.\" $NetBSD: spl.9,v 1.22 2004/10/31 07:01:34 yamt Exp $ .\" .\" Copyright (c) 2000, 2001 Jason R. Thorpe. All rights reserved. .\" Copyright (c) 1997 Michael Long. .\" Copyright (c) 1997 Jonathan Stone. .\" All rights reserved. .\" .\" Redistribution and use in source and binary forms, with or without .\" modification, are permitted provided that the following conditions .\" are met: .\" 1. Redistributions of source code must retain the above copyright .\" notice, this list of conditions and the following disclaimer. .\" 2. Redistributions in binary form must reproduce the above copyright .\" notice, this list of conditions and the following disclaimer in the .\" documentation and/or other materials provided with the distribution. .\" 3. The name of the author may not be used to endorse or promote products .\" derived from this software without specific prior written permission. .\" .\" THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR .\" IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES .\" OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. .\" IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, .\" INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT .\" NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, .\" DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY .\" THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT .\" (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF .\" THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. .\" .Dd April 13, 2001 .Dt SPL 9 .Os .Sh NAME .Nm spl , .Nm spl0 , .Nm splbio , .Nm splclock , .Nm splhigh , .Nm splvm , .Nm spllock , .Nm spllowersoftclock , .Nm splnet , .Nm splsched , .Nm splserial , .Nm splsoftclock , .Nm splsoftnet , .Nm splsoftserial , .Nm splstatclock , .Nm spltty , .Nm splvm , .Nm splx .Nd modify system interrupt priority level .Sh SYNOPSIS .In sys/param.h .Ft int .Fn splhigh void .Ft int .Fn spllock void .Ft int .Fn splserial void .Ft int .Fn splsched void .Ft int .Fn splclock void .Ft int .Fn splstatclock void .Ft int .Fn splvm void .Ft int .Fn spltty void .Ft int .Fn splsoftserial void .Ft int .Fn splnet void .Ft int .Fn splbio void .Ft int .Fn splsoftnet void .Ft int .Fn splsoftclock void .Ft void .Fn spllowersoftclock void .Ft void .Fn spl0 void .Ft void .Fn splx "int s" .Sh DESCRIPTION These functions raise and lower the system priority level. They are used by kernel code to block interrupts in critical sections, in order to protect data structures (much like a locking primitive) or to ensure uninterrupted access to hardware devices which are sensitive to timing. .Pp Interrupt priorities are not arranged in a strict hierarchy, although interrupt hardware sometimes is. For this reason the priorities listed here are arranged from .Dq highest to .Dq lowest . In other words, if a platform's hardware interrupts are arranged in a hierarchical manner, a priority level should also block all of the levels listed below it. .Pp Note that a strict hierarchy is not required. For example, .Fn splnet is not required to block disk controller interrupts, as they do not access the same data structures. However, the priorities are presented as a hierarchy in order to minimize data loss due to blocked interrupts, or interrupts not being serviced in a timely fashion. .Pp A .Nm function exists for each distinct priority level which can exist in the system, as well as for some special priority levels that are designed to be used in conjunction with multiprocessor-safe locking primitives. These levels may be divided into two main types: hard and soft. Hard interrupts are generated by hardware devices. Soft interrupts are a way of deferring hardware interrupts to do more expensive processing at a lower interrupt priority, and are explicitly scheduled by the higher-level interrupt handler. The most common use of this is in the networking code, where network interface drivers defer the more expensive TCP/IP processing in order to avoid dropping additional incoming packets. Software interrupts are further described by .Xr softintr 9 . .Pp In order of highest to lowest priority, the priority-raising functions are: .Bl -tag -width splsoftserialXX .It Fn splhigh blocks all hard and soft interrupts. It is used for code that cannot tolerate any interrupts, like hardware context switching code and the .Xr ddb 4 in-kernel debugger. .It Fn spllock blocks all hard and soft interrupts that can acquire a simple lock. This is provided as a distinct level from .Fn splhigh as some platforms may need to make use of extremely high priority interrupts while locks are spinning, which would be blocked by .Fn splhigh . .It Fn splserial blocks hard interrupts from serial interfaces (IPL_SERIAL). Code running at this level may not access the tty subsystem. Generally, all code run at this level must schedule additional processing to run in a software interrupt. Note that code running at this priority is not blocked by .Fn splvm (described below), and is therefore prohibited from using the kernel memory allocators. .It Fn splsched blocks all hard and soft interrupts that may access scheduler data structures. Code running at or above this level may not call .Fn sleep , .Fn tsleep , .Fn ltsleep , or .Fn wakeup , nor may it post signals. .It Fn splclock blocks the hardware clock interrupt. It is used by .Fn hardclock to update kernel and process times, and must be used by any other code that accesses time-related data, specifically the .Va time and .Va mono_time global variables. This level also protects the .Xr callout 9 data structures, and nothing running at or above this level may schedule, cancel, or otherwise access any callout-related data structures. .It Fn splstatclock blocks the hardware statistics clock interrupt. It is used by .Fn statclock to update kernel profiling and other statistics, and must be used by any code that accesses that data. This is the clock that drives scheduling. This level is identical to .Fn splclock if there is no separate statistics clock. .It Fn splvm blocks hard interrupts from all devices that are allowed to use the kernel .Xr malloc 9 , or any virtual memory operations. That includes all disk, network, and tty device interrupts. The temptation to abuse the semantics of .Fn splvm should be avoided; if you feel as if you need to block more than one class of interrupts at a time, use software interrupts instead. .It Fn spltty blocks hard and soft interrupts from TTY devices (IPL_TTY). This must also block soft serial interrupts. .It Fn splsoftserial blocks soft interrupts generated by serial devices (IPL_SOFTSERIAL). .It Fn splnet blocks hard interrupts from network interfaces (IPL_NET). .It Fn splbio blocks hard interrupts from disks and other mass-storage devices (IPL_BIO). .It Fn splsoftnet blocks soft network interrupts (IPL_SOFTNET). Soft interrupts blocked by this priority are also blocked by all of the priorities listed above. .It Fn splsoftclock blocks soft clock interrupts. This is the priority at which the .Xr callout 9 facility runs. Soft interrupts blocked by this priority are also blocked by all of the priorities listed above. In particular, .Fn splsoftnet must be a higher priority than .Fn splsoftclock . .El .Pp Two functions lower the system priority level. They are: .Bl -tag -width spllowersoftclockXX .It Fn spllowersoftclock unblocks all interrupts but the soft clock interrupt. .It Fn spl0 unblocks all interrupts. .El .Pp The .Fn splx function restores the system priority level to the one encoded in .Fa s , which must be a value previously returned by one of the other .Nm functions. .Pp Note that the functions which lower the system priority level .Po .Fn spllowersoftclock , .Fn spl0 , and .Fn splx .Pc do not return a value. They should only be used in places where the system priority level is being decreased permanently. It is inappropriate to attempt to use them where the system priority level is being decreased temporarily, and would need to be restored to a previous value before continuing. .Sh HISTORY In .Bx 4.4 , .Fn splnet was used to block network software interrupts. Most device drivers used .Fn splimp to block hardware interrupts. To avoid unnecessarily blocking other interrupts, in .Nx 1.1 a new function was added that blocks only network hardware interrupts. For consistency with other .Nm functions, the old .Fn splnet function was renamed to .Fn splsoftnet , and the new function was named .Fn splnet . .Pp Originally, .Fn splsoftclock lowered the system priority level. During the .Nx 1.5 development cycle, .Fn spllowersoftclock was introduced and the semantics of .Fn splsoftclock were changed. .Pp The .Fn splimp call was removed from the kernel between .Nx 1.5 and .Nx 1.6 . The function of .Fn splimp was replaced by .Fn splvm and code which abused the semantics of .Fn splimp was changed to not mix interrupt priority levels.