/* $OpenBSD: l2cap_signal.c,v 1.1 2007/05/30 03:42:53 uwe Exp $ */ /* $NetBSD: l2cap_signal.c,v 1.8 2007/05/16 18:34:49 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 /******************************************************************************* * * L2CAP Signal processing */ static void l2cap_recv_command_rej(struct mbuf *, struct hci_link *); static void l2cap_recv_connect_req(struct mbuf *, struct hci_link *); static void l2cap_recv_connect_rsp(struct mbuf *, struct hci_link *); static void l2cap_recv_config_req(struct mbuf *, struct hci_link *); static void l2cap_recv_config_rsp(struct mbuf *, struct hci_link *); static void l2cap_recv_disconnect_req(struct mbuf *, struct hci_link *); static void l2cap_recv_disconnect_rsp(struct mbuf *, struct hci_link *); static void l2cap_recv_info_req(struct mbuf *, struct hci_link *); static int l2cap_send_signal(struct hci_link *, uint8_t, uint8_t, uint16_t, void *); static int l2cap_send_command_rej(struct hci_link *, uint8_t, uint16_t, ...); /* * process incoming signal packets (CID 0x0001). Can contain multiple * requests/responses. */ void l2cap_recv_signal(struct mbuf *m, struct hci_link *link) { l2cap_cmd_hdr_t cmd; for(;;) { if (m->m_pkthdr.len == 0) goto finish; if (m->m_pkthdr.len < sizeof(cmd)) goto reject; m_copydata(m, 0, sizeof(cmd), (caddr_t)&cmd); cmd.length = letoh16(cmd.length); if (m->m_pkthdr.len < sizeof(cmd) + cmd.length) goto reject; DPRINTFN(2, "(%s) code %d, ident %d, len %d\n", link->hl_unit->hci_devname, cmd.code, cmd.ident, cmd.length); switch (cmd.code) { case L2CAP_COMMAND_REJ: if (cmd.length > sizeof(l2cap_cmd_rej_cp)) goto finish; l2cap_recv_command_rej(m, link); break; case L2CAP_CONNECT_REQ: if (cmd.length != sizeof(l2cap_con_req_cp)) goto reject; l2cap_recv_connect_req(m, link); break; case L2CAP_CONNECT_RSP: if (cmd.length != sizeof(l2cap_con_rsp_cp)) goto finish; l2cap_recv_connect_rsp(m, link); break; case L2CAP_CONFIG_REQ: l2cap_recv_config_req(m, link); break; case L2CAP_CONFIG_RSP: l2cap_recv_config_rsp(m, link); break; case L2CAP_DISCONNECT_REQ: if (cmd.length != sizeof(l2cap_discon_req_cp)) goto reject; l2cap_recv_disconnect_req(m, link); break; case L2CAP_DISCONNECT_RSP: if (cmd.length != sizeof(l2cap_discon_rsp_cp)) goto finish; l2cap_recv_disconnect_rsp(m, link); break; case L2CAP_ECHO_REQ: m_adj(m, sizeof(cmd) + cmd.length); l2cap_send_signal(link, L2CAP_ECHO_RSP, cmd.ident, 0, NULL); break; case L2CAP_ECHO_RSP: m_adj(m, sizeof(cmd) + cmd.length); break; case L2CAP_INFO_REQ: if (cmd.length != sizeof(l2cap_info_req_cp)) goto reject; l2cap_recv_info_req(m, link); break; case L2CAP_INFO_RSP: m_adj(m, sizeof(cmd) + cmd.length); break; default: goto reject; } } #ifdef DIAGNOSTIC panic("impossible!"); #endif reject: l2cap_send_command_rej(link, cmd.ident, L2CAP_REJ_NOT_UNDERSTOOD); finish: m_freem(m); } /* * Process Received Command Reject. For now we dont try to recover gracefully * from this, it probably means that the link is garbled or the other end is * insufficiently capable of handling normal traffic. (not *my* fault, no way!) */ static void l2cap_recv_command_rej(struct mbuf *m, struct hci_link *link) { struct l2cap_req *req; struct l2cap_channel *chan; l2cap_cmd_hdr_t cmd; l2cap_cmd_rej_cp cp; m_copydata(m, 0, sizeof(cmd), (caddr_t)&cmd); m_adj(m, sizeof(cmd)); cmd.length = letoh16(cmd.length); m_copydata(m, 0, cmd.length, (caddr_t)&cp); m_adj(m, cmd.length); req = l2cap_request_lookup(link, cmd.ident); if (req == NULL) return; switch (letoh16(cp.reason)) { case L2CAP_REJ_NOT_UNDERSTOOD: /* * I dont know what to do, just move up the timeout */ timeout_add(&req->lr_rtx, 0); break; case L2CAP_REJ_MTU_EXCEEDED: /* * I didnt send any commands over L2CAP_MTU_MINIMUM size, but.. * * XXX maybe we should resend this, instead? */ link->hl_mtu = letoh16(cp.data[0]); timeout_add(&req->lr_rtx, 0); break; case L2CAP_REJ_INVALID_CID: /* * Well, if they dont have such a channel then our channel is * most likely closed. Make it so. */ chan = req->lr_chan; l2cap_request_free(req); if (chan != NULL && chan->lc_state != L2CAP_CLOSED) l2cap_close(chan, ECONNABORTED); break; default: UNKNOWN(letoh16(cp.reason)); break; } } /* * Process Received Connect Request. Find listening channel matching * psm & addr and ask upper layer for a new channel. */ static void l2cap_recv_connect_req(struct mbuf *m, struct hci_link *link) { struct sockaddr_bt laddr, raddr; struct l2cap_channel *chan, *new; l2cap_cmd_hdr_t cmd; l2cap_con_req_cp cp; int err; /* extract cmd */ m_copydata(m, 0, sizeof(cmd), (caddr_t)&cmd); m_adj(m, sizeof(cmd)); /* extract request */ m_copydata(m, 0, sizeof(cp), (caddr_t)&cp); m_adj(m, sizeof(cp)); cp.scid = letoh16(cp.scid); cp.psm = letoh16(cp.psm); memset(&laddr, 0, sizeof(struct sockaddr_bt)); laddr.bt_len = sizeof(struct sockaddr_bt); laddr.bt_family = AF_BLUETOOTH; laddr.bt_psm = cp.psm; bdaddr_copy(&laddr.bt_bdaddr, &link->hl_unit->hci_bdaddr); memset(&raddr, 0, sizeof(struct sockaddr_bt)); raddr.bt_len = sizeof(struct sockaddr_bt); raddr.bt_family = AF_BLUETOOTH; raddr.bt_psm = cp.psm; bdaddr_copy(&raddr.bt_bdaddr, &link->hl_bdaddr); LIST_FOREACH(chan, &l2cap_listen_list, lc_ncid) { if (chan->lc_laddr.bt_psm != laddr.bt_psm && chan->lc_laddr.bt_psm != L2CAP_PSM_ANY) continue; if (!bdaddr_same(&laddr.bt_bdaddr, &chan->lc_laddr.bt_bdaddr) && bdaddr_any(&chan->lc_laddr.bt_bdaddr) == 0) continue; new= (*chan->lc_proto->newconn)(chan->lc_upper, &laddr, &raddr); if (new == NULL) continue; err = l2cap_cid_alloc(new); if (err) { l2cap_send_connect_rsp(link, cmd.ident, 0, cp.scid, L2CAP_NO_RESOURCES); (*new->lc_proto->disconnected)(new->lc_upper, err); return; } new->lc_link = hci_acl_open(link->hl_unit, &link->hl_bdaddr); KASSERT(new->lc_link == link); new->lc_rcid = cp.scid; new->lc_ident = cmd.ident; memcpy(&new->lc_laddr, &laddr, sizeof(struct sockaddr_bt)); memcpy(&new->lc_raddr, &raddr, sizeof(struct sockaddr_bt)); new->lc_mode = chan->lc_mode; err = l2cap_setmode(new); if (err == EINPROGRESS) { new->lc_state = L2CAP_WAIT_SEND_CONNECT_RSP; (*new->lc_proto->connecting)(new->lc_upper); return; } if (err) { new->lc_state = L2CAP_CLOSED; hci_acl_close(link, err); new->lc_link = NULL; l2cap_send_connect_rsp(link, cmd.ident, 0, cp.scid, L2CAP_NO_RESOURCES); (*new->lc_proto->disconnected)(new->lc_upper, err); return; } err = l2cap_send_connect_rsp(link, cmd.ident, new->lc_lcid, new->lc_rcid, L2CAP_SUCCESS); if (err) { l2cap_close(new, err); return; } new->lc_state = L2CAP_WAIT_CONFIG; new->lc_flags |= (L2CAP_WAIT_CONFIG_REQ | L2CAP_WAIT_CONFIG_RSP); err = l2cap_send_config_req(new); if (err) l2cap_close(new, err); return; } l2cap_send_connect_rsp(link, cmd.ident, 0, cp.scid, L2CAP_PSM_NOT_SUPPORTED); } /* * Process Received Connect Response. */ static void l2cap_recv_connect_rsp(struct mbuf *m, struct hci_link *link) { l2cap_cmd_hdr_t cmd; l2cap_con_rsp_cp cp; struct l2cap_req *req; struct l2cap_channel *chan; m_copydata(m, 0, sizeof(cmd), (caddr_t)&cmd); m_adj(m, sizeof(cmd)); m_copydata(m, 0, sizeof(cp), (caddr_t)&cp); m_adj(m, sizeof(cp)); cp.scid = letoh16(cp.scid); cp.dcid = letoh16(cp.dcid); cp.result = letoh16(cp.result); req = l2cap_request_lookup(link, cmd.ident); if (req == NULL || req->lr_code != L2CAP_CONNECT_REQ) return; chan = req->lr_chan; if (chan != NULL && chan->lc_lcid != cp.scid) return; if (chan == NULL || chan->lc_state != L2CAP_WAIT_RECV_CONNECT_RSP) { l2cap_request_free(req); return; } switch (cp.result) { case L2CAP_SUCCESS: /* * Ok, at this point we have a connection to the other party. We * could indicate upstream that we are ready for business and * wait for a "Configure Channel Request" but I'm not so sure * that is required in our case - we will proceed directly to * sending our config request. We set two state bits because in * the config state we are waiting for requests and responses. */ l2cap_request_free(req); chan->lc_rcid = cp.dcid; chan->lc_state = L2CAP_WAIT_CONFIG; chan->lc_flags |= (L2CAP_WAIT_CONFIG_REQ | L2CAP_WAIT_CONFIG_RSP); l2cap_send_config_req(chan); break; case L2CAP_PENDING: /* XXX dont release request, should start eRTX timeout? */ (*chan->lc_proto->connecting)(chan->lc_upper); break; case L2CAP_PSM_NOT_SUPPORTED: case L2CAP_SECURITY_BLOCK: case L2CAP_NO_RESOURCES: default: l2cap_request_free(req); l2cap_close(chan, ECONNREFUSED); break; } } /* * Process Received Config Reqest. */ static void l2cap_recv_config_req(struct mbuf *m, struct hci_link *link) { uint8_t buf[L2CAP_MTU_MINIMUM]; l2cap_cmd_hdr_t cmd; l2cap_cfg_req_cp cp; l2cap_cfg_opt_t opt; l2cap_cfg_opt_val_t val; l2cap_cfg_rsp_cp rp; struct l2cap_channel *chan; int left, len; m_copydata(m, 0, sizeof(cmd), (caddr_t)&cmd); m_adj(m, sizeof(cmd)); left = letoh16(cmd.length); if (left < sizeof(cp)) goto reject; m_copydata(m, 0, sizeof(cp), (caddr_t)&cp); m_adj(m, sizeof(cp)); left -= sizeof(cp); cp.dcid = letoh16(cp.dcid); cp.flags = letoh16(cp.flags); chan = l2cap_cid_lookup(cp.dcid); if (chan == NULL || chan->lc_link != link || chan->lc_state != L2CAP_WAIT_CONFIG || (chan->lc_flags & L2CAP_WAIT_CONFIG_REQ) == 0) { /* XXX we should really accept reconfiguration requests */ l2cap_send_command_rej(link, cmd.ident, L2CAP_REJ_INVALID_CID, L2CAP_NULL_CID, cp.dcid); goto out; } /* ready our response packet */ rp.scid = htole16(chan->lc_rcid); rp.flags = 0; /* "No Continuation" */ rp.result = L2CAP_SUCCESS; len = sizeof(rp); /* * Process the packet. We build the return packet on the fly adding any * unacceptable parameters as we go. As we can only return one result, * unknown option takes precedence so we start our return packet anew * and ignore option values thereafter as they will be re-sent. * * Since we do not support enough options to make overflowing the min * MTU size an issue in normal use, we just reject config requests that * make that happen. This could be because options are repeated or the * packet is corrupted in some way. * * If unknown option types threaten to overflow the packet, we just * ignore them. We can deny them next time. */ while (left > 0) { if (left < sizeof(opt)) goto reject; m_copydata(m, 0, sizeof(opt), (caddr_t)&opt); m_adj(m, sizeof(opt)); left -= sizeof(opt); if (left < opt.length) goto reject; switch(opt.type & L2CAP_OPT_HINT_MASK) { case L2CAP_OPT_MTU: if (rp.result == L2CAP_UNKNOWN_OPTION) break; if (opt.length != L2CAP_OPT_MTU_SIZE) goto reject; m_copydata(m, 0, L2CAP_OPT_MTU_SIZE, (caddr_t)&val); val.mtu = letoh16(val.mtu); /* * XXX how do we know what the minimum acceptable MTU is * for a channel? Spec says some profiles have a higher * minimum but I have no way to find that out at this * juncture.. */ if (val.mtu < L2CAP_MTU_MINIMUM) { if (len + sizeof(opt) + L2CAP_OPT_MTU_SIZE > sizeof(buf)) goto reject; rp.result = L2CAP_UNACCEPTABLE_PARAMS; memcpy(buf + len, &opt, sizeof(opt)); len += sizeof(opt); val.mtu = htole16(L2CAP_MTU_MINIMUM); memcpy(buf + len, &val, L2CAP_OPT_MTU_SIZE); len += L2CAP_OPT_MTU_SIZE; } else chan->lc_omtu = val.mtu; break; case L2CAP_OPT_FLUSH_TIMO: if (rp.result == L2CAP_UNKNOWN_OPTION) break; if (opt.length != L2CAP_OPT_FLUSH_TIMO_SIZE) goto reject; /* * I think that this is informational only - he is * informing us of the flush timeout he will be using. * I dont think this affects us in any significant way, * so just ignore this value for now. */ break; case L2CAP_OPT_QOS: default: /* ignore hints */ if (opt.type & L2CAP_OPT_HINT_BIT) break; /* unknown options supercede all else */ if (rp.result != L2CAP_UNKNOWN_OPTION) { rp.result = L2CAP_UNKNOWN_OPTION; len = sizeof(rp); } /* ignore if it don't fit */ if (len + sizeof(opt) > sizeof(buf)) break; /* return unknown option type, but no data */ buf[len++] = opt.type; buf[len++] = 0; break; } m_adj(m, opt.length); left -= opt.length; } rp.result = htole16(rp.result); memcpy(buf, &rp, sizeof(rp)); l2cap_send_signal(link, L2CAP_CONFIG_RSP, cmd.ident, len, buf); if ((cp.flags & L2CAP_OPT_CFLAG_BIT) == 0 && rp.result == letoh16(L2CAP_SUCCESS)) { chan->lc_flags &= ~L2CAP_WAIT_CONFIG_REQ; if ((chan->lc_flags & L2CAP_WAIT_CONFIG_RSP) == 0) { chan->lc_state = L2CAP_OPEN; /* XXX how to distinguish REconfiguration? */ (*chan->lc_proto->connected)(chan->lc_upper); } } return; reject: l2cap_send_command_rej(link, cmd.ident, L2CAP_REJ_NOT_UNDERSTOOD); out: m_adj(m, left); } /* * Process Received Config Response. */ static void l2cap_recv_config_rsp(struct mbuf *m, struct hci_link *link) { l2cap_cmd_hdr_t cmd; l2cap_cfg_rsp_cp cp; l2cap_cfg_opt_t opt; l2cap_cfg_opt_val_t val; struct l2cap_req *req; struct l2cap_channel *chan; int left; m_copydata(m, 0, sizeof(cmd), (caddr_t)&cmd); m_adj(m, sizeof(cmd)); left = letoh16(cmd.length); if (left < sizeof(cp)) goto out; m_copydata(m, 0, sizeof(cp), (caddr_t)&cp); m_adj(m, sizeof(cp)); left -= sizeof(cp); cp.scid = letoh16(cp.scid); cp.flags = letoh16(cp.flags); cp.result = letoh16(cp.result); req = l2cap_request_lookup(link, cmd.ident); if (req == NULL || req->lr_code != L2CAP_CONFIG_REQ) goto out; chan = req->lr_chan; if (chan != NULL && chan->lc_lcid != cp.scid) goto out; l2cap_request_free(req); if (chan == NULL || chan->lc_state != L2CAP_WAIT_CONFIG || (chan->lc_flags & L2CAP_WAIT_CONFIG_RSP) == 0) goto out; if ((cp.flags & L2CAP_OPT_CFLAG_BIT)) { l2cap_cfg_req_cp rp; /* * They have more to tell us and want another ID to * use, so send an empty config request */ if (l2cap_request_alloc(chan, L2CAP_CONFIG_REQ)) goto discon; rp.dcid = htole16(cp.scid); rp.flags = 0; if (l2cap_send_signal(link, L2CAP_CONFIG_REQ, link->hl_lastid, sizeof(rp), &rp)) goto discon; } switch(cp.result) { case L2CAP_SUCCESS: /* * If continuation flag was not set, our config request was * accepted. We may have to wait for their config request to * complete, so check that but otherwise we are open * * There may be 'advisory' values in the packet but we just * ignore those.. */ if ((cp.flags & L2CAP_OPT_CFLAG_BIT) == 0) { chan->lc_flags &= ~L2CAP_WAIT_CONFIG_RSP; if ((chan->lc_flags & L2CAP_WAIT_CONFIG_REQ) == 0) { chan->lc_state = L2CAP_OPEN; /* XXX how to distinguish REconfiguration? */ (*chan->lc_proto->connected)(chan->lc_upper); } } goto out; case L2CAP_UNACCEPTABLE_PARAMS: /* * Packet contains unacceptable parameters with preferred values */ while (left > 0) { if (left < sizeof(opt)) goto discon; m_copydata(m, 0, sizeof(opt), (caddr_t)&opt); m_adj(m, sizeof(opt)); left -= sizeof(opt); if (left < opt.length) goto discon; switch (opt.type) { case L2CAP_OPT_MTU: if (opt.length != L2CAP_OPT_MTU_SIZE) goto discon; m_copydata(m, 0, L2CAP_OPT_MTU_SIZE, (caddr_t)&val); chan->lc_imtu = letoh16(val.mtu); if (chan->lc_imtu < L2CAP_MTU_MINIMUM) chan->lc_imtu = L2CAP_MTU_DEFAULT; break; case L2CAP_OPT_FLUSH_TIMO: if (opt.length != L2CAP_OPT_FLUSH_TIMO_SIZE) goto discon; /* * Spec says: If we cannot honor proposed value, * either disconnect or try again with original * value. I can't really see why they want to * interfere with OUR flush timeout in any case * so we just punt for now. */ goto discon; case L2CAP_OPT_QOS: break; default: UNKNOWN(opt.type); goto discon; } m_adj(m, opt.length); left -= opt.length; } if ((cp.flags & L2CAP_OPT_CFLAG_BIT) == 0) l2cap_send_config_req(chan); /* no state change */ goto out; case L2CAP_REJECT: goto discon; case L2CAP_UNKNOWN_OPTION: /* * Packet contains options not understood. Turn off unknown * options by setting them to default values (means they will * not be requested again). * * If our option was already off then fail (paranoia?) * * XXX Should we consider that options were set for a reason? */ while (left > 0) { if (left < sizeof(opt)) goto discon; m_copydata(m, 0, sizeof(opt), (caddr_t)&opt); m_adj(m, sizeof(opt)); left -= sizeof(opt); if (left < opt.length) goto discon; m_adj(m, opt.length); left -= opt.length; switch(opt.type) { case L2CAP_OPT_MTU: if (chan->lc_imtu == L2CAP_MTU_DEFAULT) goto discon; chan->lc_imtu = L2CAP_MTU_DEFAULT; break; case L2CAP_OPT_FLUSH_TIMO: if (chan->lc_flush == L2CAP_FLUSH_TIMO_DEFAULT) goto discon; chan->lc_flush = L2CAP_FLUSH_TIMO_DEFAULT; break; case L2CAP_OPT_QOS: break; default: UNKNOWN(opt.type); goto discon; } } if ((cp.flags & L2CAP_OPT_CFLAG_BIT) == 0) l2cap_send_config_req(chan); /* no state change */ goto out; default: UNKNOWN(cp.result); goto discon; } DPRINTF("how did I get here!?\n"); discon: l2cap_send_disconnect_req(chan); l2cap_close(chan, ECONNABORTED); out: m_adj(m, left); } /* * Process Received Disconnect Request. We must validate scid and dcid * just in case but otherwise this connection is finished. */ static void l2cap_recv_disconnect_req(struct mbuf *m, struct hci_link *link) { l2cap_cmd_hdr_t cmd; l2cap_discon_req_cp cp; l2cap_discon_rsp_cp rp; struct l2cap_channel *chan; m_copydata(m, 0, sizeof(cmd), (caddr_t)&cmd); m_adj(m, sizeof(cmd)); m_copydata(m, 0, sizeof(cp), (caddr_t)&cp); m_adj(m, sizeof(cp)); cp.scid = letoh16(cp.scid); cp.dcid = letoh16(cp.dcid); chan = l2cap_cid_lookup(cp.dcid); if (chan == NULL || chan->lc_link != link || chan->lc_rcid != cp.scid) { l2cap_send_command_rej(link, cmd.ident, L2CAP_REJ_INVALID_CID, cp.dcid, cp.scid); return; } rp.dcid = htole16(chan->lc_lcid); rp.scid = htole16(chan->lc_rcid); l2cap_send_signal(link, L2CAP_DISCONNECT_RSP, cmd.ident, sizeof(rp), &rp); if (chan->lc_state != L2CAP_CLOSED) l2cap_close(chan, ECONNRESET); } /* * Process Received Disconnect Response. We must validate scid and dcid but * unless we were waiting for this signal, ignore it. */ static void l2cap_recv_disconnect_rsp(struct mbuf *m, struct hci_link *link) { l2cap_cmd_hdr_t cmd; l2cap_discon_rsp_cp cp; struct l2cap_req *req; struct l2cap_channel *chan; m_copydata(m, 0, sizeof(cmd), (caddr_t)&cmd); m_adj(m, sizeof(cmd)); m_copydata(m, 0, sizeof(cp), (caddr_t)&cp); m_adj(m, sizeof(cp)); cp.scid = letoh16(cp.scid); cp.dcid = letoh16(cp.dcid); req = l2cap_request_lookup(link, cmd.ident); if (req == NULL || req->lr_code != L2CAP_DISCONNECT_REQ) return; chan = req->lr_chan; if (chan == NULL || chan->lc_lcid != cp.scid || chan->lc_rcid != cp.dcid) return; l2cap_request_free(req); if (chan->lc_state != L2CAP_WAIT_DISCONNECT) return; l2cap_close(chan, 0); } /* * Process Received Info Request. We must respond but alas dont * support anything as yet so thats easy. */ static void l2cap_recv_info_req(struct mbuf *m, struct hci_link *link) { l2cap_cmd_hdr_t cmd; l2cap_info_req_cp cp; l2cap_info_rsp_cp rp; m_copydata(m, 0, sizeof(cmd), (caddr_t)&cmd); m_adj(m, sizeof(cmd)); m_copydata(m, 0, sizeof(cp), (caddr_t)&cp); m_adj(m, sizeof(cp)); switch(letoh16(cp.type)) { case L2CAP_CONNLESS_MTU: case L2CAP_EXTENDED_FEATURES: default: rp.type = cp.type; rp.result = htole16(L2CAP_NOT_SUPPORTED); l2cap_send_signal(link, L2CAP_INFO_RSP, cmd.ident, sizeof(rp), &rp); break; } } /* * Construct signal and wrap in C-Frame for link. */ static int l2cap_send_signal(struct hci_link *link, uint8_t code, uint8_t ident, uint16_t length, void *data) { struct mbuf *m; l2cap_hdr_t *hdr; l2cap_cmd_hdr_t *cmd; #ifdef DIAGNOSTIC if (link == NULL) return ENETDOWN; if (sizeof(l2cap_cmd_hdr_t) + length > link->hl_mtu) printf("(%s) exceeding L2CAP Signal MTU for link!\n", link->hl_unit->hci_devname); #endif m = m_gethdr(M_DONTWAIT, MT_DATA); if (m == NULL) return ENOMEM; hdr = mtod(m, l2cap_hdr_t *); cmd = (l2cap_cmd_hdr_t *)(hdr + 1); m->m_len = m->m_pkthdr.len = MHLEN; /* Command Data */ if (length > 0) m_copyback(m, sizeof(*hdr) + sizeof(*cmd), length, data); /* Command Header */ cmd->code = code; cmd->ident = ident; cmd->length = htole16(length); length += sizeof(*cmd); /* C-Frame Header */ hdr->length = htole16(length); hdr->dcid = htole16(L2CAP_SIGNAL_CID); length += sizeof(*hdr); if (m->m_pkthdr.len != MAX(MHLEN, length)) { m_freem(m); return ENOMEM; } m->m_pkthdr.len = length; m->m_len = MIN(length, MHLEN); DPRINTFN(2, "(%s) code %d, ident %d, len %d\n", link->hl_unit->hci_devname, code, ident, length); return hci_acl_send(m, link, NULL); } /* * Send Command Reject packet. */ static int l2cap_send_command_rej(struct hci_link *link, uint8_t ident, uint16_t reason, ...) { l2cap_cmd_rej_cp cp; int len = 0; va_list ap; va_start(ap, reason); cp.reason = htole16(reason); switch (reason) { case L2CAP_REJ_NOT_UNDERSTOOD: len = 2; break; case L2CAP_REJ_MTU_EXCEEDED: len = 4; cp.data[0] = va_arg(ap, int); /* SigMTU */ cp.data[0] = htole16(cp.data[0]); break; case L2CAP_REJ_INVALID_CID: len = 6; cp.data[0] = va_arg(ap, int); /* dcid */ cp.data[0] = htole16(cp.data[0]); cp.data[1] = va_arg(ap, int); /* scid */ cp.data[1] = htole16(cp.data[1]); break; default: UNKNOWN(reason); return EINVAL; } va_end(ap); return l2cap_send_signal(link, L2CAP_COMMAND_REJ, ident, len, &cp); } /* * Send Connect Request */ int l2cap_send_connect_req(struct l2cap_channel *chan) { l2cap_con_req_cp cp; int err; err = l2cap_request_alloc(chan, L2CAP_CONNECT_REQ); if (err) return err; cp.psm = htole16(chan->lc_raddr.bt_psm); cp.scid = htole16(chan->lc_lcid); return l2cap_send_signal(chan->lc_link, L2CAP_CONNECT_REQ, chan->lc_link->hl_lastid, sizeof(cp), &cp); } /* * Send Config Request * * For outgoing config request, we only put options in the packet if they * differ from the default and would have to be actioned. We dont support * enough option types to make overflowing SigMTU an issue so it can all * go in one packet. */ int l2cap_send_config_req(struct l2cap_channel *chan) { l2cap_cfg_req_cp *cp; l2cap_cfg_opt_t *opt; l2cap_cfg_opt_val_t *val; uint8_t *next, buf[L2CAP_MTU_MINIMUM]; int err; err = l2cap_request_alloc(chan, L2CAP_CONFIG_REQ); if (err) return err; /* Config Header (4 octets) */ cp = (l2cap_cfg_req_cp *)buf; cp->dcid = htole16(chan->lc_rcid); cp->flags = 0; /* "No Continuation" */ next = buf + sizeof(l2cap_cfg_req_cp); /* Incoming MTU (4 octets) */ if (chan->lc_imtu != L2CAP_MTU_DEFAULT) { opt = (l2cap_cfg_opt_t *)next; opt->type = L2CAP_OPT_MTU; opt->length = L2CAP_OPT_MTU_SIZE; val = (l2cap_cfg_opt_val_t *)(opt + 1); val->mtu = htole16(chan->lc_imtu); next += sizeof(l2cap_cfg_opt_t) + L2CAP_OPT_MTU_SIZE; } /* Flush Timeout (4 octets) */ if (chan->lc_flush != L2CAP_FLUSH_TIMO_DEFAULT) { opt = (l2cap_cfg_opt_t *)next; opt->type = L2CAP_OPT_FLUSH_TIMO; opt->length = L2CAP_OPT_FLUSH_TIMO_SIZE; val = (l2cap_cfg_opt_val_t *)(opt + 1); val->flush_timo = htole16(chan->lc_flush); next += sizeof(l2cap_cfg_opt_t) + L2CAP_OPT_FLUSH_TIMO_SIZE; } /* Outgoing QoS Flow (24 octets) */ /* Retransmission & Flow Control (11 octets) */ /* * From here we need to start paying attention to SigMTU as we have * possibly overflowed the minimum supported.. */ return l2cap_send_signal(chan->lc_link, L2CAP_CONFIG_REQ, chan->lc_link->hl_lastid, (int)(next - buf), buf); } /* * Send Disconnect Request */ int l2cap_send_disconnect_req(struct l2cap_channel *chan) { l2cap_discon_req_cp cp; int err; err = l2cap_request_alloc(chan, L2CAP_DISCONNECT_REQ); if (err) return err; cp.dcid = htole16(chan->lc_rcid); cp.scid = htole16(chan->lc_lcid); return l2cap_send_signal(chan->lc_link, L2CAP_DISCONNECT_REQ, chan->lc_link->hl_lastid, sizeof(cp), &cp); } /* * Send Connect Response */ int l2cap_send_connect_rsp(struct hci_link *link, uint8_t ident, uint16_t dcid, uint16_t scid, uint16_t result) { l2cap_con_rsp_cp cp; memset(&cp, 0, sizeof(cp)); cp.dcid = htole16(dcid); cp.scid = htole16(scid); cp.result = htole16(result); return l2cap_send_signal(link, L2CAP_CONNECT_RSP, ident, sizeof(cp), &cp); }