327 lines
11 KiB
Python
327 lines
11 KiB
Python
import base64
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import json
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from typing import Dict, List, Literal, Optional, Tuple, TypedDict
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from urllib.parse import urlparse
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import httpx
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from cryptography.hazmat.primitives import hashes, serialization
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from cryptography.hazmat.primitives.asymmetric import rsa
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from django.http import HttpRequest
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from django.utils import timezone
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from django.utils.http import http_date, parse_http_date
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from OpenSSL import crypto
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from pyld import jsonld
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from core.ld import format_ld_date
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class VerificationError(BaseException):
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"""
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There was an error with verifying the signature
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"""
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pass
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class VerificationFormatError(VerificationError):
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"""
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There was an error with the format of the signature (not if it is valid)
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"""
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pass
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class RsaKeys:
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@classmethod
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def generate_keypair(cls) -> Tuple[str, str]:
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"""
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Generates a new RSA keypair
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"""
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private_key = rsa.generate_private_key(
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public_exponent=65537,
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key_size=2048,
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)
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private_key_serialized = private_key.private_bytes(
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encoding=serialization.Encoding.PEM,
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format=serialization.PrivateFormat.PKCS8,
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encryption_algorithm=serialization.NoEncryption(),
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).decode("ascii")
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public_key_serialized = (
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private_key.public_key()
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.public_bytes(
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encoding=serialization.Encoding.PEM,
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format=serialization.PublicFormat.SubjectPublicKeyInfo,
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)
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.decode("ascii")
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)
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return private_key_serialized, public_key_serialized
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class HttpSignature:
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"""
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Allows for calculation and verification of HTTP signatures
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"""
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@classmethod
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def calculate_digest(cls, data, algorithm="sha-256") -> str:
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"""
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Calculates the digest header value for a given HTTP body
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"""
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if algorithm == "sha-256":
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digest = hashes.Hash(hashes.SHA256())
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digest.update(data)
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return "SHA-256=" + base64.b64encode(digest.finalize()).decode("ascii")
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else:
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raise ValueError(f"Unknown digest algorithm {algorithm}")
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@classmethod
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def headers_from_request(cls, request: HttpRequest, header_names: List[str]) -> str:
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"""
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Creates the to-be-signed header payload from a Django request
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"""
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headers = {}
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for header_name in header_names:
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if header_name == "(request-target)":
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value = f"post {request.path}"
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elif header_name == "content-type":
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value = request.META["CONTENT_TYPE"]
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else:
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value = request.META["HTTP_%s" % header_name.upper().replace("-", "_")]
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headers[header_name] = value
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return "\n".join(f"{name.lower()}: {value}" for name, value in headers.items())
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@classmethod
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def parse_signature(cls, signature: str) -> "HttpSignatureDetails":
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bits = {}
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for item in signature.split(","):
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name, value = item.split("=", 1)
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value = value.strip('"')
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bits[name.lower()] = value
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signature_details: HttpSignatureDetails = {
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"headers": bits["headers"].split(),
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"signature": base64.b64decode(bits["signature"]),
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"algorithm": bits["algorithm"],
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"keyid": bits["keyid"],
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}
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return signature_details
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@classmethod
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def compile_signature(cls, details: "HttpSignatureDetails") -> str:
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value = f'keyId="{details["keyid"]}",headers="'
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value += " ".join(h.lower() for h in details["headers"])
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value += '",signature="'
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value += base64.b64encode(details["signature"]).decode("ascii")
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value += f'",algorithm="{details["algorithm"]}"'
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return value
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@classmethod
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def verify_signature(
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cls,
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signature: bytes,
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cleartext: str,
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public_key: str,
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):
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x509 = crypto.X509()
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x509.set_pubkey(
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crypto.load_publickey(
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crypto.FILETYPE_PEM,
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public_key.encode("ascii"),
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)
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)
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try:
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crypto.verify(x509, signature, cleartext.encode("ascii"), "sha256")
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except crypto.Error:
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raise VerificationError("Signature mismatch")
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@classmethod
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def verify_request(cls, request, public_key, skip_date=False):
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"""
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Verifies that the request has a valid signature for its body
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"""
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# Verify body digest
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if "HTTP_DIGEST" in request.META:
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expected_digest = HttpSignature.calculate_digest(request.body)
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if request.META["HTTP_DIGEST"] != expected_digest:
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raise VerificationFormatError("Digest is incorrect")
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# Verify date header
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if "HTTP_DATE" in request.META and not skip_date:
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header_date = parse_http_date(request.META["HTTP_DATE"])
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if abs(timezone.now().timestamp() - header_date) > 60:
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raise VerificationFormatError("Date is too far away")
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# Get the signature details
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if "HTTP_SIGNATURE" not in request.META:
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raise VerificationFormatError("No signature header present")
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signature_details = cls.parse_signature(request.META["HTTP_SIGNATURE"])
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# Reject unknown algorithms
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if signature_details["algorithm"] != "rsa-sha256":
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raise VerificationFormatError("Unknown signature algorithm")
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# Create the signature payload
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headers_string = cls.headers_from_request(request, signature_details["headers"])
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cls.verify_signature(
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signature_details["signature"],
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headers_string,
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public_key,
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)
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@classmethod
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async def signed_request(
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cls,
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uri: str,
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body: Optional[Dict],
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private_key: str,
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key_id: str,
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content_type: str = "application/json",
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method: Literal["get", "post"] = "post",
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):
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"""
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Performs an async request to the given path, with a document, signed
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as an identity.
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"""
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# Create the core header field set
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uri_parts = urlparse(uri)
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date_string = http_date()
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headers = {
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"(request-target)": f"{method} {uri_parts.path}",
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"Host": uri_parts.hostname,
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"Date": date_string,
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}
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# If we have a body, add a digest and content type
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if body is not None:
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body_bytes = json.dumps(body).encode("utf8")
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headers["Digest"] = cls.calculate_digest(body_bytes)
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headers["Content-Type"] = content_type
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else:
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body_bytes = b""
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# GET requests get implicit accept headers added
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if method == "get":
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headers["Accept"] = "application/activity+json, application/ld+json"
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# Sign the headers
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signed_string = "\n".join(
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f"{name.lower()}: {value}" for name, value in headers.items()
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)
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pkey = crypto.load_privatekey(
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crypto.FILETYPE_PEM,
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private_key.encode("ascii"),
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)
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signature = crypto.sign(
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pkey,
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signed_string.encode("ascii"),
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"sha256",
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)
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headers["Signature"] = cls.compile_signature(
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{
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"keyid": key_id,
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"headers": list(headers.keys()),
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"signature": signature,
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"algorithm": "rsa-sha256",
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}
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)
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# Send the request with all those headers except the pseudo one
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del headers["(request-target)"]
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async with httpx.AsyncClient() as client:
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response = await client.request(
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method,
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uri,
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headers=headers,
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content=body_bytes,
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follow_redirects=method == "get",
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)
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if response.status_code >= 400:
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raise ValueError(
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f"Request error: {response.status_code} {response.content}"
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)
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return response
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class HttpSignatureDetails(TypedDict):
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algorithm: str
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headers: List[str]
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signature: bytes
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keyid: str
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class LDSignature:
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"""
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Creates and verifies signatures of JSON-LD documents
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"""
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@classmethod
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def verify_signature(cls, document: Dict, public_key: str) -> None:
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"""
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Verifies a document
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"""
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try:
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# Strip out the signature from the incoming document
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signature = document.pop("signature")
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# Create the options document
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options = {
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"@context": "https://w3id.org/identity/v1",
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"creator": signature["creator"],
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"created": signature["created"],
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}
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except KeyError:
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raise VerificationFormatError("Invalid signature section")
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if signature["type"].lower() != "rsasignature2017":
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raise VerificationFormatError("Unknown signature type")
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# Get the normalised hash of each document
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final_hash = cls.normalized_hash(options) + cls.normalized_hash(document)
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# Verify the signature
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x509 = crypto.X509()
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x509.set_pubkey(
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crypto.load_publickey(
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crypto.FILETYPE_PEM,
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public_key.encode("ascii"),
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)
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)
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try:
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crypto.verify(
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x509,
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base64.b64decode(signature["signatureValue"]),
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final_hash,
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"sha256",
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)
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except crypto.Error:
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raise VerificationError("Signature mismatch")
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@classmethod
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def create_signature(
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cls, document: Dict, private_key: str, key_id: str
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) -> Dict[str, str]:
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"""
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Creates the signature for a document
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"""
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# Create the options document
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options: Dict[str, str] = {
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"@context": "https://w3id.org/identity/v1",
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"creator": key_id,
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"created": format_ld_date(timezone.now()),
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}
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# Get the normalised hash of each document
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final_hash = cls.normalized_hash(options) + cls.normalized_hash(document)
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# Create the signature
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pkey = crypto.load_privatekey(
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crypto.FILETYPE_PEM,
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private_key.encode("ascii"),
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)
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signature = base64.b64encode(crypto.sign(pkey, final_hash, "sha256"))
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# Add it to the options document along with other bits
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options["signatureValue"] = signature.decode("ascii")
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options["type"] = "RsaSignature2017"
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return options
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@classmethod
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def normalized_hash(cls, document) -> bytes:
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"""
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Takes a JSON-LD document and create a hash of its URDNA2015 form,
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in the same way that Mastodon does internally.
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Reference: https://socialhub.activitypub.rocks/t/making-sense-of-rsasignature2017/347
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"""
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norm_form = jsonld.normalize(
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document,
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{"algorithm": "URDNA2015", "format": "application/n-quads"},
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)
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digest = hashes.Hash(hashes.SHA256())
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digest.update(norm_form.encode("utf8"))
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return digest.finalize().hex().encode("ascii")
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