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Diffstat (limited to 'security/certverifier/CertVerifier.cpp')
| -rw-r--r-- | security/certverifier/CertVerifier.cpp | 973 |
1 files changed, 973 insertions, 0 deletions
diff --git a/security/certverifier/CertVerifier.cpp b/security/certverifier/CertVerifier.cpp new file mode 100644 index 0000000000..f349bdc526 --- /dev/null +++ b/security/certverifier/CertVerifier.cpp @@ -0,0 +1,973 @@ +/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ +/* vim: set ts=8 sts=2 et sw=2 tw=80: */ +/* 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/. */ + +#include "CertVerifier.h" + +#include <stdint.h> + +#include "AppTrustDomain.h" +#include "CTDiversityPolicy.h" +#include "CTKnownLogs.h" +#include "CTLogVerifier.h" +#include "ExtendedValidation.h" +#include "MultiLogCTVerifier.h" +#include "NSSCertDBTrustDomain.h" +#include "NSSErrorsService.h" +#include "cert.h" +#include "mozilla/Assertions.h" +#include "mozilla/Casting.h" +#include "mozilla/IntegerPrintfMacros.h" +#include "mozilla/Logging.h" +#include "nsNSSComponent.h" +#include "mozilla/SyncRunnable.h" +#include "nsPromiseFlatString.h" +#include "nsServiceManagerUtils.h" +#include "pk11pub.h" +#include "mozpkix/pkix.h" +#include "mozpkix/pkixcheck.h" +#include "mozpkix/pkixnss.h" +#include "mozpkix/pkixutil.h" +#include "secmod.h" +#include "nsNetCID.h" + +using namespace mozilla::ct; +using namespace mozilla::pkix; +using namespace mozilla::psm; + +mozilla::LazyLogModule gCertVerifierLog("certverifier"); + +// Returns the certificate validity period in calendar months (rounded down). +// "extern" to allow unit tests in CTPolicyEnforcerTest.cpp. +extern mozilla::pkix::Result GetCertLifetimeInFullMonths(Time certNotBefore, + Time certNotAfter, + size_t& months) { + if (certNotBefore >= certNotAfter) { + MOZ_ASSERT_UNREACHABLE("Expected notBefore < notAfter"); + return mozilla::pkix::Result::FATAL_ERROR_INVALID_ARGS; + } + uint64_t notBeforeSeconds; + Result rv = SecondsSinceEpochFromTime(certNotBefore, ¬BeforeSeconds); + if (rv != Success) { + return rv; + } + uint64_t notAfterSeconds; + rv = SecondsSinceEpochFromTime(certNotAfter, ¬AfterSeconds); + if (rv != Success) { + return rv; + } + // PRTime is microseconds + PRTime notBeforePR = static_cast<PRTime>(notBeforeSeconds) * 1000000; + PRTime notAfterPR = static_cast<PRTime>(notAfterSeconds) * 1000000; + + PRExplodedTime explodedNotBefore; + PRExplodedTime explodedNotAfter; + + PR_ExplodeTime(notBeforePR, PR_LocalTimeParameters, &explodedNotBefore); + PR_ExplodeTime(notAfterPR, PR_LocalTimeParameters, &explodedNotAfter); + + PRInt32 signedMonths = + (explodedNotAfter.tm_year - explodedNotBefore.tm_year) * 12 + + (explodedNotAfter.tm_month - explodedNotBefore.tm_month); + if (explodedNotAfter.tm_mday < explodedNotBefore.tm_mday) { + --signedMonths; + } + + // Can't use `mozilla::AssertedCast<size_t>(signedMonths)` below + // since it currently generates a warning on Win x64 debug. + if (signedMonths < 0) { + MOZ_ASSERT_UNREACHABLE("Expected explodedNotBefore < explodedNotAfter"); + return mozilla::pkix::Result::FATAL_ERROR_LIBRARY_FAILURE; + } + months = static_cast<size_t>(signedMonths); + + return Success; +} + +namespace mozilla { +namespace psm { + +const CertVerifier::Flags CertVerifier::FLAG_LOCAL_ONLY = 1; +const CertVerifier::Flags CertVerifier::FLAG_MUST_BE_EV = 2; +const CertVerifier::Flags CertVerifier::FLAG_TLS_IGNORE_STATUS_REQUEST = 4; +static const unsigned int MIN_RSA_BITS = 2048; +static const unsigned int MIN_RSA_BITS_WEAK = 1024; + +void CertificateTransparencyInfo::Reset() { + enabled = false; + verifyResult.Reset(); + policyCompliance = CTPolicyCompliance::Unknown; +} + +CertVerifier::CertVerifier(OcspDownloadConfig odc, OcspStrictConfig osc, + mozilla::TimeDuration ocspTimeoutSoft, + mozilla::TimeDuration ocspTimeoutHard, + uint32_t certShortLifetimeInDays, + NetscapeStepUpPolicy netscapeStepUpPolicy, + CertificateTransparencyMode ctMode, + CRLiteMode crliteMode, + const nsTArray<EnterpriseCert>& thirdPartyCerts) + : mOCSPDownloadConfig(odc), + mOCSPStrict(osc == ocspStrict), + mOCSPTimeoutSoft(ocspTimeoutSoft), + mOCSPTimeoutHard(ocspTimeoutHard), + mCertShortLifetimeInDays(certShortLifetimeInDays), + mNetscapeStepUpPolicy(netscapeStepUpPolicy), + mCTMode(ctMode), + mCRLiteMode(crliteMode) { + LoadKnownCTLogs(); + mThirdPartyCerts = thirdPartyCerts.Clone(); + for (const auto& root : mThirdPartyCerts) { + Input input; + if (root.GetInput(input) == Success) { + // mThirdPartyCerts consists of roots and intermediates. + if (root.GetIsRoot()) { + mThirdPartyRootInputs.AppendElement(input); + } else { + mThirdPartyIntermediateInputs.AppendElement(input); + } + } + } +} + +CertVerifier::~CertVerifier() = default; + +Result IsDelegatedCredentialAcceptable(const DelegatedCredentialInfo& dcInfo) { + bool isEcdsa = dcInfo.scheme == ssl_sig_ecdsa_secp256r1_sha256 || + dcInfo.scheme == ssl_sig_ecdsa_secp384r1_sha384 || + dcInfo.scheme == ssl_sig_ecdsa_secp521r1_sha512; + + // Firefox currently does not advertise any RSA schemes for use + // with Delegated Credentials. As a secondary (on top of NSS) + // check, disallow any RSA SPKI here. When ssl_sig_rsa_pss_pss_* + // schemes are supported, check the modulus size and allow RSA here. + if (!isEcdsa) { + return Result::ERROR_INVALID_KEY; + } + + return Result::Success; +} + +// The term "builtin root" traditionally refers to a root CA certificate that +// has been added to the NSS trust store, because it has been approved +// for inclusion according to the Mozilla CA policy, and might be accepted +// by Mozilla applications as an issuer for certificates seen on the public web. +Result IsCertBuiltInRoot(Input certInput, bool& result) { + result = false; + + if (NS_FAILED(BlockUntilLoadableCertsLoaded())) { + return Result::FATAL_ERROR_LIBRARY_FAILURE; + } + +#ifdef DEBUG + nsCOMPtr<nsINSSComponent> component(do_GetService(PSM_COMPONENT_CONTRACTID)); + if (!component) { + return Result::FATAL_ERROR_LIBRARY_FAILURE; + } + nsTArray<uint8_t> certBytes; + certBytes.AppendElements(certInput.UnsafeGetData(), certInput.GetLength()); + if (NS_FAILED(component->IsCertTestBuiltInRoot(certBytes, &result))) { + return Result::FATAL_ERROR_LIBRARY_FAILURE; + } + if (result) { + return Success; + } +#endif // DEBUG + SECItem certItem(UnsafeMapInputToSECItem(certInput)); + AutoSECMODListReadLock lock; + for (SECMODModuleList* list = SECMOD_GetDefaultModuleList(); list; + list = list->next) { + for (int i = 0; i < list->module->slotCount; i++) { + PK11SlotInfo* slot = list->module->slots[i]; + // We're searching for the "builtin root module", which is a module that + // contains an object with a CKA_CLASS of CKO_NETSCAPE_BUILTIN_ROOT_LIST. + // We use PK11_HasRootCerts() to identify a module with that property. + // In the past, we exclusively used the PKCS#11 module named nssckbi, + // which is provided by the NSS library. + // Nowadays, some distributions use a replacement module, which contains + // the builtin roots, but which also contains additional CA certificates, + // such as CAs trusted in a local deployment. + // We want to be able to distinguish between these two categories, + // because a CA, which may issue certificates for the public web, + // is expected to comply with additional requirements. + // If the certificate has attribute CKA_NSS_MOZILLA_CA_POLICY set to true, + // then we treat it as a "builtin root". + if (!PK11_IsPresent(slot) || !PK11_HasRootCerts(slot)) { + continue; + } + CK_OBJECT_HANDLE handle = + PK11_FindEncodedCertInSlot(slot, &certItem, nullptr); + if (handle == CK_INVALID_HANDLE) { + continue; + } + if (PK11_HasAttributeSet(slot, handle, CKA_NSS_MOZILLA_CA_POLICY, + false)) { + // Attribute was found, and is set to true + result = true; + break; + } + } + } + return Success; +} + +static Result BuildCertChainForOneKeyUsage( + NSSCertDBTrustDomain& trustDomain, Input certDER, Time time, KeyUsage ku1, + KeyUsage ku2, KeyUsage ku3, KeyPurposeId eku, + const CertPolicyId& requiredPolicy, const Input* stapledOCSPResponse, + /*optional out*/ CertVerifier::OCSPStaplingStatus* ocspStaplingStatus) { + trustDomain.ResetAccumulatedState(); + Result rv = + BuildCertChain(trustDomain, certDER, time, EndEntityOrCA::MustBeEndEntity, + ku1, eku, requiredPolicy, stapledOCSPResponse); + if (rv == Result::ERROR_INADEQUATE_KEY_USAGE) { + trustDomain.ResetAccumulatedState(); + rv = BuildCertChain(trustDomain, certDER, time, + EndEntityOrCA::MustBeEndEntity, ku2, eku, + requiredPolicy, stapledOCSPResponse); + if (rv == Result::ERROR_INADEQUATE_KEY_USAGE) { + trustDomain.ResetAccumulatedState(); + rv = BuildCertChain(trustDomain, certDER, time, + EndEntityOrCA::MustBeEndEntity, ku3, eku, + requiredPolicy, stapledOCSPResponse); + if (rv != Success) { + rv = Result::ERROR_INADEQUATE_KEY_USAGE; + } + } + } + if (ocspStaplingStatus) { + *ocspStaplingStatus = trustDomain.GetOCSPStaplingStatus(); + } + return rv; +} + +void CertVerifier::LoadKnownCTLogs() { + if (mCTMode == CertificateTransparencyMode::Disabled) { + return; + } + mCTVerifier = MakeUnique<MultiLogCTVerifier>(); + for (const CTLogInfo& log : kCTLogList) { + Input publicKey; + Result rv = publicKey.Init( + BitwiseCast<const uint8_t*, const char*>(log.key), log.keyLength); + if (rv != Success) { + MOZ_ASSERT_UNREACHABLE("Failed reading a log key for a known CT Log"); + continue; + } + + CTLogVerifier logVerifier; + const CTLogOperatorInfo& logOperator = + kCTLogOperatorList[log.operatorIndex]; + rv = logVerifier.Init(publicKey, logOperator.id, log.status, + log.disqualificationTime); + if (rv != Success) { + MOZ_ASSERT_UNREACHABLE("Failed initializing a known CT Log"); + continue; + } + + mCTVerifier->AddLog(std::move(logVerifier)); + } + // TBD: Initialize mCTDiversityPolicy with the CA dependency map + // of the known CT logs operators. + mCTDiversityPolicy = MakeUnique<CTDiversityPolicy>(); +} + +Result CertVerifier::VerifyCertificateTransparencyPolicy( + NSSCertDBTrustDomain& trustDomain, + const nsTArray<nsTArray<uint8_t>>& builtChain, Input sctsFromTLS, Time time, + /*optional out*/ CertificateTransparencyInfo* ctInfo) { + if (ctInfo) { + ctInfo->Reset(); + } + if (mCTMode == CertificateTransparencyMode::Disabled) { + return Success; + } + if (ctInfo) { + ctInfo->enabled = true; + } + + if (builtChain.IsEmpty()) { + return Result::FATAL_ERROR_INVALID_ARGS; + } + + Input embeddedSCTs = trustDomain.GetSCTListFromCertificate(); + if (embeddedSCTs.GetLength() > 0) { + MOZ_LOG(gCertVerifierLog, LogLevel::Debug, + ("Got embedded SCT data of length %zu\n", + static_cast<size_t>(embeddedSCTs.GetLength()))); + } + Input sctsFromOCSP = trustDomain.GetSCTListFromOCSPStapling(); + if (sctsFromOCSP.GetLength() > 0) { + MOZ_LOG(gCertVerifierLog, LogLevel::Debug, + ("Got OCSP SCT data of length %zu\n", + static_cast<size_t>(sctsFromOCSP.GetLength()))); + } + if (sctsFromTLS.GetLength() > 0) { + MOZ_LOG(gCertVerifierLog, LogLevel::Debug, + ("Got TLS SCT data of length %zu\n", + static_cast<size_t>(sctsFromTLS.GetLength()))); + } + + if (builtChain.Length() == 1) { + // Issuer certificate is required for SCT verification. + // If we've arrived here, we probably have a "trust chain" with only one + // certificate (i.e. a self-signed end-entity that has been set as a trust + // anchor either by a third party modifying our trust DB or via the + // enterprise roots feature). If this is the case, certificate transparency + // information will probably not be present, and it certainly won't verify + // correctly. To simplify things, we return an empty CTVerifyResult and a + // "not enough SCTs" CTPolicyCompliance result. + if (ctInfo) { + CTVerifyResult emptyResult; + ctInfo->verifyResult = std::move(emptyResult); + ctInfo->policyCompliance = CTPolicyCompliance::NotEnoughScts; + } + return Success; + } + + const nsTArray<uint8_t>& endEntityBytes = builtChain.ElementAt(0); + Input endEntityInput; + Result rv = + endEntityInput.Init(endEntityBytes.Elements(), endEntityBytes.Length()); + if (rv != Success) { + return rv; + } + + const nsTArray<uint8_t>& issuerBytes = builtChain.ElementAt(1); + Input issuerInput; + rv = issuerInput.Init(issuerBytes.Elements(), issuerBytes.Length()); + if (rv != Success) { + return rv; + } + + BackCert issuerBackCert(issuerInput, EndEntityOrCA::MustBeCA, nullptr); + rv = issuerBackCert.Init(); + if (rv != Success) { + return rv; + } + Input issuerPublicKeyInput = issuerBackCert.GetSubjectPublicKeyInfo(); + + CTVerifyResult result; + rv = mCTVerifier->Verify(endEntityInput, issuerPublicKeyInput, embeddedSCTs, + sctsFromOCSP, sctsFromTLS, time, result); + if (rv != Success) { + MOZ_LOG(gCertVerifierLog, LogLevel::Debug, + ("SCT verification failed with fatal error %" PRId32 "\n", + static_cast<uint32_t>(rv))); + return rv; + } + + if (MOZ_LOG_TEST(gCertVerifierLog, LogLevel::Debug)) { + size_t validCount = 0; + size_t unknownLogCount = 0; + size_t disqualifiedLogCount = 0; + size_t invalidSignatureCount = 0; + size_t invalidTimestampCount = 0; + for (const VerifiedSCT& verifiedSct : result.verifiedScts) { + switch (verifiedSct.status) { + case VerifiedSCT::Status::Valid: + validCount++; + break; + case VerifiedSCT::Status::ValidFromDisqualifiedLog: + disqualifiedLogCount++; + break; + case VerifiedSCT::Status::UnknownLog: + unknownLogCount++; + break; + case VerifiedSCT::Status::InvalidSignature: + invalidSignatureCount++; + break; + case VerifiedSCT::Status::InvalidTimestamp: + invalidTimestampCount++; + break; + case VerifiedSCT::Status::None: + default: + MOZ_ASSERT_UNREACHABLE("Unexpected SCT verification status"); + } + } + MOZ_LOG( + gCertVerifierLog, LogLevel::Debug, + ("SCT verification result: " + "valid=%zu unknownLog=%zu disqualifiedLog=%zu " + "invalidSignature=%zu invalidTimestamp=%zu " + "decodingErrors=%zu\n", + validCount, unknownLogCount, disqualifiedLogCount, + invalidSignatureCount, invalidTimestampCount, result.decodingErrors)); + } + + BackCert endEntityBackCert(endEntityInput, EndEntityOrCA::MustBeEndEntity, + nullptr); + rv = endEntityBackCert.Init(); + if (rv != Success) { + return rv; + } + Time notBefore(Time::uninitialized); + Time notAfter(Time::uninitialized); + rv = ParseValidity(endEntityBackCert.GetValidity(), ¬Before, ¬After); + if (rv != Success) { + return rv; + } + size_t lifetimeInMonths; + rv = GetCertLifetimeInFullMonths(notBefore, notAfter, lifetimeInMonths); + if (rv != Success) { + return rv; + } + + CTLogOperatorList allOperators; + GetCTLogOperatorsFromVerifiedSCTList(result.verifiedScts, allOperators); + + CTLogOperatorList dependentOperators; + rv = mCTDiversityPolicy->GetDependentOperators(builtChain, allOperators, + dependentOperators); + if (rv != Success) { + return rv; + } + + CTPolicyEnforcer ctPolicyEnforcer; + CTPolicyCompliance ctPolicyCompliance; + ctPolicyEnforcer.CheckCompliance(result.verifiedScts, lifetimeInMonths, + dependentOperators, ctPolicyCompliance); + + if (ctInfo) { + ctInfo->verifyResult = std::move(result); + ctInfo->policyCompliance = ctPolicyCompliance; + } + return Success; +} + +Result CertVerifier::VerifyCert( + const nsTArray<uint8_t>& certBytes, SECCertificateUsage usage, Time time, + void* pinArg, const char* hostname, + /*out*/ nsTArray<nsTArray<uint8_t>>& builtChain, + /*optional*/ const Flags flags, + /*optional*/ const Maybe<nsTArray<nsTArray<uint8_t>>>& extraCertificates, + /*optional*/ const Maybe<nsTArray<uint8_t>>& stapledOCSPResponseArg, + /*optional*/ const Maybe<nsTArray<uint8_t>>& sctsFromTLS, + /*optional*/ const OriginAttributes& originAttributes, + /*optional out*/ EVStatus* evStatus, + /*optional out*/ OCSPStaplingStatus* ocspStaplingStatus, + /*optional out*/ KeySizeStatus* keySizeStatus, + /*optional out*/ PinningTelemetryInfo* pinningTelemetryInfo, + /*optional out*/ CertificateTransparencyInfo* ctInfo, + /*optional out*/ bool* isBuiltChainRootBuiltInRoot, + /*optional out*/ bool* madeOCSPRequests, + /*optional out*/ IssuerSources* issuerSources) { + MOZ_LOG(gCertVerifierLog, LogLevel::Debug, ("Top of VerifyCert\n")); + + MOZ_ASSERT(usage == certificateUsageSSLServer || !(flags & FLAG_MUST_BE_EV)); + MOZ_ASSERT(usage == certificateUsageSSLServer || !keySizeStatus); + + if (NS_FAILED(BlockUntilLoadableCertsLoaded())) { + return Result::FATAL_ERROR_LIBRARY_FAILURE; + } + if (NS_FAILED(CheckForSmartCardChanges())) { + return Result::FATAL_ERROR_LIBRARY_FAILURE; + } + + if (evStatus) { + *evStatus = EVStatus::NotEV; + } + if (ocspStaplingStatus) { + if (usage != certificateUsageSSLServer) { + return Result::FATAL_ERROR_INVALID_ARGS; + } + *ocspStaplingStatus = OCSP_STAPLING_NEVER_CHECKED; + } + + if (keySizeStatus) { + if (usage != certificateUsageSSLServer) { + return Result::FATAL_ERROR_INVALID_ARGS; + } + *keySizeStatus = KeySizeStatus::NeverChecked; + } + + if (usage != certificateUsageSSLServer && (flags & FLAG_MUST_BE_EV)) { + return Result::FATAL_ERROR_INVALID_ARGS; + } + + if (isBuiltChainRootBuiltInRoot) { + *isBuiltChainRootBuiltInRoot = false; + } + + if (madeOCSPRequests) { + *madeOCSPRequests = false; + } + + if (issuerSources) { + issuerSources->clear(); + } + + Input certDER; + Result rv = certDER.Init(certBytes.Elements(), certBytes.Length()); + if (rv != Success) { + return rv; + } + + // We configure the OCSP fetching modes separately for EV and non-EV + // verifications. + NSSCertDBTrustDomain::OCSPFetching defaultOCSPFetching = + (mOCSPDownloadConfig == ocspOff) || (mOCSPDownloadConfig == ocspEVOnly) || + (flags & FLAG_LOCAL_ONLY) + ? NSSCertDBTrustDomain::NeverFetchOCSP + : !mOCSPStrict ? NSSCertDBTrustDomain::FetchOCSPForDVSoftFail + : NSSCertDBTrustDomain::FetchOCSPForDVHardFail; + + Input stapledOCSPResponseInput; + const Input* stapledOCSPResponse = nullptr; + if (stapledOCSPResponseArg) { + rv = stapledOCSPResponseInput.Init(stapledOCSPResponseArg->Elements(), + stapledOCSPResponseArg->Length()); + if (rv != Success) { + // The stapled OCSP response was too big. + return Result::ERROR_OCSP_MALFORMED_RESPONSE; + } + stapledOCSPResponse = &stapledOCSPResponseInput; + } + + Input sctsFromTLSInput; + if (sctsFromTLS) { + rv = sctsFromTLSInput.Init(sctsFromTLS->Elements(), sctsFromTLS->Length()); + if (rv != Success && sctsFromTLSInput.GetLength() != 0) { + return Result::FATAL_ERROR_LIBRARY_FAILURE; + } + } + + switch (usage) { + case certificateUsageSSLClient: { + // XXX: We don't really have a trust bit for SSL client authentication so + // just use trustEmail as it is the closest alternative. + NSSCertDBTrustDomain trustDomain( + trustEmail, defaultOCSPFetching, mOCSPCache, pinArg, mOCSPTimeoutSoft, + mOCSPTimeoutHard, mCertShortLifetimeInDays, MIN_RSA_BITS_WEAK, + ValidityCheckingMode::CheckingOff, NetscapeStepUpPolicy::NeverMatch, + mCRLiteMode, originAttributes, mThirdPartyRootInputs, + mThirdPartyIntermediateInputs, extraCertificates, builtChain, nullptr, + nullptr); + rv = BuildCertChain( + trustDomain, certDER, time, EndEntityOrCA::MustBeEndEntity, + KeyUsage::digitalSignature, KeyPurposeId::id_kp_clientAuth, + CertPolicyId::anyPolicy, stapledOCSPResponse); + if (madeOCSPRequests) { + *madeOCSPRequests |= + trustDomain.GetOCSPFetchStatus() == OCSPFetchStatus::Fetched; + } + break; + } + + case certificateUsageSSLServer: { + // TODO: When verifying a certificate in an SSL handshake, we should + // restrict the acceptable key usage based on the key exchange method + // chosen by the server. + + // Try to validate for EV first. + NSSCertDBTrustDomain::OCSPFetching evOCSPFetching = + (mOCSPDownloadConfig == ocspOff) || (flags & FLAG_LOCAL_ONLY) + ? NSSCertDBTrustDomain::LocalOnlyOCSPForEV + : NSSCertDBTrustDomain::FetchOCSPForEV; + + nsTArray<CertPolicyId> evPolicies; + GetKnownEVPolicies(certBytes, evPolicies); + rv = Result::ERROR_UNKNOWN_ERROR; + for (const auto& evPolicy : evPolicies) { + NSSCertDBTrustDomain trustDomain( + trustSSL, evOCSPFetching, mOCSPCache, pinArg, mOCSPTimeoutSoft, + mOCSPTimeoutHard, mCertShortLifetimeInDays, MIN_RSA_BITS, + ValidityCheckingMode::CheckForEV, mNetscapeStepUpPolicy, + mCRLiteMode, originAttributes, mThirdPartyRootInputs, + mThirdPartyIntermediateInputs, extraCertificates, builtChain, + pinningTelemetryInfo, hostname); + rv = BuildCertChainForOneKeyUsage( + trustDomain, certDER, time, + KeyUsage::digitalSignature, // (EC)DHE + KeyUsage::keyEncipherment, // RSA + KeyUsage::keyAgreement, // (EC)DH + KeyPurposeId::id_kp_serverAuth, evPolicy, stapledOCSPResponse, + ocspStaplingStatus); + if (madeOCSPRequests) { + *madeOCSPRequests |= + trustDomain.GetOCSPFetchStatus() == OCSPFetchStatus::Fetched; + } + if (issuerSources) { + *issuerSources = trustDomain.GetIssuerSources(); + } + if (rv == Success) { + rv = VerifyCertificateTransparencyPolicy( + trustDomain, builtChain, sctsFromTLSInput, time, ctInfo); + } + if (rv == Success) { + if (evStatus) { + *evStatus = EVStatus::EV; + } + if (isBuiltChainRootBuiltInRoot) { + *isBuiltChainRootBuiltInRoot = + trustDomain.GetIsBuiltChainRootBuiltInRoot(); + } + break; + } + } + if (rv == Success) { + break; + } + if (flags & FLAG_MUST_BE_EV) { + rv = Result::ERROR_POLICY_VALIDATION_FAILED; + break; + } + + // Now try non-EV. + unsigned int keySizeOptions[] = {MIN_RSA_BITS, MIN_RSA_BITS_WEAK}; + + KeySizeStatus keySizeStatuses[] = {KeySizeStatus::LargeMinimumSucceeded, + KeySizeStatus::CompatibilityRisk}; + + static_assert( + MOZ_ARRAY_LENGTH(keySizeOptions) == MOZ_ARRAY_LENGTH(keySizeStatuses), + "keySize array lengths differ"); + + size_t keySizeOptionsCount = MOZ_ARRAY_LENGTH(keySizeStatuses); + + for (size_t i = 0; i < keySizeOptionsCount && rv != Success; i++) { + // invalidate any telemetry info relating to failed chains + if (pinningTelemetryInfo) { + pinningTelemetryInfo->Reset(); + } + + NSSCertDBTrustDomain trustDomain( + trustSSL, defaultOCSPFetching, mOCSPCache, pinArg, mOCSPTimeoutSoft, + mOCSPTimeoutHard, mCertShortLifetimeInDays, keySizeOptions[i], + ValidityCheckingMode::CheckingOff, mNetscapeStepUpPolicy, + mCRLiteMode, originAttributes, mThirdPartyRootInputs, + mThirdPartyIntermediateInputs, extraCertificates, builtChain, + pinningTelemetryInfo, hostname); + rv = BuildCertChainForOneKeyUsage( + trustDomain, certDER, time, + KeyUsage::digitalSignature, //(EC)DHE + KeyUsage::keyEncipherment, // RSA + KeyUsage::keyAgreement, //(EC)DH + KeyPurposeId::id_kp_serverAuth, CertPolicyId::anyPolicy, + stapledOCSPResponse, ocspStaplingStatus); + if (madeOCSPRequests) { + *madeOCSPRequests |= + trustDomain.GetOCSPFetchStatus() == OCSPFetchStatus::Fetched; + } + if (issuerSources) { + *issuerSources = trustDomain.GetIssuerSources(); + } + if (rv != Success && !IsFatalError(rv) && + rv != Result::ERROR_REVOKED_CERTIFICATE && + trustDomain.GetIsErrorDueToDistrustedCAPolicy()) { + // Bug 1444440 - If there are multiple paths, at least one to a CA + // distrusted-by-policy, and none of them ending in a trusted root, + // then we might show a different error (UNKNOWN_ISSUER) than we + // intend, confusing users. + rv = Result::ERROR_ADDITIONAL_POLICY_CONSTRAINT_FAILED; + } + if (rv == Success) { + rv = VerifyCertificateTransparencyPolicy( + trustDomain, builtChain, sctsFromTLSInput, time, ctInfo); + } + if (rv == Success) { + if (keySizeStatus) { + *keySizeStatus = keySizeStatuses[i]; + } + if (isBuiltChainRootBuiltInRoot) { + *isBuiltChainRootBuiltInRoot = + trustDomain.GetIsBuiltChainRootBuiltInRoot(); + } + break; + } + } + + if (rv != Success && keySizeStatus) { + *keySizeStatus = KeySizeStatus::AlreadyBad; + } + + break; + } + + case certificateUsageSSLCA: { + NSSCertDBTrustDomain trustDomain( + trustSSL, defaultOCSPFetching, mOCSPCache, pinArg, mOCSPTimeoutSoft, + mOCSPTimeoutHard, mCertShortLifetimeInDays, MIN_RSA_BITS_WEAK, + ValidityCheckingMode::CheckingOff, mNetscapeStepUpPolicy, mCRLiteMode, + originAttributes, mThirdPartyRootInputs, + mThirdPartyIntermediateInputs, extraCertificates, builtChain, nullptr, + nullptr); + rv = BuildCertChain(trustDomain, certDER, time, EndEntityOrCA::MustBeCA, + KeyUsage::keyCertSign, KeyPurposeId::id_kp_serverAuth, + CertPolicyId::anyPolicy, stapledOCSPResponse); + if (madeOCSPRequests) { + *madeOCSPRequests |= + trustDomain.GetOCSPFetchStatus() == OCSPFetchStatus::Fetched; + } + break; + } + + case certificateUsageEmailSigner: { + NSSCertDBTrustDomain trustDomain( + trustEmail, defaultOCSPFetching, mOCSPCache, pinArg, mOCSPTimeoutSoft, + mOCSPTimeoutHard, mCertShortLifetimeInDays, MIN_RSA_BITS_WEAK, + ValidityCheckingMode::CheckingOff, NetscapeStepUpPolicy::NeverMatch, + mCRLiteMode, originAttributes, mThirdPartyRootInputs, + mThirdPartyIntermediateInputs, extraCertificates, builtChain, nullptr, + nullptr); + rv = BuildCertChain( + trustDomain, certDER, time, EndEntityOrCA::MustBeEndEntity, + KeyUsage::digitalSignature, KeyPurposeId::id_kp_emailProtection, + CertPolicyId::anyPolicy, stapledOCSPResponse); + if (rv == Result::ERROR_INADEQUATE_KEY_USAGE) { + rv = BuildCertChain( + trustDomain, certDER, time, EndEntityOrCA::MustBeEndEntity, + KeyUsage::nonRepudiation, KeyPurposeId::id_kp_emailProtection, + CertPolicyId::anyPolicy, stapledOCSPResponse); + } + if (madeOCSPRequests) { + *madeOCSPRequests |= + trustDomain.GetOCSPFetchStatus() == OCSPFetchStatus::Fetched; + } + break; + } + + case certificateUsageEmailRecipient: { + // TODO: The higher level S/MIME processing should pass in which key + // usage it is trying to verify for, and base its algorithm choices + // based on the result of the verification(s). + NSSCertDBTrustDomain trustDomain( + trustEmail, defaultOCSPFetching, mOCSPCache, pinArg, mOCSPTimeoutSoft, + mOCSPTimeoutHard, mCertShortLifetimeInDays, MIN_RSA_BITS_WEAK, + ValidityCheckingMode::CheckingOff, NetscapeStepUpPolicy::NeverMatch, + mCRLiteMode, originAttributes, mThirdPartyRootInputs, + mThirdPartyIntermediateInputs, extraCertificates, builtChain, nullptr, + nullptr); + rv = BuildCertChain(trustDomain, certDER, time, + EndEntityOrCA::MustBeEndEntity, + KeyUsage::keyEncipherment, // RSA + KeyPurposeId::id_kp_emailProtection, + CertPolicyId::anyPolicy, stapledOCSPResponse); + if (rv == Result::ERROR_INADEQUATE_KEY_USAGE) { + rv = BuildCertChain(trustDomain, certDER, time, + EndEntityOrCA::MustBeEndEntity, + KeyUsage::keyAgreement, // ECDH/DH + KeyPurposeId::id_kp_emailProtection, + CertPolicyId::anyPolicy, stapledOCSPResponse); + } + if (madeOCSPRequests) { + *madeOCSPRequests |= + trustDomain.GetOCSPFetchStatus() == OCSPFetchStatus::Fetched; + } + break; + } + + default: + rv = Result::FATAL_ERROR_INVALID_ARGS; + } + + if (rv != Success) { + return rv; + } + + return Success; +} + +static bool CertIsSelfSigned(const BackCert& backCert, void* pinarg) { + if (!InputsAreEqual(backCert.GetIssuer(), backCert.GetSubject())) { + return false; + } + + nsTArray<Span<const uint8_t>> emptyCertList; + // AppTrustDomain is only used for its signature verification callbacks + // (AppTrustDomain::Verify{ECDSA,RSAPKCS1,RSAPSS}SignedData). + mozilla::psm::AppTrustDomain trustDomain(std::move(emptyCertList)); + Result rv = VerifySignedData(trustDomain, backCert.GetSignedData(), + backCert.GetSubjectPublicKeyInfo()); + return rv == Success; +} + +class SkipInvalidSANsForNonBuiltInRootsPolicy : public NameMatchingPolicy { + public: + explicit SkipInvalidSANsForNonBuiltInRootsPolicy(bool rootIsBuiltIn) + : mRootIsBuiltIn(rootIsBuiltIn) {} + + virtual Result FallBackToCommonName( + Time, + /*out*/ FallBackToSearchWithinSubject& fallBackToCommonName) override { + fallBackToCommonName = FallBackToSearchWithinSubject::No; + return Success; + } + + virtual HandleInvalidSubjectAlternativeNamesBy + HandleInvalidSubjectAlternativeNames() override { + return mRootIsBuiltIn ? HandleInvalidSubjectAlternativeNamesBy::Halting + : HandleInvalidSubjectAlternativeNamesBy::Skipping; + } + + private: + bool mRootIsBuiltIn; +}; + +static Result CheckCertHostnameHelper(Input peerCertInput, + const nsACString& hostname, + bool rootIsBuiltIn) { + Input hostnameInput; + Result rv = hostnameInput.Init( + BitwiseCast<const uint8_t*, const char*>(hostname.BeginReading()), + hostname.Length()); + if (rv != Success) { + return Result::FATAL_ERROR_INVALID_ARGS; + } + + SkipInvalidSANsForNonBuiltInRootsPolicy nameMatchingPolicy(rootIsBuiltIn); + rv = CheckCertHostname(peerCertInput, hostnameInput, nameMatchingPolicy); + // Treat malformed name information as a domain mismatch. + if (rv == Result::ERROR_BAD_DER) { + return Result::ERROR_BAD_CERT_DOMAIN; + } + return rv; +} + +Result CertVerifier::VerifySSLServerCert( + const nsTArray<uint8_t>& peerCertBytes, Time time, + /*optional*/ void* pinarg, const nsACString& hostname, + /*out*/ nsTArray<nsTArray<uint8_t>>& builtChain, + /*optional*/ Flags flags, + /*optional*/ const Maybe<nsTArray<nsTArray<uint8_t>>>& extraCertificates, + /*optional*/ const Maybe<nsTArray<uint8_t>>& stapledOCSPResponse, + /*optional*/ const Maybe<nsTArray<uint8_t>>& sctsFromTLS, + /*optional*/ const Maybe<DelegatedCredentialInfo>& dcInfo, + /*optional*/ const OriginAttributes& originAttributes, + /*optional out*/ EVStatus* evStatus, + /*optional out*/ OCSPStaplingStatus* ocspStaplingStatus, + /*optional out*/ KeySizeStatus* keySizeStatus, + /*optional out*/ PinningTelemetryInfo* pinningTelemetryInfo, + /*optional out*/ CertificateTransparencyInfo* ctInfo, + /*optional out*/ bool* isBuiltChainRootBuiltInRoot, + /*optional out*/ bool* madeOCSPRequests, + /*optional out*/ IssuerSources* issuerSources) { + // XXX: MOZ_ASSERT(pinarg); + MOZ_ASSERT(!hostname.IsEmpty()); + + if (isBuiltChainRootBuiltInRoot) { + *isBuiltChainRootBuiltInRoot = false; + } + + if (evStatus) { + *evStatus = EVStatus::NotEV; + } + + if (hostname.IsEmpty()) { + return Result::ERROR_BAD_CERT_DOMAIN; + } + + // CreateCertErrorRunnable assumes that CheckCertHostname is only called + // if VerifyCert succeeded. + Input peerCertInput; + Result rv = + peerCertInput.Init(peerCertBytes.Elements(), peerCertBytes.Length()); + if (rv != Success) { + return rv; + } + bool isBuiltChainRootBuiltInRootLocal; + rv = VerifyCert( + peerCertBytes, certificateUsageSSLServer, time, pinarg, + PromiseFlatCString(hostname).get(), builtChain, flags, extraCertificates, + stapledOCSPResponse, sctsFromTLS, originAttributes, evStatus, + ocspStaplingStatus, keySizeStatus, pinningTelemetryInfo, ctInfo, + &isBuiltChainRootBuiltInRootLocal, madeOCSPRequests, issuerSources); + if (rv != Success) { + // we don't use the certificate for path building, so this parameter doesn't + // matter + EndEntityOrCA notUsedForPaths = EndEntityOrCA::MustBeEndEntity; + BackCert peerBackCert(peerCertInput, notUsedForPaths, nullptr); + if (peerBackCert.Init() != Success) { + return rv; + } + if ((rv == Result::ERROR_UNKNOWN_ISSUER || + rv == Result::ERROR_BAD_SIGNATURE || + rv == Result::ERROR_INADEQUATE_KEY_USAGE) && + CertIsSelfSigned(peerBackCert, pinarg)) { + // In this case we didn't find any issuer for the certificate, or we did + // find other certificates with the same subject but different keys, and + // the certificate is self-signed. + return Result::ERROR_SELF_SIGNED_CERT; + } + if (rv == Result::ERROR_UNKNOWN_ISSUER) { + // In this case we didn't get any valid path for the cert. Let's see if + // the issuer is the same as the issuer for our canary probe. If yes, this + // connection is connecting via a misconfigured proxy. + // Note: The MitM canary might not be set. In this case we consider this + // an unknown issuer error. + nsCOMPtr<nsINSSComponent> component( + do_GetService(PSM_COMPONENT_CONTRACTID)); + if (!component) { + return Result::FATAL_ERROR_LIBRARY_FAILURE; + } + // IssuerMatchesMitmCanary succeeds if the issuer matches the canary and + // the feature is enabled. + Input issuerNameInput = peerBackCert.GetIssuer(); + SECItem issuerNameItem = UnsafeMapInputToSECItem(issuerNameInput); + UniquePORTString issuerName(CERT_DerNameToAscii(&issuerNameItem)); + if (!issuerName) { + return Result::ERROR_BAD_DER; + } + nsresult rv = component->IssuerMatchesMitmCanary(issuerName.get()); + if (NS_SUCCEEDED(rv)) { + return Result::ERROR_MITM_DETECTED; + } + } + // If the certificate is expired or not yet valid, first check whether or + // not it is valid for the indicated hostname, because that would be a more + // serious error. + if (rv == Result::ERROR_EXPIRED_CERTIFICATE || + rv == Result::ERROR_NOT_YET_VALID_CERTIFICATE || + rv == Result::ERROR_INVALID_DER_TIME) { + Result hostnameResult = + CheckCertHostnameHelper(peerCertInput, hostname, false); + if (hostnameResult != Success) { + return hostnameResult; + } + } + return rv; + } + + if (dcInfo) { + rv = IsDelegatedCredentialAcceptable(*dcInfo); + if (rv != Success) { + return rv; + } + } + + Input stapledOCSPResponseInput; + Input* responseInputPtr = nullptr; + if (stapledOCSPResponse) { + rv = stapledOCSPResponseInput.Init(stapledOCSPResponse->Elements(), + stapledOCSPResponse->Length()); + if (rv != Success) { + // The stapled OCSP response was too big. + return Result::ERROR_OCSP_MALFORMED_RESPONSE; + } + responseInputPtr = &stapledOCSPResponseInput; + } + + if (!(flags & FLAG_TLS_IGNORE_STATUS_REQUEST)) { + rv = CheckTLSFeaturesAreSatisfied(peerCertInput, responseInputPtr); + if (rv != Success) { + return rv; + } + } + + rv = CheckCertHostnameHelper(peerCertInput, hostname, + isBuiltChainRootBuiltInRootLocal); + if (rv != Success) { + return rv; + } + + if (isBuiltChainRootBuiltInRoot) { + *isBuiltChainRootBuiltInRoot = isBuiltChainRootBuiltInRootLocal; + } + + return Success; +} + +} // namespace psm +} // namespace mozilla |