._store.load(self._uid, pw)
b64 = base64.b64encode(raw).decode()
log.info(f"unsealed {len(raw)}B key from {self._store.name}")
raw = None
pw = None
log.info("key material wiped from memory")
return b64
except Exception as e:
log.error(f"unseal failed: {e}")
return None

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storage/__init__.py Normal file
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from abc import ABC, abstractmethod
class KeyStore(ABC):
@abstractmethod
def is_available(self) -> bool: ...
@abstractmethod
def has_key(self, user_id: str) -> bool: ...
@abstractmethod
def store(self, user_id: str, data: bytes, auth: str) -> None: ...
@abstractmethod
def load(self, user_id: str, auth: str) -> bytes: ...
@abstractmethod
def remove(self, user_id: str) -> None: ...
@property
@abstractmethod
def name(self) -> str: ...
def get_backend(preferred: str | None = None) -> KeyStore:
from .tpm2 import TPM2KeyStore
from .pin import PinKeyStore
if preferred == "pin":
return PinKeyStore()
if preferred == "tpm2":
store = TPM2KeyStore()
if not store.is_available():
raise RuntimeError("TPM2 not available")
return store
tpm = TPM2KeyStore()
if tpm.is_available():
return tpm
return PinKeyStore()

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storage/pin.py Normal file
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import base64
import hashlib
import hmac
import os
from pathlib import Path
from cryptography.hazmat.primitives import padding
from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes
from . import KeyStore
STORE_DIR = Path.home() / ".cache" / "com.bitwarden.desktop" / "keys"
class PinKeyStore(KeyStore):
def __init__(self, store_dir: Path = STORE_DIR):
self._dir = store_dir
self._dir.mkdir(parents=True, exist_ok=True)
os.chmod(str(self._dir), 0o700)
@property
def name(self) -> str:
return "pin"
def _path(self, uid: str) -> Path:
return self._dir / f"{uid}.enc"
def is_available(self) -> bool:
return True
def has_key(self, uid: str) -> bool:
return self._path(uid).exists()
def store(self, uid: str, data: bytes, auth: str):
salt = os.urandom(32)
enc_key, mac_key = _derive(auth, salt)
iv = os.urandom(16)
padder = padding.PKCS7(128).padder()
padded = padder.update(data) + padder.finalize()
ct = Cipher(algorithms.AES(enc_key), modes.CBC(iv)).encryptor()
encrypted = ct.update(padded) + ct.finalize()
mac = hmac.new(mac_key, salt + iv + encrypted, hashlib.sha256).digest()
blob = salt + iv + mac + encrypted
self._path(uid).write_bytes(blob)
os.chmod(str(self._path(uid)), 0o600)
def load(self, uid: str, auth: str) -> bytes:
blob = self._path(uid).read_bytes()
salt, iv, mac_stored, ct = blob[:32], blob[32:48], blob[48:80], blob[80:]
enc_key, mac_key = _derive(auth, salt)
mac_check = hmac.new(mac_key, salt + iv + ct, hashlib.sha256).digest()
if not hmac.compare_digest(mac_stored, mac_check):
raise ValueError("Wrong PIN or corrupted data")
dec = Cipher(algorithms.AES(enc_key), modes.CBC(iv)).decryptor()
padded = dec.update(ct) + dec.finalize()
unpadder = padding.PKCS7(128).unpadder()
return unpadder.update(padded) + unpadder.finalize()
def remove(self, uid: str):
p = self._path(uid)
if p.exists():
p.unlink()
def _derive(password: str, salt: bytes) -> tuple[bytes, bytes]:
raw = hashlib.pbkdf2_hmac("sha256", password.encode(), salt, 600_000, dklen=64)
return raw[:32], raw[32:]

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storage/tpm2.py Normal file
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import os
import subprocess
import tempfile
from pathlib import Path
from . import KeyStore
STORE_DIR = Path.home() / ".cache" / "com.bitwarden.desktop" / "tpm2"
class TPM2KeyStore(KeyStore):
def __init__(self, store_dir: Path = STORE_DIR):
self._dir = store_dir
self._dir.mkdir(parents=True, exist_ok=True)
os.chmod(str(self._dir), 0o700)
@property
def name(self) -> str:
return "tpm2"
def _pub(self, uid: str) -> Path:
return self._dir / f"{uid}.pub"
def _priv(self, uid: str) -> Path:
return self._dir / f"{uid}.priv"
def is_available(self) -> bool:
try:
return subprocess.run(
["tpm2_getcap", "properties-fixed"],
capture_output=True, timeout=5,
).returncode == 0
except (FileNotFoundError, subprocess.TimeoutExpired):
return False
def has_key(self, uid: str) -> bool:
return self._pub(uid).exists() and self._priv(uid).exists()
def store(self, uid: str, data: bytes, auth: str):
with tempfile.TemporaryDirectory() as tmp:
t = Path(tmp)
ctx = t / "primary.ctx"
dat = t / "data.bin"
dat.write_bytes(data)
os.chmod(str(dat), 0o600)
_run(["tpm2_createprimary", "-C", "o", "-g", "sha256", "-G", "aes256cfb", "-c", str(ctx)])
_run(["tpm2_create", "-C", str(ctx), "-i", str(dat),
"-u", str(self._pub(uid)), "-r", str(self._priv(uid)), "-p", auth])
dat.write_bytes(b"\x00" * len(data))
os.chmod(str(self._pub(uid)), 0o600)
os.chmod(str(self._priv(uid)), 0o600)
def load(self, uid: str, auth: str) -> bytes:
with tempfile.TemporaryDirectory() as tmp:
t = Path(tmp)
ctx = t / "primary.ctx"
loaded = t / "loaded.ctx"
_run(["tpm2_createprimary", "-C", "o", "-g", "sha256", "-G", "aes256cfb", "-c", str(ctx)])
_run(["tpm2_load", "-C", str(ctx),
"-u", str(self._pub(uid)), "-r", str(self._priv(uid)), "-c", str(loaded)])
return _run(["tpm2_unseal", "-c", str(loaded), "-p", auth]).stdout
def remove(self, uid: str):
for p in (self._pub(uid), self._priv(uid)):
if p.exists():
p.unlink()
def _run(cmd: list[str]) -> subprocess.CompletedProcess:
r = subprocess.run(cmd, capture_output=True, timeout=30)
if r.returncode != 0:
raise RuntimeError(r.stderr.decode(errors="replace").strip())
return r