static ret_code_t parmctrl(void) { SaHpiResourceIdT resid; int i; char buf[10]; SaErrorT rv; SaHpiParmActionT act; ret_code_t ret; ret = ask_rpt(&resid); if (ret != HPI_SHELL_OK) return(ret); i = get_string_param("Action (default,save,restore): ", buf, 9); if (i != 0) { printf("Invalid action: %s\n", buf); return(HPI_SHELL_PARM_ERROR); }; if (strcmp(buf, "default") == 0) act = SAHPI_DEFAULT_PARM; else if (strcmp(buf, "save") == 0) act = SAHPI_SAVE_PARM; else if (strcmp(buf, "restore") == 0) act = SAHPI_RESTORE_PARM; else { printf("Invalid action: %s\n", buf); return(HPI_SHELL_PARM_ERROR); }; rv = saHpiParmControl(Domain->sessionId, resid, act); if (rv != SA_OK) { printf("saHpiParmControl error = %s\n", oh_lookup_error(rv)); return HPI_SHELL_CMD_ERROR; }; return (HPI_SHELL_OK); }
int Test_Resource(SaHpiSessionIdT session_id, SaHpiRptEntryT rpt_entry, callback2_t func) { SaHpiResourceIdT resource_id = rpt_entry.ResourceId; SaHpiParmActionT action = SAHPI_SAVE_PARM; SaErrorT val; int ret = SAF_TEST_UNKNOWN; // Check to see if parameter control is supported if (rpt_entry.ResourceCapabilities & SAHPI_CAPABILITY_CONFIGURATION) { // Call saHpiParmControl with valid parameters val = saHpiParmControl(session_id, resource_id, action); if (val != SA_OK) // The function works abnormally { e_print(saHpiParmControl, SA_OK, val); ret = SAF_TEST_FAIL; } else // The function works the way it should ret = SAF_TEST_PASS; } else { // Resource Does not support parameter control ret = SAF_TEST_NOTSUPPORT; } return ret; }
int Test_Case_Rdr(SaHpiSessionIdT session, SaHpiResourceIdT resourceId, SaHpiRdrT rdr) { int ret = SAF_TEST_UNKNOWN; SaErrorT status; SaHpiSensorNumT sensorNum; SaHpiEventStateT assertMaskOld, assertMaskNew; SaHpiEventStateT deassertMaskOld, deassertMaskNew; SaHpiEventStateT assertSaved, deassertSaved; // -------- Restore the default values -------- status = saHpiParmControl(session, resourceId, SAHPI_DEFAULT_PARM); if (status != SA_OK) // The function works abnormally { e_print(saHpiParmControl, SA_OK, status); ret = SAF_TEST_FAIL; return ret; } if (rdr.RdrType == SAHPI_SENSOR_RDR) { if (rdr.RdrTypeUnion.SensorRec.EventCtrl != SAHPI_SEC_PER_EVENT) { ret = SAF_TEST_NOTSUPPORT; return ret; } sensorNum = rdr.RdrTypeUnion.SensorRec.Num; // ------ Get the state of the sensor ------ status = saHpiSensorEventMasksGet(session, resourceId, sensorNum, &assertMaskOld, &deassertMaskOld); if (status != SA_OK) { e_print(saHpiSensorEventMasksGet, SA_OK, status); ret = SAF_TEST_UNRESOLVED; return ret; } assertSaved = assertMaskOld + 5; deassertSaved = deassertMaskOld + 5; status = saHpiSensorEventMasksSet(session, resourceId, sensorNum, SAHPI_SENS_REMOVE_EVENTS_FROM_MASKS, assertSaved, deassertSaved); if (status != SA_OK) { e_print(saHpiSensorEventMasksSet, SA_OK, status); ret = SAF_TEST_UNRESOLVED; return ret; } // ------- Call saHpiParmControl with valid parameters ------- status = saHpiParmControl(session, resourceId, SAHPI_DEFAULT_PARM); if (status != SA_OK) { e_print(saHpiParmControl, SA_OK, status); ret = SAF_TEST_FAIL; return ret; } // ------ Get the state of the sensor ------ status = saHpiSensorEventMasksGet(session, resourceId, sensorNum, &assertMaskNew, &deassertMaskNew); if (status != SA_OK) { e_print(saHpiSensorEventMasksGet, SA_OK, status); ret = SAF_TEST_UNRESOLVED; return ret; } // -------- Compare the old values with the new values -------- if ((assertMaskOld != assertMaskNew) || (deassertMaskOld != deassertMaskNew)) ret = SAF_TEST_FAIL; else ret = SAF_TEST_PASS; } else { ret = SAF_TEST_NOTSUPPORT; } return ret; }
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; }
int main(int argc, char **argv) { /* ************************ * Local variables * ***********************/ int testfail = 0; SaHpiResourceIdT id; SaHpiParmActionT act; SaErrorT err; SaErrorT expected_err; SaHpiSessionIdT sessionid; /* ************************ * Find a resource with Control type rdr * ***********************/ SaHpiRptEntryT rptentry; err = tsetup(&sessionid); if (err != SA_OK) { printf("Error! Can not setup session for test environment.\n"); printf(" File=%s, Line=%d\n", __FILE__, __LINE__); return -1; } err = tfind_resource(&sessionid, SAHPI_CAPABILITY_CONTROL, SAHPI_FIRST_ENTRY, &rptentry, SAHPI_TRUE); if (err != SA_OK) { printf("Error! Can not find resource for test environment.\n"); printf(" File=%s, Line=%d\n", __FILE__, __LINE__); err = tcleanup(&sessionid); return -1; } struct oh_handler_state handle; memset(&handle, 0, sizeof(struct oh_handler_state)); /************************** * Test 1: Invalid Control Action **************************/ id = rptentry.ResourceId; expected_err = SA_ERR_HPI_INVALID_PARAMS; act = 0xFF; err = snmp_bc_control_parm(&handle, id, act); checkstatus(err, expected_err, testfail); /************************** * Test 2: Invalid ResourceId **************************/ expected_err = SA_ERR_HPI_INVALID_RESOURCE; act = SAHPI_RESTORE_PARM; err = snmp_bc_control_parm(&handle, 5000, act); checkstatus(err, expected_err, testfail); #if 0 /************************** * Test 3: Resource configuration saving not supported *************************/ rptentry.ResourceCapabilities |= SAHPI_CAPABILITY_CONFIGURATION; oh_add_resource(handle->rptcache, &rptentry, NULL, 0); expected_err = SA_ERR_HPI_INTERNAL_ERROR; err = snmp_bc_control_parm(&handle, id, act); checkstatus(err, expected_err, testfail); #endif /************************** * Test 4: Normal Path **************************/ expected_err = SA_ERR_HPI_CAPABILITY; err = saHpiParmControl(sessionid, id, act); checkstatus(err, expected_err, testfail); /*************************** * Cleanup after all tests ***************************/ err = tcleanup(&sessionid); return testfail; }