5 * Select works on regular files, (pseudo) terminal devices, streams-based
6 * files, FIFOs, pipes, and sockets. This test verifies selecting for FIFOs
7 * (named pipes) and pipes (anonymous pipes). This test will not verify most
8 * error file descriptors, as the setting of this fdset in the face of an error
9 * condition is implementation-specific (except for regular files (alway set)
10 * and sockets (protocol-specific or OOB data received), but those file types
11 * are not being tested in this specific test).
13 * This test is part of a bigger select test. It expects as argument which sub-
16 * [1] If a socket has a pending error, it shall be considered to have an
17 * exceptional condition pending. Otherwise, what constitutes an exceptional
18 * condition is file type-specific. For a file descriptor for use with a
19 * socket, it is protocol-specific except as noted below. For other file types
20 * it is implementation-defined. If the operation is meaningless for a
21 * particular file type, pselect() or select() shall indicate that the
22 * descriptor is ready for read or write operations, and shall indicate that
23 * the descriptor has no exceptional condition pending.
29 #include <sys/types.h>
32 #include <sys/select.h>
39 #define NAMEDPIPE1 "selecttestd-1"
40 #define NAMEDPIPE2 "selecttestd-2"
41 #define SENDSTRING "minixrocks"
42 #define DO_HANDLEDATA 1
47 int errct
= 0, subtest
= -1;
49 int fd_ap
[2]; /* Anonymous pipe; read from fd_ap[0], write to fd_ap[1] */
50 int fd_np1
; /* Named pipe */
51 int fd_np2
; /* Named pipe */
53 void e(int n
, char *s
) {
54 printf("Subtest %d, error %d, %s\n", subtest
, n
, s
);
56 if (errct
++ > MAX_ERROR
) {
57 printf("Too many errors; test aborted\n");
66 /* Open named pipe for writing. This will block until a reader arrives. */
67 if((fd_np1
= open(NAMEDPIPE1
, O_WRONLY
)) == -1) {
68 printf("Error opening %s for writing, signalling parent to quit\n",
71 printf("Please make sure that %s is not in use while running this test\n",
76 /* Going to sleep for three seconds to allow the parent proc to get ready */
77 tv
.tv_sec
= DO_HANDLEDATA
;
79 select(0, NULL
, NULL
, NULL
, &tv
);
81 /* Try to write. Doesn't matter how many bytes we actually send. */
82 retval
= write(fd_np1
, SENDSTRING
, strlen(SENDSTRING
));
84 /* Wait for another second to allow the parent to process incoming data */
85 tv
.tv_sec
= DO_HANDLEDATA
;
87 retval
= select(0,NULL
, NULL
, NULL
, &tv
);
91 /* Wait for another second to allow the parent to process incoming data */
92 tv
.tv_sec
= DO_HANDLEDATA
;
94 retval
= select(0,NULL
, NULL
, NULL
, &tv
);
96 /* Open named pipe for reading. This will block until a writer arrives. */
97 if((fd_np2
= open(NAMEDPIPE2
, O_RDONLY
)) == -1) {
98 printf("Error opening %s for reading, signalling parent to quit\n",
101 printf("Please make sure that %s is not in use while running this test\n",
106 /* Wait for another second to allow the parent to run some tests. */
107 tv
.tv_sec
= DO_HANDLEDATA
;
109 retval
= select(0, NULL
, NULL
, NULL
, &tv
);
115 /* Let the parent do initial read and write tests from and to the pipe. */
116 tv
.tv_sec
= DO_PAUSE
;
118 retval
= select(0, NULL
, NULL
, NULL
, &tv
);
120 /* Unblock blocking read select by writing data */
121 if(write(fd_ap
[1], SENDSTRING
, strlen(SENDSTRING
)) < 0) {
122 perror("Could not write to anonymous pipe");
129 int count_fds(int nfds
, fd_set
*fds
) {
130 /* Return number of bits set in fds */
132 assert(fds
!= NULL
&& nfds
> 0);
133 for(i
= 0; i
< nfds
; i
++) {
134 if(FD_ISSET(i
, fds
)) result
++;
139 int empty_fds(int nfds
, fd_set
*fds
) {
140 /* Returns nonzero if the first bits up to nfds in fds are not set */
142 assert(fds
!= NULL
&& nfds
> 0);
143 for(i
= 0; i
< nfds
; i
++) if(FD_ISSET(i
, fds
)) return 0;
147 int compare_fds(int nfds
, fd_set
*lh
, fd_set
*rh
) {
148 /* Returns nonzero if lh equals rh up to nfds bits */
150 assert(lh
!= NULL
&& rh
!= NULL
&& nfds
> 0);
151 for(i
= 0; i
< nfds
; i
++) {
152 if((FD_ISSET(i
, lh
) && !FD_ISSET(i
, rh
)) ||
153 (!FD_ISSET(i
, lh
) && FD_ISSET(i
, rh
))) {
160 void dump_fds(int nfds
, fd_set
*fds
) {
161 /* Print a graphical representation of bits in fds */
163 if(fds
!= NULL
&& nfds
> 0) {
164 for(i
= 0; i
< nfds
; i
++) printf("%d ", (FD_ISSET(i
, fds
) ? 1 : 0));
169 void do_parent(int child
) {
170 fd_set fds_read
, fds_write
, fds_error
;
171 fd_set fds_compare_read
, fds_compare_write
;
177 /* Open named pipe for reading. This will block until a writer arrives. */
178 if((fd_np1
= open(NAMEDPIPE1
, O_RDONLY
)) == -1) {
179 printf("Error opening %s for reading\n", NAMEDPIPE1
);
181 printf("Please make sure that %s is not in use while running this test.\n",
183 waitpid(child
, &retval
, 0);
187 /* Clear bit masks */
188 FD_ZERO(&fds_read
); FD_ZERO(&fds_write
);
189 /* Set read and write bits */
190 FD_SET(fd_np1
, &fds_read
);
191 FD_SET(fd_np1
, &fds_write
);
192 tv
.tv_sec
= DO_TIMEOUT
;
195 /* Test if we can read or write from/to fd_np1. As fd_np1 is opened read only
196 * we cannot actually write, so the select should return immediately [1] and
197 * the offending bit set in the fd set. We read from a pipe that is opened
198 * with O_NONBLOCKING cleared, so it is guaranteed we can read.
199 * However, at this moment the writer is sleeping, so the pipe is empty and
200 * read is supposed to block. Therefore, only 1 file descriptor should be
201 * ready. A timeout value is still set in case an error occurs in a faulty
203 retval
= select(fd_np1
+1, &fds_read
, &fds_write
, NULL
, &tv
);
205 /* Did we receive an error? */
207 snprintf(errbuf
, sizeof(errbuf
),
208 "one fd should be set%s", (retval
== 0 ? " (TIMEOUT)" : ""));
212 if(!empty_fds(fd_np1
+1,&fds_read
)) e(2, "no read bits should be set");
215 /* Make sure the write bit is set (and just 1 bit) */
216 FD_ZERO(&fds_compare_write
); FD_SET(fd_np1
, &fds_compare_write
);
217 if(!compare_fds(fd_np1
+1, &fds_compare_write
, &fds_write
))
218 e(3, "write should be set");
220 /* Clear sets and set up new bit masks */
221 FD_ZERO(&fds_read
); FD_ZERO(&fds_write
);
222 FD_SET(fd_np1
, &fds_read
);
223 tv
.tv_sec
= DO_TIMEOUT
; /* To make sure we get to see some error messages
224 instead of blocking forever when the
225 implementation is faulty. A timeout causes retval
228 /* The sleeping writer is about to wake up and write data to the pipe. */
229 retval
= select(fd_np1
+1, &fds_read
, &fds_write
, NULL
, &tv
);
231 /* Correct amount of ready file descriptors? Just 1 read */
233 snprintf(errbuf
, sizeof(errbuf
),
234 "one fd should be set%s", (retval
== 0 ? " (TIMEOUT)" : ""));
238 if(!FD_ISSET(fd_np1
, &fds_read
)) e(5, "read should be set");
240 /* Note that we left the write set empty. This should be equivalent to
241 * setting this parameter to NULL. */
242 if(!empty_fds(fd_np1
+1, &fds_write
)) e(6, "write should NOT be set");
244 /* In case something went wrong above, we might end up with a child process
245 * blocking on a write call we close the file descriptor now. Synchronize on
247 if(read(fd_np1
, buf
, sizeof(SENDSTRING
)) < 0) perror("Read error");
249 /* Close file descriptor. We're going to reverse the test */
252 /* Wait for a second to allow the child to close the pipe as well */
253 tv
.tv_sec
= DO_HANDLEDATA
;
255 retval
= select(0,NULL
, NULL
, NULL
, &tv
);
257 /* Open named pipe for writing. This call blocks until a reader arrives. */
258 if((fd_np2
= open(NAMEDPIPE2
, O_WRONLY
)) == -1) {
259 printf("Error opening %s for writing\n",
262 printf("Please make sure that %s is not in use while running this test\n",
267 /* At this moment the child process has opened the named pipe for reading and
268 * we have opened it for writing. We're now going to reverse some of the
269 * tests we've done earlier. */
271 /* Clear sets and set up bit masks */
272 FD_ZERO(&fds_read
); FD_ZERO(&fds_write
); FD_ZERO(&fds_error
);
273 FD_SET(fd_np2
, &fds_read
);
274 FD_SET(fd_np2
, &fds_write
);
275 tv
.tv_sec
= DO_TIMEOUT
;
277 /* Select for reading from an fd opened O_WRONLY. This should return
278 * immediately as it is not a meaningful operation [1] and is therefore not
279 * blocking. The select should return two file descriptors are ready (the
280 * failing read and valid write). */
282 retval
= select(fd_np2
+1, &fds_read
, &fds_write
, &fds_error
, &tv
);
284 /* Did we receive an error? */
286 snprintf(errbuf
, sizeof(errbuf
),
287 "two fds should be set%s", (retval
== 0 ? " (TIMEOUT)" : ""));
291 /* Make sure read bit is set (and just 1 bit) */
292 FD_ZERO(&fds_compare_read
); FD_SET(fd_np2
, &fds_compare_read
);
293 if(!compare_fds(fd_np2
+1, &fds_compare_read
, &fds_read
))
294 e(8, "read should be set");
296 /* Write bit should be set (and just 1 bit) */
297 FD_ZERO(&fds_compare_write
); FD_SET(fd_np2
, &fds_compare_write
);
298 if(!compare_fds(fd_np2
+1, &fds_compare_write
, &fds_write
))
299 e(9, "write should be set");
301 if(!empty_fds(fd_np2
+1, &fds_error
))
302 e(10, "Error should NOT be set");
304 FD_ZERO(&fds_read
); FD_ZERO(&fds_write
);
305 FD_SET(fd_np2
, &fds_write
);
306 tv
.tv_sec
= DO_TIMEOUT
;
308 retval
= select(fd_np2
+1, &fds_read
, &fds_write
, NULL
, &tv
);
310 /* Correct amount of ready file descriptors? Just 1 write */
312 snprintf(errbuf
, sizeof(errbuf
),
313 "one fd should be set%s", (retval
== 0 ? " (TIMEOUT)" : ""));
317 if(!empty_fds(fd_np2
+1, &fds_read
)) e(12, "read should NOT be set");
321 /* Check if we can write to the pipe */
322 FD_ZERO(&fds_read
); FD_ZERO(&fds_write
);
323 FD_SET(fd_ap
[1], &fds_write
);
324 tv
.tv_sec
= DO_TIMEOUT
;
326 retval
= select(fd_ap
[1]+1, NULL
, &fds_write
, NULL
, &tv
);
328 /* Correct amount of ready file descriptors? Just 1 write */
330 snprintf(errbuf
, sizeof(errbuf
),
331 "one fd should be set%s", (retval
== 0 ? " (TIMEOUT)" : ""));
335 /* Make sure write bit is set (and just 1 bit) */
336 FD_ZERO(&fds_compare_write
); FD_SET(fd_ap
[1], &fds_compare_write
);
337 if(!compare_fds(fd_ap
[1]+1, &fds_compare_write
, &fds_write
))
338 e(14, "write should be set");
340 /* Intentionally test reading from pipe and letting it time out. */
341 FD_SET(fd_ap
[0], &fds_read
);
345 retval
= select(fd_ap
[0]+1, &fds_read
, NULL
, NULL
, &tv
);
348 /* Did we time out? */
349 if(retval
!= 0) e(15, "we should have timed out");
351 /* Did it take us approximately 1 second? */
352 if((int) (end
- start
) != 1) {
353 snprintf(errbuf
, sizeof(errbuf
),
354 "time out is not 1 second (instead, it is %ld)",
355 (long int) (end
- start
));
359 /* Do another read, but this time we expect incoming data from child. */
361 FD_SET(fd_ap
[0], &fds_read
);
362 tv
.tv_sec
= DO_TIMEOUT
;
364 retval
= select(fd_ap
[0]+1, &fds_read
, NULL
, NULL
, &tv
);
366 /* Correct amount of ready file descriptors? Just 1 read. */
367 if(retval
!= 1) e(17, "one fd should be set");
369 /* Is the read bit set? And just 1 bit. */
370 FD_ZERO(&fds_compare_read
); FD_SET(fd_ap
[0], &fds_compare_read
);
371 if(!compare_fds(fd_ap
[0]+1, &fds_compare_read
, &fds_read
))
372 e(18, "read should be set.");
374 /* By convention fd_ap[0] is meant to be used for reading from the pipe and
375 * fd_ap[1] is meant for writing, where fd_ap is a an anonymous pipe.
376 * However, it is unspecified what happens when fd_ap[0] is used for writing
377 * and fd_ap[1] for reading. (It is unsupported on Minix.) As such, it is not
378 * necessary to make test cases for wrong pipe file descriptors using select.
381 waitpid(child
, &retval
, 0);
387 int main(int argc
, char **argv
) {
390 /* Get subtest number */
392 printf("Usage: %s subtest_no\n", argv
[0]);
394 } else if(sscanf(argv
[1], "%d", &subtest
) != 1) {
395 printf("Usage: %s subtest_no\n", argv
[0]);
399 /* Set up anonymous pipe */
400 if(pipe(fd_ap
) < 0) {
401 perror("Could not create anonymous pipe");
405 /* Create named pipe2. It is unlinked by do_parent. */
406 if(mkfifo(NAMEDPIPE1
, 0600) < 0) {
407 printf("Could not create named pipe %s", NAMEDPIPE1
);
412 if(mkfifo(NAMEDPIPE2
, 0600) < 0) {
413 printf("Could not create named pipe %s", NAMEDPIPE2
);
419 if(forkres
== 0) do_child();
420 else if(forkres
> 0) do_parent(forkres
);
421 else { /* Fork failed */
422 perror("Unable to fork");
426 exit(-2); /* We're not supposed to get here. Both do_* routines should exit*/