зеркало из https://github.com/mozilla/gecko-dev.git
318 строки
10 KiB
C++
318 строки
10 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set ts=8 sts=2 et sw=2 tw=80: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "CTLogVerifier.h"
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#include <stdint.h>
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#include "CTSerialization.h"
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#include "hasht.h"
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#include "mozpkix/pkixnss.h"
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#include "mozpkix/pkixutil.h"
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namespace mozilla {
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namespace ct {
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using namespace mozilla::pkix;
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// A TrustDomain used to extract the SCT log signature parameters
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// given its subjectPublicKeyInfo.
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// Only RSASSA-PKCS1v15 with SHA-256 and ECDSA (using the NIST P-256 curve)
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// with SHA-256 are allowed.
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// RSA keys must be at least 2048 bits.
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// See See RFC 6962, Section 2.1.4.
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class SignatureParamsTrustDomain final : public TrustDomain {
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public:
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SignatureParamsTrustDomain()
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: mSignatureAlgorithm(DigitallySigned::SignatureAlgorithm::Anonymous) {}
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Result GetCertTrust(EndEntityOrCA, const CertPolicyId&, Input,
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TrustLevel&) override {
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return Result::FATAL_ERROR_LIBRARY_FAILURE;
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}
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Result FindIssuer(Input, IssuerChecker&, Time) override {
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return Result::FATAL_ERROR_LIBRARY_FAILURE;
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}
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Result CheckRevocation(EndEntityOrCA, const CertID&, Time, Duration,
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const Input*, const Input*) override {
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return Result::FATAL_ERROR_LIBRARY_FAILURE;
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}
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Result IsChainValid(const DERArray&, Time, const CertPolicyId&) override {
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return Result::FATAL_ERROR_LIBRARY_FAILURE;
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}
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Result DigestBuf(Input, DigestAlgorithm, uint8_t*, size_t) override {
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return Result::FATAL_ERROR_LIBRARY_FAILURE;
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}
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Result CheckSignatureDigestAlgorithm(DigestAlgorithm, EndEntityOrCA,
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Time) override {
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return Result::FATAL_ERROR_LIBRARY_FAILURE;
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}
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Result CheckECDSACurveIsAcceptable(EndEntityOrCA, NamedCurve curve) override {
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assert(mSignatureAlgorithm ==
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DigitallySigned::SignatureAlgorithm::Anonymous);
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if (curve != NamedCurve::secp256r1) {
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return Result::ERROR_UNSUPPORTED_ELLIPTIC_CURVE;
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}
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mSignatureAlgorithm = DigitallySigned::SignatureAlgorithm::ECDSA;
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return Success;
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}
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Result VerifyECDSASignedDigest(const SignedDigest&, Input) override {
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return Result::FATAL_ERROR_LIBRARY_FAILURE;
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}
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Result CheckRSAPublicKeyModulusSizeInBits(
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EndEntityOrCA, unsigned int modulusSizeInBits) override {
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assert(mSignatureAlgorithm ==
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DigitallySigned::SignatureAlgorithm::Anonymous);
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// Require RSA keys of at least 2048 bits. See RFC 6962, Section 2.1.4.
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if (modulusSizeInBits < 2048) {
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return Result::ERROR_INADEQUATE_KEY_SIZE;
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}
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mSignatureAlgorithm = DigitallySigned::SignatureAlgorithm::RSA;
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return Success;
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}
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Result VerifyRSAPKCS1SignedDigest(const SignedDigest&, Input) override {
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return Result::FATAL_ERROR_LIBRARY_FAILURE;
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}
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Result CheckValidityIsAcceptable(Time, Time, EndEntityOrCA,
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KeyPurposeId) override {
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return Result::FATAL_ERROR_LIBRARY_FAILURE;
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}
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Result NetscapeStepUpMatchesServerAuth(Time, bool&) override {
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return Result::FATAL_ERROR_LIBRARY_FAILURE;
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}
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void NoteAuxiliaryExtension(AuxiliaryExtension, Input) override {}
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DigitallySigned::SignatureAlgorithm mSignatureAlgorithm;
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};
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CTLogVerifier::CTLogVerifier()
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: mSignatureAlgorithm(DigitallySigned::SignatureAlgorithm::Anonymous),
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mOperatorId(-1),
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mDisqualified(false),
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mDisqualificationTime(UINT64_MAX) {}
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Result CTLogVerifier::Init(Input subjectPublicKeyInfo,
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CTLogOperatorId operatorId, CTLogStatus logStatus,
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uint64_t disqualificationTime) {
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switch (logStatus) {
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case CTLogStatus::Included:
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mDisqualified = false;
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mDisqualificationTime = UINT64_MAX;
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break;
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case CTLogStatus::Disqualified:
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mDisqualified = true;
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mDisqualificationTime = disqualificationTime;
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break;
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case CTLogStatus::Unknown:
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default:
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assert(false);
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return Result::FATAL_ERROR_INVALID_ARGS;
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}
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SignatureParamsTrustDomain trustDomain;
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Result rv = CheckSubjectPublicKeyInfo(subjectPublicKeyInfo, trustDomain,
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EndEntityOrCA::MustBeEndEntity);
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if (rv != Success) {
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return rv;
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}
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mSignatureAlgorithm = trustDomain.mSignatureAlgorithm;
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InputToBuffer(subjectPublicKeyInfo, mSubjectPublicKeyInfo);
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if (mSignatureAlgorithm == DigitallySigned::SignatureAlgorithm::ECDSA) {
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SECItem spkiSECItem = {
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siBuffer, mSubjectPublicKeyInfo.data(),
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static_cast<unsigned int>(mSubjectPublicKeyInfo.size())};
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UniqueCERTSubjectPublicKeyInfo spki(
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SECKEY_DecodeDERSubjectPublicKeyInfo(&spkiSECItem));
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if (!spki) {
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return MapPRErrorCodeToResult(PR_GetError());
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}
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mPublicECKey.reset(SECKEY_ExtractPublicKey(spki.get()));
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if (!mPublicECKey) {
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return MapPRErrorCodeToResult(PR_GetError());
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}
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UniquePK11SlotInfo slot(PK11_GetInternalSlot());
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if (!slot) {
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return MapPRErrorCodeToResult(PR_GetError());
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}
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CK_OBJECT_HANDLE handle =
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PK11_ImportPublicKey(slot.get(), mPublicECKey.get(), false);
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if (handle == CK_INVALID_HANDLE) {
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return MapPRErrorCodeToResult(PR_GetError());
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}
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} else {
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mPublicECKey.reset(nullptr);
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}
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mKeyId.resize(SHA256_LENGTH);
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rv = DigestBufNSS(subjectPublicKeyInfo, DigestAlgorithm::sha256,
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mKeyId.data(), mKeyId.size());
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if (rv != Success) {
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return rv;
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}
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mOperatorId = operatorId;
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return Success;
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}
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Result CTLogVerifier::Verify(const LogEntry& entry,
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const SignedCertificateTimestamp& sct) {
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if (mKeyId.empty() || sct.logId != mKeyId) {
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return Result::FATAL_ERROR_INVALID_ARGS;
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}
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if (!SignatureParametersMatch(sct.signature)) {
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return Result::FATAL_ERROR_INVALID_ARGS;
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}
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Buffer serializedLogEntry;
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Result rv = EncodeLogEntry(entry, serializedLogEntry);
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if (rv != Success) {
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return rv;
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}
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Input logEntryInput;
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rv = BufferToInput(serializedLogEntry, logEntryInput);
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if (rv != Success) {
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return rv;
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}
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// sct.extensions may be empty. If it is, sctExtensionsInput will remain in
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// its default state, which is valid but of length 0.
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Input sctExtensionsInput;
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if (!sct.extensions.empty()) {
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rv = sctExtensionsInput.Init(sct.extensions.data(), sct.extensions.size());
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if (rv != Success) {
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return rv;
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}
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}
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Buffer serializedData;
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rv = EncodeV1SCTSignedData(sct.timestamp, logEntryInput, sctExtensionsInput,
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serializedData);
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if (rv != Success) {
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return rv;
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}
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return VerifySignature(serializedData, sct.signature.signatureData);
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}
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bool CTLogVerifier::SignatureParametersMatch(const DigitallySigned& signature) {
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return signature.SignatureParametersMatch(
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DigitallySigned::HashAlgorithm::SHA256, mSignatureAlgorithm);
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}
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static Result FasterVerifyECDSASignedDigestNSS(const SignedDigest& sd,
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UniqueSECKEYPublicKey& pubkey) {
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assert(pubkey);
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if (!pubkey) {
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return Result::FATAL_ERROR_LIBRARY_FAILURE;
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}
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// The signature is encoded as a DER SEQUENCE of two INTEGERs. PK11_Verify
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// expects the signature as only the two integers r and s (so no encoding -
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// just two series of bytes each half as long as SECKEY_SignatureLen(pubkey)).
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// DSAU_DecodeDerSigToLen converts from the former format to the latter.
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SECItem derSignatureSECItem(UnsafeMapInputToSECItem(sd.signature));
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size_t signatureLen = SECKEY_SignatureLen(pubkey.get());
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if (signatureLen == 0) {
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return MapPRErrorCodeToResult(PR_GetError());
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}
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UniqueSECItem signatureSECItem(
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DSAU_DecodeDerSigToLen(&derSignatureSECItem, signatureLen));
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if (!signatureSECItem) {
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return MapPRErrorCodeToResult(PR_GetError());
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}
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SECItem digestSECItem(UnsafeMapInputToSECItem(sd.digest));
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SECStatus srv = PK11_Verify(pubkey.get(), signatureSECItem.get(),
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&digestSECItem, nullptr);
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if (srv != SECSuccess) {
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return MapPRErrorCodeToResult(PR_GetError());
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}
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return Success;
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}
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Result CTLogVerifier::VerifySignature(Input data, Input signature) {
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uint8_t digest[SHA256_LENGTH];
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Result rv = DigestBufNSS(data, DigestAlgorithm::sha256, digest,
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MOZILLA_CT_ARRAY_LENGTH(digest));
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if (rv != Success) {
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return rv;
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}
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SignedDigest signedDigest;
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signedDigest.digestAlgorithm = DigestAlgorithm::sha256;
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rv = signedDigest.digest.Init(digest, MOZILLA_CT_ARRAY_LENGTH(digest));
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if (rv != Success) {
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return rv;
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}
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rv = signedDigest.signature.Init(signature);
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if (rv != Success) {
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return rv;
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}
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Input spki;
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rv = BufferToInput(mSubjectPublicKeyInfo, spki);
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if (rv != Success) {
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return rv;
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}
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switch (mSignatureAlgorithm) {
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case DigitallySigned::SignatureAlgorithm::RSA:
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rv = VerifyRSAPKCS1SignedDigestNSS(signedDigest, spki, nullptr);
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break;
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case DigitallySigned::SignatureAlgorithm::ECDSA:
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rv = FasterVerifyECDSASignedDigestNSS(signedDigest, mPublicECKey);
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break;
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// We do not expect new values added to this enum any time soon,
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// so just listing all the available ones seems to be the easiest way
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// to suppress warning C4061 on MSVC (which expects all values of the
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// enum to be explicitly handled).
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case DigitallySigned::SignatureAlgorithm::Anonymous:
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case DigitallySigned::SignatureAlgorithm::DSA:
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default:
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assert(false);
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return Result::FATAL_ERROR_INVALID_ARGS;
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}
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if (rv != Success) {
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if (IsFatalError(rv)) {
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return rv;
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}
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// If the error is non-fatal, we assume the signature was invalid.
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return Result::ERROR_BAD_SIGNATURE;
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}
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return Success;
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}
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Result CTLogVerifier::VerifySignature(const Buffer& data,
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const Buffer& signature) {
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Input dataInput;
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Result rv = BufferToInput(data, dataInput);
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if (rv != Success) {
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return rv;
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}
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Input signatureInput;
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rv = BufferToInput(signature, signatureInput);
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if (rv != Success) {
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return rv;
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}
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return VerifySignature(dataInput, signatureInput);
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}
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} // namespace ct
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} // namespace mozilla
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