/* $OpenBSD: l2cap_upper.c,v 1.3 2008/11/22 04:42:58 uwe Exp $ */ /* $NetBSD: l2cap_upper.c,v 1.9 2008/08/06 15:01:24 plunky Exp $ */ /*- * Copyright (c) 2005 Iain Hibbert. * Copyright (c) 2006 Itronix Inc. * All rights reserved. * * 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 #include #include #include #include #include #include #include #include #include #include #include /******************************************************************************* * * L2CAP Channel - Upper Protocol API */ /* * l2cap_attach(handle, btproto, upper) * * attach new l2cap_channel to handle, populate * with reasonable defaults */ int l2cap_attach(struct l2cap_channel **handle, const struct btproto *proto, void *upper) { struct l2cap_channel *chan; KASSERT(handle != NULL); KASSERT(proto != NULL); KASSERT(upper != NULL); chan = malloc(sizeof(*chan), M_BLUETOOTH, M_NOWAIT | M_ZERO); if (chan == NULL) return ENOMEM; chan->lc_proto = proto; chan->lc_upper = upper; chan->lc_state = L2CAP_CLOSED; chan->lc_lcid = L2CAP_NULL_CID; chan->lc_rcid = L2CAP_NULL_CID; chan->lc_laddr.bt_len = sizeof(struct sockaddr_bt); chan->lc_laddr.bt_family = AF_BLUETOOTH; chan->lc_laddr.bt_psm = L2CAP_PSM_ANY; chan->lc_raddr.bt_len = sizeof(struct sockaddr_bt); chan->lc_raddr.bt_family = AF_BLUETOOTH; chan->lc_raddr.bt_psm = L2CAP_PSM_ANY; chan->lc_imtu = L2CAP_MTU_DEFAULT; chan->lc_omtu = L2CAP_MTU_DEFAULT; chan->lc_flush = L2CAP_FLUSH_TIMO_DEFAULT; memcpy(&chan->lc_iqos, &l2cap_default_qos, sizeof(l2cap_qos_t)); memcpy(&chan->lc_oqos, &l2cap_default_qos, sizeof(l2cap_qos_t)); *handle = chan; return 0; } /* * l2cap_bind(l2cap_channel, sockaddr) * * set local address of channel */ int l2cap_bind(struct l2cap_channel *chan, struct sockaddr_bt *addr) { memcpy(&chan->lc_laddr, addr, sizeof(struct sockaddr_bt)); return 0; } /* * l2cap_sockaddr(l2cap_channel, sockaddr) * * get local address of channel */ int l2cap_sockaddr(struct l2cap_channel *chan, struct sockaddr_bt *addr) { memcpy(addr, &chan->lc_laddr, sizeof(struct sockaddr_bt)); return 0; } /* * l2cap_connect(l2cap_channel, sockaddr) * * Initiate a connection to destination. This corresponds to * "Open Channel Request" in the L2CAP specification and will * result in one of the following: * * proto->connected(upper) * proto->disconnected(upper, error) * * and, optionally * proto->connecting(upper) */ int l2cap_connect(struct l2cap_channel *chan, struct sockaddr_bt *dest) { struct hci_unit *unit; int err; memcpy(&chan->lc_raddr, dest, sizeof(struct sockaddr_bt)); if (L2CAP_PSM_INVALID(chan->lc_raddr.bt_psm)) return EINVAL; if (bdaddr_any(&chan->lc_raddr.bt_bdaddr)) return EDESTADDRREQ; /* set local address if it needs setting */ if (bdaddr_any(&chan->lc_laddr.bt_bdaddr)) { err = hci_route_lookup(&chan->lc_laddr.bt_bdaddr, &chan->lc_raddr.bt_bdaddr); if (err) return err; } unit = hci_unit_lookup(&chan->lc_laddr.bt_bdaddr); if (unit == NULL) return EHOSTUNREACH; /* attach to active list */ err = l2cap_cid_alloc(chan); if (err) return err; /* open link to remote device */ chan->lc_link = hci_acl_open(unit, &chan->lc_raddr.bt_bdaddr); if (chan->lc_link == NULL) return EHOSTUNREACH; /* set the link mode */ err = l2cap_setmode(chan); if (err == EINPROGRESS) { chan->lc_state = L2CAP_WAIT_SEND_CONNECT_REQ; (*chan->lc_proto->connecting)(chan->lc_upper); return 0; } if (err) goto fail; /* * We can queue a connect request now even though the link may * not yet be open; Our mode setting is assured, and the queue * will be started automatically at the right time. */ chan->lc_state = L2CAP_WAIT_RECV_CONNECT_RSP; err = l2cap_send_connect_req(chan); if (err) goto fail; return 0; fail: chan->lc_state = L2CAP_CLOSED; hci_acl_close(chan->lc_link, err); chan->lc_link = NULL; return err; } /* * l2cap_peeraddr(l2cap_channel, sockaddr) * * get remote address of channel */ int l2cap_peeraddr(struct l2cap_channel *chan, struct sockaddr_bt *addr) { memcpy(addr, &chan->lc_raddr, sizeof(struct sockaddr_bt)); return 0; } /* * l2cap_disconnect(l2cap_channel, linger) * * Initiate L2CAP disconnection. This corresponds to * "Close Channel Request" in the L2CAP specification * and will result in a call to * * proto->disconnected(upper, error) * * when the disconnection is complete. If linger is set, * the call will not be made until data has flushed from * the queue. */ int l2cap_disconnect(struct l2cap_channel *chan, int linger) { int err = 0; if (chan->lc_state == L2CAP_CLOSED || chan->lc_state == L2CAP_WAIT_DISCONNECT) return EINVAL; chan->lc_flags |= L2CAP_SHUTDOWN; /* * no need to do anything unless the queue is empty or * we are not lingering.. */ if ((IF_IS_EMPTY(&chan->lc_txq) && chan->lc_pending == 0) || linger == 0) { chan->lc_state = L2CAP_WAIT_DISCONNECT; err = l2cap_send_disconnect_req(chan); if (err) l2cap_close(chan, err); } return err; } /* * l2cap_detach(handle) * * Detach l2cap channel from handle & close it down */ int l2cap_detach(struct l2cap_channel **handle) { struct l2cap_channel *chan; chan = *handle; *handle = NULL; if (chan->lc_state != L2CAP_CLOSED) l2cap_close(chan, 0); if (chan->lc_lcid != L2CAP_NULL_CID) { LIST_REMOVE(chan, lc_ncid); chan->lc_lcid = L2CAP_NULL_CID; } IF_PURGE(&chan->lc_txq); /* * Could implement some kind of delayed expunge to make sure that the * CID is really dead before it becomes available for reuse? */ free(chan, M_BLUETOOTH); return 0; } /* * l2cap_listen(l2cap_channel) * * Use this channel as a listening post (until detached). This will * result in calls to: * * proto->newconn(upper, laddr, raddr) * * for incoming connections matching the psm and local address of the * channel (NULL psm/address are permitted and match any protocol/device). * * The upper layer should create and return a new channel. * * You cannot use this channel for anything else subsequent to this call */ int l2cap_listen(struct l2cap_channel *chan) { struct l2cap_channel *used, *prev = NULL; if (chan->lc_lcid != L2CAP_NULL_CID) return EINVAL; if (chan->lc_laddr.bt_psm != L2CAP_PSM_ANY && L2CAP_PSM_INVALID(chan->lc_laddr.bt_psm)) return EADDRNOTAVAIL; /* * This CID is irrelevant, as the channel is not stored on the active * list and the socket code does not allow operations on listening * sockets, but we set it so the detach code knows to LIST_REMOVE the * channel. */ chan->lc_lcid = L2CAP_SIGNAL_CID; /* * The list of listening channels is stored in an order such that new * listeners dont usurp current listeners, but that specific listening * takes precedence over promiscuous, and the connect request code can * easily use the first matching entry. */ LIST_FOREACH(used, &l2cap_listen_list, lc_ncid) { if (used->lc_laddr.bt_psm < chan->lc_laddr.bt_psm) break; if (used->lc_laddr.bt_psm == chan->lc_laddr.bt_psm && bdaddr_any(&used->lc_laddr.bt_bdaddr) && !bdaddr_any(&chan->lc_laddr.bt_bdaddr)) break; prev = used; } if (prev == NULL) LIST_INSERT_HEAD(&l2cap_listen_list, chan, lc_ncid); else LIST_INSERT_AFTER(prev, chan, lc_ncid); return 0; } /* * l2cap_send(l2cap_channel, mbuf) * * Output SDU on channel described by channel. This corresponds * to "Send Data Request" in the L2CAP specification. The upper * layer will be notified when SDU's have completed sending by a * call to: * * proto->complete(upper, n) * * (currently n == 1) * * Note: I'm not sure how this will work out, but I think that * if outgoing Retransmission Mode or Flow Control Mode is * negotiated then this call will not be made until the SDU has * been acknowleged by the peer L2CAP entity. For 'Best Effort' * it will be made when the packet has cleared the controller * buffers. * * We only support Basic mode so far, so encapsulate with a * B-Frame header and start sending if we are not already */ int l2cap_send(struct l2cap_channel *chan, struct mbuf *m) { l2cap_hdr_t *hdr; int plen; if (chan->lc_state == L2CAP_CLOSED) { m_freem(m); return ENOTCONN; } plen = m->m_pkthdr.len; DPRINTFN(5, "send %d bytes on CID #%d (pending = %d)\n", plen, chan->lc_lcid, chan->lc_pending); /* Encapsulate with B-Frame */ M_PREPEND(m, sizeof(l2cap_hdr_t), M_DONTWAIT); if (m == NULL) return ENOMEM; hdr = mtod(m, l2cap_hdr_t *); hdr->length = htole16(plen); hdr->dcid = htole16(chan->lc_rcid); /* Queue it on our list */ IF_ENQUEUE(&chan->lc_txq, m); /* If we are not sending, then start doing so */ if (chan->lc_pending == 0) return l2cap_start(chan); return 0; } /* * l2cap_setopt(l2cap_channel, opt, addr) * * Apply configuration options to channel. This corresponds to * "Configure Channel Request" in the L2CAP specification. * * for SO_L2CAP_LM, the settings will take effect when the * channel is established. If the channel is already open, * a call to * proto->linkmode(upper, new) * * will be made when the change is complete. */ int l2cap_setopt(struct l2cap_channel *chan, int opt, void *addr) { int mode, err = 0; uint16_t mtu; switch (opt) { case SO_L2CAP_IMTU: /* set Incoming MTU */ mtu = *(uint16_t *)addr; if (mtu < L2CAP_MTU_MINIMUM) err = EINVAL; else if (chan->lc_state == L2CAP_CLOSED) chan->lc_imtu = mtu; else err = EBUSY; break; case SO_L2CAP_LM: /* set link mode */ mode = *(int *)addr; mode &= (L2CAP_LM_SECURE | L2CAP_LM_ENCRYPT | L2CAP_LM_AUTH); if (mode & L2CAP_LM_SECURE) mode |= L2CAP_LM_ENCRYPT; if (mode & L2CAP_LM_ENCRYPT) mode |= L2CAP_LM_AUTH; chan->lc_mode = mode; if (chan->lc_state == L2CAP_OPEN) err = l2cap_setmode(chan); break; case SO_L2CAP_OQOS: /* set Outgoing QoS flow spec */ case SO_L2CAP_FLUSH: /* set Outgoing Flush Timeout */ default: err = ENOPROTOOPT; break; } return err; } /* * l2cap_getopt(l2cap_channel, opt, addr) * * Return configuration parameters. */ int l2cap_getopt(struct l2cap_channel *chan, int opt, void *addr) { switch (opt) { case SO_L2CAP_IMTU: /* get Incoming MTU */ *(uint16_t *)addr = chan->lc_imtu; return sizeof(uint16_t); case SO_L2CAP_OMTU: /* get Outgoing MTU */ *(uint16_t *)addr = chan->lc_omtu; return sizeof(uint16_t); case SO_L2CAP_IQOS: /* get Incoming QoS flow spec */ memcpy(addr, &chan->lc_iqos, sizeof(l2cap_qos_t)); return sizeof(l2cap_qos_t); case SO_L2CAP_OQOS: /* get Outgoing QoS flow spec */ memcpy(addr, &chan->lc_oqos, sizeof(l2cap_qos_t)); return sizeof(l2cap_qos_t); case SO_L2CAP_FLUSH: /* get Flush Timeout */ *(uint16_t *)addr = chan->lc_flush; return sizeof(uint16_t); case SO_L2CAP_LM: /* get link mode */ *(int *)addr = chan->lc_mode; return sizeof(int); default: break; } return 0; }