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|
/* $OpenBSD: rfcomm_upper.c,v 1.7 2009/11/21 13:05:32 guenther Exp $ */
/* $NetBSD: rfcomm_upper.c,v 1.11 2008/08/06 15:01:24 plunky Exp $ */
/*-
* Copyright (c) 2006 Itronix Inc.
* All rights reserved.
*
* Written by Iain Hibbert for Itronix Inc.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. The name of Itronix Inc. may not be used to endorse
* or promote products derived from this software without specific
* prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY ITRONIX INC. ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL ITRONIX INC. BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include <sys/param.h>
#include <sys/kernel.h>
#include <sys/mbuf.h>
#include <sys/proc.h>
#include <sys/systm.h>
#include <netbt/bluetooth.h>
#include <netbt/hci.h>
#include <netbt/l2cap.h>
#include <netbt/rfcomm.h>
/****************************************************************************
*
* RFCOMM DLC - Upper Protocol API
*
* Currently the only 'Port Emulation Entity' is the RFCOMM socket code
* but it is should be possible to provide a pseudo-device for a direct
* tty interface.
*/
/*
* rfcomm_attach(handle, proto, upper)
*
* attach a new RFCOMM DLC to handle, populate with reasonable defaults
*/
int
rfcomm_attach(struct rfcomm_dlc **handle,
const struct btproto *proto, void *upper)
{
struct rfcomm_dlc *dlc;
KASSERT(handle != NULL);
KASSERT(proto != NULL);
KASSERT(upper != NULL);
dlc = malloc(sizeof(*dlc), M_BLUETOOTH, M_NOWAIT | M_ZERO);
if (dlc == NULL)
return ENOMEM;
dlc->rd_state = RFCOMM_DLC_CLOSED;
dlc->rd_mtu = rfcomm_mtu_default;
dlc->rd_proto = proto;
dlc->rd_upper = upper;
dlc->rd_laddr.bt_len = sizeof(struct sockaddr_bt);
dlc->rd_laddr.bt_family = AF_BLUETOOTH;
dlc->rd_laddr.bt_psm = L2CAP_PSM_RFCOMM;
dlc->rd_raddr.bt_len = sizeof(struct sockaddr_bt);
dlc->rd_raddr.bt_family = AF_BLUETOOTH;
dlc->rd_raddr.bt_psm = L2CAP_PSM_RFCOMM;
dlc->rd_lmodem = RFCOMM_MSC_RTC | RFCOMM_MSC_RTR | RFCOMM_MSC_DV;
timeout_set(&dlc->rd_timeout, rfcomm_dlc_timeout, dlc);
*handle = dlc;
return 0;
}
/*
* rfcomm_bind(dlc, sockaddr)
*
* bind DLC to local address
*/
int
rfcomm_bind(struct rfcomm_dlc *dlc, struct sockaddr_bt *addr)
{
memcpy(&dlc->rd_laddr, addr, sizeof(struct sockaddr_bt));
return 0;
}
/*
* rfcomm_sockaddr(dlc, sockaddr)
*
* return local address
*/
int
rfcomm_sockaddr(struct rfcomm_dlc *dlc, struct sockaddr_bt *addr)
{
memcpy(addr, &dlc->rd_laddr, sizeof(struct sockaddr_bt));
return 0;
}
/*
* rfcomm_connect(dlc, sockaddr)
*
* Initiate connection of RFCOMM DLC to remote address.
*/
int
rfcomm_connect(struct rfcomm_dlc *dlc, struct sockaddr_bt *dest)
{
struct rfcomm_session *rs;
int err = 0;
if (dlc->rd_state != RFCOMM_DLC_CLOSED)
return EISCONN;
memcpy(&dlc->rd_raddr, dest, sizeof(struct sockaddr_bt));
if (dlc->rd_raddr.bt_channel < RFCOMM_CHANNEL_MIN
|| dlc->rd_raddr.bt_channel > RFCOMM_CHANNEL_MAX
|| bdaddr_any(&dlc->rd_raddr.bt_bdaddr))
return EDESTADDRREQ;
if (dlc->rd_raddr.bt_psm == L2CAP_PSM_ANY)
dlc->rd_raddr.bt_psm = L2CAP_PSM_RFCOMM;
else if (dlc->rd_raddr.bt_psm != L2CAP_PSM_RFCOMM
&& (dlc->rd_raddr.bt_psm < 0x1001
|| L2CAP_PSM_INVALID(dlc->rd_raddr.bt_psm)))
return EINVAL;
/*
* We are allowed only one RFCOMM session between any 2 Bluetooth
* devices, so see if there is a session already otherwise create
* one and set it connecting.
*/
rs = rfcomm_session_lookup(&dlc->rd_laddr, &dlc->rd_raddr);
if (rs == NULL) {
rs = rfcomm_session_alloc(&rfcomm_session_active,
&dlc->rd_laddr);
if (rs == NULL)
return ENOMEM;
rs->rs_flags |= RFCOMM_SESSION_INITIATOR;
rs->rs_state = RFCOMM_SESSION_WAIT_CONNECT;
err = l2cap_connect(rs->rs_l2cap, &dlc->rd_raddr);
if (err) {
rfcomm_session_free(rs);
return err;
}
/*
* This session will start up automatically when its
* L2CAP channel is connected.
*/
}
/* construct DLC */
dlc->rd_dlci = RFCOMM_MKDLCI(IS_INITIATOR(rs) ? 0:1, dest->bt_channel);
if (rfcomm_dlc_lookup(rs, dlc->rd_dlci))
return EBUSY;
l2cap_sockaddr(rs->rs_l2cap, &dlc->rd_laddr);
/*
* attach the DLC to the session and start it off
*/
dlc->rd_session = rs;
dlc->rd_state = RFCOMM_DLC_WAIT_SESSION;
LIST_INSERT_HEAD(&rs->rs_dlcs, dlc, rd_next);
if (rs->rs_state == RFCOMM_SESSION_OPEN)
err = rfcomm_dlc_connect(dlc);
return err;
}
/*
* rfcomm_peeraddr(dlc, sockaddr)
*
* return remote address
*/
int
rfcomm_peeraddr(struct rfcomm_dlc *dlc, struct sockaddr_bt *addr)
{
memcpy(addr, &dlc->rd_raddr, sizeof(struct sockaddr_bt));
return 0;
}
/*
* rfcomm_disconnect(dlc, linger)
*
* disconnect RFCOMM DLC
*/
int
rfcomm_disconnect(struct rfcomm_dlc *dlc, int linger)
{
struct rfcomm_session *rs = dlc->rd_session;
int err = 0;
KASSERT(dlc != NULL);
switch (dlc->rd_state) {
case RFCOMM_DLC_CLOSED:
case RFCOMM_DLC_LISTEN:
return EINVAL;
case RFCOMM_DLC_WAIT_SEND_UA:
err = rfcomm_session_send_frame(rs,
RFCOMM_FRAME_DM, dlc->rd_dlci);
/* fall through */
case RFCOMM_DLC_WAIT_SESSION:
case RFCOMM_DLC_WAIT_CONNECT:
case RFCOMM_DLC_WAIT_SEND_SABM:
rfcomm_dlc_close(dlc, 0);
break;
case RFCOMM_DLC_OPEN:
if (dlc->rd_txbuf != NULL && linger != 0) {
dlc->rd_flags |= RFCOMM_DLC_SHUTDOWN;
break;
}
/* else fall through */
case RFCOMM_DLC_WAIT_RECV_UA:
dlc->rd_state = RFCOMM_DLC_WAIT_DISCONNECT;
err = rfcomm_session_send_frame(rs, RFCOMM_FRAME_DISC,
dlc->rd_dlci);
timeout_add_sec(&dlc->rd_timeout, rfcomm_ack_timeout);
break;
case RFCOMM_DLC_WAIT_DISCONNECT:
err = EALREADY;
break;
default:
UNKNOWN(dlc->rd_state);
break;
}
return err;
}
/*
* rfcomm_detach(handle)
*
* detach RFCOMM DLC from handle
*/
int
rfcomm_detach(struct rfcomm_dlc **handle)
{
struct rfcomm_dlc *dlc = *handle;
if (dlc->rd_state != RFCOMM_DLC_CLOSED)
rfcomm_dlc_close(dlc, 0);
if (dlc->rd_txbuf != NULL) {
m_freem(dlc->rd_txbuf);
dlc->rd_txbuf = NULL;
}
dlc->rd_upper = NULL;
*handle = NULL;
/*
* If callout is invoking we can't free the DLC so
* mark it and let the callout release it.
*/
if (timeout_triggered(&dlc->rd_timeout))
dlc->rd_flags |= RFCOMM_DLC_DETACH;
else
free(dlc, M_BLUETOOTH);
return 0;
}
/*
* rfcomm_listen(dlc)
*
* This DLC is a listener. We look for an existing listening session
* with a matching address to attach to or else create a new one on
* the listeners list. If the ANY channel is given, allocate the first
* available for the session.
*/
int
rfcomm_listen(struct rfcomm_dlc *dlc)
{
struct rfcomm_session *rs;
struct rfcomm_dlc *used;
struct sockaddr_bt addr;
int err, channel;
if (dlc->rd_state != RFCOMM_DLC_CLOSED)
return EISCONN;
if (dlc->rd_laddr.bt_channel != RFCOMM_CHANNEL_ANY
&& (dlc->rd_laddr.bt_channel < RFCOMM_CHANNEL_MIN
|| dlc->rd_laddr.bt_channel > RFCOMM_CHANNEL_MAX))
return EADDRNOTAVAIL;
if (dlc->rd_laddr.bt_psm == L2CAP_PSM_ANY)
dlc->rd_laddr.bt_psm = L2CAP_PSM_RFCOMM;
else if (dlc->rd_laddr.bt_psm != L2CAP_PSM_RFCOMM
&& (dlc->rd_laddr.bt_psm < 0x1001
|| L2CAP_PSM_INVALID(dlc->rd_laddr.bt_psm)))
return EADDRNOTAVAIL;
LIST_FOREACH(rs, &rfcomm_session_listen, rs_next) {
l2cap_sockaddr(rs->rs_l2cap, &addr);
if (addr.bt_psm != dlc->rd_laddr.bt_psm)
continue;
if (bdaddr_same(&dlc->rd_laddr.bt_bdaddr, &addr.bt_bdaddr))
break;
}
if (rs == NULL) {
rs = rfcomm_session_alloc(&rfcomm_session_listen,
&dlc->rd_laddr);
if (rs == NULL)
return ENOMEM;
rs->rs_state = RFCOMM_SESSION_LISTEN;
err = l2cap_listen(rs->rs_l2cap);
if (err) {
rfcomm_session_free(rs);
return err;
}
}
if (dlc->rd_laddr.bt_channel == RFCOMM_CHANNEL_ANY) {
channel = RFCOMM_CHANNEL_MIN;
used = LIST_FIRST(&rs->rs_dlcs);
while (used != NULL) {
if (used->rd_laddr.bt_channel == channel) {
if (channel++ == RFCOMM_CHANNEL_MAX)
return EADDRNOTAVAIL;
used = LIST_FIRST(&rs->rs_dlcs);
} else {
used = LIST_NEXT(used, rd_next);
}
}
dlc->rd_laddr.bt_channel = channel;
}
dlc->rd_session = rs;
dlc->rd_state = RFCOMM_DLC_LISTEN;
LIST_INSERT_HEAD(&rs->rs_dlcs, dlc, rd_next);
return 0;
}
/*
* rfcomm_send(dlc, mbuf)
*
* Output data on DLC. This is streamed data, so we add it
* to our buffer and start the DLC, which will assemble
* packets and send them if it can.
*/
int
rfcomm_send(struct rfcomm_dlc *dlc, struct mbuf *m)
{
if (dlc->rd_txbuf != NULL) {
dlc->rd_txbuf->m_pkthdr.len += m->m_pkthdr.len;
m_cat(dlc->rd_txbuf, m);
} else {
dlc->rd_txbuf = m;
}
if (dlc->rd_state == RFCOMM_DLC_OPEN)
rfcomm_dlc_start(dlc);
return 0;
}
/*
* rfcomm_rcvd(dlc, space)
*
* Indicate space now available in receive buffer
*
* This should be used to give an initial value of the receive buffer
* size when the DLC is attached and anytime data is cleared from the
* buffer after that.
*/
int
rfcomm_rcvd(struct rfcomm_dlc *dlc, size_t space)
{
KASSERT(dlc != NULL);
dlc->rd_rxsize = space;
/*
* if we are using credit based flow control, we may
* want to send some credits..
*/
if (dlc->rd_state == RFCOMM_DLC_OPEN
&& (dlc->rd_session->rs_flags & RFCOMM_SESSION_CFC))
rfcomm_dlc_start(dlc);
return 0;
}
/*
* rfcomm_setopt(dlc, option, m)
*
* set DLC options
*/
int
rfcomm_setopt(struct rfcomm_dlc *dlc, int opt, struct mbuf *m)
{
int mode, err = 0;
uint16_t mtu;
switch (opt) {
case SO_RFCOMM_MTU:
if (m == NULL || m->m_len != sizeof(uint16_t))
err = EINVAL;
else {
mtu = *mtod(m, uint16_t *);
if (mtu < RFCOMM_MTU_MIN || mtu > RFCOMM_MTU_MAX)
err = EINVAL;
else if (dlc->rd_state == RFCOMM_DLC_CLOSED)
dlc->rd_mtu = mtu;
else
err = EBUSY;
}
break;
case SO_RFCOMM_LM:
if (m == NULL || m->m_len != sizeof(int))
err = EINVAL;
else {
mode = *mtod(m, int *);
mode &= (RFCOMM_LM_SECURE | RFCOMM_LM_ENCRYPT |
RFCOMM_LM_AUTH);
if (mode & RFCOMM_LM_SECURE)
mode |= RFCOMM_LM_ENCRYPT;
if (mode & RFCOMM_LM_ENCRYPT)
mode |= RFCOMM_LM_AUTH;
dlc->rd_mode = mode;
if (dlc->rd_state == RFCOMM_DLC_OPEN)
err = rfcomm_dlc_setmode(dlc);
}
break;
default:
err = ENOPROTOOPT;
break;
}
return err;
}
/*
* rfcomm_getopt(dlc, option, addr)
*
* get DLC options
*/
int
rfcomm_getopt(struct rfcomm_dlc *dlc, int opt, void *addr)
{
struct rfcomm_fc_info *fc;
switch (opt) {
case SO_RFCOMM_MTU:
*(uint16_t *)addr = dlc->rd_mtu;
return sizeof(uint16_t);
case SO_RFCOMM_FC_INFO:
fc = addr;
memset(fc, 0, sizeof(*fc));
fc->lmodem = dlc->rd_lmodem;
fc->rmodem = dlc->rd_rmodem;
fc->tx_cred = max(dlc->rd_txcred, 0xff);
fc->rx_cred = max(dlc->rd_rxcred, 0xff);
if (dlc->rd_session
&& (dlc->rd_session->rs_flags & RFCOMM_SESSION_CFC))
fc->cfc = 1;
return sizeof(*fc);
case SO_RFCOMM_LM:
*(int *)addr = dlc->rd_mode;
return sizeof(int);
default:
break;
}
return 0;
}
|