openldap/servers/slapd/schema_init.c

4147 lines
92 KiB
C

/* schema_init.c - init builtin schema */
/* $OpenLDAP$ */
/*
* Copyright 1998-2000 The OpenLDAP Foundation, All Rights Reserved.
* COPYING RESTRICTIONS APPLY, see COPYRIGHT file
*/
#include "portable.h"
#include <stdio.h>
#include <ac/ctype.h>
#include <ac/string.h>
#include <ac/socket.h>
#include "slap.h"
#include "ldap_pvt.h"
#ifdef USE_MD5
#include "lutil_md5.h"
/* We should replace MD5 with a faster hash */
#define HASH_BYTES LUTIL_MD5_BYTES
#define HASH_CONTEXT lutil_MD5_CTX
#define HASH_Init(c) lutil_MD5Init(c)
#define HASH_Update(c,buf,len) lutil_MD5Update(c,buf,len)
#define HASH_Final(d,c) lutil_MD5Final(d,c)
#else
#include "lutil_hash.h"
/* We should replace MD5 with a faster hash */
#define HASH_BYTES LUTIL_HASH_BYTES
#define HASH_CONTEXT lutil_HASH_CTX
#define HASH_Init(c) lutil_HASHInit(c)
#define HASH_Update(c,buf,len) lutil_HASHUpdate(c,buf,len)
#define HASH_Final(d,c) lutil_HASHFinal(d,c)
#endif
/* recycled validatation routines */
#define berValidate blobValidate
/* recycled normalization routines */
#define faxNumberNormalize numericStringNormalize
#define phoneNumberNormalize numericStringNormalize
#define telexNumberNormalize numericStringNormalize
/* unimplemented pretters */
#define dnPretty NULL
#define integerPretty NULL
/* recycled matching routines */
#define bitStringMatch octetStringMatch
#define integerMatch caseIgnoreIA5Match
#define numericStringMatch caseIgnoreMatch
#define objectIdentifierMatch numericStringMatch
#define telephoneNumberMatch numericStringMatch
#define telephoneNumberSubstringsMatch caseIgnoreIA5SubstringsMatch
#define generalizedTimeMatch numericStringMatch
#define generalizedTimeOrderingMatch numericStringMatch
#define uniqueMemberMatch dnMatch
/* approx matching rules */
#define directoryStringApproxMatchOID "1.3.6.1.4.1.4203.666.4.4"
#define directoryStringApproxMatch NULL
#define IA5StringApproxMatchOID "1.3.6.1.4.1.4203.666.4.5"
#define IA5StringApproxMatch NULL
/* orderring matching rules */
#define caseIgnoreOrderingMatch caseIgnoreMatch
#define caseExactOrderingMatch caseExactMatch
/* unimplemented matching routines */
#define caseIgnoreListMatch NULL
#define caseIgnoreListSubstringsMatch NULL
#define presentationAddressMatch NULL
#define protocolInformationMatch NULL
#define integerFirstComponentMatch NULL
#define OpenLDAPaciMatch NULL
#define authPasswordMatch NULL
/* recycled indexing/filtering routines */
#define dnIndexer caseIgnoreIndexer
#define dnFilter caseIgnoreFilter
#define integerIndexer caseIgnoreIA5Indexer
#define integerFilter caseIgnoreIA5Filter
static char *strcasechr( const char *str, int c )
{
char *lower = strchr( str, TOLOWER(c) );
char *upper = strchr( str, TOUPPER(c) );
if( lower && upper ) {
return lower < upper ? lower : upper;
} else if ( lower ) {
return lower;
} else {
return upper;
}
}
static int
octetStringMatch(
int *matchp,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *value,
void *assertedValue )
{
int match = value->bv_len - ((struct berval *) assertedValue)->bv_len;
if( match == 0 ) {
match = memcmp( value->bv_val,
((struct berval *) assertedValue)->bv_val,
value->bv_len );
}
*matchp = match;
return LDAP_SUCCESS;
}
/* Index generation function */
int octetStringIndexer(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
struct berval **values,
struct berval ***keysp )
{
int i;
size_t slen, mlen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval digest;
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
/* we should have at least one value at this point */
assert( values != NULL && values[0] != NULL );
for( i=0; values[i] != NULL; i++ ) {
/* just count them */
}
keys = ch_malloc( sizeof( struct berval * ) * (i+1) );
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
for( i=0; values[i] != NULL; i++ ) {
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
values[i]->bv_val, values[i]->bv_len );
HASH_Final( HASHdigest, &HASHcontext );
keys[i] = ber_bvdup( &digest );
}
keys[i] = NULL;
*keysp = keys;
return LDAP_SUCCESS;
}
/* Index generation function */
int octetStringFilter(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
void * assertValue,
struct berval ***keysp )
{
size_t slen, mlen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval *value = (struct berval *) assertValue;
struct berval digest;
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
keys = ch_malloc( sizeof( struct berval * ) * 2 );
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
value->bv_val, value->bv_len );
HASH_Final( HASHdigest, &HASHcontext );
keys[0] = ber_bvdup( &digest );
keys[1] = NULL;
*keysp = keys;
return LDAP_SUCCESS;
}
static int
dnValidate(
Syntax *syntax,
struct berval *in )
{
int rc;
char *dn;
if( in->bv_len == 0 ) return LDAP_SUCCESS;
dn = ch_strdup( in->bv_val );
rc = dn_validate( dn ) == NULL
? LDAP_INVALID_SYNTAX : LDAP_SUCCESS;
ch_free( dn );
return rc;
}
static int
dnNormalize(
Syntax *syntax,
struct berval *val,
struct berval **normalized )
{
struct berval *out = ber_bvdup( val );
if( out->bv_len != 0 ) {
char *dn;
#ifdef USE_DN_NORMALIZE
dn = dn_normalize( out->bv_val );
#else
dn = dn_validate( out->bv_val );
#endif
if( dn == NULL ) {
ber_bvfree( out );
return LDAP_INVALID_SYNTAX;
}
out->bv_val = dn;
out->bv_len = strlen( dn );
}
*normalized = out;
return LDAP_SUCCESS;
}
static int
dnMatch(
int *matchp,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *value,
void *assertedValue )
{
int match;
struct berval *asserted = (struct berval *) assertedValue;
match = value->bv_len - asserted->bv_len;
if( match == 0 ) {
#ifdef USE_DN_NORMALIZE
match = strcmp( value->bv_val, asserted->bv_val );
#else
match = strcasecmp( value->bv_val, asserted->bv_val );
#endif
}
Debug( LDAP_DEBUG_ARGS, "dnMatch %d\n\t\"%s\"\n\t\"%s\"\n",
match, value->bv_val, asserted->bv_val );
*matchp = match;
return LDAP_SUCCESS;
}
static int
nameUIDValidate(
Syntax *syntax,
struct berval *in )
{
int rc;
struct berval *dn;
if( in->bv_len == 0 ) return LDAP_SUCCESS;
dn = ber_bvdup( in );
if( dn->bv_val[dn->bv_len-1] == '\'' ) {
/* assume presence of optional UID */
ber_len_t i;
for(i=dn->bv_len-2; i>2; i--) {
if( dn->bv_val[i] != '0' && dn->bv_val[i] != '1' ) {
break;
}
}
if( dn->bv_val[i] != '\'' ) {
return LDAP_INVALID_SYNTAX;
}
if( dn->bv_val[i-1] != 'B' ) {
return LDAP_INVALID_SYNTAX;
}
if( dn->bv_val[i-2] != '#' ) {
return LDAP_INVALID_SYNTAX;
}
/* trim the UID to allow use of dn_validate */
dn->bv_val[i-2] = '\0';
}
rc = dn_validate( dn->bv_val ) == NULL
? LDAP_INVALID_SYNTAX : LDAP_SUCCESS;
ber_bvfree( dn );
return rc;
}
static int
nameUIDNormalize(
Syntax *syntax,
struct berval *val,
struct berval **normalized )
{
struct berval *out = ber_bvdup( val );
if( out->bv_len != 0 ) {
char *dn;
ber_len_t dnlen;
char *uid = NULL;
ber_len_t uidlen = 0;
if( out->bv_val[out->bv_len-1] == '\'' ) {
/* assume presence of optional UID */
uid = strrchr( out->bv_val, '#' );
if( uid == NULL ) {
ber_bvfree( out );
return LDAP_INVALID_SYNTAX;
}
uidlen = out->bv_len - (out->bv_val - uid);
/* temporarily trim the UID */
*uid = '\0';
}
#ifdef USE_DN_NORMALIZE
dn = dn_normalize( out->bv_val );
#else
dn = dn_validate( out->bv_val );
#endif
if( dn == NULL ) {
ber_bvfree( out );
return LDAP_INVALID_SYNTAX;
}
dnlen = strlen(dn);
if( uidlen ) {
/* restore the separator */
*uid = '#';
/* shift the UID */
SAFEMEMCPY( &dn[dnlen], uid, uidlen );
}
out->bv_val = dn;
out->bv_len = dnlen + uidlen;
}
*normalized = out;
return LDAP_SUCCESS;
}
static int
inValidate(
Syntax *syntax,
struct berval *in )
{
/* any value allowed */
return LDAP_OTHER;
}
static int
blobValidate(
Syntax *syntax,
struct berval *in )
{
/* any value allowed */
return LDAP_SUCCESS;
}
static int
bitStringValidate(
Syntax *syntax,
struct berval *in )
{
ber_len_t i;
/* very unforgiving validation, requires no normalization
* before simplistic matching
*/
if( in->bv_len < 3 ) {
return LDAP_INVALID_SYNTAX;
}
if( in->bv_val[0] != 'B' ||
in->bv_val[1] != '\'' ||
in->bv_val[in->bv_len-1] != '\'' )
{
return LDAP_INVALID_SYNTAX;
}
for( i=in->bv_len-2; i>1; i-- ) {
if( in->bv_val[i] != '0' && in->bv_val[i] != '1' ) {
return LDAP_INVALID_SYNTAX;
}
}
return LDAP_SUCCESS;
}
/*
* Handling boolean syntax and matching is quite rigid.
* A more flexible approach would be to allow a variety
* of strings to be normalized and prettied into TRUE
* and FALSE.
*/
static int
booleanValidate(
Syntax *syntax,
struct berval *in )
{
/* very unforgiving validation, requires no normalization
* before simplistic matching
*/
if( in->bv_len == 4 ) {
if( !memcmp( in->bv_val, "TRUE", 4 ) ) {
return LDAP_SUCCESS;
}
} else if( in->bv_len == 5 ) {
if( !memcmp( in->bv_val, "FALSE", 5 ) ) {
return LDAP_SUCCESS;
}
}
return LDAP_INVALID_SYNTAX;
}
static int
booleanMatch(
int *matchp,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *value,
void *assertedValue )
{
/* simplistic matching allowed by rigid validation */
struct berval *asserted = (struct berval *) assertedValue;
*matchp = value->bv_len != asserted->bv_len;
return LDAP_SUCCESS;
}
#if 0
static int
UTF8casecmp(
struct berval *right,
struct berval *left )
{
ber_len_t r, l;
int rlen, llen;
ldap_unicode_t ru, lu;
ldap_unicode_t ruu, luu;
for( r=0, l=0;
r < right->bv_len && l < left->bv_len;
r+=rlen, l+=llen )
{
/*
* XXYYZ: we convert to ucs4 even though -llunicode
* expects ucs2 in an unsigned long
*/
ru = ldap_utf8_to_ucs4( &right->bv_val[r] );
if( ru == LDAP_UCS4_INVALID ) {
return 1;
}
lu = ldap_utf8_to_ucs4( &left->bv_val[l] );
if( lu == LDAP_UCS4_INVALID ) {
return -1;
}
ruu = uctoupper( ru );
luu = uctoupper( lu );
if( ruu > luu ) {
return 1;
} else if( luu > ruu ) {
return -1;
}
rlen = LDAP_UTF8_CHARLEN( &right->bv_val[r] );
llen = LDAP_UTF8_CHARLEN( &left->bv_val[l] );
}
if( r < right->bv_len ) {
/* less left */
return -1;
}
if( l < left->bv_len ) {
/* less right */
return 1;
}
return 0;
}
#endif
static int
UTF8StringValidate(
Syntax *syntax,
struct berval *in )
{
ber_len_t count;
int len;
unsigned char *u = in->bv_val;
if( !in->bv_len ) return LDAP_INVALID_SYNTAX;
for( count = in->bv_len; count > 0; count-=len, u+=len ) {
/* get the length indicated by the first byte */
len = LDAP_UTF8_CHARLEN( u );
/* should not be zero */
if( len == 0 ) return LDAP_INVALID_SYNTAX;
/* make sure len corresponds with the offset
to the next character */
if( LDAP_UTF8_OFFSET( u ) != len ) return LDAP_INVALID_SYNTAX;
}
if( count != 0 ) return LDAP_INVALID_SYNTAX;
return LDAP_SUCCESS;
}
static int
UTF8StringNormalize(
Syntax *syntax,
struct berval *val,
struct berval **normalized )
{
struct berval *newval;
char *p, *q, *s;
newval = ch_malloc( sizeof( struct berval ) );
p = val->bv_val;
/* Ignore initial whitespace */
while ( ldap_utf8_isspace( p ) ) {
LDAP_UTF8_INCR( p );
}
if( *p == '\0' ) {
ch_free( newval );
return LDAP_INVALID_SYNTAX;
}
newval->bv_val = ch_strdup( p );
p = q = newval->bv_val;
s = NULL;
while ( *p ) {
int len;
if ( ldap_utf8_isspace( p ) ) {
len = LDAP_UTF8_COPY(q,p);
s=q;
p+=len;
q+=len;
/* Ignore the extra whitespace */
while ( ldap_utf8_isspace( p ) ) {
LDAP_UTF8_INCR( p );
}
} else {
len = LDAP_UTF8_COPY(q,p);
s=NULL;
p+=len;
q+=len;
}
}
assert( *newval->bv_val );
assert( newval->bv_val < p );
assert( q <= p );
/* cannot start with a space */
assert( !ldap_utf8_isspace(newval->bv_val) );
/*
* If the string ended in space, backup the pointer one
* position. One is enough because the above loop collapsed
* all whitespace to a single space.
*/
if ( s != NULL ) {
q = s;
}
/* cannot end with a space */
assert( !ldap_utf8_isspace( LDAP_UTF8_PREV(q) ) );
/* null terminate */
*q = '\0';
newval->bv_len = q - newval->bv_val;
*normalized = newval;
return LDAP_SUCCESS;
}
static int
caseExactMatch(
int *matchp,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *value,
void *assertedValue )
{
int match = value->bv_len - ((struct berval *) assertedValue)->bv_len;
if( match == 0 ) {
match = strncmp( value->bv_val,
((struct berval *) assertedValue)->bv_val,
value->bv_len );
}
*matchp = match;
return LDAP_SUCCESS;
}
static int
caseExactSubstringsMatch(
int *matchp,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *value,
void *assertedValue )
{
int match = 0;
SubstringsAssertion *sub = assertedValue;
struct berval left = *value;
int i;
ber_len_t inlen=0;
/* Add up asserted input length */
if( sub->sa_initial ) {
inlen += sub->sa_initial->bv_len;
}
if( sub->sa_any ) {
for(i=0; sub->sa_any[i] != NULL; i++) {
inlen += sub->sa_any[i]->bv_len;
}
}
if( sub->sa_final ) {
inlen += sub->sa_final->bv_len;
}
if( sub->sa_initial ) {
if( inlen > left.bv_len ) {
match = 1;
goto done;
}
match = strncmp( sub->sa_initial->bv_val, left.bv_val,
sub->sa_initial->bv_len );
if( match != 0 ) {
goto done;
}
left.bv_val += sub->sa_initial->bv_len;
left.bv_len -= sub->sa_initial->bv_len;
inlen -= sub->sa_initial->bv_len;
}
if( sub->sa_final ) {
if( inlen > left.bv_len ) {
match = 1;
goto done;
}
match = strncmp( sub->sa_final->bv_val,
&left.bv_val[left.bv_len - sub->sa_final->bv_len],
sub->sa_final->bv_len );
if( match != 0 ) {
goto done;
}
left.bv_len -= sub->sa_final->bv_len;
inlen -= sub->sa_final->bv_len;
}
if( sub->sa_any ) {
for(i=0; sub->sa_any[i]; i++) {
ber_len_t idx;
char *p;
retry:
if( inlen > left.bv_len ) {
/* not enough length */
match = 1;
goto done;
}
if( sub->sa_any[i]->bv_len == 0 ) {
continue;
}
p = strchr( left.bv_val, *sub->sa_any[i]->bv_val );
if( p == NULL ) {
match = 1;
goto done;
}
idx = p - left.bv_val;
assert( idx < left.bv_len );
if( idx >= left.bv_len ) {
/* this shouldn't happen */
return LDAP_OTHER;
}
left.bv_val = p;
left.bv_len -= idx;
if( sub->sa_any[i]->bv_len > left.bv_len ) {
/* not enough left */
match = 1;
goto done;
}
match = strncmp( left.bv_val,
sub->sa_any[i]->bv_val,
sub->sa_any[i]->bv_len );
if( match != 0 ) {
left.bv_val++;
left.bv_len--;
goto retry;
}
left.bv_val += sub->sa_any[i]->bv_len;
left.bv_len -= sub->sa_any[i]->bv_len;
inlen -= sub->sa_any[i]->bv_len;
}
}
done:
*matchp = match;
return LDAP_SUCCESS;
}
/* Index generation function */
int caseExactIndexer(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
struct berval **values,
struct berval ***keysp )
{
int i;
size_t slen, mlen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval digest;
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
/* we should have at least one value at this point */
assert( values != NULL && values[0] != NULL );
for( i=0; values[i] != NULL; i++ ) {
/* just count them */
}
keys = ch_malloc( sizeof( struct berval * ) * (i+1) );
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
for( i=0; values[i] != NULL; i++ ) {
struct berval *value = values[i];
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
value->bv_val, value->bv_len );
HASH_Final( HASHdigest, &HASHcontext );
keys[i] = ber_bvdup( &digest );
}
keys[i] = NULL;
*keysp = keys;
return LDAP_SUCCESS;
}
/* Index generation function */
int caseExactFilter(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
void * assertValue,
struct berval ***keysp )
{
size_t slen, mlen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval *value;
struct berval digest;
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
value = (struct berval *) assertValue;
keys = ch_malloc( sizeof( struct berval * ) * 2 );
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
value->bv_val, value->bv_len );
HASH_Final( HASHdigest, &HASHcontext );
keys[0] = ber_bvdup( &digest );
keys[1] = NULL;
*keysp = keys;
return LDAP_SUCCESS;
}
/* Substrings Index generation function */
int caseExactSubstringsIndexer(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
struct berval **values,
struct berval ***keysp )
{
ber_len_t i, nkeys;
size_t slen, mlen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval digest;
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
/* we should have at least one value at this point */
assert( values != NULL && values[0] != NULL );
nkeys=0;
for( i=0; values[i] != NULL; i++ ) {
/* count number of indices to generate */
if( values[i]->bv_len < SLAP_INDEX_SUBSTR_MINLEN ) {
continue;
}
if( flags & SLAP_INDEX_SUBSTR_INITIAL ) {
if( values[i]->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) {
nkeys += SLAP_INDEX_SUBSTR_MAXLEN -
( SLAP_INDEX_SUBSTR_MINLEN - 1);
} else {
nkeys += values[i]->bv_len - ( SLAP_INDEX_SUBSTR_MINLEN - 1 );
}
}
if( flags & SLAP_INDEX_SUBSTR_ANY ) {
if( values[i]->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) {
nkeys += values[i]->bv_len - ( SLAP_INDEX_SUBSTR_MAXLEN - 1 );
}
}
if( flags & SLAP_INDEX_SUBSTR_FINAL ) {
if( values[i]->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) {
nkeys += SLAP_INDEX_SUBSTR_MAXLEN -
( SLAP_INDEX_SUBSTR_MINLEN - 1);
} else {
nkeys += values[i]->bv_len - ( SLAP_INDEX_SUBSTR_MINLEN - 1 );
}
}
}
if( nkeys == 0 ) {
/* no keys to generate */
*keysp = NULL;
return LDAP_SUCCESS;
}
keys = ch_malloc( sizeof( struct berval * ) * (nkeys+1) );
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
nkeys=0;
for( i=0; values[i] != NULL; i++ ) {
ber_len_t j,max;
struct berval *value;
value = values[i];
if( value->bv_len < SLAP_INDEX_SUBSTR_MINLEN ) continue;
if( ( flags & SLAP_INDEX_SUBSTR_ANY ) &&
( value->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) )
{
char pre = SLAP_INDEX_SUBSTR_PREFIX;
max = value->bv_len - ( SLAP_INDEX_SUBSTR_MAXLEN - 1);
for( j=0; j<max; j++ ) {
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
&value->bv_val[j],
SLAP_INDEX_SUBSTR_MAXLEN );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
}
max = SLAP_INDEX_SUBSTR_MAXLEN < value->bv_len
? SLAP_INDEX_SUBSTR_MAXLEN : value->bv_len;
for( j=SLAP_INDEX_SUBSTR_MINLEN; j<=max; j++ ) {
char pre;
if( flags & SLAP_INDEX_SUBSTR_INITIAL ) {
pre = SLAP_INDEX_SUBSTR_INITIAL_PREFIX;
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
value->bv_val, j );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
if( flags & SLAP_INDEX_SUBSTR_FINAL ) {
pre = SLAP_INDEX_SUBSTR_FINAL_PREFIX;
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
&value->bv_val[value->bv_len-j], j );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
}
}
if( nkeys > 0 ) {
keys[nkeys] = NULL;
*keysp = keys;
} else {
ch_free( keys );
*keysp = NULL;
}
return LDAP_SUCCESS;
}
int caseExactSubstringsFilter(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
void * assertValue,
struct berval ***keysp )
{
SubstringsAssertion *sa = assertValue;
char pre;
ber_len_t nkeys = 0;
size_t slen, mlen, klen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval *value;
struct berval digest;
if( flags & SLAP_INDEX_SUBSTR_INITIAL && sa->sa_initial != NULL &&
sa->sa_initial->bv_len >= SLAP_INDEX_SUBSTR_MINLEN )
{
nkeys++;
}
if( flags & SLAP_INDEX_SUBSTR_ANY && sa->sa_any != NULL ) {
ber_len_t i;
for( i=0; sa->sa_any[i] != NULL; i++ ) {
if( sa->sa_any[i]->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) {
/* don't bother accounting for stepping */
nkeys += sa->sa_any[i]->bv_len -
( SLAP_INDEX_SUBSTR_MAXLEN - 1 );
}
}
}
if( flags & SLAP_INDEX_SUBSTR_FINAL && sa->sa_final != NULL &&
sa->sa_final->bv_len >= SLAP_INDEX_SUBSTR_MINLEN )
{
nkeys++;
}
if( nkeys == 0 ) {
*keysp = NULL;
return LDAP_SUCCESS;
}
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
keys = ch_malloc( sizeof( struct berval * ) * (nkeys+1) );
nkeys = 0;
if( flags & SLAP_INDEX_SUBSTR_INITIAL && sa->sa_initial != NULL &&
sa->sa_initial->bv_len >= SLAP_INDEX_SUBSTR_MINLEN )
{
pre = SLAP_INDEX_SUBSTR_INITIAL_PREFIX;
value = sa->sa_initial;
klen = SLAP_INDEX_SUBSTR_MAXLEN < value->bv_len
? SLAP_INDEX_SUBSTR_MAXLEN : value->bv_len;
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
value->bv_val, klen );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
if( flags & SLAP_INDEX_SUBSTR_ANY && sa->sa_any != NULL ) {
ber_len_t i, j;
pre = SLAP_INDEX_SUBSTR_PREFIX;
klen = SLAP_INDEX_SUBSTR_MAXLEN;
for( i=0; sa->sa_any[i] != NULL; i++ ) {
if( sa->sa_any[i]->bv_len < SLAP_INDEX_SUBSTR_MAXLEN ) {
continue;
}
value = sa->sa_any[i];
for(j=0;
j <= value->bv_len - SLAP_INDEX_SUBSTR_MAXLEN;
j += SLAP_INDEX_SUBSTR_STEP )
{
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
&value->bv_val[j], klen );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
}
}
if( flags & SLAP_INDEX_SUBSTR_FINAL && sa->sa_final != NULL &&
sa->sa_final->bv_len >= SLAP_INDEX_SUBSTR_MINLEN )
{
pre = SLAP_INDEX_SUBSTR_FINAL_PREFIX;
value = sa->sa_final;
klen = SLAP_INDEX_SUBSTR_MAXLEN < value->bv_len
? SLAP_INDEX_SUBSTR_MAXLEN : value->bv_len;
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
&value->bv_val[value->bv_len-klen], klen );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
if( nkeys > 0 ) {
keys[nkeys] = NULL;
*keysp = keys;
} else {
ch_free( keys );
*keysp = NULL;
}
return LDAP_SUCCESS;
}
static int
caseIgnoreMatch(
int *matchp,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *value,
void *assertedValue )
{
#if 0
*matchp = UTF8casecmp( value, (struct berval *) assertedValue );
#else
int match = value->bv_len - ((struct berval *) assertedValue)->bv_len;
if( match == 0 ) {
match = strncasecmp( value->bv_val,
((struct berval *) assertedValue)->bv_val,
value->bv_len );
}
*matchp = match;
#endif
return LDAP_SUCCESS;
}
static int
caseIgnoreSubstringsMatch(
int *matchp,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *value,
void *assertedValue )
{
int match = 0;
SubstringsAssertion *sub = assertedValue;
struct berval left = *value;
int i;
ber_len_t inlen=0;
/* Add up asserted input length */
if( sub->sa_initial ) {
inlen += sub->sa_initial->bv_len;
}
if( sub->sa_any ) {
for(i=0; sub->sa_any[i] != NULL; i++) {
inlen += sub->sa_any[i]->bv_len;
}
}
if( sub->sa_final ) {
inlen += sub->sa_final->bv_len;
}
if( sub->sa_initial ) {
if( inlen > left.bv_len ) {
match = 1;
goto done;
}
match = strncasecmp( sub->sa_initial->bv_val, left.bv_val,
sub->sa_initial->bv_len );
if( match != 0 ) {
goto done;
}
left.bv_val += sub->sa_initial->bv_len;
left.bv_len -= sub->sa_initial->bv_len;
inlen -= sub->sa_initial->bv_len;
}
if( sub->sa_final ) {
if( inlen > left.bv_len ) {
match = 1;
goto done;
}
match = strncasecmp( sub->sa_final->bv_val,
&left.bv_val[left.bv_len - sub->sa_final->bv_len],
sub->sa_final->bv_len );
if( match != 0 ) {
goto done;
}
left.bv_len -= sub->sa_final->bv_len;
inlen -= sub->sa_final->bv_len;
}
if( sub->sa_any ) {
for(i=0; sub->sa_any[i]; i++) {
ber_len_t idx;
char *p;
retry:
if( inlen > left.bv_len ) {
/* not enough length */
match = 1;
goto done;
}
if( sub->sa_any[i]->bv_len == 0 ) {
continue;
}
p = strcasechr( left.bv_val, *sub->sa_any[i]->bv_val );
if( p == NULL ) {
match = 1;
goto done;
}
idx = p - left.bv_val;
assert( idx < left.bv_len );
if( idx >= left.bv_len ) {
/* this shouldn't happen */
return LDAP_OTHER;
}
left.bv_val = p;
left.bv_len -= idx;
if( sub->sa_any[i]->bv_len > left.bv_len ) {
/* not enough left */
match = 1;
goto done;
}
match = strncasecmp( left.bv_val,
sub->sa_any[i]->bv_val,
sub->sa_any[i]->bv_len );
if( match != 0 ) {
left.bv_val++;
left.bv_len--;
goto retry;
}
left.bv_val += sub->sa_any[i]->bv_len;
left.bv_len -= sub->sa_any[i]->bv_len;
inlen -= sub->sa_any[i]->bv_len;
}
}
done:
*matchp = match;
return LDAP_SUCCESS;
}
/* Index generation function */
int caseIgnoreIndexer(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
struct berval **values,
struct berval ***keysp )
{
int i;
size_t slen, mlen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval digest;
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
/* we should have at least one value at this point */
assert( values != NULL && values[0] != NULL );
for( i=0; values[i] != NULL; i++ ) {
/* just count them */
}
keys = ch_malloc( sizeof( struct berval * ) * (i+1) );
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
for( i=0; values[i] != NULL; i++ ) {
struct berval *value = ber_bvdup( values[i] );
ldap_pvt_str2upper( value->bv_val );
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
value->bv_val, value->bv_len );
HASH_Final( HASHdigest, &HASHcontext );
ber_bvfree( value );
keys[i] = ber_bvdup( &digest );
}
keys[i] = NULL;
*keysp = keys;
return LDAP_SUCCESS;
}
/* Index generation function */
int caseIgnoreFilter(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
void * assertValue,
struct berval ***keysp )
{
size_t slen, mlen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval *value;
struct berval digest;
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
value = ber_bvdup( (struct berval *) assertValue );
ldap_pvt_str2upper( value->bv_val );
keys = ch_malloc( sizeof( struct berval * ) * 2 );
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
value->bv_val, value->bv_len );
HASH_Final( HASHdigest, &HASHcontext );
keys[0] = ber_bvdup( &digest );
keys[1] = NULL;
ber_bvfree( value );
*keysp = keys;
return LDAP_SUCCESS;
}
/* Substrings Index generation function */
int caseIgnoreSubstringsIndexer(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
struct berval **values,
struct berval ***keysp )
{
ber_len_t i, nkeys;
size_t slen, mlen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval digest;
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
/* we should have at least one value at this point */
assert( values != NULL && values[0] != NULL );
nkeys=0;
for( i=0; values[i] != NULL; i++ ) {
/* count number of indices to generate */
if( values[i]->bv_len < SLAP_INDEX_SUBSTR_MINLEN ) {
continue;
}
if( flags & SLAP_INDEX_SUBSTR_INITIAL ) {
if( values[i]->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) {
nkeys += SLAP_INDEX_SUBSTR_MAXLEN -
( SLAP_INDEX_SUBSTR_MINLEN - 1);
} else {
nkeys += values[i]->bv_len - ( SLAP_INDEX_SUBSTR_MINLEN - 1 );
}
}
if( flags & SLAP_INDEX_SUBSTR_ANY ) {
if( values[i]->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) {
nkeys += values[i]->bv_len - ( SLAP_INDEX_SUBSTR_MAXLEN - 1 );
}
}
if( flags & SLAP_INDEX_SUBSTR_FINAL ) {
if( values[i]->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) {
nkeys += SLAP_INDEX_SUBSTR_MAXLEN -
( SLAP_INDEX_SUBSTR_MINLEN - 1);
} else {
nkeys += values[i]->bv_len - ( SLAP_INDEX_SUBSTR_MINLEN - 1 );
}
}
}
if( nkeys == 0 ) {
/* no keys to generate */
*keysp = NULL;
return LDAP_SUCCESS;
}
keys = ch_malloc( sizeof( struct berval * ) * (nkeys+1) );
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
nkeys=0;
for( i=0; values[i] != NULL; i++ ) {
int j,max;
struct berval *value;
if( values[i]->bv_len < SLAP_INDEX_SUBSTR_MINLEN ) continue;
value = ber_bvdup( values[i] );
ldap_pvt_str2upper( value->bv_val );
if( ( flags & SLAP_INDEX_SUBSTR_ANY ) &&
( value->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) )
{
char pre = SLAP_INDEX_SUBSTR_PREFIX;
max = value->bv_len - ( SLAP_INDEX_SUBSTR_MAXLEN - 1);
for( j=0; j<max; j++ ) {
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
&value->bv_val[j],
SLAP_INDEX_SUBSTR_MAXLEN );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
}
max = SLAP_INDEX_SUBSTR_MAXLEN < value->bv_len
? SLAP_INDEX_SUBSTR_MAXLEN : value->bv_len;
for( j=SLAP_INDEX_SUBSTR_MINLEN; j<=max; j++ ) {
char pre;
if( flags & SLAP_INDEX_SUBSTR_INITIAL ) {
pre = SLAP_INDEX_SUBSTR_INITIAL_PREFIX;
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
value->bv_val, j );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
if( flags & SLAP_INDEX_SUBSTR_FINAL ) {
pre = SLAP_INDEX_SUBSTR_FINAL_PREFIX;
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
&value->bv_val[value->bv_len-j], j );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
}
ber_bvfree( value );
}
if( nkeys > 0 ) {
keys[nkeys] = NULL;
*keysp = keys;
} else {
ch_free( keys );
*keysp = NULL;
}
return LDAP_SUCCESS;
}
int caseIgnoreSubstringsFilter(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
void * assertValue,
struct berval ***keysp )
{
SubstringsAssertion *sa = assertValue;
char pre;
ber_len_t nkeys = 0;
size_t slen, mlen, klen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval *value;
struct berval digest;
if((flags & SLAP_INDEX_SUBSTR_INITIAL) && sa->sa_initial != NULL &&
sa->sa_initial->bv_len >= SLAP_INDEX_SUBSTR_MINLEN )
{
nkeys++;
}
if((flags & SLAP_INDEX_SUBSTR_ANY) && sa->sa_any != NULL ) {
ber_len_t i;
for( i=0; sa->sa_any[i] != NULL; i++ ) {
if( sa->sa_any[i]->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) {
/* don't bother accounting for stepping */
nkeys += sa->sa_any[i]->bv_len -
( SLAP_INDEX_SUBSTR_MAXLEN - 1 );
}
}
}
if((flags & SLAP_INDEX_SUBSTR_FINAL) && sa->sa_final != NULL &&
sa->sa_final->bv_len >= SLAP_INDEX_SUBSTR_MINLEN )
{
nkeys++;
}
if( nkeys == 0 ) {
*keysp = NULL;
return LDAP_SUCCESS;
}
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
keys = ch_malloc( sizeof( struct berval * ) * (nkeys+1) );
nkeys = 0;
if((flags & SLAP_INDEX_SUBSTR_INITIAL) && sa->sa_initial != NULL &&
sa->sa_initial->bv_len >= SLAP_INDEX_SUBSTR_MINLEN )
{
pre = SLAP_INDEX_SUBSTR_INITIAL_PREFIX;
value = ber_bvdup( sa->sa_initial );
ldap_pvt_str2upper( value->bv_val );
klen = SLAP_INDEX_SUBSTR_MAXLEN < value->bv_len
? SLAP_INDEX_SUBSTR_MAXLEN : value->bv_len;
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
value->bv_val, klen );
HASH_Final( HASHdigest, &HASHcontext );
ber_bvfree( value );
keys[nkeys++] = ber_bvdup( &digest );
}
if((flags & SLAP_INDEX_SUBSTR_ANY) && sa->sa_any != NULL ) {
ber_len_t i, j;
pre = SLAP_INDEX_SUBSTR_PREFIX;
klen = SLAP_INDEX_SUBSTR_MAXLEN;
for( i=0; sa->sa_any[i] != NULL; i++ ) {
if( sa->sa_any[i]->bv_len < SLAP_INDEX_SUBSTR_MAXLEN ) {
continue;
}
value = ber_bvdup( sa->sa_any[i] );
ldap_pvt_str2upper( value->bv_val );
for(j=0;
j <= value->bv_len - SLAP_INDEX_SUBSTR_MAXLEN;
j += SLAP_INDEX_SUBSTR_STEP )
{
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
&value->bv_val[j], klen );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
ber_bvfree( value );
}
}
if((flags & SLAP_INDEX_SUBSTR_FINAL) && sa->sa_final != NULL &&
sa->sa_final->bv_len >= SLAP_INDEX_SUBSTR_MINLEN )
{
pre = SLAP_INDEX_SUBSTR_FINAL_PREFIX;
value = ber_bvdup( sa->sa_final );
ldap_pvt_str2upper( value->bv_val );
klen = SLAP_INDEX_SUBSTR_MAXLEN < value->bv_len
? SLAP_INDEX_SUBSTR_MAXLEN : value->bv_len;
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
&value->bv_val[value->bv_len-klen], klen );
HASH_Final( HASHdigest, &HASHcontext );
ber_bvfree( value );
keys[nkeys++] = ber_bvdup( &digest );
}
if( nkeys > 0 ) {
keys[nkeys] = NULL;
*keysp = keys;
} else {
ch_free( keys );
*keysp = NULL;
}
return LDAP_SUCCESS;
}
static int
oidValidate(
Syntax *syntax,
struct berval *val )
{
ber_len_t i;
if( val->bv_len == 0 ) return 0;
if( OID_LEADCHAR(val->bv_val[0]) ) {
int dot = 0;
for(i=1; i < val->bv_len; i++) {
if( OID_SEPARATOR( val->bv_val[i] ) ) {
if( dot++ ) return 1;
} else if ( OID_CHAR( val->bv_val[i] ) ) {
dot = 0;
} else {
return LDAP_INVALID_SYNTAX;
}
}
return !dot ? LDAP_SUCCESS : LDAP_INVALID_SYNTAX;
} else if( DESC_LEADCHAR(val->bv_val[0]) ) {
for(i=1; i < val->bv_len; i++) {
if( !DESC_CHAR(val->bv_val[i] ) ) {
return LDAP_INVALID_SYNTAX;
}
}
return LDAP_SUCCESS;
}
return LDAP_INVALID_SYNTAX;
}
static int
integerValidate(
Syntax *syntax,
struct berval *val )
{
ber_len_t i;
if( !val->bv_len ) return LDAP_INVALID_SYNTAX;
if( val->bv_val[0] == '+' || val->bv_val[0] == '-' ) {
if( val->bv_len < 2 ) return LDAP_INVALID_SYNTAX;
} else if( !ASCII_DIGIT(val->bv_val[0]) ) {
return LDAP_INVALID_SYNTAX;
}
for(i=1; i < val->bv_len; i++) {
if( !ASCII_DIGIT(val->bv_val[i]) ) return LDAP_INVALID_SYNTAX;
}
return LDAP_SUCCESS;
}
static int
integerNormalize(
Syntax *syntax,
struct berval *val,
struct berval **normalized )
{
int negative;
struct berval *newval;
char *p;
p = val->bv_val;
/* save sign */
negative = ( *p == '-' );
if( *p == '-' || *p == '+' ) p++;
/* Ignore leading zeros */
while ( *p == '0' ) p++;
newval = (struct berval *) ch_malloc( sizeof(struct berval) );
if( *p == '\0' ) {
newval->bv_val = ch_strdup("0");
newval->bv_len = 1;
goto done;
}
newval->bv_val = ch_malloc( val->bv_len + 1 );
newval->bv_len = 0;
if( negative ) {
newval->bv_val[newval->bv_len++] = '-';
}
for( ; *p != '\0'; p++ ) {
newval->bv_val[newval->bv_len++] = *p;
}
done:
*normalized = newval;
return LDAP_SUCCESS;
}
static int
printableStringValidate(
Syntax *syntax,
struct berval *val )
{
ber_len_t i;
if( !val->bv_len ) return LDAP_INVALID_SYNTAX;
for(i=0; i < val->bv_len; i++) {
if( !isprint(val->bv_val[i]) ) return LDAP_INVALID_SYNTAX;
}
return LDAP_SUCCESS;
}
static int
IA5StringValidate(
Syntax *syntax,
struct berval *val )
{
ber_len_t i;
if( !val->bv_len ) return LDAP_INVALID_SYNTAX;
for(i=0; i < val->bv_len; i++) {
if( !isascii(val->bv_val[i]) ) return LDAP_INVALID_SYNTAX;
}
return LDAP_SUCCESS;
}
static int
IA5StringNormalize(
Syntax *syntax,
struct berval *val,
struct berval **normalized )
{
struct berval *newval;
char *p, *q;
newval = ch_malloc( sizeof( struct berval ) );
p = val->bv_val;
/* Ignore initial whitespace */
while ( ASCII_SPACE( *p ) ) {
p++;
}
if( *p == '\0' ) {
ch_free( newval );
return LDAP_INVALID_SYNTAX;
}
newval->bv_val = ch_strdup( p );
p = q = newval->bv_val;
while ( *p ) {
if ( ASCII_SPACE( *p ) ) {
*q++ = *p++;
/* Ignore the extra whitespace */
while ( ASCII_SPACE( *p ) ) {
p++;
}
} else {
*q++ = *p++;
}
}
assert( *newval->bv_val );
assert( newval->bv_val < p );
assert( q <= p );
/* cannot start with a space */
assert( !ASCII_SPACE(*newval->bv_val) );
/*
* If the string ended in space, backup the pointer one
* position. One is enough because the above loop collapsed
* all whitespace to a single space.
*/
if ( ASCII_SPACE( q[-1] ) ) {
--q;
}
/* cannot end with a space */
assert( !ASCII_SPACE( q[-1] ) );
/* null terminate */
*q = '\0';
newval->bv_len = q - newval->bv_val;
*normalized = newval;
return LDAP_SUCCESS;
}
static int
caseExactIA5Match(
int *matchp,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *value,
void *assertedValue )
{
int match = value->bv_len - ((struct berval *) assertedValue)->bv_len;
if( match == 0 ) {
match = strncmp( value->bv_val,
((struct berval *) assertedValue)->bv_val,
value->bv_len );
}
*matchp = match;
return LDAP_SUCCESS;
}
static int
caseExactIA5SubstringsMatch(
int *matchp,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *value,
void *assertedValue )
{
int match = 0;
SubstringsAssertion *sub = assertedValue;
struct berval left = *value;
int i;
ber_len_t inlen=0;
/* Add up asserted input length */
if( sub->sa_initial ) {
inlen += sub->sa_initial->bv_len;
}
if( sub->sa_any ) {
for(i=0; sub->sa_any[i] != NULL; i++) {
inlen += sub->sa_any[i]->bv_len;
}
}
if( sub->sa_final ) {
inlen += sub->sa_final->bv_len;
}
if( sub->sa_initial ) {
if( inlen > left.bv_len ) {
match = 1;
goto done;
}
match = strncmp( sub->sa_initial->bv_val, left.bv_val,
sub->sa_initial->bv_len );
if( match != 0 ) {
goto done;
}
left.bv_val += sub->sa_initial->bv_len;
left.bv_len -= sub->sa_initial->bv_len;
inlen -= sub->sa_initial->bv_len;
}
if( sub->sa_final ) {
if( inlen > left.bv_len ) {
match = 1;
goto done;
}
match = strncmp( sub->sa_final->bv_val,
&left.bv_val[left.bv_len - sub->sa_final->bv_len],
sub->sa_final->bv_len );
if( match != 0 ) {
goto done;
}
left.bv_len -= sub->sa_final->bv_len;
inlen -= sub->sa_final->bv_len;
}
if( sub->sa_any ) {
for(i=0; sub->sa_any[i]; i++) {
ber_len_t idx;
char *p;
retry:
if( inlen > left.bv_len ) {
/* not enough length */
match = 1;
goto done;
}
if( sub->sa_any[i]->bv_len == 0 ) {
continue;
}
p = strchr( left.bv_val, *sub->sa_any[i]->bv_val );
if( p == NULL ) {
match = 1;
goto done;
}
idx = p - left.bv_val;
assert( idx < left.bv_len );
if( idx >= left.bv_len ) {
/* this shouldn't happen */
return LDAP_OTHER;
}
left.bv_val = p;
left.bv_len -= idx;
if( sub->sa_any[i]->bv_len > left.bv_len ) {
/* not enough left */
match = 1;
goto done;
}
match = strncmp( left.bv_val,
sub->sa_any[i]->bv_val,
sub->sa_any[i]->bv_len );
if( match != 0 ) {
left.bv_val++;
left.bv_len--;
goto retry;
}
left.bv_val += sub->sa_any[i]->bv_len;
left.bv_len -= sub->sa_any[i]->bv_len;
inlen -= sub->sa_any[i]->bv_len;
}
}
done:
*matchp = match;
return LDAP_SUCCESS;
}
/* Index generation function */
int caseExactIA5Indexer(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
struct berval **values,
struct berval ***keysp )
{
int i;
size_t slen, mlen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval digest;
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
/* we should have at least one value at this point */
assert( values != NULL && values[0] != NULL );
for( i=0; values[i] != NULL; i++ ) {
/* just count them */
}
keys = ch_malloc( sizeof( struct berval * ) * (i+1) );
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
for( i=0; values[i] != NULL; i++ ) {
struct berval *value = values[i];
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
value->bv_val, value->bv_len );
HASH_Final( HASHdigest, &HASHcontext );
keys[i] = ber_bvdup( &digest );
}
keys[i] = NULL;
*keysp = keys;
return LDAP_SUCCESS;
}
/* Index generation function */
int caseExactIA5Filter(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
void * assertValue,
struct berval ***keysp )
{
size_t slen, mlen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval *value;
struct berval digest;
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
value = (struct berval *) assertValue;
keys = ch_malloc( sizeof( struct berval * ) * 2 );
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
value->bv_val, value->bv_len );
HASH_Final( HASHdigest, &HASHcontext );
keys[0] = ber_bvdup( &digest );
keys[1] = NULL;
*keysp = keys;
return LDAP_SUCCESS;
}
/* Substrings Index generation function */
int caseExactIA5SubstringsIndexer(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
struct berval **values,
struct berval ***keysp )
{
ber_len_t i, nkeys;
size_t slen, mlen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval digest;
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
/* we should have at least one value at this point */
assert( values != NULL && values[0] != NULL );
nkeys=0;
for( i=0; values[i] != NULL; i++ ) {
/* count number of indices to generate */
if( values[i]->bv_len < SLAP_INDEX_SUBSTR_MINLEN ) {
continue;
}
if( flags & SLAP_INDEX_SUBSTR_INITIAL ) {
if( values[i]->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) {
nkeys += SLAP_INDEX_SUBSTR_MAXLEN -
( SLAP_INDEX_SUBSTR_MINLEN - 1);
} else {
nkeys += values[i]->bv_len - ( SLAP_INDEX_SUBSTR_MINLEN - 1 );
}
}
if( flags & SLAP_INDEX_SUBSTR_ANY ) {
if( values[i]->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) {
nkeys += values[i]->bv_len - ( SLAP_INDEX_SUBSTR_MAXLEN - 1 );
}
}
if( flags & SLAP_INDEX_SUBSTR_FINAL ) {
if( values[i]->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) {
nkeys += SLAP_INDEX_SUBSTR_MAXLEN -
( SLAP_INDEX_SUBSTR_MINLEN - 1);
} else {
nkeys += values[i]->bv_len - ( SLAP_INDEX_SUBSTR_MINLEN - 1 );
}
}
}
if( nkeys == 0 ) {
/* no keys to generate */
*keysp = NULL;
return LDAP_SUCCESS;
}
keys = ch_malloc( sizeof( struct berval * ) * (nkeys+1) );
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
nkeys=0;
for( i=0; values[i] != NULL; i++ ) {
ber_len_t j,max;
struct berval *value;
value = values[i];
if( value->bv_len < SLAP_INDEX_SUBSTR_MINLEN ) continue;
if( ( flags & SLAP_INDEX_SUBSTR_ANY ) &&
( value->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) )
{
char pre = SLAP_INDEX_SUBSTR_PREFIX;
max = value->bv_len - ( SLAP_INDEX_SUBSTR_MAXLEN - 1);
for( j=0; j<max; j++ ) {
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
&value->bv_val[j],
SLAP_INDEX_SUBSTR_MAXLEN );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
}
max = SLAP_INDEX_SUBSTR_MAXLEN < value->bv_len
? SLAP_INDEX_SUBSTR_MAXLEN : value->bv_len;
for( j=SLAP_INDEX_SUBSTR_MINLEN; j<=max; j++ ) {
char pre;
if( flags & SLAP_INDEX_SUBSTR_INITIAL ) {
pre = SLAP_INDEX_SUBSTR_INITIAL_PREFIX;
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
value->bv_val, j );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
if( flags & SLAP_INDEX_SUBSTR_FINAL ) {
pre = SLAP_INDEX_SUBSTR_FINAL_PREFIX;
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
&value->bv_val[value->bv_len-j], j );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
}
}
if( nkeys > 0 ) {
keys[nkeys] = NULL;
*keysp = keys;
} else {
ch_free( keys );
*keysp = NULL;
}
return LDAP_SUCCESS;
}
int caseExactIA5SubstringsFilter(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
void * assertValue,
struct berval ***keysp )
{
SubstringsAssertion *sa = assertValue;
char pre;
ber_len_t nkeys = 0;
size_t slen, mlen, klen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval *value;
struct berval digest;
if( flags & SLAP_INDEX_SUBSTR_INITIAL && sa->sa_initial != NULL &&
sa->sa_initial->bv_len >= SLAP_INDEX_SUBSTR_MINLEN )
{
nkeys++;
}
if( flags & SLAP_INDEX_SUBSTR_ANY && sa->sa_any != NULL ) {
ber_len_t i;
for( i=0; sa->sa_any[i] != NULL; i++ ) {
if( sa->sa_any[i]->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) {
/* don't bother accounting for stepping */
nkeys += sa->sa_any[i]->bv_len -
( SLAP_INDEX_SUBSTR_MAXLEN - 1 );
}
}
}
if( flags & SLAP_INDEX_SUBSTR_FINAL && sa->sa_final != NULL &&
sa->sa_final->bv_len >= SLAP_INDEX_SUBSTR_MINLEN )
{
nkeys++;
}
if( nkeys == 0 ) {
*keysp = NULL;
return LDAP_SUCCESS;
}
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
keys = ch_malloc( sizeof( struct berval * ) * (nkeys+1) );
nkeys = 0;
if( flags & SLAP_INDEX_SUBSTR_INITIAL && sa->sa_initial != NULL &&
sa->sa_initial->bv_len >= SLAP_INDEX_SUBSTR_MINLEN )
{
pre = SLAP_INDEX_SUBSTR_INITIAL_PREFIX;
value = sa->sa_initial;
klen = SLAP_INDEX_SUBSTR_MAXLEN < value->bv_len
? SLAP_INDEX_SUBSTR_MAXLEN : value->bv_len;
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
value->bv_val, klen );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
if( flags & SLAP_INDEX_SUBSTR_ANY && sa->sa_any != NULL ) {
ber_len_t i, j;
pre = SLAP_INDEX_SUBSTR_PREFIX;
klen = SLAP_INDEX_SUBSTR_MAXLEN;
for( i=0; sa->sa_any[i] != NULL; i++ ) {
if( sa->sa_any[i]->bv_len < SLAP_INDEX_SUBSTR_MAXLEN ) {
continue;
}
value = sa->sa_any[i];
for(j=0;
j <= value->bv_len - SLAP_INDEX_SUBSTR_MAXLEN;
j += SLAP_INDEX_SUBSTR_STEP )
{
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
&value->bv_val[j], klen );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
}
}
if( flags & SLAP_INDEX_SUBSTR_FINAL && sa->sa_final != NULL &&
sa->sa_final->bv_len >= SLAP_INDEX_SUBSTR_MINLEN )
{
pre = SLAP_INDEX_SUBSTR_FINAL_PREFIX;
value = sa->sa_final;
klen = SLAP_INDEX_SUBSTR_MAXLEN < value->bv_len
? SLAP_INDEX_SUBSTR_MAXLEN : value->bv_len;
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
&value->bv_val[value->bv_len-klen], klen );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
if( nkeys > 0 ) {
keys[nkeys] = NULL;
*keysp = keys;
} else {
ch_free( keys );
*keysp = NULL;
}
return LDAP_SUCCESS;
}
static int
caseIgnoreIA5Match(
int *matchp,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *value,
void *assertedValue )
{
int match = value->bv_len - ((struct berval *) assertedValue)->bv_len;
if( match == 0 ) {
match = strncasecmp( value->bv_val,
((struct berval *) assertedValue)->bv_val,
value->bv_len );
}
*matchp = match;
return LDAP_SUCCESS;
}
static int
caseIgnoreIA5SubstringsMatch(
int *matchp,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *value,
void *assertedValue )
{
int match = 0;
SubstringsAssertion *sub = assertedValue;
struct berval left = *value;
int i;
ber_len_t inlen=0;
/* Add up asserted input length */
if( sub->sa_initial ) {
inlen += sub->sa_initial->bv_len;
}
if( sub->sa_any ) {
for(i=0; sub->sa_any[i] != NULL; i++) {
inlen += sub->sa_any[i]->bv_len;
}
}
if( sub->sa_final ) {
inlen += sub->sa_final->bv_len;
}
if( sub->sa_initial ) {
if( inlen > left.bv_len ) {
match = 1;
goto done;
}
match = strncasecmp( sub->sa_initial->bv_val, left.bv_val,
sub->sa_initial->bv_len );
if( match != 0 ) {
goto done;
}
left.bv_val += sub->sa_initial->bv_len;
left.bv_len -= sub->sa_initial->bv_len;
inlen -= sub->sa_initial->bv_len;
}
if( sub->sa_final ) {
if( inlen > left.bv_len ) {
match = 1;
goto done;
}
match = strncasecmp( sub->sa_final->bv_val,
&left.bv_val[left.bv_len - sub->sa_final->bv_len],
sub->sa_final->bv_len );
if( match != 0 ) {
goto done;
}
left.bv_len -= sub->sa_final->bv_len;
inlen -= sub->sa_final->bv_len;
}
if( sub->sa_any ) {
for(i=0; sub->sa_any[i]; i++) {
ber_len_t idx;
char *p;
retry:
if( inlen > left.bv_len ) {
/* not enough length */
match = 1;
goto done;
}
if( sub->sa_any[i]->bv_len == 0 ) {
continue;
}
p = strcasechr( left.bv_val, *sub->sa_any[i]->bv_val );
if( p == NULL ) {
match = 1;
goto done;
}
idx = p - left.bv_val;
assert( idx < left.bv_len );
if( idx >= left.bv_len ) {
/* this shouldn't happen */
return LDAP_OTHER;
}
left.bv_val = p;
left.bv_len -= idx;
if( sub->sa_any[i]->bv_len > left.bv_len ) {
/* not enough left */
match = 1;
goto done;
}
match = strncasecmp( left.bv_val,
sub->sa_any[i]->bv_val,
sub->sa_any[i]->bv_len );
if( match != 0 ) {
left.bv_val++;
left.bv_len--;
goto retry;
}
left.bv_val += sub->sa_any[i]->bv_len;
left.bv_len -= sub->sa_any[i]->bv_len;
inlen -= sub->sa_any[i]->bv_len;
}
}
done:
*matchp = match;
return LDAP_SUCCESS;
}
/* Index generation function */
int caseIgnoreIA5Indexer(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
struct berval **values,
struct berval ***keysp )
{
int i;
size_t slen, mlen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval digest;
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
/* we should have at least one value at this point */
assert( values != NULL && values[0] != NULL );
for( i=0; values[i] != NULL; i++ ) {
/* just count them */
}
keys = ch_malloc( sizeof( struct berval * ) * (i+1) );
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
for( i=0; values[i] != NULL; i++ ) {
struct berval *value = ber_bvdup( values[i] );
ldap_pvt_str2upper( value->bv_val );
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
value->bv_val, value->bv_len );
HASH_Final( HASHdigest, &HASHcontext );
ber_bvfree( value );
keys[i] = ber_bvdup( &digest );
}
keys[i] = NULL;
*keysp = keys;
return LDAP_SUCCESS;
}
/* Index generation function */
int caseIgnoreIA5Filter(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
void * assertValue,
struct berval ***keysp )
{
size_t slen, mlen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval *value;
struct berval digest;
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
value = ber_bvdup( (struct berval *) assertValue );
ldap_pvt_str2upper( value->bv_val );
keys = ch_malloc( sizeof( struct berval * ) * 2 );
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
value->bv_val, value->bv_len );
HASH_Final( HASHdigest, &HASHcontext );
keys[0] = ber_bvdup( &digest );
keys[1] = NULL;
ber_bvfree( value );
*keysp = keys;
return LDAP_SUCCESS;
}
/* Substrings Index generation function */
int caseIgnoreIA5SubstringsIndexer(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
struct berval **values,
struct berval ***keysp )
{
ber_len_t i, nkeys;
size_t slen, mlen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval digest;
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
/* we should have at least one value at this point */
assert( values != NULL && values[0] != NULL );
nkeys=0;
for( i=0; values[i] != NULL; i++ ) {
/* count number of indices to generate */
if( values[i]->bv_len < SLAP_INDEX_SUBSTR_MINLEN ) {
continue;
}
if( flags & SLAP_INDEX_SUBSTR_INITIAL ) {
if( values[i]->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) {
nkeys += SLAP_INDEX_SUBSTR_MAXLEN -
( SLAP_INDEX_SUBSTR_MINLEN - 1);
} else {
nkeys += values[i]->bv_len - ( SLAP_INDEX_SUBSTR_MINLEN - 1 );
}
}
if( flags & SLAP_INDEX_SUBSTR_ANY ) {
if( values[i]->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) {
nkeys += values[i]->bv_len - ( SLAP_INDEX_SUBSTR_MAXLEN - 1 );
}
}
if( flags & SLAP_INDEX_SUBSTR_FINAL ) {
if( values[i]->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) {
nkeys += SLAP_INDEX_SUBSTR_MAXLEN -
( SLAP_INDEX_SUBSTR_MINLEN - 1);
} else {
nkeys += values[i]->bv_len - ( SLAP_INDEX_SUBSTR_MINLEN - 1 );
}
}
}
if( nkeys == 0 ) {
/* no keys to generate */
*keysp = NULL;
return LDAP_SUCCESS;
}
keys = ch_malloc( sizeof( struct berval * ) * (nkeys+1) );
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
nkeys=0;
for( i=0; values[i] != NULL; i++ ) {
int j,max;
struct berval *value;
if( values[i]->bv_len < SLAP_INDEX_SUBSTR_MINLEN ) continue;
value = ber_bvdup( values[i] );
ldap_pvt_str2upper( value->bv_val );
if( ( flags & SLAP_INDEX_SUBSTR_ANY ) &&
( value->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) )
{
char pre = SLAP_INDEX_SUBSTR_PREFIX;
max = value->bv_len - ( SLAP_INDEX_SUBSTR_MAXLEN - 1);
for( j=0; j<max; j++ ) {
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
&value->bv_val[j],
SLAP_INDEX_SUBSTR_MAXLEN );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
}
max = SLAP_INDEX_SUBSTR_MAXLEN < value->bv_len
? SLAP_INDEX_SUBSTR_MAXLEN : value->bv_len;
for( j=SLAP_INDEX_SUBSTR_MINLEN; j<=max; j++ ) {
char pre;
if( flags & SLAP_INDEX_SUBSTR_INITIAL ) {
pre = SLAP_INDEX_SUBSTR_INITIAL_PREFIX;
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
value->bv_val, j );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
if( flags & SLAP_INDEX_SUBSTR_FINAL ) {
pre = SLAP_INDEX_SUBSTR_FINAL_PREFIX;
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
&value->bv_val[value->bv_len-j], j );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
}
ber_bvfree( value );
}
if( nkeys > 0 ) {
keys[nkeys] = NULL;
*keysp = keys;
} else {
ch_free( keys );
*keysp = NULL;
}
return LDAP_SUCCESS;
}
int caseIgnoreIA5SubstringsFilter(
slap_mask_t use,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *prefix,
void * assertValue,
struct berval ***keysp )
{
SubstringsAssertion *sa = assertValue;
char pre;
ber_len_t nkeys = 0;
size_t slen, mlen, klen;
struct berval **keys;
HASH_CONTEXT HASHcontext;
unsigned char HASHdigest[HASH_BYTES];
struct berval *value;
struct berval digest;
if((flags & SLAP_INDEX_SUBSTR_INITIAL) && sa->sa_initial != NULL &&
sa->sa_initial->bv_len >= SLAP_INDEX_SUBSTR_MINLEN )
{
nkeys++;
}
if((flags & SLAP_INDEX_SUBSTR_ANY) && sa->sa_any != NULL ) {
ber_len_t i;
for( i=0; sa->sa_any[i] != NULL; i++ ) {
if( sa->sa_any[i]->bv_len >= SLAP_INDEX_SUBSTR_MAXLEN ) {
/* don't bother accounting for stepping */
nkeys += sa->sa_any[i]->bv_len -
( SLAP_INDEX_SUBSTR_MAXLEN - 1 );
}
}
}
if((flags & SLAP_INDEX_SUBSTR_FINAL) && sa->sa_final != NULL &&
sa->sa_final->bv_len >= SLAP_INDEX_SUBSTR_MINLEN )
{
nkeys++;
}
if( nkeys == 0 ) {
*keysp = NULL;
return LDAP_SUCCESS;
}
digest.bv_val = HASHdigest;
digest.bv_len = sizeof(HASHdigest);
slen = strlen( syntax->ssyn_oid );
mlen = strlen( mr->smr_oid );
keys = ch_malloc( sizeof( struct berval * ) * (nkeys+1) );
nkeys = 0;
if((flags & SLAP_INDEX_SUBSTR_INITIAL) && sa->sa_initial != NULL &&
sa->sa_initial->bv_len >= SLAP_INDEX_SUBSTR_MINLEN )
{
pre = SLAP_INDEX_SUBSTR_INITIAL_PREFIX;
value = ber_bvdup( sa->sa_initial );
ldap_pvt_str2upper( value->bv_val );
klen = SLAP_INDEX_SUBSTR_MAXLEN < value->bv_len
? SLAP_INDEX_SUBSTR_MAXLEN : value->bv_len;
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
value->bv_val, klen );
HASH_Final( HASHdigest, &HASHcontext );
ber_bvfree( value );
keys[nkeys++] = ber_bvdup( &digest );
}
if((flags & SLAP_INDEX_SUBSTR_ANY) && sa->sa_any != NULL ) {
ber_len_t i, j;
pre = SLAP_INDEX_SUBSTR_PREFIX;
klen = SLAP_INDEX_SUBSTR_MAXLEN;
for( i=0; sa->sa_any[i] != NULL; i++ ) {
if( sa->sa_any[i]->bv_len < SLAP_INDEX_SUBSTR_MAXLEN ) {
continue;
}
value = ber_bvdup( sa->sa_any[i] );
ldap_pvt_str2upper( value->bv_val );
for(j=0;
j <= value->bv_len - SLAP_INDEX_SUBSTR_MAXLEN;
j += SLAP_INDEX_SUBSTR_STEP )
{
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
&value->bv_val[j], klen );
HASH_Final( HASHdigest, &HASHcontext );
keys[nkeys++] = ber_bvdup( &digest );
}
ber_bvfree( value );
}
}
if((flags & SLAP_INDEX_SUBSTR_FINAL) && sa->sa_final != NULL &&
sa->sa_final->bv_len >= SLAP_INDEX_SUBSTR_MINLEN )
{
pre = SLAP_INDEX_SUBSTR_FINAL_PREFIX;
value = ber_bvdup( sa->sa_final );
ldap_pvt_str2upper( value->bv_val );
klen = SLAP_INDEX_SUBSTR_MAXLEN < value->bv_len
? SLAP_INDEX_SUBSTR_MAXLEN : value->bv_len;
HASH_Init( &HASHcontext );
if( prefix != NULL && prefix->bv_len > 0 ) {
HASH_Update( &HASHcontext,
prefix->bv_val, prefix->bv_len );
}
HASH_Update( &HASHcontext,
&pre, sizeof( pre ) );
HASH_Update( &HASHcontext,
syntax->ssyn_oid, slen );
HASH_Update( &HASHcontext,
mr->smr_oid, mlen );
HASH_Update( &HASHcontext,
&value->bv_val[value->bv_len-klen], klen );
HASH_Final( HASHdigest, &HASHcontext );
ber_bvfree( value );
keys[nkeys++] = ber_bvdup( &digest );
}
if( nkeys > 0 ) {
keys[nkeys] = NULL;
*keysp = keys;
} else {
ch_free( keys );
*keysp = NULL;
}
return LDAP_SUCCESS;
}
static int
numericStringNormalize(
Syntax *syntax,
struct berval *val,
struct berval **normalized )
{
/* similiar to IA5StringNormalize except removes all spaces */
struct berval *newval;
char *p, *q;
newval = ch_malloc( sizeof( struct berval ) );
p = val->bv_val;
/* Ignore initial whitespace */
while ( ASCII_SPACE( *p ) ) {
p++;
}
if( *p == '\0' ) {
ch_free( newval );
return LDAP_INVALID_SYNTAX;
}
newval->bv_val = ch_strdup( p );
p = q = newval->bv_val;
while ( *p ) {
if ( ASCII_SPACE( *p ) ) {
/* Ignore whitespace */
p++;
} else {
*q++ = *p++;
}
}
assert( *newval->bv_val );
assert( newval->bv_val < p );
assert( q <= p );
/* cannot start with a space */
assert( !ASCII_SPACE(*newval->bv_val) );
/* cannot end with a space */
assert( !ASCII_SPACE( q[-1] ) );
/* null terminate */
*q = '\0';
newval->bv_len = q - newval->bv_val;
*normalized = newval;
return LDAP_SUCCESS;
}
static int
objectIdentifierFirstComponentMatch(
int *matchp,
slap_mask_t flags,
Syntax *syntax,
MatchingRule *mr,
struct berval *value,
void *assertedValue )
{
int rc = LDAP_SUCCESS;
int match;
struct berval *asserted = (struct berval *) assertedValue;
ber_len_t i;
struct berval oid;
if( value->bv_len == 0 || value->bv_val[0] != '(' /*')'*/ ) {
return LDAP_INVALID_SYNTAX;
}
/* trim leading white space */
for( i=1; ASCII_SPACE(value->bv_val[i]) && i < value->bv_len; i++ ) {
/* empty */
}
/* grab next word */
oid.bv_val = &value->bv_val[i];
oid.bv_len = value->bv_len - i;
for( i=1; ASCII_SPACE(value->bv_val[i]) && i < oid.bv_len; i++ ) {
/* empty */
}
oid.bv_len = i;
/* insert attributeTypes, objectclass check here */
if( OID_LEADCHAR(asserted->bv_val[0]) ) {
rc = objectIdentifierMatch( &match, flags, syntax, mr, &oid, asserted );
} else {
char *stored = ch_malloc( oid.bv_len + 1 );
AC_MEMCPY( stored, oid.bv_val, oid.bv_len );
stored[oid.bv_len] = '\0';
if ( !strcmp( syntax->ssyn_oid, SLAP_SYNTAX_MATCHINGRULES_OID ) ) {
MatchingRule *asserted_mr = mr_find( asserted->bv_val );
MatchingRule *stored_mr = mr_find( stored );
if( asserted_mr == NULL ) {
rc = SLAPD_COMPARE_UNDEFINED;
} else {
match = asserted_mr != stored_mr;
}
} else if ( !strcmp( syntax->ssyn_oid,
SLAP_SYNTAX_ATTRIBUTETYPES_OID ) )
{
AttributeType *asserted_at = at_find( asserted->bv_val );
AttributeType *stored_at = at_find( stored );
if( asserted_at == NULL ) {
rc = SLAPD_COMPARE_UNDEFINED;
} else {
match = asserted_at != stored_at;
}
} else if ( !strcmp( syntax->ssyn_oid,
SLAP_SYNTAX_OBJECTCLASSES_OID ) )
{
ObjectClass *asserted_oc = oc_find( asserted->bv_val );
ObjectClass *stored_oc = oc_find( stored );
if( asserted_oc == NULL ) {
rc = SLAPD_COMPARE_UNDEFINED;
} else {
match = asserted_oc != stored_oc;
}
}
ch_free( stored );
}
Debug( LDAP_DEBUG_ARGS, "objectIdentifierFirstComponentMatch "
"%d\n\t\"%s\"\n\t\"%s\"\n",
match, value->bv_val, asserted->bv_val );
if( rc == LDAP_SUCCESS ) *matchp = match;
return rc;
}
static int
check_time_syntax (struct berval *val,
int start,
int *parts)
{
static int ceiling[9] = { 99, 99, 11, 30, 23, 59, 59, 12, 59 };
static int mdays[2][12] = {
/* non-leap years */
{ 30, 27, 30, 29, 30, 29, 30, 30, 29, 30, 29, 30 },
/* leap years */
{ 30, 28, 30, 29, 30, 29, 30, 30, 29, 30, 29, 30 }
};
char *p, *e;
int part, c, tzoffset, leapyear = 0 ;
if( val->bv_len == 0 ) {
return LDAP_INVALID_SYNTAX;
}
p = (char *)val->bv_val;
e = p + val->bv_len;
/* Ignore initial whitespace */
while ( ( p < e ) && ASCII_SPACE( *p ) ) {
p++;
}
if (e - p < 13 - (2 * start)) {
return LDAP_INVALID_SYNTAX;
}
for (part = 0; part < 9; part++) {
parts[part] = 0;
}
for (part = start; part < 7; part++) {
c = *p;
if ((part == 6) && (c == 'Z' || c == '+' || c == '-')) {
part++;
break;
}
p++;
c -= '0';
if (p == e) {
return LDAP_INVALID_SYNTAX;
}
if (c < 0 || c > 9) {
return LDAP_INVALID_SYNTAX;
}
parts[part] = c;
c = *p++ - '0';
if (p == e) {
return LDAP_INVALID_SYNTAX;
}
if (c < 0 || c > 9) {
return LDAP_INVALID_SYNTAX;
}
parts[part] *= 10;
parts[part] += c;
if (part == 2 || part == 3) {
parts[part]--;
}
if (parts[part] < 0) {
return LDAP_INVALID_SYNTAX;
}
if (parts[part] > ceiling[part]) {
return LDAP_INVALID_SYNTAX;
}
}
/* leapyear check for the Gregorian calendar (year>1581) */
if (((parts[1] % 4 == 0) && (parts[1] != 0)) ||
((parts[0] % 4 == 0) && (parts[1] == 0)))
{
leapyear = 1;
}
if (parts[3] > mdays[leapyear][parts[2]]) {
return LDAP_INVALID_SYNTAX;
}
c = *p++;
if (c == 'Z') {
tzoffset = 0; /* UTC */
} else if (c != '+' && c != '-') {
return LDAP_INVALID_SYNTAX;
} else {
if (c == '-') {
tzoffset = -1;
} else /* c == '+' */ {
tzoffset = 1;
}
if (p > e - 4) {
return LDAP_INVALID_SYNTAX;
}
for (part = 7; part < 9; part++) {
c = *p++ - '0';
if (c < 0 || c > 9) {
return LDAP_INVALID_SYNTAX;
}
parts[part] = c;
c = *p++ - '0';
if (c < 0 || c > 9) {
return LDAP_INVALID_SYNTAX;
}
parts[part] *= 10;
parts[part] += c;
if (parts[part] < 0 || parts[part] > ceiling[part]) {
return LDAP_INVALID_SYNTAX;
}
}
}
/* Ignore trailing whitespace */
while ( ( p < e ) && ASCII_SPACE( *p ) ) {
p++;
}
if (p != e) {
return LDAP_INVALID_SYNTAX;
}
switch ( tzoffset ) {
case -1: /* negativ offset to UTC, ie west of Greenwich */
parts[4] += parts[7];
parts[5] += parts[8];
for (part = 6; --part > 0; ) { /* offset is just hhmm, no seconds */
if (part != 3) {
c = ceiling[part];
} else {
c = mdays[leapyear][parts[2]];
}
if (parts[part] > c) {
parts[part] -= c + 1;
parts[part - 1]++;
}
}
break;
case 1: /* positive offset to UTC, ie east of Greenwich */
parts[4] -= parts[7];
parts[5] -= parts[8];
for (part = 6; --part > 0; ) {
if (part != 3) {
c = ceiling[part];
} else {
/* first arg to % needs to be non negativ */
c = mdays[leapyear][(parts[2] - 1 + 12) % 12];
}
if (parts[part] < 0) {
parts[part] += c + 1;
parts[part - 1]--;
}
}
break;
case 0: /* already UTC */
break;
}
return LDAP_SUCCESS;
}
static int
utcTimeNormalize(
Syntax *syntax,
struct berval *val,
struct berval **normalized )
{
struct berval *out;
int parts[9], rc;
rc = check_time_syntax(val, 1, parts);
if (rc != LDAP_SUCCESS) {
return rc;
}
*normalized = NULL;
out = ch_malloc( sizeof(struct berval) );
if( out == NULL ) {
return LBER_ERROR_MEMORY;
}
out->bv_val = ch_malloc( 14 );
if ( out->bv_val == NULL ) {
ch_free( out );
return LBER_ERROR_MEMORY;
}
sprintf( out->bv_val, "%02ld%02ld%02ld%02ld%02ld%02ldZ",
parts[1], parts[2] + 1, parts[3] + 1,
parts[4], parts[5], parts[6] );
out->bv_len = 13;
*normalized = out;
return LDAP_SUCCESS;
}
static int
utcTimeValidate(
Syntax *syntax,
struct berval *in )
{
int parts[9];
return check_time_syntax(in, 1, parts);
}
static int
generalizedTimeValidate(
Syntax *syntax,
struct berval *in )
{
int parts[9];
return check_time_syntax(in, 0, parts);
}
static int
generalizedTimeNormalize(
Syntax *syntax,
struct berval *val,
struct berval **normalized )
{
struct berval *out;
int parts[9], rc;
rc = check_time_syntax(val, 0, parts);
if (rc != LDAP_SUCCESS) {
return rc;
}
*normalized = NULL;
out = ch_malloc( sizeof(struct berval) );
if( out == NULL ) {
return LBER_ERROR_MEMORY;
}
out->bv_val = ch_malloc( 16 );
if ( out->bv_val == NULL ) {
ch_free( out );
return LBER_ERROR_MEMORY;
}
sprintf( out->bv_val, "%02ld%02ld%02ld%02ld%02ld%02ld%02ldZ",
parts[0], parts[1], parts[2] + 1, parts[3] + 1,
parts[4], parts[5], parts[6] );
out->bv_len = 15;
*normalized = out;
return LDAP_SUCCESS;
}
static int
nisNetgroupTripleValidate(
Syntax *syntax,
struct berval *val )
{
char *p, *e;
int commas = 0;
if ( val->bv_len == 0 ) {
return LDAP_INVALID_SYNTAX;
}
p = (char *)val->bv_val;
e = p + val->bv_len;
#if 0
/* syntax does not allow leading white space */
/* Ignore initial whitespace */
while ( ( p < e ) && ASCII_SPACE( *p ) ) {
p++;
}
#endif
if ( *p != '(' /*')'*/ ) {
return LDAP_INVALID_SYNTAX;
}
for ( p++; ( p < e ) && ( *p != ')' ); p++ ) {
if ( *p == ',' ) {
commas++;
if ( commas > 2 ) {
return LDAP_INVALID_SYNTAX;
}
} else if ( !ATTR_CHAR( *p ) ) {
return LDAP_INVALID_SYNTAX;
}
}
if ( ( commas != 2 ) || ( *p != /*'('*/ ')' ) ) {
return LDAP_INVALID_SYNTAX;
}
p++;
#if 0
/* syntax does not allow trailing white space */
/* Ignore trailing whitespace */
while ( ( p < e ) && ASCII_SPACE( *p ) ) {
p++;
}
#endif
if (p != e) {
return LDAP_INVALID_SYNTAX;
}
return LDAP_SUCCESS;
}
static int
bootParameterValidate(
Syntax *syntax,
struct berval *val )
{
char *p, *e;
if ( val->bv_len == 0 ) {
return LDAP_INVALID_SYNTAX;
}
p = (char *)val->bv_val;
e = p + val->bv_len;
/* key */
for (; ( p < e ) && ( *p != '=' ); p++ ) {
if ( !ATTR_CHAR( *p ) ) {
return LDAP_INVALID_SYNTAX;
}
}
if ( *p != '=' ) {
return LDAP_INVALID_SYNTAX;
}
/* server */
for ( p++; ( p < e ) && ( *p != ':' ); p++ ) {
if ( !ATTR_CHAR( *p ) ) {
return LDAP_INVALID_SYNTAX;
}
}
if ( *p != ':' ) {
return LDAP_INVALID_SYNTAX;
}
/* path */
for ( p++; p < e; p++ ) {
if ( !ATTR_CHAR( *p ) ) {
return LDAP_INVALID_SYNTAX;
}
}
return LDAP_SUCCESS;
}
struct syntax_defs_rec {
char *sd_desc;
int sd_flags;
slap_syntax_validate_func *sd_validate;
slap_syntax_transform_func *sd_normalize;
slap_syntax_transform_func *sd_pretty;
#ifdef SLAPD_BINARY_CONVERSION
slap_syntax_transform_func *sd_ber2str;
slap_syntax_transform_func *sd_str2ber;
#endif
};
#define X_HIDE "X-HIDE 'TRUE' "
#define X_BINARY "X-BINARY-TRANSFER-REQUIRED 'TRUE' "
#define X_NOT_H_R "X-NOT-HUMAN-READABLE 'TRUE' "
struct syntax_defs_rec syntax_defs[] = {
{"( 1.3.6.1.4.1.1466.115.121.1.1 DESC 'ACI Item' " X_BINARY X_NOT_H_R ")",
SLAP_SYNTAX_BINARY|SLAP_SYNTAX_BER, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.2 DESC 'Access Point' " X_NOT_H_R ")",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.3 DESC 'Attribute Type Description' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.4 DESC 'Audio' " X_NOT_H_R ")",
SLAP_SYNTAX_BLOB, blobValidate, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.5 DESC 'Binary' " X_BINARY X_NOT_H_R ")",
SLAP_SYNTAX_BINARY|SLAP_SYNTAX_BER, berValidate, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.6 DESC 'Bit String' )",
0, bitStringValidate, NULL, NULL },
{"( 1.3.6.1.4.1.1466.115.121.1.7 DESC 'Boolean' )",
0, booleanValidate, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.8 DESC 'Certificate' "
X_BINARY X_NOT_H_R ")",
SLAP_SYNTAX_BINARY|SLAP_SYNTAX_BER, berValidate, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.9 DESC 'Certificate List' "
X_BINARY X_NOT_H_R ")",
SLAP_SYNTAX_BINARY|SLAP_SYNTAX_BER, berValidate, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.10 DESC 'Certificate Pair' "
X_BINARY X_NOT_H_R ")",
SLAP_SYNTAX_BINARY|SLAP_SYNTAX_BER, berValidate, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.11 DESC 'Country String' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.12 DESC 'Distinguished Name' )",
0, dnValidate, dnNormalize, dnPretty},
{"( 1.3.6.1.4.1.1466.115.121.1.13 DESC 'Data Quality' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.14 DESC 'Delivery Method' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.15 DESC 'Directory String' )",
0, UTF8StringValidate, UTF8StringNormalize, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.16 DESC 'DIT Content Rule Description' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.17 DESC 'DIT Structure Rule Description' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.19 DESC 'DSA Quality' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.20 DESC 'DSE Type' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.21 DESC 'Enhanced Guide' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.22 DESC 'Facsimile Telephone Number' )",
0, IA5StringValidate, faxNumberNormalize, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.23 DESC 'Fax' " X_NOT_H_R ")",
SLAP_SYNTAX_BLOB, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.24 DESC 'Generalized Time' )",
0, generalizedTimeValidate, generalizedTimeNormalize, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.25 DESC 'Guide' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.26 DESC 'IA5 String' )",
0, IA5StringValidate, IA5StringNormalize, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.27 DESC 'Integer' )",
0, integerValidate, integerNormalize, integerPretty},
{"( 1.3.6.1.4.1.1466.115.121.1.28 DESC 'JPEG' " X_NOT_H_R ")",
SLAP_SYNTAX_BLOB, blobValidate, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.29 DESC 'Master And Shadow Access Points' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.30 DESC 'Matching Rule Description' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.31 DESC 'Matching Rule Use Description' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.32 DESC 'Mail Preference' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.33 DESC 'MHS OR Address' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.34 DESC 'Name And Optional UID' )",
0, nameUIDValidate, nameUIDNormalize, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.35 DESC 'Name Form Description' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.36 DESC 'Numeric String' )",
0, IA5StringValidate, numericStringNormalize, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.37 DESC 'Object Class Description' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.38 DESC 'OID' )",
0, oidValidate, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.39 DESC 'Other Mailbox' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.40 DESC 'Octet String' )",
0, blobValidate, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.41 DESC 'Postal Address' )",
0, blobValidate, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.42 DESC 'Protocol Information' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.43 DESC 'Presentation Address' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.44 DESC 'Printable String' )",
0, printableStringValidate, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.49 DESC 'Supported Algorithm' "
X_BINARY X_NOT_H_R ")",
SLAP_SYNTAX_BINARY|SLAP_SYNTAX_BER, berValidate, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.50 DESC 'Telephone Number' )",
0, IA5StringValidate, phoneNumberNormalize, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.51 DESC 'Teletex Terminal Identifier' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.52 DESC 'Telex Number' )",
0, IA5StringValidate, telexNumberNormalize, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.53 DESC 'UTC Time' )",
0, utcTimeValidate, utcTimeNormalize, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.54 DESC 'LDAP Syntax Description' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.55 DESC 'Modify Rights' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.56 DESC 'LDAP Schema Definition' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.57 DESC 'LDAP Schema Description' )",
0, NULL, NULL, NULL},
{"( 1.3.6.1.4.1.1466.115.121.1.58 DESC 'Substring Assertion' )",
0, NULL, NULL, NULL},
/* RFC 2307 NIS Syntaxes */
{"( 1.3.6.1.1.1.0.0 DESC 'RFC2307 NIS Netgroup Triple' )",
0, nisNetgroupTripleValidate, NULL, NULL},
{"( 1.3.6.1.1.1.0.1 DESC 'RFC2307 Boot Parameter' )",
0, bootParameterValidate, NULL, NULL},
/* OpenLDAP Experimental Syntaxes */
{"( 1.3.6.1.4.1.4203.666.2.1 DESC 'OpenLDAP Experimental ACI' )",
0, IA5StringValidate /* THIS WILL CHANGE FOR NEW ACI SYNTAX */,
NULL, NULL},
{"( 1.3.6.1.4.1.4203.666.2.2 DESC 'OpenLDAP authPassword' )",
0, NULL, NULL, NULL},
/* OpenLDAP Void Syntax */
{"( 1.3.6.1.4.1.4203.1.1.1 DESC 'OpenLDAP void' " X_HIDE ")" ,
SLAP_SYNTAX_HIDE, inValidate, NULL, NULL},
{NULL, 0, NULL, NULL, NULL}
};
struct mrule_defs_rec {
char * mrd_desc;
slap_mask_t mrd_usage;
slap_mr_convert_func * mrd_convert;
slap_mr_normalize_func * mrd_normalize;
slap_mr_match_func * mrd_match;
slap_mr_indexer_func * mrd_indexer;
slap_mr_filter_func * mrd_filter;
char * mrd_associated;
};
/*
* Other matching rules in X.520 that we do not use (yet):
*
* 2.5.13.9 numericStringOrderingMatch
* 2.5.13.15 integerOrderingMatch
* 2.5.13.18 octetStringOrderingMatch
* 2.5.13.19 octetStringSubstringsMatch
* 2.5.13.25 uTCTimeMatch
* 2.5.13.26 uTCTimeOrderingMatch
* 2.5.13.31 directoryStringFirstComponentMatch
* 2.5.13.32 wordMatch
* 2.5.13.33 keywordMatch
* 2.5.13.34 certificateExactMatch
* 2.5.13.35 certificateMatch
* 2.5.13.36 certificatePairExactMatch
* 2.5.13.37 certificatePairMatch
* 2.5.13.38 certificateListExactMatch
* 2.5.13.39 certificateListMatch
* 2.5.13.40 algorithmIdentifierMatch
* 2.5.13.41 storedPrefixMatch
* 2.5.13.42 attributeCertificateMatch
* 2.5.13.43 readerAndKeyIDMatch
* 2.5.13.44 attributeIntegrityMatch
*/
struct mrule_defs_rec mrule_defs[] = {
/*
* EQUALITY matching rules must be listed after associated APPROX
* matching rules. So, we list all APPROX matching rules first.
*/
{"( " directoryStringApproxMatchOID " NAME 'directoryStringApproxMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.15 )",
SLAP_MR_EQUALITY_APPROX | SLAP_MR_EXT,
NULL, NULL,
directoryStringApproxMatch, NULL, NULL,
NULL},
{"( " IA5StringApproxMatchOID " NAME 'IA5StringApproxMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.26 )",
SLAP_MR_EQUALITY_APPROX | SLAP_MR_EXT,
NULL, NULL,
IA5StringApproxMatch, NULL, NULL,
NULL},
/*
* Other matching rules
*/
{"( 2.5.13.0 NAME 'objectIdentifierMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.38 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
objectIdentifierMatch, caseIgnoreIA5Indexer, caseIgnoreIA5Filter,
NULL},
{"( 2.5.13.1 NAME 'distinguishedNameMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.12 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
dnMatch, dnIndexer, dnFilter,
NULL},
{"( 2.5.13.2 NAME 'caseIgnoreMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.15 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
caseIgnoreMatch, caseIgnoreIndexer, caseIgnoreFilter,
directoryStringApproxMatchOID },
{"( 2.5.13.3 NAME 'caseIgnoreOrderingMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.15 )",
SLAP_MR_ORDERING,
NULL, NULL,
caseIgnoreOrderingMatch, NULL, NULL,
NULL},
{"( 2.5.13.4 NAME 'caseIgnoreSubstringsMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.58 )",
SLAP_MR_SUBSTR | SLAP_MR_EXT,
NULL, NULL,
caseIgnoreSubstringsMatch,
caseIgnoreSubstringsIndexer,
caseIgnoreSubstringsFilter,
NULL},
{"( 2.5.13.5 NAME 'caseExactMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.15 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
caseExactMatch, caseExactIndexer, caseExactFilter,
directoryStringApproxMatchOID },
{"( 2.5.13.6 NAME 'caseExactOrderingMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.15 )",
SLAP_MR_ORDERING,
NULL, NULL,
caseExactOrderingMatch, NULL, NULL,
NULL},
{"( 2.5.13.7 NAME 'caseExactSubstringsMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.58 )",
SLAP_MR_SUBSTR | SLAP_MR_EXT,
NULL, NULL,
caseExactSubstringsMatch,
caseExactSubstringsIndexer,
caseExactSubstringsFilter,
NULL},
{"( 2.5.13.8 NAME 'numericStringMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.36 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
caseIgnoreIA5Match, NULL, NULL,
NULL},
{"( 2.5.13.10 NAME 'numericStringSubstringsMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.58 )",
SLAP_MR_SUBSTR | SLAP_MR_EXT,
NULL, NULL,
caseIgnoreIA5SubstringsMatch,
caseIgnoreIA5SubstringsIndexer,
caseIgnoreIA5SubstringsFilter,
NULL},
{"( 2.5.13.11 NAME 'caseIgnoreListMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.41 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
caseIgnoreListMatch, NULL, NULL,
NULL},
{"( 2.5.13.12 NAME 'caseIgnoreListSubstringsMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.58 )",
SLAP_MR_SUBSTR | SLAP_MR_EXT,
NULL, NULL,
caseIgnoreListSubstringsMatch, NULL, NULL,
NULL},
{"( 2.5.13.13 NAME 'booleanMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.7 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
booleanMatch, NULL, NULL,
NULL},
{"( 2.5.13.14 NAME 'integerMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.27 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
integerMatch, integerIndexer, integerFilter,
NULL},
{"( 2.5.13.16 NAME 'bitStringMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.6 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
bitStringMatch, NULL, NULL,
NULL},
{"( 2.5.13.17 NAME 'octetStringMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.40 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
octetStringMatch, octetStringIndexer, octetStringFilter,
NULL},
{"( 2.5.13.20 NAME 'telephoneNumberMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.50 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
telephoneNumberMatch, NULL, NULL,
NULL},
{"( 2.5.13.21 NAME 'telephoneNumberSubstringsMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.58 )",
SLAP_MR_SUBSTR | SLAP_MR_EXT,
NULL, NULL,
telephoneNumberSubstringsMatch, NULL, NULL,
NULL},
{"( 2.5.13.22 NAME 'presentationAddressMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.43 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
presentationAddressMatch, NULL, NULL,
NULL},
{"( 2.5.13.23 NAME 'uniqueMemberMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.34 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
uniqueMemberMatch, NULL, NULL,
NULL},
{"( 2.5.13.24 NAME 'protocolInformationMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.42 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
protocolInformationMatch, NULL, NULL,
NULL},
{"( 2.5.13.27 NAME 'generalizedTimeMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.24 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
generalizedTimeMatch, NULL, NULL,
NULL},
{"( 2.5.13.28 NAME 'generalizedTimeOrderingMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.24 )",
SLAP_MR_ORDERING,
NULL, NULL,
generalizedTimeOrderingMatch, NULL, NULL,
NULL},
{"( 2.5.13.29 NAME 'integerFirstComponentMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.27 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
integerFirstComponentMatch, NULL, NULL,
NULL},
{"( 2.5.13.30 NAME 'objectIdentifierFirstComponentMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.38 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
objectIdentifierFirstComponentMatch, NULL, NULL,
NULL},
{"( 1.3.6.1.4.1.1466.109.114.1 NAME 'caseExactIA5Match' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.26 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
caseExactIA5Match, caseExactIA5Indexer, caseExactIA5Filter,
IA5StringApproxMatchOID },
{"( 1.3.6.1.4.1.1466.109.114.2 NAME 'caseIgnoreIA5Match' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.26 )",
SLAP_MR_EQUALITY | SLAP_MR_EXT,
NULL, NULL,
caseIgnoreIA5Match, caseIgnoreIA5Indexer, caseIgnoreIA5Filter,
IA5StringApproxMatchOID },
{"( 1.3.6.1.4.1.1466.109.114.3 NAME 'caseIgnoreIA5SubstringsMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.26 )",
SLAP_MR_SUBSTR,
NULL, NULL,
caseIgnoreIA5SubstringsMatch,
caseIgnoreIA5SubstringsIndexer,
caseIgnoreIA5SubstringsFilter,
NULL},
{"( 1.3.6.1.4.1.4203.1.2.1 NAME 'caseExactIA5SubstringsMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.26 )",
SLAP_MR_SUBSTR,
NULL, NULL,
caseExactIA5SubstringsMatch,
caseExactIA5SubstringsIndexer,
caseExactIA5SubstringsFilter,
NULL},
{"( 1.3.6.1.4.1.4203.666.4.1 NAME 'authPasswordMatch' "
"SYNTAX 1.3.6.1.4.1.1466.115.121.1.40 )",
SLAP_MR_EQUALITY,
NULL, NULL,
authPasswordMatch, NULL, NULL,
NULL},
{"( 1.3.6.1.4.1.4203.666.4.2 NAME 'OpenLDAPaciMatch' "
"SYNTAX 1.3.6.1.4.1.4203.666.2.1 )",
SLAP_MR_EQUALITY,
NULL, NULL,
OpenLDAPaciMatch, NULL, NULL,
NULL},
{NULL, SLAP_MR_NONE, NULL, NULL, NULL, NULL}
};
int
schema_init( void )
{
int res;
int i;
/* we should only be called once (from main) */
assert( schema_init_done == 0 );
for ( i=0; syntax_defs[i].sd_desc != NULL; i++ ) {
res = register_syntax( syntax_defs[i].sd_desc,
syntax_defs[i].sd_flags,
syntax_defs[i].sd_validate,
syntax_defs[i].sd_normalize,
syntax_defs[i].sd_pretty
#ifdef SLAPD_BINARY_CONVERSION
,
syntax_defs[i].sd_ber2str,
syntax_defs[i].sd_str2ber
#endif
);
if ( res ) {
fprintf( stderr, "schema_init: Error registering syntax %s\n",
syntax_defs[i].sd_desc );
return LDAP_OTHER;
}
}
for ( i=0; mrule_defs[i].mrd_desc != NULL; i++ ) {
if( mrule_defs[i].mrd_usage == SLAP_MR_NONE ) {
fprintf( stderr,
"schema_init: Ingoring unusable matching rule %s\n",
mrule_defs[i].mrd_desc );
continue;
}
res = register_matching_rule(
mrule_defs[i].mrd_desc,
mrule_defs[i].mrd_usage,
mrule_defs[i].mrd_convert,
mrule_defs[i].mrd_normalize,
mrule_defs[i].mrd_match,
mrule_defs[i].mrd_indexer,
mrule_defs[i].mrd_filter,
mrule_defs[i].mrd_associated );
if ( res ) {
fprintf( stderr,
"schema_init: Error registering matching rule %s\n",
mrule_defs[i].mrd_desc );
return LDAP_OTHER;
}
}
schema_init_done = 1;
return LDAP_SUCCESS;
}