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[/] [or1k/] [trunk/] [rtems-20020807/] [c/] [src/] [tests/] [psxtests/] [psx13/] [test.c] - Rev 1026
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/* * Psx13 * Chris Bond (working under Jennifer's account) * * This test exercises the following routines: * * device_lseek - test implemented * dup - test implemented * dup2 - test implemented * fdatasync - test implemented * fsync - test implemented * pathconf - test implemented * fpathconf - test implemented * pipe - test implemented * umask - test implemented * utime - test implemented * * COPYRIGHT (c) 1989-1999. * On-Line Applications Research Corporation (OAR). * * The license and distribution terms for this file may be * found in the file LICENSE in this distribution or at * http://www.OARcorp.com/rtems/license.html. * * test.c,v 1.5 2002/08/02 00:53:21 joel Exp */ #include <rtems.h> #include <rtems/libio.h> #include <fcntl.h> #include <unistd.h> #include <errno.h> #include <utime.h> #include <stdio.h> #include <pmacros.h> /*------------------------------------------------------------------- * InitFiles function * * Initializes the three files to be used in the test. * * arguments: none * assumptions: fopen, fprintf, fwrite, FILE are available * actions: creates testfile1, a text file with 'a'..'z' listed 4 times. * creates testfile2, a text file with 'a'..'z' listed 4 times. * creates testfile3, a binary file with 0..9 listed 4 times. * returns: TRUE if files opened successfully. * FALSE if fail on file open for write. * * ------------------------------------------------------------------ */ int InitFiles (void) { int count; FILE *fp1, *fp2, *fp3; char letter; int number; int retval; fp1 = fopen("testfile1.tst", "wt"); fp2 = fopen("testfile2.tst", "wt"); fp3 = fopen("testfile4.tst", "wb"); if ((fp1 != NULL) && (fp2 != NULL) && (fp3 !=NULL)) { letter = 'a'; for (count=0 ; count<(26*4); ++count) { fprintf (fp1, "%c", letter); fprintf (fp2, "%c", letter); ++letter; if (letter > 'z') letter = 'a'; } number = 0; for (count = 0; count <40; ++count) { fwrite (&number, 1, sizeof(int), fp3); ++number; if (number > 9) number = 0; } fclose(fp1); fclose(fp2); fclose(fp3); retval = TRUE; } else retval = FALSE; /* assert (retval == TRUE);*/ return (retval); } /* --------------------------------------------------------------- * DeviceLSeekTest function * * Hits the device_lseek code by lseeking on the console. * * arguments: none * assumptions: lseek available * actions: hits lseek with some dummy arguments. * returns: value of return from lseek. * * --------------------------------------------------------------- */ int DeviceLSeekTest (void) { int error = -1, retval = FALSE; int fd = open ("/dev/console", O_RDONLY); error = lseek(fd, 5, SEEK_SET); if (error == 0) retval = TRUE; else retval = FALSE; /* assert (retval == TRUE);*/ return (retval); } /* --------------------------------------------------------------- * DupTest function * * Hits the dup code. * * arguments: none * assumptions: dup, open, close, fcntl available. * actions: Gets a file descriptor(fd1) for test file1. * dups fd1 to fd2. * sets fd1 to append mode * checks fd2 to ensure it's in append mode, also. * returns: success if fd2 is indeed a copy of fd1. * * --------------------------------------------------------------- */ int DupTest(void) { int fd1, fd2; int flags = 0, retval = FALSE; fd1 = open ("testfile1.tst", O_RDONLY); fd2 = dup(fd1); if (fd2 != -1) { fcntl(fd1, F_SETFL, O_APPEND); flags = fcntl(fd2, F_GETFL); close (fd1); flags = (flags & O_APPEND); retval = (flags == O_APPEND); } else retval = FALSE; /* assert (retval == TRUE);*/ return (retval); } /* --------------------------------------------------------------- * Dup2Test function * * Hits the dup2 code. * * arguments: none * assumptions: dup, dup2, open, close, fcntl available. * actions: Gets a file descriptor(fd1) for test file1. * dups fd1 to fd2. * sets fd1 to append mode * checks fd2 to ensure it's in append mode, also. * sets fd1 to invalid value, fd2 to valid, tries to dup2. * sets fd2 to invalid value, fd1 to valid tries to dup2. * returns: success if fd2 is a copy of fd1, and invalid fd1 or fd2 produce errors. * * --------------------------------------------------------------- */ int Dup2Test(void) { int fd1, fd2; int flags = 0, retval = FALSE; int error = 0; fd1 = open ("testfile1.tst", O_RDONLY); fd2 = open ("testfile2.tst", O_RDONLY); error = dup2(fd1, fd2); /* make sure dup2 works if both fd1 and fd2 are valid file descriptors. */ if (error != -1) { fcntl(fd1, F_SETFL, O_APPEND); flags = fcntl(fd1, F_GETFL); flags = (flags & O_APPEND); retval = (flags == O_APPEND); } else { retval = FALSE; close(fd2); } if (retval == TRUE) { /* make sure dup2 fails correctly if one or the other arguments are invalid. */ /* this assumes -1 is an invalid value for a file descriptor!!! (POSIX book, p.135) */ fd1 = -1; if (dup2 (fd1, fd2) != -1) retval = FALSE; else { fd1 = dup(fd2); fd2 = -1; if (dup2(fd1, fd2) != -1) retval = FALSE; } } close (fd1); /* assert (retval == TRUE);*/ return (retval); } /* --------------------------------------------------------------- * FDataSyncTest function * * Hits the fdatasync code. Does NOT test the functionality of the * underlying fdatasync entry in the IMFS op table. * * arguments: none * assumptions: open, close, fdatasync functions available. * actions: attempts to fdatasync a file descriptor flagged as read-only. * attempts to fdatasync an invalid file descriptor (-1). * attempts to fdatasync a perfectly valid fd opened as RDWR * * returns: TRUE if attempt to fdatasync invalid and read-only filed escriptor fail, and fdatasync succeeds on valid fd. * FALSE otherwise. * * --------------------------------------------------------------- */ int FDataSyncTest(void) { int fd = -1; int error = 0, retval = TRUE; /* Try it with a RD_ONLY file. */ fd = open ("testfile1.tst", O_RDONLY); error = fdatasync(fd); if ((error == -1) && (errno == EINVAL)) retval = TRUE; else retval = FALSE; close (fd); if (retval == TRUE) { /* Try it with a bad file descriptor */ fd = -1; error = fdatasync(fd); if ((errno == EBADF) && (error == -1)) retval = TRUE; else retval = FALSE; } /* Okay - now the success case... */ if (retval == TRUE) { fd = open ("testfile1.tst", O_RDWR); error = fdatasync(fd); if (error == 0) retval = TRUE; else retval = FALSE; close (fd); } /* assert (retval == TRUE);*/ return (retval); } /* --------------------------------------------------------------- * UMaskTest function * * Hits the umask code. * * arguments: none * assumptions: umask function available. * actions: set umask to 0ctal 23. * set umask to Octal 22, retrieve the old value. * * returns: TRUE if old value is 23, * FALSE otherwise. * * --------------------------------------------------------------- */ int UMaskTest (void) { int error = 0, retval = FALSE; umask (023); error = umask(022); if (error == 023) retval = TRUE; else retval = FALSE; /* assert (retval == TRUE);*/ return(retval); } /* --------------------------------------------------------------- * UTimeTest function * * Hits the utime code. Does NOT test the functionality of the underlying utime * entry in the IMFS op table. * * arguments: none * assumptions: utime function available. * actions: set utime for an invalid filename. * set utime for a valid filename. * * returns: TRUE if time on valid file is set correctly and utime failed on an invaid filename. * FALSE otherwise. * * --------------------------------------------------------------- */ int UTimeTest (void) { int error = 0, retval = FALSE; struct utimbuf time; struct stat fstat; /* First, an invalid filename. */ error = utime("!This is an =invalid p@thname!!! :)", NULL); if (error == -1) retval = TRUE; else retval = FALSE; /* Now, the success test. */ if (retval == TRUE) { time.actime = 12345; time.modtime = 54321; error = utime("testfile1.tst", &time); if (error == 0) { /* But, did it set the time? */ stat ("testfile1.tst", &fstat); if ((fstat.st_atime == 12345) && (fstat.st_mtime == 54321 )) retval = TRUE; else retval = FALSE; } else retval = FALSE; } /* assert (retval == TRUE);*/ return (retval); } /* --------------------------------------------------------------- * PipeTest function * * Hits the pipe code. * * arguments: none * assumptions: pipe function available. * actions: call pipe. * * returns: TRUE if pipe retuens ENOSYS, * FALSE otherwise. * * --------------------------------------------------------------- */ int PipeTest (void) { int error = 0, retval = FALSE; int fd[2]; error = pipe(fd); if ((error == -1) && (errno == ENOSYS)) retval = TRUE; else retval = FALSE; /* assert (retval == TRUE);*/ return(retval); } /* --------------------------------------------------------------- * PathConfTest function * * Hits the pathconf code. * * arguments: none * assumptions: pathconf function available. * actions: Try to pathconf a bad filename. * Try to pathconf a good filename. * * returns: TRUE if pathconf fails on bad file, succeeds on good file. * FALSE otherwise. * * --------------------------------------------------------------- */ int PathConfTest (void) { int error = 0, retval = FALSE; error = pathconf("thisfiledoesnotexist", _PC_LINK_MAX); if (error == -1) { error = pathconf("testfile1.tst", _PC_LINK_MAX); if (error != -1) retval = TRUE; else retval = FALSE; } else retval = FALSE; /* assert (retval == TRUE);*/ return(retval); } /* --------------------------------------------------------------- * FPathConfTest function * * Hits the fpathconf code. * * arguments: none * assumptions: fpathconf function available. * actions: Call fpathconf with all arguments, plus an invalid. * * returns: TRUE always. * * --------------------------------------------------------------- */ int FPathConfTest (void) { int error = 0, retval = TRUE; int fd = -1; error = fpathconf(fd, _PC_LINK_MAX); if (error == -1) { fd = open("testfile1.tst", O_RDWR); error = fpathconf(fd, _PC_LINK_MAX); error = fpathconf(fd, _PC_MAX_CANON); error = fpathconf(fd, _PC_MAX_INPUT); error = fpathconf(fd, _PC_NAME_MAX); error = fpathconf(fd, _PC_PATH_MAX); error = fpathconf(fd, _PC_PIPE_BUF); error = fpathconf(fd, _PC_CHOWN_RESTRICTED); error = fpathconf(fd, _PC_NO_TRUNC); error = fpathconf(fd, _PC_VDISABLE); error = fpathconf(fd, _PC_ASYNC_IO); error = fpathconf(fd, _PC_PRIO_IO); error = fpathconf(fd, _PC_SYNC_IO); error = fpathconf(fd, 255); retval = TRUE; } else retval = FALSE; /* assert (retval == TRUE);*/ return(retval); } /* --------------------------------------------------------------- * FSyncTest function * * Hits the fsync code. * * arguments: none * assumptions: open, fsync functions available. * actions: open test file, * try to fsync it. * * returns: TRUE if fsync doesn't return -1, * FALSE otherwise. * * --------------------------------------------------------------- */ int FSyncTest (void) { int error = 0, retval = FALSE; int fd = -1; fd = open("testfile1.tst", O_RDWR); if (fd != -1) { error = fsync(fd); if (error != -1) retval = TRUE; else retval = FALSE; close(fd); } else retval = FALSE; /* assert (retval == TRUE);*/ return(retval); } /* --------------------------------------------------------------- * Main function * * main entry point to the test * * --------------------------------------------------------------- */ #if defined(__rtems__) int test_main(void) #else int main( int argc, char **argv ) #endif { puts( "*** POSIX TEST 13 ***" ); if (InitFiles() == TRUE) { printf ("\nFiles initialized successfully.\n"); printf ("Testing device_lseek()... "); if (DeviceLSeekTest() == TRUE) printf ("Success.\n"); else printf ("Failed!!!\n"); printf ("Testing dup()............ "); if (DupTest() == TRUE) printf ("Success.\n"); else printf ("Failed!!!\n"); printf ("Testing dup2()........... "); if (Dup2Test() == TRUE) printf ("Success.\n"); else printf ("Failed!!!\n"); printf ("Testing fdatasync()...... "); if (FDataSyncTest() == TRUE) printf ("Success.\n"); else printf ("Failed!!!\n"); printf ("Testing umask().......... "); if (UMaskTest() == TRUE) printf ("Success.\n"); else printf ("Failed!!!\n"); printf ("Testing utime().......... "); if (UTimeTest() == TRUE) printf ("Success.\n"); else printf ("Failed!!!\n"); printf ("Testing pipe()........... "); if (PipeTest() == TRUE) printf ("Success.\n"); else printf ("Failed!!!\n"); printf ("Testing fsync().......... "); if (FSyncTest() == TRUE) printf ("Success.\n"); else printf ("Failed!!!\n"); printf ("Testing pathconf()....... "); if (PathConfTest() == TRUE) printf ("Success.\n"); else printf ("Failed!!!\n"); printf ("Testing fpathconf()...... "); if (FPathConfTest() == TRUE) printf ("Success.\n"); else printf ("Failed!!!\n"); } else printf ("\n\nError opening files for write!!!!\n"); printf( "\n\n*** END OF TEST PSX13 ***" ); rtems_test_exit(0); }
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