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/*
* RT - Mutexes : simple blocking mutual exclusion locks with PI support
*
* started by Ingo Molnar and Thomas Gleixner .
*
* Copyright ( C ) 2004 - 2006 Red Hat , Inc . , Ingo Molnar < mingo @ redhat . com >
* Copyright ( C ) 2005 - 2006 Timesys Corp . , Thomas Gleixner < tglx @ timesys . com >
* Copyright ( C ) 2005 Kihon Technologies Inc . , Steven Rostedt
* Copyright ( C ) 2006 Esben Nielsen
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*
* See Documentation / rt - mutex - design . txt for details .
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*/
# include <linux/spinlock.h>
# include <linux/module.h>
# include <linux/sched.h>
# include <linux/timer.h>
# include "rtmutex_common.h"
/*
* lock - > owner state tracking :
*
* lock - > owner holds the task_struct pointer of the owner . Bit 0 and 1
* are used to keep track of the " owner is pending " and " lock has
* waiters " state.
*
* owner bit1 bit0
* NULL 0 0 lock is free ( fast acquire possible )
* NULL 0 1 invalid state
* NULL 1 0 Transitional State *
* NULL 1 1 invalid state
* taskpointer 0 0 lock is held ( fast release possible )
* taskpointer 0 1 task is pending owner
* taskpointer 1 0 lock is held and has waiters
* taskpointer 1 1 task is pending owner and lock has more waiters
*
* Pending ownership is assigned to the top ( highest priority )
* waiter of the lock , when the lock is released . The thread is woken
* up and can now take the lock . Until the lock is taken ( bit 0
* cleared ) a competing higher priority thread can steal the lock
* which puts the woken up thread back on the waiters list .
*
* The fast atomic compare exchange based acquire and release is only
* possible when bit 0 and 1 of lock - > owner are 0.
*
* ( * ) There ' s a small time where the owner can be NULL and the
* " lock has waiters " bit is set . This can happen when grabbing the lock .
* To prevent a cmpxchg of the owner releasing the lock , we need to set this
* bit before looking at the lock , hence the reason this is a transitional
* state .
*/
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static void
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rt_mutex_set_owner ( struct rt_mutex * lock , struct task_struct * owner ,
unsigned long mask )
{
unsigned long val = ( unsigned long ) owner | mask ;
if ( rt_mutex_has_waiters ( lock ) )
val | = RT_MUTEX_HAS_WAITERS ;
lock - > owner = ( struct task_struct * ) val ;
}
static inline void clear_rt_mutex_waiters ( struct rt_mutex * lock )
{
lock - > owner = ( struct task_struct * )
( ( unsigned long ) lock - > owner & ~ RT_MUTEX_HAS_WAITERS ) ;
}
static void fixup_rt_mutex_waiters ( struct rt_mutex * lock )
{
if ( ! rt_mutex_has_waiters ( lock ) )
clear_rt_mutex_waiters ( lock ) ;
}
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/*
* We can speed up the acquire / release , if the architecture
* supports cmpxchg and if there ' s no debugging state to be set up
*/
# if defined(__HAVE_ARCH_CMPXCHG) && !defined(CONFIG_DEBUG_RT_MUTEXES)
# define rt_mutex_cmpxchg(l,c,n) (cmpxchg(&l->owner, c, n) == c)
static inline void mark_rt_mutex_waiters ( struct rt_mutex * lock )
{
unsigned long owner , * p = ( unsigned long * ) & lock - > owner ;
do {
owner = * p ;
} while ( cmpxchg ( p , owner , owner | RT_MUTEX_HAS_WAITERS ) ! = owner ) ;
}
# else
# define rt_mutex_cmpxchg(l,c,n) (0)
static inline void mark_rt_mutex_waiters ( struct rt_mutex * lock )
{
lock - > owner = ( struct task_struct * )
( ( unsigned long ) lock - > owner | RT_MUTEX_HAS_WAITERS ) ;
}
# endif
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/*
* Calculate task priority from the waiter list priority
*
* Return task - > normal_prio when the waiter list is empty or when
* the waiter is not allowed to do priority boosting
*/
int rt_mutex_getprio ( struct task_struct * task )
{
if ( likely ( ! task_has_pi_waiters ( task ) ) )
return task - > normal_prio ;
return min ( task_top_pi_waiter ( task ) - > pi_list_entry . prio ,
task - > normal_prio ) ;
}
/*
* Adjust the priority of a task , after its pi_waiters got modified .
*
* This can be both boosting and unboosting . task - > pi_lock must be held .
*/
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static void __rt_mutex_adjust_prio ( struct task_struct * task )
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{
int prio = rt_mutex_getprio ( task ) ;
if ( task - > prio ! = prio )
rt_mutex_setprio ( task , prio ) ;
}
/*
* Adjust task priority ( undo boosting ) . Called from the exit path of
* rt_mutex_slowunlock ( ) and rt_mutex_slowlock ( ) .
*
* ( Note : We do this outside of the protection of lock - > wait_lock to
* allow the lock to be taken while or before we readjust the priority
* of task . We do not use the spin_xx_mutex ( ) variants here as we are
* outside of the debug path . )
*/
static void rt_mutex_adjust_prio ( struct task_struct * task )
{
unsigned long flags ;
spin_lock_irqsave ( & task - > pi_lock , flags ) ;
__rt_mutex_adjust_prio ( task ) ;
spin_unlock_irqrestore ( & task - > pi_lock , flags ) ;
}
/*
* Max number of times we ' ll walk the boosting chain :
*/
int max_lock_depth = 1024 ;
/*
* Adjust the priority chain . Also used for deadlock detection .
* Decreases task ' s usage by one - may thus free the task .
* Returns 0 or - EDEADLK .
*/
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static int rt_mutex_adjust_prio_chain ( struct task_struct * task ,
int deadlock_detect ,
struct rt_mutex * orig_lock ,
struct rt_mutex_waiter * orig_waiter ,
struct task_struct * top_task )
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{
struct rt_mutex * lock ;
struct rt_mutex_waiter * waiter , * top_waiter = orig_waiter ;
int detect_deadlock , ret = 0 , depth = 0 ;
unsigned long flags ;
detect_deadlock = debug_rt_mutex_detect_deadlock ( orig_waiter ,
deadlock_detect ) ;
/*
* The ( de ) boosting is a step by step approach with a lot of
* pitfalls . We want this to be preemptible and we want hold a
* maximum of two locks per step . So we have to check
* carefully whether things change under us .
*/
again :
if ( + + depth > max_lock_depth ) {
static int prev_max ;
/*
* Print this only once . If the admin changes the limit ,
* print a new message when reaching the limit again .
*/
if ( prev_max ! = max_lock_depth ) {
prev_max = max_lock_depth ;
printk ( KERN_WARNING " Maximum lock depth %d reached "
" task: %s (%d) \n " , max_lock_depth ,
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top_task - > comm , task_pid_nr ( top_task ) ) ;
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}
put_task_struct ( task ) ;
return deadlock_detect ? - EDEADLK : 0 ;
}
retry :
/*
* Task can not go away as we did a get_task ( ) before !
*/
spin_lock_irqsave ( & task - > pi_lock , flags ) ;
waiter = task - > pi_blocked_on ;
/*
* Check whether the end of the boosting chain has been
* reached or the state of the chain has changed while we
* dropped the locks .
*/
if ( ! waiter | | ! waiter - > task )
goto out_unlock_pi ;
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/*
* Check the orig_waiter state . After we dropped the locks ,
* the previous owner of the lock might have released the lock
* and made us the pending owner :
*/
if ( orig_waiter & & ! orig_waiter - > task )
goto out_unlock_pi ;
/*
* Drop out , when the task has no waiters . Note ,
* top_waiter can be NULL , when we are in the deboosting
* mode !
*/
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if ( top_waiter & & ( ! task_has_pi_waiters ( task ) | |
top_waiter ! = task_top_pi_waiter ( task ) ) )
goto out_unlock_pi ;
/*
* When deadlock detection is off then we check , if further
* priority adjustment is necessary .
*/
if ( ! detect_deadlock & & waiter - > list_entry . prio = = task - > prio )
goto out_unlock_pi ;
lock = waiter - > lock ;
if ( ! spin_trylock ( & lock - > wait_lock ) ) {
spin_unlock_irqrestore ( & task - > pi_lock , flags ) ;
cpu_relax ( ) ;
goto retry ;
}
/* Deadlock detection */
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if ( lock = = orig_lock | | rt_mutex_owner ( lock ) = = top_task ) {
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debug_rt_mutex_deadlock ( deadlock_detect , orig_waiter , lock ) ;
spin_unlock ( & lock - > wait_lock ) ;
ret = deadlock_detect ? - EDEADLK : 0 ;
goto out_unlock_pi ;
}
top_waiter = rt_mutex_top_waiter ( lock ) ;
/* Requeue the waiter */
plist_del ( & waiter - > list_entry , & lock - > wait_list ) ;
waiter - > list_entry . prio = task - > prio ;
plist_add ( & waiter - > list_entry , & lock - > wait_list ) ;
/* Release the task */
spin_unlock_irqrestore ( & task - > pi_lock , flags ) ;
put_task_struct ( task ) ;
/* Grab the next task */
task = rt_mutex_owner ( lock ) ;
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get_task_struct ( task ) ;
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spin_lock_irqsave ( & task - > pi_lock , flags ) ;
if ( waiter = = rt_mutex_top_waiter ( lock ) ) {
/* Boost the owner */
plist_del ( & top_waiter - > pi_list_entry , & task - > pi_waiters ) ;
waiter - > pi_list_entry . prio = waiter - > list_entry . prio ;
plist_add ( & waiter - > pi_list_entry , & task - > pi_waiters ) ;
__rt_mutex_adjust_prio ( task ) ;
} else if ( top_waiter = = waiter ) {
/* Deboost the owner */
plist_del ( & waiter - > pi_list_entry , & task - > pi_waiters ) ;
waiter = rt_mutex_top_waiter ( lock ) ;
waiter - > pi_list_entry . prio = waiter - > list_entry . prio ;
plist_add ( & waiter - > pi_list_entry , & task - > pi_waiters ) ;
__rt_mutex_adjust_prio ( task ) ;
}
spin_unlock_irqrestore ( & task - > pi_lock , flags ) ;
top_waiter = rt_mutex_top_waiter ( lock ) ;
spin_unlock ( & lock - > wait_lock ) ;
if ( ! detect_deadlock & & waiter ! = top_waiter )
goto out_put_task ;
goto again ;
out_unlock_pi :
spin_unlock_irqrestore ( & task - > pi_lock , flags ) ;
out_put_task :
put_task_struct ( task ) ;
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return ret ;
}
/*
* Optimization : check if we can steal the lock from the
* assigned pending owner [ which might not have taken the
* lock yet ] :
*/
static inline int try_to_steal_lock ( struct rt_mutex * lock )
{
struct task_struct * pendowner = rt_mutex_owner ( lock ) ;
struct rt_mutex_waiter * next ;
unsigned long flags ;
if ( ! rt_mutex_owner_pending ( lock ) )
return 0 ;
if ( pendowner = = current )
return 1 ;
spin_lock_irqsave ( & pendowner - > pi_lock , flags ) ;
if ( current - > prio > = pendowner - > prio ) {
spin_unlock_irqrestore ( & pendowner - > pi_lock , flags ) ;
return 0 ;
}
/*
* Check if a waiter is enqueued on the pending owners
* pi_waiters list . Remove it and readjust pending owners
* priority .
*/
if ( likely ( ! rt_mutex_has_waiters ( lock ) ) ) {
spin_unlock_irqrestore ( & pendowner - > pi_lock , flags ) ;
return 1 ;
}
/* No chain handling, pending owner is not blocked on anything: */
next = rt_mutex_top_waiter ( lock ) ;
plist_del ( & next - > pi_list_entry , & pendowner - > pi_waiters ) ;
__rt_mutex_adjust_prio ( pendowner ) ;
spin_unlock_irqrestore ( & pendowner - > pi_lock , flags ) ;
/*
* We are going to steal the lock and a waiter was
* enqueued on the pending owners pi_waiters queue . So
* we have to enqueue this waiter into
* current - > pi_waiters list . This covers the case ,
* where current is boosted because it holds another
* lock and gets unboosted because the booster is
* interrupted , so we would delay a waiter with higher
* priority as current - > normal_prio .
*
* Note : in the rare case of a SCHED_OTHER task changing
* its priority and thus stealing the lock , next - > task
* might be current :
*/
if ( likely ( next - > task ! = current ) ) {
spin_lock_irqsave ( & current - > pi_lock , flags ) ;
plist_add ( & next - > pi_list_entry , & current - > pi_waiters ) ;
__rt_mutex_adjust_prio ( current ) ;
spin_unlock_irqrestore ( & current - > pi_lock , flags ) ;
}
return 1 ;
}
/*
* Try to take an rt - mutex
*
* This fails
* - when the lock has a real owner
* - when a different pending owner exists and has higher priority than current
*
* Must be called with lock - > wait_lock held .
*/
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static int try_to_take_rt_mutex ( struct rt_mutex * lock )
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{
/*
* We have to be careful here if the atomic speedups are
* enabled , such that , when
* - no other waiter is on the lock
* - the lock has been released since we did the cmpxchg
* the lock can be released or taken while we are doing the
* checks and marking the lock with RT_MUTEX_HAS_WAITERS .
*
* The atomic acquire / release aware variant of
* mark_rt_mutex_waiters uses a cmpxchg loop . After setting
* the WAITERS bit , the atomic release / acquire can not
* happen anymore and lock - > wait_lock protects us from the
* non - atomic case .
*
* Note , that this might set lock - > owner =
* RT_MUTEX_HAS_WAITERS in the case the lock is not contended
* any more . This is fixed up when we take the ownership .
* This is the transitional state explained at the top of this file .
*/
mark_rt_mutex_waiters ( lock ) ;
if ( rt_mutex_owner ( lock ) & & ! try_to_steal_lock ( lock ) )
return 0 ;
/* We got the lock. */
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debug_rt_mutex_lock ( lock ) ;
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rt_mutex_set_owner ( lock , current , 0 ) ;
rt_mutex_deadlock_account_lock ( lock , current ) ;
return 1 ;
}
/*
* Task blocks on lock .
*
* Prepare waiter and propagate pi chain
*
* This must be called with lock - > wait_lock held .
*/
static int task_blocks_on_rt_mutex ( struct rt_mutex * lock ,
struct rt_mutex_waiter * waiter ,
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int detect_deadlock )
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{
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struct task_struct * owner = rt_mutex_owner ( lock ) ;
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struct rt_mutex_waiter * top_waiter = waiter ;
unsigned long flags ;
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int chain_walk = 0 , res ;
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spin_lock_irqsave ( & current - > pi_lock , flags ) ;
__rt_mutex_adjust_prio ( current ) ;
waiter - > task = current ;
waiter - > lock = lock ;
plist_node_init ( & waiter - > list_entry , current - > prio ) ;
plist_node_init ( & waiter - > pi_list_entry , current - > prio ) ;
/* Get the top priority waiter on the lock */
if ( rt_mutex_has_waiters ( lock ) )
top_waiter = rt_mutex_top_waiter ( lock ) ;
plist_add ( & waiter - > list_entry , & lock - > wait_list ) ;
current - > pi_blocked_on = waiter ;
spin_unlock_irqrestore ( & current - > pi_lock , flags ) ;
if ( waiter = = rt_mutex_top_waiter ( lock ) ) {
spin_lock_irqsave ( & owner - > pi_lock , flags ) ;
plist_del ( & top_waiter - > pi_list_entry , & owner - > pi_waiters ) ;
plist_add ( & waiter - > pi_list_entry , & owner - > pi_waiters ) ;
__rt_mutex_adjust_prio ( owner ) ;
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if ( owner - > pi_blocked_on )
chain_walk = 1 ;
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spin_unlock_irqrestore ( & owner - > pi_lock , flags ) ;
}
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else if ( debug_rt_mutex_detect_deadlock ( waiter , detect_deadlock ) )
chain_walk = 1 ;
if ( ! chain_walk )
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return 0 ;
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/*
* The owner can ' t disappear while holding a lock ,
* so the owner struct is protected by wait_lock .
* Gets dropped in rt_mutex_adjust_prio_chain ( ) !
*/
get_task_struct ( owner ) ;
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spin_unlock ( & lock - > wait_lock ) ;
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res = rt_mutex_adjust_prio_chain ( owner , detect_deadlock , lock , waiter ,
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current ) ;
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spin_lock ( & lock - > wait_lock ) ;
return res ;
}
/*
* Wake up the next waiter on the lock .
*
* Remove the top waiter from the current tasks waiter list and from
* the lock waiter list . Set it as pending owner . Then wake it up .
*
* Called with lock - > wait_lock held .
*/
static void wakeup_next_waiter ( struct rt_mutex * lock )
{
struct rt_mutex_waiter * waiter ;
struct task_struct * pendowner ;
unsigned long flags ;
spin_lock_irqsave ( & current - > pi_lock , flags ) ;
waiter = rt_mutex_top_waiter ( lock ) ;
plist_del ( & waiter - > list_entry , & lock - > wait_list ) ;
/*
* Remove it from current - > pi_waiters . We do not adjust a
* possible priority boost right now . We execute wakeup in the
* boosted mode and go back to normal after releasing
* lock - > wait_lock .
*/
plist_del ( & waiter - > pi_list_entry , & current - > pi_waiters ) ;
pendowner = waiter - > task ;
waiter - > task = NULL ;
rt_mutex_set_owner ( lock , pendowner , RT_MUTEX_OWNER_PENDING ) ;
spin_unlock_irqrestore ( & current - > pi_lock , flags ) ;
/*
* Clear the pi_blocked_on variable and enqueue a possible
* waiter into the pi_waiters list of the pending owner . This
* prevents that in case the pending owner gets unboosted a
* waiter with higher priority than pending - owner - > normal_prio
* is blocked on the unboosted ( pending ) owner .
*/
spin_lock_irqsave ( & pendowner - > pi_lock , flags ) ;
WARN_ON ( ! pendowner - > pi_blocked_on ) ;
WARN_ON ( pendowner - > pi_blocked_on ! = waiter ) ;
WARN_ON ( pendowner - > pi_blocked_on - > lock ! = lock ) ;
pendowner - > pi_blocked_on = NULL ;
if ( rt_mutex_has_waiters ( lock ) ) {
struct rt_mutex_waiter * next ;
next = rt_mutex_top_waiter ( lock ) ;
plist_add ( & next - > pi_list_entry , & pendowner - > pi_waiters ) ;
}
spin_unlock_irqrestore ( & pendowner - > pi_lock , flags ) ;
wake_up_process ( pendowner ) ;
}
/*
* Remove a waiter from a lock
*
* Must be called with lock - > wait_lock held
*/
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static void remove_waiter ( struct rt_mutex * lock ,
struct rt_mutex_waiter * waiter )
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{
int first = ( waiter = = rt_mutex_top_waiter ( lock ) ) ;
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struct task_struct * owner = rt_mutex_owner ( lock ) ;
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unsigned long flags ;
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int chain_walk = 0 ;
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spin_lock_irqsave ( & current - > pi_lock , flags ) ;
plist_del ( & waiter - > list_entry , & lock - > wait_list ) ;
waiter - > task = NULL ;
current - > pi_blocked_on = NULL ;
spin_unlock_irqrestore ( & current - > pi_lock , flags ) ;
if ( first & & owner ! = current ) {
spin_lock_irqsave ( & owner - > pi_lock , flags ) ;
plist_del ( & waiter - > pi_list_entry , & owner - > pi_waiters ) ;
if ( rt_mutex_has_waiters ( lock ) ) {
struct rt_mutex_waiter * next ;
next = rt_mutex_top_waiter ( lock ) ;
plist_add ( & next - > pi_list_entry , & owner - > pi_waiters ) ;
}
__rt_mutex_adjust_prio ( owner ) ;
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if ( owner - > pi_blocked_on )
chain_walk = 1 ;
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spin_unlock_irqrestore ( & owner - > pi_lock , flags ) ;
}
WARN_ON ( ! plist_node_empty ( & waiter - > pi_list_entry ) ) ;
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if ( ! chain_walk )
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return ;
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/* gets dropped in rt_mutex_adjust_prio_chain()! */
get_task_struct ( owner ) ;
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spin_unlock ( & lock - > wait_lock ) ;
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rt_mutex_adjust_prio_chain ( owner , 0 , lock , NULL , current ) ;
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spin_lock ( & lock - > wait_lock ) ;
}
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/*
* Recheck the pi chain , in case we got a priority setting
*
* Called from sched_setscheduler
*/
void rt_mutex_adjust_pi ( struct task_struct * task )
{
struct rt_mutex_waiter * waiter ;
unsigned long flags ;
spin_lock_irqsave ( & task - > pi_lock , flags ) ;
waiter = task - > pi_blocked_on ;
if ( ! waiter | | waiter - > list_entry . prio = = task - > prio ) {
spin_unlock_irqrestore ( & task - > pi_lock , flags ) ;
return ;
}
spin_unlock_irqrestore ( & task - > pi_lock , flags ) ;
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/* gets dropped in rt_mutex_adjust_prio_chain()! */
get_task_struct ( task ) ;
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rt_mutex_adjust_prio_chain ( task , 0 , NULL , NULL , task ) ;
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}
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/*
* Slow path lock function :
*/
static int __sched
rt_mutex_slowlock ( struct rt_mutex * lock , int state ,
struct hrtimer_sleeper * timeout ,
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int detect_deadlock )
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{
struct rt_mutex_waiter waiter ;
int ret = 0 ;
debug_rt_mutex_init_waiter ( & waiter ) ;
waiter . task = NULL ;
spin_lock ( & lock - > wait_lock ) ;
/* Try to acquire the lock again: */
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if ( try_to_take_rt_mutex ( lock ) ) {
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spin_unlock ( & lock - > wait_lock ) ;
return 0 ;
}
set_current_state ( state ) ;
/* Setup the timer, when timeout != NULL */
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if ( unlikely ( timeout ) ) {
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hrtimer_start ( & timeout - > timer , timeout - > timer . expires ,
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HRTIMER_MODE_ABS ) ;
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if ( ! hrtimer_active ( & timeout - > timer ) )
timeout - > task = NULL ;
}
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for ( ; ; ) {
/* Try to acquire the lock: */
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if ( try_to_take_rt_mutex ( lock ) )
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break ;
/*
* TASK_INTERRUPTIBLE checks for signals and
* timeout . Ignored otherwise .
*/
if ( unlikely ( state = = TASK_INTERRUPTIBLE ) ) {
/* Signal pending? */
if ( signal_pending ( current ) )
ret = - EINTR ;
if ( timeout & & ! timeout - > task )
ret = - ETIMEDOUT ;
if ( ret )
break ;
}
/*
* waiter . task is NULL the first time we come here and
* when we have been woken up by the previous owner
* but the lock got stolen by a higher prio task .
*/
if ( ! waiter . task ) {
ret = task_blocks_on_rt_mutex ( lock , & waiter ,
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detect_deadlock ) ;
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/*
* If we got woken up by the owner then start loop
* all over without going into schedule to try
* to get the lock now :
*/
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if ( unlikely ( ! waiter . task ) ) {
/*
* Reset the return value . We might
* have returned with - EDEADLK and the
* owner released the lock while we
* were walking the pi chain .
*/
ret = 0 ;
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continue ;
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}
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if ( unlikely ( ret ) )
break ;
}
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spin_unlock ( & lock - > wait_lock ) ;
debug_rt_mutex_print_deadlock ( & waiter ) ;
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if ( waiter . task )
schedule_rt_mutex ( lock ) ;
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spin_lock ( & lock - > wait_lock ) ;
set_current_state ( state ) ;
}
set_current_state ( TASK_RUNNING ) ;
if ( unlikely ( waiter . task ) )
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remove_waiter ( lock , & waiter ) ;
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/*
* try_to_take_rt_mutex ( ) sets the waiter bit
* unconditionally . We might have to fix that up .
*/
fixup_rt_mutex_waiters ( lock ) ;
spin_unlock ( & lock - > wait_lock ) ;
/* Remove pending timer: */
if ( unlikely ( timeout ) )
hrtimer_cancel ( & timeout - > timer ) ;
/*
* Readjust priority , when we did not get the lock . We might
* have been the pending owner and boosted . Since we did not
* take the lock , the PI boost has to go .
*/
if ( unlikely ( ret ) )
rt_mutex_adjust_prio ( current ) ;
debug_rt_mutex_free_waiter ( & waiter ) ;
return ret ;
}
/*
* Slow path try - lock function :
*/
static inline int
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rt_mutex_slowtrylock ( struct rt_mutex * lock )
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{
int ret = 0 ;
spin_lock ( & lock - > wait_lock ) ;
if ( likely ( rt_mutex_owner ( lock ) ! = current ) ) {
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ret = try_to_take_rt_mutex ( lock ) ;
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/*
* try_to_take_rt_mutex ( ) sets the lock waiters
* bit unconditionally . Clean this up .
*/
fixup_rt_mutex_waiters ( lock ) ;
}
spin_unlock ( & lock - > wait_lock ) ;
return ret ;
}
/*
* Slow path to release a rt - mutex :
*/
static void __sched
rt_mutex_slowunlock ( struct rt_mutex * lock )
{
spin_lock ( & lock - > wait_lock ) ;
debug_rt_mutex_unlock ( lock ) ;
rt_mutex_deadlock_account_unlock ( current ) ;
if ( ! rt_mutex_has_waiters ( lock ) ) {
lock - > owner = NULL ;
spin_unlock ( & lock - > wait_lock ) ;
return ;
}
wakeup_next_waiter ( lock ) ;
spin_unlock ( & lock - > wait_lock ) ;
/* Undo pi boosting if necessary: */
rt_mutex_adjust_prio ( current ) ;
}
/*
* debug aware fast / slowpath lock , trylock , unlock
*
* The atomic acquire / release ops are compiled away , when either the
* architecture does not support cmpxchg or when debugging is enabled .
*/
static inline int
rt_mutex_fastlock ( struct rt_mutex * lock , int state ,
int detect_deadlock ,
int ( * slowfn ) ( struct rt_mutex * lock , int state ,
struct hrtimer_sleeper * timeout ,
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int detect_deadlock ) )
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{
if ( ! detect_deadlock & & likely ( rt_mutex_cmpxchg ( lock , NULL , current ) ) ) {
rt_mutex_deadlock_account_lock ( lock , current ) ;
return 0 ;
} else
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return slowfn ( lock , state , NULL , detect_deadlock ) ;
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}
static inline int
rt_mutex_timed_fastlock ( struct rt_mutex * lock , int state ,
struct hrtimer_sleeper * timeout , int detect_deadlock ,
int ( * slowfn ) ( struct rt_mutex * lock , int state ,
struct hrtimer_sleeper * timeout ,
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int detect_deadlock ) )
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{
if ( ! detect_deadlock & & likely ( rt_mutex_cmpxchg ( lock , NULL , current ) ) ) {
rt_mutex_deadlock_account_lock ( lock , current ) ;
return 0 ;
} else
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return slowfn ( lock , state , timeout , detect_deadlock ) ;
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}
static inline int
rt_mutex_fasttrylock ( struct rt_mutex * lock ,
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int ( * slowfn ) ( struct rt_mutex * lock ) )
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{
if ( likely ( rt_mutex_cmpxchg ( lock , NULL , current ) ) ) {
rt_mutex_deadlock_account_lock ( lock , current ) ;
return 1 ;
}
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return slowfn ( lock ) ;
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}
static inline void
rt_mutex_fastunlock ( struct rt_mutex * lock ,
void ( * slowfn ) ( struct rt_mutex * lock ) )
{
if ( likely ( rt_mutex_cmpxchg ( lock , current , NULL ) ) )
rt_mutex_deadlock_account_unlock ( current ) ;
else
slowfn ( lock ) ;
}
/**
* rt_mutex_lock - lock a rt_mutex
*
* @ lock : the rt_mutex to be locked
*/
void __sched rt_mutex_lock ( struct rt_mutex * lock )
{
might_sleep ( ) ;
rt_mutex_fastlock ( lock , TASK_UNINTERRUPTIBLE , 0 , rt_mutex_slowlock ) ;
}
EXPORT_SYMBOL_GPL ( rt_mutex_lock ) ;
/**
* rt_mutex_lock_interruptible - lock a rt_mutex interruptible
*
* @ lock : the rt_mutex to be locked
* @ detect_deadlock : deadlock detection on / off
*
* Returns :
* 0 on success
* - EINTR when interrupted by a signal
* - EDEADLK when the lock would deadlock ( when deadlock detection is on )
*/
int __sched rt_mutex_lock_interruptible ( struct rt_mutex * lock ,
int detect_deadlock )
{
might_sleep ( ) ;
return rt_mutex_fastlock ( lock , TASK_INTERRUPTIBLE ,
detect_deadlock , rt_mutex_slowlock ) ;
}
EXPORT_SYMBOL_GPL ( rt_mutex_lock_interruptible ) ;
/**
* rt_mutex_lock_interruptible_ktime - lock a rt_mutex interruptible
* the timeout structure is provided
* by the caller
*
* @ lock : the rt_mutex to be locked
* @ timeout : timeout structure or NULL ( no timeout )
* @ detect_deadlock : deadlock detection on / off
*
* Returns :
* 0 on success
* - EINTR when interrupted by a signal
* - ETIMEOUT when the timeout expired
* - EDEADLK when the lock would deadlock ( when deadlock detection is on )
*/
int
rt_mutex_timed_lock ( struct rt_mutex * lock , struct hrtimer_sleeper * timeout ,
int detect_deadlock )
{
might_sleep ( ) ;
return rt_mutex_timed_fastlock ( lock , TASK_INTERRUPTIBLE , timeout ,
detect_deadlock , rt_mutex_slowlock ) ;
}
EXPORT_SYMBOL_GPL ( rt_mutex_timed_lock ) ;
/**
* rt_mutex_trylock - try to lock a rt_mutex
*
* @ lock : the rt_mutex to be locked
*
* Returns 1 on success and 0 on contention
*/
int __sched rt_mutex_trylock ( struct rt_mutex * lock )
{
return rt_mutex_fasttrylock ( lock , rt_mutex_slowtrylock ) ;
}
EXPORT_SYMBOL_GPL ( rt_mutex_trylock ) ;
/**
* rt_mutex_unlock - unlock a rt_mutex
*
* @ lock : the rt_mutex to be unlocked
*/
void __sched rt_mutex_unlock ( struct rt_mutex * lock )
{
rt_mutex_fastunlock ( lock , rt_mutex_slowunlock ) ;
}
EXPORT_SYMBOL_GPL ( rt_mutex_unlock ) ;
/***
* rt_mutex_destroy - mark a mutex unusable
* @ lock : the mutex to be destroyed
*
* This function marks the mutex uninitialized , and any subsequent
* use of the mutex is forbidden . The mutex must not be locked when
* this function is called .
*/
void rt_mutex_destroy ( struct rt_mutex * lock )
{
WARN_ON ( rt_mutex_is_locked ( lock ) ) ;
# ifdef CONFIG_DEBUG_RT_MUTEXES
lock - > magic = NULL ;
# endif
}
EXPORT_SYMBOL_GPL ( rt_mutex_destroy ) ;
/**
* __rt_mutex_init - initialize the rt lock
*
* @ lock : the rt lock to be initialized
*
* Initialize the rt lock to unlocked state .
*
* Initializing of a locked rt lock is not allowed
*/
void __rt_mutex_init ( struct rt_mutex * lock , const char * name )
{
lock - > owner = NULL ;
spin_lock_init ( & lock - > wait_lock ) ;
plist_head_init ( & lock - > wait_list , & lock - > wait_lock ) ;
debug_rt_mutex_init ( lock , name ) ;
}
EXPORT_SYMBOL_GPL ( __rt_mutex_init ) ;
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/**
* rt_mutex_init_proxy_locked - initialize and lock a rt_mutex on behalf of a
* proxy owner
*
* @ lock : the rt_mutex to be locked
* @ proxy_owner : the task to set as owner
*
* No locking . Caller has to do serializing itself
* Special API call for PI - futex support
*/
void rt_mutex_init_proxy_locked ( struct rt_mutex * lock ,
struct task_struct * proxy_owner )
{
__rt_mutex_init ( lock , NULL ) ;
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debug_rt_mutex_proxy_lock ( lock , proxy_owner ) ;
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rt_mutex_set_owner ( lock , proxy_owner , 0 ) ;
rt_mutex_deadlock_account_lock ( lock , proxy_owner ) ;
}
/**
* rt_mutex_proxy_unlock - release a lock on behalf of owner
*
* @ lock : the rt_mutex to be locked
*
* No locking . Caller has to do serializing itself
* Special API call for PI - futex support
*/
void rt_mutex_proxy_unlock ( struct rt_mutex * lock ,
struct task_struct * proxy_owner )
{
debug_rt_mutex_proxy_unlock ( lock ) ;
rt_mutex_set_owner ( lock , NULL , 0 ) ;
rt_mutex_deadlock_account_unlock ( proxy_owner ) ;
}
/**
* rt_mutex_next_owner - return the next owner of the lock
*
* @ lock : the rt lock query
*
* Returns the next owner of the lock or NULL
*
* Caller has to serialize against other accessors to the lock
* itself .
*
* Special API call for PI - futex support
*/
struct task_struct * rt_mutex_next_owner ( struct rt_mutex * lock )
{
if ( ! rt_mutex_has_waiters ( lock ) )
return NULL ;
return rt_mutex_top_waiter ( lock ) - > task ;
}