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|
/* Copyright 1992, 1993, 1994 Henry Spencer. All rights reserved.
See file COPYRIGHT for details.
This file was modified by Oracle on 2015-05-18 for 32-bit compatibility.
Modifications copyright (c) 2015, 2016, Oracle and/or its affiliates. All rights
reserved. */
#include <my_global.h>
#include <m_string.h>
#include <m_ctype.h>
#ifdef __WIN__
#include <limits.h>
#endif
#include "my_regex.h"
#include "utils.h"
#include "regex2.h"
#include "cclass.h"
#include "cname.h"
/*
* parse structure, passed up and down to avoid global variables and
* other clumsinesses
*/
struct parse {
char *next; /* next character in RE */
char *end; /* end of string (-> NUL normally) */
int error; /* has an error been seen? */
sop *strip; /* malloced strip */
sopno ssize; /* malloced strip size (allocated) */
sopno slen; /* malloced strip length (used) */
int ncsalloc; /* number of csets allocated */
struct re_guts *g;
# define NPAREN 10 /* we need to remember () 1-9 for back refs */
sopno pbegin[NPAREN]; /* -> ( ([0] unused) */
sopno pend[NPAREN]; /* -> ) ([0] unused) */
CHARSET_INFO *charset; /* for ctype things */
};
/* Check if there is enough stack space for recursion. */
my_regex_stack_check_t my_regex_enough_mem_in_stack= NULL;
#include "regcomp.ih"
static char nuls[10]; /* place to point scanner in event of error */
struct cclass cclasses[CCLASS_LAST+1]= {
{ "alnum", "","", _MY_U | _MY_L | _MY_NMR},
{ "alpha", "","", _MY_U | _MY_L },
{ "blank", "","", _MY_B },
{ "cntrl", "","", _MY_CTR },
{ "digit", "","", _MY_NMR },
{ "graph", "","", _MY_PNT | _MY_U | _MY_L | _MY_NMR},
{ "lower", "","", _MY_L },
{ "print", "","", _MY_PNT | _MY_U | _MY_L | _MY_NMR | _MY_B },
{ "punct", "","", _MY_PNT },
{ "space", "","", _MY_SPC },
{ "upper", "","", _MY_U },
{ "xdigit", "","", _MY_X },
{ NULL,NULL,NULL, 0 }
};
/*
* macros for use with parse structure
* BEWARE: these know that the parse structure is named `p' !!!
*/
#define PEEK() (*p->next)
#define PEEK2() (*(p->next+1))
#define MORE() (p->next < p->end)
#define MORE2() (p->next+1 < p->end)
#define SEE(c) (MORE() && PEEK() == (c))
#define SEETWO(a, b) (MORE() && MORE2() && PEEK() == (a) && PEEK2() == (b))
#define EAT(c) ((SEE(c)) ? (NEXT(), 1) : 0)
#define EATTWO(a, b) ((SEETWO(a, b)) ? (NEXT2(), 1) : 0)
#define NEXT() (p->next++)
#define NEXT2() (p->next += 2)
#define NEXTn(n) (p->next += (n))
#define GETNEXT() (*p->next++)
#define SETERROR(e) seterr(p, (e))
#define REQUIRE(co, e) ((co) || SETERROR(e))
#define MUSTSEE(c, e) (REQUIRE(MORE() && PEEK() == (c), e))
#define MUSTEAT(c, e) (REQUIRE(MORE() && GETNEXT() == (c), e))
#define MUSTNOTSEE(c, e) (REQUIRE(!MORE() || PEEK() != (c), e))
#define EMIT(op, sopnd) doemit(p, (sop)(op), (size_t)(sopnd))
#define INSERT(op, pos) doinsert(p, (sop)(op), HERE()-(pos)+1, pos)
#define AHEAD(pos) dofwd(p, pos, HERE()-(pos))
#define ASTERN(sop, pos) EMIT(sop, HERE()-pos)
#define HERE() (p->slen)
#define THERE() (p->slen - 1)
#define THERETHERE() (p->slen - 2)
#define DROP(n) (p->slen -= (n))
#ifndef NDEBUG
static int never = 0; /* for use in asserts; shuts lint up */
#else
#define never 0 /* some <assert.h>s have bugs too */
#endif
/*
- regcomp - interface for parser and compilation
= extern int regcomp(regex_t *, const char *, int);
= #define REG_BASIC 0000
= #define REG_EXTENDED 0001
= #define REG_ICASE 0002
= #define REG_NOSUB 0004
= #define REG_NEWLINE 0010
= #define REG_NOSPEC 0020
= #define REG_PEND 0040
= #define REG_DUMP 0200
*/
int /* 0 success, otherwise REG_something */
my_regcomp(preg, pattern, cflags, charset)
my_regex_t *preg;
const char *pattern;
int cflags;
CHARSET_INFO *charset;
{
struct parse pa;
register struct re_guts *g;
register struct parse *p = &pa;
register int i;
register size_t len;
#ifdef REDEBUG
# define GOODFLAGS(f) (f)
#else
# define GOODFLAGS(f) ((f)&~REG_DUMP)
#endif
my_regex_init(charset, NULL); /* Init cclass if neaded */
preg->charset=charset;
cflags = GOODFLAGS(cflags);
if ((cflags®_EXTENDED) && (cflags®_NOSPEC))
return(REG_INVARG);
if (cflags®_PEND) {
if (preg->re_endp < pattern)
return(REG_INVARG);
len = preg->re_endp - pattern;
} else
len = strlen((char *)pattern);
/*
Find the maximum len we can safely process
without a rollover and a mis-malloc.
p->ssize is a sopno is a long (32+ bit signed);
size_t is 16+ bit unsigned.
*/
{
size_t new_ssize = len / (size_t)2 * (size_t)3 + (size_t)1; /* ugh */
if ((new_ssize < len) || /* size_t rolled over */
((SIZE_T_MAX / sizeof(sop)) < new_ssize) || /* malloc arg */
(new_ssize > LONG_MAX)) /* won't fit in ssize */
return(REG_ESPACE); /* MY_REG_ESPACE or MY_REG_INVARG */
p->ssize = new_ssize;
}
/* do the mallocs early so failure handling is easy */
g = (struct re_guts *)malloc(sizeof(struct re_guts) +
(NC-1)*sizeof(cat_t));
if (g == NULL)
return(REG_ESPACE);
p->strip = (sop *)malloc(p->ssize * sizeof(sop));
p->slen = 0;
if (p->strip == NULL) {
free((char *)g);
return(REG_ESPACE);
}
/* set things up */
p->g = g;
p->next = (char *)pattern; /* convenience; we do not modify it */
p->end = p->next + len;
p->error = 0;
p->ncsalloc = 0;
p->charset = preg->charset;
for (i = 0; i < NPAREN; i++) {
p->pbegin[i] = 0;
p->pend[i] = 0;
}
g->csetsize = NC;
g->sets = NULL;
g->setbits = NULL;
g->ncsets = 0;
g->cflags = cflags;
g->iflags = 0;
g->nbol = 0;
g->neol = 0;
g->must = NULL;
g->mlen = 0;
g->nsub = 0;
g->ncategories = 1; /* category 0 is "everything else" */
g->categories = &g->catspace[-(CHAR_MIN)];
(void) memset((char *)g->catspace, 0, NC*sizeof(cat_t));
g->backrefs = 0;
/* do it */
EMIT(OEND, 0);
g->firststate = THERE();
if (cflags®_EXTENDED)
p_ere(p, OUT);
else if (cflags®_NOSPEC)
p_str(p);
else
p_bre(p, OUT, OUT);
EMIT(OEND, 0);
g->laststate = THERE();
/* tidy up loose ends and fill things in */
categorize(p, g);
stripsnug(p, g);
findmust(p, g);
g->nplus = pluscount(p, g);
g->magic = MAGIC2;
preg->re_nsub = g->nsub;
preg->re_g = g;
preg->re_magic = MAGIC1;
#ifndef REDEBUG
/* not debugging, so can't rely on the assert() in regexec() */
if (g->iflags&BAD)
SETERROR(REG_ASSERT);
#endif
/* win or lose, we're done */
if (p->error != 0) /* lose */
my_regfree(preg);
return(p->error);
}
/*
- p_ere - ERE parser top level, concatenation and alternation
== static void p_ere(register struct parse *p, int stop);
*/
static void
p_ere(p, stop)
register struct parse *p;
int stop; /* character this ERE should end at */
{
register char c;
register sopno UNINIT_VAR(prevback);
register sopno UNINIT_VAR(prevfwd);
register sopno conc;
register int first = 1; /* is this the first alternative? */
for (;;) {
/* do a bunch of concatenated expressions */
conc = HERE();
while (MORE() && (c = PEEK()) != '|' && c != stop)
{
if (my_regex_enough_mem_in_stack &&
my_regex_enough_mem_in_stack(0))
{
SETERROR(REG_ESPACE);
return;
}
p_ere_exp(p);
}
if(REQUIRE(HERE() != conc, REG_EMPTY)) {}/* require nonempty */
if (!EAT('|'))
break; /* NOTE BREAK OUT */
if (first) {
INSERT(OCH_, conc); /* offset is wrong */
prevfwd = conc;
prevback = conc;
first = 0;
}
ASTERN(OOR1, prevback);
prevback = THERE();
AHEAD(prevfwd); /* fix previous offset */
prevfwd = HERE();
EMIT(OOR2, 0); /* offset is very wrong */
}
if (!first) { /* tail-end fixups */
AHEAD(prevfwd);
ASTERN(O_CH, prevback);
}
assert(!MORE() || SEE(stop));
}
/*
- p_ere_exp - parse one subERE, an atom possibly followed by a repetition op
== static void p_ere_exp(register struct parse *p);
*/
static void
p_ere_exp(p)
register struct parse *p;
{
register char c;
register sopno pos;
register int count;
register int count2;
register sopno subno;
int wascaret = 0;
assert(MORE()); /* caller should have ensured this */
c = GETNEXT();
pos = HERE();
switch (c) {
case '(':
if(REQUIRE(MORE(), REG_EPAREN)) {}
p->g->nsub++;
subno = (sopno) p->g->nsub;
if (subno < NPAREN)
p->pbegin[subno] = HERE();
EMIT(OLPAREN, subno);
if (!SEE(')'))
p_ere(p, ')');
if (subno < NPAREN) {
p->pend[subno] = HERE();
assert(p->pend[subno] != 0);
}
EMIT(ORPAREN, subno);
if(MUSTEAT(')', REG_EPAREN)) {}
break;
case '^':
EMIT(OBOL, 0);
p->g->iflags |= USEBOL;
p->g->nbol++;
wascaret = 1;
break;
case '$':
EMIT(OEOL, 0);
p->g->iflags |= USEEOL;
p->g->neol++;
break;
case '|':
SETERROR(REG_EMPTY);
break;
case '*':
case '+':
case '?':
SETERROR(REG_BADRPT);
break;
case '.':
if (p->g->cflags®_NEWLINE)
nonnewline(p);
else
EMIT(OANY, 0);
break;
case '[':
p_bracket(p);
break;
case '\\':
if(REQUIRE(MORE(), REG_EESCAPE)) {}
c = GETNEXT();
ordinary(p, c);
break;
case '{': /* okay as ordinary except if digit follows */
if(REQUIRE(!MORE() || !my_isdigit(p->charset,PEEK()), REG_BADRPT)) {}
/* FALLTHROUGH */
default:
ordinary(p, c);
break;
}
if (!MORE())
return;
c = PEEK();
/* we call { a repetition if followed by a digit */
if (!( c == '*' || c == '+' || c == '?' ||
(c == '{' && MORE2() &&
my_isdigit(p->charset,PEEK2())) ))
return; /* no repetition, we're done */
NEXT();
if(REQUIRE(!wascaret, REG_BADRPT)) {}
switch (c) {
case '*': /* implemented as +? */
/* this case does not require the (y|) trick, noKLUDGE */
INSERT(OPLUS_, pos);
ASTERN(O_PLUS, pos);
INSERT(OQUEST_, pos);
ASTERN(O_QUEST, pos);
break;
case '+':
INSERT(OPLUS_, pos);
ASTERN(O_PLUS, pos);
break;
case '?':
/* KLUDGE: emit y? as (y|) until subtle bug gets fixed */
INSERT(OCH_, pos); /* offset slightly wrong */
ASTERN(OOR1, pos); /* this one's right */
AHEAD(pos); /* fix the OCH_ */
EMIT(OOR2, 0); /* offset very wrong... */
AHEAD(THERE()); /* ...so fix it */
ASTERN(O_CH, THERETHERE());
break;
case '{':
count = p_count(p);
if (EAT(',')) {
if (my_isdigit(p->charset,PEEK())) {
count2 = p_count(p);
if(REQUIRE(count <= count2, REG_BADBR)) {}
} else /* single number with comma */
count2 = RE_INFINITY;
} else /* just a single number */
count2 = count;
repeat(p, pos, count, count2);
if (!EAT('}')) { /* error heuristics */
while (MORE() && PEEK() != '}')
NEXT();
if(REQUIRE(MORE(), REG_EBRACE)) {}
SETERROR(REG_BADBR);
}
break;
}
if (!MORE())
return;
c = PEEK();
if (!( c == '*' || c == '+' || c == '?' ||
(c == '{' && MORE2() &&
my_isdigit(p->charset,PEEK2())) ) )
return;
SETERROR(REG_BADRPT);
}
/*
- p_str - string (no metacharacters) "parser"
== static void p_str(register struct parse *p);
*/
static void
p_str(p)
register struct parse *p;
{
if(REQUIRE(MORE(), REG_EMPTY)) {}
while (MORE())
ordinary(p, GETNEXT());
}
/*
- p_bre - BRE parser top level, anchoring and concatenation
== static void p_bre(register struct parse *p, register int end1, \
== register int end2);
* Giving end1 as OUT essentially eliminates the end1/end2 check.
*
* This implementation is a bit of a kludge, in that a trailing $ is first
* taken as an ordinary character and then revised to be an anchor. The
* only undesirable side effect is that '$' gets included as a character
* category in such cases. This is fairly harmless; not worth fixing.
* The amount of lookahead needed to avoid this kludge is excessive.
*/
static void
p_bre(p, end1, end2)
register struct parse *p;
register int end1; /* first terminating character */
register int end2; /* second terminating character */
{
register sopno start = HERE();
register int first = 1; /* first subexpression? */
register int wasdollar = 0;
if (EAT('^')) {
EMIT(OBOL, 0);
p->g->iflags |= USEBOL;
p->g->nbol++;
}
while (MORE() && !SEETWO(end1, end2)) {
wasdollar = p_simp_re(p, first);
first = 0;
}
if (wasdollar) { /* oops, that was a trailing anchor */
DROP(1);
EMIT(OEOL, 0);
p->g->iflags |= USEEOL;
p->g->neol++;
}
if(REQUIRE(HERE() != start, REG_EMPTY)) {} /* require nonempty */
}
/*
- p_simp_re - parse a simple RE, an atom possibly followed by a repetition
== static int p_simp_re(register struct parse *p, int starordinary);
*/
static int /* was the simple RE an unbackslashed $? */
p_simp_re(p, starordinary)
register struct parse *p;
int starordinary; /* is a leading * an ordinary character? */
{
register int c;
register int count;
register int count2;
register sopno pos;
register int i;
register sopno subno;
# define BACKSL (1<<CHAR_BIT)
pos = HERE(); /* repetion op, if any, covers from here */
assert(MORE()); /* caller should have ensured this */
c = GETNEXT();
if (c == '\\') {
if(REQUIRE(MORE(), REG_EESCAPE)) {}
c = BACKSL | (unsigned char)GETNEXT();
}
switch (c) {
case '.':
if (p->g->cflags®_NEWLINE)
nonnewline(p);
else
EMIT(OANY, 0);
break;
case '[':
p_bracket(p);
break;
case BACKSL|'{':
SETERROR(REG_BADRPT);
break;
case BACKSL|'(':
p->g->nsub++;
subno = (sopno) p->g->nsub;
if (subno < NPAREN)
p->pbegin[subno] = HERE();
EMIT(OLPAREN, subno);
/* the MORE here is an error heuristic */
if (MORE() && !SEETWO('\\', ')'))
p_bre(p, '\\', ')');
if (subno < NPAREN) {
p->pend[subno] = HERE();
assert(p->pend[subno] != 0);
}
EMIT(ORPAREN, subno);
if(REQUIRE(EATTWO('\\', ')'), REG_EPAREN)) {}
break;
case BACKSL|')': /* should not get here -- must be user */
case BACKSL|'}':
SETERROR(REG_EPAREN);
break;
case BACKSL|'1':
case BACKSL|'2':
case BACKSL|'3':
case BACKSL|'4':
case BACKSL|'5':
case BACKSL|'6':
case BACKSL|'7':
case BACKSL|'8':
case BACKSL|'9':
i = (c&~BACKSL) - '0';
assert(i < NPAREN);
if (p->pend[i] != 0) {
assert((uint) i <= p->g->nsub);
EMIT(OBACK_, i);
assert(p->pbegin[i] != 0);
assert(OP(p->strip[p->pbegin[i]]) == OLPAREN);
assert(OP(p->strip[p->pend[i]]) == ORPAREN);
(void) dupl(p, p->pbegin[i]+1, p->pend[i]);
if (p->error != 0)
break; /* purecov: inspected */
EMIT(O_BACK, i);
} else
SETERROR(REG_ESUBREG);
p->g->backrefs = 1;
break;
case '*':
if(REQUIRE(starordinary, REG_BADRPT)) {}
/* FALLTHROUGH */
default:
ordinary(p, c &~ BACKSL);
break;
}
if (EAT('*')) { /* implemented as +? */
/* this case does not require the (y|) trick, noKLUDGE */
INSERT(OPLUS_, pos);
ASTERN(O_PLUS, pos);
INSERT(OQUEST_, pos);
ASTERN(O_QUEST, pos);
} else if (EATTWO('\\', '{')) {
count = p_count(p);
if (EAT(',')) {
if (MORE() && my_isdigit(p->charset,PEEK())) {
count2 = p_count(p);
if(REQUIRE(count <= count2, REG_BADBR)) {}
} else /* single number with comma */
count2 = RE_INFINITY;
} else /* just a single number */
count2 = count;
repeat(p, pos, count, count2);
if (!EATTWO('\\', '}')) { /* error heuristics */
while (MORE() && !SEETWO('\\', '}'))
NEXT();
if(REQUIRE(MORE(), REG_EBRACE)) {}
SETERROR(REG_BADBR);
}
} else if (c == (unsigned char)'$') /* $ (but not \$) ends it */
return(1);
return(0);
}
/*
- p_count - parse a repetition count
== static int p_count(register struct parse *p);
*/
static int /* the value */
p_count(p)
register struct parse *p;
{
register int count = 0;
register int ndigits = 0;
while (MORE() && my_isdigit(p->charset,PEEK()) && count <= DUPMAX) {
count = count*10 + (GETNEXT() - '0');
ndigits++;
}
if(REQUIRE(ndigits > 0 && count <= DUPMAX, REG_BADBR)) {}
return(count);
}
/*
- p_bracket - parse a bracketed character list
== static void p_bracket(register struct parse *p);
*
* Note a significant property of this code: if the allocset() did SETERROR,
* no set operations are done.
*/
static void
p_bracket(p)
register struct parse *p;
{
register cset *cs = allocset(p);
register int invert = 0;
/* Dept of Truly Sickening Special-Case Kludges */
if (p->next + 5 < p->end && strncmp(p->next, "[:<:]]", 6) == 0) {
EMIT(OBOW, 0);
NEXTn(6);
return;
}
if (p->next + 5 < p->end && strncmp(p->next, "[:>:]]", 6) == 0) {
EMIT(OEOW, 0);
NEXTn(6);
return;
}
if (EAT('^'))
invert++; /* make note to invert set at end */
if (EAT(']'))
CHadd(cs, ']');
else if (EAT('-'))
CHadd(cs, '-');
while (MORE() && PEEK() != ']' && !SEETWO('-', ']'))
p_b_term(p, cs);
if (EAT('-'))
CHadd(cs, '-');
if(MUSTEAT(']', REG_EBRACK)) {}
if (p->error != 0) /* don't mess things up further */
return;
if (p->g->cflags®_ICASE) {
register int i;
register int ci;
for (i = p->g->csetsize - 1; i >= 0; i--)
if (CHIN(cs, i) && my_isalpha(p->charset,i)) {
ci = othercase(p->charset,i);
if (ci != i)
CHadd(cs, ci);
}
if (cs->multis != NULL)
mccase(p, cs);
}
if (invert) {
register int i;
for (i = p->g->csetsize - 1; i >= 0; i--)
if (CHIN(cs, i))
CHsub(cs, i);
else
CHadd(cs, i);
if (p->g->cflags®_NEWLINE)
CHsub(cs, '\n');
if (cs->multis != NULL)
mcinvert(p, cs);
}
assert(cs->multis == NULL); /* xxx */
if (nch(p, cs) == 1) { /* optimize singleton sets */
ordinary(p, firstch(p, cs));
freeset(p, cs);
} else
EMIT(OANYOF, freezeset(p, cs));
}
/*
- p_b_term - parse one term of a bracketed character list
== static void p_b_term(register struct parse *p, register cset *cs);
*/
static void
p_b_term(p, cs)
register struct parse *p;
register cset *cs;
{
register char c;
register char start, finish;
register int i;
/* classify what we've got */
switch ((MORE()) ? PEEK() : '\0') {
case '[':
c = (MORE2()) ? PEEK2() : '\0';
break;
case '-':
SETERROR(REG_ERANGE);
return; /* NOTE RETURN */
default:
c = '\0';
break;
}
switch (c) {
case ':': /* character class */
NEXT2();
if(REQUIRE(MORE(), REG_EBRACK)) {}
c = PEEK();
if(REQUIRE(c != '-' && c != ']', REG_ECTYPE)) {}
p_b_cclass(p, cs);
if(REQUIRE(MORE(), REG_EBRACK)) {}
if(REQUIRE(EATTWO(':', ']'), REG_ECTYPE)) {}
break;
case '=': /* equivalence class */
NEXT2();
if(REQUIRE(MORE(), REG_EBRACK)) {}
c = PEEK();
if(REQUIRE(c != '-' && c != ']', REG_ECOLLATE)) {}
p_b_eclass(p, cs);
if(REQUIRE(MORE(), REG_EBRACK)) {}
if(REQUIRE(EATTWO('=', ']'), REG_ECOLLATE)) {}
break;
default: /* symbol, ordinary character, or range */
/* xxx revision needed for multichar stuff */
start = p_b_symbol(p);
if (SEE('-') && MORE2() && PEEK2() != ']') {
/* range */
NEXT();
if (EAT('-'))
finish = '-';
else
finish = p_b_symbol(p);
} else
finish = start;
/* xxx what about signed chars here... */
if(REQUIRE(start <= finish, REG_ERANGE)) {}
for (i = start; i <= finish; i++)
CHadd(cs, i);
break;
}
}
/*
- p_b_cclass - parse a character-class name and deal with it
== static void p_b_cclass(register struct parse *p, register cset *cs);
*/
static void
p_b_cclass(p, cs)
register struct parse *p;
register cset *cs;
{
register char *sp = p->next;
register struct cclass *cp;
register size_t len;
while (MORE() && my_isalpha(p->charset,PEEK()))
NEXT();
len = p->next - sp;
for (cp = cclasses; cp->name != NULL; cp++)
if (strncmp(cp->name, sp, len) == 0 && cp->name[len] == '\0')
break;
if (cp->name == NULL) {
/* oops, didn't find it */
SETERROR(REG_ECTYPE);
return;
}
#ifndef USE_ORIG_REGEX_CODE
{
register size_t i;
for (i=1 ; i<256 ; i++)
if (p->charset->ctype[i+1] & cp->mask)
CHadd(cs, i);
}
#else
{
register char *u = (char*) cp->chars;
register char c;
while ((c = *u++) != '\0')
CHadd(cs, c);
for (u = (char*) cp->multis; *u != '\0'; u += strlen(u) + 1)
MCadd(p, cs, u);
}
#endif
}
/*
- p_b_eclass - parse an equivalence-class name and deal with it
== static void p_b_eclass(register struct parse *p, register cset *cs);
*
* This implementation is incomplete. xxx
*/
static void
p_b_eclass(p, cs)
register struct parse *p;
register cset *cs;
{
register char c;
c = p_b_coll_elem(p, '=');
CHadd(cs, c);
}
/*
- p_b_symbol - parse a character or [..]ed multicharacter collating symbol
== static char p_b_symbol(register struct parse *p);
*/
static char /* value of symbol */
p_b_symbol(p)
register struct parse *p;
{
register char value;
if(REQUIRE(MORE(), REG_EBRACK)) {}
if (!EATTWO('[', '.'))
return(GETNEXT());
/* collating symbol */
value = p_b_coll_elem(p, '.');
if(REQUIRE(EATTWO('.', ']'), REG_ECOLLATE)) {}
return(value);
}
/*
- p_b_coll_elem - parse a collating-element name and look it up
== static char p_b_coll_elem(register struct parse *p, int endc);
*/
static char /* value of collating element */
p_b_coll_elem(p, endc)
register struct parse *p;
int endc; /* name ended by endc,']' */
{
register char *sp = p->next;
register struct cname *cp;
#ifdef _WIN64
register __int64 len;
#else
register int len;
#endif
while (MORE() && !SEETWO(endc, ']'))
NEXT();
if (!MORE()) {
SETERROR(REG_EBRACK);
return(0);
}
len = p->next - sp;
for (cp = cnames; cp->name != NULL; cp++)
if (strncmp(cp->name, sp, len) == 0 && cp->name[len] == '\0')
return(cp->code); /* known name */
if (len == 1)
return(*sp); /* single character */
SETERROR(REG_ECOLLATE); /* neither */
return(0);
}
/*
- othercase - return the case counterpart of an alphabetic
== static char othercase(int ch);
*/
static char /* if no counterpart, return ch */
othercase(charset,ch)
CHARSET_INFO *charset;
int ch;
{
/*
In MySQL some multi-byte character sets
have 'ctype' array but don't have 'to_lower'
and 'to_upper' arrays. In this case we handle
only basic latin letters a..z and A..Z.
If 'to_lower' and 'to_upper' arrays are empty in a character set,
then my_isalpha(cs, ch) should never return TRUE for characters
other than basic latin letters. Otherwise it should be
considered as a mistake in character set definition.
*/
assert(my_isalpha(charset,ch));
if (my_isupper(charset,ch))
{
return(charset->to_lower ? my_tolower(charset,ch) :
ch - 'A' + 'a');
}
else if (my_islower(charset,ch))
{
return(charset->to_upper ? my_toupper(charset,ch) :
ch - 'a' + 'A');
}
else /* peculiar, but could happen */
return(ch);
}
/*
- bothcases - emit a dualcase version of a two-case character
== static void bothcases(register struct parse *p, int ch);
*
* Boy, is this implementation ever a kludge...
*/
static void
bothcases(p, ch)
register struct parse *p;
int ch;
{
register char *oldnext = p->next;
register char *oldend = p->end;
char bracket[3];
assert(othercase(p->charset, ch) != ch); /* p_bracket() would recurse */
p->next = bracket;
p->end = bracket+2;
bracket[0] = ch;
bracket[1] = ']';
bracket[2] = '\0';
p_bracket(p);
assert(p->next == bracket+2);
p->next = oldnext;
p->end = oldend;
}
/*
- ordinary - emit an ordinary character
== static void ordinary(register struct parse *p, register int ch);
*/
static void
ordinary(p, ch)
register struct parse *p;
register int ch;
{
register cat_t *cap = p->g->categories;
if ((p->g->cflags®_ICASE) && my_isalpha(p->charset,ch) &&
othercase(p->charset,ch) != ch)
bothcases(p, ch);
else {
EMIT(OCHAR, (unsigned char)ch);
if (cap[ch] == 0)
cap[ch] = p->g->ncategories++;
}
}
/*
- nonnewline - emit REG_NEWLINE version of OANY
== static void nonnewline(register struct parse *p);
*
* Boy, is this implementation ever a kludge...
*/
static void
nonnewline(p)
register struct parse *p;
{
register char *oldnext = p->next;
register char *oldend = p->end;
char bracket[4];
p->next = bracket;
p->end = bracket+3;
bracket[0] = '^';
bracket[1] = '\n';
bracket[2] = ']';
bracket[3] = '\0';
p_bracket(p);
assert(p->next == bracket+3);
p->next = oldnext;
p->end = oldend;
}
/*
- repeat - generate code for a bounded repetition, recursively if needed
== static void repeat(register struct parse *p, sopno start, int from, int to);
*/
static void
repeat(p, start, from, to)
register struct parse *p;
sopno start; /* operand from here to end of strip */
int from; /* repeated from this number */
int to; /* to this number of times (maybe RE_INFINITY) */
{
register sopno finish = HERE();
# define N 2
# define INF 3
# define REP(f, t) ((f)*8 + (t))
# define MAP(n) (((n) <= 1) ? (n) : ((n) == RE_INFINITY) ? INF : N)
register sopno copy;
if (p->error != 0) /* head off possible runaway recursion */
return;
assert(from <= to);
switch (REP(MAP(from), MAP(to))) {
case REP(0, 0): /* must be user doing this */
DROP(finish-start); /* drop the operand */
break;
case REP(0, 1): /* as x{1,1}? */
case REP(0, N): /* as x{1,n}? */
case REP(0, INF): /* as x{1,}? */
/* KLUDGE: emit y? as (y|) until subtle bug gets fixed */
INSERT(OCH_, start); /* offset is wrong... */
repeat(p, start+1, 1, to);
ASTERN(OOR1, start);
AHEAD(start); /* ... fix it */
EMIT(OOR2, 0);
AHEAD(THERE());
ASTERN(O_CH, THERETHERE());
break;
case REP(1, 1): /* trivial case */
/* done */
break;
case REP(1, N): /* as x?x{1,n-1} */
/* KLUDGE: emit y? as (y|) until subtle bug gets fixed */
INSERT(OCH_, start);
ASTERN(OOR1, start);
AHEAD(start);
EMIT(OOR2, 0); /* offset very wrong... */
AHEAD(THERE()); /* ...so fix it */
ASTERN(O_CH, THERETHERE());
copy = dupl(p, start+1, finish+1);
if (p->error != 0)
return; /* purecov: inspected */
assert(copy == finish+4);
repeat(p, copy, 1, to-1);
break;
case REP(1, INF): /* as x+ */
INSERT(OPLUS_, start);
ASTERN(O_PLUS, start);
break;
case REP(N, N): /* as xx{m-1,n-1} */
copy = dupl(p, start, finish);
if (p->error != 0)
return;
repeat(p, copy, from-1, to-1);
break;
case REP(N, INF): /* as xx{n-1,INF} */
copy = dupl(p, start, finish);
if (p->error != 0)
return; /* purecov: inspected */
repeat(p, copy, from-1, to);
break;
default: /* "can't happen" */
SETERROR(REG_ASSERT); /* just in case */
break;
}
}
/*
- seterr - set an error condition
== static int seterr(register struct parse *p, int e);
*/
static int /* useless but makes type checking happy */
seterr(p, e)
register struct parse *p;
int e;
{
if (p->error == 0) /* keep earliest error condition */
p->error = e;
p->next = nuls; /* try to bring things to a halt */
p->end = nuls;
return(0); /* make the return value well-defined */
}
/*
- allocset - allocate a set of characters for []
== static cset *allocset(register struct parse *p);
*/
static cset *
allocset(p)
register struct parse *p;
{
register int no = p->g->ncsets++;
register size_t nc;
register size_t nbytes;
register cset *cs;
register size_t css = (size_t)p->g->csetsize;
register int i;
if (no >= p->ncsalloc) { /* need another column of space */
p->ncsalloc += CHAR_BIT;
nc = p->ncsalloc;
assert(nc % CHAR_BIT == 0);
nbytes = nc / CHAR_BIT * css;
if (p->g->sets == NULL)
p->g->sets = (cset *)malloc(nc * sizeof(cset));
else
p->g->sets = (cset *)realloc((char *)p->g->sets,
nc * sizeof(cset));
if (p->g->setbits == NULL)
p->g->setbits = (uch *)malloc(nbytes);
else {
p->g->setbits = (uch *)realloc((char *)p->g->setbits,
nbytes);
/* xxx this isn't right if setbits is now NULL */
for (i = 0; i < no; i++)
p->g->sets[i].ptr = p->g->setbits + css*(i/CHAR_BIT);
}
if (p->g->sets != NULL && p->g->setbits != NULL)
(void) memset((char *)p->g->setbits + (nbytes - css),
0, css);
else {
no = 0;
SETERROR(REG_ESPACE);
/* caller's responsibility not to do set ops */
}
}
assert(p->g->sets != NULL); /* xxx */
cs = &p->g->sets[no];
cs->ptr = p->g->setbits + css*((no)/CHAR_BIT);
cs->mask = 1 << ((no) % CHAR_BIT);
cs->hash = 0;
cs->smultis = 0;
cs->multis = NULL;
return(cs);
}
/*
- freeset - free a now-unused set
== static void freeset(register struct parse *p, register cset *cs);
*/
static void
freeset(p, cs)
register struct parse *p;
register cset *cs;
{
register size_t i;
register cset *top = &p->g->sets[p->g->ncsets];
register size_t css = (size_t)p->g->csetsize;
for (i = 0; i < css; i++)
CHsub(cs, i);
if (cs == top-1) /* recover only the easy case */
p->g->ncsets--;
}
/*
- freezeset - final processing on a set of characters
== static int freezeset(register struct parse *p, register cset *cs);
*
* The main task here is merging identical sets. This is usually a waste
* of time (although the hash code minimizes the overhead), but can win
* big if REG_ICASE is being used. REG_ICASE, by the way, is why the hash
* is done using addition rather than xor -- all ASCII [aA] sets xor to
* the same value!
*/
static int /* set number */
freezeset(p, cs)
register struct parse *p;
register cset *cs;
{
register uch h = cs->hash;
register size_t i;
register cset *top = &p->g->sets[p->g->ncsets];
register cset *cs2;
register size_t css = (size_t)p->g->csetsize;
/* look for an earlier one which is the same */
for (cs2 = &p->g->sets[0]; cs2 < top; cs2++)
if (cs2->hash == h && cs2 != cs) {
/* maybe */
for (i = 0; i < css; i++)
if (!!CHIN(cs2, i) != !!CHIN(cs, i))
break; /* no */
if (i == css)
break; /* yes */
}
if (cs2 < top) { /* found one */
freeset(p, cs);
cs = cs2;
}
return((int)(cs - p->g->sets));
}
/*
- firstch - return first character in a set (which must have at least one)
== static int firstch(register struct parse *p, register cset *cs);
*/
static int /* character; there is no "none" value */
firstch(p, cs)
register struct parse *p;
register cset *cs;
{
register size_t i;
register size_t css = (size_t)p->g->csetsize;
for (i = 0; i < css; i++)
if (CHIN(cs, i))
return((char)i);
assert(never);
return(0); /* arbitrary */
}
/*
- nch - number of characters in a set
== static int nch(register struct parse *p, register cset *cs);
*/
static int
nch(p, cs)
register struct parse *p;
register cset *cs;
{
register size_t i;
register size_t css = (size_t)p->g->csetsize;
register int n = 0;
for (i = 0; i < css; i++)
if (CHIN(cs, i))
n++;
return(n);
}
#ifdef USE_ORIG_REGEX_CODE
/*
- mcadd - add a collating element to a cset
== static void mcadd(register struct parse *p, register cset *cs, \
== register char *cp);
*/
static void
mcadd(p, cs, cp)
register struct parse *p;
register cset *cs;
register char *cp;
{
register size_t oldend = cs->smultis;
cs->smultis += strlen(cp) + 1;
if (cs->multis == NULL)
cs->multis = malloc(cs->smultis);
else
cs->multis = realloc(cs->multis, cs->smultis);
if (cs->multis == NULL) {
SETERROR(REG_ESPACE);
return;
}
(void) strcpy(cs->multis + oldend - 1, cp);
cs->multis[cs->smultis - 1] = '\0';
}
#endif
/*
- mcinvert - invert the list of collating elements in a cset
== static void mcinvert(register struct parse *p, register cset *cs);
*
* This would have to know the set of possibilities. Implementation
* is deferred.
*/
static void
mcinvert(p, cs)
register struct parse *p __attribute__((unused));
register cset *cs __attribute__((unused));
{
assert(cs->multis == NULL); /* xxx */
}
/*
- mccase - add case counterparts of the list of collating elements in a cset
== static void mccase(register struct parse *p, register cset *cs);
*
* This would have to know the set of possibilities. Implementation
* is deferred.
*/
static void
mccase(p, cs)
register struct parse *p __attribute__((unused));
register cset *cs __attribute__((unused));
{
assert(cs->multis == NULL); /* xxx */
}
/*
- isinsets - is this character in any sets?
== static int isinsets(register struct re_guts *g, int c);
*/
static int /* predicate */
isinsets(g, c)
register struct re_guts *g;
int c;
{
register uch *col;
register int i;
register int ncols = (g->ncsets+(CHAR_BIT-1)) / CHAR_BIT;
register unsigned uc = (unsigned char)c;
for (i = 0, col = g->setbits; i < ncols; i++, col += g->csetsize)
if (col[uc] != 0)
return(1);
return(0);
}
/*
- samesets - are these two characters in exactly the same sets?
== static int samesets(register struct re_guts *g, int c1, int c2);
*/
static int /* predicate */
samesets(g, c1, c2)
register struct re_guts *g;
int c1;
int c2;
{
register uch *col;
register int i;
register int ncols = (g->ncsets+(CHAR_BIT-1)) / CHAR_BIT;
register unsigned uc1 = (unsigned char)c1;
register unsigned uc2 = (unsigned char)c2;
for (i = 0, col = g->setbits; i < ncols; i++, col += g->csetsize)
if (col[uc1] != col[uc2])
return(0);
return(1);
}
/*
- categorize - sort out character categories
== static void categorize(struct parse *p, register struct re_guts *g);
*/
static void
categorize(p, g)
struct parse *p;
register struct re_guts *g;
{
register cat_t *cats = g->categories;
register int c;
register int c2;
register cat_t cat;
/* avoid making error situations worse */
if (p->error != 0)
return;
for (c = CHAR_MIN; c <= CHAR_MAX; c++)
if (cats[c] == 0 && isinsets(g, c)) {
cat = g->ncategories++;
cats[c] = cat;
for (c2 = c+1; c2 <= CHAR_MAX; c2++)
if (cats[c2] == 0 && samesets(g, c, c2))
cats[c2] = cat;
}
}
/*
- dupl - emit a duplicate of a bunch of sops
== static sopno dupl(register struct parse *p, sopno start, sopno finish);
*/
static sopno /* start of duplicate */
dupl(p, start, finish)
register struct parse *p;
sopno start; /* from here */
sopno finish; /* to this less one */
{
register sopno ret = HERE();
register sopno len = finish - start;
assert(finish >= start);
if (len == 0)
return(ret);
enlarge(p, p->ssize + len); /* this many unexpected additions */
if (p->error != 0)
return(p->error);
assert(p->ssize >= p->slen + len);
(void) memcpy((char *)(p->strip + p->slen),
(char *)(p->strip + start), (size_t)len*sizeof(sop));
p->slen += len;
return(ret);
}
/*
- doemit - emit a strip operator
== static void doemit(register struct parse *p, sop op, size_t opnd);
*
* It might seem better to implement this as a macro with a function as
* hard-case backup, but it's just too big and messy unless there are
* some changes to the data structures. Maybe later.
*/
static void
doemit(p, op, opnd)
register struct parse *p;
sop op;
size_t opnd;
{
/* avoid making error situations worse */
if (p->error != 0)
return;
/* deal with oversize operands ("can't happen", more or less) */
assert(opnd < 1<<OPSHIFT);
/* deal with undersized strip */
if (p->slen >= p->ssize)
enlarge(p, (p->ssize+1) / 2 * 3); /* +50% */
assert(p->slen < p->ssize);
/* finally, it's all reduced to the easy case */
p->strip[p->slen++] = SOP(op, opnd);
}
/*
- doinsert - insert a sop into the strip
== static void doinsert(register struct parse *p, sop op, size_t opnd, sopno pos);
*/
static void
doinsert(p, op, opnd, pos)
register struct parse *p;
sop op;
size_t opnd;
sopno pos;
{
register sopno sn;
register sop s;
register int i;
/* avoid making error situations worse */
if (p->error != 0)
return;
sn = HERE();
EMIT(op, opnd); /* do checks, ensure space */
assert(HERE() == sn+1);
s = p->strip[sn];
/* adjust paren pointers */
assert(pos > 0);
for (i = 1; i < NPAREN; i++) {
if (p->pbegin[i] >= pos) {
p->pbegin[i]++;
}
if (p->pend[i] >= pos) {
p->pend[i]++;
}
}
{
size_t length=(HERE()-pos-1)*sizeof(sop);
bmove_upp((uchar *) &p->strip[pos+1]+length,
(uchar *) &p->strip[pos]+length,
length);
}
#ifdef OLD_CODE
memmove((char *)&p->strip[pos+1], (char *)&p->strip[pos],
(HERE()-pos-1)*sizeof(sop));
#endif
p->strip[pos] = s;
}
/*
- dofwd - complete a forward reference
== static void dofwd(register struct parse *p, sopno pos, sop value);
*/
static void
dofwd(p, pos, value)
register struct parse *p;
register sopno pos;
sop value;
{
/* avoid making error situations worse */
if (p->error != 0)
return;
assert(value < 1<<OPSHIFT);
p->strip[pos] = OP(p->strip[pos]) | value;
}
/*
- enlarge - enlarge the strip
== static void enlarge(register struct parse *p, sopno size);
*/
static void
enlarge(p, size)
register struct parse *p;
register sopno size;
{
register sop *sp;
if (p->ssize >= size)
return;
DBUG_EXECUTE_IF("bug24449090_simulate_oom",
{
free(p->strip);
p->strip= NULL;
p->ssize= 0;
SETERROR(REG_ESPACE);
return;
});
sp = (sop *)realloc(p->strip, size*sizeof(sop));
if (sp == NULL) {
SETERROR(REG_ESPACE);
return;
}
p->strip = sp;
p->ssize = size;
}
/*
- stripsnug - compact the strip
== static void stripsnug(register struct parse *p, register struct re_guts *g);
*/
static void
stripsnug(p, g)
register struct parse *p;
register struct re_guts *g;
{
g->nstates = p->slen;
g->strip = (sop *)realloc((char *)p->strip, p->slen * sizeof(sop));
if (g->strip == NULL) {
SETERROR(REG_ESPACE);
g->strip = p->strip;
}
}
/*
- findmust - fill in must and mlen with longest mandatory literal string
== static void findmust(register struct parse *p, register struct re_guts *g);
*
* This algorithm could do fancy things like analyzing the operands of |
* for common subsequences. Someday. This code is simple and finds most
* of the interesting cases.
*
* Note that must and mlen got initialized during setup.
*/
static void
findmust(p, g)
struct parse *p;
register struct re_guts *g;
{
register sop *scan;
sop *UNINIT_VAR(start);
register sop *UNINIT_VAR(newstart);
register sopno newlen;
register sop s;
register char *cp;
register sopno i;
/* avoid making error situations worse */
if (p->error != 0)
return;
/* find the longest OCHAR sequence in strip */
newlen = 0;
scan = g->strip + 1;
do {
s = *scan++;
switch (OP(s)) {
case OCHAR: /* sequence member */
if (newlen == 0) /* new sequence */
newstart = scan - 1;
newlen++;
break;
case OPLUS_: /* things that don't break one */
case OLPAREN:
case ORPAREN:
break;
case OQUEST_: /* things that must be skipped */
case OCH_:
scan--;
do {
scan += OPND(s);
s = *scan;
/* assert() interferes w debug printouts */
if (OP(s) != O_QUEST && OP(s) != O_CH &&
OP(s) != OOR2) {
g->iflags |= BAD;
return;
}
} while (OP(s) != O_QUEST && OP(s) != O_CH);
/* fallthrough */
default: /* things that break a sequence */
if (newlen > g->mlen) { /* ends one */
start = newstart;
g->mlen = newlen;
}
newlen = 0;
break;
}
} while (OP(s) != OEND);
if (g->mlen == 0) /* there isn't one */
return;
/* turn it into a character string */
g->must = malloc((size_t)g->mlen + 1);
if (g->must == NULL) { /* argh; just forget it */
g->mlen = 0;
return;
}
cp = g->must;
scan = start;
for (i = g->mlen; i > 0; i--) {
while (OP(s = *scan++) != OCHAR)
continue;
assert(cp < g->must + g->mlen);
*cp++ = (char)OPND(s);
}
assert(cp == g->must + g->mlen);
*cp++ = '\0'; /* just on general principles */
}
/*
- pluscount - count + nesting
== static sopno pluscount(register struct parse *p, register struct re_guts *g);
*/
static sopno /* nesting depth */
pluscount(p, g)
struct parse *p;
register struct re_guts *g;
{
register sop *scan;
register sop s;
register sopno plusnest = 0;
register sopno maxnest = 0;
if (p->error != 0)
return(0); /* there may not be an OEND */
scan = g->strip + 1;
do {
s = *scan++;
switch (OP(s)) {
case OPLUS_:
plusnest++;
break;
case O_PLUS:
if (plusnest > maxnest)
maxnest = plusnest;
plusnest--;
break;
}
} while (OP(s) != OEND);
if (plusnest != 0)
g->iflags |= BAD;
return(maxnest);
}
|