xref: /freebsd/share/man/man9/swi.9 (revision 8eb2bee6c0f4957c6c1cea826e59cda4d18a2a64)
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24.\" $FreeBSD$
25.\"
26.Dd July 25, 2020
27.Dt SWI 9
28.Os
29.Sh NAME
30.Nm swi_add ,
31.Nm swi_remove ,
32.Nm swi_sched
33.Nd register and schedule software interrupt handlers
34.Sh SYNOPSIS
35.In sys/param.h
36.In sys/bus.h
37.In sys/interrupt.h
38.Vt "extern struct intr_event *tty_intr_event" ;
39.Vt "extern struct intr_event *clk_intr_event" ;
40.Vt "extern void *vm_ih" ;
41.Ft int
42.Fo swi_add
43.Fa "struct intr_event **eventp"
44.Fa "const char *name"
45.Fa "driver_intr_t handler"
46.Fa "void *arg"
47.Fa "int pri"
48.Fa "enum intr_type flags"
49.Fa "void **cookiep"
50.Fc
51.Ft int
52.Fn swi_remove "void *cookie"
53.Ft void
54.Fn swi_sched "void *cookie" "int flags"
55.Sh DESCRIPTION
56These functions are used to register and schedule software interrupt handlers.
57Software interrupt handlers are attached to a software interrupt thread, just
58as hardware interrupt handlers are attached to a hardware interrupt thread.
59Multiple handlers can be attached to the same thread.
60Software interrupt handlers can be used to queue up less critical processing
61inside of hardware interrupt handlers so that the work can be done at a later
62time.
63Software interrupt threads are different from other kernel threads in that they
64are treated as an interrupt thread.
65This means that time spent executing these threads is counted as interrupt
66time, and that they can be run via a lightweight context switch.
67.Pp
68The
69.Fn swi_add
70function is used to add a new software interrupt handler to a specified
71interrupt event.
72The
73.Fa eventp
74argument is an optional pointer to a
75.Vt struct intr_event
76pointer.
77If this argument points to an existing event that holds a list of
78interrupt handlers, then this handler will be attached to that event.
79Otherwise a new event will be created, and if
80.Fa eventp
81is not
82.Dv NULL ,
83then the pointer at that address to will be modified to point to the
84newly created event.
85The
86.Fa name
87argument is used to associate a name with a specific handler.
88This name is appended to the name of the software interrupt thread that this
89handler is attached to.
90The
91.Fa handler
92argument is the function that will be executed when the handler is scheduled
93to run.
94The
95.Fa arg
96parameter will be passed in as the only parameter to
97.Fa handler
98when the function is executed.
99The
100.Fa pri
101value specifies the priority of this interrupt handler relative to other
102software interrupt handlers.
103If an interrupt event is created, then this value is used as the vector,
104and the
105.Fa flags
106argument is used to specify the attributes of a handler such as
107.Dv INTR_MPSAFE .
108The
109.Fa cookiep
110argument points to a
111.Vt void *
112cookie.
113This cookie will be set to a value that uniquely identifies this handler,
114and is used to schedule the handler for execution later on.
115.Pp
116The
117.Fn swi_remove
118function is used to teardown an interrupt handler pointed to by the
119.Fa cookie
120argument.
121It detaches the interrupt handler from the associated interrupt event
122and frees its memory.
123.Pp
124The
125.Fn swi_sched
126function is used to schedule an interrupt handler and its associated thread to
127run.
128The
129.Fa cookie
130argument specifies which software interrupt handler should be scheduled to run.
131The
132.Fa flags
133argument specifies how and when the handler should be run and is a mask of one
134or more of the following flags:
135.Bl -tag -width SWI_FROMNMI
136.It Dv SWI_DELAY
137Specifies that the kernel should mark the specified handler as needing to run,
138but the kernel should not schedule the software interrupt thread to run.
139Instead,
140.Fa handler
141will be executed the next time that the software interrupt thread runs after
142being scheduled by another event.
143Attaching a handler to the clock software interrupt thread and using this flag
144when scheduling a software interrupt handler can be used to implement the
145functionality performed by
146.Fn setdelayed
147in earlier versions of
148.Fx .
149.It Dv SWI_FROMNMI
150Specifies that
151.Fn swi_sched
152is called from NMI context and should be careful about used KPIs.
153On platforms allowing IPI sending from NMI context it immediately wakes
154.Va clk_intr_event
155via the IPI, otherwise it works just like SWI_DELAY.
156.El
157.Pp
158The
159.Va tty_intr_event
160and
161.Va clk_intr_event
162variables contain pointers to the software interrupt handlers for the tty and
163clock software interrupts, respectively.
164.Va tty_intr_event
165is used to hang tty software interrupt handlers off of the same thread.
166.Va clk_intr_event
167is used to hang delayed handlers off of the clock software interrupt thread so
168that the functionality of
169.Fn setdelayed
170can be obtained in conjunction with
171.Dv SWI_DELAY .
172The
173.Va vm_ih
174handler cookie is used to schedule software interrupt threads to run for the
175VM subsystem.
176.Sh RETURN VALUES
177The
178.Fn swi_add
179and
180.Fn swi_remove
181functions return zero on success and non-zero on failure.
182.Sh ERRORS
183The
184.Fn swi_add
185function will fail if:
186.Bl -tag -width Er
187.It Bq Er EAGAIN
188The system-imposed limit on the total
189number of processes under execution would be exceeded.
190The limit is given by the
191.Xr sysctl 3
192MIB variable
193.Dv KERN_MAXPROC .
194.It Bq Er EINVAL
195The
196.Fa flags
197argument specifies
198.Dv INTR_ENTROPY .
199.It Bq Er EINVAL
200The
201.Fa eventp
202argument points to a hardware interrupt thread.
203.It Bq Er EINVAL
204Either of the
205.Fa name
206or
207.Fa handler
208arguments are
209.Dv NULL .
210.It Bq Er EINVAL
211The
212.Dv INTR_EXCL
213flag is specified and the interrupt event pointed to by
214.Fa eventp
215already has at least one handler, or the interrupt event already has an
216exclusive handler.
217.El
218.Pp
219The
220.Fn swi_remove
221function will fail if:
222.Bl -tag -width Er
223.It Bq Er EINVAL
224A software interrupt handler pointed to by
225.Fa cookie
226is
227.Dv NULL .
228.El
229.Sh SEE ALSO
230.Xr ithread 9 ,
231.Xr taskqueue 9
232.Sh HISTORY
233The
234.Fn swi_add
235and
236.Fn swi_sched
237functions first appeared in
238.Fx 5.0 .
239They replaced the
240.Fn register_swi
241function which appeared in
242.Fx 3.0
243and the
244.Fn setsoft* ,
245and
246.Fn schedsoft*
247functions which date back to at least
248.Bx 4.4 .
249The
250.Fn swi_remove
251function first appeared in
252.Fx 6.1 .
253.Sh BUGS
254Most of the global variables described in this manual page should not be
255global, or at the very least should not be declared in
256.In sys/interrupt.h .
257