sys/netbt/rfcomm_socket.c

1.6    plunky /*	$NetBSD: rfcomm_socket.c,v 1.6 2007/03/31 18:17:13 plunky Exp $	*/
1.1   gdamore
1.1   gdamore /*-
1.1   gdamore  * Copyright (c) 2006 Itronix Inc.
1.1   gdamore  * All rights reserved.
1.1   gdamore  *
1.1   gdamore  * Written by Iain Hibbert for Itronix Inc.
1.1   gdamore  *
1.1   gdamore  * Redistribution and use in source and binary forms, with or without
1.1   gdamore  * modification, are permitted provided that the following conditions
1.1   gdamore  * are met:
1.1   gdamore  * 1. Redistributions of source code must retain the above copyright
1.1   gdamore  *    notice, this list of conditions and the following disclaimer.
1.1   gdamore  * 2. Redistributions in binary form must reproduce the above copyright
1.1   gdamore  *    notice, this list of conditions and the following disclaimer in the
1.1   gdamore  *    documentation and/or other materials provided with the distribution.
1.1   gdamore  * 3. The name of Itronix Inc. may not be used to endorse
1.1   gdamore  *    or promote products derived from this software without specific
1.1   gdamore  *    prior written permission.
1.1   gdamore  *
1.1   gdamore  * THIS SOFTWARE IS PROVIDED BY ITRONIX INC. ``AS IS'' AND
1.1   gdamore  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.1   gdamore  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.1   gdamore  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL ITRONIX INC. BE LIABLE FOR ANY
1.1   gdamore  * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
1.1   gdamore  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
1.1   gdamore  * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
1.1   gdamore  * ON ANY THEORY OF LIABILITY, WHETHER IN
1.1   gdamore  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1   gdamore  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1   gdamore  * POSSIBILITY OF SUCH DAMAGE.
1.1   gdamore  */
1.1   gdamore
1.1   gdamore #include <sys/cdefs.h>
1.6    plunky __KERNEL_RCSID(0, "$NetBSD: rfcomm_socket.c,v 1.6 2007/03/31 18:17:13 plunky Exp $");
1.6    plunky
1.6    plunky /* load symbolic names */
1.6    plunky #ifdef BLUETOOTH_DEBUG
1.6    plunky #define PRUREQUESTS
1.6    plunky #define PRCOREQUESTS
1.6    plunky #endif
1.1   gdamore
1.1   gdamore #include <sys/param.h>
1.1   gdamore #include <sys/domain.h>
1.1   gdamore #include <sys/kernel.h>
1.1   gdamore #include <sys/mbuf.h>
1.1   gdamore #include <sys/proc.h>
1.1   gdamore #include <sys/protosw.h>
1.1   gdamore #include <sys/socket.h>
1.1   gdamore #include <sys/socketvar.h>
1.1   gdamore #include <sys/systm.h>
1.1   gdamore
1.1   gdamore #include <netbt/bluetooth.h>
1.1   gdamore #include <netbt/rfcomm.h>
1.1   gdamore
1.1   gdamore /****************************************************************************
1.1   gdamore  *
1.1   gdamore  *	RFCOMM SOCK_STREAM Sockets - serial line emulation
1.1   gdamore  *
1.1   gdamore  */
1.1   gdamore
1.1   gdamore static void rfcomm_connecting(void *);
1.1   gdamore static void rfcomm_connected(void *);
1.1   gdamore static void rfcomm_disconnected(void *, int);
1.1   gdamore static void *rfcomm_newconn(void *, struct sockaddr_bt *, struct sockaddr_bt *);
1.1   gdamore static void rfcomm_complete(void *, int);
1.1   gdamore static void rfcomm_input(void *, struct mbuf *);
1.1   gdamore
1.1   gdamore static const struct btproto rfcomm_proto = {
1.1   gdamore 	rfcomm_connecting,
1.1   gdamore 	rfcomm_connected,
1.1   gdamore 	rfcomm_disconnected,
1.1   gdamore 	rfcomm_newconn,
1.1   gdamore 	rfcomm_complete,
1.1   gdamore 	rfcomm_input,
1.1   gdamore };
1.1   gdamore
1.1   gdamore /* sysctl variables */
1.1   gdamore int rfcomm_sendspace = 4096;
1.1   gdamore int rfcomm_recvspace = 4096;
1.1   gdamore
1.1   gdamore /*
1.1   gdamore  * User Request.
1.1   gdamore  * up is socket
1.1   gdamore  * m is either
1.1   gdamore  *	optional mbuf chain containing message
1.1   gdamore  *	ioctl command (PRU_CONTROL)
1.1   gdamore  * nam is either
1.1   gdamore  *	optional mbuf chain containing an address
1.1   gdamore  *	ioctl data (PRU_CONTROL)
1.1   gdamore  *	optionally protocol number (PRU_ATTACH)
1.1   gdamore  *	message flags (PRU_RCVD)
1.1   gdamore  * ctl is either
1.1   gdamore  *	optional mbuf chain containing socket options
1.1   gdamore  *	optional interface pointer (PRU_CONTROL, PRU_PURGEIF)
1.1   gdamore  * l is pointer to process requesting action (if any)
1.1   gdamore  *
1.1   gdamore  * we are responsible for disposing of m and ctl if
1.1   gdamore  * they are mbuf chains
1.1   gdamore  */
1.1   gdamore int
1.1   gdamore rfcomm_usrreq(struct socket *up, int req, struct mbuf *m,
1.3  christos 		struct mbuf *nam, struct mbuf *ctl, struct lwp *l)
1.1   gdamore {
1.1   gdamore 	struct rfcomm_dlc *pcb = up->so_pcb;
1.1   gdamore 	struct sockaddr_bt *sa;
1.1   gdamore 	struct mbuf *m0;
1.1   gdamore 	int err = 0;
1.1   gdamore
1.1   gdamore 	DPRINTFN(2, "%s\n", prurequests[req]);
1.1   gdamore
1.1   gdamore 	switch (req) {
1.1   gdamore 	case PRU_CONTROL:
1.1   gdamore 		return EPASSTHROUGH;
1.1   gdamore
1.1   gdamore 	case PRU_PURGEIF:
1.1   gdamore 		return EOPNOTSUPP;
1.1   gdamore
1.1   gdamore 	case PRU_ATTACH:
1.1   gdamore 		if (pcb != NULL)
1.1   gdamore 			return EINVAL;
1.1   gdamore
1.1   gdamore 		/*
1.1   gdamore 		 * Since we have nothing to add, we attach the DLC
1.1   gdamore 		 * structure directly to our PCB pointer.
1.1   gdamore 		 */
1.1   gdamore 		err = rfcomm_attach((struct rfcomm_dlc **)&up->so_pcb,
1.1   gdamore 					&rfcomm_proto, up);
1.1   gdamore 		if (err)
1.1   gdamore 			return err;
1.1   gdamore
1.1   gdamore 		err = soreserve(up, rfcomm_sendspace, rfcomm_recvspace);
1.1   gdamore 		if (err)
1.1   gdamore 			return err;
1.1   gdamore
1.1   gdamore 		err = rfcomm_rcvd(up->so_pcb, sbspace(&up->so_rcv));
1.1   gdamore 		if (err)
1.1   gdamore 			return err;
1.1   gdamore
1.1   gdamore 		return 0;
1.1   gdamore 	}
1.1   gdamore
1.1   gdamore 	if (pcb == NULL) {
1.1   gdamore 		err = EINVAL;
1.1   gdamore 		goto release;
1.1   gdamore 	}
1.1   gdamore
1.1   gdamore 	switch(req) {
1.1   gdamore 	case PRU_DISCONNECT:
1.1   gdamore 		soisdisconnecting(up);
1.1   gdamore 		return rfcomm_disconnect(pcb, up->so_linger);
1.1   gdamore
1.1   gdamore 	case PRU_ABORT:
1.1   gdamore 		rfcomm_disconnect(pcb, 0);
1.1   gdamore 		soisdisconnected(up);
1.1   gdamore 		/* fall through to */
1.1   gdamore 	case PRU_DETACH:
1.1   gdamore 		return rfcomm_detach((struct rfcomm_dlc **)&up->so_pcb);
1.1   gdamore
1.1   gdamore 	case PRU_BIND:
1.5    plunky 		KASSERT(nam != NULL);
1.1   gdamore 		sa = mtod(nam, struct sockaddr_bt *);
1.1   gdamore
1.1   gdamore 		if (sa->bt_len != sizeof(struct sockaddr_bt))
1.1   gdamore 			return EINVAL;
1.1   gdamore
1.1   gdamore 		if (sa->bt_family != AF_BLUETOOTH)
1.1   gdamore 			return EAFNOSUPPORT;
1.1   gdamore
1.1   gdamore 		return rfcomm_bind(pcb, sa);
1.1   gdamore
1.1   gdamore 	case PRU_CONNECT:
1.5    plunky 		KASSERT(nam != NULL);
1.1   gdamore 		sa = mtod(nam, struct sockaddr_bt *);
1.1   gdamore
1.1   gdamore 		if (sa->bt_len != sizeof(struct sockaddr_bt))
1.1   gdamore 			return EINVAL;
1.1   gdamore
1.1   gdamore 		if (sa->bt_family != AF_BLUETOOTH)
1.1   gdamore 			return EAFNOSUPPORT;
1.1   gdamore
1.1   gdamore 		soisconnecting(up);
1.1   gdamore 		return rfcomm_connect(pcb, sa);
1.1   gdamore
1.1   gdamore 	case PRU_PEERADDR:
1.5    plunky 		KASSERT(nam != NULL);
1.1   gdamore 		sa = mtod(nam, struct sockaddr_bt *);
1.1   gdamore 		nam->m_len = sizeof(struct sockaddr_bt);
1.1   gdamore 		return rfcomm_peeraddr(pcb, sa);
1.1   gdamore
1.1   gdamore 	case PRU_SOCKADDR:
1.5    plunky 		KASSERT(nam != NULL);
1.1   gdamore 		sa = mtod(nam, struct sockaddr_bt *);
1.1   gdamore 		nam->m_len = sizeof(struct sockaddr_bt);
1.1   gdamore 		return rfcomm_sockaddr(pcb, sa);
1.1   gdamore
1.1   gdamore 	case PRU_SHUTDOWN:
1.1   gdamore 		socantsendmore(up);
1.1   gdamore 		break;
1.1   gdamore
1.1   gdamore 	case PRU_SEND:
1.5    plunky 		KASSERT(m != NULL);
1.1   gdamore
1.1   gdamore 		if (ctl)	/* no use for that */
1.1   gdamore 			m_freem(ctl);
1.1   gdamore
1.1   gdamore 		m0 = m_copypacket(m, M_DONTWAIT);
1.1   gdamore 		if (m0 == NULL)
1.1   gdamore 			return ENOMEM;
1.1   gdamore
1.1   gdamore 		sbappendstream(&up->so_snd, m);
1.1   gdamore
1.1   gdamore 		return rfcomm_send(pcb, m0);
1.1   gdamore
1.1   gdamore 	case PRU_SENSE:
1.1   gdamore 		return 0;		/* (no release) */
1.1   gdamore
1.1   gdamore 	case PRU_RCVD:
1.1   gdamore 		return rfcomm_rcvd(pcb, sbspace(&up->so_rcv));
1.1   gdamore
1.1   gdamore 	case PRU_RCVOOB:
1.1   gdamore 		return EOPNOTSUPP;	/* (no release) */
1.1   gdamore
1.1   gdamore 	case PRU_LISTEN:
1.1   gdamore 		return rfcomm_listen(pcb);
1.1   gdamore
1.1   gdamore 	case PRU_ACCEPT:
1.5    plunky 		KASSERT(nam != NULL);
1.1   gdamore 		sa = mtod(nam, struct sockaddr_bt *);
1.1   gdamore 		nam->m_len = sizeof(struct sockaddr_bt);
1.1   gdamore 		return rfcomm_peeraddr(pcb, sa);
1.1   gdamore
1.1   gdamore 	case PRU_CONNECT2:
1.1   gdamore 	case PRU_SENDOOB:
1.1   gdamore 	case PRU_FASTTIMO:
1.1   gdamore 	case PRU_SLOWTIMO:
1.1   gdamore 	case PRU_PROTORCV:
1.1   gdamore 	case PRU_PROTOSEND:
1.1   gdamore 		err = EOPNOTSUPP;
1.1   gdamore 		break;
1.1   gdamore
1.1   gdamore 	default:
1.1   gdamore 		UNKNOWN(req);
1.1   gdamore 		err = EOPNOTSUPP;
1.1   gdamore 		break;
1.1   gdamore 	}
1.1   gdamore
1.1   gdamore release:
1.1   gdamore 	if (m) m_freem(m);
1.1   gdamore 	if (ctl) m_freem(ctl);
1.1   gdamore 	return err;
1.1   gdamore }
1.1   gdamore
1.1   gdamore /*
1.1   gdamore  * rfcomm_ctloutput(request, socket, level, optname, opt)
1.1   gdamore  *
1.1   gdamore  */
1.1   gdamore int
1.1   gdamore rfcomm_ctloutput(int req, struct socket *so, int level,
1.1   gdamore 		int optname, struct mbuf **opt)
1.1   gdamore {
1.1   gdamore 	struct rfcomm_dlc *pcb = so->so_pcb;
1.1   gdamore 	struct mbuf *m;
1.1   gdamore 	int err = 0;
1.1   gdamore
1.1   gdamore 	DPRINTFN(2, "%s\n", prcorequests[req]);
1.1   gdamore
1.4    plunky 	if (pcb == NULL)
1.4    plunky 		return EINVAL;
1.4    plunky
1.1   gdamore 	if (level != BTPROTO_RFCOMM)
1.4    plunky 		return ENOPROTOOPT;
1.1   gdamore
1.1   gdamore 	switch(req) {
1.1   gdamore 	case PRCO_GETOPT:
1.1   gdamore 		m = m_get(M_WAIT, MT_SOOPTS);
1.1   gdamore 		m->m_len = rfcomm_getopt(pcb, optname, mtod(m, void *));
1.1   gdamore 		if (m->m_len == 0) {
1.1   gdamore 			m_freem(m);
1.1   gdamore 			m = NULL;
1.4    plunky 			err = ENOPROTOOPT;
1.1   gdamore 		}
1.1   gdamore 		*opt = m;
1.1   gdamore 		break;
1.1   gdamore
1.1   gdamore 	case PRCO_SETOPT:
1.1   gdamore 		m = *opt;
1.1   gdamore 		KASSERT(m != NULL);
1.1   gdamore 		err = rfcomm_setopt(pcb, optname, mtod(m, void *));
1.1   gdamore 		m_freem(m);
1.1   gdamore 		break;
1.1   gdamore
1.1   gdamore 	default:
1.4    plunky 		err = ENOPROTOOPT;
1.1   gdamore 		break;
1.1   gdamore 	}
1.1   gdamore
1.1   gdamore 	return err;
1.1   gdamore }
1.1   gdamore
1.1   gdamore /**********************************************************************
1.1   gdamore  *
1.1   gdamore  * RFCOMM callbacks
1.1   gdamore  */
1.1   gdamore
1.1   gdamore static void
1.3  christos rfcomm_connecting(void *arg)
1.1   gdamore {
1.1   gdamore 	/* struct socket *so = arg; */
1.1   gdamore
1.5    plunky 	KASSERT(arg != NULL);
1.1   gdamore 	DPRINTF("Connecting\n");
1.1   gdamore }
1.1   gdamore
1.1   gdamore static void
1.1   gdamore rfcomm_connected(void *arg)
1.1   gdamore {
1.1   gdamore 	struct socket *so = arg;
1.1   gdamore
1.5    plunky 	KASSERT(so != NULL);
1.1   gdamore 	DPRINTF("Connected\n");
1.1   gdamore 	soisconnected(so);
1.1   gdamore }
1.1   gdamore
1.1   gdamore static void
1.1   gdamore rfcomm_disconnected(void *arg, int err)
1.1   gdamore {
1.1   gdamore 	struct socket *so = arg;
1.1   gdamore
1.5    plunky 	KASSERT(so != NULL);
1.1   gdamore 	DPRINTF("Disconnected\n");
1.1   gdamore
1.1   gdamore 	so->so_error = err;
1.1   gdamore 	soisdisconnected(so);
1.1   gdamore }
1.1   gdamore
1.1   gdamore static void *
1.3  christos rfcomm_newconn(void *arg, struct sockaddr_bt *laddr,
1.3  christos     struct sockaddr_bt *raddr)
1.1   gdamore {
1.1   gdamore 	struct socket *so = arg;
1.1   gdamore
1.1   gdamore 	DPRINTF("New Connection\n");
1.1   gdamore 	so = sonewconn(so, 0);
1.1   gdamore 	if (so == NULL)
1.1   gdamore 		return NULL;
1.1   gdamore
1.1   gdamore 	soisconnecting(so);
1.1   gdamore
1.1   gdamore 	return so->so_pcb;
1.1   gdamore }
1.1   gdamore
1.1   gdamore /*
1.1   gdamore  * rfcomm_complete(rfcomm_dlc, length)
1.1   gdamore  *
1.1   gdamore  * length bytes are sent and may be removed from socket buffer
1.1   gdamore  */
1.1   gdamore static void
1.1   gdamore rfcomm_complete(void *arg, int length)
1.1   gdamore {
1.1   gdamore 	struct socket *so = arg;
1.1   gdamore
1.1   gdamore 	sbdrop(&so->so_snd, length);
1.1   gdamore 	sowwakeup(so);
1.1   gdamore }
1.1   gdamore
1.1   gdamore /*
1.1   gdamore  * rfcomm_input(rfcomm_dlc, mbuf)
1.1   gdamore  */
1.1   gdamore static void
1.1   gdamore rfcomm_input(void *arg, struct mbuf *m)
1.1   gdamore {
1.1   gdamore 	struct socket *so = arg;
1.1   gdamore
1.5    plunky 	KASSERT(so != NULL);
1.1   gdamore
1.1   gdamore 	if (m->m_pkthdr.len > sbspace(&so->so_rcv)) {
1.1   gdamore 		printf("%s: %d bytes dropped (socket buffer full)\n",
1.1   gdamore 			__func__, m->m_pkthdr.len);
1.1   gdamore 		m_freem(m);
1.1   gdamore 		return;
1.1   gdamore 	}
1.1   gdamore
1.1   gdamore 	DPRINTFN(10, "received %d bytes\n", m->m_pkthdr.len);
1.1   gdamore
1.1   gdamore 	sbappendstream(&so->so_rcv, m);
1.1   gdamore 	sorwakeup(so);
1.1   gdamore }