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/** @file
* \brief Fichero de implementación de un cliente
* \author Imanol Barba Sabariego
* \date 13/06/2013
*
* En este fichero se implementa un cliente para poder usar con el servidor creado, usando la clase Socket.
*/
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#include "client.h"
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using namespace std;
bool connected, finished;
//! Método para terminar el cliente
/*! Este método se usa para terminar el cliente immediatamente en el caso que el servidor cierre la conexión de forma inesperada, capturando
el signal SIGPIPE. */
void exitClient(int signal/*!<Parámetro que captura el signal recibido*/)
{
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if(signal == SIGPIPE)
{
cout << "Server connection terminated unexpectedly" << endl << "Exiting" << endl;
exit(-1);
}
}
void killThread(thread_args *t_arg)
{
(t_arg->s)->Close();
pthread_mutex_lock(t_arg->mutex);
if(t_arg->s != 0)
{
delete t_arg->s;
t_arg->s = 0;
}
if(t_arg != 0)
{
delete t_arg;
t_arg = 0;
}
pthread_exit(NULL);
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}
bool connect(Socket& s)
{
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string host, nick;
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int port;
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/*cout << "Hostname: ";
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cin >> host;
cout << "Port: ";
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cin >> port;*/
cout << "Nickname: ";
cin >> nick;
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cin.ignore();
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host = "localhost";
port = 3001;
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try
{
s.Connect(host,port);
cout << "Connected" << endl;
connected = true;
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s << nick;
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}
catch(SocketException& e)
{
cout << e.description() << endl;
}
}
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void* sendThread(void* args)
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{
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string send;
struct thread_args *t_arg = (struct thread_args*)args;
while(true)
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{
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cout << "> ";
getline(cin,send);
if(cin.eof())
{
send = "/disconnect";
}
try
{
*(t_arg->s) << send;
if(send == "/disconnect" || send == "/exit")
{
break;
}
}
catch(SocketException& e)
{
cout << e.description() << endl;
cout << "Exiting" << endl;
(t_arg->s)->Close();
exit(-1);
}
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}
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killThread(t_arg);
}
void* recvThread(void* args)
{
string recv;
struct thread_args *t_arg = (struct thread_args*)args;
while(true)
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{
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*(t_arg->s) >> recv;
if(recv == "DISC_OK")
{
cout << "Disconnecting" << endl;
(t_arg->s)->Close();
connected = false;
pthread_cond_signal(t_arg->condition);
break;
}
else if(recv == "EXIT_OK")
{
cout << "Exiting" << endl;
(t_arg->s)->Close();
connected = false;
finished = true;
pthread_cond_signal(t_arg->condition);
break;
}
else
{
*(t_arg->s) >> recv;
cout << recv << endl;
}
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}
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killThread(t_arg);
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}
//! Método principal del cliente
/*! Este método inicializa el Socket, establece la conexión y realiza las acciones que se le hayan programado para comunicarse con el servidor.*/
int main()
{
signal(SIGPIPE, exitClient);
Socket s;
connected = finished = false;
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pthread_mutex_t mutex;
pthread_mutex_init(&mutex,0);
pthread_cond_t condition;
pthread_cond_init(&condition,0);
thread_args *sArgs = new thread_args;
thread_args *rArgs = new thread_args;
pthread_t recv, send;
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s.Create();
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while (!finished)
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{
connect(s);
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pthread_mutex_lock(&mutex);
sArgs->mutex = &mutex;
sArgs->condition = &condition;
sArgs->s = &s;
rArgs->mutex = &mutex;
rArgs->condition = &condition;
rArgs->s = &s;
pthread_create(&send,NULL,sendThread,(void *)sArgs);
pthread_create(&recv,NULL,recvThread,(void *)rArgs);
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while(connected)
{
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pthread_cond_wait(&condition,&mutex);
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}
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pthread_mutex_unlock(&mutex);
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}
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pthread_cond_destroy(&condition);
pthread_mutex_destroy(&mutex);
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}
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/* TODO
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*
* list nicks
* unicast message
*/
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