cef/libcef_dll/ctocpp/sslinfo_ctocpp.cc

272 lines
7.6 KiB
C++

// Copyright (c) 2016 The Chromium Embedded Framework Authors. All rights
// reserved. Use of this source code is governed by a BSD-style license that
// can be found in the LICENSE file.
//
// ---------------------------------------------------------------------------
//
// This file was generated by the CEF translator tool. If making changes by
// hand only do so within the body of existing method and function
// implementations. See the translator.README.txt file in the tools directory
// for more information.
//
#include <algorithm>
#include "libcef_dll/ctocpp/binary_value_ctocpp.h"
#include "libcef_dll/ctocpp/sslcert_principal_ctocpp.h"
#include "libcef_dll/ctocpp/sslinfo_ctocpp.h"
// VIRTUAL METHODS - Body may be edited by hand.
cef_cert_status_t CefSSLInfoCToCpp::GetCertStatus() {
cef_sslinfo_t* _struct = GetStruct();
if (CEF_MEMBER_MISSING(_struct, get_cert_status))
return CERT_STATUS_NONE;
// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING
// Execute
cef_cert_status_t _retval = _struct->get_cert_status(_struct);
// Return type: simple
return _retval;
}
bool CefSSLInfoCToCpp::IsCertStatusError() {
cef_sslinfo_t* _struct = GetStruct();
if (CEF_MEMBER_MISSING(_struct, is_cert_status_error))
return false;
// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING
// Execute
int _retval = _struct->is_cert_status_error(_struct);
// Return type: bool
return _retval?true:false;
}
bool CefSSLInfoCToCpp::IsCertStatusMinorError() {
cef_sslinfo_t* _struct = GetStruct();
if (CEF_MEMBER_MISSING(_struct, is_cert_status_minor_error))
return false;
// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING
// Execute
int _retval = _struct->is_cert_status_minor_error(_struct);
// Return type: bool
return _retval?true:false;
}
CefRefPtr<CefSSLCertPrincipal> CefSSLInfoCToCpp::GetSubject() {
cef_sslinfo_t* _struct = GetStruct();
if (CEF_MEMBER_MISSING(_struct, get_subject))
return NULL;
// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING
// Execute
cef_sslcert_principal_t* _retval = _struct->get_subject(_struct);
// Return type: refptr_same
return CefSSLCertPrincipalCToCpp::Wrap(_retval);
}
CefRefPtr<CefSSLCertPrincipal> CefSSLInfoCToCpp::GetIssuer() {
cef_sslinfo_t* _struct = GetStruct();
if (CEF_MEMBER_MISSING(_struct, get_issuer))
return NULL;
// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING
// Execute
cef_sslcert_principal_t* _retval = _struct->get_issuer(_struct);
// Return type: refptr_same
return CefSSLCertPrincipalCToCpp::Wrap(_retval);
}
CefRefPtr<CefBinaryValue> CefSSLInfoCToCpp::GetSerialNumber() {
cef_sslinfo_t* _struct = GetStruct();
if (CEF_MEMBER_MISSING(_struct, get_serial_number))
return NULL;
// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING
// Execute
cef_binary_value_t* _retval = _struct->get_serial_number(_struct);
// Return type: refptr_same
return CefBinaryValueCToCpp::Wrap(_retval);
}
CefTime CefSSLInfoCToCpp::GetValidStart() {
cef_sslinfo_t* _struct = GetStruct();
if (CEF_MEMBER_MISSING(_struct, get_valid_start))
return CefTime();
// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING
// Execute
cef_time_t _retval = _struct->get_valid_start(_struct);
// Return type: simple
return _retval;
}
CefTime CefSSLInfoCToCpp::GetValidExpiry() {
cef_sslinfo_t* _struct = GetStruct();
if (CEF_MEMBER_MISSING(_struct, get_valid_expiry))
return CefTime();
// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING
// Execute
cef_time_t _retval = _struct->get_valid_expiry(_struct);
// Return type: simple
return _retval;
}
CefRefPtr<CefBinaryValue> CefSSLInfoCToCpp::GetDEREncoded() {
cef_sslinfo_t* _struct = GetStruct();
if (CEF_MEMBER_MISSING(_struct, get_derencoded))
return NULL;
// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING
// Execute
cef_binary_value_t* _retval = _struct->get_derencoded(_struct);
// Return type: refptr_same
return CefBinaryValueCToCpp::Wrap(_retval);
}
CefRefPtr<CefBinaryValue> CefSSLInfoCToCpp::GetPEMEncoded() {
cef_sslinfo_t* _struct = GetStruct();
if (CEF_MEMBER_MISSING(_struct, get_pemencoded))
return NULL;
// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING
// Execute
cef_binary_value_t* _retval = _struct->get_pemencoded(_struct);
// Return type: refptr_same
return CefBinaryValueCToCpp::Wrap(_retval);
}
size_t CefSSLInfoCToCpp::GetIssuerChainSize() {
cef_sslinfo_t* _struct = GetStruct();
if (CEF_MEMBER_MISSING(_struct, get_issuer_chain_size))
return 0;
// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING
// Execute
size_t _retval = _struct->get_issuer_chain_size(_struct);
// Return type: simple
return _retval;
}
void CefSSLInfoCToCpp::GetDEREncodedIssuerChain(IssuerChainBinaryList& chain) {
cef_sslinfo_t* _struct = GetStruct();
if (CEF_MEMBER_MISSING(_struct, get_derencoded_issuer_chain))
return;
// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING
// Translate param: chain; type: refptr_vec_same_byref
size_t chainSize = chain.size();
size_t chainCount = std::max(GetIssuerChainSize(), chainSize);
cef_binary_value_t** chainList = NULL;
if (chainCount > 0) {
chainList = new cef_binary_value_t*[chainCount];
DCHECK(chainList);
if (chainList) {
memset(chainList, 0, sizeof(cef_binary_value_t*)*chainCount);
}
if (chainList && chainSize > 0) {
for (size_t i = 0; i < chainSize; ++i) {
chainList[i] = CefBinaryValueCToCpp::Unwrap(chain[i]);
}
}
}
// Execute
_struct->get_derencoded_issuer_chain(_struct,
&chainCount,
chainList);
// Restore param:chain; type: refptr_vec_same_byref
chain.clear();
if (chainCount > 0 && chainList) {
for (size_t i = 0; i < chainCount; ++i) {
chain.push_back(CefBinaryValueCToCpp::Wrap(chainList[i]));
}
delete [] chainList;
}
}
void CefSSLInfoCToCpp::GetPEMEncodedIssuerChain(IssuerChainBinaryList& chain) {
cef_sslinfo_t* _struct = GetStruct();
if (CEF_MEMBER_MISSING(_struct, get_pemencoded_issuer_chain))
return;
// AUTO-GENERATED CONTENT - DELETE THIS COMMENT BEFORE MODIFYING
// Translate param: chain; type: refptr_vec_same_byref
size_t chainSize = chain.size();
size_t chainCount = std::max(GetIssuerChainSize(), chainSize);
cef_binary_value_t** chainList = NULL;
if (chainCount > 0) {
chainList = new cef_binary_value_t*[chainCount];
DCHECK(chainList);
if (chainList) {
memset(chainList, 0, sizeof(cef_binary_value_t*)*chainCount);
}
if (chainList && chainSize > 0) {
for (size_t i = 0; i < chainSize; ++i) {
chainList[i] = CefBinaryValueCToCpp::Unwrap(chain[i]);
}
}
}
// Execute
_struct->get_pemencoded_issuer_chain(_struct,
&chainCount,
chainList);
// Restore param:chain; type: refptr_vec_same_byref
chain.clear();
if (chainCount > 0 && chainList) {
for (size_t i = 0; i < chainCount; ++i) {
chain.push_back(CefBinaryValueCToCpp::Wrap(chainList[i]));
}
delete [] chainList;
}
}
// CONSTRUCTOR - Do not edit by hand.
CefSSLInfoCToCpp::CefSSLInfoCToCpp() {
}
template<> cef_sslinfo_t* CefCToCpp<CefSSLInfoCToCpp, CefSSLInfo,
cef_sslinfo_t>::UnwrapDerived(CefWrapperType type, CefSSLInfo* c) {
NOTREACHED() << "Unexpected class type: " << type;
return NULL;
}
#ifndef NDEBUG
template<> base::AtomicRefCount CefCToCpp<CefSSLInfoCToCpp, CefSSLInfo,
cef_sslinfo_t>::DebugObjCt = 0;
#endif
template<> CefWrapperType CefCToCpp<CefSSLInfoCToCpp, CefSSLInfo,
cef_sslinfo_t>::kWrapperType = WT_SSLINFO;