blob: 3fff518a80322c73239c694805c0e9c108c088f9 [file] [log] [blame]
// Copyright 2013 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 "net/cert/signed_certificate_timestamp.h"
#include "base/pickle.h"
namespace net {
namespace ct {
bool SignedCertificateTimestamp::LessThan::operator()(
const scoped_refptr<SignedCertificateTimestamp>& lhs,
const scoped_refptr<SignedCertificateTimestamp>& rhs) const {
if (lhs.get() == rhs.get())
return false;
if (lhs->signature.signature_data != rhs->signature.signature_data)
return lhs->signature.signature_data < rhs->signature.signature_data;
if (lhs->log_id != rhs->log_id)
return lhs->log_id < rhs->log_id;
if (lhs->timestamp != rhs->timestamp)
return lhs->timestamp < rhs->timestamp;
if (lhs->extensions != rhs->extensions)
return lhs->extensions < rhs->extensions;
if (lhs->origin != rhs->origin)
return lhs->origin < rhs->origin;
return lhs->version < rhs->version;
}
SignedCertificateTimestamp::SignedCertificateTimestamp()
: version(V1), origin(SCT_EMBEDDED) {}
SignedCertificateTimestamp::~SignedCertificateTimestamp() = default;
void SignedCertificateTimestamp::Persist(base::Pickle* pickle) {
pickle->WriteInt(version);
pickle->WriteString(log_id);
pickle->WriteInt64(timestamp.ToInternalValue());
pickle->WriteString(extensions);
pickle->WriteInt(signature.hash_algorithm);
pickle->WriteInt(signature.signature_algorithm);
pickle->WriteString(signature.signature_data);
pickle->WriteInt(origin);
pickle->WriteString(log_description);
}
// static
scoped_refptr<SignedCertificateTimestamp>
SignedCertificateTimestamp::CreateFromPickle(base::PickleIterator* iter) {
int version;
int64_t timestamp;
int hash_algorithm;
int sig_algorithm;
scoped_refptr<SignedCertificateTimestamp> sct(
new SignedCertificateTimestamp());
int origin;
// string values are set directly
if (!(iter->ReadInt(&version) &&
iter->ReadString(&sct->log_id) &&
iter->ReadInt64(&timestamp) &&
iter->ReadString(&sct->extensions) &&
iter->ReadInt(&hash_algorithm) &&
iter->ReadInt(&sig_algorithm) &&
iter->ReadString(&sct->signature.signature_data) &&
iter->ReadInt(&origin) &&
iter->ReadString(&sct->log_description))) {
return NULL;
}
// Now set the rest of the member variables:
sct->version = static_cast<Version>(version);
sct->timestamp = base::Time::FromInternalValue(timestamp);
sct->signature.hash_algorithm =
static_cast<DigitallySigned::HashAlgorithm>(hash_algorithm);
sct->signature.signature_algorithm =
static_cast<DigitallySigned::SignatureAlgorithm>(sig_algorithm);
sct->origin = static_cast<Origin>(origin);
return sct;
}
SignedEntryData::SignedEntryData() : type(LOG_ENTRY_TYPE_X509) {}
SignedEntryData::~SignedEntryData() = default;
void SignedEntryData::Reset() {
type = SignedEntryData::LOG_ENTRY_TYPE_X509;
leaf_certificate.clear();
tbs_certificate.clear();
}
DigitallySigned::DigitallySigned()
: hash_algorithm(HASH_ALGO_NONE), signature_algorithm(SIG_ALGO_ANONYMOUS) {}
DigitallySigned::~DigitallySigned() = default;
bool DigitallySigned::SignatureParametersMatch(
HashAlgorithm other_hash_algorithm,
SignatureAlgorithm other_signature_algorithm) const {
return (hash_algorithm == other_hash_algorithm) &&
(signature_algorithm == other_signature_algorithm);
}
} // namespace ct
} // namespace net