/* * * BlueZ - Bluetooth protocol stack for Linux * * Copyright (C) 2004-2010 Marcel Holtmann * * * 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 #include #include #include #include "log.h" #include "lib/uuid.h" #include "../src/adapter.h" #include "../src/device.h" #include "../src/profile.h" #include "../src/service.h" #include "../src/storage.h" #include "../src/dbus-common.h" #include "device.h" #include "error.h" #include #include "sdp-client.h" #define INPUT_INTERFACE "org.bluez.Input1" enum reconnect_mode_t { RECONNECT_NONE = 0, RECONNECT_DEVICE, RECONNECT_HOST, RECONNECT_ANY }; struct input_device { struct btd_service *service; struct btd_device *device; char *path; bdaddr_t src; bdaddr_t dst; uint32_t handle; GIOChannel *ctrl_io; GIOChannel *intr_io; guint ctrl_watch; guint intr_watch; guint sec_watch; struct hidp_connadd_req *req; guint dc_id; bool disable_sdp; char *name; enum reconnect_mode_t reconnect_mode; guint reconnect_timer; uint32_t reconnect_attempt; }; static int idle_timeout = 0; void input_set_idle_timeout(int timeout) { idle_timeout = timeout; } static void input_device_enter_reconnect_mode(struct input_device *idev); static void input_device_free(struct input_device *idev) { if (idev->dc_id) device_remove_disconnect_watch(idev->device, idev->dc_id); btd_service_unref(idev->service); btd_device_unref(idev->device); g_free(idev->name); g_free(idev->path); if (idev->ctrl_watch > 0) g_source_remove(idev->ctrl_watch); if (idev->intr_watch > 0) g_source_remove(idev->intr_watch); if (idev->sec_watch > 0) g_source_remove(idev->sec_watch); if (idev->intr_io) g_io_channel_unref(idev->intr_io); if (idev->ctrl_io) g_io_channel_unref(idev->ctrl_io); if (idev->req) { g_free(idev->req->rd_data); g_free(idev->req); } if (idev->reconnect_timer > 0) g_source_remove(idev->reconnect_timer); g_free(idev); } static gboolean intr_watch_cb(GIOChannel *chan, GIOCondition cond, gpointer data) { struct input_device *idev = data; char address[18]; ba2str(&idev->dst, address); DBG("Device %s disconnected", address); /* Checking for ctrl_watch avoids a double g_io_channel_shutdown since * it's likely that ctrl_watch_cb has been queued for dispatching in * this mainloop iteration */ if ((cond & (G_IO_HUP | G_IO_ERR)) && idev->ctrl_watch) g_io_channel_shutdown(chan, TRUE, NULL); device_remove_disconnect_watch(idev->device, idev->dc_id); idev->dc_id = 0; idev->intr_watch = 0; if (idev->intr_io) { g_io_channel_unref(idev->intr_io); idev->intr_io = NULL; } /* Close control channel */ if (idev->ctrl_io && !(cond & G_IO_NVAL)) g_io_channel_shutdown(idev->ctrl_io, TRUE, NULL); btd_service_disconnecting_complete(idev->service, 0); /* Enter the auto-reconnect mode if needed */ input_device_enter_reconnect_mode(idev); return FALSE; } static gboolean ctrl_watch_cb(GIOChannel *chan, GIOCondition cond, gpointer data) { struct input_device *idev = data; char address[18]; ba2str(&idev->dst, address); DBG("Device %s disconnected", address); /* Checking for intr_watch avoids a double g_io_channel_shutdown since * it's likely that intr_watch_cb has been queued for dispatching in * this mainloop iteration */ if ((cond & (G_IO_HUP | G_IO_ERR)) && idev->intr_watch) g_io_channel_shutdown(chan, TRUE, NULL); idev->ctrl_watch = 0; if (idev->ctrl_io) { g_io_channel_unref(idev->ctrl_io); idev->ctrl_io = NULL; } /* Close interrupt channel */ if (idev->intr_io && !(cond & G_IO_NVAL)) g_io_channel_shutdown(idev->intr_io, TRUE, NULL); return FALSE; } static void epox_endian_quirk(unsigned char *data, int size) { /* USAGE_PAGE (Keyboard) 05 07 * USAGE_MINIMUM (0) 19 00 * USAGE_MAXIMUM (65280) 2A 00 FF <= must be FF 00 * LOGICAL_MINIMUM (0) 15 00 * LOGICAL_MAXIMUM (65280) 26 00 FF <= must be FF 00 */ unsigned char pattern[] = { 0x05, 0x07, 0x19, 0x00, 0x2a, 0x00, 0xff, 0x15, 0x00, 0x26, 0x00, 0xff }; unsigned int i; if (!data) return; for (i = 0; i < size - sizeof(pattern); i++) { if (!memcmp(data + i, pattern, sizeof(pattern))) { data[i + 5] = 0xff; data[i + 6] = 0x00; data[i + 10] = 0xff; data[i + 11] = 0x00; } } } static int create_hid_dev_name(sdp_record_t *rec, struct hidp_connadd_req *req) { char sdesc[sizeof(req->name)]; if (sdp_get_service_desc(rec, sdesc, sizeof(sdesc)) == 0) { char pname[sizeof(req->name)]; if (sdp_get_provider_name(rec, pname, sizeof(pname)) == 0 && strncmp(sdesc, pname, 5) != 0) snprintf(req->name, sizeof(req->name), "%s %s", pname, sdesc); else snprintf(req->name, sizeof(req->name), "%s", sdesc); } else { return sdp_get_service_name(rec, req->name, sizeof(req->name)); } return 0; } /* See HID profile specification v1.0, "7.11.6 HIDDescriptorList" for details * on the attribute format. */ static int extract_hid_desc_data(sdp_record_t *rec, struct hidp_connadd_req *req) { sdp_data_t *d; d = sdp_data_get(rec, SDP_ATTR_HID_DESCRIPTOR_LIST); if (!d) goto invalid_desc; if (!SDP_IS_SEQ(d->dtd)) goto invalid_desc; /* First HIDDescriptor */ d = d->val.dataseq; if (!SDP_IS_SEQ(d->dtd)) goto invalid_desc; /* ClassDescriptorType */ d = d->val.dataseq; if (d->dtd != SDP_UINT8) goto invalid_desc; /* ClassDescriptorData */ d = d->next; if (!d || !SDP_IS_TEXT_STR(d->dtd)) goto invalid_desc; req->rd_data = g_try_malloc0(d->unitSize); if (req->rd_data) { memcpy(req->rd_data, d->val.str, d->unitSize); req->rd_size = d->unitSize; epox_endian_quirk(req->rd_data, req->rd_size); } return 0; invalid_desc: error("Missing or invalid HIDDescriptorList SDP attribute"); return -EINVAL; } static int extract_hid_record(sdp_record_t *rec, struct hidp_connadd_req *req) { sdp_data_t *pdlist; uint8_t attr_val; int err; err = create_hid_dev_name(rec, req); if (err < 0) DBG("No valid Service Name or Service Description found"); pdlist = sdp_data_get(rec, SDP_ATTR_HID_PARSER_VERSION); req->parser = pdlist ? pdlist->val.uint16 : 0x0100; pdlist = sdp_data_get(rec, SDP_ATTR_HID_DEVICE_SUBCLASS); req->subclass = pdlist ? pdlist->val.uint8 : 0; pdlist = sdp_data_get(rec, SDP_ATTR_HID_COUNTRY_CODE); req->country = pdlist ? pdlist->val.uint8 : 0; pdlist = sdp_data_get(rec, SDP_ATTR_HID_VIRTUAL_CABLE); attr_val = pdlist ? pdlist->val.uint8 : 0; if (attr_val) req->flags |= (1 << HIDP_VIRTUAL_CABLE_UNPLUG); pdlist = sdp_data_get(rec, SDP_ATTR_HID_BOOT_DEVICE); attr_val = pdlist ? pdlist->val.uint8 : 0; if (attr_val) req->flags |= (1 << HIDP_BOOT_PROTOCOL_MODE); err = extract_hid_desc_data(rec, req); if (err < 0) return err; return 0; } static int ioctl_connadd(struct hidp_connadd_req *req) { int ctl, err = 0; ctl = socket(AF_BLUETOOTH, SOCK_RAW, BTPROTO_HIDP); if (ctl < 0) return -errno; if (ioctl(ctl, HIDPCONNADD, req) < 0) err = -errno; close(ctl); return err; } static gboolean encrypt_notify(GIOChannel *io, GIOCondition condition, gpointer data) { struct input_device *idev = data; int err; DBG(""); err = ioctl_connadd(idev->req); if (err < 0) { error("ioctl_connadd(): %s (%d)", strerror(-err), -err); if (idev->ctrl_io) { g_io_channel_shutdown(idev->ctrl_io, FALSE, NULL); g_io_channel_unref(idev->ctrl_io); idev->ctrl_io = NULL; } if (idev->intr_io) { g_io_channel_shutdown(idev->intr_io, FALSE, NULL); g_io_channel_unref(idev->intr_io); idev->intr_io = NULL; } } idev->sec_watch = 0; g_free(idev->req->rd_data); g_free(idev->req); idev->req = NULL; return FALSE; } static int hidp_add_connection(struct input_device *idev) { struct hidp_connadd_req *req; sdp_record_t *rec; char src_addr[18], dst_addr[18]; char filename[PATH_MAX + 1]; GKeyFile *key_file; char handle[11], *str; GError *gerr = NULL; int err; req = g_new0(struct hidp_connadd_req, 1); req->ctrl_sock = g_io_channel_unix_get_fd(idev->ctrl_io); req->intr_sock = g_io_channel_unix_get_fd(idev->intr_io); req->flags = 0; req->idle_to = idle_timeout; ba2str(&idev->src, src_addr); ba2str(&idev->dst, dst_addr); snprintf(filename, PATH_MAX, STORAGEDIR "/%s/cache/%s", src_addr, dst_addr); filename[PATH_MAX] = '\0'; sprintf(handle, "0x%8.8X", idev->handle); key_file = g_key_file_new(); g_key_file_load_from_file(key_file, filename, 0, NULL); str = g_key_file_get_string(key_file, "ServiceRecords", handle, NULL); g_key_file_free(key_file); if (!str) { error("Rejected connection from unknown device %s", dst_addr); err = -EPERM; goto cleanup; } rec = record_from_string(str); g_free(str); err = extract_hid_record(rec, req); sdp_record_free(rec); if (err < 0) { error("Could not parse HID SDP record: %s (%d)", strerror(-err), -err); goto cleanup; } req->vendor = btd_device_get_vendor(idev->device); req->product = btd_device_get_product(idev->device); req->version = btd_device_get_version(idev->device); if (idev->name) strncpy(req->name, idev->name, sizeof(req->name) - 1); /* Encryption is mandatory for keyboards */ if (req->subclass & 0x40) { if (!bt_io_set(idev->intr_io, &gerr, BT_IO_OPT_SEC_LEVEL, BT_IO_SEC_MEDIUM, BT_IO_OPT_INVALID)) { error("btio: %s", gerr->message); g_error_free(gerr); err = -EFAULT; goto cleanup; } idev->req = req; idev->sec_watch = g_io_add_watch(idev->intr_io, G_IO_OUT, encrypt_notify, idev); return 0; } err = ioctl_connadd(req); cleanup: g_free(req->rd_data); g_free(req); return err; } static int is_connected(struct input_device *idev) { struct hidp_conninfo ci; int ctl; /* Standard HID */ ctl = socket(AF_BLUETOOTH, SOCK_RAW, BTPROTO_HIDP); if (ctl < 0) return 0; memset(&ci, 0, sizeof(ci)); bacpy(&ci.bdaddr, &idev->dst); if (ioctl(ctl, HIDPGETCONNINFO, &ci) < 0) { close(ctl); return 0; } close(ctl); if (ci.state != BT_CONNECTED) return 0; else return 1; } static int connection_disconnect(struct input_device *idev, uint32_t flags) { struct hidp_conndel_req req; struct hidp_conninfo ci; int ctl, err = 0; if (!is_connected(idev)) return -ENOTCONN; /* Standard HID disconnect */ if (idev->intr_io) g_io_channel_shutdown(idev->intr_io, TRUE, NULL); if (idev->ctrl_io) g_io_channel_shutdown(idev->ctrl_io, TRUE, NULL); ctl = socket(AF_BLUETOOTH, SOCK_RAW, BTPROTO_HIDP); if (ctl < 0) { error("Can't open HIDP control socket"); return -errno; } memset(&ci, 0, sizeof(ci)); bacpy(&ci.bdaddr, &idev->dst); if ((ioctl(ctl, HIDPGETCONNINFO, &ci) < 0) || (ci.state != BT_CONNECTED)) { err = -ENOTCONN; goto fail; } memset(&req, 0, sizeof(req)); bacpy(&req.bdaddr, &idev->dst); req.flags = flags; if (ioctl(ctl, HIDPCONNDEL, &req) < 0) { err = -errno; error("Can't delete the HID device: %s(%d)", strerror(-err), -err); goto fail; } fail: close(ctl); return err; } static void disconnect_cb(struct btd_device *device, gboolean removal, void *user_data) { struct input_device *idev = user_data; int flags; info("Input: disconnect %s", idev->path); flags = removal ? (1 << HIDP_VIRTUAL_CABLE_UNPLUG) : 0; connection_disconnect(idev, flags); } static int input_device_connected(struct input_device *idev) { int err; if (idev->intr_io == NULL || idev->ctrl_io == NULL) return -ENOTCONN; err = hidp_add_connection(idev); if (err < 0) return err; idev->dc_id = device_add_disconnect_watch(idev->device, disconnect_cb, idev, NULL); btd_service_connecting_complete(idev->service, 0); return 0; } static void interrupt_connect_cb(GIOChannel *chan, GError *conn_err, gpointer user_data) { struct input_device *idev = user_data; int err; if (conn_err) { err = -EIO; goto failed; } err = input_device_connected(idev); if (err < 0) goto failed; idev->intr_watch = g_io_add_watch(idev->intr_io, G_IO_HUP | G_IO_ERR | G_IO_NVAL, intr_watch_cb, idev); return; failed: btd_service_connecting_complete(idev->service, err); /* So we guarantee the interrupt channel is closed before the * control channel (if we only do unref GLib will close it only * after returning control to the mainloop */ if (!conn_err) g_io_channel_shutdown(idev->intr_io, FALSE, NULL); g_io_channel_unref(idev->intr_io); idev->intr_io = NULL; if (idev->ctrl_io) { g_io_channel_unref(idev->ctrl_io); idev->ctrl_io = NULL; } } static void control_connect_cb(GIOChannel *chan, GError *conn_err, gpointer user_data) { struct input_device *idev = user_data; GIOChannel *io; GError *err = NULL; if (conn_err) { error("%s", conn_err->message); goto failed; } /* Connect to the HID interrupt channel */ io = bt_io_connect(interrupt_connect_cb, idev, NULL, &err, BT_IO_OPT_SOURCE_BDADDR, &idev->src, BT_IO_OPT_DEST_BDADDR, &idev->dst, BT_IO_OPT_PSM, L2CAP_PSM_HIDP_INTR, BT_IO_OPT_SEC_LEVEL, BT_IO_SEC_LOW, BT_IO_OPT_INVALID); if (!io) { error("%s", err->message); g_error_free(err); goto failed; } idev->intr_io = io; idev->ctrl_watch = g_io_add_watch(idev->ctrl_io, G_IO_HUP | G_IO_ERR | G_IO_NVAL, ctrl_watch_cb, idev); return; failed: btd_service_connecting_complete(idev->service, -EIO); g_io_channel_unref(idev->ctrl_io); idev->ctrl_io = NULL; } static int dev_connect(struct input_device *idev) { GError *err = NULL; GIOChannel *io; if (idev->disable_sdp) bt_clear_cached_session(&idev->src, &idev->dst); io = bt_io_connect(control_connect_cb, idev, NULL, &err, BT_IO_OPT_SOURCE_BDADDR, &idev->src, BT_IO_OPT_DEST_BDADDR, &idev->dst, BT_IO_OPT_PSM, L2CAP_PSM_HIDP_CTRL, BT_IO_OPT_SEC_LEVEL, BT_IO_SEC_LOW, BT_IO_OPT_INVALID); idev->ctrl_io = io; if (err == NULL) return 0; error("%s", err->message); g_error_free(err); return -EIO; } static gboolean input_device_auto_reconnect(gpointer user_data) { struct input_device *idev = user_data; DBG("path=%s, attempt=%d", idev->path, idev->reconnect_attempt); /* Stop the recurrent reconnection attempts if the device is reconnected * or is marked for removal. */ if (device_is_temporary(idev->device) || btd_device_is_connected(idev->device)) return FALSE; /* Only attempt an auto-reconnect for at most 3 minutes (6 * 30s). */ if (idev->reconnect_attempt >= 6) return FALSE; /* Check if the profile is already connected. */ if (idev->ctrl_io) return FALSE; if (is_connected(idev)) return FALSE; idev->reconnect_attempt++; dev_connect(idev); return TRUE; } static const char * const _reconnect_mode_str[] = { "none", "device", "host", "any" }; static const char *reconnect_mode_to_string(const enum reconnect_mode_t mode) { return _reconnect_mode_str[mode]; } static void input_device_enter_reconnect_mode(struct input_device *idev) { DBG("path=%s reconnect_mode=%s", idev->path, reconnect_mode_to_string(idev->reconnect_mode)); /* Only attempt an auto-reconnect when the device is required to accept * reconnections from the host. */ if (idev->reconnect_mode != RECONNECT_ANY && idev->reconnect_mode != RECONNECT_HOST) return; /* If the device is temporary we are not required to reconnect with the * device. This is likely the case of a removing device. */ if (device_is_temporary(idev->device) || btd_device_is_connected(idev->device)) return; if (idev->reconnect_timer > 0) g_source_remove(idev->reconnect_timer); DBG("registering auto-reconnect"); idev->reconnect_attempt = 0; idev->reconnect_timer = g_timeout_add_seconds(30, input_device_auto_reconnect, idev); } int input_device_connect(struct btd_service *service) { struct input_device *idev; DBG(""); idev = btd_service_get_user_data(service); if (idev->ctrl_io) return -EBUSY; if (is_connected(idev)) return -EALREADY; return dev_connect(idev); } int input_device_disconnect(struct btd_service *service) { struct input_device *idev; int err; DBG(""); idev = btd_service_get_user_data(service); err = connection_disconnect(idev, 0); if (err < 0) return err; return 0; } static bool is_device_sdp_disable(const sdp_record_t *rec) { sdp_data_t *data; data = sdp_data_get(rec, SDP_ATTR_HID_SDP_DISABLE); return data && data->val.uint8; } static enum reconnect_mode_t hid_reconnection_mode(bool reconnect_initiate, bool normally_connectable) { if (!reconnect_initiate && !normally_connectable) return RECONNECT_NONE; else if (!reconnect_initiate && normally_connectable) return RECONNECT_HOST; else if (reconnect_initiate && !normally_connectable) return RECONNECT_DEVICE; else /* (reconnect_initiate && normally_connectable) */ return RECONNECT_ANY; } static void extract_hid_props(struct input_device *idev, const sdp_record_t *rec) { /* Extract HID connectability */ bool reconnect_initiate, normally_connectable; sdp_data_t *pdlist; /* HIDNormallyConnectable is optional and assumed FALSE * if not present. */ pdlist = sdp_data_get(rec, SDP_ATTR_HID_RECONNECT_INITIATE); reconnect_initiate = pdlist ? pdlist->val.uint8 : TRUE; pdlist = sdp_data_get(rec, SDP_ATTR_HID_NORMALLY_CONNECTABLE); normally_connectable = pdlist ? pdlist->val.uint8 : FALSE; /* Update local values */ idev->reconnect_mode = hid_reconnection_mode(reconnect_initiate, normally_connectable); } static struct input_device *input_device_new(struct btd_service *service) { struct btd_device *device = btd_service_get_device(service); struct btd_profile *p = btd_service_get_profile(service); const char *path = device_get_path(device); const sdp_record_t *rec = btd_device_get_record(device, p->remote_uuid); struct btd_adapter *adapter = device_get_adapter(device); struct input_device *idev; char name[HCI_MAX_NAME_LENGTH + 1]; if (!rec) return NULL; idev = g_new0(struct input_device, 1); bacpy(&idev->src, btd_adapter_get_address(adapter)); bacpy(&idev->dst, device_get_address(device)); idev->service = btd_service_ref(service); idev->device = btd_device_ref(device); idev->path = g_strdup(path); idev->handle = rec->handle; idev->disable_sdp = is_device_sdp_disable(rec); device_get_name(device, name, HCI_MAX_NAME_LENGTH); if (strlen(name) > 0) idev->name = g_strdup(name); /* Initialize device properties */ extract_hid_props(idev, rec); return idev; } static gboolean property_get_reconnect_mode( const GDBusPropertyTable *property, DBusMessageIter *iter, void *data) { struct input_device *idev = data; const char *str_mode = reconnect_mode_to_string(idev->reconnect_mode); dbus_message_iter_append_basic(iter, DBUS_TYPE_STRING, &str_mode); return TRUE; } static const GDBusPropertyTable input_properties[] = { { "ReconnectMode", "s", property_get_reconnect_mode }, { } }; int input_device_register(struct btd_service *service) { struct btd_device *device = btd_service_get_device(service); const char *path = device_get_path(device); struct input_device *idev; DBG("%s", path); idev = input_device_new(service); if (!idev) return -EINVAL; if (g_dbus_register_interface(btd_get_dbus_connection(), idev->path, INPUT_INTERFACE, NULL, NULL, input_properties, idev, NULL) == FALSE) { error("Unable to register %s interface", INPUT_INTERFACE); input_device_free(idev); return -EINVAL; } btd_service_set_user_data(service, idev); return 0; } static struct input_device *find_device(const bdaddr_t *src, const bdaddr_t *dst) { struct btd_device *device; struct btd_service *service; device = btd_adapter_find_device(adapter_find(src), dst); if (device == NULL) return NULL; service = btd_device_get_service(device, HID_UUID); if (service == NULL) return NULL; return btd_service_get_user_data(service); } void input_device_unregister(struct btd_service *service) { struct btd_device *device = btd_service_get_device(service); const char *path = device_get_path(device); struct input_device *idev = btd_service_get_user_data(service); DBG("%s", path); g_dbus_unregister_interface(btd_get_dbus_connection(), idev->path, INPUT_INTERFACE); input_device_free(idev); } static int input_device_connadd(struct input_device *idev) { int err; err = input_device_connected(idev); if (err < 0) goto error; return 0; error: if (idev->ctrl_io) { g_io_channel_shutdown(idev->ctrl_io, FALSE, NULL); g_io_channel_unref(idev->ctrl_io); idev->ctrl_io = NULL; } if (idev->intr_io) { g_io_channel_shutdown(idev->intr_io, FALSE, NULL); g_io_channel_unref(idev->intr_io); idev->intr_io = NULL; } return err; } bool input_device_exists(const bdaddr_t *src, const bdaddr_t *dst) { if (find_device(src, dst)) return true; return false; } int input_device_set_channel(const bdaddr_t *src, const bdaddr_t *dst, int psm, GIOChannel *io) { struct input_device *idev = find_device(src, dst); DBG("idev %p psm %d", idev, psm); if (!idev) return -ENOENT; switch (psm) { case L2CAP_PSM_HIDP_CTRL: if (idev->ctrl_io) return -EALREADY; idev->ctrl_io = g_io_channel_ref(io); idev->ctrl_watch = g_io_add_watch(idev->ctrl_io, G_IO_HUP | G_IO_ERR | G_IO_NVAL, ctrl_watch_cb, idev); break; case L2CAP_PSM_HIDP_INTR: if (idev->intr_io) return -EALREADY; idev->intr_io = g_io_channel_ref(io); idev->intr_watch = g_io_add_watch(idev->intr_io, G_IO_HUP | G_IO_ERR | G_IO_NVAL, intr_watch_cb, idev); break; } if (idev->intr_io && idev->ctrl_io) input_device_connadd(idev); return 0; } int input_device_close_channels(const bdaddr_t *src, const bdaddr_t *dst) { struct input_device *idev = find_device(src, dst); if (!idev) return -ENOENT; if (idev->intr_io) g_io_channel_shutdown(idev->intr_io, TRUE, NULL); if (idev->ctrl_io) g_io_channel_shutdown(idev->ctrl_io, TRUE, NULL); return 0; }