/*
* libwebsockets - small server side websockets and web server implementation
*
* Copyright (C) 2010 - 2020 Andy Green <andy@warmcat.com>
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to
* deal in the Software without restriction, including without limitation the
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
* IN THE SOFTWARE.
*/
#include "private-lib-core.h"
#ifdef LWS_HAVE_SYS_TYPES_H
#include <sys/types.h>
#endif
#include <signal.h>
void
lws_ser_wu16be(uint8_t *b, uint16_t u)
{
*b++ = (uint8_t)(u >> 8);
*b = (uint8_t)u;
}
void
lws_ser_wu32be(uint8_t *b, uint32_t u32)
{
*b++ = (uint8_t)(u32 >> 24);
*b++ = (uint8_t)(u32 >> 16);
*b++ = (uint8_t)(u32 >> 8);
*b = (uint8_t)u32;
}
void
lws_ser_wu64be(uint8_t *b, uint64_t u64)
{
lws_ser_wu32be(b, (uint32_t)(u64 >> 32));
lws_ser_wu32be(b + 4, (uint32_t)u64);
}
uint16_t
lws_ser_ru16be(const uint8_t *b)
{
return (uint16_t)((b[0] << 8) | b[1]);
}
uint32_t
lws_ser_ru32be(const uint8_t *b)
{
return (unsigned int)((b[0] << 24) | (b[1] << 16) | (b[2] << 8) | b[3]);
}
uint64_t
lws_ser_ru64be(const uint8_t *b)
{
return (((uint64_t)lws_ser_ru32be(b)) << 32) | lws_ser_ru32be(b + 4);
}
int
lws_vbi_encode(uint64_t value, void *buf)
{
uint8_t *p = (uint8_t *)buf, b;
if (value > 0xfffffff) {
assert(0);
return -1;
}
do {
b = value & 0x7f;
value >>= 7;
if (value)
*p++ = (0x80 | b);
else
*p++ = b;
} while (value);
return lws_ptr_diff(p, buf);
}
int
lws_vbi_decode(const void *buf, uint64_t *value, size_t len)
{
const uint8_t *p = (const uint8_t *)buf, *end = p + len;
uint64_t v = 0;
int s = 0;
while (p < end) {
v |= (((uint64_t)(*p)) & 0x7f) << s;
if (*p & 0x80) {
*value = v;
return lws_ptr_diff(p, buf);
}
s += 7;
if (s >= 64)
return 0;
p++;
}
return 0;
}
signed char char_to_hex(const char c)
{
if (c >= '0' && c <= '9')
return (signed char)(c - '0');
if (c >= 'a' && c <= 'f')
return (signed char)(c - 'a' + 10);
if (c >= 'A' && c <= 'F')
return (signed char)(c - 'A' + 10);
return (signed char)-1;
}
int
lws_hex_len_to_byte_array(const char *h, size_t hlen, uint8_t *dest, int max)
{
uint8_t *odest = dest;
while (max-- && hlen > 1) {
int t = char_to_hex(*h++), t1;
if (!*h || t < 0)
return -1;
t1 = char_to_hex(*h++);
if (t1 < 0)
return -1;
*dest++ = (uint8_t)((t << 4) | t1);
hlen -= 2;
}
if (max < -1)
return -1;
return lws_ptr_diff(dest, odest);
}
int
lws_hex_to_byte_array(const char *h, uint8_t *dest, int max)
{
return lws_hex_len_to_byte_array(h, strlen(h), dest, max);
}
static char *hexch = "0123456789abcdef";
void
lws_hex_from_byte_array(const uint8_t *src, size_t slen, char *dest, size_t len)
{
char *end = &dest[len - 1];
while (slen-- && dest != end) {
uint8_t b = *src++;
*dest++ = hexch[b >> 4];
if (dest == end)
break;
*dest++ = hexch[b & 0xf];
}
*dest = '\0';
}
int
lws_hex_random(struct lws_context *context, char *dest, size_t len)
{
size_t n = ((len - 1) / 2) + 1;
uint8_t b, *r = (uint8_t *)dest + len - n;
if (lws_get_random(context, r, n) != n)
return 1;
while (len >= 3) {
b = *r++;
*dest++ = hexch[b >> 4];
*dest++ = hexch[b & 0xf];
len -= 2;
}
if (len == 2)
*dest++ = hexch[(*r) >> 4];
*dest = '\0';
return 0;
}
#if defined(_DEBUG)
void
lws_assert_fourcc(uint32_t fourcc, uint32_t expected)
{
if (fourcc == expected)
return;
lwsl_err("%s: fourcc mismatch, expected %c%c%c%c, saw %c%c%c%c\n",
__func__, (int)(expected >> 24), (int)((expected >> 16) & 0xff),
(int)((expected >> 8) & 0xff),(int)( expected & 0xff),
(int)(fourcc >> 24), (int)((fourcc >> 16) & 0xff),
(int)((fourcc >> 8) & 0xff), (int)(fourcc & 0xff));
assert(0);
}
#endif
#if !defined(LWS_PLAT_OPTEE) && !defined(LWS_PLAT_BAREMETAL)
#if defined(LWS_WITH_FILE_OPS)
int lws_open(const char *__file, int __oflag, ...)
{
va_list ap;
int n;
va_start(ap, __oflag);
if (((__oflag & O_CREAT) == O_CREAT)
#if defined(O_TMPFILE)
|| ((__oflag & O_TMPFILE) == O_TMPFILE)
#endif
)
#if defined(WIN32)
/* last arg is really a mode_t. But windows... */
n = open(__file, __oflag, va_arg(ap, uint32_t));
#else
/* ... and some other toolchains...
*
* error: second argument to 'va_arg' is of promotable type 'mode_t'
* (aka 'unsigned short'); this va_arg has undefined behavior because
* arguments will be promoted to 'int'
*/
n = open(__file, __oflag, (mode_t)va_arg(ap, unsigned int));
#endif
else
n = open(__file, __oflag);
va_end(ap);
if (n != -1 && lws_plat_apply_FD_CLOEXEC(n)) {
close(n);
return -1;
}
return n;
}
#endif
#endif
int
lws_pthread_self_to_tsi(struct lws_context *context)
{
#if LWS_MAX_SMP > 1
pthread_t ps = pthread_self();
struct lws_context_per_thread *pt = &context->pt[0];
int n;
/* case that we have SMP build, but don't use it */
if (context->count_threads == 1)
return 0;
for (n = 0; n < context->count_threads; n++) {
if (pthread_equal(ps, pt->self))
return n;
pt++;
}
return -1;
#else
return 0;
#endif
}
void *
lws_context_user(struct lws_context *context)
{
return context->user_space;
}
void
lws_explicit_bzero(void *p, size_t len)
{
volatile uint8_t *vp = p;
while (len--)
*vp++ = 0;
}
#if !(defined(LWS_PLAT_OPTEE) && !defined(LWS_WITH_NETWORK))
/**
* lws_now_secs() - seconds since 1970-1-1
*
*/
unsigned long
lws_now_secs(void)
{
struct timeval tv;
gettimeofday(&tv, NULL);
return (unsigned long)tv.tv_sec;
}
#endif
#if defined(LWS_WITH_SERVER)
const char *
lws_canonical_hostname(struct lws_context *context)
{
return (const char *)context->canonical_hostname;
}
#endif
int
lws_get_count_threads(struct lws_context *context)
{
return context->count_threads;
}
static const unsigned char e0f4[] = {
0xa0 | ((2 - 1) << 2) | 1, /* e0 */
0x80 | ((4 - 1) << 2) | 1, /* e1 */
0x80 | ((4 - 1) << 2) | 1, /* e2 */
0x80 | ((4 - 1) << 2) | 1, /* e3 */
0x80 | ((4 - 1) << 2) | 1, /* e4 */
0x80 | ((4 - 1) << 2) | 1, /* e5 */
0x80 | ((4 - 1) << 2) | 1, /* e6 */
0x80 | ((4 - 1) << 2) | 1, /* e7 */
0x80 | ((4 - 1) << 2) | 1, /* e8 */
0x80 | ((4 - 1) << 2) | 1, /* e9 */
0x80 | ((4 - 1) << 2) | 1, /* ea */
0x80 | ((4 - 1) << 2) | 1, /* eb */
0x80 | ((4 - 1) << 2) | 1, /* ec */
0x80 | ((2 - 1) << 2) | 1, /* ed */
0x80 | ((4 - 1) << 2) | 1, /* ee */
0x80 | ((4 - 1) << 2) | 1, /* ef */
0x90 | ((3 - 1) << 2) | 2, /* f0 */
0x80 | ((4 - 1) << 2) | 2, /* f1 */
0x80 | ((4 - 1) << 2) | 2, /* f2 */
0x80 | ((4 - 1) << 2) | 2, /* f3 */
0x80 | ((1 - 1) << 2) | 2, /* f4 */
0, /* s0 */
0x80 | ((4 - 1) << 2) | 0, /* s2 */
0x80 | ((4 - 1) << 2) | 1, /* s3 */
};
int
lws_check_byte_utf8(unsigned char state, unsigned char c)
{
unsigned char s = state;
if (!s) {
if (c >= 0x80) {
if (c < 0xc2 || c > 0xf4)
return -1;
if (c < 0xe0)
return 0x80 | ((4 - 1) << 2);
else
return e0f4[c - 0xe0];
}
return s;
}
if (c < (s & 0xf0) || c >= (s & 0xf0) + 0x10 + ((s << 2) & 0x30))
return -1;
return e0f4[21 + (s & 3)];
}
int
lws_check_utf8(unsigned char *state, unsigned char *buf, size_t len)
{
unsigned char s = *state;
while (len--) {
unsigned char c = *buf++;
if (!s) {
if (c >= 0x80) {
if (c < 0xc2 || c > 0xf4)
return 1;
if (c < 0xe0)
s = 0x80 | ((4 - 1) << 2);
else
s = e0f4[c - 0xe0];
}
} else {
if (c < (s & 0xf0) ||
c >= (s & 0xf0) + 0x10 + ((s << 2) & 0x30))
return 1;
s = e0f4[21 + (s & 3)];
}
}
*state = s;
return 0;
}
char *
lws_strdup(const char *s)
{
char *d = lws_malloc(strlen(s) + 1, "strdup");
if (d)
strcpy(d, s);
return d;
}
const char *
lws_nstrstr(const char *buf, size_t len, const char *name, size_t nl)
{
const char *end = buf + len - nl + 1;
size_t n;
if (nl > len)
/* it cannot be found if the needle is longer than the haystack */
return NULL;
while (buf < end) {
if (*buf != name[0]) {
buf++;
continue;
}
if (nl == 1)
/* single char match, we are done */
return buf;
if (buf[nl - 1] == name[nl - 1]) {
/*
* This is looking interesting then... the first
* and last chars match, let's check the insides
*/
n = 1;
while (n < nl && buf[n] == name[n])
n++;
if (n == nl)
/* it's a hit */
return buf;
}
buf++;
}
return NULL;
}
/*
* name wants to be something like "\"myname\":"
*/
const char *
lws_json_simple_find(const char *buf, size_t len, const char *name, size_t *alen)
{
size_t nl = strlen(name);
const char *np = lws_nstrstr(buf, len, name, nl),
*end = buf + len, *as;
int qu = 0;
if (!np)
return NULL;
np += nl;
while (np < end && (*np == ' ' || *np == '\t'))
np++;
if (np >= end)
return NULL;
/*
* The arg could be lots of things after "name": with JSON, commonly a
* string like "mystring", true, false, null, [...] or {...} ... we want
* to handle common, simple cases cheaply with this; the user can choose
* a full JSON parser like lejp if it's complicated. So if no opening
* quote, return until a terminator like , ] }. If there's an opening
* quote, return until closing quote, handling escaped quotes.
*/
if (*np == '\"') {
qu = 1;
np++;
}
as = np;
while (np < end &&
(!qu || *np != '\"') && /* end quote is EOT if quoted */
(qu || (*np != '}' && *np != ']' && *np != ',')) /* delimiters */
) {
if (qu && *np == '\\') /* skip next char if quoted escape */
np++;
np++;
}
*alen = (unsigned int)lws_ptr_diff(np, as);
return as;
}
int
lws_json_simple_strcmp(const char *buf, size_t len, const char *name,
const char *comp)
{
size_t al;
const char *hit = lws_json_simple_find(buf, len, name, &al);
if (!hit)
return -1;
if (al != strlen(comp))
return -1;
return strncmp(hit, comp, al);
}
static const char *hex = "0123456789ABCDEF";
const char *
lws_sql_purify(char *escaped, const char *string, size_t len)
{
const char *p = string;
char *q = escaped;
while (*p && len-- > 2) {
if (*p == '\'') {
*q++ = '\'';
*q++ = '\'';
len --;
p++;
} else
*q++ = *p++;
}
*q = '\0';
return escaped;
}
int
lws_sql_purify_len(const char *p)
{
int olen = 0;
while (*p) {
if (*p++ == '\'')
olen++;
olen++;
}
return olen;
}
const char *
lws_json_purify(char *escaped, const char *string, int len, int *in_used)
{
const char *p = string;
char *q = escaped;
if (!p) {
escaped[0] = '\0';
return escaped;
}
while (*p && len-- > 6) {
if (*p == '\t') {
p++;
*q++ = '\\';
*q++ = 't';
continue;
}
if (*p == '\n') {
p++;
*q++ = '\\';
*q++ = 'n';
continue;
}
if (*p == '\r') {
p++;
*q++ = '\\';
*q++ = 'r';
continue;
}
if (*p == '\\') {
p++;
*q++ = '\\';
*q++ = '\\';
continue;
}
if (*p == '\"' || *p < 0x20) {
*q++ = '\\';
*q++ = 'u';
*q++ = '0';
*q++ = '0';
*q++ = hex[((*p) >> 4) & 15];
*q++ = hex[(*p) & 15];
len -= 5;
p++;
} else
*q++ = *p++;
}
*q = '\0';
if (in_used)
*in_used = lws_ptr_diff(p, string);
return escaped;
}
int
lws_json_purify_len(const char *string)
{
int len = 0;
const char *p = string;
while (*p) {
if (*p == '\t' || *p == '\n' || *p == '\r') {
p++;
len += 2;
continue;
}
if (*p == '\"' || *p == '\\' || *p < 0x20) {
len += 6;
p++;
continue;
}
p++;
len++;
}
return len;
}
void
lws_filename_purify_inplace(char *filename)
{
while (*filename) {
if (*filename == '.' && filename[1] == '.') {
*filename = '_';
filename[1] = '_';
}
if (*filename == ':' ||
#if !defined(WIN32)
*filename == '\\' ||
#endif
*filename == '$' ||
*filename == '%')
*filename = '_';
filename++;
}
}
const char *
lws_urlencode(char *escaped, const char *string, int len)
{
const char *p = string;
char *q = escaped;
while (*p && len-- > 3) {
if (*p == ' ') {
*q++ = '+';
p++;
continue;
}
if ((*p >= '0' && *p <= '9') ||
(*p >= 'A' && *p <= 'Z') ||
(*p >= 'a' && *p <= 'z')) {
*q++ = *p++;
continue;
}
*q++ = '%';
*q++ = hex[(*p >> 4) & 0xf];
*q++ = hex[*p & 0xf];
len -= 2;
p++;
}
*q = '\0';
return escaped;
}
int
lws_urldecode(char *string, const char *escaped, int len)
{
int state = 0, n;
char sum = 0;
while (*escaped && len) {
switch (state) {
case 0:
if (*escaped == '%') {
state++;
escaped++;
continue;
}
if (*escaped == '+') {
escaped++;
*string++ = ' ';
len--;
continue;
}
*string++ = *escaped++;
len--;
break;
case 1:
n = char_to_hex(*escaped);
if (n < 0)
return -1;
escaped++;
sum = (char)(n << 4);
state++;
break;
case 2:
n = char_to_hex(*escaped);
if (n < 0)
return -1;
escaped++;
*string++ = (char)(sum | n);
len--;
state = 0;
break;
}
}
*string = '\0';
return 0;
}
/*
* Copy the url formof rel into dest, using base to fill in missing context
*
* If base is https://x.com/y/z.html
*
* a.html -> https://x.com/y/a/html
* ../b.html -> https://x.com/b.html
* /c.html -> https://x.com/c.html
* https://y.com/a.html -> https://y.com/a.html
*/
int
lws_http_rel_to_url(char *dest, size_t len, const char *base, const char *rel)
{
size_t n = 0, ps = 0;
char d = 0;
// lwsl_err("%s: base %s, rel %s\n", __func__, base, rel);
if (!strncmp(rel, "https://", 8) ||
!strncmp(rel, "http://", 7) ||
!strncmp(rel, "file://", 7)) {
/* rel is already a full url, just copy it */
lws_strncpy(dest, rel, len);
return 0;
}
/* we're going to be using the first part of base at least */
while (n < len - 2 && base[n]) {
dest[n] = base[n];
if (d && base[n] == '/') {
n++;
ps = n;
//if (rel[0] == '/') {
break;
//}
}
if (n && base[n] == '/' && base[n - 1] == '/')
d = 1;
n++;
}
if (!n || n >= len - 2)
return 1;
/* if we did not have a '/' after the hostname, add one */
if (dest[n - 1] != '/') {
ps = n;
dest[n++] = '/';
}
/* is rel an absolute path we should just use with the hostname? */
if (rel[0] != '/') {
/*
* Apply the rest of the basename, without the file part,
* end with last / if any
*/
ps = n;
while (n < len - 2 && base[n]) {
dest[n] = base[n];
n++;
if (base[n] == '/')
ps = n;
}
n = ps;
if (n >= len - 2)
return 1;
/* if we did not have a '/' after the base path, add one */
if (dest[n - 1] != '/')
dest[n++] = '/';
}
/* append rel */
if (len - n < strlen(rel) + 2)
return 1;
lws_strncpy(dest + n, rel, len - n);
return 0;
}
int
lws_finalize_startup(struct lws_context *context)
{
if (lws_check_opt(context->options, LWS_SERVER_OPTION_EXPLICIT_VHOSTS))
if (lws_plat_drop_app_privileges(context, 1))
return 1;
return 0;
}
#if !defined(LWS_PLAT_FREERTOS)
void
lws_get_effective_uid_gid(struct lws_context *context, uid_t *uid, gid_t *gid)
{
*uid = context->uid;
*gid = context->gid;
}
#endif
int
lws_snprintf(char *str, size_t size, const char *format, ...)
{
va_list ap;
int n;
if (!size)
return 0;
va_start(ap, format);
n = vsnprintf(str, size, format, ap);
va_end(ap);
if (n >= (int)size)
return (int)size;
return n;
}
char *
lws_strncpy(char *dest, const char *src, size_t size)
{
strncpy(dest, src, size - 1);
dest[size - 1] = '\0';
return dest;
}
int
lws_timingsafe_bcmp(const void *a, const void *b, uint32_t len)
{
const uint8_t *pa = a, *pb = b;
uint8_t sum = 0;
while (len--)
sum |= (uint8_t)(*pa++ ^ *pb++);
return sum;
}
lws_tokenize_elem
lws_tokenize(struct lws_tokenize *ts)
{
const char *rfc7230_delims = "(),/:;<=>?@[\\]{}";
char c, flo = 0, d_minus = '-', d_dot = '.', d_star = '*', s_minus = '\0',
s_dot = '\0', s_star = '\0', d_eq = '=', s_eq = '\0', skipping = 0;
signed char num = (ts->flags & LWS_TOKENIZE_F_NO_INTEGERS) ? 0 : -1;
int utf8 = 0;
/* for speed, compute the effect of the flags outside the loop */
if (ts->flags & LWS_TOKENIZE_F_MINUS_NONTERM) {
d_minus = '\0';
s_minus = '-';
}
if (ts->flags & LWS_TOKENIZE_F_DOT_NONTERM) {
d_dot = '\0';
s_dot = '.';
}
if (ts->flags & LWS_TOKENIZE_F_ASTERISK_NONTERM) {
d_star = '\0';
s_star = '*';
}
if (ts->flags & LWS_TOKENIZE_F_EQUALS_NONTERM) {
d_eq = '\0';
s_eq = '=';
}
if (!ts->dry)
ts->token = ts->collect;
ts->dry = 0;
if (ts->reset_token) {
ts->effline = ts->line;
ts->state = LWS_TOKZS_LEADING_WHITESPACE;
ts->token_len = 0;
ts->reset_token = 0;
}
while (ts->len) {
c = *ts->start++;
ts->len--;
utf8 = lws_check_byte_utf8((unsigned char)utf8, (unsigned char)c);
if (utf8 < 0)
return LWS_TOKZE_ERR_BROKEN_UTF8;
if (!c)
break;
if (skipping) {
if (c != '\r' && c != '\n')
continue;
else
skipping = 0;
}
/* comment */
if (ts->flags & LWS_TOKENIZE_F_HASH_COMMENT &&
ts->state != LWS_TOKZS_QUOTED_STRING &&
c == '#') {
skipping = 1;
continue;
}
/* whitespace */
if (c == ' ' || c == '\t' || c == '\n' || c == '\r' ||
c == '\f') {
if (c == '\r' && !ts->crlf)
ts->line++;
if (c == '\n') {
ts->line++;
ts->crlf = 1;
}
switch (ts->state) {
case LWS_TOKZS_LEADING_WHITESPACE:
case LWS_TOKZS_TOKEN_POST_TERMINAL:
continue;
case LWS_TOKZS_QUOTED_STRING:
goto agg;
case LWS_TOKZS_TOKEN:
/* we want to scan forward to look for = */
ts->state = LWS_TOKZS_TOKEN_POST_TERMINAL;
continue;
}
} else
ts->crlf = 0;
/* quoted string */
if (c == '\"') {
if (ts->state == LWS_TOKZS_QUOTED_STRING) {
ts->reset_token = 1;
return LWS_TOKZE_QUOTED_STRING;
}
/* starting a quoted string */
if (ts->flags & LWS_TOKENIZE_F_COMMA_SEP_LIST) {
if (ts->delim == LWSTZ_DT_NEED_DELIM)
return LWS_TOKZE_ERR_COMMA_LIST;
ts->delim = LWSTZ_DT_NEED_DELIM;
}
ts->state = LWS_TOKZS_QUOTED_STRING;
ts->token = ts->collect;
ts->token_len = 0;
continue;
}
/* token= aggregation */
if (!(ts->flags & LWS_TOKENIZE_F_EQUALS_NONTERM) &&
c == '=' && (ts->state == LWS_TOKZS_TOKEN_POST_TERMINAL ||
ts->state == LWS_TOKZS_TOKEN)) {
ts->reset_token = 1;
if (num == 1)
return LWS_TOKZE_ERR_NUM_ON_LHS;
/* swallow the = */
return LWS_TOKZE_TOKEN_NAME_EQUALS;
}
/* optional token: aggregation */
if ((ts->flags & LWS_TOKENIZE_F_AGG_COLON) && c == ':' &&
(ts->state == LWS_TOKZS_TOKEN_POST_TERMINAL ||
ts->state == LWS_TOKZS_TOKEN)) {
ts->reset_token = 1;
/* swallow the : */
return LWS_TOKZE_TOKEN_NAME_COLON;
}
/* aggregate . in a number as a float */
if (c == '.' && !(ts->flags & LWS_TOKENIZE_F_NO_FLOATS) &&
ts->state == LWS_TOKZS_TOKEN && num == 1) {
if (flo)
return LWS_TOKZE_ERR_MALFORMED_FLOAT;
flo = 1;
goto agg;
}
/*
* Delimiter... by default anything that:
*
* - isn't matched earlier, or
* - is [A-Z, a-z, 0-9, _], and
* - is not a partial utf8 char
*
* is a "delimiter", it marks the end of a token and is itself
* reported as a single LWS_TOKZE_DELIMITER each time.
*
* However with LWS_TOKENIZE_F_RFC7230_DELIMS flag, tokens may
* contain any noncontrol character that isn't defined in
* rfc7230_delims, and only characters listed there are treated
* as delimiters.
*/
if (!utf8 &&
((ts->flags & LWS_TOKENIZE_F_RFC7230_DELIMS &&
strchr(rfc7230_delims, c) && c > 32) ||
((!(ts->flags & LWS_TOKENIZE_F_RFC7230_DELIMS) &&
(c < '0' || c > '9') && (c < 'A' || c > 'Z') &&
(c < 'a' || c > 'z') && c != '_') &&
c != s_minus && c != s_dot && c != s_star && c != s_eq) ||
c == d_minus || c == d_dot || c == d_star || c == d_eq
) &&
!((ts->flags & LWS_TOKENIZE_F_COLON_NONTERM) && c == ':') &&
!((ts->flags & LWS_TOKENIZE_F_SLASH_NONTERM) && c == '/')) {
switch (ts->state) {
case LWS_TOKZS_LEADING_WHITESPACE:
if (ts->flags & LWS_TOKENIZE_F_COMMA_SEP_LIST) {
if (c != ',' ||
ts->delim != LWSTZ_DT_NEED_DELIM)
return LWS_TOKZE_ERR_COMMA_LIST;
ts->delim = LWSTZ_DT_NEED_NEXT_CONTENT;
}
ts->token = ts->start - 1;
ts->token_len = 1;
ts->reset_token = 1;
return LWS_TOKZE_DELIMITER;
case LWS_TOKZS_QUOTED_STRING:
agg:
ts->collect[ts->token_len++] = c;
if (ts->token_len == sizeof(ts->collect) - 1)
return LWS_TOKZE_TOO_LONG;
ts->collect[ts->token_len] = '\0';
continue;
case LWS_TOKZS_TOKEN_POST_TERMINAL:
case LWS_TOKZS_TOKEN:
/* report the delimiter next time */
ts->start--;
ts->len++;
goto token_or_numeric;
}
}
/* anything that's not whitespace or delimiter is payload */
switch (ts->state) {
case LWS_TOKZS_LEADING_WHITESPACE:
if (ts->flags & LWS_TOKENIZE_F_COMMA_SEP_LIST) {
if (ts->delim == LWSTZ_DT_NEED_DELIM) {
ts->reset_token = 1;
return LWS_TOKZE_ERR_COMMA_LIST;
}
ts->delim = LWSTZ_DT_NEED_DELIM;
}
ts->state = LWS_TOKZS_TOKEN;
ts->reset_token = 1;
ts->token = ts->collect; //ts->start - 1;
ts->collect[0] = c;
ts->token_len = 1;
goto checknum;
case LWS_TOKZS_QUOTED_STRING:
case LWS_TOKZS_TOKEN:
ts->collect[ts->token_len++] = c;
if (ts->token_len == sizeof(ts->collect) - 1)
return LWS_TOKZE_TOO_LONG;
ts->collect[ts->token_len] = '\0';
checknum:
if (!(ts->flags & LWS_TOKENIZE_F_NO_INTEGERS)) {
if (c < '0' || c > '9')
num = 0;
else
if (num < 0)
num = 1;
}
continue;
case LWS_TOKZS_TOKEN_POST_TERMINAL:
/* report the new token next time */
ts->start--;
ts->len++;
goto token_or_numeric;
}
}
/* we ran out of content */
if (ts->flags & LWS_TOKENIZE_F_EXPECT_MORE) {
ts->reset_token = 0;
ts->dry = 1;
return LWS_TOKZE_WANT_READ;
}
if (utf8) /* ended partway through a multibyte char */
return LWS_TOKZE_ERR_BROKEN_UTF8;
if (ts->state == LWS_TOKZS_QUOTED_STRING)
return LWS_TOKZE_ERR_UNTERM_STRING;
if (ts->state != LWS_TOKZS_TOKEN_POST_TERMINAL &&
ts->state != LWS_TOKZS_TOKEN) {
if ((ts->flags & LWS_TOKENIZE_F_COMMA_SEP_LIST) &&
ts->delim == LWSTZ_DT_NEED_NEXT_CONTENT)
return LWS_TOKZE_ERR_COMMA_LIST;
return LWS_TOKZE_ENDED;
}
/* report the pending token */
token_or_numeric:
ts->reset_token = 1;
if (num != 1)
return LWS_TOKZE_TOKEN;
if (flo)
return LWS_TOKZE_FLOAT;
return LWS_TOKZE_INTEGER;
}
int
lws_tokenize_cstr(struct lws_tokenize *ts, char *str, size_t max)
{
if (ts->token_len + 1 >= max)
return 1;
memcpy(str, ts->token, ts->token_len);
str[ts->token_len] = '\0';
return 0;
}
void
lws_tokenize_init(struct lws_tokenize *ts, const char *start, int flags)
{
ts->start = start;
ts->len = 0x7fffffff;
ts->flags = (uint16_t)(unsigned int)flags;
ts->delim = LWSTZ_DT_NEED_FIRST_CONTENT;
ts->token = NULL;
ts->token_len = 0;
ts->line = 0;
ts->effline = 0;
ts->dry = 0;
ts->reset_token = 0;
ts->crlf = 0;
ts->state = LWS_TOKZS_LEADING_WHITESPACE;
}
typedef enum {
LWS_EXPS_LITERAL,
LWS_EXPS_OPEN_OR_LIT,
LWS_EXPS_NAME_OR_CLOSE,
LWS_EXPS_DRAIN,
} lws_strexp_state;
void
lws_strexp_init(lws_strexp_t *exp, void *priv, lws_strexp_expand_cb cb,
char *out, size_t olen)
{
memset(exp, 0, sizeof(*exp));
exp->cb = cb;
exp->out = out;
exp->olen = olen;
exp->state = LWS_EXPS_LITERAL;
exp->priv = priv;
}
void
lws_strexp_reset_out(lws_strexp_t *exp, char *out, size_t olen)
{
exp->out = out;
exp->olen = olen;
exp->pos = 0;
}
int
lws_strexp_expand(lws_strexp_t *exp, const char *in, size_t len,
size_t *pused_in, size_t *pused_out)
{
size_t used = 0;
int n;
while (used < len) {
switch (exp->state) {
case LWS_EXPS_LITERAL:
if (*in == '$') {
exp->state = LWS_EXPS_OPEN_OR_LIT;
break;
}
if (exp->out)
exp->out[exp->pos] = *in;
exp->pos++;
if (exp->olen - exp->pos < 1) {
*pused_in = used + 1;
*pused_out = exp->pos;
return LSTRX_FILLED_OUT;
}
break;
case LWS_EXPS_OPEN_OR_LIT:
if (*in == '{') {
exp->state = LWS_EXPS_NAME_OR_CLOSE;
exp->name_pos = 0;
exp->exp_ofs = 0;
break;
}
/* treat as a literal */
if (exp->olen - exp->pos < 3)
return -1;
if (exp->out) {
exp->out[exp->pos++] = '$';
exp->out[exp->pos++] = *in;
} else
exp->pos += 2;
if (*in != '$')
exp->state = LWS_EXPS_LITERAL;
break;
case LWS_EXPS_NAME_OR_CLOSE:
if (*in == '}') {
exp->name[exp->name_pos] = '\0';
exp->state = LWS_EXPS_DRAIN;
goto drain;
}
if (exp->name_pos >= sizeof(exp->name) - 1)
return LSTRX_FATAL_NAME_TOO_LONG;
exp->name[exp->name_pos++] = *in;
break;
case LWS_EXPS_DRAIN:
drain:
*pused_in = used;
n = exp->cb(exp->priv, exp->name, exp->out, &exp->pos,
exp->olen, &exp->exp_ofs);
*pused_out = exp->pos;
if (n == LSTRX_FILLED_OUT ||
n == LSTRX_FATAL_NAME_UNKNOWN)
return n;
exp->state = LWS_EXPS_LITERAL;
break;
}
used++;
in++;
}
if (exp->out)
exp->out[exp->pos] = '\0';
*pused_in = used;
*pused_out = exp->pos;
return LSTRX_DONE;
}
int
lws_strcmp_wildcard(const char *wildcard, size_t wlen, const char *check,
size_t clen)
{
const char *match[3], *wc[3], *wc_end = wildcard + wlen,
*cend = check + clen;
int sp = 0;
do {
if (wildcard == wc_end) {
/*
* We reached the end of wildcard, but not of check,
* and the last thing in wildcard was not a * or we
* would have completed already... if we can rewind,
* let's try that...
*/
if (sp) {
wildcard = wc[sp - 1];
check = match[--sp];
continue;
}
/* otherwise it's the end of the road for this one */
return 1;
}
if (*wildcard == '*') {
if (++wildcard == wc_end)
/*
* Wildcard ended on a *, so we know we will
* match unconditionally
*/
return 0;
/*
* Now we need to stick wildcard here and see if there
* is any remaining match exists, for eg b of "a*b"
*/
if (sp == LWS_ARRAY_SIZE(match)) {
lwsl_err("%s: exceeds * stack\n", __func__);
return 1; /* we can't deal with it */
}
wc[sp] = wildcard;
/* if we ever pop and come back here, pick up from +1 */
match[sp++] = check + 1;
continue;
}
if (*(check++) == *wildcard) {
if (wildcard == wc_end)
return 0;
/*
* We're still compatible with wildcard... keep going
*/
wildcard++;
continue;
}
if (!sp)
/*
* We're just trying to match literals, and failed...
*/
return 1;
/* we're looking for a post-* match... keep looking... */
} while (check < cend);
/*
* We reached the end of check, if also at end of wildcard we're OK
*/
return wildcard != wc_end;
}
#if LWS_MAX_SMP > 1
void
lws_mutex_refcount_init(struct lws_mutex_refcount *mr)
{
pthread_mutex_init(&mr->lock, NULL);
mr->last_lock_reason = NULL;
mr->lock_depth = 0;
mr->metadata = 0;
#ifdef __PTW32_H
/* If we use implementation of PThreads for Win that is
* distributed by VCPKG */
memset(&mr->lock_owner, 0, sizeof(pthread_t));
#else
mr->lock_owner = 0;
#endif
}
void
lws_mutex_refcount_destroy(struct lws_mutex_refcount *mr)
{
pthread_mutex_destroy(&mr->lock);
}
void
lws_mutex_refcount_lock(struct lws_mutex_refcount *mr, const char *reason)
{
/* if true, this sequence is atomic because our thread has the lock
*
* - if true, only guy who can race to make it untrue is our thread,
* and we are here.
*
* - if false, only guy who could race to make it true is our thread,
* and we are here
*
* - it can be false and change to a different tid that is also false
*/
#ifdef __PTW32_H
/* If we use implementation of PThreads for Win that is
* distributed by VCPKG */
if (pthread_equal(mr->lock_owner, pthread_self()))
#else
if (mr->lock_owner == pthread_self())
#endif
{
/* atomic because we only change it if we own the lock */
mr->lock_depth++;
return;
}
pthread_mutex_lock(&mr->lock);
/* atomic because only we can have the lock */
mr->last_lock_reason = reason;
mr->lock_owner = pthread_self();
mr->lock_depth = 1;
//lwsl_notice("tid %d: lock %s\n", mr->tid, reason);
}
void
lws_mutex_refcount_unlock(struct lws_mutex_refcount *mr)
{
if (--mr->lock_depth)
/* atomic because only thread that has the lock can unlock */
return;
mr->last_lock_reason = "free";
#ifdef __PTW32_H
/* If we use implementation of PThreads for Win that is
* distributed by VCPKG */
memset(&mr->lock_owner, 0, sizeof(pthread_t));
#else
mr->lock_owner = 0;
#endif
// lwsl_notice("tid %d: unlock %s\n", mr->tid, mr->last_lock_reason);
pthread_mutex_unlock(&mr->lock);
}
void
lws_mutex_refcount_assert_held(struct lws_mutex_refcount *mr)
{
#ifdef __PTW32_H
/* If we use implementation of PThreads for Win that is
* distributed by VCPKG */
assert(pthread_equal(mr->lock_owner, pthread_self()) && mr->lock_depth);
#else
assert(mr->lock_owner == pthread_self() && mr->lock_depth);
#endif
}
#endif /* SMP */
const char *
lws_cmdline_option(int argc, const char **argv, const char *val)
{
size_t n = strlen(val);
int c = argc;
while (--c > 0) {
if (!strncmp(argv[c], val, n)) {
if (!*(argv[c] + n) && c < argc - 1) {
/* coverity treats unchecked argv as "tainted" */
if (!argv[c + 1] || strlen(argv[c + 1]) > 1024)
return NULL;
return argv[c + 1];
}
if (argv[c][n] == '=')
return &argv[c][n + 1];
return argv[c] + n;
}
}
return NULL;
}
static const char * const builtins[] = {
"-d",
"--fault-injection",
"--fault-seed",
"--ignore-sigterm",
"--ssproxy-port",
"--ssproxy-iface",
"--ssproxy-ads",
};
enum opts {
OPT_DEBUGLEVEL,
OPT_FAULTINJECTION,
OPT_FAULT_SEED,
OPT_IGNORE_SIGTERM,
OPT_SSPROXY_PORT,
OPT_SSPROXY_IFACE,
OPT_SSPROXY_ADS,
};
#if !defined(LWS_PLAT_FREERTOS)
static void
lws_sigterm_catch(int sig)
{
}
#endif
void
_lws_context_info_defaults(struct lws_context_creation_info *info,
const char *sspol)
{
memset(info, 0, sizeof *info);
info->fd_limit_per_thread = 1 + 6 + 1;
#if defined(LWS_WITH_NETWORK)
info->port = CONTEXT_PORT_NO_LISTEN;
#endif
#if defined(LWS_WITH_SECURE_STREAMS) && !defined(LWS_WITH_SECURE_STREAMS_STATIC_POLICY_ONLY)
info->pss_policies_json = sspol;
#endif
#if defined(LWS_WITH_SECURE_STREAMS_PROXY_API)
if (!sspol)
info->protocols = lws_sspc_protocols;
#endif
info->options = LWS_SERVER_OPTION_EXPLICIT_VHOSTS |
LWS_SERVER_OPTION_H2_JUST_FIX_WINDOW_UPDATE_OVERFLOW |
LWS_SERVER_OPTION_DO_SSL_GLOBAL_INIT;
}
void
lws_default_loop_exit(struct lws_context *cx)
{
if (cx) {
cx->interrupted = 1;
#if defined(LWS_WITH_NETWORK)
lws_cancel_service(cx);
#endif
}
}
#if defined(LWS_WITH_NETWORK)
void
lws_context_default_loop_run_destroy(struct lws_context *cx)
{
/* the default event loop, since we didn't provide an alternative one */
while (!cx->interrupted && lws_service(cx, 0) >= 0)
;
lws_context_destroy(cx);
}
#endif
int
lws_cmdline_passfail(int argc, const char **argv, int actual)
{
int expected = 0;
const char *p;
if ((p = lws_cmdline_option(argc, argv, "--expected-exit")))
expected = atoi(p);
if (actual == expected) {
lwsl_user("Completed: OK (seen expected %d)\n", actual);
return 0;
}
lwsl_err("Completed: failed: exit %d, expected %d\n", actual, expected);
return 1;
}
void
lws_cmdline_option_handle_builtin(int argc, const char **argv,
struct lws_context_creation_info *info)
{
const char *p;
int n, m, logs = LLL_USER | LLL_ERR | LLL_WARN | LLL_NOTICE;
#if defined(LWS_WITH_SYS_FAULT_INJECTION)
uint64_t seed = (uint64_t)lws_now_usecs();
#endif
for (n = 0; n < (int)LWS_ARRAY_SIZE(builtins); n++) {
p = lws_cmdline_option(argc, argv, builtins[n]);
if (!p)
continue;
m = atoi(p);
switch (n) {
case OPT_DEBUGLEVEL:
logs = m;
break;
#if defined(LWS_WITH_SECURE_STREAMS_PROXY_API)
case OPT_SSPROXY_PORT:
/* connect to ssproxy via UDS by default, else via
* tcp connection to this port */
info->ss_proxy_port = (uint16_t)atoi(p);
break;
case OPT_SSPROXY_IFACE:
/* UDS "proxy.ss.lws" in abstract namespace, else this socket
* path; when -p given this can specify the network interface
* to bind to */
info->ss_proxy_bind = p;
break;
case OPT_SSPROXY_ADS:
info->ss_proxy_address = p;
break;
#endif
case OPT_FAULTINJECTION:
#if !defined(LWS_WITH_SYS_FAULT_INJECTION)
lwsl_err("%s: FAULT_INJECTION not built\n", __func__);
#endif
lws_fi_deserialize(&info->fic, p);
break;
case OPT_FAULT_SEED:
#if defined(LWS_WITH_SYS_FAULT_INJECTION)
seed = (uint64_t)atoll(p);
#endif
break;
case OPT_IGNORE_SIGTERM:
#if !defined(LWS_PLAT_FREERTOS)
signal(SIGTERM, lws_sigterm_catch);
#endif
break;
}
}
#if defined(LWS_WITH_SYS_FAULT_INJECTION)
lws_xos_init(&info->fic.xos, seed);
#endif
lws_set_log_level(logs, NULL);
#if defined(LWS_WITH_SYS_FAULT_INJECTION)
if (info->fic.fi_owner.count)
lwsl_notice("%s: Fault Injection seed %llu\n", __func__,
(unsigned long long)seed);
#endif
}
const lws_humanize_unit_t humanize_schema_si[] = {
{ "Pi", LWS_PI }, { "Ti", LWS_TI }, { "Gi", LWS_GI },
{ "Mi", LWS_MI }, { "Ki", LWS_KI }, { "", 1 },
{ NULL, 0 }
};
const lws_humanize_unit_t humanize_schema_si_bytes[] = {
{ "PiB", LWS_PI }, { "TiB", LWS_TI }, { "GiB", LWS_GI },
{ "MiB", LWS_MI }, { "KiB", LWS_KI }, { "B", 1 },
{ NULL, 0 }
};
const lws_humanize_unit_t humanize_schema_us[] = {
{ "y", (uint64_t)365 * 24 * 3600 * LWS_US_PER_SEC },
{ "d", (uint64_t)24 * 3600 * LWS_US_PER_SEC },
{ "hr", (uint64_t)3600 * LWS_US_PER_SEC },
{ "min", 60 * LWS_US_PER_SEC },
{ "s", LWS_US_PER_SEC },
{ "ms", LWS_US_PER_MS },
#if defined(WIN32)
{ "us", 1 },
#else
{ "μs", 1 },
#endif
{ NULL, 0 }
};
/* biggest ull is 18446744073709551615 (20 chars) */
static int
decim(char *r, uint64_t v, char chars, char leading)
{
uint64_t q = 1;
char *ro = r;
int n = 1;
while ((leading || v > (q * 10) - 1) && n < 20 && n < chars) {
q = q * 10;
n++;
}
/* n is how many chars needed */
while (n--) {
*r++ = (char)('0' + (char)((v / q) % 10));
q = q / 10;
}
*r = '\0';
return lws_ptr_diff(r, ro);
}
int
lws_humanize(char *p, size_t len, uint64_t v, const lws_humanize_unit_t *schema)
{
char *obuf = p, *end = p + len;
do {
if (v >= schema->factor || schema->factor == 1) {
if (schema->factor == 1) {
p += decim(p, v, 4, 0);
p += lws_snprintf(p, lws_ptr_diff_size_t(end, p),
"%s", schema->name);
return lws_ptr_diff(p, obuf);
}
p += decim(p, v / schema->factor, 4, 0);
*p++ = '.';
p += decim(p, (v % schema->factor) /
(schema->factor / 1000), 3, 1);
p += lws_snprintf(p, lws_ptr_diff_size_t(end, p),
"%s", schema->name);
return lws_ptr_diff(p, obuf);
}
schema++;
} while (schema->name);
assert(0);
strncpy(p, "unknown value", len);
return 0;
}
/*
* -1 = fail
* 0 = continue
* 1 = hit
*/
#define LWS_MINILEX_FAIL_CODING 8
int
lws_minilex_parse(const uint8_t *lex, int16_t *ps, const uint8_t c, int *match)
{
if (*ps == (int16_t)-1)
return LWS_MINILEX_FAIL;
while (1) {
if (lex[*ps] & (1 << 7)) {
/* 1-byte, fail on mismatch */
if ((lex[*ps] & 0x7f) != c)
goto nope;
/* go forward */
if (lex[++(*ps)] == LWS_MINILEX_FAIL_CODING)
goto nope;
if (lex[*ps] < LWS_MINILEX_FAIL_CODING) {
/* this is a terminal marker */
*match = (int)lex[++(*ps)];
return LWS_MINILEX_MATCH;
}
return LWS_MINILEX_CONTINUE;
}
if (lex[*ps] == LWS_MINILEX_FAIL_CODING)
goto nope;
/* b7 = 0, end or 3-byte */
if (lex[*ps] < LWS_MINILEX_FAIL_CODING) {
/* this is a terminal marker */
*match = (int)lex[++(*ps)];
return LWS_MINILEX_MATCH;
}
if (lex[*ps] == c) { /* goto-on-match */
*ps = (int16_t)(*ps + (lex[(*ps) + 1]) +
(lex[(*ps) + 2] << 8));
return LWS_MINILEX_CONTINUE;
}
/* fall thru to next */
*ps = (int16_t)((*ps) + 3);
}
nope:
*ps = (int16_t)-1;
return LWS_MINILEX_FAIL;
}
unsigned int
lws_sigbits(uintptr_t u)
{
uintptr_t mask = (uintptr_t)(0xffllu << ((sizeof(u) - 1) * 8)),
m1 = (uintptr_t)(0x80llu << ((sizeof(u) - 1) * 8));
unsigned int n;
for (n = sizeof(u) * 8; n > 0; n -= 8) {
if (u & mask)
break;
mask >>= 8;
m1 >>= 8;
}
if (!n)
return 1; /* not bits are set, we need at least 1 to represent */
while (!(u & m1)) {
n--;
m1 >>= 1;
}
return n;
}
const lws_fx_t *
lws_fx_add(lws_fx_t *r, const lws_fx_t *a, const lws_fx_t *b)
{
int32_t w, sf;
w = a->whole + b->whole;
sf = a->frac + b->frac;
if (sf >= 100000000) {
w++;
r->frac = sf - 100000000;
} else if (sf < -100000000) {
w--;
r->frac = sf + 100000000;
} else
r->frac = sf;
r->whole = w;
return r;
}
const lws_fx_t *
lws_fx_sub(lws_fx_t *r, const lws_fx_t *a, const lws_fx_t *b)
{
int32_t w;
if (a->whole >= b->whole) {
w = a->whole - b->whole;
if (a->frac >= b->frac)
r->frac = a->frac - b->frac;
else {
w--;
r->frac = (100000000 + a->frac) - b->frac;
}
} else {
w = -(b->whole - a->whole);
if (b->frac >= a->frac)
r->frac = b->frac - a->frac;
else {
w++;
r->frac = (100000000 + b->frac) - a->frac;
}
}
r->whole = w;
return r;
}
const lws_fx_t *
lws_fx_mul(lws_fx_t *r, const lws_fx_t *a, const lws_fx_t *b)
{
int64_t _c1, _c2;
int32_t w, t;
char neg = 0;
assert(a->frac < LWS_FX_FRACTION_MSD);
assert(b->frac < LWS_FX_FRACTION_MSD);
/* we can't use r as a temp, because it may alias on to a, b */
w = a->whole * b->whole;
if (!lws_neg(a) && !lws_neg(b)) {
_c2 = (((int64_t)((int64_t)a->frac) * (int64_t)b->frac) /
LWS_FX_FRACTION_MSD);
_c1 = ((int64_t)a->frac * ((int64_t)b->whole)) +
(((int64_t)a->whole) * (int64_t)b->frac) + _c2;
w += (int32_t)(_c1 / LWS_FX_FRACTION_MSD);
} else
if (lws_neg(a) && !lws_neg(b)) {
_c2 = (((int64_t)((int64_t)-a->frac) * (int64_t)b->frac) /
LWS_FX_FRACTION_MSD);
_c1 = ((int64_t)-a->frac * (-(int64_t)b->whole)) +
(((int64_t)a->whole) * (int64_t)b->frac) - _c2;
w += (int32_t)(_c1 / LWS_FX_FRACTION_MSD);
neg = 1;
} else
if (!lws_neg(a) && lws_neg(b)) {
_c2 = (((int64_t)((int64_t)a->frac) * (int64_t)-b->frac) /
LWS_FX_FRACTION_MSD);
_c1 = ((int64_t)a->frac * ((int64_t)b->whole)) -
(((int64_t)a->whole) * (int64_t)-b->frac) - _c2;
w += (int32_t)(_c1 / LWS_FX_FRACTION_MSD);
neg = 1;
} else {
_c2 = (((int64_t)((int64_t)-a->frac) * (int64_t)-b->frac) /
LWS_FX_FRACTION_MSD);
_c1 = ((int64_t)-a->frac * ((int64_t)b->whole)) +
(((int64_t)a->whole) * (int64_t)-b->frac) - _c2;
w -= (int32_t)(_c1 / LWS_FX_FRACTION_MSD);
}
t = (int32_t)(_c1 % LWS_FX_FRACTION_MSD);
r->whole = w; /* don't need a,b any further... now we can write to r */
if (neg ^ !!(t < 0))
r->frac = -t;
else
r->frac = t;
return r;
}
const lws_fx_t *
lws_fx_div(lws_fx_t *r, const lws_fx_t *a, const lws_fx_t *b)
{
int64_t _a = lws_fix64_abs(a), _b = lws_fix64_abs(b), q = 0, d, m;
if (!_b)
_a = 0;
else {
int c = 64 / 2 + 1;
while (_a && c >= 0) {
d = _a / _b;
m = (_a % _b);
if (m < 0)
m = -m;
_a = m << 1;
q += d << (c--);
}
_a = q >> 1;
}
if (lws_neg(a) ^ lws_neg(b)) {
r->whole = -(int32_t)(_a >> 32);
r->frac = -(int32_t)((100000000 * (_a & 0xffffffff)) >> 32);
} else {
r->whole = (int32_t)(_a >> 32);
r->frac = (int32_t)((100000000 * (_a & 0xffffffff)) >> 32);
}
return r;
}
const lws_fx_t *
lws_fx_sqrt(lws_fx_t *r, const lws_fx_t *a)
{
uint64_t t, q = 0, b = 1ull << 62, v = ((uint64_t)a->whole << 32) +
(((uint64_t)a->frac << 32) / LWS_FX_FRACTION_MSD);
while (b > 0x40) {
t = q + b;
if (v >= t) {
v -= t;
q = t + b;
}
v <<= 1;
b >>= 1;
}
r->whole = (int32_t)(q >> 48);
r->frac = (int32_t)((((q >> 16) & 0xffffffff) *
LWS_FX_FRACTION_MSD) >> 32);
return r;
}
/* returns < 0 if a < b, >0 if a > b, or 0 if exactly equal */
int
lws_fx_comp(const lws_fx_t *a, const lws_fx_t *b)
{
if (a->whole < b->whole)
return -1;
if (a->whole > b->whole)
return 1;
if (a->frac < b->frac)
return -1;
if (a->frac > b->frac)
return 1;
return 0;
}
int
lws_fx_roundup(const lws_fx_t *a)
{
if (!a->frac)
return a->whole;
if (lws_neg(a))
return a->whole - 1;
return a->whole + 1;
}
LWS_VISIBLE LWS_EXTERN int
lws_fx_rounddown(const lws_fx_t *a)
{
return a->whole;
}
LWS_VISIBLE LWS_EXTERN const char *
lws_fx_string(const lws_fx_t *a, char *buf, size_t size)
{
int n, m = 7;
if (lws_neg(a))
n = lws_snprintf(buf, size - 1, "-%d.%08d",
(int)(a->whole < 0 ? -a->whole : a->whole),
(int)(a->frac < 0 ? -a->frac : a->frac));
else
n = lws_snprintf(buf, size - 1, "%d.%08d", (int)a->whole,
(int)a->frac);
while (m-- && buf[n - 1] == '0')
n--;
buf[n] = '\0';
return buf;
}