focal (2) _umtx_op.2freebsd.gz
NAME
_umtx_op — interface for implementation of userspace threading synchronization primitives
LIBRARY
Standard C Library (libc, -lc)
SYNOPSIS
#include <sys/types.h>
#include <sys/umtx.h>
int
_umtx_op(void *obj, int op, u_long val, void *uaddr, void *uaddr2);
DESCRIPTION
The _umtx_op() system call provides kernel support for userspace implementation of the threading
synchronization primitives. The 1:1 Threading Library (libthr, -lthr) uses the syscall to implement IEEE
Std 1003.1-2001 (“POSIX.1”) pthread locks, like mutexes, condition variables and so on.
STRUCTURES
The operations, performed by the _umtx_op() syscall, operate on userspace objects which are described by
the following structures. Reserved fields and paddings are omitted. All objects require ABI-mandated
alignment, but this is not currently enforced consistently on all architectures.
The following flags are defined for flag fields of all structures:
USYNC_PROCESS_SHARED
Allow selection of the process-shared sleep queue for the thread sleep container, when the lock
ownership cannot be granted immediately, and the operation must sleep. The process-shared or
process-private sleep queue is selected based on the attributes of the memory mapping which
contains the first byte of the structure, see mmap(2). Otherwise, if the flag is not specified,
the process-private sleep queue is selected regardless of the memory mapping attributes, as an
optimization.
See the SLEEP QUEUES subsection below for more details on sleep queues.
Mutex
struct umutex {
volatile lwpid_t m_owner;
uint32_t m_flags;
uint32_t m_ceilings[2];
uintptr_t m_rb_lnk;
};
The m_owner field is the actual lock. It contains either the thread identifier of the lock
owner in the locked state, or zero when the lock is unowned. The highest bit set indicates
that there is contention on the lock. The constants are defined for special values:
UMUTEX_UNOWNED
Zero, the value stored in the unowned lock.
UMUTEX_CONTESTED
The contenion indicator.
UMUTEX_RB_OWNERDEAD
A thread owning the robust mutex terminated. The mutex is in unlocked state.
UMUTEX_RB_NOTRECOV
The robust mutex is in a non-recoverable state. It cannot be locked until
reinitialized.
The m_flags field may contain the following umutex-specific flags, in addition to the common
flags:
UMUTEX_PRIO_INHERIT
Mutex implements Priority Inheritance protocol.
UMUTEX_PRIO_PROTECT
Mutex implements Priority Protection protocol.
UMUTEX_ROBUST
Mutex is robust, as described in the ROBUST UMUTEXES section below.
UMUTEX_NONCONSISTENT
Robust mutex is in a transient non-consistent state. Not used by kernel.
In the manual page, mutexes not having UMUTEX_PRIO_INHERIT and UMUTEX_PRIO_PROTECT flags set,
are called normal mutexes. Each type of mutex (normal, priority-inherited, and
priority-protected) has a separate sleep queue associated with the given key.
For priority protected mutexes, the m_ceilings array contains priority ceiling values. The
m_ceilings[0] is the ceiling value for the mutex, as specified by IEEE Std 1003.1-2008
(“POSIX.1”) for the Priority Protected mutex protocol. The m_ceilings[1] is used only for
the unlock of a priority protected mutex, when unlock is done in an order other than the
reversed lock order. In this case, m_ceilings[1] must contain the ceiling value for the last
locked priority protected mutex, for proper priority reassignment. If, instead, the
unlocking mutex was the last priority propagated mutex locked by the thread, m_ceilings[1]
should contain -1. This is required because kernel does not maintain the ordered lock list.
Condition variable
struct ucond {
volatile uint32_t c_has_waiters;
uint32_t c_flags;
uint32_t c_clockid;
};
A non-zero c_has_waiters value indicates that there are in-kernel waiters for the condition,
executing the UMTX_OP_CV_WAIT request.
The c_flags field contains flags. Only the common flags (USYNC_PROCESS_SHARED) are defined
for ucond.
The c_clockid member provides the clock identifier to use for timeout, when the
UMTX_OP_CV_WAIT request has both the CVWAIT_CLOCKID flag and the timeout specified. Valid
clock identifiers are a subset of those for clock_gettime(2):
• CLOCK_MONOTONIC
• CLOCK_MONOTONIC_FAST
• CLOCK_MONOTONIC_PRECISE
• CLOCK_PROF
• CLOCK_REALTIME
• CLOCK_REALTIME_FAST
• CLOCK_REALTIME_PRECISE
• CLOCK_SECOND
• CLOCK_UPTIME
• CLOCK_UPTIME_FAST
• CLOCK_UPTIME_PRECISE
• CLOCK_VIRTUAL
Reader/writer lock
struct urwlock {
volatile int32_t rw_state;
uint32_t rw_flags;
uint32_t rw_blocked_readers;
uint32_t rw_blocked_writers;
};
The rw_state field is the actual lock. It contains both the flags and counter of the read
locks which were granted. Names of the rw_state bits are following:
URWLOCK_WRITE_OWNER
Write lock was granted.
URWLOCK_WRITE_WAITERS
There are write lock waiters.
URWLOCK_READ_WAITERS
There are read lock waiters.
URWLOCK_READER_COUNT(c)
Returns the count of currently granted read locks.
At any given time there may be only one thread to which the writer lock is granted on the
struct rwlock, and no threads are granted read lock. Or, at the given time, up to
URWLOCK_MAX_READERS threads may be granted the read lock simultaneously, but write lock is
not granted to any thread.
The following flags for the rw_flags member of struct urwlock are defined, in addition to the
common flags:
URWLOCK_PREFER_READER
If specified, immediately grant read lock requests when urwlock is already read-
locked, even in presence of unsatisfied write lock requests. By default, if there is
a write lock waiter, further read requests are not granted, to prevent unfair write
lock waiter starvation.
The rw_blocked_readers and rw_blocked_writers members contain the count of threads which are
sleeping in kernel, waiting for the associated request type to be granted. The fields are
used by kernel to update the URWLOCK_READ_WAITERS and URWLOCK_WRITE_WAITERS flags of the
rw_state lock after requesting thread was woken up.
Semaphore
struct _usem2 {
volatile uint32_t _count;
uint32_t _flags;
};
The _count word represents a counting semaphore. A non-zero value indicates an unlocked
(posted) semaphore, while zero represents the locked state. The maximal supported semaphore
count is USEM_MAX_COUNT.
The _count word, besides the counter of posts (unlocks), also contains the USEM_HAS_WAITERS
bit, which indicates that locked semaphore has waiting threads.
The USEM_COUNT() macro, applied to the _count word, returns the current semaphore counter,
which is the number of posts issued on the semaphore.
The following bits for the _flags member of struct _usem2 are defined, in addition to the
common flags:
USEM_NAMED
Flag is ignored by kernel.
Timeout parameter
struct _umtx_time {
struct timespec _timeout;
uint32_t _flags;
uint32_t _clockid;
};
Several _umtx_op() operations allow the blocking time to be limited, failing the request if
it cannot be satisfied in the specified time period. The timeout is specified by passing
either the address of struct timespec, or its extended variant, struct _umtx_time, as the
uaddr2 argument of _umtx_op(). They are distinguished by the uaddr value, which must be
equal to the size of the structure pointed to by uaddr2, casted to uintptr_t.
The _timeout member specifies the time when the timeout should occur. Legal values for clock
identifier _clockid are shared with the clock_id argument to the clock_gettime(2) function,
and use the same underlying clocks. The specified clock is used to obtain the current time
value. Interval counting is always performed by the monotonic wall clock.
The _flags argument allows the following flags to further define the timeout behaviour:
UMTX_ABSTIME
The _timeout value is the absolute time. The thread will be unblocked and the
request failed when specified clock value is equal or exceeds the _timeout.
If the flag is absent, the timeout value is relative, that is the amount of time,
measured by the monotonic wall clock from the moment of the request start.
SLEEP QUEUES
When a locking request cannot be immediately satisfied, the thread is typically put to sleep, which is a
non-runnable state terminated by the wake operation. Lock operations include a try variant which returns
an error rather than sleeping if the lock cannot be obtained. Also, _umtx_op() provides requests which
explicitly put the thread to sleep.
Wakes need to know which threads to make runnable, so sleeping threads are grouped into containers called
sleep queues. A sleep queue is identified by a key, which for _umtx_op() is defined as the physical
address of some variable. Note that the physical address is used, which means that same variable mapped
multiple times will give one key value. This mechanism enables the construction of process-shared locks.
A related attribute of the key is shareability. Some requests always interpret keys as private for the
current process, creating sleep queues with the scope of the current process even if the memory is shared.
Others either select the shareability automatically from the mapping attributes, or take additional input
as the USYNC_PROCESS_SHARED common flag. This is done as optimization, allowing the lock scope to be
limited regardless of the kind of backing memory.
Only the address of the start byte of the variable specified as key is important for determining
corresponding sleep queue. The size of the variable does not matter, so, for example, sleep on the same
address interpeted as uint32_t and long on a little-endian 64-bit platform would collide.
The last attribute of the key is the object type. The sleep queue to which a sleeping thread is assigned
is an individual one for simple wait requests, mutexes, rwlocks, condvars and other primitives, even when
the physical address of the key is same.
When waking up a limited number of threads from a given sleep queue, the highest priority threads that have
been blocked for the longest on the queue are selected.
ROBUST UMUTEXES
The robust umutexes are provided as a substrate for a userspace library to implement POSIX robust mutexes.
A robust umutex must have the UMUTEX_ROBUST flag set.
On thread termination, the kernel walks two lists of mutexes. The two lists head addresses must be
provided by a prior call to UMTX_OP_ROBUST_LISTS request. The lists are singly-linked. The link to next
element is provided by the m_rb_lnk member of the struct umutex.
Robust list processing is aborted if the kernel finds a mutex with any of the following conditions:
- the UMUTEX_ROBUST flag is not set
- not owned by the current thread, except when the mutex is pointed to by the robust_inactive
member of the struct umtx_robust_lists_params, registered for the current thread
- the combination of mutex flags is invalid
- read of the umutex memory faults
- the list length limit described in libthr(3) is reached.
Every mutex in both lists is unlocked as if the UMTX_OP_MUTEX_UNLOCK request is performed on it, but
instead of the UMUTEX_UNOWNED value, the m_owner field is written with the UMUTEX_RB_OWNERDEAD value. When
a mutex in the UMUTEX_RB_OWNERDEAD state is locked by kernel due to the UMTX_OP_MUTEX_TRYLOCK and
UMTX_OP_MUTEX_LOCK requests, the lock is granted and EOWNERDEAD error is returned.
Also, the kernel handles the UMUTEX_RB_NOTRECOV value of the m_owner field specially, always returning the
ENOTRECOVERABLE error for lock attempts, without granting the lock.
OPERATIONS
The following operations, requested by the op argument to the function, are implemented:
UMTX_OP_WAIT
Wait. The arguments for the request are:
obj Pointer to a variable of type long.
val Current value of the *obj.
The current value of the variable pointed to by the obj argument is compared with the val. If they
are equal, the requesting thread is put to interruptible sleep until woken up or the optionally
specified timeout expires.
The comparison and sleep are atomic. In other words, if another thread writes a new value to *obj
and then issues UMTX_OP_WAKE, the request is guaranteed to not miss the wakeup, which might
otherwise happen between comparison and blocking.
The physical address of memory where the *obj variable is located, is used as a key to index
sleeping threads.
The read of the current value of the *obj variable is not guarded by barriers. In particular, it
is the user's duty to ensure the lock acquire and release memory semantics, if the UMTX_OP_WAIT and
UMTX_OP_WAKE requests are used as a substrate for implementing a simple lock.
The request is not restartable. An unblocked signal delivered during the wait always results in
sleep interruption and EINTR error.
Optionally, a timeout for the request may be specified.
UMTX_OP_WAKE
Wake the threads possibly sleeping due to UMTX_OP_WAIT. The arguments for the request are:
obj Pointer to a variable, used as a key to find sleeping threads.
val Up to val threads are woken up by this request. Specify INT_MAX to wake up all waiters.
UMTX_OP_MUTEX_TRYLOCK
Try to lock umutex. The arguments to the request are:
obj Pointer to the umutex.
Operates same as the UMTX_OP_MUTEX_LOCK request, but returns EBUSY instead of sleeping if the lock
cannot be obtained immediately.
UMTX_OP_MUTEX_LOCK
Lock umutex. The arguments to the request are:
obj Pointer to the umutex.
Locking is performed by writing the current thread id into the m_owner word of the struct umutex.
The write is atomic, preserves the UMUTEX_CONTESTED contention indicator, and provides the acquire
barrier for lock entrance semantic.
If the lock cannot be obtained immediately because another thread owns the lock, the current thread
is put to sleep, with UMUTEX_CONTESTED bit set before. Upon wake up, the lock conditions are re-
tested.
The request adheres to the priority protection or inheritance protocol of the mutex, specified by
the UMUTEX_PRIO_PROTECT or UMUTEX_PRIO_INHERIT flag, respectively.
Optionally, a timeout for the request may be specified.
A request with a timeout specified is not restartable. An unblocked signal delivered during the
wait always results in sleep interruption and EINTR error. A request without timeout specified is
always restarted after return from a signal handler.
UMTX_OP_MUTEX_UNLOCK
Unlock umutex. The arguments to the request are:
obj Pointer to the umutex.
Unlocks the mutex, by writing UMUTEX_UNOWNED (zero) value into m_owner word of the struct umutex.
The write is done with a release barrier, to provide lock leave semantic.
If there are threads sleeping in the sleep queue associated with the umutex, one thread is woken
up. If more than one thread sleeps in the sleep queue, the UMUTEX_CONTESTED bit is set together
with the write of the UMUTEX_UNOWNED value into m_owner.
The request adheres to the priority protection or inheritance protocol of the mutex, specified by
the UMUTEX_PRIO_PROTECT or UMUTEX_PRIO_INHERIT flag, respectively. See description of the
m_ceilings member of the struct umutex structure for additional details of the request operation on
the priority protected protocol mutex.
UMTX_OP_SET_CEILING
Set ceiling for the priority protected umutex. The arguments to the request are:
obj Pointer to the umutex.
val New ceiling value.
uaddr Address of a variable of type uint32_t. If not NULL and the update was successful, the
previous ceiling value is written to the location pointed to by uaddr.
The request locks the umutex pointed to by the obj parameter, waiting for the lock if not
immediately available. After the lock is obtained, the new ceiling value val is written to the
m_ceilings[0] member of the struct umutex, after which the umutex is unlocked.
The locking does not adhere to the priority protect protocol, to conform to the POSIX requirements
for the pthread_mutex_setprioceiling(3) interface.
UMTX_OP_CV_WAIT
Wait for a condition. The arguments to the request are:
obj Pointer to the struct ucond.
val Request flags, see below.
uaddr Pointer to the umutex.
uaddr2 Optional pointer to a struct timespec for timeout specification.
The request must be issued by the thread owning the mutex pointed to by the uaddr argument. The
c_hash_waiters member of the struct ucond, pointed to by the obj argument, is set to an arbitrary
non-zero value, after which the uaddr mutex is unlocked (following the appropriate protocol), and
the current thread is put to sleep on the sleep queue keyed by the obj argument. The operations
are performed atomically. It is guaranteed to not miss a wakeup from UMTX_OP_CV_SIGNAL or
UMTX_OP_CV_BROADCAST sent between mutex unlock and putting the current thread on the sleep queue.
Upon wakeup, if the timeout expired and no other threads are sleeping in the same sleep queue, the
c_hash_waiters member is cleared. After wakeup, the uaddr umutex is not relocked.
The following flags are defined:
CVWAIT_ABSTIME Timeout is absolute.
CVWAIT_CLOCKID Clockid is provided.
Optionally, a timeout for the request may be specified. Unlike other requests, the timeout value
is specified directly by a struct timespec, pointed to by the uaddr2 argument. If the
CVWAIT_CLOCKID flag is provided, the timeout uses the clock from the c_clockid member of the struct
ucond, pointed to by obj argument. Otherwise, CLOCK_REALTIME is used, regardless of the clock
identifier possibly specified in the struct _umtx_time. If the CVWAIT_ABSTIME flag is supplied,
the timeout specifies absolute time value, otherwise it denotes a relative time interval.
The request is not restartable. An unblocked signal delivered during the wait always results in
sleep interruption and EINTR error.
UMTX_OP_CV_SIGNAL
Wake up one condition waiter. The arguments to the request are:
obj Pointer to struct ucond.
The request wakes up at most one thread sleeping on the sleep queue keyed by the obj argument. If
the woken up thread was the last on the sleep queue, the c_has_waiters member of the struct ucond
is cleared.
UMTX_OP_CV_BROADCAST
Wake up all condition waiters. The arguments to the request are:
obj Pointer to struct ucond.
The request wakes up all threads sleeping on the sleep queue keyed by the obj argument. The
c_has_waiters member of the struct ucond is cleared.
UMTX_OP_WAIT_UINT
Same as UMTX_OP_WAIT, but the type of the variable pointed to by obj is u_int (a 32-bit integer).
UMTX_OP_RW_RDLOCK
Read-lock a struct rwlock lock. The arguments to the request are:
obj Pointer to the lock (of type struct rwlock) to be read-locked.
val Additional flags to augment locking behaviour. The valid flags in the val argument are:
URWLOCK_PREFER_READER
The request obtains the read lock on the specified struct rwlock by incrementing the count of
readers in the rw_state word of the structure. If the URWLOCK_WRITE_OWNER bit is set in the word
rw_state, the lock was granted to a writer which has not yet relinquished its ownership. In this
case the current thread is put to sleep until it makes sense to retry.
If the URWLOCK_PREFER_READER flag is set either in the rw_flags word of the structure, or in the
val argument of the request, the presence of the threads trying to obtain the write lock on the
same structure does not prevent the current thread from trying to obtain the read lock. Otherwise,
if the flag is not set, and the URWLOCK_WRITE_WAITERS flag is set in rw_state, the current thread
does not attempt to obtain read-lock. Instead it sets the URWLOCK_READ_WAITERS in the rw_state
word and puts itself to sleep on corresponding sleep queue. Upon wakeup, the locking conditions
are re-evaluated.
Optionally, a timeout for the request may be specified.
The request is not restartable. An unblocked signal delivered during the wait always results in
sleep interruption and EINTR error.
UMTX_OP_RW_WRLOCK
Write-lock a struct rwlock lock. The arguments to the request are:
obj Pointer to the lock (of type struct rwlock) to be write-locked.
The request obtains a write lock on the specified struct rwlock, by setting the URWLOCK_WRITE_OWNER
bit in the rw_state word of the structure. If there is already a write lock owner, as indicated by
the URWLOCK_WRITE_OWNER bit being set, or there are read lock owners, as indicated by the read-lock
counter, the current thread does not attempt to obtain the write-lock. Instead it sets the
URWLOCK_WRITE_WAITERS in the rw_state word and puts itself to sleep on corresponding sleep queue.
Upon wakeup, the locking conditions are re-evaluated.
Optionally, a timeout for the request may be specified.
The request is not restartable. An unblocked signal delivered during the wait always results in
sleep interruption and EINTR error.
UMTX_OP_RW_UNLOCK
Unlock rwlock. The arguments to the request are:
obj Pointer to the lock (of type struct rwlock) to be unlocked.
The unlock type (read or write) is determined by the current lock state. Note that the struct
rwlock does not save information about the identity of the thread which acquired the lock.
If there are pending writers after the unlock, and the URWLOCK_PREFER_READER flag is not set in the
rw_flags member of the *obj structure, one writer is woken up, selected as described in the SLEEP
QUEUES subsection. If the URWLOCK_PREFER_READER flag is set, a pending writer is woken up only if
there is no pending readers.
If there are no pending writers, or, in the case that the URWLOCK_PREFER_READER flag is set, then
all pending readers are woken up by unlock.
UMTX_OP_WAIT_UINT_PRIVATE
Same as UMTX_OP_WAIT_UINT, but unconditionally select the process-private sleep queue.
UMTX_OP_WAKE_PRIVATE
Same as UMTX_OP_WAKE, but unconditionally select the process-private sleep queue.
UMTX_OP_MUTEX_WAIT
Wait for mutex availability. The arguments to the request are:
obj Address of the mutex.
Similarly to the UMTX_OP_MUTEX_LOCK, put the requesting thread to sleep if the mutex lock cannot be
obtained immediately. The UMUTEX_CONTESTED bit is set in the m_owner word of the mutex to indicate
that there is a waiter, before the thread is added to the sleep queue. Unlike the
UMTX_OP_MUTEX_LOCK request, the lock is not obtained.
The operation is not implemented for priority protected and priority inherited protocol mutexes.
Optionally, a timeout for the request may be specified.
A request with a timeout specified is not restartable. An unblocked signal delivered during the
wait always results in sleep interruption and EINTR error. A request without a timeout
automatically restarts if the signal disposition requested restart via the SA_RESTART flag in
struct sigaction member sa_flags.
UMTX_OP_NWAKE_PRIVATE
Wake up a batch of sleeping threads. The arguments to the request are:
obj Pointer to the array of pointers.
val Number of elements in the array pointed to by obj.
For each element in the array pointed to by obj, wakes up all threads waiting on the private sleep
queue with the key being the byte addressed by the array element.
UMTX_OP_MUTEX_WAKE
Check if a normal umutex is unlocked and wake up a waiter. The arguments for the request are:
obj Pointer to the umutex.
If the m_owner word of the mutex pointed to by the obj argument indicates unowned mutex, which has
its contention indicator bit UMUTEX_CONTESTED set, clear the bit and wake up one waiter in the
sleep queue associated with the byte addressed by the obj, if any. Only normal mutexes are
supported by the request. The sleep queue is always one for a normal mutex type.
This request is deprecated in favor of UMTX_OP_MUTEX_WAKE2 since mutexes using it cannot
synchronize their own destruction. That is, the m_owner word has already been set to
UMUTEX_UNOWNED when this request is made, so that another thread can lock, unlock and destroy the
mutex (if no other thread uses the mutex afterwards). Clearing the UMUTEX_CONTESTED bit may then
modify freed memory.
UMTX_OP_MUTEX_WAKE2
Check if a umutex is unlocked and wake up a waiter. The arguments for the request are:
obj Pointer to the umutex.
val The umutex flags.
The request does not read the m_flags member of the struct umutex; instead, the val argument
supplies flag information, in particular, to determine the sleep queue where the waiters are found
for wake up.
If the mutex is unowned, one waiter is woken up.
If the mutex memory cannot be accessed, all waiters are woken up.
If there is more than one waiter on the sleep queue, or there is only one waiter but the mutex is
owned by a thread, the UMUTEX_CONTESTED bit is set in the m_owner word of the struct umutex.
UMTX_OP_SEM2_WAIT
Wait until semaphore is available. The arguments to the request are:
obj Pointer to the semaphore (of type struct _usem2).
Put the requesting thread onto a sleep queue if the semaphore counter is zero. If the thread is
put to sleep, the USEM_HAS_WAITERS bit is set in the _count word to indicate waiters. The function
returns either due to _count indicating the semaphore is available (non-zero count due to post), or
due to a wakeup. The return does not guarantee that the semaphore is available, nor does it
consume the semaphore lock on successful return.
Optionally, a timeout for the request may be specified.
A request with non-absolute timeout value is not restartable. An unblocked signal delivered during
such wait results in sleep interruption and EINTR error.
UMTX_OP_SEM2_WAKE
Wake up waiters on semaphore lock. The arguments to the request are:
obj Pointer to the semaphore (of type struct _usem2).
The request wakes up one waiter for the semaphore lock. The function does not increment the
semaphore lock count. If the USEM_HAS_WAITERS bit was set in the _count word, and the last
sleeping thread was woken up, the bit is cleared.
UMTX_OP_SHM
Manage anonymous POSIX shared memory objects (see shm_open(2)), which can be attached to a byte of
physical memory, mapped into the process address space. The objects are used to implement process-
shared locks in libthr.
The val argument specifies the sub-request of the UMTX_OP_SHM request:
UMTX_SHM_CREAT
Creates the anonymous shared memory object, which can be looked up with the specified key
uaddr. If the object associated with the uaddr key already exists, it is returned instead
of creating a new object. The object's size is one page. On success, the file descriptor
referencing the object is returned. The descriptor can be used for mapping the object
using mmap(2), or for other shared memory operations.
UMTX_SHM_LOOKUP
Same as UMTX_SHM_CREATE request, but if there is no shared memory object associated with
the specified key uaddr, an error is returned, and no new object is created.
UMTX_SHM_DESTROY
De-associate the shared object with the specified key uaddr. The object is destroyed after
the last open file descriptor is closed and the last mapping for it is destroyed.
UMTX_SHM_ALIVE
Checks whether there is a live shared object associated with the supplied key uaddr.
Returns zero if there is, and an error otherwise. This request is an optimization of the
UMTX_SHM_LOOKUP request. It is cheaper when only the liveness of the associated object is
asked for, since no file descriptor is installed in the process fd table on success.
The uaddr argument specifies the virtual address, which backing physical memory byte identity is
used as a key for the anonymous shared object creation or lookup.
UMTX_OP_ROBUST_LISTS
Register the list heads for the current thread's robust mutex lists. The arguments to the request
are:
val Size of the structure passed in the uaddr argument.
uaddr Pointer to the structure of type struct umtx_robust_lists_params.
The structure is defined as
struct umtx_robust_lists_params {
uintptr_t robust_list_offset;
uintptr_t robust_priv_list_offset;
uintptr_t robust_inact_offset;
};
The robust_list_offset member contains address of the first element in the list of locked robust
shared mutexes. The robust_priv_list_offset member contains address of the first element in the
list of locked robust private mutexes. The private and shared robust locked lists are split to
allow fast termination of the shared list on fork, in the child.
The robust_inact_offset contains a pointer to the mutex which might be locked in nearby future, or
might have been just unlocked. It is typically set by the lock or unlock mutex implementation code
around the whole operation, since lists can be only changed race-free when the thread owns the
mutex. The kernel inspects the robust_inact_offset in addition to walking the shared and private
lists. Also, the mutex pointed to by robust_inact_offset is handled more loosely at the thread
termination time, than other mutexes on the list. That mutex is allowed to be not owned by the
current thread, in which case list processing is continued. See ROBUST UMUTEXES subsection for
details.
RETURN VALUES
If successful, all requests, except UMTX_SHM_CREAT and UMTX_SHM_LOOKUP sub-requests of the UMTX_OP_SHM
request, will return zero. The UMTX_SHM_CREAT and UMTX_SHM_LOOKUP return a shared memory file descriptor
on success. On error -1 is returned, and the errno variable is set to indicate the error.
ERRORS
The _umtx_op() operations can fail with the following errors:
[EFAULT] One of the arguments point to invalid memory.
[EINVAL] The clock identifier, specified for the struct _umtx_time timeout parameter, or in the
c_clockid member of struct ucond, is invalid.
[EINVAL] The type of the mutex, encoded by the m_flags member of struct umutex, is invalid.
[EINVAL] The m_owner member of the struct umutex has changed the lock owner thread identifier during
unlock.
[EINVAL] The timeout.tv_sec or timeout.tv_nsec member of struct _umtx_time is less than zero, or
timeout.tv_nsec is greater than 1000000000.
[EINVAL] The op argument specifies invalid operation.
[EINVAL] The uaddr argument for the UMTX_OP_SHM request specifies invalid operation.
[EINVAL] The UMTX_OP_SET_CEILING request specifies non priority protected mutex.
[EINVAL] The new ceiling value for the UMTX_OP_SET_CEILING request, or one or more of the values read
from the m_ceilings array during lock or unlock operations, is greater than RTP_PRIO_MAX.
[EPERM] Unlock attempted on an object not owned by the current thread.
[EOWNERDEAD]
The lock was requested on an umutex where the m_owner field was set to the UMUTEX_RB_OWNERDEAD
value, indicating terminated robust mutex. The lock was granted to the caller, so this error
in fact indicates success with additional conditions.
[ENOTRECOVERABLE]
The lock was requested on an umutex which m_owner field is equal to the UMUTEX_RB_NOTRECOV
value, indicating abandoned robust mutex after termination. The lock was not granted to the
caller.
[ENOTTY] The shared memory object, associated with the address passed to the UMTX_SHM_ALIVE sub-request
of UMTX_OP_SHM request, was destroyed.
[ESRCH] For the UMTX_SHM_LOOKUP, UMTX_SHM_DESTROY, and UMTX_SHM_ALIVE sub-requests of the UMTX_OP_SHM
request, there is no shared memory object associated with the provided key.
[ENOMEM] The UMTX_SHM_CREAT sub-request of the UMTX_OP_SHM request cannot be satisfied, because
allocation of the shared memory object would exceed the RLIMIT_UMTXP resource limit, see
setrlimit(2).
[EAGAIN] The maximum number of readers (URWLOCK_MAX_READERS) were already granted ownership of the
given struct rwlock for read.
[EBUSY] A try mutex lock operation was not able to obtain the lock.
[ETIMEDOUT] The request specified a timeout in the uaddr and uaddr2 arguments, and timed out before
obtaining the lock or being woken up.
[EINTR] A signal was delivered during wait, for a non-restartable operation. Operations with timeouts
are typically non-restartable, but timeouts specified in absolute time may be restartable.
[ERESTART] A signal was delivered during wait, for a restartable operation. Mutex lock requests without
timeout specified are restartable. The error is not returned to userspace code since restart
is handled by usual adjustment of the instruction counter.
SEE ALSO
clock_gettime(2), mmap(2), setrlimit(2), shm_open(2), sigaction(2), thr_exit(2), thr_kill(2), thr_kill2(2), thr_new(2), thr_self(2), thr_set_name(2), signal(3)
STANDARDS
The _umtx_op() system call is non-standard and is used by the 1:1 Threading Library (libthr, -lthr) to
implement IEEE Std 1003.1-2001 (“POSIX.1”) pthread(3) functionality.
BUGS
A window between a unlocking robust mutex and resetting the pointer in the robust_inact_offset member of
the registered struct umtx_robust_lists_params allows another thread to destroy the mutex, thus making the
kernel inspect freed or reused memory. The libthr implementation is only vulnerable to this race when
operating on a shared mutex. A possible fix for the current implementation is to strengthen the checks for
shared mutexes before terminating them, in particular, verifying that the mutex memory is mapped from a
shared memory object allocated by the UMTX_OP_SHM request. This is not done because it is believed that
the race is adequately covered by other consistency checks, while adding the check would prevent
alternative implementations of libpthread.