by Mathieu Desnoyers and Paul E. McKenney
This document describes the <urcu/uatomic.h> API. Those are the atomic
operations provided by the Userspace RCU library. The general rule
regarding memory barriers is that only uatomic_xchg(),
uatomic_cmpxchg(), uatomic_add_return(), and uatomic_sub_return() imply
full memory barriers before and after the atomic operation. Other
primitives don't guarantee any memory barrier.
Only atomic operations performed on integers (int and long, signed
and unsigned) are supported on all architectures. Some architectures
also support 1-byte and 2-byte atomic operations. Those respectively
have UATOMIC_HAS_ATOMIC_BYTE and UATOMIC_HAS_ATOMIC_SHORT defined when
uatomic.h is included. An architecture trying to perform an atomic write
to a type size not supported by the architecture will trigger an illegal
instruction.
In the description below, type is a type that can be atomically
written to by the architecture. It needs to be at most word-sized, and
its alignment needs to greater or equal to its size.
c
void uatomic_set(type *addr, type v)
Atomically write v into addr. By "atomically", we mean that no
concurrent operation that reads from addr will see partial
effects of uatomic_set().
c
type uatomic_read(type *addr)
Atomically read v from addr. By "atomically", we mean that
uatomic_read() cannot see a partial effect of any concurrent
uatomic update.
c
type uatomic_cmpxchg(type *addr, type old, type new)
An atomic read-modify-write operation that performs this
sequence of operations atomically: check if addr contains old.
If true, then replace the content of addr by new. Return the
value previously contained by addr. This function implies a full
memory barrier before and after the atomic operation.
c
type uatomic_xchg(type *addr, type new)
An atomic read-modify-write operation that performs this sequence
of operations atomically: replace the content of addr by new,
and return the value previously contained by addr. This
function implies a full memory barrier before and after the atomic
operation.
c
type uatomic_add_return(type *addr, type v)
type uatomic_sub_return(type *addr, type v)
An atomic read-modify-write operation that performs this
sequence of operations atomically: increment/decrement the
content of addr by v, and return the resulting value. This
function implies a full memory barrier before and after the atomic
operation.
c
void uatomic_and(type *addr, type mask)
void uatomic_or(type *addr, type mask)
Atomically write the result of bitwise "and"/"or" between the
content of addr and mask into addr.
These operations do not necessarily imply memory barriers.
If memory barriers are needed, they may be provided by explicitly using
cmm_smp_mb__before_uatomic_and(), cmm_smp_mb__after_uatomic_and(),
cmm_smp_mb__before_uatomic_or(), and cmm_smp_mb__after_uatomic_or().
These explicit barriers are no-ops on architectures in which the underlying
atomic instructions implicitly supply the needed memory barriers.
c
void uatomic_add(type *addr, type v)
void uatomic_sub(type *addr, type v)
Atomically increment/decrement the content of addr by v.
These operations do not necessarily imply memory barriers.
If memory barriers are needed, they may be provided by
explicitly using cmm_smp_mb__before_uatomic_add(),
cmm_smp_mb__after_uatomic_add(), cmm_smp_mb__before_uatomic_sub(), and
cmm_smp_mb__after_uatomic_sub(). These explicit barriers are
no-ops on architectures in which the underlying atomic
instructions implicitly supply the needed memory barriers.
c
void uatomic_inc(type *addr)
void uatomic_dec(type *addr)
Atomically increment/decrement the content of addr by 1.
These operations do not necessarily imply memory barriers.
If memory barriers are needed, they may be provided by
explicitly using cmm_smp_mb__before_uatomic_inc(),
cmm_smp_mb__after_uatomic_inc(), cmm_smp_mb__before_uatomic_dec(),
and cmm_smp_mb__after_uatomic_dec(). These explicit barriers are
no-ops on architectures in which the underlying atomic
instructions implicitly supply the needed memory barriers.