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283 lines
10 KiB
C++
283 lines
10 KiB
C++
// Copyright (c) 2017 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "net/cert/internal/revocation_checker.h"
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#include <string>
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#include "base/strings/string_piece.h"
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#include "crypto/sha2.h"
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#include "net/cert/cert_net_fetcher.h"
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#include "net/cert/internal/common_cert_errors.h"
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#include "net/cert/internal/ocsp.h"
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#include "net/cert/internal/parsed_certificate.h"
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#include "net/cert/internal/trust_store.h"
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#include "net/cert/ocsp_verify_result.h"
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#include "url/gurl.h"
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namespace net {
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namespace {
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void MarkCertificateRevoked(CertErrors* errors) {
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// TODO(eroman): Add a parameter to the error indicating which mechanism
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// caused the revocation (i.e. CRLSet, OCSP, stapled OCSP, etc).
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errors->AddError(cert_errors::kCertificateRevoked);
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}
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// Checks the revocation status of |cert| according to |policy|. If the checks
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// failed, returns false and adds errors to |cert_errors|.
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//
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// TODO(eroman): Make the verification time an input.
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bool CheckCertRevocation(const ParsedCertificate* cert,
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const ParsedCertificate* issuer_cert,
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const RevocationPolicy& policy,
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base::StringPiece stapled_ocsp_response,
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CertNetFetcher* net_fetcher,
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CertErrors* cert_errors) {
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// Check using stapled OCSP, if available.
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if (!stapled_ocsp_response.empty() && issuer_cert) {
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// TODO(eroman): CheckOCSP() re-parses the certificates, perhaps just pass
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// ParsedCertificate into it.
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OCSPVerifyResult::ResponseStatus response_details;
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OCSPRevocationStatus ocsp_status =
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CheckOCSP(stapled_ocsp_response, cert->der_cert().AsStringPiece(),
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issuer_cert->der_cert().AsStringPiece(), base::Time::Now(),
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&response_details);
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// TODO(eroman): Save the stapled OCSP response to cache.
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switch (ocsp_status) {
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case OCSPRevocationStatus::REVOKED:
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MarkCertificateRevoked(cert_errors);
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return false;
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case OCSPRevocationStatus::GOOD:
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return true;
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case OCSPRevocationStatus::UNKNOWN:
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// TODO(eroman): If the OCSP response was invalid, should we keep
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// looking or fail?
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break;
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}
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}
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// TODO(eroman): Check CRL.
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if (!policy.check_revocation) {
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// TODO(eroman): Should still check CRL/OCSP caches.
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return true;
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}
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bool found_revocation_info = false;
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bool failed_network_fetch = false;
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// Check OCSP.
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if (cert->has_authority_info_access()) {
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// Try each of the OCSP URIs
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for (const auto& ocsp_uri : cert->ocsp_uris()) {
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// Only consider http:// URLs (https:// could create a circular
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// dependency).
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GURL parsed_ocsp_url(ocsp_uri);
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if (!parsed_ocsp_url.is_valid() ||
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!parsed_ocsp_url.SchemeIs(url::kHttpScheme)) {
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continue;
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}
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found_revocation_info = true;
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if (!policy.networking_allowed)
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continue;
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if (!net_fetcher) {
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LOG(ERROR) << "Cannot fetch OCSP as didn't specify a |net_fetcher|";
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continue;
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}
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// TODO(eroman): Duplication of work if there are multiple URLs to try.
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// TODO(eroman): Are there cases where we would need to POST instead?
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GURL get_url = CreateOCSPGetURL(cert, issuer_cert, ocsp_uri);
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if (!get_url.is_valid()) {
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// A failure here could mean an unexpected failure from BoringSSL, or a
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// problem concatenating the URL.
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continue;
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}
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// Fetch it over network.
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//
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// TODO(eroman): Issue POST instead of GET if request is larger than 255
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// bytes?
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// TODO(eroman): Improve interplay with HTTP cache.
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//
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// TODO(eroman): Bound the maximum time allowed spent doing network
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// requests.
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std::unique_ptr<CertNetFetcher::Request> net_ocsp_request =
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net_fetcher->FetchOcsp(get_url, CertNetFetcher::DEFAULT,
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CertNetFetcher::DEFAULT);
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Error net_error;
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std::vector<uint8_t> ocsp_response_bytes;
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net_ocsp_request->WaitForResult(&net_error, &ocsp_response_bytes);
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if (net_error != OK) {
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failed_network_fetch = true;
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continue;
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}
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OCSPVerifyResult::ResponseStatus response_details;
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OCSPRevocationStatus ocsp_status = CheckOCSP(
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base::StringPiece(
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reinterpret_cast<const char*>(ocsp_response_bytes.data()),
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ocsp_response_bytes.size()),
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cert->der_cert().AsStringPiece(),
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issuer_cert->der_cert().AsStringPiece(), base::Time::Now(),
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&response_details);
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switch (ocsp_status) {
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case OCSPRevocationStatus::REVOKED:
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MarkCertificateRevoked(cert_errors);
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return false;
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case OCSPRevocationStatus::GOOD:
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return true;
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case OCSPRevocationStatus::UNKNOWN:
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break;
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}
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}
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}
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// Reaching here means that revocation checking was inconclusive. Determine
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// whether failure to complete revocation checking constitutes an error.
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if (!found_revocation_info) {
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if (policy.allow_missing_info) {
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// If the certificate lacked any (recognized) revocation mechanisms, and
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// the policy permits it, consider revocation checking a success.
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return true;
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} else {
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// If the certificate lacked any (recognized) revocation mechanisms, and
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// the policy forbids it, fail revocation checking.
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cert_errors->AddError(cert_errors::kNoRevocationMechanism);
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return false;
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}
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}
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// In soft-fail mode permit failures due to network errors.
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// TODO(eroman): Add a warning to |cert_errors| indicating the failure.
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if (failed_network_fetch && policy.allow_network_failure)
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return true;
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// Otherwise the policy doesn't allow revocation checking to fail.
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cert_errors->AddError(cert_errors::kUnableToCheckRevocation);
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return false;
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}
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} // namespace
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// The default values specify a strict revocation checking mode, in case users
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// fail to fully set the parameters.
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RevocationPolicy::RevocationPolicy()
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: check_revocation(true),
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networking_allowed(false),
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allow_missing_info(false),
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allow_network_failure(false) {}
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void CheckCertChainRevocation(const ParsedCertificateList& certs,
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const CertificateTrust& last_cert_trust,
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const RevocationPolicy& policy,
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base::StringPiece stapled_leaf_ocsp_response,
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CertNetFetcher* net_fetcher,
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CertPathErrors* errors) {
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// Check each certificate for revocation using OCSP/CRL. Checks proceed
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// from the root certificate towards the leaf certificate. Revocation errors
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// are added to |errors|.
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for (size_t reverse_i = 0; reverse_i < certs.size(); ++reverse_i) {
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size_t i = certs.size() - reverse_i - 1;
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const ParsedCertificate* cert = certs[i].get();
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const ParsedCertificate* issuer_cert =
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i + 1 < certs.size() ? certs[i + 1].get() : nullptr;
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// Trust anchors bypass OCSP/CRL revocation checks. (The only way to revoke
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// trust anchors is via CRLSet or the built-in SPKI blacklist).
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if (reverse_i == 0 && last_cert_trust.IsTrustAnchor())
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continue;
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// TODO(eroman): Plumb stapled OCSP for non-leaf certificates from TLS?
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base::StringPiece stapled_ocsp =
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(i == 0) ? stapled_leaf_ocsp_response : base::StringPiece();
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// Check whether this certificate's revocation status complies with the
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// policy.
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bool cert_ok =
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CheckCertRevocation(cert, issuer_cert, policy, stapled_ocsp,
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net_fetcher, errors->GetErrorsForCert(i));
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if (!cert_ok) {
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// If any certificate in the chain fails revocation checks, the chain is
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// revoked and no need to check revocation status for the remaining
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// certificates.
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DCHECK(errors->GetErrorsForCert(i)->ContainsAnyErrorWithSeverity(
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CertError::SEVERITY_HIGH));
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break;
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}
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}
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}
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CRLSet::Result CheckChainRevocationUsingCRLSet(
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const CRLSet* crl_set,
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const ParsedCertificateList& certs,
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CertPathErrors* errors) {
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// Iterate from the root certificate towards the leaf (the root certificate is
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// also checked for revocation by CRLSet).
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std::string issuer_spki_hash;
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for (size_t reverse_i = 0; reverse_i < certs.size(); ++reverse_i) {
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size_t i = certs.size() - reverse_i - 1;
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const ParsedCertificate* cert = certs[i].get();
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// True if |cert| is the root of the chain.
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const bool is_root = reverse_i == 0;
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// True if |cert| is the leaf certificate of the chain.
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const bool is_target = i == 0;
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// Check for revocation using the certificate's SPKI.
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std::string spki_hash =
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crypto::SHA256HashString(cert->tbs().spki_tlv.AsStringPiece());
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CRLSet::Result result = crl_set->CheckSPKI(spki_hash);
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// Check for revocation using the certificate's serial number and issuer's
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// SPKI.
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if (result != CRLSet::REVOKED && !is_root) {
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result = crl_set->CheckSerial(cert->tbs().serial_number.AsStringPiece(),
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issuer_spki_hash);
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}
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// Prepare for the next iteration.
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issuer_spki_hash = std::move(spki_hash);
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switch (result) {
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case CRLSet::REVOKED:
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MarkCertificateRevoked(errors->GetErrorsForCert(i));
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return CRLSet::Result::REVOKED;
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case CRLSet::UNKNOWN:
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// If the status is unknown, advance to the subordinate certificate.
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break;
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case CRLSet::GOOD:
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if (is_target && !crl_set->IsExpired()) {
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// If the target is covered by the CRLSet and known good, consider
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// the entire chain to be valid (even though the revocation status
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// of the intermediates may have been UNKNOWN).
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//
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// Only the leaf certificate is considered for coverage because some
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// intermediates have CRLs with no revocations (after filtering) and
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// those CRLs are pruned from the CRLSet at generation time.
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return CRLSet::Result::GOOD;
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}
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break;
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}
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}
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// If no certificate was revoked, and the target was not known good, then
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// the revocation status is still unknown.
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return CRLSet::Result::UNKNOWN;
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}
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} // namespace net
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