WebCoreArgumentCodersSoup.cpp [plain text]
#include "config.h"
#include "DataReference.h"
#include "WebCoreArgumentCoders.h"
#include <WebCore/CertificateInfo.h>
#include <WebCore/ResourceError.h>
#include <WebCore/ResourceRequest.h>
#include <WebCore/ResourceResponse.h>
#include <wtf/text/CString.h>
using namespace WebCore;
namespace IPC {
void ArgumentCoder<ResourceRequest>::encodePlatformData(Encoder& encoder, const ResourceRequest& resourceRequest)
{
resourceRequest.encodeWithPlatformData(encoder);
}
bool ArgumentCoder<ResourceRequest>::decodePlatformData(Decoder& decoder, ResourceRequest& resourceRequest)
{
return resourceRequest.decodeWithPlatformData(decoder);
}
void ArgumentCoder<CertificateInfo>::encode(Encoder& encoder, const CertificateInfo& certificateInfo)
{
if (!certificateInfo.certificate()) {
encoder << false;
return;
}
GByteArray* certificateData = 0;
g_object_get(G_OBJECT(certificateInfo.certificate()), "certificate", &certificateData, NULL);
if (!certificateData) {
encoder << false;
return;
}
encoder << true;
GRefPtr<GByteArray> certificate = adoptGRef(certificateData);
encoder.encodeVariableLengthByteArray(IPC::DataReference(certificate->data, certificate->len));
encoder << static_cast<uint32_t>(certificateInfo.tlsErrors());
}
bool ArgumentCoder<CertificateInfo>::decode(Decoder& decoder, CertificateInfo& certificateInfo)
{
bool hasCertificate;
if (!decoder.decode(hasCertificate))
return false;
if (!hasCertificate)
return true;
IPC::DataReference certificateDataReference;
if (!decoder.decodeVariableLengthByteArray(certificateDataReference))
return false;
GByteArray* certificateData = g_byte_array_sized_new(certificateDataReference.size());
certificateData = g_byte_array_append(certificateData, certificateDataReference.data(), certificateDataReference.size());
GRefPtr<GByteArray> certificateBytes = adoptGRef(certificateData);
GTlsBackend* backend = g_tls_backend_get_default();
GRefPtr<GTlsCertificate> certificate = adoptGRef(G_TLS_CERTIFICATE(g_initable_new(
g_tls_backend_get_certificate_type(backend), 0, 0, "certificate", certificateBytes.get(), nullptr)));
certificateInfo.setCertificate(certificate.get());
uint32_t tlsErrors;
if (!decoder.decode(tlsErrors))
return false;
certificateInfo.setTLSErrors(static_cast<GTlsCertificateFlags>(tlsErrors));
return true;
}
void ArgumentCoder<ResourceError>::encodePlatformData(Encoder& encoder, const ResourceError& resourceError)
{
encoder.encodeEnum(resourceError.type());
if (resourceError.isNull())
return;
encoder << resourceError.domain();
encoder << resourceError.errorCode();
encoder << resourceError.failingURL().string();
encoder << resourceError.localizedDescription();
encoder << CertificateInfo(resourceError);
}
bool ArgumentCoder<ResourceError>::decodePlatformData(Decoder& decoder, ResourceError& resourceError)
{
ResourceErrorBase::Type errorType;
if (!decoder.decodeEnum(errorType))
return false;
if (errorType == ResourceErrorBase::Type::Null) {
resourceError = { };
return true;
}
String domain;
if (!decoder.decode(domain))
return false;
int errorCode;
if (!decoder.decode(errorCode))
return false;
String failingURL;
if (!decoder.decode(failingURL))
return false;
String localizedDescription;
if (!decoder.decode(localizedDescription))
return false;
resourceError = ResourceError(domain, errorCode, URL(URL(), failingURL), localizedDescription);
resourceError.setType(errorType);
CertificateInfo certificateInfo;
if (!decoder.decode(certificateInfo))
return false;
resourceError.setCertificate(certificateInfo.certificate());
resourceError.setTLSErrors(certificateInfo.tlsErrors());
return true;
}
void ArgumentCoder<ProtectionSpace>::encodePlatformData(Encoder&, const ProtectionSpace&)
{
ASSERT_NOT_REACHED();
}
bool ArgumentCoder<ProtectionSpace>::decodePlatformData(Decoder&, ProtectionSpace&)
{
ASSERT_NOT_REACHED();
return false;
}
void ArgumentCoder<Credential>::encodePlatformData(Encoder&, const Credential&)
{
ASSERT_NOT_REACHED();
}
bool ArgumentCoder<Credential>::decodePlatformData(Decoder&, Credential&)
{
ASSERT_NOT_REACHED();
return false;
}
}