/* * Copyright (C) 2019 iopsys Software Solutions AB * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License version 2.1 * as published by the Free Software Foundation * * Author: Omar Kallel */ #include "dmentry.h" #include "qos.h" /* *** Device.QoS. *** */ DMOBJ tQoSObj[] = { /* OBJ, permission, addobj, delobj, checkobj, browseinstobj, forced_inform, notification, nextdynamicobj, nextobj, leaf, linker, bbfdm_type*/ //{"Classification", &DMWRITE, addObjQoSClassification, delObjQoSClassification, NULL, browseQoSClassificationInst, NULL, NULL, NULL, NULL, tQoSClassificationParams, NULL, BBFDM_BOTH}, //{"App", &DMWRITE, addObjQoSApp, delObjQoSApp, NULL, browseQoSAppInst, NULL, NULL, NULL, NULL, tQoSAppParams, NULL, BBFDM_BOTH}, //{"Flow", &DMWRITE, addObjQoSFlow, delObjQoSFlow, NULL, browseQoSFlowInst, NULL, NULL, NULL, NULL, tQoSFlowParams, NULL, BBFDM_BOTH}, //{"Policer", &DMWRITE, addObjQoSPolicer, delObjQoSPolicer, NULL, browseQoSPolicerInst, NULL, NULL, NULL, NULL, tQoSPolicerParams, NULL, BBFDM_BOTH}, //{"Queue", &DMWRITE, addObjQoSQueue, delObjQoSQueue, NULL, browseQoSQueueInst, NULL, NULL, NULL, NULL, tQoSQueueParams, get_linker_qos_queue, BBFDM_BOTH}, //{"QueueStats", &DMWRITE, addObjQoSQueueStats, delObjQoSQueueStats, NULL, browseQoSQueueStatsInst, NULL, NULL, NULL, NULL, tQoSQueueStatsParams, NULL, BBFDM_BOTH}, //{"Shaper", &DMWRITE, addObjQoSShaper, delObjQoSShaper, NULL, browseQoSShaperInst, NULL, NULL, NULL, NULL, tQoSShaperParams, NULL, BBFDM_BOTH}, {0} }; DMLEAF tQoSParams[] = { /* PARAM, permission, type, getvalue, setvalue, forced_inform, notification, bbfdm_type*/ //{"MaxClassificationEntries", &DMREAD, DMT_UNINT, get_QoS_MaxClassificationEntries, NULL, NULL, NULL, BBFDM_BOTH}, //{"ClassificationNumberOfEntries", &DMREAD, DMT_UNINT, get_QoS_ClassificationNumberOfEntries, NULL, NULL, NULL, BBFDM_BOTH}, //{"MaxAppEntries", &DMREAD, DMT_UNINT, get_QoS_MaxAppEntries, NULL, NULL, NULL, BBFDM_BOTH}, //{"AppNumberOfEntries", &DMREAD, DMT_UNINT, get_QoS_AppNumberOfEntries, NULL, NULL, NULL, BBFDM_BOTH}, //{"MaxFlowEntries", &DMREAD, DMT_UNINT, get_QoS_MaxFlowEntries, NULL, NULL, NULL, BBFDM_BOTH}, //{"FlowNumberOfEntries", &DMREAD, DMT_UNINT, get_QoS_FlowNumberOfEntries, NULL, NULL, NULL, BBFDM_BOTH}, //{"MaxPolicerEntries", &DMREAD, DMT_UNINT, get_QoS_MaxPolicerEntries, NULL, NULL, NULL, BBFDM_BOTH}, //{"PolicerNumberOfEntries", &DMREAD, DMT_UNINT, get_QoS_PolicerNumberOfEntries, NULL, NULL, NULL, BBFDM_BOTH}, //{"MaxQueueEntries", &DMREAD, DMT_UNINT, get_QoS_MaxQueueEntries, NULL, NULL, NULL, BBFDM_BOTH}, //{"QueueNumberOfEntries", &DMREAD, DMT_UNINT, get_QoS_QueueNumberOfEntries, NULL, NULL, NULL, BBFDM_BOTH}, //{"QueueStatsNumberOfEntries", &DMREAD, DMT_UNINT, get_QoS_QueueStatsNumberOfEntries, NULL, NULL, NULL, BBFDM_BOTH}, //{"MaxShaperEntries", &DMREAD, DMT_UNINT, get_QoS_MaxShaperEntries, NULL, NULL, NULL, BBFDM_BOTH}, //{"ShaperNumberOfEntries", &DMREAD, DMT_UNINT, get_QoS_ShaperNumberOfEntries, NULL, NULL, NULL, BBFDM_BOTH}, //{"DefaultForwardingPolicy", &DMWRITE, DMT_UNINT, get_QoS_DefaultForwardingPolicy, set_QoS_DefaultForwardingPolicy, NULL, NULL, BBFDM_BOTH}, //{"DefaultTrafficClass", &DMWRITE, DMT_UNINT, get_QoS_DefaultTrafficClass, set_QoS_DefaultTrafficClass, NULL, NULL, BBFDM_BOTH}, //{"DefaultPolicer", &DMWRITE, DMT_STRING, get_QoS_DefaultPolicer, set_QoS_DefaultPolicer, NULL, NULL, BBFDM_BOTH}, //{"DefaultQueue", &DMWRITE, DMT_STRING, get_QoS_DefaultQueue, set_QoS_DefaultQueue, NULL, NULL, BBFDM_BOTH}, //{"DefaultDSCPMark", &DMWRITE, DMT_INT, get_QoS_DefaultDSCPMark, set_QoS_DefaultDSCPMark, NULL, NULL, BBFDM_BOTH}, //{"DefaultEthernetPriorityMark", &DMWRITE, DMT_INT, get_QoS_DefaultEthernetPriorityMark, set_QoS_DefaultEthernetPriorityMark, NULL, NULL, BBFDM_BOTH}, //{"DefaultInnerEthernetPriorityMark", &DMWRITE, DMT_INT, get_QoS_DefaultInnerEthernetPriorityMark, set_QoS_DefaultInnerEthernetPriorityMark, NULL, NULL, BBFDM_BOTH}, //{"AvailableAppList", &DMREAD, DMT_STRING, get_QoS_AvailableAppList, NULL, NULL, NULL, BBFDM_BOTH}, {0} }; /* *** Device.QoS.Classification.{i}. *** */ DMLEAF tQoSClassificationParams[] = { /* PARAM, permission, type, getvalue, setvalue, forced_inform, notification, bbfdm_type*/ //{"Enable", &DMWRITE, DMT_BOOL, get_QoSClassification_Enable, set_QoSClassification_Enable, NULL, NULL, BBFDM_BOTH}, //{"Status", &DMREAD, DMT_STRING, get_QoSClassification_Status, NULL, NULL, NULL, BBFDM_BOTH}, //{"Order", &DMWRITE, DMT_UNINT, get_QoSClassification_Order, set_QoSClassification_Order, NULL, NULL, BBFDM_BOTH}, //{"Alias", &DMWRITE, DMT_STRING, get_QoSClassification_Alias, set_QoSClassification_Alias, NULL, NULL, BBFDM_BOTH}, //{"DHCPType", &DMWRITE, DMT_STRING, get_QoSClassification_DHCPType, set_QoSClassification_DHCPType, NULL, NULL, BBFDM_BOTH}, //{"Interface", &DMWRITE, DMT_STRING, get_QoSClassification_Interface, set_QoSClassification_Interface, NULL, NULL, BBFDM_BOTH}, //{"AllInterfaces", &DMWRITE, DMT_BOOL, get_QoSClassification_AllInterfaces, set_QoSClassification_AllInterfaces, NULL, NULL, BBFDM_BOTH}, //{"DestIP", &DMWRITE, DMT_STRING, get_QoSClassification_DestIP, set_QoSClassification_DestIP, NULL, NULL, BBFDM_BOTH}, //{"DestMask", &DMWRITE, DMT_STRING, get_QoSClassification_DestMask, set_QoSClassification_DestMask, NULL, NULL, BBFDM_BOTH}, //{"DestIPExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_DestIPExclude, set_QoSClassification_DestIPExclude, NULL, NULL, BBFDM_BOTH}, //{"SourceIP", &DMWRITE, DMT_STRING, get_QoSClassification_SourceIP, set_QoSClassification_SourceIP, NULL, NULL, BBFDM_BOTH}, //{"SourceMask", &DMWRITE, DMT_STRING, get_QoSClassification_SourceMask, set_QoSClassification_SourceMask, NULL, NULL, BBFDM_BOTH}, //{"SourceIPExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_SourceIPExclude, set_QoSClassification_SourceIPExclude, NULL, NULL, BBFDM_BOTH}, //{"Protocol", &DMWRITE, DMT_INT, get_QoSClassification_Protocol, set_QoSClassification_Protocol, NULL, NULL, BBFDM_BOTH}, //{"ProtocolExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_ProtocolExclude, set_QoSClassification_ProtocolExclude, NULL, NULL, BBFDM_BOTH}, //{"DestPort", &DMWRITE, DMT_INT, get_QoSClassification_DestPort, set_QoSClassification_DestPort, NULL, NULL, BBFDM_BOTH}, //{"DestPortRangeMax", &DMWRITE, DMT_INT, get_QoSClassification_DestPortRangeMax, set_QoSClassification_DestPortRangeMax, NULL, NULL, BBFDM_BOTH}, //{"DestPortExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_DestPortExclude, set_QoSClassification_DestPortExclude, NULL, NULL, BBFDM_BOTH}, //{"SourcePort", &DMWRITE, DMT_INT, get_QoSClassification_SourcePort, set_QoSClassification_SourcePort, NULL, NULL, BBFDM_BOTH}, //{"SourcePortRangeMax", &DMWRITE, DMT_INT, get_QoSClassification_SourcePortRangeMax, set_QoSClassification_SourcePortRangeMax, NULL, NULL, BBFDM_BOTH}, //{"SourcePortExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_SourcePortExclude, set_QoSClassification_SourcePortExclude, NULL, NULL, BBFDM_BOTH}, //{"SourceMACAddress", &DMWRITE, DMT_STRING, get_QoSClassification_SourceMACAddress, set_QoSClassification_SourceMACAddress, NULL, NULL, BBFDM_BOTH}, //{"SourceMACMask", &DMWRITE, DMT_STRING, get_QoSClassification_SourceMACMask, set_QoSClassification_SourceMACMask, NULL, NULL, BBFDM_BOTH}, //{"SourceMACExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_SourceMACExclude, set_QoSClassification_SourceMACExclude, NULL, NULL, BBFDM_BOTH}, //{"DestMACAddress", &DMWRITE, DMT_STRING, get_QoSClassification_DestMACAddress, set_QoSClassification_DestMACAddress, NULL, NULL, BBFDM_BOTH}, //{"DestMACMask", &DMWRITE, DMT_STRING, get_QoSClassification_DestMACMask, set_QoSClassification_DestMACMask, NULL, NULL, BBFDM_BOTH}, //{"DestMACExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_DestMACExclude, set_QoSClassification_DestMACExclude, NULL, NULL, BBFDM_BOTH}, //{"Ethertype", &DMWRITE, DMT_INT, get_QoSClassification_Ethertype, set_QoSClassification_Ethertype, NULL, NULL, BBFDM_BOTH}, //{"EthertypeExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_EthertypeExclude, set_QoSClassification_EthertypeExclude, NULL, NULL, BBFDM_BOTH}, //{"SSAP", &DMWRITE, DMT_INT, get_QoSClassification_SSAP, set_QoSClassification_SSAP, NULL, NULL, BBFDM_BOTH}, //{"SSAPExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_SSAPExclude, set_QoSClassification_SSAPExclude, NULL, NULL, BBFDM_BOTH}, //{"DSAP", &DMWRITE, DMT_INT, get_QoSClassification_DSAP, set_QoSClassification_DSAP, NULL, NULL, BBFDM_BOTH}, //{"DSAPExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_DSAPExclude, set_QoSClassification_DSAPExclude, NULL, NULL, BBFDM_BOTH}, //{"LLCControl", &DMWRITE, DMT_INT, get_QoSClassification_LLCControl, set_QoSClassification_LLCControl, NULL, NULL, BBFDM_BOTH}, //{"LLCControlExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_LLCControlExclude, set_QoSClassification_LLCControlExclude, NULL, NULL, BBFDM_BOTH}, //{"SNAPOUI", &DMWRITE, DMT_INT, get_QoSClassification_SNAPOUI, set_QoSClassification_SNAPOUI, NULL, NULL, BBFDM_BOTH}, //{"SNAPOUIExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_SNAPOUIExclude, set_QoSClassification_SNAPOUIExclude, NULL, NULL, BBFDM_BOTH}, //{"SourceVendorClassID", &DMWRITE, DMT_STRING, get_QoSClassification_SourceVendorClassID, set_QoSClassification_SourceVendorClassID, NULL, NULL, BBFDM_BOTH}, //{"SourceVendorClassIDv6", &DMWRITE, DMT_HEXBIN, get_QoSClassification_SourceVendorClassIDv6, set_QoSClassification_SourceVendorClassIDv6, NULL, NULL, BBFDM_BOTH}, //{"SourceVendorClassIDExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_SourceVendorClassIDExclude, set_QoSClassification_SourceVendorClassIDExclude, NULL, NULL, BBFDM_BOTH}, //{"SourceVendorClassIDMode", &DMWRITE, DMT_STRING, get_QoSClassification_SourceVendorClassIDMode, set_QoSClassification_SourceVendorClassIDMode, NULL, NULL, BBFDM_BOTH}, //{"DestVendorClassID", &DMWRITE, DMT_STRING, get_QoSClassification_DestVendorClassID, set_QoSClassification_DestVendorClassID, NULL, NULL, BBFDM_BOTH}, //{"DestVendorClassIDv6", &DMWRITE, DMT_HEXBIN, get_QoSClassification_DestVendorClassIDv6, set_QoSClassification_DestVendorClassIDv6, NULL, NULL, BBFDM_BOTH}, //{"DestVendorClassIDExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_DestVendorClassIDExclude, set_QoSClassification_DestVendorClassIDExclude, NULL, NULL, BBFDM_BOTH}, //{"DestVendorClassIDMode", &DMWRITE, DMT_STRING, get_QoSClassification_DestVendorClassIDMode, set_QoSClassification_DestVendorClassIDMode, NULL, NULL, BBFDM_BOTH}, //{"SourceClientID", &DMWRITE, DMT_HEXBIN, get_QoSClassification_SourceClientID, set_QoSClassification_SourceClientID, NULL, NULL, BBFDM_BOTH}, //{"SourceClientIDExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_SourceClientIDExclude, set_QoSClassification_SourceClientIDExclude, NULL, NULL, BBFDM_BOTH}, //{"DestClientID", &DMWRITE, DMT_HEXBIN, get_QoSClassification_DestClientID, set_QoSClassification_DestClientID, NULL, NULL, BBFDM_BOTH}, //{"DestClientIDExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_DestClientIDExclude, set_QoSClassification_DestClientIDExclude, NULL, NULL, BBFDM_BOTH}, //{"SourceUserClassID", &DMWRITE, DMT_HEXBIN, get_QoSClassification_SourceUserClassID, set_QoSClassification_SourceUserClassID, NULL, NULL, BBFDM_BOTH}, //{"SourceUserClassIDExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_SourceUserClassIDExclude, set_QoSClassification_SourceUserClassIDExclude, NULL, NULL, BBFDM_BOTH}, //{"DestUserClassID", &DMWRITE, DMT_HEXBIN, get_QoSClassification_DestUserClassID, set_QoSClassification_DestUserClassID, NULL, NULL, BBFDM_BOTH}, //{"DestUserClassIDExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_DestUserClassIDExclude, set_QoSClassification_DestUserClassIDExclude, NULL, NULL, BBFDM_BOTH}, //{"SourceVendorSpecificInfo", &DMWRITE, DMT_HEXBIN, get_QoSClassification_SourceVendorSpecificInfo, set_QoSClassification_SourceVendorSpecificInfo, NULL, NULL, BBFDM_BOTH}, //{"SourceVendorSpecificInfoExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_SourceVendorSpecificInfoExclude, set_QoSClassification_SourceVendorSpecificInfoExclude, NULL, NULL, BBFDM_BOTH}, //{"SourceVendorSpecificInfoEnterprise", &DMWRITE, DMT_UNINT, get_QoSClassification_SourceVendorSpecificInfoEnterprise, set_QoSClassification_SourceVendorSpecificInfoEnterprise, NULL, NULL, BBFDM_BOTH}, //{"SourceVendorSpecificInfoSubOption", &DMWRITE, DMT_INT, get_QoSClassification_SourceVendorSpecificInfoSubOption, set_QoSClassification_SourceVendorSpecificInfoSubOption, NULL, NULL, BBFDM_BOTH}, //{"DestVendorSpecificInfo", &DMWRITE, DMT_HEXBIN, get_QoSClassification_DestVendorSpecificInfo, set_QoSClassification_DestVendorSpecificInfo, NULL, NULL, BBFDM_BOTH}, //{"DestVendorSpecificInfoExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_DestVendorSpecificInfoExclude, set_QoSClassification_DestVendorSpecificInfoExclude, NULL, NULL, BBFDM_BOTH}, //{"DestVendorSpecificInfoEnterprise", &DMWRITE, DMT_UNINT, get_QoSClassification_DestVendorSpecificInfoEnterprise, set_QoSClassification_DestVendorSpecificInfoEnterprise, NULL, NULL, BBFDM_BOTH}, //{"DestVendorSpecificInfoSubOption", &DMWRITE, DMT_INT, get_QoSClassification_DestVendorSpecificInfoSubOption, set_QoSClassification_DestVendorSpecificInfoSubOption, NULL, NULL, BBFDM_BOTH}, //{"TCPACK", &DMWRITE, DMT_BOOL, get_QoSClassification_TCPACK, set_QoSClassification_TCPACK, NULL, NULL, BBFDM_BOTH}, //{"TCPACKExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_TCPACKExclude, set_QoSClassification_TCPACKExclude, NULL, NULL, BBFDM_BOTH}, //{"IPLengthMin", &DMWRITE, DMT_UNINT, get_QoSClassification_IPLengthMin, set_QoSClassification_IPLengthMin, NULL, NULL, BBFDM_BOTH}, //{"IPLengthMax", &DMWRITE, DMT_UNINT, get_QoSClassification_IPLengthMax, set_QoSClassification_IPLengthMax, NULL, NULL, BBFDM_BOTH}, //{"IPLengthExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_IPLengthExclude, set_QoSClassification_IPLengthExclude, NULL, NULL, BBFDM_BOTH}, //{"DSCPCheck", &DMWRITE, DMT_INT, get_QoSClassification_DSCPCheck, set_QoSClassification_DSCPCheck, NULL, NULL, BBFDM_BOTH}, //{"DSCPExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_DSCPExclude, set_QoSClassification_DSCPExclude, NULL, NULL, BBFDM_BOTH}, //{"DSCPMark", &DMWRITE, DMT_INT, get_QoSClassification_DSCPMark, set_QoSClassification_DSCPMark, NULL, NULL, BBFDM_BOTH}, //{"EthernetPriorityCheck", &DMWRITE, DMT_INT, get_QoSClassification_EthernetPriorityCheck, set_QoSClassification_EthernetPriorityCheck, NULL, NULL, BBFDM_BOTH}, //{"EthernetPriorityExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_EthernetPriorityExclude, set_QoSClassification_EthernetPriorityExclude, NULL, NULL, BBFDM_BOTH}, //{"EthernetPriorityMark", &DMWRITE, DMT_INT, get_QoSClassification_EthernetPriorityMark, set_QoSClassification_EthernetPriorityMark, NULL, NULL, BBFDM_BOTH}, //{"InnerEthernetPriorityCheck", &DMWRITE, DMT_INT, get_QoSClassification_InnerEthernetPriorityCheck, set_QoSClassification_InnerEthernetPriorityCheck, NULL, NULL, BBFDM_BOTH}, //{"InnerEthernetPriorityExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_InnerEthernetPriorityExclude, set_QoSClassification_InnerEthernetPriorityExclude, NULL, NULL, BBFDM_BOTH}, //{"InnerEthernetPriorityMark", &DMWRITE, DMT_INT, get_QoSClassification_InnerEthernetPriorityMark, set_QoSClassification_InnerEthernetPriorityMark, NULL, NULL, BBFDM_BOTH}, //{"EthernetDEICheck", &DMWRITE, DMT_INT, get_QoSClassification_EthernetDEICheck, set_QoSClassification_EthernetDEICheck, NULL, NULL, BBFDM_BOTH}, //{"EthernetDEIExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_EthernetDEIExclude, set_QoSClassification_EthernetDEIExclude, NULL, NULL, BBFDM_BOTH}, //{"VLANIDCheck", &DMWRITE, DMT_INT, get_QoSClassification_VLANIDCheck, set_QoSClassification_VLANIDCheck, NULL, NULL, BBFDM_BOTH}, //{"VLANIDExclude", &DMWRITE, DMT_BOOL, get_QoSClassification_VLANIDExclude, set_QoSClassification_VLANIDExclude, NULL, NULL, BBFDM_BOTH}, //{"OutOfBandInfo", &DMWRITE, DMT_INT, get_QoSClassification_OutOfBandInfo, set_QoSClassification_OutOfBandInfo, NULL, NULL, BBFDM_BOTH}, //{"ForwardingPolicy", &DMWRITE, DMT_UNINT, get_QoSClassification_ForwardingPolicy, set_QoSClassification_ForwardingPolicy, NULL, NULL, BBFDM_BOTH}, //{"TrafficClass", &DMWRITE, DMT_INT, get_QoSClassification_TrafficClass, set_QoSClassification_TrafficClass, NULL, NULL, BBFDM_BOTH}, //{"Policer", &DMWRITE, DMT_STRING, get_QoSClassification_Policer, set_QoSClassification_Policer, NULL, NULL, BBFDM_BOTH}, //{"App", &DMWRITE, DMT_STRING, get_QoSClassification_App, set_QoSClassification_App, NULL, NULL, BBFDM_BOTH}, {0} }; /* *** Device.QoS.App.{i}. *** */ DMLEAF tQoSAppParams[] = { /* PARAM, permission, type, getvalue, setvalue, forced_inform, notification, bbfdm_type*/ //{"Enable", &DMWRITE, DMT_BOOL, get_QoSApp_Enable, set_QoSApp_Enable, NULL, NULL, BBFDM_BOTH}, //{"Status", &DMREAD, DMT_STRING, get_QoSApp_Status, NULL, NULL, NULL, BBFDM_BOTH}, //{"Alias", &DMWRITE, DMT_STRING, get_QoSApp_Alias, set_QoSApp_Alias, NULL, NULL, BBFDM_BOTH}, //{"ProtocolIdentifier", &DMWRITE, DMT_STRING, get_QoSApp_ProtocolIdentifier, set_QoSApp_ProtocolIdentifier, NULL, NULL, BBFDM_BOTH}, //{"Name", &DMWRITE, DMT_STRING, get_QoSApp_Name, set_QoSApp_Name, NULL, NULL, BBFDM_BOTH}, //{"DefaultForwardingPolicy", &DMWRITE, DMT_UNINT, get_QoSApp_DefaultForwardingPolicy, set_QoSApp_DefaultForwardingPolicy, NULL, NULL, BBFDM_BOTH}, //{"DefaultTrafficClass", &DMWRITE, DMT_UNINT, get_QoSApp_DefaultTrafficClass, set_QoSApp_DefaultTrafficClass, NULL, NULL, BBFDM_BOTH}, //{"DefaultPolicer", &DMWRITE, DMT_STRING, get_QoSApp_DefaultPolicer, set_QoSApp_DefaultPolicer, NULL, NULL, BBFDM_BOTH}, //{"DefaultDSCPMark", &DMWRITE, DMT_INT, get_QoSApp_DefaultDSCPMark, set_QoSApp_DefaultDSCPMark, NULL, NULL, BBFDM_BOTH}, //{"DefaultEthernetPriorityMark", &DMWRITE, DMT_INT, get_QoSApp_DefaultEthernetPriorityMark, set_QoSApp_DefaultEthernetPriorityMark, NULL, NULL, BBFDM_BOTH}, //{"DefaultInnerEthernetPriorityMark", &DMWRITE, DMT_INT, get_QoSApp_DefaultInnerEthernetPriorityMark, set_QoSApp_DefaultInnerEthernetPriorityMark, NULL, NULL, BBFDM_BOTH}, {0} }; /* *** Device.QoS.Flow.{i}. *** */ DMLEAF tQoSFlowParams[] = { /* PARAM, permission, type, getvalue, setvalue, forced_inform, notification, bbfdm_type*/ //{"Enable", &DMWRITE, DMT_BOOL, get_QoSFlow_Enable, set_QoSFlow_Enable, NULL, NULL, BBFDM_BOTH}, //{"Status", &DMREAD, DMT_STRING, get_QoSFlow_Status, NULL, NULL, NULL, BBFDM_BOTH}, //{"Alias", &DMWRITE, DMT_STRING, get_QoSFlow_Alias, set_QoSFlow_Alias, NULL, NULL, BBFDM_BOTH}, //{"Type", &DMWRITE, DMT_STRING, get_QoSFlow_Type, set_QoSFlow_Type, NULL, NULL, BBFDM_BOTH}, //{"TypeParameters", &DMWRITE, DMT_STRING, get_QoSFlow_TypeParameters, set_QoSFlow_TypeParameters, NULL, NULL, BBFDM_BOTH}, //{"Name", &DMWRITE, DMT_STRING, get_QoSFlow_Name, set_QoSFlow_Name, NULL, NULL, BBFDM_BOTH}, //{"App", &DMWRITE, DMT_STRING, get_QoSFlow_App, set_QoSFlow_App, NULL, NULL, BBFDM_BOTH}, //{"ForwardingPolicy", &DMWRITE, DMT_UNINT, get_QoSFlow_ForwardingPolicy, set_QoSFlow_ForwardingPolicy, NULL, NULL, BBFDM_BOTH}, //{"TrafficClass", &DMWRITE, DMT_UNINT, get_QoSFlow_TrafficClass, set_QoSFlow_TrafficClass, NULL, NULL, BBFDM_BOTH}, //{"Policer", &DMWRITE, DMT_STRING, get_QoSFlow_Policer, set_QoSFlow_Policer, NULL, NULL, BBFDM_BOTH}, //{"DSCPMark", &DMWRITE, DMT_INT, get_QoSFlow_DSCPMark, set_QoSFlow_DSCPMark, NULL, NULL, BBFDM_BOTH}, //{"EthernetPriorityMark", &DMWRITE, DMT_INT, get_QoSFlow_EthernetPriorityMark, set_QoSFlow_EthernetPriorityMark, NULL, NULL, BBFDM_BOTH}, //{"InnerEthernetPriorityMark", &DMWRITE, DMT_INT, get_QoSFlow_InnerEthernetPriorityMark, set_QoSFlow_InnerEthernetPriorityMark, NULL, NULL, BBFDM_BOTH}, {0} }; /* *** Device.QoS.Policer.{i}. *** */ DMLEAF tQoSPolicerParams[] = { /* PARAM, permission, type, getvalue, setvalue, forced_inform, notification, bbfdm_type*/ //{"Enable", &DMWRITE, DMT_BOOL, get_QoSPolicer_Enable, set_QoSPolicer_Enable, NULL, NULL, BBFDM_BOTH}, //{"Status", &DMREAD, DMT_STRING, get_QoSPolicer_Status, NULL, NULL, NULL, BBFDM_BOTH}, //{"Alias", &DMWRITE, DMT_STRING, get_QoSPolicer_Alias, set_QoSPolicer_Alias, NULL, NULL, BBFDM_BOTH}, //{"CommittedRate", &DMWRITE, DMT_UNINT, get_QoSPolicer_CommittedRate, set_QoSPolicer_CommittedRate, NULL, NULL, BBFDM_BOTH}, //{"CommittedBurstSize", &DMWRITE, DMT_UNINT, get_QoSPolicer_CommittedBurstSize, set_QoSPolicer_CommittedBurstSize, NULL, NULL, BBFDM_BOTH}, //{"ExcessBurstSize", &DMWRITE, DMT_UNINT, get_QoSPolicer_ExcessBurstSize, set_QoSPolicer_ExcessBurstSize, NULL, NULL, BBFDM_BOTH}, //{"PeakRate", &DMWRITE, DMT_UNINT, get_QoSPolicer_PeakRate, set_QoSPolicer_PeakRate, NULL, NULL, BBFDM_BOTH}, //{"PeakBurstSize", &DMWRITE, DMT_UNINT, get_QoSPolicer_PeakBurstSize, set_QoSPolicer_PeakBurstSize, NULL, NULL, BBFDM_BOTH}, //{"MeterType", &DMWRITE, DMT_STRING, get_QoSPolicer_MeterType, set_QoSPolicer_MeterType, NULL, NULL, BBFDM_BOTH}, //{"PossibleMeterTypes", &DMREAD, DMT_STRING, get_QoSPolicer_PossibleMeterTypes, NULL, NULL, NULL, BBFDM_BOTH}, //{"ConformingAction", &DMWRITE, DMT_STRING, get_QoSPolicer_ConformingAction, set_QoSPolicer_ConformingAction, NULL, NULL, BBFDM_BOTH}, //{"PartialConformingAction", &DMWRITE, DMT_STRING, get_QoSPolicer_PartialConformingAction, set_QoSPolicer_PartialConformingAction, NULL, NULL, BBFDM_BOTH}, //{"NonConformingAction", &DMWRITE, DMT_STRING, get_QoSPolicer_NonConformingAction, set_QoSPolicer_NonConformingAction, NULL, NULL, BBFDM_BOTH}, //{"TotalCountedPackets", &DMREAD, DMT_UNINT, get_QoSPolicer_TotalCountedPackets, NULL, NULL, NULL, BBFDM_BOTH}, //{"TotalCountedBytes", &DMREAD, DMT_UNINT, get_QoSPolicer_TotalCountedBytes, NULL, NULL, NULL, BBFDM_BOTH}, //{"ConformingCountedPackets", &DMREAD, DMT_UNINT, get_QoSPolicer_ConformingCountedPackets, NULL, NULL, NULL, BBFDM_BOTH}, //{"ConformingCountedBytes", &DMREAD, DMT_UNINT, get_QoSPolicer_ConformingCountedBytes, NULL, NULL, NULL, BBFDM_BOTH}, //{"PartiallyConformingCountedPackets", &DMREAD, DMT_UNINT, get_QoSPolicer_PartiallyConformingCountedPackets, NULL, NULL, NULL, BBFDM_BOTH}, //{"PartiallyConformingCountedBytes", &DMREAD, DMT_UNINT, get_QoSPolicer_PartiallyConformingCountedBytes, NULL, NULL, NULL, BBFDM_BOTH}, //{"NonConformingCountedPackets", &DMREAD, DMT_UNINT, get_QoSPolicer_NonConformingCountedPackets, NULL, NULL, NULL, BBFDM_BOTH}, //{"NonConformingCountedBytes", &DMREAD, DMT_UNINT, get_QoSPolicer_NonConformingCountedBytes, NULL, NULL, NULL, BBFDM_BOTH}, {0} }; /* *** Device.QoS.Queue.{i}. *** */ DMLEAF tQoSQueueParams[] = { /* PARAM, permission, type, getvalue, setvalue, forced_inform, notification, bbfdm_type*/ //{"Enable", &DMWRITE, DMT_BOOL, get_QoSQueue_Enable, set_QoSQueue_Enable, NULL, NULL, BBFDM_BOTH}, //{"Status", &DMREAD, DMT_STRING, get_QoSQueue_Status, NULL, NULL, NULL, BBFDM_BOTH}, //{"Alias", &DMWRITE, DMT_STRING, get_QoSQueue_Alias, set_QoSQueue_Alias, NULL, NULL, BBFDM_BOTH}, //{"TrafficClasses", &DMWRITE, DMT_STRING, get_QoSQueue_TrafficClasses, set_QoSQueue_TrafficClasses, NULL, NULL, BBFDM_BOTH}, //{"Interface", &DMWRITE, DMT_STRING, get_QoSQueue_Interface, set_QoSQueue_Interface, NULL, NULL, BBFDM_BOTH}, //{"AllInterfaces", &DMWRITE, DMT_BOOL, get_QoSQueue_AllInterfaces, set_QoSQueue_AllInterfaces, NULL, NULL, BBFDM_BOTH}, //{"HardwareAssisted", &DMREAD, DMT_BOOL, get_QoSQueue_HardwareAssisted, NULL, NULL, NULL, BBFDM_BOTH}, //{"BufferLength", &DMREAD, DMT_UNINT, get_QoSQueue_BufferLength, NULL, NULL, NULL, BBFDM_BOTH}, //{"Weight", &DMWRITE, DMT_UNINT, get_QoSQueue_Weight, set_QoSQueue_Weight, NULL, NULL, BBFDM_BOTH}, //{"Precedence", &DMWRITE, DMT_UNINT, get_QoSQueue_Precedence, set_QoSQueue_Precedence, NULL, NULL, BBFDM_BOTH}, //{"REDThreshold", &DMWRITE, DMT_UNINT, get_QoSQueue_REDThreshold, set_QoSQueue_REDThreshold, NULL, NULL, BBFDM_BOTH}, //{"REDPercentage", &DMWRITE, DMT_UNINT, get_QoSQueue_REDPercentage, set_QoSQueue_REDPercentage, NULL, NULL, BBFDM_BOTH}, //{"DropAlgorithm", &DMWRITE, DMT_STRING, get_QoSQueue_DropAlgorithm, set_QoSQueue_DropAlgorithm, NULL, NULL, BBFDM_BOTH}, //{"SchedulerAlgorithm", &DMWRITE, DMT_STRING, get_QoSQueue_SchedulerAlgorithm, set_QoSQueue_SchedulerAlgorithm, NULL, NULL, BBFDM_BOTH}, //{"ShapingRate", &DMWRITE, DMT_INT, get_QoSQueue_ShapingRate, set_QoSQueue_ShapingRate, NULL, NULL, BBFDM_BOTH}, //{"ShapingBurstSize", &DMWRITE, DMT_UNINT, get_QoSQueue_ShapingBurstSize, set_QoSQueue_ShapingBurstSize, NULL, NULL, BBFDM_BOTH}, {0} }; /* *** Device.QoS.QueueStats.{i}. *** */ DMLEAF tQoSQueueStatsParams[] = { /* PARAM, permission, type, getvalue, setvalue, forced_inform, notification, bbfdm_type*/ //{"Enable", &DMWRITE, DMT_BOOL, get_QoSQueueStats_Enable, set_QoSQueueStats_Enable, NULL, NULL, BBFDM_BOTH}, //{"Status", &DMREAD, DMT_STRING, get_QoSQueueStats_Status, NULL, NULL, NULL, BBFDM_BOTH}, //{"Alias", &DMWRITE, DMT_STRING, get_QoSQueueStats_Alias, set_QoSQueueStats_Alias, NULL, NULL, BBFDM_BOTH}, //{"Queue", &DMWRITE, DMT_STRING, get_QoSQueueStats_Queue, set_QoSQueueStats_Queue, NULL, NULL, BBFDM_BOTH}, //{"Interface", &DMWRITE, DMT_STRING, get_QoSQueueStats_Interface, set_QoSQueueStats_Interface, NULL, NULL, BBFDM_BOTH}, //{"OutputPackets", &DMREAD, DMT_UNINT, get_QoSQueueStats_OutputPackets, NULL, NULL, NULL, BBFDM_BOTH}, //{"OutputBytes", &DMREAD, DMT_UNINT, get_QoSQueueStats_OutputBytes, NULL, NULL, NULL, BBFDM_BOTH}, //{"DroppedPackets", &DMREAD, DMT_UNINT, get_QoSQueueStats_DroppedPackets, NULL, NULL, NULL, BBFDM_BOTH}, //{"DroppedBytes", &DMREAD, DMT_UNINT, get_QoSQueueStats_DroppedBytes, NULL, NULL, NULL, BBFDM_BOTH}, //{"QueueOccupancyPackets", &DMREAD, DMT_UNINT, get_QoSQueueStats_QueueOccupancyPackets, NULL, NULL, NULL, BBFDM_BOTH}, //{"QueueOccupancyPercentage", &DMREAD, DMT_UNINT, get_QoSQueueStats_QueueOccupancyPercentage, NULL, NULL, NULL, BBFDM_BOTH}, {0} }; /* *** Device.QoS.Shaper.{i}. *** */ DMLEAF tQoSShaperParams[] = { /* PARAM, permission, type, getvalue, setvalue, forced_inform, notification, bbfdm_type*/ //{"Enable", &DMWRITE, DMT_BOOL, get_QoSShaper_Enable, set_QoSShaper_Enable, NULL, NULL, BBFDM_BOTH}, //{"Status", &DMREAD, DMT_STRING, get_QoSShaper_Status, NULL, NULL, NULL, BBFDM_BOTH}, //{"Alias", &DMWRITE, DMT_STRING, get_QoSShaper_Alias, set_QoSShaper_Alias, NULL, NULL, BBFDM_BOTH}, //{"Interface", &DMWRITE, DMT_STRING, get_QoSShaper_Interface, set_QoSShaper_Interface, NULL, NULL, BBFDM_BOTH}, //{"ShapingRate", &DMWRITE, DMT_INT, get_QoSShaper_ShapingRate, set_QoSShaper_ShapingRate, NULL, NULL, BBFDM_BOTH}, //{"ShapingBurstSize", &DMWRITE, DMT_UNINT, get_QoSShaper_ShapingBurstSize, set_QoSShaper_ShapingBurstSize, NULL, NULL, BBFDM_BOTH}, {0} }; /************************************************************************** * LINKER ***************************************************************************/ int get_linker_qos_queue(char *refparam, struct dmctx *dmctx, void *data, char *instance, char **linker) { if(data && ((struct dmmap_dup *)data)->config_section) { dmasprintf(linker,"%s", section_name(((struct dmmap_dup *)data)->config_section)); return 0; } else { *linker = ""; return 0; } } /************************************************************************** * Browse functions ***************************************************************************/ /*#Device.QoS.Classification.{i}.!UCI:qos/classify/dmmap_qos*/ int browseQoSClassificationInst(struct dmctx *dmctx, DMNODE *parent_node, void *prev_data, char *prev_instance) { char *wnum = NULL, *wnum_last = NULL; struct dmmap_dup *p; LIST_HEAD(dup_list); synchronize_specific_config_sections_with_dmmap("qos", "classify", "dmmap_qos", &dup_list); list_for_each_entry(p, &dup_list, list) { wnum = handle_update_instance(1, dmctx, &wnum_last, update_instance_alias, 3, p->dmmap_section, "classifinstance", "classifalias"); if (DM_LINK_INST_OBJ(dmctx, parent_node, (void *)p, wnum) == DM_STOP) break; } free_dmmap_config_dup_list(&dup_list); return 0; } int browseQoSAppInst(struct dmctx *dmctx, DMNODE *parent_node, void *prev_data, char *prev_instance) { //TODO return 0; } int browseQoSFlowInst(struct dmctx *dmctx, DMNODE *parent_node, void *prev_data, char *prev_instance) { //TODO return 0; } int browseQoSPolicerInst(struct dmctx *dmctx, DMNODE *parent_node, void *prev_data, char *prev_instance) { //TODO return 0; } /*#Device.QoS.Queue.{i}.!UCI:qos/class/dmmap_qos*/ int browseQoSQueueInst(struct dmctx *dmctx, DMNODE *parent_node, void *prev_data, char *prev_instance) { char *wnum = NULL, *wnum_last = NULL; struct dmmap_dup *p; LIST_HEAD(dup_list); synchronize_specific_config_sections_with_dmmap("qos", "class", "dmmap_qos", &dup_list); list_for_each_entry(p, &dup_list, list) { wnum = handle_update_instance(1, dmctx, &wnum_last, update_instance_alias, 3, p->dmmap_section, "queueinstance", "queuealias"); if (DM_LINK_INST_OBJ(dmctx, parent_node, (void *)p, wnum) == DM_STOP) break; } free_dmmap_config_dup_list(&dup_list); return 0; } struct uci_section *get_dup_qos_stats_section_in_dmmap(char *dmmap_package, char *section_type, char *dev) { struct uci_section *s; uci_path_foreach_option_eq(bbfdm, dmmap_package, section_type, "dev_link", dev, s) { return s; } return NULL; } int browseQoSQueueStatsInst(struct dmctx *dmctx, DMNODE *parent_node, void *prev_data, char *prev_instance) { struct uci_section *dmmap_sect; char *questatsout[256], *instance = NULL, *inst_last = NULL, *v, *lastinstancestore = NULL, dev[50] = "", user[50] = ""; int length, i, ret; struct queuestats queuests = {0}, emptyquestats = {0}; regex_t regex1, regex2; regcomp(®ex1, queuessts1, 0); regcomp(®ex2, queuessts2, 0); check_create_dmmap_package("dmmap_qos"); command_exec_output_to_array("tc -s qdisc", questatsout, &length); for (i = 0; i < length; i++){ switch (i%3) { case 0: ret = regexec(®ex1, questatsout[i], 0, NULL, 0); if (ret == 0) sscanf(questatsout[i], "qdisc noqueue %d: dev %49s %49s refcnt %d\n", &queuests.noqueue, dev, user, &queuests.refcnt); else { ret= regexec(®ex2, questatsout[i], 0, NULL, 0); if (ret == 0) sscanf(questatsout[i], "qdisc pfifo_fast %d: dev %49s %49s refcnt %d\n", &queuests.pfifo_fast, dev, user, &queuests.refcnt); } strcpy(queuests.dev, dev); break; case 1: sscanf(questatsout[i], " Sent %d bytes %d pkt (dropped %d, overlimits %d requeues %d)\n", &queuests.bytes_sent, &queuests.pkt_sent, &queuests.pkt_dropped, &queuests.pkt_overlimits, &queuests.pkt_requeues); break; case 2: sscanf(questatsout[i], " backlog %db %dp requeues %d\n", &queuests.backlog_b, &queuests.backlog_p, &queuests.backlog_requeues); if ((dmmap_sect = get_dup_qos_stats_section_in_dmmap("dmmap_qos", "qos_queue_stats", queuests.dev)) == NULL) { dmuci_add_section_bbfdm("dmmap_qos", "qos_queue_stats", &dmmap_sect, &v); DMUCI_SET_VALUE_BY_SECTION(bbfdm, dmmap_sect, "dev_link", queuests.dev); } queuests.dmsect= dmmap_sect; if(lastinstancestore != NULL && inst_last !=NULL) inst_last= dmstrdup(lastinstancestore); instance = handle_update_instance(1, dmctx, &inst_last, update_instance_alias, 3, dmmap_sect, "queuestatsinstance", "queuestatsalias"); lastinstancestore= dmstrdup(inst_last); if (DM_LINK_INST_OBJ(dmctx, parent_node, (void *)&queuests, instance) == DM_STOP) goto end; queuests = emptyquestats; break; } } end: return 0; } int browseQoSShaperInst(struct dmctx *dmctx, DMNODE *parent_node, void *prev_data, char *prev_instance) { char *wnum = NULL, *wnum_last = NULL; struct dmmap_dup *p; char *limitrate = NULL; LIST_HEAD(dup_list); synchronize_specific_config_sections_with_dmmap("qos", "class", "dmmap_qos", &dup_list); list_for_each_entry(p, &dup_list, list) { dmuci_get_value_by_section_string(p->config_section, "limitrate", &limitrate); if (limitrate == NULL || strlen(limitrate) == 0) continue; wnum = handle_update_instance(1, dmctx, &wnum_last, update_instance_alias, 3, p->dmmap_section, "shaperinstance", "shaperalias"); if (DM_LINK_INST_OBJ(dmctx, parent_node, (void *)p, wnum) == DM_STOP) break; } free_dmmap_config_dup_list(&dup_list); return 0; } int addObjQoSClassification(char *refparam, struct dmctx *ctx, void *data, char **instance) { struct uci_section *s, *dmmap_qos_classify; char *last_inst = NULL, *sect_name = NULL, *qos_comment, *v; char ib[8]; last_inst = get_last_instance_bbfdm("dmmap_qos", "classify", "classifinstance"); if (last_inst) snprintf(ib, sizeof(ib), "%s", last_inst); else snprintf(ib, sizeof(ib), "%s", "1"); dmasprintf(&qos_comment, "QoS classify %d", atoi(ib)+1); dmuci_add_section("qos", "classify", &s, §_name); dmuci_set_value_by_section(s, "comment", qos_comment); dmuci_add_section_bbfdm("dmmap_qos", "classify", &dmmap_qos_classify, &v); dmuci_set_value_by_section(dmmap_qos_classify, "section_name", sect_name); *instance = update_instance_bbfdm(dmmap_qos_classify, last_inst, "classifinstance"); return 0; } int delObjQoSClassification(char *refparam, struct dmctx *ctx, void *data, char *instance, unsigned char del_action) { struct dmmap_dup *p = (struct dmmap_dup*)data; struct uci_section *s = NULL, *ss = NULL, *dmmap_section; int found = 0; switch (del_action) { case DEL_INST: if(is_section_unnamed(section_name(p->config_section))){ LIST_HEAD(dup_list); delete_sections_save_next_sections("dmmap_qos", "classify", "classifinstance", section_name(p->config_section), atoi(instance), &dup_list); update_dmmap_sections(&dup_list, "classifinstance", "dmmap_qos", "classify"); dmuci_delete_by_section_unnamed(p->config_section, NULL, NULL); } else { get_dmmap_section_of_config_section("dmmap_qos", "classify", section_name(p->config_section), &dmmap_section); dmuci_delete_by_section_unnamed_bbfdm(dmmap_section, NULL, NULL); dmuci_delete_by_section(p->config_section, NULL, NULL); } break; case DEL_ALL: uci_foreach_sections("qos", "classify", s) { if (found != 0){ get_dmmap_section_of_config_section("dmmap_qos", "classify", section_name(ss), &dmmap_section); if(dmmap_section != NULL) dmuci_delete_by_section(dmmap_section, NULL, NULL); dmuci_delete_by_section(ss, NULL, NULL); } ss = s; found++; } if (ss != NULL) { get_dmmap_section_of_config_section("dmmap_qos", "classify", section_name(ss), &dmmap_section); if(dmmap_section != NULL) dmuci_delete_by_section(dmmap_section, NULL, NULL); dmuci_delete_by_section(ss, NULL, NULL); } break; } return 0; } int addObjQoSApp(char *refparam, struct dmctx *ctx, void *data, char **instance) { //TODO return 0; } int delObjQoSApp(char *refparam, struct dmctx *ctx, void *data, char *instance, unsigned char del_action) { switch (del_action) { case DEL_INST: //TODO break; case DEL_ALL: //TODO break; } return 0; } int addObjQoSFlow(char *refparam, struct dmctx *ctx, void *data, char **instance) { //TODO return 0; } int delObjQoSFlow(char *refparam, struct dmctx *ctx, void *data, char *instance, unsigned char del_action) { switch (del_action) { case DEL_INST: //TODO break; case DEL_ALL: //TODO break; } return 0; } int addObjQoSPolicer(char *refparam, struct dmctx *ctx, void *data, char **instance) { //TODO return 0; } int delObjQoSPolicer(char *refparam, struct dmctx *ctx, void *data, char *instance, unsigned char del_action) { switch (del_action) { case DEL_INST: //TODO break; case DEL_ALL: //TODO break; } return 0; } int addObjQoSQueue(char *refparam, struct dmctx *ctx, void *data, char **instance) { struct uci_section *s, *dmmap_qos_class; char *last_inst = NULL, *sect_name = NULL, *v; char ib[8]; last_inst = get_last_instance_bbfdm("dmmap_qos", "class", "queueinstance"); if (last_inst) snprintf(ib, sizeof(ib), "%s", last_inst); else snprintf(ib, sizeof(ib), "%s", "1"); dmuci_add_section("qos", "class", &s, §_name); dmuci_set_value_by_section(s, "packetsize", "1000"); dmuci_add_section_bbfdm("dmmap_qos", "class", &dmmap_qos_class, &v); dmuci_set_value_by_section(dmmap_qos_class, "section_name", sect_name); *instance = update_instance_bbfdm(dmmap_qos_class, last_inst, "queueinstance"); return 0; } int delObjQoSQueue(char *refparam, struct dmctx *ctx, void *data, char *instance, unsigned char del_action) { struct dmmap_dup *p= (struct dmmap_dup*)data; struct uci_section *s = NULL, *ss = NULL, *dmmap_section; int found = 0; switch (del_action) { case DEL_INST: if (is_section_unnamed(section_name(p->config_section))) { LIST_HEAD(dup_list); delete_sections_save_next_sections("dmmap_qos", "class", "queueinstance", section_name(p->config_section), atoi(instance), &dup_list); update_dmmap_sections(&dup_list, "queueinstance", "dmmap_qos", "class"); dmuci_delete_by_section_unnamed(p->config_section, NULL, NULL); } else { get_dmmap_section_of_config_section("dmmap_qos", "class", section_name(p->config_section), &dmmap_section); dmuci_delete_by_section_unnamed_bbfdm(dmmap_section, NULL, NULL); dmuci_delete_by_section(p->config_section, NULL, NULL); } break; case DEL_ALL: uci_foreach_sections("qos", "class", s) { if (found != 0) { get_dmmap_section_of_config_section("dmmap_qos", "class", section_name(ss), &dmmap_section); if (dmmap_section != NULL) dmuci_delete_by_section(dmmap_section, NULL, NULL); dmuci_delete_by_section(ss, NULL, NULL); } ss = s; found++; } if (ss != NULL) { get_dmmap_section_of_config_section("dmmap_qos", "class", section_name(ss), &dmmap_section); if (dmmap_section != NULL) dmuci_delete_by_section(dmmap_section, NULL, NULL); dmuci_delete_by_section(ss, NULL, NULL); } break; } return 0; } int addObjQoSQueueStats(char *refparam, struct dmctx *ctx, void *data, char **instance) { //TODO return 0; } int delObjQoSQueueStats(char *refparam, struct dmctx *ctx, void *data, char *instance, unsigned char del_action) { switch (del_action) { case DEL_INST: //TODO break; case DEL_ALL: //TODO break; } return 0; } int addObjQoSShaper(char *refparam, struct dmctx *ctx, void *data, char **instance) { struct uci_section *s, *dmmap_qos_class; char *last_inst = NULL, *sect_name = NULL, *v; char ib[8]; last_inst= get_last_instance_bbfdm_without_update("dmmap_qos", "class", "shaperinstance"); if (last_inst) snprintf(ib, sizeof(ib), "%s", last_inst); else snprintf(ib, sizeof(ib), "%s", "1"); dmuci_add_section("qos", "class", &s, §_name); dmuci_set_value_by_section(s, "limitrate", "1000"); dmuci_add_section_bbfdm("dmmap_qos", "class", &dmmap_qos_class, &v); dmuci_set_value_by_section(dmmap_qos_class, "section_name", sect_name); *instance = update_instance_bbfdm(dmmap_qos_class, last_inst, "shaperinstance"); return 0; } int delObjQoSShaper(char *refparam, struct dmctx *ctx, void *data, char *instance, unsigned char del_action) { struct dmmap_dup *p= (struct dmmap_dup*)data; struct uci_section *s, *dmmap_sect; switch (del_action) { case DEL_INST: dmuci_set_value_by_section(p->config_section, "limitrate", ""); dmuci_set_value_by_section(p->dmmap_section, "shaperinstance", ""); break; case DEL_ALL: uci_foreach_sections("qos", "class", s) { get_dmmap_section_of_config_section("dmmap_qos", "class", section_name(s), &dmmap_sect); dmuci_set_value_by_section(s, "limitrate", ""); dmuci_set_value_by_section(dmmap_sect, "shaperinstance", ""); } break; } return 0; } int get_QoS_MaxClassificationEntries(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } /*#Device.QoS.ClassificationNumberOfEntries!UCI:qos/classify/*/ int get_QoS_ClassificationNumberOfEntries(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct uci_section *s; int nbre= 0; uci_foreach_sections("qos", "classify", s) { nbre++; } dmasprintf(value, "%d", nbre); return 0; } int get_QoS_MaxAppEntries(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoS_AppNumberOfEntries(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoS_MaxFlowEntries(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoS_FlowNumberOfEntries(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoS_MaxPolicerEntries(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoS_PolicerNumberOfEntries(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoS_MaxQueueEntries(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } /*#Device.QoS.QueueNumberOfEntries!UCI:qos/class/*/ int get_QoS_QueueNumberOfEntries(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct uci_section *s; int nbre= 0; uci_foreach_sections("qos", "class", s) { nbre++; } dmasprintf(value, "%d", nbre); return 0; } int get_QoS_QueueStatsNumberOfEntries(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { char *questatsout[256]; int length; command_exec_output_to_array("tc -s qdisc", questatsout, &length); dmasprintf(value, "%d", length/3); return 0; } int get_QoS_MaxShaperEntries(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoS_ShaperNumberOfEntries(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct uci_section *s; int nbre= 0; char *rate= NULL; uci_foreach_sections("qos", "class", s) { dmuci_get_value_by_section_string(s, "limitrate", &rate); if(rate == NULL || strlen(rate)<=0) continue; nbre++; } dmasprintf(value, "%d", nbre); return 0; } int get_QoS_DefaultForwardingPolicy(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoS_DefaultForwardingPolicy(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoS_DefaultTrafficClass(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoS_DefaultTrafficClass(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoS_DefaultPolicer(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoS_DefaultPolicer(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoS_DefaultQueue(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { char *linker; dmuci_get_option_value_string("qos", "Default", "default", &linker); adm_entry_get_linker_param(ctx, dm_print_path("%s%cQoS%cQueue%c", dmroot, dm_delim, dm_delim, dm_delim), linker, value); if (*value == NULL) *value = ""; return 0; } int set_QoS_DefaultQueue(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { char *linker; switch (action) { case VALUECHECK: break; case VALUESET: adm_entry_get_linker_value(ctx, value, &linker); dmuci_set_value("qos", "Default", "default", linker); break; } return 0; } int get_QoS_DefaultDSCPMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct uci_section *s; char *linker, *classtarget; dmuci_get_option_value_string("qos", "Default", "default", &linker); uci_foreach_sections("qos", "classify", s) { dmuci_get_value_by_section_string(s, "target", &classtarget); if (strcmp(classtarget, linker) == 0) { dmuci_get_value_by_section_string(s, "dscp", value); return 0; } } *value= ""; return 0; } int set_QoS_DefaultDSCPMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoS_DefaultEthernetPriorityMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoS_DefaultEthernetPriorityMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoS_DefaultInnerEthernetPriorityMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoS_DefaultInnerEthernetPriorityMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoS_AvailableAppList(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSClassification_Enable(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_Enable(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_Status(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSClassification_Order(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_Order(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_Alias(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct dmmap_dup *p= (struct dmmap_dup*)data; dmuci_get_value_by_section_string(p->dmmap_section, "classifalias", value); return 0; } int set_QoSClassification_Alias(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { struct dmmap_dup *p= (struct dmmap_dup*)data; switch (action) { case VALUECHECK: break; case VALUESET: dmuci_set_value_by_section(p->dmmap_section, "classifalias", value); break; } return 0; } int get_QoSClassification_DHCPType(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DHCPType(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_Interface(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct dmmap_dup *p= (struct dmmap_dup *) data; struct uci_section *s; char *classes = NULL, **classesarr, *classgroup = NULL, *ifaceclassgrp, *targetclass; size_t length; dmuci_get_value_by_section_string(p->config_section, "target", &targetclass); uci_foreach_sections("qos", "classgroup", s) { dmuci_get_value_by_section_string(s, "classes", &classes); classesarr = strsplit(classes, " ", &length); if (classes != NULL && is_array_elt_exist(classesarr, targetclass, length)) { dmasprintf(&classgroup, "%s", section_name(s)); break; } } if (classgroup == NULL) return 0; uci_foreach_sections("qos", "interface", s) { dmuci_get_value_by_section_string(s, "classgroup", &ifaceclassgrp); if (ifaceclassgrp != NULL && strcmp(ifaceclassgrp, classgroup) == 0) { adm_entry_get_linker_param(ctx, dm_print_path("%s%cIP%cInterface%c", dmroot, dm_delim, dm_delim, dm_delim), section_name(s), value); if (*value == NULL) adm_entry_get_linker_param(ctx, dm_print_path("%s%cPPP%cInterface%c", dmroot, dm_delim, dm_delim, dm_delim), section_name(s), value); if (*value == NULL) adm_entry_get_linker_param(ctx, dm_print_path("%s%cEthernet%cInterface%c", dmroot, dm_delim, dm_delim, dm_delim), section_name(s), value); if (*value == NULL) *value = ""; } } return 0; } int set_QoSClassification_Interface(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_AllInterfaces(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_AllInterfaces(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } /*#Device.QoS.Classification.{i}.DestIP!UCI:qos/classify,@i-1/dsthost*/ int get_QoSClassification_DestIP(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct dmmap_dup *p= (struct dmmap_dup*)data; dmuci_get_value_by_section_string(p->config_section, "dsthost", value); return 0; } int set_QoSClassification_DestIP(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { struct dmmap_dup *p= (struct dmmap_dup*)data; switch (action) { case VALUECHECK: break; case VALUESET: dmuci_set_value_by_section(p->config_section, "dsthost", value); break; } return 0; } int get_QoSClassification_DestMask(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestMask(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DestIPExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestIPExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } /*#Device.QoS.Classification.{i}.SourceIP!UCI:qos/classify,@i-1/srchost*/ int get_QoSClassification_SourceIP(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct dmmap_dup *p= (struct dmmap_dup*)data; dmuci_get_value_by_section_string(p->config_section, "srchost", value); return 0; } int set_QoSClassification_SourceIP(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { struct dmmap_dup *p= (struct dmmap_dup*)data; switch (action) { case VALUECHECK: break; case VALUESET: dmuci_set_value_by_section(p->config_section, "srchost", value); break; } return 0; } int get_QoSClassification_SourceMask(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourceMask(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SourceIPExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourceIPExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } /*#Device.QoS.Classification.{i}.Protocol!UCI:qos/classify,@i-1/proto*/ int get_QoSClassification_Protocol(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct dmmap_dup *p= (struct dmmap_dup*)data; dmuci_get_value_by_section_string(p->config_section, "proto", value); return 0; } int set_QoSClassification_Protocol(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { struct dmmap_dup *p= (struct dmmap_dup*)data; switch (action) { case VALUECHECK: break; case VALUESET: dmuci_set_value_by_section(p->config_section, "proto", value); break; } return 0; } int get_QoSClassification_ProtocolExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_ProtocolExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } /*#Device.QoS.Classification.{i}.DestPort!UCI:qos/classify,@i-1/dstports*/ int get_QoSClassification_DestPort(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct dmmap_dup *p= (struct dmmap_dup*)data; dmuci_get_value_by_section_string(p->config_section, "dstports", value); return 0; } int set_QoSClassification_DestPort(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { struct dmmap_dup *p= (struct dmmap_dup*)data; switch (action) { case VALUECHECK: break; case VALUESET: dmuci_set_value_by_section(p->config_section, "dstports", value); break; } return 0; } /*#Device.QoS.Classification.{i}.DestPortRangeMax!UCI:qos/classify,@i-1/portrange*/ int get_QoSClassification_DestPortRangeMax(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct dmmap_dup *p= (struct dmmap_dup*)data; dmuci_get_value_by_section_string(p->config_section, "portrange", value); return 0; } int set_QoSClassification_DestPortRangeMax(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { struct dmmap_dup *p= (struct dmmap_dup*)data; switch (action) { case VALUECHECK: break; case VALUESET: dmuci_set_value_by_section(p->config_section, "portrange", value); break; } return 0; } int get_QoSClassification_DestPortExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestPortExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } /*#Device.QoS.Classification.{i}.SourcePort!UCI:qos/classify,@i-1/srcports*/ int get_QoSClassification_SourcePort(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct dmmap_dup *p= (struct dmmap_dup*)data; dmuci_get_value_by_section_string(p->config_section, "srcports", value); return 0; } int set_QoSClassification_SourcePort(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { struct dmmap_dup *p= (struct dmmap_dup*)data; switch (action) { case VALUECHECK: break; case VALUESET: dmuci_set_value_by_section(p->config_section, "srcports", value); break; } return 0; } int get_QoSClassification_SourcePortRangeMax(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourcePortRangeMax(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SourcePortExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourcePortExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SourceMACAddress(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourceMACAddress(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SourceMACMask(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourceMACMask(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SourceMACExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourceMACExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DestMACAddress(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestMACAddress(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DestMACMask(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestMACMask(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DestMACExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestMACExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_Ethertype(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_Ethertype(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_EthertypeExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_EthertypeExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SSAP(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SSAP(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SSAPExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SSAPExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DSAP(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DSAP(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DSAPExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DSAPExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_LLCControl(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_LLCControl(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_LLCControlExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_LLCControlExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SNAPOUI(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SNAPOUI(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SNAPOUIExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SNAPOUIExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SourceVendorClassID(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourceVendorClassID(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SourceVendorClassIDv6(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourceVendorClassIDv6(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SourceVendorClassIDExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourceVendorClassIDExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SourceVendorClassIDMode(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourceVendorClassIDMode(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DestVendorClassID(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestVendorClassID(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DestVendorClassIDv6(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestVendorClassIDv6(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DestVendorClassIDExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestVendorClassIDExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DestVendorClassIDMode(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestVendorClassIDMode(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SourceClientID(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourceClientID(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SourceClientIDExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourceClientIDExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DestClientID(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestClientID(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DestClientIDExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestClientIDExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SourceUserClassID(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourceUserClassID(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SourceUserClassIDExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourceUserClassIDExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DestUserClassID(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestUserClassID(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DestUserClassIDExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestUserClassIDExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SourceVendorSpecificInfo(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourceVendorSpecificInfo(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SourceVendorSpecificInfoExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourceVendorSpecificInfoExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SourceVendorSpecificInfoEnterprise(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourceVendorSpecificInfoEnterprise(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_SourceVendorSpecificInfoSubOption(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_SourceVendorSpecificInfoSubOption(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DestVendorSpecificInfo(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestVendorSpecificInfo(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DestVendorSpecificInfoExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestVendorSpecificInfoExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DestVendorSpecificInfoEnterprise(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestVendorSpecificInfoEnterprise(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DestVendorSpecificInfoSubOption(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DestVendorSpecificInfoSubOption(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_TCPACK(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_TCPACK(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_TCPACKExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_TCPACKExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_IPLengthMin(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_IPLengthMin(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_IPLengthMax(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_IPLengthMax(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_IPLengthExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_IPLengthExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DSCPCheck(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DSCPCheck(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_DSCPExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_DSCPExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } /*#Device.QoS.Classification.{i}.DSCPMark!UCI:qos/classify,@i-1/dscp*/ int get_QoSClassification_DSCPMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct dmmap_dup *p= (struct dmmap_dup *)data; dmuci_get_value_by_section_string(p->config_section, "dscp", value); return 0; } int set_QoSClassification_DSCPMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { struct dmmap_dup *p= (struct dmmap_dup *)data; switch (action) { case VALUECHECK: break; case VALUESET: dmuci_set_value_by_section(p->config_section, "dscp", value); break; } return 0; } int get_QoSClassification_EthernetPriorityCheck(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_EthernetPriorityCheck(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_EthernetPriorityExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_EthernetPriorityExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_EthernetPriorityMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_EthernetPriorityMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_InnerEthernetPriorityCheck(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_InnerEthernetPriorityCheck(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_InnerEthernetPriorityExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_InnerEthernetPriorityExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_InnerEthernetPriorityMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_InnerEthernetPriorityMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_EthernetDEICheck(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_EthernetDEICheck(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_EthernetDEIExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_EthernetDEIExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_VLANIDCheck(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_VLANIDCheck(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_VLANIDExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_VLANIDExclude(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_OutOfBandInfo(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_OutOfBandInfo(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_ForwardingPolicy(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_ForwardingPolicy(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_TrafficClass(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_TrafficClass(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_Policer(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_Policer(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSClassification_App(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSClassification_App(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSApp_Enable(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSApp_Enable(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSApp_Status(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSApp_Alias(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSApp_Alias(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSApp_ProtocolIdentifier(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSApp_ProtocolIdentifier(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSApp_Name(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSApp_Name(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSApp_DefaultForwardingPolicy(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSApp_DefaultForwardingPolicy(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSApp_DefaultTrafficClass(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSApp_DefaultTrafficClass(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSApp_DefaultPolicer(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSApp_DefaultPolicer(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSApp_DefaultDSCPMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSApp_DefaultDSCPMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSApp_DefaultEthernetPriorityMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSApp_DefaultEthernetPriorityMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSApp_DefaultInnerEthernetPriorityMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSApp_DefaultInnerEthernetPriorityMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSFlow_Enable(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSFlow_Enable(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSFlow_Status(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSFlow_Alias(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSFlow_Alias(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSFlow_Type(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSFlow_Type(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSFlow_TypeParameters(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSFlow_TypeParameters(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSFlow_Name(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSFlow_Name(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSFlow_App(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSFlow_App(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSFlow_ForwardingPolicy(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSFlow_ForwardingPolicy(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSFlow_TrafficClass(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSFlow_TrafficClass(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSFlow_Policer(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSFlow_Policer(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSFlow_DSCPMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSFlow_DSCPMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSFlow_EthernetPriorityMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSFlow_EthernetPriorityMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSFlow_InnerEthernetPriorityMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSFlow_InnerEthernetPriorityMark(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSPolicer_Enable(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSPolicer_Enable(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSPolicer_Status(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSPolicer_Alias(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSPolicer_Alias(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSPolicer_CommittedRate(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSPolicer_CommittedRate(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSPolicer_CommittedBurstSize(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSPolicer_CommittedBurstSize(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSPolicer_ExcessBurstSize(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSPolicer_ExcessBurstSize(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSPolicer_PeakRate(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSPolicer_PeakRate(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSPolicer_PeakBurstSize(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSPolicer_PeakBurstSize(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSPolicer_MeterType(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSPolicer_MeterType(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSPolicer_PossibleMeterTypes(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSPolicer_ConformingAction(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSPolicer_ConformingAction(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSPolicer_PartialConformingAction(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSPolicer_PartialConformingAction(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSPolicer_NonConformingAction(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSPolicer_NonConformingAction(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSPolicer_TotalCountedPackets(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSPolicer_TotalCountedBytes(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSPolicer_ConformingCountedPackets(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSPolicer_ConformingCountedBytes(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSPolicer_PartiallyConformingCountedPackets(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSPolicer_PartiallyConformingCountedBytes(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSPolicer_NonConformingCountedPackets(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSPolicer_NonConformingCountedBytes(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSQueue_Enable(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSQueue_Enable(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSQueue_Status(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSQueue_Alias(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct dmmap_dup *p= (struct dmmap_dup*)data; dmuci_get_value_by_section_string(p->dmmap_section, "queuealias", value); return 0; } int set_QoSQueue_Alias(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { struct dmmap_dup *p= (struct dmmap_dup*)data; switch (action) { case VALUECHECK: break; case VALUESET: dmuci_set_value_by_section(p->dmmap_section, "queuealias", value); break; } return 0; } int get_QoSQueue_TrafficClasses(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSQueue_TrafficClasses(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSQueue_Interface(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct dmmap_dup *p = (struct dmmap_dup *)data; struct uci_section *s; char *classes = NULL, **classesarr, *classgroup = NULL, *ifaceclassgrp; size_t length; uci_foreach_sections("qos", "classgroup", s) { dmuci_get_value_by_section_string(s, "classes", &classes); classesarr = strsplit(classes, " ", &length); if (classes != NULL && is_array_elt_exist(classesarr, section_name(p->config_section), length)){ dmasprintf(&classgroup, "%s", section_name(s)); break; } } if(classgroup == NULL) return 0; uci_foreach_sections("qos", "interface", s) { dmuci_get_value_by_section_string(s, "classgroup", &ifaceclassgrp); if (ifaceclassgrp != NULL && strcmp(ifaceclassgrp, classgroup) == 0) { adm_entry_get_linker_param(ctx, dm_print_path("%s%cIP%cInterface%c", dmroot, dm_delim, dm_delim, dm_delim), section_name(s), value); if (*value == NULL) adm_entry_get_linker_param(ctx, dm_print_path("%s%cPPP%cInterface%c", dmroot, dm_delim, dm_delim, dm_delim), section_name(s), value); if (*value == NULL) adm_entry_get_linker_param(ctx, dm_print_path("%s%cEthernet%cInterface%c", dmroot, dm_delim, dm_delim, dm_delim), section_name(s), value); if (*value == NULL) *value = ""; } } return 0; } int set_QoSQueue_Interface(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSQueue_AllInterfaces(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSQueue_AllInterfaces(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSQueue_HardwareAssisted(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } /*#Device.QoS.Queue.{i}.BufferLength!UCI:qos/class,@i-1/maxsize*/ int get_QoSQueue_BufferLength(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct dmmap_dup *p= (struct dmmap_dup*)data; dmuci_get_value_by_section_string(p->config_section, "maxsize", value); return 0; } int get_QoSQueue_Weight(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSQueue_Weight(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSQueue_Precedence(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSQueue_Precedence(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSQueue_REDThreshold(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSQueue_REDThreshold(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSQueue_REDPercentage(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSQueue_REDPercentage(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSQueue_DropAlgorithm(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSQueue_DropAlgorithm(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSQueue_SchedulerAlgorithm(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSQueue_SchedulerAlgorithm(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } /*#Device.QoS.Queue.{i}.ShapingRate!UCI:qos/class,@i-1/limitrate*/ int get_QoSQueue_ShapingRate(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct dmmap_dup *p= (struct dmmap_dup*)data; char *rate= NULL; dmuci_get_value_by_section_string(p->config_section, "limitrate", &rate); if (rate != NULL && atoi(rate)>=0) dmasprintf(value, "%s", rate); else dmasprintf(value, "%s", "-1"); return 0; } int set_QoSQueue_ShapingRate(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { struct dmmap_dup *p= (struct dmmap_dup*)data; switch (action) { case VALUECHECK: break; case VALUESET: if(atoi(value)>=0) dmuci_set_value_by_section(p->config_section, "limitrate", value); else dmuci_set_value_by_section(p->config_section, "limitrate", ""); break; } return 0; } int get_QoSQueue_ShapingBurstSize(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSQueue_ShapingBurstSize(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSQueueStats_Enable(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSQueueStats_Enable(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSQueueStats_Status(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSQueueStats_Alias(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct queuestats *qts= (struct queuestats*)data; dmuci_get_value_by_section_string(qts->dmsect, "queuestatsalias", value); return 0; } int set_QoSQueueStats_Alias(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { struct queuestats *qts= (struct queuestats*)data; switch (action) { case VALUECHECK: break; case VALUESET: dmuci_set_value_by_section(qts->dmsect, "queuestatsalias", value); break; } return 0; } int get_QoSQueueStats_Queue(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSQueueStats_Queue(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSQueueStats_Interface(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct queuestats *qts= (struct queuestats*)data; adm_entry_get_linker_param(ctx, dm_print_path("%s%cIP%cInterface%c", dmroot, dm_delim, dm_delim, dm_delim), qts->dev, value); if (*value == NULL) adm_entry_get_linker_param(ctx, dm_print_path("%s%cPPP%cInterface%c", dmroot, dm_delim, dm_delim, dm_delim), qts->dev, value); if (*value == NULL) adm_entry_get_linker_param(ctx, dm_print_path("%s%cEthernet%cInterface%c", dmroot, dm_delim, dm_delim, dm_delim), qts->dev, value); if (*value == NULL) adm_entry_get_linker_param(ctx, dm_print_path("%s%cWiFi%cRadio%c", dmroot, dm_delim, dm_delim, dm_delim), qts->dev, value); if (*value == NULL) *value = ""; return 0; } int set_QoSQueueStats_Interface(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSQueueStats_OutputPackets(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct queuestats *queuests= (struct queuestats*)data; dmasprintf(value, "%d", queuests->pkt_sent); return 0; } int get_QoSQueueStats_OutputBytes(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct queuestats *queuests= (struct queuestats*)data; dmasprintf(value, "%d", queuests->bytes_sent); return 0; } int get_QoSQueueStats_DroppedPackets(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct queuestats *queuests= (struct queuestats*)data; dmasprintf(value, "%d", queuests->pkt_dropped); return 0; } int get_QoSQueueStats_DroppedBytes(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { return 0; } int get_QoSQueueStats_QueueOccupancyPackets(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct queuestats *queuests= (struct queuestats*)data; dmasprintf(value, "%d", queuests->pkt_requeues); return 0; } int get_QoSQueueStats_QueueOccupancyPercentage(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSShaper_Enable(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSShaper_Enable(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSShaper_Status(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int get_QoSShaper_Alias(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct dmmap_dup *p= (struct dmmap_dup*)data; dmuci_get_value_by_section_string(p->dmmap_section, "shaperalias", value); return 0; } int set_QoSShaper_Alias(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { struct dmmap_dup *p= (struct dmmap_dup*)data; switch (action) { case VALUECHECK: break; case VALUESET: dmuci_set_value_by_section(p->dmmap_section, "shaperalias", value); break; } return 0; } int get_QoSShaper_Interface(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct dmmap_dup *p = (struct dmmap_dup *)data; struct uci_section *s; char *classes = NULL, **classesarr, *classgroup = NULL, *ifaceclassgrp; size_t length; uci_foreach_sections("qos", "classgroup", s) { dmuci_get_value_by_section_string(s, "classes", &classes); classesarr= strsplit(classes, " ", &length); if (classes != NULL && is_array_elt_exist(classesarr, section_name(p->config_section), length)){ dmasprintf(&classgroup, "%s", section_name(s)); break; } } if(classgroup == NULL) return 0; uci_foreach_sections("qos", "interface", s) { dmuci_get_value_by_section_string(s, "classgroup", &ifaceclassgrp); if (ifaceclassgrp != NULL && strcmp(ifaceclassgrp, classgroup) == 0) { adm_entry_get_linker_param(ctx, dm_print_path("%s%cIP%cInterface%c", dmroot, dm_delim, dm_delim, dm_delim), section_name(s), value); if (*value == NULL) adm_entry_get_linker_param(ctx, dm_print_path("%s%cPPP%cInterface%c", dmroot, dm_delim, dm_delim, dm_delim), section_name(s), value); if (*value == NULL) adm_entry_get_linker_param(ctx, dm_print_path("%s%cEthernet%cInterface%c", dmroot, dm_delim, dm_delim, dm_delim), section_name(s), value); if (*value == NULL) *value = ""; } } return 0; } int set_QoSShaper_Interface(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; } int get_QoSShaper_ShapingRate(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { struct dmmap_dup *p= (struct dmmap_dup*)data; char *rate= NULL; dmuci_get_value_by_section_string(p->config_section, "limitrate", &rate); if (rate != NULL && atoi(rate)>=0) dmasprintf(value, "%s", rate); else dmasprintf(value, "%s", "-1"); return 0; } int set_QoSShaper_ShapingRate(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { struct dmmap_dup *p= (struct dmmap_dup*)data; switch (action) { case VALUECHECK: break; case VALUESET: if(atoi(value)>=0) dmuci_set_value_by_section(p->config_section, "limitrate", value); else dmuci_set_value_by_section(p->config_section, "limitrate", ""); break; } return 0; } int get_QoSShaper_ShapingBurstSize(char *refparam, struct dmctx *ctx, void *data, char *instance, char **value) { //TODO return 0; } int set_QoSShaper_ShapingBurstSize(char *refparam, struct dmctx *ctx, void *data, char *instance, char *value, int action) { switch (action) { case VALUECHECK: break; case VALUESET: //TODO break; } return 0; }