The MIB module for managing remote monitoring device implementations. This MIB module augments the original RMON MIB as specifie...
Version: 1996-05-27
module RMON2-MIB { yang-version 1; namespace "urn:ietf:params:xml:ns:yang:smiv2:RMON2-MIB"; prefix RMON2-MIB; import RFC1213-MIB { prefix rfc1213-mib; } import RMON-MIB { prefix rmon-mib; } import SNMPv2-TC { prefix snmpv2-tc; } import TOKEN-RING-RMON-MIB { prefix token-ring; } import ietf-inet-types { prefix inet; } import ietf-yang-smiv2 { prefix smiv2; } import ietf-yang-types { prefix yang; } organization "IETF RMON MIB Working Group"; contact "Steve Waldbusser (WG Editor) Postal: International Network Services 650 Castro Street, Suite 260 Mountain View, CA 94041 Phone: +1 415 254 4251 Email: waldbusser@ins.com Andy Bierman (WG Chair) Phone: +1 805 648 2028 Email: abierman@west.net"; description "The MIB module for managing remote monitoring device implementations. This MIB module augments the original RMON MIB as specified in RFC 1757."; revision "1996-05-27" { description "[Revision added by libsmi due to a LAST-UPDATED clause.]"; } smiv2:alias "etherStats2Table" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.1.4"; } smiv2:alias "etherStats2Entry" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.1.4.1"; } smiv2:alias "tokenRingMLStats2Table" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.1.5"; } smiv2:alias "tokenRingMLStats2Entry" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.1.5.1"; } smiv2:alias "tokenRingPStats2Table" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.1.6"; } smiv2:alias "tokenRingPStats2Entry" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.1.6.1"; } smiv2:alias "historyControl2Table" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.2.5"; } smiv2:alias "historyControl2Entry" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.2.5.1"; } smiv2:alias "hostControl2Table" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.4.4"; } smiv2:alias "hostControl2Entry" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.4.4.1"; } smiv2:alias "matrixControl2Table" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.6.4"; } smiv2:alias "matrixControl2Entry" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.6.4.1"; } smiv2:alias "channel2Table" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.7.3"; } smiv2:alias "channel2Entry" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.7.3.1"; } smiv2:alias "filter2Table" { description "Provides a variable-length packet filter feature to the RMON-1 filter table."; smiv2:oid "1.3.6.1.2.1.16.7.4"; } smiv2:alias "filter2Entry" { description "Provides a variable-length packet filter feature to the RMON-1 filter table."; smiv2:oid "1.3.6.1.2.1.16.7.4.1"; } smiv2:alias "ringStationControl2Table" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.10.7"; } smiv2:alias "ringStationControl2Entry" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.10.7.1"; } smiv2:alias "sourceRoutingStats2Table" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.10.8"; } smiv2:alias "sourceRoutingStats2Entry" { description "Contains the RMON-2 augmentations to RMON-1."; smiv2:oid "1.3.6.1.2.1.16.10.8.1"; } smiv2:alias "rmon" { smiv2:oid "1.3.6.1.2.1.16"; } smiv2:alias "protocolDir" { smiv2:oid "1.3.6.1.2.1.16.11"; } smiv2:alias "protocolDist" { smiv2:oid "1.3.6.1.2.1.16.12"; } smiv2:alias "addressMap" { smiv2:oid "1.3.6.1.2.1.16.13"; } smiv2:alias "nlHost" { smiv2:oid "1.3.6.1.2.1.16.14"; } smiv2:alias "nlMatrix" { smiv2:oid "1.3.6.1.2.1.16.15"; } smiv2:alias "alHost" { smiv2:oid "1.3.6.1.2.1.16.16"; } smiv2:alias "alMatrix" { smiv2:oid "1.3.6.1.2.1.16.17"; } smiv2:alias "usrHistory" { smiv2:oid "1.3.6.1.2.1.16.18"; } smiv2:alias "probeConfig" { smiv2:oid "1.3.6.1.2.1.16.19"; } smiv2:alias "rmonConformance" { smiv2:oid "1.3.6.1.2.1.16.20"; } smiv2:alias "rmon2MIBCompliances" { smiv2:oid "1.3.6.1.2.1.16.20.1"; } smiv2:alias "rmon2MIBGroups" { smiv2:oid "1.3.6.1.2.1.16.20.2"; } typedef ZeroBasedCounter32 { type yang:gauge32; description "This TC describes an object which counts events with the following semantics: objects of this type will be set to zero(0) on creation and will thereafter count appropriate events, wrapping back to zero(0) when the value 2^32 is reached. Provided that an application discovers the new object within the minimum time to wrap it can use the initial value as a delta since it last polled the table of which this object is part. It is important for a management station to be aware of this minimum time and the actual time between polls, and to discard data if the actual time is too long or there is no defined minimum time. Typically this TC is used in tables where the INDEX space is constantly changing and/or the TimeFilter mechanism is in use."; } typedef LastCreateTime { type yang:timestamp; description "This TC describes an object that stores the last time its entry was created. This can be used for polling applications to determine that an entry has been deleted and re-created between polls, causing an otherwise undetectable discontinuity in the data."; } typedef TimeFilter { type yang:timeticks; description "To be used for the index to a table. Allows an application to download only those rows changed since a particular time. A row is considered changed if the value of any object in the row changes or if the row is created or deleted. When sysUpTime is equal to zero, this table shall be empty. One entry exists for each past value of sysUpTime, except that the whole table is purged should sysUpTime wrap. As this basic row is updated new conceptual rows are created (which still share the now updated object values with all other instances). The number of instances which are created is determined by the value of sysUpTime at which the basic row was last updated. One instance will exist for each value of sysUpTime at the last update time for the row. A new timeMark instance is created for each new sysUpTime value. Each new conceptual row will be associated with the timeMark instance which was created at the value of sysUpTime with which the conceptual row is to be associated. By definition all conceptual rows were updated at or after time zero and so at least one conceptual row (associated with timeMark.0) must exist for each underlying (basic) row. See the appendix for further discussion of this variable. Consider the following fooTable: fooTable ... INDEX { fooTimeMark, fooIndex } FooEntry { fooTimeMark TimeFilter fooIndex INTEGER, fooCounts Counter } Should there be two basic rows in this table (fooIndex == 1, fooIndex == 2) and row 1 was updated most recently at time 6, while row 2 was updated most recently at time 8, and both rows had been updated on several earlier occasions such that the current values were 5 and 9 respectively then the following fooCounts instances would exist. fooCounts.0.1 5 fooCounts.0.2 9 fooCounts.1.1 5 fooCounts.1.2 9 fooCounts.2.1 5 fooCounts.2.2 9 fooCounts.3.1 5 fooCounts.3.2 9 fooCounts.4.1 5 fooCounts.4.2 9 fooCounts.5.1 5 fooCounts.5.2 9 fooCounts.6.1 5 fooCounts.6.2 9 fooCounts.7.2 9 -- note that row 1 doesn't exist for fooCounts.8.2 9 -- times 7 and 8"; } typedef DataSource { type yang:object-identifier-128; description "Identifies the source of the data that the associated function is configured to analyze. This source can be any interface on this device. In order to identify a particular interface, this object shall identify the instance of the ifIndex object, defined in [3,5], for the desired interface. For example, if an entry were to receive data from interface #1, this object would be set to ifIndex.1."; } typedef ControlString { type snmpv2-tc:DisplayString; description "This data type is used to communicate with a modem or a serial data switch. A ControlString contains embedded commands to control how the device will interact with the remote device through the serial interface. Commands are represented as two character sequences beginning with the `^' character. The following commands are recognized by the device (note that command characters are case sensitive): ^s Send string that follows which is terminated by the next command or the end of string. ^c Delay for the number of seconds that follows. Toss out any data received rather than storing it in a buffer for parsing. ^t Set timeout to the value represented by the decimal digits that follow. The default timeout is 20 seconds. Note that this timeout may be overridden by a smaller serialTimeout configured for the associated serial interface (see serialConfigTable). ^w Wait for the reply string that follows which is terminated by the next command or the end of string. Partial and case insensitive matching is applied, ie. if the reply string (any case combination) is found anywhere in the received string, then the a match is found. If the current timeout elapses without a match, then the remaining control string is ignored. ^! The ^ character. ^d Delay the number of seconds specified by the decimal digits that follow. ^b Send break for the number of milliseconds specified by the decimal digits that follow. If no digits follow, break will be enforced for 250 milliseconds by default. The following ASCII control characters may be inserted into the `^s' send string or the `^w' reply string: ^@ 0x00 ^A 0x01 .. ^M 0x0D .. ^Z 0x1A ^[ 0x1B ^ 0x1C ^] 0x1D ^^ 0x1E ^_ 0x1F Binary data may also be inserted into the data stream. The control sequence for each byte of binary data is ^0x##, where ## is the hexadecimal representation of the data byte. Two ASCII characters (0-9, a-f, A-F) must follow the `^0x' control prefix. For example, `^0x0D^0x0A' is interpreted as a carriage return followed by a line feed."; } container RMON2-MIB { config false; container protocolDir { smiv2:oid "1.3.6.1.2.1.16.11"; leaf protocolDirLastChange { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.11.1"; type yang:timestamp; description "The value of sysUpTime at the time the protocol directory was last modified, either through insertions or deletions, or through modifications of either the protocolDirAddressMapConfig, protocolDirHostConfig, or protocolDirMatrixConfig."; } } // container protocolDir container addressMap { smiv2:oid "1.3.6.1.2.1.16.13"; leaf addressMapInserts { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.13.1"; type yang:counter32; description "The number of times an address mapping entry has been inserted into the addressMapTable. If an entry is inserted, then deleted, and then inserted, this counter will be incremented by 2. Note that the table size can be determined by subtracting addressMapDeletes from addressMapInserts."; } leaf addressMapDeletes { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.13.2"; type yang:counter32; description "The number of times an address mapping entry has been deleted from the addressMapTable (for any reason). If an entry is deleted, then inserted, and then deleted, this counter will be incremented by 2. Note that the table size can be determined by subtracting addressMapDeletes from addressMapInserts."; } leaf addressMapMaxDesiredEntries { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.13.3"; type int32 { range "-1..2147483647"; } description "The maximum number of entries that are desired in the addressMapTable. The probe will not create more than this number of entries in the table, but may choose to create fewer entries in this table for any reason including the lack of resources. If this object is set to a value less than the current number of entries, enough entries are chosen in an implementation-dependent manner and deleted so that the number of entries in the table equals the value of this object. If this value is set to -1, the probe may create any number of entries in this table. This object may be used to control how resources are allocated on the probe for the various RMON functions."; } } // container addressMap container probeConfig { smiv2:oid "1.3.6.1.2.1.16.19"; leaf probeCapabilities { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.19.1"; type binary { length "1"; } description "An indication of the RMON MIB groups supported on at least one interface by this probe."; } leaf probeSoftwareRev { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.19.2"; type snmpv2-tc:DisplayString { length "0..31"; } description "The software revision of this device. This string will have a zero length if the revision is unknown."; } leaf probeHardwareRev { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.19.3"; type snmpv2-tc:DisplayString { length "0..31"; } description "The hardware revision of this device. This string will have a zero length if the revision is unknown."; } leaf probeDateTime { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.4"; type binary { length "0|8|11"; } description "Probe's current date and time. field octets contents range ----- ------ -------- ----- 1 1-2 year 0..65536 2 3 month 1..12 3 4 day 1..31 4 5 hour 0..23 5 6 minutes 0..59 6 7 seconds 0..60 (use 60 for leap-second) 7 8 deci-seconds 0..9 8 9 direction from UTC '+' / '-' 9 10 hours from UTC 0..11 10 11 minutes from UTC 0..59 For example, Tuesday May 26, 1992 at 1:30:15 PM EDT would be displayed as: 1992-5-26,13:30:15.0,-4:0 Note that if only local time is known, then timezone information (fields 8-10) is not present, and if no time information is known, the null string is returned."; } leaf probeResetControl { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.5"; type enumeration { enum "running" { value 1; } enum "warmBoot" { value 2; } enum "coldBoot" { value 3; } } description "Setting this object to warmBoot(2) causes the device to restart the application software with current configuration parameters saved in non-volatile memory. Setting this object to coldBoot(3) causes the device to reinitialize configuration parameters in non-volatile memory to default values and restart the application software. When the device is running normally, this variable has a value of running(1)."; } leaf probeDownloadFile { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.6"; type snmpv2-tc:DisplayString { length "0..127"; } description "The file name to be downloaded from the TFTP server when a download is next requested via this MIB. This value is set to the zero length string when no file name has been specified."; } leaf probeDownloadTFTPServer { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.7"; type inet:ipv4-address; description "The IP address of the TFTP server that contains the boot image to load when a download is next requested via this MIB. This value is set to `0.0.0.0' when no IP address has been specified."; } leaf probeDownloadAction { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.8"; type enumeration { enum "notDownloading" { value 1; } enum "downloadToPROM" { value 2; } enum "downloadToRAM" { value 3; } } description "When this object is set to downloadToRAM(2) or downloadToPROM(3), the device will discontinue its normal operation and begin download of the image specified by probeDownloadFile from the server specified by probeDownloadTFTPServer using the TFTP protocol. If downloadToRAM(2) is specified, the new image is copied to RAM only (the old image remains unaltered in the flash EPROM). If downloadToPROM(3) is specified the new image is written to the flash EPROM memory after its checksum has been verified to be correct. When the download process is completed, the device will warm boot to restart the newly loaded application. When the device is not downloading, this object will have a value of notDownloading(1)."; } leaf probeDownloadStatus { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.19.9"; type enumeration { enum "downloadSuccess" { value 1; } enum "downloadStatusUnknown" { value 2; } enum "downloadGeneralError" { value 3; } enum "downloadNoResponseFromServer" { value 4; } enum "downloadChecksumError" { value 5; } enum "downloadIncompatibleImage" { value 6; } enum "downloadTftpFileNotFound" { value 7; } enum "downloadTftpAccessViolation" { value 8; } } description "The status of the last download procedure, if any. This object will have a value of downloadStatusUnknown(2) if no download process has been performed."; } leaf netDefaultGateway { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.12"; type inet:ipv4-address; description "The IP Address of the default gateway. If this value is undefined or unknown, it shall have the value 0.0.0.0."; } } // container probeConfig container protocolDirTable { smiv2:oid "1.3.6.1.2.1.16.11.2"; description "This table lists the protocols that this agent has the capability to decode and count. There is one entry in this table for each such protocol. These protocols represent different network layer, transport layer, and higher-layer protocols. The agent should boot up with this table preconfigured with those protocols that it knows about and wishes to monitor. Implementations are strongly encouraged to support protocols higher than the network layer (at least for the protocol distribution group), even for implementations that don't support the application layer groups."; list protocolDirEntry { smiv2:oid "1.3.6.1.2.1.16.11.2.1"; key "protocolDirID protocolDirParameters"; description "A conceptual row in the protocolDirTable. An example of the indexing of this entry is protocolDirLocalIndex.8.0.0.0.1.0.0.8.0.2.0.0, which is the encoding of a length of 8, followed by 8 subids encoding the protocolDirID of 1.2048, followed by a length of 2 and the 2 subids encoding zero-valued parameters."; leaf protocolDirID { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.11.2.1.1"; type binary; description "A unique identifier for a particular protocol. Standard identifiers will be defined in a manner such that they can often be used as specifications for new protocols - i.e. a tree-structured assignment mechanism that matches the protocol encapsulation `tree' and which has algorithmic assignment mechanisms for certain subtrees. See RFC XXX for more details. Despite the algorithmic mechanism, the probe will only place entries in here for those protocols it chooses to collect. In other words, it need not populate this table with all of the possible ethernet protocol types, nor need it create them on the fly when it sees them. Whether or not it does these things is a matter of product definition (cost/benefit, usability), and is up to the designer of the product. If an entry is written to this table with a protocolDirID that the agent doesn't understand, either directly or algorithmically, the SET request will be rejected with an inconsistentName or badValue (for SNMPv1) error."; } leaf protocolDirParameters { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.11.2.1.2"; type binary; description "A set of parameters for the associated protocolDirID. See the associated RMON2 Protocol Identifiers document for a description of the possible parameters. There will be one octet in this string for each sub-identifier in the protocolDirID, and the parameters will appear here in the same order as the associated sub-identifiers appear in the protocolDirID. Every node in the protocolDirID tree has a different, optional set of parameters defined (that is, the definition of parameters for a node is optional). The proper parameter value for each node is included in this string. Note that the inclusion of a parameter value in this string for each node is not optional - what is optional is that a node may have no parameters defined, in which case the parameter field for that node will be zero."; } leaf protocolDirLocalIndex { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.11.2.1.3"; type int32 { range "1..2147483647"; } description "The locally arbitrary, but unique identifier associated with this protocolDir entry. The value for each supported protocol must remain constant at least from one re-initialization of the entity's network management system to the next re-initialization, except that if a protocol is deleted and re-created, it must be re-created with a new value that has not been used since the last re-initialization. The specific value is meaningful only within a given SNMP entity. A protocolDirLocalIndex must not be re-used until the next agent-restart in the event the protocol directory entry is deleted."; } leaf protocolDirDescr { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.11.2.1.4"; type snmpv2-tc:DisplayString { length "1..64"; } description "A textual description of the protocol encapsulation. A probe may choose to describe only a subset of the entire encapsulation (e.g. only the highest layer). This object is intended for human consumption only. This object may not be modified if the associated protocolDirStatus object is equal to active(1)."; } leaf protocolDirType { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.11.2.1.5"; type binary { length "1"; } description "This object describes 2 attributes of this protocol directory entry. The presence or absence of the `extensible' bit describes whether or not this protocol directory entry can be extended by the user by creating protocol directory entries which are children of this protocol. An example of an entry that will often allow extensibility is `ip.udp'. The probe may automatically populate some children of this node such as `ip.udp.snmp' and `ip.udp.dns'. A probe administrator or user may also populate additional children via remote SNMP requests that create entries in this table. When a child node is added for a protocol for which the probe has no built in support, extending a parent node (for which the probe does have built in support), that child node is not extendible. This is termed `limited extensibility'. When a child node is added through this extensibility mechanism, the values of protocolDirLocalIndex and protocolDirType shall be assigned by the agent. The other objects in the entry will be assigned by the manager who is creating the new entry. This object also describes whether or not this agent can recognize addresses for this protocol, should it be a network level protocol. That is, while a probe may be able to recognize packets of a particular network layer protocol and count them, it takes additional logic to be able to recognize the addresses in this protocol and to populate network layer or application layer tables with the addresses in this protocol. If this bit is set, the agent will recognize network layer addresses for this protoocl and populate the network and application layer host and matrix tables with these protocols. Note that when an entry is created, the agent will supply values for the bits that match the capabilities of the agent with respect to this protocol. Note that since row creations usually exercise the limited extensibility feature, these bits will usually be set to zero."; } leaf protocolDirAddressMapConfig { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.11.2.1.6"; type enumeration { enum "notSupported" { value 1; } enum "supportedOff" { value 2; } enum "supportedOn" { value 3; } } description "This object describes and configures the probe's support for address mapping for this protocol. When the probe creates entries in this table for all protocols that it understands, it will set the entry to notSupported(1) if it doesn't have the capability to perform address mapping for the protocol or if this protocol is not a network-layer protocol. When an entry is created in this table by a management operation as part of the limited extensibility feature, the probe must set this value to notSupported(1), because limited extensibility of the protocolDirTable does not extend to interpreting addresses of the extended protocols. If the value of this object is notSupported(1), the probe will not perform address mapping for this protocol and shall not allow this object to be changed to any other value. If the value of this object is supportedOn(3), the probe supports address mapping for this protocol and is configured to perform address mapping for this protocol for all addressMappingControlEntries and all interfaces. If the value of this object is supportedOff(2), the probe supports address mapping for this protocol but is configured to not perform address mapping for this protocol for any addressMappingControlEntries and all interfaces. Whenever this value changes from supportedOn(3) to supportedOff(2), the probe shall delete all related entries in the addressMappingTable."; } leaf protocolDirHostConfig { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.11.2.1.7"; type enumeration { enum "notSupported" { value 1; } enum "supportedOff" { value 2; } enum "supportedOn" { value 3; } } description "This object describes and configures the probe's support for the network layer and application layer host tables for this protocol. When the probe creates entries in this table for all protocols that it understands, it will set the entry to notSupported(1) if it doesn't have the capability to track the nlHostTable for this protocol or if the alHostTable is implemented but doesn't have the capability to track this protocol. Note that if the alHostTable is implemented, the probe may only support a protocol if it is supported in both the nlHostTable and the alHostTable. If the associated protocolDirType object has the addressRecognitionCapable bit set, then this is a network layer protocol for which the probe recognizes addresses, and thus the probe will populate the nlHostTable and alHostTable with addresses it discovers for this protocol. If the value of this object is notSupported(1), the probe will not track the nlHostTable or alHostTable for this protocol and shall not allow this object to be changed to any other value. If the value of this object is supportedOn(3), the probe supports tracking of the nlHostTable and alHostTable for this protocol and is configured to track both tables for this protocol for all control entries and all interfaces. If the value of this object is supportedOff(2), the probe supports tracking of the nlHostTable and alHostTable for this protocol but is configured to not track these tables for any control entries or interfaces. Whenever this value changes from supportedOn(3) to supportedOff(2), the probe shall delete all related entries in the nlHostTable and alHostTable. Note that since each alHostEntry references 2 protocol directory entries, one for the network address and one for the type of the highest protocol recognized, that an entry will only be created in that table if this value is supportedOn(3) for both protocols."; } leaf protocolDirMatrixConfig { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.11.2.1.8"; type enumeration { enum "notSupported" { value 1; } enum "supportedOff" { value 2; } enum "supportedOn" { value 3; } } description "This object describes and configures the probe's support for the network layer and application layer matrix tables for this protocol. When the probe creates entries in this table for all protocols that it understands, it will set the entry to notSupported(1) if it doesn't have the capability to track the nlMatrixTables for this protocol or if the alMatrixTables are implemented but don't have the capability to track this protocol. Note that if the alMatrix tables are implemented, the probe may only support a protocol if it is supported in the the both of the nlMatrixTables and both of the alMatrixTables. If the associated protocolDirType object has the addressRecognitionCapable bit set, then this is a network layer protocol for which the probe recognizes addresses, and thus the probe will populate both of the nlMatrixTables and both of the alMatrixTables with addresses it discovers for this protocol. If the value of this object is notSupported(1), the probe will not track either of the nlMatrixTables or the alMatrixTables for this protocol and shall not allow this object to be changed to any other value. If the value of this object is supportedOn(3), the probe supports tracking of both of the nlMatrixTables and (if implemented) both of the alMatrixTables for this protocol and is configured to track these tables for this protocol for all control entries and all interfaces. If the value of this object is supportedOff(2), the probe supports tracking of both of the nlMatrixTables and (if implemented) both of the alMatrixTables for this protocol but is configured to not track these tables for this protocol for any control entries or interfaces. Whenever this value changes from supportedOn(3) to supportedOff(2), the probe shall delete all related entries in the nlMatrixTables and the alMatrixTables. Note that since each alMatrixEntry references 2 protocol directory entries, one for the network address and one for the type of the highest protocol recognized, that an entry will only be created in that table if this value is supportedOn(3) for both protocols."; } leaf protocolDirOwner { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.11.2.1.9"; type rmon-mib:OwnerString; description "The entity that configured this entry and is therefore using the resources assigned to it."; } leaf protocolDirStatus { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.11.2.1.10"; type snmpv2-tc:RowStatus; description "The status of this protocol directory entry. An entry may not exist in the active state unless all objects in the entry have an appropriate value. If this object is not equal to active(1), all associated entries in the nlHostTable, nlMatrixSDTable, nlMatrixDSTable, alHostTable, alMatrixSDTable, and alMatrixDSTable shall be deleted."; } } // list protocolDirEntry } // container protocolDirTable container protocolDistControlTable { smiv2:oid "1.3.6.1.2.1.16.12.1"; description "Controls the setup of protocol type distribution statistics tables. Implementations are encouraged to add an entry per monitored interface upon initialization so that a default collection of protocol statistics is available. Rationale: This table controls collection of very basic statistics for any or all of the protocols detected on a given interface. An NMS can use this table to quickly determine bandwidth allocation utilized by different protocols. A media-specific statistics collection could also be configured (e.g. etherStats, trPStats) to easily obtain total frame, octet, and droppedEvents for the same interface."; list protocolDistControlEntry { smiv2:oid "1.3.6.1.2.1.16.12.1.1"; key "protocolDistControlIndex"; description "A conceptual row in the protocolDistControlTable. An example of the indexing of this entry is protocolDistControlDroppedFrames.7"; leaf protocolDistControlIndex { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.12.1.1.1"; type int32 { range "1..65535"; } description "A unique index for this protocolDistControlEntry."; } leaf protocolDistControlDataSource { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.12.1.1.2"; type DataSource; description "The source of data for the this protocol distribution. The statistics in this group reflect all packets on the local network segment attached to the identified interface. This object may not be modified if the associated protocolDistControlStatus object is equal to active(1)."; } leaf protocolDistControlDroppedFrames { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.12.1.1.3"; type yang:counter32; description "The total number of frames which were received by the probe and therefore not accounted for in the *StatsDropEvents, but for which the probe chose not to count for this entry for whatever reason. Most often, this event occurs when the probe is out of some resources and decides to shed load from this collection. This count does not include packets that were not counted because they had MAC-layer errors. Note that, unlike the dropEvents counter, this number is the exact number of frames dropped."; } leaf protocolDistControlCreateTime { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.12.1.1.4"; type LastCreateTime; description "The value of sysUpTime when this control entry was last activated. This can be used by the management station to ensure that the table has not been deleted and recreated between polls."; } leaf protocolDistControlOwner { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.12.1.1.5"; type rmon-mib:OwnerString; description "The entity that configured this entry and is therefore using the resources assigned to it."; } leaf protocolDistControlStatus { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.12.1.1.6"; type snmpv2-tc:RowStatus; description "The status of this row. An entry may not exist in the active state unless all objects in the entry have an appropriate value. If this object is not equal to active(1), all associated entries in the protocolDistStatsTable shall be deleted."; } } // list protocolDistControlEntry } // container protocolDistControlTable container protocolDistStatsTable { smiv2:oid "1.3.6.1.2.1.16.12.2"; description "An entry is made in this table for every protocol in the protocolDirTable which has been seen in at least one packet. Counters are updated in this table for every protocol type that is encountered when parsing a packet, but no counters are updated for packets with MAC-layer errors. Note that if a protocolDirEntry is deleted, all associated entries in this table are removed."; list protocolDistStatsEntry { smiv2:oid "1.3.6.1.2.1.16.12.2.1"; key "protocolDistControlIndex protocolDirLocalIndex"; description "A conceptual row in the protocolDistStatsTable. The index is composed of the protocolDistControlIndex of the associated protocolDistControlEntry followed by the protocolDirLocalIndex of the associated protocol that this entry represents. In other words, the index identifies the protocol distribution an entry is a part of as well as the particular protocol that it represents. An example of the indexing of this entry is protocolDistStatsPkts.1.18"; leaf protocolDistControlIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:protocolDistControlTable/RMON2-MIB:protocolDistControlEntry/RMON2-MIB:protocolDistControlIndex"; } } leaf protocolDirLocalIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:protocolDirTable/RMON2-MIB:protocolDirEntry/RMON2-MIB:protocolDirLocalIndex"; } } leaf protocolDistStatsPkts { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.12.2.1.1"; type yang:zero-based-counter32; description "The number of packets without errors received of this protocol type. Note that this is the number of link-layer packets, so if a single network-layer packet is fragmented into several link-layer frames, this counter is incremented several times."; } leaf protocolDistStatsOctets { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.12.2.1.2"; type yang:zero-based-counter32; description "The number of octets in packets received of this protocol type since it was added to the protocolDistStatsTable (excluding framing bits but including FCS octets), except for those octets in packets that contained errors. Note this doesn't count just those octets in the particular protocol frames, but includes the entire packet that contained the protocol."; } } // list protocolDistStatsEntry } // container protocolDistStatsTable container addressMapControlTable { smiv2:oid "1.3.6.1.2.1.16.13.4"; description "A table to control the collection of network layer address to physical address to interface mappings. Note that this is not like the typical RMON controlTable and dataTable in which each entry creates its own data table. Each entry in this table enables the discovery of addresses on a new interface and the placement of address mappings into the central addressMapTable. Implementations are encouraged to add an entry per monitored interface upon initialization so that a default collection of address mappings is available."; list addressMapControlEntry { smiv2:oid "1.3.6.1.2.1.16.13.4.1"; key "addressMapControlIndex"; description "A conceptual row in the addressMapControlTable. An example of the indexing of this entry is addressMapControlDroppedFrames.1"; leaf addressMapControlIndex { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.13.4.1.1"; type int32 { range "1..65535"; } description "A unique index for this entry in the addressMapControlTable."; } leaf addressMapControlDataSource { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.13.4.1.2"; type DataSource; description "The source of data for this addressMapControlEntry."; } leaf addressMapControlDroppedFrames { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.13.4.1.3"; type yang:counter32; description "The total number of frames which were received by the probe and therefore not accounted for in the *StatsDropEvents, but for which the probe chose not to count for this entry for whatever reason. Most often, this event occurs when the probe is out of some resources and decides to shed load from this collection. This count does not include packets that were not counted because they had MAC-layer errors. Note that, unlike the dropEvents counter, this number is the exact number of frames dropped."; } leaf addressMapControlOwner { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.13.4.1.4"; type rmon-mib:OwnerString; description "The entity that configured this entry and is therefore using the resources assigned to it."; } leaf addressMapControlStatus { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.13.4.1.5"; type snmpv2-tc:RowStatus; description "The status of this addressMap control entry. An entry may not exist in the active state unless all objects in the entry have an appropriate value. If this object is not equal to active(1), all associated entries in the addressMapTable shall be deleted."; } } // list addressMapControlEntry } // container addressMapControlTable container addressMapTable { smiv2:oid "1.3.6.1.2.1.16.13.5"; description "A table of network layer address to physical address to interface mappings. The probe will add entries to this table based on the source MAC and network addresses seen in packets without MAC-level errors. The probe will populate this table for all protocols in the protocol directory table whose value of protocolDirAddressMapConfig is equal to supportedOn(3), and will delete any entries whose protocolDirEntry is deleted or has a protocolDirAddressMapConfig value of supportedOff(2)."; list addressMapEntry { smiv2:oid "1.3.6.1.2.1.16.13.5.1"; key "addressMapTimeMark protocolDirLocalIndex addressMapNetworkAddress addressMapSource"; description "A conceptual row in the addressMapTable. The protocolDirLocalIndex in the index identifies the network layer protocol of the addressMapNetworkAddress. An example of the indexing of this entry is addressMapSource.783495.18.4.128.2.6.6.11.1.3.6.1.2.1.2.2.1.1.1"; leaf protocolDirLocalIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:protocolDirTable/RMON2-MIB:protocolDirEntry/RMON2-MIB:protocolDirLocalIndex"; } } leaf addressMapTimeMark { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.13.5.1.1"; type TimeFilter; description "A TimeFilter for this entry. See the TimeFilter textual convention to see how this works."; } leaf addressMapNetworkAddress { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.13.5.1.2"; type binary; description "The network address for this relation. This is represented as an octet string with specific semantics and length as identified by the protocolDirLocalIndex component of the index. For example, if the protocolDirLocalIndex indicates an encapsulation of ip, this object is encoded as a length octet of 4, followed by the 4 octets of the ip address, in network byte order."; } leaf addressMapSource { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.13.5.1.3"; type yang:object-identifier-128; description "The interface or port on which the associated network address was most recently seen. If this address mapping was discovered on an interface, this object shall identify the instance of the ifIndex object, defined in [3,5], for the desired interface. For example, if an entry were to receive data from interface #1, this object would be set to ifIndex.1. If this address mapping was discovered on a port, this object shall identify the instance of the rptrGroupPortIndex object, defined in [RFC1516], for the desired port. For example, if an entry were to receive data from group #1, port #1, this object would be set to rptrGroupPortIndex.1.1. Note that while the dataSource associated with this entry may only point to index objects, this object may at times point to repeater port objects. This situation occurs when the dataSource points to an interface which is a locally attached repeater and the agent has additional information about the source port of traffic seen on that repeater."; } leaf addressMapPhysicalAddress { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.13.5.1.4"; type binary; description "The last source physical address on which the associated network address was seen. If the protocol of the associated network address was encapsulated inside of a network-level or higher protocol, this will be the address of the next-lower protocol with the addressRecognitionCapable bit enabled and will be formatted as specified for that protocol."; } leaf addressMapLastChange { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.13.5.1.5"; type yang:timestamp; description "The value of sysUpTime at the time this entry was last created or the values of the physical address changed. This can be used to help detect duplicate address problems, in which case this object will be updated frequently."; } } // list addressMapEntry } // container addressMapTable container hlHostControlTable { smiv2:oid "1.3.6.1.2.1.16.14.1"; description "A list of higher layer (i.e. non-MAC) host table control entries. These entries will enable the collection of the network and application level host tables indexed by network addresses. Both the network and application level host tables are controlled by this table is so that they will both be created and deleted at the same time, further increasing the ease with which they can be implemented as a single datastore (note that if an implementation stores application layer host records in memory, it can derive network layer host records from them). Entries in the nlHostTable will be created on behalf of each entry in this table. Additionally, if this probe implements the alHostTable, entries in the alHostTable will be created on behalf of each entry in this table. Implementations are encouraged to add an entry per monitored interface upon initialization so that a default collection of host statistics is available."; list hlHostControlEntry { smiv2:oid "1.3.6.1.2.1.16.14.1.1"; key "hlHostControlIndex"; description "A conceptual row in the hlHostControlTable. An example of the indexing of this entry is hlHostControlNlDroppedFrames.1"; leaf hlHostControlIndex { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.14.1.1.1"; type int32 { range "1..65535"; } description "An index that uniquely identifies an entry in the hlHostControlTable. Each such entry defines a function that discovers hosts on a particular interface and places statistics about them in the nlHostTable, and optionally in the alHostTable, on behalf of this hlHostControlEntry."; } leaf hlHostControlDataSource { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.14.1.1.2"; type DataSource; description "The source of data for the associated host tables. The statistics in this group reflect all packets on the local network segment attached to the identified interface. This object may not be modified if the associated hlHostControlStatus object is equal to active(1)."; } leaf hlHostControlNlDroppedFrames { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.14.1.1.3"; type yang:counter32; description "The total number of frames which were received by the probe and therefore not accounted for in the *StatsDropEvents, but for which the probe chose not to count for the associated nlHost entries for whatever reason. Most often, this event occurs when the probe is out of some resources and decides to shed load from this collection. This count does not include packets that were not counted because they had MAC-layer errors. Note that if the nlHostTable is inactive because no protocols are enabled in the protocol directory, this value should be 0. Note that, unlike the dropEvents counter, this number is the exact number of frames dropped."; } leaf hlHostControlNlInserts { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.14.1.1.4"; type yang:counter32; description "The number of times an nlHost entry has been inserted into the nlHost table. If an entry is inserted, then deleted, and then inserted, this counter will be incremented by 2. To allow for efficient implementation strategies, agents may delay updating this object for short periods of time. For example, an implementation strategy may allow internal data structures to differ from those visible via SNMP for short periods of time. This counter may reflect the internal data structures for those short periods of time. Note that the table size can be determined by subtracting hlHostControlNlDeletes from hlHostControlNlInserts."; } leaf hlHostControlNlDeletes { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.14.1.1.5"; type yang:counter32; description "The number of times an nlHost entry has been deleted from the nlHost table (for any reason). If an entry is deleted, then inserted, and then deleted, this counter will be incremented by 2. To allow for efficient implementation strategies, agents may delay updating this object for short periods of time. For example, an implementation strategy may allow internal data structures to differ from those visible via SNMP for short periods of time. This counter may reflect the internal data structures for those short periods of time. Note that the table size can be determined by subtracting hlHostControlNlDeletes from hlHostControlNlInserts."; } leaf hlHostControlNlMaxDesiredEntries { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.14.1.1.6"; type int32 { range "-1..2147483647"; } description "The maximum number of entries that are desired in the nlHostTable on behalf of this control entry. The probe will not create more than this number of associated entries in the table, but may choose to create fewer entries in this table for any reason including the lack of resources. If this object is set to a value less than the current number of entries, enough entries are chosen in an implementation-dependent manner and deleted so that the number of entries in the table equals the value of this object. If this value is set to -1, the probe may create any number of entries in this table. If the associated hlHostControlStatus object is equal to `active', this object may not be modified. This object may be used to control how resources are allocated on the probe for the various RMON functions."; } leaf hlHostControlAlDroppedFrames { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.14.1.1.7"; type yang:counter32; description "The total number of frames which were received by the probe and therefore not accounted for in the *StatsDropEvents, but for which the probe chose not to count for the associated alHost entries for whatever reason. Most often, this event occurs when the probe is out of some resources and decides to shed load from this collection. This count does not include packets that were not counted because they had MAC-layer errors. Note that if the alHostTable is not implemented or is inactive because no protocols are enabled in the protocol directory, this value should be 0. Note that, unlike the dropEvents counter, this number is the exact number of frames dropped."; } leaf hlHostControlAlInserts { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.14.1.1.8"; type yang:counter32; description "The number of times an alHost entry has been inserted into the alHost table. If an entry is inserted, then deleted, and then inserted, this counter will be incremented by 2. To allow for efficient implementation strategies, agents may delay updating this object for short periods of time. For example, an implementation strategy may allow internal data structures to differ from those visible via SNMP for short periods of time. This counter may reflect the internal data structures for those short periods of time. Note that the table size can be determined by subtracting hlHostControlAlDeletes from hlHostControlAlInserts."; } leaf hlHostControlAlDeletes { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.14.1.1.9"; type yang:counter32; description "The number of times an alHost entry has been deleted from the alHost table (for any reason). If an entry is deleted, then inserted, and then deleted, this counter will be incremented by 2. To allow for efficient implementation strategies, agents may delay updating this object for short periods of time. For example, an implementation strategy may allow internal data structures to differ from those visible via SNMP for short periods of time. This counter may reflect the internal data structures for those short periods of time. Note that the table size can be determined by subtracting hlHostControlAlDeletes from hlHostControlAlInserts."; } leaf hlHostControlAlMaxDesiredEntries { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.14.1.1.10"; type int32 { range "-1..2147483647"; } description "The maximum number of entries that are desired in the alHost table on behalf of this control entry. The probe will not create more than this number of associated entries in the table, but may choose to create fewer entries in this table for any reason including the lack of resources. If this object is set to a value less than the current number of entries, enough entries are chosen in an implementation-dependent manner and deleted so that the number of entries in the table equals the value of this object. If this value is set to -1, the probe may create any number of entries in this table. If the associated hlHostControlStatus object is equal to `active', this object may not be modified. This object may be used to control how resources are allocated on the probe for the various RMON functions."; } leaf hlHostControlOwner { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.14.1.1.11"; type rmon-mib:OwnerString; description "The entity that configured this entry and is therefore using the resources assigned to it."; } leaf hlHostControlStatus { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.14.1.1.12"; type snmpv2-tc:RowStatus; description "The status of this hlHostControlEntry. An entry may not exist in the active state unless all objects in the entry have an appropriate value. If this object is not equal to active(1), all associated entries in the nlHostTable and alHostTable shall be deleted."; } } // list hlHostControlEntry } // container hlHostControlTable container nlHostTable { smiv2:oid "1.3.6.1.2.1.16.14.2"; description "A collection of statistics for a particular network layer address that has been discovered on an interface of this device. The probe will populate this table for all network layer protocols in the protocol directory table whose value of protocolDirHostConfig is equal to supportedOn(3), and will delete any entries whose protocolDirEntry is deleted or has a protocolDirHostConfig value of supportedOff(2). The probe will add to this table all addresses seen as the source or destination address in all packets with no MAC errors, and will increment octet and packet counts in the table for all packets with no MAC errors."; list nlHostEntry { smiv2:oid "1.3.6.1.2.1.16.14.2.1"; key "hlHostControlIndex nlHostTimeMark protocolDirLocalIndex nlHostAddress"; description "A conceptual row in the nlHostTable. The hlHostControlIndex value in the index identifies the hlHostControlEntry on whose behalf this entry was created. The protocolDirLocalIndex value in the index identifies the network layer protocol of the nlHostAddress. An example of the indexing of this entry is nlHostOutPkts.1.783495.18.4.128.2.6.6."; leaf hlHostControlIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:hlHostControlTable/RMON2-MIB:hlHostControlEntry/RMON2-MIB:hlHostControlIndex"; } } leaf protocolDirLocalIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:protocolDirTable/RMON2-MIB:protocolDirEntry/RMON2-MIB:protocolDirLocalIndex"; } } leaf nlHostTimeMark { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.14.2.1.1"; type TimeFilter; description "A TimeFilter for this entry. See the TimeFilter textual convention to see how this works."; } leaf nlHostAddress { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.14.2.1.2"; type binary; description "The network address for this nlHostEntry. This is represented as an octet string with specific semantics and length as identified by the protocolDirLocalIndex component of the index. For example, if the protocolDirLocalIndex indicates an encapsulation of ip, this object is encoded as a length octet of 4, followed by the 4 octets of the ip address, in network byte order."; } leaf nlHostInPkts { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.14.2.1.3"; type yang:zero-based-counter32; description "The number of packets without errors transmitted to this address since it was added to the nlHostTable. Note that this is the number of link-layer packets, so if a single network-layer packet is fragmented into several link-layer frames, this counter is incremented several times."; } leaf nlHostOutPkts { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.14.2.1.4"; type yang:zero-based-counter32; description "The number of packets without errors transmitted by this address since it was added to the nlHostTable. Note that this is the number of link-layer packets, so if a single network-layer packet is fragmented into several link-layer frames, this counter is incremented several times."; } leaf nlHostInOctets { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.14.2.1.5"; type yang:zero-based-counter32; description "The number of octets transmitted to this address since it was added to the nlHostTable (excluding framing bits but including FCS octets), excluding those octets in packets that contained errors. Note this doesn't count just those octets in the particular protocol frames, but includes the entire packet that contained the protocol."; } leaf nlHostOutOctets { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.14.2.1.6"; type yang:zero-based-counter32; description "The number of octets transmitted by this address since it was added to the nlHostTable (excluding framing bits but including FCS octets), excluding those octets in packets that contained errors. Note this doesn't count just those octets in the particular protocol frames, but includes the entire packet that contained the protocol."; } leaf nlHostOutMacNonUnicastPkts { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.14.2.1.7"; type yang:zero-based-counter32; description "The number of packets without errors transmitted by this address that were directed to any MAC broadcast addresses or to any MAC multicast addresses since this host was added to the nlHostTable. Note that this is the number of link-layer packets, so if a single network-layer packet is fragmented into several link-layer frames, this counter is incremented several times."; } leaf nlHostCreateTime { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.14.2.1.8"; type LastCreateTime; description "The value of sysUpTime when this entry was last activated. This can be used by the management station to ensure that the entry has not been deleted and recreated between polls."; } } // list nlHostEntry } // container nlHostTable container hlMatrixControlTable { smiv2:oid "1.3.6.1.2.1.16.15.1"; description "A list of higher layer (i.e. non-MAC) matrix control entries. These entries will enable the collection of the network and application level matrix tables containing conversation statistics indexed by pairs of network addresses. Both the network and application level matrix tables are controlled by this table is so that they will both be created and deleted at the same time, further increasing the ease with which they can be implemented as a single datastore (note that if an implementation stores application layer matrix records in memory, it can derive network layer matrix records from them). Entries in the nlMatrixSDTable and nlMatrixDSTable will be created on behalf of each entry in this table. Additionally, if this probe implements the alMatrix tables, entries in the alMatrix tables will be created on behalf of each entry in this table."; list hlMatrixControlEntry { smiv2:oid "1.3.6.1.2.1.16.15.1.1"; key "hlMatrixControlIndex"; description "A conceptual row in the hlMatrixControlTable. An example of indexing of this entry is hlMatrixControlNlDroppedFrames.1"; leaf hlMatrixControlIndex { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.15.1.1.1"; type int32 { range "1..65535"; } description "An index that uniquely identifies an entry in the hlMatrixControlTable. Each such entry defines a function that discovers conversations on a particular interface and places statistics about them in the nlMatrixSDTable and the nlMatrixDSTable, and optionally the alMatrixSDTable and alMatrixDSTable, on behalf of this hlMatrixControlEntry."; } leaf hlMatrixControlDataSource { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.15.1.1.2"; type DataSource; description "The source of the data for the associated matrix tables. The statistics in this group reflect all packets on the local network segment attached to the identified interface. This object may not be modified if the associated hlMatrixControlStatus object is equal to active(1)."; } leaf hlMatrixControlNlDroppedFrames { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.1.1.3"; type yang:counter32; description "The total number of frames which were received by the probe and therefore not accounted for in the *StatsDropEvents, but for which the probe chose not to count for this entry for whatever reason. Most often, this event occurs when the probe is out of some resources and decides to shed load from this collection. This count does not include packets that were not counted because they had MAC-layer errors. Note that if the nlMatrixTables are inactive because no protocols are enabled in the protocol directory, this value should be 0. Note that, unlike the dropEvents counter, this number is the exact number of frames dropped."; } leaf hlMatrixControlNlInserts { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.1.1.4"; type yang:counter32; description "The number of times an nlMatrix entry has been inserted into the nlMatrix tables. If an entry is inserted, then deleted, and then inserted, this counter will be incremented by 2. The addition of a conversation into both the nlMatrixSDTable and nlMatrixDSTable shall be counted as two insertions (even though every addition into one table must be accompanied by an insertion into the other). To allow for efficient implementation strategies, agents may delay updating this object for short periods of time. For example, an implementation strategy may allow internal data structures to differ from those visible via SNMP for short periods of time. This counter may reflect the internal data structures for those short periods of time. Note that the sum of then nlMatrixSDTable and nlMatrixDSTable sizes can be determined by subtracting hlMatrixControlNlDeletes from hlMatrixControlNlInserts."; } leaf hlMatrixControlNlDeletes { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.1.1.5"; type yang:counter32; description "The number of times an nlMatrix entry has been deleted from the nlMatrix tables (for any reason). If an entry is deleted, then inserted, and then deleted, this counter will be incremented by 2. The deletion of a conversation from both the nlMatrixSDTable and nlMatrixDSTable shall be counted as two deletions (even though every deletion from one table must be accompanied by a deletion from the other). To allow for efficient implementation strategies, agents may delay updating this object for short periods of time. For example, an implementation strategy may allow internal data structures to differ from those visible via SNMP for short periods of time. This counter may reflect the internal data structures for those short periods of time. Note that the table size can be determined by subtracting hlMatrixControlNlDeletes from hlMatrixControlNlInserts."; } leaf hlMatrixControlNlMaxDesiredEntries { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.15.1.1.6"; type int32 { range "-1..2147483647"; } description "The maximum number of entries that are desired in the nlMatrix tables on behalf of this control entry. The probe will not create more than this number of associated entries in the table, but may choose to create fewer entries in this table for any reason including the lack of resources. If this object is set to a value less than the current number of entries, enough entries are chosen in an implementation-dependent manner and deleted so that the number of entries in the table equals the value of this object. If this value is set to -1, the probe may create any number of entries in this table. If the associated hlMatrixControlStatus object is equal to `active', this object may not be modified. This object may be used to control how resources are allocated on the probe for the various RMON functions."; } leaf hlMatrixControlAlDroppedFrames { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.1.1.7"; type yang:counter32; description "The total number of frames which were received by the probe and therefore not accounted for in the *StatsDropEvents, but for which the probe chose not to count for this entry for whatever reason. Most often, this event occurs when the probe is out of some resources and decides to shed load from this collection. This count does not include packets that were not counted because they had MAC-layer errors. Note that if the alMatrixTables are not implemented or are inactive because no protocols are enabled in the protocol directory, this value should be 0. Note that, unlike the dropEvents counter, this number is the exact number of frames dropped."; } leaf hlMatrixControlAlInserts { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.1.1.8"; type yang:counter32; description "The number of times an alMatrix entry has been inserted into the alMatrix tables. If an entry is inserted, then deleted, and then inserted, this counter will be incremented by 2. The addition of a conversation into both the alMatrixSDTable and alMatrixDSTable shall be counted as two insertions (even though every addition into one table must be accompanied by an insertion into the other). To allow for efficient implementation strategies, agents may delay updating this object for short periods of time. For example, an implementation strategy may allow internal data structures to differ from those visible via SNMP for short periods of time. This counter may reflect the internal data structures for those short periods of time. Note that the table size can be determined by subtracting hlMatrixControlAlDeletes from hlMatrixControlAlInserts."; } leaf hlMatrixControlAlDeletes { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.1.1.9"; type yang:counter32; description "The number of times an alMatrix entry has been deleted from the alMatrix tables. If an entry is deleted, then inserted, and then deleted, this counter will be incremented by 2. The deletion of a conversation from both the alMatrixSDTable and alMatrixDSTable shall be counted as two deletions (even though every deletion from one table must be accompanied by a deletion from the other). To allow for efficient implementation strategies, agents may delay updating this object for short periods of time. For example, an implementation strategy may allow internal data structures to differ from those visible via SNMP for short periods of time. This counter may reflect the internal data structures for those short periods of time. Note that the table size can be determined by subtracting hlMatrixControlAlDeletes from hlMatrixControlAlInserts."; } leaf hlMatrixControlAlMaxDesiredEntries { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.15.1.1.10"; type int32 { range "-1..2147483647"; } description "The maximum number of entries that are desired in the alMatrix tables on behalf of this control entry. The probe will not create more than this number of associated entries in the table, but may choose to create fewer entries in this table for any reason including the lack of resources. If this object is set to a value less than the current number of entries, enough entries are chosen in an implementation-dependent manner and deleted so that the number of entries in the table equals the value of this object. If this value is set to -1, the probe may create any number of entries in this table. If the associated hlMatrixControlStatus object is equal to `active', this object may not be modified. This object may be used to control how resources are allocated on the probe for the various RMON functions."; } leaf hlMatrixControlOwner { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.15.1.1.11"; type rmon-mib:OwnerString; description "The entity that configured this entry and is therefore using the resources assigned to it."; } leaf hlMatrixControlStatus { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.15.1.1.12"; type snmpv2-tc:RowStatus; description "The status of this hlMatrixControlEntry. An entry may not exist in the active state unless all objects in the entry have an appropriate value. If this object is not equal to active(1), all associated entries in the nlMatrixSDTable, nlMatrixDSTable, alMatrixSDTable, and the alMatrixDSTable shall be deleted by the agent."; } } // list hlMatrixControlEntry } // container hlMatrixControlTable container nlMatrixSDTable { smiv2:oid "1.3.6.1.2.1.16.15.2"; description "A list of traffic matrix entries which collect statistics for conversations between two network-level addresses. This table is indexed first by the source address and then by the destination address to make it convenient to collect all conversations from a particular address. The probe will populate this table for all network layer protocols in the protocol directory table whose value of protocolDirMatrixConfig is equal to supportedOn(3), and will delete any entries whose protocolDirEntry is deleted or has a protocolDirMatrixConfig value of supportedOff(2). The probe will add to this table all pairs of addresses seen in all packets with no MAC errors, and will increment octet and packet counts in the table for all packets with no MAC errors. Further, this table will only contain entries that have a corresponding entry in the nlMatrixDSTable with the same source address and destination address."; list nlMatrixSDEntry { smiv2:oid "1.3.6.1.2.1.16.15.2.1"; key "hlMatrixControlIndex nlMatrixSDTimeMark protocolDirLocalIndex nlMatrixSDSourceAddress nlMatrixSDDestAddress"; description "A conceptual row in the nlMatrixSDTable. The hlMatrixControlIndex value in the index identifies the hlMatrixControlEntry on whose behalf this entry was created. The protocolDirLocalIndex value in the index identifies the network layer protocol of the nlMatrixSDSourceAddress and nlMatrixSDDestAddress. An example of the indexing of this table is nlMatrixSDPkts.1.783495.18.4.128.2.6.6.4.128.2.6.7"; leaf hlMatrixControlIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:hlMatrixControlTable/RMON2-MIB:hlMatrixControlEntry/RMON2-MIB:hlMatrixControlIndex"; } } leaf protocolDirLocalIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:protocolDirTable/RMON2-MIB:protocolDirEntry/RMON2-MIB:protocolDirLocalIndex"; } } leaf nlMatrixSDTimeMark { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.15.2.1.1"; type TimeFilter; description "A TimeFilter for this entry. See the TimeFilter textual convention to see how this works."; } leaf nlMatrixSDSourceAddress { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.15.2.1.2"; type binary; description "The network source address for this nlMatrixSDEntry. This is represented as an octet string with specific semantics and length as identified by the protocolDirLocalIndex component of the index. For example, if the protocolDirLocalIndex indicates an encapsulation of ip, this object is encoded as a length octet of 4, followed by the 4 octets of the ip address, in network byte order."; } leaf nlMatrixSDDestAddress { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.15.2.1.3"; type binary; description "The network destination address for this nlMatrixSDEntry. This is represented as an octet string with specific semantics and length as identified by the protocolDirLocalIndex component of the index. For example, if the protocolDirLocalIndex indicates an encapsulation of ip, this object is encoded as a length octet of 4, followed by the 4 octets of the ip address, in network byte order."; } leaf nlMatrixSDPkts { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.2.1.4"; type yang:zero-based-counter32; description "The number of packets without errors transmitted from the source address to the destination address since this entry was added to the nlMatrixSDTable. Note that this is the number of link-layer packets, so if a single network-layer packet is fragmented into several link-layer frames, this counter is incremented several times."; } leaf nlMatrixSDOctets { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.2.1.5"; type yang:zero-based-counter32; description "The number of octets transmitted from the source address to the destination address since this entry was added to the nlMatrixSDTable (excluding framing bits but including FCS octets), excluding those octets in packets that contained errors. Note this doesn't count just those octets in the particular protocol frames, but includes the entire packet that contained the protocol."; } leaf nlMatrixSDCreateTime { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.2.1.6"; type LastCreateTime; description "The value of sysUpTime when this entry was last activated. This can be used by the management station to ensure that the entry has not been deleted and recreated between polls."; } } // list nlMatrixSDEntry } // container nlMatrixSDTable container nlMatrixDSTable { smiv2:oid "1.3.6.1.2.1.16.15.3"; description "A list of traffic matrix entries which collect statistics for conversations between two network-level addresses. This table is indexed first by the destination address and then by the source address to make it convenient to collect all conversations to a particular address. The probe will populate this table for all network layer protocols in the protocol directory table whose value of protocolDirMatrixConfig is equal to supportedOn(3), and will delete any entries whose protocolDirEntry is deleted or has a protocolDirMatrixConfig value of supportedOff(2). The probe will add to this table all pairs of addresses seen in all packets with no MAC errors, and will increment octet and packet counts in the table for all packets with no MAC errors. Further, this table will only contain entries that have a corresponding entry in the nlMatrixSDTable with the same source address and destination address."; list nlMatrixDSEntry { smiv2:oid "1.3.6.1.2.1.16.15.3.1"; key "hlMatrixControlIndex nlMatrixDSTimeMark protocolDirLocalIndex nlMatrixDSDestAddress nlMatrixDSSourceAddress"; description "A conceptual row in the nlMatrixDSTable. The hlMatrixControlIndex value in the index identifies the hlMatrixControlEntry on whose behalf this entry was created. The protocolDirLocalIndex value in the index identifies the network layer protocol of the nlMatrixDSSourceAddress and nlMatrixDSDestAddress. An example of the indexing of this table is nlMatrixDSPkts.1.783495.18.4.128.2.6.7.4.128.2.6.6"; leaf hlMatrixControlIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:hlMatrixControlTable/RMON2-MIB:hlMatrixControlEntry/RMON2-MIB:hlMatrixControlIndex"; } } leaf protocolDirLocalIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:protocolDirTable/RMON2-MIB:protocolDirEntry/RMON2-MIB:protocolDirLocalIndex"; } } leaf nlMatrixDSTimeMark { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.15.3.1.1"; type TimeFilter; description "A TimeFilter for this entry. See the TimeFilter textual convention to see how this works."; } leaf nlMatrixDSSourceAddress { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.15.3.1.2"; type binary; description "The network source address for this nlMatrixDSEntry. This is represented as an octet string with specific semantics and length as identified by the protocolDirLocalIndex component of the index. For example, if the protocolDirLocalIndex indicates an encapsulation of ip, this object is encoded as a length octet of 4, followed by the 4 octets of the ip address, in network byte order."; } leaf nlMatrixDSDestAddress { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.15.3.1.3"; type binary; description "The network destination address for this nlMatrixDSEntry. This is represented as an octet string with specific semantics and length as identified by the protocolDirLocalIndex component of the index. For example, if the protocolDirLocalIndex indicates an encapsulation of ip, this object is encoded as a length octet of 4, followed by the 4 octets of the ip address, in network byte order."; } leaf nlMatrixDSPkts { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.3.1.4"; type yang:zero-based-counter32; description "The number of packets without errors transmitted from the source address to the destination address since this entry was added to the nlMatrixDSTable. Note that this is the number of link-layer packets, so if a single network-layer packet is fragmented into several link-layer frames, this counter is incremented several times."; } leaf nlMatrixDSOctets { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.3.1.5"; type yang:zero-based-counter32; description "The number of octets transmitted from the source address to the destination address since this entry was added to the nlMatrixDSTable (excluding framing bits but including FCS octets), excluding those octets in packets that contained errors. Note this doesn't count just those octets in the particular protocol frames, but includes the entire packet that contained the protocol."; } leaf nlMatrixDSCreateTime { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.3.1.6"; type LastCreateTime; description "The value of sysUpTime when this entry was last activated. This can be used by the management station to ensure that the entry has not been deleted and recreated between polls."; } } // list nlMatrixDSEntry } // container nlMatrixDSTable container nlMatrixTopNControlTable { smiv2:oid "1.3.6.1.2.1.16.15.4"; description "A set of parameters that control the creation of a report of the top N matrix entries according to a selected metric."; list nlMatrixTopNControlEntry { smiv2:oid "1.3.6.1.2.1.16.15.4.1"; key "nlMatrixTopNControlIndex"; description "A conceptual row in the nlMatrixTopNControlTable. An example of the indexing of this table is nlMatrixTopNControlDuration.3"; leaf nlMatrixTopNControlIndex { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.15.4.1.1"; type int32 { range "1..65535"; } description "An index that uniquely identifies an entry in the nlMatrixTopNControlTable. Each such entry defines one top N report prepared for one interface."; } leaf nlMatrixTopNControlMatrixIndex { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.15.4.1.2"; type int32 { range "1..65535"; } description "The nlMatrix[SD/DS] table for which a top N report will be prepared on behalf of this entry. The nlMatrix[SD/DS] table is identified by the value of the hlMatrixControlIndex for that table - that value is used here to identify the particular table. This object may not be modified if the associated nlMatrixTopNControlStatus object is equal to active(1)."; } leaf nlMatrixTopNControlRateBase { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.15.4.1.3"; type enumeration { enum "nlMatrixTopNPkts" { value 1; } enum "nlMatrixTopNOctets" { value 2; } } description "The variable for each nlMatrix[SD/DS] entry that the nlMatrixTopNEntries are sorted by. This object may not be modified if the associated nlMatrixTopNControlStatus object is equal to active(1)."; } leaf nlMatrixTopNControlTimeRemaining { smiv2:defval "1800"; smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.15.4.1.4"; type int32 { range "0..2147483647"; } description "The number of seconds left in the report currently being collected. When this object is modified by the management station, a new collection is started, possibly aborting a currently running report. The new value is used as the requested duration of this report, and is immediately loaded into the associated nlMatrixTopNControlDuration object. When the report finishes, the probe will automatically start another collection with the same initial value of nlMatrixTopNControlTimeRemaining. Thus the management station may simply read the resulting reports repeatedly, checking the startTime and duration each time to ensure that a report was not missed or that the report parameters were not changed. While the value of this object is non-zero, it decrements by one per second until it reaches zero. At the time that this object decrements to zero, the report is made accessible in the nlMatrixTopNTable, overwriting any report that may be there. When this object is modified by the management station, any associated entries in the nlMatrixTopNTable shall be deleted. (Note that this is a different algorithm than the one used in the hostTopNTable)."; } leaf nlMatrixTopNControlGeneratedReports { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.4.1.5"; type yang:counter32; description "The number of reports that have been generated by this entry."; } leaf nlMatrixTopNControlDuration { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.4.1.6"; type int32; description "The number of seconds that this report has collected during the last sampling interval. When the associated nlMatrixTopNControlTimeRemaining object is set, this object shall be set by the probe to the same value and shall not be modified until the next time the nlMatrixTopNControlTimeRemaining is set. This value shall be zero if no reports have been requested for this nlMatrixTopNControlEntry."; } leaf nlMatrixTopNControlRequestedSize { smiv2:defval "150"; smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.15.4.1.7"; type int32 { range "0..2147483647"; } description "The maximum number of matrix entries requested for this report. When this object is created or modified, the probe should set nlMatrixTopNControlGrantedSize as closely to this object as is possible for the particular probe implementation and available resources."; } leaf nlMatrixTopNControlGrantedSize { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.4.1.8"; type int32 { range "0..2147483647"; } description "The maximum number of matrix entries in this report. When the associated nlMatrixTopNControlRequestedSize object is created or modified, the probe should set this object as closely to the requested value as is possible for the particular implementation and available resources. The probe must not lower this value except as a result of a set to the associated nlMatrixTopNControlRequestedSize object. If the value of nlMatrixTopNControlRateBase is equal to nlMatrixTopNPkts, when the next topN report is generated, matrix entries with the highest value of nlMatrixTopNPktRate shall be placed in this table in decreasing order of this rate until there is no more room or until there are no more matrix entries. If the value of nlMatrixTopNControlRateBase is equal to nlMatrixTopNOctets, when the next topN report is generated, matrix entries with the highest value of nlMatrixTopNOctetRate shall be placed in this table in decreasing order of this rate until there is no more room or until there are no more matrix entries. It is an implementation-specific matter how entries with the same value of nlMatrixTopNPktRate or nlMatrixTopNOctetRate are sorted. It is also an implementation-specific matter as to whether or not zero-valued entries are available."; } leaf nlMatrixTopNControlStartTime { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.4.1.9"; type yang:timestamp; description "The value of sysUpTime when this top N report was last started. In other words, this is the time that the associated nlMatrixTopNControlTimeRemaining object was modified to start the requested report or the time the report was last automatically (re)started. This object may be used by the management station to determine if a report was missed or not."; } leaf nlMatrixTopNControlOwner { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.15.4.1.10"; type rmon-mib:OwnerString; description "The entity that configured this entry and is therefore using the resources assigned to it."; } leaf nlMatrixTopNControlStatus { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.15.4.1.11"; type snmpv2-tc:RowStatus; description "The status of this nlMatrixTopNControlEntry. An entry may not exist in the active state unless all objects in the entry have an appropriate value. If this object is not equal to active(1), all associated entries in the nlMatrixTopNTable shall be deleted by the agent."; } } // list nlMatrixTopNControlEntry } // container nlMatrixTopNControlTable container nlMatrixTopNTable { smiv2:oid "1.3.6.1.2.1.16.15.5"; description "A set of statistics for those network layer matrix entries that have counted the highest number of octets or packets."; list nlMatrixTopNEntry { smiv2:oid "1.3.6.1.2.1.16.15.5.1"; key "nlMatrixTopNControlIndex nlMatrixTopNIndex"; description "A conceptual row in the nlMatrixTopNTable. The nlMatrixTopNControlIndex value in the index identifies the nlMatrixTopNControlEntry on whose behalf this entry was created. An example of the indexing of this table is nlMatrixTopNPktRate.3.10"; leaf nlMatrixTopNControlIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:nlMatrixTopNControlTable/RMON2-MIB:nlMatrixTopNControlEntry/RMON2-MIB:nlMatrixTopNControlIndex"; } } leaf nlMatrixTopNIndex { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.15.5.1.1"; type int32 { range "1..65535"; } description "An index that uniquely identifies an entry in the nlMatrixTopNTable among those in the same report. This index is between 1 and N, where N is the number of entries in this report. If the value of nlMatrixTopNControlRateBase is equal to nlMatrixTopNPkts, increasing values of nlMatrixTopNIndex shall be assigned to entries with decreasing values of nlMatrixTopNPktRate until index N is assigned or there are no more nlMatrixTopNEntries. If the value of nlMatrixTopNControlRateBase is equal to nlMatrixTopNOctets, increasing values of nlMatrixTopNIndex shall be assigned to entries with decreasing values of nlMatrixTopNOctetRate until index N is assigned or there are no more nlMatrixTopNEntries."; } leaf nlMatrixTopNProtocolDirLocalIndex { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.5.1.2"; type int32 { range "1..2147483647"; } description "The protocolDirLocalIndex of the network layer protocol of this entry's network address."; } leaf nlMatrixTopNSourceAddress { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.5.1.3"; type binary; description "The network layer address of the source host in this conversation. This is represented as an octet string with specific semantics and length as identified by the associated nlMatrixTopNProtocolDirLocalIndex. For example, if the protocolDirLocalIndex indicates an encapsulation of ip, this object is encoded as a length octet of 4, followed by the 4 octets of the ip address, in network byte order."; } leaf nlMatrixTopNDestAddress { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.5.1.4"; type binary; description "The network layer address of the destination host in this conversation. This is represented as an octet string with specific semantics and length as identified by the associated nlMatrixTopNProtocolDirLocalIndex. For example, if the nlMatrixTopNProtocolDirLocalIndex indicates an encapsulation of ip, this object is encoded as a length octet of 4, followed by the 4 octets of the ip address, in network byte order."; } leaf nlMatrixTopNPktRate { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.5.1.5"; type yang:gauge32; description "The number of packets seen from the source host to the destination host during this sampling interval, counted using the rules for counting the nlMatrixSDPkts object. If the value of nlMatrixTopNControlRateBase is nlMatrixTopNPkts, this variable will be used to sort this report."; } leaf nlMatrixTopNReversePktRate { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.5.1.6"; type yang:gauge32; description "The number of packets seen from the destination host to the source host during this sampling interval, counted using the rules for counting the nlMatrixSDPkts object (note that the corresponding nlMatrixSDPkts object selected is the one whose source address is equal to nlMatrixTopNDestAddress and whose destination address is equal to nlMatrixTopNSourceAddress.) Note that if the value of nlMatrixTopNControlRateBase is equal to nlMatrixTopNPkts, the sort of topN entries is based entirely on nlMatrixTopNPktRate, and not on the value of this object."; } leaf nlMatrixTopNOctetRate { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.5.1.7"; type yang:gauge32; description "The number of octets seen from the source host to the destination host during this sampling interval, counted using the rules for counting the nlMatrixSDOctets object. If the value of nlMatrixTopNControlRateBase is nlMatrixTopNOctets, this variable will be used to sort this report."; } leaf nlMatrixTopNReverseOctetRate { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.15.5.1.8"; type yang:gauge32; description "The number of octets seen from the destination host to the source host during this sampling interval, counted using the rules for counting the nlMatrixDSOctets object (note that the corresponding nlMatrixSDOctets object selected is the one whose source address is equal to nlMatrixTopNDestAddress and whose destination address is equal to nlMatrixTopNSourceAddress.) Note that if the value of nlMatrixTopNControlRateBase is equal to nlMatrixTopNOctets, the sort of topN entries is based entirely on nlMatrixTopNOctetRate, and not on the value of this object."; } } // list nlMatrixTopNEntry } // container nlMatrixTopNTable container alHostTable { smiv2:oid "1.3.6.1.2.1.16.16.1"; description "A collection of statistics for a particular protocol from a particular network address that has been discovered on an interface of this device. The probe will populate this table for all protocols in the protocol directory table whose value of protocolDirHostConfig is equal to supportedOn(3), and will delete any entries whose protocolDirEntry is deleted or has a protocolDirHostConfig value of supportedOff(2). The probe will add to this table all addresses seen as the source or destination address in all packets with no MAC errors, and will increment octet and packet counts in the table for all packets with no MAC errors. Further, entries will only be added to this table if their address exists in the nlHostTable and will be deleted from this table if their address is deleted from the nlHostTable."; list alHostEntry { smiv2:oid "1.3.6.1.2.1.16.16.1.1"; key "hlHostControlIndex alHostTimeMark protocolDirLocalIndex nlHostAddress protocolDirLocalIndex_2"; description "A conceptual row in the alHostTable. The hlHostControlIndex value in the index identifies the hlHostControlEntry on whose behalf this entry was created. The first protocolDirLocalIndex value in the index identifies the network layer protocol of the address. The nlHostAddress value in the index identifies the network layer address of this entry. The second protocolDirLocalIndex value in the index identifies the protocol that is counted by this entry. An example of the indexing in this entry is alHostOutPkts.1.783495.18.4.128.2.6.6.34"; leaf hlHostControlIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:hlHostControlTable/RMON2-MIB:hlHostControlEntry/RMON2-MIB:hlHostControlIndex"; } } leaf protocolDirLocalIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:protocolDirTable/RMON2-MIB:protocolDirEntry/RMON2-MIB:protocolDirLocalIndex"; } } leaf nlHostAddress { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:nlHostTable/RMON2-MIB:nlHostEntry/RMON2-MIB:nlHostAddress"; } } leaf protocolDirLocalIndex_2 { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:protocolDirTable/RMON2-MIB:protocolDirEntry/RMON2-MIB:protocolDirLocalIndex"; } } leaf alHostTimeMark { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.16.1.1.1"; type TimeFilter; description "A TimeFilter for this entry. See the TimeFilter textual convention to see how this works."; } leaf alHostInPkts { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.16.1.1.2"; type yang:zero-based-counter32; description "The number of packets of this protocol type without errors transmitted to this address since it was added to the alHostTable. Note that this is the number of link-layer packets, so if a single network-layer packet is fragmented into several link-layer frames, this counter is incremented several times."; } leaf alHostOutPkts { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.16.1.1.3"; type yang:zero-based-counter32; description "The number of packets of this protocol type without errors transmitted by this address since it was added to the alHostTable. Note that this is the number of link-layer packets, so if a single network-layer packet is fragmented into several link-layer frames, this counter is incremented several times."; } leaf alHostInOctets { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.16.1.1.4"; type yang:zero-based-counter32; description "The number of octets transmitted to this address of this protocol type since it was added to the alHostTable (excluding framing bits but including FCS octets), excluding those octets in packets that contained errors. Note this doesn't count just those octets in the particular protocol frames, but includes the entire packet that contained the protocol."; } leaf alHostOutOctets { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.16.1.1.5"; type yang:zero-based-counter32; description "The number of octets transmitted by this address of this protocol type since it was added to the alHostTable (excluding framing bits but including FCS octets), excluding those octets in packets that contained errors. Note this doesn't count just those octets in the particular protocol frames, but includes the entire packet that contained the protocol."; } leaf alHostCreateTime { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.16.1.1.6"; type LastCreateTime; description "The value of sysUpTime when this entry was last activated. This can be used by the management station to ensure that the entry has not been deleted and recreated between polls."; } } // list alHostEntry } // container alHostTable container alMatrixSDTable { smiv2:oid "1.3.6.1.2.1.16.17.1"; description "A list of application traffic matrix entries which collect statistics for conversations of a particular protocol between two network-level addresses. This table is indexed first by the source address and then by the destination address to make it convenient to collect all statistics from a particular address. The probe will populate this table for all protocols in the protocol directory table whose value of protocolDirMatrixConfig is equal to supportedOn(3), and will delete any entries whose protocolDirEntry is deleted or has a protocolDirMatrixConfig value of supportedOff(2). The probe will add to this table all pairs of addresses for all protocols seen in all packets with no MAC errors, and will increment octet and packet counts in the table for all packets with no MAC errors. Further, entries will only be added to this table if their address pair exists in the nlMatrixSDTable and will be deleted from this table if the address pair is deleted from the nlMatrixSDTable."; list alMatrixSDEntry { smiv2:oid "1.3.6.1.2.1.16.17.1.1"; key "hlMatrixControlIndex alMatrixSDTimeMark protocolDirLocalIndex nlMatrixSDSourceAddress nlMatrixSDDestAddress protocolDirLocalIndex_2"; description "A conceptual row in the alMatrixSDTable. The hlMatrixControlIndex value in the index identifies the hlMatrixControlEntry on whose behalf this entry was created. The first protocolDirLocalIndex value in the index identifies the network layer protocol of the nlMatrixSDSourceAddress and nlMatrixSDDestAddress. The nlMatrixSDSourceAddress value in the index identifies the network layer address of the source host in this conversation. The nlMatrixSDDestAddress value in the index identifies the network layer address of the destination host in this conversation. The second protocolDirLocalIndex value in the index identifies the protocol that is counted by this entry. An example of the indexing of this entry is alMatrixSDPkts.1.783495.18.4.128.2.6.6.4.128.2.6.7.34"; leaf hlMatrixControlIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:hlMatrixControlTable/RMON2-MIB:hlMatrixControlEntry/RMON2-MIB:hlMatrixControlIndex"; } } leaf protocolDirLocalIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:protocolDirTable/RMON2-MIB:protocolDirEntry/RMON2-MIB:protocolDirLocalIndex"; } } leaf nlMatrixSDSourceAddress { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:nlMatrixSDTable/RMON2-MIB:nlMatrixSDEntry/RMON2-MIB:nlMatrixSDSourceAddress"; } } leaf nlMatrixSDDestAddress { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:nlMatrixSDTable/RMON2-MIB:nlMatrixSDEntry/RMON2-MIB:nlMatrixSDDestAddress"; } } leaf protocolDirLocalIndex_2 { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:protocolDirTable/RMON2-MIB:protocolDirEntry/RMON2-MIB:protocolDirLocalIndex"; } } leaf alMatrixSDTimeMark { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.17.1.1.1"; type TimeFilter; description "A TimeFilter for this entry. See the TimeFilter textual convention to see how this works."; } leaf alMatrixSDPkts { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.1.1.2"; type yang:zero-based-counter32; description "The number of packets of this protocol type without errors transmitted from the source address to the destination address since this entry was added to the alMatrixSDTable. Note that this is the number of link-layer packets, so if a single network-layer packet is fragmented into several link-layer frames, this counter is incremented several times."; } leaf alMatrixSDOctets { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.1.1.3"; type yang:zero-based-counter32; description "The number of octets in packets of this protocol type transmitted from the source address to the destination address since this entry was added to the alMatrixSDTable (excluding framing bits but including FCS octets), excluding those octets in packets that contained errors. Note this doesn't count just those octets in the particular protocol frames, but includes the entire packet that contained the protocol."; } leaf alMatrixSDCreateTime { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.1.1.4"; type LastCreateTime; description "The value of sysUpTime when this entry was last activated. This can be used by the management station to ensure that the entry has not been deleted and recreated between polls."; } } // list alMatrixSDEntry } // container alMatrixSDTable container alMatrixDSTable { smiv2:oid "1.3.6.1.2.1.16.17.2"; description "A list of application traffic matrix entries which collect statistics for conversations of a particular protocol between two network-level addresses. This table is indexed first by the destination address and then by the source address to make it convenient to collect all statistics to a particular address. The probe will populate this table for all protocols in the protocol directory table whose value of protocolDirMatrixConfig is equal to supportedOn(3), and will delete any entries whose protocolDirEntry is deleted or has a protocolDirMatrixConfig value of supportedOff(2). The probe will add to this table all pairs of addresses for all protocols seen in all packets with no MAC errors, and will increment octet and packet counts in the table for all packets with no MAC errors. Further, entries will only be added to this table if their address pair exists in the nlMatrixDSTable and will be deleted from this table if the address pair is deleted from the nlMatrixDSTable."; list alMatrixDSEntry { smiv2:oid "1.3.6.1.2.1.16.17.2.1"; key "hlMatrixControlIndex alMatrixDSTimeMark protocolDirLocalIndex nlMatrixDSDestAddress nlMatrixDSSourceAddress protocolDirLocalIndex_2"; description "A conceptual row in the alMatrixDSTable. The hlMatrixControlIndex value in the index identifies the hlMatrixControlEntry on whose behalf this entry was created. The first protocolDirLocalIndex value in the index identifies the network layer protocol of the alMatrixDSSourceAddress and alMatrixDSDestAddress. The nlMatrixDSDestAddress value in the index identifies the network layer address of the destination host in this conversation. The nlMatrixDSSourceAddress value in the index identifies the network layer address of the source host in this conversation. The second protocolDirLocalIndex value in the index identifies the protocol that is counted by this entry. An example of the indexing of this entry is alMatrixDSPkts.1.783495.18.4.128.2.6.7.4.128.2.6.6.34"; leaf hlMatrixControlIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:hlMatrixControlTable/RMON2-MIB:hlMatrixControlEntry/RMON2-MIB:hlMatrixControlIndex"; } } leaf protocolDirLocalIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:protocolDirTable/RMON2-MIB:protocolDirEntry/RMON2-MIB:protocolDirLocalIndex"; } } leaf nlMatrixDSDestAddress { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:nlMatrixDSTable/RMON2-MIB:nlMatrixDSEntry/RMON2-MIB:nlMatrixDSDestAddress"; } } leaf nlMatrixDSSourceAddress { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:nlMatrixDSTable/RMON2-MIB:nlMatrixDSEntry/RMON2-MIB:nlMatrixDSSourceAddress"; } } leaf protocolDirLocalIndex_2 { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:protocolDirTable/RMON2-MIB:protocolDirEntry/RMON2-MIB:protocolDirLocalIndex"; } } leaf alMatrixDSTimeMark { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.17.2.1.1"; type TimeFilter; description "A TimeFilter for this entry. See the TimeFilter textual convention to see how this works."; } leaf alMatrixDSPkts { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.2.1.2"; type yang:zero-based-counter32; description "The number of packets of this protocol type without errors transmitted from the source address to the destination address since this entry was added to the alMatrixDSTable. Note that this is the number of link-layer packets, so if a single network-layer packet is fragmented into several link-layer frames, this counter is incremented several times."; } leaf alMatrixDSOctets { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.2.1.3"; type yang:zero-based-counter32; description "The number of octets in packets of this protocol type transmitted from the source address to the destination address since this entry was added to the alMatrixDSTable (excluding framing bits but including FCS octets), excluding those octets in packets that contained errors. Note this doesn't count just those octets in the particular protocol frames, but includes the entire packet that contained the protocol."; } leaf alMatrixDSCreateTime { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.2.1.4"; type LastCreateTime; description "The value of sysUpTime when this entry was last activated. This can be used by the management station to ensure that the entry has not been deleted and recreated between polls."; } } // list alMatrixDSEntry } // container alMatrixDSTable container alMatrixTopNControlTable { smiv2:oid "1.3.6.1.2.1.16.17.3"; description "A set of parameters that control the creation of a report of the top N matrix entries according to a selected metric."; list alMatrixTopNControlEntry { smiv2:oid "1.3.6.1.2.1.16.17.3.1"; key "alMatrixTopNControlIndex"; description "A conceptual row in the alMatrixTopNControlTable. An example of the indexing of this table is alMatrixTopNControlDuration.3"; leaf alMatrixTopNControlIndex { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.17.3.1.1"; type int32 { range "1..65535"; } description "An index that uniquely identifies an entry in the alMatrixTopNControlTable. Each such entry defines one top N report prepared for one interface."; } leaf alMatrixTopNControlMatrixIndex { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.17.3.1.2"; type int32 { range "1..65535"; } description "The alMatrix[SD/DS] table for which a top N report will be prepared on behalf of this entry. The alMatrix[SD/DS] table is identified by the value of the hlMatrixControlIndex for that table - that value is used here to identify the particular table. This object may not be modified if the associated alMatrixTopNControlStatus object is equal to active(1)."; } leaf alMatrixTopNControlRateBase { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.17.3.1.3"; type enumeration { enum "alMatrixTopNTerminalsPkts" { value 1; } enum "alMatrixTopNTerminalsOctets" { value 2; } enum "alMatrixTopNAllPkts" { value 3; } enum "alMatrixTopNAllOctets" { value 4; } } description "The variable for each alMatrix[SD/DS] entry that the alMatrixTopNEntries are sorted by, as well as the selector of the view of the matrix table that will be used. The values alMatrixTopNTerminalsPkts and alMatrixTopNTerminalsOctets cause collection only from protocols that have no child protocols that are counted. The values alMatrixTopNAllPkts and alMatrixTopNAllOctets cause collection from all alMatrix entries. This object may not be modified if the associated alMatrixTopNControlStatus object is equal to active(1)."; } leaf alMatrixTopNControlTimeRemaining { smiv2:defval "1800"; smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.17.3.1.4"; type int32 { range "0..2147483647"; } description "The number of seconds left in the report currently being collected. When this object is modified by the management station, a new collection is started, possibly aborting a currently running report. The new value is used as the requested duration of this report, and is immediately loaded into the associated alMatrixTopNControlDuration object. When the report finishes, the probe will automatically start another collection with the same initial value of alMatrixTopNControlTimeRemaining. Thus the management station may simply read the resulting reports repeatedly, checking the startTime and duration each time to ensure that a report was not missed or that the report parameters were not changed. While the value of this object is non-zero, it decrements by one per second until it reaches zero. At the time that this object decrements to zero, the report is made accessible in the alMatrixTopNTable, overwriting any report that may be there. When this object is modified by the management station, any associated entries in the alMatrixTopNTable shall be deleted. (Note that this is a different algorithm than the one used in the hostTopNTable)."; } leaf alMatrixTopNControlGeneratedReports { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.3.1.5"; type yang:counter32; description "The number of reports that have been generated by this entry."; } leaf alMatrixTopNControlDuration { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.3.1.6"; type int32; description "The number of seconds that this report has collected during the last sampling interval. When the associated alMatrixTopNControlTimeRemaining object is set, this object shall be set by the probe to the same value and shall not be modified until the next time the alMatrixTopNControlTimeRemaining is set. This value shall be zero if no reports have been requested for this alMatrixTopNControlEntry."; } leaf alMatrixTopNControlRequestedSize { smiv2:defval "150"; smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.17.3.1.7"; type int32 { range "0..2147483647"; } description "The maximum number of matrix entries requested for this report. When this object is created or modified, the probe should set alMatrixTopNControlGrantedSize as closely to this object as is possible for the particular probe implementation and available resources."; } leaf alMatrixTopNControlGrantedSize { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.3.1.8"; type int32 { range "0..2147483647"; } description "The maximum number of matrix entries in this report. When the associated alMatrixTopNControlRequestedSize object is created or modified, the probe should set this object as closely to the requested value as is possible for the particular implementation and available resources. The probe must not lower this value except as a result of a set to the associated alMatrixTopNControlRequestedSize object. If the value of alMatrixTopNControlRateBase is equal to alMatrixTopNTerminalsPkts or alMatrixTopNAllPkts, when the next topN report is generated, matrix entries with the highest value of alMatrixTopNPktRate shall be placed in this table in decreasing order of this rate until there is no more room or until there are no more matrix entries. If the value of alMatrixTopNControlRateBase is equal to alMatrixTopNTerminalsOctets or alMatrixTopNAllOctets, when the next topN report is generated, matrix entries with the highest value of alMatrixTopNOctetRate shall be placed in this table in decreasing order of this rate until there is no more room or until there are no more matrix entries. It is an implementation-specific matter how entries with the same value of alMatrixTopNPktRate or alMatrixTopNOctetRate are sorted. It is also an implementation-specific matter as to whether or not zero-valued entries are available."; } leaf alMatrixTopNControlStartTime { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.3.1.9"; type yang:timestamp; description "The value of sysUpTime when this top N report was last started. In other words, this is the time that the associated alMatrixTopNControlTimeRemaining object was modified to start the requested report or the time the report was last automatically (re)started. This object may be used by the management station to determine if a report was missed or not."; } leaf alMatrixTopNControlOwner { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.17.3.1.10"; type rmon-mib:OwnerString; description "The entity that configured this entry and is therefore using the resources assigned to it."; } leaf alMatrixTopNControlStatus { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.17.3.1.11"; type snmpv2-tc:RowStatus; description "The status of this alMatrixTopNControlEntry. An entry may not exist in the active state unless all objects in the entry have an appropriate value. If this object is not equal to active(1), all associated entries in the alMatrixTopNTable shall be deleted by the agent."; } } // list alMatrixTopNControlEntry } // container alMatrixTopNControlTable container alMatrixTopNTable { smiv2:oid "1.3.6.1.2.1.16.17.4"; description "A set of statistics for those application layer matrix entries that have counted the highest number of octets or packets."; list alMatrixTopNEntry { smiv2:oid "1.3.6.1.2.1.16.17.4.1"; key "alMatrixTopNControlIndex alMatrixTopNIndex"; description "A conceptual row in the alMatrixTopNTable. The alMatrixTopNControlIndex value in the index identifies the alMatrixTopNControlEntry on whose behalf this entry was created. An example of the indexing of this table is alMatrixTopNPktRate.3.10"; leaf alMatrixTopNControlIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:alMatrixTopNControlTable/RMON2-MIB:alMatrixTopNControlEntry/RMON2-MIB:alMatrixTopNControlIndex"; } } leaf alMatrixTopNIndex { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.17.4.1.1"; type int32 { range "1..65535"; } description "An index that uniquely identifies an entry in the alMatrixTopNTable among those in the same report. This index is between 1 and N, where N is the number of entries in this report. If the value of alMatrixTopNControlRateBase is equal to alMatrixTopNTerminalsPkts or alMatrixTopNAllPkts, increasing values of alMatrixTopNIndex shall be assigned to entries with decreasing values of alMatrixTopNPktRate until index N is assigned or there are no more alMatrixTopNEntries. If the value of alMatrixTopNControlRateBase is equal to alMatrixTopNTerminalsOctets or alMatrixTopNAllOctets, increasing values of alMatrixTopNIndex shall be assigned to entries with decreasing values of alMatrixTopNOctetRate until index N is assigned or there are no more alMatrixTopNEntries."; } leaf alMatrixTopNProtocolDirLocalIndex { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.4.1.2"; type int32 { range "1..2147483647"; } description "The protocolDirLocalIndex of the network layer protocol of this entry's network address."; } leaf alMatrixTopNSourceAddress { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.4.1.3"; type binary; description "The network layer address of the source host in this conversation. This is represented as an octet string with specific semantics and length as identified by the associated alMatrixTopNProtocolDirLocalIndex. For example, if the alMatrixTopNProtocolDirLocalIndex indicates an encapsulation of ip, this object is encoded as a length octet of 4, followed by the 4 octets of the ip address, in network byte order."; } leaf alMatrixTopNDestAddress { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.4.1.4"; type binary; description "The network layer address of the destination host in this conversation. This is represented as an octet string with specific semantics and length as identified by the associated alMatrixTopNProtocolDirLocalIndex. For example, if the alMatrixTopNProtocolDirLocalIndex indicates an encapsulation of ip, this object is encoded as a length octet of 4, followed by the 4 octets of the ip address, in network byte order."; } leaf alMatrixTopNAppProtocolDirLocalIndex { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.4.1.5"; type int32 { range "1..2147483647"; } description "The type of the protocol counted by this matrix entry."; } leaf alMatrixTopNPktRate { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.4.1.6"; type yang:gauge32; description "The number of packets seen of this protocol from the source host to the destination host during this sampling interval, counted using the rules for counting the alMatrixSDPkts object. If the value of alMatrixTopNControlRateBase is alMatrixTopNTerminalsPkts or alMatrixTopNAllPkts, this variable will be used to sort this report."; } leaf alMatrixTopNReversePktRate { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.4.1.7"; type yang:gauge32; description "The number of packets seen of this protocol from the destination host to the source host during this sampling interval, counted using the rules for counting the alMatrixDSPkts object (note that the corresponding alMatrixSDPkts object selected is the one whose source address is equal to alMatrixTopNDestAddress and whose destination address is equal to alMatrixTopNSourceAddress.) Note that if the value of alMatrixTopNControlRateBase is equal to alMatrixTopNTerminalsPkts or alMatrixTopNAllPkts, the sort of topN entries is based entirely on alMatrixTopNPktRate, and not on the value of this object."; } leaf alMatrixTopNOctetRate { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.4.1.8"; type yang:gauge32; description "The number of octets seen of this protocol from the source host to the destination host during this sampling interval, counted using the rules for counting the alMatrixSDOctets object. If the value of alMatrixTopNControlRateBase is alMatrixTopNTerminalsOctets or alMatrixTopNAllOctets, this variable will be used to sort this report."; } leaf alMatrixTopNReverseOctetRate { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.17.4.1.9"; type yang:gauge32; description "The number of octets seen of this protocol from the destination host to the source host during this sampling interval, counted using the rules for counting the alMatrixDSOctets object (note that the corresponding alMatrixSDOctets object selected is the one whose source address is equal to alMatrixTopNDestAddress and whose destination address is equal to alMatrixTopNSourceAddress.) Note that if the value of alMatrixTopNControlRateBase is equal to alMatrixTopNTerminalsOctets or alMatrixTopNAllOctets, the sort of topN entries is based entirely on alMatrixTopNOctetRate, and not on the value of this object."; } } // list alMatrixTopNEntry } // container alMatrixTopNTable container usrHistoryControlTable { smiv2:oid "1.3.6.1.2.1.16.18.1"; description "A list of data-collection configuration entries."; list usrHistoryControlEntry { smiv2:oid "1.3.6.1.2.1.16.18.1.1"; key "usrHistoryControlIndex"; description "A list of parameters that set up a group of user-defined MIB objects to be sampled periodically (called a bucket-group). For example, an instance of usrHistoryControlInterval might be named usrHistoryControlInterval.1"; leaf usrHistoryControlIndex { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.18.1.1.1"; type int32 { range "1..65535"; } description "An index that uniquely identifies an entry in the usrHistoryControlTable. Each such entry defines a set of samples at a particular interval for a specified set of MIB instances available from the managed system."; } leaf usrHistoryControlObjects { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.18.1.1.2"; type int32 { range "1..65535"; } description "The number of MIB objects to be collected in the portion of usrHistoryTable associated with this usrHistoryControlEntry. This object may not be modified if the associated instance of usrHistoryControlStatus is equal to active(1)."; } leaf usrHistoryControlBucketsRequested { smiv2:defval "50"; smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.18.1.1.3"; type int32 { range "1..65535"; } description "The requested number of discrete time intervals over which data is to be saved in the part of the usrHistoryTable associated with this usrHistoryControlEntry. When this object is created or modified, the probe should set usrHistoryControlBucketsGranted as closely to this object as is possible for the particular probe implementation and available resources."; } leaf usrHistoryControlBucketsGranted { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.18.1.1.4"; type int32 { range "1..65535"; } description "The number of discrete sampling intervals over which data shall be saved in the part of the usrHistoryTable associated with this usrHistoryControlEntry. When the associated usrHistoryControlBucketsRequested object is created or modified, the probe should set this object as closely to the requested value as is possible for the particular probe implementation and available resources. The probe must not lower this value except as a result of a modification to the associated usrHistoryControlBucketsRequested object. The associated usrHistoryControlBucketsRequested object should be set before or at the same time as this object to allow the probe to accurately estimate the resources required for this usrHistoryControlEntry. There will be times when the actual number of buckets associated with this entry is less than the value of this object. In this case, at the end of each sampling interval, a new bucket will be added to the usrHistoryTable. When the number of buckets reaches the value of this object and a new bucket is to be added to the usrHistoryTable, the oldest bucket associated with this usrHistoryControlEntry shall be deleted by the agent so that the new bucket can be added. When the value of this object changes to a value less than the current value, entries are deleted from the usrHistoryTable associated with this usrHistoryControlEntry. Enough of the oldest of these entries shall be deleted by the agent so that their number remains less than or equal to the new value of this object. When the value of this object changes to a value greater than the current value, the number of associated usrHistory entries may be allowed to grow."; } leaf usrHistoryControlInterval { smiv2:defval "1800"; smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.18.1.1.5"; type int32 { range "1..2147483647"; } description "The interval in seconds over which the data is sampled for each bucket in the part of the usrHistory table associated with this usrHistoryControlEntry. Because the counters in a bucket may overflow at their maximum value with no indication, a prudent manager will take into account the possibility of overflow in any of the associated counters. It is important to consider the minimum time in which any counter could overflow on a particular media type and set the usrHistoryControlInterval object to a value less than this interval. This object may not be modified if the associated usrHistoryControlStatus object is equal to active(1)."; } leaf usrHistoryControlOwner { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.18.1.1.6"; type rmon-mib:OwnerString; description "The entity that configured this entry and is therefore using the resources assigned to it."; } leaf usrHistoryControlStatus { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.18.1.1.7"; type snmpv2-tc:RowStatus; description "The status of this variable history control entry. An entry may not exist in the active state unless all objects in the entry have an appropriate value. If this object is not equal to active(1), all associated entries in the usrHistoryTable shall be deleted."; } } // list usrHistoryControlEntry } // container usrHistoryControlTable container usrHistoryObjectTable { smiv2:oid "1.3.6.1.2.1.16.18.2"; description "A list of data-collection configuration entries."; list usrHistoryObjectEntry { smiv2:oid "1.3.6.1.2.1.16.18.2.1"; key "usrHistoryControlIndex usrHistoryObjectIndex"; description "A list of MIB instances to be sampled periodically. Entries in this table are created when an associated usrHistoryControlObjects object is created. The usrHistoryControlIndex value in the index is that of the associated usrHistoryControlEntry. For example, an instance of usrHistoryObjectVariable might be usrHistoryObjectVariable.1.3"; leaf usrHistoryControlIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:usrHistoryControlTable/RMON2-MIB:usrHistoryControlEntry/RMON2-MIB:usrHistoryControlIndex"; } } leaf usrHistoryObjectIndex { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.18.2.1.1"; type int32 { range "1..65535"; } description "An index used to uniquely identify an entry in the usrHistoryObject table. Each such entry defines a MIB instance to be collected periodically."; } leaf usrHistoryObjectVariable { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.18.2.1.2"; type yang:object-identifier-128; description "The object identifier of the particular variable to be sampled. Only variables that resolve to an ASN.1 primitive type of Integer32 (Integer32, Counter, Gauge, or TimeTicks) may be sampled. Because SNMP access control is articulated entirely in terms of the contents of MIB views, no access control mechanism exists that can restrict the value of this object to identify only those objects that exist in a particular MIB view. Because there is thus no acceptable means of restricting the read access that could be obtained through the user history mechanism, the probe must only grant write access to this object in those views that have read access to all objects on the probe. During a set operation, if the supplied variable name is not available in the selected MIB view, a badValue error must be returned. This object may not be modified if the associated usrHistoryControlStatus object is equal to active(1)."; } leaf usrHistoryObjectSampleType { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.18.2.1.3"; type enumeration { enum "absoluteValue" { value 1; } enum "deltaValue" { value 2; } } description "The method of sampling the selected variable for storage in the usrHistoryTable. If the value of this object is absoluteValue(1), the value of the selected variable will be copied directly into the history bucket. If the value of this object is deltaValue(2), the value of the selected variable at the last sample will be subtracted from the current value, and the difference will be stored in the history bucket. If the associated usrHistoryObjectVariable instance could not be obtained at the previous sample interval, then a delta sample is not possible, and the value of the associated usrHistoryValStatus object for this interval will be valueNotAvailable(1). This object may not be modified if the associated usrHistoryControlStatus object is equal to active(1)."; } } // list usrHistoryObjectEntry } // container usrHistoryObjectTable container usrHistoryTable { smiv2:oid "1.3.6.1.2.1.16.18.3"; description "A list of user defined history entries."; list usrHistoryEntry { smiv2:oid "1.3.6.1.2.1.16.18.3.1"; key "usrHistoryControlIndex usrHistorySampleIndex usrHistoryObjectIndex"; description "A historical sample of user-defined variables. This sample is associated with the usrHistoryControlEntry which set up the parameters for a regular collection of these samples. The usrHistoryControlIndex value in the index identifies the usrHistoryControlEntry on whose behalf this entry was created. The usrHistoryObjectIndex value in the index identifies the usrHistoryObjectEntry on whose behalf this entry was created. For example, an instance of usrHistoryAbsValue, which represents the 14th sample of a variable collected as specified by usrHistoryControlEntry.1 and usrHistoryObjectEntry.1.5, would be named usrHistoryAbsValue.1.14.5"; leaf usrHistoryControlIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:usrHistoryControlTable/RMON2-MIB:usrHistoryControlEntry/RMON2-MIB:usrHistoryControlIndex"; } } leaf usrHistoryObjectIndex { type leafref { path "/RMON2-MIB:RMON2-MIB/RMON2-MIB:usrHistoryObjectTable/RMON2-MIB:usrHistoryObjectEntry/RMON2-MIB:usrHistoryObjectIndex"; } } leaf usrHistorySampleIndex { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.18.3.1.1"; type int32 { range "1..2147483647"; } description "An index that uniquely identifies the particular sample this entry represents among all samples associated with the same usrHistoryControlEntry. This index starts at 1 and increases by one as each new sample is taken."; } leaf usrHistoryIntervalStart { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.18.3.1.2"; type yang:timestamp; description "The value of sysUpTime at the start of the interval over which this sample was measured. If the probe keeps track of the time of day, it should start the first sample of the history at a time such that when the next hour of the day begins, a sample is started at that instant. Note that following this rule may require the probe to delay collecting the first sample of the history, as each sample must be of the same interval. Also note that the sample which is currently being collected is not accessible in this table until the end of its interval."; } leaf usrHistoryIntervalEnd { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.18.3.1.3"; type yang:timestamp; description "The value of sysUpTime at the end of the interval over which this sample was measured."; } leaf usrHistoryAbsValue { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.18.3.1.4"; type yang:gauge32; description "The absolute value (i.e. unsigned value) of the user-specified statistic during the last sampling period. The value during the current sampling period is not made available until the period is completed. To obtain the true value for this sampling interval, the associated instance of usrHistoryValStatus must be checked, and usrHistoryAbsValue adjusted as necessary. If the MIB instance could not be accessed during the sampling interval, then this object will have a value of zero and the associated instance of usrHistoryValStatus will be set to 'valueNotAvailable(1)'."; } leaf usrHistoryValStatus { smiv2:max-access "read-only"; smiv2:oid "1.3.6.1.2.1.16.18.3.1.5"; type enumeration { enum "valueNotAvailable" { value 1; } enum "valuePositive" { value 2; } enum "valueNegative" { value 3; } } description "This object indicates the validity and sign of the data in the associated instance of usrHistoryAbsValue. If the MIB instance could not be accessed during the sampling interval, then 'valueNotAvailable(1)' will be returned. If the sample is valid and actual value of the sample is greater than or equal to zero then 'valuePositive(2)' is returned. If the sample is valid and the actual value of the sample is less than zero, 'valueNegative(3)' will be returned. The associated instance of usrHistoryAbsValue should be multiplied by -1 to obtain the true sample value."; } } // list usrHistoryEntry } // container usrHistoryTable container serialConfigTable { smiv2:oid "1.3.6.1.2.1.16.19.10"; description "A table of serial interface configuration entries. This data will be stored in non-volatile memory and preserved across probe resets or power loss."; list serialConfigEntry { smiv2:oid "1.3.6.1.2.1.16.19.10.1"; key "ifIndex"; description "A set of configuration parameters for a particular serial interface on this device. If the device has no serial interfaces, this table is empty. The index is composed of the ifIndex assigned to this serial line interface."; leaf ifIndex { type leafref { path "/rfc1213-mib:RFC1213-MIB/rfc1213-mib:ifTable/rfc1213-mib:ifEntry/rfc1213-mib:ifIndex"; } } leaf serialMode { smiv2:defval "direct"; smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.10.1.1"; type enumeration { enum "direct" { value 1; } enum "modem" { value 2; } } description "The type of incoming connection to expect on this serial interface."; } leaf serialProtocol { smiv2:defval "slip"; smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.10.1.2"; type enumeration { enum "other" { value 1; } enum "slip" { value 2; } enum "ppp" { value 3; } } description "The type of data link encapsulation to be used on this serial interface."; } leaf serialTimeout { smiv2:defval "300"; smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.10.1.3"; type int32 { range "1..65535"; } description "This timeout value is used when the Management Station has initiated the conversation over the serial link. This variable represents the number of seconds of inactivity allowed before terminating the connection on this serial interface. Use the serialDialoutTimeout in the case where the probe has initiated the connection for the purpose of sending a trap."; } leaf serialModemInitString { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.10.1.4"; type ControlString { length "0..255"; } description "A control string which controls how a modem attached to this serial interface should be initialized. The initialization is performed once during startup and again after each connection is terminated if the associated serialMode has the value of modem(2). A control string that is appropriate for a wide variety of modems is: '^s^MATE0Q0V1X4 S0=1 S2=43^M'."; } leaf serialModemHangUpString { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.10.1.5"; type ControlString { length "0..255"; } description "A control string which specifies how to disconnect a modem connection on this serial interface. This object is only meaningful if the associated serialMode has the value of modem(2). A control string that is appropriate for a wide variety of modems is: '^d2^s+++^d2^sATH0^M^d2'."; } leaf serialModemConnectResp { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.10.1.6"; type snmpv2-tc:DisplayString { length "0..255"; } description "An ASCII string containing substrings that describe the expected modem connection response code and associated bps rate. The substrings are delimited by the first character in the string, for example: /CONNECT/300/CONNECT 1200/1200/CONNECT 2400/2400/ CONNECT 4800/4800/CONNECT 9600/9600 will be interpreted as: response code bps rate CONNECT 300 CONNECT 1200 1200 CONNECT 2400 2400 CONNECT 4800 4800 CONNECT 9600 9600 The agent will use the information in this string to adjust the bps rate of this serial interface once a modem connection is established. A value that is appropriate for a wide variety of modems is: '/CONNECT/300/CONNECT 1200/1200/CONNECT 2400/2400/ CONNECT 4800/4800/CONNECT 9600/9600/CONNECT 14400/14400/ CONNECT 19200/19200/CONNECT 38400/38400/'."; } leaf serialModemNoConnectResp { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.10.1.7"; type snmpv2-tc:DisplayString { length "0..255"; } description "An ASCII string containing response codes that may be generated by a modem to report the reason why a connection attempt has failed. The response codes are delimited by the first character in the string, for example: /NO CARRIER/BUSY/NO DIALTONE/NO ANSWER/ERROR/ If one of these response codes is received via this serial interface while attempting to make a modem connection, the agent will issue the hang up command as specified by serialModemHangUpString. A value that is appropriate for a wide variety of modems is: '/NO CARRIER/BUSY/NO DIALTONE/NO ANSWER/ERROR/'."; } leaf serialDialoutTimeout { smiv2:defval "20"; smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.10.1.8"; type int32 { range "1..65535"; } description "This timeout value is used when the probe initiates the serial connection with the intention of contacting a management station. This variable represents the number of seconds of inactivity allowed before terminating the connection on this serial interface."; } leaf serialStatus { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.10.1.9"; type snmpv2-tc:RowStatus; description "The status of this serialConfigEntry. An entry may not exist in the active state unless all objects in the entry have an appropriate value."; } } // list serialConfigEntry } // container serialConfigTable container netConfigTable { smiv2:oid "1.3.6.1.2.1.16.19.11"; description "A table of netConfigEntries."; list netConfigEntry { smiv2:oid "1.3.6.1.2.1.16.19.11.1"; key "ifIndex"; description "A set of configuration parameters for a particular network interface on this device. If the device has no network interface, this table is empty. The index is composed of the ifIndex assigned to the corresponding interface."; leaf ifIndex { type leafref { path "/rfc1213-mib:RFC1213-MIB/rfc1213-mib:ifTable/rfc1213-mib:ifEntry/rfc1213-mib:ifIndex"; } } leaf netConfigIPAddress { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.11.1.1"; type inet:ipv4-address; description "The IP address of this Net interface. The default value for this object is 0.0.0.0. If either the netConfigIPAddress or netConfigSubnetMask are 0.0.0.0, then when the device boots, it may use BOOTP to try to figure out what these values should be. If BOOTP fails, before the device can talk on the network, this value must be configured (e.g., through a terminal attached to the device). If BOOTP is used, care should be taken to not send BOOTP broadcasts too frequently and to eventually send very infrequently if no replies are received."; } leaf netConfigSubnetMask { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.11.1.2"; type inet:ipv4-address; description "The subnet mask of this Net interface. The default value for this object is 0.0.0.0. If either the netConfigIPAddress or netConfigSubnetMask are 0.0.0.0, then when the device boots, it may use BOOTP to try to figure out what these values should be. If BOOTP fails, before the device can talk on the network, this value must be configured (e.g., through a terminal attached to the device). If BOOTP is used, care should be taken to not send BOOTP broadcasts too frequently and to eventually send very infrequently if no replies are received."; } leaf netConfigStatus { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.11.1.3"; type snmpv2-tc:RowStatus; description "The status of this netConfigEntry. An entry may not exist in the active state unless all objects in the entry have an appropriate value."; } } // list netConfigEntry } // container netConfigTable container trapDestTable { smiv2:oid "1.3.6.1.2.1.16.19.13"; description "A list of trap destination entries."; list trapDestEntry { smiv2:oid "1.3.6.1.2.1.16.19.13.1"; key "trapDestIndex"; description "This entry includes a destination IP address to which to send traps for this community."; leaf trapDestIndex { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.19.13.1.1"; type int32 { range "1..65535"; } description "A value that uniquely identifies this trapDestEntry."; } leaf trapDestCommunity { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.13.1.2"; type binary { length "0..127"; } description "A community to which this destination address belongs. This entry is associated with any eventEntries in the RMON MIB whose value of eventCommunity is equal to the value of this object. Every time an associated event entry sends a trap due to an event, that trap will be sent to each address in the trapDestTable with a trapDestCommunity equal to eventCommunity. This object may not be modified if the associated trapDestStatus object is equal to active(1)."; } leaf trapDestProtocol { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.13.1.3"; type enumeration { enum "ip" { value 1; } enum "ipx" { value 2; } } description "The protocol with which to send this trap."; } leaf trapDestAddress { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.13.1.4"; type binary; description "The address to send traps on behalf of this entry. If the associated trapDestProtocol object is equal to ip(1), the encoding of this object is the same as the snmpUDPAddress textual convention in [RFC1906]: -- for a SnmpUDPAddress of length 6: -- -- octets contents encoding -- 1-4 IP-address network-byte order -- 5-6 UDP-port network-byte order If the associated trapDestProtocol object is equal to ipx(2), the encoding of this object is the same as the snmpIPXAddress textual convention in [RFC1906]: -- for a SnmpIPXAddress of length 12: -- -- octets contents encoding -- 1-4 network-number network-byte order -- 5-10 physical-address network-byte order -- 11-12 socket-number network-byte order This object may not be modified if the associated trapDestStatus object is equal to active(1)."; } leaf trapDestOwner { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.13.1.5"; type rmon-mib:OwnerString; description "The entity that configured this entry and is therefore using the resources assigned to it."; } leaf trapDestStatus { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.13.1.6"; type snmpv2-tc:RowStatus; description "The status of this trap destination entry. An entry may not exist in the active state unless all objects in the entry have an appropriate value."; } } // list trapDestEntry } // container trapDestTable container serialConnectionTable { smiv2:oid "1.3.6.1.2.1.16.19.14"; description "A list of serialConnectionEntries."; list serialConnectionEntry { smiv2:oid "1.3.6.1.2.1.16.19.14.1"; key "serialConnectIndex"; description "Configuration for a SLIP link over a serial line."; leaf serialConnectIndex { smiv2:max-access "not-accessible"; smiv2:oid "1.3.6.1.2.1.16.19.14.1.1"; type int32 { range "1..65535"; } description "A value that uniquely identifies this serialConnection entry."; } leaf serialConnectDestIpAddress { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.14.1.2"; type inet:ipv4-address; description "The IP Address that can be reached at the other end of this serial connection. This object may not be modified if the associated serialConnectStatus object is equal to active(1)."; } leaf serialConnectType { smiv2:defval "direct"; smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.14.1.3"; type enumeration { enum "direct" { value 1; } enum "modem" { value 2; } enum "switch" { value 3; } enum "modemSwitch" { value 4; } } description "The type of outgoing connection to make. If this object has the value direct(1), then a direct serial connection is assumed. If this object has the value modem(2), then serialConnectDialString will be used to make a modem connection. If this object has the value switch(3), then serialConnectSwitchConnectSeq will be used to establish the connection over a serial data switch, and serialConnectSwitchDisconnectSeq will be used to terminate the connection. If this object has the value modem-switch(4), then a modem connection will be made first followed by the switch connection. This object may not be modified if the associated serialConnectStatus object is equal to active(1)."; } leaf serialConnectDialString { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.14.1.4"; type ControlString { length "0..255"; } description "A control string which specifies how to dial the phone number in order to establish a modem connection. The string should include dialing prefix and suffix. For example: ``^s^MATD9,888-1234^M'' will instruct the Probe to send a carriage return followed by the dialing prefix ``ATD'', the phone number ``9,888-1234'', and a carriage return as the dialing suffix. This object may not be modified if the associated serialConnectStatus object is equal to active(1)."; } leaf serialConnectSwitchConnectSeq { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.14.1.5"; type ControlString { length "0..255"; } description "A control string which specifies how to establish a data switch connection. This object may not be modified if the associated serialConnectStatus object is equal to active(1)."; } leaf serialConnectSwitchDisconnectSeq { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.14.1.6"; type ControlString { length "0..255"; } description "A control string which specifies how to terminate a data switch connection. This object may not be modified if the associated serialConnectStatus object is equal to active(1)."; } leaf serialConnectSwitchResetSeq { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.14.1.7"; type ControlString { length "0..255"; } description "A control string which specifies how to reset a data switch in the event of a timeout. This object may not be modified if the associated serialConnectStatus object is equal to active(1)."; } leaf serialConnectOwner { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.14.1.8"; type rmon-mib:OwnerString; description "The entity that configured this entry and is therefore using the resources assigned to it."; } leaf serialConnectStatus { smiv2:max-access "read-write"; smiv2:oid "1.3.6.1.2.1.16.19.14.1.9"; type snmpv2-tc:RowStatus; description "The status of this serialConnectionEntry. If the manager attempts to set this object to active(1) when the serialConnectType is set to modem(2) or modem-switch(4) and the serialConnectDialString is a zero-length string or cannot be correctly parsed as a ConnectString, the set request will be rejected with badValue(3). If the manager attempts to set this object to active(1) when the serialConnectType is set to switch(3) or modem-switch(4) and the serialConnectSwitchConnectSeq, the serialConnectSwitchDisconnectSeq, or the serialConnectSwitchResetSeq are zero-length strings or cannot be correctly parsed as ConnectStrings, the set request will be rejected with badValue(3). An entry may not exist in the active state unless all objects in the entry have an appropriate value."; } } // list serialConnectionEntry } // container serialConnectionTable } // container RMON2-MIB } // module RMON2-MIB
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