/* * * BlueZ - Bluetooth protocol stack for Linux * * Copyright (C) 2013 Intel Corporation. All rights reserved. * * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include #include "lib/bluetooth.h" #include "lib/sdp.h" #include "lib/mgmt.h" #include "src/shared/mgmt.h" #include "src/glib-helper.h" #include "src/eir.h" #include "lib/sdp.h" #include "lib/sdp_lib.h" #include "src/sdp-client.h" #include "src/sdpd.h" #include "log.h" #include "hal-msg.h" #include "ipc.h" #include "utils.h" #include "bluetooth.h" #define DUT_MODE_FILE "/sys/kernel/debug/bluetooth/hci%u/dut_mode" #define DEVICE_ID_SOURCE 0x0002 /* USB */ #define DEVICE_ID_VENDOR 0x1d6b /* Linux Foundation */ #define DEVICE_ID_PRODUCT 0x0247 /* BlueZ for Android */ /* Default to DisplayYesNo */ #define DEFAULT_IO_CAPABILITY 0x01 /* Default discoverable timeout 120sec as in Android */ #define DEFAULT_DISCOVERABLE_TIMEOUT 120 #define BASELEN_PROP_CHANGED (sizeof(struct hal_ev_adapter_props_changed) \ + (sizeof(struct hal_property))) static uint16_t option_index = MGMT_INDEX_NONE; #define BASELEN_REMOTE_DEV_PROP (sizeof(struct hal_ev_remote_device_props) \ + sizeof(struct hal_property)) struct device { bdaddr_t bdaddr; uint8_t bdaddr_type; int bond_state; char *name; char *friendly_name; uint32_t class; int32_t rssi; uint32_t timestamp; GSList *uuids; }; struct browse_req { bdaddr_t bdaddr; GSList *uuids; int search_uuid; int reconnect_attempt; }; static struct { uint16_t index; bdaddr_t bdaddr; uint32_t dev_class; char *name; uint32_t current_settings; bool discovering; uint32_t discoverable_timeout; GSList *uuids; } adapter = { .index = MGMT_INDEX_NONE, .dev_class = 0, .name = NULL, .current_settings = 0, .discovering = false, .discoverable_timeout = DEFAULT_DISCOVERABLE_TIMEOUT, .uuids = NULL, }; static const uint16_t uuid_list[] = { L2CAP_UUID, PNP_INFO_SVCLASS_ID, PUBLIC_BROWSE_GROUP, 0 }; static struct mgmt *mgmt_if = NULL; static GSList *devices = NULL; /* This list contains addresses which are asked for records */ static GSList *browse_reqs; static void store_adapter_config(void) { GKeyFile *key_file; gsize length = 0; char addr[18]; char *data; key_file = g_key_file_new(); g_key_file_load_from_file(key_file, ANDROID_STORAGEDIR"/settings", 0, NULL); ba2str(&adapter.bdaddr, addr); g_key_file_set_string(key_file, "General", "Address", addr); g_key_file_set_string(key_file, "General", "Name", adapter.name); g_key_file_set_integer(key_file, "General", "DiscoverableTimeout", adapter.discoverable_timeout); data = g_key_file_to_data(key_file, &length, NULL); g_file_set_contents(ANDROID_STORAGEDIR"/settings", data, length, NULL); g_free(data); g_key_file_free(key_file); } static void load_adapter_config(void) { GError *gerr = NULL; GKeyFile *key_file; char *str; key_file = g_key_file_new(); g_key_file_load_from_file(key_file, ANDROID_STORAGEDIR"/settings", 0, NULL); str = g_key_file_get_string(key_file, "General", "Address", NULL); if (!str) { g_key_file_free(key_file); return; } str2ba(str, &adapter.bdaddr); g_free(str); adapter.name = g_key_file_get_string(key_file, "General", "Name", NULL); adapter.discoverable_timeout = g_key_file_get_integer(key_file, "General", "DiscoverableTimeout", &gerr); if (gerr) { adapter.discoverable_timeout = DEFAULT_DISCOVERABLE_TIMEOUT; g_error_free(gerr); gerr = NULL; } g_key_file_free(key_file); } static void store_device_info(struct device *dev) { GKeyFile *key_file; char addr[18]; gsize length = 0; char **uuids = NULL; char *str; /* We only store bonded devices and need to modify the storage * if the state is either NONE or BONDED. */ if (dev->bond_state != HAL_BOND_STATE_BONDED && dev->bond_state != HAL_BOND_STATE_NONE) return; ba2str(&dev->bdaddr, addr); key_file = g_key_file_new(); g_key_file_load_from_file(key_file, ANDROID_STORAGEDIR"/devices", 0, NULL); if (dev->bond_state == HAL_BOND_STATE_NONE) { g_key_file_remove_group(key_file, addr, NULL); goto done; } g_key_file_set_integer(key_file, addr, "Type", dev->bdaddr_type); g_key_file_set_string(key_file, addr, "Name", dev->name); if (dev->friendly_name) g_key_file_set_string(key_file, addr, "FriendlyName", dev->friendly_name); else g_key_file_remove_key(key_file, addr, "FriendlyName", NULL); if (dev->class) g_key_file_set_integer(key_file, addr, "Class", dev->class); else g_key_file_remove_key(key_file, addr, "Class", NULL); g_key_file_set_integer(key_file, addr, "Timestamp", dev->timestamp); if (dev->uuids) { GSList *l; int i; uuids = g_new0(char *, g_slist_length(dev->uuids) + 1); for (i = 0, l = dev->uuids; l; l = g_slist_next(l), i++) { int j; uint8_t *u = l->data; char *uuid_str = g_malloc0(33); for (j = 0; j < 16; j++) sprintf(uuid_str + (j * 2), "%2.2X", u[j]); uuids[i] = uuid_str; } g_key_file_set_string_list(key_file, addr, "Services", (const char **)uuids, i); } else { g_key_file_remove_key(key_file, addr, "Services", NULL); } done: str = g_key_file_to_data(key_file, &length, NULL); g_file_set_contents(ANDROID_STORAGEDIR"/devices", str, length, NULL); g_free(str); g_key_file_free(key_file); g_strfreev(uuids); } static int bdaddr_cmp(gconstpointer a, gconstpointer b) { const bdaddr_t *bda = a; const bdaddr_t *bdb = b; return bacmp(bdb, bda); } static struct device *find_device(const bdaddr_t *bdaddr) { GSList *l; l = g_slist_find_custom(devices, bdaddr, bdaddr_cmp); if (l) return l->data; return NULL; } static struct device *create_device(const bdaddr_t *bdaddr, uint8_t type) { struct device *dev; char addr[18]; ba2str(bdaddr, addr); DBG("%s", addr); dev = g_new0(struct device, 1); bacpy(&dev->bdaddr, bdaddr); dev->bdaddr_type = type; dev->bond_state = HAL_BOND_STATE_NONE; dev->timestamp = time(NULL); /* use address for name, will be change if one is present * eg. in EIR or set by set_property. */ dev->name = g_strdup(addr); devices = g_slist_prepend(devices, dev); return dev; } static void free_device(struct device *dev) { g_free(dev->name); g_free(dev->friendly_name); g_slist_free_full(dev->uuids, g_free); g_free(dev); } static struct device *get_device(const bdaddr_t *bdaddr, uint8_t type) { struct device *dev; dev = find_device(bdaddr); if (dev) return dev; return create_device(bdaddr, type); } static void send_adapter_property(uint8_t type, uint16_t len, const void *val) { uint8_t buf[BASELEN_PROP_CHANGED + len]; struct hal_ev_adapter_props_changed *ev = (void *) buf; ev->status = HAL_STATUS_SUCCESS; ev->num_props = 1; ev->props[0].type = type; ev->props[0].len = len; memcpy(ev->props[0].val, val, len); ipc_send_notif(HAL_SERVICE_ID_BLUETOOTH, HAL_EV_ADAPTER_PROPS_CHANGED, sizeof(buf), buf); } static void adapter_name_changed(const uint8_t *name) { /* Android expects string value without NULL terminator */ send_adapter_property(HAL_PROP_ADAPTER_NAME, strlen((const char *) name), name); } static void adapter_set_name(const uint8_t *name) { if (!g_strcmp0(adapter.name, (const char *) name)) return; DBG("%s", name); g_free(adapter.name); adapter.name = g_strdup((const char *) name); store_adapter_config(); adapter_name_changed(name); } static void mgmt_local_name_changed_event(uint16_t index, uint16_t length, const void *param, void *user_data) { const struct mgmt_cp_set_local_name *rp = param; if (length < sizeof(*rp)) { error("Wrong size of local name changed parameters"); return; } adapter_set_name(rp->name); /* TODO Update services if needed */ } static void powered_changed(void) { struct hal_ev_adapter_state_changed ev; ev.state = (adapter.current_settings & MGMT_SETTING_POWERED) ? HAL_POWER_ON : HAL_POWER_OFF; DBG("%u", ev.state); ipc_send_notif(HAL_SERVICE_ID_BLUETOOTH, HAL_EV_ADAPTER_STATE_CHANGED, sizeof(ev), &ev); } static uint8_t settings2scan_mode(void) { bool connectable, discoverable; connectable = adapter.current_settings & MGMT_SETTING_CONNECTABLE; discoverable = adapter.current_settings & MGMT_SETTING_DISCOVERABLE; if (connectable && discoverable) return HAL_ADAPTER_SCAN_MODE_CONN_DISC; if (connectable) return HAL_ADAPTER_SCAN_MODE_CONN; return HAL_ADAPTER_SCAN_MODE_NONE; } static void scan_mode_changed(void) { uint8_t mode; mode = settings2scan_mode(); DBG("mode %u", mode); send_adapter_property(HAL_PROP_ADAPTER_SCAN_MODE, sizeof(mode), &mode); } static void adapter_class_changed(void) { send_adapter_property(HAL_PROP_ADAPTER_CLASS, sizeof(adapter.dev_class), &adapter.dev_class); } static void settings_changed(uint32_t settings) { uint32_t changed_mask; uint32_t scan_mode_mask; changed_mask = adapter.current_settings ^ settings; adapter.current_settings = settings; DBG("0x%08x", changed_mask); if (changed_mask & MGMT_SETTING_POWERED) powered_changed(); scan_mode_mask = MGMT_SETTING_CONNECTABLE | MGMT_SETTING_DISCOVERABLE; /* * Only when powered, the connectable and discoverable * state changes should be communicated. */ if (adapter.current_settings & MGMT_SETTING_POWERED) if (changed_mask & scan_mode_mask) scan_mode_changed(); } static void new_settings_callback(uint16_t index, uint16_t length, const void *param, void *user_data) { uint32_t settings; if (length < sizeof(settings)) { error("Wrong size of new settings parameters"); return; } settings = bt_get_le32(param); DBG("settings: 0x%8.8x -> 0x%8.8x", adapter.current_settings, settings); if (settings == adapter.current_settings) return; settings_changed(settings); } static void mgmt_dev_class_changed_event(uint16_t index, uint16_t length, const void *param, void *user_data) { const struct mgmt_cod *rp = param; uint32_t dev_class; if (length < sizeof(*rp)) { error("Wrong size of class of device changed parameters"); return; } dev_class = rp->val[0] | (rp->val[1] << 8) | (rp->val[2] << 16); if (dev_class == adapter.dev_class) return; DBG("Class: 0x%06x", dev_class); adapter.dev_class = dev_class; adapter_class_changed(); /* TODO: Gatt attrib set*/ } static void store_link_key(const bdaddr_t *dst, const uint8_t *key, uint8_t type, uint8_t pin_length) { GKeyFile *key_file; char key_str[33]; gsize length = 0; char addr[18]; char *data; int i; key_file = g_key_file_new(); if (!g_key_file_load_from_file(key_file, ANDROID_STORAGEDIR"/devices", 0, NULL)) return; ba2str(dst, addr); DBG("%s type %u pin_len %u", addr, type, pin_length); for (i = 0; i < 16; i++) sprintf(key_str + (i * 2), "%2.2X", key[i]); g_key_file_set_string(key_file, addr, "LinkKey", key_str); g_key_file_set_integer(key_file, addr, "LinkKeyType", type); g_key_file_set_integer(key_file, addr, "LinkKeyPINLength", pin_length); data = g_key_file_to_data(key_file, &length, NULL); g_file_set_contents(ANDROID_STORAGEDIR"/devices", data, length, NULL); g_free(data); g_key_file_free(key_file); } static void send_bond_state_change(const bdaddr_t *addr, uint8_t status, uint8_t state) { struct hal_ev_bond_state_changed ev; ev.status = status; ev.state = state; bdaddr2android(addr, ev.bdaddr); ipc_send_notif(HAL_SERVICE_ID_BLUETOOTH, HAL_EV_BOND_STATE_CHANGED, sizeof(ev), &ev); } static void set_device_bond_state(const bdaddr_t *addr, uint8_t status, int state) { struct device *dev; dev = find_device(addr); if (!dev) return; if (dev->bond_state != state) { dev->bond_state = state; send_bond_state_change(&dev->bdaddr, status, state); store_device_info(dev); } } static void send_device_property(const bdaddr_t *bdaddr, uint8_t type, uint16_t len, const void *val) { uint8_t buf[BASELEN_REMOTE_DEV_PROP + len]; struct hal_ev_remote_device_props *ev = (void *) buf; ev->status = HAL_STATUS_SUCCESS; bdaddr2android(bdaddr, ev->bdaddr); ev->num_props = 1; ev->props[0].type = type; ev->props[0].len = len; memcpy(ev->props[0].val, val, len); ipc_send_notif(HAL_SERVICE_ID_BLUETOOTH, HAL_EV_REMOTE_DEVICE_PROPS, sizeof(buf), buf); } static void send_device_uuids_notif(struct device *dev) { uint8_t buf[sizeof(uint128_t) * g_slist_length(dev->uuids)]; uint8_t *ptr = buf; GSList *l; for (l = dev->uuids; l; l = g_slist_next(l)) { memcpy(ptr, l->data, sizeof(uint128_t)); ptr += sizeof(uint128_t); } send_device_property(&dev->bdaddr, HAL_PROP_DEVICE_UUIDS, sizeof(buf), buf); } static void set_device_uuids(struct device *dev, GSList *uuids) { g_slist_free_full(dev->uuids, g_free); dev->uuids = uuids; store_device_info(dev); send_device_uuids_notif(dev); } static void browse_req_free(struct browse_req *req) { g_slist_free_full(req->uuids, g_free); g_free(req); } static int uuid_128_cmp(gconstpointer a, gconstpointer b) { return memcmp(a, b, sizeof(uint128_t)); } static void update_records(struct browse_req *req, sdp_list_t *recs) { for (; recs; recs = recs->next) { sdp_record_t *rec = (sdp_record_t *) recs->data; sdp_list_t *svcclass = NULL; uuid_t uuid128; uuid_t *tmp; uint8_t *new_uuid; if (!rec) break; if (sdp_get_service_classes(rec, &svcclass) < 0) continue; if (!svcclass) continue; tmp = svcclass->data; switch (tmp->type) { case SDP_UUID16: sdp_uuid16_to_uuid128(&uuid128, tmp); break; case SDP_UUID32: sdp_uuid32_to_uuid128(&uuid128, tmp); break; case SDP_UUID128: memcpy(&uuid128, tmp, sizeof(uuid_t)); break; default: sdp_list_free(svcclass, free); continue; } new_uuid = g_malloc(16);/* size of 128 bit uuid */ memcpy(new_uuid, &uuid128.value.uuid128, sizeof(uuid128.value.uuid128)); /* Check if uuid is already added */ if (g_slist_find_custom(req->uuids, new_uuid, uuid_128_cmp)) g_free(new_uuid); else req->uuids = g_slist_append(req->uuids, new_uuid); sdp_list_free(svcclass, free); } } static void browse_cb(sdp_list_t *recs, int err, gpointer user_data) { struct browse_req *req = user_data; struct device *dev; uuid_t uuid; /* If we have a valid response and req->search_uuid == 2, then L2CAP * UUID & PNP searching was successful -- we are done */ if (err < 0 || req->search_uuid == 2) { if (err == -ECONNRESET && req->reconnect_attempt < 1) { req->search_uuid--; req->reconnect_attempt++; } else { goto done; } } update_records(req, recs); /* Search for mandatory uuids */ if (uuid_list[req->search_uuid]) { sdp_uuid16_create(&uuid, uuid_list[req->search_uuid++]); bt_search_service(&adapter.bdaddr, &req->bdaddr, &uuid, browse_cb, user_data, NULL); return; } done: dev = find_device(&req->bdaddr); if (dev) { set_device_uuids(dev, req->uuids); req->uuids = NULL; } browse_reqs = g_slist_remove(browse_reqs, req); browse_req_free(req); } static int req_cmp(gconstpointer a, gconstpointer b) { const struct browse_req *req = a; const bdaddr_t *bdaddr = b; return bacmp(&req->bdaddr, bdaddr); } static uint8_t browse_remote_sdp(const bdaddr_t *addr) { struct browse_req *req; uuid_t uuid; if (g_slist_find_custom(browse_reqs, addr, req_cmp)) return HAL_STATUS_DONE; req = g_new0(struct browse_req, 1); bacpy(&req->bdaddr, addr); sdp_uuid16_create(&uuid, uuid_list[req->search_uuid++]); if (bt_search_service(&adapter.bdaddr, &req->bdaddr, &uuid, browse_cb, req, NULL) < 0) { browse_req_free(req); return false; } browse_reqs = g_slist_append(browse_reqs, req); return HAL_STATUS_SUCCESS; } static void new_link_key_callback(uint16_t index, uint16_t length, const void *param, void *user_data) { const struct mgmt_ev_new_link_key *ev = param; const struct mgmt_addr_info *addr = &ev->key.addr; char dst[18]; if (length < sizeof(*ev)) { error("Too small new link key event"); return; } ba2str(&addr->bdaddr, dst); DBG("new key for %s type %u pin_len %u", dst, ev->key.type, ev->key.pin_len); if (ev->key.pin_len > 16) { error("Invalid PIN length (%u) in new_key event", ev->key.pin_len); return; } set_device_bond_state(&addr->bdaddr, HAL_STATUS_SUCCESS, HAL_BOND_STATE_BONDED); if (ev->store_hint) { const struct mgmt_link_key_info *key = &ev->key; store_link_key(&addr->bdaddr, key->val, key->type, key->pin_len); } browse_remote_sdp(&addr->bdaddr); } static uint8_t get_device_name(struct device *dev) { send_device_property(&dev->bdaddr, HAL_PROP_DEVICE_NAME, strlen(dev->name), dev->name); return HAL_STATUS_SUCCESS; } static void pin_code_request_callback(uint16_t index, uint16_t length, const void *param, void *user_data) { const struct mgmt_ev_pin_code_request *ev = param; struct hal_ev_pin_request hal_ev; struct device *dev; char dst[18]; if (length < sizeof(*ev)) { error("Too small PIN code request event"); return; } ba2str(&ev->addr.bdaddr, dst); dev = get_device(&ev->addr.bdaddr, BDADDR_BREDR); /* Workaround for Android Bluetooth.apk issue: send remote * device property */ get_device_name(dev); set_device_bond_state(&ev->addr.bdaddr, HAL_STATUS_SUCCESS, HAL_BOND_STATE_BONDING); DBG("%s type %u secure %u", dst, ev->addr.type, ev->secure); /* Name already sent in remote device prop */ memset(&hal_ev, 0, sizeof(hal_ev)); bdaddr2android(&ev->addr.bdaddr, hal_ev.bdaddr); hal_ev.class_of_dev = dev->class; ipc_send_notif(HAL_SERVICE_ID_BLUETOOTH, HAL_EV_PIN_REQUEST, sizeof(hal_ev), &hal_ev); } static void send_ssp_request(const bdaddr_t *addr, uint8_t variant, uint32_t passkey) { struct hal_ev_ssp_request ev; /* It is ok to have empty name and CoD of remote devices here since * those information has been already provided on device_connected event * or during device scaning. Android will use that instead. */ memset(&ev, 0, sizeof(ev)); bdaddr2android(addr, ev.bdaddr); ev.pairing_variant = variant; ev.passkey = passkey; ipc_send_notif(HAL_SERVICE_ID_BLUETOOTH, HAL_EV_SSP_REQUEST, sizeof(ev), &ev); } static void user_confirm_request_callback(uint16_t index, uint16_t length, const void *param, void *user_data) { const struct mgmt_ev_user_confirm_request *ev = param; char dst[18]; if (length < sizeof(*ev)) { error("Too small user confirm request event"); return; } ba2str(&ev->addr.bdaddr, dst); DBG("%s confirm_hint %u", dst, ev->confirm_hint); set_device_bond_state(&ev->addr.bdaddr, HAL_STATUS_SUCCESS, HAL_BOND_STATE_BONDING); if (ev->confirm_hint) send_ssp_request(&ev->addr.bdaddr, HAL_SSP_VARIANT_CONSENT, 0); else send_ssp_request(&ev->addr.bdaddr, HAL_SSP_VARIANT_CONFIRM, ev->value); } static void user_passkey_request_callback(uint16_t index, uint16_t length, const void *param, void *user_data) { const struct mgmt_ev_user_passkey_request *ev = param; char dst[18]; if (length < sizeof(*ev)) { error("Too small passkey request event"); return; } ba2str(&ev->addr.bdaddr, dst); DBG("%s", dst); set_device_bond_state(&ev->addr.bdaddr, HAL_STATUS_SUCCESS, HAL_BOND_STATE_BONDING); send_ssp_request(&ev->addr.bdaddr, HAL_SSP_VARIANT_ENTRY, 0); } static void user_passkey_notify_callback(uint16_t index, uint16_t length, const void *param, void *user_data) { const struct mgmt_ev_passkey_notify *ev = param; char dst[18]; if (length < sizeof(*ev)) { error("Too small passkey notify event"); return; } ba2str(&ev->addr.bdaddr, dst); DBG("%s entered %u", dst, ev->entered); /* HAL seems to not support entered characters */ if (ev->entered) return; set_device_bond_state(&ev->addr.bdaddr, HAL_STATUS_SUCCESS, HAL_BOND_STATE_BONDING); send_ssp_request(&ev->addr.bdaddr, HAL_SSP_VARIANT_NOTIF, ev->passkey); } static void mgmt_discovering_event(uint16_t index, uint16_t length, const void *param, void *user_data) { const struct mgmt_ev_discovering *ev = param; struct hal_ev_discovery_state_changed cp; if (length < sizeof(*ev)) { error("Too small discovering event"); return; } DBG("hci%u type %u discovering %u", index, ev->type, ev->discovering); if (adapter.discovering == !!ev->discovering) return; adapter.discovering = !!ev->discovering; DBG("new discovering state %u", ev->discovering); if (adapter.discovering) cp.state = HAL_DISCOVERY_STATE_STARTED; else cp.state = HAL_DISCOVERY_STATE_STOPPED; ipc_send_notif(HAL_SERVICE_ID_BLUETOOTH, HAL_EV_DISCOVERY_STATE_CHANGED, sizeof(cp), &cp); } static void confirm_device_name(const bdaddr_t *addr, uint8_t addr_type) { struct mgmt_cp_confirm_name cp; memset(&cp, 0, sizeof(cp)); bacpy(&cp.addr.bdaddr, addr); cp.addr.type = addr_type; if (mgmt_reply(mgmt_if, MGMT_OP_CONFIRM_NAME, adapter.index, sizeof(cp), &cp, NULL, NULL, NULL) == 0) error("Failed to send confirm name request"); } static int fill_hal_prop(void *buf, uint8_t type, uint16_t len, const void *val) { struct hal_property *prop = buf; prop->type = type; prop->len = len; memcpy(prop->val, val, len); return sizeof(*prop) + len; } static uint8_t bdaddr_type2android(uint8_t type) { if (type == BDADDR_BREDR) return HAL_TYPE_BREDR; return HAL_TYPE_LE; } static void update_found_device(const bdaddr_t *bdaddr, uint8_t bdaddr_type, int8_t rssi, bool confirm, const uint8_t *data, uint8_t data_len) { uint8_t buf[BLUEZ_HAL_MTU]; struct eir_data eir; struct device *dev; uint8_t *num_prop; uint8_t opcode; int size = 0; memset(buf, 0, sizeof(buf)); memset(&eir, 0, sizeof(eir)); eir_parse(&eir, data, data_len); dev = find_device(bdaddr); if (!dev) { struct hal_ev_device_found *ev = (void *) buf; bdaddr_t android_bdaddr; uint8_t android_type; dev = create_device(bdaddr, bdaddr_type); size += sizeof(*ev); num_prop = &ev->num_props; opcode = HAL_EV_DEVICE_FOUND; bdaddr2android(bdaddr, &android_bdaddr); size += fill_hal_prop(buf + size, HAL_PROP_DEVICE_ADDR, sizeof(android_bdaddr), &android_bdaddr); (*num_prop)++; android_type = bdaddr_type2android(dev->bdaddr_type); size += fill_hal_prop(buf + size, HAL_PROP_DEVICE_TYPE, sizeof(android_type), &android_type); (*num_prop)++; } else { struct hal_ev_remote_device_props *ev = (void *) buf; size += sizeof(*ev); num_prop = &ev->num_props; opcode = HAL_EV_REMOTE_DEVICE_PROPS; ev->status = HAL_STATUS_SUCCESS; bdaddr2android(bdaddr, ev->bdaddr); dev->timestamp = time(NULL); } if (eir.class) { dev->class = eir.class; size += fill_hal_prop(buf + size, HAL_PROP_DEVICE_CLASS, sizeof(eir.class), &eir.class); (*num_prop)++; } if (rssi) { dev->rssi = rssi; size += fill_hal_prop(buf + size, HAL_PROP_DEVICE_RSSI, sizeof(dev->rssi), &dev->rssi); (*num_prop)++; } if (eir.name) { g_free(dev->name); dev->name = g_strdup(eir.name); size += fill_hal_prop(buf + size, HAL_PROP_DEVICE_NAME, strlen(eir.name), eir.name); (*num_prop)++; } ipc_send_notif(HAL_SERVICE_ID_BLUETOOTH, opcode, size, buf); if (confirm) { char addr[18]; ba2str(bdaddr, addr); info("Device %s needs name confirmation.", addr); confirm_device_name(bdaddr, bdaddr_type); } eir_data_free(&eir); } static void mgmt_device_found_event(uint16_t index, uint16_t length, const void *param, void *user_data) { const struct mgmt_ev_device_found *ev = param; const uint8_t *eir; uint16_t eir_len; uint32_t flags; bool confirm_name; char addr[18]; if (length < sizeof(*ev)) { error("Too short device found event (%u bytes)", length); return; } eir_len = btohs(ev->eir_len); if (length != sizeof(*ev) + eir_len) { error("Device found event size mismatch (%u != %zu)", length, sizeof(*ev) + eir_len); return; } if (eir_len == 0) eir = NULL; else eir = ev->eir; flags = btohl(ev->flags); ba2str(&ev->addr.bdaddr, addr); DBG("hci%u addr %s, rssi %d flags 0x%04x eir_len %u", index, addr, ev->rssi, flags, eir_len); confirm_name = flags & MGMT_DEV_FOUND_CONFIRM_NAME; update_found_device(&ev->addr.bdaddr, ev->addr.type, ev->rssi, confirm_name, eir, eir_len); } static void mgmt_device_connected_event(uint16_t index, uint16_t length, const void *param, void *user_data) { const struct mgmt_ev_device_connected *ev = param; struct hal_ev_acl_state_changed hal_ev; if (length < sizeof(*ev)) { error("Too short device connected event (%u bytes)", length); return; } update_found_device(&ev->addr.bdaddr, ev->addr.type, 0, false, &ev->eir[0], btohs(ev->eir_len)); hal_ev.status = HAL_STATUS_SUCCESS; hal_ev.state = HAL_ACL_STATE_CONNECTED; bdaddr2android(&ev->addr.bdaddr, hal_ev.bdaddr); ipc_send_notif(HAL_SERVICE_ID_BLUETOOTH, HAL_EV_ACL_STATE_CHANGED, sizeof(hal_ev), &hal_ev); } static void mgmt_device_disconnected_event(uint16_t index, uint16_t length, const void *param, void *user_data) { const struct mgmt_ev_device_disconnected *ev = param; struct hal_ev_acl_state_changed hal_ev; if (length < sizeof(*ev)) { error("Too short device disconnected event (%u bytes)", length); return; } hal_ev.status = HAL_STATUS_SUCCESS; hal_ev.state = HAL_ACL_STATE_DISCONNECTED; bdaddr2android(&ev->addr.bdaddr, hal_ev.bdaddr); ipc_send_notif(HAL_SERVICE_ID_BLUETOOTH, HAL_EV_ACL_STATE_CHANGED, sizeof(hal_ev), &hal_ev); } static uint8_t status_mgmt2hal(uint8_t mgmt) { switch (mgmt) { case MGMT_STATUS_SUCCESS: return HAL_STATUS_SUCCESS; case MGMT_STATUS_NO_RESOURCES: return HAL_STATUS_NOMEM; case MGMT_STATUS_BUSY: return HAL_STATUS_BUSY; case MGMT_STATUS_NOT_SUPPORTED: return HAL_STATUS_UNSUPPORTED; case MGMT_STATUS_INVALID_PARAMS: return HAL_STATUS_INVALID; case MGMT_STATUS_AUTH_FAILED: return HAL_STATUS_AUTH_FAILURE; case MGMT_STATUS_NOT_CONNECTED: return HAL_STATUS_REMOTE_DEVICE_DOWN; default: return HAL_STATUS_FAILED; } } static void mgmt_connect_failed_event(uint16_t index, uint16_t length, const void *param, void *user_data) { const struct mgmt_ev_connect_failed *ev = param; DBG(""); /* In case security mode 3 pairing we will get connect failed event * in case e.g wrong PIN code entered. Let's check if device is * bonding, if so update bond state */ set_device_bond_state(&ev->addr.bdaddr, status_mgmt2hal(ev->status), HAL_BOND_STATE_NONE); } static void mgmt_auth_failed_event(uint16_t index, uint16_t length, const void *param, void *user_data) { const struct mgmt_ev_auth_failed *ev = param; DBG(""); set_device_bond_state(&ev->addr.bdaddr, status_mgmt2hal(ev->status), HAL_BOND_STATE_NONE); } static void mgmt_device_unpaired_event(uint16_t index, uint16_t length, const void *param, void *user_data) { DBG(""); } static void register_mgmt_handlers(void) { mgmt_register(mgmt_if, MGMT_EV_NEW_SETTINGS, adapter.index, new_settings_callback, NULL, NULL); mgmt_register(mgmt_if, MGMT_EV_CLASS_OF_DEV_CHANGED, adapter.index, mgmt_dev_class_changed_event, NULL, NULL); mgmt_register(mgmt_if, MGMT_EV_LOCAL_NAME_CHANGED, adapter.index, mgmt_local_name_changed_event, NULL, NULL); mgmt_register(mgmt_if, MGMT_EV_NEW_LINK_KEY, adapter.index, new_link_key_callback, NULL, NULL); mgmt_register(mgmt_if, MGMT_EV_PIN_CODE_REQUEST, adapter.index, pin_code_request_callback, NULL, NULL); mgmt_register(mgmt_if, MGMT_EV_USER_CONFIRM_REQUEST, adapter.index, user_confirm_request_callback, NULL, NULL); mgmt_register(mgmt_if, MGMT_EV_USER_PASSKEY_REQUEST, adapter.index, user_passkey_request_callback, NULL, NULL); mgmt_register(mgmt_if, MGMT_EV_PASSKEY_NOTIFY, adapter.index, user_passkey_notify_callback, NULL, NULL); mgmt_register(mgmt_if, MGMT_EV_DISCOVERING, adapter.index, mgmt_discovering_event, NULL, NULL); mgmt_register(mgmt_if, MGMT_EV_DEVICE_FOUND, adapter.index, mgmt_device_found_event, NULL, NULL); mgmt_register(mgmt_if, MGMT_EV_DEVICE_CONNECTED, adapter.index, mgmt_device_connected_event, NULL, NULL); mgmt_register(mgmt_if, MGMT_EV_DEVICE_DISCONNECTED, adapter.index, mgmt_device_disconnected_event, NULL, NULL); mgmt_register(mgmt_if, MGMT_EV_CONNECT_FAILED, adapter.index, mgmt_connect_failed_event, NULL, NULL); mgmt_register(mgmt_if, MGMT_EV_AUTH_FAILED, adapter.index, mgmt_auth_failed_event, NULL, NULL); mgmt_register(mgmt_if, MGMT_EV_DEVICE_UNPAIRED, adapter.index, mgmt_device_unpaired_event, NULL, NULL); } static void load_link_keys_complete(uint8_t status, uint16_t length, const void *param, void *user_data) { bt_bluetooth_ready cb = user_data; int err; if (status) { error("Failed to load link keys for index %u: %s (0x%02x)", adapter.index, mgmt_errstr(status), status); err = -EIO; goto failed; } DBG("status %u", status); cb(0, &adapter.bdaddr); return; failed: cb(err, NULL); } static void load_link_keys(GSList *keys, bt_bluetooth_ready cb) { struct mgmt_cp_load_link_keys *cp; struct mgmt_link_key_info *key; size_t key_count, cp_size; unsigned int id; key_count = g_slist_length(keys); DBG("keys %zu ", key_count); cp_size = sizeof(*cp) + (key_count * sizeof(*key)); cp = g_malloc0(cp_size); /* * Even if the list of stored keys is empty, it is important to * load an empty list into the kernel. That way it is ensured * that no old keys from a previous daemon are present. */ cp->key_count = htobs(key_count); for (key = cp->keys; keys != NULL; keys = g_slist_next(keys), key++) memcpy(key, keys->data, sizeof(*key)); id = mgmt_send(mgmt_if, MGMT_OP_LOAD_LINK_KEYS, adapter.index, cp_size, cp, load_link_keys_complete, cb, NULL); g_free(cp); if (id == 0) { error("Failed to load link keys"); cb(-EIO, NULL); } } /* output uint128 is in host order */ static void uuid16_to_uint128(uint16_t uuid, uint128_t *u128) { uuid_t uuid16, uuid128; sdp_uuid16_create(&uuid16, uuid); sdp_uuid16_to_uuid128(&uuid128, &uuid16); ntoh128(&uuid128.value.uuid128, u128); } static uint8_t get_adapter_uuids(void) { struct hal_ev_adapter_props_changed *ev; GSList *list = adapter.uuids; unsigned int uuid_count = g_slist_length(list); int len = uuid_count * sizeof(uint128_t); uint8_t buf[BASELEN_PROP_CHANGED + len]; uint8_t *p; int i; memset(buf, 0, sizeof(buf)); ev = (void *) buf; ev->num_props = 1; ev->status = HAL_STATUS_SUCCESS; ev->props[0].type = HAL_PROP_ADAPTER_UUIDS; ev->props[0].len = len; p = ev->props->val; for (; list; list = g_slist_next(list)) { uint16_t uuid = GPOINTER_TO_UINT(list->data); uint128_t uint128; uuid16_to_uint128(uuid, &uint128); /* Android expects swapped bytes in uuid */ for (i = 0; i < 16; i++) p[15 - i] = uint128.data[i]; p += sizeof(uint128_t); } ipc_send_notif(HAL_SERVICE_ID_BLUETOOTH, HAL_EV_ADAPTER_PROPS_CHANGED, sizeof(buf), ev); return HAL_STATUS_SUCCESS; } static void remove_uuid_complete(uint8_t status, uint16_t length, const void *param, void *user_data) { if (status != MGMT_STATUS_SUCCESS) { error("Failed to remove UUID: %s (0x%02x)", mgmt_errstr(status), status); return; } mgmt_dev_class_changed_event(adapter.index, length, param, NULL); get_adapter_uuids(); } static void remove_uuid(uint16_t uuid) { uint128_t uint128; struct mgmt_cp_remove_uuid cp; uuid16_to_uint128(uuid, &uint128); htob128(&uint128, (uint128_t *) cp.uuid); mgmt_send(mgmt_if, MGMT_OP_REMOVE_UUID, adapter.index, sizeof(cp), &cp, remove_uuid_complete, NULL, NULL); } static void add_uuid_complete(uint8_t status, uint16_t length, const void *param, void *user_data) { if (status != MGMT_STATUS_SUCCESS) { error("Failed to add UUID: %s (0x%02x)", mgmt_errstr(status), status); return; } mgmt_dev_class_changed_event(adapter.index, length, param, NULL); get_adapter_uuids(); } static void add_uuid(uint8_t svc_hint, uint16_t uuid) { uint128_t uint128; struct mgmt_cp_add_uuid cp; uuid16_to_uint128(uuid, &uint128); htob128(&uint128, (uint128_t *) cp.uuid); cp.svc_hint = svc_hint; mgmt_send(mgmt_if, MGMT_OP_ADD_UUID, adapter.index, sizeof(cp), &cp, add_uuid_complete, NULL, NULL); } int bt_adapter_add_record(sdp_record_t *rec, uint8_t svc_hint) { uint16_t uuid; /* TODO support all types? */ if (rec->svclass.type != SDP_UUID16) { warn("Ignoring unsupported UUID type"); return -EINVAL; } uuid = rec->svclass.value.uuid16; if (g_slist_find(adapter.uuids, GUINT_TO_POINTER(uuid))) { DBG("UUID 0x%x already added", uuid); return -EALREADY; } adapter.uuids = g_slist_prepend(adapter.uuids, GUINT_TO_POINTER(uuid)); add_uuid(svc_hint, uuid); return add_record_to_server(&adapter.bdaddr, rec); } void bt_adapter_remove_record(uint32_t handle) { sdp_record_t *rec; GSList *uuid_found; uint16_t uuid; rec = sdp_record_find(handle); if (!rec) return; uuid = rec->svclass.value.uuid16; uuid_found = g_slist_find(adapter.uuids, GUINT_TO_POINTER(uuid)); if (uuid_found) { remove_uuid(uuid); adapter.uuids = g_slist_remove(adapter.uuids, uuid_found->data); } remove_record_from_server(handle); } static void set_mode_complete(uint8_t status, uint16_t length, const void *param, void *user_data) { if (status != MGMT_STATUS_SUCCESS) { error("Failed to set mode: %s (0x%02x)", mgmt_errstr(status), status); return; } /* * The parameters are identical and also the task that is * required in both cases. So it is safe to just call the * event handling functions here. */ new_settings_callback(adapter.index, length, param, NULL); } static bool set_mode(uint16_t opcode, uint8_t mode) { struct mgmt_mode cp; memset(&cp, 0, sizeof(cp)); cp.val = mode; DBG("opcode=0x%x mode=0x%x", opcode, mode); if (mgmt_send(mgmt_if, opcode, adapter.index, sizeof(cp), &cp, set_mode_complete, NULL, NULL) > 0) return true; error("Failed to set mode"); return false; } static void set_io_capability(void) { struct mgmt_cp_set_io_capability cp; memset(&cp, 0, sizeof(cp)); cp.io_capability = DEFAULT_IO_CAPABILITY; if (mgmt_send(mgmt_if, MGMT_OP_SET_IO_CAPABILITY, adapter.index, sizeof(cp), &cp, NULL, NULL, NULL) == 0) error("Failed to set IO capability"); } static void set_device_id(void) { struct mgmt_cp_set_device_id cp; uint8_t major, minor; uint16_t version; if (sscanf(VERSION, "%hhu.%hhu", &major, &minor) != 2) return; version = major << 8 | minor; memset(&cp, 0, sizeof(cp)); cp.source = htobs(DEVICE_ID_SOURCE); cp.vendor = htobs(DEVICE_ID_VENDOR); cp.product = htobs(DEVICE_ID_PRODUCT); cp.version = htobs(version); if (mgmt_send(mgmt_if, MGMT_OP_SET_DEVICE_ID, adapter.index, sizeof(cp), &cp, NULL, NULL, NULL) == 0) error("Failed to set device id"); register_device_id(DEVICE_ID_SOURCE, DEVICE_ID_VENDOR, DEVICE_ID_PRODUCT, version); bt_adapter_add_record(sdp_record_find(0x10000), 0x00); } static void set_adapter_name_complete(uint8_t status, uint16_t length, const void *param, void *user_data) { const struct mgmt_cp_set_local_name *rp = param; if (status != MGMT_STATUS_SUCCESS) { error("Failed to set name: %s (0x%02x)", mgmt_errstr(status), status); return; } adapter_set_name(rp->name); } static uint8_t set_adapter_name(const uint8_t *name, uint16_t len) { struct mgmt_cp_set_local_name cp; memset(&cp, 0, sizeof(cp)); memcpy(cp.name, name, len); if (mgmt_send(mgmt_if, MGMT_OP_SET_LOCAL_NAME, adapter.index, sizeof(cp), &cp, set_adapter_name_complete, NULL, NULL) > 0) return HAL_STATUS_SUCCESS; error("Failed to set name"); return HAL_STATUS_FAILED; } static uint8_t set_adapter_discoverable_timeout(const void *buf, uint16_t len) { const uint32_t *timeout = buf; if (len != sizeof(*timeout)) { error("Invalid set disc timeout size (%u bytes), terminating", len); raise(SIGTERM); return HAL_STATUS_FAILED; } /* Android handles discoverable timeout in Settings app. * There is no need to use kernel feature for that. * Just need to store this value here */ memcpy(&adapter.discoverable_timeout, timeout, sizeof(uint32_t)); store_adapter_config(); send_adapter_property(HAL_PROP_ADAPTER_DISC_TIMEOUT, sizeof(adapter.discoverable_timeout), &adapter.discoverable_timeout); return HAL_STATUS_SUCCESS; } static void clear_uuids(void) { struct mgmt_cp_remove_uuid cp; memset(&cp, 0, sizeof(cp)); mgmt_send(mgmt_if, MGMT_OP_REMOVE_UUID, adapter.index, sizeof(cp), &cp, NULL, NULL, NULL); } static void create_device_from_info(GKeyFile *key_file, const char *peer) { struct device *dev; uint8_t type; bdaddr_t bdaddr; char **uuids; char *str; DBG("%s", peer); type = g_key_file_get_integer(key_file, peer, "Type", NULL); str2ba(peer, &bdaddr); dev = create_device(&bdaddr, type); dev->bond_state = HAL_BOND_STATE_BONDED; str = g_key_file_get_string(key_file, peer, "Name", NULL); if (str) { g_free(dev->name); dev->name = str; } str = g_key_file_get_string(key_file, peer, "FriendlyName", NULL); if (str) { g_free(dev->friendly_name); dev->friendly_name = str; } dev->class = g_key_file_get_integer(key_file, peer, "Class", NULL); dev->timestamp = g_key_file_get_integer(key_file, peer, "Timestamp", NULL); uuids = g_key_file_get_string_list(key_file, peer, "Services", NULL, NULL); if (uuids) { char **uuid; for (uuid = uuids; *uuid; uuid++) { uint8_t *u = g_malloc0(16); int i; for (i = 0; i < 16; i++) sscanf((*uuid) + (i * 2), "%02hhX", &u[i]); dev->uuids = g_slist_append(dev->uuids, u); } g_strfreev(uuids); } } static struct mgmt_link_key_info *get_key_info(GKeyFile *key_file, const char *peer) { struct mgmt_link_key_info *info = NULL; char *str; unsigned int i; str = g_key_file_get_string(key_file, peer, "LinkKey", NULL); if (!str || strlen(str) != 32) goto failed; info = g_new0(struct mgmt_link_key_info, 1); str2ba(peer, &info->addr.bdaddr); info->addr.type = g_key_file_get_integer(key_file, peer, "Type", NULL); for (i = 0; i < sizeof(info->val); i++) sscanf(str + (i * 2), "%02hhX", &info->val[i]); info->type = g_key_file_get_integer(key_file, peer, "LinkKeyType", NULL); info->pin_len = g_key_file_get_integer(key_file, peer, "LinkKeyPINLength", NULL); failed: g_free(str); return info; } static void load_devices_info(bt_bluetooth_ready cb) { GKeyFile *key_file; gchar **devs; gsize len = 0; unsigned int i; GSList *keys = NULL; key_file = g_key_file_new(); g_key_file_load_from_file(key_file, ANDROID_STORAGEDIR"/devices", 0, NULL); devs = g_key_file_get_groups(key_file, &len); for (i = 0; i < len; i++) { struct mgmt_link_key_info *key_info; create_device_from_info(key_file, devs[i]); key_info = get_key_info(key_file, devs[i]); if (key_info) keys = g_slist_prepend(keys, key_info); /* TODO ltk */ } load_link_keys(keys, cb); g_strfreev(devs); g_slist_free_full(keys, g_free); g_key_file_free(key_file); } static void read_info_complete(uint8_t status, uint16_t length, const void *param, void *user_data) { const struct mgmt_rp_read_info *rp = param; bt_bluetooth_ready cb = user_data; uint32_t missing_settings, supported_settings; int err; DBG(""); if (status) { error("Failed to read info for index %u: %s (0x%02x)", adapter.index, mgmt_errstr(status), status); err = -EIO; goto failed; } if (length < sizeof(*rp)) { error("Too small read info complete response"); err = -EIO; goto failed; } if (!bacmp(&rp->bdaddr, BDADDR_ANY)) { error("No Bluetooth address"); err = -ENODEV; goto failed; } load_adapter_config(); if (!bacmp(&adapter.bdaddr, BDADDR_ANY)) { bacpy(&adapter.bdaddr, &rp->bdaddr); adapter.name = g_strdup((const char *) rp->name); store_adapter_config(); set_adapter_name(rp->name, strlen((char *)rp->name)); } else if (bacmp(&adapter.bdaddr, &rp->bdaddr)) { error("Bluetooth address mismatch"); err = -ENODEV; goto failed; } /* Store adapter information */ adapter.dev_class = rp->dev_class[0] | (rp->dev_class[1] << 8) | (rp->dev_class[2] << 16); supported_settings = btohs(rp->supported_settings); adapter.current_settings = btohs(rp->current_settings); /* TODO: Register all event notification handlers */ register_mgmt_handlers(); clear_uuids(); load_devices_info(cb); set_io_capability(); set_device_id(); missing_settings = adapter.current_settings ^ supported_settings; if (missing_settings & MGMT_SETTING_SSP) set_mode(MGMT_OP_SET_SSP, 0x01); if (missing_settings & MGMT_SETTING_PAIRABLE) set_mode(MGMT_OP_SET_PAIRABLE, 0x01); return; failed: cb(err, NULL); } static void mgmt_index_added_event(uint16_t index, uint16_t length, const void *param, void *user_data) { bt_bluetooth_ready cb = user_data; DBG("index %u", index); if (adapter.index != MGMT_INDEX_NONE) { DBG("skip event for index %u", index); return; } if (option_index != MGMT_INDEX_NONE && option_index != index) { DBG("skip event for index %u (option %u)", index, option_index); return; } adapter.index = index; if (mgmt_send(mgmt_if, MGMT_OP_READ_INFO, index, 0, NULL, read_info_complete, cb, NULL) == 0) { cb(-EIO, NULL); return; } } static void mgmt_index_removed_event(uint16_t index, uint16_t length, const void *param, void *user_data) { DBG("index %u", index); if (index != adapter.index) return; error("Adapter was removed. Exiting."); raise(SIGTERM); } static void read_index_list_complete(uint8_t status, uint16_t length, const void *param, void *user_data) { const struct mgmt_rp_read_index_list *rp = param; bt_bluetooth_ready cb = user_data; uint16_t num; int i; DBG(""); if (status) { error("%s: Failed to read index list: %s (0x%02x)", __func__, mgmt_errstr(status), status); goto failed; } if (length < sizeof(*rp)) { error("%s: Wrong size of read index list response", __func__); goto failed; } num = btohs(rp->num_controllers); DBG("Number of controllers: %u", num); if (num * sizeof(uint16_t) + sizeof(*rp) != length) { error("%s: Incorrect pkt size for index list rsp", __func__); goto failed; } if (adapter.index != MGMT_INDEX_NONE) return; for (i = 0; i < num; i++) { uint16_t index = btohs(rp->index[i]); if (option_index != MGMT_INDEX_NONE && option_index != index) continue; if (mgmt_send(mgmt_if, MGMT_OP_READ_INFO, index, 0, NULL, read_info_complete, cb, NULL) == 0) goto failed; adapter.index = index; return; } return; failed: cb(-EIO, NULL); } static void read_version_complete(uint8_t status, uint16_t length, const void *param, void *user_data) { const struct mgmt_rp_read_version *rp = param; uint8_t mgmt_version, mgmt_revision; bt_bluetooth_ready cb = user_data; DBG(""); if (status) { error("Failed to read version information: %s (0x%02x)", mgmt_errstr(status), status); goto failed; } if (length < sizeof(*rp)) { error("Wrong size response"); goto failed; } mgmt_version = rp->version; mgmt_revision = btohs(rp->revision); info("Bluetooth management interface %u.%u initialized", mgmt_version, mgmt_revision); if (MGMT_VERSION(mgmt_version, mgmt_revision) < MGMT_VERSION(1, 3)) { error("Version 1.3 or later of management interface required"); goto failed; } mgmt_register(mgmt_if, MGMT_EV_INDEX_ADDED, MGMT_INDEX_NONE, mgmt_index_added_event, cb, NULL); mgmt_register(mgmt_if, MGMT_EV_INDEX_REMOVED, MGMT_INDEX_NONE, mgmt_index_removed_event, NULL, NULL); if (mgmt_send(mgmt_if, MGMT_OP_READ_INDEX_LIST, MGMT_INDEX_NONE, 0, NULL, read_index_list_complete, cb, NULL) > 0) return; error("Failed to read controller index list"); failed: cb(-EIO, NULL); } bool bt_bluetooth_start(int index, bt_bluetooth_ready cb) { DBG("index %d", index); mgmt_if = mgmt_new_default(); if (!mgmt_if) { error("Failed to access management interface"); return false; } if (mgmt_send(mgmt_if, MGMT_OP_READ_VERSION, MGMT_INDEX_NONE, 0, NULL, read_version_complete, cb, NULL) == 0) { error("Error sending READ_VERSION mgmt command"); mgmt_unref(mgmt_if); mgmt_if = NULL; return false; } if (index >= 0) option_index = index; return true; } static void shutdown_complete(uint8_t status, uint16_t length, const void *param, void *user_data) { bt_bluetooth_stopped cb = user_data; if (status != MGMT_STATUS_SUCCESS) error("Clean controller shutdown failed"); cb(); } bool bt_bluetooth_stop(bt_bluetooth_stopped cb) { struct mgmt_mode cp; if (adapter.index == MGMT_INDEX_NONE) return false; info("Switching controller off"); memset(&cp, 0, sizeof(cp)); return mgmt_send(mgmt_if, MGMT_OP_SET_POWERED, adapter.index, sizeof(cp), &cp, shutdown_complete, (void *)cb, NULL) > 0; } void bt_bluetooth_cleanup(void) { g_free(adapter.name); adapter.name = NULL; mgmt_unref(mgmt_if); mgmt_if = NULL; } static bool set_discoverable(uint8_t mode, uint16_t timeout) { struct mgmt_cp_set_discoverable cp; memset(&cp, 0, sizeof(cp)); cp.val = mode; cp.timeout = htobs(timeout); DBG("mode %u timeout %u", mode, timeout); if (mgmt_send(mgmt_if, MGMT_OP_SET_DISCOVERABLE, adapter.index, sizeof(cp), &cp, set_mode_complete, NULL, NULL) > 0) return true; error("Failed to set mode discoverable"); return false; } static uint8_t get_adapter_address(void) { uint8_t buf[6]; bdaddr2android(&adapter.bdaddr, buf); send_adapter_property(HAL_PROP_ADAPTER_ADDR, sizeof(buf), buf); return HAL_STATUS_SUCCESS; } static uint8_t get_adapter_name(void) { if (!adapter.name) return HAL_STATUS_FAILED; adapter_name_changed((uint8_t *) adapter.name); return HAL_STATUS_SUCCESS; } static uint8_t get_adapter_class(void) { DBG(""); adapter_class_changed(); return HAL_STATUS_SUCCESS; } static uint8_t settings2type(void) { bool bredr, le; bredr = adapter.current_settings & MGMT_SETTING_BREDR; le = adapter.current_settings & MGMT_SETTING_LE; if (bredr && le) return HAL_TYPE_DUAL; if (bredr && !le) return HAL_TYPE_BREDR; if (!bredr && le) return HAL_TYPE_LE; return 0; } static uint8_t get_adapter_type(void) { uint8_t type; DBG(""); type = settings2type(); if (!type) return HAL_STATUS_FAILED; send_adapter_property(HAL_PROP_ADAPTER_TYPE, sizeof(type), &type); return HAL_STATUS_SUCCESS; } static uint8_t get_adapter_service_rec(void) { DBG("Not implemented"); /* TODO: Add implementation */ return HAL_STATUS_FAILED; } static uint8_t get_adapter_scan_mode(void) { DBG(""); scan_mode_changed(); return HAL_STATUS_SUCCESS; } static uint8_t get_adapter_bonded_devices(void) { uint8_t buf[sizeof(bdaddr_t) * g_slist_length(devices)]; int i = 0; GSList *l; DBG(""); for (l = devices; l; l = g_slist_next(l)) { struct device *dev = l->data; if (dev->bond_state != HAL_BOND_STATE_BONDED) continue; bdaddr2android(&dev->bdaddr, buf + (i * sizeof(bdaddr_t))); i++; } send_adapter_property(HAL_PROP_ADAPTER_BONDED_DEVICES, i * sizeof(bdaddr_t), buf); return HAL_STATUS_SUCCESS; } static uint8_t get_adapter_discoverable_timeout(void) { send_adapter_property(HAL_PROP_ADAPTER_DISC_TIMEOUT, sizeof(adapter.discoverable_timeout), &adapter.discoverable_timeout); return HAL_STATUS_SUCCESS; } static void handle_get_adapter_prop_cmd(const void *buf, uint16_t len) { const struct hal_cmd_get_adapter_prop *cmd = buf; uint8_t status; switch (cmd->type) { case HAL_PROP_ADAPTER_ADDR: status = get_adapter_address(); break; case HAL_PROP_ADAPTER_NAME: status = get_adapter_name(); break; case HAL_PROP_ADAPTER_UUIDS: status = get_adapter_uuids(); break; case HAL_PROP_ADAPTER_CLASS: status = get_adapter_class(); break; case HAL_PROP_ADAPTER_TYPE: status = get_adapter_type(); break; case HAL_PROP_ADAPTER_SERVICE_REC: status = get_adapter_service_rec(); break; case HAL_PROP_ADAPTER_SCAN_MODE: status = get_adapter_scan_mode(); break; case HAL_PROP_ADAPTER_BONDED_DEVICES: status = get_adapter_bonded_devices(); break; case HAL_PROP_ADAPTER_DISC_TIMEOUT: status = get_adapter_discoverable_timeout(); break; default: status = HAL_STATUS_FAILED; break; } if (status != HAL_STATUS_SUCCESS && status != HAL_STATUS_DONE) error("Failed to get adapter property (type %u status %u)", cmd->type, status); ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_GET_ADAPTER_PROP, status); } static void get_adapter_properties(void) { get_adapter_address(); get_adapter_name(); get_adapter_uuids(); get_adapter_class(); get_adapter_type(); get_adapter_service_rec(); get_adapter_scan_mode(); get_adapter_bonded_devices(); get_adapter_discoverable_timeout(); } static bool start_discovery(void) { struct mgmt_cp_start_discovery cp; uint8_t type = 1 << BDADDR_BREDR; if (adapter.current_settings & type) cp.type = type; else cp.type = 0; DBG("type=0x%x", type); if (mgmt_send(mgmt_if, MGMT_OP_START_DISCOVERY, adapter.index, sizeof(cp), &cp, NULL, NULL, NULL) > 0) return true; error("Failed to start discovery"); return false; } static bool stop_discovery(void) { struct mgmt_cp_stop_discovery cp; uint8_t type = 1 << BDADDR_BREDR; if (adapter.current_settings & type) cp.type = type; else cp.type = 0; DBG("type=0x%x", type); if (mgmt_send(mgmt_if, MGMT_OP_STOP_DISCOVERY, adapter.index, sizeof(cp), &cp, NULL, NULL, NULL) > 0) return true; error("Failed to stop discovery"); return false; } static uint8_t set_adapter_scan_mode(const void *buf, uint16_t len) { const uint8_t *mode = buf; bool conn, disc, cur_conn, cur_disc; if (len != sizeof(*mode)) { error("Invalid set scan mode size (%u bytes), terminating", len); raise(SIGTERM); return HAL_STATUS_FAILED; } cur_conn = adapter.current_settings & MGMT_SETTING_CONNECTABLE; cur_disc = adapter.current_settings & MGMT_SETTING_DISCOVERABLE; DBG("connectable %u discoverable %d mode %u", cur_conn, cur_disc, *mode); switch (*mode) { case HAL_ADAPTER_SCAN_MODE_NONE: if (!cur_conn && !cur_disc) goto done; conn = false; disc = false; break; case HAL_ADAPTER_SCAN_MODE_CONN: if (cur_conn && !cur_disc) goto done; conn = true; disc = false; break; case HAL_ADAPTER_SCAN_MODE_CONN_DISC: if (cur_conn && cur_disc) goto done; conn = true; disc = true; break; default: return HAL_STATUS_FAILED; } if (cur_conn != conn) { if (!set_mode(MGMT_OP_SET_CONNECTABLE, conn ? 0x01 : 0x00)) return HAL_STATUS_FAILED; } if (cur_disc != disc && conn) { if (!set_discoverable(disc ? 0x01 : 0x00, 0)) return HAL_STATUS_FAILED; } return HAL_STATUS_SUCCESS; done: /* Android expects property changed callback */ scan_mode_changed(); return HAL_STATUS_DONE; } static void handle_set_adapter_prop_cmd(const void *buf, uint16_t len) { const struct hal_cmd_set_adapter_prop *cmd = buf; uint8_t status; if (len != sizeof(*cmd) + cmd->len) { error("Invalid set adapter prop cmd (0x%x), terminating", cmd->type); raise(SIGTERM); return; } switch (cmd->type) { case HAL_PROP_ADAPTER_SCAN_MODE: status = set_adapter_scan_mode(cmd->val, cmd->len); break; case HAL_PROP_ADAPTER_NAME: status = set_adapter_name(cmd->val, cmd->len); break; case HAL_PROP_ADAPTER_DISC_TIMEOUT: status = set_adapter_discoverable_timeout(cmd->val, cmd->len); break; default: DBG("Unhandled property type 0x%x", cmd->type); status = HAL_STATUS_FAILED; break; } if (status != HAL_STATUS_SUCCESS && status != HAL_STATUS_DONE) error("Failed to set adapter property (type %u status %u)", cmd->type, status); ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_SET_ADAPTER_PROP, status); } static void pair_device_complete(uint8_t status, uint16_t length, const void *param, void *user_data) { const struct mgmt_rp_pair_device *rp = param; DBG("status %u", status); /* On success bond state change will be send when new link key event * is received */ if (status == MGMT_STATUS_SUCCESS) return; set_device_bond_state(&rp->addr.bdaddr, status_mgmt2hal(status), HAL_BOND_STATE_NONE); } static void handle_create_bond_cmd(const void *buf, uint16_t len) { const struct hal_cmd_create_bond *cmd = buf; uint8_t status; struct mgmt_cp_pair_device cp; cp.io_cap = DEFAULT_IO_CAPABILITY; cp.addr.type = BDADDR_BREDR; android2bdaddr(cmd->bdaddr, &cp.addr.bdaddr); if (mgmt_send(mgmt_if, MGMT_OP_PAIR_DEVICE, adapter.index, sizeof(cp), &cp, pair_device_complete, NULL, NULL) == 0) { status = HAL_STATUS_FAILED; goto fail; } status = HAL_STATUS_SUCCESS; set_device_bond_state(&cp.addr.bdaddr, HAL_STATUS_SUCCESS, HAL_BOND_STATE_BONDING); fail: ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_CREATE_BOND, status); } static void handle_cancel_bond_cmd(const void *buf, uint16_t len) { const struct hal_cmd_cancel_bond *cmd = buf; struct mgmt_addr_info cp; uint8_t status; cp.type = BDADDR_BREDR; android2bdaddr(cmd->bdaddr, &cp.bdaddr); if (mgmt_reply(mgmt_if, MGMT_OP_CANCEL_PAIR_DEVICE, adapter.index, sizeof(cp), &cp, NULL, NULL, NULL) > 0) status = HAL_STATUS_SUCCESS; else status = HAL_STATUS_FAILED; ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_CANCEL_BOND, status); } static void unpair_device_complete(uint8_t status, uint16_t length, const void *param, void *user_data) { const struct mgmt_rp_unpair_device *rp = param; DBG("status %u", status); if (status != MGMT_STATUS_SUCCESS) return; set_device_bond_state(&rp->addr.bdaddr, HAL_STATUS_SUCCESS, HAL_BOND_STATE_NONE); } static void handle_remove_bond_cmd(const void *buf, uint16_t len) { const struct hal_cmd_remove_bond *cmd = buf; struct mgmt_cp_unpair_device cp; uint8_t status; cp.disconnect = 1; cp.addr.type = BDADDR_BREDR; android2bdaddr(cmd->bdaddr, &cp.addr.bdaddr); if (mgmt_send(mgmt_if, MGMT_OP_UNPAIR_DEVICE, adapter.index, sizeof(cp), &cp, unpair_device_complete, NULL, NULL) > 0) status = HAL_STATUS_SUCCESS; else status = HAL_STATUS_FAILED; ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_REMOVE_BOND, status); } static void handle_pin_reply_cmd(const void *buf, uint16_t len) { const struct hal_cmd_pin_reply *cmd = buf; uint8_t status; bdaddr_t bdaddr; char addr[18]; android2bdaddr(cmd->bdaddr, &bdaddr); ba2str(&bdaddr, addr); DBG("%s accept %u pin_len %u", addr, cmd->accept, cmd->pin_len); if (!cmd->accept && cmd->pin_len) { status = HAL_STATUS_INVALID; goto failed; } if (cmd->accept) { struct mgmt_cp_pin_code_reply rp; memset(&rp, 0, sizeof(rp)); bacpy(&rp.addr.bdaddr, &bdaddr); rp.addr.type = BDADDR_BREDR; rp.pin_len = cmd->pin_len; memcpy(rp.pin_code, cmd->pin_code, rp.pin_len); if (mgmt_reply(mgmt_if, MGMT_OP_PIN_CODE_REPLY, adapter.index, sizeof(rp), &rp, NULL, NULL, NULL) == 0) { status = HAL_STATUS_FAILED; goto failed; } } else { struct mgmt_cp_pin_code_neg_reply rp; bacpy(&rp.addr.bdaddr, &bdaddr); rp.addr.type = BDADDR_BREDR; if (mgmt_reply(mgmt_if, MGMT_OP_PIN_CODE_NEG_REPLY, adapter.index, sizeof(rp), &rp, NULL, NULL, NULL) == 0) { status = HAL_STATUS_FAILED; goto failed; } } status = HAL_STATUS_SUCCESS; failed: ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_PIN_REPLY, status); } static uint8_t user_confirm_reply(const bdaddr_t *bdaddr, bool accept) { struct mgmt_addr_info cp; uint16_t opcode; if (accept) opcode = MGMT_OP_USER_CONFIRM_REPLY; else opcode = MGMT_OP_USER_CONFIRM_NEG_REPLY; bacpy(&cp.bdaddr, bdaddr); cp.type = BDADDR_BREDR; if (mgmt_reply(mgmt_if, opcode, adapter.index, sizeof(cp), &cp, NULL, NULL, NULL) > 0) return HAL_STATUS_SUCCESS; return HAL_STATUS_FAILED; } static uint8_t user_passkey_reply(const bdaddr_t *bdaddr, bool accept, uint32_t passkey) { unsigned int id; if (accept) { struct mgmt_cp_user_passkey_reply cp; memset(&cp, 0, sizeof(cp)); bacpy(&cp.addr.bdaddr, bdaddr); cp.addr.type = BDADDR_BREDR; cp.passkey = htobl(passkey); id = mgmt_reply(mgmt_if, MGMT_OP_USER_PASSKEY_REPLY, adapter.index, sizeof(cp), &cp, NULL, NULL, NULL); } else { struct mgmt_cp_user_passkey_neg_reply cp; memset(&cp, 0, sizeof(cp)); bacpy(&cp.addr.bdaddr, bdaddr); cp.addr.type = BDADDR_BREDR; id = mgmt_reply(mgmt_if, MGMT_OP_USER_PASSKEY_NEG_REPLY, adapter.index, sizeof(cp), &cp, NULL, NULL, NULL); } if (id == 0) return HAL_STATUS_FAILED; return HAL_STATUS_SUCCESS; } static void handle_ssp_reply_cmd(const void *buf, uint16_t len) { const struct hal_cmd_ssp_reply *cmd = buf; bdaddr_t bdaddr; uint8_t status; char addr[18]; /* TODO should parameters sanity be verified here? */ android2bdaddr(cmd->bdaddr, &bdaddr); ba2str(&bdaddr, addr); DBG("%s variant %u accept %u", addr, cmd->ssp_variant, cmd->accept); switch (cmd->ssp_variant) { case HAL_SSP_VARIANT_CONFIRM: case HAL_SSP_VARIANT_CONSENT: status = user_confirm_reply(&bdaddr, cmd->accept); break; case HAL_SSP_VARIANT_ENTRY: status = user_passkey_reply(&bdaddr, cmd->accept, cmd->passkey); break; case HAL_SSP_VARIANT_NOTIF: status = HAL_STATUS_SUCCESS; break; default: status = HAL_STATUS_INVALID; break; } ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_SSP_REPLY, status); } static void handle_get_remote_services_cmd(const void *buf, uint16_t len) { const struct hal_cmd_get_remote_services *cmd = buf; uint8_t status; bdaddr_t addr; android2bdaddr(&cmd->bdaddr, &addr); status = browse_remote_sdp(&addr); ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_GET_REMOTE_SERVICES, status); } static void handle_enable_cmd(const void *buf, uint16_t len) { uint8_t status; /* Framework expects all properties to be emitted while * enabling adapter */ get_adapter_properties(); if (adapter.current_settings & MGMT_SETTING_POWERED) { status = HAL_STATUS_DONE; goto failed; } if (!set_mode(MGMT_OP_SET_POWERED, 0x01)) { status = HAL_STATUS_FAILED; goto failed; } status = HAL_STATUS_SUCCESS; failed: ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_ENABLE, status); } static void handle_disable_cmd(const void *buf, uint16_t len) { uint8_t status; if (!(adapter.current_settings & MGMT_SETTING_POWERED)) { status = HAL_STATUS_DONE; goto failed; } if (!set_mode(MGMT_OP_SET_POWERED, 0x00)) { status = HAL_STATUS_FAILED; goto failed; } status = HAL_STATUS_SUCCESS; failed: ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_DISABLE, status); } static void handle_get_adapter_props_cmd(const void *buf, uint16_t len) { get_adapter_properties(); ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_GET_ADAPTER_PROPS, HAL_STATUS_SUCCESS); } static uint8_t get_device_uuids(struct device *dev) { send_device_uuids_notif(dev); return HAL_STATUS_SUCCESS; } static uint8_t get_device_class(struct device *dev) { send_device_property(&dev->bdaddr, HAL_PROP_DEVICE_CLASS, sizeof(dev->class), &dev->class); return HAL_STATUS_SUCCESS; } static uint8_t get_device_type(struct device *dev) { uint8_t type = bdaddr_type2android(dev->bdaddr_type); send_device_property(&dev->bdaddr, HAL_PROP_DEVICE_TYPE, sizeof(type), &type); return HAL_STATUS_SUCCESS; } static uint8_t get_device_service_rec(struct device *dev) { DBG("Not implemented"); /* TODO */ return HAL_STATUS_FAILED; } static uint8_t get_device_friendly_name(struct device *dev) { if (!dev->friendly_name) return HAL_STATUS_FAILED; send_device_property(&dev->bdaddr, HAL_PROP_DEVICE_FRIENDLY_NAME, strlen(dev->friendly_name), dev->friendly_name); return HAL_STATUS_SUCCESS; } static uint8_t get_device_rssi(struct device *dev) { if (!dev->rssi) return HAL_STATUS_FAILED; send_device_property(&dev->bdaddr, HAL_PROP_DEVICE_RSSI, sizeof(dev->rssi), &dev->rssi); return HAL_STATUS_SUCCESS; } static uint8_t get_device_version_info(struct device *dev) { DBG("Not implemented"); /* TODO */ return HAL_STATUS_FAILED; } static uint8_t get_device_timestamp(struct device *dev) { send_device_property(&dev->bdaddr, HAL_PROP_DEVICE_TIMESTAMP, sizeof(dev->timestamp), &dev->timestamp); return HAL_STATUS_SUCCESS; } static void handle_get_remote_device_props_cmd(const void *buf, uint16_t len) { const struct hal_cmd_get_remote_device_props *cmd = buf; uint8_t status; bdaddr_t addr; GSList *l; android2bdaddr(cmd->bdaddr, &addr); l = g_slist_find_custom(devices, &addr, bdaddr_cmp); if (!l) { status = HAL_STATUS_INVALID; goto failed; } get_device_name(l->data); get_device_uuids(l->data); get_device_class(l->data); get_device_type(l->data); get_device_service_rec(l->data); get_device_friendly_name(l->data); get_device_rssi(l->data); get_device_version_info(l->data); get_device_timestamp(l->data); status = HAL_STATUS_SUCCESS; failed: ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_GET_REMOTE_DEVICE_PROPS, status); } static void handle_get_remote_device_prop_cmd(const void *buf, uint16_t len) { const struct hal_cmd_get_remote_device_prop *cmd = buf; uint8_t status; bdaddr_t addr; GSList *l; android2bdaddr(cmd->bdaddr, &addr); l = g_slist_find_custom(devices, &addr, bdaddr_cmp); if (!l) { status = HAL_STATUS_INVALID; goto failed; } switch (cmd->type) { case HAL_PROP_DEVICE_NAME: status = get_device_name(l->data); break; case HAL_PROP_DEVICE_UUIDS: status = get_device_uuids(l->data); break; case HAL_PROP_DEVICE_CLASS: status = get_device_class(l->data); break; case HAL_PROP_DEVICE_TYPE: status = get_device_type(l->data); break; case HAL_PROP_DEVICE_SERVICE_REC: status = get_device_service_rec(l->data); break; case HAL_PROP_DEVICE_FRIENDLY_NAME: status = get_device_friendly_name(l->data); break; case HAL_PROP_DEVICE_RSSI: status = get_device_rssi(l->data); break; case HAL_PROP_DEVICE_VERSION_INFO: status = get_device_version_info(l->data); break; case HAL_PROP_DEVICE_TIMESTAMP: status = get_device_timestamp(l->data); break; default: status = HAL_STATUS_FAILED; break; } if (status != HAL_STATUS_SUCCESS && status != HAL_STATUS_DONE) error("Failed to get device property (type %u status %u)", cmd->type, status); failed: ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_GET_REMOTE_DEVICE_PROP, status); } static uint8_t set_device_friendly_name(struct device *dev, const uint8_t *val, uint16_t len) { DBG(""); g_free(dev->friendly_name); dev->friendly_name = g_strndup((const char *) val, len); store_device_info(dev); send_device_property(&dev->bdaddr, HAL_PROP_DEVICE_FRIENDLY_NAME, strlen(dev->friendly_name), dev->friendly_name); return HAL_STATUS_SUCCESS; } static uint8_t set_device_version_info(struct device *dev) { DBG("Not implemented"); /* TODO */ return HAL_STATUS_FAILED; } static void handle_set_remote_device_prop_cmd(const void *buf, uint16_t len) { const struct hal_cmd_set_remote_device_prop *cmd = buf; uint8_t status; bdaddr_t addr; GSList *l; if (len != sizeof(*cmd) + cmd->len) { error("Invalid set remote device prop cmd (0x%x), terminating", cmd->type); raise(SIGTERM); return; } android2bdaddr(cmd->bdaddr, &addr); l = g_slist_find_custom(devices, &addr, bdaddr_cmp); if (!l) { status = HAL_STATUS_INVALID; goto failed; } switch (cmd->type) { case HAL_PROP_DEVICE_FRIENDLY_NAME: status = set_device_friendly_name(l->data, cmd->val, cmd->len); break; case HAL_PROP_DEVICE_VERSION_INFO: status = set_device_version_info(l->data); break; default: status = HAL_STATUS_FAILED; break; } if (status != HAL_STATUS_SUCCESS && status != HAL_STATUS_DONE) error("Failed to set device property (type %u status %u)", cmd->type, status); failed: ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_SET_REMOTE_DEVICE_PROP, status); } static void handle_get_remote_service_rec_cmd(const void *buf, uint16_t len) { /* TODO */ error("get_remote_service_record not supported"); ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_GET_REMOTE_SERVICE_REC, HAL_STATUS_FAILED); } static void handle_start_discovery_cmd(const void *buf, uint16_t len) { uint8_t status; if (adapter.discovering) { status = HAL_STATUS_DONE; goto failed; } if (!(adapter.current_settings & MGMT_SETTING_POWERED)) { status = HAL_STATUS_NOT_READY; goto failed; } if (!start_discovery()) { status = HAL_STATUS_FAILED; goto failed; } status = HAL_STATUS_SUCCESS; failed: ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_START_DISCOVERY, status); } static void handle_cancel_discovery_cmd(const void *buf, uint16_t len) { uint8_t status; if (!adapter.discovering) { status = HAL_STATUS_DONE; goto failed; } if (!(adapter.current_settings & MGMT_SETTING_POWERED)) { status = HAL_STATUS_NOT_READY; goto failed; } if (!stop_discovery()) { status = HAL_STATUS_FAILED; goto failed; } status = HAL_STATUS_SUCCESS; failed: ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_CANCEL_DISCOVERY, status); } static void handle_dut_mode_conf_cmd(const void *buf, uint16_t len) { const struct hal_cmd_dut_mode_conf *cmd = buf; char path[FILENAME_MAX]; uint8_t status; int fd, ret; DBG("enable %u", cmd->enable); snprintf(path, sizeof(path), DUT_MODE_FILE, adapter.index); fd = open(path, O_WRONLY); if (fd < 0) { status = HAL_STATUS_FAILED; goto failed; } if (cmd->enable) ret = write(fd, "1", sizeof("1")); else ret = write(fd, "0", sizeof("0")); if (ret < 0) status = HAL_STATUS_FAILED; else status = HAL_STATUS_SUCCESS; close(fd); failed: ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_DUT_MODE_CONF, status); } static void handle_dut_mode_send_cmd(const void *buf, uint16_t len) { const struct hal_cmd_dut_mode_send *cmd = buf; if (len != sizeof(*cmd) + cmd->len) { error("Invalid dut mode send cmd, terminating"); raise(SIGTERM); return; } error("dut_mode_send not supported (cmd opcode %u)", cmd->opcode); /* TODO */ ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_DUT_MODE_SEND, HAL_STATUS_FAILED); } static void handle_le_test_mode_cmd(const void *buf, uint16_t len) { const struct hal_cmd_le_test_mode *cmd = buf; if (len != sizeof(*cmd) + cmd->len) { error("Invalid le test mode cmd, terminating"); raise(SIGTERM); return; } error("le_test_mode not supported (cmd opcode %u)", cmd->opcode); /* TODO */ ipc_send_rsp(HAL_SERVICE_ID_BLUETOOTH, HAL_OP_LE_TEST_MODE, HAL_STATUS_FAILED); } static const struct ipc_handler cmd_handlers[] = { /* HAL_OP_ENABLE */ { handle_enable_cmd, false, 0 }, /* HAL_OP_DISABLE */ { handle_disable_cmd, false, 0 }, /* HAL_OP_GET_ADAPTER_PROPS */ { handle_get_adapter_props_cmd, false, 0 }, /* HAL_OP_GET_ADAPTER_PROP */ { handle_get_adapter_prop_cmd, false, sizeof(struct hal_cmd_get_adapter_prop) }, /* HAL_OP_SET_ADAPTER_PROP */ { handle_set_adapter_prop_cmd, true, sizeof(struct hal_cmd_set_adapter_prop) }, /* HAL_OP_GET_REMOTE_DEVICE_PROPS */ { handle_get_remote_device_props_cmd, false, sizeof(struct hal_cmd_get_remote_device_props) }, /* HAL_OP_GET_REMOTE_DEVICE_PROP */ { handle_get_remote_device_prop_cmd, false, sizeof(struct hal_cmd_get_remote_device_prop) }, /* HAL_OP_SET_REMOTE_DEVICE_PROP */ { handle_set_remote_device_prop_cmd, true, sizeof(struct hal_cmd_set_remote_device_prop) }, /* HAL_OP_GET_REMOTE_SERVICE_REC */ { handle_get_remote_service_rec_cmd, false, sizeof(struct hal_cmd_get_remote_service_rec) }, /* HAL_OP_GET_REMOTE_SERVICES */ { handle_get_remote_services_cmd, false, sizeof(struct hal_cmd_get_remote_services) }, /* HAL_OP_START_DISCOVERY */ { handle_start_discovery_cmd, false, 0 }, /* HAL_OP_CANCEL_DISCOVERY */ { handle_cancel_discovery_cmd, false, 0 }, /* HAL_OP_CREATE_BOND */ { handle_create_bond_cmd, false, sizeof(struct hal_cmd_create_bond) }, /* HAL_OP_REMOVE_BOND */ { handle_remove_bond_cmd, false, sizeof(struct hal_cmd_remove_bond) }, /* HAL_OP_CANCEL_BOND */ {handle_cancel_bond_cmd, false, sizeof(struct hal_cmd_cancel_bond) }, /* HAL_OP_PIN_REPLY */ { handle_pin_reply_cmd, false, sizeof(struct hal_cmd_pin_reply) }, /* HAL_OP_SSP_REPLY */ { handle_ssp_reply_cmd, false, sizeof(struct hal_cmd_ssp_reply) }, /* HAL_OP_DUT_MODE_CONF */ { handle_dut_mode_conf_cmd, false, sizeof(struct hal_cmd_dut_mode_conf) }, /* HAL_OP_DUT_MODE_SEND */ { handle_dut_mode_send_cmd, true, sizeof(struct hal_cmd_dut_mode_send) }, /* HAL_OP_LE_TEST_MODE */ { handle_le_test_mode_cmd, true, sizeof(struct hal_cmd_le_test_mode) }, }; void bt_bluetooth_register(void) { DBG(""); ipc_register(HAL_SERVICE_ID_BLUETOOTH, cmd_handlers, G_N_ELEMENTS(cmd_handlers)); } void bt_bluetooth_unregister(void) { DBG(""); g_slist_free_full(devices, (GDestroyNotify) free_device); devices = NULL; ipc_unregister(HAL_SERVICE_ID_CORE); }