static int test_presence_vrFilter( Operation *op, Attribute *a, AttributeDescription *desc, char ***e_flags ) { int i, j; for ( i=0; a != NULL; a = a->a_next, i++ ) { struct berval *bv; if ( !is_ad_subtype( a->a_desc, desc ) ) continue; for ( bv = a->a_vals, j = 0; !BER_BVISNULL( bv ); bv++, j++ ); memset( (*e_flags)[i], 1, j); } return( LDAP_SUCCESS ); }
static int test_substrings_vrFilter( Operation *op, Attribute *a, ValuesReturnFilter *vrf, char ***e_flags ) { int i, j; for ( i=0; a != NULL; a = a->a_next, i++ ) { MatchingRule *mr = a->a_desc->ad_type->sat_substr; struct berval *bv; if ( !is_ad_subtype( a->a_desc, vrf->vrf_sub_desc ) ) { continue; } if( mr == NULL ) continue; bv = a->a_nvals; for ( j = 0; !BER_BVISNULL( bv ); bv++, j++ ) { int rc, match; const char *text; rc = value_match( &match, a->a_desc, mr, 0, bv, vrf->vrf_sub, &text ); if( rc != LDAP_SUCCESS ) return rc; if ( match == 0 ) { (*e_flags)[i][j] = 1; } } } return LDAP_SUCCESS; }
static int test_mra_filter( Operation *op, Entry *e, MatchingRuleAssertion *mra ) { Attribute *a; void *memctx; BER_MEMFREE_FN *memfree; #ifdef LDAP_COMP_MATCH int i, num_attr_vals = 0; #endif if ( op == NULL ) { memctx = NULL; memfree = slap_sl_free; } else { memctx = op->o_tmpmemctx; memfree = op->o_tmpfree; } if ( mra->ma_desc ) { /* * if ma_desc is available, then we're filtering for * one attribute, and SEARCH permissions can be checked * directly. */ if ( !access_allowed( op, e, mra->ma_desc, &mra->ma_value, ACL_SEARCH, NULL ) ) { return LDAP_INSUFFICIENT_ACCESS; } if ( mra->ma_desc == slap_schema.si_ad_entryDN ) { int ret, rc; const char *text; rc = value_match( &ret, slap_schema.si_ad_entryDN, mra->ma_rule, SLAP_MR_EXT, &e->e_nname, &mra->ma_value, &text ); if( rc != LDAP_SUCCESS ) return rc; if ( ret == 0 ) return LDAP_COMPARE_TRUE; return LDAP_COMPARE_FALSE; } for ( a = attrs_find( e->e_attrs, mra->ma_desc ); a != NULL; a = attrs_find( a->a_next, mra->ma_desc ) ) { struct berval *bv; int normalize_attribute = 0; #ifdef LDAP_COMP_MATCH /* Component Matching */ if ( mra->ma_cf && mra->ma_rule->smr_usage & SLAP_MR_COMPONENT ) { num_attr_vals = 0; if ( !a->a_comp_data ) { num_attr_vals = a->a_numvals; if ( num_attr_vals <= 0 ) { /* no attribute value */ return LDAP_INAPPROPRIATE_MATCHING; } num_attr_vals++; /* following malloced will be freed by comp_tree_free () */ a->a_comp_data = SLAP_MALLOC( sizeof( ComponentData ) + sizeof( ComponentSyntaxInfo* )*num_attr_vals ); if ( !a->a_comp_data ) return LDAP_NO_MEMORY; a->a_comp_data->cd_tree = (ComponentSyntaxInfo**) ((char*)a->a_comp_data + sizeof(ComponentData)); a->a_comp_data->cd_tree[num_attr_vals - 1] = (ComponentSyntaxInfo*) NULL; a->a_comp_data->cd_mem_op = nibble_mem_allocator( 1024*16, 1024 ); } } #endif /* If ma_rule is not the same as the attribute's * normal rule, then we can't use the a_nvals. */ if ( mra->ma_rule == a->a_desc->ad_type->sat_equality ) { bv = a->a_nvals; } else { bv = a->a_vals; normalize_attribute = 1; } #ifdef LDAP_COMP_MATCH i = 0; #endif for ( ; !BER_BVISNULL( bv ); bv++ ) { int ret; int rc; const char *text; #ifdef LDAP_COMP_MATCH if ( mra->ma_cf && mra->ma_rule->smr_usage & SLAP_MR_COMPONENT ) { /* Check if decoded component trees are already linked */ if ( num_attr_vals ) { a->a_comp_data->cd_tree[i] = attr_converter( a, a->a_desc->ad_type->sat_syntax, bv ); } /* decoding error */ if ( !a->a_comp_data->cd_tree[i] ) { return LDAP_OPERATIONS_ERROR; } rc = value_match( &ret, a->a_desc, mra->ma_rule, SLAP_MR_COMPONENT, (struct berval*)a->a_comp_data->cd_tree[i++], (void*)mra, &text ); } else #endif { struct berval nbv = BER_BVNULL; if ( normalize_attribute && mra->ma_rule->smr_normalize ) { /* Document: RFC 4511 4.5.1. Search Request ... If the type field is present and the matchingRule is present, the matchValue is compared against entry attributes of the specified type. In this case, the matchingRule MUST be one suitable for use with the specified type (see [RFC4517]), otherwise the filter item is Undefined. In this case, since the matchingRule requires the assertion value to be normalized, we normalize the attribute value according to the syntax of the matchingRule. This should likely be done inside value_match(), by passing the appropriate flags, but this is not done at present. See ITS#3406. */ if ( mra->ma_rule->smr_normalize( SLAP_MR_VALUE_OF_ATTRIBUTE_SYNTAX, mra->ma_rule->smr_syntax, mra->ma_rule, bv, &nbv, memctx ) != LDAP_SUCCESS ) { /* FIXME: stop processing? */ continue; } } else { nbv = *bv; } rc = value_match( &ret, a->a_desc, mra->ma_rule, SLAP_MR_EXT, &nbv, &mra->ma_value, &text ); if ( nbv.bv_val != bv->bv_val ) { memfree( nbv.bv_val, memctx ); } } if ( rc != LDAP_SUCCESS ) return rc; if ( ret == 0 ) return LDAP_COMPARE_TRUE; } } } else { /* * No attribute description: test all */ for ( a = e->e_attrs; a != NULL; a = a->a_next ) { struct berval *bv, value; const char *text = NULL; int rc; int normalize_attribute = 0; /* check if matching is appropriate */ if ( !mr_usable_with_at( mra->ma_rule, a->a_desc->ad_type ) ) { continue; } /* normalize for equality */ rc = asserted_value_validate_normalize( a->a_desc, mra->ma_rule, SLAP_MR_EXT|SLAP_MR_VALUE_OF_ASSERTION_SYNTAX, &mra->ma_value, &value, &text, memctx ); if ( rc != LDAP_SUCCESS ) continue; /* check search access */ if ( !access_allowed( op, e, a->a_desc, &value, ACL_SEARCH, NULL ) ) { memfree( value.bv_val, memctx ); continue; } #ifdef LDAP_COMP_MATCH /* Component Matching */ if ( mra->ma_cf && mra->ma_rule->smr_usage & SLAP_MR_COMPONENT ) { int ret; rc = value_match( &ret, a->a_desc, mra->ma_rule, SLAP_MR_COMPONENT, (struct berval*)a, (void*)mra, &text ); if ( rc != LDAP_SUCCESS ) break; if ( ret == 0 ) { rc = LDAP_COMPARE_TRUE; break; } } #endif /* check match */ if ( mra->ma_rule == a->a_desc->ad_type->sat_equality ) { bv = a->a_nvals; } else { bv = a->a_vals; normalize_attribute = 1; } for ( ; !BER_BVISNULL( bv ); bv++ ) { int ret; struct berval nbv = BER_BVNULL; if ( normalize_attribute && mra->ma_rule->smr_normalize ) { /* see comment above */ if ( mra->ma_rule->smr_normalize( SLAP_MR_VALUE_OF_ATTRIBUTE_SYNTAX, mra->ma_rule->smr_syntax, mra->ma_rule, bv, &nbv, memctx ) != LDAP_SUCCESS ) { /* FIXME: stop processing? */ continue; } } else { nbv = *bv; } rc = value_match( &ret, a->a_desc, mra->ma_rule, SLAP_MR_EXT, &nbv, &value, &text ); if ( nbv.bv_val != bv->bv_val ) { memfree( nbv.bv_val, memctx ); } if ( rc != LDAP_SUCCESS ) break; if ( ret == 0 ) { rc = LDAP_COMPARE_TRUE; break; } } memfree( value.bv_val, memctx ); if ( rc != LDAP_SUCCESS ) return rc; } } /* check attrs in DN AVAs if required */ if ( mra->ma_dnattrs && !BER_BVISEMPTY( &e->e_nname ) ) { LDAPDN dn = NULL; int iRDN, iAVA; int rc; /* parse and pretty the dn */ rc = dnPrettyDN( NULL, &e->e_name, &dn, memctx ); if ( rc != LDAP_SUCCESS ) { return LDAP_INVALID_SYNTAX; } /* for each AVA of each RDN ... */ for ( iRDN = 0; dn[ iRDN ]; iRDN++ ) { LDAPRDN rdn = dn[ iRDN ]; for ( iAVA = 0; rdn[ iAVA ]; iAVA++ ) { LDAPAVA *ava = rdn[ iAVA ]; struct berval *bv = &ava->la_value, value = BER_BVNULL, nbv = BER_BVNULL; AttributeDescription *ad = (AttributeDescription *)ava->la_private; int ret; const char *text; assert( ad != NULL ); if ( mra->ma_desc ) { /* have a mra type? check for subtype */ if ( !is_ad_subtype( ad, mra->ma_desc ) ) { continue; } value = mra->ma_value; } else { const char *text = NULL; /* check if matching is appropriate */ if ( !mr_usable_with_at( mra->ma_rule, ad->ad_type ) ) { continue; } /* normalize for equality */ rc = asserted_value_validate_normalize( ad, mra->ma_rule, SLAP_MR_EXT|SLAP_MR_VALUE_OF_ASSERTION_SYNTAX, &mra->ma_value, &value, &text, memctx ); if ( rc != LDAP_SUCCESS ) continue; /* check search access */ if ( !access_allowed( op, e, ad, &value, ACL_SEARCH, NULL ) ) { memfree( value.bv_val, memctx ); continue; } } if ( mra->ma_rule->smr_normalize ) { /* see comment above */ if ( mra->ma_rule->smr_normalize( SLAP_MR_VALUE_OF_ATTRIBUTE_SYNTAX, mra->ma_rule->smr_syntax, mra->ma_rule, bv, &nbv, memctx ) != LDAP_SUCCESS ) { /* FIXME: stop processing? */ rc = LDAP_SUCCESS; ret = -1; goto cleanup; } } else { nbv = *bv; } /* check match */ rc = value_match( &ret, ad, mra->ma_rule, SLAP_MR_EXT, &nbv, &value, &text ); cleanup:; if ( !BER_BVISNULL( &value ) && value.bv_val != mra->ma_value.bv_val ) { memfree( value.bv_val, memctx ); } if ( !BER_BVISNULL( &nbv ) && nbv.bv_val != bv->bv_val ) { memfree( nbv.bv_val, memctx ); } if ( rc == LDAP_SUCCESS && ret == 0 ) rc = LDAP_COMPARE_TRUE; if ( rc != LDAP_SUCCESS ) { ldap_dnfree_x( dn, memctx ); return rc; } } } ldap_dnfree_x( dn, memctx ); } return LDAP_COMPARE_FALSE; }
static int test_mra_vrFilter( Operation *op, Attribute *a, MatchingRuleAssertion *mra, char ***e_flags ) { int i, j; for ( i = 0; a != NULL; a = a->a_next, i++ ) { struct berval *bv, assertedValue; int normalize_attribute = 0; if ( mra->ma_desc ) { if ( !is_ad_subtype( a->a_desc, mra->ma_desc ) ) { continue; } assertedValue = mra->ma_value; } else { int rc; const char *text = NULL; /* check if matching is appropriate */ if ( !mr_usable_with_at( mra->ma_rule, a->a_desc->ad_type ) ) { continue; } rc = asserted_value_validate_normalize( a->a_desc, mra->ma_rule, SLAP_MR_EXT|SLAP_MR_VALUE_OF_ASSERTION_SYNTAX, &mra->ma_value, &assertedValue, &text, op->o_tmpmemctx ); if ( rc != LDAP_SUCCESS ) continue; } /* check match */ if ( mra->ma_rule == a->a_desc->ad_type->sat_equality ) { bv = a->a_nvals; } else { bv = a->a_vals; normalize_attribute = 1; } for ( j = 0; !BER_BVISNULL( bv ); bv++, j++ ) { int rc, match; const char *text; struct berval nbv = BER_BVNULL; if ( normalize_attribute && mra->ma_rule->smr_normalize ) { /* see comment in filterentry.c */ if ( mra->ma_rule->smr_normalize( SLAP_MR_VALUE_OF_ATTRIBUTE_SYNTAX, mra->ma_rule->smr_syntax, mra->ma_rule, bv, &nbv, op->o_tmpmemctx ) != LDAP_SUCCESS ) { /* FIXME: stop processing? */ continue; } } else { nbv = *bv; } rc = value_match( &match, a->a_desc, mra->ma_rule, 0, &nbv, &assertedValue, &text ); if ( nbv.bv_val != bv->bv_val ) { op->o_tmpfree( nbv.bv_val, op->o_tmpmemctx ); } if ( rc != LDAP_SUCCESS ) return rc; if ( match == 0 ) { (*e_flags)[i][j] = 1; } } } return LDAP_SUCCESS; }
static int test_ava_vrFilter( Operation *op, Attribute *a, AttributeAssertion *ava, int type, char ***e_flags ) { int i, j; for ( i=0; a != NULL; a = a->a_next, i++ ) { MatchingRule *mr; struct berval *bv; if ( !is_ad_subtype( a->a_desc, ava->aa_desc ) ) { continue; } switch ( type ) { case LDAP_FILTER_APPROX: mr = a->a_desc->ad_type->sat_approx; if( mr != NULL ) break; /* use EQUALITY matching rule if no APPROX rule */ case LDAP_FILTER_EQUALITY: mr = a->a_desc->ad_type->sat_equality; break; case LDAP_FILTER_GE: case LDAP_FILTER_LE: mr = a->a_desc->ad_type->sat_ordering; break; default: mr = NULL; } if( mr == NULL ) continue; bv = a->a_nvals; for ( j=0; !BER_BVISNULL( bv ); bv++, j++ ) { int rc, match; const char *text; rc = value_match( &match, a->a_desc, mr, 0, bv, &ava->aa_value, &text ); if( rc != LDAP_SUCCESS ) return rc; switch ( type ) { case LDAP_FILTER_EQUALITY: case LDAP_FILTER_APPROX: if ( match == 0 ) { (*e_flags)[i][j] = 1; } break; case LDAP_FILTER_GE: if ( match >= 0 ) { (*e_flags)[i][j] = 1; } break; case LDAP_FILTER_LE: if ( match <= 0 ) { (*e_flags)[i][j] = 1; } break; } } } return LDAP_SUCCESS; }