Esempi in C++ (Cpp) per saHpiWatchdogTimerReset

Esempio n. 1

File: sim_sanity_036.c Progetto: openhpi1/testrepo

int main(int argc, char **argv)
{
	SaHpiSessionIdT sid = 0;
	SaErrorT rc = SA_OK;

        rc = saHpiSessionOpen(SAHPI_UNSPECIFIED_DOMAIN_ID, &sid, NULL);
	if (rc != SA_OK) {
		dbg("Failed to open session");
                return -1;
	}

	rc = saHpiDiscover(sid);
	if (rc != SA_OK) {
		dbg("Failed to run discover");
                return -1;
	}

        rc = saHpiWatchdogTimerReset(sid, 1, 1);
        if (rc != SA_OK) {
		dbg("Couldn't reset watchdog timer");
		dbg("Error %s",oh_lookup_error(rc));
                return -1;
	}

	return 0;
}

Esempio n. 2

File: 3.c Progetto: basheerk/autotest-client-tests

int processWatchdogRdr(SaHpiSessionIdT sessionId,
		       SaHpiResourceIdT resourceId,
		       SaHpiRdrT * rdr, SaHpiWatchdogRecT * watchdogRec)
{
	SaErrorT status;
	int retval;
	SaHpiWatchdogT watchdog;
	SaHpiWatchdogT old_watchdog;
	SaHpiWatchdogNumT wd_num = watchdogRec->WatchdogNum;

	// Save the original watchdog timer for later restoration.

	status =
	    saHpiWatchdogTimerGet(sessionId, resourceId, wd_num, &old_watchdog);
	if (status != SA_OK) {
		retval = SAF_TEST_UNRESOLVED;
		e_print(saHpiWatchdogTimerGet, SA_OK, status);
	} else {

		initSmsWatchdogFields(&watchdog);

		status =
		    saHpiWatchdogTimerSet(sessionId, resourceId, wd_num,
					  &watchdog);
		if (status != SA_OK) {
			retval = SAF_TEST_UNRESOLVED;
			e_print(saHpiWatchdogTimerSet, SA_OK, status);
		} else {
			status =
			    saHpiWatchdogTimerReset(sessionId, resourceId,
						    wd_num);
			if (status == SA_OK) {
				retval = SAF_TEST_PASS;
			} else {
				retval = SAF_TEST_FAIL;
				e_print(saHpiWatchdogTimerReset, SA_OK, status);
			}

			// Restore the original watchdog timer.

			status =
			    saHpiWatchdogTimerSet(sessionId, resourceId, wd_num,
						  &old_watchdog);
			if (status != SA_OK) {
				e_print(saHpiWatchdogTimerSet, SA_OK, status);
			}
		}
	}

	return retval;
}

Esempio n. 3

File: commands.c Progetto: openhpi1/testrepo

static ret_code_t wtd_reset(void)
{
	SaHpiResourceIdT	rptid;
	SaHpiWatchdogNumT	wtdnum;
	SaErrorT		rv;
	ret_code_t		ret;

	ret = ask_rpt(&rptid);
	if (ret != HPI_SHELL_OK) return(ret);
	ret = ask_rdr(rptid, SAHPI_WATCHDOG_RDR, &wtdnum);
	if (ret != HPI_SHELL_OK) return(ret);

	rv = saHpiWatchdogTimerReset(Domain->sessionId, rptid, wtdnum);
	if (rv != SA_OK) {
		printf("ERROR!!! Reset Watchdog: ResourceId=%d WatchdogNum=%d: %s\n",
			rptid, wtdnum, oh_lookup_error(rv));
		return(HPI_SHELL_CMD_ERROR);
	};
	return HPI_SHELL_OK;
}

Esempio n. 4

File: openhpid.cpp Progetto: openhpi1/testrepo

cOpenHpiDaemon::tResult
cOpenHpiDaemon::HandleMsg( cConnection *c, 
			   const cMessageHeader &header, const void *data,
			   cMessageHeader &rh, void *&rd )
{
  cHpiMarshal *hm = HpiMarshalFind( header.m_id );

  // check for function and data length
  if ( !hm || hm->m_request_len < header.m_len )
     {
       //MessageHeaderInit( &rh, eMhError, header.m_seq, 0, 0 );
       //rd = 0;

       fprintf( stderr, "wrong message length: id %d !\n", header.m_id );

       return eResultError;
     }

  assert( hm->m_reply_len );

  // init reply header
  MessageHeaderInit( &rh, eMhReply, header.m_seq, header.m_id, hm->m_reply_len );

  // alloc reply buffer
  rd = calloc( 1, hm->m_reply_len );

  SaErrorT ret;

  switch( header.m_id )
     {
       case eFsaHpiSessionOpen:
	    {
	      SaHpiDomainIdT domain_id;
	      SaHpiSessionIdT session_id = 0;

	      HpiDemarshalRequest1( header.m_flags & dMhEndianBit, hm, data, (void *)&domain_id );

	      ret = saHpiSessionOpen( domain_id, &session_id, 0 );

	      DbgFunc( "saHpiSessionOpen( %x, %x ) = %d\n",
                       domain_id, session_id, ret );

	      if ( ret == SA_OK )
		   c->AddSession( session_id );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &session_id );
	    }
 
	    break;

       case eFsaHpiSessionClose:
	    {
	      SaHpiSessionIdT session_id;

	      HpiDemarshalRequest1( header.m_flags & dMhEndianBit, hm, data, &session_id );

	      ret = saHpiSessionClose( session_id );

	      DbgFunc( "saHpiSessionClose( %x ) = %d\n", session_id, ret );

	      if ( ret == SA_OK )
		   c->RemSession( session_id );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }

	    break;

       case eFsaHpiResourcesDiscover:
	    {
	      SaHpiSessionIdT session_id;

	      HpiDemarshalRequest1( header.m_flags & dMhEndianBit, hm, data, &session_id );

	      ret = saHpiResourcesDiscover( session_id );

	      DbgFunc( "saHpiResourcesDiscover( %x ) = %d\n", session_id, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }

	    break;
    
       case eFsaHpiRptInfoGet:
	    {
	      SaHpiSessionIdT session_id;
              SaHpiRptInfoT rpt_info;

	      HpiDemarshalRequest1( header.m_flags & dMhEndianBit, hm, data, &session_id );

	      ret = saHpiRptInfoGet( session_id, &rpt_info );

	      DbgFunc( "saHpiRptInfoGet( %x ) = %d\n", session_id, ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &rpt_info );
	    }

	    break;

       case eFsaHpiRptEntryGet:
	    {
	      SaHpiSessionIdT session_id;
              SaHpiEntryIdT   entry_id;
              SaHpiEntryIdT   next_entry_id;
              SaHpiRptEntryT  rpt_entry;

	      HpiDemarshalRequest2( header.m_flags & dMhEndianBit, hm, data,
                                    &session_id, &entry_id );

	      ret = saHpiRptEntryGet( session_id, entry_id, &next_entry_id, &rpt_entry );

	      DbgFunc( "saHpiRptEntryGet( %x, %x, %x ) = %d\n",
                       session_id, entry_id, next_entry_id, ret );

	      rh.m_len = HpiMarshalReply2( hm, rd, &ret, &next_entry_id, &rpt_entry );
	    }

	    break;

       case eFsaHpiRptEntryGetByResourceId:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiRptEntryT   rpt_entry;
	      
	      HpiDemarshalRequest2( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id );

	      ret = saHpiRptEntryGetByResourceId( session_id, resource_id, &rpt_entry );

	      DbgFunc( "saHpiRptEntryGetByResourceId( %x, %x ) = %d\n",
                       session_id, resource_id, ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &rpt_entry );
	    }

	    break;

       case eFsaHpiResourceSeveritySet:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiSeverityT   severity;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id, &severity );

	      ret = saHpiResourceSeveritySet( session_id,
					      resource_id, severity );

	      DbgFunc( "saHpiResourceSeveritySet( %x, %x ) = %d\n",
                       session_id, resource_id, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }

	    break;

       case eFsaHpiResourceTagSet:
	    {
	      SaHpiSessionIdT  session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiTextBufferT resource_tag;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id, &resource_tag );

	      ret = saHpiResourceTagSet( session_id, resource_id,
					 &resource_tag );

	      DbgFunc( "saHpiResourceTagSet( %x, %x ) = %d\n",
                       session_id, resource_id, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }

	    break;

       case eFsaHpiResourceIdGet:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiResourceIdT resource_id = 0;

	      HpiDemarshalRequest1( header.m_flags & dMhEndianBit, hm, data,
				    &session_id );

	      ret = saHpiResourceIdGet( session_id, &resource_id );

	      DbgFunc( "saHpiResourceIdGet( %x ) = %d, %x\n",
                       session_id, ret, resource_id );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &resource_id );
	    }

	    break;

       case eFsaHpiEntitySchemaGet:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiUint32T    schema_id = 0;

	      HpiDemarshalRequest1( header.m_flags & dMhEndianBit, hm, data,
				   &session_id );

	      ret = saHpiEntitySchemaGet( session_id, &schema_id );
	      
	      DbgFunc( "saHpiEntitySchemaGet( %x ) = %d, %x\n",
                       session_id, ret, schema_id );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &schema_id );
	    }
	    
	    break;

       case eFsaHpiEventLogInfoGet:
 	    {
	      SaHpiSessionIdT session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiSelInfoT    info;

	      HpiDemarshalRequest2( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id );

	      ret = saHpiEventLogInfoGet( session_id, resource_id, &info );

	      DbgFunc( "saHpiEventLogInfoGet( %x, %x ) = %d\n",
                       session_id, resource_id, ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &info );
	    }

	    break;

       case eFsaHpiEventLogEntryGet:
	    {
	      SaHpiSessionIdT  session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiSelEntryIdT entry_id;
	      SaHpiSelEntryIdT prev_entry_id = 0;
	      SaHpiSelEntryIdT next_entry_id = 0;
	      SaHpiSelEntryT   event_log_entry;
	      SaHpiRdrT        rdr;
	      SaHpiRptEntryT   rpt_entry;

	      memset( &rdr, 0, sizeof( SaHpiRdrT ) );
	      memset( &rpt_entry, 0, sizeof( SaHpiRptEntryT ) );

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id, &entry_id );

	      ret = saHpiEventLogEntryGet( session_id, resource_id, entry_id,
					   &prev_entry_id, &next_entry_id,
					   &event_log_entry, &rdr, &rpt_entry );

	      DbgFunc( "saHpiEventLogEntryGet( %x, %x, %x ) = %d\n",
                       session_id, resource_id, entry_id, ret );

	      rh.m_len = HpiMarshalReply5( hm, rd, &ret, &prev_entry_id, &next_entry_id,
				&event_log_entry, &rdr, &rpt_entry );
	    }

	    break;

       case eFsaHpiEventLogEntryAdd:
	    {
	      SaHpiSessionIdT  session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiSelEntryT   evt_entry;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id, &evt_entry );

	      ret = saHpiEventLogEntryAdd( session_id, resource_id,
					   &evt_entry );
	      
	      DbgFunc( "saHpiEventLogEntryAdd( %x, %x ) = %d\n",
                       session_id, resource_id, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }

	    break;

       case eFsaHpiEventLogEntryDelete:
	    {
	      SaHpiSessionIdT  session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiSelEntryIdT entry_id;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id, &entry_id );

	      ret = saHpiEventLogEntryDelete( session_id, resource_id, entry_id );

	      DbgFunc( "saHpiEventLogEntryDelete( %x, %x, %x ) = %d\n",
                       session_id, resource_id, entry_id, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }
	    
	    break;

       case eFsaHpiEventLogClear:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiResourceIdT resource_id;

	      HpiDemarshalRequest2( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id );

	      ret = saHpiEventLogClear( session_id, resource_id );

	      DbgFunc( "saHpiEventLogClear( %x, %x ) = %d\n",
                       session_id, resource_id, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }

	    break;

       case eFsaHpiEventLogTimeGet:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiTimeT       ti;
	      
	      HpiDemarshalRequest2( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id );

	      ret = saHpiEventLogTimeGet( session_id, resource_id, &ti );

	      DbgFunc( "saHpiEventLogTimeGet( %x, %x ) = %d\n",
                       session_id, resource_id, ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &ti );
	    }

	    break;

       case eFsaHpiEventLogTimeSet:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiTimeT       ti;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id , &ti );

	      ret = saHpiEventLogTimeSet( session_id, resource_id, ti );
 
	      DbgFunc( "saHpiEventLogTimeSet( %x, %x ) = %d\n",
                       session_id, resource_id, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }

	    break;

       case eFsaHpiEventLogStateGet:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiBoolT       enable;

	      HpiDemarshalRequest2( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id );

	      ret = saHpiEventLogStateGet( session_id, resource_id, &enable );

	      DbgFunc( "saHpiEventLogStateGet( %x, %x ) = %d\n",
                       session_id, resource_id, ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &enable );
	    }

	    break;

       case eFsaHpiEventLogStateSet:
	    {
	      SaHpiSessionIdT  session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiBoolT       enable;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id, &enable );

	      ret = saHpiEventLogStateSet( session_id, resource_id, enable );
	      
	      DbgFunc( "saHpiEventLogStateSet( %x, %x, %s ) = %d\n",
                       session_id, resource_id, enable ? "true" : "false", ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }

	    break;

       case eFsaHpiSubscribe:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiBoolT      provide_active_alarms;

	      HpiDemarshalRequest2( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &provide_active_alarms );

	      ret = saHpiSubscribe( session_id, provide_active_alarms );

	      DbgFunc( "saHpiSubscribe( %x, %s ) = %d\n",
                       session_id,  provide_active_alarms ? "true" : "false",
		       ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }

	    break;

       case eFsaHpiUnsubscribe:
	    {
	      SaHpiSessionIdT session_id;

	      HpiDemarshalRequest1( header.m_flags & dMhEndianBit, hm, data,
				    &session_id );

	      ret = saHpiUnsubscribe( session_id );

	      DbgFunc( "saHpiUnsubscribe( %x ) = %d\n",
                       session_id, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }

	    break;

       case eFsaHpiEventGet:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiTimeoutT   timeout;
	      SaHpiEventT     event;
	      SaHpiRdrT       rdr;
	      SaHpiRptEntryT  rpt_entry;

	      HpiDemarshalRequest2( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &timeout );

	      if ( timeout == 0 )
		 {
		   ret = saHpiEventGet( session_id, timeout, &event, &rdr, &rpt_entry );

		   DbgFunc( "saHpiEventGet( %x ) = %d\n",
			    session_id, ret );

		   rh.m_len = HpiMarshalReply3( hm, rd, &ret, &event, &rdr, &rpt_entry );
		 }
	      else
		 {
		   cSession *s = c->FindSession( session_id );

		   if ( s && !s->IsEventGet() )
		      {
			s->EventGet( true );

			SaHpiTimeT end;
			gettimeofday1( &end );

			if ( timeout == SAHPI_TIMEOUT_BLOCK )
			     end += (SaHpiTimeT)10000*1000000000; //set a long time
			else
			     end += timeout;

			s->Timeout() = end;

			s->Seq() = header.m_seq;

			DbgEvent( "saHpiEventGet( %x ): add to event listener.\n",
				  s->SessionId() );

			return eResultOk;
		      }

		   // error
		   ret = SA_ERR_HPI_BUSY;
		   rh.m_len = HpiMarshalReply3( hm, rd, &ret, &event, &rdr, &rpt_entry );
		 }
	    }

	    break;

       case eFsaHpiRdrGet:
	    {
	      SaHpiSessionIdT  session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiEntryIdT    entry_id;
	      SaHpiEntryIdT    next_entry_id;
	      SaHpiRdrT        rdr;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id, &entry_id );

	      ret = saHpiRdrGet( session_id, resource_id, entry_id,
				 &next_entry_id, &rdr );

	      DbgFunc( "saHpiRdrGet( %x, %x, %x ) = %d\n",
                       session_id, resource_id, entry_id, ret );

	      rh.m_len = HpiMarshalReply2( hm, rd, &ret, &next_entry_id, &rdr );
	    }

	    break;

       case eFsaHpiSensorReadingGet:
	    {
	      SaHpiSessionIdT  session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiSensorNumT  sensor_num;
	      SaHpiSensorReadingT reading;
	      
	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id, &sensor_num );

	      ret = saHpiSensorReadingGet( session_id, resource_id,
					   sensor_num, &reading );
	      
	      DbgFunc( "saHpiSensorReadingGet( %x, %x, %x ) = %d\n",
                       session_id, resource_id, sensor_num, ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &reading );
	    }

	    break;

       case eFsaHpiSensorReadingConvert:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiSensorNumT  sensor_num;
	      SaHpiSensorReadingT reading_input;
	      SaHpiSensorReadingT converted_reading;

	      HpiDemarshalRequest4( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id, &sensor_num,
				    &reading_input );

	      ret = saHpiSensorReadingConvert( session_id,
					       resource_id, sensor_num,
					       &reading_input,
					       &converted_reading );

	      DbgFunc( "saHpiSensorReadingConvert( %x, %x, %x ) = %d\n",
                       session_id, resource_id, sensor_num, ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &converted_reading );
	    }

	    break;

       case eFsaHpiSensorThresholdsGet:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiSensorNumT  sensor_num;
	      SaHpiSensorThresholdsT sensor_thresholds;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id, &sensor_num );

	      ret = saHpiSensorThresholdsGet( session_id,
					      resource_id, sensor_num,
					      &sensor_thresholds);

	      DbgFunc( "saHpiSensorThresholdsGet( %x, %x, %x ) = %d\n",
                       session_id, resource_id, sensor_num,  ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &sensor_thresholds );
	    }

	    break;

       case eFsaHpiSensorThresholdsSet:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiSensorNumT  sensor_num;
	      SaHpiSensorThresholdsT sensor_thresholds;

	      HpiDemarshalRequest4( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id, &sensor_num,
				   &sensor_thresholds );

	      ret = saHpiSensorThresholdsSet( session_id, resource_id,
					      sensor_num,
					      &sensor_thresholds );

	      DbgFunc( "saHpiSensorThresholdsSet( %x, %x, %x ) = %d\n",
                       session_id, resource_id, sensor_num, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }

	    break;

       case eFsaHpiSensorTypeGet:
	    {
	      SaHpiResourceIdT resource_id;
	      SaHpiSessionIdT  session_id;
	      SaHpiSensorNumT  sensor_num;
	      SaHpiSensorTypeT type;
	      SaHpiEventCategoryT category;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id, &sensor_num );

	      ret = saHpiSensorTypeGet( session_id, resource_id,
					sensor_num, &type, &category );

	      DbgFunc( "saHpiSensorTypeGet( %x, %x, %x ) = %d\n",
                       session_id, resource_id, sensor_num, ret );

	      rh.m_len = HpiMarshalReply2( hm, rd, &ret, &type, &category );
	    }

	    break;

       case eFsaHpiSensorEventEnablesGet:
	    {
	      SaHpiSessionIdT        session_id;
	      SaHpiResourceIdT       resource_id;
	      SaHpiSensorNumT        sensor_num;
	      SaHpiSensorEvtEnablesT enables;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id, &sensor_num );

	      ret = saHpiSensorEventEnablesGet( session_id, resource_id,
						sensor_num, &enables );

	      DbgFunc( "saHpiSensorEventEnablesGet( %x, %x, %x ) = %d\n",
                       session_id, resource_id, sensor_num, ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &enables );
	    }

	    break;

       case eFsaHpiSensorEventEnablesSet:
	    {
	      SaHpiSessionIdT  session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiSensorNumT  sensor_num;
	      SaHpiSensorEvtEnablesT enables;

	      HpiDemarshalRequest4( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id, &sensor_num,
				    &enables );

	      ret = saHpiSensorEventEnablesSet( session_id, resource_id,
						sensor_num, &enables );
	      
	      DbgFunc( "saHpiSensorEventEnablesSet( %x, %x, %x ) = %d\n",
                       session_id, resource_id, sensor_num, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }
	    
	    break;

       case eFsaHpiControlTypeGet:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiCtrlNumT    ctrl_num;
	      SaHpiCtrlTypeT   type;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id, &ctrl_num );

	      ret = saHpiControlTypeGet( session_id, resource_id, ctrl_num,
					 &type );

	      DbgFunc( "saHpiControlTypeGet( %x, %x, %x ) = %d\n",
                       session_id, resource_id, ctrl_num, ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &type );
	    }

	    break;

       case eFsaHpiControlStateGet:
	    {
	      SaHpiSessionIdT  session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiCtrlNumT    ctrl_num;
	      SaHpiCtrlStateT  ctrl_state;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id, &ctrl_num );

	      ret = saHpiControlStateGet( session_id, resource_id,
					  ctrl_num, &ctrl_state );

	      DbgFunc( "saHpiControlStateGet( %x, %x, %x ) = %d\n",
                       session_id, resource_id, ctrl_num, ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &ctrl_state );
	    }

	    break;

       case eFsaHpiControlStateSet:
	    {
	      SaHpiSessionIdT  session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiCtrlNumT    ctrl_num;
	      SaHpiCtrlStateT  ctrl_state;

	      HpiDemarshalRequest4( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id, &ctrl_num,
				    &ctrl_state );

	      ret = saHpiControlStateSet( session_id, resource_id,
					  ctrl_num, &ctrl_state );

	      DbgFunc( "saHpiControlStateSet( %x, %x, %x ) = %d\n",
                       session_id, resource_id, ctrl_num, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }

	    break;

       case eFsaHpiEntityInventoryDataRead:
	    {
	      SaHpiSessionIdT  session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiEirIdT      eir_id;
	      SaHpiUint32T     buffer_size;
	      unsigned char   *buffer = 0;
	      SaHpiUint32T     actual_size;

	      HpiDemarshalRequest4( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id, &eir_id, &buffer_size );

	      if ( buffer_size )
		   buffer = new unsigned char [buffer_size];

	      ret = saHpiEntityInventoryDataRead( session_id, resource_id, eir_id,
						  buffer_size, (SaHpiInventoryDataT *)(void *)buffer,
						  &actual_size );

	      DbgFunc( "saHpintityInventoryDataRead( %x, %x, %x, %d ) = %d\n",
                       session_id, resource_id, eir_id, buffer_size, ret );

	      const cMarshalType *reply[4];
	      reply[0] = &SaErrorType; // SA_OK
	      reply[1] = &SaHpiUint32Type;  // actual size

	      const void *params[3];
	      params[0] = &ret;
	      params[1] = &actual_size;

	      if ( ret != SA_OK || buffer == 0 )
		   reply[2] = 0;		   
	      else
		 {
  		   reply[2] = &SaHpiInventoryDataType, // inventory data
		   reply[3] = 0;		   

		   params[2] = buffer;		   
		 }

	      rh.m_len = MarshalArray( reply, params, rd );

	      if ( buffer )
		   delete [] buffer;
	    }

	    break;

       case eFsaHpiEntityInventoryDataWrite:
	    {
	      SaHpiSessionIdT  session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiEirIdT      eir_id;
	      unsigned char    buffer[10240];

	      HpiDemarshalRequest4( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id, &eir_id, buffer );

	      ret = saHpiEntityInventoryDataWrite( session_id, resource_id, eir_id,
						   (SaHpiInventoryDataT *)(void *)buffer );

	      DbgFunc( "saHpintityInventoryDataWrite( %x, %x, %x ) = %d\n",
                       session_id, resource_id, eir_id, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }
	    break;

       case eFsaHpiWatchdogTimerGet:
	    {
	      SaHpiSessionIdT   session_id;
	      SaHpiResourceIdT  resource_id;
	      SaHpiWatchdogNumT watchdog_num;
	      SaHpiWatchdogT    watchdog;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id, &watchdog_num );

	      ret = saHpiWatchdogTimerGet( session_id, resource_id,
					   watchdog_num, &watchdog );

	      DbgFunc( "saHpiWatchdogTimerGet( %x, %x, %x ) = %d\n",
                       session_id, resource_id, watchdog_num, ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &watchdog );
	    }

	    break;

       case eFsaHpiWatchdogTimerSet:
	    {
	      SaHpiSessionIdT   session_id;
	      SaHpiResourceIdT  resource_id;
	      SaHpiWatchdogNumT watchdog_num;
	      SaHpiWatchdogT    watchdog;

	      HpiDemarshalRequest4( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id, &watchdog_num,
				    &watchdog );

	      ret = saHpiWatchdogTimerSet( session_id, resource_id,
					   watchdog_num, &watchdog );
	      
	      DbgFunc( "saHpiWatchdogTimerSet( %x, %x, %x ) = %d\n",
                       session_id, resource_id, watchdog_num, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }
	    
	    break;

       case eFsaHpiWatchdogTimerReset:
	    {
	      SaHpiSessionIdT   session_id;
	      SaHpiResourceIdT  resource_id;
	      SaHpiWatchdogNumT watchdog_num;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id, &watchdog_num );

	      ret = saHpiWatchdogTimerReset( session_id, resource_id,
					     watchdog_num );

	      DbgFunc( "eFsaHpiWatchdogTimerReset( %x, %x, %x ) = %d\n",
                       session_id, resource_id, watchdog_num, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }
	    
	    break;

       case eFsaHpiHotSwapControlRequest:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiResourceIdT resource_id;

	      HpiDemarshalRequest2( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id );

	      ret = saHpiHotSwapControlRequest( session_id, resource_id );

	      DbgFunc( "saHpiHotSwapControlRequest( %x, %x ) = %d\n",
                       session_id, resource_id , ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }

	    break;

       case eFsaHpiResourceActiveSet:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiResourceIdT resource_id;
	      HpiDemarshalRequest2( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id );

	      ret = saHpiResourceActiveSet( session_id, resource_id );
	      
	      DbgFunc( "saHpiResourceActiveSet( %x, %x ) = %d\n",
                       session_id, resource_id , ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }
	    
	    break;

       case eFsaHpiResourceInactiveSet:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiResourceIdT resource_id;
	      HpiDemarshalRequest2( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id );

	      ret = saHpiResourceInactiveSet( session_id, resource_id );

	      DbgFunc( "saHpiResourceInactiveSet( %x, %x ) = %d\n",
                       session_id, resource_id , ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }

	    break;

       case eFsaHpiAutoInsertTimeoutGet:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiTimeoutT   timeout;
	      
	      HpiDemarshalRequest1( header.m_flags & dMhEndianBit, hm, data,
				   &session_id );

	      ret = saHpiAutoInsertTimeoutGet( session_id, &timeout );
	      
	      DbgFunc( "saHpiAutoInsertTimeoutGet( %x ) = %d\n",
                       session_id, ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &timeout );
	    }

	    break;

       case eFsaHpiAutoInsertTimeoutSet:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiTimeoutT   timeout;

	      HpiDemarshalRequest2( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &timeout );

	      ret = saHpiAutoInsertTimeoutSet( session_id, timeout );
	      
	      DbgFunc( "saHpiAutoInsertTimeoutSet( %x ) = %d\n",
                       session_id, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }
	    
	    break;

       case eFsaHpiAutoExtractTimeoutGet:
	    {
	      SaHpiSessionIdT  session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiTimeoutT    timeout;

	      HpiDemarshalRequest2( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id );

	      ret = saHpiAutoExtractTimeoutGet( session_id, resource_id, &timeout );

	      DbgFunc( "saHpiAutoExtractTimeoutGet( %x, %x ) = %d\n",
                       session_id, resource_id, ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &timeout );
	    }

	    break;

       case eFsaHpiAutoExtractTimeoutSet:
	    {
	      SaHpiSessionIdT  session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiTimeoutT    timeout;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id, &timeout );

	      ret = saHpiAutoExtractTimeoutSet( session_id, resource_id, timeout );

	      DbgFunc( "saHpiAutoExtractTimeoutSet( %x, %x ) = %d\n",
                       session_id, resource_id, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }

	    break;

       case eFsaHpiHotSwapStateGet:
	    {
	      SaHpiSessionIdT  session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiHsStateT    state;

	      HpiDemarshalRequest2( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id );

	      ret = saHpiHotSwapStateGet( session_id, resource_id, &state );

	      DbgFunc( "saHpiHotSwapStateGet( %x, %x ) = %d\n",
                       session_id, resource_id, ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &state );
	    }
	    
	    break;

       case eFsaHpiHotSwapActionRequest:
	    {
	      SaHpiSessionIdT session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiHsActionT   action;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id, &action );

	      ret = saHpiHotSwapActionRequest( session_id, resource_id, action );

	      DbgFunc( "saHpiHotSwapActionRequest( %x, %x ) = %d\n",
                       session_id, resource_id , ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }
	    
	    break;

       case eFsaHpiResourcePowerStateGet:
	    {
	      SaHpiSessionIdT    session_id;
	      SaHpiResourceIdT   resource_id;
	      SaHpiHsPowerStateT state;

	      HpiDemarshalRequest2( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id );

	      ret = saHpiResourcePowerStateGet( session_id, resource_id, &state );
	      
	      DbgFunc( "saHpiResourcePowerStateGet( %x, %x ) = %d\n",
                       session_id, resource_id, ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &state );
	    }
	    
	    break;

       case eFsaHpiResourcePowerStateSet:
	    {
	      SaHpiSessionIdT    session_id;
	      SaHpiResourceIdT   resource_id;
	      SaHpiHsPowerStateT state;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id, &state  );

	      ret = saHpiResourcePowerStateSet( session_id, resource_id, state );

	      DbgFunc( "(saHpiResourcePowerStateSet %x, %x ) = %d\n",
                       session_id, resource_id , ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }

	    break;

       case eFsaHpiHotSwapIndicatorStateGet:
	    {
	      SaHpiSessionIdT        session_id;
	      SaHpiResourceIdT       resource_id;
	      SaHpiHsIndicatorStateT state;

	      HpiDemarshalRequest2( header.m_flags & dMhEndianBit, hm, data,
				   &session_id, &resource_id );

	      ret = saHpiHotSwapIndicatorStateGet( session_id, resource_id, &state );

	      DbgFunc( "saHpiHotSwapIndicatorStateGet( %x, %x ) = %d\n",
                       session_id, resource_id , ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &state );
	    }

	    break;

       case eFsaHpiHotSwapIndicatorStateSet:
	    {
	      SaHpiSessionIdT        session_id;
	      SaHpiResourceIdT       resource_id;
	      SaHpiHsIndicatorStateT state;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id, &state );

	      ret = saHpiHotSwapIndicatorStateSet( session_id, resource_id, state );

	      DbgFunc( "saHpiHotSwapIndicatorStateSet( %x, %x ) = %d\n",
                       session_id, resource_id , ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }
	    
	    break;

       case eFsaHpiParmControl:
	    {
	      SaHpiSessionIdT  session_id;
	      SaHpiResourceIdT resource_id;
	      SaHpiParmActionT action;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id, &action );

	      ret = saHpiParmControl( session_id, resource_id, action );

	      DbgFunc( "saHpiParmControl( %x, %x ) = %d\n",
                       session_id, resource_id, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret  );
	    }

	    break;

       case eFsaHpiResourceResetStateGet:
	    {
	      SaHpiSessionIdT   session_id;
	      SaHpiResourceIdT  resource_id;
	      SaHpiResetActionT reset_action;

	      HpiDemarshalRequest2( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id );

	      ret = saHpiResourceResetStateGet( session_id, resource_id,
						&reset_action );

	      DbgFunc( "saHpiResourceResetStateGet( %x, %x ) = %d\n",
                       session_id, resource_id, ret );

	      rh.m_len = HpiMarshalReply1( hm, rd, &ret, &reset_action );
	    }

	    break;

       case eFsaHpiResourceResetStateSet:
	    {
	      SaHpiSessionIdT   session_id;
	      SaHpiResourceIdT  resource_id;
	      SaHpiResetActionT reset_action;

	      HpiDemarshalRequest3( header.m_flags & dMhEndianBit, hm, data,
				    &session_id, &resource_id, &reset_action );

	      ret = saHpiResourceResetStateSet( session_id, resource_id, reset_action );

	      DbgFunc( "saHpiResourceResetStateSet( %x, %x ) = %d\n",
                       session_id, resource_id, ret );

	      rh.m_len = HpiMarshalReply0( hm, rd, &ret );
	    }

	    break;

       default:
	    assert( 0 );
	    break;
     }

  assert( rh.m_len <= hm->m_reply_len );

  return eResultReply;
}

Esempio n. 5

File: hpiwdt.c Progetto: openhpi1/openhpitest

int
main(int argc, char **argv)
{
  SaErrorT rv;
  SaHpiSessionIdT sessionid;
  SaHpiDomainInfoT domainInfo;
  SaHpiRptEntryT rptentry;
  SaHpiEntryIdT rptentryid;
  SaHpiEntryIdT nextrptentryid;
  SaHpiResourceIdT resourceid;
  SaHpiWatchdogNumT  wdnum;
  SaHpiWatchdogT     wdt;
  GOptionContext *context;

  /* Print version strings */
  oh_prog_version(argv[0]);

  /* Parsing options */
  static char usetext[]="- Read and Enables the watchdog timer.\n  "
                        OH_SVN_REV; 
  OHC_PREPARE_REVISION(usetext);
  context = g_option_context_new (usetext);
  g_option_context_add_main_entries (context, my_options, NULL);

  if (!ohc_option_parse(&argc, argv, 
                context, &copt, 
                OHC_ALL_OPTIONS 
                    - OHC_ENTITY_PATH_OPTION  //TODO: Feature 880127
                    - OHC_VERBOSE_OPTION )) { // no verbose mode implemented
                g_option_context_free (context);
		return 1;
  }
  g_option_context_free (context);
  if (ftimeout == 0) ftimeout = 120;
  else fenable = TRUE;
  
  rv = ohc_session_open_by_option ( &copt, &sessionid);
  if (rv != SA_OK) return rv;

  rv = saHpiDiscover(sessionid);
  if (copt.debug) DBG("saHpiDiscover rv = %s",oh_lookup_error(rv));
  rv = saHpiDomainInfoGet(sessionid, &domainInfo);
  if (copt.debug) DBG("saHpiDomainInfoGet rv = %s",oh_lookup_error(rv));
  printf("DomainInfo: UpdateCount = %x, UpdateTime = %lx\n",
       domainInfo.RptUpdateCount, (unsigned long)domainInfo.RptUpdateTimestamp);

  /* walk the RPT list */
  rptentryid = SAHPI_FIRST_ENTRY;
  while ((rv == SA_OK) && (rptentryid != SAHPI_LAST_ENTRY))
  {
     rv = saHpiRptEntryGet(sessionid,rptentryid,&nextrptentryid,&rptentry);
     if (rv != SA_OK) printf("RptEntryGet: rv = %s\n",oh_lookup_error(rv));
     if (rv == SA_OK) {
	/* handle WDT for this RPT entry */
	resourceid = rptentry.ResourceId;
	rptentry.ResourceTag.Data[rptentry.ResourceTag.DataLength] = 0;
	if (copt.debug)
	   printf("rptentry[%u] resourceid=%u capab=%x tag: %s\n",
		rptentryid, resourceid, rptentry.ResourceCapabilities, 
		rptentry.ResourceTag.Data);

	if (rptentry.ResourceCapabilities & SAHPI_CAPABILITY_WATCHDOG) {
	   printf("%s has watchdog capability\n",rptentry.ResourceTag.Data);

	   wdnum = SAHPI_DEFAULT_WATCHDOG_NUM;
	   rv = saHpiWatchdogTimerGet(sessionid,resourceid,wdnum,&wdt);
	   if (copt.debug) DBG("saHpiWatchdogTimerGet rv = %s",oh_lookup_error(rv));
	   if (rv != 0) {
		printf("saHpiWatchdogTimerGet error = %s\n",oh_lookup_error(rv));
		rv = 0;
		rptentryid = nextrptentryid; 
		continue;
	   }
	   show_wdt(wdnum,&wdt);

	   if (fdisable) {
	      printf("Disabling watchdog timer ...\n");
	      /* clear FRB2, timeout back to 120 sec */
	      /* TODO: add setting wdt values here */
	      wdt.TimerUse = SAHPI_WTU_NONE;    /* 1=FRB2 2=POST 3=OSLoad 4=SMS_OS 5=OEM */
	      wdt.TimerAction = SAHPI_WA_NO_ACTION; /* 0=none 1=reset 2=powerdown 3=powercycle */
	      wdt.PretimerInterrupt = SAHPI_WPI_NONE; /* 0=none 1=SMI 2=NMI 3=message */
	      wdt.PreTimeoutInterval = 60000; /*msec*/
	      wdt.InitialCount = 120000; /*msec*/
	      wdt.PresentCount = 120000; /*msec*/

	      rv = saHpiWatchdogTimerSet(sessionid,resourceid,wdnum,&wdt);
	      if (copt.debug) DBG("saHpiWatchdogTimerSet rv = %s",oh_lookup_error(rv));
	      if (rv == 0) show_wdt(wdnum,&wdt);
	   } else if (fenable) {
	      printf("Enabling watchdog timer ...\n");
	      /* hard reset action, no pretimeout, clear SMS/OS when done */
	      /* use ftimeout for timeout */
	      wdt.TimerUse = SAHPI_WTU_SMS_OS;    /* 1=FRB2 2=POST 3=OSLoad 4=SMS_OS 5=OEM */
	      wdt.TimerAction = SAHPI_WA_RESET; /* 0=none 1=reset 2=powerdown 3=powercycle */
	      wdt.PretimerInterrupt = SAHPI_WPI_NMI; /* 0=none 1=SMI 2=NMI 3=message */
	      wdt.PreTimeoutInterval = (ftimeout / 2) * 1000; /*msec*/
	      wdt.InitialCount = ftimeout * 1000; /*msec*/
	      wdt.PresentCount = ftimeout * 1000; /*msec*/

	      rv = saHpiWatchdogTimerSet(sessionid,resourceid,wdnum,&wdt);
	      if (copt.debug) DBG("saHpiWatchdogTimerSet rv = %s",oh_lookup_error(rv));
	      if (rv == 0) show_wdt(wdnum,&wdt);
	   }
	   if (freset && !fdisable) {
	      printf("Resetting watchdog timer ...\n");
	      rv = saHpiWatchdogTimerReset(sessionid,resourceid,wdnum);
	      if (copt.debug) DBG("saHpiWatchdogTimerReset rv = %s",oh_lookup_error(rv));
	   }
	} /*watchdog capability*/
	rptentryid = nextrptentryid;  /* get next RPT (usu only one anyway) */
     }  /*endif RPT ok*/
  }  /*end while loop*/
 
  rv = saHpiSessionClose(sessionid);

  return 0;
}

Esempio n. 6

File: hpiwdt.c Progetto: openhpi1/testrepo

int
main(int argc, char **argv)
{
  int c;
  SaErrorT rv;
  SaHpiVersionT hpiVer;
  SaHpiSessionIdT sessionid;
  SaHpiRptInfoT rptinfo;
  SaHpiRptEntryT rptentry;
  SaHpiEntryIdT rptentryid;
  SaHpiEntryIdT nextrptentryid;
  SaHpiResourceIdT resourceid;
  SaHpiWatchdogNumT  wdnum;
  SaHpiWatchdogT     wdt;
  int t = 0;
  char freset = 0;
  char fenable = 0;
  char fdisable = 0;

  printf("%s ver %s\n", argv[0],progver);
  while ( (c = getopt( argc, argv,"dert:x?")) != EOF )
     switch(c) {
	case 'r':       /* reset wdt */
		freset = 1;
                break;
	case 'e':       /* disable wdt */
		fenable = 1;
                break;
	case 'd':       /* disable wdt */
		fdisable = 1;
                break;
	case 't':       /* timeout (enable implied) */
		t = atoi(optarg);
		fenable = 1;
                break;
	case 'x': fdebug = 1;     break;  /* debug messages */
	default:
                printf("Usage: %s [-derx -t sec]\n", argv[0]);
                printf(" where -e     enables the watchdog timer\n");
                printf("       -d     disables the watchdog timer\n");
                printf("       -r     resets the watchdog timer\n");
                printf("       -t N   sets timeout to N seconds\n");
                printf("       -x     show eXtra debug messages\n");
		exit(1);
     }
  if (t == 0) t = 120;

  rv = saHpiInitialize(&hpiVer);
  if (rv != SA_OK) {
	printf("saHpiInitialize error %d\n",rv);
	exit(-1);
	}
  rv = saHpiSessionOpen(SAHPI_DEFAULT_DOMAIN_ID,&sessionid,NULL);
  if (rv != SA_OK) {
        if (rv == SA_ERR_HPI_ERROR)
           printf("saHpiSessionOpen: error %d, SpiLibd not running\n",rv);
        else
	   printf("saHpiSessionOpen error %d\n",rv);
	exit(-1);
	}
 
  rv = saHpiResourcesDiscover(sessionid);
  if (fdebug) printf("saHpiResourcesDiscover rv = %d\n",rv);
  rv = saHpiRptInfoGet(sessionid,&rptinfo);
  if (fdebug) printf("saHpiRptInfoGet rv = %d\n",rv);
  printf("RptInfo: UpdateCount = %x, UpdateTime = %lx\n",
         rptinfo.UpdateCount, (unsigned long)rptinfo.UpdateTimestamp);
 
  /* walk the RPT list */
  rptentryid = SAHPI_FIRST_ENTRY;
  while ((rv == SA_OK) && (rptentryid != SAHPI_LAST_ENTRY))
  {
     rv = saHpiRptEntryGet(sessionid,rptentryid,&nextrptentryid,&rptentry);
     if (rv != SA_OK) printf("RptEntryGet: rv = %d\n",rv);
     if (rv == SA_OK) {
	/* handle WDT for this RPT entry */
	resourceid = rptentry.ResourceId;
	rptentry.ResourceTag.Data[rptentry.ResourceTag.DataLength] = 0;
	printf("rptentry[%d] resourceid=%d tag: %s\n",
		rptentryid, resourceid, rptentry.ResourceTag.Data);
	/*
	 * The definition for SAHPI_DEFAULT_WATCHDOG_NUM is broken,
	 * so we are assigning wdnum to 0x00 which is what SaHpi.h
	 * attempted to set the default as.
	 */
	wdnum = (SaHpiWatchdogNumT)0x00;

	rv = saHpiWatchdogTimerGet(sessionid,resourceid,wdnum,&wdt);
	if (fdebug) 
	   printf("saHpiWatchdogTimerGet rv = %d\n",rv);
	show_wdt(wdnum,&wdt);

	if (fdisable) {
	   printf("Disabling watchdog timer ...\n");
	   /* clear FRB2, timeout back to 120 sec */
	   /* TODO: add setting wdt values here */
	   wdt.TimerUse = 1;    /* 1=FRB2 2=POST 3=OSLoad 4=SMS_OS 5=OEM */
	   wdt.TimerAction = 0; /* 0=none 1=reset 2=powerdown 3=powercycle */
	   wdt.PretimerInterrupt = 0; /* 0=none 1=SMI 2=NMI 3=message */
	   wdt.PreTimeoutInterval = 60000; /*msec*/
	   wdt.InitialCount = 120000; /*msec*/
	   wdt.PresentCount = 120000; /*msec*/

	   rv = saHpiWatchdogTimerSet(sessionid,resourceid,wdnum,&wdt);
	   if (fdebug) printf("saHpiWatchdogTimerSet rv = %d\n",rv);
	   show_wdt(wdnum,&wdt);
	} else if (fenable) {
	   printf("Enabling watchdog timer ...\n");
	   /* hard reset action, no pretimeout, clear SMS/OS when done */
	   /* use t for timeout */
	   /* TODO: add setting wdt values here */
	   wdt.TimerUse = 4;    /* 1=FRB2 2=POST 3=OSLoad 4=SMS_OS 5=OEM */
	   wdt.TimerAction = 1; /* 0=none 1=reset 2=powerdown 3=powercycle */
	   wdt.PretimerInterrupt = 2; /* 0=none 1=SMI 2=NMI 3=message */
	   wdt.PreTimeoutInterval = (t / 2) * 1000; /*msec*/
	   wdt.InitialCount = t * 1000; /*msec*/
	   wdt.PresentCount = t * 1000; /*msec*/

	   rv = saHpiWatchdogTimerSet(sessionid,resourceid,wdnum,&wdt);
	   if (fdebug) printf("saHpiWatchdogTimerSet rv = %d\n",rv);
	   show_wdt(wdnum,&wdt);
	}
	if (freset && !fdisable) {
	   printf("Resetting watchdog timer ...\n");
	   rv = saHpiWatchdogTimerReset(sessionid,resourceid,wdnum);
	   if (fdebug) printf("saHpiWatchdogTimerReset rv = %d\n",rv);
	}
	rptentryid = nextrptentryid;  /* get next RPT (usu only one anyway) */
     }  /*endif RPT ok*/
  }  /*end while loop*/
 
  rv = saHpiSessionClose(sessionid);
  rv = saHpiFinalize();

  exit(0);
  return(0);
}

Esempio n. 7

File: saHpiWatchdogTable.c Progetto: openhpi1/testrepo

int
set_timer_reset (saHpiWatchdogTable_context * ctx)
{
  SaHpiWatchdogT wdog;
  SaHpiSessionIdT session_id;
  SaErrorT rc;

  if (ctx)
    {
      if (ctx->saHpiWatchdogRunning == MIB_TRUE)
	{

	  // Get the seesion_id
	  rc = getSaHpiSession (&session_id);
	  if (rc != AGENT_ERR_NOERROR)
	    {
	      DEBUGMSGTL ((AGENT,
			   "Call to getSaHpiSession failed with rc: %d\n",
			   rc));
	      return rc;
	    }

	  DEBUGMSGTL ((AGENT, "Calling saHpiWatchdogTimerReset with %d\n",
		       ctx->saHpiWatchdogNum));

	  rc = saHpiWatchdogTimerReset (session_id,
					ctx->resource_id,
					ctx->saHpiWatchdogNum);

	  if (rc != SA_OK)
	    {
	      snmp_log (LOG_ERR,
			"Call to saHpiWatchdogTimerReset failed with rc: %s\n",
			get_error_string (rc));
	      DEBUGMSGTL ((AGENT,
			   "Call to saHpiWatchdogTimerReset failed with rc: %s\n",
			   get_error_string (rc)));
	      return AGENT_ERR_OPERATION;
	    }
	  // Get the new changes.
	  DEBUGMSGTL ((AGENT, "Calling saHpiWatchdogTimerGet with %d\n",
		       ctx->saHpiWatchdogNum));
	  memset (&wdog, 0x00, sizeof (SaHpiWatchdogT));

	  rc = saHpiWatchdogTimerGet (session_id, ctx->resource_id,
				      ctx->saHpiWatchdogNum, &wdog);
	  if (rc != SA_OK)
	    {
	      snmp_log (LOG_ERR,
			"Call to saHpiWatchdogTimerGet failed with rc: %s.\n",
			get_error_string (rc));
	      DEBUGMSGTL ((AGENT,
			   "Call to saHpiWatchdogTimerGet failed with rc: %s.\n",
			   get_error_string (rc)));
	      return AGENT_ERR_OPERATION;
	    }
	  DEBUGMSGTL ((AGENT, "log: %d, Run: %d\n", wdog.Log, wdog.Running));
	  ctx->saHpiWatchdogLog =
	    (wdog.Log == SAHPI_TRUE) ? MIB_TRUE : MIB_FALSE;
	  ctx->saHpiWatchdogRunning =
	    (wdog.Running == SAHPI_TRUE) ? MIB_TRUE : MIB_FALSE;
	  ctx->saHpiWatchdogTimerUse = wdog.TimerUse + 1;
	  ctx->saHpiWatchdogTimerAction = wdog.TimerAction + 1;
	  ctx->saHpiWatchdogPretimerInterrupt = wdog.PretimerInterrupt + 1;
	  ctx->saHpiWatchdogPreTimeoutInterval = wdog.PreTimeoutInterval;
	  ctx->saHpiWatchdogTimerUseExpFlags = wdog.TimerUseExpFlags;
	  ctx->saHpiWatchdogTimerInitialCount = wdog.InitialCount;
	  ctx->saHpiWatchdogTimerPresentCount = wdog.PresentCount;
	  // MIB change. 
	  // IBM-KR: Should this be set to something else, perhaps?
	  ctx->saHpiWatchdogTimerReset = MIB_FALSE;
	  return AGENT_ERR_NOERROR;
	}
      return AGENT_ERR_OPERATION;
    }
  return AGENT_ERR_NULL_DATA;

}