mibs/MIBS/transition/TN-TC

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-- *****************************************************************
-- TN-TC: Textual Conventions
--
-- Copyright (c) 2009 by Transition Networks, Inc.
-- All rights reserved.
-- *****************************************************************
--
TN-TC DEFINITIONS ::= BEGIN
IMPORTS
Integer32 FROM SNMPv2-SMI
Gauge32 FROM SNMPv2-SMI
TEXTUAL-CONVENTION
FROM SNMPv2-TC;
-- definition of textual conventions
TNInteger8 ::= TEXTUAL-CONVENTION
DISPLAY-HINT "d"
STATUS current
DESCRIPTION
"Represents an 8-bit signed integer."
SYNTAX INTEGER (-128..127)
TNInteger16 ::= TEXTUAL-CONVENTION
DISPLAY-HINT "d"
STATUS current
DESCRIPTION
"Represents a 16-bit signed integer."
SYNTAX INTEGER (-32768..32767)
TNInteger64 ::= TEXTUAL-CONVENTION
DISPLAY-HINT "8x"
STATUS current
DESCRIPTION
"Represents a 64-bit signed integer encoded as two's complement in
network order."
SYNTAX OCTET STRING (SIZE (8))
TNUnsigned8 ::= TEXTUAL-CONVENTION
DISPLAY-HINT "d"
STATUS current
DESCRIPTION
"Represents an 8-bit unsigned integer."
SYNTAX Gauge32 (0..255)
TNUnsigned16 ::= TEXTUAL-CONVENTION
DISPLAY-HINT "d"
STATUS current
DESCRIPTION
"Represents a 16-bit unsigned integer."
SYNTAX Gauge32 (0..65535)
TNUnsigned64 ::= TEXTUAL-CONVENTION
DISPLAY-HINT "8x"
STATUS current
DESCRIPTION
"Represents a 64-bit unsigned integer encoded in network order."
SYNTAX OCTET STRING (SIZE (8))
TNTimeStamp ::= TEXTUAL-CONVENTION
DISPLAY-HINT "8x"
STATUS current
DESCRIPTION
"Represents a timestamp in seconds since epoch. The data is encoded as
a 64-bit unsigned integer in network order."
SYNTAX OCTET STRING (SIZE (8))
TNEtherType ::= TEXTUAL-CONVENTION
DISPLAY-HINT "2x"
STATUS current
DESCRIPTION
"Represents a 16-bit Ethernet Type."
SYNTAX Gauge32 (0..65535)
TNInterfaceIndex ::= TEXTUAL-CONVENTION
DISPLAY-HINT "d"
STATUS current
DESCRIPTION
"The interface index is a unique identification of an arbitrary
interface in the system. Example of interfaces could be physical ports,
aggregations, VLAN interfaces and others.
The interface indexes used by the system is deterministic and is
chosen using the schema below.
NONE 0 - 0 (standalone/stacking)
Usid1 /ports 1 - 999 (standalone/stacking)
Usid1 /llagr 501 - 4999 (standalone/stacking)
VLAN 50001 - 54.095 (standalone/stacking)
GLAG 100.000.001 - 100.000.999 (standalone/stacking)
EVC 200.000.001 - 200.099.999 (standalone)
MPLS links 300.000.001 - 300.009.999 (standalone)
MPLS tunnels 400.000.001 - 400.099.999 (standalone)
MPLS pseudo-wires 500.000.001 - 500.099.999 (standalone)
MPLS lsp 600.000.001 - 600.099.999 (standalone)"
SYNTAX Integer32 (0..2147483647)
TNRowEditorState ::= TEXTUAL-CONVENTION
DISPLAY-HINT "d"
STATUS current
DESCRIPTION
"The RowEditorState is used both as a column in the dynamic tables, and
as a object in the row editor. The meaning of the row editor state
depends on the context where it is used.
In either case it is used to implement actions related to add or delete
columns in dynamic tables.
When used as a column in a dynamic table
----------------------------------------
Read back of this value will always be zero. If the value 1 is written
to this object the given row will be deleted. Values different from 0
and 1 are reserved for future use and should not be used.
When used as an object in a row editor
--------------------------------------
A value used to control the row editor protocol. The values 0-255 are
reserved to be used in the row editor protocol, all other values tokes
the manager can use to reserve the row editor.
The values 0, 1 and 2 is currently use din the row editor protocol
while the values 3-255 are reserved for future use.
Following is the names of the values used in the row editor protocol:
0: IDLE STATE
1: CLEAR-ACTION
2: COMMIT-ACTION
256-4294967295: MANAGER-ID
The following state machine defines the row editor protocol:
+--------------+ +------------------+
| |<----------------| |
| | CLEAR | |
| IDLE |<----------------| RESERVED |
| | COMMIT | |
| |---------------->| |
+--------------+ MANAGER-ID +------------------+
When the RowEditorState is being read one will either read the value
zero: meaning that the row editor is in the idle state. Or a value
between 256-4294967295: meaning that the row editor is reserved with
the given ID.
When the row editor is in the IDLE state the manager may try to reserve
it by writing its own MANAGER-ID to the RowEditorState object. If the
write succeeds the manager can read-back the MANAGER-ID.
When the row editor is in the RESERVED state the manager can either
clear the changes by writing CLEAR, or it can commit the changes by
writing COMMIT. Both actions will cause the state to jump back to the
IDLE state, but only the COMMIT will cause the row to be added."
SYNTAX Gauge32
TNPercent ::= TEXTUAL-CONVENTION
DISPLAY-HINT "d"
STATUS current
DESCRIPTION
"An integer in the range 0..100 representing a percent value"
SYNTAX Gauge32(0..100)
TNPortList ::= TEXTUAL-CONVENTION
DISPLAY-HINT "128x"
STATUS current
DESCRIPTION
"A list of ports that may be distributed across more stack units.
The type should be interpreted as a sequence of bits, each bit
representing a port. If a bit is set (1) the represented port is
included in the port list. If a bit is not set (0) the represented port
is not included in the port list.
Each switch in a stack is represented by an ID in the range [1-16] both
included. Each switch in the stack has a reserved range of 64 bits
or 8 bytes in this octet string. If the switch is not stackable it will
be represented as 'Switch 1'.
The switch with ID 1 owns the byte range 0-7, switch ID 2 owns the
byte range 8-15, etc.
The physical ports are represented by the bit index relative to the
range owned by a given switch. Bit number zero is the least significant
bit of the first entry in the byte sequence owned by the switch (port
number 0 if such a port exists). Bit number one is the second least
significant bit in the first byte of the range owned by the switch.
This is illustrated below:
Port 7 switch 1 Port 7 switch 2
^ Port 0 switch 1 ^ Port 0 switch 2
| ^ Port 15 switch 1 | ^ Port 63 switch 2
| | ^ Port 8 switch 1 | | ^ Port 56 switch 2
| | | ^ Port 23 switch 1 | | ^
| | | | ^ Port 16 switch 1 | |
| | | | | ^ Port 63 switch 1 |
| | | | | | ^ Port 56 switch 1 |
| | | | | | | ^ |
| | | | | | | | | | | |
v v v v v v v v v v v v
+---------------------------------------------------------------+
|byte 0|byte 1|byte 2|...|byte 7|byte 8|...|byte 15|...|byte 127|
+---------------------------------------------------------------+
\______________ ______________/ \________ ______/ \____ ____/
\/ \/ \/
Switch 1 Switch 2 Switch 3-16
The octet string is truncated at most significant byte which is not
zero. An empty port list is encoded as [0x00].
Example: a non-stackable switch where 48 is the highest port number
needs seven bytes to represent a complete port list. If the port list
only contains port 1, 2 and 20 then the SNMP encoded port list is:
[0x06, 0x00, 0x10].
NOTE: Even though port 0 does not exists in the port map it is still
represented by a bit in this port list. The same is true for the higher
indices. Configuring non-existing ports using the port list will have
no effect on the target."
SYNTAX OCTET STRING (SIZE (1..128))
TNVlan ::= TEXTUAL-CONVENTION
DISPLAY-HINT "d"
STATUS current
DESCRIPTION
"An integer representing a VLAN ID."
SYNTAX Gauge32 (1..4095)
TNVlanListQuarter ::= TEXTUAL-CONVENTION
DISPLAY-HINT "128x"
STATUS current
DESCRIPTION
"A list representing 1024 VLAN IDs.
The type should be interpreted as a sequence of bits, each bit
representing one VLAN ID. If a bit is set (1) the represented VLAN is
included in the VLAN list. If a bit is not set (0) the represented VLAN
is not included in the VLAN list.
The least significant bit of each byte represents a smaller VLAN ID
than a more significant bit of a byte.
If for example the VLAN list represents VLAN IDs from 0 to 1023,
bit 0 of the first byte represents VLAN ID 0, bit 1 of the first byte
represents VLAN ID 1, and so on. The most significant bit of the 128th
byte therefore represents VLAN ID 1023.
An implementation that needs to represent all 4K VLANs will divide
the VLAN list into four equally sized objects. VLAN ID 0 is included
in the first object even though it is not used."
SYNTAX OCTET STRING (SIZE (128))
TNDisplayString ::= TEXTUAL-CONVENTION
DISPLAY-HINT "255a"
STATUS current
DESCRIPTION
"Represents textual information taken from the ASCII character
set, as defined in ANSI X3.4-1986 with some restrictions.
The following rules apply:
- only character codes 32-126 (decimal) are supported
- the graphics characters (32-126) are interpreted as
US ASCII
Any object defined using this syntax may not exceed 255
characters in length."
SYNTAX OCTET STRING (SIZE (0..255))
TNInetAddress ::= TEXTUAL-CONVENTION
DISPLAY-HINT "255a"
STATUS current
DESCRIPTION
"Represents an internet address. Following is the list of supported
address types: IPv4 address, IPv6 address, Domain name or No-Address.
The addresses are encoded as a human readable string as defined here:
- IPv4 address is encoded as 'a.b.c.d' where a-d are integer numbers in
the range from 0-255.
- IPv6 address is encoded as defined in RFC5952.
- Domain names are passed through in their native representation.
- No-Address is encoded as the string literal: '<no-address>'.
This type is not allowed to be used as indices in tables."
SYNTAX OCTET STRING (SIZE (1..253))
TNIpAddress ::= TEXTUAL-CONVENTION
DISPLAY-HINT "255a"
STATUS current
DESCRIPTION
"Represents an internet address. Following is the list of supported
address types: IPv4 address, IPv6 address or No-Address.
The addresses are encoded as a human readable string as defined here:
- IPv4 address is encoded as 'a.b.c.d' where a-d are integer numbers in
the range from 0-255.
- IPv6 address is encoded as defined in RFC5952.
- No-Address is encoded as the string literal: '<no-address>'."
SYNTAX OCTET STRING (SIZE (1..46))
TNVclProtoEncap ::= TEXTUAL-CONVENTION
DISPLAY-HINT "6x"
STATUS current
DESCRIPTION
"Represents a protocol encapsulation, needed by the Protocol part of
the VCL module.
The protocol encapsulation type, along with the respective encapsulation
fields are encoded as an octet string of variable size ranging from 3 to 6.
Currently, the VCL module only supports three protocol encapsulation types:
- Ethernet II encapsulation, defined by setting the first octet to 1. Two more
octets are used to describe the 'type' field. The type can range from 0x0600-0xffff.
I.e. ETH2: 1 TYPE
{byte 0} {byte 1 + byte 2}
E.g. 1.2048 := ETH2, TYPE = 0x0800
- LLC SNAP encapsulation, defined by setting the first octet to 2. Three more
octets are used for the 'OID' field and two for the 'PID' field. The OID can range
from 0x000000-0xffffff and the PID from 0x0000-0xffff. Special case is when OID is
0x000000; then PID can only range from 0x0600-0xffff.
I.e. LLC-SNAP: 2 OUI[0] OUI[1] OUI[2] PID
{byte 0} {byte 1} {byte 2} {byte 3} {byte 4 + byte 5}
E.g. 2.0.1.24.562 := SNAP, OUI = 0x00:01:18, PID = 0x0232
- LLC Other encapsulation, defined by setting the first octet to 3. Two more
octets are used for the 'DSAP' and 'SSAP' fields respectively. Each of these two fields
can range from 0-255
I.e. LLC-OTHER: 3 DSAP SSAP
{byte 0} {byte 1} {byte 2}
E.g. 3.42.85 := LLC, DSAP = 0x2A, SSAP = 0x55
Default, empty encapsulation is 0.0.0"
SYNTAX OCTET STRING (SIZE (3..6))
TNBitType ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Represents a bit selector."
SYNTAX INTEGER { any(0), zero(1), one(2) }
TNDestMacType ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Represents a destination MAC type selector."
SYNTAX INTEGER { any(0), unicast(1), multicast(2), broadcast(3) }
TNVcapKeyType ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Represents a VCAP key type selector."
SYNTAX INTEGER { normal(0), doubleTag(1), ipAddr(2), macIpAddr(3) }
TNVlanTagPriority ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"VLAN priority."
SYNTAX INTEGER { any(0), value0(1), value1(2), value2(3), value3(4), value4(5), value5(6), value6(7), value7(8), range0to1(9), range2to3(10), range4to5(11), range6to7(12), range0to3(13), range4to7(14) }
TNVlanTagType ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Represents a VLAN tag type selector."
SYNTAX INTEGER { any(0), untagged(1), tagged(2), cTagged(3), sTagged(4) }
TNASRType ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Represents an Any/Specific/Range selector."
SYNTAX INTEGER { any(0), specific(1), range(2) }
TNAdvDestMacType ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Represents a destination MAC type selector."
SYNTAX INTEGER { any(0), unicast(1), multicast(2), broadcast(3), specific(4) }
TNASType ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Represents an Any/Specific selector."
SYNTAX INTEGER { any(0), specific(1) }
TNSfpTransceiver ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"This enumerations show the SFP transceiver type."
SYNTAX INTEGER {
none(0),
notSupported(1),
sfp100FX(2),
sfp1000BaseT(7),
sfp1000BaseCx(8),
sfp1000BaseSx(9),
sfp1000BaseLx(10),
sfp1000BaseX(11),
sfp2G5(12),
sfp5G(13),
sfp10G(14)
}
END