381 lines
13 KiB
C
381 lines
13 KiB
C
/* SPDX-License-Identifier: GPL-2.0 */
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/*
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* Wound/Wait Mutexes: blocking mutual exclusion locks with deadlock avoidance
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*
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* Original mutex implementation started by Ingo Molnar:
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*
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* Copyright (C) 2004, 2005, 2006 Red Hat, Inc., Ingo Molnar <mingo@redhat.com>
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*
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* Wait/Die implementation:
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* Copyright (C) 2013 Canonical Ltd.
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* Choice of algorithm:
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* Copyright (C) 2018 WMWare Inc.
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*
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* This file contains the main data structure and API definitions.
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*/
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#ifndef __LINUX_WW_MUTEX_H
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#define __LINUX_WW_MUTEX_H
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#include <linux/mutex.h>
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#include <linux/rtmutex.h>
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#if defined(CONFIG_DEBUG_MUTEXES) || \
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(defined(CONFIG_PREEMPT_RT) && defined(CONFIG_DEBUG_RT_MUTEXES))
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#define DEBUG_WW_MUTEXES
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#endif
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#ifndef CONFIG_PREEMPT_RT
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#define WW_MUTEX_BASE mutex
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#define ww_mutex_base_init(l,n,k) __mutex_init(l,n,k)
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#define ww_mutex_base_trylock(l) mutex_trylock(l)
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#define ww_mutex_base_is_locked(b) mutex_is_locked((b))
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#else
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#define WW_MUTEX_BASE rt_mutex
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#define ww_mutex_base_init(l,n,k) __rt_mutex_init(l,n,k)
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#define ww_mutex_base_trylock(l) rt_mutex_trylock(l)
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#define ww_mutex_base_is_locked(b) rt_mutex_base_is_locked(&(b)->rtmutex)
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#endif
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struct ww_class {
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atomic_long_t stamp;
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struct lock_class_key acquire_key;
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struct lock_class_key mutex_key;
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const char *acquire_name;
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const char *mutex_name;
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unsigned int is_wait_die;
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};
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struct ww_mutex {
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struct WW_MUTEX_BASE base;
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struct ww_acquire_ctx *ctx;
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#ifdef DEBUG_WW_MUTEXES
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struct ww_class *ww_class;
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#endif
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};
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struct ww_acquire_ctx {
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struct task_struct *task;
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unsigned long stamp;
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unsigned int acquired;
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unsigned short wounded;
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unsigned short is_wait_die;
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#ifdef DEBUG_WW_MUTEXES
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unsigned int done_acquire;
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struct ww_class *ww_class;
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void *contending_lock;
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#endif
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#ifdef CONFIG_DEBUG_LOCK_ALLOC
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struct lockdep_map dep_map;
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#endif
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#ifdef CONFIG_DEBUG_WW_MUTEX_SLOWPATH
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unsigned int deadlock_inject_interval;
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unsigned int deadlock_inject_countdown;
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#endif
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};
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#define __WW_CLASS_INITIALIZER(ww_class, _is_wait_die) \
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{ .stamp = ATOMIC_LONG_INIT(0) \
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, .acquire_name = #ww_class "_acquire" \
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, .mutex_name = #ww_class "_mutex" \
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, .is_wait_die = _is_wait_die }
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#define DEFINE_WD_CLASS(classname) \
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struct ww_class classname = __WW_CLASS_INITIALIZER(classname, 1)
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#define DEFINE_WW_CLASS(classname) \
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struct ww_class classname = __WW_CLASS_INITIALIZER(classname, 0)
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/**
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* ww_mutex_init - initialize the w/w mutex
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* @lock: the mutex to be initialized
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* @ww_class: the w/w class the mutex should belong to
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*
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* Initialize the w/w mutex to unlocked state and associate it with the given
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* class. Static define macro for w/w mutex is not provided and this function
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* is the only way to properly initialize the w/w mutex.
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*
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* It is not allowed to initialize an already locked mutex.
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*/
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static inline void ww_mutex_init(struct ww_mutex *lock,
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struct ww_class *ww_class)
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{
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ww_mutex_base_init(&lock->base, ww_class->mutex_name, &ww_class->mutex_key);
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lock->ctx = NULL;
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#ifdef DEBUG_WW_MUTEXES
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lock->ww_class = ww_class;
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#endif
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}
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/**
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* ww_acquire_init - initialize a w/w acquire context
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* @ctx: w/w acquire context to initialize
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* @ww_class: w/w class of the context
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*
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* Initializes an context to acquire multiple mutexes of the given w/w class.
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*
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* Context-based w/w mutex acquiring can be done in any order whatsoever within
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* a given lock class. Deadlocks will be detected and handled with the
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* wait/die logic.
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*
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* Mixing of context-based w/w mutex acquiring and single w/w mutex locking can
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* result in undetected deadlocks and is so forbidden. Mixing different contexts
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* for the same w/w class when acquiring mutexes can also result in undetected
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* deadlocks, and is hence also forbidden. Both types of abuse will be caught by
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* enabling CONFIG_PROVE_LOCKING.
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*
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* Nesting of acquire contexts for _different_ w/w classes is possible, subject
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* to the usual locking rules between different lock classes.
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*
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* An acquire context must be released with ww_acquire_fini by the same task
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* before the memory is freed. It is recommended to allocate the context itself
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* on the stack.
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*/
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static inline void ww_acquire_init(struct ww_acquire_ctx *ctx,
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struct ww_class *ww_class)
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{
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ctx->task = current;
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ctx->stamp = atomic_long_inc_return_relaxed(&ww_class->stamp);
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ctx->acquired = 0;
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ctx->wounded = false;
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ctx->is_wait_die = ww_class->is_wait_die;
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#ifdef DEBUG_WW_MUTEXES
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ctx->ww_class = ww_class;
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ctx->done_acquire = 0;
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ctx->contending_lock = NULL;
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#endif
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#ifdef CONFIG_DEBUG_LOCK_ALLOC
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debug_check_no_locks_freed((void *)ctx, sizeof(*ctx));
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lockdep_init_map(&ctx->dep_map, ww_class->acquire_name,
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&ww_class->acquire_key, 0);
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mutex_acquire(&ctx->dep_map, 0, 0, _RET_IP_);
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#endif
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#ifdef CONFIG_DEBUG_WW_MUTEX_SLOWPATH
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ctx->deadlock_inject_interval = 1;
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ctx->deadlock_inject_countdown = ctx->stamp & 0xf;
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#endif
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}
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/**
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* ww_acquire_done - marks the end of the acquire phase
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* @ctx: the acquire context
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*
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* Marks the end of the acquire phase, any further w/w mutex lock calls using
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* this context are forbidden.
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*
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* Calling this function is optional, it is just useful to document w/w mutex
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* code and clearly designated the acquire phase from actually using the locked
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* data structures.
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*/
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static inline void ww_acquire_done(struct ww_acquire_ctx *ctx)
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{
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#ifdef DEBUG_WW_MUTEXES
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lockdep_assert_held(ctx);
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DEBUG_LOCKS_WARN_ON(ctx->done_acquire);
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ctx->done_acquire = 1;
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#endif
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}
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/**
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* ww_acquire_fini - releases a w/w acquire context
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* @ctx: the acquire context to free
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*
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* Releases a w/w acquire context. This must be called _after_ all acquired w/w
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* mutexes have been released with ww_mutex_unlock.
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*/
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static inline void ww_acquire_fini(struct ww_acquire_ctx *ctx)
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{
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#ifdef CONFIG_DEBUG_LOCK_ALLOC
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mutex_release(&ctx->dep_map, _THIS_IP_);
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#endif
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#ifdef DEBUG_WW_MUTEXES
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DEBUG_LOCKS_WARN_ON(ctx->acquired);
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if (!IS_ENABLED(CONFIG_PROVE_LOCKING))
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/*
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* lockdep will normally handle this,
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* but fail without anyway
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*/
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ctx->done_acquire = 1;
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if (!IS_ENABLED(CONFIG_DEBUG_LOCK_ALLOC))
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/* ensure ww_acquire_fini will still fail if called twice */
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ctx->acquired = ~0U;
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#endif
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}
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/**
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* ww_mutex_lock - acquire the w/w mutex
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* @lock: the mutex to be acquired
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* @ctx: w/w acquire context, or NULL to acquire only a single lock.
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*
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* Lock the w/w mutex exclusively for this task.
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*
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* Deadlocks within a given w/w class of locks are detected and handled with the
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* wait/die algorithm. If the lock isn't immediately available this function
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* will either sleep until it is (wait case). Or it selects the current context
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* for backing off by returning -EDEADLK (die case). Trying to acquire the
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* same lock with the same context twice is also detected and signalled by
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* returning -EALREADY. Returns 0 if the mutex was successfully acquired.
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*
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* In the die case the caller must release all currently held w/w mutexes for
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* the given context and then wait for this contending lock to be available by
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* calling ww_mutex_lock_slow. Alternatively callers can opt to not acquire this
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* lock and proceed with trying to acquire further w/w mutexes (e.g. when
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* scanning through lru lists trying to free resources).
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*
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* The mutex must later on be released by the same task that
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* acquired it. The task may not exit without first unlocking the mutex. Also,
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* kernel memory where the mutex resides must not be freed with the mutex still
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* locked. The mutex must first be initialized (or statically defined) before it
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* can be locked. memset()-ing the mutex to 0 is not allowed. The mutex must be
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* of the same w/w lock class as was used to initialize the acquire context.
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*
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* A mutex acquired with this function must be released with ww_mutex_unlock.
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*/
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extern int /* __must_check */ ww_mutex_lock(struct ww_mutex *lock, struct ww_acquire_ctx *ctx);
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/**
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* ww_mutex_lock_interruptible - acquire the w/w mutex, interruptible
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* @lock: the mutex to be acquired
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* @ctx: w/w acquire context
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*
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* Lock the w/w mutex exclusively for this task.
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*
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* Deadlocks within a given w/w class of locks are detected and handled with the
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* wait/die algorithm. If the lock isn't immediately available this function
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* will either sleep until it is (wait case). Or it selects the current context
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* for backing off by returning -EDEADLK (die case). Trying to acquire the
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* same lock with the same context twice is also detected and signalled by
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* returning -EALREADY. Returns 0 if the mutex was successfully acquired. If a
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* signal arrives while waiting for the lock then this function returns -EINTR.
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*
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* In the die case the caller must release all currently held w/w mutexes for
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* the given context and then wait for this contending lock to be available by
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* calling ww_mutex_lock_slow_interruptible. Alternatively callers can opt to
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* not acquire this lock and proceed with trying to acquire further w/w mutexes
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* (e.g. when scanning through lru lists trying to free resources).
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*
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* The mutex must later on be released by the same task that
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* acquired it. The task may not exit without first unlocking the mutex. Also,
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* kernel memory where the mutex resides must not be freed with the mutex still
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* locked. The mutex must first be initialized (or statically defined) before it
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* can be locked. memset()-ing the mutex to 0 is not allowed. The mutex must be
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* of the same w/w lock class as was used to initialize the acquire context.
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*
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* A mutex acquired with this function must be released with ww_mutex_unlock.
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*/
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extern int __must_check ww_mutex_lock_interruptible(struct ww_mutex *lock,
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struct ww_acquire_ctx *ctx);
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/**
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* ww_mutex_lock_slow - slowpath acquiring of the w/w mutex
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* @lock: the mutex to be acquired
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* @ctx: w/w acquire context
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*
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* Acquires a w/w mutex with the given context after a die case. This function
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* will sleep until the lock becomes available.
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*
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* The caller must have released all w/w mutexes already acquired with the
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* context and then call this function on the contended lock.
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*
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* Afterwards the caller may continue to (re)acquire the other w/w mutexes it
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* needs with ww_mutex_lock. Note that the -EALREADY return code from
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* ww_mutex_lock can be used to avoid locking this contended mutex twice.
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*
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* It is forbidden to call this function with any other w/w mutexes associated
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* with the context held. It is forbidden to call this on anything else than the
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* contending mutex.
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*
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* Note that the slowpath lock acquiring can also be done by calling
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* ww_mutex_lock directly. This function here is simply to help w/w mutex
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* locking code readability by clearly denoting the slowpath.
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*/
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static inline void
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ww_mutex_lock_slow(struct ww_mutex *lock, struct ww_acquire_ctx *ctx)
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{
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int ret;
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#ifdef DEBUG_WW_MUTEXES
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DEBUG_LOCKS_WARN_ON(!ctx->contending_lock);
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#endif
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ret = ww_mutex_lock(lock, ctx);
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(void)ret;
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}
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/**
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* ww_mutex_lock_slow_interruptible - slowpath acquiring of the w/w mutex, interruptible
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* @lock: the mutex to be acquired
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* @ctx: w/w acquire context
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*
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* Acquires a w/w mutex with the given context after a die case. This function
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* will sleep until the lock becomes available and returns 0 when the lock has
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* been acquired. If a signal arrives while waiting for the lock then this
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* function returns -EINTR.
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*
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* The caller must have released all w/w mutexes already acquired with the
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* context and then call this function on the contended lock.
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*
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* Afterwards the caller may continue to (re)acquire the other w/w mutexes it
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* needs with ww_mutex_lock. Note that the -EALREADY return code from
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* ww_mutex_lock can be used to avoid locking this contended mutex twice.
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*
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* It is forbidden to call this function with any other w/w mutexes associated
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* with the given context held. It is forbidden to call this on anything else
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* than the contending mutex.
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*
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* Note that the slowpath lock acquiring can also be done by calling
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* ww_mutex_lock_interruptible directly. This function here is simply to help
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* w/w mutex locking code readability by clearly denoting the slowpath.
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*/
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static inline int __must_check
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ww_mutex_lock_slow_interruptible(struct ww_mutex *lock,
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struct ww_acquire_ctx *ctx)
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{
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#ifdef DEBUG_WW_MUTEXES
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DEBUG_LOCKS_WARN_ON(!ctx->contending_lock);
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#endif
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return ww_mutex_lock_interruptible(lock, ctx);
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}
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extern void ww_mutex_unlock(struct ww_mutex *lock);
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/**
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* ww_mutex_trylock - tries to acquire the w/w mutex without acquire context
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* @lock: mutex to lock
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*
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* Trylocks a mutex without acquire context, so no deadlock detection is
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* possible. Returns 1 if the mutex has been acquired successfully, 0 otherwise.
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*/
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static inline int __must_check ww_mutex_trylock(struct ww_mutex *lock)
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{
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return ww_mutex_base_trylock(&lock->base);
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}
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/***
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* ww_mutex_destroy - mark a w/w mutex unusable
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* @lock: the mutex to be destroyed
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*
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* This function marks the mutex uninitialized, and any subsequent
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* use of the mutex is forbidden. The mutex must not be locked when
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* this function is called.
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*/
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static inline void ww_mutex_destroy(struct ww_mutex *lock)
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{
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#ifndef CONFIG_PREEMPT_RT
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mutex_destroy(&lock->base);
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#endif
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}
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/**
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* ww_mutex_is_locked - is the w/w mutex locked
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* @lock: the mutex to be queried
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*
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* Returns 1 if the mutex is locked, 0 if unlocked.
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*/
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static inline bool ww_mutex_is_locked(struct ww_mutex *lock)
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{
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return ww_mutex_base_is_locked(&lock->base);
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}
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#endif
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