/********************************************************************** regexec.c - Onigmo (Oniguruma-mod) (regular expression library) **********************************************************************/ /*- * Copyright (c) 2002-2008 K.Kosako * Copyright (c) 2011-2016 K.Takata * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include "regint.h" #ifdef RUBY # undef USE_MATCH_RANGE_MUST_BE_INSIDE_OF_SPECIFIED_RANGE #else # define USE_MATCH_RANGE_MUST_BE_INSIDE_OF_SPECIFIED_RANGE #endif #ifndef USE_TOKEN_THREADED_VM # ifdef __GNUC__ # define USE_TOKEN_THREADED_VM 1 # else # define USE_TOKEN_THREADED_VM 0 # endif #endif #ifdef RUBY # define ENC_DUMMY_FLAG (1<<24) static inline int rb_enc_asciicompat(OnigEncoding enc) { return ONIGENC_MBC_MINLEN(enc)==1 && !((enc)->ruby_encoding_index & ENC_DUMMY_FLAG); } # undef ONIGENC_IS_MBC_ASCII_WORD # define ONIGENC_IS_MBC_ASCII_WORD(enc,s,end) \ (rb_enc_asciicompat(enc) ? (ISALNUM(*s) || *s=='_') : \ onigenc_ascii_is_code_ctype( \ ONIGENC_MBC_TO_CODE(enc,s,end),ONIGENC_CTYPE_WORD,enc)) #endif /* RUBY */ #ifdef USE_CRNL_AS_LINE_TERMINATOR # define ONIGENC_IS_MBC_CRNL(enc,p,end) \ (ONIGENC_MBC_TO_CODE(enc,p,end) == 13 && \ ONIGENC_MBC_TO_CODE(enc,(p+enclen(enc,p,end)),end) == 10) # define ONIGENC_IS_MBC_NEWLINE_EX(enc,p,start,end,option,check_prev) \ is_mbc_newline_ex((enc),(p),(start),(end),(option),(check_prev)) static int is_mbc_newline_ex(OnigEncoding enc, const UChar *p, const UChar *start, const UChar *end, OnigOptionType option, int check_prev) { if (IS_NEWLINE_CRLF(option)) { if (ONIGENC_MBC_TO_CODE(enc, p, end) == 0x0a) { if (check_prev) { const UChar *prev = onigenc_get_prev_char_head(enc, start, p, end); if ((prev != NULL) && ONIGENC_MBC_TO_CODE(enc, prev, end) == 0x0d) return 0; else return 1; } else return 1; } else { const UChar *pnext = p + enclen(enc, p, end); if (pnext < end && ONIGENC_MBC_TO_CODE(enc, p, end) == 0x0d && ONIGENC_MBC_TO_CODE(enc, pnext, end) == 0x0a) return 1; if (ONIGENC_IS_MBC_NEWLINE(enc, p, end)) return 1; return 0; } } else { return ONIGENC_IS_MBC_NEWLINE(enc, p, end); } } #else /* USE_CRNL_AS_LINE_TERMINATOR */ # define ONIGENC_IS_MBC_NEWLINE_EX(enc,p,start,end,option,check_prev) \ ONIGENC_IS_MBC_NEWLINE((enc), (p), (end)) #endif /* USE_CRNL_AS_LINE_TERMINATOR */ #ifdef USE_CAPTURE_HISTORY static void history_tree_free(OnigCaptureTreeNode* node); static void history_tree_clear(OnigCaptureTreeNode* node) { int i; if (IS_NOT_NULL(node)) { for (i = 0; i < node->num_childs; i++) { if (IS_NOT_NULL(node->childs[i])) { history_tree_free(node->childs[i]); } } for (i = 0; i < node->allocated; i++) { node->childs[i] = (OnigCaptureTreeNode* )0; } node->num_childs = 0; node->beg = ONIG_REGION_NOTPOS; node->end = ONIG_REGION_NOTPOS; node->group = -1; xfree(node->childs); node->childs = (OnigCaptureTreeNode** )0; } } static void history_tree_free(OnigCaptureTreeNode* node) { history_tree_clear(node); xfree(node); } static void history_root_free(OnigRegion* r) { if (IS_NOT_NULL(r->history_root)) { history_tree_free(r->history_root); r->history_root = (OnigCaptureTreeNode* )0; } } static OnigCaptureTreeNode* history_node_new(void) { OnigCaptureTreeNode* node; node = (OnigCaptureTreeNode* )xmalloc(sizeof(OnigCaptureTreeNode)); CHECK_NULL_RETURN(node); node->childs = (OnigCaptureTreeNode** )0; node->allocated = 0; node->num_childs = 0; node->group = -1; node->beg = ONIG_REGION_NOTPOS; node->end = ONIG_REGION_NOTPOS; return node; } static int history_tree_add_child(OnigCaptureTreeNode* parent, OnigCaptureTreeNode* child) { # define HISTORY_TREE_INIT_ALLOC_SIZE 8 if (parent->num_childs >= parent->allocated) { int n, i; if (IS_NULL(parent->childs)) { n = HISTORY_TREE_INIT_ALLOC_SIZE; parent->childs = (OnigCaptureTreeNode** )xmalloc(sizeof(OnigCaptureTreeNode*) * n); CHECK_NULL_RETURN_MEMERR(parent->childs); } else { OnigCaptureTreeNode** tmp; n = parent->allocated * 2; tmp = (OnigCaptureTreeNode** )xrealloc(parent->childs, sizeof(OnigCaptureTreeNode*) * n); if (tmp == 0) { history_tree_clear(parent); return ONIGERR_MEMORY; } parent->childs = tmp; } for (i = parent->allocated; i < n; i++) { parent->childs[i] = (OnigCaptureTreeNode* )0; } parent->allocated = n; } parent->childs[parent->num_childs] = child; parent->num_childs++; return 0; } static OnigCaptureTreeNode* history_tree_clone(OnigCaptureTreeNode* node) { int i, r; OnigCaptureTreeNode *clone, *child; clone = history_node_new(); CHECK_NULL_RETURN(clone); clone->beg = node->beg; clone->end = node->end; for (i = 0; i < node->num_childs; i++) { child = history_tree_clone(node->childs[i]); if (IS_NULL(child)) { history_tree_free(clone); return (OnigCaptureTreeNode* )0; } r = history_tree_add_child(clone, child); if (r != 0) { history_tree_free(child); history_tree_free(clone); return (OnigCaptureTreeNode* )0; } } return clone; } extern OnigCaptureTreeNode* onig_get_capture_tree(OnigRegion* region) { return region->history_root; } #endif /* USE_CAPTURE_HISTORY */ #ifdef USE_MATCH_CACHE /* Glossary for "match cache" "match cache" or "match cache optimization" The `Regexp#match` optimization by using a cache. "cache opcode" A cacheable opcode (e.g. `OP_PUSH`, `OP_REPEAT`, etc). It is corresponding to some cache points. "cache point" A cacheable point on matching. Usually, one-to-one corresponding between a cache opcode and a cache point exists, but cache opcodes between `OP_REPEAT` and `OP_REPEAT_INC` have some corresponding cache points depending on repetition counts. "match cache point" A pair of a cache point and a position on an input string. We encode a match cache point to an integer value by the following equation: "match cache point" = "position on input string" * "total number of cache points" + "cache point" "match cache buffer" A bit-array for memoizing (recording) match cache points once backtracked. */ static OnigPosition count_num_cache_opcodes_inner( const regex_t* reg, MemNumType current_repeat_mem, int lookaround_nesting, UChar** pp, long* num_cache_opcodes_ptr ) { UChar* p = *pp; UChar* pend = reg->p + reg->used; LengthType len; MemNumType repeat_mem; OnigEncoding enc = reg->enc; long num_cache_opcodes = *num_cache_opcodes_ptr; OnigPosition result; while (p < pend) { switch (*p++) { case OP_FINISH: case OP_END: break; case OP_EXACT1: p++; break; case OP_EXACT2: p += 2; break; case OP_EXACT3: p += 3; break; case OP_EXACT4: p += 4; break; case OP_EXACT5: p += 5; break; case OP_EXACTN: GET_LENGTH_INC(len, p); p += len; break; case OP_EXACTMB2N1: p += 2; break; case OP_EXACTMB2N2: p += 4; break; case OP_EXACTMB2N3: p += 6; break; case OP_EXACTMB2N: GET_LENGTH_INC(len, p); p += len * 2; break; case OP_EXACTMB3N: GET_LENGTH_INC(len, p); p += len * 3; break; case OP_EXACTMBN: { int mb_len; GET_LENGTH_INC(mb_len, p); GET_LENGTH_INC(len, p); p += mb_len * len; } break; case OP_EXACT1_IC: len = enclen(enc, p, pend); p += len; break; case OP_EXACTN_IC: GET_LENGTH_INC(len, p); p += len; break; case OP_CCLASS: case OP_CCLASS_NOT: p += SIZE_BITSET; break; case OP_CCLASS_MB: case OP_CCLASS_MB_NOT: GET_LENGTH_INC(len, p); p += len; break; case OP_CCLASS_MIX: case OP_CCLASS_MIX_NOT: p += SIZE_BITSET; GET_LENGTH_INC(len, p); p += len; break; case OP_ANYCHAR: case OP_ANYCHAR_ML: break; case OP_ANYCHAR_STAR: case OP_ANYCHAR_ML_STAR: num_cache_opcodes++; break; case OP_ANYCHAR_STAR_PEEK_NEXT: case OP_ANYCHAR_ML_STAR_PEEK_NEXT: p++; num_cache_opcodes++; break; case OP_WORD: case OP_NOT_WORD: case OP_WORD_BOUND: case OP_NOT_WORD_BOUND: case OP_WORD_BEGIN: case OP_WORD_END: break; case OP_ASCII_WORD: case OP_NOT_ASCII_WORD: case OP_ASCII_WORD_BOUND: case OP_NOT_ASCII_WORD_BOUND: case OP_ASCII_WORD_BEGIN: case OP_ASCII_WORD_END: break; case OP_BEGIN_BUF: case OP_END_BUF: case OP_BEGIN_LINE: case OP_END_LINE: case OP_SEMI_END_BUF: case OP_BEGIN_POSITION: break; case OP_BACKREF1: case OP_BACKREF2: case OP_BACKREFN: case OP_BACKREFN_IC: case OP_BACKREF_MULTI: case OP_BACKREF_MULTI_IC: case OP_BACKREF_WITH_LEVEL: goto impossible; case OP_MEMORY_START: case OP_MEMORY_START_PUSH: case OP_MEMORY_END_PUSH: case OP_MEMORY_END_PUSH_REC: case OP_MEMORY_END: case OP_MEMORY_END_REC: p += SIZE_MEMNUM; // A memory (capture) in look-around is found. if (lookaround_nesting != 0) { goto impossible; } break; case OP_KEEP: break; case OP_FAIL: break; case OP_JUMP: p += SIZE_RELADDR; break; case OP_PUSH: p += SIZE_RELADDR; num_cache_opcodes++; break; case OP_POP: break; case OP_PUSH_OR_JUMP_EXACT1: case OP_PUSH_IF_PEEK_NEXT: p += SIZE_RELADDR + 1; num_cache_opcodes++; break; case OP_REPEAT: case OP_REPEAT_NG: if (current_repeat_mem != -1) { // A nested OP_REPEAT is not yet supported. goto impossible; } GET_MEMNUM_INC(repeat_mem, p); p += SIZE_RELADDR; if (reg->repeat_range[repeat_mem].lower == 0) { num_cache_opcodes++; } result = count_num_cache_opcodes_inner(reg, repeat_mem, lookaround_nesting, &p, &num_cache_opcodes); if (result < 0 || num_cache_opcodes < 0) { goto fail; } { OnigRepeatRange *repeat_range = ®->repeat_range[repeat_mem]; if (repeat_range->lower < repeat_range->upper) { num_cache_opcodes++; } } break; case OP_REPEAT_INC: case OP_REPEAT_INC_NG: GET_MEMNUM_INC(repeat_mem, p); if (repeat_mem != current_repeat_mem) { // A lone or invalid OP_REPEAT_INC is found. goto impossible; } goto exit; case OP_REPEAT_INC_SG: case OP_REPEAT_INC_NG_SG: goto impossible; case OP_NULL_CHECK_START: p += SIZE_MEMNUM; break; case OP_NULL_CHECK_END: case OP_NULL_CHECK_END_MEMST_PUSH: p += SIZE_MEMNUM; break; case OP_NULL_CHECK_END_MEMST: p += SIZE_MEMNUM; break; case OP_PUSH_POS: if (lookaround_nesting < 0) { // A look-around nested in a atomic grouping is found. goto impossible; } result = count_num_cache_opcodes_inner(reg, current_repeat_mem, lookaround_nesting + 1, &p, &num_cache_opcodes); if (result < 0 || num_cache_opcodes < 0) { goto fail; } break; case OP_PUSH_POS_NOT: if (lookaround_nesting < 0) { // A look-around nested in a atomic grouping is found. goto impossible; } p += SIZE_RELADDR; result = count_num_cache_opcodes_inner(reg, current_repeat_mem, lookaround_nesting + 1, &p, &num_cache_opcodes); if (result < 0 || num_cache_opcodes < 0) { goto fail; } break; case OP_PUSH_LOOK_BEHIND_NOT: if (lookaround_nesting < 0) { // A look-around nested in a atomic grouping is found. goto impossible; } p += SIZE_RELADDR; p += SIZE_LENGTH; result = count_num_cache_opcodes_inner(reg, current_repeat_mem, lookaround_nesting + 1, &p, &num_cache_opcodes); if (result < 0 || num_cache_opcodes < 0) { goto fail; } break; case OP_PUSH_STOP_BT: if (lookaround_nesting != 0) { // A nested atomic grouping is found. goto impossible; } result = count_num_cache_opcodes_inner(reg, current_repeat_mem, -1, &p, &num_cache_opcodes); if (result < 0 || num_cache_opcodes < 0) { goto fail; } break; case OP_POP_POS: case OP_FAIL_POS: case OP_FAIL_LOOK_BEHIND_NOT: case OP_POP_STOP_BT: goto exit; case OP_LOOK_BEHIND: p += SIZE_LENGTH; break; case OP_PUSH_ABSENT_POS: case OP_ABSENT_END: case OP_ABSENT: goto impossible; case OP_CALL: case OP_RETURN: goto impossible; case OP_CONDITION: goto impossible; case OP_STATE_CHECK_PUSH: case OP_STATE_CHECK_PUSH_OR_JUMP: case OP_STATE_CHECK: case OP_STATE_CHECK_ANYCHAR_STAR: case OP_STATE_CHECK_ANYCHAR_ML_STAR: goto impossible; case OP_SET_OPTION_PUSH: case OP_SET_OPTION: p += SIZE_OPTION; break; default: goto bytecode_error; } } exit: *pp = p; *num_cache_opcodes_ptr = num_cache_opcodes; return 0; fail: *num_cache_opcodes_ptr = num_cache_opcodes; return result; impossible: *num_cache_opcodes_ptr = NUM_CACHE_OPCODES_IMPOSSIBLE; return 0; bytecode_error: return ONIGERR_UNDEFINED_BYTECODE; } /* count the total number of cache opcodes for allocating a match cache buffer. */ static OnigPosition count_num_cache_opcodes(const regex_t* reg, long* num_cache_opcodes_ptr) { UChar* p = reg->p; *num_cache_opcodes_ptr = 0; OnigPosition result = count_num_cache_opcodes_inner(reg, -1, 0, &p, num_cache_opcodes_ptr); if (result == 0 && *num_cache_opcodes_ptr >= 0 && p != reg->p + reg->used) { return ONIGERR_UNDEFINED_BYTECODE; } return result; } static OnigPosition init_cache_opcodes_inner( const regex_t* reg, MemNumType current_repeat_mem, int lookaround_nesting, OnigCacheOpcode** cache_opcodes_ptr, UChar** pp, long* num_cache_points_ptr ) { UChar* p = *pp; UChar* pend = reg->p + reg->used; UChar* pbegin; LengthType len; MemNumType repeat_mem; OnigEncoding enc = reg->enc; long cache_point = *num_cache_points_ptr; OnigCacheOpcode *cache_opcodes = *cache_opcodes_ptr; OnigPosition result; # define INC_CACHE_OPCODES do {\ cache_opcodes->addr = pbegin;\ cache_opcodes->cache_point = cache_point;\ cache_opcodes->outer_repeat_mem = current_repeat_mem;\ cache_opcodes->num_cache_points_at_outer_repeat = 0;\ cache_opcodes->num_cache_points_in_outer_repeat = 0;\ cache_opcodes->lookaround_nesting = lookaround_nesting;\ cache_opcodes->match_addr = NULL;\ cache_point += lookaround_nesting != 0 ? 2 : 1;\ cache_opcodes++;\ } while (0) while (p < pend) { pbegin = p; switch (*p++) { case OP_FINISH: case OP_END: break; case OP_EXACT1: p++; break; case OP_EXACT2: p += 2; break; case OP_EXACT3: p += 3; break; case OP_EXACT4: p += 4; break; case OP_EXACT5: p += 5; break; case OP_EXACTN: GET_LENGTH_INC(len, p); p += len; break; case OP_EXACTMB2N1: p += 2; break; case OP_EXACTMB2N2: p += 4; break; case OP_EXACTMB2N3: p += 6; break; case OP_EXACTMB2N: GET_LENGTH_INC(len, p); p += len * 2; break; case OP_EXACTMB3N: GET_LENGTH_INC(len, p); p += len * 3; break; case OP_EXACTMBN: { int mb_len; GET_LENGTH_INC(mb_len, p); GET_LENGTH_INC(len, p); p += mb_len * len; } break; case OP_EXACT1_IC: len = enclen(enc, p, pend); p += len; break; case OP_EXACTN_IC: GET_LENGTH_INC(len, p); p += len; break; case OP_CCLASS: case OP_CCLASS_NOT: p += SIZE_BITSET; break; case OP_CCLASS_MB: case OP_CCLASS_MB_NOT: GET_LENGTH_INC(len, p); p += len; break; case OP_CCLASS_MIX: case OP_CCLASS_MIX_NOT: p += SIZE_BITSET; GET_LENGTH_INC(len, p); p += len; break; case OP_ANYCHAR: case OP_ANYCHAR_ML: break; case OP_ANYCHAR_STAR: case OP_ANYCHAR_ML_STAR: INC_CACHE_OPCODES; break; case OP_ANYCHAR_STAR_PEEK_NEXT: case OP_ANYCHAR_ML_STAR_PEEK_NEXT: p++; INC_CACHE_OPCODES; break; case OP_WORD: case OP_NOT_WORD: case OP_WORD_BOUND: case OP_NOT_WORD_BOUND: case OP_WORD_BEGIN: case OP_WORD_END: break; case OP_ASCII_WORD: case OP_NOT_ASCII_WORD: case OP_ASCII_WORD_BOUND: case OP_NOT_ASCII_WORD_BOUND: case OP_ASCII_WORD_BEGIN: case OP_ASCII_WORD_END: break; case OP_BEGIN_BUF: case OP_END_BUF: case OP_BEGIN_LINE: case OP_END_LINE: case OP_SEMI_END_BUF: case OP_BEGIN_POSITION: break; case OP_BACKREF1: case OP_BACKREF2: case OP_BACKREFN: case OP_BACKREFN_IC: case OP_BACKREF_MULTI: case OP_BACKREF_MULTI_IC: case OP_BACKREF_WITH_LEVEL: goto unexpected_bytecode_error; case OP_MEMORY_START: case OP_MEMORY_START_PUSH: case OP_MEMORY_END_PUSH: case OP_MEMORY_END_PUSH_REC: case OP_MEMORY_END: case OP_MEMORY_END_REC: p += SIZE_MEMNUM; if (lookaround_nesting != 0) { goto unexpected_bytecode_error; } break; case OP_KEEP: break; case OP_FAIL: break; case OP_JUMP: p += SIZE_RELADDR; break; case OP_PUSH: p += SIZE_RELADDR; INC_CACHE_OPCODES; break; case OP_POP: break; case OP_PUSH_OR_JUMP_EXACT1: case OP_PUSH_IF_PEEK_NEXT: p += SIZE_RELADDR + 1; INC_CACHE_OPCODES; break; case OP_REPEAT: case OP_REPEAT_NG: GET_MEMNUM_INC(repeat_mem, p); p += SIZE_RELADDR; if (reg->repeat_range[repeat_mem].lower == 0) { INC_CACHE_OPCODES; } { long num_cache_points_in_repeat = 0; long num_cache_points_at_repeat = cache_point; OnigCacheOpcode* cache_opcodes_in_repeat = cache_opcodes; result = init_cache_opcodes_inner(reg, repeat_mem, lookaround_nesting, &cache_opcodes, &p, &num_cache_points_in_repeat); if (result != 0) { goto fail; } OnigRepeatRange *repeat_range = ®->repeat_range[repeat_mem]; if (repeat_range->lower < repeat_range->upper) { INC_CACHE_OPCODES; cache_point -= lookaround_nesting != 0 ? 2 : 1; } int repeat_bounds = repeat_range->upper == 0x7fffffff ? 1 : repeat_range->upper - repeat_range->lower; cache_point += num_cache_points_in_repeat * repeat_range->lower + (num_cache_points_in_repeat + (lookaround_nesting != 0 ? 2 : 1)) * repeat_bounds; for (; cache_opcodes_in_repeat < cache_opcodes; cache_opcodes_in_repeat++) { cache_opcodes_in_repeat->num_cache_points_at_outer_repeat = num_cache_points_at_repeat; cache_opcodes_in_repeat->num_cache_points_in_outer_repeat = num_cache_points_in_repeat; } } break; case OP_REPEAT_INC: case OP_REPEAT_INC_NG: p += SIZE_MEMNUM; goto exit; case OP_REPEAT_INC_SG: case OP_REPEAT_INC_NG_SG: goto unexpected_bytecode_error; case OP_NULL_CHECK_START: p += SIZE_MEMNUM; break; case OP_NULL_CHECK_END: case OP_NULL_CHECK_END_MEMST_PUSH: p += SIZE_MEMNUM; break; case OP_NULL_CHECK_END_MEMST: p += SIZE_MEMNUM; break; case OP_PUSH_POS: lookaround: { OnigCacheOpcode* cache_opcodes_in_lookaround = cache_opcodes; result = init_cache_opcodes_inner(reg, current_repeat_mem, lookaround_nesting + 1, &cache_opcodes, &p, &cache_point); if (result != 0) { goto fail; } UChar* match_addr = p - 1; for (; cache_opcodes_in_lookaround < cache_opcodes; cache_opcodes_in_lookaround++) { if (cache_opcodes_in_lookaround->match_addr == NULL) { cache_opcodes_in_lookaround->match_addr = match_addr; } } } break; case OP_PUSH_POS_NOT: p += SIZE_RELADDR; goto lookaround; case OP_PUSH_LOOK_BEHIND_NOT: p += SIZE_RELADDR; p += SIZE_LENGTH; goto lookaround; case OP_PUSH_STOP_BT: { OnigCacheOpcode* cache_opcodes_in_atomic = cache_opcodes; result = init_cache_opcodes_inner(reg, current_repeat_mem, -1, &cache_opcodes, &p, &cache_point); if (result != 0) { goto fail; } UChar* match_addr = p - 1; for (; cache_opcodes_in_atomic < cache_opcodes; cache_opcodes_in_atomic++) { if (cache_opcodes_in_atomic->match_addr == NULL) { cache_opcodes_in_atomic->match_addr = match_addr; } } } break; case OP_POP_POS: case OP_FAIL_POS: case OP_FAIL_LOOK_BEHIND_NOT: case OP_POP_STOP_BT: goto exit; case OP_LOOK_BEHIND: p += SIZE_LENGTH; break; case OP_ABSENT_END: case OP_ABSENT: goto unexpected_bytecode_error; case OP_CALL: case OP_RETURN: goto unexpected_bytecode_error; case OP_CONDITION: goto unexpected_bytecode_error; case OP_STATE_CHECK_PUSH: case OP_STATE_CHECK_PUSH_OR_JUMP: case OP_STATE_CHECK: case OP_STATE_CHECK_ANYCHAR_STAR: case OP_STATE_CHECK_ANYCHAR_ML_STAR: goto unexpected_bytecode_error; case OP_SET_OPTION_PUSH: case OP_SET_OPTION: p += SIZE_OPTION; break; default: goto bytecode_error; } } exit: *cache_opcodes_ptr = cache_opcodes; *pp = p; *num_cache_points_ptr = cache_point; return 0; fail: return result; unexpected_bytecode_error: return ONIGERR_UNEXPECTED_BYTECODE; bytecode_error: return ONIGERR_UNDEFINED_BYTECODE; } /* collect cache opcodes from the given regex program, and compute the total number of cache points. */ static OnigPosition init_cache_opcodes(const regex_t* reg, OnigCacheOpcode* cache_opcodes_ptr, long* num_cache_points_ptr) { UChar* p = reg->p; *num_cache_points_ptr = 0; OnigPosition result = init_cache_opcodes_inner(reg, -1, 0, &cache_opcodes_ptr, &p, num_cache_points_ptr); if (result == 0 && p != reg->p + reg->used) { return ONIGERR_UNDEFINED_BYTECODE; } return result; } #else static OnigPosition count_num_cache_opcodes(regex_t* reg, long* num_cache_opcodes) { *num_cache_opcodes = NUM_CACHE_OPCODES_IMPOSSIBLE; return 0; } #endif /* USE_MATCH_CACHE */ extern int onig_check_linear_time(OnigRegexType* reg) { long num_cache_opcodes = 0; count_num_cache_opcodes(reg, &num_cache_opcodes); return num_cache_opcodes != NUM_CACHE_OPCODES_IMPOSSIBLE; } extern void onig_region_clear(OnigRegion* region) { int i; for (i = 0; i < region->num_regs; i++) { region->beg[i] = region->end[i] = ONIG_REGION_NOTPOS; } #ifdef USE_CAPTURE_HISTORY history_root_free(region); #endif } extern int onig_region_resize(OnigRegion* region, int n) { region->num_regs = n; if (n < ONIG_NREGION) n = ONIG_NREGION; if (region->allocated == 0) { region->beg = (OnigPosition* )xmalloc(n * sizeof(OnigPosition)); if (region->beg == 0) return ONIGERR_MEMORY; region->end = (OnigPosition* )xmalloc(n * sizeof(OnigPosition)); if (region->end == 0) { xfree(region->beg); return ONIGERR_MEMORY; } region->allocated = n; } else if (region->allocated < n) { OnigPosition *tmp; region->allocated = 0; tmp = (OnigPosition* )xrealloc(region->beg, n * sizeof(OnigPosition)); if (tmp == 0) { xfree(region->beg); xfree(region->end); return ONIGERR_MEMORY; } region->beg = tmp; tmp = (OnigPosition* )xrealloc(region->end, n * sizeof(OnigPosition)); if (tmp == 0) { xfree(region->beg); xfree(region->end); return ONIGERR_MEMORY; } region->end = tmp; region->allocated = n; } return 0; } static int onig_region_resize_clear(OnigRegion* region, int n) { int r; r = onig_region_resize(region, n); if (r != 0) return r; onig_region_clear(region); return 0; } extern int onig_region_set(OnigRegion* region, int at, int beg, int end) { if (at < 0) return ONIGERR_INVALID_ARGUMENT; if (at >= region->allocated) { int r = onig_region_resize(region, at + 1); if (r < 0) return r; } region->beg[at] = beg; region->end[at] = end; return 0; } extern void onig_region_init(OnigRegion* region) { region->num_regs = 0; region->allocated = 0; region->beg = (OnigPosition* )0; region->end = (OnigPosition* )0; #ifdef USE_CAPTURE_HISTORY region->history_root = (OnigCaptureTreeNode* )0; #endif } extern OnigRegion* onig_region_new(void) { OnigRegion* r; r = (OnigRegion* )xmalloc(sizeof(OnigRegion)); if (r) onig_region_init(r); return r; } extern void onig_region_free(OnigRegion* r, int free_self) { if (r) { if (r->allocated > 0) { xfree(r->beg); xfree(r->end); } #ifdef USE_CAPTURE_HISTORY history_root_free(r); #endif if (free_self) { xfree(r); } else { memset(r, 0, sizeof(OnigRegion)); } } } extern void onig_region_copy(OnigRegion* to, const OnigRegion* from) { #define RREGC_SIZE (sizeof(int) * from->num_regs) int i, r; if (to == from) return; r = onig_region_resize(to, from->num_regs); if (r) return; for (i = 0; i < from->num_regs; i++) { to->beg[i] = from->beg[i]; to->end[i] = from->end[i]; } to->num_regs = from->num_regs; #ifdef USE_CAPTURE_HISTORY history_root_free(to); if (IS_NOT_NULL(from->history_root)) { to->history_root = history_tree_clone(from->history_root); } #endif } /** stack **/ #define INVALID_STACK_INDEX -1 /* stack type */ /* used by normal-POP */ #define STK_ALT 0x0001 #define STK_LOOK_BEHIND_NOT 0x0002 #define STK_POS_NOT 0x0003 /* handled by normal-POP */ #define STK_MEM_START 0x0100 #define STK_MEM_END 0x8200 #define STK_REPEAT_INC 0x0300 #define STK_STATE_CHECK_MARK 0x1000 /* avoided by normal-POP */ #define STK_NULL_CHECK_START 0x3000 #define STK_NULL_CHECK_END 0x5000 /* for recursive call */ #define STK_MEM_END_MARK 0x8400 #define STK_POS 0x0500 /* used when POP-POS */ #define STK_STOP_BT 0x0600 /* mark for "(?>...)" */ #define STK_REPEAT 0x0700 #define STK_CALL_FRAME 0x0800 #define STK_RETURN 0x0900 #define STK_VOID 0x0a00 /* for fill a blank */ #define STK_ABSENT_POS 0x0b00 /* for absent */ #define STK_ABSENT 0x0c00 /* absent inner loop marker */ #define STK_MATCH_CACHE_POINT 0x0d00 /* for the match cache optimization */ #define STK_ATOMIC_MATCH_CACHE_POINT 0x0e00 /* stack type check mask */ #define STK_MASK_POP_USED 0x00ff #define STK_MASK_TO_VOID_TARGET 0x10ff #define STK_MASK_MEM_END_OR_MARK 0x8000 /* MEM_END or MEM_END_MARK */ #ifdef USE_MATCH_CACHE #define MATCH_ARG_INIT_MATCH_CACHE(msa) do {\ (msa).match_cache_status = MATCH_CACHE_STATUS_UNINIT;\ (msa).num_fails = 0;\ (msa).num_cache_opcodes = NUM_CACHE_OPCODES_UNINIT;\ (msa).cache_opcodes = (OnigCacheOpcode*)NULL;\ (msa).num_cache_points = 0;\ (msa).match_cache_buf = (uint8_t*)NULL;\ } while(0) #define MATCH_ARG_FREE_MATCH_CACHE(msa) do {\ xfree((msa).cache_opcodes);\ xfree((msa).match_cache_buf);\ (msa).cache_opcodes = (OnigCacheOpcode*)NULL;\ (msa).match_cache_buf = (uint8_t*)NULL;\ } while(0) #else #define MATCH_ARG_INIT_MATCH_CACHE(msa) #define MATCH_ARG_FREE_MATCH_CACHE(msa) #endif #ifdef USE_FIND_LONGEST_SEARCH_ALL_OF_RANGE # define MATCH_ARG_INIT(msa, arg_option, arg_region, arg_start, arg_gpos) do {\ (msa).stack_p = (void* )0;\ (msa).options = (arg_option);\ (msa).region = (arg_region);\ (msa).start = (arg_start);\ (msa).gpos = (arg_gpos);\ (msa).best_len = ONIG_MISMATCH;\ (msa).counter = 0;\ (msa).end_time = 0;\ MATCH_ARG_INIT_MATCH_CACHE(msa);\ } while(0) #else # define MATCH_ARG_INIT(msa, arg_option, arg_region, arg_start, arg_gpos) do {\ (msa).stack_p = (void* )0;\ (msa).options = (arg_option);\ (msa).region = (arg_region);\ (msa).start = (arg_start);\ (msa).gpos = (arg_gpos);\ (msa).counter = 0;\ (msa).end_time = 0;\ MATCH_ARG_INIT_MATCH_CACHE(msa);\ } while(0) #endif #ifdef USE_COMBINATION_EXPLOSION_CHECK # define STATE_CHECK_BUFF_MALLOC_THRESHOLD_SIZE 16 # define STATE_CHECK_BUFF_INIT(msa, str_len, offset, state_num) do { \ if ((state_num) > 0 && str_len >= STATE_CHECK_STRING_THRESHOLD_LEN) {\ unsigned int size = (unsigned int )(((str_len) + 1) * (state_num) + 7) >> 3;\ offset = ((offset) * (state_num)) >> 3;\ if (size > 0 && offset < size && size < STATE_CHECK_BUFF_MAX_SIZE) {\ if (size >= STATE_CHECK_BUFF_MALLOC_THRESHOLD_SIZE) {\ (msa).state_check_buff = (void* )xmalloc(size);\ CHECK_NULL_RETURN_MEMERR((msa).state_check_buff);\ }\ else \ (msa).state_check_buff = (void* )xalloca(size);\ xmemset(((char* )((msa).state_check_buff)+(offset)), 0, \ (size_t )(size - (offset))); \ (msa).state_check_buff_size = size;\ }\ else {\ (msa).state_check_buff = (void* )0;\ (msa).state_check_buff_size = 0;\ }\ }\ else {\ (msa).state_check_buff = (void* )0;\ (msa).state_check_buff_size = 0;\ }\ } while(0) # define MATCH_ARG_FREE(msa) do {\ xfree((msa).stack_p);\ if ((msa).state_check_buff_size >= STATE_CHECK_BUFF_MALLOC_THRESHOLD_SIZE) { \ xfree((msa).state_check_buff);\ }\ MATCH_ARG_FREE_MATCH_CACHE(msa);\ } while(0) #else /* USE_COMBINATION_EXPLOSION_CHECK */ # define MATCH_ARG_FREE(msa) do {\ xfree((msa).stack_p);\ MATCH_ARG_FREE_MATCH_CACHE(msa);\ } while (0) #endif /* USE_COMBINATION_EXPLOSION_CHECK */ #define MAX_PTR_NUM 100 #define STACK_INIT(alloc_addr, heap_addr, ptr_num, stack_num) do {\ if (ptr_num > MAX_PTR_NUM) {\ alloc_addr = (char* )xmalloc(sizeof(OnigStackIndex) * (ptr_num));\ heap_addr = alloc_addr;\ if (msa->stack_p) {\ stk_alloc = (OnigStackType* )(msa->stack_p);\ stk_base = stk_alloc;\ stk = stk_base;\ stk_end = stk_base + msa->stack_n;\ } else {\ stk_alloc = (OnigStackType* )xalloca(sizeof(OnigStackType) * (stack_num));\ stk_base = stk_alloc;\ stk = stk_base;\ stk_end = stk_base + (stack_num);\ }\ } else if (msa->stack_p) {\ alloc_addr = (char* )xalloca(sizeof(OnigStackIndex) * (ptr_num));\ heap_addr = NULL;\ stk_alloc = (OnigStackType* )(msa->stack_p);\ stk_base = stk_alloc;\ stk = stk_base;\ stk_end = stk_base + msa->stack_n;\ }\ else {\ alloc_addr = (char* )xalloca(sizeof(OnigStackIndex) * (ptr_num)\ + sizeof(OnigStackType) * (stack_num));\ heap_addr = NULL;\ stk_alloc = (OnigStackType* )(alloc_addr + sizeof(OnigStackIndex) * (ptr_num));\ stk_base = stk_alloc;\ stk = stk_base;\ stk_end = stk_base + (stack_num);\ }\ } while(0) #define STACK_SAVE do{\ if (stk_base != stk_alloc) {\ msa->stack_p = stk_base;\ msa->stack_n = stk_end - stk_base; /* TODO: check overflow */\ };\ } while(0) static unsigned int MatchStackLimitSize = DEFAULT_MATCH_STACK_LIMIT_SIZE; extern unsigned int onig_get_match_stack_limit_size(void) { return MatchStackLimitSize; } extern int onig_set_match_stack_limit_size(unsigned int size) { MatchStackLimitSize = size; return 0; } static int stack_double(OnigStackType** arg_stk_base, OnigStackType** arg_stk_end, OnigStackType** arg_stk, OnigStackType* stk_alloc, OnigMatchArg* msa) { size_t n; OnigStackType *x, *stk_base, *stk_end, *stk; stk_base = *arg_stk_base; stk_end = *arg_stk_end; stk = *arg_stk; n = stk_end - stk_base; if (stk_base == stk_alloc && IS_NULL(msa->stack_p)) { x = (OnigStackType* )xmalloc(sizeof(OnigStackType) * n * 2); if (IS_NULL(x)) { STACK_SAVE; return ONIGERR_MEMORY; } xmemcpy(x, stk_base, n * sizeof(OnigStackType)); n *= 2; } else { unsigned int limit_size = MatchStackLimitSize; n *= 2; if (limit_size != 0 && n > limit_size) { if ((unsigned int )(stk_end - stk_base) == limit_size) return ONIGERR_MATCH_STACK_LIMIT_OVER; else n = limit_size; } x = (OnigStackType* )xrealloc(stk_base, sizeof(OnigStackType) * n); if (IS_NULL(x)) { STACK_SAVE; return ONIGERR_MEMORY; } } *arg_stk = x + (stk - stk_base); *arg_stk_base = x; *arg_stk_end = x + n; return 0; } #define STACK_ENSURE(n) do {\ if (stk_end - stk < (n)) {\ int r = stack_double(&stk_base, &stk_end, &stk, stk_alloc, msa);\ if (r != 0) {\ STACK_SAVE;\ xfree(xmalloc_base);\ return r;\ }\ }\ } while(0) #define STACK_AT(index) (stk_base + (index)) #define GET_STACK_INDEX(stk) ((stk) - stk_base) #define STACK_PUSH_TYPE(stack_type) do {\ STACK_ENSURE(1);\ stk->type = (stack_type);\ stk->null_check = stk == stk_base ? 0 : (stk-1)->null_check;\ STACK_INC;\ } while(0) #define IS_TO_VOID_TARGET(stk) (((stk)->type & STK_MASK_TO_VOID_TARGET) != 0) #ifdef USE_COMBINATION_EXPLOSION_CHECK # define STATE_CHECK_POS(s,snum) \ (((s) - str) * num_comb_exp_check + ((snum) - 1)) # define STATE_CHECK_VAL(v,snum) do {\ if (state_check_buff != NULL) {\ ptrdiff_t x = STATE_CHECK_POS(s,snum);\ (v) = state_check_buff[x/8] & (1<<(x%8));\ }\ else (v) = 0;\ } while(0) # define ELSE_IF_STATE_CHECK_MARK(stk) \ else if ((stk)->type == STK_STATE_CHECK_MARK) { \ ptrdiff_t x = STATE_CHECK_POS(stk->u.state.pstr, stk->u.state.state_check);\ state_check_buff[x/8] |= (1<<(x%8)); \ } # define STACK_PUSH(stack_type,pat,s,sprev,keep) do {\ STACK_ENSURE(1);\ stk->type = (stack_type);\ stk->u.state.pcode = (pat);\ stk->u.state.pstr = (s);\ stk->u.state.pstr_prev = (sprev);\ stk->u.state.state_check = 0;\ stk->u.state.pkeep = (keep);\ STACK_INC;\ } while(0) # define STACK_PUSH_ENSURED(stack_type,pat) do {\ stk->type = (stack_type);\ stk->u.state.pcode = (pat);\ stk->u.state.state_check = 0;\ STACK_INC;\ } while(0) # define STACK_PUSH_ALT_WITH_STATE_CHECK(pat,s,sprev,snum,keep) do {\ STACK_ENSURE(1);\ stk->type = STK_ALT;\ stk->u.state.pcode = (pat);\ stk->u.state.pstr = (s);\ stk->u.state.pstr_prev = (sprev);\ stk->u.state.state_check = ((state_check_buff != NULL) ? (snum) : 0);\ stk->u.state.pkeep = (keep);\ STACK_INC;\ } while(0) # define STACK_PUSH_STATE_CHECK(s,snum) do {\ if (state_check_buff != NULL) {\ STACK_ENSURE(1);\ stk->type = STK_STATE_CHECK_MARK;\ stk->u.state.pstr = (s);\ stk->u.state.state_check = (snum);\ STACK_INC;\ }\ } while(0) #else /* USE_COMBINATION_EXPLOSION_CHECK */ # define ELSE_IF_STATE_CHECK_MARK(stk) # define STACK_PUSH(stack_type,pat,s,sprev,keep) do {\ STACK_ENSURE(1);\ stk->type = (stack_type);\ stk->null_check = stk == stk_base ? 0 : (stk-1)->null_check;\ stk->u.state.pcode = (pat);\ stk->u.state.pstr = (s);\ stk->u.state.pstr_prev = (sprev);\ stk->u.state.pkeep = (keep);\ STACK_INC;\ } while(0) # define STACK_PUSH_ENSURED(stack_type,pat) do {\ stk->type = (stack_type);\ stk->null_check = stk == stk_base ? 0 : (stk-1)->null_check;\ stk->u.state.pcode = (pat);\ STACK_INC;\ } while(0) #endif /* USE_COMBINATION_EXPLOSION_CHECK */ #define STACK_PUSH_ALT(pat,s,sprev,keep) STACK_PUSH(STK_ALT,pat,s,sprev,keep) #define STACK_PUSH_POS(s,sprev,keep) STACK_PUSH(STK_POS,NULL_UCHARP,s,sprev,keep) #define STACK_PUSH_POS_NOT(pat,s,sprev,keep) STACK_PUSH(STK_POS_NOT,pat,s,sprev,keep) #define STACK_PUSH_ABSENT STACK_PUSH_TYPE(STK_ABSENT) #define STACK_PUSH_STOP_BT STACK_PUSH_TYPE(STK_STOP_BT) #define STACK_PUSH_LOOK_BEHIND_NOT(pat,s,sprev,keep) \ STACK_PUSH(STK_LOOK_BEHIND_NOT,pat,s,sprev,keep) #define STACK_PUSH_REPEAT(id, pat) do {\ STACK_ENSURE(1);\ stk->type = STK_REPEAT;\ stk->null_check = stk == stk_base ? 0 : (stk-1)->null_check;\ stk->u.repeat.num = (id);\ stk->u.repeat.pcode = (pat);\ stk->u.repeat.count = 0;\ STACK_INC;\ } while(0) #define STACK_PUSH_REPEAT_INC(sindex) do {\ STACK_ENSURE(1);\ stk->type = STK_REPEAT_INC;\ stk->null_check = stk == stk_base ? 0 : (stk-1)->null_check;\ stk->u.repeat_inc.si = (sindex);\ STACK_INC;\ } while(0) #define STACK_PUSH_MEM_START(mnum, s) do {\ STACK_ENSURE(1);\ stk->type = STK_MEM_START;\ stk->null_check = stk == stk_base ? 0 : (stk-1)->null_check;\ stk->u.mem.num = (mnum);\ stk->u.mem.pstr = (s);\ stk->u.mem.start = mem_start_stk[mnum];\ stk->u.mem.end = mem_end_stk[mnum];\ mem_start_stk[mnum] = GET_STACK_INDEX(stk);\ mem_end_stk[mnum] = INVALID_STACK_INDEX;\ STACK_INC;\ } while(0) #define STACK_PUSH_MEM_END(mnum, s) do {\ STACK_ENSURE(1);\ stk->type = STK_MEM_END;\ stk->null_check = stk == stk_base ? 0 : (stk-1)->null_check;\ stk->u.mem.num = (mnum);\ stk->u.mem.pstr = (s);\ stk->u.mem.start = mem_start_stk[mnum];\ stk->u.mem.end = mem_end_stk[mnum];\ mem_end_stk[mnum] = GET_STACK_INDEX(stk);\ STACK_INC;\ } while(0) #define STACK_PUSH_MEM_END_MARK(mnum) do {\ STACK_ENSURE(1);\ stk->type = STK_MEM_END_MARK;\ stk->null_check = stk == stk_base ? 0 : (stk-1)->null_check;\ stk->u.mem.num = (mnum);\ STACK_INC;\ } while(0) #define STACK_GET_MEM_START(mnum, k) do {\ int level = 0;\ k = stk;\ while (k > stk_base) {\ k--;\ if ((k->type & STK_MASK_MEM_END_OR_MARK) != 0 \ && k->u.mem.num == (mnum)) {\ level++;\ }\ else if (k->type == STK_MEM_START && k->u.mem.num == (mnum)) {\ if (level == 0) break;\ level--;\ }\ }\ } while(0) #define STACK_GET_MEM_RANGE(k, mnum, start, end) do {\ int level = 0;\ while (k < stk) {\ if (k->type == STK_MEM_START && k->u.mem.num == (mnum)) {\ if (level == 0) (start) = k->u.mem.pstr;\ level++;\ }\ else if (k->type == STK_MEM_END && k->u.mem.num == (mnum)) {\ level--;\ if (level == 0) {\ (end) = k->u.mem.pstr;\ break;\ }\ }\ k++;\ }\ } while(0) #define STACK_PUSH_NULL_CHECK_START(cnum, s) do {\ STACK_ENSURE(1);\ stk->type = STK_NULL_CHECK_START;\ stk->null_check = (OnigStackIndex)(stk - stk_base);\ stk->u.null_check.num = (cnum);\ stk->u.null_check.pstr = (s);\ STACK_INC;\ } while(0) #define STACK_PUSH_NULL_CHECK_END(cnum) do {\ STACK_ENSURE(1);\ stk->type = STK_NULL_CHECK_END;\ stk->null_check = (OnigStackIndex)(stk - stk_base);\ stk->u.null_check.num = (cnum);\ STACK_INC;\ } while(0) #define STACK_PUSH_CALL_FRAME(pat) do {\ STACK_ENSURE(1);\ stk->type = STK_CALL_FRAME;\ stk->null_check = stk == stk_base ? 0 : (stk-1)->null_check;\ stk->u.call_frame.ret_addr = (pat);\ STACK_INC;\ } while(0) #define STACK_PUSH_RETURN do {\ STACK_ENSURE(1);\ stk->type = STK_RETURN;\ stk->null_check = stk == stk_base ? 0 : (stk-1)->null_check;\ STACK_INC;\ } while(0) #define STACK_PUSH_ABSENT_POS(start, end) do {\ STACK_ENSURE(1);\ stk->type = STK_ABSENT_POS;\ stk->null_check = stk == stk_base ? 0 : (stk-1)->null_check;\ stk->u.absent_pos.abs_pstr = (start);\ stk->u.absent_pos.end_pstr = (end);\ STACK_INC;\ } while(0) #define STACK_PUSH_MATCH_CACHE_POINT(match_cache_point_index, match_cache_point_mask) do {\ STACK_ENSURE(1);\ stk->type = STK_MATCH_CACHE_POINT;\ stk->null_check = stk == stk_base ? 0 : (stk-1)->null_check;\ stk->u.match_cache_point.index = (match_cache_point_index);\ stk->u.match_cache_point.mask = (match_cache_point_mask);\ STACK_INC;\ } while(0) #ifdef ONIG_DEBUG # define STACK_BASE_CHECK(p, at) \ if ((p) < stk_base) {\ fprintf(stderr, "at %s\n", at);\ goto stack_error;\ } #else # define STACK_BASE_CHECK(p, at) #endif #ifdef ONIG_DEBUG_MATCH_CACHE # define MATCH_CACHE_DEBUG_MEMOIZE(stkp) fprintf(stderr, "MATCH CACHE: memoize (index=%ld mask=%d)\n", stkp->u.match_cache_point.index, stkp->u.match_cache_point.mask); #else # define MATCH_CACHE_DEBUG_MEMOIZE(stkp) ((void) 0) #endif #ifdef USE_MATCH_CACHE # define INC_NUM_FAILS msa->num_fails++ # define MEMOIZE_MATCH_CACHE_POINT do {\ if (stk->type == STK_MATCH_CACHE_POINT) {\ msa->match_cache_buf[stk->u.match_cache_point.index] |= stk->u.match_cache_point.mask;\ MATCH_CACHE_DEBUG_MEMOIZE(stk);\ } else if (stk->type == STK_ATOMIC_MATCH_CACHE_POINT) {\ memoize_extended_match_cache_point(msa->match_cache_buf, stk->u.match_cache_point.index, stk->u.match_cache_point.mask);\ MATCH_CACHE_DEBUG_MEMOIZE(stkp);\ }\ } while(0) # define MEMOIZE_LOOKAROUND_MATCH_CACHE_POINT(stkp) do {\ if (stkp->type == STK_MATCH_CACHE_POINT) {\ stkp->type = STK_VOID;\ memoize_extended_match_cache_point(msa->match_cache_buf, stkp->u.match_cache_point.index, stkp->u.match_cache_point.mask);\ MATCH_CACHE_DEBUG_MEMOIZE(stkp);\ }\ } while(0) # define MEMOIZE_ATOMIC_MATCH_CACHE_POINT do {\ if (stk->type == STK_MATCH_CACHE_POINT) {\ memoize_extended_match_cache_point(msa->match_cache_buf, stk->u.match_cache_point.index, stk->u.match_cache_point.mask);\ MATCH_CACHE_DEBUG_MEMOIZE(stkp);\ }\ } while(0) #else # define INC_NUM_FAILS ((void) 0) # define MEMOIZE_MATCH_CACHE_POINT ((void) 0) # define MEMOIZE_LOOKAROUND_MATCH_CACHE_POINT ((void) 0) #endif #define STACK_POP_ONE do {\ stk--;\ STACK_BASE_CHECK(stk, "STACK_POP_ONE"); \ } while(0) #define STACK_POP do {\ switch (pop_level) {\ case STACK_POP_LEVEL_FREE:\ while (1) {\ stk--;\ STACK_BASE_CHECK(stk, "STACK_POP"); \ if ((stk->type & STK_MASK_POP_USED) != 0) break;\ ELSE_IF_STATE_CHECK_MARK(stk);\ MEMOIZE_MATCH_CACHE_POINT;\ }\ break;\ case STACK_POP_LEVEL_MEM_START:\ while (1) {\ stk--;\ STACK_BASE_CHECK(stk, "STACK_POP 2"); \ if ((stk->type & STK_MASK_POP_USED) != 0) break;\ else if (stk->type == STK_MEM_START) {\ mem_start_stk[stk->u.mem.num] = stk->u.mem.start;\ mem_end_stk[stk->u.mem.num] = stk->u.mem.end;\ }\ ELSE_IF_STATE_CHECK_MARK(stk);\ MEMOIZE_MATCH_CACHE_POINT;\ }\ break;\ default:\ while (1) {\ stk--;\ STACK_BASE_CHECK(stk, "STACK_POP 3"); \ if ((stk->type & STK_MASK_POP_USED) != 0) break;\ else if (stk->type == STK_MEM_START) {\ mem_start_stk[stk->u.mem.num] = stk->u.mem.start;\ mem_end_stk[stk->u.mem.num] = stk->u.mem.end;\ }\ else if (stk->type == STK_REPEAT_INC) {\ STACK_AT(stk->u.repeat_inc.si)->u.repeat.count--;\ }\ else if (stk->type == STK_MEM_END) {\ mem_start_stk[stk->u.mem.num] = stk->u.mem.start;\ mem_end_stk[stk->u.mem.num] = stk->u.mem.end;\ }\ ELSE_IF_STATE_CHECK_MARK(stk);\ MEMOIZE_MATCH_CACHE_POINT;\ }\ break;\ }\ } while(0) #define STACK_POP_TIL_POS_NOT do {\ while (1) {\ stk--;\ STACK_BASE_CHECK(stk, "STACK_POP_TIL_POS_NOT"); \ if (stk->type == STK_POS_NOT) break;\ else if (stk->type == STK_MEM_START) {\ mem_start_stk[stk->u.mem.num] = stk->u.mem.start;\ mem_end_stk[stk->u.mem.num] = stk->u.mem.end;\ }\ else if (stk->type == STK_REPEAT_INC) {\ STACK_AT(stk->u.repeat_inc.si)->u.repeat.count--;\ }\ else if (stk->type == STK_MEM_END) {\ mem_start_stk[stk->u.mem.num] = stk->u.mem.start;\ mem_end_stk[stk->u.mem.num] = stk->u.mem.end;\ }\ else if (IS_TO_VOID_TARGET(stk)) {\ INC_NUM_FAILS;\ }\ ELSE_IF_STATE_CHECK_MARK(stk);\ MEMOIZE_LOOKAROUND_MATCH_CACHE_POINT(stk);\ }\ } while(0) #define STACK_POP_TIL_LOOK_BEHIND_NOT do {\ while (1) {\ stk--;\ STACK_BASE_CHECK(stk, "STACK_POP_TIL_LOOK_BEHIND_NOT"); \ if (stk->type == STK_LOOK_BEHIND_NOT) break;\ else if (stk->type == STK_MEM_START) {\ mem_start_stk[stk->u.mem.num] = stk->u.mem.start;\ mem_end_stk[stk->u.mem.num] = stk->u.mem.end;\ }\ else if (stk->type == STK_REPEAT_INC) {\ STACK_AT(stk->u.repeat_inc.si)->u.repeat.count--;\ }\ else if (stk->type == STK_MEM_END) {\ mem_start_stk[stk->u.mem.num] = stk->u.mem.start;\ mem_end_stk[stk->u.mem.num] = stk->u.mem.end;\ }\ ELSE_IF_STATE_CHECK_MARK(stk);\ }\ } while(0) #define STACK_POP_TIL_ABSENT do {\ while (1) {\ stk--;\ STACK_BASE_CHECK(stk, "STACK_POP_TIL_ABSENT"); \ if (stk->type == STK_ABSENT) break;\ else if (stk->type == STK_MEM_START) {\ mem_start_stk[stk->u.mem.num] = stk->u.mem.start;\ mem_end_stk[stk->u.mem.num] = stk->u.mem.end;\ }\ else if (stk->type == STK_REPEAT_INC) {\ STACK_AT(stk->u.repeat_inc.si)->u.repeat.count--;\ }\ else if (stk->type == STK_MEM_END) {\ mem_start_stk[stk->u.mem.num] = stk->u.mem.start;\ mem_end_stk[stk->u.mem.num] = stk->u.mem.end;\ }\ ELSE_IF_STATE_CHECK_MARK(stk);\ }\ } while(0) #define STACK_POP_ABSENT_POS(start, end) do {\ stk--;\ STACK_BASE_CHECK(stk, "STACK_POP_ABSENT_POS"); \ (start) = stk->u.absent_pos.abs_pstr;\ (end) = stk->u.absent_pos.end_pstr;\ } while(0) #define STACK_POS_END(k) do {\ k = stk;\ while (1) {\ k--;\ STACK_BASE_CHECK(k, "STACK_POS_END"); \ if (IS_TO_VOID_TARGET(k)) {\ INC_NUM_FAILS;\ k->type = STK_VOID;\ }\ else if (k->type == STK_POS) {\ k->type = STK_VOID;\ break;\ }\ MEMOIZE_LOOKAROUND_MATCH_CACHE_POINT(k);\ }\ } while(0) #define STACK_STOP_BT_END do {\ OnigStackType *k = stk;\ while (1) {\ k--;\ STACK_BASE_CHECK(k, "STACK_STOP_BT_END"); \ if (IS_TO_VOID_TARGET(k)) {\ INC_NUM_FAILS;\ k->type = STK_VOID;\ }\ else if (k->type == STK_STOP_BT) {\ k->type = STK_VOID;\ break;\ }\ else if (k->type == STK_MATCH_CACHE_POINT) {\ k->type = STK_ATOMIC_MATCH_CACHE_POINT;\ }\ }\ } while(0) #define STACK_STOP_BT_FAIL do {\ while (1) {\ stk--;\ STACK_BASE_CHECK(stk, "STACK_STOP_BT_END"); \ if (stk->type == STK_STOP_BT) {\ stk->type = STK_VOID;\ break;\ }\ MEMOIZE_ATOMIC_MATCH_CACHE_POINT;\ }\ } while(0) #define STACK_NULL_CHECK(isnull,id,s) do {\ OnigStackType* k = STACK_AT((stk-1)->null_check)+1;\ while (1) {\ k--;\ STACK_BASE_CHECK(k, "STACK_NULL_CHECK"); \ if (k->type == STK_NULL_CHECK_START) {\ if (k->u.null_check.num == (id)) {\ (isnull) = (k->u.null_check.pstr == (s));\ break;\ }\ }\ }\ } while(0) #define STACK_NULL_CHECK_REC(isnull,id,s) do {\ int level = 0;\ OnigStackType* k = STACK_AT((stk-1)->null_check)+1;\ while (1) {\ k--;\ STACK_BASE_CHECK(k, "STACK_NULL_CHECK_REC"); \ if (k->type == STK_NULL_CHECK_START) {\ if (k->u.null_check.num == (id)) {\ if (level == 0) {\ (isnull) = (k->u.null_check.pstr == (s));\ break;\ }\ else level--;\ }\ }\ else if (k->type == STK_NULL_CHECK_END) {\ level++;\ }\ }\ } while(0) #define STACK_NULL_CHECK_MEMST(isnull,id,s,reg) do {\ OnigStackType* k = STACK_AT((stk-1)->null_check)+1;\ while (1) {\ k--;\ STACK_BASE_CHECK(k, "STACK_NULL_CHECK_MEMST"); \ if (k->type == STK_NULL_CHECK_START) {\ if (k->u.null_check.num == (id)) {\ if (k->u.null_check.pstr != (s)) {\ (isnull) = 0;\ break;\ }\ else {\ UChar* endp;\ (isnull) = 1;\ while (k < stk) {\ if (k->type == STK_MEM_START) {\ if (k->u.mem.end == INVALID_STACK_INDEX) {\ (isnull) = 0; break;\ }\ if (BIT_STATUS_AT(reg->bt_mem_end, k->u.mem.num))\ endp = STACK_AT(k->u.mem.end)->u.mem.pstr;\ else\ endp = (UChar* )k->u.mem.end;\ if (STACK_AT(k->u.mem.start)->u.mem.pstr != endp) {\ (isnull) = 0; break;\ }\ else if (endp != s) {\ (isnull) = -1; /* empty, but position changed */ \ }\ }\ k++;\ }\ break;\ }\ }\ }\ }\ } while(0) #define STACK_NULL_CHECK_MEMST_REC(isnull,id,s,reg) do {\ int level = 0;\ OnigStackType* k = STACK_AT((stk-1)->null_check)+1;\ while (1) {\ k--;\ STACK_BASE_CHECK(k, "STACK_NULL_CHECK_MEMST_REC"); \ if (k->type == STK_NULL_CHECK_START) {\ if (k->u.null_check.num == (id)) {\ if (level == 0) {\ if (k->u.null_check.pstr != (s)) {\ (isnull) = 0;\ break;\ }\ else {\ UChar* endp;\ (isnull) = 1;\ while (k < stk) {\ if (k->type == STK_MEM_START) {\ if (k->u.mem.end == INVALID_STACK_INDEX) {\ (isnull) = 0; break;\ }\ if (BIT_STATUS_AT(reg->bt_mem_end, k->u.mem.num))\ endp = STACK_AT(k->u.mem.end)->u.mem.pstr;\ else\ endp = (UChar* )k->u.mem.end;\ if (STACK_AT(k->u.mem.start)->u.mem.pstr != endp) {\ (isnull) = 0; break;\ }\ else if (endp != s) {\ (isnull) = -1; /* empty, but position changed */ \ }\ }\ k++;\ }\ break;\ }\ }\ else {\ level--;\ }\ }\ }\ else if (k->type == STK_NULL_CHECK_END) {\ if (k->u.null_check.num == (id)) level++;\ }\ }\ } while(0) #define STACK_GET_REPEAT(id, k) do {\ int level = 0;\ k = stk;\ while (1) {\ k--;\ STACK_BASE_CHECK(k, "STACK_GET_REPEAT"); \ if (k->type == STK_REPEAT) {\ if (level == 0) {\ if (k->u.repeat.num == (id)) {\ break;\ }\ }\ }\ else if (k->type == STK_CALL_FRAME) level--;\ else if (k->type == STK_RETURN) level++;\ }\ } while(0) #define STACK_RETURN(addr) do {\ int level = 0;\ OnigStackType* k = stk;\ while (1) {\ k--;\ STACK_BASE_CHECK(k, "STACK_RETURN"); \ if (k->type == STK_CALL_FRAME) {\ if (level == 0) {\ (addr) = k->u.call_frame.ret_addr;\ break;\ }\ else level--;\ }\ else if (k->type == STK_RETURN)\ level++;\ }\ } while(0) #define STRING_CMP(s1,s2,len) do {\ while (len-- > 0) {\ if (*s1++ != *s2++) goto fail;\ }\ } while(0) #define STRING_CMP_IC(case_fold_flag,s1,ps2,len,text_end) do {\ if (string_cmp_ic(encode, case_fold_flag, s1, ps2, len, text_end) == 0) \ goto fail; \ } while(0) static int string_cmp_ic(OnigEncoding enc, int case_fold_flag, UChar* s1, UChar** ps2, OnigDistance mblen, const UChar* text_end) { UChar buf1[ONIGENC_MBC_CASE_FOLD_MAXLEN]; UChar buf2[ONIGENC_MBC_CASE_FOLD_MAXLEN]; UChar *p1, *p2, *end1, *s2; int len1, len2; s2 = *ps2; end1 = s1 + mblen; while (s1 < end1) { len1 = ONIGENC_MBC_CASE_FOLD(enc, case_fold_flag, &s1, text_end, buf1); len2 = ONIGENC_MBC_CASE_FOLD(enc, case_fold_flag, &s2, text_end, buf2); if (len1 != len2) return 0; p1 = buf1; p2 = buf2; while (len1-- > 0) { if (*p1 != *p2) return 0; p1++; p2++; } } *ps2 = s2; return 1; } #define STRING_CMP_VALUE(s1,s2,len,is_fail) do {\ is_fail = 0;\ while (len-- > 0) {\ if (*s1++ != *s2++) {\ is_fail = 1; break;\ }\ }\ } while(0) #define STRING_CMP_VALUE_IC(case_fold_flag,s1,ps2,len,text_end,is_fail) do {\ if (string_cmp_ic(encode, case_fold_flag, s1, ps2, len, text_end) == 0) \ is_fail = 1; \ else \ is_fail = 0; \ } while(0) #define IS_EMPTY_STR (str == end) #define ON_STR_BEGIN(s) ((s) == str) #define ON_STR_END(s) ((s) == end) #ifdef USE_MATCH_RANGE_MUST_BE_INSIDE_OF_SPECIFIED_RANGE # define DATA_ENSURE_CHECK1 (s < right_range) # define DATA_ENSURE_CHECK(n) (s + (n) <= right_range) # define DATA_ENSURE(n) if (s + (n) > right_range) goto fail # define DATA_ENSURE_CONTINUE(n) if (s + (n) > right_range) continue # define ABSENT_END_POS right_range #else # define DATA_ENSURE_CHECK1 (s < end) # define DATA_ENSURE_CHECK(n) (s + (n) <= end) # define DATA_ENSURE(n) if (s + (n) > end) goto fail # define DATA_ENSURE_CONTINUE(n) if (s + (n) > end) continue # define ABSENT_END_POS end #endif /* USE_MATCH_RANGE_MUST_BE_INSIDE_OF_SPECIFIED_RANGE */ int onigenc_mbclen_approximate(const OnigUChar* p,const OnigUChar* e, const struct OnigEncodingTypeST* enc); static inline int enclen_approx(OnigEncoding enc, const OnigUChar* p, const OnigUChar* e) { if (enc->max_enc_len == enc->min_enc_len) { return (p < e ? enc->min_enc_len : 0); } else { return onigenc_mbclen_approximate(p, e, enc); } } #ifdef USE_CAPTURE_HISTORY static int make_capture_history_tree(OnigCaptureTreeNode* node, OnigStackType** kp, OnigStackType* stk_top, UChar* str, regex_t* reg) { int n, r; OnigCaptureTreeNode* child; OnigStackType* k = *kp; while (k < stk_top) { if (k->type == STK_MEM_START) { n = k->u.mem.num; if (n <= ONIG_MAX_CAPTURE_HISTORY_GROUP && BIT_STATUS_AT(reg->capture_history, n) != 0) { child = history_node_new(); CHECK_NULL_RETURN_MEMERR(child); child->group = n; child->beg = k->u.mem.pstr - str; r = history_tree_add_child(node, child); if (r != 0) { history_tree_free(child); return r; } *kp = (k + 1); r = make_capture_history_tree(child, kp, stk_top, str, reg); if (r != 0) return r; k = *kp; child->end = k->u.mem.pstr - str; } } else if (k->type == STK_MEM_END) { if (k->u.mem.num == node->group) { node->end = k->u.mem.pstr - str; *kp = k; return 0; } } k++; } return 1; /* 1: root node ending. */ } #endif /* USE_CAPTURE_HISTORY */ #ifdef USE_BACKREF_WITH_LEVEL static int mem_is_in_memp(int mem, int num, UChar* memp) { int i; MemNumType m; for (i = 0; i < num; i++) { GET_MEMNUM_INC(m, memp); if (mem == (int )m) return 1; } return 0; } static int backref_match_at_nested_level(regex_t* reg, OnigStackType* top, OnigStackType* stk_base, int ignore_case, int case_fold_flag, int nest, int mem_num, UChar* memp, UChar** s, const UChar* send) { UChar *ss, *p, *pstart, *pend = NULL_UCHARP; int level; OnigStackType* k; level = 0; k = top; k--; while (k >= stk_base) { if (k->type == STK_CALL_FRAME) { level--; } else if (k->type == STK_RETURN) { level++; } else if (level == nest) { if (k->type == STK_MEM_START) { if (mem_is_in_memp(k->u.mem.num, mem_num, memp)) { pstart = k->u.mem.pstr; if (pend != NULL_UCHARP) { if (pend - pstart > send - *s) return 0; /* or goto next_mem; */ p = pstart; ss = *s; if (ignore_case != 0) { if (string_cmp_ic(reg->enc, case_fold_flag, pstart, &ss, pend - pstart, send) == 0) return 0; /* or goto next_mem; */ } else { while (p < pend) { if (*p++ != *ss++) return 0; /* or goto next_mem; */ } } *s = ss; return 1; } } } else if (k->type == STK_MEM_END) { if (mem_is_in_memp(k->u.mem.num, mem_num, memp)) { pend = k->u.mem.pstr; } } } k--; } return 0; } #endif /* USE_BACKREF_WITH_LEVEL */ #ifdef ONIG_DEBUG_STATISTICS # ifdef _WIN32 # include static LARGE_INTEGER ts, te, freq; # define GETTIME(t) QueryPerformanceCounter(&(t)) # define TIMEDIFF(te,ts) (unsigned long )(((te).QuadPart - (ts).QuadPart) \ * 1000000 / freq.QuadPart) # else /* _WIN32 */ # define USE_TIMEOFDAY # ifdef USE_TIMEOFDAY # ifdef HAVE_SYS_TIME_H # include # endif # ifdef HAVE_UNISTD_H # include # endif static struct timeval ts, te; # define GETTIME(t) gettimeofday(&(t), (struct timezone* )0) # define TIMEDIFF(te,ts) (((te).tv_usec - (ts).tv_usec) + \ (((te).tv_sec - (ts).tv_sec)*1000000)) # else /* USE_TIMEOFDAY */ # ifdef HAVE_SYS_TIMES_H # include # endif static struct tms ts, te; # define GETTIME(t) times(&(t)) # define TIMEDIFF(te,ts) ((te).tms_utime - (ts).tms_utime) # endif /* USE_TIMEOFDAY */ # endif /* _WIN32 */ static int OpCounter[256]; static int OpPrevCounter[256]; static unsigned long OpTime[256]; static int OpCurr = OP_FINISH; static int OpPrevTarget = OP_FAIL; static int MaxStackDepth = 0; # define MOP_IN(opcode) do {\ if (opcode == OpPrevTarget) OpPrevCounter[OpCurr]++;\ OpCurr = opcode;\ OpCounter[opcode]++;\ GETTIME(ts);\ } while(0) # define MOP_OUT do {\ GETTIME(te);\ OpTime[OpCurr] += TIMEDIFF(te, ts);\ } while(0) extern void onig_statistics_init(void) { int i; for (i = 0; i < 256; i++) { OpCounter[i] = OpPrevCounter[i] = 0; OpTime[i] = 0; } MaxStackDepth = 0; # ifdef _WIN32 QueryPerformanceFrequency(&freq); # endif } extern void onig_print_statistics(FILE* f) { int i; fprintf(f, " count prev time\n"); for (i = 0; OnigOpInfo[i].opcode >= 0; i++) { fprintf(f, "%8d: %8d: %10lu: %s\n", OpCounter[i], OpPrevCounter[i], OpTime[i], OnigOpInfo[i].name); } fprintf(f, "\nmax stack depth: %d\n", MaxStackDepth); } # define STACK_INC do {\ stk++;\ if (stk - stk_base > MaxStackDepth) \ MaxStackDepth = stk - stk_base;\ } while(0) #else /* ONIG_DEBUG_STATISTICS */ # define STACK_INC stk++ # define MOP_IN(opcode) # define MOP_OUT #endif /* ONIG_DEBUG_STATISTICS */ #ifdef ONIG_DEBUG_MATCH static const char * stack_type_str(int stack_type) { switch (stack_type) { case STK_ALT: return "Alt "; case STK_LOOK_BEHIND_NOT: return "LBNot "; case STK_POS_NOT: return "PosNot"; case STK_MEM_START: return "MemS "; case STK_MEM_END: return "MemE "; case STK_REPEAT_INC: return "RepInc"; case STK_STATE_CHECK_MARK: return "StChMk"; case STK_NULL_CHECK_START: return "NulChS"; case STK_NULL_CHECK_END: return "NulChE"; case STK_MEM_END_MARK: return "MemEMk"; case STK_POS: return "Pos "; case STK_STOP_BT: return "StopBt"; case STK_REPEAT: return "Rep "; case STK_CALL_FRAME: return "Call "; case STK_RETURN: return "Ret "; case STK_VOID: return "Void "; case STK_ABSENT_POS: return "AbsPos"; case STK_ABSENT: return "Absent"; case STK_MATCH_CACHE_POINT: return "MCache"; default: return " "; } } #endif #ifdef USE_MATCH_CACHE static long bsearch_cache_opcodes(const OnigCacheOpcode *cache_opcodes, long num_cache_opcodes, const UChar* p) { long l = 0, r = num_cache_opcodes - 1, m = 0; while (l <= r) { m = (l + r) / 2; if (cache_opcodes[m].addr == p) break; if (cache_opcodes[m].addr < p) l = m + 1; else r = m - 1; } return m; } static long find_cache_point(regex_t* reg, const OnigCacheOpcode* cache_opcodes, long num_cache_opcodes, const UChar* p, const OnigStackType *stk, const OnigStackIndex *repeat_stk, const OnigCacheOpcode **cache_opcode_ptr) { long m; const OnigCacheOpcode* cache_opcode; const OnigRepeatRange* range; const OnigStackType *stkp; int count = 0; int is_inc = *p == OP_REPEAT_INC || *p == OP_REPEAT_INC_NG; long cache_point; long num_cache_points_at_outer_repeat; long num_cache_points_in_outer_repeat; m = bsearch_cache_opcodes(cache_opcodes, num_cache_opcodes, p); if (!(0 <= m && m < num_cache_opcodes && cache_opcodes[m].addr == p)) { return -1; } cache_opcode = &cache_opcodes[m]; *cache_opcode_ptr = &cache_opcodes[m]; cache_point = cache_opcode->cache_point; if (cache_opcode->outer_repeat_mem == -1) { return cache_point; } num_cache_points_at_outer_repeat = cache_opcode->num_cache_points_at_outer_repeat; num_cache_points_in_outer_repeat = cache_opcode->num_cache_points_in_outer_repeat; range = ®->repeat_range[cache_opcode->outer_repeat_mem]; stkp = &stk[repeat_stk[cache_opcode->outer_repeat_mem]]; count = is_inc ? stkp->u.repeat.count - 1 : stkp->u.repeat.count; if (count < range->lower) { return num_cache_points_at_outer_repeat + num_cache_points_in_outer_repeat * count + cache_point; } if (range->upper == 0x7fffffff) { return num_cache_points_at_outer_repeat + num_cache_points_in_outer_repeat * (range->lower - (is_inc ? 1 : 0)) + (is_inc ? 0 : 1) + cache_point; } return num_cache_points_at_outer_repeat + num_cache_points_in_outer_repeat * (range->lower - 1) + (num_cache_points_in_outer_repeat + 1) * (count - range->lower + 1) + cache_point; } static int check_extended_match_cache_point(uint8_t *match_cache_buf, long match_cache_point_index, uint8_t match_cache_point_mask) { if (match_cache_point_mask & 0x80) { return (match_cache_buf[match_cache_point_index + 1] & 0x01) > 0; } else { return (match_cache_buf[match_cache_point_index] & (match_cache_point_mask << 1)) > 0; } } static void memoize_extended_match_cache_point(uint8_t *match_cache_buf, long match_cache_point_index, uint8_t match_cache_point_mask) { match_cache_buf[match_cache_point_index] |= match_cache_point_mask; if (match_cache_point_mask & 0x80) { match_cache_buf[match_cache_point_index + 1] |= 0x01; } else { match_cache_buf[match_cache_point_index] |= match_cache_point_mask << 1; } } #endif /* USE_MATCH_CACHE */ /* match data(str - end) from position (sstart). */ /* if sstart == str then set sprev to NULL. */ static OnigPosition match_at(regex_t* reg, const UChar* str, const UChar* end, #ifdef USE_MATCH_RANGE_MUST_BE_INSIDE_OF_SPECIFIED_RANGE const UChar* right_range, #endif const UChar* sstart, UChar* sprev, OnigMatchArg* msa) { static const UChar FinishCode[] = { OP_FINISH }; int i, num_mem, pop_level; ptrdiff_t n, best_len; LengthType tlen, tlen2; MemNumType mem; RelAddrType addr; OnigOptionType option = reg->options; OnigEncoding encode = reg->enc; OnigCaseFoldType case_fold_flag = reg->case_fold_flag; UChar *s, *q, *sbegin; UChar *p = reg->p; UChar *pbegin = p; UChar *pkeep; char *alloca_base; char *xmalloc_base = NULL; OnigStackType *stk_alloc, *stk_base = NULL, *stk, *stk_end; OnigStackType *stkp; /* used as any purpose. */ OnigStackIndex si; OnigStackIndex *repeat_stk; OnigStackIndex *mem_start_stk, *mem_end_stk; #ifdef USE_COMBINATION_EXPLOSION_CHECK int scv; unsigned char* state_check_buff = msa->state_check_buff; int num_comb_exp_check = reg->num_comb_exp_check; #endif #if USE_TOKEN_THREADED_VM # define OP_OFFSET 1 # define VM_LOOP JUMP; # define VM_LOOP_END # define CASE(x) L_##x: sbegin = s; OPCODE_EXEC_HOOK; # define DEFAULT L_DEFAULT: # define NEXT sprev = sbegin; JUMP # define JUMP pbegin = p; RB_GNUC_EXTENSION_BLOCK(goto *oplabels[*p++]) RB_GNUC_EXTENSION static const void *oplabels[] = { &&L_OP_FINISH, /* matching process terminator (no more alternative) */ &&L_OP_END, /* pattern code terminator (success end) */ &&L_OP_EXACT1, /* single byte, N = 1 */ &&L_OP_EXACT2, /* single byte, N = 2 */ &&L_OP_EXACT3, /* single byte, N = 3 */ &&L_OP_EXACT4, /* single byte, N = 4 */ &&L_OP_EXACT5, /* single byte, N = 5 */ &&L_OP_EXACTN, /* single byte */ &&L_OP_EXACTMB2N1, /* mb-length = 2 N = 1 */ &&L_OP_EXACTMB2N2, /* mb-length = 2 N = 2 */ &&L_OP_EXACTMB2N3, /* mb-length = 2 N = 3 */ &&L_OP_EXACTMB2N, /* mb-length = 2 */ &&L_OP_EXACTMB3N, /* mb-length = 3 */ &&L_OP_EXACTMBN, /* other length */ &&L_OP_EXACT1_IC, /* single byte, N = 1, ignore case */ &&L_OP_EXACTN_IC, /* single byte, ignore case */ &&L_OP_CCLASS, &&L_OP_CCLASS_MB, &&L_OP_CCLASS_MIX, &&L_OP_CCLASS_NOT, &&L_OP_CCLASS_MB_NOT, &&L_OP_CCLASS_MIX_NOT, &&L_OP_ANYCHAR, /* "." */ &&L_OP_ANYCHAR_ML, /* "." multi-line */ &&L_OP_ANYCHAR_STAR, /* ".*" */ &&L_OP_ANYCHAR_ML_STAR, /* ".*" multi-line */ &&L_OP_ANYCHAR_STAR_PEEK_NEXT, &&L_OP_ANYCHAR_ML_STAR_PEEK_NEXT, &&L_OP_WORD, &&L_OP_NOT_WORD, &&L_OP_WORD_BOUND, &&L_OP_NOT_WORD_BOUND, # ifdef USE_WORD_BEGIN_END &&L_OP_WORD_BEGIN, &&L_OP_WORD_END, # else &&L_DEFAULT, &&L_DEFAULT, # endif &&L_OP_ASCII_WORD, &&L_OP_NOT_ASCII_WORD, &&L_OP_ASCII_WORD_BOUND, &&L_OP_NOT_ASCII_WORD_BOUND, # ifdef USE_WORD_BEGIN_END &&L_OP_ASCII_WORD_BEGIN, &&L_OP_ASCII_WORD_END, # else &&L_DEFAULT, &&L_DEFAULT, # endif &&L_OP_BEGIN_BUF, &&L_OP_END_BUF, &&L_OP_BEGIN_LINE, &&L_OP_END_LINE, &&L_OP_SEMI_END_BUF, &&L_OP_BEGIN_POSITION, &&L_OP_BACKREF1, &&L_OP_BACKREF2, &&L_OP_BACKREFN, &&L_OP_BACKREFN_IC, &&L_OP_BACKREF_MULTI, &&L_OP_BACKREF_MULTI_IC, # ifdef USE_BACKREF_WITH_LEVEL &&L_OP_BACKREF_WITH_LEVEL, /* \k, \k */ # else &&L_DEFAULT, # endif &&L_OP_MEMORY_START, &&L_OP_MEMORY_START_PUSH, /* push back-tracker to stack */ &&L_OP_MEMORY_END_PUSH, /* push back-tracker to stack */ # ifdef USE_SUBEXP_CALL &&L_OP_MEMORY_END_PUSH_REC, /* push back-tracker to stack */ # else &&L_DEFAULT, # endif &&L_OP_MEMORY_END, # ifdef USE_SUBEXP_CALL &&L_OP_MEMORY_END_REC, /* push marker to stack */ # else &&L_DEFAULT, # endif &&L_OP_KEEP, &&L_OP_FAIL, /* pop stack and move */ &&L_OP_JUMP, &&L_OP_PUSH, &&L_OP_POP, # ifdef USE_OP_PUSH_OR_JUMP_EXACT &&L_OP_PUSH_OR_JUMP_EXACT1, /* if match exact then push, else jump. */ # else &&L_DEFAULT, # endif &&L_OP_PUSH_IF_PEEK_NEXT, /* if match exact then push, else none. */ &&L_OP_REPEAT, /* {n,m} */ &&L_OP_REPEAT_NG, /* {n,m}? (non greedy) */ &&L_OP_REPEAT_INC, &&L_OP_REPEAT_INC_NG, /* non greedy */ &&L_OP_REPEAT_INC_SG, /* search and get in stack */ &&L_OP_REPEAT_INC_NG_SG, /* search and get in stack (non greedy) */ &&L_OP_NULL_CHECK_START, /* null loop checker start */ &&L_OP_NULL_CHECK_END, /* null loop checker end */ # ifdef USE_MONOMANIAC_CHECK_CAPTURES_IN_ENDLESS_REPEAT &&L_OP_NULL_CHECK_END_MEMST, /* null loop checker end (with capture status) */ # else &&L_DEFAULT, # endif # ifdef USE_SUBEXP_CALL &&L_OP_NULL_CHECK_END_MEMST_PUSH, /* with capture status and push check-end */ # else &&L_DEFAULT, # endif &&L_OP_PUSH_POS, /* (?=...) start */ &&L_OP_POP_POS, /* (?=...) end */ &&L_OP_PUSH_POS_NOT, /* (?!...) start */ &&L_OP_FAIL_POS, /* (?!...) end */ &&L_OP_PUSH_STOP_BT, /* (?>...) start */ &&L_OP_POP_STOP_BT, /* (?>...) end */ &&L_OP_LOOK_BEHIND, /* (?<=...) start (no needs end opcode) */ &&L_OP_PUSH_LOOK_BEHIND_NOT, /* (? */ &&L_OP_RETURN, # else &&L_DEFAULT, &&L_DEFAULT, # endif &&L_OP_CONDITION, # ifdef USE_COMBINATION_EXPLOSION_CHECK &&L_OP_STATE_CHECK_PUSH, /* combination explosion check and push */ &&L_OP_STATE_CHECK_PUSH_OR_JUMP, /* check ok -> push, else jump */ &&L_OP_STATE_CHECK, /* check only */ # else &&L_DEFAULT, &&L_DEFAULT, &&L_DEFAULT, # endif # ifdef USE_COMBINATION_EXPLOSION_CHECK &&L_OP_STATE_CHECK_ANYCHAR_STAR, &&L_OP_STATE_CHECK_ANYCHAR_ML_STAR, # else &&L_DEFAULT, &&L_DEFAULT, # endif /* no need: IS_DYNAMIC_OPTION() == 0 */ # if 0 /* no need: IS_DYNAMIC_OPTION() == 0 */ &&L_OP_SET_OPTION_PUSH, /* set option and push recover option */ &&L_OP_SET_OPTION /* set option */ # else &&L_DEFAULT, &&L_DEFAULT # endif }; #else /* USE_TOKEN_THREADED_VM */ # define OP_OFFSET 0 # define VM_LOOP \ while (1) { \ OPCODE_EXEC_HOOK; \ pbegin = p; \ sbegin = s; \ switch (*p++) { # define VM_LOOP_END } sprev = sbegin; } # define CASE(x) case x: # define DEFAULT default: # define NEXT break # define JUMP continue; break #endif /* USE_TOKEN_THREADED_VM */ #ifdef USE_SUBEXP_CALL /* Stack #0 is used to store the pattern itself and used for (?R), \g<0>, etc. Additional space is required. */ # define ADD_NUMMEM 1 #else /* Stack #0 not is used. */ # define ADD_NUMMEM 0 #endif n = reg->num_repeat + (reg->num_mem + ADD_NUMMEM) * 2; STACK_INIT(alloca_base, xmalloc_base, n, INIT_MATCH_STACK_SIZE); pop_level = reg->stack_pop_level; num_mem = reg->num_mem; repeat_stk = (OnigStackIndex* )alloca_base; mem_start_stk = (OnigStackIndex* )(repeat_stk + reg->num_repeat); mem_end_stk = mem_start_stk + (num_mem + ADD_NUMMEM); { OnigStackIndex *pp = mem_start_stk; for (; pp < repeat_stk + n; pp += 2) { pp[0] = INVALID_STACK_INDEX; pp[1] = INVALID_STACK_INDEX; } } #ifndef USE_SUBEXP_CALL mem_start_stk--; /* for index start from 1, mem_start_stk[1]..mem_start_stk[num_mem] */ mem_end_stk--; /* for index start from 1, mem_end_stk[1]..mem_end_stk[num_mem] */ #endif #ifdef ONIG_DEBUG_MATCH fprintf(stderr, "match_at: str: %"PRIuPTR" (%p), end: %"PRIuPTR" (%p), start: %"PRIuPTR" (%p), sprev: %"PRIuPTR" (%p)\n", (uintptr_t )str, str, (uintptr_t )end, end, (uintptr_t )sstart, sstart, (uintptr_t )sprev, sprev); fprintf(stderr, "size: %d, start offset: %d\n", (int )(end - str), (int )(sstart - str)); fprintf(stderr, "\n ofs> str stk:type addr:opcode\n"); #endif STACK_PUSH_ENSURED(STK_ALT, (UChar* )FinishCode); /* bottom stack */ best_len = ONIG_MISMATCH; s = (UChar* )sstart; pkeep = (UChar* )sstart; #ifdef ONIG_DEBUG_MATCH # define OPCODE_EXEC_HOOK \ if (s) { \ UChar *op, *q, *bp, buf[50]; \ int len; \ op = p - OP_OFFSET; \ fprintf(stderr, "%4"PRIdPTR"> \"", (*op == OP_FINISH) ? (ptrdiff_t )-1 : s - str); \ bp = buf; \ q = s; \ if (*op != OP_FINISH) { /* s may not be a valid pointer if OP_FINISH. */ \ for (i = 0; i < 7 && q < end; i++) { \ len = enclen(encode, q, end); \ while (len-- > 0) *bp++ = *q++; \ } \ if (q < end) { xmemcpy(bp, "...", 3); bp += 3; } \ } \ xmemcpy(bp, "\"", 1); bp += 1; \ *bp = 0; \ fputs((char* )buf, stderr); \ for (i = 0; i < 20 - (bp - buf); i++) fputc(' ', stderr); \ fprintf(stderr, "%4"PRIdPTR":%s %4"PRIdPTR":", \ stk - stk_base - 1, \ (stk > stk_base) ? stack_type_str(stk[-1].type) : " ", \ (op == FinishCode) ? (ptrdiff_t )-1 : op - reg->p); \ onig_print_compiled_byte_code(stderr, op, reg->p+reg->used, NULL, encode); \ fprintf(stderr, "\n"); \ } #else # define OPCODE_EXEC_HOOK ((void) 0) #endif #ifdef USE_MATCH_CACHE #ifdef ONIG_DEBUG_MATCH_CACHE #define MATCH_CACHE_DEBUG fprintf(stderr, "MATCH CACHE: cache %ld (p=%p index=%ld mask=%d)\n", match_cache_point, pbegin, match_cache_point_index, match_cache_point_mask) #define MATCH_CACHE_DEBUG_HIT fprintf(stderr, "MATCH CACHE: cache hit\n") #else #define MATCH_CACHE_DEBUG ((void) 0) #define MATCH_CACHE_DEBUG_HIT ((void) 0) #endif #define MATCH_CACHE_HIT ((void) 0) # define CHECK_MATCH_CACHE do {\ if (msa->match_cache_status == MATCH_CACHE_STATUS_ENABLED) {\ const OnigCacheOpcode *cache_opcode;\ long cache_point = find_cache_point(reg, msa->cache_opcodes, msa->num_cache_opcodes, pbegin, stk_base, repeat_stk, &cache_opcode);\ if (cache_point >= 0) {\ long match_cache_point = msa->num_cache_points * (long)(s - str) + cache_point;\ long match_cache_point_index = match_cache_point >> 3;\ uint8_t match_cache_point_mask = 1 << (match_cache_point & 7);\ MATCH_CACHE_DEBUG;\ if (msa->match_cache_buf[match_cache_point_index] & match_cache_point_mask) {\ MATCH_CACHE_DEBUG_HIT; MATCH_CACHE_HIT;\ if (cache_opcode->lookaround_nesting == 0) goto fail;\ else if (cache_opcode->lookaround_nesting < 0) {\ if (check_extended_match_cache_point(msa->match_cache_buf, match_cache_point_index, match_cache_point_mask)) {\ STACK_STOP_BT_FAIL;\ goto fail;\ } else goto fail;\ } else {\ if (check_extended_match_cache_point(msa->match_cache_buf, match_cache_point_index, match_cache_point_mask)) {\ p = cache_opcode->match_addr;\ MOP_OUT;\ JUMP;\ } else goto fail;\ }\ }\ STACK_PUSH_MATCH_CACHE_POINT(match_cache_point_index, match_cache_point_mask);\ }\ }\ } while (0) #else # define CHECK_MATCH_CACHE ((void) 0) #endif VM_LOOP { CASE(OP_END) MOP_IN(OP_END); n = s - sstart; if (n > best_len) { OnigRegion* region; #ifdef USE_FIND_LONGEST_SEARCH_ALL_OF_RANGE if (IS_FIND_LONGEST(option)) { if (n > msa->best_len) { msa->best_len = n; msa->best_s = (UChar* )sstart; } else goto end_best_len; } #endif best_len = n; region = msa->region; if (region) { region->beg[0] = ((pkeep > s) ? s : pkeep) - str; region->end[0] = s - str; for (i = 1; i <= num_mem; i++) { if (mem_end_stk[i] != INVALID_STACK_INDEX) { if (BIT_STATUS_AT(reg->bt_mem_start, i)) region->beg[i] = STACK_AT(mem_start_stk[i])->u.mem.pstr - str; else region->beg[i] = (UChar* )((void* )mem_start_stk[i]) - str; region->end[i] = (BIT_STATUS_AT(reg->bt_mem_end, i) ? STACK_AT(mem_end_stk[i])->u.mem.pstr : (UChar* )((void* )mem_end_stk[i])) - str; } else { region->beg[i] = region->end[i] = ONIG_REGION_NOTPOS; } } #ifdef USE_CAPTURE_HISTORY if (reg->capture_history != 0) { int r; OnigCaptureTreeNode* node; if (IS_NULL(region->history_root)) { region->history_root = node = history_node_new(); CHECK_NULL_RETURN_MEMERR(node); } else { node = region->history_root; history_tree_clear(node); } node->group = 0; node->beg = ((pkeep > s) ? s : pkeep) - str; node->end = s - str; stkp = stk_base; r = make_capture_history_tree(region->history_root, &stkp, stk, (UChar* )str, reg); if (r < 0) { best_len = r; /* error code */ goto finish; } } #endif /* USE_CAPTURE_HISTORY */ } /* if (region) */ } /* n > best_len */ #ifdef USE_FIND_LONGEST_SEARCH_ALL_OF_RANGE end_best_len: #endif MOP_OUT; if (IS_FIND_CONDITION(option)) { if (IS_FIND_NOT_EMPTY(option) && s == sstart) { best_len = ONIG_MISMATCH; goto fail; /* for retry */ } if (IS_FIND_LONGEST(option) && DATA_ENSURE_CHECK1) { goto fail; /* for retry */ } } /* default behavior: return first-matching result. */ goto finish; NEXT; CASE(OP_EXACT1) MOP_IN(OP_EXACT1); DATA_ENSURE(1); if (*p != *s) goto fail; p++; s++; MOP_OUT; NEXT; CASE(OP_EXACT1_IC) MOP_IN(OP_EXACT1_IC); { int len; UChar *q, lowbuf[ONIGENC_MBC_CASE_FOLD_MAXLEN]; DATA_ENSURE(1); len = ONIGENC_MBC_CASE_FOLD(encode, /* DISABLE_CASE_FOLD_MULTI_CHAR(case_fold_flag), */ case_fold_flag, &s, end, lowbuf); DATA_ENSURE(0); q = lowbuf; while (len-- > 0) { if (*p != *q) { goto fail; } p++; q++; } } MOP_OUT; NEXT; CASE(OP_EXACT2) MOP_IN(OP_EXACT2); DATA_ENSURE(2); if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; sprev = s; p++; s++; MOP_OUT; JUMP; CASE(OP_EXACT3) MOP_IN(OP_EXACT3); DATA_ENSURE(3); if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; sprev = s; p++; s++; MOP_OUT; JUMP; CASE(OP_EXACT4) MOP_IN(OP_EXACT4); DATA_ENSURE(4); if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; sprev = s; p++; s++; MOP_OUT; JUMP; CASE(OP_EXACT5) MOP_IN(OP_EXACT5); DATA_ENSURE(5); if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; sprev = s; p++; s++; MOP_OUT; JUMP; CASE(OP_EXACTN) MOP_IN(OP_EXACTN); GET_LENGTH_INC(tlen, p); DATA_ENSURE(tlen); while (tlen-- > 0) { if (*p++ != *s++) goto fail; } sprev = s - 1; MOP_OUT; JUMP; CASE(OP_EXACTN_IC) MOP_IN(OP_EXACTN_IC); { int len; UChar *q, *endp, lowbuf[ONIGENC_MBC_CASE_FOLD_MAXLEN]; GET_LENGTH_INC(tlen, p); endp = p + tlen; while (p < endp) { sprev = s; DATA_ENSURE(1); len = ONIGENC_MBC_CASE_FOLD(encode, /* DISABLE_CASE_FOLD_MULTI_CHAR(case_fold_flag), */ case_fold_flag, &s, end, lowbuf); DATA_ENSURE(0); q = lowbuf; while (len-- > 0) { if (*p != *q) goto fail; p++; q++; } } } MOP_OUT; JUMP; CASE(OP_EXACTMB2N1) MOP_IN(OP_EXACTMB2N1); DATA_ENSURE(2); if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; p++; s++; MOP_OUT; NEXT; CASE(OP_EXACTMB2N2) MOP_IN(OP_EXACTMB2N2); DATA_ENSURE(4); if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; p++; s++; sprev = s; if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; p++; s++; MOP_OUT; JUMP; CASE(OP_EXACTMB2N3) MOP_IN(OP_EXACTMB2N3); DATA_ENSURE(6); if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; p++; s++; sprev = s; if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; p++; s++; MOP_OUT; JUMP; CASE(OP_EXACTMB2N) MOP_IN(OP_EXACTMB2N); GET_LENGTH_INC(tlen, p); DATA_ENSURE(tlen * 2); while (tlen-- > 0) { if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; p++; s++; } sprev = s - 2; MOP_OUT; JUMP; CASE(OP_EXACTMB3N) MOP_IN(OP_EXACTMB3N); GET_LENGTH_INC(tlen, p); DATA_ENSURE(tlen * 3); while (tlen-- > 0) { if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; p++; s++; if (*p != *s) goto fail; p++; s++; } sprev = s - 3; MOP_OUT; JUMP; CASE(OP_EXACTMBN) MOP_IN(OP_EXACTMBN); GET_LENGTH_INC(tlen, p); /* mb-len */ GET_LENGTH_INC(tlen2, p); /* string len */ tlen2 *= tlen; DATA_ENSURE(tlen2); while (tlen2-- > 0) { if (*p != *s) goto fail; p++; s++; } sprev = s - tlen; MOP_OUT; JUMP; CASE(OP_CCLASS) MOP_IN(OP_CCLASS); DATA_ENSURE(1); if (BITSET_AT(((BitSetRef )p), *s) == 0) goto fail; p += SIZE_BITSET; s += enclen(encode, s, end); /* OP_CCLASS can match mb-code. \D, \S */ MOP_OUT; NEXT; CASE(OP_CCLASS_MB) MOP_IN(OP_CCLASS_MB); if (! ONIGENC_IS_MBC_HEAD(encode, s, end)) goto fail; cclass_mb: GET_LENGTH_INC(tlen, p); { OnigCodePoint code; UChar *ss; int mb_len; DATA_ENSURE(1); mb_len = enclen_approx(encode, s, end); DATA_ENSURE(mb_len); ss = s; s += mb_len; code = ONIGENC_MBC_TO_CODE(encode, ss, s); #ifdef PLATFORM_UNALIGNED_WORD_ACCESS if (! onig_is_in_code_range(p, code)) goto fail; #else q = p; ALIGNMENT_RIGHT(q); if (! onig_is_in_code_range(q, code)) goto fail; #endif } p += tlen; MOP_OUT; NEXT; CASE(OP_CCLASS_MIX) MOP_IN(OP_CCLASS_MIX); DATA_ENSURE(1); if (ONIGENC_IS_MBC_HEAD(encode, s, end)) { p += SIZE_BITSET; goto cclass_mb; } else { if (BITSET_AT(((BitSetRef )p), *s) == 0) goto fail; p += SIZE_BITSET; GET_LENGTH_INC(tlen, p); p += tlen; s++; } MOP_OUT; NEXT; CASE(OP_CCLASS_NOT) MOP_IN(OP_CCLASS_NOT); DATA_ENSURE(1); if (BITSET_AT(((BitSetRef )p), *s) != 0) goto fail; p += SIZE_BITSET; s += enclen(encode, s, end); MOP_OUT; NEXT; CASE(OP_CCLASS_MB_NOT) MOP_IN(OP_CCLASS_MB_NOT); DATA_ENSURE(1); if (! ONIGENC_IS_MBC_HEAD(encode, s, end)) { s++; GET_LENGTH_INC(tlen, p); p += tlen; goto cc_mb_not_success; } cclass_mb_not: GET_LENGTH_INC(tlen, p); { OnigCodePoint code; UChar *ss; int mb_len = enclen(encode, s, end); if (! DATA_ENSURE_CHECK(mb_len)) { DATA_ENSURE(1); s = (UChar* )end; p += tlen; goto cc_mb_not_success; } ss = s; s += mb_len; code = ONIGENC_MBC_TO_CODE(encode, ss, s); #ifdef PLATFORM_UNALIGNED_WORD_ACCESS if (onig_is_in_code_range(p, code)) goto fail; #else q = p; ALIGNMENT_RIGHT(q); if (onig_is_in_code_range(q, code)) goto fail; #endif } p += tlen; cc_mb_not_success: MOP_OUT; NEXT; CASE(OP_CCLASS_MIX_NOT) MOP_IN(OP_CCLASS_MIX_NOT); DATA_ENSURE(1); if (ONIGENC_IS_MBC_HEAD(encode, s, end)) { p += SIZE_BITSET; goto cclass_mb_not; } else { if (BITSET_AT(((BitSetRef )p), *s) != 0) goto fail; p += SIZE_BITSET; GET_LENGTH_INC(tlen, p); p += tlen; s++; } MOP_OUT; NEXT; CASE(OP_ANYCHAR) MOP_IN(OP_ANYCHAR); DATA_ENSURE(1); n = enclen_approx(encode, s, end); DATA_ENSURE(n); if (ONIGENC_IS_MBC_NEWLINE_EX(encode, s, str, end, option, 0)) goto fail; s += n; MOP_OUT; NEXT; CASE(OP_ANYCHAR_ML) MOP_IN(OP_ANYCHAR_ML); DATA_ENSURE(1); n = enclen_approx(encode, s, end); DATA_ENSURE(n); s += n; MOP_OUT; NEXT; CASE(OP_ANYCHAR_STAR) MOP_IN(OP_ANYCHAR_STAR); while (DATA_ENSURE_CHECK1) { CHECK_MATCH_CACHE; STACK_PUSH_ALT(p, s, sprev, pkeep); n = enclen_approx(encode, s, end); DATA_ENSURE(n); if (ONIGENC_IS_MBC_NEWLINE_EX(encode, s, str, end, option, 0)) goto fail; sprev = s; s += n; } MOP_OUT; JUMP; CASE(OP_ANYCHAR_ML_STAR) MOP_IN(OP_ANYCHAR_ML_STAR); while (DATA_ENSURE_CHECK1) { CHECK_MATCH_CACHE; STACK_PUSH_ALT(p, s, sprev, pkeep); n = enclen_approx(encode, s, end); if (n > 1) { DATA_ENSURE(n); sprev = s; s += n; } else { sprev = s; s++; } } MOP_OUT; JUMP; CASE(OP_ANYCHAR_STAR_PEEK_NEXT) MOP_IN(OP_ANYCHAR_STAR_PEEK_NEXT); while (DATA_ENSURE_CHECK1) { CHECK_MATCH_CACHE; if (*p == *s) { STACK_PUSH_ALT(p + 1, s, sprev, pkeep); } else { #ifdef USE_MATCH_CACHE /* We need to increment num_fails here, for invoking a cache optimization correctly. */ /* Actually, the matching will be failed if we use `OP_ANYCHAR_STAR` simply in this case.*/ msa->num_fails++; #endif } n = enclen_approx(encode, s, end); DATA_ENSURE(n); if (ONIGENC_IS_MBC_NEWLINE_EX(encode, s, str, end, option, 0)) goto fail; sprev = s; s += n; } p++; MOP_OUT; NEXT; CASE(OP_ANYCHAR_ML_STAR_PEEK_NEXT)MOP_IN(OP_ANYCHAR_ML_STAR_PEEK_NEXT); while (DATA_ENSURE_CHECK1) { CHECK_MATCH_CACHE; if (*p == *s) { STACK_PUSH_ALT(p + 1, s, sprev, pkeep); } else { #ifdef USE_MATCH_CACHE /* We need to increment num_fails here, for invoking a cache optimization correctly. */ /* Actually, the matching will be failed if we use `OP_ANYCHAR_STAR_ML` simply in this case.*/ msa->num_fails++; #endif } n = enclen_approx(encode, s, end); if (n > 1) { DATA_ENSURE(n); sprev = s; s += n; } else { sprev = s; s++; } } p++; MOP_OUT; NEXT; #ifdef USE_COMBINATION_EXPLOSION_CHECK CASE(OP_STATE_CHECK_ANYCHAR_STAR) MOP_IN(OP_STATE_CHECK_ANYCHAR_STAR); GET_STATE_CHECK_NUM_INC(mem, p); while (DATA_ENSURE_CHECK1) { STATE_CHECK_VAL(scv, mem); if (scv) goto fail; STACK_PUSH_ALT_WITH_STATE_CHECK(p, s, sprev, mem, pkeep); n = enclen_approx(encode, s, end); DATA_ENSURE(n); if (ONIGENC_IS_MBC_NEWLINE_EX(encode, s, str, end, option, 0)) goto fail; sprev = s; s += n; } MOP_OUT; NEXT; CASE(OP_STATE_CHECK_ANYCHAR_ML_STAR) MOP_IN(OP_STATE_CHECK_ANYCHAR_ML_STAR); GET_STATE_CHECK_NUM_INC(mem, p); while (DATA_ENSURE_CHECK1) { STATE_CHECK_VAL(scv, mem); if (scv) goto fail; STACK_PUSH_ALT_WITH_STATE_CHECK(p, s, sprev, mem, pkeep); n = enclen_approx(encode, s, end); if (n > 1) { DATA_ENSURE(n); sprev = s; s += n; } else { sprev = s; s++; } } MOP_OUT; NEXT; #endif /* USE_COMBINATION_EXPLOSION_CHECK */ CASE(OP_WORD) MOP_IN(OP_WORD); DATA_ENSURE(1); if (! ONIGENC_IS_MBC_WORD(encode, s, end)) goto fail; s += enclen(encode, s, end); MOP_OUT; NEXT; CASE(OP_ASCII_WORD) MOP_IN(OP_ASCII_WORD); DATA_ENSURE(1); if (! ONIGENC_IS_MBC_ASCII_WORD(encode, s, end)) goto fail; s += enclen(encode, s, end); MOP_OUT; NEXT; CASE(OP_NOT_WORD) MOP_IN(OP_NOT_WORD); DATA_ENSURE(1); if (ONIGENC_IS_MBC_WORD(encode, s, end)) goto fail; s += enclen(encode, s, end); MOP_OUT; NEXT; CASE(OP_NOT_ASCII_WORD) MOP_IN(OP_NOT_ASCII_WORD); DATA_ENSURE(1); if (ONIGENC_IS_MBC_ASCII_WORD(encode, s, end)) goto fail; s += enclen(encode, s, end); MOP_OUT; NEXT; CASE(OP_WORD_BOUND) MOP_IN(OP_WORD_BOUND); if (ON_STR_BEGIN(s)) { DATA_ENSURE(1); if (! ONIGENC_IS_MBC_WORD(encode, s, end)) goto fail; } else if (ON_STR_END(s)) { if (! ONIGENC_IS_MBC_WORD(encode, sprev, end)) goto fail; } else { if (ONIGENC_IS_MBC_WORD(encode, s, end) == ONIGENC_IS_MBC_WORD(encode, sprev, end)) goto fail; } MOP_OUT; JUMP; CASE(OP_ASCII_WORD_BOUND) MOP_IN(OP_ASCII_WORD_BOUND); if (ON_STR_BEGIN(s)) { DATA_ENSURE(1); if (! ONIGENC_IS_MBC_ASCII_WORD(encode, s, end)) goto fail; } else if (ON_STR_END(s)) { if (! ONIGENC_IS_MBC_ASCII_WORD(encode, sprev, end)) goto fail; } else { if (ONIGENC_IS_MBC_ASCII_WORD(encode, s, end) == ONIGENC_IS_MBC_ASCII_WORD(encode, sprev, end)) goto fail; } MOP_OUT; JUMP; CASE(OP_NOT_WORD_BOUND) MOP_IN(OP_NOT_WORD_BOUND); if (ON_STR_BEGIN(s)) { if (DATA_ENSURE_CHECK1 && ONIGENC_IS_MBC_WORD(encode, s, end)) goto fail; } else if (ON_STR_END(s)) { if (ONIGENC_IS_MBC_WORD(encode, sprev, end)) goto fail; } else { if (ONIGENC_IS_MBC_WORD(encode, s, end) != ONIGENC_IS_MBC_WORD(encode, sprev, end)) goto fail; } MOP_OUT; JUMP; CASE(OP_NOT_ASCII_WORD_BOUND) MOP_IN(OP_NOT_ASCII_WORD_BOUND); if (ON_STR_BEGIN(s)) { if (DATA_ENSURE_CHECK1 && ONIGENC_IS_MBC_ASCII_WORD(encode, s, end)) goto fail; } else if (ON_STR_END(s)) { if (ONIGENC_IS_MBC_ASCII_WORD(encode, sprev, end)) goto fail; } else { if (ONIGENC_IS_MBC_ASCII_WORD(encode, s, end) != ONIGENC_IS_MBC_ASCII_WORD(encode, sprev, end)) goto fail; } MOP_OUT; JUMP; #ifdef USE_WORD_BEGIN_END CASE(OP_WORD_BEGIN) MOP_IN(OP_WORD_BEGIN); if (DATA_ENSURE_CHECK1 && ONIGENC_IS_MBC_WORD(encode, s, end)) { if (ON_STR_BEGIN(s) || !ONIGENC_IS_MBC_WORD(encode, sprev, end)) { MOP_OUT; JUMP; } } goto fail; NEXT; CASE(OP_ASCII_WORD_BEGIN) MOP_IN(OP_ASCII_WORD_BEGIN); if (DATA_ENSURE_CHECK1 && ONIGENC_IS_MBC_ASCII_WORD(encode, s, end)) { if (ON_STR_BEGIN(s) || !ONIGENC_IS_MBC_ASCII_WORD(encode, sprev, end)) { MOP_OUT; JUMP; } } goto fail; NEXT; CASE(OP_WORD_END) MOP_IN(OP_WORD_END); if (!ON_STR_BEGIN(s) && ONIGENC_IS_MBC_WORD(encode, sprev, end)) { if (ON_STR_END(s) || !ONIGENC_IS_MBC_WORD(encode, s, end)) { MOP_OUT; JUMP; } } goto fail; NEXT; CASE(OP_ASCII_WORD_END) MOP_IN(OP_ASCII_WORD_END); if (!ON_STR_BEGIN(s) && ONIGENC_IS_MBC_ASCII_WORD(encode, sprev, end)) { if (ON_STR_END(s) || !ONIGENC_IS_MBC_ASCII_WORD(encode, s, end)) { MOP_OUT; JUMP; } } goto fail; NEXT; #endif CASE(OP_BEGIN_BUF) MOP_IN(OP_BEGIN_BUF); if (! ON_STR_BEGIN(s)) goto fail; if (IS_NOTBOS(msa->options)) goto fail; MOP_OUT; JUMP; CASE(OP_END_BUF) MOP_IN(OP_END_BUF); if (! ON_STR_END(s)) goto fail; if (IS_NOTEOS(msa->options)) goto fail; MOP_OUT; JUMP; CASE(OP_BEGIN_LINE) MOP_IN(OP_BEGIN_LINE); if (ON_STR_BEGIN(s)) { if (IS_NOTBOL(msa->options)) goto fail; MOP_OUT; JUMP; } else if (ONIGENC_IS_MBC_NEWLINE(encode, sprev, end) #ifdef USE_CRNL_AS_LINE_TERMINATOR && !(IS_NEWLINE_CRLF(option) && ONIGENC_IS_MBC_CRNL(encode, sprev, end)) #endif && !ON_STR_END(s)) { MOP_OUT; JUMP; } goto fail; NEXT; CASE(OP_END_LINE) MOP_IN(OP_END_LINE); if (ON_STR_END(s)) { #ifndef USE_NEWLINE_AT_END_OF_STRING_HAS_EMPTY_LINE if (IS_EMPTY_STR || !ONIGENC_IS_MBC_NEWLINE_EX(encode, sprev, str, end, option, 1)) { #endif if (IS_NOTEOL(msa->options)) goto fail; MOP_OUT; JUMP; #ifndef USE_NEWLINE_AT_END_OF_STRING_HAS_EMPTY_LINE } #endif } else if (ONIGENC_IS_MBC_NEWLINE_EX(encode, s, str, end, option, 1)) { MOP_OUT; JUMP; } goto fail; NEXT; CASE(OP_SEMI_END_BUF) MOP_IN(OP_SEMI_END_BUF); if (ON_STR_END(s)) { #ifndef USE_NEWLINE_AT_END_OF_STRING_HAS_EMPTY_LINE if (IS_EMPTY_STR || !ONIGENC_IS_MBC_NEWLINE_EX(encode, sprev, str, end, option, 1)) { #endif if (IS_NOTEOL(msa->options)) goto fail; MOP_OUT; JUMP; #ifndef USE_NEWLINE_AT_END_OF_STRING_HAS_EMPTY_LINE } #endif } else if (ONIGENC_IS_MBC_NEWLINE_EX(encode, s, str, end, option, 1)) { UChar* ss = s + enclen(encode, s, end); if (ON_STR_END(ss)) { MOP_OUT; JUMP; } #ifdef USE_CRNL_AS_LINE_TERMINATOR else if (IS_NEWLINE_CRLF(option) && ONIGENC_IS_MBC_CRNL(encode, s, end)) { ss += enclen(encode, ss, end); if (ON_STR_END(ss)) { MOP_OUT; JUMP; } } #endif } goto fail; NEXT; CASE(OP_BEGIN_POSITION) MOP_IN(OP_BEGIN_POSITION); if (s != msa->gpos) goto fail; MOP_OUT; JUMP; CASE(OP_MEMORY_START_PUSH) MOP_IN(OP_MEMORY_START_PUSH); GET_MEMNUM_INC(mem, p); STACK_PUSH_MEM_START(mem, s); MOP_OUT; JUMP; CASE(OP_MEMORY_START) MOP_IN(OP_MEMORY_START); GET_MEMNUM_INC(mem, p); mem_start_stk[mem] = (OnigStackIndex )((void* )s); mem_end_stk[mem] = INVALID_STACK_INDEX; MOP_OUT; JUMP; CASE(OP_MEMORY_END_PUSH) MOP_IN(OP_MEMORY_END_PUSH); GET_MEMNUM_INC(mem, p); STACK_PUSH_MEM_END(mem, s); MOP_OUT; JUMP; CASE(OP_MEMORY_END) MOP_IN(OP_MEMORY_END); GET_MEMNUM_INC(mem, p); mem_end_stk[mem] = (OnigStackIndex )((void* )s); MOP_OUT; JUMP; CASE(OP_KEEP) MOP_IN(OP_KEEP); pkeep = s; MOP_OUT; JUMP; #ifdef USE_SUBEXP_CALL CASE(OP_MEMORY_END_PUSH_REC) MOP_IN(OP_MEMORY_END_PUSH_REC); GET_MEMNUM_INC(mem, p); STACK_GET_MEM_START(mem, stkp); /* should be before push mem-end. */ mem_start_stk[mem] = GET_STACK_INDEX(stkp); STACK_PUSH_MEM_END(mem, s); MOP_OUT; JUMP; CASE(OP_MEMORY_END_REC) MOP_IN(OP_MEMORY_END_REC); GET_MEMNUM_INC(mem, p); mem_end_stk[mem] = (OnigStackIndex )((void* )s); STACK_GET_MEM_START(mem, stkp); if (BIT_STATUS_AT(reg->bt_mem_start, mem)) mem_start_stk[mem] = GET_STACK_INDEX(stkp); else mem_start_stk[mem] = (OnigStackIndex )((void* )stkp->u.mem.pstr); STACK_PUSH_MEM_END_MARK(mem); MOP_OUT; JUMP; #endif CASE(OP_BACKREF1) MOP_IN(OP_BACKREF1); mem = 1; goto backref; NEXT; CASE(OP_BACKREF2) MOP_IN(OP_BACKREF2); mem = 2; goto backref; NEXT; CASE(OP_BACKREFN) MOP_IN(OP_BACKREFN); GET_MEMNUM_INC(mem, p); backref: { int len; UChar *pstart, *pend; /* if you want to remove following line, you should check in parse and compile time. */ if (mem > num_mem) goto fail; if (mem_end_stk[mem] == INVALID_STACK_INDEX) goto fail; if (mem_start_stk[mem] == INVALID_STACK_INDEX) goto fail; if (BIT_STATUS_AT(reg->bt_mem_start, mem)) pstart = STACK_AT(mem_start_stk[mem])->u.mem.pstr; else pstart = (UChar* )((void* )mem_start_stk[mem]); pend = (BIT_STATUS_AT(reg->bt_mem_end, mem) ? STACK_AT(mem_end_stk[mem])->u.mem.pstr : (UChar* )((void* )mem_end_stk[mem])); n = pend - pstart; DATA_ENSURE(n); sprev = s; STRING_CMP(pstart, s, n); while (sprev + (len = enclen_approx(encode, sprev, end)) < s) sprev += len; MOP_OUT; JUMP; } CASE(OP_BACKREFN_IC) MOP_IN(OP_BACKREFN_IC); GET_MEMNUM_INC(mem, p); { int len; UChar *pstart, *pend; /* if you want to remove following line, you should check in parse and compile time. */ if (mem > num_mem) goto fail; if (mem_end_stk[mem] == INVALID_STACK_INDEX) goto fail; if (mem_start_stk[mem] == INVALID_STACK_INDEX) goto fail; if (BIT_STATUS_AT(reg->bt_mem_start, mem)) pstart = STACK_AT(mem_start_stk[mem])->u.mem.pstr; else pstart = (UChar* )((void* )mem_start_stk[mem]); pend = (BIT_STATUS_AT(reg->bt_mem_end, mem) ? STACK_AT(mem_end_stk[mem])->u.mem.pstr : (UChar* )((void* )mem_end_stk[mem])); n = pend - pstart; DATA_ENSURE(n); sprev = s; STRING_CMP_IC(case_fold_flag, pstart, &s, n, end); while (sprev + (len = enclen_approx(encode, sprev, end)) < s) sprev += len; MOP_OUT; JUMP; } NEXT; CASE(OP_BACKREF_MULTI) MOP_IN(OP_BACKREF_MULTI); { int len, is_fail; UChar *pstart, *pend, *swork; GET_LENGTH_INC(tlen, p); for (i = 0; i < tlen; i++) { GET_MEMNUM_INC(mem, p); if (mem_end_stk[mem] == INVALID_STACK_INDEX) continue; if (mem_start_stk[mem] == INVALID_STACK_INDEX) continue; if (BIT_STATUS_AT(reg->bt_mem_start, mem)) pstart = STACK_AT(mem_start_stk[mem])->u.mem.pstr; else pstart = (UChar* )((void* )mem_start_stk[mem]); pend = (BIT_STATUS_AT(reg->bt_mem_end, mem) ? STACK_AT(mem_end_stk[mem])->u.mem.pstr : (UChar* )((void* )mem_end_stk[mem])); n = pend - pstart; DATA_ENSURE_CONTINUE(n); sprev = s; swork = s; STRING_CMP_VALUE(pstart, swork, n, is_fail); if (is_fail) continue; s = swork; while (sprev + (len = enclen_approx(encode, sprev, end)) < s) sprev += len; p += (SIZE_MEMNUM * (tlen - i - 1)); break; /* success */ } if (i == tlen) goto fail; MOP_OUT; JUMP; } NEXT; CASE(OP_BACKREF_MULTI_IC) MOP_IN(OP_BACKREF_MULTI_IC); { int len, is_fail; UChar *pstart, *pend, *swork; GET_LENGTH_INC(tlen, p); for (i = 0; i < tlen; i++) { GET_MEMNUM_INC(mem, p); if (mem_end_stk[mem] == INVALID_STACK_INDEX) continue; if (mem_start_stk[mem] == INVALID_STACK_INDEX) continue; if (BIT_STATUS_AT(reg->bt_mem_start, mem)) pstart = STACK_AT(mem_start_stk[mem])->u.mem.pstr; else pstart = (UChar* )((void* )mem_start_stk[mem]); pend = (BIT_STATUS_AT(reg->bt_mem_end, mem) ? STACK_AT(mem_end_stk[mem])->u.mem.pstr : (UChar* )((void* )mem_end_stk[mem])); n = pend - pstart; DATA_ENSURE_CONTINUE(n); sprev = s; swork = s; STRING_CMP_VALUE_IC(case_fold_flag, pstart, &swork, n, end, is_fail); if (is_fail) continue; s = swork; while (sprev + (len = enclen(encode, sprev, end)) < s) sprev += len; p += (SIZE_MEMNUM * (tlen - i - 1)); break; /* success */ } if (i == tlen) goto fail; MOP_OUT; JUMP; } #ifdef USE_BACKREF_WITH_LEVEL CASE(OP_BACKREF_WITH_LEVEL) { int len; OnigOptionType ic; LengthType level; GET_OPTION_INC(ic, p); GET_LENGTH_INC(level, p); GET_LENGTH_INC(tlen, p); sprev = s; if (backref_match_at_nested_level(reg, stk, stk_base, ic, case_fold_flag, (int )level, (int )tlen, p, &s, end)) { while (sprev + (len = enclen(encode, sprev, end)) < s) sprev += len; p += (SIZE_MEMNUM * tlen); } else goto fail; MOP_OUT; JUMP; } #endif #if 0 /* no need: IS_DYNAMIC_OPTION() == 0 */ CASE(OP_SET_OPTION_PUSH) MOP_IN(OP_SET_OPTION_PUSH); GET_OPTION_INC(option, p); STACK_PUSH_ALT(p, s, sprev, pkeep); p += SIZE_OP_SET_OPTION + SIZE_OP_FAIL; MOP_OUT; JUMP; CASE(OP_SET_OPTION) MOP_IN(OP_SET_OPTION); GET_OPTION_INC(option, p); MOP_OUT; JUMP; #endif CASE(OP_NULL_CHECK_START) MOP_IN(OP_NULL_CHECK_START); GET_MEMNUM_INC(mem, p); /* mem: null check id */ STACK_PUSH_NULL_CHECK_START(mem, s); MOP_OUT; JUMP; CASE(OP_NULL_CHECK_END) MOP_IN(OP_NULL_CHECK_END); { int isnull; GET_MEMNUM_INC(mem, p); /* mem: null check id */ STACK_NULL_CHECK(isnull, mem, s); if (isnull) { #ifdef ONIG_DEBUG_MATCH fprintf(stderr, "NULL_CHECK_END: skip id:%d, s:%"PRIuPTR" (%p)\n", (int )mem, (uintptr_t )s, s); #endif null_check_found: /* empty loop founded, skip next instruction */ switch (*p++) { case OP_JUMP: case OP_PUSH: p += SIZE_RELADDR; break; case OP_REPEAT_INC: case OP_REPEAT_INC_NG: case OP_REPEAT_INC_SG: case OP_REPEAT_INC_NG_SG: p += SIZE_MEMNUM; break; default: goto unexpected_bytecode_error; break; } } } MOP_OUT; JUMP; #ifdef USE_MONOMANIAC_CHECK_CAPTURES_IN_ENDLESS_REPEAT CASE(OP_NULL_CHECK_END_MEMST) MOP_IN(OP_NULL_CHECK_END_MEMST); { int isnull; GET_MEMNUM_INC(mem, p); /* mem: null check id */ STACK_NULL_CHECK_MEMST(isnull, mem, s, reg); if (isnull) { # ifdef ONIG_DEBUG_MATCH fprintf(stderr, "NULL_CHECK_END_MEMST: skip id:%d, s:%"PRIuPTR" (%p)\n", (int )mem, (uintptr_t )s, s); # endif if (isnull == -1) goto fail; goto null_check_found; } } MOP_OUT; JUMP; #endif #ifdef USE_SUBEXP_CALL CASE(OP_NULL_CHECK_END_MEMST_PUSH) MOP_IN(OP_NULL_CHECK_END_MEMST_PUSH); { int isnull; GET_MEMNUM_INC(mem, p); /* mem: null check id */ # ifdef USE_MONOMANIAC_CHECK_CAPTURES_IN_ENDLESS_REPEAT STACK_NULL_CHECK_MEMST_REC(isnull, mem, s, reg); # else STACK_NULL_CHECK_REC(isnull, mem, s); # endif if (isnull) { # ifdef ONIG_DEBUG_MATCH fprintf(stderr, "NULL_CHECK_END_MEMST_PUSH: skip id:%d, s:%"PRIuPTR" (%p)\n", (int )mem, (uintptr_t )s, s); # endif if (isnull == -1) goto fail; goto null_check_found; } else { STACK_PUSH_NULL_CHECK_END(mem); } } MOP_OUT; JUMP; #endif CASE(OP_JUMP) MOP_IN(OP_JUMP); GET_RELADDR_INC(addr, p); p += addr; MOP_OUT; CHECK_INTERRUPT_IN_MATCH_AT; JUMP; CASE(OP_PUSH) MOP_IN(OP_PUSH); GET_RELADDR_INC(addr, p); CHECK_MATCH_CACHE; STACK_PUSH_ALT(p + addr, s, sprev, pkeep); MOP_OUT; JUMP; #ifdef USE_COMBINATION_EXPLOSION_CHECK CASE(OP_STATE_CHECK_PUSH) MOP_IN(OP_STATE_CHECK_PUSH); GET_STATE_CHECK_NUM_INC(mem, p); STATE_CHECK_VAL(scv, mem); if (scv) goto fail; GET_RELADDR_INC(addr, p); STACK_PUSH_ALT_WITH_STATE_CHECK(p + addr, s, sprev, mem, pkeep); MOP_OUT; JUMP; CASE(OP_STATE_CHECK_PUSH_OR_JUMP) MOP_IN(OP_STATE_CHECK_PUSH_OR_JUMP); GET_STATE_CHECK_NUM_INC(mem, p); GET_RELADDR_INC(addr, p); STATE_CHECK_VAL(scv, mem); if (scv) { p += addr; } else { STACK_PUSH_ALT_WITH_STATE_CHECK(p + addr, s, sprev, mem, pkeep); } MOP_OUT; JUMP; CASE(OP_STATE_CHECK) MOP_IN(OP_STATE_CHECK); GET_STATE_CHECK_NUM_INC(mem, p); STATE_CHECK_VAL(scv, mem); if (scv) goto fail; STACK_PUSH_STATE_CHECK(s, mem); MOP_OUT; JUMP; #endif /* USE_COMBINATION_EXPLOSION_CHECK */ CASE(OP_POP) MOP_IN(OP_POP); STACK_POP_ONE; #ifdef USE_MATCH_CACHE /* We need to increment num_fails here, for invoking a cache optimization correctly, */ /* because Onigmo makes a loop, which is pairwise disjoint to the following set, as atomic. */ msa->num_fails++; #endif MOP_OUT; JUMP; #ifdef USE_OP_PUSH_OR_JUMP_EXACT CASE(OP_PUSH_OR_JUMP_EXACT1) MOP_IN(OP_PUSH_OR_JUMP_EXACT1); GET_RELADDR_INC(addr, p); if (*p == *s && DATA_ENSURE_CHECK1) { p++; CHECK_MATCH_CACHE; STACK_PUSH_ALT(p + addr, s, sprev, pkeep); MOP_OUT; JUMP; } p += (addr + 1); MOP_OUT; JUMP; #endif CASE(OP_PUSH_IF_PEEK_NEXT) MOP_IN(OP_PUSH_IF_PEEK_NEXT); GET_RELADDR_INC(addr, p); CHECK_MATCH_CACHE; if (*p == *s) { p++; STACK_PUSH_ALT(p + addr, s, sprev, pkeep); MOP_OUT; JUMP; } p++; INC_NUM_FAILS; MOP_OUT; JUMP; CASE(OP_REPEAT) MOP_IN(OP_REPEAT); { GET_MEMNUM_INC(mem, p); /* mem: OP_REPEAT ID */ GET_RELADDR_INC(addr, p); STACK_ENSURE(1); repeat_stk[mem] = GET_STACK_INDEX(stk); STACK_PUSH_REPEAT(mem, p); if (reg->repeat_range[mem].lower == 0) { CHECK_MATCH_CACHE; STACK_PUSH_ALT(p + addr, s, sprev, pkeep); } } MOP_OUT; JUMP; CASE(OP_REPEAT_NG) MOP_IN(OP_REPEAT_NG); { GET_MEMNUM_INC(mem, p); /* mem: OP_REPEAT ID */ GET_RELADDR_INC(addr, p); STACK_ENSURE(1); repeat_stk[mem] = GET_STACK_INDEX(stk); STACK_PUSH_REPEAT(mem, p); if (reg->repeat_range[mem].lower == 0) { CHECK_MATCH_CACHE; STACK_PUSH_ALT(p, s, sprev, pkeep); p += addr; } } MOP_OUT; JUMP; CASE(OP_REPEAT_INC) MOP_IN(OP_REPEAT_INC); GET_MEMNUM_INC(mem, p); /* mem: OP_REPEAT ID */ si = repeat_stk[mem]; stkp = STACK_AT(si); repeat_inc: stkp->u.repeat.count++; if (stkp->u.repeat.count >= reg->repeat_range[mem].upper) { /* end of repeat. Nothing to do. */ } else if (stkp->u.repeat.count >= reg->repeat_range[mem].lower) { #ifdef USE_MATCH_CACHE if (*pbegin == OP_REPEAT_INC) { #undef MATCH_CACHE_HIT #define MATCH_CACHE_HIT stkp->u.repeat.count--; CHECK_MATCH_CACHE; #undef MATCH_CACHE_HIT #define MATCH_CACHE_HIT ((void) 0) } #endif STACK_PUSH_ALT(p, s, sprev, pkeep); p = STACK_AT(si)->u.repeat.pcode; /* Don't use stkp after PUSH. */ } else { p = stkp->u.repeat.pcode; } STACK_PUSH_REPEAT_INC(si); MOP_OUT; CHECK_INTERRUPT_IN_MATCH_AT; JUMP; CASE(OP_REPEAT_INC_SG) MOP_IN(OP_REPEAT_INC_SG); GET_MEMNUM_INC(mem, p); /* mem: OP_REPEAT ID */ STACK_GET_REPEAT(mem, stkp); si = GET_STACK_INDEX(stkp); goto repeat_inc; NEXT; CASE(OP_REPEAT_INC_NG) MOP_IN(OP_REPEAT_INC_NG); GET_MEMNUM_INC(mem, p); /* mem: OP_REPEAT ID */ si = repeat_stk[mem]; stkp = STACK_AT(si); repeat_inc_ng: stkp->u.repeat.count++; if (stkp->u.repeat.count < reg->repeat_range[mem].upper) { if (stkp->u.repeat.count >= reg->repeat_range[mem].lower) { UChar* pcode = stkp->u.repeat.pcode; STACK_PUSH_REPEAT_INC(si); if (*pbegin == OP_REPEAT_INC_NG) { CHECK_MATCH_CACHE; } STACK_PUSH_ALT(pcode, s, sprev, pkeep); } else { p = stkp->u.repeat.pcode; STACK_PUSH_REPEAT_INC(si); } } else if (stkp->u.repeat.count == reg->repeat_range[mem].upper) { STACK_PUSH_REPEAT_INC(si); } MOP_OUT; CHECK_INTERRUPT_IN_MATCH_AT; JUMP; CASE(OP_REPEAT_INC_NG_SG) MOP_IN(OP_REPEAT_INC_NG_SG); GET_MEMNUM_INC(mem, p); /* mem: OP_REPEAT ID */ STACK_GET_REPEAT(mem, stkp); si = GET_STACK_INDEX(stkp); goto repeat_inc_ng; NEXT; CASE(OP_PUSH_POS) MOP_IN(OP_PUSH_POS); STACK_PUSH_POS(s, sprev, pkeep); MOP_OUT; JUMP; CASE(OP_POP_POS) MOP_IN(OP_POP_POS); { STACK_POS_END(stkp); s = stkp->u.state.pstr; sprev = stkp->u.state.pstr_prev; } MOP_OUT; JUMP; CASE(OP_PUSH_POS_NOT) MOP_IN(OP_PUSH_POS_NOT); GET_RELADDR_INC(addr, p); STACK_PUSH_POS_NOT(p + addr, s, sprev, pkeep); MOP_OUT; JUMP; CASE(OP_FAIL_POS) MOP_IN(OP_FAIL_POS); STACK_POP_TIL_POS_NOT; goto fail; NEXT; CASE(OP_PUSH_STOP_BT) MOP_IN(OP_PUSH_STOP_BT); STACK_PUSH_STOP_BT; MOP_OUT; JUMP; CASE(OP_POP_STOP_BT) MOP_IN(OP_POP_STOP_BT); STACK_STOP_BT_END; MOP_OUT; JUMP; CASE(OP_LOOK_BEHIND) MOP_IN(OP_LOOK_BEHIND); GET_LENGTH_INC(tlen, p); s = (UChar* )ONIGENC_STEP_BACK(encode, str, s, end, (int )tlen); if (IS_NULL(s)) goto fail; sprev = (UChar* )onigenc_get_prev_char_head(encode, str, s, end); MOP_OUT; JUMP; CASE(OP_PUSH_LOOK_BEHIND_NOT) MOP_IN(OP_PUSH_LOOK_BEHIND_NOT); GET_RELADDR_INC(addr, p); GET_LENGTH_INC(tlen, p); q = (UChar* )ONIGENC_STEP_BACK(encode, str, s, end, (int )tlen); if (IS_NULL(q)) { /* too short case -> success. ex. /(? aend) && (s > absent)) { /* An empty match occurred in (?~...) at the start point. * Never match. */ STACK_POP; goto fail; } else if ((s >= aend) && (s > absent)) { if (s > aend) { /* Only one (or less) character matched in the last iteration. * This is not a possible point. */ goto fail; } /* All possible points were found. Try matching after (?~...). */ DATA_ENSURE(0); p += addr; } else if (s == end) { /* At the end of the string, just match with it */ DATA_ENSURE(0); p += addr; } else { STACK_PUSH_ALT(p + addr, s, sprev, pkeep); /* Push possible point. */ n = enclen(encode, s, end); STACK_PUSH_ABSENT_POS(absent, ABSENT_END_POS); /* Save the original pos. */ STACK_PUSH_ALT(selfp, s + n, s, pkeep); /* Next iteration. */ STACK_PUSH_ABSENT; ABSENT_END_POS = aend; } } MOP_OUT; JUMP; CASE(OP_ABSENT_END) MOP_IN(OP_ABSENT_END); /* The pattern inside (?~...) was matched. * Set the end-pos temporary and go to next iteration. */ if (sprev < ABSENT_END_POS) ABSENT_END_POS = sprev; #ifdef ONIG_DEBUG_MATCH fprintf(stderr, "ABSENT_END: end:%p\n", ABSENT_END_POS); #endif STACK_POP_TIL_ABSENT; goto fail; NEXT; #ifdef USE_SUBEXP_CALL CASE(OP_CALL) MOP_IN(OP_CALL); GET_ABSADDR_INC(addr, p); STACK_PUSH_CALL_FRAME(p); p = reg->p + addr; MOP_OUT; JUMP; CASE(OP_RETURN) MOP_IN(OP_RETURN); STACK_RETURN(p); STACK_PUSH_RETURN; MOP_OUT; JUMP; #endif CASE(OP_CONDITION) MOP_IN(OP_CONDITION); GET_MEMNUM_INC(mem, p); GET_RELADDR_INC(addr, p); if ((mem > num_mem) || (mem_end_stk[mem] == INVALID_STACK_INDEX) || (mem_start_stk[mem] == INVALID_STACK_INDEX)) { p += addr; } MOP_OUT; JUMP; CASE(OP_FINISH) goto finish; NEXT; CASE(OP_FAIL) if (0) { /* fall */ fail: MOP_OUT; } MOP_IN(OP_FAIL); STACK_POP; p = stk->u.state.pcode; s = stk->u.state.pstr; sprev = stk->u.state.pstr_prev; pkeep = stk->u.state.pkeep; #ifdef USE_MATCH_CACHE if ( msa->match_cache_status != MATCH_CACHE_STATUS_DISABLED && ++msa->num_fails >= (long)(end - str) * msa->num_cache_opcodes ) { if (msa->match_cache_status == MATCH_CACHE_STATUS_UNINIT) { msa->match_cache_status = MATCH_CACHE_STATUS_INIT; OnigPosition r = count_num_cache_opcodes(reg, &msa->num_cache_opcodes); if (r < 0) goto bytecode_error; } if (msa->num_cache_opcodes == NUM_CACHE_OPCODES_IMPOSSIBLE || msa->num_cache_opcodes == 0) { msa->match_cache_status = MATCH_CACHE_STATUS_DISABLED; goto fail_match_cache; } if (msa->num_fails < (long)(end - str) * msa->num_cache_opcodes) { goto fail_match_cache; } if (msa->cache_opcodes == NULL) { msa->match_cache_status = MATCH_CACHE_STATUS_ENABLED; OnigCacheOpcode* cache_opcodes = (OnigCacheOpcode*)xmalloc(msa->num_cache_opcodes * sizeof(OnigCacheOpcode)); if (cache_opcodes == NULL) { return ONIGERR_MEMORY; } OnigPosition r = init_cache_opcodes(reg, cache_opcodes, &msa->num_cache_points); if (r < 0) { if (r == ONIGERR_UNEXPECTED_BYTECODE) goto unexpected_bytecode_error; else goto bytecode_error; } msa->cache_opcodes = cache_opcodes; #ifdef ONIG_DEBUG_MATCH_CACHE fprintf(stderr, "MATCH CACHE: #cache opcodes = %ld\n", msa->num_cache_opcodes); fprintf(stderr, "MATCH CACHE: #cache points = %ld\n", msa->num_cache_points); fprintf(stderr, "MATCH CACHE: cache opcodes (%p):\n", msa->cache_opcodes); for (int i = 0; i < msa->num_cache_opcodes; i++) { fprintf(stderr, "MATCH CACHE: [%p] cache_point=%ld outer_repeat_mem=%d num_cache_opcodes_at_outer_repeat=%ld num_cache_opcodes_in_outer_repeat=%ld lookaround_nesting=%d match_addr=%p\n", msa->cache_opcodes[i].addr, msa->cache_opcodes[i].cache_point, msa->cache_opcodes[i].outer_repeat_mem, msa->cache_opcodes[i].num_cache_points_at_outer_repeat, msa->cache_opcodes[i].num_cache_points_in_outer_repeat, msa->cache_opcodes[i].lookaround_nesting, msa->cache_opcodes[i].match_addr); } #endif } if (msa->match_cache_buf == NULL) { size_t length = (end - str) + 1; size_t num_match_cache_points = (size_t)msa->num_cache_points * length; #ifdef ONIG_DEBUG_MATCH_CACHE fprintf(stderr, "MATCH CACHE: #match cache points = %zu (length = %zu)\n", num_match_cache_points, length); #endif /* Overflow check */ if (num_match_cache_points / length != (size_t)msa->num_cache_points) { return ONIGERR_MEMORY; } if (num_match_cache_points >= LONG_MAX_LIMIT) { return ONIGERR_MEMORY; } size_t match_cache_buf_length = (num_match_cache_points >> 3) + (num_match_cache_points & 7 ? 1 : 0) + 1; uint8_t* match_cache_buf = (uint8_t*)xmalloc(match_cache_buf_length * sizeof(uint8_t)); if (match_cache_buf == NULL) { return ONIGERR_MEMORY; } xmemset(match_cache_buf, 0, match_cache_buf_length * sizeof(uint8_t)); msa->match_cache_buf = match_cache_buf; } } fail_match_cache: #endif #ifdef USE_COMBINATION_EXPLOSION_CHECK if (stk->u.state.state_check != 0) { stk->type = STK_STATE_CHECK_MARK; stk++; } #endif MOP_OUT; CHECK_INTERRUPT_IN_MATCH_AT; JUMP; DEFAULT goto bytecode_error; } VM_LOOP_END finish: STACK_SAVE; xfree(xmalloc_base); return best_len; #ifdef ONIG_DEBUG stack_error: STACK_SAVE; xfree(xmalloc_base); return ONIGERR_STACK_BUG; #endif bytecode_error: STACK_SAVE; xfree(xmalloc_base); return ONIGERR_UNDEFINED_BYTECODE; unexpected_bytecode_error: STACK_SAVE; xfree(xmalloc_base); return ONIGERR_UNEXPECTED_BYTECODE; timeout: STACK_SAVE; xfree(xmalloc_base); return ONIGERR_TIMEOUT; } static UChar* slow_search(OnigEncoding enc, UChar* target, UChar* target_end, const UChar* text, const UChar* text_end, UChar* text_range) { UChar *t, *p, *s, *end; end = (UChar* )text_end; end -= target_end - target - 1; if (end > text_range) end = text_range; s = (UChar* )text; if (enc->max_enc_len == enc->min_enc_len) { int n = enc->max_enc_len; while (s < end) { if (*s == *target) { p = s + 1; t = target + 1; if (target_end == t || memcmp(t, p, target_end - t) == 0) return s; } s += n; } return (UChar* )NULL; } while (s < end) { if (*s == *target) { p = s + 1; t = target + 1; if (target_end == t || memcmp(t, p, target_end - t) == 0) return s; } s += enclen(enc, s, text_end); } return (UChar* )NULL; } static int str_lower_case_match(OnigEncoding enc, int case_fold_flag, const UChar* t, const UChar* tend, const UChar* p, const UChar* end) { int lowlen; UChar *q, lowbuf[ONIGENC_MBC_CASE_FOLD_MAXLEN]; while (t < tend) { lowlen = ONIGENC_MBC_CASE_FOLD(enc, case_fold_flag, &p, end, lowbuf); q = lowbuf; while (lowlen > 0) { if (*t++ != *q++) return 0; lowlen--; } } return 1; } static UChar* slow_search_ic(OnigEncoding enc, int case_fold_flag, UChar* target, UChar* target_end, const UChar* text, const UChar* text_end, UChar* text_range) { UChar *s, *end; end = (UChar* )text_end; end -= target_end - target - 1; if (end > text_range) end = text_range; s = (UChar* )text; while (s < end) { if (str_lower_case_match(enc, case_fold_flag, target, target_end, s, text_end)) return s; s += enclen(enc, s, text_end); } return (UChar* )NULL; } static UChar* slow_search_backward(OnigEncoding enc, UChar* target, UChar* target_end, const UChar* text, const UChar* adjust_text, const UChar* text_end, const UChar* text_start) { UChar *t, *p, *s; s = (UChar* )text_end; s -= (target_end - target); if (s > text_start) s = (UChar* )text_start; else s = ONIGENC_LEFT_ADJUST_CHAR_HEAD(enc, adjust_text, s, text_end); while (s >= text) { if (*s == *target) { p = s + 1; t = target + 1; while (t < target_end) { if (*t != *p++) break; t++; } if (t == target_end) return s; } s = (UChar* )onigenc_get_prev_char_head(enc, adjust_text, s, text_end); } return (UChar* )NULL; } static UChar* slow_search_backward_ic(OnigEncoding enc, int case_fold_flag, UChar* target, UChar* target_end, const UChar* text, const UChar* adjust_text, const UChar* text_end, const UChar* text_start) { UChar *s; s = (UChar* )text_end; s -= (target_end - target); if (s > text_start) s = (UChar* )text_start; else s = ONIGENC_LEFT_ADJUST_CHAR_HEAD(enc, adjust_text, s, text_end); while (s >= text) { if (str_lower_case_match(enc, case_fold_flag, target, target_end, s, text_end)) return s; s = (UChar* )onigenc_get_prev_char_head(enc, adjust_text, s, text_end); } return (UChar* )NULL; } #ifndef USE_SUNDAY_QUICK_SEARCH /* Boyer-Moore-Horspool search applied to a multibyte string */ static UChar* bm_search_notrev(regex_t* reg, const UChar* target, const UChar* target_end, const UChar* text, const UChar* text_end, const UChar* text_range) { const UChar *s, *se, *t, *p, *end; const UChar *tail; ptrdiff_t skip, tlen1; # ifdef ONIG_DEBUG_SEARCH fprintf(stderr, "bm_search_notrev: text: %"PRIuPTR" (%p), text_end: %"PRIuPTR" (%p), text_range: %"PRIuPTR" (%p)\n", (uintptr_t )text, text, (uintptr_t )text_end, text_end, (uintptr_t )text_range, text_range); # endif tail = target_end - 1; tlen1 = tail - target; end = text_range; if (end + tlen1 > text_end) end = text_end - tlen1; s = text; if (IS_NULL(reg->int_map)) { while (s < end) { p = se = s + tlen1; t = tail; while (*p == *t) { if (t == target) return (UChar* )s; p--; t--; } skip = reg->map[*se]; t = s; do { s += enclen(reg->enc, s, end); } while ((s - t) < skip && s < end); } } else { # if OPT_EXACT_MAXLEN >= ONIG_CHAR_TABLE_SIZE while (s < end) { p = se = s + tlen1; t = tail; while (*p == *t) { if (t == target) return (UChar* )s; p--; t--; } skip = reg->int_map[*se]; t = s; do { s += enclen(reg->enc, s, end); } while ((s - t) < skip && s < end); } # endif } return (UChar* )NULL; } /* Boyer-Moore-Horspool search */ static UChar* bm_search(regex_t* reg, const UChar* target, const UChar* target_end, const UChar* text, const UChar* text_end, const UChar* text_range) { const UChar *s, *t, *p, *end; const UChar *tail; # ifdef ONIG_DEBUG_SEARCH fprintf(stderr, "bm_search: text: %"PRIuPTR" (%p), text_end: %"PRIuPTR" (%p), text_range: %"PRIuPTR" (%p)\n", (uintptr_t )text, text, (uintptr_t )text_end, text_end, (uintptr_t )text_range, text_range); # endif end = text_range + (target_end - target) - 1; if (end > text_end) end = text_end; tail = target_end - 1; s = text + (target_end - target) - 1; if (IS_NULL(reg->int_map)) { while (s < end) { p = s; t = tail; # ifdef ONIG_DEBUG_SEARCH fprintf(stderr, "bm_search_loop: pos: %"PRIdPTR" %s\n", (intptr_t )(s - text), s); # endif while (*p == *t) { if (t == target) return (UChar* )p; p--; t--; } s += reg->map[*s]; } } else { /* see int_map[] */ # if OPT_EXACT_MAXLEN >= ONIG_CHAR_TABLE_SIZE while (s < end) { p = s; t = tail; while (*p == *t) { if (t == target) return (UChar* )p; p--; t--; } s += reg->int_map[*s]; } # endif } return (UChar* )NULL; } /* Boyer-Moore-Horspool search applied to a multibyte string (ignore case) */ static UChar* bm_search_notrev_ic(regex_t* reg, const UChar* target, const UChar* target_end, const UChar* text, const UChar* text_end, const UChar* text_range) { const UChar *s, *se, *t, *end; const UChar *tail; ptrdiff_t skip, tlen1; OnigEncoding enc = reg->enc; int case_fold_flag = reg->case_fold_flag; # ifdef ONIG_DEBUG_SEARCH fprintf(stderr, "bm_search_notrev_ic: text: %d (%p), text_end: %d (%p), text_range: %d (%p)\n", (int )text, text, (int )text_end, text_end, (int )text_range, text_range); # endif tail = target_end - 1; tlen1 = tail - target; end = text_range; if (end + tlen1 > text_end) end = text_end - tlen1; s = text; if (IS_NULL(reg->int_map)) { while (s < end) { se = s + tlen1; if (str_lower_case_match(enc, case_fold_flag, target, target_end, s, se + 1)) return (UChar* )s; skip = reg->map[*se]; t = s; do { s += enclen(reg->enc, s, end); } while ((s - t) < skip && s < end); } } else { # if OPT_EXACT_MAXLEN >= ONIG_CHAR_TABLE_SIZE while (s < end) { se = s + tlen1; if (str_lower_case_match(enc, case_fold_flag, target, target_end, s, se + 1)) return (UChar* )s; skip = reg->int_map[*se]; t = s; do { s += enclen(reg->enc, s, end); } while ((s - t) < skip && s < end); } # endif } return (UChar* )NULL; } /* Boyer-Moore-Horspool search (ignore case) */ static UChar* bm_search_ic(regex_t* reg, const UChar* target, const UChar* target_end, const UChar* text, const UChar* text_end, const UChar* text_range) { const UChar *s, *p, *end; const UChar *tail; OnigEncoding enc = reg->enc; int case_fold_flag = reg->case_fold_flag; # ifdef ONIG_DEBUG_SEARCH fprintf(stderr, "bm_search_ic: text: %d (%p), text_end: %d (%p), text_range: %d (%p)\n", (int )text, text, (int )text_end, text_end, (int )text_range, text_range); # endif end = text_range + (target_end - target) - 1; if (end > text_end) end = text_end; tail = target_end - 1; s = text + (target_end - target) - 1; if (IS_NULL(reg->int_map)) { while (s < end) { p = s - (target_end - target) + 1; if (str_lower_case_match(enc, case_fold_flag, target, target_end, p, s + 1)) return (UChar* )p; s += reg->map[*s]; } } else { /* see int_map[] */ # if OPT_EXACT_MAXLEN >= ONIG_CHAR_TABLE_SIZE while (s < end) { p = s - (target_end - target) + 1; if (str_lower_case_match(enc, case_fold_flag, target, target_end, p, s + 1)) return (UChar* )p; s += reg->int_map[*s]; } # endif } return (UChar* )NULL; } #else /* USE_SUNDAY_QUICK_SEARCH */ /* Sunday's quick search applied to a multibyte string */ static UChar* bm_search_notrev(regex_t* reg, const UChar* target, const UChar* target_end, const UChar* text, const UChar* text_end, const UChar* text_range) { const UChar *s, *se, *t, *p, *end; const UChar *tail; ptrdiff_t skip, tlen1; OnigEncoding enc = reg->enc; # ifdef ONIG_DEBUG_SEARCH fprintf(stderr, "bm_search_notrev: text: %"PRIuPTR" (%p), text_end: %"PRIuPTR" (%p), text_range: %"PRIuPTR" (%p)\n", (uintptr_t )text, text, (uintptr_t )text_end, text_end, (uintptr_t )text_range, text_range); # endif tail = target_end - 1; tlen1 = tail - target; end = text_range; if (end + tlen1 > text_end) end = text_end - tlen1; s = text; if (IS_NULL(reg->int_map)) { while (s < end) { p = se = s + tlen1; t = tail; while (*p == *t) { if (t == target) return (UChar* )s; p--; t--; } if (s + 1 >= end) break; skip = reg->map[se[1]]; t = s; do { s += enclen(enc, s, end); } while ((s - t) < skip && s < end); } } else { # if OPT_EXACT_MAXLEN >= ONIG_CHAR_TABLE_SIZE while (s < end) { p = se = s + tlen1; t = tail; while (*p == *t) { if (t == target) return (UChar* )s; p--; t--; } if (s + 1 >= end) break; skip = reg->int_map[se[1]]; t = s; do { s += enclen(enc, s, end); } while ((s - t) < skip && s < end); } # endif } return (UChar* )NULL; } /* Sunday's quick search */ static UChar* bm_search(regex_t* reg, const UChar* target, const UChar* target_end, const UChar* text, const UChar* text_end, const UChar* text_range) { const UChar *s, *t, *p, *end; const UChar *tail; ptrdiff_t tlen1; # ifdef ONIG_DEBUG_SEARCH fprintf(stderr, "bm_search: text: %"PRIuPTR" (%p), text_end: %"PRIuPTR" (%p), text_range: %"PRIuPTR" (%p)\n", (uintptr_t )text, text, (uintptr_t )text_end, text_end, (uintptr_t )text_range, text_range); # endif tail = target_end - 1; tlen1 = tail - target; end = text_range + tlen1; if (end > text_end) end = text_end; s = text + tlen1; if (IS_NULL(reg->int_map)) { while (s < end) { p = s; t = tail; while (*p == *t) { if (t == target) return (UChar* )p; p--; t--; } if (s + 1 >= end) break; s += reg->map[s[1]]; } } else { /* see int_map[] */ # if OPT_EXACT_MAXLEN >= ONIG_CHAR_TABLE_SIZE while (s < end) { p = s; t = tail; while (*p == *t) { if (t == target) return (UChar* )p; p--; t--; } if (s + 1 >= end) break; s += reg->int_map[s[1]]; } # endif } return (UChar* )NULL; } /* Sunday's quick search applied to a multibyte string (ignore case) */ static UChar* bm_search_notrev_ic(regex_t* reg, const UChar* target, const UChar* target_end, const UChar* text, const UChar* text_end, const UChar* text_range) { const UChar *s, *se, *t, *end; const UChar *tail; ptrdiff_t skip, tlen1; OnigEncoding enc = reg->enc; int case_fold_flag = reg->case_fold_flag; # ifdef ONIG_DEBUG_SEARCH fprintf(stderr, "bm_search_notrev_ic: text: %"PRIuPTR" (%p), text_end: %"PRIuPTR" (%p), text_range: %"PRIuPTR" (%p)\n", (uintptr_t )text, text, (uintptr_t )text_end, text_end, (uintptr_t )text_range, text_range); # endif tail = target_end - 1; tlen1 = tail - target; end = text_range; if (end + tlen1 > text_end) end = text_end - tlen1; s = text; if (IS_NULL(reg->int_map)) { while (s < end) { se = s + tlen1; if (str_lower_case_match(enc, case_fold_flag, target, target_end, s, se + 1)) return (UChar* )s; if (s + 1 >= end) break; skip = reg->map[se[1]]; t = s; do { s += enclen(enc, s, end); } while ((s - t) < skip && s < end); } } else { # if OPT_EXACT_MAXLEN >= ONIG_CHAR_TABLE_SIZE while (s < end) { se = s + tlen1; if (str_lower_case_match(enc, case_fold_flag, target, target_end, s, se + 1)) return (UChar* )s; if (s + 1 >= end) break; skip = reg->int_map[se[1]]; t = s; do { s += enclen(enc, s, end); } while ((s - t) < skip && s < end); } # endif } return (UChar* )NULL; } /* Sunday's quick search (ignore case) */ static UChar* bm_search_ic(regex_t* reg, const UChar* target, const UChar* target_end, const UChar* text, const UChar* text_end, const UChar* text_range) { const UChar *s, *p, *end; const UChar *tail; ptrdiff_t tlen1; OnigEncoding enc = reg->enc; int case_fold_flag = reg->case_fold_flag; # ifdef ONIG_DEBUG_SEARCH fprintf(stderr, "bm_search_ic: text: %"PRIuPTR" (%p), text_end: %"PRIuPTR" (%p), text_range: %"PRIuPTR" (%p)\n", (uintptr_t )text, text, (uintptr_t )text_end, text_end, (uintptr_t )text_range, text_range); # endif tail = target_end - 1; tlen1 = tail - target; end = text_range + tlen1; if (end > text_end) end = text_end; s = text + tlen1; if (IS_NULL(reg->int_map)) { while (s < end) { p = s - tlen1; if (str_lower_case_match(enc, case_fold_flag, target, target_end, p, s + 1)) return (UChar* )p; if (s + 1 >= end) break; s += reg->map[s[1]]; } } else { /* see int_map[] */ # if OPT_EXACT_MAXLEN >= ONIG_CHAR_TABLE_SIZE while (s < end) { p = s - tlen1; if (str_lower_case_match(enc, case_fold_flag, target, target_end, p, s + 1)) return (UChar* )p; if (s + 1 >= end) break; s += reg->int_map[s[1]]; } # endif } return (UChar* )NULL; } #endif /* USE_SUNDAY_QUICK_SEARCH */ #ifdef USE_INT_MAP_BACKWARD static int set_bm_backward_skip(UChar* s, UChar* end, OnigEncoding enc ARG_UNUSED, int** skip) { int i, len; if (IS_NULL(*skip)) { *skip = (int* )xmalloc(sizeof(int) * ONIG_CHAR_TABLE_SIZE); if (IS_NULL(*skip)) return ONIGERR_MEMORY; } len = (int )(end - s); for (i = 0; i < ONIG_CHAR_TABLE_SIZE; i++) (*skip)[i] = len; for (i = len - 1; i > 0; i--) (*skip)[s[i]] = i; return 0; } static UChar* bm_search_backward(regex_t* reg, const UChar* target, const UChar* target_end, const UChar* text, const UChar* adjust_text, const UChar* text_end, const UChar* text_start) { const UChar *s, *t, *p; s = text_end - (target_end - target); if (text_start < s) s = text_start; else s = ONIGENC_LEFT_ADJUST_CHAR_HEAD(reg->enc, adjust_text, s, text_end); while (s >= text) { p = s; t = target; while (t < target_end && *p == *t) { p++; t++; } if (t == target_end) return (UChar* )s; s -= reg->int_map_backward[*s]; s = ONIGENC_LEFT_ADJUST_CHAR_HEAD(reg->enc, adjust_text, s, text_end); } return (UChar* )NULL; } #endif static UChar* map_search(OnigEncoding enc, UChar map[], const UChar* text, const UChar* text_range, const UChar* text_end) { const UChar *s = text; while (s < text_range) { if (map[*s]) return (UChar* )s; s += enclen(enc, s, text_end); } return (UChar* )NULL; } static UChar* map_search_backward(OnigEncoding enc, UChar map[], const UChar* text, const UChar* adjust_text, const UChar* text_start, const UChar* text_end) { const UChar *s = text_start; while (s >= text) { if (map[*s]) return (UChar* )s; s = onigenc_get_prev_char_head(enc, adjust_text, s, text_end); } return (UChar* )NULL; } extern OnigPosition onig_match(regex_t* reg, const UChar* str, const UChar* end, const UChar* at, OnigRegion* region, OnigOptionType option) { ptrdiff_t r; UChar *prev; OnigMatchArg msa; MATCH_ARG_INIT(msa, option, region, at, at); #ifdef USE_COMBINATION_EXPLOSION_CHECK { ptrdiff_t offset = at - str; STATE_CHECK_BUFF_INIT(msa, end - str, offset, reg->num_comb_exp_check); } #endif if (region) { r = onig_region_resize_clear(region, reg->num_mem + 1); } else r = 0; if (r == 0) { prev = (UChar* )onigenc_get_prev_char_head(reg->enc, str, at, end); r = match_at(reg, str, end, #ifdef USE_MATCH_RANGE_MUST_BE_INSIDE_OF_SPECIFIED_RANGE end, #endif at, prev, &msa); } MATCH_ARG_FREE(msa); return r; } static int forward_search_range(regex_t* reg, const UChar* str, const UChar* end, UChar* s, UChar* range, UChar** low, UChar** high, UChar** low_prev) { UChar *p, *pprev = (UChar* )NULL; size_t input_len = end - str; #ifdef ONIG_DEBUG_SEARCH fprintf(stderr, "forward_search_range: str: %"PRIuPTR" (%p), end: %"PRIuPTR" (%p), s: %"PRIuPTR" (%p), range: %"PRIuPTR" (%p)\n", (uintptr_t )str, str, (uintptr_t )end, end, (uintptr_t )s, s, (uintptr_t )range, range); #endif if (reg->dmin > input_len) { return 0; } p = s; if (reg->dmin != 0) { if ((OnigDistance)(end - p) <= reg->dmin) return 0; /* fail */ if (ONIGENC_IS_SINGLEBYTE(reg->enc)) { p += reg->dmin; } else { UChar *q = p + reg->dmin; while (p < q) p += enclen(reg->enc, p, end); } } retry: switch (reg->optimize) { case ONIG_OPTIMIZE_EXACT: p = slow_search(reg->enc, reg->exact, reg->exact_end, p, end, range); break; case ONIG_OPTIMIZE_EXACT_IC: p = slow_search_ic(reg->enc, reg->case_fold_flag, reg->exact, reg->exact_end, p, end, range); break; case ONIG_OPTIMIZE_EXACT_BM: p = bm_search(reg, reg->exact, reg->exact_end, p, end, range); break; case ONIG_OPTIMIZE_EXACT_BM_NOT_REV: p = bm_search_notrev(reg, reg->exact, reg->exact_end, p, end, range); break; case ONIG_OPTIMIZE_EXACT_BM_IC: p = bm_search_ic(reg, reg->exact, reg->exact_end, p, end, range); break; case ONIG_OPTIMIZE_EXACT_BM_NOT_REV_IC: p = bm_search_notrev_ic(reg, reg->exact, reg->exact_end, p, end, range); break; case ONIG_OPTIMIZE_MAP: p = map_search(reg->enc, reg->map, p, range, end); break; } if (p && p < range) { if ((OnigDistance)(p - s) < reg->dmin) { retry_gate: pprev = p; p += enclen(reg->enc, p, end); goto retry; } if (reg->sub_anchor) { UChar* prev; switch (reg->sub_anchor) { case ANCHOR_BEGIN_LINE: if (!ON_STR_BEGIN(p)) { prev = onigenc_get_prev_char_head(reg->enc, (pprev ? pprev : str), p, end); if (!ONIGENC_IS_MBC_NEWLINE_EX(reg->enc, prev, str, end, reg->options, 0)) goto retry_gate; } break; case ANCHOR_END_LINE: if (ON_STR_END(p)) { #ifndef USE_NEWLINE_AT_END_OF_STRING_HAS_EMPTY_LINE prev = (UChar* )onigenc_get_prev_char_head(reg->enc, (pprev ? pprev : str), p); if (prev && ONIGENC_IS_MBC_NEWLINE_EX(reg->enc, prev, str, end, reg->options, 1)) goto retry_gate; #endif } else if (! ONIGENC_IS_MBC_NEWLINE_EX(reg->enc, p, str, end, reg->options, 1)) goto retry_gate; break; } } if (reg->dmax == 0) { *low = p; if (low_prev) { if (*low > s) *low_prev = onigenc_get_prev_char_head(reg->enc, s, p, end); else *low_prev = onigenc_get_prev_char_head(reg->enc, (pprev ? pprev : str), p, end); } *high = p; } else { if (reg->dmax != ONIG_INFINITE_DISTANCE) { if ((OnigDistance)(p - str) < reg->dmax) { *low = (UChar* )str; if (low_prev) *low_prev = onigenc_get_prev_char_head(reg->enc, str, *low, end); } else { *low = p - reg->dmax; if (*low > s) { *low = onigenc_get_right_adjust_char_head_with_prev(reg->enc, s, *low, end, (const UChar** )low_prev); if (low_prev && IS_NULL(*low_prev)) *low_prev = onigenc_get_prev_char_head(reg->enc, (pprev ? pprev : s), *low, end); } else { if (low_prev) *low_prev = onigenc_get_prev_char_head(reg->enc, (pprev ? pprev : str), *low, end); } } } /* no needs to adjust *high, *high is used as range check only */ if ((OnigDistance)(p - str) < reg->dmin) *high = (UChar* )str; else *high = p - reg->dmin; } #ifdef ONIG_DEBUG_SEARCH fprintf(stderr, "forward_search_range success: low: %"PRIdPTR", high: %"PRIdPTR", dmin: %"PRIdPTR", dmax: %"PRIdPTR"\n", *low - str, *high - str, reg->dmin, reg->dmax); #endif return 1; /* success */ } return 0; /* fail */ } #define BM_BACKWARD_SEARCH_LENGTH_THRESHOLD 100 static int backward_search_range(regex_t* reg, const UChar* str, const UChar* end, UChar* s, const UChar* range, UChar* adjrange, UChar** low, UChar** high) { UChar *p; size_t input_len = end - str; if (reg->dmin > input_len) { return 0; } p = s; retry: switch (reg->optimize) { case ONIG_OPTIMIZE_EXACT: exact_method: p = slow_search_backward(reg->enc, reg->exact, reg->exact_end, range, adjrange, end, p); break; case ONIG_OPTIMIZE_EXACT_IC: case ONIG_OPTIMIZE_EXACT_BM_IC: case ONIG_OPTIMIZE_EXACT_BM_NOT_REV_IC: p = slow_search_backward_ic(reg->enc, reg->case_fold_flag, reg->exact, reg->exact_end, range, adjrange, end, p); break; case ONIG_OPTIMIZE_EXACT_BM: case ONIG_OPTIMIZE_EXACT_BM_NOT_REV: #ifdef USE_INT_MAP_BACKWARD if (IS_NULL(reg->int_map_backward)) { int r; if (s - range < BM_BACKWARD_SEARCH_LENGTH_THRESHOLD) goto exact_method; r = set_bm_backward_skip(reg->exact, reg->exact_end, reg->enc, &(reg->int_map_backward)); if (r) return r; } p = bm_search_backward(reg, reg->exact, reg->exact_end, range, adjrange, end, p); #else goto exact_method; #endif break; case ONIG_OPTIMIZE_MAP: p = map_search_backward(reg->enc, reg->map, range, adjrange, p, end); break; } if (p) { if (reg->sub_anchor) { UChar* prev; switch (reg->sub_anchor) { case ANCHOR_BEGIN_LINE: if (!ON_STR_BEGIN(p)) { prev = onigenc_get_prev_char_head(reg->enc, str, p, end); if (!ONIGENC_IS_MBC_NEWLINE_EX(reg->enc, prev, str, end, reg->options, 0)) { p = prev; goto retry; } } break; case ANCHOR_END_LINE: if (ON_STR_END(p)) { #ifndef USE_NEWLINE_AT_END_OF_STRING_HAS_EMPTY_LINE prev = onigenc_get_prev_char_head(reg->enc, adjrange, p); if (IS_NULL(prev)) goto fail; if (ONIGENC_IS_MBC_NEWLINE_EX(reg->enc, prev, str, end, reg->options, 1)) { p = prev; goto retry; } #endif } else if (! ONIGENC_IS_MBC_NEWLINE_EX(reg->enc, p, str, end, reg->options, 1)) { p = onigenc_get_prev_char_head(reg->enc, adjrange, p, end); if (IS_NULL(p)) goto fail; goto retry; } break; } } if (reg->dmax != ONIG_INFINITE_DISTANCE) { if ((OnigDistance)(p - str) < reg->dmax) *low = (UChar* )str; else *low = p - reg->dmax; if (reg->dmin != 0) { if ((OnigDistance)(p - str) < reg->dmin) *high = (UChar* )str; else *high = p - reg->dmin; } else { *high = p; } *high = onigenc_get_right_adjust_char_head(reg->enc, adjrange, *high, end); } #ifdef ONIG_DEBUG_SEARCH fprintf(stderr, "backward_search_range: low: %d, high: %d\n", (int )(*low - str), (int )(*high - str)); #endif return 1; /* success */ } fail: #ifdef ONIG_DEBUG_SEARCH fprintf(stderr, "backward_search_range: fail.\n"); #endif return 0; /* fail */ } extern OnigPosition onig_search(regex_t* reg, const UChar* str, const UChar* end, const UChar* start, const UChar* range, OnigRegion* region, OnigOptionType option) { return onig_search_gpos(reg, str, end, start, start, range, region, option); } extern OnigPosition onig_search_gpos(regex_t* reg, const UChar* str, const UChar* end, const UChar* global_pos, const UChar* start, const UChar* range, OnigRegion* region, OnigOptionType option) { ptrdiff_t r; UChar *s, *prev; OnigMatchArg msa; #ifdef USE_MATCH_RANGE_MUST_BE_INSIDE_OF_SPECIFIED_RANGE const UChar *orig_start = start; const UChar *orig_range = range; #endif #ifdef ONIG_DEBUG_SEARCH fprintf(stderr, "onig_search (entry point): str: %"PRIuPTR" (%p), end: %"PRIuPTR", start: %"PRIuPTR", range: %"PRIuPTR"\n", (uintptr_t )str, str, end - str, start - str, range - str); #endif if (region) { r = onig_region_resize_clear(region, reg->num_mem + 1); if (r) goto finish_no_msa; } if (start > end || start < str) goto mismatch_no_msa; #ifdef USE_MATCH_RANGE_MUST_BE_INSIDE_OF_SPECIFIED_RANGE # ifdef USE_FIND_LONGEST_SEARCH_ALL_OF_RANGE # define MATCH_AND_RETURN_CHECK(upper_range) \ r = match_at(reg, str, end, (upper_range), s, prev, &msa); \ switch (r) { \ case ONIG_MISMATCH: \ break; \ case ONIGERR_TIMEOUT: \ goto timeout; \ default: \ if (r >= 0) { \ if (! IS_FIND_LONGEST(reg->options)) { \ goto match; \ }\ }\ else goto finish; /* error */ \ } # else # define MATCH_AND_RETURN_CHECK(upper_range) \ r = match_at(reg, str, end, (upper_range), s, prev, &msa); \ switch (r) { \ case ONIG_MISMATCH: \ break; \ case ONIGERR_TIMEOUT: \ goto timeout; \ default: \ if (r >= 0) { \ goto match; \ }\ else goto finish; /* error */ \ } # endif /* USE_FIND_LONGEST_SEARCH_ALL_OF_RANGE */ #else # ifdef USE_FIND_LONGEST_SEARCH_ALL_OF_RANGE # define MATCH_AND_RETURN_CHECK(none) \ r = match_at(reg, str, end, s, prev, &msa);\ switch (r) { \ case ONIG_MISMATCH: \ break; \ case ONIGERR_TIMEOUT: \ goto timeout; \ default: \ if (r >= 0) { \ if (! IS_FIND_LONGEST(reg->options)) { \ goto match; \ } \ } \ else goto finish; /* error */ \ } # else # define MATCH_AND_RETURN_CHECK(none) \ r = match_at(reg, str, end, s, prev, &msa);\ switch (r) { \ case ONIG_MISMATCH: \ break; \ case ONIGERR_TIMEOUT: \ goto timeout; \ default: \ if (r >= 0) { \ goto match; \ } \ else goto finish; /* error */ \ } # endif /* USE_FIND_LONGEST_SEARCH_ALL_OF_RANGE */ #endif /* USE_MATCH_RANGE_MUST_BE_INSIDE_OF_SPECIFIED_RANGE */ /* anchor optimize: resume search range */ if (reg->anchor != 0 && str < end) { UChar *min_semi_end, *max_semi_end; if (reg->anchor & ANCHOR_BEGIN_POSITION) { /* search start-position only */ begin_position: if (range > start) { if (global_pos > start) { if (global_pos < range) range = global_pos + 1; } else range = start + 1; } else range = start; } else if (reg->anchor & ANCHOR_BEGIN_BUF) { /* search str-position only */ if (range > start) { if (start != str) goto mismatch_no_msa; range = str + 1; } else { if (range <= str) { start = str; range = str; } else goto mismatch_no_msa; } } else if (reg->anchor & ANCHOR_END_BUF) { min_semi_end = max_semi_end = (UChar* )end; end_buf: if ((OnigDistance)(max_semi_end - str) < reg->anchor_dmin) goto mismatch_no_msa; if (range > start) { if ((OnigDistance)(min_semi_end - start) > reg->anchor_dmax) { start = min_semi_end - reg->anchor_dmax; if (start < end) start = onigenc_get_right_adjust_char_head(reg->enc, str, start, end); } if ((OnigDistance)(max_semi_end - (range - 1)) < reg->anchor_dmin) { if ((OnigDistance)(max_semi_end - str + 1) < reg->anchor_dmin) goto mismatch_no_msa; else range = max_semi_end - reg->anchor_dmin + 1; } if (start > range) goto mismatch_no_msa; /* If start == range, match with empty at end. Backward search is used. */ } else { if ((OnigDistance)(min_semi_end - range) > reg->anchor_dmax) { range = min_semi_end - reg->anchor_dmax; } if ((OnigDistance)(max_semi_end - start) < reg->anchor_dmin) { if ((OnigDistance)(max_semi_end - str) < reg->anchor_dmin) goto mismatch_no_msa; else { start = max_semi_end - reg->anchor_dmin; start = ONIGENC_LEFT_ADJUST_CHAR_HEAD(reg->enc, str, start, end); } } if (range > start) goto mismatch_no_msa; } } else if (reg->anchor & ANCHOR_SEMI_END_BUF) { UChar* pre_end = ONIGENC_STEP_BACK(reg->enc, str, end, end, 1); max_semi_end = (UChar* )end; if (ONIGENC_IS_MBC_NEWLINE(reg->enc, pre_end, end)) { min_semi_end = pre_end; #ifdef USE_CRNL_AS_LINE_TERMINATOR pre_end = ONIGENC_STEP_BACK(reg->enc, str, pre_end, end, 1); if (IS_NOT_NULL(pre_end) && IS_NEWLINE_CRLF(reg->options) && ONIGENC_IS_MBC_CRNL(reg->enc, pre_end, end)) { min_semi_end = pre_end; } #endif if (min_semi_end > str && start <= min_semi_end) { goto end_buf; } } else { min_semi_end = (UChar* )end; goto end_buf; } } else if ((reg->anchor & ANCHOR_ANYCHAR_STAR_ML)) { goto begin_position; } } else if (str == end) { /* empty string */ static const UChar address_for_empty_string[] = ""; #ifdef ONIG_DEBUG_SEARCH fprintf(stderr, "onig_search: empty string.\n"); #endif if (reg->threshold_len == 0) { start = end = str = address_for_empty_string; s = (UChar* )start; prev = (UChar* )NULL; MATCH_ARG_INIT(msa, option, region, start, start); #ifdef USE_COMBINATION_EXPLOSION_CHECK msa.state_check_buff = (void* )0; msa.state_check_buff_size = 0; /* NO NEED, for valgrind */ #endif MATCH_AND_RETURN_CHECK(end); goto mismatch; } goto mismatch_no_msa; } #ifdef ONIG_DEBUG_SEARCH fprintf(stderr, "onig_search(apply anchor): end: %d, start: %d, range: %d\n", (int )(end - str), (int )(start - str), (int )(range - str)); #endif MATCH_ARG_INIT(msa, option, region, start, global_pos); #ifdef USE_COMBINATION_EXPLOSION_CHECK { ptrdiff_t offset = (MIN(start, range) - str); STATE_CHECK_BUFF_INIT(msa, end - str, offset, reg->num_comb_exp_check); } #endif s = (UChar* )start; if (range > start) { /* forward search */ if (s > str) prev = onigenc_get_prev_char_head(reg->enc, str, s, end); else prev = (UChar* )NULL; if (reg->optimize != ONIG_OPTIMIZE_NONE) { UChar *sch_range, *low, *high, *low_prev; if (reg->dmax != 0) { if (reg->dmax == ONIG_INFINITE_DISTANCE) sch_range = (UChar* )end; else { if ((OnigDistance)(end - range) < reg->dmax) sch_range = (UChar* )end; else { sch_range = (UChar* )range + reg->dmax; } } } else sch_range = (UChar* )range; if ((end - start) < reg->threshold_len) goto mismatch; if (reg->dmax != ONIG_INFINITE_DISTANCE) { do { if (! forward_search_range(reg, str, end, s, sch_range, &low, &high, &low_prev)) goto mismatch; if (s < low) { s = low; prev = low_prev; } while (s <= high) { MATCH_AND_RETURN_CHECK(orig_range); prev = s; s += enclen(reg->enc, s, end); } } while (s < range); goto mismatch; } else { /* check only. */ if (! forward_search_range(reg, str, end, s, sch_range, &low, &high, (UChar** )NULL)) goto mismatch; if ((reg->anchor & ANCHOR_ANYCHAR_STAR) != 0) { do { MATCH_AND_RETURN_CHECK(orig_range); prev = s; s += enclen(reg->enc, s, end); if ((reg->anchor & (ANCHOR_LOOK_BEHIND | ANCHOR_PREC_READ_NOT)) == 0) { while (!ONIGENC_IS_MBC_NEWLINE_EX(reg->enc, prev, str, end, reg->options, 0) && s < range) { prev = s; s += enclen(reg->enc, s, end); } } } while (s < range); goto mismatch; } } } do { MATCH_AND_RETURN_CHECK(orig_range); prev = s; s += enclen(reg->enc, s, end); } while (s < range); if (s == range) { /* because empty match with /$/. */ MATCH_AND_RETURN_CHECK(orig_range); } } else { /* backward search */ if (reg->optimize != ONIG_OPTIMIZE_NONE) { UChar *low, *high, *adjrange, *sch_start; const UChar *min_range; if (range < end) adjrange = ONIGENC_LEFT_ADJUST_CHAR_HEAD(reg->enc, str, range, end); else adjrange = (UChar* )end; if ((OnigDistance)(end - range) > reg->dmin) min_range = range + reg->dmin; else min_range = end; if (reg->dmax != ONIG_INFINITE_DISTANCE && end - range >= reg->threshold_len) { do { if ((OnigDistance)(end - s) > reg->dmax) sch_start = s + reg->dmax; else sch_start = (UChar* )end; if (backward_search_range(reg, str, end, sch_start, min_range, adjrange, &low, &high) <= 0) goto mismatch; if (s > high) s = high; while (s >= low) { prev = onigenc_get_prev_char_head(reg->enc, str, s, end); MATCH_AND_RETURN_CHECK(orig_start); s = prev; } } while (s >= range); goto mismatch; } else { /* check only. */ if (end - range < reg->threshold_len) goto mismatch; if (reg->dmax != 0) { if (reg->dmax == ONIG_INFINITE_DISTANCE) sch_start = (UChar* )end; else { if ((OnigDistance)(end - s) > reg->dmax) { sch_start = s + reg->dmax; sch_start = ONIGENC_LEFT_ADJUST_CHAR_HEAD(reg->enc, start, sch_start, end); } else sch_start = (UChar* )end; } } else sch_start = (UChar* )s; if (backward_search_range(reg, str, end, sch_start, min_range, adjrange, &low, &high) <= 0) goto mismatch; } } do { prev = onigenc_get_prev_char_head(reg->enc, str, s, end); MATCH_AND_RETURN_CHECK(orig_start); s = prev; } while (s >= range); } mismatch: #ifdef USE_FIND_LONGEST_SEARCH_ALL_OF_RANGE if (IS_FIND_LONGEST(reg->options)) { if (msa.best_len >= 0) { s = msa.best_s; goto match; } } #endif r = ONIG_MISMATCH; finish: MATCH_ARG_FREE(msa); /* If result is mismatch and no FIND_NOT_EMPTY option, then the region is not set in match_at(). */ if (IS_FIND_NOT_EMPTY(reg->options) && region) { onig_region_clear(region); } #ifdef ONIG_DEBUG if (r != ONIG_MISMATCH) fprintf(stderr, "onig_search: error %"PRIdPTRDIFF"\n", r); #endif return r; mismatch_no_msa: r = ONIG_MISMATCH; finish_no_msa: #ifdef ONIG_DEBUG if (r != ONIG_MISMATCH) fprintf(stderr, "onig_search: error %"PRIdPTRDIFF"\n", r); #endif return r; match: MATCH_ARG_FREE(msa); return s - str; timeout: MATCH_ARG_FREE(msa); return ONIGERR_TIMEOUT; } extern OnigPosition onig_scan(regex_t* reg, const UChar* str, const UChar* end, OnigRegion* region, OnigOptionType option, int (*scan_callback)(OnigPosition, OnigPosition, OnigRegion*, void*), void* callback_arg) { OnigPosition r; OnigPosition n; int rs; const UChar* start; n = 0; start = str; while (1) { r = onig_search(reg, str, end, start, end, region, option); if (r >= 0) { rs = scan_callback(n, r, region, callback_arg); n++; if (rs != 0) return rs; if (region->end[0] == start - str) { if (start >= end) break; start += enclen(reg->enc, start, end); } else start = str + region->end[0]; if (start > end) break; } else if (r == ONIG_MISMATCH) { break; } else { /* error */ return r; } } return n; } extern OnigEncoding onig_get_encoding(const regex_t* reg) { return reg->enc; } extern OnigOptionType onig_get_options(const regex_t* reg) { return reg->options; } extern OnigCaseFoldType onig_get_case_fold_flag(const regex_t* reg) { return reg->case_fold_flag; } extern const OnigSyntaxType* onig_get_syntax(const regex_t* reg) { return reg->syntax; } extern int onig_number_of_captures(const regex_t* reg) { return reg->num_mem; } extern int onig_number_of_capture_histories(const regex_t* reg) { #ifdef USE_CAPTURE_HISTORY int i, n; n = 0; for (i = 0; i <= ONIG_MAX_CAPTURE_HISTORY_GROUP; i++) { if (BIT_STATUS_AT(reg->capture_history, i) != 0) n++; } return n; #else return 0; #endif } extern void onig_copy_encoding(OnigEncodingType *to, OnigEncoding from) { *to = *from; }