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|
/* udpserver.c
* copyright (c) 2010 IOhannes m zmölnig, IEM
* copyright (c) 2006-2010 Martin Peach
* copyright (c) 2004 Olaf Matthes
*/
/* */
/* A server for bidirectional communication from within Pd. */
/* Allows to send back data to specific clients connected to the server. */
/* */
/* This program is free software; you can redistribute it and/or */
/* modify it under the terms of the GNU General Public License */
/* as published by the Free Software Foundation; either version 2 */
/* of the License, or (at your option) any later version. */
/* */
/* This program 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 General Public License for more details. */
/* */
/* You should have received a copy of the GNU General Public License */
/* along with this program; if not, write to the Free Software */
/* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
/* */
/* ---------------------------------------------------------------------------- */
#define DEBUGLEVEL 1
#include "iemnet.h"
#include <stdio.h>
#include <stdlib.h>
#define MAX_CONNECT 32 /* maximum number of connections */
/* ----------------------------- udpserver ------------------------- */
static t_class *udpserver_class;
static const char objName[] = "udpserver";
typedef struct _udpserver_sender
{
struct _udpserver *sr_owner;
long sr_host;
unsigned short sr_port;
t_int sr_fd;
t_iemnet_sender*sr_sender;
} t_udpserver_sender;
typedef struct _udpserver
{
t_object x_obj;
t_outlet *x_msgout;
t_outlet *x_connectout;
t_outlet *x_sockout; // legacy
t_outlet *x_addrout; // legacy
t_outlet *x_statout;
t_udpserver_sender *x_sr[MAX_CONNECT]; /* socket per connection */
t_int x_nconnections;
t_int x_connectsocket; /* socket waiting for new connections */
t_int x_port;
unsigned char x_accept; /* whether we accept new connections or not */
int x_defaulttarget; /* the default connection to send to; 0=broadcast; >0 use this client; <0 exclude this client */
t_iemnet_receiver *x_receiver;
t_iemnet_floatlist *x_floatlist;
} t_udpserver;
static t_udpserver_sender *udpserver_sender_new(t_udpserver *owner, unsigned long host, unsigned short port)
{
t_udpserver_sender *x = (t_udpserver_sender *)malloc(sizeof(t_udpserver_sender));
if(NULL==x) {
error("%s_sender: unable to allocate %d bytes", objName, sizeof(*x));
return NULL;
} else {
int sockfd = owner->x_connectsocket;
x->sr_owner=owner;
x->sr_fd=sockfd;
x->sr_host=host; //ntohl(addr->sin_addr.s_addr);
x->sr_port=port; //ntohs(addr->sin_port);
x->sr_sender=iemnet__sender_create(sockfd);
}
return (x);
}
static void udpserver_sender_free(t_udpserver_sender *x)
{
DEBUG("freeing %x", x);
if (x != NULL)
{
int sockfd=x->sr_fd;
t_iemnet_sender*sender=x->sr_sender;
x->sr_owner=NULL;
x->sr_sender=NULL;
x->sr_fd=-1;
free(x);
if(sender) iemnet__sender_destroy(sender);
sys_closesocket(sockfd);
}
DEBUG("freeed %x", x);
}
static t_udpserver_sender* udpserver_sender_copy(t_udpserver_sender*x) {
return udpserver_sender_new(x->sr_owner,x->sr_host, x->sr_port);
}
static int udpserver_socket2index(t_udpserver*x, int sockfd)
{
int i=0;
for(i = 0; i < x->x_nconnections; i++) /* check if connection exists */
{
if(x->x_sr[i]->sr_fd == sockfd)
{
return i;
}
}
return -1;
}
/* checks whether client is a valid (1-based) index
* if the id is invalid, returns -1
* if the id is valid, return the 0-based index (client-1)
*/
static int udpserver_fixindex(t_udpserver*x, int client)
{
if(x->x_nconnections <= 0)
{
pd_error(x, "[%s]: no clients connected", objName);
return -1;
}
if (!((client > 0) && (client <= x->x_nconnections)))
{
pd_error(x, "[%s] client %d out of range [1..%d]", objName, client, x->x_nconnections);
return -1;
}
return (client-1);
}
/* returns 1 if addr1==addr2, 0 otherwise */
static int equal_addr(unsigned long host1, unsigned short port1, unsigned long host2, unsigned short port2) {
return (
((port1 == port2) &&
(host1 == host2))
);
}
static int udpserver__find_sender(t_udpserver*x, unsigned long host, unsigned short port) {
int i=0;
for(i=0; i<x->x_nconnections; i++) {
if(NULL==x->x_sr[i])return -1;
if(equal_addr(host, port, x->x_sr[i]->sr_host, x->x_sr[i]->sr_port))return i;
}
return -1;
}
/**
* check whether the sender is already registered
* if not, add it to the list of registered senders
*/
static t_udpserver_sender* udpserver_sender_add(t_udpserver*x,
unsigned long host, unsigned short port )
{
int id=-1;
if(!x->x_accept)return NULL;
id=udpserver__find_sender(x, host, port);
DEBUG("%X:%d -> %d", host, port, id);
if(id<0) {
#if 1
/* since udp is a connection-less protocol we have no way of knowing the currently connected clients
* the following 3 lines assume, that there is only one client connected (the last we got data from
*/
id=0;
udpserver_sender_free(x->x_sr[id]);
x->x_sr[id]=udpserver_sender_new(x, host, port);
#else
/* this is a more optimistic approach as above:
* every client that we received data from is added to the list of receivers
* the idea is to remove the sender, if it's known to not receive any data
*/
id=x->x_nconnections;
/* an unknown address! add it */
if(id<MAX_CONNECT) {
x->x_sr[id]=udpserver_sender_new(x, host, port);
DEBUG("new sender[%d]= %x", id, x->x_sr[id]);
x->x_nconnections++;
} else {
// oops, no more senders!
id=-1;
}
#endif
}
DEBUG("sender_add: %d", id);
if(id>=0) {
return x->x_sr[id];
}
return NULL;
}
static void udpserver_sender_remove(t_udpserver*x, int id) {
if(id>=0 && id<x->x_nconnections && x->x_sr[id]) {
int i;
t_udpserver_sender* sdr=x->x_sr[id];
udpserver_sender_free(sdr);
// close the gap by shifting the remaining connections to the left
for(i=id; i<x->x_nconnections; i++) {
x->x_sr[id]=x->x_sr[id+1];
}
x->x_sr[id]=NULL;
x->x_nconnections--;
}
}
/* ---------------- udpserver info ---------------------------- */
static void udpserver_info_client(t_udpserver *x, int client)
{
// "client <id> <socket> <IP> <port>"
// "bufsize <id> <insize> <outsize>"
static t_atom output_atom[4];
if(x&&x->x_sr&&x->x_sr[client]) {
int sockfd = x->x_sr[client]->sr_fd;
unsigned short port = x->x_sr[client]->sr_port;
long address = x->x_sr[client]->sr_host;
char hostname[MAXPDSTRING];
int insize =iemnet__receiver_getsize(x->x_receiver);
int outsize=iemnet__sender_getsize (x->x_sr[client]->sr_sender );
snprintf(hostname, MAXPDSTRING-1, "%d.%d.%d.%d",
(unsigned char)((address & 0xFF000000)>>24),
(unsigned char)((address & 0x0FF0000)>>16),
(unsigned char)((address & 0x0FF00)>>8),
(unsigned char)((address & 0x0FF))
);
hostname[MAXPDSTRING-1]=0;
SETFLOAT (output_atom+0, client+1);
SETFLOAT (output_atom+1, sockfd);
SETSYMBOL(output_atom+2, gensym(hostname));
SETFLOAT (output_atom+3, port);
outlet_anything( x->x_statout, gensym("client"), 4, output_atom);
SETFLOAT (output_atom+0, client+1);
SETFLOAT (output_atom+1, insize);
SETFLOAT (output_atom+2, outsize);
outlet_anything( x->x_statout, gensym("bufsize"), 3, output_atom);
}
}
static void udpserver_info(t_udpserver *x) {
static t_atom output_atom[4];
int sockfd=x->x_connectsocket;
int port=x->x_port;
if(sockfd<0) {
// no open port
error("[%s] no valid sock", objName);
}
if(x->x_port<=0) {
struct sockaddr_in server;
socklen_t serversize=sizeof(server);
if(!getsockname(sockfd, (struct sockaddr *)&server, &serversize)) {
x->x_port=ntohs(server.sin_port);
port=x->x_port;
} else {
error("[%s] gesockname failed for %d", objName, sockfd);
}
}
SETFLOAT (output_atom+0, port);
outlet_anything( x->x_statout, gensym("port"), 1, output_atom);
}
static void udpserver_info_connection(t_udpserver *x, t_udpserver_sender*y)
{
iemnet__addrout(x->x_statout, x->x_addrout, y->sr_host, y->sr_port);
// outlet_float(x->x_sockout, y->sr_fd);
}
/* ---------------- main udpserver (send) stuff --------------------- */
static void udpserver_disconnect_socket(t_udpserver *x, t_floatarg fsocket);
static void udpserver_send_bytes(t_udpserver*x, int client, t_iemnet_chunk*chunk)
{
DEBUG("send_bytes to %x -> %x[%d]", x, x->x_sr, client);
if(x->x_sr)DEBUG("client %X", x->x_sr[client]);
if(x && x->x_sr && x->x_sr[client]) {
t_atom output_atom[3];
int size=0;
t_iemnet_sender*sender=sender=x->x_sr[client]->sr_sender;
int sockfd = x->x_sr[client]->sr_fd;
chunk->addr=x->x_sr[client]->sr_host;
chunk->port=x->x_sr[client]->sr_port;
if(sender) {
size=iemnet__sender_send(sender, chunk);
}
SETFLOAT(&output_atom[0], client+1);
SETFLOAT(&output_atom[1], size);
SETFLOAT(&output_atom[2], sockfd);
outlet_anything( x->x_statout, gensym("sent"), 3, output_atom);
if(size<0) {
// disconnected!
udpserver_disconnect_socket(x, sockfd);
}
}
}
/* broadcasts a message to all connected clients but the given one */
static void udpserver_send_butclient(t_udpserver *x, int but, int argc, t_atom *argv)
{
int client=0;
t_iemnet_chunk*chunk=iemnet__chunk_create_list(argc, argv);
/* enumerate through the clients and send each the message */
for(client = 0; client < x->x_nconnections; client++) /* check if connection exists */
{
/* socket exists for this client */
if(client!=but)udpserver_send_bytes(x, client, chunk);
}
iemnet__chunk_destroy(chunk);
}
/* sends a message to a given client */
static void udpserver_send_toclient(t_udpserver *x, int client, int argc, t_atom *argv)
{
t_iemnet_chunk*chunk=iemnet__chunk_create_list(argc, argv);
udpserver_send_bytes(x, client, chunk);
iemnet__chunk_destroy(chunk);
}
/* send message to client using client number
note that the client numbers might change in case a client disconnects! */
/* clients start at 1 but our index starts at 0 */
static void udpserver_send_client(t_udpserver *x, t_symbol *s, int argc, t_atom *argv)
{
int client=0;
if (argc > 0)
{
client=udpserver_fixindex(x, atom_getint(argv));
if(client<0)return;
if(argc==1) {
udpserver_info_client(x, client);
} else {
udpserver_send_toclient(x, client, argc-1, argv+1);
}
return;
}
else
{
for(client=0; client<x->x_nconnections; client++)
udpserver_info_client(x, client);
}
}
/* broadcasts a message to all connected clients */
static void udpserver_broadcast(t_udpserver *x, t_symbol *s, int argc, t_atom *argv)
{
int client;
t_iemnet_chunk*chunk=iemnet__chunk_create_list(argc, argv);
/* enumerate through the clients and send each the message */
for(client = 0; client < x->x_nconnections; client++) /* check if connection exists */
{
/* socket exists for this client */
udpserver_send_bytes(x, client, chunk);
}
iemnet__chunk_destroy(chunk);
}
/* broadcasts a message to all connected clients */
static void udpserver_broadcastbut(t_udpserver *x, t_symbol *s, int argc, t_atom *argv)
{
int client=0;
int but=-1;
t_iemnet_chunk*chunk=NULL;
if(argc<2) {
return;
}
if((but=udpserver_fixindex(x, atom_getint(argv)))<0)return;
udpserver_send_butclient(x, but, argc-1, argv+1);
}
static void udpserver_defaultsend(t_udpserver *x, t_symbol *s, int argc, t_atom *argv)
{
int client=-1;
int sockfd=x->x_defaulttarget;
if(0==sockfd)
udpserver_broadcast(x, s, argc, argv);
else if(sockfd>0) {
client=udpserver_socket2index(x, sockfd);
udpserver_send_toclient(x, client, argc, argv);
} else if(sockfd<0) {
client=udpserver_socket2index(x, -sockfd);
udpserver_send_butclient(x, client, argc, argv);
}
}
static void udpserver_defaulttarget(t_udpserver *x, t_floatarg f)
{
int sockfd=0;
int rawclient=f;
int client=(rawclient<0)?(-rawclient):rawclient;
if(client > x->x_nconnections) {
error("[%s] target %d out of range [0..%d]", objName, client, x->x_nconnections);
return;
}
// map the client to a persistant socket
if(client>0) {
sockfd=x->x_sr[client-1]->sr_fd;
}
if(rawclient<0)sockfd=-sockfd;
x->x_defaulttarget=sockfd;
}
static void udpserver_targetsocket(t_udpserver *x, t_floatarg f)
{
int sockfd=f;
x->x_defaulttarget=sockfd;
}
/* send message to client using socket number */
static void udpserver_send_socket(t_udpserver *x, t_symbol *s, int argc, t_atom *argv)
{
int client = -1;
t_iemnet_chunk*chunk=NULL;
if(argc) {
client = udpserver_socket2index(x, atom_getint(argv));
if(client<0)return;
} else {
pd_error(x, "%s_send: no socket specified", objName);
return;
}
/* get socket number of connection (first element in list) */
if(argc && argv->a_type == A_FLOAT)
{
int sockfd=atom_getint(argv);
client = udpserver_socket2index(x, sockfd);
if(client < 0)
{
error("[%s]: no connection on socket %d", objName, sockfd);
return;
}
}
else
{
error("[%s]: no socket specified", objName);
return;
}
chunk=iemnet__chunk_create_list(argc-1, argv+1);
udpserver_send_bytes(x, client, chunk);
iemnet__chunk_destroy(chunk);
}
static void udpserver_disconnect(t_udpserver *x, int client)
{
int k;
DEBUG("disconnect %x %d", x, client);
t_udpserver_sender*sdr;
int conns;
if(client<0 || client >= x->x_nconnections)return;
sdr=udpserver_sender_copy(x->x_sr[client]);
udpserver_sender_remove(x, client);
conns=x->x_nconnections;
udpserver_info_connection(x, sdr);
outlet_float(x->x_connectout, conns);
}
/* disconnect a client by number */
static void udpserver_disconnect_client(t_udpserver *x, t_floatarg fclient)
{
int client = udpserver_fixindex(x, fclient);
if(client<0)return;
udpserver_disconnect(x, client);
}
/* disconnect a client by socket */
static void udpserver_disconnect_socket(t_udpserver *x, t_floatarg fsocket)
{
int id=udpserver_socket2index(x, (int)fsocket);
if(id>=0)
udpserver_disconnect_client(x, id+1);
}
/* disconnect a client by socket */
static void udpserver_disconnect_all(t_udpserver *x)
{
int id=x->x_nconnections;
while(--id>=0) {
udpserver_disconnect(x, id);
}
}
/* whether we should accept new connections */
static void udpserver_accept(t_udpserver *x, t_float f) {
x->x_accept=(unsigned char)f;
}
/* ---------------- main udpserver (receive) stuff --------------------- */
static void udpserver_receive_callback(void *y, t_iemnet_chunk*c) {
t_udpserver*x=(t_udpserver*)y;
if(NULL==y)return;
if(c) {
int conns = x->x_nconnections;
DEBUG("add new sender from %d", c->port);
t_udpserver_sender*sdr=udpserver_sender_add(x, c->addr, c->port);
DEBUG("added new sender from %d", c->port);
if(sdr) {
udpserver_info_connection(x, sdr);
x->x_floatlist=iemnet__chunk2list(c, x->x_floatlist); // gets destroyed in the dtor
/* here we might have a reentrancy problem */
if(conns!=x->x_nconnections) {
outlet_float(x->x_connectout, x->x_nconnections);
}
outlet_list(x->x_msgout, gensym("list"), x->x_floatlist->argc, x->x_floatlist->argv);
}
} else {
// disconnection never happens with a connectionless protocol like UDP
pd_error(x, "[%s] received disconnection event", objName);
}
}
// this get's never called
static void udpserver_connectpoll(t_udpserver *x)
{
struct sockaddr_in incomer_address;
unsigned int sockaddrl = sizeof( struct sockaddr );
int fd = -1;
int i;
// TODO: provide a way to not accept connection
// idea: add a message "accept $1" to turn off/on acceptance of new connections
fd = accept(x->x_connectsocket, (struct sockaddr*)&incomer_address, &sockaddrl);
bug("connectpoll");
if (fd < 0) error("[%s] accept failed", objName);
else
{
unsigned long host = ntohl(incomer_address.sin_addr.s_addr);
unsigned short port = ntohs(incomer_address.sin_port);
t_udpserver_sender *y = udpserver_sender_new(x, host, port);
if (!y)
{
sys_closesocket(fd);
return;
}
x->x_nconnections++;
i = x->x_nconnections - 1;
x->x_sr[i] = y;
udpserver_info_connection(x, y);
}
outlet_float(x->x_connectout, x->x_nconnections);
}
static void udpserver_port(t_udpserver*x, t_floatarg fportno)
{
static t_atom ap[1];
int portno = fportno;
struct sockaddr_in server;
socklen_t serversize=sizeof(server);
int sockfd = x->x_connectsocket;
SETFLOAT(ap, -1);
if(x->x_port == portno) {
return;
}
/* cleanup any open ports */
if(sockfd>=0) {
//sys_rmpollfn(sockfd);
sys_closesocket(sockfd);
x->x_connectsocket=-1;
x->x_port=-1;
}
sockfd = socket(AF_INET, SOCK_DGRAM, 0);
server.sin_family = AF_INET;
/* LATER allow setting of inaddr */
server.sin_addr.s_addr = INADDR_ANY;
/* assign server port number */
server.sin_port = htons((u_short)portno);
/* name the socket */
if (bind(sockfd, (struct sockaddr *)&server, serversize) < 0)
{
sys_sockerror("udpserver: bind");
sys_closesocket(sockfd);
outlet_anything(x->x_statout, gensym("port"), 1, ap);
return;
}
x->x_receiver=iemnet__receiver_create(sockfd,
x,
udpserver_receive_callback);
x->x_connectsocket = sockfd;
x->x_port = portno;
// find out which port is actually used (useful when assigning "0")
if(!getsockname(sockfd, (struct sockaddr *)&server, &serversize)) {
x->x_port=ntohs(server.sin_port);
}
SETFLOAT(ap, x->x_port);
outlet_anything(x->x_statout, gensym("port"), 1, ap);
}
static void *udpserver_new(t_floatarg fportno)
{
t_udpserver *x;
int i;
x = (t_udpserver *)pd_new(udpserver_class);
x->x_msgout = outlet_new(&x->x_obj, 0); /* 1st outlet for received data */
x->x_connectout = outlet_new(&x->x_obj, gensym("float")); /* 2nd outlet for number of connected clients */
x->x_sockout = outlet_new(&x->x_obj, gensym("float"));
x->x_addrout = outlet_new(&x->x_obj, gensym("list" ));
x->x_statout = outlet_new(&x->x_obj, 0);/* 5th outlet for everything else */
x->x_connectsocket = -1;
x->x_port = -1;
x->x_nconnections = 0;
for(i = 0; i < MAX_CONNECT; i++)
{
x->x_sr[i] = NULL;
}
x->x_defaulttarget=0;
x->x_floatlist=iemnet__floatlist_create(1024);
udpserver_port(x, fportno);
x->x_accept=1;
return (x);
}
static void udpserver_free(t_udpserver *x)
{
int i;
for(i = 0; i < MAX_CONNECT; i++)
{
if (NULL!=x->x_sr[i]) {
DEBUG("[%s] free %x", objName, x);
udpserver_sender_free(x->x_sr[i]);
x->x_sr[i]=NULL;
}
}
if (x->x_connectsocket >= 0)
{
//sys_rmpollfn(x->x_connectsocket);
sys_closesocket(x->x_connectsocket);
}
if(x->x_floatlist)iemnet__floatlist_destroy(x->x_floatlist);x->x_floatlist=NULL;
}
IEMNET_EXTERN void udpserver_setup(void)
{
if(!iemnet__register(objName))return;
error("[%s] does not work yet", objName);
udpserver_class = class_new(gensym(objName),(t_newmethod)udpserver_new, (t_method)udpserver_free,
sizeof(t_udpserver), 0, A_DEFFLOAT, 0);
class_addmethod(udpserver_class, (t_method)udpserver_disconnect_client, gensym("disconnectclient"), A_DEFFLOAT, 0);
class_addmethod(udpserver_class, (t_method)udpserver_disconnect_socket, gensym("disconnectsocket"), A_DEFFLOAT, 0);
class_addmethod(udpserver_class, (t_method)udpserver_disconnect_all, gensym("disconnect"), 0);
class_addmethod(udpserver_class, (t_method)udpserver_accept, gensym("accept"), A_FLOAT, 0);
class_addmethod(udpserver_class, (t_method)udpserver_send_socket, gensym("send"), A_GIMME, 0);
class_addmethod(udpserver_class, (t_method)udpserver_send_client, gensym("client"), A_GIMME, 0);
class_addmethod(udpserver_class, (t_method)udpserver_broadcast, gensym("broadcast"), A_GIMME, 0);
class_addmethod(udpserver_class, (t_method)udpserver_defaulttarget, gensym("target"), A_DEFFLOAT, 0);
class_addmethod(udpserver_class, (t_method)udpserver_targetsocket, gensym("targetsocket"), A_DEFFLOAT, 0);
class_addlist (udpserver_class, (t_method)udpserver_defaultsend);
class_addmethod(udpserver_class, (t_method)udpserver_port, gensym("port"), A_DEFFLOAT, 0);
class_addbang (udpserver_class, (t_method)udpserver_info);
DEBUGMETHOD(udpserver_class);
}
IEMNET_INITIALIZER(udpserver_setup);
/* end of udpserver.c */
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