glibc/sysdeps/x86_64/multiarch/strstr.c

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/* strstr with SSE4.2 intrinsics
Copyright (C) 2009 Free Software Foundation, Inc.
Contributed by Intel Corporation.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, write to the Free
Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
02111-1307 USA. */
#include <nmmintrin.h>
#ifndef STRSTR_SSE42
# define STRSTR_SSE42 __strstr_sse42
#endif
#ifdef USE_AS_STRCASESTR
# include <ctype.h>
# include <locale/localeinfo.h>
# define LOADBYTE(C) tolower (C)
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# define CMPBYTE(C1, C2) (tolower (C1) == tolower (C2))
#else
# define LOADBYTE(C) (C)
# define CMPBYTE(C1, C2) ((C1) == (C2))
#endif
/* We use 0xe ordered-compare:
_SIDD_SBYTE_OPS
| _SIDD_CMP_EQUAL_ORDER
| _SIDD_LEAST_SIGNIFICANT
on pcmpistri to do the scanning and string comparsion requirements of
sub-string match. In the scanning phase, we process Cflag and ECX
index to locate the first fragment match; once the first fragment
match position has been identified, we do comparison of subsequent
string fragments until we can conclude false or true match; whe
n concluding a false match, we may need to repeat scanning process
from next relevant offset in the target string.
In the scanning phase we have 4 cases:
case ECX CFlag ZFlag SFlag
1 16 0 0 0
2a 16 0 0 1
2b 16 0 1 0
2c 16 0 1 1
1. No ordered-comparison match, both 16B fragments are valid, so
continue to next fragment.
2. No ordered-comparison match, there is EOS in either fragment,
2a. Zflg = 0, Sflg = 1, we continue
2b. Zflg = 1, Sflg = 0, we conclude no match and return.
2c. Zflg = 1, sflg = 1, lenth determine match or no match
In the string comparison phase, the 1st fragment match is fixed up
to produce ECX = 0. Subsequent fragment compare of nonzero index
and no match conclude a false match.
case ECX CFlag ZFlag SFlag
3 X 1 0 0/1
4a 0 1 0 0
4b 0 1 0 1
4c 0 < X 1 0 0/1
5 16 0 1 0
3. An initial ordered-comparison fragment match, we fix up to do
subsequent string comparison
4a. Continuation of fragment comparison of a string compare.
4b. EOS reached in the reference string, we conclude true match and
return
4c. String compare failed if index is nonzero, we need to go back to
scanning
5. failed string compare, go back to scanning
*/
/* Fix-up of removal of unneeded data due to 16B aligned load
parameters:
value: 16B data loaded from 16B aligned address.
offset: Offset of target data address relative to 16B aligned load
address.
*/
static __inline__ __m128i
__m128i_shift_right (__m128i value, int offset)
{
switch (offset)
{
case 1:
value = _mm_srli_si128 (value, 1);
break;
case 2:
value = _mm_srli_si128 (value, 2);
break;
case 3:
value = _mm_srli_si128 (value, 3);
break;
case 4:
value = _mm_srli_si128 (value, 4);
break;
case 5:
value = _mm_srli_si128 (value, 5);
break;
case 6:
value = _mm_srli_si128 (value, 6);
break;
case 7:
value = _mm_srli_si128 (value, 7);
break;
case 8:
value = _mm_srli_si128 (value, 8);
break;
case 9:
value = _mm_srli_si128 (value, 9);
break;
case 10:
value = _mm_srli_si128 (value, 10);
break;
case 11:
value = _mm_srli_si128 (value, 11);
break;
case 12:
value = _mm_srli_si128 (value, 12);
break;
case 13:
value = _mm_srli_si128 (value, 13);
break;
case 14:
value = _mm_srli_si128 (value, 14);
break;
case 15:
value = _mm_srli_si128 (value, 15);
break;
}
return value;
}
/* Simple replacement of movdqu to address 4KB boundary cross issue.
If EOS occurs within less than 16B before 4KB boundary, we don't
cross to next page. */
static __m128i
__attribute__ ((section (".text.sse4.2")))
__m128i_strloadu (const unsigned char * p)
{
int offset = ((size_t) p & (16 - 1));
if (offset && (int) ((size_t) p & 0xfff) > 0xff0)
{
__m128i a = _mm_load_si128 ((__m128i *) (p - offset));
__m128i zero = _mm_setzero_si128 ();
int bmsk = _mm_movemask_epi8 (_mm_cmpeq_epi8 (a, zero));
if ((bmsk >> offset) != 0)
return __m128i_shift_right (a, offset);
}
return _mm_loadu_si128 ((__m128i *) p);
}
#ifdef USE_AS_STRCASESTR
/* Similar to __m128i_strloadu. Convert to lower case for POSIX/C
locale. */
static __m128i
__attribute__ ((section (".text.sse4.2")))
__m128i_strloadu_tolower_posix (const unsigned char * p)
{
__m128i frag = __m128i_strloadu (p);
/* Convert frag to lower case for POSIX/C locale. */
__m128i rangeuc = _mm_set_epi64x (0x0, 0x5a41);
__m128i u2ldelta = _mm_set1_epi64x (0xe0e0e0e0e0e0e0e0);
__m128i mask1 = _mm_cmpistrm (rangeuc, frag, 0x44);
__m128i mask2 = _mm_blendv_epi8 (u2ldelta, frag, mask1);
mask2 = _mm_sub_epi8 (mask2, u2ldelta);
return _mm_blendv_epi8 (frag, mask2, mask1);
}
/* Similar to __m128i_strloadu. Convert to lower case for none-POSIX/C
locale. */
static __m128i
__attribute__ ((section (".text.sse4.2")))
__m128i_strloadu_tolower (const unsigned char * p)
{
union
{
char b[16];
__m128i x;
} u;
for (int i = 0; i < 16; i++)
if (p[i] == 0)
{
u.b[i] = 0;
break;
}
else
u.b[i] = tolower (p[i]);
return u.x;
}
#endif
/* Calculate Knuth-Morris-Pratt string searching algorithm (or KMP
algorithm) overlap for a fully populated 16B vector.
Input parameter: 1st 16Byte loaded from the reference string of a
strstr function.
We don't use KMP algorithm if reference string is less than 16B.
*/
static int
__inline__ __attribute__ ((__always_inline__,))
KMP16Bovrlap (__m128i s2)
{
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__m128i b = _mm_unpacklo_epi8 (s2, s2);
__m128i a = _mm_unpacklo_epi8 (b, b);
a = _mm_shuffle_epi32 (a, 0);
b = _mm_srli_si128 (s2, sizeof (char));
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int bmsk = _mm_movemask_epi8 (_mm_cmpeq_epi8 (b, a));
/* _BitScanForward(&k1, bmsk); */
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int k1;
__asm ("bsfl %[bmsk], %[k1]" : [k1] "=r" (k1) : [bmsk] "r" (bmsk));
if (!bmsk)
return 16;
else if (bmsk == 0x7fff)
return 1;
else if (!k1)
{
/* There are al least two ditinct char in s2. If byte 0 and 1 are
idential and the distinct value lies farther down, we can deduce
the next byte offset to restart full compare is least no earlier
than byte 3. */
return 3;
}
else
{
/* Byte 1 is not degenerated to byte 0. */
return k1 + 1;
}
}
char *
__attribute__ ((section (".text.sse4.2")))
STRSTR_SSE42 (const unsigned char *s1, const unsigned char *s2)
{
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#define p1 s1
const unsigned char *p2 = s2;
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if (p2[0] == '\0')
return (char *) p1;
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if (p1[0] == '\0')
return NULL;
/* Check if p1 length is 1 byte long. */
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if (p1[1] == '\0')
return p2[1] == '\0' && CMPBYTE (p1[0], p2[0]) ? (char *) p1 : NULL;
#ifdef USE_AS_STRCASESTR
__m128i (*strloadu) (const unsigned char *);
if (_NL_CURRENT_WORD (LC_CTYPE, _NL_CTYPE_NONASCII_CASE) == 0)
strloadu = __m128i_strloadu_tolower_posix;
else
strloadu = __m128i_strloadu_tolower;
#else
# define strloadu __m128i_strloadu
#endif
/* p1 > 1 byte long. Load up to 16 bytes of fragment. */
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__m128i frag1 = strloadu (p1);
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__m128i frag2;
if (p2[1] != '\0')
/* p2 is > 1 byte long. */
frag2 = strloadu (p2);
else
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frag2 = _mm_insert_epi8 (_mm_setzero_si128 (), LOADBYTE (p2[0]), 0);
/* Unsigned bytes, equal order, does frag2 has null? */
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int cmp_c = _mm_cmpistrc (frag2, frag1, 0x0c);
int cmp_z = _mm_cmpistrz (frag2, frag1, 0x0c);
int cmp = _mm_cmpistri (frag2, frag1, 0x0c);
int cmp_s = _mm_cmpistrs (frag2, frag1, 0x0c);
if (cmp_s & cmp_c)
{
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int bmsk = _mm_movemask_epi8 (_mm_cmpeq_epi8 (frag2,
_mm_setzero_si128 ()));
int len;
__asm ("bsfl %[bmsk], %[len]"
: [len] "=r" (len) : [bmsk] "r" (bmsk));
p1 += cmp;
if ((len + cmp) <= 16)
return (char *) p1;
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/* Load up to 16 bytes of fragment. */
frag1 = strloadu (p1);
cmp_c = _mm_cmpistrc (frag2, frag1, 0x0c);
cmp_s = _mm_cmpistrs (frag2, frag1, 0x0c);
cmp_z = _mm_cmpistrz (frag2, frag1, 0x0c);
cmp = _mm_cmpistri (frag2, frag1, 0x0c);
if ((len + cmp) <= 16)
return (char *) p1 + cmp;
}
if (cmp_s)
{
/* Adjust addr for 16B alginment in ensuing loop. */
while (!cmp_z)
{
p1 += cmp;
/* Load up to 16 bytes of fragment. */
frag1 = strloadu (p1);
cmp = _mm_cmpistri (frag2, frag1, 0x0c);
cmp_c = _mm_cmpistrc (frag2, frag1, 0x0c);
cmp_z = _mm_cmpistrz (frag2, frag1, 0x0c);
/* Because s2 < 16 bytes and we adjusted p1 by non-zero cmp
once already, this time cmp will be zero and we can exit. */
if ((!cmp) & cmp_c)
break;
}
if (!cmp_c)
return NULL;
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/* Since s2 is less than 16 bytes, com_c is definitive
determination of full match. */
return (char *) p1 + cmp;
}
/* General case, s2 is at least 16 bytes or more.
First, the common case of false-match at first byte of p2. */
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const unsigned char *pt = NULL;
int kmp_fwd = 0;
re_trace:
while (!cmp_c)
{
/* frag1 has null. */
if (cmp_z)
return NULL;
/* frag 1 has no null, advance 16 bytes. */
p1 += 16;
/* Load up to 16 bytes of fragment. */
frag1 = strloadu (p1);
/* Unsigned bytes, equal order, is there a partial match? */
cmp_c = _mm_cmpistrc (frag2, frag1, 0x0c);
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cmp = _mm_cmpistri (frag2, frag1, 0x0c);
cmp_z = _mm_cmpistrz (frag2, frag1, 0x0c);
}
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/* Next, handle initial positive match as first byte of p2. We have
a partial fragment match, make full determination until we reached
end of s2. */
if (!cmp)
{
if (cmp_z)
return (char *) p1;
pt = p1;
p1 += 16;
p2 += 16;
/* Load up to 16 bytes of fragment. */
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frag2 = strloadu (p2);
}
else
{
/* Adjust 16B alignment. */
p1 += cmp;
pt = p1;
}
/* Load up to 16 bytes of fragment. */
frag1 = strloadu (p1);
/* Unsigned bytes, equal order, does frag2 has null? */
cmp_c = _mm_cmpistrc (frag2, frag1, 0x0c);
cmp_z = _mm_cmpistrz (frag2, frag1, 0x0c);
cmp = _mm_cmpistri (frag2, frag1, 0x0c);
cmp_s = _mm_cmpistrs (frag2, frag1, 0x0c);
while (!(cmp | cmp_z | cmp_s))
{
p1 += 16;
p2 += 16;
/* Load up to 16 bytes of fragment. */
frag2 = strloadu (p2);
/* Load up to 16 bytes of fragment. */
frag1 = strloadu (p1);
/* Unsigned bytes, equal order, does frag2 has null? */
cmp_c = _mm_cmpistrc (frag2, frag1, 0x0c);
cmp_z = _mm_cmpistrz (frag2, frag1, 0x0c);
cmp = _mm_cmpistri (frag2, frag1, 0x0c);
cmp_s = _mm_cmpistrs (frag2, frag1, 0x0c);
}
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/* Full determination yielded a false result, retrace s1 to next
starting position.
Zflg 1 0 1 0/1
Sflg 0 1 1 0/1
cmp na 0 0 >0
action done done continue continue if s2 < s1
false match retrace s1 else false
*/
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if (cmp_s & !cmp)
return (char *) pt;
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if (cmp_z)
{
if (!cmp_s)
return NULL;
/* Handle both zero and sign flag set and s1 is shorter in
length. */
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__m128i zero = _mm_setzero_si128 ();
int bmsk = _mm_movemask_epi8 (_mm_cmpeq_epi8 (zero, frag2));
int bmsk1 = _mm_movemask_epi8 (_mm_cmpeq_epi8 (zero, frag1));
int len;
int len1;
__asm ("bsfl %[bmsk], %[len]"
: [len] "=r" (len) : [bmsk] "r" (bmsk));
__asm ("bsfl %[bmsk1], %[len1]"
: [len1] "=r" (len1) : [bmsk1] "r" (bmsk1));
if (len >= len1)
return NULL;
}
else if (!cmp)
return (char *) pt;
/* Otherwise, we have to retrace and continue. Default of multiple
paths that need to retrace from next byte in s1. */
p2 = s2;
frag2 = strloadu (p2);
if (!kmp_fwd)
kmp_fwd = KMP16Bovrlap (frag2);
/* KMP algorithm predicted overlap needs to be corrected for
partial fragment compare. */
p1 = pt + (kmp_fwd > cmp ? cmp : kmp_fwd);
/* Since s2 is at least 16 bytes long, we're certain there is no
match. */
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if (p1[0] == '\0')
return NULL;
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/* Load up to 16 bytes of fragment. */
frag1 = strloadu (p1);
/* Unsigned bytes, equal order, is there a partial match? */
cmp_c = _mm_cmpistrc (frag2, frag1, 0x0c);
cmp = _mm_cmpistri (frag2, frag1, 0x0c);
cmp_z = _mm_cmpistrz (frag2, frag1, 0x0c);
goto re_trace;
}