Exemplo n.º 1
0
// Certificate is used by clients to request a copy of their current certificate, or to
// request a reissuance of the certificate.
func (wfe *WebFrontEndImpl) Certificate(ctx context.Context, logEvent *requestEvent, response http.ResponseWriter, request *http.Request) {

	serial := request.URL.Path
	// Certificate paths consist of the CertBase path, plus exactly sixteen hex
	// digits.
	if !core.ValidSerial(serial) {
		logEvent.AddError("certificate serial provided was not valid: %s", serial)
		wfe.sendError(response, logEvent, probs.NotFound("Certificate not found"), nil)
		return
	}
	logEvent.Extra["RequestedSerial"] = serial

	cert, err := wfe.SA.GetCertificate(ctx, serial)
	// TODO(#991): handle db errors
	if err != nil {
		logEvent.AddError("unable to get certificate by serial id %#v: %s", serial, err)
		if strings.HasPrefix(err.Error(), "gorp: multiple rows returned") {
			wfe.sendError(response, logEvent, probs.Conflict("Multiple certificates with same short serial"), err)
		} else {
			wfe.sendError(response, logEvent, probs.NotFound("Certificate not found"), err)
		}
		return
	}

	// TODO Content negotiation
	response.Header().Set("Content-Type", "application/pkix-cert")
	response.Header().Add("Link", link(issuerPath, "up"))
	response.WriteHeader(http.StatusOK)
	if _, err = response.Write(cert.DER); err != nil {
		logEvent.AddError(err.Error())
		wfe.log.Warning(fmt.Sprintf("Could not write response: %s", err))
	}
	return
}
Exemplo n.º 2
0
// Certificate is used by clients to request a copy of their current certificate, or to
// request a reissuance of the certificate.
func (wfe *WebFrontEndImpl) Certificate(ctx context.Context, logEvent *requestEvent, response http.ResponseWriter, request *http.Request) {

	path := request.URL.Path
	// Certificate paths consist of the CertBase path, plus exactly sixteen hex
	// digits.
	if !strings.HasPrefix(path, CertPath) {
		logEvent.AddError("this request path should not have gotten to Certificate: %#v is not a prefix of %#v", path, CertPath)
		wfe.sendError(response, logEvent, probs.NotFound("Certificate not found"), nil)
		addNoCacheHeader(response)
		return
	}
	serial := path[len(CertPath):]
	if !core.ValidSerial(serial) {
		logEvent.AddError("certificate serial provided was not valid: %s", serial)
		wfe.sendError(response, logEvent, probs.NotFound("Certificate not found"), nil)
		addNoCacheHeader(response)
		return
	}
	logEvent.Extra["RequestedSerial"] = serial

	cert, err := wfe.SA.GetCertificate(ctx, serial)
	// TODO(#991): handle db errors
	if err != nil {
		logEvent.AddError("unable to get certificate by serial id %#v: %s", serial, err)
		if strings.HasPrefix(err.Error(), "gorp: multiple rows returned") {
			wfe.sendError(response, logEvent, probs.Conflict("Multiple certificates with same short serial"), err)
		} else {
			addNoCacheHeader(response)
			wfe.sendError(response, logEvent, probs.NotFound("Certificate not found"), err)
		}
		return
	}
	parsedCertificate, err := x509.ParseCertificate([]byte(cert.DER))
	if err != nil {
		logEvent.AddError("unable to parse certificate: %s", err)
		wfe.sendError(response, logEvent, probs.Malformed("Unable to parse certificate"), err)
		return
	}
	if err = wfe.addIssuerCertificateURLs(response, parsedCertificate); err != nil {
		logEvent.AddError("unable to parse IssuingCertificateURL: %s", err)
		wfe.sendError(response, logEvent, probs.Malformed("unable to parse IssuingCertificateURL"), err)
		return
	}
	addCacheHeader(response, wfe.CertCacheDuration.Seconds())

	// TODO Content negotiation
	response.Header().Set("Content-Type", "application/pkix-cert")
	response.WriteHeader(http.StatusOK)
	if _, err = response.Write(cert.DER); err != nil {
		logEvent.AddError(err.Error())
		wfe.log.Warning(fmt.Sprintf("Could not write response: %s", err))
	}
	return
}
Exemplo n.º 3
0
// ProblemDetailsForError turns an error into a ProblemDetails with the special
// case of returning the same error back if its already a ProblemDetails. If the
// error is of an type unknown to ProblemDetailsForError, it will return a
// ServerInternal ProblemDetails.
func ProblemDetailsForError(err error, msg string) *probs.ProblemDetails {
	switch e := err.(type) {
	case *probs.ProblemDetails:
		return e
	case MalformedRequestError:
		return probs.Malformed(fmt.Sprintf("%s :: %s", msg, err))
	case NotSupportedError:
		return &probs.ProblemDetails{
			Type:       probs.ServerInternalProblem,
			Detail:     fmt.Sprintf("%s :: %s", msg, err),
			HTTPStatus: http.StatusNotImplemented,
		}
	case UnauthorizedError:
		return probs.Unauthorized(fmt.Sprintf("%s :: %s", msg, err))
	case NotFoundError:
		return probs.NotFound(fmt.Sprintf("%s :: %s", msg, err))
	case LengthRequiredError:
		prob := probs.Malformed("missing Content-Length header")
		prob.HTTPStatus = http.StatusLengthRequired
		return prob
	case SignatureValidationError:
		return probs.Malformed(fmt.Sprintf("%s :: %s", msg, err))
	case RateLimitedError:
		return probs.RateLimited(fmt.Sprintf("%s :: %s", msg, err))
	case BadNonceError:
		return probs.BadNonce(fmt.Sprintf("%s :: %s", msg, err))
	default:
		// Internal server error messages may include sensitive data, so we do
		// not include it.
		return probs.ServerInternal(msg)
	}
}
Exemplo n.º 4
0
// Authorization is used by clients to submit an update to one of their
// authorizations.
func (wfe *WebFrontEndImpl) Authorization(logEvent *requestEvent, response http.ResponseWriter, request *http.Request) {
	// Requests to this handler should have a path that leads to a known authz
	id := parseIDFromPath(request.URL.Path)
	authz, err := wfe.SA.GetAuthorization(id)
	if err != nil {
		logEvent.AddError("No such authorization at id %s", id)
		// TODO(#1199): handle db errors
		wfe.sendError(response, logEvent, probs.NotFound("Unable to find authorization"), err)
		return
	}
	logEvent.Extra["AuthorizationID"] = authz.ID
	logEvent.Extra["AuthorizationRegistrationID"] = authz.RegistrationID
	logEvent.Extra["AuthorizationIdentifier"] = authz.Identifier
	logEvent.Extra["AuthorizationStatus"] = authz.Status
	logEvent.Extra["AuthorizationExpires"] = authz.Expires

	// After expiring, authorizations are inaccessible
	if authz.Expires == nil || authz.Expires.Before(wfe.clk.Now()) {
		msg := fmt.Sprintf("Authorization %v expired in the past (%v)", authz.ID, *authz.Expires)
		logEvent.AddError(msg)
		wfe.sendError(response, logEvent, probs.NotFound("Expired authorization"), nil)
		return
	}

	wfe.prepAuthorizationForDisplay(&authz)

	jsonReply, err := json.Marshal(authz)
	if err != nil {
		// InternalServerError because this is a failure to decode from our DB.
		logEvent.AddError("Failed to JSON marshal authz: %s", err)
		wfe.sendError(response, logEvent, probs.ServerInternal("Failed to JSON marshal authz"), err)
		return
	}
	response.Header().Add("Link", link(wfe.NewCert, "next"))
	response.Header().Set("Content-Type", "application/json")
	response.WriteHeader(http.StatusOK)
	if _, err = response.Write(jsonReply); err != nil {
		logEvent.AddError(err.Error())
		wfe.log.Warning(fmt.Sprintf("Could not write response: %s", err))
	}
}
Exemplo n.º 5
0
// Challenge handles POST requests to challenge URLs.  Such requests are clients'
// responses to the server's challenges.
func (wfe *WebFrontEndImpl) Challenge(
	logEvent *requestEvent,
	response http.ResponseWriter,
	request *http.Request) {

	notFound := func() {
		wfe.sendError(response, logEvent, probs.NotFound("No such challenge"), nil)
	}

	// Challenge URIs are of the form /acme/challenge/<auth id>/<challenge id>.
	// Here we parse out the id components. TODO: Use a better tool to parse out
	// URL structure: https://github.com/letsencrypt/boulder/issues/437
	slug := strings.Split(request.URL.Path[len(ChallengePath):], "/")
	if len(slug) != 2 {
		notFound()
		return
	}
	authorizationID := slug[0]
	challengeID, err := strconv.ParseInt(slug[1], 10, 64)
	if err != nil {
		notFound()
		return
	}
	logEvent.Extra["AuthorizationID"] = authorizationID
	logEvent.Extra["ChallengeID"] = challengeID

	authz, err := wfe.SA.GetAuthorization(authorizationID)
	if err != nil {
		// TODO(#1198): handle db errors etc
		notFound()
		return
	}

	// After expiring, challenges are inaccessible
	if authz.Expires == nil || authz.Expires.Before(wfe.clk.Now()) {
		logEvent.AddError("Authorization %v expired in the past (%v)", authz.ID, *authz.Expires)
		wfe.sendError(response, logEvent, probs.NotFound("Expired authorization"), nil)
		return
	}

	// Check that the requested challenge exists within the authorization
	challengeIndex := authz.FindChallenge(challengeID)
	if challengeIndex == -1 {
		notFound()
		return
	}
	challenge := authz.Challenges[challengeIndex]

	logEvent.Extra["ChallengeType"] = challenge.Type
	logEvent.Extra["AuthorizationRegistrationID"] = authz.RegistrationID
	logEvent.Extra["AuthorizationIdentifier"] = authz.Identifier
	logEvent.Extra["AuthorizationStatus"] = authz.Status
	logEvent.Extra["AuthorizationExpires"] = authz.Expires

	switch request.Method {
	case "GET", "HEAD":
		wfe.getChallenge(response, request, authz, &challenge, logEvent)

	case "POST":
		wfe.postChallenge(response, request, authz, challengeIndex, logEvent)
	}
}
Exemplo n.º 6
0
// RevokeCertificate is used by clients to request the revocation of a cert.
func (wfe *WebFrontEndImpl) RevokeCertificate(logEvent *requestEvent, response http.ResponseWriter, request *http.Request) {

	// We don't ask verifyPOST to verify there is a corresponding registration,
	// because anyone with the right private key can revoke a certificate.
	body, requestKey, registration, prob := wfe.verifyPOST(logEvent, request, false, core.ResourceRevokeCert)
	if prob != nil {
		// verifyPOST handles its own setting of logEvent.Errors
		wfe.sendError(response, logEvent, prob, nil)
		return
	}

	type RevokeRequest struct {
		CertificateDER core.JSONBuffer `json:"certificate"`
	}
	var revokeRequest RevokeRequest
	if err := json.Unmarshal(body, &revokeRequest); err != nil {
		logEvent.AddError(fmt.Sprintf("Couldn't unmarshal in revoke request %s", string(body)))
		wfe.sendError(response, logEvent, probs.Malformed("Unable to JSON parse revoke request"), err)
		return
	}
	providedCert, err := x509.ParseCertificate(revokeRequest.CertificateDER)
	if err != nil {
		logEvent.AddError("unable to parse revoke certificate DER: %s", err)
		wfe.sendError(response, logEvent, probs.Malformed("Unable to parse certificate DER"), err)
		return
	}

	serial := core.SerialToString(providedCert.SerialNumber)
	logEvent.Extra["ProvidedCertificateSerial"] = serial
	cert, err := wfe.SA.GetCertificate(serial)
	// TODO(#991): handle db errors better
	if err != nil || !bytes.Equal(cert.DER, revokeRequest.CertificateDER) {
		wfe.sendError(response, logEvent, probs.NotFound("No such certificate"), err)
		return
	}
	parsedCertificate, err := x509.ParseCertificate(cert.DER)
	if err != nil {
		// InternalServerError because this is a failure to decode from our DB.
		wfe.sendError(response, logEvent, probs.ServerInternal("invalid parse of stored certificate"), err)
		return
	}
	logEvent.Extra["RetrievedCertificateSerial"] = core.SerialToString(parsedCertificate.SerialNumber)
	logEvent.Extra["RetrievedCertificateDNSNames"] = parsedCertificate.DNSNames
	logEvent.Extra["RetrievedCertificateEmailAddresses"] = parsedCertificate.EmailAddresses
	logEvent.Extra["RetrievedCertificateIPAddresses"] = parsedCertificate.IPAddresses

	certStatus, err := wfe.SA.GetCertificateStatus(serial)
	if err != nil {
		logEvent.AddError("unable to get certificate status: %s", err)
		// TODO(#991): handle db errors
		wfe.sendError(response, logEvent, probs.NotFound("Certificate status not yet available"), err)
		return
	}
	logEvent.Extra["CertificateStatus"] = certStatus.Status

	if certStatus.Status == core.OCSPStatusRevoked {
		logEvent.AddError("Certificate already revoked: %#v", serial)
		wfe.sendError(response, logEvent, probs.Conflict("Certificate already revoked"), nil)
		return
	}

	// TODO: Implement method of revocation by authorizations on account.
	if !(core.KeyDigestEquals(requestKey, parsedCertificate.PublicKey) ||
		registration.ID == cert.RegistrationID) {
		wfe.sendError(response, logEvent,
			probs.Unauthorized("Revocation request must be signed by private key of cert to be revoked, or by the account key of the account that issued it."),
			nil)
		return
	}

	// Use revocation code 0, meaning "unspecified"
	err = wfe.RA.RevokeCertificateWithReg(*parsedCertificate, 0, registration.ID)
	if err != nil {
		logEvent.AddError("failed to revoke certificate: %s", err)
		wfe.sendError(response, logEvent, core.ProblemDetailsForError(err, "Failed to revoke certificate"), err)
	} else {
		wfe.log.Debug(fmt.Sprintf("Revoked %v", serial))
		response.WriteHeader(http.StatusOK)
	}
}