cef/libcef/browser/ssl_host_state_delegate.cc

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// Copyright (c) 2014 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "libcef/browser/ssl_host_state_delegate.h"
#include "base/callback.h"
#include "net/base/hash_value.h"
using content::SSLHostStateDelegate;
namespace internal {
net::SHA256HashValue getChainFingerprint256(const net::X509Certificate& cert) {
net::SHA256HashValue fingerprint =
net::X509Certificate::CalculateChainFingerprint256(
cert.os_cert_handle(), cert.GetIntermediateCertificates());
return fingerprint;
}
CertPolicy::CertPolicy() {
}
CertPolicy::~CertPolicy() {
}
// For an allowance, we consider a given |cert| to be a match to a saved
// allowed cert if the |error| is an exact match to or subset of the errors
// in the saved CertStatus.
bool CertPolicy::Check(const net::X509Certificate& cert,
net::CertStatus error) const {
net::SHA256HashValue fingerprint = getChainFingerprint256(cert);
std::map<net::SHA256HashValue, net::CertStatus,
net::SHA256HashValueLessThan>::const_iterator allowed_iter =
allowed_.find(fingerprint);
if ((allowed_iter != allowed_.end()) && (allowed_iter->second & error) &&
((allowed_iter->second & error) == error)) {
return true;
}
return false;
}
void CertPolicy::Allow(const net::X509Certificate& cert,
net::CertStatus error) {
// If this same cert had already been saved with a different error status,
// this will replace it with the new error status.
net::SHA256HashValue fingerprint = getChainFingerprint256(cert);
allowed_[fingerprint] = error;
}
} // namespace internal
CefSSLHostStateDelegate::CefSSLHostStateDelegate() {
}
CefSSLHostStateDelegate::~CefSSLHostStateDelegate() {
}
void CefSSLHostStateDelegate::HostRanInsecureContent(
const std::string& host,
int child_id,
InsecureContentType content_type) {
// Intentional no-op.
}
bool CefSSLHostStateDelegate::DidHostRunInsecureContent(
const std::string& host,
int child_id,
InsecureContentType content_type) const {
// Intentional no-op.
return false;
}
void CefSSLHostStateDelegate::AllowCert(const std::string& host,
const net::X509Certificate& cert,
net::CertStatus error) {
cert_policy_for_host_[host].Allow(cert, error);
}
void CefSSLHostStateDelegate::Clear(
const base::Callback<bool(const std::string&)>& host_filter) {
if (host_filter.is_null()) {
cert_policy_for_host_.clear();
return;
}
for (auto it = cert_policy_for_host_.begin();
it != cert_policy_for_host_.end();) {
auto next_it = std::next(it);
if (host_filter.Run(it->first))
cert_policy_for_host_.erase(it);
it = next_it;
}
}
SSLHostStateDelegate::CertJudgment CefSSLHostStateDelegate::QueryPolicy(
const std::string& host,
const net::X509Certificate& cert,
net::CertStatus error,
bool* expired_previous_decision) {
return cert_policy_for_host_[host].Check(cert, error)
? SSLHostStateDelegate::ALLOWED
: SSLHostStateDelegate::DENIED;
}
void CefSSLHostStateDelegate::RevokeUserAllowExceptions(
const std::string& host) {
cert_policy_for_host_.erase(host);
}
bool CefSSLHostStateDelegate::HasAllowException(const std::string& host) const {
auto policy_iterator = cert_policy_for_host_.find(host);
return policy_iterator != cert_policy_for_host_.end() &&
policy_iterator->second.HasAllowException();
}