/* * Copyright 2000-2003 The OpenLDAP Foundation * COPYING RESTRICTIONS APPLY. See COPYRIGHT File in top level directory * of this package for details. */ #include "portable.h" #include #include #include #include #include #include #define malloc(x) ber_memalloc_x(x,ctx) #define realloc(x,y) ber_memrealloc_x(x,y,ctx) #define free(x) ber_memfree_x(x,ctx) int ucstrncmp( const ldap_unicode_t *u1, const ldap_unicode_t *u2, ber_len_t n ) { for(; 0 < n; ++u1, ++u2, --n ) { if( *u1 != *u2 ) { return *u1 < *u2 ? -1 : +1; } if ( *u1 == 0 ) { return 0; } } return 0; } int ucstrncasecmp( const ldap_unicode_t *u1, const ldap_unicode_t *u2, ber_len_t n ) { for(; 0 < n; ++u1, ++u2, --n ) { ldap_unicode_t uu1 = uctolower( *u1 ); ldap_unicode_t uu2 = uctolower( *u2 ); if( uu1 != uu2 ) { return uu1 < uu2 ? -1 : +1; } if ( uu1 == 0 ) { return 0; } } return 0; } ldap_unicode_t * ucstrnchr( const ldap_unicode_t *u, ber_len_t n, ldap_unicode_t c ) { for(; 0 < n; ++u, --n ) { if( *u == c ) { return (ldap_unicode_t *) u; } } return NULL; } ldap_unicode_t * ucstrncasechr( const ldap_unicode_t *u, ber_len_t n, ldap_unicode_t c ) { c = uctolower( c ); for(; 0 < n; ++u, --n ) { if( uctolower( *u ) == c ) { return (ldap_unicode_t *) u; } } return NULL; } void ucstr2upper( ldap_unicode_t *u, ber_len_t n ) { for(; 0 < n; ++u, --n ) { *u = uctoupper( *u ); } } struct berval * UTF8bvnormalize( struct berval *bv, struct berval *newbv, unsigned flags, void *ctx ) { int i, j, len, clen, outpos, ucsoutlen, outsize, last; char *out, *outtmp, *s; unsigned long *ucs, *p, *ucsout; unsigned casefold = flags & LDAP_UTF8_CASEFOLD; unsigned approx = flags & LDAP_UTF8_APPROX; static unsigned char mask[] = { 0, 0x7f, 0x1f, 0x0f, 0x07, 0x03, 0x01 }; if ( bv == NULL ) { return NULL; } s = bv->bv_val; len = bv->bv_len; if ( len == 0 ) { return ber_dupbv_x( newbv, bv, ctx ); } /* FIXME: Should first check to see if string is already in * proper normalized form. This is almost as time consuming * as the normalization though. */ /* finish off everything up to character before first non-ascii */ if ( LDAP_UTF8_ISASCII( s ) ) { if ( casefold ) { outsize = len + 7; out = (char *) malloc( outsize ); if ( out == NULL ) { return NULL; } outpos = 0; for ( i = 1; (i < len) && LDAP_UTF8_ISASCII(s + i); i++ ) { out[outpos++] = TOLOWER( s[i-1] ); } if ( i == len ) { out[outpos++] = TOLOWER( s[len - 1] ); out[outpos] = '\0'; return ber_str2bv( out, outpos, 0, newbv); } } else { for ( i = 1; (i < len) && LDAP_UTF8_ISASCII(s + i); i++ ) { /* empty */ } if ( i == len ) { return ber_str2bv_x( s, len, 1, newbv, ctx ); } outsize = len + 7; out = (char *) malloc( outsize ); if ( out == NULL ) { return NULL; } outpos = i - 1; memcpy(out, s, outpos); } } else { outsize = len + 7; out = (char *) malloc( outsize ); if ( out == NULL ) { return NULL; } outpos = 0; i = 0; } p = ucs = malloc( len * sizeof(*ucs) ); if ( ucs == NULL ) { free(out); return NULL; } /* convert character before first non-ascii to ucs-4 */ if ( i > 0 ) { *p = casefold ? TOLOWER( s[i - 1] ) : s[i - 1]; p++; } /* s[i] is now first non-ascii character */ for (;;) { /* s[i] is non-ascii */ /* convert everything up to next ascii to ucs-4 */ while ( i < len ) { clen = LDAP_UTF8_CHARLEN2( s + i, clen ); if ( clen == 0 ) { free( ucs ); free( out ); return NULL; } if ( clen == 1 ) { /* ascii */ break; } *p = s[i] & mask[clen]; i++; for( j = 1; j < clen; j++ ) { if ( (s[i] & 0xc0) != 0x80 ) { free( ucs ); free( out ); return NULL; } *p <<= 6; *p |= s[i] & 0x3f; i++; } if ( casefold ) { *p = uctolower( *p ); } p++; } /* normalize ucs of length p - ucs */ uccompatdecomp( ucs, p - ucs, &ucsout, &ucsoutlen, ctx ); if ( approx ) { for ( j = 0; j < ucsoutlen; j++ ) { if ( ucsout[j] < 0x80 ) { out[outpos++] = ucsout[j]; } } } else { ucsoutlen = uccanoncomp( ucsout, ucsoutlen ); /* convert ucs to utf-8 and store in out */ for ( j = 0; j < ucsoutlen; j++ ) { /* allocate more space if not enough room for 6 bytes and terminator */ if ( outsize - outpos < 7 ) { outsize = ucsoutlen - j + outpos + 6; outtmp = (char *) realloc( out, outsize ); if ( outtmp == NULL ) { free( out ); free( ucs ); free( ucsout ); return NULL; } out = outtmp; } outpos += ldap_x_ucs4_to_utf8( ucsout[j], &out[outpos] ); } } free( ucsout ); ucsout = NULL; if ( i == len ) { break; } last = i; /* s[i] is ascii */ /* finish off everything up to char before next non-ascii */ for ( i++; (i < len) && LDAP_UTF8_ISASCII(s + i); i++ ) { out[outpos++] = casefold ? TOLOWER( s[i-1] ) : s[i-1]; } if ( i == len ) { out[outpos++] = casefold ? TOLOWER( s[len - 1] ) : s[len - 1]; break; } /* convert character before next non-ascii to ucs-4 */ *ucs = casefold ? TOLOWER( s[i - 1] ) : s[i - 1]; p = ucs + 1; } free( ucs ); out[outpos] = '\0'; return ber_str2bv( out, outpos, 0, newbv ); } /* compare UTF8-strings, optionally ignore casing */ /* slow, should be optimized */ int UTF8bvnormcmp( struct berval *bv1, struct berval *bv2, unsigned flags, void *ctx ) { int i, l1, l2, len, ulen, res = 0; char *s1, *s2, *done; unsigned long *ucs, *ucsout1, *ucsout2; unsigned casefold = flags & LDAP_UTF8_CASEFOLD; unsigned norm1 = flags & LDAP_UTF8_ARG1NFC; unsigned norm2 = flags & LDAP_UTF8_ARG2NFC; if (bv1 == NULL) { return bv2 == NULL ? 0 : -1; } else if (bv2 == NULL) { return 1; } l1 = bv1->bv_len; l2 = bv2->bv_len; len = (l1 < l2) ? l1 : l2; if (len == 0) { return l1 == 0 ? (l2 == 0 ? 0 : -1) : 1; } s1 = bv1->bv_val; s2 = bv2->bv_val; done = s1 + len; while ( (s1 < done) && LDAP_UTF8_ISASCII(s1) && LDAP_UTF8_ISASCII(s2) ) { if (casefold) { char c1 = TOLOWER(*s1); char c2 = TOLOWER(*s2); res = c1 - c2; } else { res = *s1 - *s2; } s1++; s2++; if (res) { /* done unless next character in s1 or s2 is non-ascii */ if (s1 < done) { if (!LDAP_UTF8_ISASCII(s1) || !LDAP_UTF8_ISASCII(s2)) { break; } } else if (((len < l1) && !LDAP_UTF8_ISASCII(s1)) || ((len < l2) && !LDAP_UTF8_ISASCII(s2))) { break; } return res; } } /* We have encountered non-ascii or strings equal up to len */ /* set i to number of iterations */ i = s1 - done + len; /* passed through loop at least once? */ if (i > 0) { if (!res && (s1 == done) && ((len == l1) || LDAP_UTF8_ISASCII(s1)) && ((len == l2) || LDAP_UTF8_ISASCII(s2))) { /* all ascii and equal up to len */ return l1 - l2; } /* rewind one char, and do normalized compare from there */ s1--; s2--; l1 -= i - 1; l2 -= i - 1; } /* FIXME: Should first check to see if strings are already in * proper normalized form. */ ucs = malloc( ( ( norm1 || l1 > l2 ) ? l1 : l2 ) * sizeof(*ucs) ); if ( ucs == NULL ) { return l1 > l2 ? 1 : -1; /* what to do??? */ } /* * XXYYZ: we convert to ucs4 even though -llunicode * expects ucs2 in an unsigned long */ /* convert and normalize 1st string */ for ( i = 0, ulen = 0; i < l1; i += len, ulen++ ) { ucs[ulen] = ldap_x_utf8_to_ucs4( s1 + i ); if ( ucs[ulen] == LDAP_UCS4_INVALID ) { free( ucs ); return -1; /* what to do??? */ } len = LDAP_UTF8_CHARLEN( s1 + i ); } if ( norm1 ) { ucsout1 = ucs; l1 = ulen; ucs = malloc( l2 * sizeof(*ucs) ); if ( ucs == NULL ) { return l1 > l2 ? 1 : -1; /* what to do??? */ } } else { uccompatdecomp( ucs, ulen, &ucsout1, &l1, ctx ); l1 = uccanoncomp( ucsout1, l1 ); } /* convert and normalize 2nd string */ for ( i = 0, ulen = 0; i < l2; i += len, ulen++ ) { ucs[ulen] = ldap_x_utf8_to_ucs4( s2 + i ); if ( ucs[ulen] == LDAP_UCS4_INVALID ) { free( ucsout1 ); free( ucs ); return 1; /* what to do??? */ } len = LDAP_UTF8_CHARLEN( s2 + i ); } if ( norm2 ) { ucsout2 = ucs; l2 = ulen; } else { uccompatdecomp( ucs, ulen, &ucsout2, &l2, ctx ); l2 = uccanoncomp( ucsout2, l2 ); free( ucs ); } res = casefold ? ucstrncasecmp( ucsout1, ucsout2, l1 < l2 ? l1 : l2 ) : ucstrncmp( ucsout1, ucsout2, l1 < l2 ? l1 : l2 ); free( ucsout1 ); free( ucsout2 ); if ( res != 0 ) { return res; } if ( l1 == l2 ) { return 0; } return l1 > l2 ? 1 : -1; }