// ResponseData ::= SEQUENCE {
// version [0] EXPLICIT Version DEFAULT v1,
// responderID ResponderID,
// producedAt GeneralizedTime,
// responses SEQUENCE OF SingleResponse,
// responseExtensions [1] EXPLICIT Extensions OPTIONAL }
static inline der::Result
ResponseData(der::Input& input, Context& context,
const CERTSignedData& signedResponseData,
/*const*/ SECItem* certs, size_t numCerts)
{
uint8_t version;
if (der::OptionalVersion(input, version) != der::Success) {
return der::Failure;
}
if (version != der::v1) {
// TODO: more specific error code for bad version?
return der::Fail(SEC_ERROR_BAD_DER);
}
// ResponderID ::= CHOICE {
// byName [1] Name,
// byKey [2] KeyHash }
SECItem responderID;
uint16_t responderIDLength;
ResponderIDType responderIDType
= input.Peek(static_cast<uint8_t>(ResponderIDType::byName))
? ResponderIDType::byName
: ResponderIDType::byKey;
if (ExpectTagAndGetLength(input, static_cast<uint8_t>(responderIDType),
responderIDLength) != der::Success) {
return der::Failure;
}
// TODO: responderID probably needs to have another level of ASN1 tag/length
// checked and stripped.
if (input.Skip(responderIDLength, responderID) != der::Success) {
return der::Failure;
}
// This is the soonest we can verify the signature. We verify the signature
// right away to follow the principal of minimizing the processing of data
// before verifying its signature.
if (VerifySignature(context, responderIDType, responderID, certs, numCerts,
signedResponseData) != SECSuccess) {
return der::Failure;
}
// TODO: Do we even need to parse this? Should we just skip it?
PRTime producedAt;
if (der::GeneralizedTime(input, producedAt) != der::Success) {
return der::Failure;
}
// We don't accept an empty sequence of responses. In practice, a legit OCSP
// responder will never return an empty response, and handling the case of an
// empty response makes things unnecessarily complicated.
if (der::NestedOf(input, der::SEQUENCE, der::SEQUENCE,
der::MustNotBeEmpty,
bind(SingleResponse, _1, ref(context))) != der::Success) {
return der::Failure;
}
if (!input.AtEnd()) {
if (CheckExtensionsForCriticality(input) != der::Success) {
return der::Failure;
}
}
return der::Success;
}
// SingleResponse ::= SEQUENCE {
// certID CertID,
// certStatus CertStatus,
// thisUpdate GeneralizedTime,
// nextUpdate [0] EXPLICIT GeneralizedTime OPTIONAL,
// singleExtensions [1] EXPLICIT Extensions{{re-ocsp-crl |
// re-ocsp-archive-cutoff |
// CrlEntryExtensions, ...}
// } OPTIONAL }
static inline der::Result
SingleResponse(der::Input& input, Context& context)
{
bool match = false;
if (der::Nested(input, der::SEQUENCE,
bind(CertID, _1, cref(context), ref(match)))
!= der::Success) {
return der::Failure;
}
if (!match) {
// This response does not reference the certificate we're interested in.
// By consuming the rest of our input and returning successfully, we can
// continue processing and examine another response that might have what
// we want.
input.SkipToEnd();
return der::Success;
}
// CertStatus ::= CHOICE {
// good [0] IMPLICIT NULL,
// revoked [1] IMPLICIT RevokedInfo,
// unknown [2] IMPLICIT UnknownInfo }
//
// In the event of multiple SingleResponses for a cert that have conflicting
// statuses, we use the following precedence rules:
//
// * revoked overrides good and unknown
// * good overrides unknown
if (input.Peek(static_cast<uint8_t>(CertStatus::Good))) {
if (ExpectTagAndLength(input, static_cast<uint8_t>(CertStatus::Good), 0)
!= der::Success) {
return der::Failure;
}
if (context.certStatus != CertStatus::Revoked) {
context.certStatus = CertStatus::Good;
}
} else if (input.Peek(static_cast<uint8_t>(CertStatus::Revoked))) {
// We don't need any info from the RevokedInfo structure, so we don't even
// parse it. TODO: We should mention issues like this in the explanation of
// why we treat invalid OCSP responses equivalently to revoked for OCSP
// stapling.
if (der::Skip(input, static_cast<uint8_t>(CertStatus::Revoked))
!= der::Success) {
return der::Failure;
}
context.certStatus = CertStatus::Revoked;
} else if (ExpectTagAndLength(input,
static_cast<uint8_t>(CertStatus::Unknown),
0) != der::Success) {
return der::Failure;
}
// http://tools.ietf.org/html/rfc6960#section-3.2
// 5. The time at which the status being indicated is known to be
// correct (thisUpdate) is sufficiently recent;
// 6. When available, the time at or before which newer information will
// be available about the status of the certificate (nextUpdate) is
// greater than the current time.
// We won't accept any OCSP responses that are more than 10 days old, even if
// the nextUpdate time is further in the future.
static const PRTime OLDEST_ACCEPTABLE = INT64_C(10) * ONE_DAY;
PRTime thisUpdate;
if (der::GeneralizedTime(input, thisUpdate) != der::Success) {
return der::Failure;
}
if (thisUpdate > context.time + SLOP) {
return der::Fail(SEC_ERROR_OCSP_FUTURE_RESPONSE);
}
PRTime notAfter;
static const uint8_t NEXT_UPDATE_TAG =
der::CONTEXT_SPECIFIC | der::CONSTRUCTED | 0;
if (input.Peek(NEXT_UPDATE_TAG)) {
PRTime nextUpdate;
if (der::Nested(input, NEXT_UPDATE_TAG,
bind(der::GeneralizedTime, _1, ref(nextUpdate)))
!= der::Success) {
return der::Failure;
}
if (nextUpdate < thisUpdate) {
return der::Fail(SEC_ERROR_OCSP_MALFORMED_RESPONSE);
}
if (nextUpdate - thisUpdate <= OLDEST_ACCEPTABLE) {
notAfter = nextUpdate;
} else {
notAfter = thisUpdate + OLDEST_ACCEPTABLE;
}
} else {
// NSS requires all OCSP responses without a nextUpdate to be recent.
// Match that stricter behavior.
notAfter = thisUpdate + ONE_DAY;
}
if (context.time < SLOP) { // prevent underflow
return der::Fail(SEC_ERROR_INVALID_ARGS);
}
if (context.time - SLOP > notAfter) {
return der::Fail(SEC_ERROR_OCSP_OLD_RESPONSE);
}
if (!input.AtEnd()) {
if (CheckExtensionsForCriticality(input) != der::Success) {
return der::Failure;
}
}
if (context.thisUpdate) {
*context.thisUpdate = thisUpdate;
}
if (context.validThrough) {
*context.validThrough = notAfter;
}
return der::Success;
}
// BasicOCSPResponse ::= SEQUENCE {
// tbsResponseData ResponseData,
// signatureAlgorithm AlgorithmIdentifier,
// signature BIT STRING,
// certs [0] EXPLICIT SEQUENCE OF Certificate OPTIONAL }
der::Result
BasicResponse(der::Input& input, Context& context)
{
der::Input::Mark mark(input.GetMark());
uint16_t length;
if (der::ExpectTagAndGetLength(input, der::SEQUENCE, length)
!= der::Success) {
return der::Failure;
}
// The signature covers the entire DER encoding of tbsResponseData, including
// the beginning tag and length. However, when we're parsing tbsResponseData,
// we want to strip off the tag and length because we don't need it after
// we've confirmed it's there and figured out what length it is.
der::Input tbsResponseData;
if (input.Skip(length, tbsResponseData) != der::Success) {
return der::Failure;
}
CERTSignedData signedData;
input.GetSECItem(siBuffer, mark, signedData.data);
if (der::Nested(input, der::SEQUENCE,
bind(der::AlgorithmIdentifier, _1,
ref(signedData.signatureAlgorithm))) != der::Success) {
return der::Failure;
}
if (der::Skip(input, der::BIT_STRING, signedData.signature) != der::Success) {
return der::Failure;
}
if (signedData.signature.len == 0) {
return der::Fail(SEC_ERROR_OCSP_BAD_SIGNATURE);
}
unsigned int unusedBitsAtEnd = signedData.signature.data[0];
// XXX: Really the constraint should be that unusedBitsAtEnd must be less
// than 7. But, we suspect there are no valid OCSP response signatures with
// non-zero unused bits. It seems like NSS assumes this in various places, so
// we enforce it. If we find compatibility issues, we'll know we're wrong.
if (unusedBitsAtEnd != 0) {
return der::Fail(SEC_ERROR_OCSP_BAD_SIGNATURE);
}
++signedData.signature.data;
--signedData.signature.len;
signedData.signature.len = (signedData.signature.len << 3); // Bytes to bits
// Parse certificates, if any
SECItem certs[8];
size_t numCerts = 0;
if (!input.AtEnd()) {
// We ignore the lengths of the wrappers because we'll detect bad lengths
// during parsing--too short and we'll run out of input for parsing a cert,
// and too long and we'll have leftover data that won't parse as a cert.
// [0] wrapper
if (der::ExpectTagAndIgnoreLength(
input, der::CONSTRUCTED | der::CONTEXT_SPECIFIC | 0)
!= der::Success) {
return der::Failure;
}
// SEQUENCE wrapper
if (der::ExpectTagAndIgnoreLength(input, der::SEQUENCE) != der::Success) {
return der::Failure;
}
// sequence of certificates
while (!input.AtEnd()) {
if (numCerts == PR_ARRAY_SIZE(certs)) {
return der::Fail(SEC_ERROR_BAD_DER);
}
// Unwrap the SEQUENCE that contains the certificate, which is itself a
// SEQUENCE.
der::Input::Mark mark(input.GetMark());
if (der::Skip(input, der::SEQUENCE) != der::Success) {
return der::Failure;
}
input.GetSECItem(siBuffer, mark, certs[numCerts]);
++numCerts;
}
}
return ResponseData(tbsResponseData, context, signedData, certs, numCerts);
}
