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// **********************************************************************
//
// Copyright (c) 2003-2014 ZeroC, Inc. All rights reserved.
//
// This copy of Ice is licensed to you under the terms described in the
// ICE_LICENSE file included in this distribution.
//
// **********************************************************************
#include <IceSSL/EndpointI.h>
#include <IceSSL/AcceptorI.h>
#include <IceSSL/ConnectorI.h>
#include <IceSSL/Instance.h>
#include <Ice/BasicStream.h>
#include <Ice/LocalException.h>
#include <Ice/DefaultsAndOverrides.h>
#include <Ice/Object.h>
#include <Ice/HashUtil.h>
using namespace std;
using namespace Ice;
using namespace IceSSL;
IceSSL::EndpointI::EndpointI(const InstancePtr& instance, const string& ho, Int po, Int ti, const string& conId,
bool co) :
IceInternal::IPEndpointI(instance, ho, po, conId),
_instance(instance),
_timeout(ti),
_compress(co)
{
}
IceSSL::EndpointI::EndpointI(const InstancePtr& instance) :
IceInternal::IPEndpointI(instance),
_instance(instance),
_timeout(-1),
_compress(false)
{
}
IceSSL::EndpointI::EndpointI(const InstancePtr& instance, IceInternal::BasicStream* s) :
IPEndpointI(instance, s),
_instance(instance),
_timeout(-1),
_compress(false)
{
s->read(const_cast<Int&>(_timeout));
s->read(const_cast<bool&>(_compress));
}
Ice::EndpointInfoPtr
IceSSL::EndpointI::getInfo() const
{
class InfoI : public EndpointInfo
{
public:
InfoI(const IceInternal::EndpointIPtr& endpoint) : _endpoint(endpoint)
{
}
virtual Ice::Short
type() const
{
return _endpoint->type();
}
virtual bool
datagram() const
{
return _endpoint->datagram();
}
virtual bool
secure() const
{
return _endpoint->secure();
}
private:
const IceInternal::EndpointIPtr _endpoint;
};
IPEndpointInfoPtr info = new InfoI(const_cast<EndpointI*>(this));
fillEndpointInfo(info.get());
return info;
}
Int
IceSSL::EndpointI::timeout() const
{
return _timeout;
}
IceInternal::EndpointIPtr
IceSSL::EndpointI::timeout(Int timeout) const
{
if(timeout == _timeout)
{
return const_cast<EndpointI*>(this);
}
else
{
return new EndpointI(_instance, _host, _port, timeout, _connectionId, _compress);
}
}
bool
IceSSL::EndpointI::compress() const
{
return _compress;
}
IceInternal::EndpointIPtr
IceSSL::EndpointI::compress(bool compress) const
{
if(compress == _compress)
{
return const_cast<EndpointI*>(this);
}
else
{
return new EndpointI(_instance, _host, _port, _timeout, _connectionId, compress);
}
}
bool
IceSSL::EndpointI::datagram() const
{
return false;
}
bool
IceSSL::EndpointI::secure() const
{
return true;
}
IceInternal::TransceiverPtr
IceSSL::EndpointI::transceiver(IceInternal::EndpointIPtr& endp) const
{
endp = const_cast<EndpointI*>(this);
return 0;
}
IceInternal::AcceptorPtr
IceSSL::EndpointI::acceptor(IceInternal::EndpointIPtr& endp, const string& adapterName) const
{
AcceptorI* p = new AcceptorI(_instance, adapterName, _host, _port);
endp = new EndpointI(_instance, _host, p->effectivePort(), _timeout, _connectionId, _compress);
return p;
}
string
IceSSL::EndpointI::options() const
{
//
// WARNING: Certain features, such as proxy validation in Glacier2,
// depend on the format of proxy strings. Changes to toString() and
// methods called to generate parts of the reference string could break
// these features. Please review for all features that depend on the
// format of proxyToString() before changing this and related code.
//
ostringstream s;
s << IPEndpointI::options();
if(_timeout != -1)
{
s << " -t " << _timeout;
}
if(_compress)
{
s << " -z";
}
return s.str();
}
bool
IceSSL::EndpointI::operator==(const Ice::LocalObject& r) const
{
if(!IPEndpointI::operator==(r))
{
return false;
}
const EndpointI* p = dynamic_cast<const EndpointI*>(&r);
if(!p)
{
return false;
}
if(this == p)
{
return true;
}
if(_timeout != p->_timeout)
{
return false;
}
if(_compress != p->_compress)
{
return false;
}
return true;
}
bool
IceSSL::EndpointI::operator<(const Ice::LocalObject& r) const
{
const EndpointI* p = dynamic_cast<const EndpointI*>(&r);
if(!p)
{
const IceInternal::EndpointI* e = dynamic_cast<const IceInternal::EndpointI*>(&r);
if(!e)
{
return false;
}
return type() < e->type();
}
if(this == p)
{
return false;
}
if(_timeout < p->_timeout)
{
return true;
}
else if(p->_timeout < _timeout)
{
return false;
}
if(!_compress && p->_compress)
{
return true;
}
else if(p->_compress < _compress)
{
return false;
}
return IPEndpointI::operator<(r);
}
void
IceSSL::EndpointI::streamWriteImpl(IceInternal::BasicStream* s) const
{
IPEndpointI::streamWriteImpl(s);
s->write(_timeout);
s->write(_compress);
}
void
IceSSL::EndpointI::hashInit(Ice::Int& h) const
{
IPEndpointI::hashInit(h);
IceInternal::hashAdd(h, _timeout);
IceInternal::hashAdd(h, _compress);
}
void
IceSSL::EndpointI::fillEndpointInfo(IPEndpointInfo* info) const
{
IPEndpointI::fillEndpointInfo(info);
EndpointInfo* sslInfo = dynamic_cast<EndpointInfo*>(info);
if(sslInfo)
{
sslInfo->timeout = _timeout;
sslInfo->compress = _compress;
}
}
bool
IceSSL::EndpointI::checkOption(const string& option, const string& argument, const string& endpoint)
{
if(IPEndpointI::checkOption(option, argument, endpoint))
{
return true;
}
switch(option[1])
{
case 't':
{
if(argument.empty())
{
EndpointParseException ex(__FILE__, __LINE__);
ex.str = "no argument provided for -t option in endpoint " + endpoint;
throw ex;
}
istringstream t(argument);
if(!(t >> const_cast<Int&>(_timeout)) || !t.eof())
{
EndpointParseException ex(__FILE__, __LINE__);
ex.str = "invalid timeout value `" + argument + "' in endpoint " + endpoint;
throw ex;
}
return true;
}
case 'z':
{
if(!argument.empty())
{
EndpointParseException ex(__FILE__, __LINE__);
ex.str = "unexpected argument `" + argument + "' provided for -z option in " + endpoint;
throw ex;
}
const_cast<bool&>(_compress) = true;
return true;
}
default:
{
return false;
}
}
}
IceInternal::ConnectorPtr
IceSSL::EndpointI::createConnector(const IceInternal::Address& address, const IceInternal::NetworkProxyPtr& proxy) const
{
return new ConnectorI(_instance, _host, address, proxy, _timeout, _connectionId);
}
IceInternal::IPEndpointIPtr
IceSSL::EndpointI::createEndpoint(const string& host, int port, const string& connectionId) const
{
return new EndpointI(_instance, host, port, _timeout, connectionId, _compress);
}
IceSSL::EndpointFactoryI::EndpointFactoryI(const InstancePtr& instance) : _instance(instance)
{
}
IceSSL::EndpointFactoryI::~EndpointFactoryI()
{
}
Short
IceSSL::EndpointFactoryI::type() const
{
return _instance->type();
}
string
IceSSL::EndpointFactoryI::protocol() const
{
return _instance->protocol();
}
IceInternal::EndpointIPtr
IceSSL::EndpointFactoryI::create(vector<string>& args, bool oaEndpoint) const
{
IceInternal::IPEndpointIPtr endpt = new EndpointI(_instance);
endpt->initWithOptions(args, oaEndpoint);
return endpt;
}
IceInternal::EndpointIPtr
IceSSL::EndpointFactoryI::read(IceInternal::BasicStream* s) const
{
return new EndpointI(_instance, s);
}
void
IceSSL::EndpointFactoryI::destroy()
{
_instance = 0;
}
IceInternal::EndpointFactoryPtr
IceSSL::EndpointFactoryI::clone(const IceInternal::ProtocolInstancePtr& instance) const
{
return new EndpointFactoryI(new Instance(_instance->engine(), instance->type(), instance->protocol()));
}
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