/usr/include/net6/client.hpp is in libnet6-1.3-dev 1:1.3.14-1ubuntu1.
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* Copyright (C) 2005 Armin Burgmeier / 0x539 dev group
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free
* Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#ifndef _NET6_CLIENT_HPP_
#define _NET6_CLIENT_HPP_
#include <memory>
#include <sigc++/signal.h>
#include "error.hpp"
#include "user.hpp"
#include "address.hpp"
#include "socket.hpp"
#include "select.hpp"
#include "packet.hpp"
#include "connection.hpp"
#include "local.hpp"
namespace net6
{
/** Client in a Client/Server based TCP network.
*/
template<typename selector_type>
class basic_client: virtual public basic_local<selector_type>
{
public:
typedef connection<selector_type> connection_type;
typedef sigc::signal<void, const user&, const packet&>
signal_join_type;
typedef sigc::signal<void, const user&, const packet&>
signal_part_type;
typedef sigc::signal<void, const packet&>
signal_data_type;
typedef sigc::signal<void>
signal_close_type;
typedef sigc::signal<void>
signal_encrypted_type;
typedef sigc::signal<void, login::error>
signal_login_failed_type;
typedef sigc::signal<void, packet&>
signal_login_extend_type;
/** Creates a new basic_client which is not connected to anywhere.
*/
basic_client();
/** Creates a new basic_client and connect to the server at
* <em>addr</em>.
*/
basic_client(const address& addr);
/** Destructor disconnects from the server, if the client is
* connected.
*/
virtual ~basic_client();
/** Connect to the given address. Only use this if the client is not
* already connected.
*/
virtual void connect(const address& addr);
/** Disconnects from the server.
*/
virtual void disconnect();
/** Determinates if the client is connected to a server.
*/
bool is_connected() const;
/** Requests encryption from the peer. An encrypted_event is
* emitted as soon as the connection is guranteed to be encrypted.
*/
void request_encryption();
/** Send a login request with the specified user name. On success,
* a join_event with user==self is emitted, otherwise a
* login_failed_event.
*/
void login(const std::string& username);
/** Returns whether the local user is logged in.
*/
bool is_logged_in() const;
/** Send a packet to the network server.
*/
virtual void send(const packet& pack);
/** Returns the user object which represents the
* local host in the network.
*/
virtual user& get_self();
/** Returns the user object which represents the
* local host in the network.
*/
virtual const user& get_self() const;
/** Returns the underlaying net6::connection object.
*/
const connection_type& get_connection() const;
/** @brief Sets whether to send keepalives to the server when
* the connection is inactive.
*/
void set_enable_keepalives(bool enable);
/** Signal which is emitted every time a client joins the network.
*/
signal_join_type join_event() const;
/** Signal which is emitted every time a client parts the network.
*/
signal_part_type part_event() const;
/** Signal which is emitted when a packet from the server arrived.
*/
signal_data_type data_event() const;
/** Signal which is emitted when the connection to the server has
* been lost. The client will end up in disconnected state after having
* received this event.
*/
signal_close_type close_event() const;
/** Signal that will be emitted when the encryption to the server
* is guaranteed to be secure.
*/
signal_encrypted_type encrypted_event() const;
/** Signal which is emitted, if a login request failed, for example
* if the wished user name was already in use by another client.
*/
signal_login_failed_type login_failed_event() const;
/** Signal which is emitted when a login packet will be sent (most
* likely by a call to basic_client::login). It allows the user
* to append some more parameters to the login packet which may be
* evaluated by the server object in its login_auth and login signal
* handlers.
*/
signal_login_extend_type login_extend_event() const;
protected:
/** Signal handler that is called each time a packet arrives.
*/
void on_recv_event(const packet& pack);
/** Signal handler that is called when the remote site closed the
* connection.
*/
void on_close_event();
/** Signal handler that is called when a secure connection is
* guaranteed to be secure.
*/
void on_encrypted_event();
virtual void on_join(const user& user, const packet& pack);
virtual void on_part(const user& user, const packet& pack);
virtual void on_data(const packet& pack);
virtual void on_close();
virtual void on_encrypted();
virtual void on_login_failed(login::error error);
virtual void on_login_extend(packet& pack);
void net_login_failed(const packet& pack);
void net_client_join(const packet& pack);
void net_client_part(const packet& pack);
void net_encryption_info(const packet& pack);
std::auto_ptr<connection_type> conn;
user* self;
signal_join_type signal_join;
signal_part_type signal_part;
signal_data_type signal_data;
signal_close_type signal_close;
signal_encrypted_type signal_encrypted;
signal_login_failed_type signal_login_failed;
signal_login_extend_type signal_login_extend;
private:
void connect_impl(const address& addr);
void disconnect_impl();
};
typedef basic_client<selector> client;
template<typename selector_type>
basic_client<selector_type>::basic_client():
basic_local<selector_type>(), self(NULL)
{
}
template<typename selector_type>
basic_client<selector_type>::basic_client(const net6::address& addr):
basic_local<selector_type>(), self(NULL)
{
connect_impl(addr);
}
template<typename selector_type>
basic_client<selector_type>::~basic_client()
{
if(is_connected() )
disconnect_impl();
}
template<typename selector_type>
void basic_client<selector_type>::connect(const net6::address& addr)
{
connect_impl(addr);
}
template<typename selector_type>
void basic_client<selector_type>::disconnect()
{
disconnect_impl();
}
template<typename selector_type>
bool basic_client<selector_type>::is_connected() const
{
return conn.get() != NULL;
}
template<typename selector_type>
void basic_client<selector_type>::request_encryption()
{
// It is sufficient to request encryption by sending
// the corresponding packet to the server. The handler
// code in the connection will take care of establishing
// the additional security layer.
conn->request_encryption(true);
}
template<typename selector_type>
void basic_client<selector_type>::login(const std::string& username)
{
packet login_pack("net6_client_login");
login_pack << username;
on_login_extend(login_pack);
send(login_pack);
}
template<typename selector_type>
bool basic_client<selector_type>::is_logged_in() const
{
return conn.get() != NULL && self != NULL;
}
template<typename selector_type>
void basic_client<selector_type>::send(const packet& pack)
{
// Add packet to send queue
conn->send(pack);
}
template<typename selector_type>
user& basic_client<selector_type>::get_self()
{
if(self == NULL)
// TODO: not_logged_in_error?
throw not_connected_error("net6::basic_client::get_self");
return *self;
}
template<typename selector_type>
const user& basic_client<selector_type>::get_self() const
{
if(self == NULL)
// TODO: not_logged_in_error?
throw not_connected_error("net6::basic_client::get_self");
return *self;
}
template<typename selector_type>
const typename basic_client<selector_type>::connection_type&
basic_client<selector_type>::get_connection() const
{
if(!is_connected() )
throw not_connected_error("net6::basic_client::get_connection");
return *conn;
}
template<typename selector_type>
void basic_client<selector_type>::set_enable_keepalives(bool enable)
{
if(!is_connected() )
{
throw not_connected_error(
"net6::basic_client::set_enable_keepalives"
);
}
conn->set_enable_keepalives(enable);
}
template<typename selector_type>
typename basic_client<selector_type>::signal_join_type
basic_client<selector_type>::join_event() const
{
return signal_join;
}
template<typename selector_type>
typename basic_client<selector_type>::signal_part_type
basic_client<selector_type>::part_event() const
{
return signal_part;
}
template<typename selector_type>
typename basic_client<selector_type>::signal_data_type
basic_client<selector_type>::data_event() const
{
return signal_data;
}
template<typename selector_type>
typename basic_client<selector_type>::signal_close_type
basic_client<selector_type>::close_event() const
{
return signal_close;
}
template<typename selector_type>
typename basic_client<selector_type>::signal_encrypted_type
basic_client<selector_type>::encrypted_event() const
{
return signal_encrypted;
}
template<typename selector_type>
typename basic_client<selector_type>::signal_login_failed_type
basic_client<selector_type>::login_failed_event() const
{
return signal_login_failed;
}
template<typename selector_type>
typename basic_client<selector_type>::signal_login_extend_type
basic_client<selector_type>::login_extend_event() const
{
return signal_login_extend;
}
template<typename selector_type>
void basic_client<selector_type>::on_recv_event(const packet& pack)
{
if(pack.get_command() == "net6_login_failed")
net_login_failed(pack);
else if(pack.get_command() == "net6_client_join")
net_client_join(pack);
else if(pack.get_command() == "net6_client_part")
net_client_part(pack);
else if(pack.get_command() == "net6_encryption_info")
net_encryption_info(pack);
else
on_data(pack);
}
template<typename selector_type>
void basic_client<selector_type>::on_close_event()
{
// Disconnect from server
disconnect();
// Emit close signal
on_close();
}
template<typename selector_type>
void basic_client<selector_type>::on_encrypted_event()
{
on_encrypted();
}
template<typename selector_type>
void basic_client<selector_type>::on_join(const user& user, const packet& pack)
{
signal_join.emit(user, pack);
}
template<typename selector_type>
void basic_client<selector_type>::on_part(const user& user, const packet& pack)
{
signal_part.emit(user, pack);
}
template<typename selector_type>
void basic_client<selector_type>::on_data(const packet& pack)
{
signal_data.emit(pack);
}
template<typename selector_type>
void basic_client<selector_type>::on_close()
{
signal_close.emit();
}
template<typename selector_type>
void basic_client<selector_type>::on_encrypted()
{
signal_encrypted.emit();
}
template<typename selector_type>
void basic_client<selector_type>::on_login_failed(login::error error)
{
signal_login_failed.emit(error);
}
template<typename selector_type>
void basic_client<selector_type>::on_login_extend(packet& pack)
{
signal_login_extend.emit(pack);
}
template<typename selector_type>
void basic_client<selector_type>::net_login_failed(const packet& pack)
{
// Received login_failed packet
on_login_failed(
static_cast<login::error>(
pack.get_param(0).parameter::as<int>()
)
);
}
template<typename selector_type>
void basic_client<selector_type>::net_client_join(const packet& pack)
{
// Received client_join packet
unsigned int id = pack.get_param(0).parameter::as<int>();
std::string name = pack.get_param(1).parameter::as<std::string>();
bool is_encrypted = pack.get_param(2).parameter::as<bool>();
user* new_client = new user(id, NULL);
basic_object<selector_type>::user_add(new_client);
new_client->login(name);
// The first client who joins is the local client
if(self == NULL) self = new_client;
on_join(*new_client, pack);
if(is_encrypted)
{
new_client->set_encrypted();
}
}
template<typename selector_type>
void basic_client<selector_type>::net_client_part(const packet& pack)
{
unsigned int id = pack.get_param(0).parameter::as<int>();
user* rem_user = basic_object<selector_type>::user_find(id);
if(rem_user == NULL)
throw bad_value("Got client_part for nonexistant user");
on_part(*rem_user, pack);
basic_object<selector_type>::user_remove(rem_user);
}
template<typename selector_type>
void basic_client<selector_type>::net_encryption_info(const packet& pack)
{
unsigned int id = pack.get_param(0).parameter::as<int>();
user* encr_user = basic_object<selector_type>::user_find(id);
if(encr_user == NULL)
throw bad_value("Got encryption_info for nonexistant user");
encr_user->set_encrypted();
}
template<typename selector_type>
void basic_client<selector_type>::connect_impl(const address& addr)
{
// Cannot connect twice
if(is_connected() )
throw connected_error("net6::basic_client::connect");
// Connect to remote host
conn.reset(
new connection_type(
basic_object<selector_type>::get_selector()
)
);
// Install signal handlers
conn->recv_event().connect(
sigc::mem_fun(*this, &basic_client::on_recv_event) );
conn->close_event().connect(
sigc::mem_fun(*this, &basic_client::on_close_event) );
conn->encrypted_event().connect(
sigc::mem_fun(*this, &basic_client::on_encrypted_event) );
try {
conn->connect(addr);
} catch(net6::error& e) {
conn.reset(NULL);
throw e;
}
}
template<typename selector_type>
void basic_client<selector_type>::
disconnect_impl()
{
// Not connected? Nothing to disconnect
if(!is_connected() )
throw not_connected_error("net6::basic_client::disconnect");
// TODO: Remove socket from selector?
// Reset connection, clear user list, clear self pointer
conn.reset(NULL);
basic_client<selector_type>::user_clear();
self = NULL;
}
} // namespace net6
#endif // _NET6_CLIENT_HPP_
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