/* $OpenBSD: hci_event.c,v 1.4 2007/06/01 03:21:41 uwe Exp $ */ /* $NetBSD: hci_event.c,v 1.6 2007/04/21 06:15:23 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 static void hci_event_inquiry_result(struct hci_unit *, struct mbuf *); static void hci_event_command_status(struct hci_unit *, struct mbuf *); static void hci_event_command_compl(struct hci_unit *, struct mbuf *); static void hci_event_con_compl(struct hci_unit *, struct mbuf *); static void hci_event_discon_compl(struct hci_unit *, struct mbuf *); static void hci_event_con_req(struct hci_unit *, struct mbuf *); static void hci_event_num_compl_pkts(struct hci_unit *, struct mbuf *); static void hci_event_auth_compl(struct hci_unit *, struct mbuf *); static void hci_event_encryption_change(struct hci_unit *, struct mbuf *); static void hci_event_change_con_link_key_compl(struct hci_unit *, struct mbuf *); static void hci_cmd_read_bdaddr(struct hci_unit *, struct mbuf *); static void hci_cmd_read_buffer_size(struct hci_unit *, struct mbuf *); static void hci_cmd_read_local_features(struct hci_unit *, struct mbuf *); static void hci_cmd_reset(struct hci_unit *, struct mbuf *); #ifdef BLUETOOTH_DEBUG int bluetooth_debug = 0; static const char *hci_eventnames[] = { /* 0x00 */ "NULL", /* 0x01 */ "INQUIRY COMPLETE", /* 0x02 */ "INQUIRY RESULT", /* 0x03 */ "CONN COMPLETE", /* 0x04 */ "CONN REQ", /* 0x05 */ "DISCONN COMPLETE", /* 0x06 */ "AUTH COMPLETE", /* 0x07 */ "REMOTE NAME REQ COMPLETE", /* 0x08 */ "ENCRYPTION CHANGE", /* 0x09 */ "CHANGE CONN LINK KEY COMPLETE", /* 0x0a */ "MASTER LINK KEY COMPLETE", /* 0x0b */ "READ REMOTE FEATURES COMPLETE", /* 0x0c */ "READ REMOTE VERSION INFO COMPLETE", /* 0x0d */ "QoS SETUP COMPLETE", /* 0x0e */ "COMMAND COMPLETE", /* 0x0f */ "COMMAND STATUS", /* 0x10 */ "HARDWARE ERROR", /* 0x11 */ "FLUSH OCCUR", /* 0x12 */ "ROLE CHANGE", /* 0x13 */ "NUM COMPLETED PACKETS", /* 0x14 */ "MODE CHANGE", /* 0x15 */ "RETURN LINK KEYS", /* 0x16 */ "PIN CODE REQ", /* 0x17 */ "LINK KEY REQ", /* 0x18 */ "LINK KEY NOTIFICATION", /* 0x19 */ "LOOPBACK COMMAND", /* 0x1a */ "DATA BUFFER OVERFLOW", /* 0x1b */ "MAX SLOT CHANGE", /* 0x1c */ "READ CLOCK OFFSET COMPLETE", /* 0x1d */ "CONN PKT TYPE CHANGED", /* 0x1e */ "QOS VIOLATION", /* 0x1f */ "PAGE SCAN MODE CHANGE", /* 0x20 */ "PAGE SCAN REP MODE CHANGE", /* 0x21 */ "FLOW SPECIFICATION COMPLETE", /* 0x22 */ "RSSI RESULT", /* 0x23 */ "READ REMOTE EXT FEATURES" }; static const char * hci_eventstr(unsigned int event) { if (event < (sizeof(hci_eventnames) / sizeof(*hci_eventnames))) return hci_eventnames[event]; switch (event) { case HCI_EVENT_SCO_CON_COMPL: /* 0x2c */ return "SCO CON COMPLETE"; case HCI_EVENT_SCO_CON_CHANGED: /* 0x2d */ return "SCO CON CHANGED"; case HCI_EVENT_BT_LOGO: /* 0xfe */ return "BT_LOGO"; case HCI_EVENT_VENDOR: /* 0xff */ return "VENDOR"; } return "UNRECOGNISED"; } #endif /* BLUETOOTH_DEBUG */ /* * process HCI Events * * We will free the mbuf at the end, no need for any sub * functions to handle that. We kind of assume that the * device sends us valid events. * XXX "kind of"? This needs to be fixed. */ void hci_event(struct mbuf *m, struct hci_unit *unit) { hci_event_hdr_t hdr; KASSERT(m->m_flags & M_PKTHDR); KASSERT(m->m_pkthdr.len >= sizeof(hdr)); m_copydata(m, 0, sizeof(hdr), (caddr_t)&hdr); m_adj(m, sizeof(hdr)); KASSERT(hdr.type == HCI_EVENT_PKT); DPRINTFN(1, "(%s) event %s\n", unit->hci_devname, hci_eventstr(hdr.event)); switch(hdr.event) { case HCI_EVENT_COMMAND_STATUS: hci_event_command_status(unit, m); break; case HCI_EVENT_COMMAND_COMPL: hci_event_command_compl(unit, m); break; case HCI_EVENT_NUM_COMPL_PKTS: hci_event_num_compl_pkts(unit, m); break; case HCI_EVENT_INQUIRY_RESULT: hci_event_inquiry_result(unit, m); break; case HCI_EVENT_CON_COMPL: hci_event_con_compl(unit, m); break; case HCI_EVENT_DISCON_COMPL: hci_event_discon_compl(unit, m); break; case HCI_EVENT_CON_REQ: hci_event_con_req(unit, m); break; case HCI_EVENT_AUTH_COMPL: hci_event_auth_compl(unit, m); break; case HCI_EVENT_ENCRYPTION_CHANGE: hci_event_encryption_change(unit, m); break; case HCI_EVENT_CHANGE_CON_LINK_KEY_COMPL: hci_event_change_con_link_key_compl(unit, m); break; case HCI_EVENT_SCO_CON_COMPL: case HCI_EVENT_INQUIRY_COMPL: case HCI_EVENT_REMOTE_NAME_REQ_COMPL: case HCI_EVENT_MASTER_LINK_KEY_COMPL: case HCI_EVENT_READ_REMOTE_FEATURES_COMPL: case HCI_EVENT_READ_REMOTE_VER_INFO_COMPL: case HCI_EVENT_QOS_SETUP_COMPL: case HCI_EVENT_HARDWARE_ERROR: case HCI_EVENT_FLUSH_OCCUR: case HCI_EVENT_ROLE_CHANGE: case HCI_EVENT_MODE_CHANGE: case HCI_EVENT_RETURN_LINK_KEYS: case HCI_EVENT_PIN_CODE_REQ: case HCI_EVENT_LINK_KEY_REQ: case HCI_EVENT_LINK_KEY_NOTIFICATION: case HCI_EVENT_LOOPBACK_COMMAND: case HCI_EVENT_DATA_BUFFER_OVERFLOW: case HCI_EVENT_MAX_SLOT_CHANGE: case HCI_EVENT_READ_CLOCK_OFFSET_COMPL: case HCI_EVENT_CON_PKT_TYPE_CHANGED: case HCI_EVENT_QOS_VIOLATION: case HCI_EVENT_PAGE_SCAN_MODE_CHANGE: case HCI_EVENT_PAGE_SCAN_REP_MODE_CHANGE: case HCI_EVENT_FLOW_SPECIFICATION_COMPL: case HCI_EVENT_RSSI_RESULT: case HCI_EVENT_READ_REMOTE_EXTENDED_FEATURES: case HCI_EVENT_SCO_CON_CHANGED: case HCI_EVENT_BT_LOGO: case HCI_EVENT_VENDOR: break; default: UNKNOWN(hdr.event); break; } m_freem(m); } /* * Command Status * * Update our record of num_cmd_pkts then post-process any pending commands * and optionally restart cmd output on the unit. */ static void hci_event_command_status(struct hci_unit *unit, struct mbuf *m) { hci_command_status_ep ep; KASSERT(m->m_pkthdr.len >= sizeof(ep)); m_copydata(m, 0, sizeof(ep), (caddr_t)&ep); m_adj(m, sizeof(ep)); DPRINTFN(1, "(%s) opcode (%03x|%04x) status = 0x%x num_cmd_pkts = %d\n", unit->hci_devname, HCI_OGF(letoh16(ep.opcode)), HCI_OCF(letoh16(ep.opcode)), ep.status, ep.num_cmd_pkts); unit->hci_num_cmd_pkts = ep.num_cmd_pkts; /* * post processing of pending commands */ switch(letoh16(ep.opcode)) { default: break; } while (unit->hci_num_cmd_pkts > 0 && !IF_IS_EMPTY(&unit->hci_cmdwait)) { IF_DEQUEUE(&unit->hci_cmdwait, m); hci_output_cmd(unit, m); } } /* * Command Complete * * Update our record of num_cmd_pkts then handle the completed command, * and optionally restart cmd output on the unit. */ static void hci_event_command_compl(struct hci_unit *unit, struct mbuf *m) { hci_command_compl_ep ep; KASSERT(m->m_pkthdr.len >= sizeof(ep)); m_copydata(m, 0, sizeof(ep), (caddr_t)&ep); m_adj(m, sizeof(ep)); DPRINTFN(1, "(%s) opcode (%03x|%04x) num_cmd_pkts = %d\n", unit->hci_devname, HCI_OGF(letoh16(ep.opcode)), HCI_OCF(letoh16(ep.opcode)), ep.num_cmd_pkts); unit->hci_num_cmd_pkts = ep.num_cmd_pkts; /* * post processing of completed commands */ switch(letoh16(ep.opcode)) { case HCI_CMD_READ_BDADDR: hci_cmd_read_bdaddr(unit, m); break; case HCI_CMD_READ_BUFFER_SIZE: hci_cmd_read_buffer_size(unit, m); break; case HCI_CMD_READ_LOCAL_FEATURES: hci_cmd_read_local_features(unit, m); break; case HCI_CMD_RESET: hci_cmd_reset(unit, m); break; default: break; } while (unit->hci_num_cmd_pkts > 0 && !IF_IS_EMPTY(&unit->hci_cmdwait)) { IF_DEQUEUE(&unit->hci_cmdwait, m); hci_output_cmd(unit, m); } } /* * Number of Completed Packets * * This is sent periodically by the Controller telling us how many * buffers are now freed up and which handle was using them. From * this we determine which type of buffer it was and add the qty * back into the relevant packet counter, then restart output on * links that have halted. */ static void hci_event_num_compl_pkts(struct hci_unit *unit, struct mbuf *m) { hci_num_compl_pkts_ep ep; struct hci_link *link, *next; uint16_t handle, num; int num_acl = 0, num_sco = 0; KASSERT(m->m_pkthdr.len >= sizeof(ep)); m_copydata(m, 0, sizeof(ep), (caddr_t)&ep); m_adj(m, sizeof(ep)); while (ep.num_con_handles--) { m_copydata(m, 0, sizeof(handle), (caddr_t)&handle); m_adj(m, sizeof(handle)); handle = letoh16(handle); m_copydata(m, 0, sizeof(num), (caddr_t)&num); m_adj(m, sizeof(num)); num = letoh16(num); link = hci_link_lookup_handle(unit, handle); if (link) { if (link->hl_type == HCI_LINK_ACL) { num_acl += num; hci_acl_complete(link, num); } else { num_sco += num; hci_sco_complete(link, num); } } else { /* XXX need to issue Read_Buffer_Size or Reset? */ printf("%s: unknown handle %d! " "(losing track of %d packet buffer%s)\n", unit->hci_devname, handle, num, (num == 1 ? "" : "s")); } } /* * Move up any queued packets. When a link has sent data, it will move * to the back of the queue - technically then if a link had something * to send and there were still buffers available it could get started * twice but it seemed more important to to handle higher loads fairly * than worry about wasting cycles when we are not busy. */ unit->hci_num_acl_pkts += num_acl; unit->hci_num_sco_pkts += num_sco; link = TAILQ_FIRST(&unit->hci_links); while (link && (unit->hci_num_acl_pkts > 0 || unit->hci_num_sco_pkts > 0)) { next = TAILQ_NEXT(link, hl_next); if (link->hl_type == HCI_LINK_ACL) { if (unit->hci_num_acl_pkts > 0 && link->hl_txqlen > 0) hci_acl_start(link); } else { if (unit->hci_num_sco_pkts > 0 && link->hl_txqlen > 0) hci_sco_start(link); } link = next; } } /* * Inquiry Result * * keep a note of devices seen, so we know which unit to use * on outgoing connections */ static void hci_event_inquiry_result(struct hci_unit *unit, struct mbuf *m) { hci_inquiry_result_ep ep; struct hci_memo *memo; bdaddr_t bdaddr; KASSERT(m->m_pkthdr.len >= sizeof(ep)); m_copydata(m, 0, sizeof(ep), (caddr_t)&ep); m_adj(m, sizeof(ep)); DPRINTFN(1, "%d response%s\n", ep.num_responses, (ep.num_responses == 1 ? "" : "s")); while(ep.num_responses--) { m_copydata(m, 0, sizeof(bdaddr_t), (caddr_t)&bdaddr); DPRINTFN(1, "bdaddr %02x:%02x:%02x:%02x:%02x:%02x\n", bdaddr.b[5], bdaddr.b[4], bdaddr.b[3], bdaddr.b[2], bdaddr.b[1], bdaddr.b[0]); memo = hci_memo_find(unit, &bdaddr); if (memo == NULL) { memo = malloc(sizeof(struct hci_memo), M_BLUETOOTH, M_NOWAIT); if (memo == NULL) { DPRINTFN(0, "out of memo memory!\n"); break; } bzero(memo, sizeof *memo); LIST_INSERT_HEAD(&unit->hci_memos, memo, next); } microtime(&memo->time); m_copydata(m, 0, sizeof(hci_inquiry_response), (caddr_t)&memo->response); m_adj(m, sizeof(hci_inquiry_response)); memo->response.clock_offset = letoh16(memo->response.clock_offset); } } /* * Connection Complete * * Sent to us when a connection is made. If there is no link * structure already allocated for this, we must have changed * our mind, so just disconnect. */ static void hci_event_con_compl(struct hci_unit *unit, struct mbuf *m) { hci_con_compl_ep ep; hci_write_link_policy_settings_cp cp; struct hci_link *link; int err; KASSERT(m->m_pkthdr.len >= sizeof(ep)); m_copydata(m, 0, sizeof(ep), (caddr_t)&ep); m_adj(m, sizeof(ep)); DPRINTFN(1, "(%s) %s connection complete for " "%02x:%02x:%02x:%02x:%02x:%02x status %#x\n", unit->hci_devname, (ep.link_type == HCI_LINK_ACL ? "ACL" : "SCO"), ep.bdaddr.b[5], ep.bdaddr.b[4], ep.bdaddr.b[3], ep.bdaddr.b[2], ep.bdaddr.b[1], ep.bdaddr.b[0], ep.status); link = hci_link_lookup_bdaddr(unit, &ep.bdaddr, ep.link_type); if (ep.status) { if (link != NULL) { switch (ep.status) { case 0x04: /* "Page Timeout" */ err = EHOSTDOWN; break; case 0x08: /* "Connection Timed Out" */ err = ETIMEDOUT; break; case 0x16: /* "Connection Terminated by Local Host" */ err = 0; break; default: err = ECONNREFUSED; break; } hci_link_free(link, err); } return; } if (link == NULL) { hci_discon_cp dp; dp.con_handle = ep.con_handle; dp.reason = 0x13; /* "Remote User Terminated Connection" */ hci_send_cmd(unit, HCI_CMD_DISCONNECT, &dp, sizeof(dp)); return; } /* XXX could check auth_enable here */ if (ep.encryption_mode) link->hl_flags |= (HCI_LINK_AUTH | HCI_LINK_ENCRYPT); link->hl_state = HCI_LINK_OPEN; link->hl_handle = HCI_CON_HANDLE(letoh16(ep.con_handle)); if (ep.link_type == HCI_LINK_ACL) { cp.con_handle = ep.con_handle; cp.settings = htole16(unit->hci_link_policy); err = hci_send_cmd(unit, HCI_CMD_WRITE_LINK_POLICY_SETTINGS, &cp, sizeof(cp)); if (err) printf("%s: Warning, could not write link policy\n", unit->hci_devname); err = hci_acl_setmode(link); if (err == EINPROGRESS) return; hci_acl_linkmode(link); } else { (*link->hl_sco->sp_proto->connected)(link->hl_sco->sp_upper); } } /* * Disconnection Complete * * This is sent in response to a disconnection request, but also if * the remote device goes out of range. */ static void hci_event_discon_compl(struct hci_unit *unit, struct mbuf *m) { hci_discon_compl_ep ep; struct hci_link *link; KASSERT(m->m_pkthdr.len >= sizeof(ep)); m_copydata(m, 0, sizeof(ep), (caddr_t)&ep); m_adj(m, sizeof(ep)); ep.con_handle = letoh16(ep.con_handle); DPRINTFN(1, "handle #%d, status=0x%x\n", ep.con_handle, ep.status); link = hci_link_lookup_handle(unit, HCI_CON_HANDLE(ep.con_handle)); if (link) hci_link_free(link, ENOENT); /* XXX NetBSD used ENOLINK here */ } /* * Connect Request * * We check upstream for appropriate listeners and accept connections * that are wanted. */ static void hci_event_con_req(struct hci_unit *unit, struct mbuf *m) { hci_con_req_ep ep; hci_accept_con_cp ap; hci_reject_con_cp rp; struct hci_link *link; KASSERT(m->m_pkthdr.len >= sizeof(ep)); m_copydata(m, 0, sizeof(ep), (caddr_t)&ep); m_adj(m, sizeof(ep)); DPRINTFN(1, "bdaddr %2.2x:%2.2x:%2.2x:%2.2x:%2.2x:%2.2x " "class %2.2x%2.2x%2.2x type %s\n", ep.bdaddr.b[5], ep.bdaddr.b[4], ep.bdaddr.b[3], ep.bdaddr.b[2], ep.bdaddr.b[1], ep.bdaddr.b[0], ep.uclass[0], ep.uclass[1], ep.uclass[2], ep.link_type == HCI_LINK_ACL ? "ACL" : "SCO"); if (ep.link_type == HCI_LINK_ACL) link = hci_acl_newconn(unit, &ep.bdaddr); else link = hci_sco_newconn(unit, &ep.bdaddr); if (link == NULL) { memset(&rp, 0, sizeof(rp)); bdaddr_copy(&rp.bdaddr, &ep.bdaddr); rp.reason = 0x0f; /* Unacceptable BD_ADDR */ hci_send_cmd(unit, HCI_CMD_REJECT_CON, &rp, sizeof(rp)); } else { memset(&ap, 0, sizeof(ap)); bdaddr_copy(&ap.bdaddr, &ep.bdaddr); if (unit->hci_link_policy & HCI_LINK_POLICY_ENABLE_ROLE_SWITCH) ap.role = HCI_ROLE_MASTER; else ap.role = HCI_ROLE_SLAVE; hci_send_cmd(unit, HCI_CMD_ACCEPT_CON, &ap, sizeof(ap)); } } /* * Auth Complete * * Authentication has been completed on an ACL link. We can notify the * upper layer protocols unless further mode changes are pending. */ static void hci_event_auth_compl(struct hci_unit *unit, struct mbuf *m) { hci_auth_compl_ep ep; struct hci_link *link; int err; KASSERT(m->m_pkthdr.len >= sizeof(ep)); m_copydata(m, 0, sizeof(ep), (caddr_t)&ep); m_adj(m, sizeof(ep)); ep.con_handle = HCI_CON_HANDLE(letoh16(ep.con_handle)); DPRINTFN(1, "handle #%d, status=0x%x\n", ep.con_handle, ep.status); link = hci_link_lookup_handle(unit, ep.con_handle); if (link == NULL || link->hl_type != HCI_LINK_ACL) return; if (ep.status == 0) { link->hl_flags |= HCI_LINK_AUTH; if (link->hl_state == HCI_LINK_WAIT_AUTH) link->hl_state = HCI_LINK_OPEN; err = hci_acl_setmode(link); if (err == EINPROGRESS) return; } hci_acl_linkmode(link); } /* * Encryption Change * * The encryption status has changed. Basically, we note the change * then notify the upper layer protocol unless further mode changes * are pending. * Note that if encryption gets disabled when it has been requested, * we will attempt to enable it again.. (its a feature not a bug :) */ static void hci_event_encryption_change(struct hci_unit *unit, struct mbuf *m) { hci_encryption_change_ep ep; struct hci_link *link; int err; KASSERT(m->m_pkthdr.len >= sizeof(ep)); m_copydata(m, 0, sizeof(ep), (caddr_t)&ep); m_adj(m, sizeof(ep)); ep.con_handle = HCI_CON_HANDLE(letoh16(ep.con_handle)); DPRINTFN(1, "handle #%d, status=0x%x, encryption_enable=0x%x\n", ep.con_handle, ep.status, ep.encryption_enable); link = hci_link_lookup_handle(unit, ep.con_handle); if (link == NULL || link->hl_type != HCI_LINK_ACL) return; if (ep.status == 0) { if (ep.encryption_enable == 0) link->hl_flags &= ~HCI_LINK_ENCRYPT; else link->hl_flags |= (HCI_LINK_AUTH | HCI_LINK_ENCRYPT); if (link->hl_state == HCI_LINK_WAIT_ENCRYPT) link->hl_state = HCI_LINK_OPEN; err = hci_acl_setmode(link); if (err == EINPROGRESS) return; } hci_acl_linkmode(link); } /* * Change Connection Link Key Complete * * Link keys are handled in userland but if we are waiting to secure * this link, we should notify the upper protocols. A SECURE request * only needs a single key change, so we can cancel the request. */ static void hci_event_change_con_link_key_compl(struct hci_unit *unit, struct mbuf *m) { hci_change_con_link_key_compl_ep ep; struct hci_link *link; int err; KASSERT(m->m_pkthdr.len >= sizeof(ep)); m_copydata(m, 0, sizeof(ep), (caddr_t)&ep); m_adj(m, sizeof(ep)); ep.con_handle = HCI_CON_HANDLE(letoh16(ep.con_handle)); DPRINTFN(1, "handle #%d, status=0x%x\n", ep.con_handle, ep.status); link = hci_link_lookup_handle(unit, ep.con_handle); if (link == NULL || link->hl_type != HCI_LINK_ACL) return; link->hl_flags &= ~HCI_LINK_SECURE_REQ; if (ep.status == 0) { link->hl_flags |= (HCI_LINK_AUTH | HCI_LINK_SECURE); if (link->hl_state == HCI_LINK_WAIT_SECURE) link->hl_state = HCI_LINK_OPEN; err = hci_acl_setmode(link); if (err == EINPROGRESS) return; } hci_acl_linkmode(link); } /* * process results of read_bdaddr command_complete event */ static void hci_cmd_read_bdaddr(struct hci_unit *unit, struct mbuf *m) { hci_read_bdaddr_rp rp; int s; KASSERT(m->m_pkthdr.len >= sizeof(rp)); m_copydata(m, 0, sizeof(rp), (caddr_t)&rp); m_adj(m, sizeof(rp)); if (rp.status > 0) return; if ((unit->hci_flags & BTF_INIT_BDADDR) == 0) return; bdaddr_copy(&unit->hci_bdaddr, &rp.bdaddr); s = splraiseipl(unit->hci_ipl); unit->hci_flags &= ~BTF_INIT_BDADDR; splx(s); wakeup(unit); } /* * process results of read_buffer_size command_complete event */ static void hci_cmd_read_buffer_size(struct hci_unit *unit, struct mbuf *m) { hci_read_buffer_size_rp rp; int s; KASSERT(m->m_pkthdr.len >= sizeof(rp)); m_copydata(m, 0, sizeof(rp), (caddr_t)&rp); m_adj(m, sizeof(rp)); if (rp.status > 0) return; if ((unit->hci_flags & BTF_INIT_BUFFER_SIZE) == 0) return; unit->hci_max_acl_size = letoh16(rp.max_acl_size); unit->hci_num_acl_pkts = letoh16(rp.num_acl_pkts); unit->hci_max_sco_size = rp.max_sco_size; unit->hci_num_sco_pkts = letoh16(rp.num_sco_pkts); s = splraiseipl(unit->hci_ipl); unit->hci_flags &= ~BTF_INIT_BUFFER_SIZE; splx(s); wakeup(unit); } /* * process results of read_local_features command_complete event */ static void hci_cmd_read_local_features(struct hci_unit *unit, struct mbuf *m) { hci_read_local_features_rp rp; int s; KASSERT(m->m_pkthdr.len >= sizeof(rp)); m_copydata(m, 0, sizeof(rp), (caddr_t)&rp); m_adj(m, sizeof(rp)); if (rp.status > 0) return; if ((unit->hci_flags & BTF_INIT_FEATURES) == 0) return; unit->hci_lmp_mask = 0; if (rp.features[0] & HCI_LMP_ROLE_SWITCH) unit->hci_lmp_mask |= HCI_LINK_POLICY_ENABLE_ROLE_SWITCH; if (rp.features[0] & HCI_LMP_HOLD_MODE) unit->hci_lmp_mask |= HCI_LINK_POLICY_ENABLE_HOLD_MODE; if (rp.features[0] & HCI_LMP_SNIFF_MODE) unit->hci_lmp_mask |= HCI_LINK_POLICY_ENABLE_SNIFF_MODE; if (rp.features[1] & HCI_LMP_PARK_MODE) unit->hci_lmp_mask |= HCI_LINK_POLICY_ENABLE_PARK_MODE; /* ACL packet mask */ unit->hci_acl_mask = HCI_PKT_DM1 | HCI_PKT_DH1; if (rp.features[0] & HCI_LMP_3SLOT) unit->hci_acl_mask |= HCI_PKT_DM3 | HCI_PKT_DH3; if (rp.features[0] & HCI_LMP_5SLOT) unit->hci_acl_mask |= HCI_PKT_DM5 | HCI_PKT_DH5; if ((rp.features[3] & HCI_LMP_EDR_ACL_2MBPS) == 0) unit->hci_acl_mask |= HCI_PKT_2MBPS_DH1 | HCI_PKT_2MBPS_DH3 | HCI_PKT_2MBPS_DH5; if ((rp.features[3] & HCI_LMP_EDR_ACL_3MBPS) == 0) unit->hci_acl_mask |= HCI_PKT_3MBPS_DH1 | HCI_PKT_3MBPS_DH3 | HCI_PKT_3MBPS_DH5; if ((rp.features[4] & HCI_LMP_3SLOT_EDR_ACL) == 0) unit->hci_acl_mask |= HCI_PKT_2MBPS_DH3 | HCI_PKT_3MBPS_DH3; if ((rp.features[5] & HCI_LMP_5SLOT_EDR_ACL) == 0) unit->hci_acl_mask |= HCI_PKT_2MBPS_DH5 | HCI_PKT_3MBPS_DH5; unit->hci_packet_type = unit->hci_acl_mask; /* SCO packet mask */ unit->hci_sco_mask = 0; if (rp.features[1] & HCI_LMP_SCO_LINK) unit->hci_sco_mask |= HCI_PKT_HV1; if (rp.features[1] & HCI_LMP_HV2_PKT) unit->hci_sco_mask |= HCI_PKT_HV2; if (rp.features[1] & HCI_LMP_HV3_PKT) unit->hci_sco_mask |= HCI_PKT_HV3; if (rp.features[3] & HCI_LMP_EV3_PKT) unit->hci_sco_mask |= HCI_PKT_EV3; if (rp.features[4] & HCI_LMP_EV4_PKT) unit->hci_sco_mask |= HCI_PKT_EV4; if (rp.features[4] & HCI_LMP_EV5_PKT) unit->hci_sco_mask |= HCI_PKT_EV5; /* XXX what do 2MBPS/3MBPS/3SLOT eSCO mean? */ s = splraiseipl(unit->hci_ipl); unit->hci_flags &= ~BTF_INIT_FEATURES; splx(s); wakeup(unit); DPRINTFN(1, "%s: lmp_mask %4.4x, acl_mask %4.4x, sco_mask %4.4x\n", unit->hci_devname, unit->hci_lmp_mask, unit->hci_acl_mask, unit->hci_sco_mask); } /* * process results of reset command_complete event * * This has killed all the connections, so close down anything we have left, * and reinitialise the unit. */ static void hci_cmd_reset(struct hci_unit *unit, struct mbuf *m) { hci_reset_rp rp; struct hci_link *link, *next; int acl; KASSERT(m->m_pkthdr.len >= sizeof(rp)); m_copydata(m, 0, sizeof(rp), (caddr_t)&rp); m_adj(m, sizeof(rp)); if (rp.status != 0) return; /* * release SCO links first, since they may be holding * an ACL link reference. */ for (acl = 0 ; acl < 2 ; acl++) { next = TAILQ_FIRST(&unit->hci_links); while ((link = next) != NULL) { next = TAILQ_NEXT(link, hl_next); if (acl || link->hl_type != HCI_LINK_ACL) hci_link_free(link, ECONNABORTED); } } unit->hci_num_acl_pkts = 0; unit->hci_num_sco_pkts = 0; if (hci_send_cmd(unit, HCI_CMD_READ_BDADDR, NULL, 0)) return; if (hci_send_cmd(unit, HCI_CMD_READ_BUFFER_SIZE, NULL, 0)) return; if (hci_send_cmd(unit, HCI_CMD_READ_LOCAL_FEATURES, NULL, 0)) return; }