1 files changed, 219 insertions, 0 deletions

diff --git a/security/manager/tools/pycms.py b/security/manager/tools/pycms.py
new file mode 100755
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+++ b/security/manager/tools/pycms.py
@@ -0,0 +1,219 @@
+#!/usr/bin/env python
+#
+# This Source Code Form is subject to the terms of the Mozilla Public
+# License, v. 2.0. If a copy of the MPL was not distributed with this
+# file, You can obtain one at http://mozilla.org/MPL/2.0/.
+
+"""
+Reads a specification from stdin and outputs a PKCS7 (CMS) message with
+the desired properties.
+
+The specification format is as follows:
+
+sha1:<hex string>
+sha256:<hex string>
+signer:
+<pycert specification>
+
+Eith or both of sha1 and sha256 may be specified. The value of
+each hash directive is what will be put in the messageDigest
+attribute of the SignerInfo that corresponds to the signature
+algorithm defined by the hash algorithm and key type of the
+default key. Together, these comprise the signerInfos field of
+the SignedData. If neither hash is specified, the signerInfos
+will be an empty SET (i.e. there will be no actual signature
+information).
+The certificate specification must come last.
+"""
+
+import base64
+import sys
+from io import StringIO
+
+import pycert
+import pykey
+from pyasn1.codec.der import decoder, encoder
+from pyasn1.type import tag, univ
+from pyasn1_modules import rfc2315, rfc2459
+
+
+class Error(Exception):
+    """Base class for exceptions in this module."""
+
+    pass
+
+
+class UnknownDirectiveError(Error):
+    """Helper exception type to handle unknown specification
+    directives."""
+
+    def __init__(self, directive):
+        super(UnknownDirectiveError, self).__init__()
+        self.directive = directive
+
+    def __str__(self):
+        return "Unknown directive %s" % repr(self.directive)
+
+
+class CMS(object):
+    """Utility class for reading a CMS specification and
+    generating a CMS message"""
+
+    def __init__(self, paramStream):
+        self.sha1 = ""
+        self.sha256 = ""
+        signerSpecification = StringIO()
+        readingSignerSpecification = False
+        for line in paramStream.readlines():
+            if readingSignerSpecification:
+                print(line.strip(), file=signerSpecification)
+            elif line.strip() == "signer:":
+                readingSignerSpecification = True
+            elif line.startswith("sha1:"):
+                self.sha1 = line.strip()[len("sha1:") :]
+            elif line.startswith("sha256:"):
+                self.sha256 = line.strip()[len("sha256:") :]
+            else:
+                raise UnknownDirectiveError(line.strip())
+        signerSpecification.seek(0)
+        self.signer = pycert.Certificate(signerSpecification)
+        self.signingKey = pykey.keyFromSpecification("default")
+
+    def buildAuthenticatedAttributes(self, value, implicitTag=None):
+        """Utility function to build a pyasn1 AuthenticatedAttributes
+        object. Useful because when building a SignerInfo, the
+        authenticatedAttributes needs to be tagged implicitly, but when
+        signing an AuthenticatedAttributes, it needs the explicit SET
+        tag."""
+        if implicitTag:
+            authenticatedAttributes = rfc2315.Attributes().subtype(
+                implicitTag=implicitTag
+            )
+        else:
+            authenticatedAttributes = rfc2315.Attributes()
+        contentTypeAttribute = rfc2315.Attribute()
+        # PKCS#9 contentType
+        contentTypeAttribute["type"] = univ.ObjectIdentifier("1.2.840.113549.1.9.3")
+        contentTypeAttribute["values"] = univ.SetOf(rfc2459.AttributeValue())
+        # PKCS#7 data
+        contentTypeAttribute["values"][0] = univ.ObjectIdentifier(
+            "1.2.840.113549.1.7.1"
+        )
+        authenticatedAttributes[0] = contentTypeAttribute
+        hashAttribute = rfc2315.Attribute()
+        # PKCS#9 messageDigest
+        hashAttribute["type"] = univ.ObjectIdentifier("1.2.840.113549.1.9.4")
+        hashAttribute["values"] = univ.SetOf(rfc2459.AttributeValue())
+        hashAttribute["values"][0] = univ.OctetString(hexValue=value)
+        authenticatedAttributes[1] = hashAttribute
+        return authenticatedAttributes
+
+    def pykeyHashToDigestAlgorithm(self, pykeyHash):
+        """Given a pykey hash algorithm identifier, builds an
+        AlgorithmIdentifier for use with pyasn1."""
+        if pykeyHash == pykey.HASH_SHA1:
+            oidString = "1.3.14.3.2.26"
+        elif pykeyHash == pykey.HASH_SHA256:
+            oidString = "2.16.840.1.101.3.4.2.1"
+        else:
+            raise pykey.UnknownHashAlgorithmError(pykeyHash)
+        algorithmIdentifier = rfc2459.AlgorithmIdentifier()
+        algorithmIdentifier["algorithm"] = univ.ObjectIdentifier(oidString)
+        # Directly setting parameters to univ.Null doesn't currently work.
+        nullEncapsulated = encoder.encode(univ.Null())
+        algorithmIdentifier["parameters"] = univ.Any(nullEncapsulated)
+        return algorithmIdentifier
+
+    def buildSignerInfo(self, certificate, pykeyHash, digestValue):
+        """Given a pyasn1 certificate, a pykey hash identifier
+        and a hash value, creates a SignerInfo with the
+        appropriate values."""
+        signerInfo = rfc2315.SignerInfo()
+        signerInfo["version"] = 1
+        issuerAndSerialNumber = rfc2315.IssuerAndSerialNumber()
+        issuerAndSerialNumber["issuer"] = self.signer.getIssuer()
+        issuerAndSerialNumber["serialNumber"] = certificate["tbsCertificate"][
+            "serialNumber"
+        ]
+        signerInfo["issuerAndSerialNumber"] = issuerAndSerialNumber
+        signerInfo["digestAlgorithm"] = self.pykeyHashToDigestAlgorithm(pykeyHash)
+        rsa = rfc2459.AlgorithmIdentifier()
+        rsa["algorithm"] = rfc2459.rsaEncryption
+        rsa["parameters"] = univ.Null()
+        authenticatedAttributes = self.buildAuthenticatedAttributes(
+            digestValue,
+            implicitTag=tag.Tag(tag.tagClassContext, tag.tagFormatConstructed, 0),
+        )
+        authenticatedAttributesTBS = self.buildAuthenticatedAttributes(digestValue)
+        signerInfo["authenticatedAttributes"] = authenticatedAttributes
+        signerInfo["digestEncryptionAlgorithm"] = rsa
+        authenticatedAttributesEncoded = encoder.encode(authenticatedAttributesTBS)
+        signature = self.signingKey.sign(authenticatedAttributesEncoded, pykeyHash)
+        # signature will be a hexified bit string of the form
+        # "'<hex bytes>'H". For some reason that's what BitString wants,
+        # but since this is an OCTET STRING, we have to strip off the
+        # quotation marks and trailing "H".
+        signerInfo["encryptedDigest"] = univ.OctetString(hexValue=signature[1:-2])
+        return signerInfo
+
+    def toDER(self):
+        contentInfo = rfc2315.ContentInfo()
+        contentInfo["contentType"] = rfc2315.signedData
+
+        signedData = rfc2315.SignedData()
+        signedData["version"] = rfc2315.Version(1)
+
+        digestAlgorithms = rfc2315.DigestAlgorithmIdentifiers()
+        digestAlgorithms[0] = self.pykeyHashToDigestAlgorithm(pykey.HASH_SHA1)
+        signedData["digestAlgorithms"] = digestAlgorithms
+
+        dataContentInfo = rfc2315.ContentInfo()
+        dataContentInfo["contentType"] = rfc2315.data
+        signedData["contentInfo"] = dataContentInfo
+
+        certificates = rfc2315.ExtendedCertificatesAndCertificates().subtype(
+            implicitTag=tag.Tag(tag.tagClassContext, tag.tagFormatConstructed, 0)
+        )
+        extendedCertificateOrCertificate = rfc2315.ExtendedCertificateOrCertificate()
+        certificate = decoder.decode(
+            self.signer.toDER(), asn1Spec=rfc2459.Certificate()
+        )[0]
+        extendedCertificateOrCertificate["certificate"] = certificate
+        certificates[0] = extendedCertificateOrCertificate
+        signedData["certificates"] = certificates
+
+        signerInfos = rfc2315.SignerInfos()
+
+        if len(self.sha1) > 0:
+            signerInfos[len(signerInfos)] = self.buildSignerInfo(
+                certificate, pykey.HASH_SHA1, self.sha1
+            )
+        if len(self.sha256) > 0:
+            signerInfos[len(signerInfos)] = self.buildSignerInfo(
+                certificate, pykey.HASH_SHA256, self.sha256
+            )
+        signedData["signerInfos"] = signerInfos
+
+        encoded = encoder.encode(signedData)
+        anyTag = univ.Any(encoded).subtype(
+            explicitTag=tag.Tag(tag.tagClassContext, tag.tagFormatConstructed, 0)
+        )
+
+        contentInfo["content"] = anyTag
+        return encoder.encode(contentInfo)
+
+    def toPEM(self):
+        output = "-----BEGIN PKCS7-----"
+        der = self.toDER()
+        b64 = base64.b64encode(der)
+        while b64:
+            output += "\n" + b64[:64]
+            b64 = b64[64:]
+        output += "\n-----END PKCS7-----\n"
+        return output
+
+
+# When run as a standalone program, this will read a specification from
+# stdin and output the certificate as PEM to stdout.
+if __name__ == "__main__":
+    print(CMS(sys.stdin).toPEM())