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/** BEGIN COPYRIGHT BLOCK
* Copyright (C) 2001 Sun Microsystems, Inc. Used by permission.
* Copyright (C) 2005 Red Hat, Inc.
* All rights reserved.
* END COPYRIGHT BLOCK **/
/*
* slapi2nspr.c - expose a subset of the NSPR20/21 API to SLAPI plugin writers
*
*/
#include "slap.h"
#include "snmp_collator.h"
#include <ldap_ssl.h>
#include <ldappr.h>
#include <nspr.h>
/*
* Note that Slapi_Mutex and Slapi_CondVar are defined like this in
* slapi-plugin.h:
*
* typedef struct slapi_mutex Slapi_Mutex;
* typedef struct slapi_condvar Slapi_CondVar;
*
* but there is no definition for struct slapi_mutex or struct slapi_condvar.
* This seems to work okay since we always use them in pointer form and cast
* directly to their NSPR equivalents. Clever, huh?
*/
/*
* ---------------- SLAPI API Functions --------------------------------------
*/
/*
* Function: slapi_new_mutex
* Description: behaves just like PR_NewLock().
* Returns: a pointer to the new mutex (NULL if a mutex can't be created).
*/
Slapi_Mutex *
slapi_new_mutex( void )
{
return( (Slapi_Mutex *)PR_NewLock());
}
/*
* Function: slapi_destroy_mutex
* Description: behaves just like PR_DestroyLock().
*/
void
slapi_destroy_mutex( Slapi_Mutex *mutex )
{
if ( mutex != NULL ) {
PR_DestroyLock( (PRLock *)mutex );
}
}
/*
* Function: slapi_lock_mutex
* Description: behaves just like PR_Lock().
*/
void
slapi_lock_mutex( Slapi_Mutex *mutex )
{
if ( mutex != NULL ) {
PR_Lock( (PRLock *)mutex );
}
}
/*
* Function: slapi_unlock_mutex
* Description: behaves just like PR_Unlock().
* Returns:
* non-zero if mutex was successfully unlocked.
* 0 if mutex is NULL or is not locked by the calling thread.
*/
int
slapi_unlock_mutex( Slapi_Mutex *mutex )
{
if ( mutex == NULL || PR_Unlock( (PRLock *)mutex ) == PR_FAILURE ) {
return( 0 );
} else {
return( 1 );
}
}
/*
* Function: slapi_new_condvar
* Description: behaves just like PR_NewCondVar().
* Returns: pointer to a new condition variable (NULL if one can't be created).
*/
Slapi_CondVar *
slapi_new_condvar( Slapi_Mutex *mutex )
{
if ( mutex == NULL ) {
return( NULL );
}
return( (Slapi_CondVar *)PR_NewCondVar( (PRLock *)mutex ));
}
/*
* Function: slapi_destroy_condvar
* Description: behaves just like PR_DestroyCondVar().
*/
void
slapi_destroy_condvar( Slapi_CondVar *cvar )
{
if ( cvar != NULL ) {
PR_DestroyCondVar( (PRCondVar *)cvar );
}
}
/*
* Function: slapi_wait_condvar
* Description: behaves just like PR_WaitCondVar() except timeout is
* in seconds and microseconds instead of PRIntervalTime units.
* If timeout is NULL, this call blocks indefinitely.
* Returns:
* non-zero is all goes well.
* 0 if cvar is NULL, the caller has not locked the mutex associated
* with cvar, or the waiting thread was interrupted.
*/
int
slapi_wait_condvar( Slapi_CondVar *cvar, struct timeval *timeout )
{
PRIntervalTime prit;
if ( cvar == NULL ) {
return( 0 );
}
if ( timeout == NULL ) {
prit = PR_INTERVAL_NO_TIMEOUT;
} else {
prit = PR_SecondsToInterval( timeout->tv_sec )
+ PR_MicrosecondsToInterval( timeout->tv_usec );
}
if ( PR_WaitCondVar( (PRCondVar *)cvar, prit ) != PR_SUCCESS ) {
return( 0 );
}
return( 1 );
}
/*
* Function: slapi_notify_condvar
* Description: if notify_all is zero, behaves just like PR_NotifyCondVar().
* if notify_all is non-zero, behaves just like PR_NotifyAllCondVar().
* Returns:
* non-zero if all goes well.
* 0 if cvar is NULL or the caller has not locked the mutex associated
* with cvar.
*/
int
slapi_notify_condvar( Slapi_CondVar *cvar, int notify_all )
{
PRStatus prrc;
if ( cvar == NULL ) {
return( 0 );
}
if ( notify_all ) {
prrc = PR_NotifyAllCondVar( (PRCondVar *)cvar );
} else {
prrc = PR_NotifyCondVar( (PRCondVar *)cvar );
}
return( prrc == PR_SUCCESS ? 1 : 0 );
}
/*
* Function: slapi_ldap_init()
* Description: just like ldap_ssl_init() but also arranges for the LDAP
* session handle returned to be safely shareable by multiple threads
* if "shared" is non-zero.
* Returns:
* an LDAP session handle (NULL if some local error occurs).
*/
LDAP *
slapi_ldap_init( char *ldaphost, int ldapport, int secure, int shared )
{
LDAP *ld;
int io_timeout_ms;
if ( secure && slapd_SSL_client_init() != 0 ) {
return( NULL );
}
/*
* Leverage the libprldap layer to take care of all the NSPR integration.
* Note that ldapssl_init() uses libprldap implicitly.
*/
if ( secure ) {
ld = ldapssl_init( ldaphost, ldapport, secure );
} else {
ld = prldap_init( ldaphost, ldapport, shared );
}
/* Update snmp interaction table */
if ( ld == NULL) {
set_snmp_interaction_row( ldaphost, ldapport, -1);
} else {
set_snmp_interaction_row( ldaphost, ldapport, 0);
}
if ( ld != NULL ) {
/*
* Set the outbound LDAP I/O timeout based on the server config.
*/
io_timeout_ms = config_get_outbound_ldap_io_timeout();
if ( io_timeout_ms > 0 ) {
if ( prldap_set_session_option( ld, NULL, PRLDAP_OPT_IO_MAX_TIMEOUT,
io_timeout_ms ) != LDAP_SUCCESS ) {
slapi_log_error( SLAPI_LOG_FATAL, "slapi_ldap_init",
"failed: unable to set outbound I/O timeout to %dms\n",
io_timeout_ms );
slapi_ldap_unbind( ld );
return( NULL );
}
}
/*
* Set SSL strength (server certificate validity checking).
*/
if ( secure ) {
int ssl_strength;
if ( config_get_ssl_check_hostname()) {
/* check hostname against name in certificate */
ssl_strength = LDAPSSL_AUTH_CNCHECK;
} else {
/* verify certificate only */
ssl_strength = LDAPSSL_AUTH_CERT;
}
if ( ldapssl_set_strength( ld, ssl_strength ) != 0 ) {
int prerr = PR_GetError();
slapi_log_error( SLAPI_LOG_FATAL, "slapi_ldap_init",
"failed: unable to set SSL strength to %d ("
SLAPI_COMPONENT_NAME_NSPR " error %d - %s)",
ssl_strength, prerr, slapd_pr_strerror( prerr ));
}
}
}
return( ld );
}
/*
* Function: slapi_ldap_unbind()
* Purpose: release an LDAP session obtained from a call to slapi_ldap_init().
*/
void
slapi_ldap_unbind( LDAP *ld )
{
if ( ld != NULL ) {
ldap_unbind( ld );
}
}
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