HP-SN-AGENT-MIB: View SNMP OID List / Download MIB

The chassis type represents the type of Foundry product being managed.

The serial number of the chassis. If the serial number is unknown or unavailable then the value should be a zero length string.

A bit array that contains the value of the Chassis Power Supplies. This is a packed bit string; the 2 power supplies status are encoded into 4 bits (a nibble). There are multiple power supplies per chassis in this release. The following shows the meaning of each bit: (bit 0 is the least significant bit). bit position meaning ------------ ------- 12-31 reserved 11 Power Supply 4 DC (0=bad, 1=good). 10 Power Supply 3 DC (0=bad, 1=good). 9 Power Supply 4 present status (0=present, 1=not-present). 8 Power Supply 3 present status (0=present, 1=not-present). 4-7 reserved 3 Power Supply 2 DC (0=bad, 1=good). 2 Power Supply 1 DC (0=bad, 1=good). 1 Power Supply 2 present status (0=present, 1=not-present). 0 Power Supply 1 present status (0=present, 1=not-present).

A bit array that contains the value of the fan status. This is a packed bit string. The status of each fan is encoded into one bit. bit value meaning --------- ------- 0 fan failure. 1 fan good. There are two fans per VLAN Switch chassis in this release. The following shows the meaning of each bit: (bit 0 is the least significant bit). bit position meaning ------------ ------- 4-31 reserved 3 fan4 status 2 fan3 status 1 fan2 status 0 fan1 status

The main board description string. (It is obsoleted for Chassis Product)

The total number of ports for the main board. (It is obsoleted for Chassis Product)

The expansion board description string. Expansion board are those boards attaching on the main board. (It is obsoleted for Chassis Product)

The total number of ports for the expansion board. (It is obsoleted for Chassis Product)

A bit array that contains the value of the front panel status LEDs. This is a bit-map; each LED is encoded into 1 bit for each switch port. The maximum number of ports in one chassis is 24 that means 24 Ports Status LEDs. The expansion port number always begins from the last main port number. The following shows the meaning of each bit for each switch port: bit value meaning -------- --------- 0 off (Link off) 1 on (Link on) The bitmap of LEDs are as following: (Port1) (Port4) (Port8) Bit (Bit0) (Bit3) (Bit7) Byte 1: LED1 LED2 LED3 LED4 LED5 LED6 LED7 LED8 Byte 2: LED9 LED10 LED11 LED12 LED13 LED14 LED15 LED16 Byte 3: LED17 LED18 LED19 LED20 LED21 LED22 LED23 LED24 --------

A bit array that contains the value of the front panel traffic LEDs. This is a packed bit string; each LED is encoded into 1 bit for each switch port. The maximum number of ports in one chassis is 24 that means 24 Ports Traffic LEDs. The expansion port number always begins from the last main port number. The following shows the meaning of each bit for each switch port: bit value meaning -------- --------- 0 off (no traffic) 1 on (traffic) The bitmap of LEDs are as following: (Port1) (Port4) (Port8) Bit (Bit0) (Bit3) (Bit7) Byte 1: LED1 LED2 LED3 LED4 LED5 LED6 LED7 LED8 Byte 2: LED9 LED10 LED11 LED12 LED13 LED14 LED15 LED16 Byte 3: LED17 LED18 LED19 LED20 LED21 LED22 LED23 LED24 --------

A bit array that contains the value of the front panel media LEDs. This is a packed bit string; each LED is encoded into 1 bit for each switch port. The maximum number of ports in one chassis is 24 that means 24 Ports Media LEDs. The expansion port number always begins from the last main port number. The following shows the meaning of each bit for each switch port: bit value meaning --------- ------- 0 half duplex 1 full duplex The bitmap of LEDs are as following: (Port1) (Port4) (Port8) Bit (Bit0) (Bit3) (Bit7) Byte 1: LED1 LED2 LED3 LED4 LED5 LED6 LED7 LED8 Byte 2: LED9 LED10 LED11 LED12 LED13 LED14 LED15 LED16 Byte 3: LED17 LED18 LED19 LED20 LED21 LED22 LED23 LED24 ---------

Indicates whether the SNMP agent process is permitted to generate power supply failure traps. Enumeration: 'disabled': 0, 'enabled': 1.

The main board identifier, which can uniquely identify a board type. It is an encoded octet string with the following meaning: octet 0 - octet string format version, which identifies the format of this string. If format version octet has the value 1, the octets after the version octet have the following meaning: octet 1 - product type, FIWG=0x57, FIBB=0x42, FIMLS=0x4D NI=0x4E, TI=0x54, TIRT=0x52 octet 2 - board type, POWERPC=1, ALPHA=2 The length of the octet string is 27. If format version octet has the value 2, the octets after the version octet have the following meaning: octet 1 - product type: BI_WG 0x57 BI_BB 0x42 BI_NI 0x4E octet 2 - module type: FI_MASTER_FIBER_8G 0x7 FI_MASTER_FIBER_4G 0x5 FI_MASTER_FIBER_2G 0x4 FI_SLAVE_COPPER_24 0xB MASTER_FIBER_8G 0x0 MASTER_FIBER_4G 0x1 MASTER_FIBER_2G 0x12 MASTER_FIBER_0G 0x14 MASTER_COPPER_16 0x2 MASTER_COPPER_8G 0x6 MASTER_COPPER_12_2 0x9 SLAVE_FIBER_8G 0x8 SLAVE_FIBER_4G 0x3 SLAVE_COPPER_20 0xA SLAVE_COPPER_24 0xA SLAVE_100FX_8 0xD SLAVE_100FX_16 0xC SLAVE_COPPER_8G 0xE SLAVE_COPPER_16_2 0xF STACK_FIBER_8G 0x10 STACK_COPPER_8G 0x11 SLAVE_100FX_24 0x13 The length of the octet string is 28. Both format version 1 and 2: octet 3 - processor type, PVR_M603=3, PVR_M604=4, PVR_M603E=6, PVR_M603EV=7, PVR_M604E=9 octet 4 to octet 5 - processor speed in MHz octet 6 - MAC type: MAC_SEEQ_10_100=1, MAC_DEC_10_100=2, MAC_SEEQ_1000=5, MAC_GMAC_1000=6, MAC_VLSI_1000=9 octet 7 - PHY type, PHY_NONE=0, PHY_QSI=1, PHY_ICS=3, PHY_NATIONAL=4, PHY_LEVEL1=6, PHY_LEVEL16=7, PHY_LEVEL24=8 octet 8 - port type, COPPER=0, FIBER=1 octet 9 - fiber port type, NONFIBER=0, SX_FIBER=1, LX_FIBER=2, LHX_FIBER=3, LX_SX_FIBER=4, LHB_FIBER=5 octet 10 to octet 13 - DRAM size in KBytes octet 14 to octet 17 - boot flash size in KBytes octet 18 to octet 21 - code flash size in KBytes octet 22 to octet 27 - serial number. Format version 1 only: octet 28 - chassis backplane type. chassis4000 = 0x00 chassis8000 = 0x04 Turbo8 = 0x07 (stack2) FastIron2 = 0x06 (stack1)

The expansion board identifier. Expansion board are those boards attaching on the main board. It is an encoded octet string with the following meaning: octet 0 - octet string format version, which identifies the format of this string. If format version octet has the value 1, the octets after the version octet have the following meaning: octet 1 - expansion board type, HUNDRED_MEG_1PORT=1, HUNDRED_MEG_2PORT=2, HUNDRED_MEG_1PORT_COPPER=3, HUNDRED_MEG_2PORT_COPPER=4, HUNDRED_MEG_2PORT_LX=5, GIGA_1PORT=8, GIGA_2PORT=9 octet 2 - fiber port type, NONFIBER=0, SX_FIBER=1, LX_FIBER=2, LHX_FIBER=3, LX_SX_FIBER=4 (It is obsoleted for Chassis Product)

A bit array that contains the value of the front panel media LEDs. This is a packed bit string; each LED is encoded into 1 bit for each switch port. The maximum number of ports in one chassis is 24 that means 24 Ports Speed LEDs. The expansion port number always begins from the last main port number. The following shows the meaning of each bit for each switch port: bit value meaning --------- ------- 0 10 MBit 1 100 MBit The bitmap of LEDs are as following: (Port1) (Port4) (Port8) Bit (Bit0) (Bit3) (Bit7) Byte 1: LED1 LED2 LED3 LED4 LED5 LED6 LED7 LED8 Byte 2: LED9 LED10 LED11 LED12 LED13 LED14 LED15 LED16 Byte 3: LED17 LED18 LED19 LED20 LED21 LED22 LED23 LED24 ---------

Indicates whether the SNMP agent process is permitted to generate fan failure traps. Enumeration: 'disabled': 0, 'enabled': 1.

An administratively-assigned chassis identity number, used by inventory control.

Temperature of the chassis. Each unit is 0.5 degrees Celcius. Only management module built with temperature sensor hardware is applicable. For those non-applicable management module, it returns no-such-name.

Actual temperature higher than this threshold value will trigger the switch to send a temperature warning trap. Each unit is 0.5 degrees Celcius. Only management module built with temperature sensor hardware is applicable. For those non-applicable management module, it returns no-such-name.

Actual temperature higher than this threshold value will shutdown a partial of the switch hardware to cool down the system. Each unit is 0.5 degrees Celcius. Only management module built with temperature sensor hardware is applicable. For those non-applicable management module, it returns no-such-name.

Indicates whether the SNMP agent process is permitted to generate temperature warning traps. Enumeration: 'disabled': 0, 'enabled': 1.

A table of each power supply information. Only installed power supply appears in a table row.

A row in the power supply table.

The index to power supply table.

The power supply description string.

The power supply operation status. Enumeration: 'failure': 3, 'other': 1, 'normal': 2.

A table of each fan information. Only installed fan appears in a table row.

A row in the fan table.

The index to fan table.

The fan description string.

The fan operation status. Enumeration: 'failure': 3, 'other': 1, 'normal': 2.

Action object to reboot the agent. The following values can only be read: other(1).....agent in unknown or other state running(2)...agent running The following value can be written: reset(3).....do a hard reset The agent will return a response before the action occurs. Enumeration: 'reset': 3, 'running': 2, 'other': 1.

Action object to erase NVRAM of the agent. The following values can only be read: normal(1) error(2)... operation failed or bad flash erasing(4)...agent is erasing NVRAM flash The following value can be written: erase(3).....do erase The agent will return a response even before the erase is done. And the read value will be erasing until erase is done. And the erase request will be rejected until error or normal. Enumeration: 'erasing': 4, 'error': 2, 'erase': 3, 'normal': 1.

Action object to save all configuration info to NVRAM of the agent. The following values can only be read: normal(1) error(2)... operation failed or bad flash writing(4)...agent is writing NVRAM flash The following value can be written: write(3).....do write The agent will return a response even before the write is done. And the read value will be writing until write is done. And the write request will be rejected until error or normal. Enumeration: 'write': 3, 'writing': 4, 'error': 2, 'normal': 1.

Action object to config the switch from NVRAM of the agent. The following values can only be read: normal(1) error(2)... operation failed or bad flash configing(4)...configing from NVRAM flash is in process. The following value can be written: config(3).....do config The agent will return a response after config is done. Enumeration: 'configing': 4, 'error': 2, 'config': 3, 'normal': 1.

The tftp server address, this will be used for both download/upload image file and config file.

Name of the image file including path currently associated with the system. When the object is not used, the value is a zero length string.

Action object to down/up load a new image to the agent. The following values: Error values: from normal(1) to operationError(17) and tftpWrongFileType(23). loading(18) .. operation is in process. The following values are used for set : uploadPrimary(19)..upload the Primary image from flash to tftp server. downloadPrimary(20)..download the Primary image from tftp server to flash. uploadSecondary(21)..upload the Secondary image from flash to tftp server. downloadSecondary(22)..download the Secondary image from tftp server to flash. The image filename is defined in snAgImgFname. The tftp server address is defined in snAgTftpServerIp. Atomic set of snAgImgLoad, snAgImgFname and snAgTftpServerIp is required to allow down/up load to happen. And the write request will be rejected during loading until error or normal. Enumeration: 'tftpRemoteBadId': 14, 'flashPrepareReadFailure': 2, 'operationError': 17, 'uploadPrimary': 19, 'tftpRemoteNoFile': 10, 'tftpBusy': 8, 'tftpRemoteFileExists': 15, 'tftpRemoteBadAccess': 11, 'tftpOutOfBufferSpace': 7, 'uploadSecondary': 21, 'tftpRemoteOtherErrors': 9, 'tftpRemoteDiskFull': 12, 'tftpRemoteBadOperation': 13, 'tftpTimeoutError': 6, 'normal': 1, 'flashReadError': 3, 'loading': 18, 'tftpRemoteNoUser': 16, 'downloadPrimary': 20, 'flashPrepareWriteFailure': 4, 'downloadSecondary': 22, 'tftpWrongFileType': 23, 'flashWriteError': 5.

Name of the config file(s) including path currently associated with the system. Some agents in special situations may support a value which contains multiple file names instead of a single file name. Multiple names are specified as a list of file names separated by semicolons (;). When the object is not used, the value is a zero length string.

Action object to down/up load a config image to the agent. The following values can be read : Error values: from normal(1) to operationError(17) and tftpWrongFileType(29). loading(18) .. operation is in process. The following value can be used to set: uploadFromFlashToServer(20)..upload the config from flash to tftp server. downloadToFlashFromServer(21)..download the config to flash from tftp server. uploadFromDramToServer(22)..upload the config from DRAM to tftp server. downloadToDramFromServer(23)..download the config to DRAM from tftp server. The following value can be used to set: uploadFromFlashToNMS(24)..upload the config from flash to NMS. downloadToFlashFromNMS(25)..download the config to flash from NMS. uploadFromDramToNMS(26)..upload the config from DRAM to NMS. downloadToDramFromNMS(27)..download the config to DRAM from NMS. The config filename is defined in snAgCfgFname. The tftp server address is defined in snAgTftpServerIp. Atomic set of snAgCfgLoad, snAgCfgFname and snAgTftpServerIp is required to allow down/up load to happen. And the write request will be rejected during loading until error or normal. For those NMS commands from (24) to (27), The snAgCfgEosTable MIB must be sent along in one PDU. A seperate write memory cli or set snAgWriteNVRAM is required to save the config to NVRAM. Enumeration: 'downloadToDramFromNMS': 27, 'tftpRemoteBadId': 14, 'downloadToDramFromServer': 23, 'flashPrepareReadFailure': 2, 'operationError': 17, 'tftpWrongFileType': 29, 'tftpRemoteNoFile': 10, 'tftpBusy': 8, 'tftpRemoteFileExists': 15, 'tftpRemoteBadAccess': 11, 'tftpOutOfBufferSpace': 7, 'uploadFromFlashToNMS': 24, 'tftpRemoteOtherErrors': 9, 'tftpRemoteDiskFull': 12, 'tftpRemoteBadOperation': 13, 'uploadFromFlashToServer': 20, 'operationDoneWithNMS': 28, 'tftpTimeoutError': 6, 'normal': 1, 'uploadFromDramToNMS': 26, 'flashReadError': 3, 'loading': 18, 'tftpRemoteNoUser': 16, 'flashPrepareWriteFailure': 4, 'uploadFromDramToServer': 22, 'downloadToFlashFromNMS': 25, 'downloadToFlashFromServer': 21, 'flashWriteError': 5.

The default gateway (router) address.

The version of the running software in the form 'major.minor.maintenance[letters]'.

The version of the software image saved in local storage such as flash memory in the form 'major.minor.maintenance[letters]'. If not known or not available, then the value is a zero length string.

The interface ip address.

The interface ip address mask.

System Security Access Password and this is only allowed to use for setting but not for reading. An SNMP-Get will get an zero string.

The current total entries of the Trap Receiver Table are created.

By default, this mode is set to nextbootCfg(0). The VLAN Table and Port-STP Table data will be retrieved according to this mode. nextbootCfg(0).........the nextboot configuration data are retrieved operationalData(1)..........the current running data are retrieved Enumeration: 'operationalData': 1, 'nextbootCfg': 0.

The system log object to indicate whether any Network Management Station(NMS) has login. The first byte of the octet string is the value decribed below and followed by 4 bytes of secret code. login(1)..... a value for a NMS to login. heartbeat(2)... a value for the login NMS periodically to checkin; Otherwise, the Agent will automatically set this object to logout(3) after a timeout period. logout(3).... a value for a NMS to logout. changePassword(4).... a value for the login NMS to change password, only if snAgGblPasswordChangeMode was configured to 'anyMgmtEntity'. changeReadOnlyCommunity(5).... a value for the login NMS to change the read-only community string, only if snAgGblPasswordChangeMode was configured to 'anyMgmtEntity'. changeReadWriteCommunity(6).... a value for the login NMS to change the read-write community string, only if snAgGblPasswordChangeMode was configured to 'anyMgmtEntity'.

Indicates whether the SNMP agent process is permitted to generate cold start traps. Enumeration: 'disabled': 0, 'enabled': 1.

Indicates whether the SNMP agent process is permitted to generate link up traps. Enumeration: 'disabled': 0, 'enabled': 1.

Indicates whether the SNMP agent process is permitted to generate link down traps. Enumeration: 'disabled': 0, 'enabled': 1.

Specify which management entity is allowed to change the password. 'anyMgmtEntity' management entities are SNMP management station, console command line interface, and telnet command line interface. For security reason, this object can only be modified by console command line interface or telnet command line interface. The default value is 'consoleAndTelnet', of which both console and telnet command line interfaces are allowed to change the password. Enumeration: 'consoleAndTelnet': 2, 'telnetOnly': 4, 'anyMgmtEntity': 1, 'consoleOnly': 3.

SNMP read community string and this is only allowed to use for setting but not for reading. An SNMP-Get will get an zero length string.

SNMP read-write community string and this is only allowed to use for setting but not for reading. An SNMP-Get will get an zero length string.

This represnts the current log-in security level. Each level of security requires a password to permit user for different system configurations.

This shows which the security level password to be set.

This shows the bitmap of level passwords which successfully assigned to the system.

false - The device queues are not overflow. true - The device queues are overflow. Enumeration: 'true': 1, 'false': 0.

false - The device buffers are adequate. true - The device buffers are in shortage. Enumeration: 'true': 1, 'false': 0.

false - The device DMAs are in good condition. true - One of the DMAs in the device fails. Enumeration: 'true': 1, 'false': 0.

false - No, the device does not have resource-low-warning. true - Yes, the device does have resource-low-warning. Enumeration: 'true': 1, 'false': 0.

false - No, the device does not have any excessive collision, FCS errors, alignment warning etc. true - Yes, the device does have. Enumeration: 'true': 1, 'false': 0.

The statistics collection of utilization of the CPU in the device.

enable(1) - The beginning of statistics collection of utilization of the CPU in the device. disable(0) - The end of statistics collection of utilization of the CPU in the device. Enumeration: 'disabled': 0, 'enabled': 1.

Telnet session idling timeout value. Writing value 0 to this object never timeouts any telnet sessions. Each value unit is one minute.

Enable/disable web management. Enumeration: 'disabled': 0, 'enabled': 1.

This represnts the binding of a given password to which security level. A value of 255 indicates an invalid binding.

Enable/disable Server Load Balancing. Enumeration: 'disabled': 0, 'enabled': 1.

A bit string representing the software feature of the running switch/router image. These features were conditional compiled to different product images. For each bit, exist feature has a value of 1, but non-exist feature has a value of 0. octet 0, bit 0 - RMON octet 0, bit 1 - ipx switching octet 0, bit 2 - server load balancing octet 0, bit 3 - layer 3 filter in switch octet 0, bit 4 - ipx routing octet 0, bit 5 - appletalk routing octet 0, bit 6 - ip multicast routing octet 0, bit 7 - local access control octet 1, bit 0 - BGP routing octet 1, bit 1 - loopback interface octet 1, bit 2 - BigIron multi-management module octet 1, bit 3 - BigIron SYSIF II octet 1, bit 4 - BigIron POS support octet 1, bit 5 - appletalk cable vlan octet 1, bit 6 - 64 subnet octet 1, bit 7 - multi-slot trunk octet 2, bit 0 - TACACS octet 2, bit 1 - Gigabit Ethernet port auto-negotiation mode octet 2, bit 2 - FSRP octet 2, bit 3 - Exodus requested OSPF enhancement octet 2, bit 4 - OSPF NSSA octet 2, bit 5 - POS octet 2, bit 6 - QOS octet 2, bit 7 - Single Span octet 3, bit 0 - Fast Span octet 3, bit 1 - Base L3 octet 3, bit 2 - static log buffer Bit 0 is the least significant bit of an octet, and bit 7 is the most significant bit of an octet.

Indicates whether the SNMP agent process is permitted to generate hardware module inserted to chassis traps. Enumeration: 'disabled': 0, 'enabled': 1.

Indicates whether the SNMP agent process is permitted to generate hardware module removed from chassis traps. Enumeration: 'disabled': 0, 'enabled': 1.

A generic trap message string.

Enable or disable telnet server in device. Enumeration: 'disabled': 0, 'enabled': 1.

Telnet Access Password and this is only allowed to use for setting but not for reading. An SNMP-Get will get an zero string.

The date of the built software.

The time of the built software.

The version of the built software in the form 'major.minor.maintenance[letters]'.

A table of each physical board information.

A row in the Agent Board table.

The index to the Agent Interface Table.

The main board description string.

The main board identifier, which can uniquely identify a board type. It is an encoded octet string with the following meaning: octet 0 - octet string format version, which identifies the format of this string. If format version octet has the value 2, the octets after the version octet have the following meaning: octet 1 - product type: BI_WG 0x57 BI_BB 0x42 BI_NI 0x4E octet 2 - module type: MASTER_FIBER_8G 0x0 MASTER_FIBER_4G 0x1 MASTER_FIBER_2G 0x12 MASTER_FIBER_0G 0x14 MASTER_COPPER_16 0x2 MASTER_COPPER_8G 0x6 MASTER_COPPER_12_2 0x9 SLAVE_FIBER_8G 0x8 SLAVE_FIBER_4G 0x3 SLAVE_FIBER_2G 0x17 SLAVE_COPPER_8G 0xE SLAVE_COPPER_2G 0x18 SLAVE_COPPER_16_2 0xF SLAVE_COPPER_20 0xA SLAVE_COPPER_24 0xA SLAVE_100FX_8 0xD SLAVE_100FX_16 0xC SLAVE_100FX_24 0x13 STACK_FIBER_8G 0x10 STACK_COPPER_8G 0x11 POS_622M 0x15 POS_155M 0x16 octet 3 - processor type, PVR_M603=3, PVR_M604=4, PVR_M603E=6, PVR_M603EV=7, PVR_M604E=9 octet 4 to octet 5 - processor speed in MHz octet 6 - MAC type: MAC_SEEQ_10_100=1, MAC_DEC_10_100=2, MAC_SEEQ_1000=5, MAC_GMAC_1000=6, MAC_VLSI_1000=9 octet 7 - PHY type, PHY_NONE=0, PHY_QSI=1, PHY_ICS=3, PHY_NATIONAL=4, PHY_LEVEL1=6, PHY_LEVEL16=7, PHY_LEVEL24=8 octet 8 - port type, COPPER=0, FIBER=1 octet 9 - fiber port type, NONFIBER=0, SX_FIBER=1, LX_FIBER=2, LHX_FIBER=3 octet 10 to octet 13 - DRAM size in KBytes octet 14 to octet 17 - boot flash size in KBytes octet 18 to octet 21 - code flash size in KBytes octet 22 to octet 27 - serial number. octet 28 - chassis backplane type. chassis4000 = 0x00 chassis8000 = 0x04 Turbo8 = 0x07 (stack2) FastIron2 = 0x06 (stack1)

The total number of ports for the main board.

The expansion board description string. Expansion board are those boards attaching on the main board.

The expansion board identifier. Expansion board are those boards attaching on the main board. It is an encoded octet string with the following meaning: octet 0 - octet string format version, which identifies the format of this string. If format version octet has the value 1, the octets after the version octet have the following meaning: octet 1 - expansion board type, HUNDRED_MEG_1PORT=1, HUNDRED_MEG_2PORT=2, HUNDRED_MEG_1PORT_COPPER=3, HUNDRED_MEG_2PORT_COPPER=4, HUNDRED_MEG_2PORT_LX=5, GIGA_1PORT=8, GIGA_2PORT=9 octet 2 - fiber port type, NONFIBER=0, SX_FIBER=1, LX_FIBER=2, LHX_FIBER=3, LX_SX_FIBER=4

The total number of ports for the expansion board.

A bit array that contains the value of the front panel status LEDs. This is a bit-map; each LED is encoded into 1 bit for each switch port. The maximum number of ports in one chassis is 32 that means 32 Ports Status LEDs. The expansion port number always begins from the last main port number. The following shows the meaning of each bit for each switch port: bit value meaning -------- --------- 0 off (Link off) 1 on (Link on) The bitmap of LEDs are as following: (Port1) (Port4) (Port8) Bit (Bit0) (Bit3) (Bit7) Byte 1: LED1 LED2 LED3 LED4 LED5 LED6 LED7 LED8 Byte 2: LED9 LED10 LED11 LED12 LED13 LED14 LED15 LED16 Byte 3: LED17 LED18 LED19 LED20 LED21 LED22 LED23 LED24 --------

A bit array that contains the value of the front panel traffic LEDs. This is a packed bit string; each LED is encoded into 1 bit for each switch port. The maximum number of ports in one chassis is 24 that means 24 Ports Traffic LEDs. The expansion port number always begins from the last main port number. The following shows the meaning of each bit for each switch port: bit value meaning -------- --------- 0 off (no traffic) 1 on (traffic) The bitmap of LEDs are as following: (Port1) (Port4) (Port8) Bit (Bit0) (Bit3) (Bit7) Byte 1: LED1 LED2 LED3 LED4 LED5 LED6 LED7 LED8 Byte 2: LED9 LED10 LED11 LED12 LED13 LED14 LED15 LED16 Byte 3: LED17 LED18 LED19 LED20 LED21 LED22 LED23 LED24 --------

A bit array that contains the value of the front panel media LEDs. This is a packed bit string; each LED is encoded into 1 bit for each switch port. The maximum number of ports in one chassis is 24 that means 24 Ports Media LEDs. The expansion port number always begins from the last main port number. The following shows the meaning of each bit for each switch port: bit value meaning --------- ------- 0 half duplex 1 full duplex The bitmap of LEDs are as following: (Port1) (Port4) (Port8) Bit (Bit0) (Bit3) (Bit7) Byte 1: LED1 LED2 LED3 LED4 LED5 LED6 LED7 LED8 Byte 2: LED9 LED10 LED11 LED12 LED13 LED14 LED15 LED16 Byte 3: LED17 LED18 LED19 LED20 LED21 LED22 LED23 LED24 ---------

A bit array that contains the value of the front panel media LEDs. This is a packed bit string; each LED is encoded into 1 bit for each switch port. The maximum number of ports in one chassis is 24 that means 24 Ports Speed LEDs. The expansion port number always begins from the last main port number. The following shows the meaning of each bit for each switch port: bit value meaning --------- ------- 0 10 MBit 1 100 MBit The bitmap of LEDs are as following: (Port1) (Port4) (Port8) Bit (Bit0) (Bit3) (Bit7) Byte 1: LED1 LED2 LED3 LED4 LED5 LED6 LED7 LED8 Byte 2: LED9 LED10 LED11 LED12 LED13 LED14 LED15 LED16 Byte 3: LED17 LED18 LED19 LED20 LED21 LED22 LED23 LED24 ---------

By default, this mode is set to notActivated(0). moduleEmpty(0) ......... The slot of the chassis is empty. moduleGoingDown(2) ..... The module is going down. moduleRejected(3) ...... The module is being rejected due to wrong configuration. moduleBad(4) ........... The module Hardware is bad. moduleComingUp(9) ...... The module is in power-up cycle. moduleRunning(10) ....... The module is running. Enumeration: 'moduleRunning': 10, 'moduleBad': 4, 'moduleComingUp': 9, 'moduleRejected': 3, 'moduleEmpty': 0, 'moduleGoingDown': 2.

The redundant status of a module. Non-management module always returns other(1). Management module returns the rest of the states. Enumeration: 'active': 2, 'standby': 3, 'comingUp': 5, 'other': 1, 'crashed': 4.

A bit array that contains the value of the front panel media LEDs (for POS Module Only). This is a packed bit string; each LED is encoded into 1 bit for each switch port. The maximum number of ports in one chassis is 24 that means 24 Ports Speed LEDs. The expansion port number always begins from the last main port number. The following shows the meaning of each bit for each switch port: bit value meaning --------- ------- 0 no alarm 1 alarm The bitmap of LEDs are as following: (Port1) (Port4) (Port8) Bit (Bit0) (Bit3) (Bit7) Byte 1: LED1 LED2 LED3 LED4 LED5 LED6 LED7 LED8 Byte 2: LED9 LED10 LED11 LED12 LED13 LED14 LED15 LED16 Byte 3: LED17 LED18 LED19 LED20 LED21 LED22 LED23 LED24 ---------

A bit array that contains the value of the front panel transmit traffic LEDs (for POS Module Only). This is a packed bit string; each LED is encoded into 1 bit for each switch port. The maximum number of ports in one chassis is 24 that means 24 Ports Transmit Traffic LEDs. The expansion port number always begins from the last main port number. The following shows the meaning of each bit for each switch port: bit value meaning -------- --------- 0 off (no transmit traffic) 1 on (transmit traffic) The bitmap of LEDs are as following: (Port1) (Port4) (Port8) Bit (Bit0) (Bit3) (Bit7) Byte 1: LED1 LED2 LED3 LED4 LED5 LED6 LED7 LED8 Byte 2: LED9 LED10 LED11 LED12 LED13 LED14 LED15 LED16 Byte 3: LED17 LED18 LED19 LED20 LED21 LED22 LED23 LED24 --------

A bit array that contains the value of the front panel receive traffic LEDs (for POS Module Only). This is a packed bit string; each LED is encoded into 1 bit for each switch port. The maximum number of ports in one chassis is 24 that means 24 Ports Receive Traffic LEDs. The expansion port number always begins from the last main port number. The following shows the meaning of each bit for each switch port: bit value meaning -------- --------- 0 off (no receive traffic) 1 on (receive traffic) The bitmap of LEDs are as following: (Port1) (Port4) (Port8) Bit (Bit0) (Bit3) (Bit7) Byte 1: LED1 LED2 LED3 LED4 LED5 LED6 LED7 LED8 Byte 2: LED9 LED10 LED11 LED12 LED13 LED14 LED15 LED16 Byte 3: LED17 LED18 LED19 LED20 LED21 LED22 LED23 LED24 --------

A table of managers which to send traps.

A row in the trap receiver table. The column snAgTrpRcvrStatus is used to create and delete rows in the table. Creation requires a SET PDU with objects snAgTrpRcvrIndex, snAgTrpRcvrIpAddr, snAgTrpRcvrComm and snAgTrpRcvrStatus.

The index to the Trap Receiver Table.

The ip address for SNMP manager that is to receive the trap.

Community string to use.

This object is used to create and delete rows in the table and control if they are used. The values that can be written are: ignore(5)...don't use this entry to send traps to at this time delete(3)...deletes the row create(4)...creates a new row If the row exists, then a SET with value of create(5) returns error 'badValue'. Deleted rows go away immediately. The following values can be returned on reads: other(1)....some other case valid(2)....the row exists and is valid ignore(5)...don't use this entry to send traps to at this time Enumeration: 'ignore': 5, 'create': 4, 'other': 1, 'valid': 2, 'delete': 3.

A table of image load sequnce instructions to the boot code. Boot code will start from instruction of the first valid entry to load the image. If failed, it will use the second valid entry and so on, until a succesful load has completed. Each entry must have an unique instruction, duplicate instructions will be rejected.

A row in the boot sequence table.

The index to the boot sequence table.

The instruction for the boot code. Enumeration: 'fromTftpServer': 3, 'fromSecondaryFlash': 2, 'fromPrimaryFlash': 1, 'fromBootpServer': 4.

The ip address of the TFTP server if snAgBootSeqInstruction was set to 'fromTftpServer'; otherwise, this object is not used in any other boot instruction.

The image filename on the TFTP server if snAgBootSeqInstruction was set to 'fromTftpServer'; otherwise, this object is not used in any other boot instruction.

To create or delete a boot sequence table entry. Enumeration: 'create': 4, 'other': 1, 'valid': 2, 'delete': 3.

This table represents the fragmented Configuration File data packet with checksum include in each rows of this table. A SNMP-SET represents configuration file download, and a SNMP-GET represents configuration file upload. This action is only if the SNMP-SET of snAgCfgLoad command is sent along with this table consecutively. The applicable snAgCfgLoad command value is as followings: uploadFromFlashToNMS(23), downloadToFlashFromNMS(24), uploadFromDramToNMS(25), downloadToDramFromNMS(26).

An EOS row in the table of encoded octet strings for table snAgCfgEosTable.

Each VLAN EOS Buffer Identifier have a multiple VLAN table entries.

An encoded octet string. On reads it contains an integral number of configuration file data packets. The size of each encoded octet string is less than or equal to 1400 bytes.

A checksum of each configuration file data packet.

Enable/disable system logging. Enumeration: 'disabled': 0, 'enabled': 1.

The number of dynamic system logging entries.

Clear dynamic and/or static system logging buffers. Enumeration: 'clearStatic': 3, 'clearAll': 1, 'clearDynamic': 2, 'normal': 0.

Filter events going to the logging buffer. This is a packed bit string object of which each bit has the following meaning: (bit 0 is the least significant bit). bit position meaning ------------ ------- 8-31 reserved 7 Warning (warning conditions) 6 Notification (normal but significant conditions) 5 Informational (informational messages) 4 Error (error conditions) 3 Emergency (system is unusable) 2 Debugging (debugging messages) 1 Critical (critical conditions) 0 Alert (immediate action needed) Setting a critical level bit to 1 makes the logging buffer accept the corresponding event. Resetting a critical level bit to 0 makes the logging buffer reject the corresponding event.

The number events logged in the system logging buffer.

The number of events dropped.

The number of times that the system logging buffer was cleared.

The number of times that the system logging buffer was wrapped around.

IP address of syslog server.

Facility code. Enumeration: 'sys9': 10, 'cron': 16, 'syslog': 6, 'local4': 21, 'uucp': 9, 'sys14': 15, 'sys11': 12, 'sys10': 11, 'sys13': 14, 'sys12': 13, 'mail': 3, 'auth': 5, 'user': 2, 'local5': 22, 'news': 8, 'local7': 24, 'local6': 23, 'local1': 18, 'local0': 17, 'local3': 20, 'local2': 19, 'daemon': 4, 'lpr': 7, 'kern': 1.

Dynamic system logging buffer table.

A row in the dynamic system logging buffer table.

The index to the dynamic system logging buffer table.

A time stamp when the event is logged.

The critical level of this event. Enumeration: 'debugging': 4, 'emergency': 5, 'notification': 8, 'warning': 9, 'alert': 2, 'other': 1, 'critical': 3, 'error': 6, 'informational': 7.

The system logging message.

A time stamp when the event is logged. This object returns a NULL terminated time stamp string if the system calendar time was set. It returns a zero length string if the system calendar time was not set.

Static system logging buffer table.

A row in the static system logging buffer table.

The index to the static system logging buffer table.

A time stamp when the event is logged.

The critical level of this event. Enumeration: 'debugging': 4, 'emergency': 5, 'notification': 8, 'warning': 9, 'alert': 2, 'other': 1, 'critical': 3, 'error': 6, 'informational': 7.

The system logging message.

A time stamp when the event is logged. This object returns a NULL terminated time stamp string if the system calendar time was set. It returns a zero length string if the system calendar time was not set.

A table of Agent of each board.

A row in the Agent System Parameters Configuation table.

The index to the Agent System Parameters Configuation Table.

The main board description string.

The minimum value of this Agent System Parameter.

The maximum value of this Agent System Parameter.

The default value of this Agent System Parameter.

The current configurated value of this Agent System Parameter.

A table of each configured module information.

A row in the Agent Configured Module table.

The index to the Agent Configured Module Table.

The Configured Module Type. Enumeration: 'bi2PortGigCopperModule': 24, 'fi24PortCopperModule': 11, 'fi2PortGigCopperManagementModule': 31, 'bi4PortGigManagementModule': 1, 'bi8PortGigCopperManagementModule': 6, 'bi4PortGigModule': 3, 'bi8PortGigModule': 8, 'fi8PortGigCopperManagementModule': 29, 'bi8PortGigManagementModule': 0, 'fi2PortGigModule': 25, 'pos155Mbs2PModule': 30, 'bi16Port100FXModule': 12, 'bi24PortCopperModule': 10, 'bi0PortManagementModule': 20, 'fi4PortGigCopperManagementModule': 32, 'fi8PortGigCopperModule': 28, 'bi16PortCopperManagementModule': 2, 'pos155MbsModule': 22, 'bi2PortGigCopperManagementModule': 34, 'pos622MbsModule': 21, 'bi8Port100FXModule': 13, 'fi4PortGigManagementModule': 5, 'fi4PortGigModule': 26, 'fi2PortGigManagementModule': 4, 'bi8PortGigCopperModule': 14, 'fi8PortGigModule': 27, 'bi24Port100FXModule': 19, 'bi2PortGigModule': 23, 'bi4PortGigCopperManagementModule': 33, 'bi2PortGigManagementModule': 18, 'fi8PortGigManagementModule': 7.

To create or delete a configured module table entry. Enumeration: 'create': 4, 'other': 1, 'valid': 2, 'delete': 3.

Maximum number of user account entries can be configured.

A table of user account information.

A row in the Agent User table.

The user name.

The user password.

The password encryption method code.

The user privilege.

To create or delete a user account table entry. Enumeration: 'create': 4, 'other': 1, 'modify': 5, 'valid': 2, 'delete': 3.

Slot number of the active management module. Setting this object does not take effect immediately. Saving configuration data to flash storage and reboot the system are required to take effect. Setting a value of 0 requests the system to auto-select an active management module after power up.

Frequency of the backup management module copying the configuration data from the active management module. Each unit is 1 second. Setting a value 0 will disable the synchronization copy. Setting a negative value will initiate the synchronization copy once immediately.

If enabled(1), the backup management module copies the boot code from the active management module to its boot code flash storage after power up, and whenever the active management module's boot code is updated. The backup management module does not copy if both boot codes were identical. Enumeration: 'disabled': 0, 'enabled': 1.

Indicates whether the SNMP agent process is permitted to generate management module redundancy state change traps. Enumeration: 'disabled': 0, 'enabled': 1.

Action object to down load a new boot code from boot flash storage of the active management module to the backup management module. The following are returned values from get operation: normal(1)............no operation operationError(17)...error codes The following are input values from set operation: downloadBackup(20)...download the boot code from the active management module to the backup management module Any set operation is rejected during loading until error or normal state is reached. Enumeration: 'operationError': 17, 'downloadBackup': 20, 'normal': 1.

To force a switch-over from standby to active state if the backup management module exists in a chassis. Enumeration: 'reset': 2, 'other': 1.

The Stackable Management Primary Switch mode either enabled or disabled and the default is disabled mode. enabled(1)...........primary switch enabled disabled(0)..........primary switch disabled Enumeration: 'disabled': 0, 'enabled': 1.

The Maximum Secondary Switches are allowed in the Stackable Management Group.

The Total Secondary Switches currently connected to the Stackable Management Group.

Synchronize all the secondary switches in the Stackable Management Group with the following commands. device(2)...........device related parameters. global(3)...........global parameters. local(4)............local parameters. The return result of the above commands are either normal(0)...........normal condition. invalid(1)...........invalid result. Enumeration: 'device': 2, 'global': 3, 'local': 4, 'invalid': 1, 'normal': 0.

The Slot 0 is the Master slot and Slot 1-8 are slaves. All the slot-based MIB data can be retrieved with respect to this slot index such as snChassis global MIB.

normal(0) - The set process is either in an idle state or FMP-SET-SUCCESS state. pending(1) - The pending process is waiting for the result of an FMP-SET. failure(2) - The failure result of an FMP-SET. Enumeration: 'failure': 2, 'pending': 1, 'normal': 0.

If snSwGroupOperMode is configured as basic mode which is VLAN by Port, Layer2 switching, then this table is valid. Each VLAN switch port could have a number of VLAN IDs.

An entry in the Stackable Management Secondary Switch Information table.

The secondary switch index must not be greater than the snStackMaxSecSwitch.

The secondary switch slot ID must be set before the Configuration command sent from the primary switch to the secondary switch either manually or automatically - snStackSecSwitchCfgCmd.

The number of ports in this secondary switch.

The secondary switch has been selected to Stackable Management Group. Enumeration: 'disabled': 0, 'enabled': 1.

The secondary switch has sent reponse to the primary switch. Enumeration: 'disabled': 0, 'enabled': 1.

The secondary switch physical address. The physical address represents a MAC Station.

Synchronize the secondary switches in the Stackable Management Group with the following commands. device(2)...........device related parameters. global(3)...........global parameters. local(4)............local parameters. The return result of the above commands are either normal(0)...........normal condition. invalid(1)...........invalid result. Enumeration: 'device': 2, 'global': 3, 'local': 4, 'invalid': 1, 'normal': 0.

The secondary switch IP Address and is used for manual-command of snStackSecSwitchCfgCmd.

The secondary switch IP Subnet Mask and is used for manual-command of snStackSecSwitchCfgCmd.

snStackSecSwitchSlotId must be set before the Configuration command sent from the primary switch to the secondary switch either manually or automatically. auto(2)...........auto-configuration command sent. manual(3).........manual-configuration command sent. if manual-mode is used, snStackSecSwitchIpAddr and snStackSecSwitchSubnetMask must be first set before this command is sent. The return result of the above commands are either normal(0)...........normal condition. invalid(1)..........invalid result. Enumeration: 'auto': 2, 'manual': 3, 'invalid': 1, 'normal': 0.