/**
* Verifies a counter signature.
*
* @returns IPRT status code.
* @param pCounterSignerInfo The counter signature.
* @param pPrimarySignerInfo The primary signature (can be a counter
* signature too if nested).
* @param pSignedData The SignedData.
* @param fFlags Verficiation flags.
* @param hAdditionalCerts Store containing optional certificates,
* optional.
* @param hTrustedCerts Store containing trusted certificates, required.
* @param pValidationTime The time we're supposed to validate the
* certificates chains at.
* @param pfnVerifyCert Signing certificate verification callback.
* @param fVccFlags Signing certificate verification callback flags.
* @param pvUser Callback parameter.
* @param pErrInfo Where to store additional error details,
* optional.
*/
static int rtCrPkcs7VerifyCounterSignerInfo(PCRTCRPKCS7SIGNERINFO pCounterSignerInfo, PCRTCRPKCS7SIGNERINFO pPrimarySignerInfo,
PCRTCRPKCS7SIGNEDDATA pSignedData, uint32_t fFlags,
RTCRSTORE hAdditionalCerts, RTCRSTORE hTrustedCerts, PCRTTIMESPEC pValidationTime,
PFNRTCRPKCS7VERIFYCERTCALLBACK pfnVerifyCert, uint32_t fVccFlags,
void *pvUser, PRTERRINFO pErrInfo)
{
/*
* Calculate the digest we need to verify.
*/
RTCRDIGEST hDigest;
int rc = RTCrDigestCreateByObjId(&hDigest, &pCounterSignerInfo->DigestAlgorithm.Algorithm);
if (RT_SUCCESS(rc))
{
rc = RTCrDigestUpdate(hDigest,
pPrimarySignerInfo->EncryptedDigest.Asn1Core.uData.pv,
pPrimarySignerInfo->EncryptedDigest.Asn1Core.cb);
if (RT_SUCCESS(rc))
rc = RTCrDigestFinal(hDigest, NULL, 0);
if (RT_SUCCESS(rc))
{
/*
* Pass it on to the common SignerInfo verifier function.
*/
rc = rtCrPkcs7VerifySignerInfo(pCounterSignerInfo, pSignedData, hDigest,
fFlags | RTCRPKCS7VERIFY_SD_F_COUNTER_SIGNATURE,
hAdditionalCerts, hTrustedCerts, pValidationTime,
pfnVerifyCert, fVccFlags, pvUser, pErrInfo);
}
else
rc = RTErrInfoSetF(pErrInfo, VERR_CR_PKCS7_DIGEST_CALC_ERROR,
"Hashing for counter signature failed unexpectedly: %Rrc", rc);
RTCrDigestRelease(hDigest);
}
else
rc = RTErrInfoSetF(pErrInfo, VERR_CR_PKCS7_DIGEST_CREATE_ERROR, "Error creating digest for '%s': %Rrc",
pCounterSignerInfo->DigestAlgorithm.Algorithm.szObjId, rc);
return rc;
}
RTDECL(int) RTCrPkixSignatureVerify(RTCRPKIXSIGNATURE hSignature, RTCRDIGEST hDigest,
void const *pvSignature, size_t cbSignature)
{
PRTCRPKIXSIGNATUREINT pThis = hSignature;
AssertPtrReturn(pThis, VERR_INVALID_HANDLE);
AssertReturn(pThis->u32Magic == RTCRPKIXSIGNATUREINT_MAGIC, VERR_INVALID_HANDLE);
AssertReturn(!pThis->fSigning, VERR_INVALID_FUNCTION);
AssertReturn(pThis->uState == RTCRPKIXSIGNATURE_STATE_READY || pThis->uState == RTCRPKIXSIGNATURE_STATE_DONE, VERR_INVALID_STATE);
uint32_t cRefs = RTCrDigestRetain(hDigest);
AssertReturn(cRefs != UINT32_MAX, VERR_INVALID_HANDLE);
int rc = rtCrPkxiSignatureReset(pThis);
if (RT_SUCCESS(rc))
{
rc = pThis->pDesc->pfnVerify(pThis->pDesc, pThis->abState, hDigest, pvSignature, cbSignature);
pThis->uState = RTCRPKIXSIGNATURE_STATE_DONE;
}
RTCrDigestRelease(hDigest);
return rc;
}
RTDECL(int) RTCrPkixPubKeyVerifySignature(PCRTASN1OBJID pAlgorithm, PCRTASN1DYNTYPE pParameters, PCRTASN1BITSTRING pPublicKey,
PCRTASN1BITSTRING pSignatureValue, const void *pvData, size_t cbData,
PRTERRINFO pErrInfo)
{
/*
* Valid input.
*/
AssertPtrReturn(pAlgorithm, VERR_INVALID_POINTER);
AssertReturn(RTAsn1ObjId_IsPresent(pAlgorithm), VERR_INVALID_POINTER);
if (pParameters)
{
AssertPtrReturn(pParameters, VERR_INVALID_POINTER);
if (pParameters->enmType == RTASN1TYPE_NULL)
pParameters = NULL;
}
AssertPtrReturn(pPublicKey, VERR_INVALID_POINTER);
AssertReturn(RTAsn1BitString_IsPresent(pPublicKey), VERR_INVALID_POINTER);
AssertPtrReturn(pSignatureValue, VERR_INVALID_POINTER);
AssertReturn(RTAsn1BitString_IsPresent(pSignatureValue), VERR_INVALID_POINTER);
AssertPtrReturn(pvData, VERR_INVALID_POINTER);
AssertReturn(cbData > 0, VERR_INVALID_PARAMETER);
/*
* Parameters are not currently supported (openssl code path).
*/
if (pParameters)
return RTErrInfoSet(pErrInfo, VERR_CR_PKIX_CIPHER_ALGO_PARAMS_NOT_IMPL,
"Cipher algorithm parameters are not yet supported.");
/*
* Validate using IPRT.
*/
RTCRPKIXSIGNATURE hSignature;
int rcIprt = RTCrPkixSignatureCreateByObjId(&hSignature, pAlgorithm, false /*fSigning*/, pPublicKey, pParameters);
if (RT_FAILURE(rcIprt))
return RTErrInfoSetF(pErrInfo, VERR_CR_PKIX_CIPHER_ALGO_NOT_KNOWN,
"Unknown public key algorithm [IPRT]: %s", pAlgorithm->szObjId);
RTCRDIGEST hDigest;
rcIprt = RTCrDigestCreateByObjId(&hDigest, pAlgorithm);
if (RT_SUCCESS(rcIprt))
{
/* Calculate the digest. */
rcIprt = RTCrDigestUpdate(hDigest, pvData, cbData);
if (RT_SUCCESS(rcIprt))
{
rcIprt = RTCrPkixSignatureVerifyBitString(hSignature, hDigest, pSignatureValue);
if (RT_FAILURE(rcIprt))
RTErrInfoSet(pErrInfo, rcIprt, "RTCrPkixSignatureVerifyBitString failed");
}
else
RTErrInfoSet(pErrInfo, rcIprt, "RTCrDigestUpdate failed");
RTCrDigestRelease(hDigest);
}
else
RTErrInfoSetF(pErrInfo, rcIprt, "Unknown digest algorithm [IPRT]: %s", pAlgorithm->szObjId);
RTCrPkixSignatureRelease(hSignature);
#ifdef IPRT_WITH_OPENSSL
/*
* Validate using OpenSSL EVP.
*/
rtCrOpenSslInit();
/* Translate the algorithm ID into a EVP message digest type pointer. */
int iAlgoNid = OBJ_txt2nid(pAlgorithm->szObjId);
if (iAlgoNid == NID_undef)
return RTErrInfoSetF(pErrInfo, VERR_CR_PKIX_OSSL_CIPHER_ALGO_NOT_KNOWN,
"Unknown public key algorithm [OpenSSL]: %s", pAlgorithm->szObjId);
const char *pszAlogSn = OBJ_nid2sn(iAlgoNid);
const EVP_MD *pEvpMdType = EVP_get_digestbyname(pszAlogSn);
if (!pEvpMdType)
return RTErrInfoSetF(pErrInfo, VERR_CR_PKIX_OSSL_CIPHER_ALGO_NOT_KNOWN_EVP,
"EVP_get_digestbyname failed on %s (%s)", pszAlogSn, pAlgorithm->szObjId);
/* Initialize the EVP message digest context. */
EVP_MD_CTX EvpMdCtx;
EVP_MD_CTX_init(&EvpMdCtx);
if (!EVP_VerifyInit_ex(&EvpMdCtx, pEvpMdType, NULL /*engine*/))
return RTErrInfoSetF(pErrInfo, VERR_CR_PKIX_OSSL_CIPHER_ALOG_INIT_FAILED,
"EVP_VerifyInit_ex failed (algorithm type is %s / %s)", pszAlogSn, pAlgorithm->szObjId);
/* Create an EVP public key. */
int rcOssl;
EVP_PKEY *pEvpPublicKey = EVP_PKEY_new();
if (pEvpPublicKey)
{
pEvpPublicKey->type = EVP_PKEY_type(pEvpMdType->required_pkey_type[0]);
if (pEvpPublicKey->type != NID_undef)
{
const unsigned char *puchPublicKey = RTASN1BITSTRING_GET_BIT0_PTR(pPublicKey);
if (d2i_PublicKey(pEvpPublicKey->type, &pEvpPublicKey, &puchPublicKey, RTASN1BITSTRING_GET_BYTE_SIZE(pPublicKey)))
{
/* Digest the data. */
EVP_VerifyUpdate(&EvpMdCtx, pvData, cbData);
/* Verify the signature. */
if (EVP_VerifyFinal(&EvpMdCtx,
RTASN1BITSTRING_GET_BIT0_PTR(pSignatureValue),
RTASN1BITSTRING_GET_BYTE_SIZE(pSignatureValue),
pEvpPublicKey) > 0)
rcOssl = VINF_SUCCESS;
else
rcOssl = RTErrInfoSet(pErrInfo, VERR_CR_PKIX_OSSL_VERIFY_FINAL_FAILED, "EVP_VerifyFinal failed");
}
else
rcOssl = RTErrInfoSet(pErrInfo, VERR_CR_PKIX_OSSL_D2I_PUBLIC_KEY_FAILED, "d2i_PublicKey failed");
}
else
rcOssl = RTErrInfoSetF(pErrInfo, VERR_CR_PKIX_OSSL_EVP_PKEY_TYPE_ERROR,
"EVP_PKEY_type(%d) failed", pEvpMdType->required_pkey_type[0]);
/* Cleanup and return.*/
EVP_PKEY_free(pEvpPublicKey);
}
else
rcOssl = RTErrInfoSetF(pErrInfo, VERR_NO_MEMORY, "EVP_PKEY_new(%d) failed", pEvpMdType->required_pkey_type[0]);
EVP_MD_CTX_cleanup(&EvpMdCtx);
/*
* Check the result.
*/
if (RT_SUCCESS(rcIprt) && RT_SUCCESS(rcOssl))
return VINF_SUCCESS;
if (RT_FAILURE_NP(rcIprt) && RT_FAILURE_NP(rcOssl))
return rcIprt;
AssertMsgFailed(("rcIprt=%Rrc rcOssl=%Rrc\n", rcIprt, rcOssl));
if (RT_FAILURE_NP(rcOssl))
return rcOssl;
#endif /* IPRT_WITH_OPENSSL */
return rcIprt;
}
RTDECL(int) RTCrPkcs7VerifySignedData(PCRTCRPKCS7CONTENTINFO pContentInfo, uint32_t fFlags,
RTCRSTORE hAdditionalCerts, RTCRSTORE hTrustedCerts,
PCRTTIMESPEC pValidationTime, PFNRTCRPKCS7VERIFYCERTCALLBACK pfnVerifyCert, void *pvUser,
PRTERRINFO pErrInfo)
{
/*
* Check the input.
*/
if (pfnVerifyCert)
AssertPtrReturn(pfnVerifyCert, VERR_INVALID_POINTER);
else
pfnVerifyCert = RTCrPkcs7VerifyCertCallbackDefault;
if (!RTCrPkcs7ContentInfo_IsSignedData(pContentInfo))
return RTErrInfoSet(pErrInfo, VERR_CR_PKCS7_NOT_SIGNED_DATA, "Not PKCS #7 SignedData.");
PCRTCRPKCS7SIGNEDDATA pSignedData = pContentInfo->u.pSignedData;
int rc = RTCrPkcs7SignedData_CheckSanity(pSignedData, 0, pErrInfo, "");
if (RT_FAILURE(rc))
return rc;
/*
* Hash the content info.
*/
/* Exactly what the content is, for some stupid reason unnecessarily
complicated. Figure it out here as we'll need it for the OpenSSL code
path as well. */
void const *pvContent = pSignedData->ContentInfo.Content.Asn1Core.uData.pv;
uint32_t cbContent = pSignedData->ContentInfo.Content.Asn1Core.cb;
if (pSignedData->ContentInfo.Content.pEncapsulated)
{
pvContent = pSignedData->ContentInfo.Content.pEncapsulated->uData.pv;
cbContent = pSignedData->ContentInfo.Content.pEncapsulated->cb;
}
/* Check that there aren't too many or too few hash algorithms for our
implementation and purposes. */
RTCRDIGEST ahDigests[2];
uint32_t const cDigests = pSignedData->DigestAlgorithms.cItems;
if (!cDigests) /** @todo we might have to support this... */
return RTErrInfoSetF(pErrInfo, VERR_CR_PKCS7_NO_DIGEST_ALGORITHMS, "No digest algorithms");
if (cDigests > RT_ELEMENTS(ahDigests))
return RTErrInfoSetF(pErrInfo, VERR_CR_PKCS7_TOO_MANY_DIGEST_ALGORITHMS,
"Too many digest algorithm: cAlgorithms=%u", cDigests);
/* Create the message digest calculators. */
rc = VERR_CR_PKCS7_NO_DIGEST_ALGORITHMS;
uint32_t i;
for (i = 0; i < cDigests; i++)
{
rc = RTCrDigestCreateByObjId(&ahDigests[i], &pSignedData->DigestAlgorithms.paItems[i].Algorithm);
if (RT_FAILURE(rc))
{
rc = RTErrInfoSetF(pErrInfo, VERR_CR_PKCS7_DIGEST_CREATE_ERROR, "Error creating digest for '%s': %Rrc",
pSignedData->DigestAlgorithms.paItems[i].Algorithm.szObjId, rc);
break;
}
}
if (RT_SUCCESS(rc))
{
/* Hash the content. */
for (i = 0; i < cDigests && RT_SUCCESS(rc); i++)
{
rc = RTCrDigestUpdate(ahDigests[i], pvContent, cbContent);
if (RT_SUCCESS(rc))
rc = RTCrDigestFinal(ahDigests[i], NULL, 0);
}
if (RT_SUCCESS(rc))
{
/*
* Validate the signed infos.
*/
uint32_t fPrimaryVccFlags = !(fFlags & RTCRPKCS7VERIFY_SD_F_USAGE_TIMESTAMPING)
? RTCRPKCS7VCC_F_SIGNED_DATA : RTCRPKCS7VCC_F_TIMESTAMP;
rc = VERR_CR_PKCS7_NO_SIGNER_INFOS;
for (i = 0; i < pSignedData->SignerInfos.cItems; i++)
{
PCRTCRPKCS7SIGNERINFO pSignerInfo = &pSignedData->SignerInfos.paItems[i];
RTCRDIGEST hThisDigest = NIL_RTCRDIGEST; /* (gcc maybe incredible stupid.) */
rc = rtCrPkcs7VerifyFindDigest(&hThisDigest, pSignedData, pSignerInfo, ahDigests, pErrInfo);
if (RT_FAILURE(rc))
break;
/*
* See if we can find a trusted signing time.
* (Note that while it would make sense splitting up this function,
* we need to carry a lot of arguments around, so better not.)
*/
bool fDone = false;
PCRTCRPKCS7SIGNERINFO pSigningTimeSigner = NULL;
PCRTASN1TIME pSignedTime;
while ( !fDone
&& (pSignedTime = RTCrPkcs7SignerInfo_GetSigningTime(pSignerInfo, &pSigningTimeSigner)) != NULL)
{
RTTIMESPEC ThisValidationTime;
if (RT_LIKELY(RTTimeImplode(&ThisValidationTime, &pSignedTime->Time)))
{
if (pSigningTimeSigner == pSignerInfo)
{
if (fFlags & RTCRPKCS7VERIFY_SD_F_COUNTER_SIGNATURE_SIGNING_TIME_ONLY)
continue;
rc = rtCrPkcs7VerifySignerInfo(pSignerInfo, pSignedData, hThisDigest, fFlags,
hAdditionalCerts, hTrustedCerts, &ThisValidationTime,
pfnVerifyCert, fPrimaryVccFlags | RTCRPKCS7VCC_F_TIMESTAMP,
pvUser, pErrInfo);
}
else
{
rc = VINF_SUCCESS;
if (!(fFlags & RTCRPKCS7VERIFY_SD_F_USE_SIGNING_TIME_UNVERIFIED))
rc = rtCrPkcs7VerifyCounterSignerInfo(pSigningTimeSigner, pSignerInfo, pSignedData, fFlags,
hAdditionalCerts, hTrustedCerts, &ThisValidationTime,
pfnVerifyCert, RTCRPKCS7VCC_F_TIMESTAMP, pvUser, pErrInfo);
if (RT_SUCCESS(rc))
rc = rtCrPkcs7VerifySignerInfo(pSignerInfo, pSignedData, hThisDigest, fFlags, hAdditionalCerts,
hTrustedCerts, &ThisValidationTime,
pfnVerifyCert, fPrimaryVccFlags, pvUser, pErrInfo);
}
fDone = RT_SUCCESS(rc)
|| (fFlags & RTCRPKCS7VERIFY_SD_F_ALWAYS_USE_SIGNING_TIME_IF_PRESENT);
}
else
{
rc = RTErrInfoSet(pErrInfo, VERR_INTERNAL_ERROR_3, "RTTimeImplode failed");
fDone = true;
}
}
/*
* If not luck, check for microsoft timestamp counter signatures.
*/
if (!fDone && !(fFlags & RTCRPKCS7VERIFY_SD_F_IGNORE_MS_TIMESTAMP))
{
PCRTCRPKCS7CONTENTINFO pSignedTimestamp = NULL;
pSignedTime = RTCrPkcs7SignerInfo_GetMsTimestamp(pSignerInfo, &pSignedTimestamp);
if (pSignedTime)
{
RTTIMESPEC ThisValidationTime;
if (RT_LIKELY(RTTimeImplode(&ThisValidationTime, &pSignedTime->Time)))
{
rc = VINF_SUCCESS;
if (!(fFlags & RTCRPKCS7VERIFY_SD_F_USE_MS_TIMESTAMP_UNVERIFIED))
rc = RTCrPkcs7VerifySignedData(pSignedTimestamp,
fFlags | RTCRPKCS7VERIFY_SD_F_IGNORE_MS_TIMESTAMP
| RTCRPKCS7VERIFY_SD_F_USAGE_TIMESTAMPING,
hAdditionalCerts, hTrustedCerts, &ThisValidationTime,
pfnVerifyCert, pvUser, pErrInfo);
if (RT_SUCCESS(rc))
rc = rtCrPkcs7VerifySignerInfo(pSignerInfo, pSignedData, hThisDigest, fFlags, hAdditionalCerts,
hTrustedCerts, &ThisValidationTime,
pfnVerifyCert, fPrimaryVccFlags, pvUser, pErrInfo);
fDone = RT_SUCCESS(rc)
|| (fFlags & RTCRPKCS7VERIFY_SD_F_ALWAYS_USE_MS_TIMESTAMP_IF_PRESENT);
}
else
{
rc = RTErrInfoSet(pErrInfo, VERR_INTERNAL_ERROR_3, "RTTimeImplode failed");
fDone = true;
}
}
}
/*
* No valid signing time found, use the one specified instead.
*/
if (!fDone)
rc = rtCrPkcs7VerifySignerInfo(pSignerInfo, pSignedData, hThisDigest, fFlags, hAdditionalCerts, hTrustedCerts,
pValidationTime, pfnVerifyCert, fPrimaryVccFlags, pvUser, pErrInfo);
RTCrDigestRelease(hThisDigest);
if (RT_FAILURE(rc))
break;
}
}
else
rc = RTErrInfoSetF(pErrInfo, VERR_CR_PKCS7_DIGEST_CALC_ERROR,
"Hashing content failed unexpectedly (i=%u): %Rrc", i, rc);
/* Clean up digests. */
i = cDigests;
}
while (i-- > 0)
{
int rc2 = RTCrDigestRelease(ahDigests[i]);
AssertRC(rc2);
}
#ifdef IPRT_WITH_OPENSSL
/*
* Verify using OpenSSL and combine the results (should be identical).
*/
/** @todo figure out how to verify MS timstamp signatures using OpenSSL. */
if (fFlags & RTCRPKCS7VERIFY_SD_F_USAGE_TIMESTAMPING)
return rc;
int rcOssl = rtCrPkcs7VerifySignedDataUsingOpenSsl(pContentInfo, fFlags, hAdditionalCerts, hTrustedCerts,
pvContent, cbContent, RT_SUCCESS(rc) ? pErrInfo : NULL);
if (RT_SUCCESS(rcOssl) && RT_SUCCESS(rc))
return rc;
// AssertMsg(RT_FAILURE_NP(rcOssl) && RT_FAILURE_NP(rc), ("%Rrc, %Rrc\n", rcOssl, rc));
if (RT_FAILURE(rc))
return rc;
return rcOssl;
#else
return rc;
#endif
}
/**
* Verifies one signature on a PKCS \#7 SignedData.
*
* @returns IPRT status code.
* @param pSignerInfo The signature.
* @param pSignedData The SignedData.
* @param hDigests The digest corresponding to
* pSignerInfo->DigestAlgorithm.
* @param fFlags Verficiation flags.
* @param hAdditionalCerts Store containing optional certificates,
* optional.
* @param hTrustedCerts Store containing trusted certificates, required.
* @param pValidationTime The time we're supposed to validate the
* certificates chains at.
* @param pfnVerifyCert Signing certificate verification callback.
* @param fVccFlags Signing certificate verification callback flags.
* @param pvUser Callback parameter.
* @param pErrInfo Where to store additional error details,
* optional.
*/
static int rtCrPkcs7VerifySignerInfo(PCRTCRPKCS7SIGNERINFO pSignerInfo, PCRTCRPKCS7SIGNEDDATA pSignedData,
RTCRDIGEST hDigest, uint32_t fFlags, RTCRSTORE hAdditionalCerts, RTCRSTORE hTrustedCerts,
PCRTTIMESPEC pValidationTime, PFNRTCRPKCS7VERIFYCERTCALLBACK pfnVerifyCert,
uint32_t fVccFlags, void *pvUser, PRTERRINFO pErrInfo)
{
/*
* Locate the certificate used for signing.
*/
PCRTCRCERTCTX pSignerCertCtx = NULL;
PCRTCRX509CERTIFICATE pSignerCert = NULL;
RTCRSTORE hSignerCertSrc = hTrustedCerts;
if (hSignerCertSrc != NIL_RTCRSTORE)
pSignerCertCtx = RTCrStoreCertByIssuerAndSerialNo(hSignerCertSrc, &pSignerInfo->IssuerAndSerialNumber.Name,
&pSignerInfo->IssuerAndSerialNumber.SerialNumber);
if (!pSignerCertCtx)
{
hSignerCertSrc = hAdditionalCerts;
if (hSignerCertSrc != NIL_RTCRSTORE)
pSignerCertCtx = RTCrStoreCertByIssuerAndSerialNo(hSignerCertSrc, &pSignerInfo->IssuerAndSerialNumber.Name,
&pSignerInfo->IssuerAndSerialNumber.SerialNumber);
}
if (pSignerCertCtx)
pSignerCert = pSignerCertCtx->pCert;
else
{
hSignerCertSrc = NULL;
pSignerCert = RTCrPkcs7SetOfCerts_FindX509ByIssuerAndSerialNumber(&pSignedData->Certificates,
&pSignerInfo->IssuerAndSerialNumber.Name,
&pSignerInfo->IssuerAndSerialNumber.SerialNumber);
if (!pSignerCert)
return RTErrInfoSetF(pErrInfo, VERR_CR_PKCS7_SIGNED_DATA_CERT_NOT_FOUND,
"Certificate not found: serial=%.*Rhxs",
pSignerInfo->IssuerAndSerialNumber.SerialNumber.Asn1Core.cb,
pSignerInfo->IssuerAndSerialNumber.SerialNumber.Asn1Core.uData.pv);
}
/*
* If not a trusted certificate, we'll have to build certificate paths
* and verify them. If no valid paths are found, this step will fail.
*/
int rc = VINF_SUCCESS;
if ( hSignerCertSrc == NIL_RTCRSTORE
|| hSignerCertSrc != hTrustedCerts)
{
RTCRX509CERTPATHS hCertPaths;
rc = RTCrX509CertPathsCreate(&hCertPaths, pSignerCert);
if (RT_SUCCESS(rc))
{
rc = RTCrX509CertPathsSetValidTimeSpec(hCertPaths, pValidationTime);
if (hTrustedCerts != NIL_RTCRSTORE && RT_SUCCESS(rc))
rc = RTCrX509CertPathsSetTrustedStore(hCertPaths, hTrustedCerts);
if (hAdditionalCerts != NIL_RTCRSTORE && RT_SUCCESS(rc))
rc = RTCrX509CertPathsSetUntrustedStore(hCertPaths, hAdditionalCerts);
if (pSignedData->Certificates.cItems > 0 && RT_SUCCESS(rc))
rc = RTCrX509CertPathsSetUntrustedSet(hCertPaths, &pSignedData->Certificates);
if (RT_SUCCESS(rc))
{
rc = RTCrX509CertPathsBuild(hCertPaths, pErrInfo);
if (RT_SUCCESS(rc))
rc = RTCrX509CertPathsValidateAll(hCertPaths, NULL, pErrInfo);
/*
* Check that the certificate purpose and whatnot matches what
* is being signed.
*/
if (RT_SUCCESS(rc))
rc = pfnVerifyCert(pSignerCert, hCertPaths, fVccFlags, pvUser, pErrInfo);
}
else
RTErrInfoSetF(pErrInfo, rc, "Error configuring path builder: %Rrc", rc);
RTCrX509CertPathsRelease(hCertPaths);
}
}
/*
* Check that the certificate purpose matches what is signed.
*/
else
rc = pfnVerifyCert(pSignerCert, NIL_RTCRX509CERTPATHS, fVccFlags, pvUser, pErrInfo);
/*
* Reference the digest so we can safely replace with one on the
* authenticated attributes below.
*/
if ( RT_SUCCESS(rc)
&& RTCrDigestRetain(hDigest) != UINT32_MAX)
{
/*
* If there are authenticated attributes, we've got more work before we
* can verify the signature.
*/
if ( RT_SUCCESS(rc)
&& RTCrPkcs7Attributes_IsPresent(&pSignerInfo->AuthenticatedAttributes))
rc = rtCrPkcs7VerifySignerInfoAuthAttribs(pSignerInfo, pSignedData, &hDigest, fFlags, pErrInfo);
/*
* Verify the signature.
*/
if (RT_SUCCESS(rc))
{
RTCRPKIXSIGNATURE hSignature;
rc = RTCrPkixSignatureCreateByObjId(&hSignature,
&pSignerCert->TbsCertificate.SubjectPublicKeyInfo.Algorithm.Algorithm,
false /*fSigning*/,
&pSignerCert->TbsCertificate.SubjectPublicKeyInfo.SubjectPublicKey,
&pSignerInfo->DigestEncryptionAlgorithm.Parameters);
if (RT_SUCCESS(rc))
{
/** @todo Check that DigestEncryptionAlgorithm is compatible with hSignature
* (this is not vital). */
rc = RTCrPkixSignatureVerifyOctetString(hSignature, hDigest, &pSignerInfo->EncryptedDigest);
if (RT_FAILURE(rc))
rc = RTErrInfoSetF(pErrInfo, VERR_CR_PKCS7_SIGNATURE_VERIFICATION_FAILED,
"Signature verficiation failed: %Rrc", rc);
RTCrPkixSignatureRelease(hSignature);
}
else
rc = RTErrInfoSetF(pErrInfo, rc, "Failure to instantiate public key algorithm [IPRT]: %s (%s)",
pSignerCert->TbsCertificate.SubjectPublicKeyInfo.Algorithm.Algorithm.szObjId,
pSignerInfo->DigestEncryptionAlgorithm.Algorithm.szObjId);
}
RTCrDigestRelease(hDigest);
}
else if (RT_SUCCESS(rc))
rc = VERR_CR_PKCS7_INTERNAL_ERROR;
RTCrCertCtxRelease(pSignerCertCtx);
return rc;
}
/**
* Deals with authenticated attributes.
*
* When authenticated attributes are present (checked by caller) we must:
* - fish out the content type and check it against the content inof,
* - fish out the message digest among and check it against *phDigest,
* - compute the message digest of the authenticated attributes and
* replace *phDigest with this for the signature verification.
*
* @returns IPRT status code.
* @param pSignerInfo The signer info being verified.
* @param pSignedData The signed data.
* @param phDigest On input this is the digest of the content. On
* output it will (on success) be a reference to
* the message digest of the authenticated
* attributes. The input reference is consumed.
* The caller shall release the output reference.
* @param fFlags Flags.
* @param pErrInfo Extended error info, optional.
*/
static int rtCrPkcs7VerifySignerInfoAuthAttribs(PCRTCRPKCS7SIGNERINFO pSignerInfo, PCRTCRPKCS7SIGNEDDATA pSignedData,
PRTCRDIGEST phDigest, uint32_t fFlags, PRTERRINFO pErrInfo)
{
/*
* Scan the attributes and validate the two required attributes
* (RFC-2315, chapter 9.2, fourth bullet). Checking that we've got exactly
* one of each of them is checked by the santiy checker function, so we'll
* just assert that it did it's job here.
*/
uint32_t cContentTypes = 0;
uint32_t cMessageDigests = 0;
uint32_t i = pSignerInfo->AuthenticatedAttributes.cItems;
while (i-- > 0)
{
PCRTCRPKCS7ATTRIBUTE pAttrib = &pSignerInfo->AuthenticatedAttributes.paItems[i];
if (RTAsn1ObjId_CompareWithString(&pAttrib->Type, RTCR_PKCS9_ID_CONTENT_TYPE_OID) == 0)
{
AssertReturn(!cContentTypes, VERR_CR_PKCS7_INTERNAL_ERROR);
AssertReturn(pAttrib->enmType == RTCRPKCS7ATTRIBUTETYPE_OBJ_IDS, VERR_CR_PKCS7_INTERNAL_ERROR);
AssertReturn(pAttrib->uValues.pObjIds->cItems == 1, VERR_CR_PKCS7_INTERNAL_ERROR);
if ( !(fFlags & RTCRPKCS7VERIFY_SD_F_COUNTER_SIGNATURE) /* See note about microsoft below. */
&& RTAsn1ObjId_Compare(&pAttrib->uValues.pObjIds->paItems[0], &pSignedData->ContentInfo.ContentType) != 0)
return RTErrInfoSetF(pErrInfo, VERR_CR_PKCS7_CONTENT_TYPE_ATTRIB_MISMATCH,
"Expected content-type %s, found %s",
&pAttrib->uValues.pObjIds->paItems[0], pSignedData->ContentInfo.ContentType.szObjId);
cContentTypes++;
}
else if (RTAsn1ObjId_CompareWithString(&pAttrib->Type, RTCR_PKCS9_ID_MESSAGE_DIGEST_OID) == 0)
{
AssertReturn(!cMessageDigests, VERR_CR_PKCS7_INTERNAL_ERROR);
AssertReturn(pAttrib->enmType == RTCRPKCS7ATTRIBUTETYPE_OCTET_STRINGS, VERR_CR_PKCS7_INTERNAL_ERROR);
AssertReturn(pAttrib->uValues.pOctetStrings->cItems == 1, VERR_CR_PKCS7_INTERNAL_ERROR);
if (!RTCrDigestMatch(*phDigest,
pAttrib->uValues.pOctetStrings->paItems[0].Asn1Core.uData.pv,
pAttrib->uValues.pOctetStrings->paItems[0].Asn1Core.cb))
{
size_t cbHash = RTCrDigestGetHashSize(*phDigest);
if (cbHash != pAttrib->uValues.pOctetStrings->paItems[0].Asn1Core.cb)
return RTErrInfoSetF(pErrInfo, VERR_CR_PKCS7_MESSAGE_DIGEST_ATTRIB_MISMATCH,
"Authenticated message-digest attribute mismatch: cbHash=%#zx cbValue=%#x",
cbHash, pAttrib->uValues.pOctetStrings->paItems[0].Asn1Core.cb);
return RTErrInfoSetF(pErrInfo, VERR_CR_PKCS7_MESSAGE_DIGEST_ATTRIB_MISMATCH,
"Authenticated message-digest attribute mismatch (cbHash=%#zx):\n"
"signed: %.*Rhxs\n"
"our: %.*Rhxs\n",
cbHash,
cbHash, pAttrib->uValues.pOctetStrings->paItems[0].Asn1Core.uData.pv,
cbHash, RTCrDigestGetHash(*phDigest));
}
cMessageDigests++;
}
}
/*
* Full error reporting here as we don't currently extensively santiy check
* counter signatures.
* Note! Microsoft includes content info in their timestamp counter signatures,
* at least for vista, despite the RFC-3852 stating counter signatures
* "MUST NOT contain a content-type".
*/
if (RT_UNLIKELY( cContentTypes != 1
&& !(fFlags & RTCRPKCS7VERIFY_SD_F_COUNTER_SIGNATURE)))
return RTErrInfoSet(pErrInfo, VERR_CR_PKCS7_MISSING_CONTENT_TYPE_ATTRIB,
"Missing authenticated content-type attribute.");
if (RT_UNLIKELY(cMessageDigests != 1))
return RTErrInfoSet(pErrInfo, VERR_CR_PKCS7_MISSING_MESSAGE_DIGEST_ATTRIB,
"Missing authenticated message-digest attribute.");
/*
* Calculate the digest of the the authenticated attributes for use in the
* signature validation.
*/
if ( pSignerInfo->DigestAlgorithm.Parameters.enmType != RTASN1TYPE_NULL
&& pSignerInfo->DigestAlgorithm.Parameters.enmType != RTASN1TYPE_NOT_PRESENT)
return RTErrInfoSet(pErrInfo, VERR_CR_PKCS7_DIGEST_PARAMS_NOT_IMPL, "Digest algorithm has unsupported parameters");
RTCRDIGEST hDigest;
int rc = RTCrDigestCreateByObjId(&hDigest, &pSignerInfo->DigestAlgorithm.Algorithm);
if (RT_SUCCESS(rc))
{
RTCrDigestRelease(*phDigest);
*phDigest = hDigest;
/* ASSUMES that the attributes are encoded according to DER. */
uint8_t const *pbData = (uint8_t const *)RTASN1CORE_GET_RAW_ASN1_PTR(&pSignerInfo->AuthenticatedAttributes.SetCore.Asn1Core);
uint32_t cbData = RTASN1CORE_GET_RAW_ASN1_SIZE(&pSignerInfo->AuthenticatedAttributes.SetCore.Asn1Core);
uint8_t bSetOfTag = ASN1_TAG_SET | ASN1_TAGCLASS_UNIVERSAL | ASN1_TAGFLAG_CONSTRUCTED;
rc = RTCrDigestUpdate(hDigest, &bSetOfTag, sizeof(bSetOfTag)); /* Replace the implict tag with a SET-OF tag. */
if (RT_SUCCESS(rc))
rc = RTCrDigestUpdate(hDigest, pbData + sizeof(bSetOfTag), cbData - sizeof(bSetOfTag)); /* Skip the implicit tag. */
if (RT_SUCCESS(rc))
rc = RTCrDigestFinal(hDigest, NULL, 0);
}
return rc;
}
