/* limits.c - routines to handle regex-based size and time limits */ /* $OpenLDAP$ */ /* This work is part of OpenLDAP Software . * * Copyright 1998-2019 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 * . */ #include "portable.h" #include #include #include #include #include "slap.h" #include "lutil.h" /* define to get an error if requesting limit higher than hard */ #undef ABOVE_HARD_LIMIT_IS_ERROR static const struct berval lmpats[] = { BER_BVC( "base" ), BER_BVC( "base" ), BER_BVC( "onelevel" ), BER_BVC( "subtree" ), BER_BVC( "children" ), BER_BVC( "regex" ), BER_BVC( "anonymous" ), BER_BVC( "users" ), BER_BVC( "*" ) }; #ifdef LDAP_DEBUG static const char *const dn_source[2] = { "DN", "DN.THIS" }; static const char *const lmpats_out[] = { "UNDEFINED", "EXACT", "ONELEVEL", "SUBTREE", "CHILDREN", "REGEX", "ANONYMOUS", "USERS", "ANY" }; static const char * limits2str( unsigned i ) { return i < (sizeof( lmpats_out ) / sizeof( lmpats_out[0] )) ? lmpats_out[i] : "UNKNOWN"; } #endif /* LDAP_DEBUG */ static int limits_get( Operation *op, struct slap_limits_set **limit ) { static struct berval empty_dn = BER_BVC( "" ); struct slap_limits **lm; struct berval *ndns[2]; assert( op != NULL ); assert( limit != NULL ); ndns[0] = &op->o_ndn; ndns[1] = &op->o_req_ndn; Debug( LDAP_DEBUG_TRACE, "==> limits_get: %s self=\"%s\" this=\"%s\"\n", op->o_log_prefix, BER_BVISNULL( ndns[0] ) ? "[anonymous]" : ndns[0]->bv_val, BER_BVISNULL( ndns[1] ) ? "" : ndns[1]->bv_val ); /* * default values */ *limit = &op->o_bd->be_def_limit; if ( op->o_bd->be_limits == NULL ) { return( 0 ); } for ( lm = op->o_bd->be_limits; lm[0] != NULL; lm++ ) { unsigned style = lm[0]->lm_flags & SLAP_LIMITS_MASK; unsigned type = lm[0]->lm_flags & SLAP_LIMITS_TYPE_MASK; unsigned isthis = type == SLAP_LIMITS_TYPE_THIS; struct berval *ndn = ndns[isthis]; if ( style == SLAP_LIMITS_ANY ) goto found_any; if ( BER_BVISEMPTY( ndn ) ) { if ( style == SLAP_LIMITS_ANONYMOUS ) goto found_nodn; if ( !isthis ) continue; ndn = &empty_dn; } switch ( style ) { case SLAP_LIMITS_EXACT: if ( type == SLAP_LIMITS_TYPE_GROUP ) { int rc = backend_group( op, NULL, &lm[0]->lm_pat, ndn, lm[0]->lm_group_oc, lm[0]->lm_group_ad ); if ( rc == 0 ) { goto found_group; } } else { if ( dn_match( &lm[0]->lm_pat, ndn ) ) { goto found_dn; } } break; case SLAP_LIMITS_ONE: case SLAP_LIMITS_SUBTREE: case SLAP_LIMITS_CHILDREN: { ber_len_t d; /* ndn shorter than lm_pat */ if ( ndn->bv_len < lm[0]->lm_pat.bv_len ) { break; } d = ndn->bv_len - lm[0]->lm_pat.bv_len; if ( d == 0 ) { /* allow exact match for SUBTREE only */ if ( style != SLAP_LIMITS_SUBTREE ) { break; } } else { /* check for unescaped rdn separator */ if ( !DN_SEPARATOR( ndn->bv_val[d - 1] ) ) { break; } } /* check that ndn ends with lm_pat */ if ( strcmp( lm[0]->lm_pat.bv_val, &ndn->bv_val[d] ) != 0 ) { break; } /* in case of ONE, require exactly one rdn below lm_pat */ if ( style == SLAP_LIMITS_ONE ) { if ( dn_rdnlen( NULL, ndn ) != d - 1 ) { break; } } goto found_dn; } case SLAP_LIMITS_REGEX: if ( regexec( &lm[0]->lm_regex, ndn->bv_val, 0, NULL, 0 ) == 0 ) { goto found_dn; } break; case SLAP_LIMITS_ANONYMOUS: break; case SLAP_LIMITS_USERS: found_nodn: Debug( LDAP_DEBUG_TRACE, "<== limits_get: type=%s match=%s\n", dn_source[isthis], limits2str( style ) ); found_any: *limit = &lm[0]->lm_limits; return( 0 ); found_dn: Debug( LDAP_DEBUG_TRACE, "<== limits_get: type=%s match=%s dn=\"%s\"\n", dn_source[isthis], limits2str( style ), lm[0]->lm_pat.bv_val ); *limit = &lm[0]->lm_limits; return( 0 ); found_group: Debug( LDAP_DEBUG_TRACE, "<== limits_get: type=GROUP match=EXACT " "dn=\"%s\" oc=\"%s\" ad=\"%s\"\n", lm[0]->lm_pat.bv_val, lm[0]->lm_group_oc->soc_cname.bv_val, lm[0]->lm_group_ad->ad_cname.bv_val ); *limit = &lm[0]->lm_limits; return( 0 ); default: assert( 0 ); /* unreachable */ return( -1 ); } } return( 0 ); } static int limits_add( Backend *be, unsigned flags, const char *pattern, ObjectClass *group_oc, AttributeDescription *group_ad, struct slap_limits_set *limit ) { int i; struct slap_limits *lm; unsigned type, style; assert( be != NULL ); assert( limit != NULL ); type = flags & SLAP_LIMITS_TYPE_MASK; style = flags & SLAP_LIMITS_MASK; switch ( style ) { case SLAP_LIMITS_ANONYMOUS: case SLAP_LIMITS_USERS: case SLAP_LIMITS_ANY: /* For these styles, type == 0 (SLAP_LIMITS_TYPE_SELF). */ for ( i = 0; be->be_limits && be->be_limits[ i ]; i++ ) { if ( be->be_limits[ i ]->lm_flags == style ) { return( -1 ); } } break; } lm = ( struct slap_limits * )ch_calloc( sizeof( struct slap_limits ), 1 ); switch ( style ) { case SLAP_LIMITS_UNDEFINED: style = SLAP_LIMITS_EXACT; /* continue to next cases */ case SLAP_LIMITS_EXACT: case SLAP_LIMITS_ONE: case SLAP_LIMITS_SUBTREE: case SLAP_LIMITS_CHILDREN: { int rc; struct berval bv; ber_str2bv( pattern, 0, 0, &bv ); rc = dnNormalize( 0, NULL, NULL, &bv, &lm->lm_pat, NULL ); if ( rc != LDAP_SUCCESS ) { ch_free( lm ); return( -1 ); } } break; case SLAP_LIMITS_REGEX: ber_str2bv( pattern, 0, 1, &lm->lm_pat ); if ( regcomp( &lm->lm_regex, lm->lm_pat.bv_val, REG_EXTENDED | REG_ICASE ) ) { free( lm->lm_pat.bv_val ); ch_free( lm ); return( -1 ); } break; case SLAP_LIMITS_ANONYMOUS: case SLAP_LIMITS_USERS: case SLAP_LIMITS_ANY: BER_BVZERO( &lm->lm_pat ); break; } switch ( type ) { case SLAP_LIMITS_TYPE_GROUP: assert( group_oc != NULL ); assert( group_ad != NULL ); lm->lm_group_oc = group_oc; lm->lm_group_ad = group_ad; break; } lm->lm_flags = style | type; lm->lm_limits = *limit; i = 0; if ( be->be_limits != NULL ) { for ( ; be->be_limits[i]; i++ ); } be->be_limits = ( struct slap_limits ** )ch_realloc( be->be_limits, sizeof( struct slap_limits * ) * ( i + 2 ) ); be->be_limits[i] = lm; be->be_limits[i+1] = NULL; return( 0 ); } #define STRSTART( s, m ) (strncasecmp( s, m, STRLENOF( "" m "" )) == 0) int limits_parse( Backend *be, const char *fname, int lineno, int argc, char **argv ) { int flags = SLAP_LIMITS_UNDEFINED; char *pattern; struct slap_limits_set limit; int i, rc = 0; ObjectClass *group_oc = NULL; AttributeDescription *group_ad = NULL; assert( be != NULL ); if ( argc < 3 ) { Debug( LDAP_DEBUG_ANY, "%s : line %d: missing arg(s) in " "\"limits \" line.\n", fname, lineno ); return( -1 ); } limit = be->be_def_limit; /* * syntax: * * "limits" [ ... ] * * * : * * "anonymous" * "users" * [ "dn" [ "." { "this" | "self" } ] [ "." { "exact" | "base" | * "onelevel" | "subtree" | "children" | "regex" | "anonymous" } ] * "=" ] * * Note: * "this" is the baseobject, "self" (the default) is the bound DN * "exact" and "base" are the same (exact match); * "onelevel" means exactly one rdn below, NOT including pattern * "subtree" means any rdn below, including pattern * "children" means any rdn below, NOT including pattern * * "anonymous" may be deprecated in favour * of the pattern = "anonymous" form * * "group[/objectClass[/attributeType]]" "=" "" * * : * * "time" [ "." { "soft" | "hard" } ] "=" * * "size" [ "." { "soft" | "hard" | "unchecked" } ] "=" */ pattern = argv[1]; if ( strcmp( pattern, "*" ) == 0) { flags = SLAP_LIMITS_ANY; } else if ( strcasecmp( pattern, "anonymous" ) == 0 ) { flags = SLAP_LIMITS_ANONYMOUS; } else if ( strcasecmp( pattern, "users" ) == 0 ) { flags = SLAP_LIMITS_USERS; } else if ( STRSTART( pattern, "dn" ) ) { pattern += STRLENOF( "dn" ); flags = SLAP_LIMITS_TYPE_SELF; if ( pattern[0] == '.' ) { pattern++; if ( STRSTART( pattern, "this" ) ) { flags = SLAP_LIMITS_TYPE_THIS; pattern += STRLENOF( "this" ); } else if ( STRSTART( pattern, "self" ) ) { pattern += STRLENOF( "self" ); } else { goto got_dn_dot; } } if ( pattern[0] == '.' ) { pattern++; got_dn_dot: if ( STRSTART( pattern, "exact" ) ) { flags |= SLAP_LIMITS_EXACT; pattern += STRLENOF( "exact" ); } else if ( STRSTART( pattern, "base" ) ) { flags |= SLAP_LIMITS_BASE; pattern += STRLENOF( "base" ); } else if ( STRSTART( pattern, "one" ) ) { flags |= SLAP_LIMITS_ONE; pattern += STRLENOF( "one" ); if ( STRSTART( pattern, "level" ) ) { pattern += STRLENOF( "level" ); } else { Debug( LDAP_DEBUG_ANY, "%s : line %d: deprecated \"one\" style " "\"limits \" line; " "use \"onelevel\" instead.\n", fname, lineno ); } } else if ( STRSTART( pattern, "sub" ) ) { flags |= SLAP_LIMITS_SUBTREE; pattern += STRLENOF( "sub" ); if ( STRSTART( pattern, "tree" ) ) { pattern += STRLENOF( "tree" ); } else { Debug( LDAP_DEBUG_ANY, "%s : line %d: deprecated \"sub\" style " "\"limits \" line; " "use \"subtree\" instead.\n", fname, lineno ); } } else if ( STRSTART( pattern, "children" ) ) { flags |= SLAP_LIMITS_CHILDREN; pattern += STRLENOF( "children" ); } else if ( STRSTART( pattern, "regex" ) ) { flags |= SLAP_LIMITS_REGEX; pattern += STRLENOF( "regex" ); /* * this could be deprecated in favour * of the pattern = "anonymous" form */ } else if ( STRSTART( pattern, "anonymous" ) && flags == SLAP_LIMITS_TYPE_SELF ) { flags = SLAP_LIMITS_ANONYMOUS; pattern = NULL; } else { /* force error below */ if ( *pattern == '=' ) --pattern; } } /* pre-check the data */ if ( pattern != NULL ) { if ( pattern[0] != '=' ) { Debug( LDAP_DEBUG_ANY, "%s : line %d: %s in " "\"dn[.{this|self}][.{exact|base" "|onelevel|subtree|children|regex" "|anonymous}]=\" in " "\"limits \" line.\n", fname, lineno, isalnum( (unsigned char)pattern[0] ) ? "unknown DN modifier" : "missing '='" ); return( -1 ); } /* skip '=' (required) */ pattern++; /* trim obvious cases */ if ( strcmp( pattern, "*" ) == 0 ) { flags = SLAP_LIMITS_ANY; pattern = NULL; } else if ( (flags & SLAP_LIMITS_MASK) == SLAP_LIMITS_REGEX && strcmp( pattern, ".*" ) == 0 ) { flags = SLAP_LIMITS_ANY; pattern = NULL; } } } else if (STRSTART( pattern, "group" ) ) { pattern += STRLENOF( "group" ); if ( pattern[0] == '/' ) { struct berval oc, ad; oc.bv_val = pattern + 1; pattern = strchr( pattern, '=' ); if ( pattern == NULL ) { return -1; } ad.bv_val = strchr( oc.bv_val, '/' ); if ( ad.bv_val != NULL ) { const char *text = NULL; oc.bv_len = ad.bv_val - oc.bv_val; ad.bv_val++; ad.bv_len = pattern - ad.bv_val; rc = slap_bv2ad( &ad, &group_ad, &text ); if ( rc != LDAP_SUCCESS ) { goto no_ad; } } else { oc.bv_len = pattern - oc.bv_val; } group_oc = oc_bvfind( &oc ); if ( group_oc == NULL ) { goto no_oc; } } if ( group_oc == NULL ) { group_oc = oc_find( SLAPD_GROUP_CLASS ); if ( group_oc == NULL ) { no_oc:; return( -1 ); } } if ( group_ad == NULL ) { const char *text = NULL; rc = slap_str2ad( SLAPD_GROUP_ATTR, &group_ad, &text ); if ( rc != LDAP_SUCCESS ) { no_ad:; return( -1 ); } } flags = SLAP_LIMITS_TYPE_GROUP | SLAP_LIMITS_EXACT; if ( pattern[0] != '=' ) { Debug( LDAP_DEBUG_ANY, "%s : line %d: missing '=' in " "\"group[/objectClass[/attributeType]]" "=\" in " "\"limits \" line.\n", fname, lineno ); return( -1 ); } /* skip '=' (required) */ pattern++; } /* get the limits */ for ( i = 2; i < argc; i++ ) { if ( limits_parse_one( argv[i], &limit ) ) { Debug( LDAP_DEBUG_ANY, "%s : line %d: unknown limit values \"%s\" in " "\"limits \" line.\n", fname, lineno, argv[i] ); return( 1 ); } } /* * sanity checks ... * * FIXME: add warnings? */ if ( limit.lms_t_hard > 0 && ( limit.lms_t_hard < limit.lms_t_soft || limit.lms_t_soft == -1 ) ) { limit.lms_t_hard = limit.lms_t_soft; } if ( limit.lms_s_hard > 0 && ( limit.lms_s_hard < limit.lms_s_soft || limit.lms_s_soft == -1 ) ) { limit.lms_s_hard = limit.lms_s_soft; } /* * defaults ... * * lms_t_hard: * -1 => no limits * 0 => same as soft * > 0 => limit (in seconds) * * lms_s_hard: * -1 => no limits * 0 0> same as soft * > 0 => limit (in entries) * * lms_s_pr_total: * -2 => disable the control * -1 => no limits * 0 => same as soft * > 0 => limit (in entries) * * lms_s_pr: * -1 => no limits * 0 => no limits? * > 0 => limit size (in entries) */ if ( limit.lms_s_pr_total > 0 && limit.lms_s_pr > limit.lms_s_pr_total ) { limit.lms_s_pr = limit.lms_s_pr_total; } rc = limits_add( be, flags, pattern, group_oc, group_ad, &limit ); if ( rc ) { Debug( LDAP_DEBUG_ANY, "%s : line %d: unable to add limit in " "\"limits \" line.\n", fname, lineno ); } return( rc ); } int limits_parse_one( const char *arg, struct slap_limits_set *limit ) { assert( arg != NULL ); assert( limit != NULL ); if ( STRSTART( arg, "time" ) ) { arg += STRLENOF( "time" ); if ( arg[0] == '.' ) { arg++; if ( STRSTART( arg, "soft=" ) ) { arg += STRLENOF( "soft=" ); if ( strcasecmp( arg, "unlimited" ) == 0 || strcasecmp( arg, "none" ) == 0 ) { limit->lms_t_soft = -1; } else { int soft; if ( lutil_atoi( &soft, arg ) != 0 || soft < -1 ) { return( 1 ); } if ( soft == -1 ) { /* FIXME: use "unlimited" instead; issue warning? */ } limit->lms_t_soft = soft; } } else if ( STRSTART( arg, "hard=" ) ) { arg += STRLENOF( "hard=" ); if ( strcasecmp( arg, "soft" ) == 0 ) { limit->lms_t_hard = 0; } else if ( strcasecmp( arg, "unlimited" ) == 0 || strcasecmp( arg, "none" ) == 0 ) { limit->lms_t_hard = -1; } else { int hard; if ( lutil_atoi( &hard, arg ) != 0 || hard < -1 ) { return( 1 ); } if ( hard == -1 ) { /* FIXME: use "unlimited" instead */ } if ( hard == 0 ) { /* FIXME: use "soft" instead */ } limit->lms_t_hard = hard; } } else { return( 1 ); } } else if ( arg[0] == '=' ) { arg++; if ( strcasecmp( arg, "unlimited" ) == 0 || strcasecmp( arg, "none" ) == 0 ) { limit->lms_t_soft = -1; } else { if ( lutil_atoi( &limit->lms_t_soft, arg ) != 0 || limit->lms_t_soft < -1 ) { return( 1 ); } } limit->lms_t_hard = 0; } else { return( 1 ); } } else if ( STRSTART( arg, "size" ) ) { arg += STRLENOF( "size" ); if ( arg[0] == '.' ) { arg++; if ( STRSTART( arg, "soft=" ) ) { arg += STRLENOF( "soft=" ); if ( strcasecmp( arg, "unlimited" ) == 0 || strcasecmp( arg, "none" ) == 0 ) { limit->lms_s_soft = -1; } else { int soft; if ( lutil_atoi( &soft, arg ) != 0 || soft < -1 ) { return( 1 ); } if ( soft == -1 ) { /* FIXME: use "unlimited" instead */ } limit->lms_s_soft = soft; } } else if ( STRSTART( arg, "hard=" ) ) { arg += STRLENOF( "hard=" ); if ( strcasecmp( arg, "soft" ) == 0 ) { limit->lms_s_hard = 0; } else if ( strcasecmp( arg, "unlimited" ) == 0 || strcasecmp( arg, "none" ) == 0 ) { limit->lms_s_hard = -1; } else { int hard; if ( lutil_atoi( &hard, arg ) != 0 || hard < -1 ) { return( 1 ); } if ( hard == -1 ) { /* FIXME: use "unlimited" instead */ } if ( hard == 0 ) { /* FIXME: use "soft" instead */ } limit->lms_s_hard = hard; } } else if ( STRSTART( arg, "unchecked=" ) ) { arg += STRLENOF( "unchecked=" ); if ( strcasecmp( arg, "unlimited" ) == 0 || strcasecmp( arg, "none" ) == 0 ) { limit->lms_s_unchecked = -1; } else if ( strcasecmp( arg, "disabled" ) == 0 ) { limit->lms_s_unchecked = 0; } else { int unchecked; if ( lutil_atoi( &unchecked, arg ) != 0 || unchecked < -1 ) { return( 1 ); } if ( unchecked == -1 ) { /* FIXME: use "unlimited" instead */ } limit->lms_s_unchecked = unchecked; } } else if ( STRSTART( arg, "pr=" ) ) { arg += STRLENOF( "pr=" ); if ( strcasecmp( arg, "noEstimate" ) == 0 ) { limit->lms_s_pr_hide = 1; } else if ( strcasecmp( arg, "unlimited" ) == 0 || strcasecmp( arg, "none" ) == 0 ) { limit->lms_s_pr = -1; } else { int pr; if ( lutil_atoi( &pr, arg ) != 0 || pr < -1 ) { return( 1 ); } if ( pr == -1 ) { /* FIXME: use "unlimited" instead */ } limit->lms_s_pr = pr; } } else if ( STRSTART( arg, "prtotal=" ) ) { arg += STRLENOF( "prtotal=" ); if ( strcasecmp( arg, "unlimited" ) == 0 || strcasecmp( arg, "none" ) == 0 ) { limit->lms_s_pr_total = -1; } else if ( strcasecmp( arg, "disabled" ) == 0 ) { limit->lms_s_pr_total = -2; } else if ( strcasecmp( arg, "hard" ) == 0 ) { limit->lms_s_pr_total = 0; } else { int total; if ( lutil_atoi( &total, arg ) != 0 || total < -1 ) { return( 1 ); } if ( total == -1 ) { /* FIXME: use "unlimited" instead */ } if ( total == 0 ) { /* FIXME: use "pr=disable" instead */ } limit->lms_s_pr_total = total; } } else { return( 1 ); } } else if ( arg[0] == '=' ) { arg++; if ( strcasecmp( arg, "unlimited" ) == 0 || strcasecmp( arg, "none" ) == 0 ) { limit->lms_s_soft = -1; } else { if ( lutil_atoi( &limit->lms_s_soft, arg ) != 0 || limit->lms_s_soft < -1 ) { return( 1 ); } } limit->lms_s_hard = 0; } else { return( 1 ); } } return 0; } /* Helper macros for limits_unparse() and limits_unparse_one(): * Write to ptr, but not past bufEnd. Move ptr past the new text. * Return (success && enough room ? 0 : -1). */ #define ptr_APPEND_BV(bv) /* Append a \0-terminated berval */ \ (WHATSLEFT <= (bv).bv_len ? -1 : \ ((void) (ptr = lutil_strcopy( ptr, (bv).bv_val )), 0)) #define ptr_APPEND_LIT(str) /* Append a string literal */ \ (WHATSLEFT <= STRLENOF( "" str "" ) ? -1 : \ ((void) (ptr = lutil_strcopy( ptr, str )), 0)) #define ptr_APPEND_FMT(args) /* Append formatted text */ \ (WHATSLEFT <= (tmpLen = snprintf args) ? -1 : ((void) (ptr += tmpLen), 0)) #define ptr_APPEND_FMT1(fmt, arg) ptr_APPEND_FMT(( ptr, WHATSLEFT, fmt, arg )) #define WHATSLEFT ((ber_len_t) (bufEnd - ptr)) /* Caller must provide an adequately sized buffer in bv */ int limits_unparse( struct slap_limits *lim, struct berval *bv, ber_len_t buflen ) { struct berval btmp; char *ptr, *bufEnd; /* Updated/used by ptr_APPEND_*()/WHATSLEFT */ ber_len_t tmpLen; /* Used by ptr_APPEND_FMT*() */ unsigned type, style; int rc = 0; if ( !bv || !bv->bv_val ) return -1; ptr = bv->bv_val; bufEnd = ptr + buflen; type = lim->lm_flags & SLAP_LIMITS_TYPE_MASK; if ( type == SLAP_LIMITS_TYPE_GROUP ) { rc = ptr_APPEND_FMT(( ptr, WHATSLEFT, "group/%s/%s=\"%s\"", lim->lm_group_oc->soc_cname.bv_val, lim->lm_group_ad->ad_cname.bv_val, lim->lm_pat.bv_val )); } else { style = lim->lm_flags & SLAP_LIMITS_MASK; switch( style ) { case SLAP_LIMITS_ANONYMOUS: case SLAP_LIMITS_USERS: case SLAP_LIMITS_ANY: rc = ptr_APPEND_BV( lmpats[style] ); break; case SLAP_LIMITS_UNDEFINED: case SLAP_LIMITS_EXACT: case SLAP_LIMITS_ONE: case SLAP_LIMITS_SUBTREE: case SLAP_LIMITS_CHILDREN: case SLAP_LIMITS_REGEX: rc = ptr_APPEND_FMT(( ptr, WHATSLEFT, "dn.%s%s=\"%s\"", type == SLAP_LIMITS_TYPE_SELF ? "" : "this.", lmpats[style].bv_val, lim->lm_pat.bv_val )); break; } } if ( rc == 0 ) { bv->bv_len = ptr - bv->bv_val; btmp.bv_val = ptr; btmp.bv_len = 0; rc = limits_unparse_one( &lim->lm_limits, SLAP_LIMIT_SIZE | SLAP_LIMIT_TIME, &btmp, WHATSLEFT ); if ( rc == 0 ) bv->bv_len += btmp.bv_len; } return rc; } /* Caller must provide an adequately sized buffer in bv */ int limits_unparse_one( struct slap_limits_set *lim, int which, struct berval *bv, ber_len_t buflen ) { char *ptr, *bufEnd; /* Updated/used by ptr_APPEND_*()/WHATSLEFT */ ber_len_t tmpLen; /* Used by ptr_APPEND_FMT*() */ if ( !bv || !bv->bv_val ) return -1; ptr = bv->bv_val; bufEnd = ptr + buflen; if ( which & SLAP_LIMIT_SIZE ) { if ( lim->lms_s_soft != SLAPD_DEFAULT_SIZELIMIT ) { /* If same as global limit, drop it */ if ( lim != &frontendDB->be_def_limit && lim->lms_s_soft == frontendDB->be_def_limit.lms_s_soft ) { goto s_hard; /* If there's also a hard limit, fully qualify this one */ } else if ( lim->lms_s_hard ) { if ( ptr_APPEND_LIT( " size.soft=" ) ) return -1; /* If doing both size & time, qualify this */ } else if ( which & SLAP_LIMIT_TIME ) { if ( ptr_APPEND_LIT( " size=" ) ) return -1; } if ( lim->lms_s_soft == -1 ? ptr_APPEND_LIT( "unlimited " ) : ptr_APPEND_FMT1( "%d ", lim->lms_s_soft ) ) return -1; } s_hard: if ( lim->lms_s_hard ) { if ( ptr_APPEND_LIT( " size.hard=" ) ) return -1; if ( lim->lms_s_hard == -1 ? ptr_APPEND_LIT( "unlimited " ) : ptr_APPEND_FMT1( "%d ", lim->lms_s_hard ) ) return -1; } if ( lim->lms_s_unchecked != -1 ) { if ( ptr_APPEND_LIT( " size.unchecked=" ) ) return -1; if ( lim->lms_s_unchecked == 0 ? ptr_APPEND_LIT( "disabled " ) : ptr_APPEND_FMT1( "%d ", lim->lms_s_unchecked ) ) return -1; } if ( lim->lms_s_pr_hide ) { if ( ptr_APPEND_LIT( " size.pr=noEstimate " ) ) return -1; } if ( lim->lms_s_pr ) { if ( ptr_APPEND_LIT( " size.pr=" ) ) return -1; if ( lim->lms_s_pr == -1 ? ptr_APPEND_LIT( "unlimited " ) : ptr_APPEND_FMT1( "%d ", lim->lms_s_pr ) ) return -1; } if ( lim->lms_s_pr_total ) { if ( ptr_APPEND_LIT( " size.prtotal=" ) ) return -1; if ( lim->lms_s_pr_total == -1 ? ptr_APPEND_LIT( "unlimited " ) : lim->lms_s_pr_total == -2 ? ptr_APPEND_LIT( "disabled " ) : ptr_APPEND_FMT1( "%d ", lim->lms_s_pr_total ) ) return -1; } } if ( which & SLAP_LIMIT_TIME ) { if ( lim->lms_t_soft != SLAPD_DEFAULT_TIMELIMIT ) { /* If same as global limit, drop it */ if ( lim != &frontendDB->be_def_limit && lim->lms_t_soft == frontendDB->be_def_limit.lms_t_soft ) { goto t_hard; /* If there's also a hard limit, fully qualify this one */ } else if ( lim->lms_t_hard ) { if ( ptr_APPEND_LIT( " time.soft=" ) ) return -1; /* If doing both size & time, qualify this */ } else if ( which & SLAP_LIMIT_SIZE ) { if ( ptr_APPEND_LIT( " time=" ) ) return -1; } if ( lim->lms_t_soft == -1 ? ptr_APPEND_LIT( "unlimited " ) : ptr_APPEND_FMT1( "%d ", lim->lms_t_soft ) ) return -1; } t_hard: if ( lim->lms_t_hard ) { if ( ptr_APPEND_LIT( " time.hard=" ) ) return -1; if ( lim->lms_t_hard == -1 ? ptr_APPEND_LIT( "unlimited " ) : ptr_APPEND_FMT1( "%d ", lim->lms_t_hard ) ) return -1; } } if ( ptr != bv->bv_val ) { ptr--; *ptr = '\0'; bv->bv_len = ptr - bv->bv_val; } return 0; } int limits_check( Operation *op, SlapReply *rs ) { assert( op != NULL ); assert( rs != NULL ); /* FIXME: should this be always true? */ assert( op->o_tag == LDAP_REQ_SEARCH); /* protocol only allows 0..maxInt; * * internal searches: * - may use SLAP_NO_LIMIT ( = -1 ) to indicate no limits; * - should use slimit = N and tlimit = SLAP_NO_LIMIT to * indicate searches that should return exactly N matches, * and handle errors thru a callback (see for instance * slap_sasl_match() and slap_sasl2dn()) */ if ( op->ors_tlimit == SLAP_NO_LIMIT && op->ors_slimit == SLAP_NO_LIMIT ) { return 0; } /* allow root to set no limit */ if ( be_isroot( op ) ) { op->ors_limit = NULL; if ( op->ors_tlimit == 0 ) { op->ors_tlimit = SLAP_NO_LIMIT; } if ( op->ors_slimit == 0 ) { op->ors_slimit = SLAP_NO_LIMIT; } /* if paged results and slimit are requested */ if ( get_pagedresults( op ) > SLAP_CONTROL_IGNORED && op->ors_slimit != SLAP_NO_LIMIT ) { PagedResultsState *ps = op->o_pagedresults_state; int total = op->ors_slimit - ps->ps_count; if ( total > 0 ) { op->ors_slimit = total; } else { op->ors_slimit = 0; } } /* if not root, get appropriate limits */ } else { ( void ) limits_get( op, &op->ors_limit ); assert( op->ors_limit != NULL ); /* if no limit is required, use soft limit */ if ( op->ors_tlimit == 0 ) { op->ors_tlimit = op->ors_limit->lms_t_soft; /* limit required: check if legal */ } else { if ( op->ors_limit->lms_t_hard == 0 ) { if ( op->ors_limit->lms_t_soft > 0 && ( op->ors_tlimit > op->ors_limit->lms_t_soft ) ) { op->ors_tlimit = op->ors_limit->lms_t_soft; } } else if ( op->ors_limit->lms_t_hard > 0 ) { #ifdef ABOVE_HARD_LIMIT_IS_ERROR if ( op->ors_tlimit == SLAP_MAX_LIMIT ) { op->ors_tlimit = op->ors_limit->lms_t_hard; } else if ( op->ors_tlimit > op->ors_limit->lms_t_hard ) { /* error if exceeding hard limit */ rs->sr_err = LDAP_ADMINLIMIT_EXCEEDED; send_ldap_result( op, rs ); rs->sr_err = LDAP_SUCCESS; return -1; } #else /* ! ABOVE_HARD_LIMIT_IS_ERROR */ if ( op->ors_tlimit > op->ors_limit->lms_t_hard ) { op->ors_tlimit = op->ors_limit->lms_t_hard; } #endif /* ! ABOVE_HARD_LIMIT_IS_ERROR */ } } /* else leave as is */ /* don't even get to backend if candidate check is disabled */ if ( op->ors_limit->lms_s_unchecked == 0 ) { rs->sr_err = LDAP_ADMINLIMIT_EXCEEDED; send_ldap_result( op, rs ); rs->sr_err = LDAP_SUCCESS; return -1; } /* if paged results is requested */ if ( get_pagedresults( op ) > SLAP_CONTROL_IGNORED ) { int slimit = -2; int pr_total; PagedResultsState *ps = op->o_pagedresults_state; /* paged results is not allowed */ if ( op->ors_limit->lms_s_pr_total == -2 ) { rs->sr_err = LDAP_ADMINLIMIT_EXCEEDED; rs->sr_text = "pagedResults control not allowed"; send_ldap_result( op, rs ); rs->sr_err = LDAP_SUCCESS; rs->sr_text = NULL; return -1; } if ( op->ors_limit->lms_s_pr > 0 && ps->ps_size > op->ors_limit->lms_s_pr ) { rs->sr_err = LDAP_ADMINLIMIT_EXCEEDED; rs->sr_text = "illegal pagedResults page size"; send_ldap_result( op, rs ); rs->sr_err = LDAP_SUCCESS; rs->sr_text = NULL; return -1; } if ( op->ors_limit->lms_s_pr_total == 0 ) { if ( op->ors_limit->lms_s_hard == 0 ) { pr_total = op->ors_limit->lms_s_soft; } else { pr_total = op->ors_limit->lms_s_hard; } } else { pr_total = op->ors_limit->lms_s_pr_total; } if ( pr_total == -1 ) { if ( op->ors_slimit == 0 || op->ors_slimit == SLAP_MAX_LIMIT ) { slimit = -1; } else { slimit = op->ors_slimit - ps->ps_count; } #ifdef ABOVE_HARD_LIMIT_IS_ERROR } else if ( pr_total > 0 && op->ors_slimit != SLAP_MAX_LIMIT && ( op->ors_slimit == SLAP_NO_LIMIT || op->ors_slimit > pr_total ) ) { rs->sr_err = LDAP_ADMINLIMIT_EXCEEDED; send_ldap_result( op, rs ); rs->sr_err = LDAP_SUCCESS; return -1; #endif /* ! ABOVE_HARD_LIMIT_IS_ERROR */ } else { /* if no limit is required, use soft limit */ int total; int slimit2; /* first round of pagedResults: * set count to any appropriate limit */ /* if the limit is set, check that it does * not violate any server-side limit */ #ifdef ABOVE_HARD_LIMIT_IS_ERROR if ( op->ors_slimit == SLAP_MAX_LIMIT ) #else /* ! ABOVE_HARD_LIMIT_IS_ERROR */ if ( op->ors_slimit == SLAP_MAX_LIMIT || op->ors_slimit > pr_total ) #endif /* ! ABOVE_HARD_LIMIT_IS_ERROR */ { slimit2 = op->ors_slimit = pr_total; } else if ( op->ors_slimit == 0 ) { slimit2 = pr_total; } else { slimit2 = op->ors_slimit; } total = slimit2 - ps->ps_count; if ( total >= 0 ) { if ( op->ors_limit->lms_s_pr > 0 ) { /* use the smallest limit set by total/per page */ if ( total < op->ors_limit->lms_s_pr ) { slimit = total; } else { /* use the perpage limit if any * NOTE: + 1 because given value must be legal */ slimit = op->ors_limit->lms_s_pr + 1; } } else { /* use the total limit if any */ slimit = total; } } else if ( op->ors_limit->lms_s_pr > 0 ) { /* use the perpage limit if any * NOTE: + 1 because the given value must be legal */ slimit = op->ors_limit->lms_s_pr + 1; } else { /* use the standard hard/soft limit if any */ slimit = op->ors_limit->lms_s_hard; } } /* if got any limit, use it */ if ( slimit != -2 ) { if ( op->ors_slimit == 0 ) { op->ors_slimit = slimit; } else if ( slimit > 0 ) { if ( op->ors_slimit - ps->ps_count > slimit ) { rs->sr_err = LDAP_ADMINLIMIT_EXCEEDED; send_ldap_result( op, rs ); rs->sr_err = LDAP_SUCCESS; return -1; } op->ors_slimit = slimit; } else if ( slimit == 0 ) { op->ors_slimit = 0; } } else { /* use the standard hard/soft limit if any */ op->ors_slimit = pr_total; } /* no limit requested: use soft, whatever it is */ } else if ( op->ors_slimit == 0 ) { op->ors_slimit = op->ors_limit->lms_s_soft; /* limit requested: check if legal */ } else { /* hard limit as soft (traditional behavior) */ if ( op->ors_limit->lms_s_hard == 0 ) { if ( op->ors_limit->lms_s_soft > 0 && op->ors_slimit > op->ors_limit->lms_s_soft ) { op->ors_slimit = op->ors_limit->lms_s_soft; } /* explicit hard limit: error if violated */ } else if ( op->ors_limit->lms_s_hard > 0 ) { #ifdef ABOVE_HARD_LIMIT_IS_ERROR if ( op->ors_slimit == SLAP_MAX_LIMIT ) { op->ors_slimit = op->ors_limit->lms_s_hard; } else if ( op->ors_slimit > op->ors_limit->lms_s_hard ) { /* if limit exceeds hard, error */ rs->sr_err = LDAP_ADMINLIMIT_EXCEEDED; send_ldap_result( op, rs ); rs->sr_err = LDAP_SUCCESS; return -1; } #else /* ! ABOVE_HARD_LIMIT_IS_ERROR */ if ( op->ors_slimit > op->ors_limit->lms_s_hard ) { op->ors_slimit = op->ors_limit->lms_s_hard; } #endif /* ! ABOVE_HARD_LIMIT_IS_ERROR */ } } /* else leave as is */ } return 0; } void limits_free_one( struct slap_limits *lm ) { if ( ( lm->lm_flags & SLAP_LIMITS_MASK ) == SLAP_LIMITS_REGEX ) regfree( &lm->lm_regex ); if ( !BER_BVISNULL( &lm->lm_pat ) ) ch_free( lm->lm_pat.bv_val ); ch_free( lm ); } void limits_destroy( struct slap_limits **lm ) { int i; if ( lm == NULL ) { return; } for ( i = 0; lm[ i ]; i++ ) { limits_free_one( lm[ i ] ); } ch_free( lm ); }