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glibc/sysdeps/s390/utf8-utf32-z9.c

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/* Conversion between UTF-8 and UTF-32 BE/internal.
This module uses the Z9-109 variants of the Convert Unicode
instructions.
Copyright (C) 1997-2017 Free Software Foundation, Inc.
Author: Andreas Krebbel <Andreas.Krebbel@de.ibm.com>
Based on the work by Ulrich Drepper <drepper@cygnus.com>, 1997.
Thanks to Daniel Appich who covered the relevant performance work
in his diploma thesis.
This 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.
This 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, see
<http://www.gnu.org/licenses/>. */
#include <dlfcn.h>
#include <stdint.h>
#include <unistd.h>
#include <dl-procinfo.h>
#include <gconv.h>
#if defined HAVE_S390_VX_GCC_SUPPORT
# define ASM_CLOBBER_VR(NR) , NR
#else
# define ASM_CLOBBER_VR(NR)
#endif
#if defined __s390x__
# define CONVERT_32BIT_SIZE_T(REG)
#else
# define CONVERT_32BIT_SIZE_T(REG) "llgfr %" #REG ",%" #REG "\n\t"
#endif
/* Defines for skeleton.c. */
#define DEFINE_INIT 0
#define DEFINE_FINI 0
#define MIN_NEEDED_FROM 1
#define MAX_NEEDED_FROM 6
#define MIN_NEEDED_TO 4
#define FROM_LOOP __from_utf8_loop
#define TO_LOOP __to_utf8_loop
#define FROM_DIRECTION (dir == from_utf8)
#define ONE_DIRECTION 0
/* UTF-32 big endian byte order mark. */
#define BOM 0x0000feffu
/* Direction of the transformation. */
enum direction
{
illegal_dir,
to_utf8,
from_utf8
};
struct utf8_data
{
enum direction dir;
int emit_bom;
};
extern int gconv_init (struct __gconv_step *step);
int
gconv_init (struct __gconv_step *step)
{
/* Determine which direction. */
struct utf8_data *new_data;
enum direction dir = illegal_dir;
int emit_bom;
int result;
emit_bom = (__strcasecmp (step->__to_name, "UTF-32//") == 0);
if (__strcasecmp (step->__from_name, "ISO-10646/UTF8/") == 0
&& (__strcasecmp (step->__to_name, "UTF-32//") == 0
|| __strcasecmp (step->__to_name, "UTF-32BE//") == 0
|| __strcasecmp (step->__to_name, "INTERNAL") == 0))
{
dir = from_utf8;
}
else if (__strcasecmp (step->__to_name, "ISO-10646/UTF8/") == 0
&& (__strcasecmp (step->__from_name, "UTF-32BE//") == 0
|| __strcasecmp (step->__from_name, "INTERNAL") == 0))
{
dir = to_utf8;
}
result = __GCONV_NOCONV;
if (dir != illegal_dir)
{
new_data = (struct utf8_data *) malloc (sizeof (struct utf8_data));
result = __GCONV_NOMEM;
if (new_data != NULL)
{
new_data->dir = dir;
new_data->emit_bom = emit_bom;
step->__data = new_data;
if (dir == from_utf8)
{
step->__min_needed_from = MIN_NEEDED_FROM;
step->__max_needed_from = MIN_NEEDED_FROM;
step->__min_needed_to = MIN_NEEDED_TO;
step->__max_needed_to = MIN_NEEDED_TO;
}
else
{
step->__min_needed_from = MIN_NEEDED_TO;
step->__max_needed_from = MIN_NEEDED_TO;
step->__min_needed_to = MIN_NEEDED_FROM;
step->__max_needed_to = MIN_NEEDED_FROM;
}
step->__stateful = 0;
result = __GCONV_OK;
}
}
return result;
}
extern void gconv_end (struct __gconv_step *data);
void
gconv_end (struct __gconv_step *data)
{
free (data->__data);
}
/* The macro for the hardware loop. This is used for both
directions. */
#define HARDWARE_CONVERT(INSTRUCTION) \
{ \
register const unsigned char* pInput __asm__ ("8") = inptr; \
register size_t inlen __asm__ ("9") = inend - inptr; \
register unsigned char* pOutput __asm__ ("10") = outptr; \
register size_t outlen __asm__("11") = outend - outptr; \
unsigned long cc = 0; \
\
__asm__ __volatile__ (".machine push \n\t" \
".machine \"z9-109\" \n\t" \
".machinemode \"zarch_nohighgprs\"\n\t" \
"0: " INSTRUCTION " \n\t" \
".machine pop \n\t" \
" jo 0b \n\t" \
" ipm %2 \n" \
: "+a" (pOutput), "+a" (pInput), "+d" (cc), \
"+d" (outlen), "+d" (inlen) \
: \
: "cc", "memory"); \
\
inptr = pInput; \
outptr = pOutput; \
cc >>= 28; \
\
if (cc == 1) \
{ \
result = __GCONV_FULL_OUTPUT; \
} \
else if (cc == 2) \
{ \
result = __GCONV_ILLEGAL_INPUT; \
} \
}
#define PREPARE_LOOP \
enum direction dir = ((struct utf8_data *) step->__data)->dir; \
int emit_bom = ((struct utf8_data *) step->__data)->emit_bom; \
\
if (emit_bom && !data->__internal_use \
&& data->__invocation_counter == 0) \
{ \
/* Emit the Byte Order Mark. */ \
if (__glibc_unlikely (outbuf + 4 > outend)) \
return __GCONV_FULL_OUTPUT; \
\
put32u (outbuf, BOM); \
outbuf += 4; \
}
/* Conversion function from UTF-8 to UTF-32 internal/BE. */
#define STORE_REST_COMMON \
{ \
/* We store the remaining bytes while converting them into the UCS4 \
format. We can assume that the first byte in the buffer is \
correct and that it requires a larger number of bytes than there \
are in the input buffer. */ \
wint_t ch = **inptrp; \
size_t cnt, r; \
\
state->__count = inend - *inptrp; \
\
assert (ch != 0xc0 && ch != 0xc1); \
if (ch >= 0xc2 && ch < 0xe0) \
{ \
/* We expect two bytes. The first byte cannot be 0xc0 or \
0xc1, otherwise the wide character could have been \
represented using a single byte. */ \
cnt = 2; \
ch &= 0x1f; \
} \
else if (__glibc_likely ((ch & 0xf0) == 0xe0)) \
{ \
/* We expect three bytes. */ \
cnt = 3; \
ch &= 0x0f; \
} \
else if (__glibc_likely ((ch & 0xf8) == 0xf0)) \
{ \
/* We expect four bytes. */ \
cnt = 4; \
ch &= 0x07; \
} \
else if (__glibc_likely ((ch & 0xfc) == 0xf8)) \
{ \
/* We expect five bytes. */ \
cnt = 5; \
ch &= 0x03; \
} \
else \
{ \
/* We expect six bytes. */ \
cnt = 6; \
ch &= 0x01; \
} \
\
/* The first byte is already consumed. */ \
r = cnt - 1; \
while (++(*inptrp) < inend) \
{ \
ch <<= 6; \
ch |= **inptrp & 0x3f; \
--r; \
} \
\
/* Shift for the so far missing bytes. */ \
ch <<= r * 6; \
\
/* Store the number of bytes expected for the entire sequence. */ \
state->__count |= cnt << 8; \
\
/* Store the value. */ \
state->__value.__wch = ch; \
}
#define UNPACK_BYTES_COMMON \
{ \
static const unsigned char inmask[5] = { 0xc0, 0xe0, 0xf0, 0xf8, 0xfc }; \
wint_t wch = state->__value.__wch; \
size_t ntotal = state->__count >> 8; \
\
inlen = state->__count & 255; \
\
bytebuf[0] = inmask[ntotal - 2]; \
\
do \
{ \
if (--ntotal < inlen) \
bytebuf[ntotal] = 0x80 | (wch & 0x3f); \
wch >>= 6; \
} \
while (ntotal > 1); \
\
bytebuf[0] |= wch; \
}
#define CLEAR_STATE_COMMON \
state->__count = 0
#define BODY_FROM_HW(ASM) \
{ \
ASM; \
if (__glibc_likely (inptr == inend) \
|| result == __GCONV_FULL_OUTPUT) \
break; \
\
int i; \
for (i = 1; inptr + i < inend && i < 5; ++i) \
if ((inptr[i] & 0xc0) != 0x80) \
break; \
\
if (__glibc_likely (inptr + i == inend \
&& result == __GCONV_EMPTY_INPUT)) \
{ \
result = __GCONV_INCOMPLETE_INPUT; \
break; \
} \
STANDARD_FROM_LOOP_ERR_HANDLER (i); \
}
/* This hardware routine uses the Convert UTF8 to UTF32 (cu14) instruction. */
#define BODY_FROM_ETF3EH BODY_FROM_HW (HARDWARE_CONVERT ("cu14 %0, %1, 1"))
/* The software routine is copied from gconv_simple.c. */
#define BODY_FROM_C \
{ \
/* Next input byte. */ \
uint32_t ch = *inptr; \
\
if (__glibc_likely (ch < 0x80)) \
{ \
/* One byte sequence. */ \
++inptr; \
} \
else \
{ \
uint_fast32_t cnt; \
uint_fast32_t i; \
\
if (ch >= 0xc2 && ch < 0xe0) \
{ \
/* We expect two bytes. The first byte cannot be 0xc0 or \
0xc1, otherwise the wide character could have been \
represented using a single byte. */ \
cnt = 2; \
ch &= 0x1f; \
} \
else if (__glibc_likely ((ch & 0xf0) == 0xe0)) \
{ \
/* We expect three bytes. */ \
cnt = 3; \
ch &= 0x0f; \
} \
else if (__glibc_likely ((ch & 0xf8) == 0xf0)) \
{ \
/* We expect four bytes. */ \
cnt = 4; \
ch &= 0x07; \
} \
else \
{ \
/* Search the end of this ill-formed UTF-8 character. This \
is the next byte with (x & 0xc0) != 0x80. */ \
i = 0; \
do \
++i; \
while (inptr + i < inend \
&& (*(inptr + i) & 0xc0) == 0x80 \
&& i < 5); \
\
errout: \
STANDARD_FROM_LOOP_ERR_HANDLER (i); \
} \
\
if (__glibc_unlikely (inptr + cnt > inend)) \
{ \
/* We don't have enough input. But before we report \
that check that all the bytes are correct. */ \
for (i = 1; inptr + i < inend; ++i) \
if ((inptr[i] & 0xc0) != 0x80) \
break; \
\
if (__glibc_likely (inptr + i == inend)) \
{ \
result = __GCONV_INCOMPLETE_INPUT; \
break; \
} \
\
goto errout; \
} \
\
/* Read the possible remaining bytes. */ \
for (i = 1; i < cnt; ++i) \
{ \
uint32_t byte = inptr[i]; \
\
if ((byte & 0xc0) != 0x80) \
/* This is an illegal encoding. */ \
break; \
\
ch <<= 6; \
ch |= byte & 0x3f; \
} \
\
/* If i < cnt, some trail byte was not >= 0x80, < 0xc0. \
If cnt > 2 and ch < 2^(5*cnt-4), the wide character ch could \
have been represented with fewer than cnt bytes. */ \
if (i < cnt || (cnt > 2 && (ch >> (5 * cnt - 4)) == 0) \
/* Do not accept UTF-16 surrogates. */ \
|| (ch >= 0xd800 && ch <= 0xdfff) \
|| (ch > 0x10ffff)) \
{ \
/* This is an illegal encoding. */ \
goto errout; \
} \
\
inptr += cnt; \
} \
\
/* Now adjust the pointers and store the result. */ \
*((uint32_t *) outptr) = ch; \
outptr += sizeof (uint32_t); \
}
#define HW_FROM_VX \
{ \
register const unsigned char* pInput asm ("8") = inptr; \
register size_t inlen asm ("9") = inend - inptr; \
register unsigned char* pOutput asm ("10") = outptr; \
register size_t outlen asm("11") = outend - outptr; \
unsigned long tmp, tmp2, tmp3; \
asm volatile (".machine push\n\t" \
".machine \"z13\"\n\t" \
".machinemode \"zarch_nohighgprs\"\n\t" \
" vrepib %%v30,0x7f\n\t" /* For compare > 0x7f. */ \
" vrepib %%v31,0x20\n\t" \
CONVERT_32BIT_SIZE_T ([R_INLEN]) \
CONVERT_32BIT_SIZE_T ([R_OUTLEN]) \
/* Loop which handles UTF-8 chars <=0x7f. */ \
"0: clgijl %[R_INLEN],16,20f\n\t" \
" clgijl %[R_OUTLEN],64,20f\n\t" \
"1: vl %%v16,0(%[R_IN])\n\t" \
" vstrcbs %%v17,%%v16,%%v30,%%v31\n\t" \
" jno 10f\n\t" /* Jump away if not all bytes are 1byte \
UTF8 chars. */ \
/* Enlarge to UCS4. */ \
" vuplhb %%v18,%%v16\n\t" \
" vupllb %%v19,%%v16\n\t" \
" la %[R_IN],16(%[R_IN])\n\t" \
" vuplhh %%v20,%%v18\n\t" \
" aghi %[R_INLEN],-16\n\t" \
" vupllh %%v21,%%v18\n\t" \
" aghi %[R_OUTLEN],-64\n\t" \
" vuplhh %%v22,%%v19\n\t" \
" vupllh %%v23,%%v19\n\t" \
/* Store 64 bytes to buf_out. */ \
" vstm %%v20,%%v23,0(%[R_OUT])\n\t" \
" la %[R_OUT],64(%[R_OUT])\n\t" \
" clgijl %[R_INLEN],16,20f\n\t" \
" clgijl %[R_OUTLEN],64,20f\n\t" \
" j 1b\n\t" \
"10: \n\t" \
/* At least one byte is > 0x7f. \
Store the preceding 1-byte chars. */ \
" vlgvb %[R_TMP],%%v17,7\n\t" \
" sllk %[R_TMP2],%[R_TMP],2\n\t" /* Compute highest \
index to store. */ \
" llgfr %[R_TMP3],%[R_TMP2]\n\t" \
" ahi %[R_TMP2],-1\n\t" \
" jl 20f\n\t" \
" vuplhb %%v18,%%v16\n\t" \
" vuplhh %%v20,%%v18\n\t" \
" vstl %%v20,%[R_TMP2],0(%[R_OUT])\n\t" \
" ahi %[R_TMP2],-16\n\t" \
" jl 11f\n\t" \
" vupllh %%v21,%%v18\n\t" \
" vstl %%v21,%[R_TMP2],16(%[R_OUT])\n\t" \
" ahi %[R_TMP2],-16\n\t" \
" jl 11f\n\t" \
" vupllb %%v19,%%v16\n\t" \
" vuplhh %%v22,%%v19\n\t" \
" vstl %%v22,%[R_TMP2],32(%[R_OUT])\n\t" \
" ahi %[R_TMP2],-16\n\t" \
" jl 11f\n\t" \
" vupllh %%v23,%%v19\n\t" \
" vstl %%v23,%[R_TMP2],48(%[R_OUT])\n\t" \
"11: \n\t" \
/* Update pointers. */ \
" la %[R_IN],0(%[R_TMP],%[R_IN])\n\t" \
" slgr %[R_INLEN],%[R_TMP]\n\t" \
" la %[R_OUT],0(%[R_TMP3],%[R_OUT])\n\t" \
" slgr %[R_OUTLEN],%[R_TMP3]\n\t" \
/* Handle multibyte utf8-char with convert instruction. */ \
"20: cu14 %[R_OUT],%[R_IN],1\n\t" \
" jo 0b\n\t" /* Try vector implemenation again. */ \
" lochil %[R_RES],%[RES_OUT_FULL]\n\t" /* cc == 1. */ \
" lochih %[R_RES],%[RES_IN_ILL]\n\t" /* cc == 2. */ \
".machine pop" \
: /* outputs */ [R_IN] "+a" (pInput) \
, [R_INLEN] "+d" (inlen), [R_OUT] "+a" (pOutput) \
, [R_OUTLEN] "+d" (outlen), [R_TMP] "=a" (tmp) \
, [R_TMP2] "=d" (tmp2), [R_TMP3] "=a" (tmp3) \
, [R_RES] "+d" (result) \
: /* inputs */ \
[RES_OUT_FULL] "i" (__GCONV_FULL_OUTPUT) \
, [RES_IN_ILL] "i" (__GCONV_ILLEGAL_INPUT) \
: /* clobber list */ "memory", "cc" \
ASM_CLOBBER_VR ("v16") ASM_CLOBBER_VR ("v17") \
ASM_CLOBBER_VR ("v18") ASM_CLOBBER_VR ("v19") \
ASM_CLOBBER_VR ("v20") ASM_CLOBBER_VR ("v21") \
ASM_CLOBBER_VR ("v22") ASM_CLOBBER_VR ("v30") \
ASM_CLOBBER_VR ("v31") \
); \
inptr = pInput; \
outptr = pOutput; \
}
#define BODY_FROM_VX BODY_FROM_HW (HW_FROM_VX)
/* These definitions apply to the UTF-8 to UTF-32 direction. The
software implementation for UTF-8 still supports multibyte
characters up to 6 bytes whereas the hardware variant does not. */
#define MIN_NEEDED_INPUT MIN_NEEDED_FROM
#define MAX_NEEDED_INPUT MAX_NEEDED_FROM
#define MIN_NEEDED_OUTPUT MIN_NEEDED_TO
#define LOOPFCT __from_utf8_loop_c
#define LOOP_NEED_FLAGS
#define STORE_REST STORE_REST_COMMON
#define UNPACK_BYTES UNPACK_BYTES_COMMON
#define CLEAR_STATE CLEAR_STATE_COMMON
#define BODY BODY_FROM_C
#include <iconv/loop.c>
/* Generate loop-function with hardware utf-convert instruction. */
#define MIN_NEEDED_INPUT MIN_NEEDED_FROM
#define MAX_NEEDED_INPUT MAX_NEEDED_FROM
#define MIN_NEEDED_OUTPUT MIN_NEEDED_TO
#define LOOPFCT __from_utf8_loop_etf3eh
#define LOOP_NEED_FLAGS
#define STORE_REST STORE_REST_COMMON
#define UNPACK_BYTES UNPACK_BYTES_COMMON
#define CLEAR_STATE CLEAR_STATE_COMMON
#define BODY BODY_FROM_ETF3EH
#include <iconv/loop.c>
#if defined HAVE_S390_VX_ASM_SUPPORT
/* Generate loop-function with hardware vector instructions. */
# define MIN_NEEDED_INPUT MIN_NEEDED_FROM
# define MAX_NEEDED_INPUT MAX_NEEDED_FROM
# define MIN_NEEDED_OUTPUT MIN_NEEDED_TO
# define LOOPFCT __from_utf8_loop_vx
# define LOOP_NEED_FLAGS
# define STORE_REST STORE_REST_COMMON
# define UNPACK_BYTES UNPACK_BYTES_COMMON
# define CLEAR_STATE CLEAR_STATE_COMMON
# define BODY BODY_FROM_VX
# include <iconv/loop.c>
#endif
/* Generate ifunc'ed loop function. */
__typeof(__from_utf8_loop_c)
__attribute__ ((ifunc ("__from_utf8_loop_resolver")))
__from_utf8_loop;
static void *
__from_utf8_loop_resolver (unsigned long int dl_hwcap)
{
#if defined HAVE_S390_VX_ASM_SUPPORT
if (dl_hwcap & HWCAP_S390_VX)
return __from_utf8_loop_vx;
else
#endif
if (dl_hwcap & HWCAP_S390_ZARCH && dl_hwcap & HWCAP_S390_HIGH_GPRS
&& dl_hwcap & HWCAP_S390_ETF3EH)
return __from_utf8_loop_etf3eh;
else
return __from_utf8_loop_c;
}
strong_alias (__from_utf8_loop_c_single, __from_utf8_loop_single)
/* The software routine mimics the S/390 cu41 instruction. */
#define BODY_TO_C \
{ \
uint32_t wc = *((const uint32_t *) inptr); \
\
if (__glibc_likely (wc <= 0x7f)) \
{ \
/* Single UTF-8 char. */ \
*outptr = (uint8_t)wc; \
outptr++; \
} \
else if (wc <= 0x7ff) \
{ \
/* Two UTF-8 chars. */ \
if (__glibc_unlikely (outptr + 2 > outend)) \
{ \
/* Overflow in the output buffer. */ \
result = __GCONV_FULL_OUTPUT; \
break; \
} \
\
outptr[0] = 0xc0; \
outptr[0] |= wc >> 6; \
\
outptr[1] = 0x80; \
outptr[1] |= wc & 0x3f; \
\
outptr += 2; \
} \
else if (wc <= 0xffff) \
{ \
/* Three UTF-8 chars. */ \
if (__glibc_unlikely (outptr + 3 > outend)) \
{ \
/* Overflow in the output buffer. */ \
result = __GCONV_FULL_OUTPUT; \
break; \
} \
if (wc >= 0xd800 && wc <= 0xdfff) \
{ \
/* Do not accept UTF-16 surrogates. */ \
result = __GCONV_ILLEGAL_INPUT; \
STANDARD_TO_LOOP_ERR_HANDLER (4); \
} \
outptr[0] = 0xe0; \
outptr[0] |= wc >> 12; \
\
outptr[1] = 0x80; \
outptr[1] |= (wc >> 6) & 0x3f; \
\
outptr[2] = 0x80; \
outptr[2] |= wc & 0x3f; \
\
outptr += 3; \
} \
else if (wc <= 0x10ffff) \
{ \
/* Four UTF-8 chars. */ \
if (__glibc_unlikely (outptr + 4 > outend)) \
{ \
/* Overflow in the output buffer. */ \
result = __GCONV_FULL_OUTPUT; \
break; \
} \
outptr[0] = 0xf0; \
outptr[0] |= wc >> 18; \
\
outptr[1] = 0x80; \
outptr[1] |= (wc >> 12) & 0x3f; \
\
outptr[2] = 0x80; \
outptr[2] |= (wc >> 6) & 0x3f; \
\
outptr[3] = 0x80; \
outptr[3] |= wc & 0x3f; \
\
outptr += 4; \
} \
else \
{ \
STANDARD_TO_LOOP_ERR_HANDLER (4); \
} \
inptr += 4; \
}
/* The hardware routine uses the S/390 vector instructions. */
#define BODY_TO_VX \
{ \
size_t inlen = inend - inptr; \
size_t outlen = outend - outptr; \
unsigned long tmp, tmp2, tmp3; \
asm volatile (".machine push\n\t" \
".machine \"z13\"\n\t" \
".machinemode \"zarch_nohighgprs\"\n\t" \
" vleif %%v20,127,0\n\t" /* element 0: 127 */ \
" vzero %%v21\n\t" \
" vleih %%v21,8192,0\n\t" /* element 0: > */ \
" vleih %%v21,-8192,2\n\t" /* element 1: =<> */ \
CONVERT_32BIT_SIZE_T ([R_INLEN]) \
CONVERT_32BIT_SIZE_T ([R_OUTLEN]) \
/* Loop which handles UTF-32 chars <=0x7f. */ \
"0: clgijl %[R_INLEN],64,2f\n\t" \
" clgijl %[R_OUTLEN],16,2f\n\t" \
"1: vlm %%v16,%%v19,0(%[R_IN])\n\t" \
" lghi %[R_TMP2],0\n\t" \
/* Shorten to byte values. */ \
" vpkf %%v23,%%v16,%%v17\n\t" \
" vpkf %%v24,%%v18,%%v19\n\t" \
" vpkh %%v23,%%v23,%%v24\n\t" \
/* Checking for values > 0x7f. */ \
" vstrcfs %%v22,%%v16,%%v20,%%v21\n\t" \
" jno 10f\n\t" \
" vstrcfs %%v22,%%v17,%%v20,%%v21\n\t" \
" jno 11f\n\t" \
" vstrcfs %%v22,%%v18,%%v20,%%v21\n\t" \
" jno 12f\n\t" \
" vstrcfs %%v22,%%v19,%%v20,%%v21\n\t" \
" jno 13f\n\t" \
/* Store 16bytes to outptr. */ \
" vst %%v23,0(%[R_OUT])\n\t" \
" aghi %[R_INLEN],-64\n\t" \
" aghi %[R_OUTLEN],-16\n\t" \
" la %[R_IN],64(%[R_IN])\n\t" \
" la %[R_OUT],16(%[R_OUT])\n\t" \
" clgijl %[R_INLEN],64,2f\n\t" \
" clgijl %[R_OUTLEN],16,2f\n\t" \
" j 1b\n\t" \
/* Found a value > 0x7f. */ \
"13: ahi %[R_TMP2],4\n\t" \
"12: ahi %[R_TMP2],4\n\t" \
"11: ahi %[R_TMP2],4\n\t" \
"10: vlgvb %[R_TMP],%%v22,7\n\t" \
" srlg %[R_TMP],%[R_TMP],2\n\t" \
" agr %[R_TMP],%[R_TMP2]\n\t" \
" je 16f\n\t" \
/* Store characters before invalid one... */ \
" slgr %[R_OUTLEN],%[R_TMP]\n\t" \
"15: aghi %[R_TMP],-1\n\t" \
" vstl %%v23,%[R_TMP],0(%[R_OUT])\n\t" \
/* ... and update pointers. */ \
" aghi %[R_TMP],1\n\t" \
" la %[R_OUT],0(%[R_TMP],%[R_OUT])\n\t" \
" sllg %[R_TMP2],%[R_TMP],2\n\t" \
" la %[R_IN],0(%[R_TMP2],%[R_IN])\n\t" \
" slgr %[R_INLEN],%[R_TMP2]\n\t" \
/* Calculate remaining uint32_t values in loaded vrs. */ \
"16: lghi %[R_TMP2],16\n\t" \
" sgr %[R_TMP2],%[R_TMP]\n\t" \
" l %[R_TMP],0(%[R_IN])\n\t" \
" aghi %[R_INLEN],-4\n\t" \
" j 22f\n\t" \
/* Handle remaining bytes. */ \
"2: clgije %[R_INLEN],0,99f\n\t" \
" clgijl %[R_INLEN],4,92f\n\t" \
/* Calculate remaining uint32_t values in inptr. */ \
" srlg %[R_TMP2],%[R_INLEN],2\n\t" \
/* Handle multibyte utf8-char. */ \
"20: l %[R_TMP],0(%[R_IN])\n\t" \
" aghi %[R_INLEN],-4\n\t" \
/* Test if ch is 1byte UTF-8 char. */ \
"21: clijh %[R_TMP],0x7f,22f\n\t" \
/* Handle 1-byte UTF-8 char. */ \
"31: slgfi %[R_OUTLEN],1\n\t" \
" jl 90f \n\t" \
" stc %[R_TMP],0(%[R_OUT])\n\t" \
" la %[R_IN],4(%[R_IN])\n\t" \
" la %[R_OUT],1(%[R_OUT])\n\t" \
" brctg %[R_TMP2],20b\n\t" \
" j 0b\n\t" /* Switch to vx-loop. */ \
/* Test if ch is 2byte UTF-8 char. */ \
"22: clfi %[R_TMP],0x7ff\n\t" \
" jh 23f\n\t" \
/* Handle 2-byte UTF-8 char. */ \
"32: slgfi %[R_OUTLEN],2\n\t" \
" jl 90f \n\t" \
" llill %[R_TMP3],0xc080\n\t" \
" risbgn %[R_TMP3],%[R_TMP],51,55,2\n\t" /* 1. byte. */ \
" risbgn %[R_TMP3],%[R_TMP],58,63,0\n\t" /* 2. byte. */ \
" sth %[R_TMP3],0(%[R_OUT])\n\t" \
" la %[R_IN],4(%[R_IN])\n\t" \
" la %[R_OUT],2(%[R_OUT])\n\t" \
" brctg %[R_TMP2],20b\n\t" \
" j 0b\n\t" /* Switch to vx-loop. */ \
/* Test if ch is 3-byte UTF-8 char. */ \
"23: clfi %[R_TMP],0xffff\n\t" \
" jh 24f\n\t" \
/* Handle 3-byte UTF-8 char. */ \
"33: slgfi %[R_OUTLEN],3\n\t" \
" jl 90f \n\t" \
" llilf %[R_TMP3],0xe08080\n\t" \
" risbgn %[R_TMP3],%[R_TMP],44,47,4\n\t" /* 1. byte. */ \
" risbgn %[R_TMP3],%[R_TMP],50,55,2\n\t" /* 2. byte. */ \
" risbgn %[R_TMP3],%[R_TMP],58,63,0\n\t" /* 3. byte. */ \
/* Test if ch is a UTF-16 surrogate: ch & 0xf800 == 0xd800 */ \
" nilf %[R_TMP],0xf800\n\t" \
" clfi %[R_TMP],0xd800\n\t" \
" je 91f\n\t" /* Do not accept UTF-16 surrogates. */ \
" stcm %[R_TMP3],7,0(%[R_OUT])\n\t" \
" la %[R_IN],4(%[R_IN])\n\t" \
" la %[R_OUT],3(%[R_OUT])\n\t" \
" brctg %[R_TMP2],20b\n\t" \
" j 0b\n\t" /* Switch to vx-loop. */ \
/* Test if ch is 4-byte UTF-8 char. */ \
"24: clfi %[R_TMP],0x10ffff\n\t" \
" jh 91f\n\t" /* ch > 0x10ffff is not allowed! */ \
/* Handle 4-byte UTF-8 char. */ \
"34: slgfi %[R_OUTLEN],4\n\t" \
" jl 90f \n\t" \
" llilf %[R_TMP3],0xf0808080\n\t" \
" risbgn %[R_TMP3],%[R_TMP],37,39,6\n\t" /* 1. byte. */ \
" risbgn %[R_TMP3],%[R_TMP],42,47,4\n\t" /* 2. byte. */ \
" risbgn %[R_TMP3],%[R_TMP],50,55,2\n\t" /* 3. byte. */ \
" risbgn %[R_TMP3],%[R_TMP],58,63,0\n\t" /* 4. byte. */ \
" st %[R_TMP3],0(%[R_OUT])\n\t" \
" la %[R_IN],4(%[R_IN])\n\t" \
" la %[R_OUT],4(%[R_OUT])\n\t" \
" brctg %[R_TMP2],20b\n\t" \
" j 0b\n\t" /* Switch to vx-loop. */ \
"92: lghi %[R_RES],%[RES_IN_FULL]\n\t" \
" j 99f\n\t" \
"91: lghi %[R_RES],%[RES_IN_ILL]\n\t" \
" j 99f\n\t" \
"90: lghi %[R_RES],%[RES_OUT_FULL]\n\t" \
"99: \n\t" \
".machine pop" \
: /* outputs */ [R_IN] "+a" (inptr) \
, [R_INLEN] "+d" (inlen), [R_OUT] "+a" (outptr) \
, [R_OUTLEN] "+d" (outlen), [R_TMP] "=a" (tmp) \
, [R_TMP2] "=a" (tmp2), [R_TMP3] "=d" (tmp3) \
, [R_RES] "+d" (result) \
: /* inputs */ \
[RES_OUT_FULL] "i" (__GCONV_FULL_OUTPUT) \
, [RES_IN_ILL] "i" (__GCONV_ILLEGAL_INPUT) \
, [RES_IN_FULL] "i" (__GCONV_INCOMPLETE_INPUT) \
: /* clobber list */ "memory", "cc" \
ASM_CLOBBER_VR ("v16") ASM_CLOBBER_VR ("v17") \
ASM_CLOBBER_VR ("v18") ASM_CLOBBER_VR ("v19") \
ASM_CLOBBER_VR ("v20") ASM_CLOBBER_VR ("v21") \
ASM_CLOBBER_VR ("v22") ASM_CLOBBER_VR ("v23") \
ASM_CLOBBER_VR ("v24") \
); \
if (__glibc_likely (inptr == inend) \
|| result != __GCONV_ILLEGAL_INPUT) \
break; \
\
STANDARD_TO_LOOP_ERR_HANDLER (4); \
}
/* Generate loop-function with software routing. */
#define MIN_NEEDED_INPUT MIN_NEEDED_TO
#define MIN_NEEDED_OUTPUT MIN_NEEDED_FROM
#define MAX_NEEDED_OUTPUT MAX_NEEDED_FROM
#define LOOPFCT __to_utf8_loop_c
#define BODY BODY_TO_C
#define LOOP_NEED_FLAGS
#include <iconv/loop.c>
#if defined HAVE_S390_VX_ASM_SUPPORT
/* Generate loop-function with hardware vector and utf-convert instructions. */
# define MIN_NEEDED_INPUT MIN_NEEDED_TO
# define MIN_NEEDED_OUTPUT MIN_NEEDED_FROM
# define MAX_NEEDED_OUTPUT MAX_NEEDED_FROM
# define LOOPFCT __to_utf8_loop_vx
# define BODY BODY_TO_VX
# define LOOP_NEED_FLAGS
# include <iconv/loop.c>
#endif
/* Generate ifunc'ed loop function. */
__typeof(__to_utf8_loop_c)
__attribute__ ((ifunc ("__to_utf8_loop_resolver")))
__to_utf8_loop;
static void *
__to_utf8_loop_resolver (unsigned long int dl_hwcap)
{
#if defined HAVE_S390_VX_ASM_SUPPORT
if (dl_hwcap & HWCAP_S390_VX)
return __to_utf8_loop_vx;
else
#endif
return __to_utf8_loop_c;
}
strong_alias (__to_utf8_loop_c_single, __to_utf8_loop_single)
#include <iconv/skeleton.c>
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