Exemplo n.º 1
0
  /*
   * Verify the signature of the OCSP response.
   * The responder's cert is implicitly trusted.
   */
  private boolean verifySignature(X509Certificate cert) throws CertPathValidatorException {

    try {
      Signature respSignature = Signature.getInstance(sigAlgId.getName());
      respSignature.initVerify(cert.getPublicKey());
      respSignature.update(tbsResponseData);

      if (respSignature.verify(signature)) {
        if (debug != null) {
          debug.println("Verified signature of OCSP Response");
        }
        return true;

      } else {
        if (debug != null) {
          debug.println("Error verifying signature of OCSP Response");
        }
        return false;
      }
    } catch (InvalidKeyException | NoSuchAlgorithmException | SignatureException e) {
      throw new CertPathValidatorException(e);
    }
  }
Exemplo n.º 2
0
    private SingleResponse(DerValue der) throws IOException {
      if (der.tag != DerValue.tag_Sequence) {
        throw new IOException("Bad ASN.1 encoding in SingleResponse");
      }
      DerInputStream tmp = der.data;

      certId = new CertId(tmp.getDerValue().data);
      DerValue derVal = tmp.getDerValue();
      short tag = (byte) (derVal.tag & 0x1f);
      if (tag == CERT_STATUS_REVOKED) {
        certStatus = CertStatus.REVOKED;
        revocationTime = derVal.data.getGeneralizedTime();
        if (derVal.data.available() != 0) {
          DerValue dv = derVal.data.getDerValue();
          tag = (byte) (dv.tag & 0x1f);
          if (tag == 0) {
            int reason = dv.data.getEnumerated();
            // if reason out-of-range just leave as UNSPECIFIED
            if (reason >= 0 && reason < values.length) {
              revocationReason = values[reason];
            } else {
              revocationReason = CRLReason.UNSPECIFIED;
            }
          } else {
            revocationReason = CRLReason.UNSPECIFIED;
          }
        } else {
          revocationReason = CRLReason.UNSPECIFIED;
        }
        // RevokedInfo
        if (debug != null) {
          debug.println("Revocation time: " + revocationTime);
          debug.println("Revocation reason: " + revocationReason);
        }
      } else {
        revocationTime = null;
        revocationReason = CRLReason.UNSPECIFIED;
        if (tag == CERT_STATUS_GOOD) {
          certStatus = CertStatus.GOOD;
        } else if (tag == CERT_STATUS_UNKNOWN) {
          certStatus = CertStatus.UNKNOWN;
        } else {
          throw new IOException("Invalid certificate status");
        }
      }

      thisUpdate = tmp.getGeneralizedTime();

      if (tmp.available() == 0) {
        // we are done
        nextUpdate = null;
      } else {
        derVal = tmp.getDerValue();
        tag = (byte) (derVal.tag & 0x1f);
        if (tag == 0) {
          // next update
          nextUpdate = derVal.data.getGeneralizedTime();

          if (tmp.available() == 0) {
            // we are done
          } else {
            derVal = tmp.getDerValue();
            tag = (byte) (derVal.tag & 0x1f);
          }
        } else {
          nextUpdate = null;
        }
      }
      // singleExtensions
      if (tmp.available() > 0) {
        derVal = tmp.getDerValue();
        if (derVal.isContextSpecific((byte) 1)) {
          DerValue[] singleExtDer = derVal.data.getSequence(3);
          singleExtensions = new HashMap<String, java.security.cert.Extension>(singleExtDer.length);
          for (int i = 0; i < singleExtDer.length; i++) {
            Extension ext = new Extension(singleExtDer[i]);
            if (debug != null) {
              debug.println("OCSP single extension: " + ext);
            }
            // We don't support any extensions yet. Therefore, if it
            // is critical we must throw an exception because we
            // don't know how to process it.
            if (ext.isCritical()) {
              throw new IOException("Unsupported OCSP critical extension: " + ext.getExtensionId());
            }
            singleExtensions.put(ext.getId(), ext);
          }
        } else {
          singleExtensions = Collections.emptyMap();
        }
      } else {
        singleExtensions = Collections.emptyMap();
      }
    }
Exemplo n.º 3
0
  void verify(List<CertId> certIds, X509Certificate responderCert, Date date, byte[] nonce)
      throws CertPathValidatorException {
    switch (responseStatus) {
      case SUCCESSFUL:
        break;
      case TRY_LATER:
      case INTERNAL_ERROR:
        throw new CertPathValidatorException(
            "OCSP response error: " + responseStatus,
            null,
            null,
            -1,
            BasicReason.UNDETERMINED_REVOCATION_STATUS);
      case UNAUTHORIZED:
      default:
        throw new CertPathValidatorException("OCSP response error: " + responseStatus);
    }

    // Check that the response includes a response for all of the
    // certs that were supplied in the request
    for (CertId certId : certIds) {
      SingleResponse sr = getSingleResponse(certId);
      if (sr == null) {
        if (debug != null) {
          debug.println("No response found for CertId: " + certId);
        }
        throw new CertPathValidatorException(
            "OCSP response does not include a response for a "
                + "certificate supplied in the OCSP request");
      }
      if (debug != null) {
        debug.println(
            "Status of certificate (with serial number "
                + certId.getSerialNumber()
                + ") is: "
                + sr.getCertStatus());
      }
    }

    // Check whether the cert returned by the responder is trusted
    if (!certs.isEmpty()) {
      X509CertImpl cert = certs.get(0);
      // First check if the cert matches the expected responder cert
      if (cert.equals(responderCert)) {
        // cert is trusted, now verify the signed response

        // Next check if the cert was issued by the responder cert
        // which was set locally.
      } else if (cert.getIssuerX500Principal().equals(responderCert.getSubjectX500Principal())) {

        // Check for the OCSPSigning key purpose
        try {
          List<String> keyPurposes = cert.getExtendedKeyUsage();
          if (keyPurposes == null || !keyPurposes.contains(KP_OCSP_SIGNING_OID)) {
            throw new CertPathValidatorException(
                "Responder's certificate not valid for signing " + "OCSP responses");
          }
        } catch (CertificateParsingException cpe) {
          // assume cert is not valid for signing
          throw new CertPathValidatorException(
              "Responder's certificate not valid for signing " + "OCSP responses", cpe);
        }

        // Check algorithm constraints specified in security property
        // "jdk.certpath.disabledAlgorithms".
        AlgorithmChecker algChecker = new AlgorithmChecker(new TrustAnchor(responderCert, null));
        algChecker.init(false);
        algChecker.check(cert, Collections.<String>emptySet());

        // check the validity
        try {
          if (date == null) {
            cert.checkValidity();
          } else {
            cert.checkValidity(date);
          }
        } catch (CertificateException e) {
          throw new CertPathValidatorException(
              "Responder's certificate not within the " + "validity period", e);
        }

        // check for revocation
        //
        // A CA may specify that an OCSP client can trust a
        // responder for the lifetime of the responder's
        // certificate. The CA does so by including the
        // extension id-pkix-ocsp-nocheck.
        //
        Extension noCheck = cert.getExtension(PKIXExtensions.OCSPNoCheck_Id);
        if (noCheck != null) {
          if (debug != null) {
            debug.println(
                "Responder's certificate includes " + "the extension id-pkix-ocsp-nocheck.");
          }
        } else {
          // we should do the revocation checking of the
          // authorized responder in a future update.
        }

        // verify the signature
        try {
          cert.verify(responderCert.getPublicKey());
          responderCert = cert;
          // cert is trusted, now verify the signed response

        } catch (GeneralSecurityException e) {
          responderCert = null;
        }
      } else {
        throw new CertPathValidatorException(
            "Responder's certificate is not authorized to sign " + "OCSP responses");
      }
    }

    // Confirm that the signed response was generated using the public
    // key from the trusted responder cert
    if (responderCert != null) {
      // Check algorithm constraints specified in security property
      // "jdk.certpath.disabledAlgorithms".
      AlgorithmChecker.check(responderCert.getPublicKey(), sigAlgId);

      if (!verifySignature(responderCert)) {
        throw new CertPathValidatorException("Error verifying OCSP Response's signature");
      }
    } else {
      // Need responder's cert in order to verify the signature
      throw new CertPathValidatorException("Unable to verify OCSP Response's signature");
    }

    // Check freshness of OCSPResponse
    if (nonce != null) {
      if (responseNonce != null && !Arrays.equals(nonce, responseNonce)) {
        throw new CertPathValidatorException("Nonces don't match");
      }
    }

    long now = (date == null) ? System.currentTimeMillis() : date.getTime();
    Date nowPlusSkew = new Date(now + MAX_CLOCK_SKEW);
    Date nowMinusSkew = new Date(now - MAX_CLOCK_SKEW);
    for (SingleResponse sr : singleResponseMap.values()) {
      if (debug != null) {
        String until = "";
        if (sr.nextUpdate != null) {
          until = " until " + sr.nextUpdate;
        }
        debug.println("Response's validity interval is from " + sr.thisUpdate + until);
      }

      // Check that the test date is within the validity interval
      if ((sr.thisUpdate != null && nowPlusSkew.before(sr.thisUpdate))
          || (sr.nextUpdate != null && nowMinusSkew.after(sr.nextUpdate))) {
        throw new CertPathValidatorException(
            "Response is unreliable: its validity " + "interval is out-of-date");
      }
    }
  }
Exemplo n.º 4
0
  /*
   * Create an OCSP response from its ASN.1 DER encoding.
   */
  OCSPResponse(byte[] bytes) throws IOException {
    if (dump) {
      HexDumpEncoder hexEnc = new HexDumpEncoder();
      System.out.println("OCSPResponse bytes are...");
      System.out.println(hexEnc.encode(bytes));
    }
    DerValue der = new DerValue(bytes);
    if (der.tag != DerValue.tag_Sequence) {
      throw new IOException("Bad encoding in OCSP response: " + "expected ASN.1 SEQUENCE tag.");
    }
    DerInputStream derIn = der.getData();

    // responseStatus
    int status = derIn.getEnumerated();
    if (status >= 0 && status < rsvalues.length) {
      responseStatus = rsvalues[status];
    } else {
      // unspecified responseStatus
      throw new IOException("Unknown OCSPResponse status: " + status);
    }
    if (debug != null) {
      debug.println("OCSP response status: " + responseStatus);
    }
    if (responseStatus != ResponseStatus.SUCCESSFUL) {
      // no need to continue, responseBytes are not set.
      singleResponseMap = Collections.emptyMap();
      certs = Collections.<X509CertImpl>emptyList();
      sigAlgId = null;
      signature = null;
      tbsResponseData = null;
      responseNonce = null;
      return;
    }

    // responseBytes
    der = derIn.getDerValue();
    if (!der.isContextSpecific((byte) 0)) {
      throw new IOException(
          "Bad encoding in responseBytes element "
              + "of OCSP response: expected ASN.1 context specific tag 0.");
    }
    DerValue tmp = der.data.getDerValue();
    if (tmp.tag != DerValue.tag_Sequence) {
      throw new IOException(
          "Bad encoding in responseBytes element "
              + "of OCSP response: expected ASN.1 SEQUENCE tag.");
    }

    // responseType
    derIn = tmp.data;
    ObjectIdentifier responseType = derIn.getOID();
    if (responseType.equals((Object) OCSP_BASIC_RESPONSE_OID)) {
      if (debug != null) {
        debug.println("OCSP response type: basic");
      }
    } else {
      if (debug != null) {
        debug.println("OCSP response type: " + responseType);
      }
      throw new IOException("Unsupported OCSP response type: " + responseType);
    }

    // BasicOCSPResponse
    DerInputStream basicOCSPResponse = new DerInputStream(derIn.getOctetString());

    DerValue[] seqTmp = basicOCSPResponse.getSequence(2);
    if (seqTmp.length < 3) {
      throw new IOException("Unexpected BasicOCSPResponse value");
    }

    DerValue responseData = seqTmp[0];

    // Need the DER encoded ResponseData to verify the signature later
    tbsResponseData = seqTmp[0].toByteArray();

    // tbsResponseData
    if (responseData.tag != DerValue.tag_Sequence) {
      throw new IOException(
          "Bad encoding in tbsResponseData "
              + "element of OCSP response: expected ASN.1 SEQUENCE tag.");
    }
    DerInputStream seqDerIn = responseData.data;
    DerValue seq = seqDerIn.getDerValue();

    // version
    if (seq.isContextSpecific((byte) 0)) {
      // seq[0] is version
      if (seq.isConstructed() && seq.isContextSpecific()) {
        // System.out.println ("version is available");
        seq = seq.data.getDerValue();
        int version = seq.getInteger();
        if (seq.data.available() != 0) {
          throw new IOException(
              "Bad encoding in version " + " element of OCSP response: bad format");
        }
        seq = seqDerIn.getDerValue();
      }
    }

    // responderID
    short tag = (byte) (seq.tag & 0x1f);
    if (tag == NAME_TAG) {
      if (debug != null) {
        X500Principal responderName = new X500Principal(seq.getData().toByteArray());
        debug.println("OCSP Responder name: " + responderName);
      }
    } else if (tag == KEY_TAG) {
      if (debug != null) {
        byte[] responderKey = seq.getData().getOctetString();
        debug.println("OCSP Responder key: " + Debug.toString(responderKey));
      }
    } else {
      throw new IOException(
          "Bad encoding in responderID element of "
              + "OCSP response: expected ASN.1 context specific tag 0 or 1");
    }

    // producedAt
    seq = seqDerIn.getDerValue();
    if (debug != null) {
      Date producedAtDate = seq.getGeneralizedTime();
      debug.println("OCSP response produced at: " + producedAtDate);
    }

    // responses
    DerValue[] singleResponseDer = seqDerIn.getSequence(1);
    singleResponseMap = new HashMap<>(singleResponseDer.length);
    if (debug != null) {
      debug.println("OCSP number of SingleResponses: " + singleResponseDer.length);
    }
    for (int i = 0; i < singleResponseDer.length; i++) {
      SingleResponse singleResponse = new SingleResponse(singleResponseDer[i]);
      singleResponseMap.put(singleResponse.getCertId(), singleResponse);
    }

    // responseExtensions
    byte[] nonce = null;
    if (seqDerIn.available() > 0) {
      seq = seqDerIn.getDerValue();
      if (seq.isContextSpecific((byte) 1)) {
        DerValue[] responseExtDer = seq.data.getSequence(3);
        for (int i = 0; i < responseExtDer.length; i++) {
          Extension ext = new Extension(responseExtDer[i]);
          if (debug != null) {
            debug.println("OCSP extension: " + ext);
          }
          // Only the NONCE extension is recognized
          if (ext.getExtensionId().equals((Object) OCSP.NONCE_EXTENSION_OID)) {
            nonce = ext.getExtensionValue();
          } else if (ext.isCritical()) {
            throw new IOException("Unsupported OCSP critical extension: " + ext.getExtensionId());
          }
        }
      }
    }
    responseNonce = nonce;

    // signatureAlgorithmId
    sigAlgId = AlgorithmId.parse(seqTmp[1]);

    // signature
    signature = seqTmp[2].getBitString();

    // if seq[3] is available , then it is a sequence of certificates
    if (seqTmp.length > 3) {
      // certs are available
      DerValue seqCert = seqTmp[3];
      if (!seqCert.isContextSpecific((byte) 0)) {
        throw new IOException(
            "Bad encoding in certs element of "
                + "OCSP response: expected ASN.1 context specific tag 0.");
      }
      DerValue[] derCerts = seqCert.getData().getSequence(3);
      certs = new ArrayList<X509CertImpl>(derCerts.length);
      try {
        for (int i = 0; i < derCerts.length; i++) {
          certs.add(new X509CertImpl(derCerts[i].toByteArray()));
        }
      } catch (CertificateException ce) {
        throw new IOException("Bad encoding in X509 Certificate", ce);
      }
    } else {
      certs = Collections.<X509CertImpl>emptyList();
    }
  }