xref: /titanic_52/usr/src/cmd/lp/lib/msgs/read_fifo.c (revision 3f7d54a6b84904c8f4d8daa4c7b577bede7df8b9)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*
23  * Copyright 2005 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 /*	Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T	*/
28 /*	  All Rights Reserved  	*/
29 
30 #pragma ident	"%Z%%M%	%I%	%E% SMI"
31 
32 /* LINTLIBRARY */
33 
34 # include	<errno.h>
35 # include	<string.h>
36 #include <syslog.h>
37 
38 # include	"lp.h"
39 # include	"msgs.h"
40 
41 extern char	Resync[];
42 extern char	Endsync[];
43 static int	Had_Full_Buffer = 1;
44 int		Garbage_Bytes	= 0;
45 int		Garbage_Messages= 0;
46 
47 static int _buffer(int);
48 
49 /*
50 ** A real message is written in one piece, and the write
51 ** is atomic. Thus, even if the O_NDELAY flag is set,
52 ** if we read part of the real message, we can continue
53 ** to read the rest of it in as many steps as we want
54 ** (up to the size of the message, of course!) without
55 ** UNIX returning 0 because no data is available.
56 ** So, a real message doesn't have to be read in one piece,
57 ** which is good since we don't know how much to read!
58 **
59 ** Fake messages, or improperly written messages, don't
60 ** have this nice property.
61 **
62 ** INTERRUPTED READS:
63 **
64 ** If a signal occurs during an attempted read, we can exit.
65 ** The caller can retry the read and we will correctly restart
66 ** it. The correctness of this assertion can be seen by noticing
67 ** that at the beginning of each READ below, we can go back
68 ** to the first statement executed (the first READ below)
69 ** and correctly reexecute the code.
70 **
71 ** If the last writer closed the fifo, we'll read 0 bytes
72 ** (at least on the subsequent read). If we were in the
73 ** middle of reading a message, we were reading a bogus
74 ** message (but see below).
75 **
76 ** If we read less than we expect, it's because we were
77 ** reading a fake message (but see below).
78 **
79 ** HOWEVER: In the last two cases, we may have ONE OR MORE
80 ** REAL MESSAGES snuggled in amongst the trash!
81 **
82 ** All this verbal rambling is preface to let you understand why we
83 ** buffer the data (which is a shame, but necessary).
84 */
85 
86 /*
87 ** As long as we get real messages, we can avoid needless function calls.
88 ** The SYNC argument in this macro should be set if the resynch. bytes
89 ** have been read--i.e. if the rest of the message is trying to be read.
90 ** In this case, if we had not read a full buffer last time, then we
91 ** must be in the middle of a bogus message.
92 */
93 
94 #define UNSYNCHED_READ(N) \
95     if (fbp->psave_end - fbp->psave < N || fbp->psave >= fbp->psave_end) \
96     { \
97 	switch (_buffer(fifo)) \
98 	{ \
99 	    case -1: \
100 		return (-1); \
101 	    case 0: \
102 		if (fbp->psave_end > fbp->psave) \
103 		    goto SyncUp; \
104 		return (0); \
105 	} \
106     }
107 
108 #define SYNCHED_READ(N) \
109     if (fbp->psave_end - fbp->psave < N || fbp->psave >= fbp->psave_end) \
110     { \
111 	switch (_buffer(fifo)) \
112 	{ \
113 	    case -1: \
114 		return (-1); \
115 	    case 0: \
116 		if (fbp->psave_end > fbp->psave) \
117 		    goto SyncUp; \
118 		return (0); \
119 	} \
120 	if (!Had_Full_Buffer) \
121 	    goto SyncUp; \
122     }
123 
124 /*
125 ** read_fifo() - READ A BUFFER WITH HEADER AND CHECKSUM
126 */
127 int
128 read_fifo (fifo, buf, size)
129 int		fifo;
130 char		*buf;
131 unsigned int	size;
132 {
133     register fifobuffer_t *fbp;
134     register unsigned int real_chksum,
135 			  chksum,
136 			  real_size;
137 
138     /*
139     ** Make sure we start on a message boundary. The first
140     ** line of defense is to look for the resync. bytes.
141     **
142     ** The "SyncUp" label is global to this routine (below this point)
143     ** and is called whenever we determine that we're out
144     ** of sync. with the incoming bytes.
145     */
146 
147     if (!(fbp=GetFifoBuffer (fifo)))
148 	return	-1;
149 
150     UNSYNCHED_READ (HEAD_RESYNC_LEN);
151     while (*fbp->psave != Resync[0] || *(fbp->psave + 1) != Resync[1])
152     {
153 SyncUp:
154 #if	defined(TRACE_MESSAGES)
155 	if (trace_messages)
156 		syslog(LOG_DEBUG, "DISCARD %c\n", *fbp->psave);
157 #endif
158 	fbp->psave++;
159 	Garbage_Bytes++;
160 	UNSYNCHED_READ (HEAD_RESYNC_LEN);
161     }
162 
163 
164     /*
165     ** We're sync'd, so read the full header.
166     */
167 
168     SYNCHED_READ (HEAD_LEN);
169 
170 
171     /*
172     ** If the header size is smaller than the minimum size for a header,
173     ** or larger than allowed, we must assume that we really aren't
174     ** synchronized.
175     */
176 
177     real_size = stoh(fbp->psave + HEAD_SIZE);
178     if (real_size < CONTROL_LEN || MSGMAX < real_size)
179     {
180 #if	defined(TRACE_MESSAGES)
181 	if (trace_messages)
182 		syslog(LOG_DEBUG, "BAD SIZE\n");
183 #endif
184 	goto SyncUp;
185     }
186 
187     /*
188     ** We have the header. Now we can finally read the rest of the
189     ** message...
190     */
191 
192     SYNCHED_READ (real_size);
193 
194 
195     /*
196     ** ...but did we read a real message?...
197     */
198 
199     if
200     (
201 	   *(fbp->psave + TAIL_ENDSYNC(real_size)) != Endsync[0]
202 	|| *(fbp->psave + TAIL_ENDSYNC(real_size) + 1) != Endsync[1]
203     )
204     {
205 #if	defined(TRACE_MESSAGES)
206 	if (trace_messages)
207 		syslog(LOG_DEBUG, "BAD ENDSYNC\n");
208 #endif
209 	Garbage_Messages++;
210 	goto SyncUp;
211     }
212 
213     chksum = stoh(fbp->psave + TAIL_CHKSUM(real_size));
214     CALC_CHKSUM (fbp->psave, real_size, real_chksum);
215     if (real_chksum != chksum)
216     {
217 #if	defined(TRACE_MESSAGES)
218 	if (trace_messages)
219 		syslog(LOG_DEBUG, "BAD CHKSUM\n");
220 #endif
221 	Garbage_Messages++;
222 	goto SyncUp;
223     }
224 
225     /*
226     ** ...yes!...but can the caller handle the message?
227     */
228 
229     if (size < real_size)
230     {
231 	errno = E2BIG;
232 	return (-1);
233     }
234 
235 
236     /*
237     ** Yes!! We can finally copy the message into the caller's buffer
238     ** and remove it from our buffer. That wasn't so bad, was it?
239     */
240 
241 #if	defined(TRACE_MESSAGES)
242     if (trace_messages)
243 	syslog(LOG_DEBUG, "MESSAGE: %-.*s", real_size, fbp->psave);
244 #endif
245     (void)memcpy (buf, fbp->psave, real_size);
246     fbp->psave += real_size;
247     return (real_size);
248 }
249 
250 int
251 peek3_2 (fifo)
252 int		fifo;
253 {
254     register fifobuffer_t	*fbp;
255     register unsigned int	real_size;
256 
257     /*
258     ** Make sure we start on a message boundary. The first
259     ** line of defense is to look for the resync. bytes.
260     **
261     ** The "SyncUp" label is global to this routine (below this point)
262     ** and is called whenever we determine that we're out
263     ** of sync. with the incoming bytes.
264     */
265 
266     if (!(fbp=GetFifoBuffer (fifo)))
267 	return	-1;
268     UNSYNCHED_READ (HEAD_RESYNC_LEN);
269     while (*fbp->psave != Resync[0] || *(fbp->psave + 1) != Resync[1])
270     {
271 SyncUp:
272 	fbp->psave++;
273 	Garbage_Bytes++;
274 	UNSYNCHED_READ (HEAD_RESYNC_LEN);
275     }
276 
277 
278     /*
279     ** We're sync'd, so read the full header.
280     */
281 
282     SYNCHED_READ (HEAD_LEN);
283 
284 
285     /*
286     ** If the header size is smaller than the minimum size for a header,
287     ** or larger than allowed, we must assume that we really aren't
288     ** synchronized.
289     */
290 
291     real_size = stoh(fbp->psave + HEAD_SIZE);
292     if (real_size < CONTROL_LEN || MSGMAX < real_size)
293     {
294 	goto SyncUp;
295     }
296 
297     return(real_size);
298 }
299 
300 static int
301 _buffer(int fifo)
302 {
303 	     int	   n, nbytes, count = 0;
304     register fifobuffer_t  *fbp;
305 
306     /*
307     ** As long as we get real messages, and if we chose
308     ** SAVE_SIZE well, we shouldn't have to move the data
309     ** in the "else" branch below: Each time we call "read"
310     ** we aren't likely to get as many bytes as we ask for,
311     ** just as many as are in the fifo, AND THIS SHOULD
312     ** REPRESENT AN INTEGRAL NUMBER OF MESSAGES. Since
313     ** the "read_fifo" routine reads complete messages,
314     ** it will end its read at the end of the message,
315     ** which (eventually) will make "psave_end" == "psave".
316     */
317 
318     /*
319     ** If the buffer is empty, there's nothing to move.
320     */
321     if (!(fbp = GetFifoBuffer (fifo)))
322 	return	-1;
323     if (fbp->psave_end == fbp->psave)
324 	fbp->psave = fbp->psave_end = fbp->save;	/* sane pointers! */
325 
326     /*
327     ** If the buffer has data at the high end, move it down.
328     */
329     else
330     if (fbp->psave != fbp->save)		/* sane pointers! */
331     {
332 	/*
333 	** Move the data still left in the buffer to the
334 	** front, so we can read as much as possible into
335 	** buffer after it.
336 	*/
337 
338 	memmove(fbp->save, fbp->psave, fbp->psave_end - fbp->psave);
339 
340 	fbp->psave_end = fbp->save + (fbp->psave_end - fbp->psave);
341 	fbp->psave = fbp->save;	/* sane	pointers! */
342     }
343 
344     /*
345     ** The "fbp->psave" and "fbp->psave_end" pointers must be in a sane
346     ** state when we get here, in case the "read()" gets interrupted.
347     ** When that happens, we return to the caller who may try
348     ** to restart us! Sane: fbp->psave == fbp->save (HERE!)
349     */
350 
351     nbytes = MSGMAX - (fbp->psave_end - fbp->save);
352 
353     while ((n = read(fifo, fbp->psave_end, nbytes)) == 0 && count < 60)
354     {
355 	(void)	sleep ((unsigned) 1);
356 	count++;
357     }
358 
359     if (n > 0)
360 	fbp->psave_end += n;
361 
362     Had_Full_Buffer = fbp->full;
363     fbp->full = (nbytes == n);
364 
365     return (n);
366 }
367