/* proc_pid_file()
*
* Build a path to the pid directory in proc '/proc/${pid}' with an optional
* relative path at the end. Put the resultant path on top of the obstack.
*
* @return Address of the create path string.
*/
inline static char *proc_pid_file(const char *pid, const char *file,
struct obstack *mem_pool)
{
/* path to dir */
obstack_printf(mem_pool, "/proc/%s", pid);
/* additional path (not just the dir) */
if (file)
obstack_printf(mem_pool, "/%s", file);
obstack_1grow(mem_pool, '\0');
return (char *) obstack_finish(mem_pool);
}
static void eval_link(char *pid, char *link_rel, enum field field, char **ptr,
char *format_str, struct obstack *mem_pool)
{
char *link_file, *link;
/* path to the link file like. /proc/{pid}/{link_rel} */
link_file = proc_pid_file(pid, link_rel, mem_pool);
/* It's okay to use canonicalize_file_name instead of readlink on linux
* for the cwd symlink, since on linux the links we care about will never
* be relative links (cwd, exec)
* Doing this because readlink works on static buffers */
link = canonicalize_file_name(link_file);
/* we no longer need need the path to the link file */
obstack_free(mem_pool, link_file);
if (link == NULL)
return;
/* copy the path onto our obstack, set the value (somewhere in pts)
* and free the results of canonicalize_file_name */
obstack_printf(mem_pool, link);
obstack_1grow(mem_pool, '\0');
*ptr = (char *) obstack_finish(mem_pool);
free(link);
/* enable whatever field we successfuly retrived */
field_enable(format_str, field);
}
static entity_t *create_gnu_builtin(builtin_kind_t kind, const char *name,
type_t *type)
{
obstack_printf(&symbol_obstack, "__builtin_%s", name);
symbol_t *symbol = finalize_symbol_string();
entity_t *entity = record_builtin_function(kind, symbol, type);
return entity;
}
static entity_t *create_gnu_builtin_libc(const char *name, type_t *type)
{
obstack_printf(&symbol_obstack, "__builtin_%s", name);
symbol_t *symbol = finalize_symbol_string();
entity_t *entity = create_builtin_function(BUILTIN_LIBC, symbol, type);
entity->function.actual_name = symbol_table_insert(name);
return entity;
}
static entity_t *create_gnu_builtin_firm(ir_builtin_kind kind, const char *name,
type_t *type)
{
obstack_printf(&symbol_obstack, "__builtin_%s", name);
symbol_t *symbol = finalize_symbol_string();
entity_t *entity = record_builtin_function(BUILTIN_FIRM, symbol, type);
entity->function.b.firm_builtin_kind = kind;
return entity;
}
static entity_t *create_gnu_builtin_chk(const char *name, unsigned chk_arg_pos,
type_t *type)
{
obstack_printf(&symbol_obstack, "__builtin___%s_chk", name);
symbol_t *symbol = finalize_symbol_string();
entity_t *entity = create_builtin_function(BUILTIN_LIBC_CHECK, symbol, type);
entity->function.actual_name = symbol_table_insert(name);
entity->function.b.chk_arg_pos = chk_arg_pos;
return entity;
}
static void
muscle_boundary_grow (char const *key, boundary bound)
{
char *extension;
obstack_sgrow (&muscle_obstack, "[[");
obstack_escape (&muscle_obstack, bound.file);
obstack_printf (&muscle_obstack, ":%d.%d]]", bound.line, bound.column);
extension = obstack_finish0 (&muscle_obstack);
muscle_grow (key, extension, "", "");
obstack_free (&muscle_obstack, extension);
}
static void
muscle_syncline_grow (char const *key, location loc)
{
char *extension = NULL;
obstack_printf (&muscle_obstack, "]b4_syncline(%d, ", loc.start.line);
obstack_quote (&muscle_obstack,
quotearg_style (c_quoting_style, loc.start.file));
obstack_sgrow (&muscle_obstack, ")[");
extension = obstack_finish0 (&muscle_obstack);
muscle_grow (key, extension, "", "");
obstack_free (&muscle_obstack, extension);
}
static const char *make_tempsubdir(const char *tempdir)
{
assert(obstack_object_size(&file_obst) == 0);
obstack_printf(&file_obst, "%s/XXXXXX", tempdir);
obstack_1grow(&file_obst, '\0');
char *templ = obstack_finish(&file_obst);
const char *dir = mkdtemp(templ);
if (dir == NULL) {
position_t const pos = { templ, 0, 0, 0 };
errorf(&pos, "mkdtemp could not create a directory from template");
panic("abort");
}
return dir;
}
inline static bool pid_exists(const char *str, struct obstack *mem_pool)
{
char *pid_dir_path = NULL;
int result;
obstack_printf(mem_pool, "/proc/%s", str);
obstack_1grow(mem_pool, '\0');
pid_dir_path = obstack_finish(mem_pool);
/* directory exists? */
result = (access(pid_dir_path, F_OK) != -1);
obstack_free(mem_pool, pid_dir_path);
return result;
}
FILE *make_temp_file(const char *name_orig, const char **name_result)
{
if (tempsubdir == NULL)
tempsubdir = make_tempsubdir(get_tempdir());
assert(obstack_object_size(&file_obst) == 0);
obstack_printf(&file_obst, "%s/%s", tempsubdir, name_orig);
obstack_1grow(&file_obst, '\0');
char *name = obstack_finish(&file_obst);
FILE *out = fopen(name, "w");
if (out == NULL) {
position_t const pos = { name, 0, 0, 0 };
errorf(&pos, "could not create temporary file: %s", strerror(errno));
panic("abort");
}
ARR_APP1(char*, temp_files, name);
*name_result = name;
return out;
}
static ir_entity *emit_type_signature(ir_type *type)
{
ir_type *curtype = type;
unsigned n_pointer_levels = 0;
while (is_Pointer_type(curtype)) {
n_pointer_levels++;
curtype = get_pointer_points_to_type(curtype);
}
struct obstack obst;
obstack_init(&obst);
if (n_pointer_levels > 0) {
for (unsigned i = 0; i < n_pointer_levels-1; i++)
obstack_1grow(&obst, '[');
if (is_Primitive_type(curtype))
obstack_1grow(&obst, '[');
}
if (is_Primitive_type(curtype)) {
char c = get_prim_type_char(curtype);
obstack_1grow(&obst, c);
} else {
assert(is_Class_type(curtype));
obstack_1grow(&obst, 'L');
obstack_printf(&obst, "%s", get_compound_name(curtype));
obstack_1grow(&obst, ';');
obstack_1grow(&obst, '\0');
}
const char *sig_bytes = obstack_finish(&obst);
ir_entity *res = do_emit_utf8_const(sig_bytes, strlen(sig_bytes));
obstack_free(&obst, NULL);
return res;
}
void OS_get_table()
{
/* dir walker storage */
DIR *dir;
struct dirent *dir_ent, *dir_result;
/* all our storage is going to be here */
struct obstack mem_pool;
/* container for scaped process values */
struct procstat *prs;
/* string containing our local copy of format_str, elements will be
* lower cased if we are able to figure them out */
char *format_str;
/* initlize a small memory pool for this function */
obstack_init(&mem_pool);
/* put the dirent on the obstack, since it's rather large */
dir_ent = obstack_alloc(&mem_pool, sizeof(struct dirent));
if ((dir = opendir("/proc")) == NULL)
return;
/* Iterate through all the process entries (numeric) under /proc */
while(readdir_r(dir, dir_ent, &dir_result) == 0 && dir_result) {
/* Only look at this file if it's a proc id; that is, all numbers */
if(!is_pid(dir_result->d_name))
continue;
/* allocate container for storing process values */
prs = obstack_alloc(&mem_pool, sizeof(struct procstat));
bzero(prs, sizeof(struct procstat));
/* intilize the format string */
obstack_printf(&mem_pool, get_string(STR_DEFAULT_FORMAT));
obstack_1grow(&mem_pool, '\0');
format_str = (char *) obstack_finish(&mem_pool);
/* get process' uid/guid */
get_user_info(dir_result->d_name, format_str, prs, &mem_pool);
/* scrape /proc/${pid}/stat */
if (get_proc_stat(dir_result->d_name, format_str, prs, &mem_pool) == false) {
/* did the pid directory go away mid flight? */
if (pid_exists(dir_result->d_name, &mem_pool) == false)
continue;
}
/* correct values (times) found in /proc/${pid}/stat */
fixup_stat_values(format_str, prs);
/* get process' cmndline */
get_proc_cmndline(dir_result->d_name, format_str, prs, &mem_pool);
/* get process' cwd & exec values from the symblink */
eval_link(dir_result->d_name, "cwd", F_CWD, &prs->cwd, format_str,
&mem_pool);
eval_link(dir_result->d_name, "exe", F_EXEC, &prs->exec, format_str,
&mem_pool);
/* scapre from /proc/{$pid}/status */
get_proc_status(dir_result->d_name, format_str, prs, &mem_pool);
/* calculate precent cpu & mem values */
calc_prec(format_str, prs, &mem_pool);
/* Go ahead and bless into a perl object */
bless_into_proc(format_str, field_names,
prs->uid,
prs->gid,
prs->pid,
prs->comm,
prs->ppid,
prs->pgrp,
prs->sid,
prs->tty,
prs->flags,
prs->minflt,
prs->cminflt,
prs->majflt,
prs->cmajflt,
prs->utime,
prs->stime,
prs->cutime,
prs->cstime,
prs->priority,
prs->start_time,
prs->vsize,
prs->rss,
prs->wchan,
prs->time,
prs->ctime,
prs->state,
prs->euid,
prs->suid,
prs->fuid,
prs->egid,
prs->sgid,
prs->fgid,
prs->pctcpu,
prs->pctmem,
prs->cmndline,
prs->exec,
prs->cwd
);
/* we want a new prs, for the next itteration */
obstack_free(&mem_pool, prs);
}
closedir(dir);
/* free all our tempoary memory */
obstack_free(&mem_pool, NULL);
}
static int
do_test (void)
{
struct sigaction sa;
sa.sa_handler = handler;
sa.sa_flags = 0;
sigemptyset (&sa.sa_mask);
sigaction (SIGABRT, &sa, NULL);
/* Avoid all the buffer overflow messages on stderr. */
int fd = open (_PATH_DEVNULL, O_WRONLY);
if (fd == -1)
close (STDERR_FILENO);
else
{
dup2 (fd, STDERR_FILENO);
close (fd);
}
setenv ("LIBC_FATAL_STDERR_", "1", 1);
struct A { char buf1[9]; char buf2[1]; } a;
struct wA { wchar_t buf1[9]; wchar_t buf2[1]; } wa;
printf ("Test checking routines at fortify level %d\n",
#ifdef __USE_FORTIFY_LEVEL
(int) __USE_FORTIFY_LEVEL
#else
0
#endif
);
#if defined __USE_FORTIFY_LEVEL && !defined __fortify_function
printf ("Test skipped");
if (l0 == 0)
return 0;
#endif
/* These ops can be done without runtime checking of object size. */
memcpy (buf, "abcdefghij", 10);
memmove (buf + 1, buf, 9);
if (memcmp (buf, "aabcdefghi", 10))
FAIL ();
if (mempcpy (buf + 5, "abcde", 5) != buf + 10
|| memcmp (buf, "aabcdabcde", 10))
FAIL ();
memset (buf + 8, 'j', 2);
if (memcmp (buf, "aabcdabcjj", 10))
FAIL ();
strcpy (buf + 4, "EDCBA");
if (memcmp (buf, "aabcEDCBA", 10))
FAIL ();
if (stpcpy (buf + 8, "F") != buf + 9 || memcmp (buf, "aabcEDCBF", 10))
FAIL ();
strncpy (buf + 6, "X", 4);
if (memcmp (buf, "aabcEDX\0\0", 10))
FAIL ();
if (sprintf (buf + 7, "%s", "67") != 2 || memcmp (buf, "aabcEDX67", 10))
FAIL ();
if (snprintf (buf + 7, 3, "%s", "987654") != 6
|| memcmp (buf, "aabcEDX98", 10))
FAIL ();
/* These ops need runtime checking, but shouldn't __chk_fail. */
memcpy (buf, "abcdefghij", l0 + 10);
memmove (buf + 1, buf, l0 + 9);
if (memcmp (buf, "aabcdefghi", 10))
FAIL ();
if (mempcpy (buf + 5, "abcde", l0 + 5) != buf + 10
|| memcmp (buf, "aabcdabcde", 10))
FAIL ();
memset (buf + 8, 'j', l0 + 2);
if (memcmp (buf, "aabcdabcjj", 10))
FAIL ();
strcpy (buf + 4, str1 + 5);
if (memcmp (buf, "aabcEDCBA", 10))
FAIL ();
if (stpcpy (buf + 8, str2) != buf + 9 || memcmp (buf, "aabcEDCBF", 10))
FAIL ();
strncpy (buf + 6, "X", l0 + 4);
if (memcmp (buf, "aabcEDX\0\0", 10))
FAIL ();
if (stpncpy (buf + 5, "cd", l0 + 5) != buf + 7
|| memcmp (buf, "aabcEcd\0\0", 10))
FAIL ();
if (sprintf (buf + 7, "%d", num1) != 2 || memcmp (buf, "aabcEcd67", 10))
FAIL ();
if (snprintf (buf + 7, 3, "%d", num2) != 6 || memcmp (buf, "aabcEcd98", 10))
FAIL ();
buf[l0 + 8] = '\0';
strcat (buf, "A");
if (memcmp (buf, "aabcEcd9A", 10))
FAIL ();
buf[l0 + 7] = '\0';
strncat (buf, "ZYXWV", l0 + 2);
if (memcmp (buf, "aabcEcdZY", 10))
FAIL ();
memcpy (a.buf1, "abcdefghij", l0 + 10);
memmove (a.buf1 + 1, a.buf1, l0 + 9);
if (memcmp (a.buf1, "aabcdefghi", 10))
FAIL ();
if (mempcpy (a.buf1 + 5, "abcde", l0 + 5) != a.buf1 + 10
|| memcmp (a.buf1, "aabcdabcde", 10))
FAIL ();
memset (a.buf1 + 8, 'j', l0 + 2);
if (memcmp (a.buf1, "aabcdabcjj", 10))
FAIL ();
#if __USE_FORTIFY_LEVEL < 2
/* The following tests are supposed to crash with -D_FORTIFY_SOURCE=2
and sufficient GCC support, as the string operations overflow
from a.buf1 into a.buf2. */
strcpy (a.buf1 + 4, str1 + 5);
if (memcmp (a.buf1, "aabcEDCBA", 10))
FAIL ();
if (stpcpy (a.buf1 + 8, str2) != a.buf1 + 9
|| memcmp (a.buf1, "aabcEDCBF", 10))
FAIL ();
strncpy (a.buf1 + 6, "X", l0 + 4);
if (memcmp (a.buf1, "aabcEDX\0\0", 10))
FAIL ();
if (sprintf (a.buf1 + 7, "%d", num1) != 2
|| memcmp (a.buf1, "aabcEDX67", 10))
FAIL ();
if (snprintf (a.buf1 + 7, 3, "%d", num2) != 6
|| memcmp (a.buf1, "aabcEDX98", 10))
FAIL ();
a.buf1[l0 + 8] = '\0';
strcat (a.buf1, "A");
if (memcmp (a.buf1, "aabcEDX9A", 10))
FAIL ();
a.buf1[l0 + 7] = '\0';
strncat (a.buf1, "ZYXWV", l0 + 2);
if (memcmp (a.buf1, "aabcEDXZY", 10))
FAIL ();
#endif
#if __USE_FORTIFY_LEVEL >= 1
/* Now check if all buffer overflows are caught at runtime. */
CHK_FAIL_START
memcpy (buf + 1, "abcdefghij", l0 + 10);
CHK_FAIL_END
CHK_FAIL_START
memmove (buf + 2, buf + 1, l0 + 9);
CHK_FAIL_END
CHK_FAIL_START
p = (char *) mempcpy (buf + 6, "abcde", l0 + 5);
CHK_FAIL_END
CHK_FAIL_START
memset (buf + 9, 'j', l0 + 2);
CHK_FAIL_END
CHK_FAIL_START
strcpy (buf + 5, str1 + 5);
CHK_FAIL_END
CHK_FAIL_START
p = stpcpy (buf + 9, str2);
CHK_FAIL_END
CHK_FAIL_START
strncpy (buf + 7, "X", l0 + 4);
CHK_FAIL_END
CHK_FAIL_START
stpncpy (buf + 6, "cd", l0 + 5);
CHK_FAIL_END
# if !defined __cplusplus || defined __va_arg_pack
CHK_FAIL_START
sprintf (buf + 8, "%d", num1);
CHK_FAIL_END
CHK_FAIL_START
snprintf (buf + 8, l0 + 3, "%d", num2);
CHK_FAIL_END
CHK_FAIL_START
swprintf (wbuf + 8, 3, L"%d", num1);
CHK_FAIL_END
CHK_FAIL_START
swprintf (wbuf + 8, l0 + 3, L"%d", num1);
CHK_FAIL_END
# endif
memcpy (buf, str1 + 2, l0 + 9);
CHK_FAIL_START
strcat (buf, "AB");
CHK_FAIL_END
memcpy (buf, str1 + 3, l0 + 8);
CHK_FAIL_START
strncat (buf, "ZYXWV", l0 + 3);
CHK_FAIL_END
CHK_FAIL_START
memcpy (a.buf1 + 1, "abcdefghij", l0 + 10);
CHK_FAIL_END
CHK_FAIL_START
memmove (a.buf1 + 2, a.buf1 + 1, l0 + 9);
CHK_FAIL_END
CHK_FAIL_START
p = (char *) mempcpy (a.buf1 + 6, "abcde", l0 + 5);
CHK_FAIL_END
CHK_FAIL_START
memset (a.buf1 + 9, 'j', l0 + 2);
CHK_FAIL_END
# if __USE_FORTIFY_LEVEL >= 2
# define O 0
# else
# define O 1
# endif
CHK_FAIL_START
strcpy (a.buf1 + (O + 4), str1 + 5);
CHK_FAIL_END
CHK_FAIL_START
p = stpcpy (a.buf1 + (O + 8), str2);
CHK_FAIL_END
CHK_FAIL_START
strncpy (a.buf1 + (O + 6), "X", l0 + 4);
CHK_FAIL_END
# if !defined __cplusplus || defined __va_arg_pack
CHK_FAIL_START
sprintf (a.buf1 + (O + 7), "%d", num1);
CHK_FAIL_END
CHK_FAIL_START
snprintf (a.buf1 + (O + 7), l0 + 3, "%d", num2);
CHK_FAIL_END
# endif
memcpy (a.buf1, str1 + (3 - O), l0 + 8 + O);
CHK_FAIL_START
strcat (a.buf1, "AB");
CHK_FAIL_END
memcpy (a.buf1, str1 + (4 - O), l0 + 7 + O);
CHK_FAIL_START
strncat (a.buf1, "ZYXWV", l0 + 3);
CHK_FAIL_END
#endif
/* These ops can be done without runtime checking of object size. */
wmemcpy (wbuf, L"abcdefghij", 10);
wmemmove (wbuf + 1, wbuf, 9);
if (wmemcmp (wbuf, L"aabcdefghi", 10))
FAIL ();
if (wmempcpy (wbuf + 5, L"abcde", 5) != wbuf + 10
|| wmemcmp (wbuf, L"aabcdabcde", 10))
FAIL ();
wmemset (wbuf + 8, L'j', 2);
if (wmemcmp (wbuf, L"aabcdabcjj", 10))
FAIL ();
wcscpy (wbuf + 4, L"EDCBA");
if (wmemcmp (wbuf, L"aabcEDCBA", 10))
FAIL ();
if (wcpcpy (wbuf + 8, L"F") != wbuf + 9 || wmemcmp (wbuf, L"aabcEDCBF", 10))
FAIL ();
wcsncpy (wbuf + 6, L"X", 4);
if (wmemcmp (wbuf, L"aabcEDX\0\0", 10))
FAIL ();
if (swprintf (wbuf + 7, 3, L"%ls", L"987654") >= 0
|| wmemcmp (wbuf, L"aabcEDX98", 10))
FAIL ();
if (swprintf (wbuf + 7, 3, L"64") != 2
|| wmemcmp (wbuf, L"aabcEDX64", 10))
FAIL ();
/* These ops need runtime checking, but shouldn't __chk_fail. */
wmemcpy (wbuf, L"abcdefghij", l0 + 10);
wmemmove (wbuf + 1, wbuf, l0 + 9);
if (wmemcmp (wbuf, L"aabcdefghi", 10))
FAIL ();
if (wmempcpy (wbuf + 5, L"abcde", l0 + 5) != wbuf + 10
|| wmemcmp (wbuf, L"aabcdabcde", 10))
FAIL ();
wmemset (wbuf + 8, L'j', l0 + 2);
if (wmemcmp (wbuf, L"aabcdabcjj", 10))
FAIL ();
wcscpy (wbuf + 4, wstr1 + 5);
if (wmemcmp (wbuf, L"aabcEDCBA", 10))
FAIL ();
if (wcpcpy (wbuf + 8, wstr2) != wbuf + 9 || wmemcmp (wbuf, L"aabcEDCBF", 10))
FAIL ();
wcsncpy (wbuf + 6, L"X", l0 + 4);
if (wmemcmp (wbuf, L"aabcEDX\0\0", 10))
FAIL ();
if (wcpncpy (wbuf + 5, L"cd", l0 + 5) != wbuf + 7
|| wmemcmp (wbuf, L"aabcEcd\0\0", 10))
FAIL ();
if (swprintf (wbuf + 7, 3, L"%d", num2) >= 0
|| wmemcmp (wbuf, L"aabcEcd98", 10))
FAIL ();
wbuf[l0 + 8] = L'\0';
wcscat (wbuf, L"A");
if (wmemcmp (wbuf, L"aabcEcd9A", 10))
FAIL ();
wbuf[l0 + 7] = L'\0';
wcsncat (wbuf, L"ZYXWV", l0 + 2);
if (wmemcmp (wbuf, L"aabcEcdZY", 10))
FAIL ();
wmemcpy (wa.buf1, L"abcdefghij", l0 + 10);
wmemmove (wa.buf1 + 1, wa.buf1, l0 + 9);
if (wmemcmp (wa.buf1, L"aabcdefghi", 10))
FAIL ();
if (wmempcpy (wa.buf1 + 5, L"abcde", l0 + 5) != wa.buf1 + 10
|| wmemcmp (wa.buf1, L"aabcdabcde", 10))
FAIL ();
wmemset (wa.buf1 + 8, L'j', l0 + 2);
if (wmemcmp (wa.buf1, L"aabcdabcjj", 10))
FAIL ();
#if __USE_FORTIFY_LEVEL < 2
/* The following tests are supposed to crash with -D_FORTIFY_SOURCE=2
and sufficient GCC support, as the string operations overflow
from a.buf1 into a.buf2. */
wcscpy (wa.buf1 + 4, wstr1 + 5);
if (wmemcmp (wa.buf1, L"aabcEDCBA", 10))
FAIL ();
if (wcpcpy (wa.buf1 + 8, wstr2) != wa.buf1 + 9
|| wmemcmp (wa.buf1, L"aabcEDCBF", 10))
FAIL ();
wcsncpy (wa.buf1 + 6, L"X", l0 + 4);
if (wmemcmp (wa.buf1, L"aabcEDX\0\0", 10))
FAIL ();
if (swprintf (wa.buf1 + 7, 3, L"%d", num2) >= 0
|| wmemcmp (wa.buf1, L"aabcEDX98", 10))
FAIL ();
wa.buf1[l0 + 8] = L'\0';
wcscat (wa.buf1, L"A");
if (wmemcmp (wa.buf1, L"aabcEDX9A", 10))
FAIL ();
wa.buf1[l0 + 7] = L'\0';
wcsncat (wa.buf1, L"ZYXWV", l0 + 2);
if (wmemcmp (wa.buf1, L"aabcEDXZY", 10))
FAIL ();
#endif
#if __USE_FORTIFY_LEVEL >= 1
/* Now check if all buffer overflows are caught at runtime. */
CHK_FAIL_START
wmemcpy (wbuf + 1, L"abcdefghij", l0 + 10);
CHK_FAIL_END
CHK_FAIL_START
wmemcpy (wbuf + 9, L"abcdefghij", l0 + 10);
CHK_FAIL_END
CHK_FAIL_START
wmemmove (wbuf + 2, wbuf + 1, l0 + 9);
CHK_FAIL_END
CHK_FAIL_START
wp = wmempcpy (wbuf + 6, L"abcde", l0 + 5);
CHK_FAIL_END
CHK_FAIL_START
wmemset (wbuf + 9, L'j', l0 + 2);
CHK_FAIL_END
CHK_FAIL_START
wcscpy (wbuf + 5, wstr1 + 5);
CHK_FAIL_END
CHK_FAIL_START
wp = wcpcpy (wbuf + 9, wstr2);
CHK_FAIL_END
CHK_FAIL_START
wcsncpy (wbuf + 7, L"X", l0 + 4);
CHK_FAIL_END
CHK_FAIL_START
wcsncpy (wbuf + 9, L"XABCDEFGH", 8);
CHK_FAIL_END
CHK_FAIL_START
wcpncpy (wbuf + 9, L"XABCDEFGH", 8);
CHK_FAIL_END
CHK_FAIL_START
wcpncpy (wbuf + 6, L"cd", l0 + 5);
CHK_FAIL_END
wmemcpy (wbuf, wstr1 + 2, l0 + 9);
CHK_FAIL_START
wcscat (wbuf, L"AB");
CHK_FAIL_END
wmemcpy (wbuf, wstr1 + 3, l0 + 8);
CHK_FAIL_START
wcsncat (wbuf, L"ZYXWV", l0 + 3);
CHK_FAIL_END
CHK_FAIL_START
wmemcpy (wa.buf1 + 1, L"abcdefghij", l0 + 10);
CHK_FAIL_END
CHK_FAIL_START
wmemmove (wa.buf1 + 2, wa.buf1 + 1, l0 + 9);
CHK_FAIL_END
CHK_FAIL_START
wp = wmempcpy (wa.buf1 + 6, L"abcde", l0 + 5);
CHK_FAIL_END
CHK_FAIL_START
wmemset (wa.buf1 + 9, L'j', l0 + 2);
CHK_FAIL_END
#if __USE_FORTIFY_LEVEL >= 2
# define O 0
#else
# define O 1
#endif
CHK_FAIL_START
wcscpy (wa.buf1 + (O + 4), wstr1 + 5);
CHK_FAIL_END
CHK_FAIL_START
wp = wcpcpy (wa.buf1 + (O + 8), wstr2);
CHK_FAIL_END
CHK_FAIL_START
wcsncpy (wa.buf1 + (O + 6), L"X", l0 + 4);
CHK_FAIL_END
wmemcpy (wa.buf1, wstr1 + (3 - O), l0 + 8 + O);
CHK_FAIL_START
wcscat (wa.buf1, L"AB");
CHK_FAIL_END
wmemcpy (wa.buf1, wstr1 + (4 - O), l0 + 7 + O);
CHK_FAIL_START
wcsncat (wa.buf1, L"ZYXWV", l0 + 3);
CHK_FAIL_END
#endif
/* Now checks for %n protection. */
/* Constant literals passed directly are always ok
(even with warnings about possible bugs from GCC). */
int n1, n2;
if (sprintf (buf, "%s%n%s%n", str2, &n1, str2, &n2) != 2
|| n1 != 1 || n2 != 2)
FAIL ();
/* In this case the format string is not known at compile time,
but resides in read-only memory, so is ok. */
if (snprintf (buf, 4, str3, str2, &n1, str2, &n2) != 2
|| n1 != 1 || n2 != 2)
FAIL ();
strcpy (buf2 + 2, "%n%s%n");
/* When the format string is writable and contains %n,
with -D_FORTIFY_SOURCE=2 it causes __chk_fail. */
CHK_FAIL2_START
if (sprintf (buf, buf2, str2, &n1, str2, &n1) != 2)
FAIL ();
CHK_FAIL2_END
CHK_FAIL2_START
if (snprintf (buf, 3, buf2, str2, &n1, str2, &n1) != 2)
FAIL ();
CHK_FAIL2_END
/* But if there is no %n, even writable format string
should work. */
buf2[6] = '\0';
if (sprintf (buf, buf2 + 4, str2) != 1)
FAIL ();
/* Constant literals passed directly are always ok
(even with warnings about possible bugs from GCC). */
if (printf ("%s%n%s%n", str4, &n1, str5, &n2) != 14
|| n1 != 7 || n2 != 14)
FAIL ();
/* In this case the format string is not known at compile time,
but resides in read-only memory, so is ok. */
if (printf (str3, str4, &n1, str5, &n2) != 14
|| n1 != 7 || n2 != 14)
FAIL ();
strcpy (buf2 + 2, "%n%s%n");
/* When the format string is writable and contains %n,
with -D_FORTIFY_SOURCE=2 it causes __chk_fail. */
CHK_FAIL2_START
if (printf (buf2, str4, &n1, str5, &n1) != 14)
FAIL ();
CHK_FAIL2_END
/* But if there is no %n, even writable format string
should work. */
buf2[6] = '\0';
if (printf (buf2 + 4, str5) != 7)
FAIL ();
FILE *fp = stdout;
/* Constant literals passed directly are always ok
(even with warnings about possible bugs from GCC). */
if (fprintf (fp, "%s%n%s%n", str4, &n1, str5, &n2) != 14
|| n1 != 7 || n2 != 14)
FAIL ();
/* In this case the format string is not known at compile time,
but resides in read-only memory, so is ok. */
if (fprintf (fp, str3, str4, &n1, str5, &n2) != 14
|| n1 != 7 || n2 != 14)
FAIL ();
strcpy (buf2 + 2, "%n%s%n");
/* When the format string is writable and contains %n,
with -D_FORTIFY_SOURCE=2 it causes __chk_fail. */
CHK_FAIL2_START
if (fprintf (fp, buf2, str4, &n1, str5, &n1) != 14)
FAIL ();
CHK_FAIL2_END
/* But if there is no %n, even writable format string
should work. */
buf2[6] = '\0';
if (fprintf (fp, buf2 + 4, str5) != 7)
FAIL ();
char *my_ptr = NULL;
strcpy (buf2 + 2, "%n%s%n");
/* When the format string is writable and contains %n,
with -D_FORTIFY_SOURCE=2 it causes __chk_fail. */
CHK_FAIL2_START
if (asprintf (&my_ptr, buf2, str4, &n1, str5, &n1) != 14)
FAIL ();
else
free (my_ptr);
CHK_FAIL2_END
struct obstack obs;
obstack_init (&obs);
CHK_FAIL2_START
if (obstack_printf (&obs, buf2, str4, &n1, str5, &n1) != 14)
FAIL ();
CHK_FAIL2_END
obstack_free (&obs, NULL);
my_ptr = NULL;
if (asprintf (&my_ptr, "%s%n%s%n", str4, &n1, str5, &n1) != 14)
FAIL ();
else
free (my_ptr);
obstack_init (&obs);
if (obstack_printf (&obs, "%s%n%s%n", str4, &n1, str5, &n1) != 14)
FAIL ();
obstack_free (&obs, NULL);
if (freopen (temp_filename, "r", stdin) == NULL)
{
puts ("could not open temporary file");
exit (1);
}
if (gets (buf) != buf || memcmp (buf, "abcdefgh", 9))
FAIL ();
if (gets (buf) != buf || memcmp (buf, "ABCDEFGHI", 10))
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
if (gets (buf) != buf)
FAIL ();
CHK_FAIL_END
#endif
rewind (stdin);
if (fgets (buf, sizeof (buf), stdin) != buf
|| memcmp (buf, "abcdefgh\n", 10))
FAIL ();
if (fgets (buf, sizeof (buf), stdin) != buf || memcmp (buf, "ABCDEFGHI", 10))
FAIL ();
rewind (stdin);
if (fgets (buf, l0 + sizeof (buf), stdin) != buf
|| memcmp (buf, "abcdefgh\n", 10))
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
if (fgets (buf, sizeof (buf) + 1, stdin) != buf)
FAIL ();
CHK_FAIL_END
CHK_FAIL_START
if (fgets (buf, l0 + sizeof (buf) + 1, stdin) != buf)
FAIL ();
CHK_FAIL_END
#endif
rewind (stdin);
if (fgets_unlocked (buf, sizeof (buf), stdin) != buf
|| memcmp (buf, "abcdefgh\n", 10))
FAIL ();
if (fgets_unlocked (buf, sizeof (buf), stdin) != buf
|| memcmp (buf, "ABCDEFGHI", 10))
FAIL ();
rewind (stdin);
if (fgets_unlocked (buf, l0 + sizeof (buf), stdin) != buf
|| memcmp (buf, "abcdefgh\n", 10))
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
if (fgets_unlocked (buf, sizeof (buf) + 1, stdin) != buf)
FAIL ();
CHK_FAIL_END
CHK_FAIL_START
if (fgets_unlocked (buf, l0 + sizeof (buf) + 1, stdin) != buf)
FAIL ();
CHK_FAIL_END
#endif
rewind (stdin);
if (fread (buf, 1, sizeof (buf), stdin) != sizeof (buf)
|| memcmp (buf, "abcdefgh\nA", 10))
FAIL ();
if (fread (buf, sizeof (buf), 1, stdin) != 1
|| memcmp (buf, "BCDEFGHI\na", 10))
FAIL ();
rewind (stdin);
if (fread (buf, l0 + 1, sizeof (buf), stdin) != sizeof (buf)
|| memcmp (buf, "abcdefgh\nA", 10))
FAIL ();
if (fread (buf, sizeof (buf), l0 + 1, stdin) != 1
|| memcmp (buf, "BCDEFGHI\na", 10))
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
if (fread (buf, 1, sizeof (buf) + 1, stdin) != sizeof (buf) + 1)
FAIL ();
CHK_FAIL_END
CHK_FAIL_START
if (fread (buf, sizeof (buf) + 1, l0 + 1, stdin) != 1)
FAIL ();
CHK_FAIL_END
#endif
rewind (stdin);
if (fread_unlocked (buf, 1, sizeof (buf), stdin) != sizeof (buf)
|| memcmp (buf, "abcdefgh\nA", 10))
FAIL ();
if (fread_unlocked (buf, sizeof (buf), 1, stdin) != 1
|| memcmp (buf, "BCDEFGHI\na", 10))
FAIL ();
rewind (stdin);
if (fread_unlocked (buf, 1, 4, stdin) != 4
|| memcmp (buf, "abcdFGHI\na", 10))
FAIL ();
if (fread_unlocked (buf, 4, 1, stdin) != 1
|| memcmp (buf, "efghFGHI\na", 10))
FAIL ();
rewind (stdin);
if (fread_unlocked (buf, l0 + 1, sizeof (buf), stdin) != sizeof (buf)
|| memcmp (buf, "abcdefgh\nA", 10))
FAIL ();
if (fread_unlocked (buf, sizeof (buf), l0 + 1, stdin) != 1
|| memcmp (buf, "BCDEFGHI\na", 10))
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
if (fread_unlocked (buf, 1, sizeof (buf) + 1, stdin) != sizeof (buf) + 1)
FAIL ();
CHK_FAIL_END
CHK_FAIL_START
if (fread_unlocked (buf, sizeof (buf) + 1, l0 + 1, stdin) != 1)
FAIL ();
CHK_FAIL_END
#endif
lseek (fileno (stdin), 0, SEEK_SET);
if (read (fileno (stdin), buf, sizeof (buf) - 1) != sizeof (buf) - 1
|| memcmp (buf, "abcdefgh\n", 9))
FAIL ();
if (read (fileno (stdin), buf, sizeof (buf) - 1) != sizeof (buf) - 1
|| memcmp (buf, "ABCDEFGHI", 9))
FAIL ();
lseek (fileno (stdin), 0, SEEK_SET);
if (read (fileno (stdin), buf, l0 + sizeof (buf) - 1) != sizeof (buf) - 1
|| memcmp (buf, "abcdefgh\n", 9))
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
if (read (fileno (stdin), buf, sizeof (buf) + 1) != sizeof (buf) + 1)
FAIL ();
CHK_FAIL_END
#endif
if (pread (fileno (stdin), buf, sizeof (buf) - 1, sizeof (buf) - 2)
!= sizeof (buf) - 1
|| memcmp (buf, "\nABCDEFGH", 9))
FAIL ();
if (pread (fileno (stdin), buf, sizeof (buf) - 1, 0) != sizeof (buf) - 1
|| memcmp (buf, "abcdefgh\n", 9))
FAIL ();
if (pread (fileno (stdin), buf, l0 + sizeof (buf) - 1, sizeof (buf) - 3)
!= sizeof (buf) - 1
|| memcmp (buf, "h\nABCDEFG", 9))
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
if (pread (fileno (stdin), buf, sizeof (buf) + 1, 2 * sizeof (buf))
!= sizeof (buf) + 1)
FAIL ();
CHK_FAIL_END
#endif
if (pread64 (fileno (stdin), buf, sizeof (buf) - 1, sizeof (buf) - 2)
!= sizeof (buf) - 1
|| memcmp (buf, "\nABCDEFGH", 9))
FAIL ();
if (pread64 (fileno (stdin), buf, sizeof (buf) - 1, 0) != sizeof (buf) - 1
|| memcmp (buf, "abcdefgh\n", 9))
FAIL ();
if (pread64 (fileno (stdin), buf, l0 + sizeof (buf) - 1, sizeof (buf) - 3)
!= sizeof (buf) - 1
|| memcmp (buf, "h\nABCDEFG", 9))
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
if (pread64 (fileno (stdin), buf, sizeof (buf) + 1, 2 * sizeof (buf))
!= sizeof (buf) + 1)
FAIL ();
CHK_FAIL_END
#endif
if (freopen (temp_filename, "r", stdin) == NULL)
{
puts ("could not open temporary file");
exit (1);
}
if (fseek (stdin, 9 + 10 + 11, SEEK_SET))
{
puts ("could not seek in test file");
exit (1);
}
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
if (gets (buf) != buf)
FAIL ();
CHK_FAIL_END
#endif
/* Check whether missing N$ formats are detected. */
CHK_FAIL2_START
printf ("%3$d\n", 1, 2, 3, 4);
CHK_FAIL2_END
CHK_FAIL2_START
fprintf (stdout, "%3$d\n", 1, 2, 3, 4);
CHK_FAIL2_END
CHK_FAIL2_START
sprintf (buf, "%3$d\n", 1, 2, 3, 4);
CHK_FAIL2_END
CHK_FAIL2_START
snprintf (buf, sizeof (buf), "%3$d\n", 1, 2, 3, 4);
CHK_FAIL2_END
int sp[2];
if (socketpair (PF_UNIX, SOCK_STREAM, 0, sp))
FAIL ();
else
{
const char *sendstr = "abcdefgh\nABCDEFGH\n0123456789\n";
if ((size_t) send (sp[0], sendstr, strlen (sendstr), 0)
!= strlen (sendstr))
FAIL ();
char recvbuf[12];
if (recv (sp[1], recvbuf, sizeof recvbuf, MSG_PEEK)
!= sizeof recvbuf
|| memcmp (recvbuf, sendstr, sizeof recvbuf) != 0)
FAIL ();
if (recv (sp[1], recvbuf + 6, l0 + sizeof recvbuf - 7, MSG_PEEK)
!= sizeof recvbuf - 7
|| memcmp (recvbuf + 6, sendstr, sizeof recvbuf - 7) != 0)
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
if (recv (sp[1], recvbuf + 1, sizeof recvbuf, MSG_PEEK)
!= sizeof recvbuf)
FAIL ();
CHK_FAIL_END
CHK_FAIL_START
if (recv (sp[1], recvbuf + 4, l0 + sizeof recvbuf - 3, MSG_PEEK)
!= sizeof recvbuf - 3)
FAIL ();
CHK_FAIL_END
#endif
socklen_t sl;
struct sockaddr_un sa_un;
sl = sizeof (sa_un);
if (recvfrom (sp[1], recvbuf, sizeof recvbuf, MSG_PEEK,
(struct sockaddr *) &sa_un, &sl)
!= sizeof recvbuf
|| memcmp (recvbuf, sendstr, sizeof recvbuf) != 0)
FAIL ();
sl = sizeof (sa_un);
if (recvfrom (sp[1], recvbuf + 6, l0 + sizeof recvbuf - 7, MSG_PEEK,
(struct sockaddr *) &sa_un, &sl) != sizeof recvbuf - 7
|| memcmp (recvbuf + 6, sendstr, sizeof recvbuf - 7) != 0)
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
sl = sizeof (sa_un);
if (recvfrom (sp[1], recvbuf + 1, sizeof recvbuf, MSG_PEEK,
(struct sockaddr *) &sa_un, &sl) != sizeof recvbuf)
FAIL ();
CHK_FAIL_END
CHK_FAIL_START
sl = sizeof (sa_un);
if (recvfrom (sp[1], recvbuf + 4, l0 + sizeof recvbuf - 3, MSG_PEEK,
(struct sockaddr *) &sa_un, &sl) != sizeof recvbuf - 3)
FAIL ();
CHK_FAIL_END
#endif
close (sp[0]);
close (sp[1]);
}
char fname[] = "/tmp/tst-chk1-dir-XXXXXX\0foo";
char *enddir = strchr (fname, '\0');
if (mkdtemp (fname) == NULL)
{
printf ("mkdtemp failed: %m\n");
return 1;
}
*enddir = '/';
if (symlink ("bar", fname) != 0)
FAIL ();
char readlinkbuf[4];
if (readlink (fname, readlinkbuf, 4) != 3
|| memcmp (readlinkbuf, "bar", 3) != 0)
FAIL ();
if (readlink (fname, readlinkbuf + 1, l0 + 3) != 3
|| memcmp (readlinkbuf, "bbar", 4) != 0)
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
if (readlink (fname, readlinkbuf + 2, l0 + 3) != 3)
FAIL ();
CHK_FAIL_END
CHK_FAIL_START
if (readlink (fname, readlinkbuf + 3, 4) != 3)
FAIL ();
CHK_FAIL_END
#endif
int tmpfd = open ("/tmp", O_RDONLY | O_DIRECTORY);
if (tmpfd < 0)
FAIL ();
if (readlinkat (tmpfd, fname + sizeof ("/tmp/") - 1, readlinkbuf, 4) != 3
|| memcmp (readlinkbuf, "bar", 3) != 0)
FAIL ();
if (readlinkat (tmpfd, fname + sizeof ("/tmp/") - 1, readlinkbuf + 1,
l0 + 3) != 3
|| memcmp (readlinkbuf, "bbar", 4) != 0)
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
if (readlinkat (tmpfd, fname + sizeof ("/tmp/") - 1, readlinkbuf + 2,
l0 + 3) != 3)
FAIL ();
CHK_FAIL_END
CHK_FAIL_START
if (readlinkat (tmpfd, fname + sizeof ("/tmp/") - 1, readlinkbuf + 3,
4) != 3)
FAIL ();
CHK_FAIL_END
#endif
close (tmpfd);
char *cwd1 = getcwd (NULL, 0);
if (cwd1 == NULL)
FAIL ();
char *cwd2 = getcwd (NULL, 250);
if (cwd2 == NULL)
FAIL ();
if (cwd1 && cwd2)
{
if (strcmp (cwd1, cwd2) != 0)
FAIL ();
*enddir = '\0';
if (chdir (fname))
FAIL ();
char *cwd3 = getcwd (NULL, 0);
if (cwd3 == NULL)
FAIL ();
if (strcmp (fname, cwd3) != 0)
printf ("getcwd after chdir is '%s' != '%s',"
"get{c,}wd tests skipped\n", cwd3, fname);
else
{
char getcwdbuf[sizeof fname - 3];
char *cwd4 = getcwd (getcwdbuf, sizeof getcwdbuf);
if (cwd4 != getcwdbuf
|| strcmp (getcwdbuf, fname) != 0)
FAIL ();
cwd4 = getcwd (getcwdbuf + 1, l0 + sizeof getcwdbuf - 1);
if (cwd4 != getcwdbuf + 1
|| getcwdbuf[0] != fname[0]
|| strcmp (getcwdbuf + 1, fname) != 0)
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
if (getcwd (getcwdbuf + 2, l0 + sizeof getcwdbuf)
!= getcwdbuf + 2)
FAIL ();
CHK_FAIL_END
CHK_FAIL_START
if (getcwd (getcwdbuf + 2, sizeof getcwdbuf)
!= getcwdbuf + 2)
FAIL ();
CHK_FAIL_END
#endif
if (getwd (getcwdbuf) != getcwdbuf
|| strcmp (getcwdbuf, fname) != 0)
FAIL ();
if (getwd (getcwdbuf + 1) != getcwdbuf + 1
|| strcmp (getcwdbuf + 1, fname) != 0)
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
if (getwd (getcwdbuf + 2) != getcwdbuf + 2)
FAIL ();
CHK_FAIL_END
#endif
}
if (chdir (cwd1) != 0)
FAIL ();
free (cwd3);
}
free (cwd1);
free (cwd2);
*enddir = '/';
if (unlink (fname) != 0)
FAIL ();
*enddir = '\0';
if (rmdir (fname) != 0)
FAIL ();
#if PATH_MAX > 0
char largebuf[PATH_MAX];
char *realres = realpath (".", largebuf);
if (realres != largebuf)
FAIL ();
# if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
char realbuf[1];
realres = realpath (".", realbuf);
if (realres != realbuf)
FAIL ();
CHK_FAIL_END
# endif
#endif
if (setlocale (LC_ALL, "de_DE.UTF-8") != NULL)
{
assert (MB_CUR_MAX <= 10);
/* First a simple test. */
char enough[10];
if (wctomb (enough, L'A') != 1)
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
/* We know the wchar_t encoding is ISO 10646. So pick a
character which has a multibyte representation which does not
fit. */
CHK_FAIL_START
char smallbuf[2];
if (wctomb (smallbuf, L'\x100') != 2)
FAIL ();
CHK_FAIL_END
#endif
mbstate_t s;
memset (&s, '\0', sizeof (s));
if (wcrtomb (enough, L'D', &s) != 1 || enough[0] != 'D')
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
/* We know the wchar_t encoding is ISO 10646. So pick a
character which has a multibyte representation which does not
fit. */
CHK_FAIL_START
char smallbuf[2];
if (wcrtomb (smallbuf, L'\x100', &s) != 2)
FAIL ();
CHK_FAIL_END
#endif
wchar_t wenough[10];
memset (&s, '\0', sizeof (s));
const char *cp = "A";
if (mbsrtowcs (wenough, &cp, 10, &s) != 1
|| wcscmp (wenough, L"A") != 0)
FAIL ();
cp = "BC";
if (mbsrtowcs (wenough, &cp, l0 + 10, &s) != 2
|| wcscmp (wenough, L"BC") != 0)
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
wchar_t wsmallbuf[2];
cp = "ABC";
mbsrtowcs (wsmallbuf, &cp, 10, &s);
CHK_FAIL_END
#endif
cp = "A";
if (mbstowcs (wenough, cp, 10) != 1
|| wcscmp (wenough, L"A") != 0)
FAIL ();
cp = "DEF";
if (mbstowcs (wenough, cp, l0 + 10) != 3
|| wcscmp (wenough, L"DEF") != 0)
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
wchar_t wsmallbuf[2];
cp = "ABC";
mbstowcs (wsmallbuf, cp, 10);
CHK_FAIL_END
#endif
memset (&s, '\0', sizeof (s));
cp = "ABC";
wcscpy (wenough, L"DEF");
if (mbsnrtowcs (wenough, &cp, 1, 10, &s) != 1
|| wcscmp (wenough, L"AEF") != 0)
FAIL ();
cp = "IJ";
if (mbsnrtowcs (wenough, &cp, 1, l0 + 10, &s) != 1
|| wcscmp (wenough, L"IEF") != 0)
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
wchar_t wsmallbuf[2];
cp = "ABC";
mbsnrtowcs (wsmallbuf, &cp, 3, 10, &s);
CHK_FAIL_END
#endif
memset (&s, '\0', sizeof (s));
const wchar_t *wcp = L"A";
if (wcsrtombs (enough, &wcp, 10, &s) != 1
|| strcmp (enough, "A") != 0)
FAIL ();
wcp = L"BC";
if (wcsrtombs (enough, &wcp, l0 + 10, &s) != 2
|| strcmp (enough, "BC") != 0)
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
char smallbuf[2];
wcp = L"ABC";
wcsrtombs (smallbuf, &wcp, 10, &s);
CHK_FAIL_END
#endif
memset (enough, 'Z', sizeof (enough));
wcp = L"EF";
if (wcstombs (enough, wcp, 10) != 2
|| strcmp (enough, "EF") != 0)
FAIL ();
wcp = L"G";
if (wcstombs (enough, wcp, l0 + 10) != 1
|| strcmp (enough, "G") != 0)
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
char smallbuf[2];
wcp = L"ABC";
wcstombs (smallbuf, wcp, 10);
CHK_FAIL_END
#endif
memset (&s, '\0', sizeof (s));
wcp = L"AB";
if (wcsnrtombs (enough, &wcp, 1, 10, &s) != 1
|| strcmp (enough, "A") != 0)
FAIL ();
wcp = L"BCD";
if (wcsnrtombs (enough, &wcp, 1, l0 + 10, &s) != 1
|| strcmp (enough, "B") != 0)
FAIL ();
#if __USE_FORTIFY_LEVEL >= 1
CHK_FAIL_START
char smallbuf[2];
wcp = L"ABC";
wcsnrtombs (smallbuf, &wcp, 3, 10, &s);
CHK_FAIL_END
#endif
}
static void
log_resolution (rule *r, symbol_number token,
enum conflict_resolution resolution)
{
if (report_flag & report_solved_conflicts)
{
/* The description of the resolution. */
switch (resolution)
{
case shift_resolution:
case right_resolution:
obstack_printf (&solved_conflicts_obstack,
_(" Conflict between rule %d and token %s"
" resolved as shift"),
r->number,
symbols[token]->tag);
break;
case reduce_resolution:
case left_resolution:
obstack_printf (&solved_conflicts_obstack,
_(" Conflict between rule %d and token %s"
" resolved as reduce"),
r->number,
symbols[token]->tag);
break;
case nonassoc_resolution:
obstack_printf (&solved_conflicts_obstack,
_(" Conflict between rule %d and token %s"
" resolved as an error"),
r->number,
symbols[token]->tag);
break;
}
/* The reason. */
switch (resolution)
{
case shift_resolution:
obstack_printf (&solved_conflicts_obstack,
" (%s < %s)",
r->prec->tag,
symbols[token]->tag);
break;
case reduce_resolution:
obstack_printf (&solved_conflicts_obstack,
" (%s < %s)",
symbols[token]->tag,
r->prec->tag);
break;
case left_resolution:
obstack_printf (&solved_conflicts_obstack,
" (%%left %s)",
symbols[token]->tag);
break;
case right_resolution:
obstack_printf (&solved_conflicts_obstack,
" (%%right %s)",
symbols[token]->tag);
break;
case nonassoc_resolution:
obstack_printf (&solved_conflicts_obstack,
" (%%nonassoc %s)",
symbols[token]->tag);
break;
}
obstack_sgrow (&solved_conflicts_obstack, ".\n");
}
/* XML report */
if (xml_flag)
{
/* The description of the resolution. */
switch (resolution)
{
case shift_resolution:
case right_resolution:
obstack_printf (&solved_conflicts_xml_obstack,
" <resolution rule=\"%d\" symbol=\"%s\""
" type=\"shift\">",
r->number,
xml_escape (symbols[token]->tag));
break;
case reduce_resolution:
case left_resolution:
obstack_printf (&solved_conflicts_xml_obstack,
" <resolution rule=\"%d\" symbol=\"%s\""
" type=\"reduce\">",
r->number,
xml_escape (symbols[token]->tag));
break;
case nonassoc_resolution:
obstack_printf (&solved_conflicts_xml_obstack,
" <resolution rule=\"%d\" symbol=\"%s\""
" type=\"error\">",
r->number,
xml_escape (symbols[token]->tag));
break;
}
/* The reason. */
switch (resolution)
{
case shift_resolution:
obstack_printf (&solved_conflicts_xml_obstack,
"%s < %s",
xml_escape_n (0, r->prec->tag),
xml_escape_n (1, symbols[token]->tag));
break;
case reduce_resolution:
obstack_printf (&solved_conflicts_xml_obstack,
"%s < %s",
xml_escape_n (0, symbols[token]->tag),
xml_escape_n (1, r->prec->tag));
break;
case left_resolution:
obstack_printf (&solved_conflicts_xml_obstack,
"%%left %s",
xml_escape (symbols[token]->tag));
break;
case right_resolution:
obstack_printf (&solved_conflicts_xml_obstack,
"%%right %s",
xml_escape (symbols[token]->tag));
break;
case nonassoc_resolution:
obstack_printf (&solved_conflicts_xml_obstack,
"%%nonassoc %s",
xml_escape (symbols[token]->tag));
break;
}
obstack_sgrow (&solved_conflicts_xml_obstack, "</resolution>\n");
}
}