burrow/Scripts/package/google-kms-openpgp.py
Conrad Kramer 002bd382e9
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2026-06-07 05:51:12 -07:00

313 lines
10 KiB
Python
Executable file

#!/usr/bin/env python3
"""Create OpenPGP public keys and detached signatures backed by Google KMS.
This intentionally implements only the narrow RSA/SHA-256 subset Burrow needs
for Linux package repository metadata. The private key lives in Google Cloud KMS;
this script builds OpenPGP packets locally and asks KMS to produce the RSA
signature value.
"""
from __future__ import annotations
import argparse
import base64
import binascii
import hashlib
import os
import struct
import subprocess
import sys
import tempfile
import time
from pathlib import Path
RSA_PUBLIC_KEY_ALGO = 1
SHA256_HASH_ALGO = 8
def parse_der_length(data: bytes, offset: int) -> tuple[int, int]:
first = data[offset]
offset += 1
if first < 0x80:
return first, offset
count = first & 0x7F
if count == 0 or count > 4:
raise ValueError("unsupported DER length")
value = int.from_bytes(data[offset : offset + count], "big")
return value, offset + count
def parse_der_tlv(data: bytes, offset: int, expected_tag: int | None = None) -> tuple[int, bytes, int]:
tag = data[offset]
offset += 1
length, offset = parse_der_length(data, offset)
value = data[offset : offset + length]
if len(value) != length:
raise ValueError("truncated DER value")
if expected_tag is not None and tag != expected_tag:
raise ValueError(f"expected DER tag {expected_tag:#x}, got {tag:#x}")
return tag, value, offset + length
def pem_to_der(pem: bytes) -> bytes:
lines = [
line.strip()
for line in pem.splitlines()
if line and not line.startswith(b"-----")
]
return base64.b64decode(b"".join(lines))
def parse_rsa_public_key_from_pem(path: Path) -> tuple[int, int]:
der = pem_to_der(path.read_bytes())
_, spki, end = parse_der_tlv(der, 0, 0x30)
if end != len(der):
raise ValueError("trailing data after SubjectPublicKeyInfo")
_, _alg, offset = parse_der_tlv(spki, 0, 0x30)
_, bit_string, offset = parse_der_tlv(spki, offset, 0x03)
if offset != len(spki):
raise ValueError("trailing data after SPKI bit string")
if not bit_string or bit_string[0] != 0:
raise ValueError("unsupported SPKI bit string")
rsa_der = bit_string[1:]
_, rsa_seq, end = parse_der_tlv(rsa_der, 0, 0x30)
if end != len(rsa_der):
raise ValueError("trailing data after RSA public key")
_, n_bytes, offset = parse_der_tlv(rsa_seq, 0, 0x02)
_, e_bytes, offset = parse_der_tlv(rsa_seq, offset, 0x02)
if offset != len(rsa_seq):
raise ValueError("trailing data after RSA integers")
return int.from_bytes(n_bytes, "big"), int.from_bytes(e_bytes, "big")
def packet_header(tag: int, length: int) -> bytes:
if length < 192:
return bytes([0xC0 | tag, length])
if length < 8384:
length -= 192
return bytes([0xC0 | tag, (length >> 8) + 192, length & 0xFF])
return bytes([0xC0 | tag, 0xFF]) + struct.pack(">I", length)
def old_packet_header(tag: int, length: int) -> bytes:
if length > 0xFFFF:
raise ValueError("old-format two-octet packet length exceeded")
return bytes([(tag << 2) | 1]) + struct.pack(">H", length)
def mpi(value: int) -> bytes:
if value < 0:
raise ValueError("MPI value must be non-negative")
raw = value.to_bytes(max(1, (value.bit_length() + 7) // 8), "big")
return struct.pack(">H", value.bit_length()) + raw.lstrip(b"\x00")
def subpacket(kind: int, body: bytes) -> bytes:
payload = bytes([kind]) + body
length = len(payload)
if length < 192:
return bytes([length]) + payload
if length < 8384:
length -= 192
return bytes([(length >> 8) + 192, length & 0xFF]) + payload
return b"\xff" + struct.pack(">I", length) + payload
def public_key_body(n: int, e: int, created_at: int) -> bytes:
return (
b"\x04"
+ struct.pack(">I", created_at)
+ bytes([RSA_PUBLIC_KEY_ALGO])
+ mpi(n)
+ mpi(e)
)
def fingerprint(public_body: bytes) -> bytes:
return hashlib.sha1(old_packet_header(6, len(public_body)) + public_body).digest()
def armor(kind: str, body: bytes) -> str:
b64 = base64.b64encode(body).decode("ascii")
crc = crc24(body)
checksum = base64.b64encode(crc.to_bytes(3, "big")).decode("ascii")
lines = [f"-----BEGIN PGP {kind}-----", ""]
lines.extend(b64[i : i + 64] for i in range(0, len(b64), 64))
lines.append(f"={checksum}")
lines.append(f"-----END PGP {kind}-----")
return "\n".join(lines) + "\n"
def crc24(data: bytes) -> int:
crc = 0xB704CE
for octet in data:
crc ^= octet << 16
for _ in range(8):
crc <<= 1
if crc & 0x1000000:
crc ^= 0x1864CFB
return crc & 0xFFFFFF
def kms_sign(payload: bytes, args: argparse.Namespace) -> bytes:
with tempfile.TemporaryDirectory(prefix="burrow-kms-openpgp.") as tmp:
input_path = Path(tmp) / "payload"
signature_path = Path(tmp) / "signature.b64"
input_path.write_bytes(payload)
command = [
"gcloud",
"kms",
"asymmetric-sign",
"--location",
args.kms_location,
"--keyring",
args.kms_keyring,
"--key",
args.kms_key,
"--version",
args.kms_version,
"--digest-algorithm",
"sha256",
"--input-file",
str(input_path),
"--signature-file",
str(signature_path),
]
if args.gcloud_project:
command.extend(["--project", args.gcloud_project])
subprocess.run(command, check=True)
return base64.b64decode(signature_path.read_text(encoding="utf-8").strip())
def signature_packet(
signed_payload: bytes,
public_body: bytes,
sig_type: int,
created_at: int,
args: argparse.Namespace,
) -> bytes:
fpr = fingerprint(public_body)
key_id = fpr[-8:]
hashed = b"".join(
[
subpacket(2, struct.pack(">I", created_at)),
subpacket(33, b"\x04" + fpr),
]
)
unhashed = subpacket(16, key_id)
sig_data = (
b"\x04"
+ bytes([sig_type, RSA_PUBLIC_KEY_ALGO, SHA256_HASH_ALGO])
+ struct.pack(">H", len(hashed))
+ hashed
)
trailer = b"\x04\xff" + struct.pack(">I", len(sig_data))
to_hash = signed_payload + sig_data + trailer
digest = hashlib.sha256(to_hash).digest()
signature = kms_sign(to_hash, args)
body = (
sig_data
+ struct.pack(">H", len(unhashed))
+ unhashed
+ digest[:2]
+ mpi(int.from_bytes(signature, "big"))
)
return packet_header(2, len(body)) + body
def public_key_command(args: argparse.Namespace) -> int:
created_at = args.created_at or int(time.time())
n, e = parse_rsa_public_key_from_pem(Path(args.public_key_pem))
public_body = public_key_body(n, e, created_at)
public_packet = packet_header(6, len(public_body)) + public_body
uid = args.user_id.encode("utf-8")
uid_packet = packet_header(13, len(uid)) + uid
uid_signed_payload = (
old_packet_header(6, len(public_body))
+ public_body
+ b"\xb4"
+ struct.pack(">I", len(uid))
+ uid
)
cert_packet = signature_packet(
uid_signed_payload,
public_body,
sig_type=0x13,
created_at=created_at,
args=args,
)
key = public_packet + uid_packet + cert_packet
output = Path(args.output)
if args.armor:
output.write_text(armor("PUBLIC KEY BLOCK", key), encoding="utf-8")
else:
output.write_bytes(key)
return 0
def detach_sign_command(args: argparse.Namespace) -> int:
created_at = args.created_at or int(time.time())
n, e = parse_rsa_public_key_from_pem(Path(args.public_key_pem))
public_body = public_key_body(n, e, args.key_created_at)
payload = Path(args.input).read_bytes()
sig_type = 0x01 if args.text else 0x00
packet = signature_packet(payload, public_body, sig_type, created_at, args)
output = Path(args.output)
if args.armor:
output.write_text(armor("SIGNATURE", packet), encoding="utf-8")
else:
output.write_bytes(packet)
return 0
def add_kms_args(parser: argparse.ArgumentParser) -> None:
parser.add_argument("--kms-location", default=os.environ.get("BURROW_KMS_LOCATION", "global"))
parser.add_argument("--kms-keyring", default=os.environ.get("BURROW_KMS_KEYRING", "burrow-identity"))
parser.add_argument("--kms-key", required=not os.environ.get("BURROW_KMS_KEY"), default=os.environ.get("BURROW_KMS_KEY"))
parser.add_argument("--kms-version", default=os.environ.get("BURROW_KMS_VERSION", "1"))
parser.add_argument("--gcloud-project", default=os.environ.get("GOOGLE_CLOUD_PROJECT"))
def build_parser() -> argparse.ArgumentParser:
parser = argparse.ArgumentParser(description=__doc__)
subcommands = parser.add_subparsers(dest="command", required=True)
public_key = subcommands.add_parser("public-key")
public_key.add_argument("--public-key-pem", required=True)
public_key.add_argument("--user-id", default="Burrow Package Repository <packages@burrow.net>")
public_key.add_argument("--output", required=True)
public_key.add_argument("--armor", action="store_true")
public_key.add_argument("--created-at", type=int)
add_kms_args(public_key)
public_key.set_defaults(func=public_key_command)
detach = subcommands.add_parser("detach-sign")
detach.add_argument("--public-key-pem", required=True)
detach.add_argument("--key-created-at", type=int, default=1704067200)
detach.add_argument("--input", required=True)
detach.add_argument("--output", required=True)
detach.add_argument("--armor", action="store_true")
detach.add_argument("--text", action="store_true")
detach.add_argument("--created-at", type=int)
add_kms_args(detach)
detach.set_defaults(func=detach_sign_command)
return parser
def main() -> int:
parser = build_parser()
args = parser.parse_args()
try:
return args.func(args)
except subprocess.CalledProcessError as exc:
print(f"gcloud signing failed: {exc}", file=sys.stderr)
return exc.returncode or 1
except Exception as exc:
print(f"error: {exc}", file=sys.stderr)
return 1
if __name__ == "__main__":
raise SystemExit(main())