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/*
* fast fgets() replacement for log parsing
*
* Copyright 2000-2012 Willy Tarreau <w@1wt.eu>
*
* This 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, version 2.1
* exclusively.
*
* This 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 this library; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* This function manages its own buffer and returns a pointer to that buffer
* in order to avoid expensive memory copies. It also checks for line breaks
* 32 or 64 bits at a time. It could be improved a lot using mmap() but we
* would not be allowed to replace trailing \n with zeroes and we would be
* limited to small log files on 32-bit machines.
*
*/
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <unistd.h>
#ifndef FGETS2_BUFSIZE
#define FGETS2_BUFSIZE (256*1024)
#endif
/* memchr() is faster in glibc with SSE since commit 093ecf92998de2 */
#if defined(__x86_64__) && defined(__GLIBC__) && (__GLIBC__ > 2 || (__GLIBC__ == 2 && __GLIBC_MINOR__ >= 15))
#define USE_MEMCHR
#endif
/* return non-zero if the integer contains at least one zero byte */
static inline __attribute__((unused)) unsigned int has_zero32(unsigned int x)
{
unsigned int y;
/* Principle: we want to perform 4 tests on one 32-bit int at once. For
* this, we have to simulate an SIMD instruction which we don't have by
* default. The principle is that a zero byte is the only one which
* will cause a 1 to appear on the upper bit of a byte/word/etc... when
* we subtract 1. So we can detect a zero byte if a one appears at any
* of the bits 7, 15, 23 or 31 where it was not. It takes only one
* instruction to test for the presence of any of these bits, but it is
* still complex to check for their initial absence. Thus, we'll
* proceed differently : we first save and clear only those bits, then
* we check in the final result if one of them is present and was not.
* The order of operations below is important to save registers and
* tests. The result is used as a boolean, so the last test must apply
* on the constant so that it can efficiently be inlined.
*/
#if defined(__i386__)
/* gcc on x86 loves copying registers over and over even on code that
* simple, so let's do it by hand to prevent it from doing so :-(
*/
asm("lea -0x01010101(%0),%1\n"
"not %0\n"
"and %1,%0\n"
: "=a" (x), "=r"(y)
: "0" (x)
);
return x & 0x80808080;
#else
y = x - 0x01010101; /* generate a carry */
x = ~x & y; /* clear the bits that were already set */
return x & 0x80808080;
#endif
}
/* return non-zero if the argument contains at least one zero byte. See principle above. */
static inline __attribute__((unused)) unsigned long long has_zero64(unsigned long long x)
{
unsigned long long y;
y = x - 0x0101010101010101ULL; /* generate a carry */
y &= ~x; /* clear the bits that were already set */
return y & 0x8080808080808080ULL;
}
static inline __attribute__((unused)) unsigned long has_zero(unsigned long x)
{
return (sizeof(x) == 8) ? has_zero64(x) : has_zero32(x);
}
/* find a '\n' between <next> and <end>. Warning: may read slightly past <end>.
* If no '\n' is found, <end> is returned.
*/
static char *find_lf(char *next, char *end)
{
#if defined USE_MEMCHR
/* some recent libc use platform-specific optimizations to provide more
* efficient byte search than below (eg: glibc 2.11 on x86_64).
*/
next = memchr(next, '\n', end - next);
if (!next)
next = end;
#else
if (sizeof(long) == 4) { /* 32-bit system */
/* this is a speed-up, we read 32 bits at once and check for an
* LF character there. We stop if found then continue one at a
* time.
*/
while (next < end && (((unsigned long)next) & 3) && *next != '\n')
next++;
/* Now next is multiple of 4 or equal to end. We know we can safely
* read up to 32 bytes past end if needed because they're allocated.
*/
while (next < end) {
if (has_zero32(*(unsigned int *)next ^ 0x0A0A0A0A))
break;
next += 4;
if (has_zero32(*(unsigned int *)next ^ 0x0A0A0A0A))
break;
next += 4;
if (has_zero32(*(unsigned int *)next ^ 0x0A0A0A0A))
break;
next += 4;
if (has_zero32(*(unsigned int *)next ^ 0x0A0A0A0A))
break;
next += 4;
if (has_zero32(*(unsigned int *)next ^ 0x0A0A0A0A))
break;
next += 4;
if (has_zero32(*(unsigned int *)next ^ 0x0A0A0A0A))
break;
next += 4;
if (has_zero32(*(unsigned int *)next ^ 0x0A0A0A0A))
break;
next += 4;
if (has_zero32(*(unsigned int *)next ^ 0x0A0A0A0A))
break;
next += 4;
}
}
else { /* 64-bit system */
/* this is a speed-up, we read 64 bits at once and check for an
* LF character there. We stop if found then continue one at a
* time.
*/
if (next <= end) {
/* max 3 bytes tested here */
while ((((unsigned long)next) & 3) && *next != '\n')
next++;
/* maybe we have can skip 4 more bytes */
if ((((unsigned long)next) & 4) && !has_zero32(*(unsigned int *)next ^ 0x0A0A0A0AU))
next += 4;
}
/* now next is multiple of 8 or equal to end */
while (next <= (end-68)) {
if (has_zero64(*(unsigned long long *)next ^ 0x0A0A0A0A0A0A0A0AULL))
break;
next += 8;
if (has_zero64(*(unsigned long long *)next ^ 0x0A0A0A0A0A0A0A0AULL))
break;
next += 8;
if (has_zero64(*(unsigned long long *)next ^ 0x0A0A0A0A0A0A0A0AULL))
break;
next += 8;
if (has_zero64(*(unsigned long long *)next ^ 0x0A0A0A0A0A0A0A0AULL))
break;
next += 8;
if (has_zero64(*(unsigned long long *)next ^ 0x0A0A0A0A0A0A0A0AULL))
break;
next += 8;
if (has_zero64(*(unsigned long long *)next ^ 0x0A0A0A0A0A0A0A0AULL))
break;
next += 8;
if (has_zero64(*(unsigned long long *)next ^ 0x0A0A0A0A0A0A0A0AULL))
break;
next += 8;
if (has_zero64(*(unsigned long long *)next ^ 0x0A0A0A0A0A0A0A0AULL))
break;
next += 8;
}
/* maybe we can skip 4 more bytes */
if (!has_zero32(*(unsigned int *)next ^ 0x0A0A0A0AU))
next += 4;
}
/* We finish if needed : if <next> is below <end>, it means we
* found an LF in one of the 4 following bytes.
*/
while (next < end) {
if (*next == '\n')
break;
next++;
}
#endif
return next;
}
const char *fgets2(FILE *stream)
{
static char buffer[FGETS2_BUFSIZE + 68]; /* Note: +32 is enough on 32-bit systems */
static char *end = buffer;
static char *line = buffer;
char *next;
int ret;
next = line;
while (1) {
next = find_lf(next, end);
if (next < end) {
const char *start = line;
*next = '\0';
line = next + 1;
return start;
}
/* we found an incomplete line. First, let's move the
* remaining part of the buffer to the beginning, then
* try to complete the buffer with a new read. We can't
* rely on <next> anymore because it went past <end>.
*/
if (line > buffer) {
if (end != line)
memmove(buffer, line, end - line);
end = buffer + (end - line);
next = end;
line = buffer;
} else {
if (end == buffer + FGETS2_BUFSIZE)
return NULL;
}
ret = read(fileno(stream), end, buffer + FGETS2_BUFSIZE - end);
if (ret <= 0) {
if (end == line)
return NULL;
*end = '\0';
end = line; /* ensure we stop next time */
return line;
}
end += ret;
*end = '\n'; /* make parser stop ASAP */
/* search for '\n' again */
}
}
#ifdef BENCHMARK
int main() {
const char *p;
unsigned int lines = 0;
while ((p=fgets2(stdin)))
lines++;
printf("lines=%u\n", lines);
return 0;
}
#endif
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