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softintr_establish(9) [netbsd man page]

SOFTINT(9)						   BSD Kernel Developer's Manual						SOFTINT(9)

NAME
softint, softint_establish, softint_disestablish, softint_schedule -- machine-independent software interrupt framework SYNOPSIS
#include <sys/intr.h> void * softint_establish(u_int flags, void (*func)(void *), void *arg); void softint_disestablish(void *cookie); void softint_schedule(void *cookie); DESCRIPTION
The software interrupt framework is designed to provide a generic software interrupt mechanism which can be used any time a low-priority callback is needed. It allows dynamic registration of software interrupts for loadable drivers and protocol stacks, prioritization and fair queueing of software interrupts, and allows machine-dependent optimizations to reduce cost. Four priority levels are provided. In order of priority (lowest to highest) the levels are: clock, bio, net, serial. The names are symbolic and in isolation do not have any direct connection with a particular kind of device activity: they are only meant as a guide. The four priority levels map directly to scheduler priority levels, and where the architecture implements ``fast'' software interrupts, they also map onto interrupt priorities. The interrupt priorities are intended to be hidden from machine independent code, which should in gen- eral use thread-safe mechanisms to synchronize with software interrupts (for example: mutexes). Software interrupts run with limited machine context. In particular, they do not possess any address space context. They should not try to operate on user space addresses, or to use virtual memory facilities other than those noted as interrupt safe. Unlike hardware interrupts, software interrupts do have thread context. They may block on synchronization objects, sleep, and resume execution at a later time. Since software interrupts are a limited resource and run with higher priority than most other LWPs in the system, all block-and-resume activ- ity by a software interrupt must be kept short to allow further processing at that level to continue. By extension, code running with process context must take care to ensure that any lock that may be taken from a software interrupt can not be held for more than a short period of time. The kernel does not allow software interrupts to use facilities or perform actions that are likely to block for a significant amount of time. This means that it's not valid for a software interrupt to sleep on condition variables or to wait for resources to become available (for example, memory). The following is a brief description of each function in the framework: softint_establish(flags, func, arg) Register a software interrupt. The flags value must contain one of the following constants, specifing the priority level for the soft interrupt: SOFTINT_CLOCK, SOFTINT_BIO, SOFTINT_NET, SOFTINT_SERIAL If the constant SOFTINT_MPSAFE is not logically ORed into flags, the global kernel_lock will automatically be acquired before the soft interrupt handler is called. The constant func specifies the function to call when the soft interrupt is executed. The argument arg will be passed to this func- tion. softint_establish() may block in order to allocate memory. If successful, it returns a non-NULL opaque value to be used as an argu- ment to softint_schedule() and/or softint_disestablish(). If for some reason it does not succeed, it returns NULL. softint_disestablish(cookie) Deallocate a software interrupt previously allocated by a call to softint_establish(). softint_schedule(cookie) Schedule a software interrupt previously allocated by a call to softint_establish() to be executed as soon as that software inter- rupt is unblocked. softint_schedule() can safely be called multiple times before the callback routine is invoked. Soft interrupt scheduling is CPU-local. A request to dispatch a soft interrupt will only be serviced on the same CPU where the request was made. The LWPs (light weight processes) dedicated to soft interrupt processing are bound to their home CPUs, so if a soft interrupt handler sleeps and later resumes, it will always resume on the same CPU. On a system with multiple processors, multiple instances of the same soft interrupt handler can be in flight simultaneously (at most one per-CPU). SEE ALSO
callout(9), condvar(9), kthread(9), mutex(9), rwlock(9), spl(9), workqueue(9) HISTORY
The NetBSD machine-independent software interrupt framework was designed in 1997 and was implemented by one port in NetBSD 1.3. However, it did not gain wider implementation until NetBSD 1.5. Between NetBSD 4.0 and NetBSD 5.0 the framework was re-implemented in a machine-indepen- dent way to provide software interrupts with thread context. BSD
August 3, 2009 BSD
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