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diff --git a/Documentation/locking/preempt-locking.rst b/Documentation/locking/preempt-locking.rst new file mode 100644 index 000000000000..dce336134e54 --- /dev/null +++ b/Documentation/locking/preempt-locking.rst @@ -0,0 +1,144 @@ +=========================================================================== +Proper Locking Under a Preemptible Kernel: Keeping Kernel Code Preempt-Safe +=========================================================================== + +:Author: Robert Love <rml@tech9.net> + + +Introduction +============ + + +A preemptible kernel creates new locking issues. The issues are the same as +those under SMP: concurrency and reentrancy. Thankfully, the Linux preemptible +kernel model leverages existing SMP locking mechanisms. Thus, the kernel +requires explicit additional locking for very few additional situations. + +This document is for all kernel hackers. Developing code in the kernel +requires protecting these situations. + + +RULE #1: Per-CPU data structures need explicit protection +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + + +Two similar problems arise. An example code snippet:: + + struct this_needs_locking tux[NR_CPUS]; + tux[smp_processor_id()] = some_value; + /* task is preempted here... */ + something = tux[smp_processor_id()]; + +First, since the data is per-CPU, it may not have explicit SMP locking, but +require it otherwise. Second, when a preempted task is finally rescheduled, +the previous value of smp_processor_id may not equal the current. You must +protect these situations by disabling preemption around them. + +You can also use put_cpu() and get_cpu(), which will disable preemption. + + +RULE #2: CPU state must be protected. +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + + +Under preemption, the state of the CPU must be protected. This is arch- +dependent, but includes CPU structures and state not preserved over a context +switch. For example, on x86, entering and exiting FPU mode is now a critical +section that must occur while preemption is disabled. Think what would happen +if the kernel is executing a floating-point instruction and is then preempted. +Remember, the kernel does not save FPU state except for user tasks. Therefore, +upon preemption, the FPU registers will be sold to the lowest bidder. Thus, +preemption must be disabled around such regions. + +Note, some FPU functions are already explicitly preempt safe. For example, +kernel_fpu_begin and kernel_fpu_end will disable and enable preemption. + + +RULE #3: Lock acquire and release must be performed by same task +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + + +A lock acquired in one task must be released by the same task. This +means you can't do oddball things like acquire a lock and go off to +play while another task releases it. If you want to do something +like this, acquire and release the task in the same code path and +have the caller wait on an event by the other task. + + +Solution +======== + + +Data protection under preemption is achieved by disabling preemption for the +duration of the critical region. + +:: + + preempt_enable() decrement the preempt counter + preempt_disable() increment the preempt counter + preempt_enable_no_resched() decrement, but do not immediately preempt + preempt_check_resched() if needed, reschedule + preempt_count() return the preempt counter + +The functions are nestable. In other words, you can call preempt_disable +n-times in a code path, and preemption will not be reenabled until the n-th +call to preempt_enable. The preempt statements define to nothing if +preemption is not enabled. + +Note that you do not need to explicitly prevent preemption if you are holding +any locks or interrupts are disabled, since preemption is implicitly disabled +in those cases. + +But keep in mind that 'irqs disabled' is a fundamentally unsafe way of +disabling preemption - any cond_resched() or cond_resched_lock() might trigger +a reschedule if the preempt count is 0. A simple printk() might trigger a +reschedule. So use this implicit preemption-disabling property only if you +know that the affected codepath does not do any of this. Best policy is to use +this only for small, atomic code that you wrote and which calls no complex +functions. + +Example:: + + cpucache_t *cc; /* this is per-CPU */ + preempt_disable(); + cc = cc_data(searchp); + if (cc && cc->avail) { + __free_block(searchp, cc_entry(cc), cc->avail); + cc->avail = 0; + } + preempt_enable(); + return 0; + +Notice how the preemption statements must encompass every reference of the +critical variables. Another example:: + + int buf[NR_CPUS]; + set_cpu_val(buf); + if (buf[smp_processor_id()] == -1) printf(KERN_INFO "wee!\n"); + spin_lock(&buf_lock); + /* ... */ + +This code is not preempt-safe, but see how easily we can fix it by simply +moving the spin_lock up two lines. + + +Preventing preemption using interrupt disabling +=============================================== + + +It is possible to prevent a preemption event using local_irq_disable and +local_irq_save. Note, when doing so, you must be very careful to not cause +an event that would set need_resched and result in a preemption check. When +in doubt, rely on locking or explicit preemption disabling. + +Note in 2.5 interrupt disabling is now only per-CPU (e.g. local). + +An additional concern is proper usage of local_irq_disable and local_irq_save. +These may be used to protect from preemption, however, on exit, if preemption +may be enabled, a test to see if preemption is required should be done. If +these are called from the spin_lock and read/write lock macros, the right thing +is done. They may also be called within a spin-lock protected region, however, +if they are ever called outside of this context, a test for preemption should +be made. Do note that calls from interrupt context or bottom half/ tasklets +are also protected by preemption locks and so may use the versions which do +not check preemption. |