Utilities/cmlibuv/src/idna.c - third_party/cmake - Git at Google

 /* Copyright (c) 2011, 2018 Ben Noordhuis <info@bnoordhuis.nl>
  *
  * Permission to use, copy, modify, and/or distribute this software for any
  * purpose with or without fee is hereby granted, provided that the above
  * copyright notice and this permission notice appear in all copies.
  *
  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
  * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
  * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
  * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
  * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
  * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
  * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
  */

 /* Derived from https://github.com/bnoordhuis/punycode
  * but updated to support IDNA 2008.
  */

 #include "uv.h"
 #include "idna.h"
 #include <string.h>

 static unsigned uv__utf8_decode1_slow(const char** p,
                                       const char* pe,
                                       unsigned a) {
   unsigned b;
   unsigned c;
   unsigned d;
   unsigned min;

   if (a > 0xF7)
     return -1;

   switch (*p - pe) {
   default:
     if (a > 0xEF) {
       min = 0x10000;
       a = a & 7;
       b = (unsigned char) *(*p)++;
       c = (unsigned char) *(*p)++;
       d = (unsigned char) *(*p)++;
       break;
     }
     /* Fall through. */
   case 2:
     if (a > 0xDF) {
       min = 0x800;
       b = 0x80 | (a & 15);
       c = (unsigned char) *(*p)++;
       d = (unsigned char) *(*p)++;
       a = 0;
       break;
     }
     /* Fall through. */
   case 1:
     if (a > 0xBF) {
       min = 0x80;
       b = 0x80;
       c = 0x80 | (a & 31);
       d = (unsigned char) *(*p)++;
       a = 0;
       break;
     }
     return -1;  /* Invalid continuation byte. */
   }

   if (0x80 != (0xC0 & (b ^ c ^ d)))
     return -1;  /* Invalid sequence. */

   b &= 63;
   c &= 63;
   d &= 63;
   a = (a << 18) | (b << 12) | (c << 6) | d;

   if (a < min)
     return -1;  /* Overlong sequence. */

   if (a > 0x10FFFF)
     return -1;  /* Four-byte sequence > U+10FFFF. */

   if (a >= 0xD800 && a <= 0xDFFF)
     return -1;  /* Surrogate pair. */

   return a;
 }

 unsigned uv__utf8_decode1(const char** p, const char* pe) {
   unsigned a;

   a = (unsigned char) *(*p)++;

   if (a < 128)
     return a;  /* ASCII, common case. */

   return uv__utf8_decode1_slow(p, pe, a);
 }

 #define foreach_codepoint(c, p, pe) \
   for (; (void) (*p <= pe && (c = uv__utf8_decode1(p, pe))), *p <= pe;)

 static int uv__idna_toascii_label(const char* s, const char* se,
                                   char** d, char* de) {
   static const char alphabet[] = "abcdefghijklmnopqrstuvwxyz0123456789";
   const char* ss;
   unsigned c;
   unsigned h;
   unsigned k;
   unsigned n;
   unsigned m;
   unsigned q;
   unsigned t;
   unsigned x;
   unsigned y;
   unsigned bias;
   unsigned delta;
   unsigned todo;
   int first;

   h = 0;
   ss = s;
   todo = 0;

   foreach_codepoint(c, &s, se) {
     if (c < 128)
       h++;
     else if (c == (unsigned) -1)
       return UV_EINVAL;
     else
       todo++;
   }

   if (todo > 0) {
     if (*d < de) *(*d)++ = 'x';
     if (*d < de) *(*d)++ = 'n';
     if (*d < de) *(*d)++ = '-';
     if (*d < de) *(*d)++ = '-';
   }

   x = 0;
   s = ss;
   foreach_codepoint(c, &s, se) {
     if (c > 127)
       continue;

     if (*d < de)
       *(*d)++ = c;

     if (++x == h)
       break;  /* Visited all ASCII characters. */
   }

   if (todo == 0)
     return h;

   /* Only write separator when we've written ASCII characters first. */
   if (h > 0)
     if (*d < de)
       *(*d)++ = '-';

   n = 128;
   bias = 72;
   delta = 0;
   first = 1;

   while (todo > 0) {
     m = -1;
     s = ss;
     foreach_codepoint(c, &s, se)
       if (c >= n)
         if (c < m)
           m = c;

     x = m - n;
     y = h + 1;

     if (x > ~delta / y)
       return UV_E2BIG;  /* Overflow. */

     delta += x * y;
     n = m;

     s = ss;
     foreach_codepoint(c, &s, se) {
       if (c < n)
         if (++delta == 0)
           return UV_E2BIG;  /* Overflow. */

       if (c != n)
         continue;

       for (k = 36, q = delta; /* empty */; k += 36) {
         t = 1;

         if (k > bias)
           t = k - bias;

         if (t > 26)
           t = 26;

         if (q < t)
           break;

         /* TODO(bnoordhuis) Since 1 <= t <= 26 and therefore
          * 10 <= y <= 35, we can optimize the long division
          * into a table-based reciprocal multiplication.
          */
         x = q - t;
         y = 36 - t;  /* 10 <= y <= 35 since 1 <= t <= 26. */
         q = x / y;
         t = t + x % y;  /* 1 <= t <= 35 because of y. */

         if (*d < de)
           *(*d)++ = alphabet[t];
       }

       if (*d < de)
         *(*d)++ = alphabet[q];

       delta /= 2;

       if (first) {
         delta /= 350;
         first = 0;
       }

       /* No overflow check is needed because |delta| was just
        * divided by 2 and |delta+delta >= delta + delta/h|.
        */
       h++;
       delta += delta / h;

       for (bias = 0; delta > 35 * 26 / 2; bias += 36)
         delta /= 35;

       bias += 36 * delta / (delta + 38);
       delta = 0;
       todo--;
     }

     delta++;
     n++;
   }

   return 0;
 }

 #undef foreach_codepoint

 long uv__idna_toascii(const char* s, const char* se, char* d, char* de) {
   const char* si;
   const char* st;
   unsigned c;
   char* ds;
   int rc;

   ds = d;

   for (si = s; si < se; /* empty */) {
     st = si;
     c = uv__utf8_decode1(&si, se);

     if (c != '.')
       if (c != 0x3002)  /* 。 */
         if (c != 0xFF0E)  /* ． */
           if (c != 0xFF61)  /* ｡ */
             continue;

     rc = uv__idna_toascii_label(s, st, &d, de);

     if (rc < 0)
       return rc;

     if (d < de)
       *d++ = '.';

     s = si;
   }

   if (s < se) {
     rc = uv__idna_toascii_label(s, se, &d, de);

     if (rc < 0)
       return rc;
   }

   if (d < de)
     *d++ = '\0';

   return d - ds;  /* Number of bytes written. */
 }
	/* Copyright (c) 2011, 2018 Ben Noordhuis <info@bnoordhuis.nl>
	*
	* Permission to use, copy, modify, and/or distribute this software for any
	* purpose with or without fee is hereby granted, provided that the above
	* copyright notice and this permission notice appear in all copies.
	*
	* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
	* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
	* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
	* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
	* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
	* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
	* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
	*/

	/* Derived from https://github.com/bnoordhuis/punycode
	* but updated to support IDNA 2008.
	*/

	#include "uv.h"
	#include "idna.h"
	#include <string.h>

	static unsigned uv__utf8_decode1_slow(const char** p,
	const char* pe,
	unsigned a) {
	unsigned b;
	unsigned c;
	unsigned d;
	unsigned min;

	if (a > 0xF7)
	return -1;

	switch (*p - pe) {
	default:
	if (a > 0xEF) {
	min = 0x10000;
	a = a & 7;
	b = (unsigned char) (p)++;
	c = (unsigned char) (p)++;
	d = (unsigned char) (p)++;
	break;
	}
	/* Fall through. */
	case 2:
	if (a > 0xDF) {
	min = 0x800;
	b = 0x80 \| (a & 15);
	c = (unsigned char) (p)++;
	d = (unsigned char) (p)++;
	a = 0;
	break;
	}
	/* Fall through. */
	case 1:
	if (a > 0xBF) {
	min = 0x80;
	b = 0x80;
	c = 0x80 \| (a & 31);
	d = (unsigned char) (p)++;
	a = 0;
	break;
	}
	return -1; /* Invalid continuation byte. */
	}

	if (0x80 != (0xC0 & (b ^ c ^ d)))
	return -1; /* Invalid sequence. */

	b &= 63;
	c &= 63;
	d &= 63;
	a = (a << 18) \| (b << 12) \| (c << 6) \| d;

	if (a < min)
	return -1; /* Overlong sequence. */

	if (a > 0x10FFFF)
	return -1; /* Four-byte sequence > U+10FFFF. */

	if (a >= 0xD800 && a <= 0xDFFF)
	return -1; /* Surrogate pair. */

	return a;
	}

	unsigned uv__utf8_decode1(const char** p, const char* pe) {
	unsigned a;

	a = (unsigned char) (p)++;

	if (a < 128)
	return a; /* ASCII, common case. */

	return uv__utf8_decode1_slow(p, pe, a);
	}

	#define foreach_codepoint(c, p, pe) \
	for (; (void) (p <= pe && (c = uv__utf8_decode1(p, pe))), p <= pe;)

	static int uv__idna_toascii_label(const char* s, const char* se,
	char** d, char* de) {
	static const char alphabet[] = "abcdefghijklmnopqrstuvwxyz0123456789";
	const char* ss;
	unsigned c;
	unsigned h;
	unsigned k;
	unsigned n;
	unsigned m;
	unsigned q;
	unsigned t;
	unsigned x;
	unsigned y;
	unsigned bias;
	unsigned delta;
	unsigned todo;
	int first;

	h = 0;
	ss = s;
	todo = 0;

	foreach_codepoint(c, &s, se) {
	if (c < 128)
	h++;
	else if (c == (unsigned) -1)
	return UV_EINVAL;
	else
	todo++;
	}

	if (todo > 0) {
	if (d < de) (*d)++ = 'x';
	if (d < de) (*d)++ = 'n';
	if (d < de) (*d)++ = '-';
	if (d < de) (*d)++ = '-';
	}

	x = 0;
	s = ss;
	foreach_codepoint(c, &s, se) {
	if (c > 127)
	continue;

	if (*d < de)
	(d)++ = c;

	if (++x == h)
	break; /* Visited all ASCII characters. */
	}

	if (todo == 0)
	return h;

	/* Only write separator when we've written ASCII characters first. */
	if (h > 0)
	if (*d < de)
	(d)++ = '-';

	n = 128;
	bias = 72;
	delta = 0;
	first = 1;

	while (todo > 0) {
	m = -1;
	s = ss;
	foreach_codepoint(c, &s, se)
	if (c >= n)
	if (c < m)
	m = c;

	x = m - n;
	y = h + 1;

	if (x > ~delta / y)
	return UV_E2BIG; /* Overflow. */

	delta += x * y;
	n = m;

	s = ss;
	foreach_codepoint(c, &s, se) {
	if (c < n)
	if (++delta == 0)
	return UV_E2BIG; /* Overflow. */

	if (c != n)
	continue;

	for (k = 36, q = delta; /* empty */; k += 36) {
	t = 1;

	if (k > bias)
	t = k - bias;

	if (t > 26)
	t = 26;

	if (q < t)
	break;

	/* TODO(bnoordhuis) Since 1 <= t <= 26 and therefore
	* 10 <= y <= 35, we can optimize the long division
	* into a table-based reciprocal multiplication.
	*/
	x = q - t;
	y = 36 - t; /* 10 <= y <= 35 since 1 <= t <= 26. */
	q = x / y;
	t = t + x % y; /* 1 <= t <= 35 because of y. */

	if (*d < de)
	(d)++ = alphabet[t];
	}

	if (*d < de)
	(d)++ = alphabet[q];

	delta /= 2;

	if (first) {
	delta /= 350;
	first = 0;
	}

	/* No overflow check is needed because \|delta\| was just
	* divided by 2 and \|delta+delta >= delta + delta/h\|.
	*/
	h++;
	delta += delta / h;

	for (bias = 0; delta > 35 * 26 / 2; bias += 36)
	delta /= 35;

	bias += 36 * delta / (delta + 38);
	delta = 0;
	todo--;
	}

	delta++;
	n++;
	}

	return 0;
	}

	#undef foreach_codepoint

	long uv__idna_toascii(const char* s, const char* se, char* d, char* de) {
	const char* si;
	const char* st;
	unsigned c;
	char* ds;
	int rc;

	ds = d;

	for (si = s; si < se; /* empty */) {
	st = si;
	c = uv__utf8_decode1(&si, se);

	if (c != '.')
	if (c != 0x3002) /* 。 */
	if (c != 0xFF0E) /* ． */
	if (c != 0xFF61) /* ｡ */
	continue;

	rc = uv__idna_toascii_label(s, st, &d, de);

	if (rc < 0)
	return rc;

	if (d < de)
	*d++ = '.';

	s = si;
	}

	if (s < se) {
	rc = uv__idna_toascii_label(s, se, &d, de);

	if (rc < 0)
	return rc;
	}

	if (d < de)
	*d++ = '\0';

	return d - ds; /* Number of bytes written. */
	}