forked from Mirrors/freeswitch
589 lines
18 KiB
C
589 lines
18 KiB
C
/*************************************************
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* Perl-Compatible Regular Expressions *
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*************************************************/
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/* PCRE is a library of functions to support regular expressions whose syntax
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and semantics are as close as possible to those of the Perl 5 language.
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Written by Philip Hazel
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Copyright (c) 1997-2008 University of Cambridge
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-----------------------------------------------------------------------------
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions are met:
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* Redistributions of source code must retain the above copyright notice,
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this list of conditions and the following disclaimer.
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* Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in the
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documentation and/or other materials provided with the distribution.
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* Neither the name of the University of Cambridge nor the names of its
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contributors may be used to endorse or promote products derived from
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this software without specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
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LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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POSSIBILITY OF SUCH DAMAGE.
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-----------------------------------------------------------------------------
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*/
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/* This module contains the external function pcre_study(), along with local
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supporting functions. */
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#ifdef HAVE_CONFIG_H
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#include "config.h"
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#endif
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#include "pcre_internal.h"
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/* Returns from set_start_bits() */
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enum { SSB_FAIL, SSB_DONE, SSB_CONTINUE };
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/*************************************************
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* Set a bit and maybe its alternate case *
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*************************************************/
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/* Given a character, set its bit in the table, and also the bit for the other
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version of a letter if we are caseless.
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Arguments:
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start_bits points to the bit map
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c is the character
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caseless the caseless flag
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cd the block with char table pointers
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Returns: nothing
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*/
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static void
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set_bit(uschar *start_bits, unsigned int c, BOOL caseless, compile_data *cd)
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{
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start_bits[c/8] |= (1 << (c&7));
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if (caseless && (cd->ctypes[c] & ctype_letter) != 0)
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start_bits[cd->fcc[c]/8] |= (1 << (cd->fcc[c]&7));
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}
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/*************************************************
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* Create bitmap of starting bytes *
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*************************************************/
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/* This function scans a compiled unanchored expression recursively and
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attempts to build a bitmap of the set of possible starting bytes. As time goes
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by, we may be able to get more clever at doing this. The SSB_CONTINUE return is
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useful for parenthesized groups in patterns such as (a*)b where the group
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provides some optional starting bytes but scanning must continue at the outer
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level to find at least one mandatory byte. At the outermost level, this
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function fails unless the result is SSB_DONE.
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Arguments:
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code points to an expression
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start_bits points to a 32-byte table, initialized to 0
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caseless the current state of the caseless flag
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utf8 TRUE if in UTF-8 mode
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cd the block with char table pointers
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Returns: SSB_FAIL => Failed to find any starting bytes
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SSB_DONE => Found mandatory starting bytes
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SSB_CONTINUE => Found optional starting bytes
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*/
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static int
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set_start_bits(const uschar *code, uschar *start_bits, BOOL caseless,
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BOOL utf8, compile_data *cd)
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{
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register int c;
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int yield = SSB_DONE;
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#if 0
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/* ========================================================================= */
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/* The following comment and code was inserted in January 1999. In May 2006,
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when it was observed to cause compiler warnings about unused values, I took it
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out again. If anybody is still using OS/2, they will have to put it back
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manually. */
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/* This next statement and the later reference to dummy are here in order to
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trick the optimizer of the IBM C compiler for OS/2 into generating correct
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code. Apparently IBM isn't going to fix the problem, and we would rather not
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disable optimization (in this module it actually makes a big difference, and
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the pcre module can use all the optimization it can get). */
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volatile int dummy;
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/* ========================================================================= */
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#endif
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do
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{
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const uschar *tcode = code + (((int)*code == OP_CBRA)? 3:1) + LINK_SIZE;
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BOOL try_next = TRUE;
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while (try_next) /* Loop for items in this branch */
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{
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int rc;
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switch(*tcode)
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{
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/* Fail if we reach something we don't understand */
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default:
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return SSB_FAIL;
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/* If we hit a bracket or a positive lookahead assertion, recurse to set
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bits from within the subpattern. If it can't find anything, we have to
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give up. If it finds some mandatory character(s), we are done for this
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branch. Otherwise, carry on scanning after the subpattern. */
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case OP_BRA:
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case OP_SBRA:
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case OP_CBRA:
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case OP_SCBRA:
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case OP_ONCE:
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case OP_ASSERT:
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rc = set_start_bits(tcode, start_bits, caseless, utf8, cd);
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if (rc == SSB_FAIL) return SSB_FAIL;
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if (rc == SSB_DONE) try_next = FALSE; else
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{
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do tcode += GET(tcode, 1); while (*tcode == OP_ALT);
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tcode += 1 + LINK_SIZE;
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}
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break;
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/* If we hit ALT or KET, it means we haven't found anything mandatory in
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this branch, though we might have found something optional. For ALT, we
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continue with the next alternative, but we have to arrange that the final
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result from subpattern is SSB_CONTINUE rather than SSB_DONE. For KET,
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return SSB_CONTINUE: if this is the top level, that indicates failure,
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but after a nested subpattern, it causes scanning to continue. */
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case OP_ALT:
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yield = SSB_CONTINUE;
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try_next = FALSE;
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break;
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case OP_KET:
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case OP_KETRMAX:
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case OP_KETRMIN:
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return SSB_CONTINUE;
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/* Skip over callout */
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case OP_CALLOUT:
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tcode += 2 + 2*LINK_SIZE;
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break;
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/* Skip over lookbehind and negative lookahead assertions */
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case OP_ASSERT_NOT:
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case OP_ASSERTBACK:
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case OP_ASSERTBACK_NOT:
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do tcode += GET(tcode, 1); while (*tcode == OP_ALT);
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tcode += 1 + LINK_SIZE;
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break;
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/* Skip over an option setting, changing the caseless flag */
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case OP_OPT:
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caseless = (tcode[1] & PCRE_CASELESS) != 0;
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tcode += 2;
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break;
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/* BRAZERO does the bracket, but carries on. */
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case OP_BRAZERO:
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case OP_BRAMINZERO:
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if (set_start_bits(++tcode, start_bits, caseless, utf8, cd) == SSB_FAIL)
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return SSB_FAIL;
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/* =========================================================================
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See the comment at the head of this function concerning the next line,
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which was an old fudge for the benefit of OS/2.
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dummy = 1;
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========================================================================= */
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do tcode += GET(tcode,1); while (*tcode == OP_ALT);
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tcode += 1 + LINK_SIZE;
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break;
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/* SKIPZERO skips the bracket. */
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case OP_SKIPZERO:
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tcode++;
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do tcode += GET(tcode,1); while (*tcode == OP_ALT);
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tcode += 1 + LINK_SIZE;
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break;
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/* Single-char * or ? sets the bit and tries the next item */
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case OP_STAR:
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case OP_MINSTAR:
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case OP_POSSTAR:
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case OP_QUERY:
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case OP_MINQUERY:
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case OP_POSQUERY:
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set_bit(start_bits, tcode[1], caseless, cd);
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tcode += 2;
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#ifdef SUPPORT_UTF8
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if (utf8 && tcode[-1] >= 0xc0)
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tcode += _pcre_utf8_table4[tcode[-1] & 0x3f];
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#endif
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break;
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/* Single-char upto sets the bit and tries the next */
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case OP_UPTO:
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case OP_MINUPTO:
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case OP_POSUPTO:
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set_bit(start_bits, tcode[3], caseless, cd);
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tcode += 4;
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#ifdef SUPPORT_UTF8
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if (utf8 && tcode[-1] >= 0xc0)
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tcode += _pcre_utf8_table4[tcode[-1] & 0x3f];
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#endif
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break;
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/* At least one single char sets the bit and stops */
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case OP_EXACT: /* Fall through */
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tcode += 2;
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case OP_CHAR:
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case OP_CHARNC:
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case OP_PLUS:
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case OP_MINPLUS:
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case OP_POSPLUS:
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set_bit(start_bits, tcode[1], caseless, cd);
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try_next = FALSE;
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break;
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/* Single character type sets the bits and stops */
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case OP_NOT_DIGIT:
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for (c = 0; c < 32; c++)
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start_bits[c] |= ~cd->cbits[c+cbit_digit];
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try_next = FALSE;
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break;
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case OP_DIGIT:
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for (c = 0; c < 32; c++)
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start_bits[c] |= cd->cbits[c+cbit_digit];
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try_next = FALSE;
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break;
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/* The cbit_space table has vertical tab as whitespace; we have to
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discard it. */
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case OP_NOT_WHITESPACE:
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for (c = 0; c < 32; c++)
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{
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int d = cd->cbits[c+cbit_space];
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if (c == 1) d &= ~0x08;
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start_bits[c] |= ~d;
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}
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try_next = FALSE;
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break;
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/* The cbit_space table has vertical tab as whitespace; we have to
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discard it. */
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case OP_WHITESPACE:
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for (c = 0; c < 32; c++)
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{
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int d = cd->cbits[c+cbit_space];
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if (c == 1) d &= ~0x08;
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start_bits[c] |= d;
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}
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try_next = FALSE;
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break;
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case OP_NOT_WORDCHAR:
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for (c = 0; c < 32; c++)
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start_bits[c] |= ~cd->cbits[c+cbit_word];
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try_next = FALSE;
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break;
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case OP_WORDCHAR:
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for (c = 0; c < 32; c++)
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start_bits[c] |= cd->cbits[c+cbit_word];
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try_next = FALSE;
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break;
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/* One or more character type fudges the pointer and restarts, knowing
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it will hit a single character type and stop there. */
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case OP_TYPEPLUS:
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case OP_TYPEMINPLUS:
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tcode++;
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break;
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case OP_TYPEEXACT:
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tcode += 3;
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break;
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/* Zero or more repeats of character types set the bits and then
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try again. */
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case OP_TYPEUPTO:
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case OP_TYPEMINUPTO:
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case OP_TYPEPOSUPTO:
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tcode += 2; /* Fall through */
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case OP_TYPESTAR:
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case OP_TYPEMINSTAR:
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case OP_TYPEPOSSTAR:
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case OP_TYPEQUERY:
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case OP_TYPEMINQUERY:
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case OP_TYPEPOSQUERY:
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switch(tcode[1])
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{
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case OP_ANY:
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case OP_ALLANY:
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return SSB_FAIL;
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case OP_NOT_DIGIT:
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for (c = 0; c < 32; c++)
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start_bits[c] |= ~cd->cbits[c+cbit_digit];
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break;
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case OP_DIGIT:
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for (c = 0; c < 32; c++)
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start_bits[c] |= cd->cbits[c+cbit_digit];
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break;
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/* The cbit_space table has vertical tab as whitespace; we have to
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discard it. */
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case OP_NOT_WHITESPACE:
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for (c = 0; c < 32; c++)
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{
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int d = cd->cbits[c+cbit_space];
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if (c == 1) d &= ~0x08;
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start_bits[c] |= ~d;
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}
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break;
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/* The cbit_space table has vertical tab as whitespace; we have to
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discard it. */
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case OP_WHITESPACE:
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for (c = 0; c < 32; c++)
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{
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int d = cd->cbits[c+cbit_space];
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if (c == 1) d &= ~0x08;
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start_bits[c] |= d;
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}
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break;
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case OP_NOT_WORDCHAR:
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for (c = 0; c < 32; c++)
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start_bits[c] |= ~cd->cbits[c+cbit_word];
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break;
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case OP_WORDCHAR:
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for (c = 0; c < 32; c++)
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start_bits[c] |= cd->cbits[c+cbit_word];
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break;
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}
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tcode += 2;
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break;
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/* Character class where all the information is in a bit map: set the
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bits and either carry on or not, according to the repeat count. If it was
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a negative class, and we are operating with UTF-8 characters, any byte
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with a value >= 0xc4 is a potentially valid starter because it starts a
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character with a value > 255. */
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case OP_NCLASS:
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#ifdef SUPPORT_UTF8
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if (utf8)
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{
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start_bits[24] |= 0xf0; /* Bits for 0xc4 - 0xc8 */
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memset(start_bits+25, 0xff, 7); /* Bits for 0xc9 - 0xff */
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}
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#endif
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/* Fall through */
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case OP_CLASS:
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{
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tcode++;
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/* In UTF-8 mode, the bits in a bit map correspond to character
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values, not to byte values. However, the bit map we are constructing is
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for byte values. So we have to do a conversion for characters whose
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value is > 127. In fact, there are only two possible starting bytes for
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characters in the range 128 - 255. */
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#ifdef SUPPORT_UTF8
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if (utf8)
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{
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for (c = 0; c < 16; c++) start_bits[c] |= tcode[c];
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for (c = 128; c < 256; c++)
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{
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if ((tcode[c/8] && (1 << (c&7))) != 0)
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{
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int d = (c >> 6) | 0xc0; /* Set bit for this starter */
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start_bits[d/8] |= (1 << (d&7)); /* and then skip on to the */
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c = (c & 0xc0) + 0x40 - 1; /* next relevant character. */
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}
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}
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}
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/* In non-UTF-8 mode, the two bit maps are completely compatible. */
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else
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#endif
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{
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for (c = 0; c < 32; c++) start_bits[c] |= tcode[c];
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}
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/* Advance past the bit map, and act on what follows */
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tcode += 32;
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switch (*tcode)
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{
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case OP_CRSTAR:
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case OP_CRMINSTAR:
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case OP_CRQUERY:
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case OP_CRMINQUERY:
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tcode++;
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break;
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case OP_CRRANGE:
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case OP_CRMINRANGE:
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if (((tcode[1] << 8) + tcode[2]) == 0) tcode += 5;
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else try_next = FALSE;
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break;
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default:
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try_next = FALSE;
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break;
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}
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}
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break; /* End of bitmap class handling */
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} /* End of switch */
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} /* End of try_next loop */
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code += GET(code, 1); /* Advance to next branch */
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}
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while (*code == OP_ALT);
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return yield;
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}
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/*************************************************
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* Study a compiled expression *
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*************************************************/
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/* This function is handed a compiled expression that it must study to produce
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information that will speed up the matching. It returns a pcre_extra block
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which then gets handed back to pcre_exec().
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Arguments:
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re points to the compiled expression
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options contains option bits
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errorptr points to where to place error messages;
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set NULL unless error
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Returns: pointer to a pcre_extra block, with study_data filled in and the
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appropriate flag set;
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NULL on error or if no optimization possible
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*/
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PCRE_EXP_DEFN pcre_extra * PCRE_CALL_CONVENTION
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pcre_study(const pcre *external_re, int options, const char **errorptr)
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{
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uschar start_bits[32];
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pcre_extra *extra;
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pcre_study_data *study;
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const uschar *tables;
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uschar *code;
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compile_data compile_block;
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const real_pcre *re = (const real_pcre *)external_re;
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*errorptr = NULL;
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if (re == NULL || re->magic_number != MAGIC_NUMBER)
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{
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*errorptr = "argument is not a compiled regular expression";
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return NULL;
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}
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if ((options & ~PUBLIC_STUDY_OPTIONS) != 0)
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{
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*errorptr = "unknown or incorrect option bit(s) set";
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return NULL;
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}
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code = (uschar *)re + re->name_table_offset +
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(re->name_count * re->name_entry_size);
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/* For an anchored pattern, or an unanchored pattern that has a first char, or
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a multiline pattern that matches only at "line starts", no further processing
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at present. */
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if ((re->options & PCRE_ANCHORED) != 0 ||
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(re->flags & (PCRE_FIRSTSET|PCRE_STARTLINE)) != 0)
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return NULL;
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/* Set the character tables in the block that is passed around */
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tables = re->tables;
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if (tables == NULL)
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(void)pcre_fullinfo(external_re, NULL, PCRE_INFO_DEFAULT_TABLES,
|
|
(void *)(&tables));
|
|
|
|
compile_block.lcc = tables + lcc_offset;
|
|
compile_block.fcc = tables + fcc_offset;
|
|
compile_block.cbits = tables + cbits_offset;
|
|
compile_block.ctypes = tables + ctypes_offset;
|
|
|
|
/* See if we can find a fixed set of initial characters for the pattern. */
|
|
|
|
memset(start_bits, 0, 32 * sizeof(uschar));
|
|
if (set_start_bits(code, start_bits, (re->options & PCRE_CASELESS) != 0,
|
|
(re->options & PCRE_UTF8) != 0, &compile_block) != SSB_DONE) return NULL;
|
|
|
|
/* Get a pcre_extra block and a pcre_study_data block. The study data is put in
|
|
the latter, which is pointed to by the former, which may also get additional
|
|
data set later by the calling program. At the moment, the size of
|
|
pcre_study_data is fixed. We nevertheless save it in a field for returning via
|
|
the pcre_fullinfo() function so that if it becomes variable in the future, we
|
|
don't have to change that code. */
|
|
|
|
extra = (pcre_extra *)(pcre_malloc)
|
|
(sizeof(pcre_extra) + sizeof(pcre_study_data));
|
|
|
|
if (extra == NULL)
|
|
{
|
|
*errorptr = "failed to get memory";
|
|
return NULL;
|
|
}
|
|
|
|
study = (pcre_study_data *)((char *)extra + sizeof(pcre_extra));
|
|
extra->flags = PCRE_EXTRA_STUDY_DATA;
|
|
extra->study_data = study;
|
|
|
|
study->size = sizeof(pcre_study_data);
|
|
study->options = PCRE_STUDY_MAPPED;
|
|
memcpy(study->start_bits, start_bits, sizeof(start_bits));
|
|
|
|
return extra;
|
|
}
|
|
|
|
/* End of pcre_study.c */
|