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Organization | Fujitsu Limited |
---|---|
Author | Ghassan Abbas |
Product Identification | Version/Release Number | Product Supplier | |
---|---|---|---|
1. | Solaris(TM) 9 SPARC(R) Platform Edition and on (32-bit and 64-bit) | 9 and on | Fujitsu Limited |
Testing Environment | Binary-compatible Family | Portability Environment | Indicator of Compliance | Compliance Details | |
---|---|---|---|---|---|
1. |
|
| None. | Test Report from Test Suite | Test Suite:
VSX4.5.3, VSX5.2.3 VSTH5.3.2, VSU5.2.3 Test Report: VSX.S9.32b, VSTH.S9.32b, VSU.S9.32b |
2. |
|
| None. | Test Report from Test Suite | Test Suite:
VSX4.5.3, VSX5.2.3, VSTH5.3.2, VSU5.2.3 Test Report: VSX.S9.64b, VSTH.S9.64b, VSU.S9.64b |
Question 1: Which of the following Feature Groups are supported by the implementation?
Response
Encryption | Yes |
Legacy | Yes |
Realtime | No |
Realtime Threads | No |
Support for a Feature Group can only be claimed if all interfaces in that group behave according to the relevant descriptions in System Interfaces and Headers, Issue 5.
The interfaces in these Groups must exist, whether or not the Feature Group is supported, and each interface must either behave according to the description in System Interfaces and Headers, Issue 5, or indicate an error, with errno set to [ENOSYS].
Question 2: Which of the following options, specified in the <unistd.h> header file, are available on the system?
Response
Macro Name | Meaning | Provided |
---|---|---|
_POSIX_CHOWN_RESTRICTED | The use of chown() is restricted to a process with appropriate privileges, and to changing the group ID of a file only to the effective group ID of the process or one of its supplementary group IDs. | Yes |
_POSIX_NO_TRUNC | Pathname components longer than {NAME_MAX) generate an error. | Yes |
_POSIX_VDISABLE | Terminal special characters defined in <termios.h> can be disabled using this character value. | Yes |
_POSIX_SAVED_IDS | Each process has a saved set-user-ID and a saved set-group-ID. | Yes |
_POSIX_JOB_CONTROL | Implementation supports job control. | Yes |
_POSIX_THREADS | Implementation supports threads. | Yes |
Question 3: What are the values associated with the following constants specified in the <float.h> header file?
Response
Macro Name | Meaning | Value |
---|---|---|
FLT_RADIX | Radix of the exponent representation. |
|
FLT_MANT_DIG | Number of base-FLT_RADIX digits in the float significand. |
|
DBL_MANT_DIG | Number of base-FLT_RADIX digits in the double significand. |
|
LDBL_MANT_DIG | Number of base-FLT_RADIX digits in the long double significand. |
|
FLT_DIG | Number of decimal digits, q, such that any floating point number with q digits can be rounded into a float representation and back again without change to the q digits. |
|
DBL_DIG | Number of decimal digits, q, such that any floating point number with q digits can be rounded into a double representation and back again without change to the q digits. |
|
LDBL_DIG | Number of decimal digits, q, such that any floating point number with q digits can be rounded into a long double representation and back again without change to the q digits. |
|
FLT_MIN_EXP | Minimum negative integer such that FLT_RADIX raised to that power minus 1 is a normalised float. |
|
DBL_MIN_EXP | Minimum negative integer such that FLT_RADIX raised to that power minus 1 is a normalised double. |
|
LDBL_MIN_EXP | Minimum negative integer such that FLT_RADIX raised to that power minus 1 is a normalised long double. |
|
FLT_MIN_10_EXP | Minimum negative integer such that 10 raised to that power is in the range of normalised floats. |
|
DBL_MIN_10_EXP | Minimum negative integer such that 10 raised to that power is in the range of normalised doubles. |
|
LDBL_MIN_10_EXP | Minimum negative integer such that 10 raised to that power is in the range of normalised long doubles. |
|
FLT_MAX_EXP | Maximum integer such that FLT_RADIX raised to that power minus 1 is a representable finite float. |
|
DBL_MAX_EXP | Maximum integer such that FLT_RADIX raised to that power minus 1 is a representable finite double. |
|
LDBL_MAX_EXP | Maximum integer such that FLT_RADIX raised to that power minus 1 is a representable finite long double. |
|
FLT_MAX_10_EXP | Maximum integer such that 10 raised to that power is in the range of representable finite floats. |
|
DBL_MAX_10_EXP | Maximum integer such that 10 raised to that power is in the range of representable finite doubles. |
|
LDBL_MAX_10_EXP | Maximum integer such that 10 raised to that power is in the range of representable finite long doubles. |
|
FLT_MAX | Maximum representable finite float. |
|
DBL_MAX | Maximum representable finite double. |
|
LDBL_MAX | Maximum representable finite long double. |
|
FLT_EPSILON | Difference between 1.0 and the least value greater than 1.0 that is representable as a float. |
|
DBL_EPSILON | Difference between 1.0 and the least value greater than 1.0 that is representable as a double. |
|
LDBL_EPSILON | Difference between 1.0 and the least value greater than 1.0 that is representable as a long double. |
|
FLT_MIN | Minimum normalised positive float. |
|
DBL_MIN | Minimum normalised positive double. |
|
LDBL_MIN | Minimum normalised positive long double. |
|
Question 4: What are the values associated with the following constants (optionally specified in the <limits.h> header file)?
Response
Macro Name | Meaning | Minimum | Maximum |
---|---|---|---|
ARG_MAX | Maximum length of argument to the exec functions including the environment data. | 4096Va | 1048320 |
AIO_LISTIO_MAX | Maximum number of I/O operations in a single list I/O call. | 2 | 4096 |
AIO_MAX | Maximum number of outstanding asynchronous I/O operations. | 1 | Unlimited |
AIO_PRIO_DELTA_MAX | Maximum amount by which a process can decrease its asynchronous I/O priority level from its own scheduling level. | 0 | Unlimited |
ATEXIT_MAX | Maximum number of functions that may be registered with atexit(). | 32 | Variable |
CHILD_MAX | Maximum number of processes per user ID. | 25 | Value Dependent on how the system kernel is configured |
DELAYTIMER_MAX | Maximum number of timer expiration overruns. | 32 | 2147483647 |
FILESIZEBITS | Minimum number of bits needed to represent as a signed integer value the maximum size of a regular file. | 32 | In _XBS5_ILP32_OFF3 compilation mode, maximum value is 32; in other compilation modes it is 41. |
IOV_MAX | Maximum number of iovec structures that one process has available for use with readv() or writev(). | 16 | Variable |
LINK_MAX | Maximum number of links to a single file. | 8 | 32767 |
LOGIN_NAME_MAX | Maximum length of a login name. | 9 | 9 |
MAX_CANON | Maximum number of bytes in a terminal canonical input line. | 255 | 256 |
MAX_INPUT | Maximum number of bytes for which space will be available in a terminal input queue. | 255 | Variable |
MQ_OPEN_MAX | Maximum number of open message queue descriptors a process may hold. | 8 | 32 |
MQ_PRIO_MAX | Maximum number of message priorities supported by the implementation. | 32 | 32 |
NAME_MAX | Maximum number of bytes in a filename (not including terminating null). | 14 | The maximum value for NAME_MAX varies depending on the vfile system, but always provides at least the minum requirement. The most common value is 255. Values for a specific path are available using pathconf(). |
OPEN_MAX | Maximum number of open files that one process can have open at any one time. | 20 | OPEN_MAX defaults to 256, but users can increase or decrease this value using routines not specified by POSIX.1 or XPG5. If OPEN_MAX is reduced to a value smaller than 20, the runtime environment will no longer be in compliance with XPG5 |
PAGESIZE | Size of a page in bytes. | 1 | Variable |
PAGE_SIZE | Same as PAGESIZE. If either PAGESIZE or PAGE_SIZE is defined, the other will be defined with the same value. | 1 | Variable |
PASS_MAX | Maximum number of significant bytes in a password (not including the terminating null). | 8 | 8 |
PATH_MAX | Maximum number of bytes in a pathname (including the terminating null). | 255 | The maximum value for PATH_MAX varies depending on the file system type, but always provides at least the minimum requirement. The most common value is 1024. Values for a specific path are available using pathconf(). |
PIPE_BUF | Maximum number of bytes that is guaranteed to be atomic when writing to a pipe. | 512 | 5120 |
PTHREAD_DESTRUCTOR_ITERATIONS | Maximum number of attempts made to destroy a thread's thread-specific data values on thread exit. | 4 | Variable |
PTHREAD_KEYS_MAX | Maximum number of data keys that can be created by a process. | 128 | Variable |
PTHREAD_STACK_MIN | Minimum size in bytes of thread stack storage. | 0 | Variable |
PTHREAD_THREADS_MAX | Maximum number of threads that can be created by a process. | 64 | Variable |
RTSIG_MAX | Maximum number of realtime signals reserved for application use. | 8 | 8 |
SEM_NSEMS_MAX | Maximum number of semaphores that a process may have. | 256 | 2147483647 |
SEM_VALUE_MAX | Maximum value a semaphore may have. | 32767 | 2147483647 |
SIGQUEUE_MAX | Maximum number of queued signals that a process may send and leave pending at the receiver(s) at any time. | 32 | 32 |
STREAM_MAX | Number of streams that one process can have open at one time. | 8 | 64 |
TIMER_MAX | Maximum number of timers per process supported. | 32 | 32 |
TTY_NAME_MAX | Maximum length of terminal device name. | 9 | 128 |
TZNAME_MAX | Maximum number of bytes supported for the name of a time zone. | 3 | 3 |
Question 5: What are the values associated with the following constants specified in the <limits.h> header file?
Response
Macro Name Meaning Minimum Maximum
BC_BASE_MAX
Maximum ibase and obase values allowed by the bc utility.
99
32767
BC_DIM_MAX
Maximum number of elements permitted in an array by the bc utility.
2048
32768
BC_SCALE_MAX
Maximum scale value allowed by the bc utility.
99
32767
BC_STRING_MAX
Maximum length of a string constant accepted by the bc utility.
1000
2048
COLL_WEIGHTS_MAX
Maximum number of weights that can be assigned to an entry of the
LC_COLLATE order keyword in the locale definition file.
2
4
EXPR_NEST_MAX
Maximum number of expressions that can be nested within parentheses
by the expr utility.
32
32
LINE_MAX
Maximum length in bytes including the trailing newline of a utility's
input line when the utility is described as processing text files.
2048
2048
NGROUPS_MAX
Maximum number of simultaneous supplementary group IDs per process.
16
16
RE_DUP_MAX
Maximum number of repeated occurrences of a regular expression
permitted when using interval notation.
255
255
Question 6: What are the values associated with the following numerical constants specified in the <limits.h> header file?
Response
Macro Name | Meaning | Value |
---|---|---|
CHAR_BIT | Number of bits in a char. |
|
CHAR_MAX | Maximum value of a char. |
|
INT_MAX | Maximum value of an int. |
|
LONG_BIT | Number of bits in a long int. |
|
LONG_MAX | Maximum value of a long int. |
|
MB_LEN_MAX | Maximum number of bytes in a character, for any supported locale. |
|
SCHAR_MAX | Maximum value of a signed char. |
|
SHRT_MAX | Maximum value of a short. |
|
SSIZE_MAX | Maximum value of an object of type ssize_t. |
|
UCHAR_MAX | Maximum value of an unsigned char. |
|
UINT_MAX | Maximum value of an unsigned int. |
|
ULONG_MAX | Maximum value of an unsigned long int. |
|
USHRT_MAX | Maximum value of an unsigned short int. |
|
WORD_BIT | Number of bits in a word or int. |
|
Question 7: What are the values associated with the following numerical constants specified in the <stdio.h> header file?
Response
Macro Name | Meaning | Value |
---|---|---|
FILENAME_MAX | Maximum size in bytes of the longest filename string that the implementation guarantees can be opened. |
|
FOPEN_MAX | Number of streams which the implementation guarantees can be open simultaneously. |
|
L_ctermid | Maximum size of character array to hold ctermid() output. |
|
L_tmpnam | Maximum size of character array to hold tmpnam() output. |
|
TMP_MAX | Minimum number of unique filenames generated by tmpnam(), which is the maximum number of times an application can call tmpnam() reliably. |
|
Question 8: Which of the following option errors, ( denoted by "may fail" within the specification ), listed in System Interfaces and Headers, Issue 5 are detected in the circumstances specified?
Response
Function | Error | Detected |
---|---|---|
access() | EINVAL | Yes |
ENAMETOOLONG | Yes | |
ETXTBSY | No | |
acos() | EDOM | Yes |
acosh() | EDOM | Yes |
aio_error() | EINVAL | Yes |
asin() | EDOM | Yes |
ERANGE | No | |
asinh() | EDOM | Yes |
atan() | EDOM | Yes |
ERANGE | No | |
atanh() | EDOM | Yes |
atan2() | EDOM | Yes |
ERANGE | Yes | |
brk() | EAGAIN | Yes |
ENOMEM | Yes | |
catclose() | EBADF | No |
EINTR | No | |
catgets() | EBADF | No |
EINTR | No | |
EINVAL | Yes | |
ENOMSG | Yes | |
catopen() | EACCES | Yes |
EMFILE | Yes | |
ENAMETOOLONG | Yes | |
ENFILE | Yes | |
ENOENT | Yes | |
ENOMEM | Yes | |
ENOTDIR | Yes | |
cbrt() | EDOM | Yes |
ceil() | EDOM | Yes |
cfsetispeed() | EINVAL | No |
cfsetospeed() | EINVAL | No |
chdir() | ENAMETOOLONG | Yes |
chmod() | EINTR | No |
EINVAL | Yes | |
ENAMETOOLONG | Yes | |
chown() | EINTR | Yes |
EINVAL | Yes | |
EIO | Yes | |
ENAMETOOLONG | Yes | |
chroot() | ENAMETOOLONG | Yes |
clock_settime() | EPERM | Yes |
close() | EIO | Yes |
closedir() | EBADF | Yes |
EINTR | No | |
cos() | EDOM | Yes |
ERANGE | No | |
cosh() | EDOM | Yes |
endpwent() | EIO | Yes |
erf() | EDOM | Yes |
ERANGE | Yes | |
erfc() | EDOM | Yes |
ERANGE | Yes | |
exec | ENAMETOOLONG | Yes |
ENOMEM | Yes | |
ETXTBSY | Yes | |
exp() | EDOM | No |
ERANGE | Yes | |
expm1() | EDOM | Yes |
ERANGE | No | |
fabs() | EDOM | Yes |
ERANGE | No | |
fattach() | EINVAL | Yes |
ENAMETOOLONG | Yes | |
EXDEV | No | |
fchdir() | EINTR | Yes |
EIO | Yes | |
fchmod() | EINTR | Yes |
EINVAL | Yes | |
fchown() | EINVAL | Yes |
EIO | Yes | |
EINTR | Yes | |
fclose() | ENXIO | Yes |
fcntl() | EDEADLK | Yes |
fdetach() | ENAMETOOLONG | Yes |
fdopen() | EBADF | No |
EINVAL | Yes | |
EMFILE | Yes | |
ENOMEM | Yes | |
fflush() | ENXIO | Yes |
fgetc() | ENOMEM | Yes |
ENXIO | Yes | |
fgetpos() | EBADF | Yes |
ESPIPE | Yes | |
fgetwc() | ENOMEM | Yes |
ENXIO | Yes | |
EILSEQ | Yes | |
fileno() | EBADF | No |
floor() | EDOM | Yes |
fmod() | EDOM | Yes |
ERANGE | No | |
fopen() | EINVAL | Yes |
EMFILE | Yes | |
ENAMETOOLONG | Yes | |
ENOMEN | Yes | |
ETXTBSY | No | |
fork() | ENOMEM | Yes |
fpathconf() | EBADF | Yes |
EINVAL | Yes | |
fprintf() | EINVAL | Yes |
EILSEQ | Yes | |
ENOMEM | Yes | |
fputc() | ENOMEM | Yes |
ENXIO | Yes | |
fputwc() | ENOMEM | Yes |
ENXIO | Yes | |
EILSEQ | Yes | |
fread() | ENOMEM | No |
ENXIO | No | |
freopen() | EINVAL | Yes |
ENAMETOOLONG | Yes | |
ENOMEM | No | |
ENXIO | Yes | |
ETXTBSY | No | |
frexp() | EDOM | Yes |
fscanf() | EILSEQ | Yes |
EINVAL | Yes | |
ENOMEM | Yes | |
ENXIO | Yes | |
fsetpos() | EBADF | Yes |
ESPIPE | Yes | |
fstat() | EOVERFLOW | Yes |
ftok() | ENAMETOOLONG | Yes |
ftw() | EINVAL | Yes |
ENAMETOOLONG | Yes | |
fwide() | EBADF | Yes |
fwprintf() | ENOMEM | Yes |
ENXIO | Yes | |
EILSEQ | Yes | |
EINVAL | Yes | |
fwscanf() | ENOMEM | Yes |
ENXIO | Yes | |
EILSEQ | Yes | |
EINVAL | Yes | |
getcwd() | EACCES | Yes |
ENOMEM | Yes | |
getgrent() | EINTR | Yes |
EIO | Yes | |
EMFILE | Yes | |
ENFILE | Yes | |
getgrgid() | EIO | Yes |
EINTR | No | |
EMFILE | Yes | |
ENFILE | Yes | |
getgrgid_r() | ERANGE | Yes |
getgrnam() | EIO | Yes |
EINTR | No | |
EMFILE | Yes | |
ENFILE | Yes | |
getgrnam_r() | ERANGE | Yes |
getitimer() | EINVAL | Yes |
getlogin() | EMFILE | Yes |
ENFILE | Yes | |
ENXIO | Yes | |
getlogin_r() | ERANGE | Yes |
getpass() | EINTR | No |
EIO | No | |
EMFILE | Yes | |
ENFILE | No | |
ENXIO | No | |
getpgid() | EINVAL | Yes |
getpwent() | EIO | Yes |
EMFILE | Yes | |
ENFILE | Yes | |
getpwnam() | EIO | Yes |
EINTR | No | |
EMFILE | Yes | |
ENFILE | Yes | |
getpwnam_r() | ERANGE | Yes |
getpwuid() | EIO | Yes |
EINTR | Yes | |
EMFILE | Yes | |
ENFILE | Yes | |
getpwuid_r() | ERANGE | Yes |
grantpt() | EBADF | Yes |
EINVAL | Yes | |
EACCES | Yes | |
hcreate() | ENOMEM | Yes |
hsearch() | ENOMEM | Yes |
hypot() | EDOM | Yes |
ERANGE | Yes | |
iconv() | EBADF | Yes |
iconv_close() | EBADF | Yes |
iconv_open() | EMFILE | Yes |
ENFILE | Yes | |
ENOMEM | Yes | |
EINVAL | Yes | |
isatty() | EBADF | No |
ENOTTY | No | |
j0() | EDOM | No |
ERANGE | Yes | |
j1() | EDOM | No |
ERANGE | Yes | |
jn() | EDOM | No |
ERANGE | Yes | |
lchown() | EIO | Yes |
EINTR | Yes | |
ENAMETOOLONG | Yes | |
ldexp() | EDOM | Yes |
ERANGE | No | |
lgamma() | EDOM | Yes |
ERANGE | Yes | |
link() | ENAMETOOLONG | Yes |
lockf() | EAGAIN | Yes |
EDEADLK | Yes | |
EINVAL | Yes | |
ENOLCK | Yes | |
EOPNOTSUPP | Yes | |
log() | EDOM | Yes |
ERANGE | No | |
log10() | EDOM | Yes |
ERANGE | No | |
log1p() | EDOM | Yes |
ERANGE | No | |
logb() | EDOM | Yes |
lstat() | ENAMETOOLONG | Yes |
EOVERFLOW | Yes | |
mblen() | EILSEQ | Yes |
mbrlen() | EINVAL | Yes |
EILSEQ | Yes | |
mbrtowc() | EINVAL | Yes |
EILSEQ | Yes | |
mbsrtowcs() | EINVAL | Yes |
mbstowcs() | EILSEQ | Yes |
mbtowc() | EILSEQ | Yes |
mkdir() | ENAMETOOLONG | Yes |
mkfifo() | ENAMETOOLONG | Yes |
mknod() | ENAMETOOLONG | Yes |
mlock() | EINVAL | Yes |
ENOMEM | Yes | |
EPERM | Yes | |
mlockall() | ENOMEM | No |
EPERM | Yes | |
modf() | EDOM | Yes |
ERANGE | No | |
mq_receive() | EBADMSG | No |
munlock() | EINVAL | Yes |
nextafter() | EDOM | Yes |
nftw() | ELOOP | Yes |
EMFILE | Yes | |
ENAMETOOLONG | Yes | |
ENFILE | Yes | |
open() | EAGAIN | Yes |
EINVAL | No | |
ENAMETOOLONG | Yes | |
ENOMEM | Yes | |
ETXTBSY | No | |
opendir() | EMFILE | Yes |
ENAMETOOLONG | Yes | |
ENFILE | Yes | |
pathconf() | EACCES | Yes |
EINVAL | Yes | |
ENAMETOOLONG | Yes | |
ENOENT | Yes | |
ENOTDIR | Yes | |
popen() | EMFILE | Yes |
EINVAL | No | |
pow() | EDOM | Yes |
ERANGE | No | |
pread() | ENXIO | Yes |
printf() | ENOMEM | Yes |
pthread_attr_setinheritsched() | EINVAL | Yes |
ENOTSUP | No | |
pthread_attr_setschedparam() | EINVAL | Yes |
ENOTSUP | No | |
pthread_attr_setschedpolicy() | EINVAL | Yes |
ENOTSUP | No | |
pthread_attr_setscope() | EINVAL | Yes |
ENOTSUP | No | |
pthread_cancel() | ESRCH | Yes |
pthread_cond_init() | EBUSY | No |
EINVAL | Yes | |
pthread_cond_destroy() | EBUSY | No |
EINVAL | No | |
pthread_cond_broadcast() | EINVAL | No |
pthread_cond_signal() | EINVAL | No |
pthread_cond_timedwait() | EINVAL | Yes |
pthread_cond_wait() | EINVAL | Yes |
pthread_condattr_destroy() | EINVAL | Yes |
pthread_condattr_setpshared() | EINVAL | Yes |
pthread_getschedparam() | ESRCH | Yes |
pthread_join() | EDEADLK | Yes |
pthread_key_delete() | EINVAL | Yes |
pthread_mutex_destroy() | EBUSY | No |
EINVAL | No | |
pthread_mutex_getprioceiling() | EINVAL | No |
ENOSYS | No | |
EPERM | No | |
pthread_mutex_init() | EBUSY | No |
EINVAL | No | |
pthread_mutex_lock() | EINVAL | No |
EAGAIN | Yes | |
EDEADLK | No | |
pthread_mutex_trylock() | EINVAL | No |
EAGAIN | Yes | |
pthread_mutex_unlock() | EINVAL | No |
EAGAIN | No | |
EPERM | No | |
pthread_mutex_setprioceiling() | EINVAL | No |
ENOSYS | No | |
EPERM | No | |
pthread_mutexattr_destroy() | EINVAL | No |
pthread_mutexattr_getprioceiling() | EINVAL | No |
EPERM | No | |
pthread_mutexattr_getprotocol() | EINVAL | No |
EPERM | No | |
pthread_mutexattr_gettype() | EINVAL | No |
pthread_mutexattr_init() | ENOMEM | Yes |
pthread_mutexattr_setprioceiling() | EINVAL | No |
EPERM | No | |
pthread_mutexattr_setprotocol() | EINVAL | No |
EPERM | No | |
pthread_mutexattr_setpshared() | EINVAL | Yes |
pthread_mutexattr_settype() | EINVAL | No |
pthread_rwlock_destroy() | EBUSY | No |
EINVAL | No | |
pthread_rwlock_init() | EBUSY | No |
EINVAL | Yes | |
pthread_rwlock_rdlock() | EINVAL | No |
EDEADLCK | No | |
EAGAIN | No | |
pthread_rwlock_tryrdlock() | EINVAL | No |
EDEADLCK | No | |
EAGAIN | No | |
pthread_rwlock_trywrlock() | EINVAL | No |
EDEADLCK | No | |
pthread_rwlock_unlock() | EINVAL | No |
EPERM | No | |
pthread_rwlock_wrlock() | EINVAL | No |
EDEADLCK | No | |
pthread_rwlockattr_destroy() | EINVAL | Yes |
pthread_rwlockattr_setpshared() | EINVAL | Yes |
pthread_setcanceltype() | EINVAL | Yes |
pthread_setschedparam() | EINVAL | Yes |
ENOTSUP | No | |
EPERM | Yes | |
pthread_setspecific() | EINVAL | Yes |
putc() | ENOMEM | Yes |
ENXIO | Yes | |
putchar() | ENOMEM | Yes |
ENXIO | Yes | |
putenv() | ENOMEM | Yes |
puts() | ENOMEM | Yes |
ENXIO | Yes | |
pututxline() | EPERM | Yes |
putw() | ENOMEM | No |
ENXIO | No | |
putwc() | ENOMEM | Yes |
ENXIO | Yes | |
EILSEQ | Yes | |
putwchar() | ENOMEM | Yes |
ENXIO | Yes | |
EILSEQ | Yes | |
pwrite() | EINVAL | Yes |
ENXIO | Yes | |
read() | ENXIO | Yes |
readdir() | EBADF | Yes |
ENOENT | Yes | |
readdir_r() | EBADF | Yes |
readlink() | EACCES | Yes |
ENAMETOOLONG | Yes | |
readv() | EINVAL | Yes |
ENXIO | Yes | |
realpath() | ENAMETOOLONG | Yes |
ENOMEM | Yes | |
regcmp() | ENOMEM | Yes |
remainder() | EDOM | Yes |
remove() | EBUSY | Yes |
ENAMETOOLONG | Yes | |
ETXTBSY | Yes | |
rename() | EBUSY | Yes |
ENAMETOOLONG | Yes | |
ETXTBSY | Yes | |
rint() | EDOM | Yes |
rmdir() | ENAMETOOLONG | Yes |
sbrk() | EAGAIN | Yes |
ENOMEM | Yes | |
scalb() | EDOM | Yes |
sem_destroy() | EBUSY | Yes |
sem_trywait() | EDEADLCK | Yes |
EINTR | Yes | |
sem_wait() | EDEADLCK | Yes |
EINTR | Yes | |
setitimer() | EINVAL | Yes |
setpriority() | EPERM | Yes |
EACCES | Yes | |
setpwent() | EIO | Yes |
EMFILE | Yes | |
ENFILE | Yes | |
setrlimit() | EINVAL | Yes |
setvbuf() | EBADF | No |
shmctl() | EOVERFLOW | Yes |
sigaction() | EINVAL | Yes |
sigaddset() | EINVAL | Yes |
sigdelset() | EINVAL | Yes |
sigismember() | EINVAL | Yes |
signal() | EINVAL | Yes |
sigtimedwait() | EINVAL | Yes |
EINTR | Yes | |
sigwait() | EINVAL | Yes |
sigwaitinfo() | EINTR | Yes |
sin() | EDOM | No |
ERANGE | Yes | |
sinh() | EDOM | No |
ERANGE | Yes | |
sqrt() | EDOM | Yes |
stat() | ENAMETOOLONG | Yes |
EOVERFLOW | Yes | |
statvfs() | ENAMETOOLONG | Yes |
strcoll() | EINVAL | No |
strdup() | ENOMEM | Yes |
strerror() | EINVAL | No |
strtod() | EINVAL | Yes |
strtol() | EINVAL | Yes |
strtoul() | EINVAL | Yes |
strxfrm() | EINVAL | No |
swprintf() | EILSEQ | Yes |
EINVAL | Yes | |
swcsanf() | ENOMEM | Yes |
ENXIO | Yes | |
EILSEQ | Yes | |
symlink() | ENAMETOOLONG | Yes |
system() | ECHILD | Yes |
tan() | EDOM | Yes |
ERANGE | No | |
tanh() | EDOM | Yes |
ERANGE | No | |
tcdrain() | EIO | Yes |
tcflow() | EIO | Yes |
tcflush() | EIO | Yes |
tcsendbreak() | EIO | Yes |
tcsetattr() | EIO | Yes |
tmpfile() | EMFILE | Yes |
ENOMEM | Yes | |
towctrans() | EINVAL | No |
truncate() | ENAMETOOLONG | Yes |
ttyname() | EBADF | Yes |
ENOTTY | Yes | |
ttyname_r() | EBADF | Yes |
ENOTTY | Yes | |
ERANGE | Yes | |
ungetwc() | EILSEQ | Yes |
unlink() | EBUSY | Yes |
ENAMETOOLONG | Yes | |
ETXTBSY | No | |
unlockpt() | EBADF | Yes |
EINVAL | Yes | |
usleep() | EINVAL | Yes |
utime() | ENAMETOOLONG | Yes |
utimes() | ENAMETOOLONG | Yes |
wait3() | ECHILD | Yes |
wcrtomb() | EINVAL | Yes |
EILSEQ | Yes | |
wcsrtombs() | EINVAL | Yes |
EILSEQ | Yes | |
wcscoll() | EINVAL | Yes |
wcstod() | EINVAL | Yes |
wcstol() | EINVAL | Yes |
wcstombs() | EILSEQ | Yes |
wcstoul() | EINVAL | Yes |
wcsxfrm() | EINVAL | Yes |
wctrans() | EINVAL | No |
wprintf() | ENOMEM | Yes |
ENXIO | Yes | |
EILSEQ | Yes | |
EINVAL | Yes | |
write() | EINVAL | Yes |
ENXIO | Yes | |
writev() | EINVAL | Yes |
ENXIO | Yes | |
wscanf() | ENOMEM | Yes |
ENXIO | Yes | |
EILSEQ | Yes | |
y0() | EDOM | Yes |
ERANGE | No | |
y1() | EDOM | Yes |
ERANGE | No | |
yn() | EDOM | Yes |
ERANGE | No |
Question 9: What format of floating-point numbers is supported by this implementation?
Response
Question 10: Are the optional data encryption interfaces provided?
Response
Function | Provided |
---|---|
crypt() | Yes |
encrypt() | Yes |
setkey() | Yes |
Export Restrictions:
Question 11: Which file types (regular, directory, FIFO, special, and so on) are considered to be executable?
Response
Question 12: What file access control mechanisms does the implementation provide?
Response
Question 13: Are any additional or alternate file access control mechanisms implemented that could cause fstat() or stat() to fail?
Response
Yes
Question 14: Does the printf() function produce character string representations for Infinity and NaN to represent the respective values?
Response
Yes
Question 15: What coded character sets are supported by the implementation?
Response
Question 16: What is the implementation's underlying internal codeset?
Response
Question 17: What networking services or other character-based I/O device types are implemented using STREAMS in addition to pseudo-terminals?
Response
Question 18: Does closing the master side of a pseudo-terminal flush all queued input and output?
Response
Yes
Question 19: Does closing the slave side of a pseudo-terminal cause a zero-length message to be sent to the master?
Response
Yes
Question 20: What naming conventions are associated with the master side of pseudo-terminal devices?
Response
Question 21: What types of file can be polled?
Response
Question 22: What is the direction of stack growth?
Question 23: Which of the following si_code values may be
generated?
Response
Question 24: Does the setpgrp() function create a new
session?
Response
Yes
Question 25: Does the implementation generate a core file when
the following signals are delivered to a process?
Response
Question 26: Does the implementation support _POSIX_PRIORITIZED_IO?
Response
The system does not support _POSIX_PRIORITIZED_IO.
Question 27: If the Realtime Feature Group is supported, what
asynchronous I/O operations are cancelable with aio_cancel()?
Response
Question 28: Which functions have cancellation points that occur
when a thread is executing?
Response
Question 29: If the Realtime Threads Feature Group is supported,
what scheduling policy is associated with SCHED_OTHER?
Response
Question 30: If the Realtime Threads Feature Group is supported, what
scheduling contention scopes are supported: PTHREAD_SCOPE_PROCESS,
PTHREAD_SCOPE_SYSTEM, or both?
Response
Question 31: If the Realtime Threads Feature Group is supported, what is
the default scheduling contention scope when a process is created?
Response
Question 32: What C-language compilation environments are provided?
Response
Question 33: What execution environments are provided on the system under test?
Response
Copyright © 2003 Fujitsu Limited
1.9 Signal Codes
Signal Code Generated?
SIGILL
ILL_ILLOPC
Yes
ILL_ILLOPN
Yes
ILLL_ILLADR
Yes
ILL_ILLTRP
Yes
ILL_PRVOPC
Yes
ILL_PRVREG
Yes
ILL_COPROC
Yes
ILL_BADSTK
Yes
SIGFPE
FPE_INTDIV
Yes
FPE_INTOVF
Yes
FPE_FLTDIV
Yes
FPE_FLTOVF
Yes
FPE_FLTUND
Yes
FPE_FLTRES
Yes
FPE_FLTINV
Yes
FPE_FLTSUB
Yes
SIGSEGV
SEGV_MAPERR
Yes
SEGV_ACCERR
Yes
SIGBUS
BUS_ADRALN
Yes
BUS_ADRERR
Yes
BUS_OBJERR
Yes
SIGTRAP
TRAP_BRKPT
Yes
TRAP_TRACE
Yes
SIGCHLD
CLD_EXITED
Yes
CLD_KILLED
Yes
CLD_DUMPED
Yes
CLD_TRAPPED
Yes
CLD_STOPPED
Yes
CLD_CONTINUED
Yes
SIGPOLL
POLL_IN
Yes
POLL_OUT
Yes
POLL_MSG
Yes
POLL_ERR
Yes
POLL_PRI
Yes
POLL_HUP
Yes
SI_USER
Yes
SI_QUEUE
Yes
SI_TIMER
Yes
SI_ASYNCIO
Yes
SI_MESGQ
Yes
1.10 Set Process Group ID
1.11 Signals Generating a Core File
Signal Core File Generated
SIGABRT
Yes
SIGFPE
Yes
SIGILL
Yes
SIGQUIT
Yes
SIGSEGV
Yes
SIGBUS
Yes
SIGSYS
Yes
SIGTRAP
Yes
SIGXCU
Yes
SIGXFSZ
Yes
1.12 Realtime
1.12.1 Prioritized I/O
1.12.2 Cancelable Asynchronous I/O Operations
1.13 Threads
1.13.1 Cancellation Points
Function Cancellation Point? catclose
No
catgets
No
catopen
No
closedir
No
closelog
No
ctermid
No
dbm_close
No
dbm_delete
No
dbm_fetch
No
dbm_nextkey
No
dbm_open
No
dbm_store
No
dlclose
No
dlopen
No
endgrent
No
endpwent
No
endutxent
No
fclose
No
fcntl
No
fflush
No
fgetc
No
fgetpos
No
fgets
No
fgetwc
No
fgetws
No
fopen
No
fprintf
No
fputc
No
fputs
No
fputwc
No
fputws
No
fread
No
freopen
No
fscanf
No
fseek
No
fseeko
No
fsetpos
No
ftell
No
ftello
No
ftw
No
fwprintf
No
fwrite
No
fwscanf
No
getc
No
getc_unlocked
No
getchar
No
getchar_unlocked
No
getcwd
No
getdate
No
getgrent
No
getgrgid
No
getgrgid_r
No
getgrnam
No
getgrnam_r
No
getlogin
No
getlogin_r
No
getpwent
No
getpwnam
No
getpwnam_r
No
getpwuid
No
getpwuid_r
No
gets
No
getutxent
No
getutxid
No
getutxline
No
getw
No
getwc
No
getwchar
No
getwd
No
glob
No
iconv_close
No
iconv_open
No
ioctl
No
lseek
No
mkstemp
No
nftw
No
opendir
No
openlog
No
pclose
No
perror
No
popen
No
printf
No
putc
No
putc_unlocked
No
putchar
No
putchar_unlocked
No
puts
No
pututxline
No
putw
No
putwc
No
putwchar
No
readdir
No
readdir_r
No
remove
No
rename
No
rewind
No
rewinddir
No
scanf
No
seekdir
No
semop
No
setgrent
No
setpwent
No
setutxent
No
strerror
No
syslog
No
tmpfile
No
tmpnam
No
ttyname
No
ttyname_r
No
ungetc
No
ungetwc
No
unlink
No
vfprintf
No
vfwprintf
No
vprintf
No
vwprintf
No
wprintf
No
wscanf
No
1.14 Realtime Threads
1.14.1 Scheduling Policies
1.14.2 Scheduling Contention Scope
Both PTHREAD_SCOPE_PROCESS and PTHREAD_SCOPE_SYSTEM.
1.14.3 Default Scheduling Contention Scope
PTHREAD_SCOPE_PROCESS.
1.15 C-language Compilation Environment
Programming Environment Provided
The implementation provides a C-language programming environment with
32-bit int, long, pointer and off_t types.
Yes
The implementation provides a C-language programming environment with
32-bit int, long and pointer types and an off_t type using at least
64 bits.
Yes
The implementation provides a C-language programming environment with
32-bit int, and 64-bit long, pointer and off_t types.
Yes
The implementation provides a C-language programming environment with
int using at least 32-bits, and long, pointer and off_t types using
at least 64 bits.
Yes
Execution Environment Provided
The implementation provides an execution environment with
32-bit int, long, pointer and off_t types.
Yes
The implementation provides an execution environment with
32-bit int, long and pointer types and an off_t type using at least
64 bits.
Yes
The implementation provides an execution environment with
32-bit int, and 64-bit long, pointer and off_t types.
Yes
The implementation provides an execution environment with
int using at least 32-bits, and long, pointer and off_t types using
at least 64 bits.
Yes
2. Appendix
This appendix contains additional, explanatory material that was provided by the vendor.
To reproduce the test environment on Solaris 8:
SPARC-based systems - For information on installing Solaris 8, see Installation Instructions for
Solaris 8 (SPARC Platform Edition). After installation of Solaris 8, install patch 108528-01.
Note: When installing Solaris, select a time zone with a name that conforms to the POSIX.1 format
for TZ defined on page 206-207 of IEEE Std. 1003.1-1996. For example, use PST8PDT instead of
US/Pacific.
1.Change the ttya and ttyb fields from :y: to :n: in /etc/saf/zsmon/_pmtab file to turn off the
ttysoftcarrier detect:
# sed '/^tty[ab]/s/:y:# $/:n:# /p' /etc/saf/zsmon/_pmtab > /tmp/zsfile
# cat /tmp/zsfile > /etc/saf/zsmon/_pmtab
Note: Colons (:) act as field separators in the _pmtab file.
2.Remove nis from the following lines in the file /etc/nsswitch.conf:
group: files nis
passwd: files nis
3.Set the eeprom variables that affect the tty:
# /usr/sbin/eeprom ttya-ignore-cd=false
# /usr/sbin/eeprom ttyb-ignore-cd=false
4.Reboot the system.
5.Change the mode to 666 for the serial port permissions on your system.
<
# sed '/^tty[ab]/s/:y:# $/:n:# /p' /etc/saf/zsmon/_pmtab > /tmp/zsfile
# cat /tmp/zsfile > /etc/saf/zsmon/_pmtab
Reboot the system.
Files and Directories
Question 13 (1.3.2 Files and Directories) asks if there are additional or alternate file access control
mechanisms implemented that could cause fstat() or stat() to fail. If the source file has an associated access
control mechanism, the access control mechanism will be copied to the destination file. If the ACL cannot
be associated with the destination file, the copy will fail.
Stack Growth Direction:
Question 22 (1.8 Stack Growth Direction) concerns the direction of stack growth. The direction of stack
growth is implementation-dependent. Use of the sigstack() function requires knowledge of the machine
specific architecture. A portable application wishing to define an alternate stack should use the sigaltstack()
function, which does not require knowledge of the stack growth direction.
Threads Cancellation Points:
Question 28 (1.13.1 Cancellation Points) allows an implementation to specify which functions have
cancellation points that occur when a thread is executing. Of the list provided, fcntl() has a cancellation
point for the case when the cmd argument is F_SETLKW.
Programming and Execution environments:
Questions 32 and 33 (1.15 C-language Compilation Environment) describe the programming and execution
environments specific to the 64-bit implementation on SPARC-based systems. Support specific to 32-bit
SPARC-based systems is as follows:
For SPARC-based 32-bit systems:
Programming Environment:
The implementation provides a C-language programming environment with 32-bit int, long, pointer
and off_t types.
The implementation provides a C-language programming environment with 32-bit int, long and
pointer types and an off_t type using at least 64 bits.
The implementation provides a C-language programming environment with 32-bit int, and 64-bit
long, pointer and off_t types.
The implementation provides a C-language programming environment with int using at least 32-bits,
and long, pointer and off_t types using at least 64-bits.
Execution Environment:
The implementation provides an execution environment with 32-bit int, long, pointer and off_t types.
The implementation provides an execution environment with 32-bit int, long and pointer types and
an off_t type using at least 64 bits.
NOTES:
1.LDBL_MANT_DIG for SPARC-based systems is: 113
2.LDBL_DIG for SPARC-based systems is: 33
3.LDBL_MAX for SPARC-based systems is: 1.189731495357231765085759326628007016E+4932L
4.LDBL_EPSILON for SPARC-based systems is: 1.925929944387235853055977942584927319E-34L
5.LDBL_MIN for SPARC-based systems is: 3.3621031431120935062626778173217522603E-4932L
6.LONG_BIT for 64-bit SPARC-based systems is: 64
7.LONG_MAX for 64-bit SPARC-based systems is: 9223372036854775807L
8.SSIZE_MAX for 64-bit SPARC-based systems is: 9223372036854775807L
9.ULONG_MAX for 64-bit SPARC-based systems is: 18446744073709551615UL
10.FOPEN_MAX for 32-bit and 64-bit SPARC-based systems is: 20
All rights reserved.
3. Change History
Date Name Comment
03-Sep-2003 Ghassan Abbas Corrected test suite version
removed temp waiver
03-Sep-2003 Ghassan Abbas removed Solaris 8 OE to separate Solaris 9 from 8
23-Jun-2003 Ghassan Abbas Solaris 9 OE added
03-Dec-2002 Ghassan Abbas Document Creation
For more information on this product, contact Fujitsu Limited.
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