/* $OpenLDAP$ */ /* * Copyright 1998-2000 The OpenLDAP Foundation, All Rights Reserved. * COPYING RESTRICTIONS APPLY, see COPYRIGHT file */ /* * Basic UTF-8 routines * * These routines are "dumb". Though they understand UTF-8, * they don't grok Unicode. That is, they can push bits, * but don't have a clue what the bits represent. That's * good enough for use with the LDAP Client SDK. * * These routines are not optimized. */ #include "portable.h" #include #include #include #include #include #include "ldap-int.h" #include "ldap_defaults.h" #undef ISASCII #define ISASCII(uc) ((uc) < 0x100) #undef UCS4_INVALID #define UCS4_INVALID 0x80000000U /* * Basic UTF-8 routines */ /* * return the number of bytes required to hold the * NULL-terminated UTF-8 string NOT INCLUDING the * termination. */ ber_len_t ldap_utf8_bytes( const char * p ) { ber_len_t bytes; for( bytes=0; p[bytes]; bytes++ ) { /* EMPTY */ ; } return bytes; } ber_len_t ldap_utf8_chars( const char * p ) { /* could be optimized and could check for invalid sequences */ ber_len_t chars=0; for( ; *p ; LDAP_UTF8_INCR(p) ) { chars++; }; return chars; } /* return offset to next character */ int ldap_utf8_offset( const char * p ) { return LDAP_UTF8_NEXT(p) - p; } /* * Returns length indicated by first byte. * * This function should use a table lookup. */ int ldap_utf8_charlen( const char * p ) { unsigned c = * (const unsigned char *) p; if ((c & 0xfe ) == 0xfc) { return 6; } if ((c & 0xfc ) == 0xf8) { return 5; } if ((c & 0xf8 ) == 0xf0) { return 4; } if ((c & 0xf0 ) == 0xe0) { return 3; } if ((c & 0xe0 ) == 0xc0) { return 2; } if ((c & 0x80 ) == 0x80) { /* INVALID */ return 0; } return 1; } /* conv UTF-8 to UCS-4, useful for comparisons */ ldap_ucs4_t ldap_utf8_to_ucs4( const char * p ) { const unsigned char *c = p; ldap_ucs4_t ch; int len, i; static unsigned char mask[] = { 0, 0x7f, 0x1f, 0x0f, 0x07, 0x03, 0x01 }; len = LDAP_UTF8_CHARLEN(p); if( len == 0 ) return UCS4_INVALID; ch = c[0] & mask[len]; for(i=1; i < len; i++) { if ((c[i] & 0xc0) != 0x80) { return UCS4_INVALID; } ch <<= 6; ch |= c[i] & 0x3f; } return ch; } /* conv UCS-4 to UTF-8, not used */ int ldap_ucs4_to_utf8( ldap_ucs4_t c, char *buf ) { int len=0; unsigned char* p = buf; if(buf == NULL) return 0; if ( c < 0 ) { /* not a valid Unicode character */ } else if( c < 0x80 ) { p[len++] = c; } else if( c < 0x800 ) { p[len++] = 0xc0 | ( c >> 6 ); p[len++] = 0x80 | ( c & 0x3f ); } else if( c < 0x10000 ) { p[len++] = 0xe0 | ( c >> 12 ); p[len++] = 0x80 | ( (c >> 6) & 0x3f ); p[len++] = 0x80 | ( c & 0x3f ); } else if( c < 0x200000 ) { p[len++] = 0xf0 | ( c >> 18 ); p[len++] = 0x80 | ( (c >> 12) & 0x3f ); p[len++] = 0x80 | ( (c >> 6) & 0x3f ); p[len++] = 0x80 | ( c & 0x3f ); } else if( c < 0x400000 ) { p[len++] = 0xf8 | ( c >> 24 ); p[len++] = 0x80 | ( (c >> 18) & 0x3f ); p[len++] = 0x80 | ( (c >> 12) & 0x3f ); p[len++] = 0x80 | ( (c >> 6) & 0x3f ); p[len++] = 0x80 | ( c & 0x3f ); } else /* if( c < 0x80000000 ) */ { p[len++] = 0xfc | ( c >> 30 ); p[len++] = 0x80 | ( (c >> 24) & 0x3f ); p[len++] = 0x80 | ( (c >> 18) & 0x3f ); p[len++] = 0x80 | ( (c >> 12) & 0x3f ); p[len++] = 0x80 | ( (c >> 6) & 0x3f ); p[len++] = 0x80 | ( c & 0x3f ); } buf[len] = '\0'; return len; } /* * Advance to the next UTF-8 character * * Ignores length of multibyte character, instead rely on * continuation markers to find start of next character. * This allows for "resyncing" of when invalid characters * are provided provided the start of the next character * is appears within the 6 bytes examined. */ char* ldap_utf8_next( const char * p ) { int i; const unsigned char *u = p; if( LDAP_UTF8_ISASCII(u) ) { return (char *) &p[1]; } for( i=1; i<6; i++ ) { if ( ( u[i] & 0xc0 ) != 0x80 ) { return (char *) &p[i]; } } return (char *) &p[i]; } /* * Advance to the previous UTF-8 character * * Ignores length of multibyte character, instead rely on * continuation markers to find start of next character. * This allows for "resyncing" of when invalid characters * are provided provided the start of the next character * is appears within the 6 bytes examined. */ char* ldap_utf8_prev( const char * p ) { int i; const unsigned char *u = p; for( i=-1; i>-6 ; i-- ) { if ( ( u[i] & 0xc0 ) != 0x80 ) { return (char *) &p[i]; } } return (char *) &p[i]; } /* * Copy one UTF-8 character from src to dst returning * number of bytes copied. * * Ignores length of multibyte character, instead rely on * continuation markers to find start of next character. * This allows for "resyncing" of when invalid characters * are provided provided the start of the next character * is appears within the 6 bytes examined. */ int ldap_utf8_copy( char* dst, const char *src ) { int i; const unsigned char *u = src; dst[0] = src[0]; if( LDAP_UTF8_ISASCII(u) ) { return 1; } for( i=1; i<6; i++ ) { if ( ( u[i] & 0xc0 ) != 0x80 ) { return i; } dst[i] = src[i]; } return i; } /* * UTF-8 ctype routines * Only deals with characters < 0x100 (ie: US-ASCII) */ int ldap_utf8_isascii( const char * p ) { unsigned c = * (const unsigned char *) p; return ISASCII(c); } int ldap_utf8_isdigit( const char * p ) { unsigned c = * (const unsigned char *) p; if(!ISASCII(c)) return 0; return c >= '0' && c <= '9'; } int ldap_utf8_isxdigit( const char * p ) { unsigned c = * (const unsigned char *) p; if(!ISASCII(c)) return 0; return ( c >= '0' && c <= '9' ) || ( c >= 'A' && c <= 'F' ) || ( c >= 'a' && c <= 'f' ); } int ldap_utf8_isspace( const char * p ) { unsigned c = * (const unsigned char *) p; if(!ISASCII(c)) return 0; switch(c) { case ' ': case '\t': case '\n': case '\r': case '\v': case '\f': return 1; } return 0; } #ifndef UTF8_ALPHA_CTYPE /* * These are not needed by the C SDK and are * not "good enough" for general use. */ int ldap_utf8_isalpha( const char * p ) { unsigned c = * (const unsigned char *) p; if(!ISASCII(c)) return 0; return ( c >= 'A' && c <= 'Z' ) || ( c >= 'a' && c <= 'z' ); } int ldap_utf8_isalnum( const char * p ) { unsigned c = * (const unsigned char *) p; if(!ISASCII(c)) return 0; return ( c >= '0' && c <= '9' ) || ( c >= 'A' && c <= 'Z' ) || ( c >= 'a' && c <= 'z' ); } int ldap_utf8_islower( const char * p ) { unsigned c = * (const unsigned char *) p; if(!ISASCII(c)) return 0; return ( c >= 'a' && c <= 'z' ); } int ldap_utf8_isupper( const char * p ) { unsigned c = * (const unsigned char *) p; if(!ISASCII(c)) return 0; return ( c >= 'A' && c <= 'Z' ); } #endif /* * UTF-8 string routines */ /* like strchr() */ char * (ldap_utf8_strchr)( const char *str, const char *chr ) { for( ; *str != '\0'; LDAP_UTF8_INCR(str) ) { if( ldap_utf8_to_ucs4( str ) == ldap_utf8_to_ucs4( chr ) ) { return (char *) str; } } return NULL; } /* like strcspn() but returns number of bytes, not characters */ ber_len_t (ldap_utf8_strcspn)( const char *str, const char *set ) { const char *cstr; const char *cset; for( cstr = str; *cstr != '\0'; LDAP_UTF8_INCR(cstr) ) { for( cset = set; *cset != '\0'; LDAP_UTF8_INCR(cset) ) { if( ldap_utf8_to_ucs4( cstr ) == ldap_utf8_to_ucs4( cset ) ) { return cstr - str; } } } return cstr - str; } /* like strspn() but returns number of bytes, not characters */ ber_len_t (ldap_utf8_strspn)( const char *str, const char *set ) { const char *cstr; const char *cset; for( cstr = str; *cstr != '\0'; LDAP_UTF8_INCR(cstr) ) { for( cset = set; ; LDAP_UTF8_INCR(cset) ) { if( *cset == '\0' ) { return cstr - str; } if( ldap_utf8_to_ucs4( cstr ) == ldap_utf8_to_ucs4( cset ) ) { break; } } } return cstr - str; } /* like strpbrk(), replaces strchr() as well */ char *(ldap_utf8_strpbrk)( const char *str, const char *set ) { for( ; *str != '\0'; LDAP_UTF8_INCR(str) ) { const char *cset; for( cset = set; *cset != '\0'; LDAP_UTF8_INCR(cset) ) { if( ldap_utf8_to_ucs4( str ) == ldap_utf8_to_ucs4( cset ) ) { return (char *) str; } } } return NULL; } /* like strtok_r(), not strtok() */ char *(ldap_utf8_strtok)(char *str, const char *sep, char **last) { char *begin; char *end; if( last == NULL ) return NULL; begin = str ? str : *last; begin += ldap_utf8_strspn( begin, sep ); if( *begin == '\0' ) { *last = NULL; return NULL; } end = &begin[ ldap_utf8_strcspn( begin, sep ) ]; if( *end != '\0' ) { char *next = LDAP_UTF8_NEXT( end ); *end = '\0'; end = next; } *last = end; return begin; }