-- ----------------------------------------------------------------------------- -- MIB NAME : POE Common mib -- FILE NAME: PoE.mib -- DATE : 2010/07/02 -- VERSION : 2.05 -- PURPOSE : To construct the MIB structure of POE management -- for proprietary enterprise -- ----------------------------------------------------------------------------- -- MODIFICTION HISTORY: -- ----------------------------------------------------------------------------- -- Version, Date, Author -- Description: -- [New Object] -- [Modification] -- Notes: (Requested by who and which project) -- -- Version 2.05, 2010/07/02 by Jerry Qin -- [New Object] -- 1.Add object swPoESystemStackingCtrlLegacyPD in swPoESystemStackingCtrlTable. -- To support legacy PD detection. -- Requested by Jerry Qin for project DES35xx. -- -- Version 2.04, 2009/06/05 by Jerry Qin -- [New Object] -- 1.Add object swPoESystemCtrlLegacyPD in swPoESystemCtrl. -- For support legacy PD detection. -- 2.Add object swPoESystemInfoLegacyPD in swPoESystemInfo. -- For show legacy PD detection status. -- [Modification] -- 1. Remove swPoEPortCtrlLegacyPD from swPoEPortCtrlTable. -- Requested by Jerry Qin for project DES35xx. -- -- Version 2.03, 2009/05/08 by Jerry Qin -- [New Object] -- 1.Add object swPoEPortCtrlLegacyPD in swPoEPortCtrlTable. -- For support legacy PD detection. -- Requested by Jerry Qin for project DES35xx. -- -- Version 2.02, 2008/11/12 by Jerry Qin -- [New Object] -- 1.Add objects swPoEPortCtrlTimeRangeName in swPoEPortCtrlTable. -- [Modification] -- 1. modify the value list of swPoEPortCtrlUserDefined from 1000..16800 to 1000..35000 -- Requested by Jerry Qin for project DES3528R2. -- -- Version 2.01 -- 2007/5/10 -- Request by Jenny Zeng/Chengdu, -- item 1 is for project DES3028(P)/DES3052(P) -- item 2 is for project DES3400 -- [New Object] -- 1. add swPoESystemLedMode -- 2. add swPoESystemStackingCtrlTable for seperating stand-alone and stacking mode settings -- [Modification] -- 1. modify swPoESystemInfoBoxId to swPoESystemInfoUnitId -- -- Version 2.00, 2007/03/27, Yedda -- This is the first formal version for universal MIB definition. -- ----------------------------------------------------------------------------- PoE-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY,OBJECT-TYPE FROM SNMPv2-SMI SnmpAdminString FROM SNMP-FRAMEWORK-MIB dlink-common-mgmt FROM DLINK-ID-REC-MIB DisplayString FROM RFC1213-MIB; swPoEMIB MODULE-IDENTITY LAST-UPDATED "201007020000Z" ORGANIZATION "D-Link Corp." CONTACT-INFO "http://support.dlink.com" DESCRIPTION "The Structure of PoE management for the proprietary enterprise." ::= { dlink-common-mgmt 24 } swPoESystemCtrl OBJECT IDENTIFIER ::= { swPoEMIB 1 } swPoESystemInfo OBJECT IDENTIFIER ::= { swPoEMIB 2 } swPoEPortCtrl OBJECT IDENTIFIER ::= { swPoEMIB 3 } swPoEPortInfo OBJECT IDENTIFIER ::= { swPoEMIB 4 } -- ----------------------------------------------------------------------------- -- swPoESystemCtrl OBJECT IDENTIFIER ::= { PoEMIB 1 } -- ----------------------------------------------------------------------------- swPoESystemPowerLimit OBJECT-TYPE SYNTAX INTEGER(37..370) MAX-ACCESS read-write STATUS current DESCRIPTION "The power budget (in watts) of the PoE sytem. The default setting is 370 W." ::= { swPoESystemCtrl 1 } swPoESystemPowerDisconnectMethod OBJECT-TYPE SYNTAX INTEGER{ denyNextPort(1), denyLowPriorityPort(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The power management disconnection method. When the total consumed power exceeds the power budget, the PoE controller initiates port disconnection, to prevent overloading the power supply. The controller uses one of the following two ways to implement the disconnection. deny_next_port: after the power budget has been exceeded, the next port attempting to power up is denied, regardless of its priority. deny_low_priority_port: after the power budget has been exceeded, the next port attempting to power up causes the port with the lowest priority to shut down to allow high-priority ports to power up. The default setting is deny_next_port." ::= { swPoESystemCtrl 2 } swPoESystemManagementMode OBJECT-TYPE SYNTAX INTEGER{ power-limit(1), auto(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "This mode can be either power_limit mode or auto mode. power_limit: If power supplied to the port exceeds the power limit specified for it, this port will be shut down. auto: The system will automatically determine the PD class of the device connected to the port in the first stage. Normally, the PD can be classified as class 1, 2, or 3. If the PD cannot be classified, it will be classified as class 0. For class 0, it will assume that the PD may consume the max power allowed. During the power feeding stage, if the power supplied to the port exceeds the upper limit of the detected PD class, this port will be shut down. For the upper limit for each class, it is 4W for class 1 PD class, 7W for class 2, and 15.4W for class 3 PD and class 0 PD." ::= { swPoESystemCtrl 3 } swPoESystemLedMode OBJECT-TYPE SYNTAX INTEGER{ normal(1), poe(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Specifies if the system mode will be POE or NORMAL." ::= { swPoESystemCtrl 4 } swPoESystemStackingCtrlTable OBJECT-TYPE SYNTAX SEQUENCE OF SwPoESystemStackingCtrlEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table that is used to configure PoE system information based on Unit ID. The Unit ID is used for stacking." ::= { swPoESystemCtrl 11 } swPoESystemStackingCtrlEntry OBJECT-TYPE SYNTAX SwPoESystemStackingCtrlEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of PoE system information based on Unit ID." INDEX { swPoESystemStackingCtrlUnitId } ::= { swPoESystemStackingCtrlTable 1 } SwPoESystemStackingCtrlEntry ::= SEQUENCE { swPoESystemStackingCtrlUnitId INTEGER, swPoESystemStackingCtrlPowerLimit INTEGER, swPoESystemStackingCtrlPowerDisconnectMethod INTEGER, swPoESystemStackingCtrlManagementMode INTEGER, swPoESystemStackingCtrlLedMode INTEGER, swPoESystemStackingCtrlLegacyPD INTEGER } swPoESystemStackingCtrlUnitId OBJECT-TYPE SYNTAX INTEGER(0..65535) MAX-ACCESS read-only STATUS current DESCRIPTION "This object indicates the device's Unit ID. A unit ID of zero denotes a stand-alone device." ::= { swPoESystemStackingCtrlEntry 1 } swPoESystemStackingCtrlPowerLimit OBJECT-TYPE SYNTAX INTEGER(37..370) MAX-ACCESS read-write STATUS current DESCRIPTION "The power budget (in watts) of the PoE sytem. The default setting is 370 W." ::= { swPoESystemStackingCtrlEntry 2 } swPoESystemStackingCtrlPowerDisconnectMethod OBJECT-TYPE SYNTAX INTEGER{ denyNextPort(1), denyLowPriorityPort(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The power management disconnection method. When the total consumed power exceeds the power budget, the PoE controller initiates port disconnection to prevent overloading the power supply. The controller uses one of the following two ways to implement the disconnection. deny_next_port: after the power budget has been exceeded, the next port attempting to power up is denied, regardless of its priority. deny_low_priority_port: after the power budget has been exceeded, the next port attempting to power up causes the port with the lowest priority to shut down to allow high-priority ports to power up. The default setting is deny_next_port." ::= { swPoESystemStackingCtrlEntry 3 } swPoESystemStackingCtrlManagementMode OBJECT-TYPE SYNTAX INTEGER{ power-limit(1), auto(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "This mode can be either power_limit mode or auto mode. power_limit: If power supplied to the port exceeds the power limit specified for it, this port will be shut down. auto: The system will automatically determine the PD class of the device connected to the port in the first stage. Normally, the PD can be classified as class 1, 2, or 3. If the PD can not be classified, it will be classified as class 0. For class 0, it will assume that the PD may consume the max power allowed. At the power feeding stage, if the power supplied to the port exceeds the upper limit of the detected PD class, this port will be shut down. For the upper limit for each class, it is 4W for class 1 PD class, 7W for class 2, and 15.4W for class 3 PD and class 0 PD." ::= { swPoESystemStackingCtrlEntry 4 } swPoESystemStackingCtrlLedMode OBJECT-TYPE SYNTAX INTEGER{ normal(1), poe(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Specifies the system mode to be POE or NORMAL." ::= { swPoESystemStackingCtrlEntry 5 } swPoESystemStackingCtrlLegacyPD OBJECT-TYPE SYNTAX INTEGER{ enabled(1), disabled(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The legacy PD detection state. Enables or disables legacy PD detection on PoE unit." DEFVAL {disabled} ::= { swPoESystemStackingCtrlEntry 6 } swPoESystemCtrlLegacyPD OBJECT-TYPE SYNTAX INTEGER{ enabled(1), disabled(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The legacy PD detection state. Enables or disables legacy PD detection on all PoE port." DEFVAL {disabled} ::= { swPoESystemCtrl 6 } -- ----------------------------------------------------------------------------- -- swPoESystemInfo OBJECT IDENTIFIER ::= { PoEMIB 2 } -- ----------------------------------------------------------------------------- swPoESystemInfoTable OBJECT-TYPE SYNTAX SEQUENCE OF SwPoESystemInfoEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table that contains PoE system information based on Unit ID. The Unit ID is used for stacking." ::= { swPoESystemInfo 1 } swPoESystemInfoEntry OBJECT-TYPE SYNTAX SwPoESystemInfoEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of PoE system information based on Unit ID." INDEX { swPoESystemInfoUnitId } ::= { swPoESystemInfoTable 1 } SwPoESystemInfoEntry ::= SEQUENCE { swPoESystemInfoUnitId INTEGER, swPoESystemInfoPowerConsumption INTEGER, swPoESystemInfoPowerRemained INTEGER, swPoESystemInfoPowerLimit INTEGER, swPoESystemInfoPowerDisconnectMethod INTEGER, swPoESystemInfoManagementMode INTEGER, swPoESystemInfoLegacyPD INTEGER } swPoESystemInfoUnitId OBJECT-TYPE SYNTAX INTEGER(0..65535) MAX-ACCESS read-only STATUS current DESCRIPTION "This object indicates the device's Unit ID. A unit ID of zero denotes a stand-alone device." ::= { swPoESystemInfoEntry 1 } swPoESystemInfoPowerConsumption OBJECT-TYPE SYNTAX INTEGER (0..370) MAX-ACCESS read-only STATUS current DESCRIPTION "The actual momentary power consumption (in watts) in the PoE system." ::= { swPoESystemInfoEntry 2 } swPoESystemInfoPowerRemained OBJECT-TYPE SYNTAX INTEGER (0..370) MAX-ACCESS read-only STATUS current DESCRIPTION "The actual momentary remaining power (in watts) in the PoE system." ::= { swPoESystemInfoEntry 3 } swPoESystemInfoPowerLimit OBJECT-TYPE SYNTAX INTEGER(37..370) MAX-ACCESS read-only STATUS current DESCRIPTION "The power budget (in watts) of the PoE sytem. The default setting is 370 W." ::= { swPoESystemInfoEntry 4 } swPoESystemInfoPowerDisconnectMethod OBJECT-TYPE SYNTAX INTEGER{ denyNextPort(1), denyLowPriorityPort(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "The power management disconnection method. When the total consumed power exceeds the power budget, the PoE controller initiates port disconnection to prevent overloading the power supply. The controller uses one of the following two ways to implement the disconnection. deny_next_port: after the power budget has been exceeded, the next port attempting to power up is denied, regardless of its priority. deny_low_priority_port: after the power budget has been exceeded, the next port attempting to power up causes the port with the lowest priority to shut down to allow high-priority ports to power up. The default setting is deny_next_port." ::= { swPoESystemInfoEntry 5 } swPoESystemInfoManagementMode OBJECT-TYPE SYNTAX INTEGER{ power-limit(1), auto(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "This mode can be either power_limit mode or auto mode. power_limit: If power supplied to the port exceeds the power limit specified for it, this port will be shut down. auto: The system will automatically determine the PD class of the device connected to the port in the first stage. Normally, the PD can be classified as class 1, 2, or 3. If the PD can not be classified, it will be classified as class 0. For class 0, it will assume that the PD may consume the max power allowed. At the power feeding stage, if the power supplied to the port exceeds the upper limit of the detected PD class, this port will be shut down. For the upper limit for each class, it is 4W for class 1 PD class, 7W for class 2, and 15.4W for class 3 PD and class 0 PD." ::= { swPoESystemInfoEntry 6 } swPoESystemInfoLegacyPD OBJECT-TYPE SYNTAX INTEGER{ enabled(1), disabled(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "The current status of legacy PD detection." ::= { swPoESystemInfoEntry 7 } -- ----------------------------------------------------------------------------- -- swPoEPortCtrl OBJECT IDENTIFIER ::= { PoEMIB 3 } -- ----------------------------------------------------------------------------- swPoEPortCtrlTable OBJECT-TYPE SYNTAX SEQUENCE OF SwPoEPortCtrlEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table that contains PoE configuration about every port in this stack. If a device has N ports, then the 1 -- N ports describe the port number of BoxId 1 device; N+1 -- 2N describe the port number of BoxId 2 device; 2N+1 -- 3N describe the port number of BoxId 2 device; ......" ::= { swPoEPortCtrl 1 } swPoEPortCtrlEntry OBJECT-TYPE SYNTAX SwPoEPortCtrlEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of PoE configurations for each port of the device in this stack." INDEX { swPoEPortCtrlPortIndex } ::= { swPoEPortCtrlTable 1 } SwPoEPortCtrlEntry ::= SEQUENCE { swPoEPortCtrlPortIndex INTEGER, swPoEPortCtrlState INTEGER, swPoEPortCtrlPriority INTEGER, swPoEPortCtrlPowerLimit INTEGER, swPoEPortCtrlUserDefined INTEGER, swPoEPortCtrlTimeRangeName SnmpAdminString } swPoEPortCtrlPortIndex OBJECT-TYPE SYNTAX INTEGER(0..65535) MAX-ACCESS read-only STATUS current DESCRIPTION "This object indicates the devices' port number in this stack. If a device has N ports, then the 1 -- N ports describe the port number of BoxId 1 device; N+1 -- 2N describe the port number of BoxId 2 device; 2N+1 -- 3N describe the port number of BoxId 2 device; ......" ::= { swPoEPortCtrlEntry 1 } swPoEPortCtrlState OBJECT-TYPE SYNTAX INTEGER{ other(1), enable(2), disable(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "The PoE port state. Enables or disables the PoE function on the specific port. The default setting is enable." ::= { swPoEPortCtrlEntry 2 } swPoEPortCtrlPriority OBJECT-TYPE SYNTAX INTEGER{ critical(1), high(2), low(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "The PoE port priority. Port priority affects power-up order (after a rest, the ports are powered up according to their priority) and shutdown order (when exceeding the power budget, the ports are shut down according to their priority if power_disconnect_method is set to deny_low_priority_port) Default setting is low." ::= { swPoEPortCtrlEntry 3 } swPoEPortCtrlPowerLimit OBJECT-TYPE SYNTAX INTEGER{ class0(1), class1(2), class2(3), class3(4), user-defined(5)} MAX-ACCESS read-write STATUS current DESCRIPTION "There are 4 pre-defined values for users' convenience to set the upper power limit for class 0, class 1, class 2, and class 3. class_0: 15400mW (The maximum power provided by PSE (switch) is 12.95 W + power loss on cable) class_1: 4000mW (The maximum power provided by PSE is 3.84 W + power loss on cable) class_2: 7000mW (The maximum power provided by PSE is 6.49 W + power loss on cable) class_3: 15400mW (The maximum power provided by PSE is 12.95 W + power loss on cable) user-defined: User can select this setting and configure the range in swPoEPortCtrlUserDefined." ::= { swPoEPortCtrlEntry 4 } swPoEPortCtrlUserDefined OBJECT-TYPE SYNTAX INTEGER(1000..35000) MAX-ACCESS read-write STATUS current DESCRIPTION "User defined per-port power limit (in milliwatts). If a port exceeds 10% of its power limit, the PoE system will shut down that port. The default setting is 15400 mW. Note: This object is valid only while the swPoEPortCtrlPowerLimit object is configured as user-defined." ::= { swPoEPortCtrlEntry 5 } swPoEPortCtrlTimeRangeName OBJECT-TYPE SYNTAX SnmpAdminString (SIZE (0..32)) MAX-ACCESS read-write STATUS current DESCRIPTION "Specifies the time_range that applies to the port of the POE.If time range is configured, power can only be supplied during the period specified by the time range." ::= { swPoEPortCtrlEntry 6 } -- ----------------------------------------------------------------------------- -- swPoEPortInfo OBJECT IDENTIFIER ::= { PoEMIB 4 } -- ----------------------------------------------------------------------------- swPoEPortInfoTable OBJECT-TYPE SYNTAX SEQUENCE OF SwPoEPortInfoEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table that contains PoE information about every port in this stack. If a device has N ports, then the 1 -- N ports describe the port number of BoxID 1 device; N+1 -- 2N describe the port number of BoxID 2 device; 2N+1 -- 3N describe the port number of BoxID 2 device; ......" ::= { swPoEPortInfo 1 } swPoEPortInfoEntry OBJECT-TYPE SYNTAX SwPoEPortInfoEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of PoE information for each port of the device in this stack." INDEX { swPoEPortInfoPortIndex } ::= { swPoEPortInfoTable 1 } SwPoEPortInfoEntry ::= SEQUENCE { swPoEPortInfoPortIndex INTEGER, swPoEPortInfoClass INTEGER, swPoEPortInfoPower INTEGER, swPoEPortInfoVoltage INTEGER, swPoEPortInfoCurrent INTEGER, swPoEPortInfoStatus DisplayString, swpoEPortInfoLedStatus INTEGER } swPoEPortInfoPortIndex OBJECT-TYPE SYNTAX INTEGER(0..65535) MAX-ACCESS read-only STATUS current DESCRIPTION "This object indicates the devices' port number in this stack. If a device has N ports, then the 1 -- N ports describe the port number of BoxId 1 device; N+1 -- 2N describe the port number of BoxID 2 device; 2N+1 -- 3N describe the port number of BoxID 2 device; ......" ::= { swPoEPortInfoEntry 1 } swPoEPortInfoClass OBJECT-TYPE SYNTAX INTEGER (0..4) MAX-ACCESS read-only STATUS current DESCRIPTION "The power class of the PD according to 802.3af definitions: class 0: PD power consumption is within 0.44-12.95 watts, class 1: PD power consumption is within 0.44-3.84 watts, class 2: PD power consumption is within 3.84-6.49 watts, class 3: PD power consumption is within 6.49-12.95 watts, class 4: is reserved for future use." ::= { swPoEPortInfoEntry 2 } swPoEPortInfoPower OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION "The port power consumption (in milliwatts)." ::= { swPoEPortInfoEntry 3 } swPoEPortInfoVoltage OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION "The port input line voltage (in decivolts)." ::= { swPoEPortInfoEntry 4 } swPoEPortInfoCurrent OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION "The port current (calculated in milliamps)." ::= { swPoEPortInfoEntry 5 } swPoEPortInfoStatus OBJECT-TYPE SYNTAX DisplayString (SIZE (0..76)) MAX-ACCESS read-only STATUS current DESCRIPTION "The string describes the PoE port current status." ::= { swPoEPortInfoEntry 6 } swpoEPortInfoLedStatus OBJECT-TYPE SYNTAX INTEGER{ on(1), off(2), error(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "The LED display for PoE port status. on (1): power is provided to the port on which a 802.3af-compliant or legacy PD is connected, off(2): no power is provided to the port where there aren't any errors, error(3): some error happens on the port, like overload, underload, short,...or power budget exceeded conditions." ::= { swPoEPortInfoEntry 7 } END