/* * Copyright 1998-2003 The OpenLDAP Foundation, All Rights Reserved. * COPYING RESTRICTIONS APPLY, see COPYRIGHT file */ /* * (C) Copyright IBM Corp. 1997,2002 * Redistribution and use in source and binary forms are permitted * provided that this notice is preserved and that due credit is * given to IBM Corporation. This software is provided ``as is'' * without express or implied warranty. */ #include "portable.h" #include "slapi_common.h" #include #include #include #include #include #include #include struct berval *ns_get_supported_extop( int ); #ifdef _SPARC #include #endif #include /* * server start time (should we use a struct timeval also in slapd? */ static struct timeval base_time; ldap_pvt_thread_mutex_t slapi_hn_mutex; ldap_pvt_thread_mutex_t slapi_time_mutex; /* * This function converts an array of pointers to berval objects to * an array of berval objects. */ int bvptr2obj( struct berval **bvptr, BerVarray *bvobj ) { int rc = LDAP_SUCCESS; int i; BerVarray tmpberval; if ( bvptr == NULL || *bvptr == NULL ) { return LDAP_OTHER; } for ( i = 0; bvptr != NULL && bvptr[i] != NULL; i++ ) { ; /* EMPTY */ } tmpberval = (BerVarray)slapi_ch_malloc( (i + 1)*sizeof(struct berval)); if ( tmpberval == NULL ) { return LDAP_NO_MEMORY; } for ( i = 0; bvptr[i] != NULL; i++ ) { tmpberval[i].bv_val = bvptr[i]->bv_val; tmpberval[i].bv_len = bvptr[i]->bv_len; } if ( rc == LDAP_SUCCESS ) { *bvobj = tmpberval; } return rc; } Slapi_Entry * slapi_str2entry( char *s, int check_dup ) { #if defined(LDAP_SLAPI) Slapi_Entry *e = NULL; char *pTmpS; pTmpS = slapi_ch_strdup( s ); if ( pTmpS != NULL ) { e = str2entry( pTmpS ); slapi_ch_free( pTmpS ); } return e; #else /* !defined(LDAP_SLAPI) */ return NULL; #endif /* !defined(LDAP_SLAPI) */ } char * slapi_entry2str( Slapi_Entry *e, int *len ) { #if defined(LDAP_SLAPI) char *ret; ldap_pvt_thread_mutex_lock( &entry2str_mutex ); ret = entry2str( e, len ); ldap_pvt_thread_mutex_unlock( &entry2str_mutex ); return ret; #else /* !defined(LDAP_SLAPI) */ return NULL; #endif /* !defined(LDAP_SLAPI) */ } char * slapi_entry_get_dn( Slapi_Entry *e ) { #if defined(LDAP_SLAPI) return e->e_name.bv_val; #else /* !defined(LDAP_SLAPI) */ return NULL; #endif /* !defined(LDAP_SLAPI) */ } void slapi_entry_set_dn( Slapi_Entry *e, char *ldn ) { #if defined(LDAP_SLAPI) struct berval dn = { 0, NULL }; dn.bv_val = ldn; dn.bv_len = strlen( ldn ); dnPrettyNormal( NULL, &dn, &e->e_name, &e->e_nname ); #endif /* defined(LDAP_SLAPI) */ } Slapi_Entry * slapi_entry_dup( Slapi_Entry *e ) { #if defined(LDAP_SLAPI) char *tmp = NULL; Slapi_Entry *tmpEnt; int len = 0; tmp = slapi_entry2str( e, &len ); if ( tmp == NULL ) { return (Slapi_Entry *)NULL; } tmpEnt = (Slapi_Entry *)str2entry( tmp ); if ( tmpEnt == NULL ) { slapi_ch_free( tmp ); return (Slapi_Entry *)NULL; } if (tmp != NULL) { slapi_ch_free( tmp ); } return tmpEnt; #else /* !defined(LDAP_SLAPI) */ return NULL; #endif /* !defined(LDAP_SLAPI) */ } int slapi_entry_attr_delete( Slapi_Entry *e, char *type ) { #if defined(LDAP_SLAPI) AttributeDescription *ad; const char *text; if ( slap_str2ad( type, &ad, &text ) != LDAP_SUCCESS ) { return 1; /* LDAP_NO_SUCH_ATTRIBUTE */ } if ( attr_delete( &e->e_attrs, ad ) == LDAP_SUCCESS ) { return 0; /* attribute is deleted */ } else { return -1; /* something went wrong */ } #else /* !defined(LDAP_SLAPI) */ return -1; #endif /* !defined(LDAP_SLAPI) */ } Slapi_Entry * slapi_entry_alloc( void ) { #if defined(LDAP_SLAPI) return (Slapi_Entry *)slapi_ch_calloc( 1, sizeof(Slapi_Entry) ); #else /* !defined(LDAP_SLAPI) */ return NULL; #endif /* !defined(LDAP_SLAPI) */ } void slapi_entry_free( Slapi_Entry *e ) { #if defined(LDAP_SLAPI) entry_free( e ); #endif /* defined(LDAP_SLAPI) */ } int slapi_entry_attr_merge( Slapi_Entry *e, char *type, struct berval **vals ) { #if defined(LDAP_SLAPI) AttributeDescription *ad; const char *text; BerVarray bv; int rc; rc = bvptr2obj( vals, &bv ); if ( rc != LDAP_SUCCESS ) { return -1; } rc = slap_str2ad( type, &ad, &text ); if ( rc != LDAP_SUCCESS ) { return -1; } rc = attr_merge( e, ad, bv ); ch_free( bv ); return rc; #else /* !defined(LDAP_SLAPI) */ return -1; #endif /* !defined(LDAP_SLAPI) */ } int slapi_entry_attr_find( Slapi_Entry *e, char *type, Slapi_Attr **attr ) { #if defined(LDAP_SLAPI) AttributeDescription *ad; const char *text; int rc; rc = slap_str2ad( type, &ad, &text ); if ( rc != LDAP_SUCCESS ) { return -1; } *attr = attr_find( e->e_attrs, ad ); if ( *attr == NULL ) { return -1; } return 0; #else /* !defined(LDAP_SLAPI) */ return -1; #endif /* !defined(LDAP_SLAPI) */ } /* * FIXME -- The caller must free the allocated memory. * In Netscape they do not have to. */ int slapi_attr_get_values( Slapi_Attr *attr, struct berval ***vals ) { #if defined(LDAP_SLAPI) int i, j; struct berval **bv; if ( attr == NULL ) { return 1; } for ( i = 0; attr->a_vals[i].bv_val != NULL; i++ ) { ; /* EMPTY */ } bv = (struct berval **)ch_malloc( (i + 1) * sizeof(struct berval *) ); for ( j = 0; j < i; j++ ) { bv[j] = (struct berval *)ch_malloc( sizeof(struct berval) ); bv[j]->bv_val = ch_strdup( attr->a_vals[j].bv_val ); bv[j]->bv_len = attr->a_vals[j].bv_len; } bv[j] = NULL; *vals = (struct berval **)bv; return 0; #else /* !defined(LDAP_SLAPI) */ return -1; #endif /* !defined(LDAP_SLAPI) */ } char * slapi_dn_normalize( char *dn ) { #if defined(LDAP_SLAPI) struct berval bdn; struct berval ndn; assert( dn != NULL ); bdn.bv_val = dn; bdn.bv_len = strlen( dn ); dnNormalize2( NULL, &bdn, &ndn ); /* * FIXME: ain't it safe to set dn = ndn.bv_val ? */ dn = ch_strdup( ndn.bv_val ); ch_free( ndn.bv_val ); return dn; #else /* !defined(LDAP_SLAPI) */ return NULL; #endif /* !defined(LDAP_SLAPI) */ } /* * FIXME: this function is dangerous and should be deprecated; * DN normalization is a lot more than lower-casing, and BTW * OpenLDAP's DN normalization for case insensitive attributes * is already lower case */ char * slapi_dn_normalize_case( char *dn ) { #if defined(LDAP_SLAPI) slapi_dn_normalize( dn ); ldap_pvt_str2lower( dn ); return dn; #else /* defined(LDAP_SLAPI) */ return NULL; #endif /* defined(LDAP_SLAPI) */ } int slapi_dn_issuffix( char *dn, char *suffix ) { #if defined(LDAP_SLAPI) struct berval bdn, ndn; struct berval bsuffix, nsuffix; assert( dn != NULL ); assert( suffix != NULL ); bdn.bv_val = dn; bdn.bv_len = strlen( dn ); bsuffix.bv_val = suffix; bsuffix.bv_len = strlen( suffix ); dnNormalize2( NULL, &bdn, &ndn ); dnNormalize2( NULL, &bsuffix, &nsuffix ); return dnIsSuffix( &ndn, &nsuffix ); #else /* !defined(LDAP_SLAPI) */ return 0; #endif /* !defined(LDAP_SLAPI) */ } char * slapi_dn_ignore_case( char *dn ) { #if defined(LDAP_SLAPI) return slapi_dn_normalize_case( dn ); #else /* !defined(LDAP_SLAPI) */ return NULL; #endif /* !defined(LDAP_SLAPI) */ } char * slapi_ch_malloc( unsigned long size ) { #if defined(LDAP_SLAPI) return ch_malloc( size ); #else /* !defined(LDAP_SLAPI) */ return NULL; #endif /* !defined(LDAP_SLAPI) */ } void slapi_ch_free( void *ptr ) { #if defined(LDAP_SLAPI) #if 0 if ( ptr != NULL ) /* not required ... */ #endif /* 0 */ ch_free( ptr ); #endif /* defined(LDAP_SLAPI) */ } char * slapi_ch_calloc( unsigned long nelem, unsigned long size ) { #if defined(LDAP_SLAPI) return ch_calloc( nelem, size ); #else /* !defined(LDAP_SLAPI) */ return NULL; #endif /* !defined(LDAP_SLAPI) */ } char * slapi_ch_realloc( char *block, unsigned long size ) { #if defined(LDAP_SLAPI) return ch_realloc( block, size ); #else /* !defined(LDAP_SLAPI) */ return NULL; #endif /* !defined(LDAP_SLAPI) */ } char * slapi_ch_strdup( char *s ) { #if defined(LDAP_SLAPI) return ch_strdup( (const char *)s ); #else /* !defined(LDAP_SLAPI) */ return NULL; #endif /* !defined(LDAP_SLAPI) */ } size_t slapi_ch_stlen( char *s ) { #if defined(LDAP_SLAPI) return strlen( (const char *)s ); #else /* !defined(LDAP_SLAPI) */ return 0; #endif /* !defined(LDAP_SLAPI) */ } int slapi_control_present( LDAPControl **controls, char *oid, struct berval **val, int *iscritical ) { #if defined(LDAP_SLAPI) int i; int rc = 0; if ( val ) { *val = NULL; } if ( iscritical ) { *iscritical = 0; } for ( i = 0; controls != NULL && controls[i] != NULL; i++ ) { if ( strcmp( controls[i]->ldctl_oid, oid ) != 0 ) { continue; } rc = 1; if ( controls[i]->ldctl_value.bv_len != 0 ) { /* * FIXME: according to 6.1 specification, * "The val output parameter is set * to point into the controls array. * A copy of the control value is * not made." */ #if 0 struct berval *pTmpBval; pTmpBval = (struct berval *)slapi_ch_malloc( sizeof(struct berval)); if ( pTmpBval == NULL ) { rc = 0; } else { pTmpBval->bv_len = controls[i]->ldctl_value.bv_len; pTmpBval->bv_val = controls[i]->ldctl_value.bv_val; if ( val ) { *val = pTmpBval; } else { slapi_ch_free( pTmpBval ); rc = 0; } } #endif /* 0 */ if ( val ) { *val = &controls[i]->ldctl_value; } } if ( iscritical ) { *iscritical = controls[i]->ldctl_iscritical; } break; } return rc; #else /* !defined(LDAP_SLAPI) */ return 0; #endif /* !defined(LDAP_SLAPI) */ } void slapi_register_supported_control( char *controloid, unsigned long controlops ) { #if defined(LDAP_SLAPI) /* FIXME -- can not add controls to openLDAP dynamically */ slapi_log_error( SLAPI_LOG_FATAL, "SLAPI_CONTROLS", "can not add controls to openLDAP dynamically\n" ); #endif /* defined(LDAP_SLAPI) */ } int slapi_get_supported_controls( char ***ctrloidsp, unsigned long **ctrlopsp ) { #if defined(LDAP_SLAPI) int i, n; int rc = 1; char **oids = NULL; unsigned long *masks = NULL; for (n = 0; get_supported_ctrl( n ) != NULL; n++) { ; /* count them */ } if ( n == 0 ) { /* no controls */ *ctrloidsp = NULL; *ctrlopsp = NULL; return LDAP_SUCCESS; } oids = (char **)slapi_ch_malloc( (n + 1) * sizeof(char *) ); if ( oids == NULL ) { rc = LDAP_NO_MEMORY; goto error_return; } masks = (unsigned long *)slapi_ch_malloc( n * sizeof(int) ); if ( masks == NULL ) { rc = LDAP_NO_MEMORY; goto error_return; } for ( i = 0; i < n; i++ ) { /* * FIXME: Netscape's specification says nothing about * memory; should we copy the OIDs or return pointers * to internal values? In OpenLDAP the latter is safe * since we do not allow to register coltrols runtime */ oids[ i ] = ch_strdup( get_supported_ctrl( i ) ); if ( oids[ i ] == NULL ) { rc = LDAP_NO_MEMORY; goto error_return; } masks[ i ] = (unsigned long)get_supported_ctrl_mask( i ); } *ctrloidsp = oids; *ctrlopsp = masks; return LDAP_SUCCESS; error_return: if ( rc != LDAP_SUCCESS ) { for ( i = 0; oids != NULL && oids[ i ] != NULL; i++ ) { ch_free( oids[ i ] ); } ch_free( oids ); ch_free( masks ); } return rc; #else /* !defined(LDAP_SLAPI) */ return 1; #endif /* !defined(LDAP_SLAPI) */ } void slapi_register_supported_saslmechanism( char *mechanism ) { #if defined(LDAP_SLAPI) /* FIXME -- can not add saslmechanism to openLDAP dynamically */ slapi_log_error( SLAPI_LOG_FATAL, "SLAPI_SASL", "can not add saslmechanism to openLDAP dynamically\n" ); #endif /* defined(LDAP_SLAPI) */ } char ** slapi_get_supported_saslmechanisms( void ) { #if defined(LDAP_SLAPI) /* FIXME -- can not get the saslmechanism wihtout a connection. */ slapi_log_error( SLAPI_LOG_FATAL, "SLAPI_SASL", "can not get the saslmechanism " "wihtout a connection\n" ); return NULL; #else /* defined(LDAP_SLAPI) */ return NULL; #endif /* defined(LDAP_SLAPI) */ } char ** slapi_get_supported_extended_ops( void ) { #if defined(LDAP_SLAPI) int i, j, k; char **ppExtOpOID = NULL; int numExtOps = 0; for ( i = 0; get_supported_extop( i ) != NULL; i++ ) { ; } for ( j = 0; ns_get_supported_extop( j ) != NULL; j++ ) { ; } numExtOps = i + j; if ( numExtOps == 0 ) { return NULL; } ppExtOpOID = (char **)slapi_ch_malloc( (numExtOps + 1) * sizeof(char *) ); for ( k = 0; k < i; k++ ) { struct berval *bv; bv = get_supported_extop( k ); assert( bv != NULL ); ppExtOpOID[ k ] = bv->bv_val; } for ( ; k < j; k++ ) { struct berval *bv; bv = ns_get_supported_extop( k ); assert( bv != NULL ); ppExtOpOID[ i + k ] = bv->bv_val; } ppExtOpOID[ i + k ] = NULL; return ppExtOpOID; #else /* !defined(LDAP_SLAPI) */ return NULL; #endif /* !defined(LDAP_SLAPI) */ } void slapi_send_ldap_result( Slapi_PBlock *pb, int err, char *matched, char *text, int nentries, struct berval **urls ) { #if defined(LDAP_SLAPI) Connection *conn; Operation *op; struct berval *s; char *extOID = NULL; struct berval *extValue = NULL; int rc; slapi_pblock_get( pb, SLAPI_CONNECTION, &conn ); slapi_pblock_get( pb, SLAPI_OPERATION, &op ); if ( err == LDAP_SASL_BIND_IN_PROGRESS ) { slapi_pblock_get( pb, SLAPI_BIND_RET_SASLCREDS, &s ); rc = LDAP_SASL_BIND_IN_PROGRESS; send_ldap_sasl( conn, op, rc, NULL, NULL, NULL, NULL, s ); return; } slapi_pblock_get( pb, SLAPI_EXT_OP_RET_OID, &extOID ); if ( extOID != NULL ) { slapi_pblock_get( pb, SLAPI_EXT_OP_RET_VALUE, &extValue ); slapi_send_ldap_extended_response( conn, op, err, extOID, extValue ); return; } slapi_pblock_set( pb, SLAPI_RESULT_CODE, (void *)err); slapi_pblock_set( pb, SLAPI_RESULT_MATCHED, ( matched != NULL ) ? (void *)ch_strdup( matched ) : NULL ); slapi_pblock_set( pb, SLAPI_RESULT_TEXT, ( text != NULL ) ? (void *)ch_strdup( text ) : NULL ); send_ldap_result( conn, op, err, matched, text, NULL, NULL ); #endif /* defined(LDAP_SLAPI) */ } int slapi_send_ldap_search_entry( Slapi_PBlock *pb, Slapi_Entry *e, LDAPControl **ectrls, char **attrs, int attrsonly ) { #if defined(LDAP_SLAPI) Backend *be; Connection *pConn; Operation *pOp; int rc; int i; AttributeName *an = NULL; const char *text; for ( i = 0; attrs[ i ] != NULL; i++ ) { ; /* empty */ } if ( i > 0 ) { an = (AttributeName *) ch_malloc( i * sizeof(AttributeName) ); for ( i = 0; attrs[i] != NULL; i++ ) { an[i].an_name.bv_val = ch_strdup( attrs[i] ); an[i].an_name.bv_len = strlen( attrs[i] ); an[i].an_desc = NULL; if( slap_bv2ad( &an[i].an_name, &an[i].an_desc, &text ) != LDAP_SUCCESS) return -1; } } if ( ( rc = slapi_pblock_get( pb, SLAPI_BACKEND, (void *)&be ) != 0 ) || ( rc = slapi_pblock_get( pb, SLAPI_CONNECTION, (void *)&pConn) != 0 ) || ( rc = slapi_pblock_get( pb, SLAPI_OPERATION, (void *)&pOp) != 0 ) ) { rc = LDAP_OTHER; } else { rc = send_search_entry( be, pConn, pOp, e, an, attrsonly, NULL ); } return rc; #else /* !defined(LDAP_SLAPI) */ return -1; #endif /* !defined(LDAP_SLAPI) */ } Slapi_Filter * slapi_str2filter( char *str ) { #if defined(LDAP_SLAPI) return str2filter( str ); #else /* !defined(LDAP_SLAPI) */ return NULL; #endif /* !defined(LDAP_SLAPI) */ } void slapi_filter_free( Slapi_Filter *f, int recurse ) { #if defined(LDAP_SLAPI) filter_free( f ); #endif /* defined(LDAP_SLAPI) */ } int slapi_filter_get_choice( Slapi_Filter *f ) { #if defined(LDAP_SLAPI) int rc; if ( f != NULL ) { rc = f->f_choice; } else { rc = 0; } return rc; #else /* !defined(LDAP_SLAPI) */ return -1; /* invalid filter type */ #endif /* !defined(LDAP_SLAPI) */ } int slapi_filter_get_ava( Slapi_Filter *f, char **type, struct berval **bval ) { #if defined(LDAP_SLAPI) int ftype; int rc = LDAP_SUCCESS; assert( type != NULL ); assert( bval != NULL ); *type = NULL; *bval = NULL; ftype = f->f_choice; if ( ftype == LDAP_FILTER_EQUALITY || ftype == LDAP_FILTER_GE || ftype == LDAP_FILTER_LE || ftype == LDAP_FILTER_APPROX ) { *type = slapi_ch_strdup( f->f_un.f_un_ava->aa_desc->ad_cname.bv_val ); if ( *type == NULL ) { rc = LDAP_NO_MEMORY; goto done; } *bval = (struct berval *)slapi_ch_malloc( sizeof(struct berval) ); if ( *bval == NULL ) { rc = LDAP_NO_MEMORY; goto done; } (*bval)->bv_len = f->f_un.f_un_ava->aa_value.bv_len; (*bval)->bv_val = slapi_ch_strdup( f->f_un.f_un_ava->aa_value.bv_val ); if ( (*bval)->bv_val == NULL ) { rc = LDAP_NO_MEMORY; goto done; } } else { /* filter type not supported */ rc = -1; } done: if ( rc != LDAP_SUCCESS ) { if ( *bval ) { ch_free( *bval ); *bval = NULL; } if ( *type ) { ch_free( *type ); *type = NULL; } } return rc; #else /* !defined(LDAP_SLAPI) */ return -1; #endif /* !defined(LDAP_SLAPI) */ } Slapi_Filter * slapi_filter_list_first( Slapi_Filter *f ) { #if defined(LDAP_SLAPI) int ftype; if ( f == NULL ) { return NULL; } ftype = f->f_choice; if ( ftype == LDAP_FILTER_AND || ftype == LDAP_FILTER_OR || ftype == LDAP_FILTER_NOT ) { return (Slapi_Filter *)f->f_and; } else { return NULL; } #else /* !defined(LDAP_SLAPI) */ return NULL; #endif /* !defined(LDAP_SLAPI) */ } Slapi_Filter * slapi_filter_list_next( Slapi_Filter *f, Slapi_Filter *fprev ) { #if defined(LDAP_SLAPI) int ftype; if ( f == NULL ) { return NULL; } ftype = f->f_choice; if ( ftype == LDAP_FILTER_AND || ftype == LDAP_FILTER_OR || ftype == LDAP_FILTER_NOT ) { if ( f->f_and == fprev ) { return f->f_and->f_next; } } return NULL; #else /* !defined(LDAP_SLAPI) */ return NULL; #endif /* !defined(LDAP_SLAPI) */ } int slapi_send_ldap_extended_response( Connection *conn, Operation *op, int errornum, char *respName, struct berval *response ) { #if defined(LDAP_SLAPI) send_ldap_extended( conn,op, errornum, NULL, NULL, NULL, respName,response, NULL ); return LDAP_SUCCESS; #else /* !defined(LDAP_SLAPI) */ return -1; #endif /* !defined(LDAP_SLAPI) */ } int slapi_pw_find( struct berval **vals, struct berval *v ) { #if defined(LDAP_SLAPI) /* * FIXME: what's the point? */ return 1; #else /* !defined(LDAP_SLAPI) */ return 1; #endif /* !defined(LDAP_SLAPI) */ } char * slapi_get_hostname( void ) { #if defined(LDAP_SLAPI) char *hn = NULL; /* * FIXME: I'd prefer a different check ... */ #if defined _SPARC hn = (char *)slapi_ch_malloc( MAX_HOSTNAME ); if ( hn == NULL) { slapi_log_error( SLAPI_LOG_FATAL, "SLAPI_SYSINFO", "can't malloc memory for hostname\n" ); hn = NULL; } else if ( sysinfo( SI_HOSTNAME, hn, MAX_HOSTNAME ) < 0 ) { slapi_log_error( SLAPI_LOG_FATAL, "SLAPI_SYSINFO", "can't get hostname\n" ); slapi_ch_free( hn ); hn = NULL; } #else /* !_SPARC */ static int been_here = 0; static char *static_hn = NULL; ldap_pvt_thread_mutex_lock( &slapi_hn_mutex ); if ( !been_here ) { static_hn = (char *)slapi_ch_malloc( MAX_HOSTNAME ); if ( static_hn == NULL) { slapi_log_error( SLAPI_LOG_FATAL, "SLAPI_SYSINFO", "can't malloc memory for hostname\n" ); static_hn = NULL; ldap_pvt_thread_mutex_unlock( &slapi_hn_mutex ); return hn; } else { if ( gethostname( static_hn, MAX_HOSTNAME ) != 0 ) { slapi_log_error( SLAPI_LOG_FATAL, "SLAPI_SYSINFO", "can't get hostname\n" ); slapi_ch_free( static_hn ); static_hn = NULL; ldap_pvt_thread_mutex_unlock( &slapi_hn_mutex ); return hn; } else { been_here = 1; } } } ldap_pvt_thread_mutex_unlock( &slapi_hn_mutex ); hn = ch_strdup( static_hn ); #endif /* !_SPARC */ return hn; #else /* !defined(LDAP_SLAPI) */ return NULL; #endif /* !defined(LDAP_SLAPI) */ } /* * FIXME: this should go in an appropriate header ... */ extern int vLogError( int level, char *subsystem, char *fmt, va_list arglist ); int slapi_log_error( int severity, char *subsystem, char *fmt, ... ) { #if defined(LDAP_SLAPI) int rc = LDAP_SUCCESS; va_list arglist; va_start( arglist, fmt ); rc = vLogError( severity, subsystem, fmt, arglist ); va_end( arglist ); return rc; #else /* !defined(LDAP_SLAPI) */ return -1; #endif /* !defined(LDAP_SLAPI) */ } unsigned long slapi_timer_current_time( void ) { #if defined(LDAP_SLAPI) static int first_time = 1; #if !defined (_WIN32) struct timeval now; unsigned long ret; ldap_pvt_thread_mutex_lock( &slapi_time_mutex ); if (first_time) { first_time = 0; gettimeofday( &base_time, NULL ); } gettimeofday( &now, NULL ); ret = ( now.tv_sec - base_time.tv_sec ) * 1000000 + (now.tv_usec - base_time.tv_usec); ldap_pvt_thread_mutex_unlock( &slapi_time_mutex ); return ret; /* * Ain't it better? return (slap_get_time() - starttime) * 1000000; */ #else /* _WIN32 */ LARGE_INTEGER now; if ( first_time ) { first_time = 0; performance_counter_present = QueryPerformanceCounter( &base_time ); QueryPerformanceFrequency( &performance_freq ); } if ( !performance_counter_present ) return 0; QueryPerformanceCounter( &now ); return (1000000*(now.QuadPart-base_time.QuadPart))/performance_freq.QuadPart; #endif /* _WIN32 */ #else /* !defined(LDAP_SLAPI) */ return 0; #endif /* !defined(LDAP_SLAPI) */ } /* * FIXME ? */ unsigned long slapi_timer_get_time( char *label ) { #if defined(LDAP_SLAPI) unsigned long start = slapi_timer_current_time(); printf("%10ld %10ld usec %s\n", start, 0, label); return start; #else /* !defined(LDAP_SLAPI) */ return 0; #endif /* !defined(LDAP_SLAPI) */ } /* * FIXME ? */ void slapi_timer_elapsed_time( char *label, unsigned long start ) { #if defined(LDAP_SLAPI) unsigned long stop = slapi_timer_current_time(); printf ("%10ld %10ld usec %s\n", stop, stop - start, label); #endif /* defined(LDAP_SLAPI) */ } void slapi_free_search_results_internal( Slapi_PBlock *pb ) { #if defined(LDAP_SLAPI) Slapi_Entry **entries; int k = 0, nEnt = 0; slapi_pblock_get( pb, SLAPI_NENTRIES, &nEnt ); slapi_pblock_get( pb, SLAPI_PLUGIN_INTOP_SEARCH_ENTRIES, &entries ); if ( nEnt == 0 ) { return; } if ( entries == NULL ) { return; } for ( k = 0; k < nEnt; k++ ) { slapi_entry_free( entries[k] ); } slapi_ch_free( entries ); #endif /* defined(LDAP_SLAPI) */ } /* * Internal API to prime a Slapi_PBlock with a Backend. */ int slapi_backend_set_pb( Slapi_PBlock *pb, Backend *be ) { #if defined(LDAP_SLAPI) int rc; rc = slapi_pblock_set(pb, SLAPI_BACKEND, (void *)be); if (rc != LDAP_SUCCESS) return rc; rc = slapi_pblock_set(pb, SLAPI_BE_TYPE, (void *)be->bd_info->bi_type); if (rc != LDAP_SUCCESS) return rc; return LDAP_SUCCESS; #else return -1; #endif /* defined(LDAP_SLAPI) */ } /* * Internal API to prime a Slapi_PBlock with a Connection. */ int slapi_connection_set_pb( Slapi_PBlock *pb, Connection *conn ) { #if defined(LDAP_SLAPI) char *connAuthType; size_t len; int rc; rc = slapi_pblock_set(pb, SLAPI_CONNECTION, (void *)conn); if (rc != LDAP_SUCCESS) return rc; rc = slapi_pblock_set(pb, SLAPI_CONN_ID, (void *)conn->c_connid); if (rc != LDAP_SUCCESS) return rc; switch (conn->c_authz.sai_method) { case LDAP_AUTH_SASL: len = sizeof(SLAPD_AUTH_SASL) + conn->c_authz.sai_mech.bv_len; connAuthType = slapi_ch_malloc(len); snprintf(connAuthType, len, "%s%s", SLAPD_AUTH_SASL, conn->c_authz.sai_mech.bv_val); break; case LDAP_AUTH_SIMPLE: connAuthType = slapi_ch_strdup(SLAPD_AUTH_SIMPLE); break; case LDAP_AUTH_NONE: connAuthType = slapi_ch_strdup(SLAPD_AUTH_NONE); break; default: connAuthType = NULL; break; } if (conn->c_is_tls && connAuthType == NULL) { connAuthType = slapi_ch_strdup(SLAPD_AUTH_SSL); } if (connAuthType != NULL) { rc = slapi_pblock_set(pb, SLAPI_CONN_AUTHTYPE, (void *)connAuthType); if (rc != LDAP_SUCCESS) return rc; } if (conn->c_authz.sai_dn.bv_val != NULL) { char *connDn = slapi_ch_strdup(conn->c_authz.sai_dn.bv_val); rc = slapi_pblock_set(pb, SLAPI_CONN_DN, (void *)connDn); if (rc != LDAP_SUCCESS) return rc; } return LDAP_SUCCESS; #else return -1; #endif /* defined(LDAP_SLAPI) */ } /* * Internal API to prime a Slapi_PBlock with an Operation. */ int slapi_operation_set_pb( Slapi_PBlock *pb, Operation *op ) { #if defined(LDAP_SLAPI) int isRoot = 0; int isUpdateDn = 0; int rc; Backend *be; if (slapi_pblock_get(pb, SLAPI_BACKEND, (void *)&be) != 0) { be = NULL; } if (be != NULL) { isRoot = be_isroot(be, &op->o_ndn); isUpdateDn = be_isupdate(be, &op->o_ndn); } rc = slapi_pblock_set(pb, SLAPI_OPERATION, (void *)op); if (rc != LDAP_SUCCESS) return rc; rc = slapi_pblock_set(pb, SLAPI_OPINITIATED_TIME, (void *)op->o_time); if (rc != LDAP_SUCCESS) return rc; rc = slapi_pblock_set(pb, SLAPI_REQUESTOR_ISROOT, (void *)isRoot); if (rc != LDAP_SUCCESS) return rc; rc = slapi_pblock_set(pb, SLAPI_REQUESTOR_ISUPDATEDN, (void *)isUpdateDn); if (rc != LDAP_SUCCESS) return rc; rc = slapi_pblock_set(pb, SLAPI_REQCONTROLS, (void *)op->o_ctrls); if (rc != LDAP_SUCCESS) return rc; rc = slapi_pblock_set(pb, SLAPI_REQUESTOR_DN, (void *)op->o_ndn.bv_val); if (rc != LDAP_SUCCESS) return rc; return LDAP_SUCCESS; #else return -1; #endif } int slapi_is_connection_ssl( Slapi_PBlock *pb, int *isSSL ) { #if defined( LDAP_SLAPI ) Connection *conn; slapi_pblock_get( pb, SLAPI_CONNECTION, &conn ); *isSSL = conn->c_is_tls; return LDAP_SUCCESS; #else return -1; #endif /* defined(LDAP_SLAPI) */ }