/*
* Copyright (C) Igor Sysoev
* Copyright (C) NGINX, Inc.
*/
#include <nxt_main.h>
/*
* The strerror() messages are copied because:
*
* 1) strerror() and strerror_r() functions are not Async-Signal-Safe,
* therefore, they can not be used in signal handlers;
*
* 2) a direct sys_errlist[] array may be used instead of these functions,
* but Linux linker warns about this usage:
*
* warning: `sys_errlist' is deprecated; use `strerror' or `strerror_r' instead
* warning: `sys_nerr' is deprecated; use `strerror' or `strerror_r' instead
*
* causing false bug reports.
*/
static u_char *nxt_bootstrap_strerror(nxt_err_t err, u_char *errstr,
size_t size);
static u_char *nxt_runtime_strerror(nxt_err_t err, u_char *errstr, size_t size);
nxt_strerror_t nxt_strerror = nxt_bootstrap_strerror;
static nxt_str_t *nxt_sys_errlist;
static nxt_uint_t nxt_sys_nerr;
nxt_int_t
nxt_strerror_start(void)
{
char *msg;
u_char *p;
size_t size, len, n;
nxt_uint_t err, invalid;
/* The last entry. */
size = sizeof("Unknown error") - 1;
/*
* Linux has holes for error codes 41 and 58, so the loop
* stops only after 100 invalid codes in succession.
*/
for (invalid = 0; invalid < 100 && nxt_sys_nerr < 65536; nxt_sys_nerr++) {
nxt_set_errno(0);
msg = strerror((int) nxt_sys_nerr);
/*
* strerror() behaviour on passing invalid error code depends
* on OS and version:
* Linux returns "Unknown error NN";
* FreeBSD, NetBSD and OpenBSD return "Unknown error: NN"
* and set errno to EINVAL;
* Solaris 10 returns "Unknown error" and sets errno to EINVAL;
* Solaris 9 returns "Unknown error";
* Solaris 2 returns NULL;
* MacOSX returns "Unknown error: NN";
* AIX returns "Error NNN occurred.";
* HP-UX returns "Unknown error" for invalid codes lesser than 250
* or empty string for larger codes.
*/
if (msg == NULL) {
invalid++;
continue;
}
len = nxt_strlen(msg);
size += len;
if (len == 0 /* HP-UX empty strings. */
|| nxt_errno == NXT_EINVAL
|| nxt_memcmp(msg, "Unknown error", 13) == 0)
{
invalid++;
continue;
}
#if (NXT_AIX)
if (nxt_memcmp(msg, "Error ", 6) == 0
&& nxt_memcmp(msg + len - 10, " occurred.", 9) == 0)
{
invalid++;
continue;
}
#endif
}
nxt_sys_nerr -= invalid;
nxt_main_log_debug("sys_nerr: %d", nxt_sys_nerr);
n = (nxt_sys_nerr + 1) * sizeof(nxt_str_t);
nxt_sys_errlist = nxt_malloc(n + size);
if (nxt_sys_errlist == NULL) {
return NXT_ERROR;
}
p = (u_char *) nxt_sys_errlist + n;
for (err = 0; err < nxt_sys_nerr; err++) {
msg = strerror((int) err);
len = nxt_strlen(msg);
nxt_sys_errlist[err].len = len;
nxt_sys_errlist[err].data = p;
p = nxt_cpymem(p, msg, len);
}
nxt_sys_errlist[err].len = 13;
nxt_sys_errlist[err].data = p;
nxt_memcpy(p, "Unknown error", 13);
nxt_strerror = nxt_runtime_strerror;
return NXT_OK;
}
static u_char *
nxt_bootstrap_strerror(nxt_err_t err, u_char *errstr, size_t size)
{
return nxt_cpystrn(errstr, (u_char *) strerror(err), size);
}
static u_char *
nxt_runtime_strerror(nxt_err_t err, u_char *errstr, size_t size)
{
nxt_str_t *msg;
nxt_uint_t n;
n = nxt_min((nxt_uint_t) err, nxt_sys_nerr);
msg = &nxt_sys_errlist[n];
size = nxt_min(size, msg->len);
return nxt_cpymem(errstr, msg->data, size);
}