xref: /freebsd/lib/libopenbsd/imsg_init.3 (revision 0b3105a37d7adcadcb720112fed4dc4e8040be99)
1.\" $OpenBSD: imsg_init.3,v 1.13 2015/07/11 16:23:59 deraadt Exp $
2.\"
3.\" Copyright (c) 2010 Nicholas Marriott <nicm@openbsd.org>
4.\"
5.\" Permission to use, copy, modify, and distribute this software for any
6.\" purpose with or without fee is hereby granted, provided that the above
7.\" copyright notice and this permission notice appear in all copies.
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11.\" MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
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17.\" $FreeBSD$
18.\"
19.Dd $Mdocdate: July 11 2015 $
20.Dt IMSG_INIT 3
21.Os
22.Sh NAME
23.Nm imsg_init ,
24.Nm imsg_read ,
25.Nm imsg_get ,
26.Nm imsg_compose ,
27.Nm imsg_composev ,
28.Nm imsg_create ,
29.Nm imsg_add ,
30.Nm imsg_close ,
31.Nm imsg_free ,
32.Nm imsg_flush ,
33.Nm imsg_clear ,
34.Nm ibuf_open ,
35.Nm ibuf_dynamic ,
36.Nm ibuf_add ,
37.Nm ibuf_reserve ,
38.Nm ibuf_seek ,
39.Nm ibuf_size ,
40.Nm ibuf_left ,
41.Nm ibuf_close ,
42.Nm ibuf_write ,
43.Nm ibuf_free ,
44.Nm msgbuf_init ,
45.Nm msgbuf_clear ,
46.Nm msgbuf_write ,
47.Nm msgbuf_drain
48.Nd IPC messaging functions
49.Sh SYNOPSIS
50.In sys/types.h
51.In sys/queue.h
52.In sys/uio.h
53.In imsg.h
54.Ft void
55.Fn imsg_init "struct imsgbuf *ibuf" "int fd"
56.Ft ssize_t
57.Fn imsg_read "struct imsgbuf *ibuf"
58.Ft ssize_t
59.Fn imsg_get "struct imsgbuf *ibuf" "struct imsg *imsg"
60.Ft int
61.Fn imsg_compose "struct imsgbuf *ibuf" "u_int32_t type" "uint32_t peerid" \
62    "pid_t pid" "int fd" "const void *data" "u_int16_t datalen"
63.Ft int
64.Fn imsg_composev "struct imsgbuf *ibuf" "u_int32_t type" "u_int32_t peerid" \
65    "pid_t pid" "int fd" "const struct iovec *iov" "int iovcnt"
66.Ft "struct ibuf *"
67.Fn imsg_create "struct imsgbuf *ibuf" "u_int32_t type" "u_int32_t peerid" \
68    "pid_t pid" "u_int16_t datalen"
69.Ft int
70.Fn imsg_add "struct ibuf *buf" "const void *data" "u_int16_t datalen"
71.Ft void
72.Fn imsg_close "struct imsgbuf *ibuf" "struct ibuf *msg"
73.Ft void
74.Fn imsg_free "struct imsg *imsg"
75.Ft int
76.Fn imsg_flush "struct imsgbuf *ibuf"
77.Ft void
78.Fn imsg_clear "struct imsgbuf *ibuf"
79.Ft "struct ibuf *"
80.Fn ibuf_open "size_t len"
81.Ft "struct ibuf *"
82.Fn ibuf_dynamic "size_t len" "size_t max"
83.Ft int
84.Fn ibuf_add "struct ibuf *buf" "const void *data" "size_t len"
85.Ft "void *"
86.Fn ibuf_reserve "struct ibuf *buf" "size_t len"
87.Ft "void *"
88.Fn ibuf_seek "struct ibuf *buf" "size_t pos" "size_t len"
89.Ft size_t
90.Fn ibuf_size "struct ibuf *buf"
91.Ft size_t
92.Fn ibuf_left "struct ibuf *buf"
93.Ft void
94.Fn ibuf_close "struct msgbuf *msgbuf" "struct ibuf *buf"
95.Ft int
96.Fn ibuf_write "struct msgbuf *msgbuf"
97.Ft void
98.Fn ibuf_free "struct ibuf *buf"
99.Ft void
100.Fn msgbuf_init "struct msgbuf *msgbuf"
101.Ft void
102.Fn msgbuf_clear "struct msgbuf *msgbuf"
103.Ft int
104.Fn msgbuf_write "struct msgbuf *msgbuf"
105.Ft void
106.Fn msgbuf_drain "struct msgbuf *msgbuf" "size_t n"
107.Sh DESCRIPTION
108The
109.Nm imsg
110functions provide a simple mechanism for communication between processes
111using sockets.
112Each transmitted message is guaranteed to be presented to the receiving program
113whole.
114They are commonly used in privilege separated processes, where processes with
115different rights are required to cooperate.
116.Pp
117A program using these functions should be linked with
118.Em -lutil .
119.Pp
120The basic
121.Nm
122structure is the
123.Em imsgbuf ,
124which wraps a file descriptor and represents one side of a channel on which
125messages are sent and received:
126.Bd -literal -offset indent
127struct imsgbuf {
128	TAILQ_HEAD(, imsg_fd)	fds;
129	struct ibuf_read	r;
130	struct msgbuf		w;
131	int			fd;
132	pid_t			pid;
133};
134.Ed
135.Pp
136.Fn imsg_init
137is a routine which initializes
138.Fa ibuf
139as one side of a channel associated with
140.Fa fd .
141The file descriptor is used to send and receive messages,
142but is not closed by any of the imsg functions.
143An imsgbuf is initialized with the
144.Em w
145member as the output buffer queue,
146.Em fd
147with the file descriptor passed to
148.Fn imsg_init
149and the other members for internal use only.
150.Pp
151The
152.Fn imsg_clear
153function frees any data allocated as part of an imsgbuf.
154.Pp
155.Fn imsg_create ,
156.Fn imsg_add
157and
158.Fn imsg_close
159are generic construction routines for messages that are to be sent using an
160imsgbuf.
161.Pp
162.Fn imsg_create
163creates a new message with header specified by
164.Fa type ,
165.Fa peerid
166and
167.Fa pid .
168A
169.Fa pid
170of zero uses the process ID returned by
171.Xr getpid 2
172when
173.Fa ibuf
174was initialized.
175In addition to this common imsg header,
176.Fa datalen
177bytes of space may be reserved for attaching to this imsg.
178This space is populated using
179.Fn imsg_add .
180Additionally, the file descriptor
181.Fa fd
182may be passed over the socket to the other process.
183If
184.Fa fd
185is given, it is closed in the sending program after the message is sent.
186A value of \-1 indicates no file descriptor should be passed.
187.Fn imsg_create
188returns a pointer to a new message if it succeeds, NULL otherwise.
189.Pp
190.Fn imsg_add
191appends to
192.Fa imsg
193.Fa len
194bytes of ancillary data pointed to by
195.Fa buf .
196It returns
197.Fa len
198if it succeeds, \-1 otherwise.
199.Pp
200.Fn imsg_close
201completes creation of
202.Fa imsg
203by adding it to
204.Fa imsgbuf
205output buffer.
206.Pp
207.Fn imsg_compose
208is a routine which is used to quickly create and queue an imsg.
209It takes the same parameters as the
210.Fn imsg_create ,
211.Fn imsg_add
212and
213.Fn imsg_close
214routines,
215except that only one ancillary data buffer can be provided.
216This routine returns 1 if it succeeds, \-1 otherwise.
217.Pp
218.Fn imsg_composev
219is similar to
220.Fn imsg_compose .
221It takes the same parameters, except that the ancillary data buffer is specified
222by
223.Fa iovec .
224.Pp
225.Fn imsg_flush
226is a function which calls
227.Fn msgbuf_write
228in a loop until all imsgs in the output buffer are sent.
229It returns 0 if it succeeds, \-1 otherwise.
230.Pp
231The
232.Fn imsg_read
233routine reads pending data with
234.Xr recvmsg 2
235and queues it as individual messages on
236.Fa imsgbuf .
237It returns the number of bytes read on success, or \-1 on error.
238A return value of \-1 from
239.Fn imsg_read
240invalidates
241.Fa imsgbuf ,
242and renders it suitable only for passing to
243.Fn imsg_clear .
244.Pp
245.Fn imsg_get
246fills in an individual imsg pending on
247.Fa imsgbuf
248into the structure pointed to by
249.Fa imsg .
250It returns the total size of the message, 0 if no messages are ready, or \-1
251for an error.
252Received messages are returned as a
253.Em struct imsg ,
254which must be freed by
255.Fn imsg_free
256when no longer required.
257.Em struct imsg
258has this form:
259.Bd -literal -offset indent
260struct imsg {
261	struct imsg_hdr	 hdr;
262	int		 fd;
263	void		*data;
264};
265
266struct imsg_hdr {
267	u_int32_t	 type;
268	u_int16_t	 len;
269	u_int16_t	 flags;
270	u_int32_t	 peerid;
271	u_int32_t	 pid;
272};
273.Ed
274.Pp
275The header members are:
276.Bl -tag -width Ds -offset indent
277.It type
278A integer identifier, typically used to express the meaning of the message.
279.It len
280The total length of the imsg, including the header and any ancillary data
281transmitted with the message (pointed to by the
282.Em data
283member of the message itself).
284.It flags
285Flags used internally by the imsg functions: should not be used by application
286programs.
287.It peerid, pid
28832-bit values specified on message creation and free for any use by the
289caller, normally used to identify the message sender.
290.El
291.Pp
292In addition,
293.Em struct imsg
294has the following:
295.Bl -tag -width Ds -offset indent
296.It fd
297The file descriptor specified when the message was created and passed using the
298socket control message API, or \-1 if no file descriptor was sent.
299.It data
300A pointer to the ancillary data transmitted with the imsg.
301.El
302.Pp
303The IMSG_HEADER_SIZE define is the size of the imsg message header, which
304may be subtracted from the
305.Fa len
306member of
307.Em struct imsg_hdr
308to obtain the length of any additional data passed with the message.
309.Pp
310MAX_IMSGSIZE is defined as the maximum size of a single imsg, currently
31116384 bytes.
312.Sh BUFFERS
313The imsg API defines functions to manipulate buffers, used internally and during
314construction of imsgs with
315.Fn imsg_create .
316A
317.Em struct ibuf
318is a single buffer and a
319.Em struct msgbuf
320a queue of output buffers for transmission:
321.Bd -literal -offset indent
322struct ibuf {
323	TAILQ_ENTRY(ibuf)	 entry;
324	u_char			*buf;
325	size_t			 size;
326	size_t			 max;
327	size_t			 wpos;
328	size_t			 rpos;
329	int			 fd;
330};
331
332struct msgbuf {
333	TAILQ_HEAD(, ibuf)	 bufs;
334	u_int32_t		 queued;
335	int			 fd;
336};
337.Ed
338.Pp
339The
340.Fn ibuf_open
341function allocates a fixed-length buffer.
342The buffer may not be resized and may contain a maximum of
343.Fa len
344bytes.
345On success
346.Fn ibuf_open
347returns a pointer to the buffer; on failure it returns NULL.
348.Pp
349.Fn ibuf_dynamic
350allocates a resizeable buffer of initial length
351.Fa len
352and maximum size
353.Fa max .
354Buffers allocated with
355.Fn ibuf_dynamic
356are automatically grown if necessary when data is added.
357.Pp
358.Fn ibuf_add
359is a routine which appends a block of data to
360.Fa buf .
3610 is returned on success and \-1 on failure.
362.Pp
363.Fn ibuf_reserve
364is used to reserve
365.Fa len
366bytes in
367.Fa buf .
368A pointer to the start of the reserved space is returned, or NULL on error.
369.Pp
370.Fn ibuf_seek
371is a function which returns a pointer to the part of the buffer at offset
372.Fa pos
373and of extent
374.Fa len .
375NULL is returned if the requested range is outside the part of the buffer
376in use.
377.Pp
378.Fn ibuf_size
379and
380.Fn ibuf_left
381are functions which return the total bytes used and available in
382.Fa buf
383respectively.
384.Pp
385.Fn ibuf_close
386appends
387.Fa buf
388to
389.Fa msgbuf
390ready to be sent.
391.Pp
392The
393.Fn ibuf_write
394routine transmits as many pending buffers as possible from
395.Fn msgbuf
396using
397.Xr writev 2 .
398It returns 1 if it succeeds, \-1 on error and 0 when no buffers were
399pending or an EOF condition on the socket is detected.
400Temporary resource shortages are returned with errno
401.Er EAGAIN
402and require the application to retry again in the future.
403.Pp
404.Fn ibuf_free
405frees
406.Fa buf
407and any associated storage.
408.Pp
409The
410.Fn msgbuf_init
411function initializes
412.Fa msgbuf
413so that buffers may be appended to it.
414The
415.Em fd
416member should also be set directly before
417.Fn msgbuf_write
418is used.
419.Pp
420.Fn msgbuf_clear
421empties a msgbuf, removing and discarding any queued buffers.
422.Pp
423The
424.Fn msgbuf_write
425routine calls
426.Xr sendmsg 2
427to transmit buffers queued in
428.Fa msgbuf .
429It returns 1 if it succeeds, \-1 on error, and 0 when the queue was empty
430or an EOF condition on the socket is detected.
431Temporary resource shortages are returned with errno
432.Er EAGAIN
433and require the application to retry again in the future.
434.Pp
435.Fn msgbuf_drain
436discards data from buffers queued in
437.Fa msgbuf
438until
439.Fa n
440bytes have been removed or
441.Fa msgbuf
442is empty.
443.Sh EXAMPLES
444In a typical program, a channel between two processes is created with
445.Xr socketpair 2 ,
446and an
447.Em imsgbuf
448created around one file descriptor in each process:
449.Bd -literal -offset indent
450struct imsgbuf	parent_ibuf, child_ibuf;
451int		imsg_fds[2];
452
453if (socketpair(AF_UNIX, SOCK_STREAM, PF_UNSPEC, imsg_fds) == -1)
454	err(1, "socketpair");
455
456switch (fork()) {
457case -1:
458	err(1, "fork");
459case 0:
460	/* child */
461	close(imsg_fds[0]);
462	imsg_init(&child_ibuf, imsg_fds[1]);
463	exit(child_main(&child_ibuf));
464}
465
466/* parent */
467close(imsg_fds[1]);
468imsg_init(&parent_ibuf, imsg_fds[0]);
469exit(parent_main(&parent_ibuf));
470.Ed
471.Pp
472Messages may then be composed and queued on the
473.Em imsgbuf ,
474for example using the
475.Fn imsg_compose
476function:
477.Bd -literal -offset indent
478enum imsg_type {
479	IMSG_A_MESSAGE,
480	IMSG_MESSAGE2
481};
482
483int
484child_main(struct imsgbuf *ibuf)
485{
486	int	idata;
487	...
488	idata = 42;
489	imsg_compose(ibuf, IMSG_A_MESSAGE,
490		0, 0, -1, &idata, sizeof idata);
491	...
492}
493.Ed
494.Pp
495A mechanism such as
496.Xr poll 2
497or the
498.Xr event 3
499library is used to monitor the socket file descriptor.
500When the socket is ready for writing, queued messages are transmitted with
501.Fn msgbuf_write :
502.Bd -literal -offset indent
503	if (msgbuf_write(&ibuf-\*(Gtw) \*(Lt= 0 && errno != EAGAIN) {
504		/* handle write failure */
505	}
506.Ed
507.Pp
508And when ready for reading, messages are first received using
509.Fn imsg_read
510and then extracted with
511.Fn imsg_get :
512.Bd -literal -offset indent
513void
514dispatch_imsg(struct imsgbuf *ibuf)
515{
516	struct imsg	imsg;
517	ssize_t         n, datalen;
518	int		idata;
519
520	if ((n = imsg_read(ibuf)) == -1 || n == 0) {
521		/* handle socket error */
522	}
523
524	for (;;) {
525		if ((n = imsg_get(ibuf, &imsg)) == -1) {
526			/* handle read error */
527		}
528		if (n == 0)	/* no more messages */
529			return;
530		datalen = imsg.hdr.len - IMSG_HEADER_SIZE;
531
532		switch (imsg.hdr.type) {
533		case IMSG_A_MESSAGE:
534			if (datalen \*(Lt sizeof idata) {
535				/* handle corrupt message */
536			}
537			memcpy(&idata, imsg.data, sizeof idata);
538			/* handle message received */
539			break;
540		...
541		}
542
543		imsg_free(&imsg);
544	}
545}
546.Ed
547.Sh SEE ALSO
548.Xr socketpair 2 ,
549.Xr unix 4
550