/* * Copyright (C) 2011 Google, Inc. * * Author: * Colin Cross * * This software is licensed under the terms of the GNU General Public * License version 2, as published by the Free Software Foundation, and * may be copied, distributed, and modified under those terms. * * 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. * */ #include #include #include #include static DEFINE_MUTEX(otg_id_lock); static struct plist_head otg_id_plist = PLIST_HEAD_INIT(otg_id_plist); static struct otg_id_notifier_block *otg_id_active; static bool otg_id_cancelling; static bool otg_id_inited; static int otg_id_suspended; static bool otg_id_pending; static void otg_id_cancel(void) { if (otg_id_active) { otg_id_cancelling = true; mutex_unlock(&otg_id_lock); otg_id_active->cancel(otg_id_active); mutex_lock(&otg_id_lock); otg_id_cancelling = false; } } static void __otg_id_notify(void) { int ret = OTG_ID_UNHANDLED; struct otg_id_notifier_block *otg_id_nb; bool proxy_wait = false; if (plist_head_empty(&otg_id_plist)) return; plist_for_each_entry(otg_id_nb, &otg_id_plist, p) { if (proxy_wait) { if (otg_id_nb->proxy_wait) ret = otg_id_nb->proxy_wait(otg_id_nb); } else { ret = otg_id_nb->detect(otg_id_nb); } if (ret == OTG_ID_HANDLED) { otg_id_active = otg_id_nb; return; } if (ret == OTG_ID_PROXY_WAIT) proxy_wait = true; } WARN(1, "otg id event not handled"); otg_id_active = NULL; } int otg_id_init(void) { mutex_lock(&otg_id_lock); otg_id_inited = true; __otg_id_notify(); mutex_unlock(&otg_id_lock); return 0; } late_initcall(otg_id_init); /** * otg_id_register_notifier * @otg_id_nb: notifier block containing priority and callback function * * Register a notifier that will be called on any USB cable state change. * The priority determines the order the callback will be called in, a higher * number will be called first. A callback function needs to determine the * type of USB cable that is connected. If it can determine the type, it * should notify the appropriate drivers (for example, call an otg notifier * with USB_EVENT_VBUS), and return OTG_ID_HANDLED. Once a callback has * returned OTG_ID_HANDLED, it is responsible for calling otg_id_notify() when * the detected USB cable is disconnected. */ int otg_id_register_notifier(struct otg_id_notifier_block *otg_id_nb) { plist_node_init(&otg_id_nb->p, otg_id_nb->priority); mutex_lock(&otg_id_lock); plist_add(&otg_id_nb->p, &otg_id_plist); if (otg_id_inited) { otg_id_cancel(); __otg_id_notify(); } mutex_unlock(&otg_id_lock); return 0; } void otg_id_unregister_notifier(struct otg_id_notifier_block *otg_id_nb) { mutex_lock(&otg_id_lock); plist_del(&otg_id_nb->p, &otg_id_plist); if (otg_id_inited && (otg_id_active == otg_id_nb)) { otg_id_cancel(); __otg_id_notify(); } mutex_unlock(&otg_id_lock); } /** * otg_id_notify * * Notify listeners on any USB cable state change. * * A driver may only call otg_id_notify if it returned OTG_ID_HANDLED the last * time it's notifier was called, and it's cancel function has not been called. */ void otg_id_notify(void) { mutex_lock(&otg_id_lock); if (otg_id_cancelling) goto out; if (otg_id_suspended != 0) { otg_id_pending = true; goto out; } __otg_id_notify(); out: mutex_unlock(&otg_id_lock); } /** * otg_id_suspend * * Mark the otg_id subsystem as going into suspend. From here on out, * any notifications will be deferred until the last otg_id client resumes. * If there is a pending notification when calling this function, it will * return a negative errno and expects that the caller will abort suspend. * Returs 0 on success. */ int otg_id_suspend(void) { int ret = 0; mutex_lock(&otg_id_lock); /* * if there's a pending notification, tell the caller to abort suspend */ if (otg_id_suspended != 0 && otg_id_pending) { pr_info("otg_id: pending notification, should abort suspend\n"); ret = -EBUSY; goto out; } otg_id_suspended++; out: mutex_unlock(&otg_id_lock); return ret; } /** * otg_id_resume * * Inform the otg_id subsystem that a client is resuming. If this is the * last client to be resumed and there's a pending notification, * otg_id_notify() is called. */ void otg_id_resume(void) { mutex_lock(&otg_id_lock); if (WARN(!otg_id_suspended, "unbalanced otg_id_resume\n")) goto out; if (--otg_id_suspended == 0) { if (otg_id_pending) { pr_info("otg_id: had pending notification\n"); otg_id_pending = false; __otg_id_notify(); } } out: mutex_unlock(&otg_id_lock); }