mdoc(7) police: tidy up.
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.Nm polling
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.Nd device polling support
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.Sh SYNOPSIS
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.Cd options DEVICE_POLLING
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.Cd options HZ=1000
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.Cd "options DEVICE_POLLING"
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.Cd "options HZ=1000"
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.Sh DESCRIPTION
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"Device polling" (polling for brevity) refers to a technique to
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.Dq "Device polling"
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(polling for brevity) refers to a technique to
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handle devices that does not rely on the latter to generate
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interrupts when they need attention, but rather lets the CPU poll
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devices to service their needs.
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This might seem inefficient and counterintuitive, but when done
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properly, polling gives more control to the operating system on
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properly,
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.Nm
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gives more control to the operating system on
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when and how to handle devices, with a number of advantages in terms
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of system responsivity and performance.
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.Pp
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In particular, polling reduces the overhead for context
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In particular,
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.Nm
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reduces the overhead for context
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switches which is incurred when servicing interrupts, and
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gives more control on the scheduling of the CPU between various
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tasks (user processes, software interrupts, device handling)
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which ultimately reduces the chances of livelock in the system.
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.Sh PRINCIPLES OF OPERATION
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In the normal, interrupt-based mode, devices generate an interrupt
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whenever they need attention. This in turn causes a
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whenever they need attention.
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This in turn causes a
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context switch and the execution of a interrupt handler
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which performs whatever processing is needed by the device.
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The duration of the interrupt handler is potentially unbounded
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unless the device driver has been programmed with real-time
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concerns in mind (which is generally not the case for FreeBSD
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drivers). Furthermore, under heavy traffic, the system might be
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concerns in mind (which is generally not the case for
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.Fx
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drivers).
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Furthermore, under heavy traffic, the system might be
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persistently processing interrupts without being able to
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complete other work, either in the kernel or in userland.
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.Pp
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Polling disables interrupts by polling devices at appropriate
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times, i.e. on clock interrupts, system calls and within the idle loop.
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This way, the context switch overhead is removed. Furthermore,
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.Nm Polling
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disables interrupts by polling devices at appropriate
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times, i.e., on clock interrupts, system calls and within the idle loop.
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This way, the context switch overhead is removed.
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Furthermore,
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the operating system can control accurately how much work to spend
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in handling device events, and thus prevent livelock by reserving
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some amount of CPU to other tasks.
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.Pp
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Polling is enabled with a sysctl variable
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.Nm Polling
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is enabled with a
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.Xr sysctl 8
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variable
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.Va kern.polling.enable
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whereas the percentage of CPU cycles reserved to userland processes is
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controlled by the sysctl variable
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controlled by the
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.Xr sysctl 8
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variable
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.Va kern.polling.user_frac
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whose range is 0 to 100 (50 is the default value).
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.Pp
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When polling is enabled, and provided that there is work to do,
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When
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.Nm
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is enabled, and provided that there is work to do,
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up to
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.Va user_frac
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.Va kern.polling.user_frac
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percent of the CPU cycles is reserved to userland tasks, the
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remaining fraction being available for device processing.
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.Pp
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Enabling polling also changes the way network software interrupts
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Enabling
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.Nm
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also changes the way network software interrupts
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are scheduled, so there is never the risk of livelock because
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packets are not processed to completion.
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.Pp
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There are other variables which control or monitor the behaviour
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of devices operating in polling mode, but they are unlikely to
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require modifications, and are documented in the source file
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.Nm src/sys/kern/kern_poll.c
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.Pa sys/kern/kern_poll.c .
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.Sh SUPPORTED DEVICES
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Polling requires explicit modifications to the device drivers.
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.Nm Polling
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requires explicit modifications to the device drivers.
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As of this writing, the
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.Li "dc", "fxp"
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.Xr dc 4 ,
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.Xr fxp 4 ,
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and
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.Li "sis"
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.Xr sis 4
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devices are supported, with other in the works.
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The modifications are rather straightforward, consisting in
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the extraction of the inner part of the interrupt service routine
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and writing a callback function, *_poll(), which is invoked
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to probe the device for events and process them. See the
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and writing a callback function,
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.Fn *_poll ,
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which is invoked
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to probe the device for events and process them.
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See the
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conditionally compiled sections of the devices mentioned above
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for more details.
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.Pp
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Because in the worst case devices are only polled on
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clock interrupts, in order to reduce the latency in processing
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packets it is advisable to increase the frequency of the clock
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packets, it is advisable to increase the frequency of the clock
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to at least 1000 HZ.
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.Sh HISTORY
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Device polling was introduced in February 2002 by
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