mrb_debug_bptype check_bptype(char* args) { char* ps = args; if(ISBLANK(*ps)||ISCNTRL(*ps)) { puts(BREAK_ERR_MSG_BLANK); return MRB_DEBUG_BPTYPE_NONE; } if(!ISDIGIT(*ps)) { return MRB_DEBUG_BPTYPE_METHOD; } while( !(ISBLANK(*ps)||ISCNTRL(*ps)) ) { if(!ISDIGIT(*ps)) { printf(BREAK_ERR_MSG_INVALIDSTR, args); return MRB_DEBUG_BPTYPE_NONE; } ps++; } if((*args == '0')||(strlen(args) >= LINENO_MAX_DIGIT)) { puts(BREAK_ERR_MSG_RANGEOVER); return MRB_DEBUG_BPTYPE_NONE; } return MRB_DEBUG_BPTYPE_LINE; }
/// Dumps given buffer on the console. void ShowDump(const void* buffer, size_t length) { size_t i; char hex[48+1], ascii[16+1]; ShowDebug("--- 00-01-02-03-04-05-06-07-08-09-0A-0B-0C-0D-0E-0F 0123456789ABCDEF\n"); ascii[16] = 0; for( i = 0; i < length; i++ ) { char c = RBUFB(buffer,i); ascii[i%16] = ISCNTRL(c) ? '.' : c; sprintf(hex+(i%16)*3, "%02X ", RBUFB(buffer,i)); if( (i%16) == 15 ) { ShowDebug("%03X %s %s\n", i/16, hex, ascii); } } if( (i%16) != 0 ) { ascii[i%16] = 0; ShowDebug("%03X %-48s %-16s\n", i/16, hex, ascii); } }
/// Dumps given buffer into file pointed to by a handle. void WriteDump(FILE* fp, const void* buffer, size_t length) { size_t i; char hex[48+1], ascii[16+1]; fprintf(fp, "--- 00-01-02-03-04-05-06-07-08-09-0A-0B-0C-0D-0E-0F 0123456789ABCDEF\n"); ascii[16] = 0; for( i = 0; i < length; i++ ) { char c = RBUFB(buffer,i); ascii[i%16] = ISCNTRL(c) ? '.' : c; sprintf(hex+(i%16)*3, "%02X ", RBUFB(buffer,i)); if( (i%16) == 15 ) { fprintf(fp, "%03X %s %s\n", (unsigned int)(i/16), hex, ascii); } } if( (i%16) != 0 ) { ascii[i%16] = 0; fprintf(fp, "%03X %-48s %-16s\n", (unsigned int)(i/16), hex, ascii); } }
static int is_821_dot_string(char *local_part, char *end, int flags) { char *cp; int ch; /* * Detect any deviations from the definition of dot-string. We could use * lookup tables to speed up some of the work, but hey, how large can a * local-part be anyway? */ if (local_part == end || local_part[0] == 0 || local_part[0] == '.') return (NO); for (cp = local_part; cp < end && (ch = *(unsigned char *) cp) != 0; cp++) { if (ch == '.' && cp[1] == '.') return (NO); if (ch > 127 && !(flags & QUOTE_FLAG_8BITCLEAN)) return (NO); if (ch == ' ') return (NO); if (ISCNTRL(ch)) return (NO); if (ch == '<' || ch == '>' || ch == '(' || ch == ')' || ch == '[' || ch == ']' || ch == '\\' || ch == ',' || ch == ';' || ch == ':' || (ch == '@' && !(flags & QUOTE_FLAG_EXPOSE_AT)) || ch == '"') return (NO); } if (cp[-1] == '.') return (NO); return (YES); }
static void tok822_quote_atom(TOK822 *tp) { char *cp; int ch; /* * RFC 822 expects 7-bit data. Rather than quoting every 8-bit character * (and still passing it on as 8-bit data) we leave 8-bit data alone. */ for (cp = vstring_str(tp->vstr); (ch = *(unsigned char *) cp) != 0; cp++) { if ( /* !ISASCII(ch) || */ ch == ' ' || ISCNTRL(ch) || strchr(tok822_opchar, ch)) { tp->type = TOK822_QSTRING; break; } } }
static int32_t parse_breakpoint_no(char* args) { char* ps = args; uint32_t l; if((*ps == '0')||(strlen(ps) >= BPNO_LETTER_NUM)) { return 0; } while( !(ISBLANK(*ps)||ISCNTRL(*ps)) ) { if(!ISDIGIT(*ps)) { return 0; } ps++; } STRTOUL(l, args); return l; }
int is_header(const char *str) { const unsigned char *cp; int state; int c; int len; #define INIT 0 #define IN_CHAR 1 #define IN_CHAR_SPACE 2 #define CU_CHAR_PTR(x) ((const unsigned char *) (x)) /* * XXX RFC 2822 Section 4.5, Obsolete header fields: whitespace may * appear between header label and ":" (see: RFC 822, Section 3.4.2.). */ for (len = 0, state = INIT, cp = CU_CHAR_PTR(str); (c = *cp) != 0; cp++) { switch (c) { default: if (!ISASCII(c) || ISCNTRL(c)) return (0); if (state == INIT) state = IN_CHAR; if (state == IN_CHAR) { len++; continue; } return (0); case ' ': case '\t': if (state == IN_CHAR) state = IN_CHAR_SPACE; if (state == IN_CHAR_SPACE) continue; return (0); case ':': return ((state == IN_CHAR || state == IN_CHAR_SPACE) ? len : 0); } } return (0); }
static int is_822_dot_string(const char *local_part, const char *end, int flags) { const char *cp; int ch; /* * Detect any deviations from a sequence of atoms separated by dots. We * could use lookup tables to speed up some of the work, but hey, how * large can a local-part be anyway? * * RFC 822 expects 7-bit data. Rather than quoting every 8-bit character * (and still passing it on as 8-bit data) we leave 8-bit data alone. */ if (local_part == end || local_part[0] == 0 || local_part[0] == '.') return (NO); for (cp = local_part; cp < end && (ch = *(unsigned char *) cp) != 0; cp++) { if (ch == '.' && (cp + 1) < end && cp[1] == '.') return (NO); if (ch > 127 && !(flags & QUOTE_FLAG_8BITCLEAN)) return (NO); if (ch == ' ') return (NO); if (ISCNTRL(ch)) return (NO); if (ch == '(' || ch == ')' || ch == '<' || ch == '>' || (ch == '@' && !(flags & QUOTE_FLAG_EXPOSE_AT)) || ch == ',' || ch == ';' || ch == ':' || ch == '\\' || ch == '"' || ch == '[' || ch == ']') return (NO); } if (cp[-1] == '.') return (NO); return (YES); }
/* * ex_txt -- * Get lines from the terminal for ex. * * PUBLIC: int ex_txt(SCR *, TEXTH *, ARG_CHAR_T, u_int32_t); */ int ex_txt(SCR *sp, TEXTH *tiqh, ARG_CHAR_T prompt, u_int32_t flags) { EVENT ev; GS *gp; TEXT ait, *ntp, *tp; carat_t carat_st; size_t cnt; int rval; int nochange; rval = 0; /* * Get a TEXT structure with some initial buffer space, reusing the * last one if it's big enough. (All TEXT bookkeeping fields default * to 0 -- text_init() handles this.) */ if (!TAILQ_EMPTY(tiqh)) { tp = TAILQ_FIRST(tiqh); if (TAILQ_NEXT(tp, q) != NULL || tp->lb_len < 32) { text_lfree(tiqh); goto newtp; } tp->len = 0; } else { newtp: if ((tp = text_init(sp, NULL, 0, 32)) == NULL) goto err; TAILQ_INSERT_HEAD(tiqh, tp, q); } /* Set the starting line number. */ tp->lno = sp->lno + 1; /* * If it's a terminal, set up autoindent, put out the prompt, and * set it up so we know we were suspended. Otherwise, turn off * the autoindent flag, as that requires less special casing below. * * XXX * Historic practice is that ^Z suspended command mode (but, because * it ran in cooked mode, it was unaffected by the autowrite option.) * On restart, any "current" input was discarded, whether in insert * mode or not, and ex was in command mode. This code matches historic * practice, but not 'cause it's easier. */ gp = sp->gp; if (F_ISSET(gp, G_SCRIPTED)) LF_CLR(TXT_AUTOINDENT); else { if (LF_ISSET(TXT_AUTOINDENT)) { LF_SET(TXT_EOFCHAR); if (v_txt_auto(sp, sp->lno, NULL, 0, tp)) goto err; } txt_prompt(sp, tp, prompt, flags); } for (carat_st = C_NOTSET, nochange = 0;;) { if (v_event_get(sp, &ev, 0, 0)) goto err; /* Deal with all non-character events. */ switch (ev.e_event) { case E_CHARACTER: break; case E_ERR: goto err; case E_REPAINT: case E_WRESIZE: continue; case E_EOF: rval = 1; /* FALLTHROUGH */ case E_INTERRUPT: /* * Handle EOF/SIGINT events by discarding partially * entered text and returning. EOF returns failure, * E_INTERRUPT returns success. */ goto notlast; default: v_event_err(sp, &ev); goto notlast; } /* * Deal with character events. * * Check to see if the character fits into the input buffer. * (Use tp->len, ignore overwrite and non-printable chars.) */ BINC_GOTOW(sp, tp->lb, tp->lb_len, tp->len + 1); switch (ev.e_value) { case K_CR: /* * !!! * Historically, <carriage-return>'s in the command * weren't special, so the ex parser would return an * unknown command error message. However, if they * terminated the command if they were in a map. I'm * pretty sure this still isn't right, but it handles * what I've seen so far. */ if (!F_ISSET(&ev.e_ch, CH_MAPPED)) goto ins_ch; /* FALLTHROUGH */ case K_NL: /* * '\' can escape <carriage-return>/<newline>. We * don't discard the backslash because we need it * to get the <newline> through the ex parser. */ if (LF_ISSET(TXT_BACKSLASH) && tp->len != 0 && tp->lb[tp->len - 1] == '\\') goto ins_ch; /* * CR returns from the ex command line. * * XXX * Terminate with a nul, needed by filter. */ if (LF_ISSET(TXT_CR)) { tp->lb[tp->len] = '\0'; goto done; } /* * '.' may terminate text input mode; free the current * TEXT. */ if (LF_ISSET(TXT_DOTTERM) && tp->len == tp->ai + 1 && tp->lb[tp->len - 1] == '.') { notlast: TAILQ_REMOVE(tiqh, tp, q); text_free(tp); goto done; } /* Set up bookkeeping for the new line. */ if ((ntp = text_init(sp, NULL, 0, 32)) == NULL) goto err; ntp->lno = tp->lno + 1; /* * Reset the autoindent line value. 0^D keeps the ai * line from changing, ^D changes the level, even if * there were no characters in the old line. Note, if * using the current tp structure, use the cursor as * the length, the autoindent characters may have been * erased. */ if (LF_ISSET(TXT_AUTOINDENT)) { if (nochange) { nochange = 0; if (v_txt_auto(sp, OOBLNO, &ait, ait.ai, ntp)) goto err; free(ait.lb); } else if (v_txt_auto(sp, OOBLNO, tp, tp->len, ntp)) goto err; carat_st = C_NOTSET; } txt_prompt(sp, ntp, prompt, flags); /* * Swap old and new TEXT's, and insert the new TEXT * into the queue. */ tp = ntp; TAILQ_INSERT_TAIL(tiqh, tp, q); break; case K_CARAT: /* Delete autoindent chars. */ if (tp->len <= tp->ai && LF_ISSET(TXT_AUTOINDENT)) carat_st = C_CARATSET; goto ins_ch; case K_ZERO: /* Delete autoindent chars. */ if (tp->len <= tp->ai && LF_ISSET(TXT_AUTOINDENT)) carat_st = C_ZEROSET; goto ins_ch; case K_CNTRLD: /* Delete autoindent char. */ /* * !!! * Historically, the ^D command took (but then ignored) * a count. For simplicity, we don't return it unless * it's the first character entered. The check for len * equal to 0 is okay, TXT_AUTOINDENT won't be set. */ if (LF_ISSET(TXT_CNTRLD)) { for (cnt = 0; cnt < tp->len; ++cnt) if (!isblank(tp->lb[cnt])) break; if (cnt == tp->len) { tp->len = 1; tp->lb[0] = ev.e_c; tp->lb[1] = '\0'; /* * Put out a line separator, in case * the command fails. */ (void)putchar('\n'); goto done; } } /* * POSIX 1003.1b-1993, paragraph 7.1.1.9, states that * the EOF characters are discarded if there are other * characters to process in the line, i.e. if the EOF * is not the first character in the line. For this * reason, historic ex discarded the EOF characters, * even if occurring in the middle of the input line. * We match that historic practice. * * !!! * The test for discarding in the middle of the line is * done in the switch, because the CARAT forms are N+1, * not N. * * !!! * There's considerable magic to make the terminal code * return the EOF character at all. See that code for * details. */ if (!LF_ISSET(TXT_AUTOINDENT) || tp->len == 0) continue; switch (carat_st) { case C_CARATSET: /* ^^D */ if (tp->len > tp->ai + 1) continue; /* Save the ai string for later. */ ait.lb = NULL; ait.lb_len = 0; BINC_GOTOW(sp, ait.lb, ait.lb_len, tp->ai); MEMCPY(ait.lb, tp->lb, tp->ai); ait.ai = ait.len = tp->ai; carat_st = C_NOTSET; nochange = 1; goto leftmargin; case C_ZEROSET: /* 0^D */ if (tp->len > tp->ai + 1) continue; carat_st = C_NOTSET; leftmargin: (void)gp->scr_ex_adjust(sp, EX_TERM_CE); tp->ai = tp->len = 0; break; case C_NOTSET: /* ^D */ if (tp->len > tp->ai) continue; if (txt_dent(sp, tp)) goto err; break; default: abort(); } /* Clear and redisplay the line. */ (void)gp->scr_ex_adjust(sp, EX_TERM_CE); txt_prompt(sp, tp, prompt, flags); break; default: /* * See the TXT_BEAUTIFY comment in vi/v_txt_ev.c. * * Silently eliminate any iscntrl() character that was * not already handled specially, except for <tab> and * <ff>. */ ins_ch: if (LF_ISSET(TXT_BEAUTIFY) && ISCNTRL(ev.e_c) && ev.e_value != K_FORMFEED && ev.e_value != K_TAB) break; tp->lb[tp->len++] = ev.e_c; break; } } /* NOTREACHED */ done: return (rval); err: alloc_err: return (1); }
/* Match pattern "p" against "text" */ static int dowild(const uchar *p, const uchar *text, unsigned int flags) { uchar p_ch; const uchar *pattern = p; int pattern_needs_leading_period = (flags & WM_PERIOD) && (text[0] == '.'); for ( ; (p_ch = *p) != '\0'; text++, p++) { int matched, match_slash, negated; uchar t_ch, prev_ch; if ((t_ch = *text) == '\0' && p_ch != '*') return WM_ABORT_ALL; if ((flags & WM_CASEFOLD) && ISUPPER(t_ch)) t_ch = tolower(t_ch); if ((flags & WM_CASEFOLD) && ISUPPER(p_ch)) p_ch = tolower(p_ch); switch (p_ch) { case '\\': if (!(flags & WM_NOESCAPE)) /* Literal match with following character. Note that the test * in "default" handles the p[1] == '\0' failure case. */ p_ch = *++p; /* FALLTHROUGH */ default: if (t_ch != p_ch) return WM_NOMATCH; if ((flags & WM_PERIOD) && (flags & WM_PATHNAME) && t_ch == '/' && text[1] == '.' && p[1] != '.') return WM_NOMATCH; /* If we needed a leading period, we've matched it. */ pattern_needs_leading_period = 0; continue; case '?': /* Match anything but '/'. */ if ((flags & WM_PATHNAME) && t_ch == '/') return WM_NOMATCH; continue; case '*': if (*++p == '*') { const uchar *prev_p = p - 2; while (*++p == '*') {} if (!(flags & WM_PATHNAME)) /* without WM_PATHNAME, '*' == '**' */ match_slash = 1; else if ((prev_p < pattern || *prev_p == '/') && (*p == '\0' || *p == '/' || (p[0] == '\\' && p[1] == '/'))) { /* * Assuming we already match 'foo/' and are at * <star star slash>, just assume it matches * nothing and go ahead match the rest of the * pattern with the remaining string. This * helps make foo/<*><*>/bar (<> because * otherwise it breaks C comment syntax) match * both foo/bar and foo/a/bar. */ if (p[0] == '/' && dowild(p + 1, text, flags) == WM_MATCH) return WM_MATCH; match_slash = 1; } else return WM_ABORT_MALFORMED; } else /* without WM_PATHNAME, '*' == '**' */ match_slash = flags & WM_PATHNAME ? 0 : 1; if (*p == '\0') { /* If we needed a leading period in the pattern but only * found stars, we didn't match. */ if (pattern_needs_leading_period) return WM_NOMATCH; /* Trailing "**" matches everything. Trailing "*" matches * only if there are no more slash characters. */ if (!match_slash) { if (strchr((char*)text, '/') != NULL) return WM_NOMATCH; if ((flags & WM_PERIOD) && strstr((const char*)text, "/.") != NULL) return WM_NOMATCH; } return WM_MATCH; } else if (!match_slash && *p == '/') { /* * _one_ asterisk followed by a slash * with WM_PATHNAME matches the next * directory */ const char *slash = strchr((char*)text, '/'); if (!slash) return WM_NOMATCH; text = (const uchar*)slash; /* the slash is consumed by the top-level for loop */ break; } while (1) { if (t_ch == '\0') break; /* * Try to advance faster when an asterisk is * followed by a literal. We know in this case * that the the string before the literal * must belong to "*". * If match_slash is false, do not look past * the first slash as it cannot belong to '*'. */ if (!is_glob_special(*p)) { p_ch = *p; if ((flags & WM_CASEFOLD) && ISUPPER(p_ch)) p_ch = tolower(p_ch); while ((t_ch = *text) != '\0' && (match_slash || t_ch != '/')) { if ((flags & WM_CASEFOLD) && ISUPPER(t_ch)) t_ch = tolower(t_ch); if (t_ch == p_ch) break; text++; } if (t_ch != p_ch) return WM_NOMATCH; } if (pattern_needs_leading_period) return WM_NOMATCH; if ((matched = dowild(p, text, flags)) != WM_NOMATCH) { if (!match_slash || matched != WM_ABORT_TO_STARSTAR) return matched; } else if (!match_slash && t_ch == '/') return WM_ABORT_TO_STARSTAR; else if ((flags & WM_PERIOD) && (flags & WM_PATHNAME) && t_ch == '/' && text[1] == '.' && p[1] != '.') return WM_NOMATCH; t_ch = *++text; } return WM_ABORT_ALL; case '[': p_ch = *++p; #ifdef NEGATE_CLASS2 if (p_ch == NEGATE_CLASS2) p_ch = NEGATE_CLASS; #endif /* Assign literal 1/0 because of "matched" comparison. */ negated = p_ch == NEGATE_CLASS ? 1 : 0; if (negated) { /* Inverted character class. */ p_ch = *++p; } prev_ch = 0; matched = 0; do { if (!p_ch) return WM_ABORT_ALL; if (p_ch == '\\') { p_ch = *++p; if (!p_ch) return WM_ABORT_ALL; if (t_ch == p_ch) matched = 1; } else if (p_ch == '-' && prev_ch && p[1] && p[1] != ']') { p_ch = *++p; if (p_ch == '\\') { p_ch = *++p; if (!p_ch) return WM_ABORT_ALL; } if (t_ch <= p_ch && t_ch >= prev_ch) matched = 1; else if ((flags & WM_CASEFOLD) && ISLOWER(t_ch)) { uchar t_ch_upper = toupper(t_ch); if (t_ch_upper <= p_ch && t_ch_upper >= prev_ch) matched = 1; } p_ch = 0; /* This makes "prev_ch" get set to 0. */ } else if (p_ch == '[' && p[1] == ':') { const uchar *s; int i; for (s = p += 2; (p_ch = *p) && p_ch != ']'; p++) {} /*SHARED ITERATOR*/ if (!p_ch) return WM_ABORT_ALL; i = p - s - 1; if (i < 0 || p[-1] != ':') { /* Didn't find ":]", so treat like a normal set. */ p = s - 2; p_ch = '['; if (t_ch == p_ch) matched = 1; continue; } if (CC_EQ(s,i, "alnum")) { if (ISALNUM(t_ch)) matched = 1; } else if (CC_EQ(s,i, "alpha")) { if (ISALPHA(t_ch)) matched = 1; } else if (CC_EQ(s,i, "blank")) { if (ISBLANK(t_ch)) matched = 1; } else if (CC_EQ(s,i, "cntrl")) { if (ISCNTRL(t_ch)) matched = 1; } else if (CC_EQ(s,i, "digit")) { if (ISDIGIT(t_ch)) matched = 1; } else if (CC_EQ(s,i, "graph")) { if (ISGRAPH(t_ch)) matched = 1; } else if (CC_EQ(s,i, "lower")) { if (ISLOWER(t_ch)) matched = 1; } else if (CC_EQ(s,i, "print")) { if (ISPRINT(t_ch)) matched = 1; } else if (CC_EQ(s,i, "punct")) { if (ISPUNCT(t_ch)) matched = 1; } else if (CC_EQ(s,i, "space")) { if (ISSPACE(t_ch)) matched = 1; } else if (CC_EQ(s,i, "upper")) { if (ISUPPER(t_ch)) matched = 1; else if ((flags & WM_CASEFOLD) && ISLOWER(t_ch)) matched = 1; } else if (CC_EQ(s,i, "xdigit")) { if (ISXDIGIT(t_ch)) matched = 1; } else /* malformed [:class:] string */ return WM_ABORT_ALL; p_ch = 0; /* This makes "prev_ch" get set to 0. */ } else if (t_ch == p_ch) matched = 1; } while (prev_ch = p_ch, (p_ch = *++p) != ']'); if (matched == negated || ((flags & WM_PATHNAME) && t_ch == '/')) return WM_NOMATCH; if ((flags & WM_PATHNAME) && t_ch == '/' && (flags & WM_PERIOD) && (text[1] == '.') && (p[1] != '.')) return WM_NOMATCH; continue; } } return *text ? WM_NOMATCH : WM_MATCH; }
/* Match pattern "p" against the a virtually-joined string consisting * of "text" and any strings in array "a". */ static int dowild(const uchar *p, const uchar *text, const uchar*const *a) { uchar p_ch; #ifdef WILD_TEST_ITERATIONS wildmatch_iteration_count++; #endif for ( ; (p_ch = *p) != '\0'; text++, p++) { int matched, special; uchar t_ch, prev_ch; while ((t_ch = *text) == '\0') { if (*a == NULL) { if (p_ch != '*') return ABORT_ALL; break; } text = *a++; } if (force_lower_case && ISUPPER(t_ch)) t_ch = tolower(t_ch); switch (p_ch) { case '\\': /* Literal match with following character. Note that the test * in "default" handles the p[1] == '\0' failure case. */ p_ch = *++p; /* FALLTHROUGH */ default: if (t_ch != p_ch) return FALSE; continue; case '?': /* Match anything but '/'. */ if (t_ch == '/') return FALSE; continue; case '*': if (*++p == '*') { while (*++p == '*') {} special = TRUE; } else special = FALSE; if (*p == '\0') { /* Trailing "**" matches everything. Trailing "*" matches * only if there are no more slash characters. */ if (!special) { do { if (strchr((char*)text, '/') != NULL) return FALSE; } while ((text = *a++) != NULL); } return TRUE; } while (1) { if (t_ch == '\0') { if ((text = *a++) == NULL) break; t_ch = *text; continue; } if ((matched = dowild(p, text, a)) != FALSE) { if (!special || matched != ABORT_TO_STARSTAR) return matched; } else if (!special && t_ch == '/') return ABORT_TO_STARSTAR; t_ch = *++text; } return ABORT_ALL; case '[': p_ch = *++p; #ifdef NEGATE_CLASS2 if (p_ch == NEGATE_CLASS2) p_ch = NEGATE_CLASS; #endif /* Assign literal TRUE/FALSE because of "matched" comparison. */ special = p_ch == NEGATE_CLASS? TRUE : FALSE; if (special) { /* Inverted character class. */ p_ch = *++p; } prev_ch = 0; matched = FALSE; do { if (!p_ch) return ABORT_ALL; if (p_ch == '\\') { p_ch = *++p; if (!p_ch) return ABORT_ALL; if (t_ch == p_ch) matched = TRUE; } else if (p_ch == '-' && prev_ch && p[1] && p[1] != ']') { p_ch = *++p; if (p_ch == '\\') { p_ch = *++p; if (!p_ch) return ABORT_ALL; } if (t_ch <= p_ch && t_ch >= prev_ch) matched = TRUE; p_ch = 0; /* This makes "prev_ch" get set to 0. */ } else if (p_ch == '[' && p[1] == ':') { const uchar *s; int i; for (s = p += 2; (p_ch = *p) && p_ch != ']'; p++) {} if (!p_ch) return ABORT_ALL; i = p - s - 1; if (i < 0 || p[-1] != ':') { /* Didn't find ":]", so treat like a normal set. */ p = s - 2; p_ch = '['; if (t_ch == p_ch) matched = TRUE; continue; } if (CC_EQ(s,i, "alnum")) { if (ISALNUM(t_ch)) matched = TRUE; } else if (CC_EQ(s,i, "alpha")) { if (ISALPHA(t_ch)) matched = TRUE; } else if (CC_EQ(s,i, "blank")) { if (ISBLANK(t_ch)) matched = TRUE; } else if (CC_EQ(s,i, "cntrl")) { if (ISCNTRL(t_ch)) matched = TRUE; } else if (CC_EQ(s,i, "digit")) { if (ISDIGIT(t_ch)) matched = TRUE; } else if (CC_EQ(s,i, "graph")) { if (ISGRAPH(t_ch)) matched = TRUE; } else if (CC_EQ(s,i, "lower")) { if (ISLOWER(t_ch)) matched = TRUE; } else if (CC_EQ(s,i, "print")) { if (ISPRINT(t_ch)) matched = TRUE; } else if (CC_EQ(s,i, "punct")) { if (ISPUNCT(t_ch)) matched = TRUE; } else if (CC_EQ(s,i, "space")) { if (ISSPACE(t_ch)) matched = TRUE; } else if (CC_EQ(s,i, "upper")) { if (ISUPPER(t_ch)) matched = TRUE; } else if (CC_EQ(s,i, "xdigit")) { if (ISXDIGIT(t_ch)) matched = TRUE; } else /* malformed [:class:] string */ return ABORT_ALL; p_ch = 0; /* This makes "prev_ch" get set to 0. */ } else if (t_ch == p_ch) matched = TRUE; } while (prev_ch = p_ch, (p_ch = *++p) != ']'); if (matched == special || t_ch == '/') return FALSE; continue; } } do { if (*text) return FALSE; } while ((text = *a++) != NULL); return TRUE; }
/* * v_key_name -- * Return the string that will display the key. This routine * is the backup for the KEY_NAME() macro. * * PUBLIC: u_char *v_key_name __P((SCR *, ARG_CHAR_T)); */ u_char * v_key_name(SCR *sp, ARG_CHAR_T ach) { static const char hexdigit[] = "0123456789abcdef"; static const char octdigit[] = "01234567"; CHAR_T ch, mask; size_t len; int cnt, shift; char *chp; ch = ach; /* See if the character was explicitly declared printable or not. */ if ((chp = O_STR(sp, O_PRINT)) != NULL) for (; *chp != '\0'; ++chp) if (*chp == ch) goto pr; if ((chp = O_STR(sp, O_NOPRINT)) != NULL) for (; *chp != '\0'; ++chp) if (*chp == ch) goto nopr; /* * Historical (ARPA standard) mappings. Printable characters are left * alone. Control characters less than 0x20 are represented as '^' * followed by the character offset from the '@' character in the ASCII * character set. Del (0x7f) is represented as '^' followed by '?'. * * XXX * The following code depends on the current locale being identical to * the ASCII map from 0x40 to 0x5f (since 0x1f + 0x40 == 0x5f). I'm * told that this is a reasonable assumption... * * XXX * This code will only work with CHAR_T's that are multiples of 8-bit * bytes. * * XXX * NB: There's an assumption here that all printable characters take * up a single column on the screen. This is not always correct. */ if (ISPRINT(ch)) { pr: sp->cname[0] = ch; len = 1; goto done; } nopr: if (ISCNTRL(ch) && (ch < 0x20 || ch == 0x7f)) { sp->cname[0] = '^'; sp->cname[1] = ch == 0x7f ? '?' : '@' + ch; len = 2; } else if (O_ISSET(sp, O_OCTAL)) { #define BITS (sizeof(CHAR_T) * 8) #define SHIFT (BITS - BITS % 3) #define TOPMASK (BITS % 3 == 2 ? 3 : 1) << (BITS - BITS % 3) sp->cname[0] = '\\'; sp->cname[1] = octdigit[(ch & TOPMASK) >> SHIFT]; shift = SHIFT - 3; for (len = 2, mask = 7 << (SHIFT - 3), cnt = BITS / 3; cnt-- > 0; mask >>= 3, shift -= 3) sp->cname[len++] = octdigit[(ch & mask) >> shift]; } else {
void listing_newline (char *ps) { char *file; unsigned int line; static unsigned int last_line = 0xffff; static char *last_file = NULL; list_info_type *new_i = NULL; if (listing == 0) return; if (now_seg == absolute_section) return; #ifdef OBJ_ELF /* In ELF, anything in a section beginning with .debug or .line is considered to be debugging information. This includes the statement which switches us into the debugging section, which we can only set after we are already in the debugging section. */ if ((listing & LISTING_NODEBUG) != 0 && listing_tail != NULL && ! listing_tail->debugging) { const char *segname; segname = segment_name (now_seg); if (strncmp (segname, ".debug", sizeof ".debug" - 1) == 0 || strncmp (segname, ".line", sizeof ".line" - 1) == 0) listing_tail->debugging = 1; } #endif as_where (&file, &line); if (ps == NULL) { if (line == last_line && !(last_file && file && filename_cmp (file, last_file))) return; new_i = (list_info_type *) xmalloc (sizeof (list_info_type)); /* Detect if we are reading from stdin by examining the file name returned by as_where(). [FIXME: We rely upon the name in the strcmp below being the same as the one used by input_scrub_new_file(), if that is not true, then this code will fail]. If we are reading from stdin, then we need to save each input line here (assuming of course that we actually have a line of input to read), so that it can be displayed in the listing that is produced at the end of the assembly. */ if (strcmp (file, _("{standard input}")) == 0 && input_line_pointer != NULL) { char *copy; int len; int seen_quote = 0; int seen_slash = 0; for (copy = input_line_pointer; *copy && (seen_quote || is_end_of_line [(unsigned char) *copy] != 1); copy++) { if (seen_slash) seen_slash = 0; else if (*copy == '\\') seen_slash = 1; else if (*copy == '"') seen_quote = !seen_quote; } len = copy - input_line_pointer + 1; copy = (char *) xmalloc (len); if (copy != NULL) { char *src = input_line_pointer; char *dest = copy; while (--len) { unsigned char c = *src++; /* Omit control characters in the listing. */ if (!ISCNTRL (c)) *dest++ = c; } *dest = 0; } new_i->line_contents = copy; } else new_i->line_contents = NULL; } else { new_i = (list_info_type *) xmalloc (sizeof (list_info_type)); new_i->line_contents = ps; } last_line = line; last_file = file; new_frag (); if (listing_tail) listing_tail->next = new_i; else head = new_i; listing_tail = new_i; new_i->frag = frag_now; new_i->line = line; new_i->file = file_info (file); new_i->next = (list_info_type *) NULL; new_i->messages = NULL; new_i->last_message = NULL; new_i->edict = EDICT_NONE; new_i->hll_file = (file_info_type *) NULL; new_i->hll_line = 0; new_i->debugging = 0; new_frag (); #ifdef OBJ_ELF /* In ELF, anything in a section beginning with .debug or .line is considered to be debugging information. */ if ((listing & LISTING_NODEBUG) != 0) { const char *segname; segname = segment_name (now_seg); if (strncmp (segname, ".debug", sizeof ".debug" - 1) == 0 || strncmp (segname, ".line", sizeof ".line" - 1) == 0) new_i->debugging = 1; } #endif }
static int internal_function FCT (const CHAR *pattern, const CHAR *string, const CHAR *string_end, bool no_leading_period, int flags) { register const CHAR *p = pattern, *n = string; register UCHAR c; #ifdef _LIBC # if WIDE_CHAR_VERSION const char *collseq = (const char *) _NL_CURRENT(LC_COLLATE, _NL_COLLATE_COLLSEQWC); # else const UCHAR *collseq = (const UCHAR *) _NL_CURRENT(LC_COLLATE, _NL_COLLATE_COLLSEQMB); # endif #endif while ((c = *p++) != L_('\0')) { bool new_no_leading_period = false; c = FOLD (c); switch (c) { case L_('?'): if (__builtin_expect (flags & FNM_EXTMATCH, 0) && *p == '(') { int res; res = EXT (c, p, n, string_end, no_leading_period, flags); if (res != -1) return res; } if (n == string_end) return FNM_NOMATCH; else if (*n == L_('/') && (flags & FNM_FILE_NAME)) return FNM_NOMATCH; else if (*n == L_('.') && no_leading_period) return FNM_NOMATCH; break; case L_('\\'): if (!(flags & FNM_NOESCAPE)) { c = *p++; if (c == L_('\0')) /* Trailing \ loses. */ return FNM_NOMATCH; c = FOLD (c); } if (n == string_end || FOLD ((UCHAR) *n) != c) return FNM_NOMATCH; break; case L_('*'): if (__builtin_expect (flags & FNM_EXTMATCH, 0) && *p == '(') { int res; res = EXT (c, p, n, string_end, no_leading_period, flags); if (res != -1) return res; } if (n != string_end && *n == L_('.') && no_leading_period) return FNM_NOMATCH; for (c = *p++; c == L_('?') || c == L_('*'); c = *p++) { if (*p == L_('(') && (flags & FNM_EXTMATCH) != 0) { const CHAR *endp = END (p); if (endp != p) { /* This is a pattern. Skip over it. */ p = endp; continue; } } if (c == L_('?')) { /* A ? needs to match one character. */ if (n == string_end) /* There isn't another character; no match. */ return FNM_NOMATCH; else if (*n == L_('/') && __builtin_expect (flags & FNM_FILE_NAME, 0)) /* A slash does not match a wildcard under FNM_FILE_NAME. */ return FNM_NOMATCH; else /* One character of the string is consumed in matching this ? wildcard, so *??? won't match if there are less than three characters. */ ++n; } } if (c == L_('\0')) /* The wildcard(s) is/are the last element of the pattern. If the name is a file name and contains another slash this means it cannot match, unless the FNM_LEADING_DIR flag is set. */ { int result = (flags & FNM_FILE_NAME) == 0 ? 0 : FNM_NOMATCH; if (flags & FNM_FILE_NAME) { if (flags & FNM_LEADING_DIR) result = 0; else { if (MEMCHR (n, L_('/'), string_end - n) == NULL) result = 0; } } return result; } else { const CHAR *endp; endp = MEMCHR (n, (flags & FNM_FILE_NAME) ? L_('/') : L_('\0'), string_end - n); if (endp == NULL) endp = string_end; if (c == L_('[') || (__builtin_expect (flags & FNM_EXTMATCH, 0) != 0 && (c == L_('@') || c == L_('+') || c == L_('!')) && *p == L_('('))) { int flags2 = ((flags & FNM_FILE_NAME) ? flags : (flags & ~FNM_PERIOD)); bool no_leading_period2 = no_leading_period; for (--p; n < endp; ++n, no_leading_period2 = false) if (FCT (p, n, string_end, no_leading_period2, flags2) == 0) return 0; } else if (c == L_('/') && (flags & FNM_FILE_NAME)) { while (n < string_end && *n != L_('/')) ++n; if (n < string_end && *n == L_('/') && (FCT (p, n + 1, string_end, flags & FNM_PERIOD, flags) == 0)) return 0; } else { int flags2 = ((flags & FNM_FILE_NAME) ? flags : (flags & ~FNM_PERIOD)); int no_leading_period2 = no_leading_period; if (c == L_('\\') && !(flags & FNM_NOESCAPE)) c = *p; c = FOLD (c); for (--p; n < endp; ++n, no_leading_period2 = false) if (FOLD ((UCHAR) *n) == c && (FCT (p, n, string_end, no_leading_period2, flags2) == 0)) return 0; } } /* If we come here no match is possible with the wildcard. */ return FNM_NOMATCH; case L_('['): { /* Nonzero if the sense of the character class is inverted. */ register bool not; CHAR cold; UCHAR fn; if (posixly_correct == 0) posixly_correct = getenv ("POSIXLY_CORRECT") != NULL ? 1 : -1; if (n == string_end) return FNM_NOMATCH; if (*n == L_('.') && no_leading_period) return FNM_NOMATCH; if (*n == L_('/') && (flags & FNM_FILE_NAME)) /* `/' cannot be matched. */ return FNM_NOMATCH; not = (*p == L_('!') || (posixly_correct < 0 && *p == L_('^'))); if (not) ++p; fn = FOLD ((UCHAR) *n); c = *p++; for (;;) { if (!(flags & FNM_NOESCAPE) && c == L_('\\')) { if (*p == L_('\0')) return FNM_NOMATCH; c = FOLD ((UCHAR) *p); ++p; if (c == fn) goto matched; } else if (c == L_('[') && *p == L_(':')) { /* Leave room for the null. */ CHAR str[CHAR_CLASS_MAX_LENGTH + 1]; size_t c1 = 0; #if defined _LIBC || WIDE_CHAR_SUPPORT wctype_t wt; #endif const CHAR *startp = p; for (;;) { if (c1 == CHAR_CLASS_MAX_LENGTH) /* The name is too long and therefore the pattern is ill-formed. */ return FNM_NOMATCH; c = *++p; if (c == L_(':') && p[1] == L_(']')) { p += 2; break; } if (c < L_('a') || c >= L_('z')) { /* This cannot possibly be a character class name. Match it as a normal range. */ p = startp; c = L_('['); goto normal_bracket; } str[c1++] = c; } str[c1] = L_('\0'); #if defined _LIBC || WIDE_CHAR_SUPPORT wt = IS_CHAR_CLASS (str); if (wt == 0) /* Invalid character class name. */ return FNM_NOMATCH; # if defined _LIBC && ! WIDE_CHAR_VERSION /* The following code is glibc specific but does there a good job in speeding up the code since we can avoid the btowc() call. */ if (_ISCTYPE ((UCHAR) *n, wt)) goto matched; # else if (ISWCTYPE (BTOWC ((UCHAR) *n), wt)) goto matched; # endif #else if ((STREQ (str, L_("alnum")) && ISALNUM ((UCHAR) *n)) || (STREQ (str, L_("alpha")) && ISALPHA ((UCHAR) *n)) || (STREQ (str, L_("blank")) && ISBLANK ((UCHAR) *n)) || (STREQ (str, L_("cntrl")) && ISCNTRL ((UCHAR) *n)) || (STREQ (str, L_("digit")) && ISDIGIT ((UCHAR) *n)) || (STREQ (str, L_("graph")) && ISGRAPH ((UCHAR) *n)) || (STREQ (str, L_("lower")) && ISLOWER ((UCHAR) *n)) || (STREQ (str, L_("print")) && ISPRINT ((UCHAR) *n)) || (STREQ (str, L_("punct")) && ISPUNCT ((UCHAR) *n)) || (STREQ (str, L_("space")) && ISSPACE ((UCHAR) *n)) || (STREQ (str, L_("upper")) && ISUPPER ((UCHAR) *n)) || (STREQ (str, L_("xdigit")) && ISXDIGIT ((UCHAR) *n))) goto matched; #endif c = *p++; } #ifdef _LIBC else if (c == L_('[') && *p == L_('=')) { UCHAR str[1]; uint32_t nrules = _NL_CURRENT_WORD (LC_COLLATE, _NL_COLLATE_NRULES); const CHAR *startp = p; c = *++p; if (c == L_('\0')) { p = startp; c = L_('['); goto normal_bracket; } str[0] = c; c = *++p; if (c != L_('=') || p[1] != L_(']')) { p = startp; c = L_('['); goto normal_bracket; } p += 2; if (nrules == 0) { if ((UCHAR) *n == str[0]) goto matched; } else { const int32_t *table; # if WIDE_CHAR_VERSION const int32_t *weights; const int32_t *extra; # else const unsigned char *weights; const unsigned char *extra; # endif const int32_t *indirect; int32_t idx; const UCHAR *cp = (const UCHAR *) str; /* This #include defines a local function! */ # if WIDE_CHAR_VERSION # include <locale/weightwc.h> # else # include <locale/weight.h> # endif # if WIDE_CHAR_VERSION table = (const int32_t *) _NL_CURRENT (LC_COLLATE, _NL_COLLATE_TABLEWC); weights = (const int32_t *) _NL_CURRENT (LC_COLLATE, _NL_COLLATE_WEIGHTWC); extra = (const int32_t *) _NL_CURRENT (LC_COLLATE, _NL_COLLATE_EXTRAWC); indirect = (const int32_t *) _NL_CURRENT (LC_COLLATE, _NL_COLLATE_INDIRECTWC); # else table = (const int32_t *) _NL_CURRENT (LC_COLLATE, _NL_COLLATE_TABLEMB); weights = (const unsigned char *) _NL_CURRENT (LC_COLLATE, _NL_COLLATE_WEIGHTMB); extra = (const unsigned char *) _NL_CURRENT (LC_COLLATE, _NL_COLLATE_EXTRAMB); indirect = (const int32_t *) _NL_CURRENT (LC_COLLATE, _NL_COLLATE_INDIRECTMB); # endif idx = findidx (&cp); if (idx != 0) { /* We found a table entry. Now see whether the character we are currently at has the same equivalance class value. */ int len = weights[idx]; int32_t idx2; const UCHAR *np = (const UCHAR *) n; idx2 = findidx (&np); if (idx2 != 0 && len == weights[idx2]) { int cnt = 0; while (cnt < len && (weights[idx + 1 + cnt] == weights[idx2 + 1 + cnt])) ++cnt; if (cnt == len) goto matched; } } } c = *p++; } #endif else if (c == L_('\0')) /* [ (unterminated) loses. */ return FNM_NOMATCH; else { bool is_range = false; #ifdef _LIBC bool is_seqval = false; if (c == L_('[') && *p == L_('.')) { uint32_t nrules = _NL_CURRENT_WORD (LC_COLLATE, _NL_COLLATE_NRULES); const CHAR *startp = p; size_t c1 = 0; while (1) { c = *++p; if (c == L_('.') && p[1] == L_(']')) { p += 2; break; } if (c == '\0') return FNM_NOMATCH; ++c1; } /* We have to handling the symbols differently in ranges since then the collation sequence is important. */ is_range = *p == L_('-') && p[1] != L_('\0'); if (nrules == 0) { /* There are no names defined in the collation data. Therefore we only accept the trivial names consisting of the character itself. */ if (c1 != 1) return FNM_NOMATCH; if (!is_range && *n == startp[1]) goto matched; cold = startp[1]; c = *p++; } else { int32_t table_size; const int32_t *symb_table; # ifdef WIDE_CHAR_VERSION char str[c1]; size_t strcnt; # else # define str (startp + 1) # endif const unsigned char *extra; int32_t idx; int32_t elem; int32_t second; int32_t hash; # ifdef WIDE_CHAR_VERSION /* We have to convert the name to a single-byte string. This is possible since the names consist of ASCII characters and the internal representation is UCS4. */ for (strcnt = 0; strcnt < c1; ++strcnt) str[strcnt] = startp[1 + strcnt]; # endif table_size = _NL_CURRENT_WORD (LC_COLLATE, _NL_COLLATE_SYMB_HASH_SIZEMB); symb_table = (const int32_t *) _NL_CURRENT (LC_COLLATE, _NL_COLLATE_SYMB_TABLEMB); extra = (const unsigned char *) _NL_CURRENT (LC_COLLATE, _NL_COLLATE_SYMB_EXTRAMB); /* Locate the character in the hashing table. */ hash = elem_hash (str, c1); idx = 0; elem = hash % table_size; second = hash % (table_size - 2); while (symb_table[2 * elem] != 0) { /* First compare the hashing value. */ if (symb_table[2 * elem] == hash && c1 == extra[symb_table[2 * elem + 1]] && memcmp (str, &extra[symb_table[2 * elem + 1] + 1], c1) == 0) { /* Yep, this is the entry. */ idx = symb_table[2 * elem + 1]; idx += 1 + extra[idx]; break; } /* Next entry. */ elem += second; } if (symb_table[2 * elem] != 0) { /* Compare the byte sequence but only if this is not part of a range. */ # ifdef WIDE_CHAR_VERSION int32_t *wextra; idx += 1 + extra[idx]; /* Adjust for the alignment. */ idx = (idx + 3) & ~3; wextra = (int32_t *) &extra[idx + 4]; # endif if (! is_range) { # ifdef WIDE_CHAR_VERSION for (c1 = 0; (int32_t) c1 < wextra[idx]; ++c1) if (n[c1] != wextra[1 + c1]) break; if ((int32_t) c1 == wextra[idx]) goto matched; # else for (c1 = 0; c1 < extra[idx]; ++c1) if (n[c1] != extra[1 + c1]) break; if (c1 == extra[idx]) goto matched; # endif } /* Get the collation sequence value. */ is_seqval = true; # ifdef WIDE_CHAR_VERSION cold = wextra[1 + wextra[idx]]; # else /* Adjust for the alignment. */ idx += 1 + extra[idx]; idx = (idx + 3) & ~4; cold = *((int32_t *) &extra[idx]); # endif c = *p++; } else if (c1 == 1) { /* No valid character. Match it as a single byte. */ if (!is_range && *n == str[0]) goto matched; cold = str[0]; c = *p++; } else return FNM_NOMATCH; } } else # undef str #endif { c = FOLD (c); normal_bracket: /* We have to handling the symbols differently in ranges since then the collation sequence is important. */ is_range = (*p == L_('-') && p[1] != L_('\0') && p[1] != L_(']')); if (!is_range && c == fn) goto matched; cold = c; c = *p++; } if (c == L_('-') && *p != L_(']')) { #if _LIBC /* We have to find the collation sequence value for C. Collation sequence is nothing we can regularly access. The sequence value is defined by the order in which the definitions of the collation values for the various characters appear in the source file. A strange concept, nowhere documented. */ uint32_t fcollseq; uint32_t lcollseq; UCHAR cend = *p++; # ifdef WIDE_CHAR_VERSION /* Search in the `names' array for the characters. */ fcollseq = __collseq_table_lookup (collseq, fn); if (fcollseq == ~((uint32_t) 0)) /* XXX We don't know anything about the character we are supposed to match. This means we are failing. */ goto range_not_matched; if (is_seqval) lcollseq = cold; else lcollseq = __collseq_table_lookup (collseq, cold); # else fcollseq = collseq[fn]; lcollseq = is_seqval ? cold : collseq[(UCHAR) cold]; # endif is_seqval = false; if (cend == L_('[') && *p == L_('.')) { uint32_t nrules = _NL_CURRENT_WORD (LC_COLLATE, _NL_COLLATE_NRULES); const CHAR *startp = p; size_t c1 = 0; while (1) { c = *++p; if (c == L_('.') && p[1] == L_(']')) { p += 2; break; } if (c == '\0') return FNM_NOMATCH; ++c1; } if (nrules == 0) { /* There are no names defined in the collation data. Therefore we only accept the trivial names consisting of the character itself. */ if (c1 != 1) return FNM_NOMATCH; cend = startp[1]; } else { int32_t table_size; const int32_t *symb_table; # ifdef WIDE_CHAR_VERSION char str[c1]; size_t strcnt; # else # define str (startp + 1) # endif const unsigned char *extra; int32_t idx; int32_t elem; int32_t second; int32_t hash; # ifdef WIDE_CHAR_VERSION /* We have to convert the name to a single-byte string. This is possible since the names consist of ASCII characters and the internal representation is UCS4. */ for (strcnt = 0; strcnt < c1; ++strcnt) str[strcnt] = startp[1 + strcnt]; # endif table_size = _NL_CURRENT_WORD (LC_COLLATE, _NL_COLLATE_SYMB_HASH_SIZEMB); symb_table = (const int32_t *) _NL_CURRENT (LC_COLLATE, _NL_COLLATE_SYMB_TABLEMB); extra = (const unsigned char *) _NL_CURRENT (LC_COLLATE, _NL_COLLATE_SYMB_EXTRAMB); /* Locate the character in the hashing table. */ hash = elem_hash (str, c1); idx = 0; elem = hash % table_size; second = hash % (table_size - 2); while (symb_table[2 * elem] != 0) { /* First compare the hashing value. */ if (symb_table[2 * elem] == hash && (c1 == extra[symb_table[2 * elem + 1]]) && memcmp (str, &extra[symb_table[2 * elem + 1] + 1], c1) == 0) { /* Yep, this is the entry. */ idx = symb_table[2 * elem + 1]; idx += 1 + extra[idx]; break; } /* Next entry. */ elem += second; } if (symb_table[2 * elem] != 0) { /* Compare the byte sequence but only if this is not part of a range. */ # ifdef WIDE_CHAR_VERSION int32_t *wextra; idx += 1 + extra[idx]; /* Adjust for the alignment. */ idx = (idx + 3) & ~4; wextra = (int32_t *) &extra[idx + 4]; # endif /* Get the collation sequence value. */ is_seqval = true; # ifdef WIDE_CHAR_VERSION cend = wextra[1 + wextra[idx]]; # else /* Adjust for the alignment. */ idx += 1 + extra[idx]; idx = (idx + 3) & ~4; cend = *((int32_t *) &extra[idx]); # endif } else if (symb_table[2 * elem] != 0 && c1 == 1) { cend = str[0]; c = *p++; } else return FNM_NOMATCH; } # undef str } else { if (!(flags & FNM_NOESCAPE) && cend == L_('\\')) cend = *p++; if (cend == L_('\0')) return FNM_NOMATCH; cend = FOLD (cend); } /* XXX It is not entirely clear to me how to handle characters which are not mentioned in the collation specification. */ if ( # ifdef WIDE_CHAR_VERSION lcollseq == 0xffffffff || # endif lcollseq <= fcollseq) { /* We have to look at the upper bound. */ uint32_t hcollseq; if (is_seqval) hcollseq = cend; else { # ifdef WIDE_CHAR_VERSION hcollseq = __collseq_table_lookup (collseq, cend); if (hcollseq == ~((uint32_t) 0)) { /* Hum, no information about the upper bound. The matching succeeds if the lower bound is matched exactly. */ if (lcollseq != fcollseq) goto range_not_matched; goto matched; } # else hcollseq = collseq[cend]; # endif } if (lcollseq <= hcollseq && fcollseq <= hcollseq) goto matched; } # ifdef WIDE_CHAR_VERSION range_not_matched: # endif #else /* We use a boring value comparison of the character values. This is better than comparing using `strcoll' since the latter would have surprising and sometimes fatal consequences. */ UCHAR cend = *p++; if (!(flags & FNM_NOESCAPE) && cend == L_('\\')) cend = *p++; if (cend == L_('\0')) return FNM_NOMATCH; /* It is a range. */ if (cold <= fn && fn <= cend) goto matched; #endif c = *p++; } } if (c == L_(']')) break; } if (!not) return FNM_NOMATCH; break; matched: /* Skip the rest of the [...] that already matched. */ do { ignore_next: c = *p++; if (c == L_('\0')) /* [... (unterminated) loses. */ return FNM_NOMATCH; if (!(flags & FNM_NOESCAPE) && c == L_('\\')) { if (*p == L_('\0')) return FNM_NOMATCH; /* XXX 1003.2d11 is unclear if this is right. */ ++p; } else if (c == L_('[') && *p == L_(':')) { int c1 = 0; const CHAR *startp = p; while (1) { c = *++p; if (++c1 == CHAR_CLASS_MAX_LENGTH) return FNM_NOMATCH; if (*p == L_(':') && p[1] == L_(']')) break; if (c < L_('a') || c >= L_('z')) { p = startp; goto ignore_next; } } p += 2; c = *p++; } else if (c == L_('[') && *p == L_('=')) { c = *++p; if (c == L_('\0')) return FNM_NOMATCH; c = *++p; if (c != L_('=') || p[1] != L_(']')) return FNM_NOMATCH; p += 2; c = *p++; } else if (c == L_('[') && *p == L_('.')) { ++p; while (1) { c = *++p; if (c == '\0') return FNM_NOMATCH; if (*p == L_('.') && p[1] == L_(']')) break; } p += 2; c = *p++; } } while (c != L_(']')); if (not) return FNM_NOMATCH; } break; case L_('+'): case L_('@'): case L_('!'): if (__builtin_expect (flags & FNM_EXTMATCH, 0) && *p == '(') { int res; res = EXT (c, p, n, string_end, no_leading_period, flags); if (res != -1) return res; } goto normal_match; case L_('/'): if (NO_LEADING_PERIOD (flags)) { if (n == string_end || c != (UCHAR) *n) return FNM_NOMATCH; new_no_leading_period = true; break; } /* FALLTHROUGH */ default: normal_match: if (n == string_end || c != FOLD ((UCHAR) *n)) return FNM_NOMATCH; } no_leading_period = new_no_leading_period; ++n; } if (n == string_end) return 0; if ((flags & FNM_LEADING_DIR) && n != string_end && *n == L_('/')) /* The FNM_LEADING_DIR flag says that "foo*" matches "foobar/frobozz". */ return 0; return FNM_NOMATCH; }
static int internal_function internal_fnmatch (const char *pattern, const char *string, int no_leading_period, int flags) { register const char *p = pattern, *n = string; register unsigned char c; /* Note that this evaluates C many times. */ # ifdef _LIBC # define FOLD(c) ((flags & FNM_CASEFOLD) ? tolower (c) : (c)) # else # define FOLD(c) ((flags & FNM_CASEFOLD) && ISUPPER (c) ? tolower (c) : (c)) # endif while ((c = *p++) != '\0') { c = FOLD (c); switch (c) { case '?': if (*n == '\0') return FNM_NOMATCH; else if (*n == '/' && (flags & FNM_FILE_NAME)) return FNM_NOMATCH; else if (*n == '.' && no_leading_period && (n == string || (n[-1] == '/' && (flags & FNM_FILE_NAME)))) return FNM_NOMATCH; break; case '\\': if (!(flags & FNM_NOESCAPE)) { c = *p++; if (c == '\0') /* Trailing \ loses. */ return FNM_NOMATCH; c = FOLD (c); } if (FOLD ((unsigned char) *n) != c) return FNM_NOMATCH; break; case '*': if (*n == '.' && no_leading_period && (n == string || (n[-1] == '/' && (flags & FNM_FILE_NAME)))) return FNM_NOMATCH; for (c = *p++; c == '?' || c == '*'; c = *p++) { if (*n == '/' && (flags & FNM_FILE_NAME)) /* A slash does not match a wildcard under FNM_FILE_NAME. */ return FNM_NOMATCH; else if (c == '?') { /* A ? needs to match one character. */ if (*n == '\0') /* There isn't another character; no match. */ return FNM_NOMATCH; else /* One character of the string is consumed in matching this ? wildcard, so *??? won't match if there are less than three characters. */ ++n; } } if (c == '\0') /* The wildcard(s) is/are the last element of the pattern. If the name is a file name and contains another slash this does mean it cannot match. */ return ((flags & FNM_FILE_NAME) && strchr (n, '/') != NULL ? FNM_NOMATCH : 0); else { const char *endp; endp = __strchrnul (n, (flags & FNM_FILE_NAME) ? '/' : '\0'); if (c == '[') { int flags2 = ((flags & FNM_FILE_NAME) ? flags : (flags & ~FNM_PERIOD)); for (--p; n < endp; ++n) if (internal_fnmatch (p, n, (no_leading_period && (n == string || (n[-1] == '/' && (flags & FNM_FILE_NAME)))), flags2) == 0) return 0; } else if (c == '/' && (flags & FNM_FILE_NAME)) { while (*n != '\0' && *n != '/') ++n; if (*n == '/' && (internal_fnmatch (p, n + 1, flags & FNM_PERIOD, flags) == 0)) return 0; } else { int flags2 = ((flags & FNM_FILE_NAME) ? flags : (flags & ~FNM_PERIOD)); if (c == '\\' && !(flags & FNM_NOESCAPE)) c = *p; c = FOLD (c); for (--p; n < endp; ++n) if (FOLD ((unsigned char) *n) == c && (internal_fnmatch (p, n, (no_leading_period && (n == string || (n[-1] == '/' && (flags & FNM_FILE_NAME)))), flags2) == 0)) return 0; } } /* If we come here no match is possible with the wildcard. */ return FNM_NOMATCH; case '[': { /* Nonzero if the sense of the character class is inverted. */ static int posixly_correct; register int not; char cold; if (posixly_correct == 0) posixly_correct = getenv ("POSIXLY_CORRECT") != NULL ? 1 : -1; if (*n == '\0') return FNM_NOMATCH; if (*n == '.' && no_leading_period && (n == string || (n[-1] == '/' && (flags & FNM_FILE_NAME)))) return FNM_NOMATCH; if (*n == '/' && (flags & FNM_FILE_NAME)) /* `/' cannot be matched. */ return FNM_NOMATCH; not = (*p == '!' || (posixly_correct < 0 && *p == '^')); if (not) ++p; c = *p++; for (;;) { unsigned char fn = FOLD ((unsigned char) *n); if (!(flags & FNM_NOESCAPE) && c == '\\') { if (*p == '\0') return FNM_NOMATCH; c = FOLD ((unsigned char) *p); ++p; if (c == fn) goto matched; } else if (c == '[' && *p == ':') { /* Leave room for the null. */ char str[CHAR_CLASS_MAX_LENGTH + 1]; size_t c1 = 0; # if defined _LIBC || (defined HAVE_WCTYPE_H && defined HAVE_WCHAR_H) wctype_t wt; # endif const char *startp = p; for (;;) { if (c1 > CHAR_CLASS_MAX_LENGTH) /* The name is too long and therefore the pattern is ill-formed. */ return FNM_NOMATCH; c = *++p; if (c == ':' && p[1] == ']') { p += 2; break; } if (c < 'a' || c >= 'z') { /* This cannot possibly be a character class name. Match it as a normal range. */ p = startp; c = '['; goto normal_bracket; } str[c1++] = c; } str[c1] = '\0'; # if defined _LIBC || (defined HAVE_WCTYPE_H && defined HAVE_WCHAR_H) wt = IS_CHAR_CLASS (str); if (wt == 0) /* Invalid character class name. */ return FNM_NOMATCH; if (__iswctype (__btowc ((unsigned char) *n), wt)) goto matched; # else if ((STREQ (str, "alnum") && ISALNUM ((unsigned char) *n)) || (STREQ (str, "alpha") && ISALPHA ((unsigned char) *n)) || (STREQ (str, "blank") && ISBLANK ((unsigned char) *n)) || (STREQ (str, "cntrl") && ISCNTRL ((unsigned char) *n)) || (STREQ (str, "digit") && ISDIGIT ((unsigned char) *n)) || (STREQ (str, "graph") && ISGRAPH ((unsigned char) *n)) || (STREQ (str, "lower") && ISLOWER ((unsigned char) *n)) || (STREQ (str, "print") && ISPRINT ((unsigned char) *n)) || (STREQ (str, "punct") && ISPUNCT ((unsigned char) *n)) || (STREQ (str, "space") && ISSPACE ((unsigned char) *n)) || (STREQ (str, "upper") && ISUPPER ((unsigned char) *n)) || (STREQ (str, "xdigit") && ISXDIGIT ((unsigned char) *n))) goto matched; # endif } else if (c == '\0') /* [ (unterminated) loses. */ return FNM_NOMATCH; else { normal_bracket: if (FOLD (c) == fn) goto matched; cold = c; c = *p++; if (c == '-' && *p != ']') { /* It is a range. */ unsigned char cend = *p++; if (!(flags & FNM_NOESCAPE) && cend == '\\') cend = *p++; if (cend == '\0') return FNM_NOMATCH; if (cold <= fn && fn <= FOLD (cend)) goto matched; c = *p++; } } if (c == ']') break; } if (!not) return FNM_NOMATCH; break; matched: /* Skip the rest of the [...] that already matched. */ while (c != ']') { if (c == '\0') /* [... (unterminated) loses. */ return FNM_NOMATCH; c = *p++; if (!(flags & FNM_NOESCAPE) && c == '\\') { if (*p == '\0') return FNM_NOMATCH; /* XXX 1003.2d11 is unclear if this is right. */ ++p; } else if (c == '[' && *p == ':') { do if (*++p == '\0') return FNM_NOMATCH; while (*p != ':' || p[1] == ']'); p += 2; c = *p; } } if (not) return FNM_NOMATCH; } break; default: if (c != FOLD ((unsigned char) *n)) return FNM_NOMATCH; } ++n; } if (*n == '\0') return 0; if ((flags & FNM_LEADING_DIR) && *n == '/') /* The FNM_LEADING_DIR flag says that "foo*" matches "foobar/frobozz". */ return 0; return FNM_NOMATCH; # undef FOLD }