/* acl.c - routines to parse and check acl's */ /* $OpenLDAP$ */ /* This work is part of OpenLDAP Software . * * Copyright 1998-2005 The OpenLDAP Foundation. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted only as authorized by the OpenLDAP * Public License. * * A copy of this license is available in the file LICENSE in the * top-level directory of the distribution or, alternatively, at * . */ /* Portions Copyright (c) 1995 Regents of the University of Michigan. * All rights reserved. * * Redistribution and use in source and binary forms are permitted * provided that this notice is preserved and that due credit is given * to the University of Michigan at Ann Arbor. The name of the University * may not be used to endorse or promote products derived from this * software without specific prior written permission. This software * is provided ``as is'' without express or implied warranty. */ #include "portable.h" #include #include #include #include #include "slap.h" #include "sets.h" #include "lber_pvt.h" #include "lutil.h" #define ACL_BUF_SIZE 1024 /* use most appropriate size */ /* * speed up compares */ const struct berval aci_bv[] = { BER_BVC("entry"), BER_BVC("children"), BER_BVC("onelevel"), BER_BVC("subtree"), BER_BVC("[entry]"), BER_BVC("[all]"), BER_BVC("access-id"), #if 0 BER_BVC("anonymous"), #endif BER_BVC("public"), BER_BVC("users"), BER_BVC("self"), BER_BVC("dnattr"), BER_BVC("group"), BER_BVC("role"), BER_BVC("set"), BER_BVC("set-ref"), BER_BVC("grant"), BER_BVC("deny"), BER_BVC("IP="), #ifdef LDAP_PF_LOCAL BER_BVC("PATH="), #if 0 BER_BVC(LDAP_DIRSEP), #endif #endif /* LDAP_PF_LOCAL */ BER_BVC(SLAPD_GROUP_CLASS), BER_BVC(SLAPD_GROUP_ATTR), BER_BVC(SLAPD_ROLE_CLASS), BER_BVC(SLAPD_ROLE_ATTR), BER_BVC(SLAPD_ACI_SET_ATTR) }; static AccessControl * slap_acl_get( AccessControl *ac, int *count, Operation *op, Entry *e, AttributeDescription *desc, struct berval *val, int nmatch, regmatch_t *matches, AccessControlState *state ); static slap_control_t slap_acl_mask( AccessControl *ac, slap_mask_t *mask, Operation *op, Entry *e, AttributeDescription *desc, struct berval *val, int nmatch, regmatch_t *matches, int count, AccessControlState *state ); static int regex_matches( struct berval *pat, char *str, char *buf, int nmatch, regmatch_t *matches); typedef struct AclSetCookie { SetCookie asc_cookie; #define asc_op asc_cookie.set_op Entry *asc_e; } AclSetCookie; SLAP_SET_GATHER acl_set_gather; SLAP_SET_GATHER acl_set_gather2; /* * access_allowed - check whether op->o_ndn is allowed the requested access * to entry e, attribute attr, value val. if val is null, access to * the whole attribute is assumed (all values). * * This routine loops through all access controls and calls * slap_acl_mask() on each applicable access control. * The loop exits when a definitive answer is reached or * or no more controls remain. * * returns: * 0 access denied * 1 access granted * * Notes: * - can be legally called with op == NULL * - can be legally called with op->o_bd == NULL */ #ifdef SLAP_OVERLAY_ACCESS int slap_access_always_allowed( Operation *op, Entry *e, AttributeDescription *desc, struct berval *val, slap_access_t access, AccessControlState *state, slap_mask_t *maskp ) { assert( maskp != NULL ); /* assign all */ ACL_LVL_ASSIGN_MANAGE( *maskp ); return 1; } int slap_access_allowed( Operation *op, Entry *e, AttributeDescription *desc, struct berval *val, slap_access_t access, AccessControlState *state, slap_mask_t *maskp ) { int ret = 1; int count; AccessControl *a = NULL; #ifdef LDAP_DEBUG char accessmaskbuf[ACCESSMASK_MAXLEN]; #endif slap_mask_t mask; slap_control_t control; slap_access_t access_level; const char *attr; regmatch_t matches[MAXREMATCHES]; int st_same_attr = 0; assert( op != NULL ); assert( e != NULL ); assert( desc != NULL ); assert( maskp != NULL ); access_level = ACL_LEVEL( access ); attr = desc->ad_cname.bv_val; assert( attr != NULL ); ACL_INIT( mask ); /* grant database root access */ if ( be_isroot( op ) ) { Debug( LDAP_DEBUG_ACL, "<= root access granted\n", 0, 0, 0 ); mask = ACL_LVL_MANAGE; goto done; } /* * no-user-modification operational attributes are ignored * by ACL_WRITE checking as any found here are not provided * by the user * * NOTE: but they are not ignored for ACL_MANAGE, because * if we get here it means a non-root user is trying to * manage data, so we need to check its privileges. */ if ( access_level == ACL_WRITE && is_at_no_user_mod( desc->ad_type ) && desc != slap_schema.si_ad_entry && desc != slap_schema.si_ad_children ) { Debug( LDAP_DEBUG_ACL, "NoUserMod Operational attribute:" " %s access granted\n", attr, 0, 0 ); goto done; } /* use backend default access if no backend acls */ if ( op->o_bd->be_acl == NULL ) { int i; Debug( LDAP_DEBUG_ACL, "=> slap_access_allowed: backend default %s " "access %s to \"%s\"\n", access2str( access ), op->o_bd->be_dfltaccess >= access_level ? "granted" : "denied", op->o_dn.bv_val ? op->o_dn.bv_val : "(anonymous)" ); ret = op->o_bd->be_dfltaccess >= access_level; mask = ACL_PRIV_LEVEL; for ( i = ACL_NONE; i <= op->o_bd->be_dfltaccess; i++ ) { ACL_PRIV_SET( mask, ACL_ACCESS2PRIV( i ) ); } goto done; } ret = 0; control = ACL_BREAK; if ( st_same_attr ) { assert( state->as_vd_acl != NULL ); a = state->as_vd_acl; count = state->as_vd_acl_count; if ( !ACL_IS_INVALID( state->as_vd_acl_mask ) ) { mask = state->as_vd_acl_mask; AC_MEMCPY( matches, state->as_vd_acl_matches, sizeof(matches) ); goto vd_access; } } else { if ( state ) state->as_vi_acl = NULL; a = NULL; ACL_PRIV_ASSIGN( mask, *maskp ); count = 0; memset( matches, '\0', sizeof( matches ) ); } while ( ( a = slap_acl_get( a, &count, op, e, desc, val, MAXREMATCHES, matches, state ) ) != NULL ) { int i; for ( i = 0; i < MAXREMATCHES && matches[i].rm_so > 0; i++ ) { Debug( LDAP_DEBUG_ACL, "=> match[%d]: %d %d ", i, (int)matches[i].rm_so, (int)matches[i].rm_eo ); if ( matches[i].rm_so <= matches[0].rm_eo ) { int n; for ( n = matches[i].rm_so; n < matches[i].rm_eo; n++ ) { Debug( LDAP_DEBUG_ACL, "%c", e->e_ndn[n], 0, 0 ); } } Debug( LDAP_DEBUG_ARGS, "\n", 0, 0, 0 ); } if ( state ) { if ( state->as_vi_acl == a && ( state->as_recorded & ACL_STATE_RECORDED_NV ) ) { Debug( LDAP_DEBUG_ACL, "=> slap_access_allowed: result from state (%s)\n", attr, 0, 0 ); ret = state->as_result; goto done; } else { Debug( LDAP_DEBUG_ACL, "=> slap_access_allowed: no res from state (%s)\n", attr, 0, 0 ); } } vd_access: control = slap_acl_mask( a, &mask, op, e, desc, val, MAXREMATCHES, matches, count, state ); if ( control != ACL_BREAK ) { break; } memset( matches, '\0', sizeof( matches ) ); } if ( ACL_IS_INVALID( mask ) ) { Debug( LDAP_DEBUG_ACL, "=> slap_access_allowed: \"%s\" (%s) invalid!\n", e->e_dn, attr, 0 ); ACL_PRIV_ASSIGN( mask, *maskp ); } else if ( control == ACL_BREAK ) { Debug( LDAP_DEBUG_ACL, "=> slap_access_allowed: no more rules\n", 0, 0, 0 ); goto done; } ret = ACL_GRANT( mask, access ); Debug( LDAP_DEBUG_ACL, "=> slap_access_allowed: %s access %s by %s\n", access2str( access ), ret ? "granted" : "denied", accessmask2str( mask, accessmaskbuf, 1 ) ); done: ACL_PRIV_ASSIGN( *maskp, mask ); return ret; } int fe_access_allowed( Operation *op, Entry *e, AttributeDescription *desc, struct berval *val, slap_access_t access, AccessControlState *state, slap_mask_t *maskp ) { BackendDB *be_orig; int rc; /* * NOTE: control gets here if FIXME * if an appropriate backend cannot be selected for the operation, * we assume that the frontend should handle this * FIXME: should select_backend() take care of this, * and return frontendDB instead of NULL? maybe for some value * of the flags? */ be_orig = op->o_bd; op->o_bd = select_backend( &op->o_req_ndn, 0, 0 ); if ( op->o_bd == NULL ) { op->o_bd = frontendDB; } rc = slap_access_allowed( op, e, desc, val, access, state, maskp ); op->o_bd = be_orig; return rc; } int access_allowed_mask( Operation *op, Entry *e, AttributeDescription *desc, struct berval *val, slap_access_t access, AccessControlState *state, slap_mask_t *maskp ) { int ret = 1; AccessControl *a = NULL; int be_null = 0; #ifdef LDAP_DEBUG char accessmaskbuf[ACCESSMASK_MAXLEN]; #endif slap_mask_t mask; slap_access_t access_level; const char *attr; int st_same_attr = 0; static AccessControlState state_init = ACL_STATE_INIT; assert( e != NULL ); assert( desc != NULL ); access_level = ACL_LEVEL( access ); assert( access_level > ACL_NONE ); ACL_INIT( mask ); if ( maskp ) ACL_INVALIDATE( *maskp ); attr = desc->ad_cname.bv_val; assert( attr != NULL ); if ( op ) { if ( op->o_is_auth_check && ( access_level == ACL_SEARCH || access_level == ACL_READ ) ) { access = ACL_AUTH; } else if ( get_manageDIT( op ) && access_level == ACL_WRITE && desc == slap_schema.si_ad_entry ) { access = ACL_MANAGE; } } if ( state ) { if ( state->as_vd_ad == desc ) { if ( state->as_recorded ) { if ( ( state->as_recorded & ACL_STATE_RECORDED_NV ) && val == NULL ) { return state->as_result; } else if ( ( state->as_recorded & ACL_STATE_RECORDED_VD ) && val != NULL && state->as_vd_acl == NULL ) { return state->as_result; } } st_same_attr = 1; } else { *state = state_init; } state->as_vd_ad = desc; } Debug( LDAP_DEBUG_ACL, "=> access_allowed: %s access to \"%s\" \"%s\" requested\n", access2str( access ), e->e_dn, attr ); if ( op == NULL ) { /* no-op call */ goto done; } if ( op->o_bd == NULL ) { op->o_bd = LDAP_STAILQ_FIRST( &backendDB ); be_null = 1; #ifdef LDAP_DEVEL /* * FIXME: experimental; use first backend rules * iff there is no global_acl (ITS#3100) */ if ( frontendDB->be_acl != NULL ) { op->o_bd = frontendDB; } #endif /* LDAP_DEVEL */ } assert( op->o_bd != NULL ); /* this is enforced in backend_add() */ if ( op->o_bd->bd_info->bi_access_allowed ) { /* delegate to backend */ ret = op->o_bd->bd_info->bi_access_allowed( op, e, desc, val, access, state, &mask ); } else { BackendDB *be_orig = op->o_bd; /* use default (but pass through frontend * for global ACL overlays) */ op->o_bd = frontendDB; ret = frontendDB->bd_info->bi_access_allowed( op, e, desc, val, access, state, &mask ); op->o_bd = be_orig; } if ( !ret ) { if ( ACL_IS_INVALID( mask ) ) { Debug( LDAP_DEBUG_ACL, "=> access_allowed: \"%s\" (%s) invalid!\n", e->e_dn, attr, 0 ); ACL_INIT( mask ); } else { Debug( LDAP_DEBUG_ACL, "=> access_allowed: no more rules\n", 0, 0, 0 ); goto done; } } Debug( LDAP_DEBUG_ACL, "=> access_allowed: %s access %s by %s\n", access2str( access ), ret ? "granted" : "denied", accessmask2str( mask, accessmaskbuf, 1 ) ); done: if ( state != NULL ) { /* If not value-dependent, save ACL in case of more attrs */ if ( !( state->as_recorded & ACL_STATE_RECORDED_VD ) ) { state->as_vi_acl = a; state->as_result = ret; } state->as_recorded |= ACL_STATE_RECORDED; } if ( be_null ) op->o_bd = NULL; if ( maskp ) ACL_PRIV_ASSIGN( *maskp, mask ); return ret; } #else /* !SLAP_OVERLAY_ACCESS */ int access_allowed_mask( Operation *op, Entry *e, AttributeDescription *desc, struct berval *val, slap_access_t access, AccessControlState *state, slap_mask_t *maskp ) { int ret = 1; int count; AccessControl *a = NULL; Backend *be; int be_null = 0; #ifdef LDAP_DEBUG char accessmaskbuf[ACCESSMASK_MAXLEN]; #endif slap_mask_t mask; slap_control_t control; slap_access_t access_level; const char *attr; regmatch_t matches[MAXREMATCHES]; int st_same_attr = 0; static AccessControlState state_init = ACL_STATE_INIT; assert( e != NULL ); assert( desc != NULL ); access_level = ACL_LEVEL( access ); assert( access_level > ACL_NONE ); if ( maskp ) ACL_INVALIDATE( *maskp ); attr = desc->ad_cname.bv_val; assert( attr != NULL ); if ( op ) { if ( op->o_is_auth_check && ( access_level == ACL_SEARCH || access_level == ACL_READ ) ) { access = ACL_AUTH; } else if ( get_manageDIT( op ) && access_level == ACL_WRITE && desc == slap_schema.si_ad_entry ) { access = ACL_MANAGE; } } if ( state ) { if ( state->as_vd_ad == desc ) { if ( state->as_recorded ) { if ( ( state->as_recorded & ACL_STATE_RECORDED_NV ) && val == NULL ) { return state->as_result; } else if ( ( state->as_recorded & ACL_STATE_RECORDED_VD ) && val != NULL && state->as_vd_acl == NULL ) { return state->as_result; } } st_same_attr = 1; } else { *state = state_init; } state->as_vd_ad=desc; } Debug( LDAP_DEBUG_ACL, "=> access_allowed: %s access to \"%s\" \"%s\" requested\n", access2str( access ), e->e_dn, attr ); if ( op == NULL ) { /* no-op call */ goto done; } be = op->o_bd; if ( be == NULL ) { be = LDAP_STAILQ_FIRST(&backendDB); be_null = 1; #ifdef LDAP_DEVEL /* * FIXME: experimental; use first backend rules * iff there is no global_acl (ITS#3100) */ if ( frontendDB->be_acl == NULL ) #endif { op->o_bd = be; } } assert( be != NULL ); /* grant database root access */ if ( be_isroot( op ) ) { Debug( LDAP_DEBUG_ACL, "<= root access granted\n", 0, 0, 0 ); if ( maskp ) { mask = ACL_LVL_MANAGE; } goto done; } /* * no-user-modification operational attributes are ignored * by ACL_WRITE checking as any found here are not provided * by the user * * NOTE: but they are not ignored for ACL_MANAGE, because * if we get here it means a non-root user is trying to * manage data, so we need to check its privileges. */ if ( access_level == ACL_WRITE && is_at_no_user_mod( desc->ad_type ) && desc != slap_schema.si_ad_entry && desc != slap_schema.si_ad_children ) { Debug( LDAP_DEBUG_ACL, "NoUserMod Operational attribute:" " %s access granted\n", attr, 0, 0 ); goto done; } /* use backend default access if no backend acls */ if ( be->be_acl == NULL ) { Debug( LDAP_DEBUG_ACL, "=> access_allowed: backend default %s " "access %s to \"%s\"\n", access2str( access ), be->be_dfltaccess >= access_level ? "granted" : "denied", op->o_dn.bv_val ? op->o_dn.bv_val : "(anonymous)" ); ret = be->be_dfltaccess >= access_level; if ( maskp ) { int i; mask = ACL_PRIV_LEVEL; for ( i = ACL_NONE; i <= be->be_dfltaccess; i++ ) { mask |= ACL_ACCESS2PRIV( i ); } } goto done; #ifdef notdef /* be is always non-NULL */ /* use global default access if no global acls */ } else if ( be == NULL && frontendDB->be_acl == NULL ) { Debug( LDAP_DEBUG_ACL, "=> access_allowed: global default %s access %s to \"%s\"\n", access2str( access ), frontendDB->be_dfltaccess >= access_level ? "granted" : "denied", op->o_dn.bv_val ); ret = frontendDB->be_dfltaccess >= access_level; if ( maskp ) { int i; mask = ACL_PRIV_LEVEL; for ( i = ACL_NONE; i <= global_default_access; i++ ) { mask |= ACL_ACCESS2PRIV( i ); } } goto done; #endif } ret = 0; control = ACL_BREAK; if ( st_same_attr ) { assert( state->as_vd_acl != NULL ); a = state->as_vd_acl; count = state->as_vd_acl_count; if ( !ACL_IS_INVALID( state->as_vd_acl_mask ) ) { mask = state->as_vd_acl_mask; AC_MEMCPY( matches, state->as_vd_acl_matches, sizeof(matches) ); goto vd_access; } } else { if ( state ) state->as_vi_acl = NULL; a = NULL; ACL_INIT(mask); count = 0; memset( matches, '\0', sizeof(matches) ); } while ( ( a = slap_acl_get( a, &count, op, e, desc, val, MAXREMATCHES, matches, state ) ) != NULL ) { int i; for ( i = 0; i < MAXREMATCHES && matches[i].rm_so > 0; i++ ) { Debug( LDAP_DEBUG_ACL, "=> match[%d]: %d %d ", i, (int)matches[i].rm_so, (int)matches[i].rm_eo ); if ( matches[i].rm_so <= matches[0].rm_eo ) { int n; for ( n = matches[i].rm_so; n < matches[i].rm_eo; n++ ) { Debug( LDAP_DEBUG_ACL, "%c", e->e_ndn[n], 0, 0 ); } } Debug( LDAP_DEBUG_ARGS, "\n", 0, 0, 0 ); } if ( state ) { if ( state->as_vi_acl == a && ( state->as_recorded & ACL_STATE_RECORDED_NV ) ) { Debug( LDAP_DEBUG_ACL, "access_allowed: result from state (%s)\n", attr, 0, 0 ); ret = state->as_result; goto done; } else { Debug( LDAP_DEBUG_ACL, "access_allowed: no res from state (%s)\n", attr, 0, 0 ); } } vd_access: control = slap_acl_mask( a, &mask, op, e, desc, val, MAXREMATCHES, matches, count, state ); if ( control != ACL_BREAK ) { break; } memset( matches, '\0', sizeof(matches) ); } if ( ACL_IS_INVALID( mask ) ) { Debug( LDAP_DEBUG_ACL, "=> access_allowed: \"%s\" (%s) invalid!\n", e->e_dn, attr, 0 ); ACL_INIT(mask); } else if ( control == ACL_BREAK ) { Debug( LDAP_DEBUG_ACL, "=> access_allowed: no more rules\n", 0, 0, 0 ); goto done; } Debug( LDAP_DEBUG_ACL, "=> access_allowed: %s access %s by %s\n", access2str( access ), ACL_GRANT(mask, access) ? "granted" : "denied", accessmask2str( mask, accessmaskbuf, 1 ) ); ret = ACL_GRANT(mask, access); done: if ( state != NULL ) { /* If not value-dependent, save ACL in case of more attrs */ if ( !( state->as_recorded & ACL_STATE_RECORDED_VD ) ) { state->as_vi_acl = a; state->as_result = ret; } state->as_recorded |= ACL_STATE_RECORDED; } if ( be_null ) op->o_bd = NULL; if ( maskp ) *maskp = mask; return ret; } #endif /* SLAP_OVERLAY_ACCESS */ /* * slap_acl_get - return the acl applicable to entry e, attribute * attr. the acl returned is suitable for use in subsequent calls to * acl_access_allowed(). */ static AccessControl * slap_acl_get( AccessControl *a, int *count, Operation *op, Entry *e, AttributeDescription *desc, struct berval *val, int nmatch, regmatch_t *matches, AccessControlState *state ) { const char *attr; int dnlen, patlen; AccessControl *prev; assert( e != NULL ); assert( count != NULL ); assert( desc != NULL ); attr = desc->ad_cname.bv_val; assert( attr != NULL ); if( a == NULL ) { if( op->o_bd == NULL ) { a = frontendDB->be_acl; } else { a = op->o_bd->be_acl; } prev = NULL; assert( a != NULL ); } else { prev = a; a = a->acl_next; } dnlen = e->e_nname.bv_len; for ( ; a != NULL; a = a->acl_next ) { (*count) ++; if ( a->acl_dn_pat.bv_len || ( a->acl_dn_style != ACL_STYLE_REGEX )) { if ( a->acl_dn_style == ACL_STYLE_REGEX ) { Debug( LDAP_DEBUG_ACL, "=> dnpat: [%d] %s nsub: %d\n", *count, a->acl_dn_pat.bv_val, (int) a->acl_dn_re.re_nsub ); if (regexec(&a->acl_dn_re, e->e_ndn, nmatch, matches, 0)) continue; } else { Debug( LDAP_DEBUG_ACL, "=> dn: [%d] %s\n", *count, a->acl_dn_pat.bv_val, 0 ); patlen = a->acl_dn_pat.bv_len; if ( dnlen < patlen ) continue; if ( a->acl_dn_style == ACL_STYLE_BASE ) { /* base dn -- entire object DN must match */ if ( dnlen != patlen ) continue; } else if ( a->acl_dn_style == ACL_STYLE_ONE ) { int rdnlen = -1, sep = 0; if ( dnlen <= patlen ) continue; if ( patlen > 0 ) { if ( !DN_SEPARATOR( e->e_ndn[dnlen - patlen - 1] ) ) continue; sep = 1; } rdnlen = dn_rdnlen( NULL, &e->e_nname ); if ( rdnlen != dnlen - patlen - sep ) continue; } else if ( a->acl_dn_style == ACL_STYLE_SUBTREE ) { if ( dnlen > patlen && !DN_SEPARATOR( e->e_ndn[dnlen - patlen - 1] ) ) continue; } else if ( a->acl_dn_style == ACL_STYLE_CHILDREN ) { if ( dnlen <= patlen ) continue; if ( !DN_SEPARATOR( e->e_ndn[dnlen - patlen - 1] ) ) continue; } if ( strcmp( a->acl_dn_pat.bv_val, e->e_ndn + dnlen - patlen ) != 0 ) continue; } Debug( LDAP_DEBUG_ACL, "=> acl_get: [%d] matched\n", *count, 0, 0 ); } if ( a->acl_attrs && !ad_inlist( desc, a->acl_attrs ) ) { matches[0].rm_so = matches[0].rm_eo = -1; continue; } /* Is this ACL only for a specific value? */ if ( a->acl_attrval.bv_len ) { if ( val == NULL ) { continue; } if( state && !( state->as_recorded & ACL_STATE_RECORDED_VD )) { state->as_recorded |= ACL_STATE_RECORDED_VD; state->as_vd_acl = a; state->as_vd_acl_count = *count; state->as_vd_access = a->acl_access; state->as_vd_access_count = 1; ACL_INVALIDATE( state->as_vd_acl_mask ); } if ( a->acl_attrval_style == ACL_STYLE_REGEX ) { Debug( LDAP_DEBUG_ACL, "acl_get: valpat %s\n", a->acl_attrval.bv_val, 0, 0 ); if ( regexec( &a->acl_attrval_re, val->bv_val, 0, NULL, 0 ) ) { continue; } } else { int match = 0; const char *text; Debug( LDAP_DEBUG_ACL, "acl_get: val %s\n", a->acl_attrval.bv_val, 0, 0 ); if ( a->acl_attrs[0].an_desc->ad_type->sat_syntax != slap_schema.si_syn_distinguishedName ) { if (value_match( &match, desc, /* desc->ad_type->sat_equality */ a->acl_attrval_mr, 0, val, &a->acl_attrval, &text ) != LDAP_SUCCESS || match ) continue; } else { int patlen, vdnlen; patlen = a->acl_attrval.bv_len; vdnlen = val->bv_len; if ( vdnlen < patlen ) continue; if ( a->acl_attrval_style == ACL_STYLE_BASE ) { if ( vdnlen > patlen ) continue; } else if ( a->acl_attrval_style == ACL_STYLE_ONE ) { int rdnlen = -1; if ( !DN_SEPARATOR( val->bv_val[vdnlen - patlen - 1] ) ) continue; rdnlen = dn_rdnlen( NULL, val ); if ( rdnlen != vdnlen - patlen - 1 ) continue; } else if ( a->acl_attrval_style == ACL_STYLE_SUBTREE ) { if ( vdnlen > patlen && !DN_SEPARATOR( val->bv_val[vdnlen - patlen - 1] ) ) continue; } else if ( a->acl_attrval_style == ACL_STYLE_CHILDREN ) { if ( vdnlen <= patlen ) continue; if ( !DN_SEPARATOR( val->bv_val[vdnlen - patlen - 1] ) ) continue; } if ( strcmp( a->acl_attrval.bv_val, val->bv_val + vdnlen - patlen )) continue; } } } if ( a->acl_filter != NULL ) { ber_int_t rc = test_filter( NULL, e, a->acl_filter ); if ( rc != LDAP_COMPARE_TRUE ) { continue; } } Debug( LDAP_DEBUG_ACL, "=> acl_get: [%d] attr %s\n", *count, attr, 0); return a; } Debug( LDAP_DEBUG_ACL, "<= acl_get: done.\n", 0, 0, 0 ); return( NULL ); } static int acl_mask_dn( Operation *op, Entry *e, AccessControl *a, int nmatch, regmatch_t *matches, slap_dn_access *b, struct berval *opndn ) { /* * if access applies to the entry itself, and the * user is bound as somebody in the same namespace as * the entry, OR the given dn matches the dn pattern */ /* * NOTE: styles "anonymous", "users" and "self" * have been moved to enum slap_style_t, whose * value is set in a_dn_style; however, the string * is maintaned in a_dn_pat. */ if ( b->a_style == ACL_STYLE_ANONYMOUS ) { if ( !BER_BVISEMPTY( opndn ) ) { return 1; } } else if ( b->a_style == ACL_STYLE_USERS ) { if ( BER_BVISEMPTY( opndn ) ) { return 1; } } else if ( b->a_style == ACL_STYLE_SELF ) { struct berval ndn, selfndn; int level; if ( BER_BVISEMPTY( opndn ) || BER_BVISNULL( &e->e_nname ) ) { return 1; } level = b->a_self_level; if ( level < 0 ) { selfndn = *opndn; ndn = e->e_nname; level = -level; } else { ndn = *opndn; selfndn = e->e_nname; } for ( ; level > 0; level-- ) { if ( BER_BVISEMPTY( &ndn ) ) { break; } dnParent( &ndn, &ndn ); } if ( BER_BVISEMPTY( &ndn ) || !dn_match( &ndn, &selfndn ) ) { return 1; } } else if ( b->a_style == ACL_STYLE_REGEX ) { if ( !ber_bvccmp( &b->a_pat, '*' ) ) { int tmp_nmatch; regmatch_t tmp_matches[2], *tmp_matchesp = tmp_matches; int rc = 0; switch ( a->acl_dn_style ) { case ACL_STYLE_REGEX: if ( !BER_BVISNULL( &a->acl_dn_pat ) ) { tmp_matchesp = matches; tmp_nmatch = nmatch; break; } /* FALLTHRU: applies also to ACL_STYLE_REGEX when pattern is "*" */ case ACL_STYLE_BASE: tmp_matches[0].rm_so = 0; tmp_matches[0].rm_eo = e->e_nname.bv_len; tmp_nmatch = 1; break; case ACL_STYLE_ONE: case ACL_STYLE_SUBTREE: case ACL_STYLE_CHILDREN: tmp_matches[0].rm_so = 0; tmp_matches[0].rm_eo = e->e_nname.bv_len; tmp_matches[1].rm_so = e->e_nname.bv_len - a->acl_dn_pat.bv_len; tmp_matches[1].rm_eo = e->e_nname.bv_len; tmp_nmatch = 2; break; default: /* error */ rc = 1; break; } if ( rc ) { return 1; } if ( !regex_matches( &b->a_pat, opndn->bv_val, e->e_ndn, tmp_nmatch, tmp_matchesp ) ) { return 1; } } } else { struct berval pat; ber_len_t patlen, odnlen; int got_match = 0; if ( e->e_dn == NULL ) return 1; if ( b->a_expand ) { struct berval bv; char buf[ACL_BUF_SIZE]; int tmp_nmatch; regmatch_t tmp_matches[2], *tmp_matchesp = tmp_matches; int rc = 0; bv.bv_len = sizeof( buf ) - 1; bv.bv_val = buf; switch ( a->acl_dn_style ) { case ACL_STYLE_REGEX: if ( !BER_BVISNULL( &a->acl_dn_pat ) ) { tmp_matchesp = matches; tmp_nmatch = nmatch; break; } /* FALLTHRU: applies also to ACL_STYLE_REGEX when pattern is "*" */ case ACL_STYLE_BASE: tmp_matches[0].rm_so = 0; tmp_matches[0].rm_eo = e->e_nname.bv_len; tmp_nmatch = 1; break; case ACL_STYLE_ONE: case ACL_STYLE_SUBTREE: case ACL_STYLE_CHILDREN: tmp_matches[0].rm_so = 0; tmp_matches[0].rm_eo = e->e_nname.bv_len; tmp_matches[1].rm_so = e->e_nname.bv_len - a->acl_dn_pat.bv_len; tmp_matches[1].rm_eo = e->e_nname.bv_len; tmp_nmatch = 2; break; default: /* error */ rc = 1; break; } if ( rc ) { return 1; } if ( acl_string_expand( &bv, &b->a_pat, e->e_nname.bv_val, tmp_nmatch, tmp_matchesp ) ) { return 1; } if ( dnNormalize(0, NULL, NULL, &bv, &pat, op->o_tmpmemctx ) != LDAP_SUCCESS ) { /* did not expand to a valid dn */ return 1; } } else { pat = b->a_pat; } patlen = pat.bv_len; odnlen = opndn->bv_len; if ( odnlen < patlen ) { goto dn_match_cleanup; } if ( b->a_style == ACL_STYLE_BASE ) { /* base dn -- entire object DN must match */ if ( odnlen != patlen ) { goto dn_match_cleanup; } } else if ( b->a_style == ACL_STYLE_ONE ) { int rdnlen = -1; if ( odnlen <= patlen ) { goto dn_match_cleanup; } if ( !DN_SEPARATOR( opndn->bv_val[odnlen - patlen - 1] ) ) { goto dn_match_cleanup; } rdnlen = dn_rdnlen( NULL, opndn ); if ( rdnlen - ( odnlen - patlen - 1 ) != 0 ) { goto dn_match_cleanup; } } else if ( b->a_style == ACL_STYLE_SUBTREE ) { if ( odnlen > patlen && !DN_SEPARATOR( opndn->bv_val[odnlen - patlen - 1] ) ) { goto dn_match_cleanup; } } else if ( b->a_style == ACL_STYLE_CHILDREN ) { if ( odnlen <= patlen ) { goto dn_match_cleanup; } if ( !DN_SEPARATOR( opndn->bv_val[odnlen - patlen - 1] ) ) { goto dn_match_cleanup; } } else if ( b->a_style == ACL_STYLE_LEVEL ) { int level = b->a_level; struct berval ndn; if ( odnlen <= patlen ) { goto dn_match_cleanup; } if ( level > 0 && !DN_SEPARATOR( opndn->bv_val[odnlen - patlen - 1] ) ) { goto dn_match_cleanup; } ndn = *opndn; for ( ; level > 0; level-- ) { if ( BER_BVISEMPTY( &ndn ) ) { goto dn_match_cleanup; } dnParent( &ndn, &ndn ); if ( ndn.bv_len < patlen ) { goto dn_match_cleanup; } } if ( ndn.bv_len != patlen ) { goto dn_match_cleanup; } } got_match = !strcmp( pat.bv_val, &opndn->bv_val[ odnlen - patlen ] ); dn_match_cleanup:; if ( pat.bv_val != b->a_pat.bv_val ) { slap_sl_free( pat.bv_val, op->o_tmpmemctx ); } if ( !got_match ) { return 1; } } return 0; } /* * Record value-dependent access control state */ #define ACL_RECORD_VALUE_STATE do { \ if( state && !( state->as_recorded & ACL_STATE_RECORDED_VD )) { \ state->as_recorded |= ACL_STATE_RECORDED_VD; \ state->as_vd_acl = a; \ AC_MEMCPY( state->as_vd_acl_matches, matches, \ sizeof( state->as_vd_acl_matches )) ; \ state->as_vd_acl_count = count; \ state->as_vd_access = b; \ state->as_vd_access_count = i; \ } \ } while( 0 ) static int acl_mask_dnattr( Operation *op, Entry *e, struct berval *val, AccessControl *a, Access *b, int i, regmatch_t *matches, int count, AccessControlState *state, slap_dn_access *bdn, struct berval *opndn ) { Attribute *at; struct berval bv; int rc, match = 0; const char *text; const char *attr = bdn->a_at->ad_cname.bv_val; assert( attr != NULL ); if ( BER_BVISEMPTY( opndn ) ) { return 1; } Debug( LDAP_DEBUG_ACL, "<= check a_dn_at: %s\n", attr, 0, 0 ); bv = *opndn; /* see if asker is listed in dnattr */ for ( at = attrs_find( e->e_attrs, bdn->a_at ); at != NULL; at = attrs_find( at->a_next, bdn->a_at ) ) { if ( value_find_ex( bdn->a_at, SLAP_MR_ATTRIBUTE_VALUE_NORMALIZED_MATCH | SLAP_MR_ASSERTED_VALUE_NORMALIZED_MATCH, at->a_nvals, &bv, op->o_tmpmemctx ) == 0 ) { /* found it */ match = 1; break; } } if ( match ) { /* have a dnattr match. if this is a self clause then * the target must also match the op dn. */ if ( bdn->a_self ) { /* check if the target is an attribute. */ if ( val == NULL ) return 1; /* target is attribute, check if the attribute value * is the op dn. */ rc = value_match( &match, bdn->a_at, bdn->a_at->ad_type->sat_equality, 0, val, &bv, &text ); /* on match error or no match, fail the ACL clause */ if ( rc != LDAP_SUCCESS || match != 0 ) return 1; } } else { /* no dnattr match, check if this is a self clause */ if ( ! bdn->a_self ) return 1; ACL_RECORD_VALUE_STATE; /* this is a self clause, check if the target is an * attribute. */ if ( val == NULL ) return 1; /* target is attribute, check if the attribute value * is the op dn. */ rc = value_match( &match, bdn->a_at, bdn->a_at->ad_type->sat_equality, 0, val, &bv, &text ); /* on match error or no match, fail the ACL clause */ if ( rc != LDAP_SUCCESS || match != 0 ) return 1; } return 0; } /* * slap_acl_mask - modifies mask based upon the given acl and the * requested access to entry e, attribute attr, value val. if val * is null, access to the whole attribute is assumed (all values). * * returns 0 access NOT allowed * 1 access allowed */ static slap_control_t slap_acl_mask( AccessControl *a, slap_mask_t *mask, Operation *op, Entry *e, AttributeDescription *desc, struct berval *val, int nmatch, regmatch_t *matches, int count, AccessControlState *state ) { int i; Access *b; #ifdef LDAP_DEBUG char accessmaskbuf[ACCESSMASK_MAXLEN]; #if !defined( SLAP_DYNACL ) && defined( SLAPD_ACI_ENABLED ) char accessmaskbuf1[ACCESSMASK_MAXLEN]; #endif /* !SLAP_DYNACL && SLAPD_ACI_ENABLED */ #endif /* DEBUG */ const char *attr; slap_mask_t a2pmask = ACL_ACCESS2PRIV( *mask ); assert( a != NULL ); assert( mask != NULL ); assert( desc != NULL ); attr = desc->ad_cname.bv_val; assert( attr != NULL ); Debug( LDAP_DEBUG_ACL, "=> acl_mask: access to entry \"%s\", attr \"%s\" requested\n", e->e_dn, attr, 0 ); Debug( LDAP_DEBUG_ACL, "=> acl_mask: to %s by \"%s\", (%s) \n", val ? "value" : "all values", op->o_ndn.bv_val ? op->o_ndn.bv_val : "", accessmask2str( *mask, accessmaskbuf, 1 ) ); if( state && ( state->as_recorded & ACL_STATE_RECORDED_VD ) && state->as_vd_acl == a ) { b = state->as_vd_access; i = state->as_vd_access_count; } else { b = a->acl_access; i = 1; } for ( ; b != NULL; b = b->a_next, i++ ) { slap_mask_t oldmask, modmask; ACL_INVALIDATE( modmask ); /* AND clauses */ if ( !BER_BVISEMPTY( &b->a_dn_pat ) ) { Debug( LDAP_DEBUG_ACL, "<= check a_dn_pat: %s\n", b->a_dn_pat.bv_val, 0, 0); /* * if access applies to the entry itself, and the * user is bound as somebody in the same namespace as * the entry, OR the given dn matches the dn pattern */ /* * NOTE: styles "anonymous", "users" and "self" * have been moved to enum slap_style_t, whose * value is set in a_dn_style; however, the string * is maintaned in a_dn_pat. */ if ( acl_mask_dn( op, e, a, nmatch, matches, &b->a_dn, &op->o_ndn ) ) { continue; } } if ( !BER_BVISEMPTY( &b->a_realdn_pat ) ) { struct berval ndn; Debug( LDAP_DEBUG_ACL, "<= check a_realdn_pat: %s\n", b->a_realdn_pat.bv_val, 0, 0); /* * if access applies to the entry itself, and the * user is bound as somebody in the same namespace as * the entry, OR the given dn matches the dn pattern */ /* * NOTE: styles "anonymous", "users" and "self" * have been moved to enum slap_style_t, whose * value is set in a_dn_style; however, the string * is maintaned in a_dn_pat. */ if ( op->o_conn && !BER_BVISNULL( &op->o_conn->c_ndn ) ) { ndn = op->o_conn->c_ndn; } else { ndn = op->o_ndn; } if ( acl_mask_dn( op, e, a, nmatch, matches, &b->a_realdn, &ndn ) ) { continue; } } if ( !BER_BVISEMPTY( &b->a_sockurl_pat ) ) { if ( ! op->o_conn->c_listener ) { continue; } Debug( LDAP_DEBUG_ACL, "<= check a_sockurl_pat: %s\n", b->a_sockurl_pat.bv_val, 0, 0 ); if ( !ber_bvccmp( &b->a_sockurl_pat, '*' ) ) { if ( b->a_sockurl_style == ACL_STYLE_REGEX) { if (!regex_matches( &b->a_sockurl_pat, op->o_conn->c_listener_url.bv_val, e->e_ndn, nmatch, matches ) ) { continue; } } else if ( b->a_sockurl_style == ACL_STYLE_EXPAND ) { struct berval bv; char buf[ACL_BUF_SIZE]; bv.bv_len = sizeof( buf ) - 1; bv.bv_val = buf; if ( acl_string_expand( &bv, &b->a_sockurl_pat, e->e_ndn, nmatch, matches ) ) { continue; } if ( ber_bvstrcasecmp( &bv, &op->o_conn->c_listener_url ) != 0 ) { continue; } } else { if ( ber_bvstrcasecmp( &b->a_sockurl_pat, &op->o_conn->c_listener_url ) != 0 ) { continue; } } } } if ( !BER_BVISEMPTY( &b->a_domain_pat ) ) { if ( !op->o_conn->c_peer_domain.bv_val ) { continue; } Debug( LDAP_DEBUG_ACL, "<= check a_domain_pat: %s\n", b->a_domain_pat.bv_val, 0, 0 ); if ( !ber_bvccmp( &b->a_domain_pat, '*' ) ) { if ( b->a_domain_style == ACL_STYLE_REGEX) { if (!regex_matches( &b->a_domain_pat, op->o_conn->c_peer_domain.bv_val, e->e_ndn, nmatch, matches ) ) { continue; } } else { char buf[ACL_BUF_SIZE]; struct berval cmp = op->o_conn->c_peer_domain; struct berval pat = b->a_domain_pat; if ( b->a_domain_expand ) { struct berval bv; bv.bv_len = sizeof(buf) - 1; bv.bv_val = buf; if ( acl_string_expand(&bv, &b->a_domain_pat, e->e_ndn, nmatch, matches) ) { continue; } pat = bv; } if ( b->a_domain_style == ACL_STYLE_SUBTREE ) { int offset = cmp.bv_len - pat.bv_len; if ( offset < 0 ) { continue; } if ( offset == 1 || ( offset > 1 && cmp.bv_val[ offset - 1 ] != '.' ) ) { continue; } /* trim the domain */ cmp.bv_val = &cmp.bv_val[ offset ]; cmp.bv_len -= offset; } if ( ber_bvstrcasecmp( &pat, &cmp ) != 0 ) { continue; } } } } if ( !BER_BVISEMPTY( &b->a_peername_pat ) ) { if ( !op->o_conn->c_peer_name.bv_val ) { continue; } Debug( LDAP_DEBUG_ACL, "<= check a_peername_path: %s\n", b->a_peername_pat.bv_val, 0, 0 ); if ( !ber_bvccmp( &b->a_peername_pat, '*' ) ) { if ( b->a_peername_style == ACL_STYLE_REGEX ) { if (!regex_matches( &b->a_peername_pat, op->o_conn->c_peer_name.bv_val, e->e_ndn, nmatch, matches ) ) { continue; } } else { /* try exact match */ if ( b->a_peername_style == ACL_STYLE_BASE ) { if ( ber_bvstrcasecmp( &b->a_peername_pat, &op->o_conn->c_peer_name ) != 0 ) { continue; } } else if ( b->a_peername_style == ACL_STYLE_EXPAND ) { struct berval bv; char buf[ACL_BUF_SIZE]; bv.bv_len = sizeof( buf ) - 1; bv.bv_val = buf; if ( acl_string_expand( &bv, &b->a_peername_pat, e->e_ndn, nmatch, matches ) ) { continue; } if ( ber_bvstrcasecmp( &bv, &op->o_conn->c_peer_name ) != 0 ) { continue; } /* extract IP and try exact match */ } else if ( b->a_peername_style == ACL_STYLE_IP ) { char *port; char buf[] = "255.255.255.255"; struct berval ip; unsigned long addr; int port_number = -1; if ( strncasecmp( op->o_conn->c_peer_name.bv_val, aci_bv[ ACI_BV_IP_EQ ].bv_val, aci_bv[ ACI_BV_IP_EQ ].bv_len ) != 0 ) continue; ip.bv_val = op->o_conn->c_peer_name.bv_val + aci_bv[ ACI_BV_IP_EQ ].bv_len; ip.bv_len = op->o_conn->c_peer_name.bv_len - aci_bv[ ACI_BV_IP_EQ ].bv_len; port = strrchr( ip.bv_val, ':' ); if ( port ) { char *next; ip.bv_len = port - ip.bv_val; ++port; port_number = strtol( port, &next, 10 ); if ( next[0] != '\0' ) continue; } /* the port check can be anticipated here */ if ( b->a_peername_port != -1 && port_number != b->a_peername_port ) continue; /* address longer than expected? */ if ( ip.bv_len >= sizeof(buf) ) continue; AC_MEMCPY( buf, ip.bv_val, ip.bv_len ); buf[ ip.bv_len ] = '\0'; addr = inet_addr( buf ); /* unable to convert? */ if ( addr == (unsigned long)(-1) ) continue; if ( (addr & b->a_peername_mask) != b->a_peername_addr ) continue; #ifdef LDAP_PF_LOCAL /* extract path and try exact match */ } else if ( b->a_peername_style == ACL_STYLE_PATH ) { struct berval path; if ( strncmp( op->o_conn->c_peer_name.bv_val, aci_bv[ ACI_BV_PATH_EQ ].bv_val, aci_bv[ ACI_BV_PATH_EQ ].bv_len ) != 0 ) continue; path.bv_val = op->o_conn->c_peer_name.bv_val + aci_bv[ ACI_BV_PATH_EQ ].bv_len; path.bv_len = op->o_conn->c_peer_name.bv_len - aci_bv[ ACI_BV_PATH_EQ ].bv_len; if ( ber_bvcmp( &b->a_peername_pat, &path ) != 0 ) continue; #endif /* LDAP_PF_LOCAL */ /* exact match (very unlikely...) */ } else if ( ber_bvcmp( &op->o_conn->c_peer_name, &b->a_peername_pat ) != 0 ) { continue; } } } } if ( !BER_BVISEMPTY( &b->a_sockname_pat ) ) { if ( BER_BVISNULL( &op->o_conn->c_sock_name ) ) { continue; } Debug( LDAP_DEBUG_ACL, "<= check a_sockname_path: %s\n", b->a_sockname_pat.bv_val, 0, 0 ); if ( !ber_bvccmp( &b->a_sockname_pat, '*' ) ) { if ( b->a_sockname_style == ACL_STYLE_REGEX) { if (!regex_matches( &b->a_sockname_pat, op->o_conn->c_sock_name.bv_val, e->e_ndn, nmatch, matches ) ) { continue; } } else if ( b->a_sockname_style == ACL_STYLE_EXPAND ) { struct berval bv; char buf[ACL_BUF_SIZE]; bv.bv_len = sizeof( buf ) - 1; bv.bv_val = buf; if ( acl_string_expand( &bv, &b->a_sockname_pat, e->e_ndn, nmatch, matches ) ) { continue; } if ( ber_bvstrcasecmp( &bv, &op->o_conn->c_sock_name ) != 0 ) { continue; } } else { if ( ber_bvstrcasecmp( &b->a_sockname_pat, &op->o_conn->c_sock_name ) != 0 ) { continue; } } } } if ( b->a_dn_at != NULL ) { if ( acl_mask_dnattr( op, e, val, a, b, i, matches, count, state, &b->a_dn, &op->o_ndn ) ) { continue; } } if ( b->a_realdn_at != NULL ) { struct berval ndn; if ( op->o_conn && !BER_BVISNULL( &op->o_conn->c_ndn ) ) { ndn = op->o_conn->c_ndn; } else { ndn = op->o_ndn; } if ( acl_mask_dnattr( op, e, val, a, b, i, matches, count, state, &b->a_realdn, &ndn ) ) { continue; } } if ( !BER_BVISEMPTY( &b->a_group_pat ) ) { struct berval bv; struct berval ndn = BER_BVNULL; int rc; if ( op->o_ndn.bv_len == 0 ) { continue; } Debug( LDAP_DEBUG_ACL, "<= check a_group_pat: %s\n", b->a_group_pat.bv_val, 0, 0 ); /* b->a_group is an unexpanded entry name, expanded it should be an * entry with objectclass group* and we test to see if odn is one of * the values in the attribute group */ /* see if asker is listed in dnattr */ if ( b->a_group_style == ACL_STYLE_EXPAND ) { char buf[ACL_BUF_SIZE]; int tmp_nmatch; regmatch_t tmp_matches[2], *tmp_matchesp = tmp_matches; bv.bv_len = sizeof(buf) - 1; bv.bv_val = buf; rc = 0; switch ( a->acl_dn_style ) { case ACL_STYLE_REGEX: if ( !BER_BVISNULL( &a->acl_dn_pat ) ) { tmp_matchesp = matches; tmp_nmatch = nmatch; break; } /* FALLTHRU: applies also to ACL_STYLE_REGEX when pattern is "*" */ case ACL_STYLE_BASE: tmp_matches[0].rm_so = 0; tmp_matches[0].rm_eo = e->e_nname.bv_len; tmp_nmatch = 1; break; case ACL_STYLE_ONE: case ACL_STYLE_SUBTREE: case ACL_STYLE_CHILDREN: tmp_matches[0].rm_so = 0; tmp_matches[0].rm_eo = e->e_nname.bv_len; tmp_matches[1].rm_so = e->e_nname.bv_len - a->acl_dn_pat.bv_len; tmp_matches[1].rm_eo = e->e_nname.bv_len; tmp_nmatch = 2; break; default: /* error */ rc = 1; break; } if ( rc ) { continue; } if ( acl_string_expand( &bv, &b->a_group_pat, e->e_nname.bv_val, tmp_nmatch, tmp_matchesp ) ) { continue; } if ( dnNormalize( 0, NULL, NULL, &bv, &ndn, op->o_tmpmemctx ) != LDAP_SUCCESS ) { /* did not expand to a valid dn */ continue; } bv = ndn; } else { bv = b->a_group_pat; } rc = backend_group( op, e, &bv, &op->o_ndn, b->a_group_oc, b->a_group_at ); if ( ndn.bv_val ) { slap_sl_free( ndn.bv_val, op->o_tmpmemctx ); } if ( rc != 0 ) { continue; } } if ( !BER_BVISEMPTY( &b->a_set_pat ) ) { struct berval bv; char buf[ACL_BUF_SIZE]; Debug( LDAP_DEBUG_ACL, "<= check a_set_pat: %s\n", b->a_set_pat.bv_val, 0, 0 ); if ( b->a_set_style == ACL_STYLE_EXPAND ) { int tmp_nmatch; regmatch_t tmp_matches[2], *tmp_matchesp = tmp_matches; int rc = 0; bv.bv_len = sizeof( buf ) - 1; bv.bv_val = buf; rc = 0; switch ( a->acl_dn_style ) { case ACL_STYLE_REGEX: if ( !BER_BVISNULL( &a->acl_dn_pat ) ) { tmp_matchesp = matches; tmp_nmatch = nmatch; break; } /* FALLTHRU: applies also to ACL_STYLE_REGEX when pattern is "*" */ case ACL_STYLE_BASE: tmp_matches[0].rm_so = 0; tmp_matches[0].rm_eo = e->e_nname.bv_len; tmp_nmatch = 1; break; case ACL_STYLE_ONE: case ACL_STYLE_SUBTREE: case ACL_STYLE_CHILDREN: tmp_matches[0].rm_so = 0; tmp_matches[0].rm_eo = e->e_nname.bv_len; tmp_matches[1].rm_so = e->e_nname.bv_len - a->acl_dn_pat.bv_len; tmp_matches[1].rm_eo = e->e_nname.bv_len; tmp_nmatch = 2; break; default: /* error */ rc = 1; break; } if ( rc ) { continue; } if ( acl_string_expand( &bv, &b->a_set_pat, e->e_nname.bv_val, tmp_nmatch, tmp_matchesp ) ) { continue; } } else { bv = b->a_set_pat; } if ( acl_match_set( &bv, op, e, 0 ) == 0 ) { continue; } } if ( b->a_authz.sai_ssf ) { Debug( LDAP_DEBUG_ACL, "<= check a_authz.sai_ssf: ACL %u > OP %u\n", b->a_authz.sai_ssf, op->o_ssf, 0 ); if ( b->a_authz.sai_ssf > op->o_ssf ) { continue; } } if ( b->a_authz.sai_transport_ssf ) { Debug( LDAP_DEBUG_ACL, "<= check a_authz.sai_transport_ssf: ACL %u > OP %u\n", b->a_authz.sai_transport_ssf, op->o_transport_ssf, 0 ); if ( b->a_authz.sai_transport_ssf > op->o_transport_ssf ) { continue; } } if ( b->a_authz.sai_tls_ssf ) { Debug( LDAP_DEBUG_ACL, "<= check a_authz.sai_tls_ssf: ACL %u > OP %u\n", b->a_authz.sai_tls_ssf, op->o_tls_ssf, 0 ); if ( b->a_authz.sai_tls_ssf > op->o_tls_ssf ) { continue; } } if ( b->a_authz.sai_sasl_ssf ) { Debug( LDAP_DEBUG_ACL, "<= check a_authz.sai_sasl_ssf: ACL %u > OP %u\n", b->a_authz.sai_sasl_ssf, op->o_sasl_ssf, 0 ); if ( b->a_authz.sai_sasl_ssf > op->o_sasl_ssf ) { continue; } } #ifdef SLAP_DYNACL if ( b->a_dynacl ) { slap_dynacl_t *da; slap_access_t tgrant, tdeny; Debug( LDAP_DEBUG_ACL, "<= check a_dynacl\n", 0, 0, 0 ); /* this case works different from the others above. * since aci's themselves give permissions, we need * to first check b->a_access_mask, the ACL's access level. */ if ( BER_BVISEMPTY( &e->e_nname ) ) { /* no ACIs in the root DSE */ continue; } /* first check if the right being requested * is allowed by the ACL clause. */ if ( ! ACL_PRIV_ISSET( b->a_access_mask, a2pmask ) ) { continue; } /* start out with nothing granted, nothing denied */ ACL_INIT(tgrant); ACL_INIT(tdeny); for ( da = b->a_dynacl; da; da = da->da_next ) { slap_access_t grant, deny; ACL_INIT(grant); ACL_INIT(deny); Debug( LDAP_DEBUG_ACL, " <= check a_dynacl: %s\n", da->da_name, 0, 0 ); (void)( *da->da_mask )( da->da_private, op, e, desc, val, nmatch, matches, &grant, &deny ); tgrant |= grant; tdeny |= deny; } /* remove anything that the ACL clause does not allow */ tgrant &= b->a_access_mask & ACL_PRIV_MASK; tdeny &= ACL_PRIV_MASK; /* see if we have anything to contribute */ if( ACL_IS_INVALID(tgrant) && ACL_IS_INVALID(tdeny) ) { continue; } /* this could be improved by changing slap_acl_mask so that it can deal with * by clauses that return grant/deny pairs. Right now, it does either * additive or subtractive rights, but not both at the same time. So, * we need to combine the grant/deny pair into a single rights mask in * a smart way: if either grant or deny is "empty", then we use the * opposite as is, otherwise we remove any denied rights from the grant * rights mask and construct an additive mask. */ if (ACL_IS_INVALID(tdeny)) { modmask = tgrant | ACL_PRIV_ADDITIVE; } else if (ACL_IS_INVALID(tgrant)) { modmask = tdeny | ACL_PRIV_SUBSTRACTIVE; } else { modmask = (tgrant & ~tdeny) | ACL_PRIV_ADDITIVE; } } else #else /* !SLAP_DYNACL */ #ifdef SLAPD_ACI_ENABLED if ( b->a_aci_at != NULL ) { Attribute *at; slap_access_t grant, deny, tgrant, tdeny; struct berval parent_ndn; BerVarray bvals = NULL; int ret, stop; Debug( LDAP_DEBUG_ACL, " <= check a_aci_at: %s\n", b->a_aci_at->ad_cname.bv_val, 0, 0 ); /* this case works different from the others above. * since aci's themselves give permissions, we need * to first check b->a_access_mask, the ACL's access level. */ if ( BER_BVISEMPTY( &e->e_nname ) ) { /* no ACIs in the root DSE */ continue; } /* first check if the right being requested * is allowed by the ACL clause. */ if ( ! ACL_GRANT( b->a_access_mask, *mask ) ) { continue; } /* start out with nothing granted, nothing denied */ ACL_INIT(tgrant); ACL_INIT(tdeny); /* get the aci attribute */ at = attr_find( e->e_attrs, b->a_aci_at ); if ( at != NULL ) { #if 0 /* FIXME: this breaks acl caching; * see also ACL_RECORD_VALUE_STATE below */ ACL_RECORD_VALUE_STATE; #endif /* the aci is an multi-valued attribute. The * rights are determined by OR'ing the individual * rights given by the acis. */ for ( i = 0; !BER_BVISNULL( &at->a_nvals[i] ); i++ ) { if ( aci_mask( op, e, desc, val, &at->a_nvals[i], nmatch, matches, &grant, &deny, SLAP_ACI_SCOPE_ENTRY ) != 0 ) { tgrant |= grant; tdeny |= deny; } } Debug(LDAP_DEBUG_ACL, "<= aci_mask grant %s deny %s\n", accessmask2str(tgrant, accessmaskbuf, 1), accessmask2str(tdeny, accessmaskbuf1, 1), 0); } /* If the entry level aci didn't contain anything valid for the * current operation, climb up the tree and evaluate the * acis with scope set to subtree */ if ( (tgrant == ACL_PRIV_NONE) && (tdeny == ACL_PRIV_NONE) ) { dnParent( &e->e_nname, &parent_ndn ); while ( !BER_BVISEMPTY( &parent_ndn ) ) { Debug(LDAP_DEBUG_ACL, "checking ACI of %s\n", parent_ndn.bv_val, 0, 0); ret = backend_attribute(op, NULL, &parent_ndn, b->a_aci_at, &bvals, ACL_AUTH); switch(ret){ case LDAP_SUCCESS : stop = 0; if (!bvals){ break; } for ( i = 0; !BER_BVISNULL( &bvals[i] ); i++ ) { #if 0 /* FIXME: this breaks acl caching; * see also ACL_RECORD_VALUE_STATE above */ ACL_RECORD_VALUE_STATE; #endif if ( aci_mask( op, e, desc, val, &bvals[i], nmatch, matches, &grant, &deny, SLAP_ACI_SCOPE_CHILDREN ) != 0 ) { tgrant |= grant; tdeny |= deny; /* evaluation stops as soon as either a "deny" or a * "grant" directive matches. */ if( (tgrant != ACL_PRIV_NONE) || (tdeny != ACL_PRIV_NONE) ){ stop = 1; } } Debug(LDAP_DEBUG_ACL, "<= aci_mask grant %s deny %s\n", accessmask2str(tgrant, accessmaskbuf, 1), accessmask2str(tdeny, accessmaskbuf1, 1), 0); } break; case LDAP_NO_SUCH_ATTRIBUTE: /* just go on if the aci-Attribute is not present in * the current entry */ Debug(LDAP_DEBUG_ACL, "no such attribute\n", 0, 0, 0); stop = 0; break; case LDAP_NO_SUCH_OBJECT: /* We have reached the base object */ Debug(LDAP_DEBUG_ACL, "no such object\n", 0, 0, 0); stop = 1; break; default: stop = 1; break; } if (stop){ break; } dnParent( &parent_ndn, &parent_ndn ); } } /* remove anything that the ACL clause does not allow */ tgrant &= b->a_access_mask & ACL_PRIV_MASK; tdeny &= ACL_PRIV_MASK; /* see if we have anything to contribute */ if( ACL_IS_INVALID(tgrant) && ACL_IS_INVALID(tdeny) ) { continue; } /* this could be improved by changing slap_acl_mask so that it can deal with * by clauses that return grant/deny pairs. Right now, it does either * additive or subtractive rights, but not both at the same time. So, * we need to combine the grant/deny pair into a single rights mask in * a smart way: if either grant or deny is "empty", then we use the * opposite as is, otherwise we remove any denied rights from the grant * rights mask and construct an additive mask. */ if (ACL_IS_INVALID(tdeny)) { modmask = tgrant | ACL_PRIV_ADDITIVE; } else if (ACL_IS_INVALID(tgrant)) { modmask = tdeny | ACL_PRIV_SUBSTRACTIVE; } else { modmask = (tgrant & ~tdeny) | ACL_PRIV_ADDITIVE; } } else #endif /* SLAPD_ACI_ENABLED */ #endif /* !SLAP_DYNACL */ { modmask = b->a_access_mask; } Debug( LDAP_DEBUG_ACL, "<= acl_mask: [%d] applying %s (%s)\n", i, accessmask2str( modmask, accessmaskbuf, 1 ), b->a_type == ACL_CONTINUE ? "continue" : b->a_type == ACL_BREAK ? "break" : "stop" ); /* save old mask */ oldmask = *mask; if( ACL_IS_ADDITIVE(modmask) ) { /* add privs */ ACL_PRIV_SET( *mask, modmask ); /* cleanup */ ACL_PRIV_CLR( *mask, ~ACL_PRIV_MASK ); } else if( ACL_IS_SUBTRACTIVE(modmask) ) { /* substract privs */ ACL_PRIV_CLR( *mask, modmask ); /* cleanup */ ACL_PRIV_CLR( *mask, ~ACL_PRIV_MASK ); } else { /* assign privs */ *mask = modmask; } a2pmask = *mask; Debug( LDAP_DEBUG_ACL, "<= acl_mask: [%d] mask: %s\n", i, accessmask2str(*mask, accessmaskbuf, 1), 0 ); if( b->a_type == ACL_CONTINUE ) { continue; } else if ( b->a_type == ACL_BREAK ) { return ACL_BREAK; } else { return ACL_STOP; } } /* implicit "by * none" clause */ ACL_INIT(*mask); Debug( LDAP_DEBUG_ACL, "<= acl_mask: no more clauses, returning %s (stop)\n", accessmask2str(*mask, accessmaskbuf, 1), 0, 0 ); return ACL_STOP; } /* * acl_check_modlist - check access control on the given entry to see if * it allows the given modifications by the user associated with op. * returns 1 if mods allowed ok * 0 mods not allowed */ int acl_check_modlist( Operation *op, Entry *e, Modifications *mlist ) { struct berval *bv; AccessControlState state = ACL_STATE_INIT; Backend *be; int be_null = 0; int ret = 1; /* default is access allowed */ be = op->o_bd; if ( be == NULL ) { be = LDAP_STAILQ_FIRST(&backendDB); be_null = 1; op->o_bd = be; } assert( be != NULL ); /* short circuit root database access */ if ( be_isroot( op ) ) { Debug( LDAP_DEBUG_ACL, "<= acl_access_allowed: granted to database root\n", 0, 0, 0 ); goto done; } /* use backend default access if no backend acls */ if( op->o_bd != NULL && op->o_bd->be_acl == NULL ) { Debug( LDAP_DEBUG_ACL, "=> access_allowed: backend default %s access %s to \"%s\"\n", access2str( ACL_WRITE ), op->o_bd->be_dfltaccess >= ACL_WRITE ? "granted" : "denied", op->o_dn.bv_val ); ret = (op->o_bd->be_dfltaccess >= ACL_WRITE); goto done; } for ( ; mlist != NULL; mlist = mlist->sml_next ) { /* * Internal mods are ignored by ACL_WRITE checking */ if ( mlist->sml_flags & SLAP_MOD_INTERNAL ) { Debug( LDAP_DEBUG_ACL, "acl: internal mod %s:" " modify access granted\n", mlist->sml_desc->ad_cname.bv_val, 0, 0 ); continue; } /* * no-user-modification operational attributes are ignored * by ACL_WRITE checking as any found here are not provided * by the user */ if ( is_at_no_user_mod( mlist->sml_desc->ad_type ) && ! ( mlist->sml_flags & SLAP_MOD_MANAGING ) ) { Debug( LDAP_DEBUG_ACL, "acl: no-user-mod %s:" " modify access granted\n", mlist->sml_desc->ad_cname.bv_val, 0, 0 ); continue; } switch ( mlist->sml_op ) { case LDAP_MOD_REPLACE: /* * We must check both permission to delete the whole * attribute and permission to add the specific attributes. * This prevents abuse from selfwriters. */ if ( ! access_allowed( op, e, mlist->sml_desc, NULL, ( mlist->sml_flags & SLAP_MOD_MANAGING ) ? ACL_MANAGE : ACL_WDEL, &state ) ) { ret = 0; goto done; } if ( mlist->sml_values == NULL ) break; /* fall thru to check value to add */ case LDAP_MOD_ADD: assert( mlist->sml_values != NULL ); for ( bv = mlist->sml_nvalues ? mlist->sml_nvalues : mlist->sml_values; bv->bv_val != NULL; bv++ ) { if ( ! access_allowed( op, e, mlist->sml_desc, bv, ( mlist->sml_flags & SLAP_MOD_MANAGING ) ? ACL_MANAGE : ACL_WADD, &state ) ) { ret = 0; goto done; } } break; case LDAP_MOD_DELETE: if ( mlist->sml_values == NULL ) { if ( ! access_allowed( op, e, mlist->sml_desc, NULL, ( mlist->sml_flags & SLAP_MOD_MANAGING ) ? ACL_MANAGE : ACL_WDEL, NULL ) ) { ret = 0; goto done; } break; } for ( bv = mlist->sml_nvalues ? mlist->sml_nvalues : mlist->sml_values; bv->bv_val != NULL; bv++ ) { if ( ! access_allowed( op, e, mlist->sml_desc, bv, ( mlist->sml_flags & SLAP_MOD_MANAGING ) ? ACL_MANAGE : ACL_WDEL, &state ) ) { ret = 0; goto done; } } break; case SLAP_MOD_SOFTADD: /* allow adding attribute via modrdn thru */ break; default: assert( 0 ); /* not reached */ ret = 0; break; } } done: if (be_null) op->o_bd = NULL; return( ret ); } int acl_get_part( struct berval *list, int ix, char sep, struct berval *bv ) { int len; char *p; if ( bv ) { BER_BVZERO( bv ); } len = list->bv_len; p = list->bv_val; while ( len >= 0 && --ix >= 0 ) { while ( --len >= 0 && *p++ != sep ) ; } while ( len >= 0 && *p == ' ' ) { len--; p++; } if ( len < 0 ) { return -1; } if ( !bv ) { return 0; } bv->bv_val = p; while ( --len >= 0 && *p != sep ) { bv->bv_len++; p++; } while ( bv->bv_len > 0 && *--p == ' ' ) { bv->bv_len--; } return bv->bv_len; } typedef struct acl_set_gather_t { SetCookie *cookie; BerVarray bvals; } acl_set_gather_t; static int acl_set_cb_gather( Operation *op, SlapReply *rs ) { acl_set_gather_t *p = (acl_set_gather_t *)op->o_callback->sc_private; if ( rs->sr_type == REP_SEARCH ) { BerValue bvals[ 2 ]; BerVarray bvalsp = NULL; int j; for ( j = 0; !BER_BVISNULL( &rs->sr_attrs[ j ].an_name ); j++ ) { AttributeDescription *desc = rs->sr_attrs[ j ].an_desc; if ( desc == slap_schema.si_ad_entryDN ) { bvalsp = bvals; bvals[ 0 ] = rs->sr_entry->e_nname; BER_BVZERO( &bvals[ 1 ] ); } else { Attribute *a; a = attr_find( rs->sr_entry->e_attrs, desc ); if ( a != NULL ) { int i; for ( i = 0; !BER_BVISNULL( &a->a_nvals[ i ] ); i++ ) ; bvalsp = a->a_nvals; } } } if ( bvals ) { p->bvals = slap_set_join( p->cookie, p->bvals, ( '|' | SLAP_SET_RREF ), bvalsp ); } } else { assert( rs->sr_type == REP_RESULT ); } return 0; } BerVarray acl_set_gather( SetCookie *cookie, struct berval *name, AttributeDescription *desc ) { AclSetCookie *cp = (AclSetCookie *)cookie; int rc = 0; LDAPURLDesc *ludp = NULL; Operation op2 = { 0 }; SlapReply rs = {REP_RESULT}; AttributeName anlist[ 2 ], *anlistp = NULL; int nattrs = 0; slap_callback cb = { NULL, acl_set_cb_gather, NULL, NULL }; acl_set_gather_t p = { 0 }; const char *text = NULL; static struct berval defaultFilter_bv = BER_BVC( "(objectClass=*)" ); /* this routine needs to return the bervals instead of * plain strings, since syntax is not known. It should * also return the syntax or some "comparison cookie". */ if ( strncasecmp( name->bv_val, "ldap:///", STRLENOF( "ldap:///" ) ) != 0 ) { return acl_set_gather2( cookie, name, desc ); } rc = ldap_url_parse( name->bv_val, &ludp ); if ( rc != LDAP_URL_SUCCESS ) { rc = LDAP_PROTOCOL_ERROR; goto url_done; } if ( ( ludp->lud_host && ludp->lud_host[0] ) || ludp->lud_exts ) { /* host part must be empty */ /* extensions parts must be empty */ rc = LDAP_PROTOCOL_ERROR; goto url_done; } /* Grab the searchbase and see if an appropriate database can be found */ ber_str2bv( ludp->lud_dn, 0, 0, &op2.o_req_dn ); rc = dnNormalize( 0, NULL, NULL, &op2.o_req_dn, &op2.o_req_ndn, cp->asc_op->o_tmpmemctx ); BER_BVZERO( &op2.o_req_dn ); if ( rc != LDAP_SUCCESS ) { goto url_done; } op2.o_bd = select_backend( &op2.o_req_ndn, 0, 1 ); if ( ( op2.o_bd == NULL ) || ( op2.o_bd->be_search == NULL ) ) { rc = LDAP_NO_SUCH_OBJECT; goto url_done; } /* Grab the filter */ if ( ludp->lud_filter ) { ber_str2bv_x( ludp->lud_filter, 0, 0, &op2.ors_filterstr, cp->asc_op->o_tmpmemctx ); } else { op2.ors_filterstr = defaultFilter_bv; } op2.ors_filter = str2filter_x( cp->asc_op, op2.ors_filterstr.bv_val ); if ( op2.ors_filter == NULL ) { rc = LDAP_PROTOCOL_ERROR; goto url_done; } /* Grab the scope */ op2.ors_scope = ludp->lud_scope; /* Grap the attributes */ if ( ludp->lud_attrs ) { for ( ; ludp->lud_attrs[ nattrs ]; nattrs++ ) ; anlistp = slap_sl_malloc( sizeof( AttributeName ) * ( nattrs + 2 ), cp->asc_op->o_tmpmemctx ); for ( ; ludp->lud_attrs[ nattrs ]; nattrs++ ) { ber_str2bv( ludp->lud_attrs[ nattrs ], 0, 0, &anlistp[ nattrs ].an_name ); anlistp[ nattrs ].an_desc = NULL; rc = slap_bv2ad( &anlistp[ nattrs ].an_name, &anlistp[ nattrs ].an_desc, &text ); if ( rc != LDAP_SUCCESS ) { goto url_done; } } } else { anlistp = anlist; } anlistp[ nattrs ].an_name = desc->ad_cname; anlistp[ nattrs ].an_desc = desc; BER_BVZERO( &anlistp[ nattrs + 1 ].an_name ); p.cookie = cookie; op2.o_hdr = cp->asc_op->o_hdr; op2.o_tag = LDAP_REQ_SEARCH; op2.o_ndn = op2.o_bd->be_rootndn; op2.o_callback = &cb; op2.o_time = slap_get_time(); op2.o_do_not_cache = 1; op2.o_is_auth_check = 0; ber_dupbv_x( &op2.o_req_dn, &op2.o_req_ndn, cp->asc_op->o_tmpmemctx ); op2.ors_slimit = SLAP_NO_LIMIT; op2.ors_tlimit = SLAP_NO_LIMIT; op2.ors_attrs = anlistp; op2.ors_attrsonly = 0; op2.o_private = cp->asc_op->o_private; cb.sc_private = &p; rc = op2.o_bd->be_search( &op2, &rs ); if ( rc != 0 ) { goto url_done; } url_done:; if ( op2.ors_filter ) { filter_free_x( cp->asc_op, op2.ors_filter ); } if ( !BER_BVISNULL( &op2.o_req_ndn ) ) { slap_sl_free( op2.o_req_ndn.bv_val, cp->asc_op->o_tmpmemctx ); } if ( !BER_BVISNULL( &op2.o_req_dn ) ) { slap_sl_free( op2.o_req_dn.bv_val, cp->asc_op->o_tmpmemctx ); } if ( ludp ) { ldap_free_urldesc( ludp ); } if ( anlistp && anlistp != anlist ) { slap_sl_free( anlistp, cp->asc_op->o_tmpmemctx ); } return p.bvals; } BerVarray acl_set_gather2( SetCookie *cookie, struct berval *name, AttributeDescription *desc ) { AclSetCookie *cp = (AclSetCookie *)cookie; BerVarray bvals = NULL; struct berval ndn; int rc = 0; /* this routine needs to return the bervals instead of * plain strings, since syntax is not known. It should * also return the syntax or some "comparison cookie". */ rc = dnNormalize( 0, NULL, NULL, name, &ndn, cp->asc_op->o_tmpmemctx ); if ( rc == LDAP_SUCCESS ) { if ( desc == slap_schema.si_ad_entryDN ) { bvals = (BerVarray)slap_sl_malloc( sizeof( BerValue ) * 2, cp->asc_op->o_tmpmemctx ); bvals[ 0 ] = ndn; BER_BVZERO( &bvals[ 1 ] ); BER_BVZERO( &ndn ); } else { backend_attribute( cp->asc_op, cp->asc_e, &ndn, desc, &bvals, ACL_NONE ); } if ( !BER_BVISNULL( &ndn ) ) { slap_sl_free( ndn.bv_val, cp->asc_op->o_tmpmemctx ); } } return bvals; } int acl_match_set ( struct berval *subj, Operation *op, Entry *e, int setref ) { struct berval set = BER_BVNULL; int rc = 0; AclSetCookie cookie; if ( setref == 0 ) { ber_dupbv_x( &set, subj, op->o_tmpmemctx ); } else { struct berval subjdn, ndn = BER_BVNULL; struct berval setat; BerVarray bvals; const char *text; AttributeDescription *desc = NULL; /* format of string is "entry/setAttrName" */ if ( acl_get_part( subj, 0, '/', &subjdn ) < 0 ) { return 0; } if ( acl_get_part( subj, 1, '/', &setat ) < 0 ) { setat = aci_bv[ ACI_BV_SET_ATTR ]; } /* * NOTE: dnNormalize honors the ber_len field * as the length of the dn to be normalized */ if ( slap_bv2ad( &setat, &desc, &text ) == LDAP_SUCCESS ) { if ( dnNormalize( 0, NULL, NULL, &subjdn, &ndn, op->o_tmpmemctx ) == LDAP_SUCCESS ) { backend_attribute( op, e, &ndn, desc, &bvals, ACL_NONE ); if ( bvals != NULL && !BER_BVISNULL( &bvals[0] ) ) { int i; set = bvals[0]; BER_BVZERO( &bvals[0] ); for ( i = 1; !BER_BVISNULL( &bvals[i] ); i++ ) /* count */ ; bvals[0].bv_val = bvals[i-1].bv_val; BER_BVZERO( &bvals[i-1] ); } ber_bvarray_free_x( bvals, op->o_tmpmemctx ); slap_sl_free( ndn.bv_val, op->o_tmpmemctx ); } } } if ( !BER_BVISNULL( &set ) ) { cookie.asc_op = op; cookie.asc_e = e; rc = ( slap_set_filter( acl_set_gather, (SetCookie *)&cookie, &set, &op->o_ndn, &e->e_nname, NULL ) > 0 ); slap_sl_free( set.bv_val, op->o_tmpmemctx ); } return(rc); } #ifdef SLAP_DYNACL /* * dynamic ACL infrastructure */ static slap_dynacl_t *da_list = NULL; int slap_dynacl_register( slap_dynacl_t *da ) { slap_dynacl_t *tmp; for ( tmp = da_list; tmp; tmp = tmp->da_next ) { if ( strcasecmp( da->da_name, tmp->da_name ) == 0 ) { break; } } if ( tmp != NULL ) { return -1; } if ( da->da_mask == NULL ) { return -1; } da->da_private = NULL; da->da_next = da_list; da_list = da; return 0; } static slap_dynacl_t * slap_dynacl_next( slap_dynacl_t *da ) { if ( da ) { return da->da_next; } return da_list; } slap_dynacl_t * slap_dynacl_get( const char *name ) { slap_dynacl_t *da; for ( da = slap_dynacl_next( NULL ); da; da = slap_dynacl_next( da ) ) { if ( strcasecmp( da->da_name, name ) == 0 ) { break; } } return da; } #endif /* SLAP_DYNACL */ int acl_init( void ) { int rc = 0; #ifdef SLAPD_ACI_ENABLED #ifdef SLAP_DYNACL rc = dynacl_aci_init(); #else /* !SLAP_DYNACL */ rc = aci_init(); #endif /* !SLAP_DYNACL */ if ( rc != 0 ) { return rc; } #endif /* SLAPD_ACI_ENABLED */ return rc; } int acl_string_expand( struct berval *bv, struct berval *pat, char *match, int nmatch, regmatch_t *matches) { ber_len_t size; char *sp; char *dp; int flag; size = 0; bv->bv_val[0] = '\0'; bv->bv_len--; /* leave space for lone $ */ flag = 0; for ( dp = bv->bv_val, sp = pat->bv_val; size < bv->bv_len && sp < pat->bv_val + pat->bv_len ; sp++ ) { /* did we previously see a $ */ if ( flag ) { if ( flag == 1 && *sp == '$' ) { *dp++ = '$'; size++; flag = 0; } else if ( flag == 1 && *sp == '{' /*'}'*/) { flag = 2; } else if ( *sp >= '0' && *sp <= '9' ) { int n; int i; int l; n = *sp - '0'; if ( flag == 2 ) { for ( sp++; *sp != '\0' && *sp != /*'{'*/ '}'; sp++ ) { if ( *sp >= '0' && *sp <= '9' ) { n = 10*n + ( *sp - '0' ); } } if ( *sp != /*'{'*/ '}' ) { /* FIXME: error */ return 1; } } if ( n >= nmatch ) { /* FIXME: error */ return 1; } *dp = '\0'; i = matches[n].rm_so; l = matches[n].rm_eo; for ( ; size < bv->bv_len && i < l; size++, i++ ) { *dp++ = match[i]; } *dp = '\0'; flag = 0; } } else { if (*sp == '$') { flag = 1; } else { *dp++ = *sp; size++; } } } if ( flag ) { /* must have ended with a single $ */ *dp++ = '$'; size++; } *dp = '\0'; bv->bv_len = size; Debug( LDAP_DEBUG_TRACE, "=> acl_string_expand: pattern: %.*s\n", (int)pat->bv_len, pat->bv_val, 0 ); Debug( LDAP_DEBUG_TRACE, "=> acl_string_expand: expanded: %s\n", bv->bv_val, 0, 0 ); return 0; } static int regex_matches( struct berval *pat, /* pattern to expand and match against */ char *str, /* string to match against pattern */ char *buf, /* buffer with $N expansion variables */ int nmatch, /* size of the matches array */ regmatch_t *matches /* offsets in buffer for $N expansion variables */ ) { regex_t re; char newbuf[ACL_BUF_SIZE]; struct berval bv; int rc; bv.bv_len = sizeof( newbuf ) - 1; bv.bv_val = newbuf; if (str == NULL) { str = ""; }; acl_string_expand( &bv, pat, buf, nmatch, matches ); rc = regcomp( &re, newbuf, REG_EXTENDED|REG_ICASE ); if ( rc ) { char error[ACL_BUF_SIZE]; regerror( rc, &re, error, sizeof( error ) ); Debug( LDAP_DEBUG_TRACE, "compile( \"%s\", \"%s\") failed %s\n", pat->bv_val, str, error ); return( 0 ); } rc = regexec( &re, str, 0, NULL, 0 ); regfree( &re ); Debug( LDAP_DEBUG_TRACE, "=> regex_matches: string: %s\n", str, 0, 0 ); Debug( LDAP_DEBUG_TRACE, "=> regex_matches: rc: %d %s\n", rc, !rc ? "matches" : "no matches", 0 ); return( !rc ); }