This patch adds a new document file on how to use the spinning futexes. Signed-off-by: Waiman Long <Waiman.Long@xxxxxx> --- Documentation/spinning-futex.txt | 109 ++++++++++++++++++++++++++++++++++++++ 1 files changed, 109 insertions(+), 0 deletions(-) create mode 100644 Documentation/spinning-futex.txt diff --git a/Documentation/spinning-futex.txt b/Documentation/spinning-futex.txt new file mode 100644 index 0000000..e3cb5a2 --- /dev/null +++ b/Documentation/spinning-futex.txt @@ -0,0 +1,109 @@ +Started by: Waiman Long <waiman.long@xxxxxx> + +Spinning Futex +-------------- + +There are two main problems for a wait-wake futex (FUTEX_WAIT and +FUTEX_WAKE) when used for creating user-space lock primitives: + + 1) With a wait-wake futex, tasks waiting for a lock are put to sleep + in the futex queue to be woken up by the lock owner when it is done + with the lock. Waking up a sleeping task, however, introduces some + additional latency which can be large especially if the critical + section protected by the lock is relatively short. This may cause + a performance bottleneck on large systems with many CPUs running + applications that need a lot of inter-thread synchronization. + + 2) The performance of the wait-wake futex is currently + spinlock-constrained. When many threads are contending for a + futex in a large system with many CPUs, it is not unusual to have + spinlock contention accounting for more than 90% of the total + CPU cycles consumed at various points in time. + +Spinning futex is a solution to both the wakeup latency and spinlock +contention problems by optimistically spinning on a locked futex +when the lock owner is running within the kernel until the lock is +free. This is the same optimistic spinning mechanism used by the kernel +mutex and rw semaphore implementations to improve performance. The +optimistic spinning was done without taking any lock. + +Implementation +-------------- + +Like the PI and robust futexes, a lock acquirer has to atomically +put its thread ID (TID) into the lower 30 bits of the 32-bit futex +which should has an original value of 0. If it succeeds, it will be +the owner of the futex. Otherwise, it has to call into the kernel +using the new FUTEX_SPIN_LOCK futex(2) syscall. + +The kernel will use the setting of the most significant bit +(FUTEX_WAITERS) in the futex value to indicate one or more waiters +are sleeping and need to be woken up later on. + +When it is time to unlock, the lock owner has to atomically clear +the TID portion of the futex value. If the FUTEX_WAITERS bit is set, +it has to issue a FUTEX_SPIN_UNLOCK futex system call to wake up the +sleeping task. + +A return value of 1 from the FUTEX_SPIN_UNLOCK futex(2) syscall +indicates a task has been woken up. The syscall returns 0 if no +sleeping task is found or spinners are present to take the lock. + +The error number returned by a FUTEX_SPIN_UNLOCK call on an empty +futex can be used to decide if the spinning futex functionality is +implemented in the kernel. If it is present, the returned error number +should be ESRCH. Otherwise it will be ENOSYS. + +Currently, only the first and the second arguments (the futex address +and the opcode) of the futex(2) syscall is used. All the other +arguments must be set to 0 or NULL to avoid forward compatibility +problem. + +The spinning futex requires the kernel to have support for the cmpxchg +functionality. For architectures that don't support cmpxchg, spinning +futex will not be supported as well. + +Usage Scenario +-------------- + +A spinning futex can be used as an exclusive lock to guard a critical +section which are unlikely to go to sleep in the kernel. The spinners +in a spinning futex, however, will fall back to sleep in a wait queue +if the lock owner isn't running. Therefore, it can also be used when +the critical section is long and prone to sleeping. However, it may +not have the performance benefit when compared with a wait-wake futex +in this case. + +Sample Code +----------- + +The following are sample code to implement a simple lock and unlock +function. + +__thread int tid; /* Thread ID */ + +void mutex_lock(int *faddr) +{ + if (cmpxchg(faddr, 0, tid) == 0) + return; + for (;;) + if (futex(faddr, FUTEX_SPIN_LOCK, ...) == 0) + break; +} + +void mutex_unlock(int *faddr) +{ + int old, fval; + + if ((fval = cmpxchg(faddr, tid, 0)) == tid) + return; + /* Clear only the TID portion of the futex */ + for (;;) { + old = fval; + fval = cmpxchg(faddr, old, old & ~FUTEX_TID_MASK); + if (fval == old) + break; + } + if (fval & FUTEX_WAITERS) + futex(faddr, FUTEX_SPIN_UNLOCK, ...); +} -- 1.7.1 -- To unsubscribe from this list: send the line "unsubscribe linux-api" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html