|
Class 32 is a way of configuring the PVC (Permanent Virtual Connection) terminations for the following different cases:
In the case of two PVC terminations connected in the Fast Switch mode, the first termination is described with recurrence 0 and the second, for the same rank, as recurrence 1.
C32 - R0 FR : Fast Switch : First PVC termination | ||
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Parameters displayed | Meanings of parameters | Possible values |
0 --, --, ----, - . 199 COMMAND | A parameter describes the PVC termination connected to the PVC termination described at the same rank for C32 R1. | .--, --, ----, - Line No. from 0 to 35 |
| The line number identifies the line supporting the PVC. |
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| The DLCI (Data Link Connection Identifier) identifies the PVC on that line. |
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| The priority is used for selecting an equipment behavior with respect to the information transported on this PVC : |
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C32 - R1 FR : Fast Switch : Second PVC termination | ||
---|---|---|
Parameters displayed | Meanings of parameters | Possible values |
0 --, --, ----, -- . 199 COMMAND | A parameter describes the PVC termination connected to the PVC termination described at the same rank for C32 R0. | --, --, ----, -- Line No. from 0 to 35. |
| The line number identifies the line supporting this PVC. |
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| Attention : The line used by this second PVC must be located on the same module as the line used by the first PVC. |
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| The DLCI (Data Link Connection Identifier) identifies the PVC on that line. |
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C32 - R2 Reserved
C32 - R3 Reserved
Case of PVC user - PVC network in Process Switch mode
In the case of two PVC terminations connected in the Process Switch mode, the user termination is described in recurrences 0, 1, 2 and 3, and the network termination is described, at another rank, under recurrence 0 and 1. The connection between the two terminations is established by the internal switch using the configured addresses.
The exhaustive description of the parameters is given on page 14.
C32 - R0 FR : Process Switch : User termination FR CE side
On synchronous line :
Parameters displayed | Meanings of parameters | Possible values |
---|---|---|
0 --, ---, ----, - . 199 COMMAND | A parameter describes a PVC user termination on a synchronous line. | --, ---, ----, - Line No. from 0 to 35 |
On an ISDN channel B:
Parameters displayed | Meanings of parameters | Possible values |
---|---|---|
0 --, ---, ----, - . 199 COMMAND
| A parameter describes a PVC user termination on an ISDN channel B. | --, ---, ----, - |
Parameters displayed | Meanings of parameters | Possible values |
---|---|---|
0 --, ---, ----, - . 199 COMMAND | A parameter describes a PVC user termination on a synchronous line and a PVC user termination on an ISDN channel B. | --, ---, ----, - |
C32 - R1 FR : Process Switch : User termination on FR CE side (continued) | ||
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Parameters displayed | Meanings of parameters | Possible values |
0 ---, -, ----, -- . 199 COMMAND | A parameter specifies the characteristics of the connection to be established between the user termination described at the same rank for C32 R0 and the network termination. | ---, -, --, -- |
C32 - R2 FR : Process Switch : User termination on FR CE side (continued) | ||
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Parameters displayed | Meanings of parameters | Possible values |
0 --, --, --, --, -, --, --, --, --, -- . 199 COMMAND | A parameter specifies the characteristics of the service quality required by the user termination described at the same rank for C32 R0. | --, --, --, --, -, --, --, --, --, -- |
C32 - R3 FR : Process Switch : User termination on FR CE side(continued) | ||
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Parameters displayed | Meanings of parameters | Possible values |
0 ---------------------------- . 199 COMMAND | A parameter associated with the user termination described at the rank for C32 R0, contains the address to be called to reach the network termination. The internal switch will route the generated call according to this address. The address format is as follows :
DNIC ZO identifies the equipment (see C1 R2 P0). AB is the subscriber number associated with the line supporting the network termination. SA (sub-address) consists of the DLCI identifying the network termination on its line. | Address X121 on 15 digits from 0 to 9
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C32 - R0 FR : Process Switch : Network termination on FR TE side | ||
---|---|---|
On synchronous line : |
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Parameters displayed | Meanings of parameters | Possible values |
0 --, ---, ----, - . 199 COMMAND | A parameter describes a PVC network termination on a synchronous line. | --, ---, ----, - |
On an ISDN channel B :
The parameters used by LMI for an FR line on a channel B are described in Class 13 (Profile 84) in the recurrence corresponding to channel B or in the two recurrences corresponding to the two channels B (both recurrences, in this case, must contain identical values).
Parameters displayed | Meanings of parameters | Possible values |
---|---|---|
0 --, ---, ----, - . 199 COMMAND | A parameter describes a PVC network termination on an ISDN channel B. | --, ---, ----, - |
Parameters displayed | Meanings of parameters | Possible values |
---|---|---|
0 --, ---, ----, - . 199 COMMAND | A parameter describes a PVC network termination on a synchronous line and a PVC network termination on an ISDN channel B. | --, ---, ----, - |
C32 - R1 FR : Process Switch : Network termination on FR-TE side (continued) | ||
---|---|---|
Parameters displayed | Meanings of parameters | Possible values |
0 ---, -, ----, -- . 199 COMMAND | A parameter specifies the characteristics of the connection to be made between the network termination described at the same rank for C32 R0 and the user termination. | ---, -, --, -- |
C32 - R2 FR : Process Switch : Network termination on FR-TE side (Reserved)
C32 - R3 FR : Process Switch : Network termination on FR-TE side (Reserved)
A PVC termination connected in the Process Switch mode to a P protocol is described in recurrences 0, 1, 2 and 3. The connection is made by the internal switch using the configured addresses. The exhaustive description of the parameters is given on page 14.
Parameters displayed | Meanings of parameters | Possible values |
---|---|---|
0 --, ---, ----, - . 199 COMMAND | A parameter describes a PVC network termination on a synchronous line. | --, ---, ----, - |
On an ISDN channel B :
Parameters displayed | Meanings of parameters | Possible values |
---|---|---|
0 --, ---, ----, - . 199 COMMAND | A parameter describes a PVC network termination on an ISDN channel B. | --, ---, ----, -
|
Parameters displayed | Meanings of parameters | Possible values |
---|---|---|
0 --, ---, ----, - . 199 COMMAND | A parameter describes a PVC network termination on a synchronous line and a PVC network termination on an ISDN channel B. | --, ---, ----, - |
C32 - R1 FR : Attachment of a protocol P : Network termination on FR-TE side (continued) | ||
---|---|---|
Parameters displayed | Meanings of parameters | Possible values |
0 ---, -, ----, -- . 199 COMMAND | A parameter specifies the characteristics of the connection to be made between the network termination described at the same rank for C32 R0 and protocol P. | ---, -, --, -- |
C32 - R2 FR : Attachment of a protocol P : Network termination on FR-TE side (continued) | ||
---|---|---|
Parameters displayed | Meanings of parameters | Possible values |
0 --, --, --, --, -, --, --, --, --, -- . 199 COMMAND | A parameter specifies the characteristics of the service quality needed by protocol P and manages the network termination level described under C32 R0. | --, --, --, --, -, --, --, --, --, -- |
C32 - R3 FR : Attachment of a protocol P : Network termination on FR-TE side (continued) | ||
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Parameters displayed | Meanings of parameters | Possible values |
0 ---------------------------- . 199 COMMAND | This parameter is useful only in case X25 on FR (see FRI for C32 R1) and as long as the virtual line number has not been specified for C32 R1. It contains the address associated with the PVC termination. The equipment regains the PVC termination to be used by seeking for the address as called and received in the call in this recurrence. In the case of X25 virtual circuit multiplexing on a single PVC Frame Relay, it will be necessary to use a point type address conversion aimed at the user side. | Address X121 on 15 digits from 0 to 9
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C32 - R0 FR : PVC termination in Process Switch mode | ||
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Parameters displayed | Meanings of parameters | Possible values |
0 --, ---, ----, - . 199 COMMAND | A parameter describes a PVC termination on a synchronous line. The line number identifies the line supporting this PVC. The rank in class 22 contains the number of the parameter describing the distant ISDN S0 interface. Therefore, in this case, the Frame Relay line consists of a channel B established between this distant ISDN interface and the local ISDN interface. The DLCI (Data Link Connection Identifier) identifies the PVC on this line. The COS (Class Of Service) is used for selecting the behavior of the equipment with respect to the information transported on the PVC user or protocol P user connection to the PVC network:
| --, ---, ----, -
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C32 - R1 FR : PVC termination in Process Switch mode (continued) | ||
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Parameters displayed | Meanings of parameters | Possible values |
0 ---, -, ----, -- . 199 COMMAND | A parameter specifies the properties of the connection to be established between the termination described at the same rank for C32 R0 and protocol P or the other termination. The line number identifies the virtual line representing the network termination for the internal switch. By default, this number is attributed dynamically and only needs to be configured explicitly in some particular cases (routing equally shared over several terminations, called address not including sub-address, ...). The call mode (1) specifies the mode for establishing connection between this PVC termination and its opposite number (protocol P or other termination). The rank under Class 30 specifies the recurrence number containing the profile associated with the virtual line. This profile describes the parameters of the FRI protocol (X25 in Frame Relay) or in FRAV (Transparent or RFC 1490) used for transporting information in this PVC. | ---, -, --, --
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(1) Description of call modes:
mode 0 : caller: a call is made from the PVC termination,
mode 1 : called, the PVC termination waits for the arrival of a call and checks the caller address if it is configured as C32 R3,
mode 2 : mixed, a call is made from the PVC termination with management of any call collisions,
mode 3 : datagram, a call is emitted as soon as a frame is received on the PVC termination with management similar to mode 2 mixed,
mode 4 : called without caller control, similar to mode 1 called except that the caller address no longer goes through,
mode 5 : datagram, similar to mode 3 datagram if the received frame contains RFC 1490 encapsulation, a call is sent with RFC 1356 multiplexed encapsulation (Indication "Null Encapsulation"),
mode 6 : called, similar to mode 4 called without a check if the received call contains RFC 1356 encapsulation, the transmitted frames contain RFC 1490 encapsulation,
mode 7 : datagram, similar to mode 3 datagram if the received frame contains RFC 1490 encapsulation a call is made with RFC 1356 encapsulation of the non-multiplexed type (Indication of NLPID : Network Layer Protocol Identifier).
C32 - R2 FR : PVC termination in Process Switch mode (continued) | ||
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Parameters displayed | Meanings of parameters | Possible values |
0 --, --, --, --, -, --, --, --, --, -- . 199 COMMAND | A parameter stipulates the characteristics of the service quality to be managed at the connection between the user termination described in C32 R0 and the network termination or at the connection between protocol P and the network termination described under C32 R0. The following parameters are or are not used according to the COS specified in C32 R0. The CIR (Committed Information Rate) is the bit-rate (1) guaranteed for time unit TC : CIR = BC / TC. The BC (Committed Burst Size) is the amount of information (2) transmitted during time unit TC (BC = CIR * TC).
The BE (Excess Burst Size) is the quantity of information (2) that is supplementary and can be transmitted during time unit TC if the network is not comanaged (these frames transmitted with bit DE = 1 are accounted in BE). The Minimum CIR is the bit-rate (1) to which the equipment refers in the case of extensive congestion. The Strategy (3) defines the flow check in the user to network direction as accomplished by the equipment. | --, --, --, --, -, --, --, --, --, --
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(1) See the correspondence between the parameter value and the value of CIR or CIR minimum expressed in kilo-bits per second on page 20 and the ranges of authorized values in chapter 3.
(2) See the correspondence between the parameter values and the value of BC or BE expressed in kilo-bits on page 20 and the authorized value ranges in chapter 3.
(3) Proposed strategies:
Value of parameter | Associated value | Value or parameter | Associated value | Value of parameter | Associated value |
---|---|---|---|---|---|
0 | 0 | 17 | 144000 | 33 | 1152000 |
2 | 600 | 18 | 192000 | 34 | 1216000 |
3 | 1200 | 19 | 256000 | 35 | 1280000 |
4 | 2400 | 20 | 320000 | 36 | 1344000 |
5 | 4800 | 21 | 384000 | 37 | 1408000 |
6 | 9600 | 22 | 448000 | 38 | 1472000 |
7 | 14400 | 23 | 512000 | 39 | 1536000 |
8 | 19200 | 24 | 576000 | 40 | 1600000 |
9 | 32000 | 25 | 640000 | 41 | 1664000 |
10 | 38400 | 26 | 704000 | 42 | 1728000 |
11 | 48000 | 27 | 768000 | 43 | 1792000 |
12 | 56000 | 28 | 832000 | 44 | 1856000 |
13 | 64000 | 29 | 896000 | 45 | 1920000 |
14 | 72000 | 30 | 960000 | 46 | 1984000 |
15 | 96000 | 31 | 1024000 | 47 | 2048000 |
16 | 128000 | 32 | 1088000 |
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C32 - R3 FR : PVC termination in Process Switch mode (continued) | ||
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Parameters displayed | Meanings of parameters | Possible values |
0 ---------------------------- . 199 COMMAND | A parameter associated with the termination described at the same rank in C32 R0, contains the called address. | Address X121 on 15 digits from 0 to 9 |
C33 - R0 Table of modules | ||
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Displayed parameters | Meaning of parameters | Possible values |
0 -,--,-,-- 1 2 COMMAND | A parameter corresponds to a module. The module number identifies the module concerned The subscriber number is that of the FRL function of the module. In order to optimize the use of memory resources, the initialization of a function may take place only on the module(s) for which it must be operational (the IPX and CLNP router functions may be implemented only on one of the three modules). | -,,--,-,--
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(*) Initialization of function
Values | Bridge | IPX router (**) | CLNP router (**) |
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0 | no | no | no |
1 | yes | no | no |
2 | no | yes | no |
3 | yes | yes | no |
4 | no | no | yes |
5 | yes | no | yes |
6 | no | yes | yes |
7 | yes | yes | yes |
(**) Available later
CLASS 34 - TABLE OF MAC ADDRESSES OF ETHERNET LINES | ||
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C34 - R0 Table of MAC addresses (not used in V12.1) | ||
In V12.1, the MAC address of the Ethernet line is factory-configured. | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ----------- . 5 COMMAND | Each parameter is a MAC address. This address is referenced in C12 Ri P3 for each Ethernet line. | MAC address on 6 bytes (12 digits from 0 to F).
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| The distribution (FF FF FF FF FF FF), null (00 00 00 00 00 00) and group (bit 0 of first byte equal to 1) addresses must not be used. |
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C34 - R1 Reserved
CLASS 35 - VIRTUAL PORT TABLE | ||
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C35 - R0 Virtual port table | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,--,-,-- . 35 COMMAND | A parameter corresponds to a virtual port. The state indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment. The VP number identifies the VP. The types indicates that this VP is attached to a LAN line (type=local) or gives access to remote equipment through WAN networks (type=distant). The parameters specific to local VPs must be indicated in C35 R1. The module number indicates through which module the VP is managed. | -,,--,-,--
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CLASS 35 - (Continued) | ||
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C35 - R1 Local virtual port table | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,--,--;-- | A parameter corresponds to a local virtual port. The state indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment. The VP number identifies the VP. This number is created in C35 R0 and must be that of a local type VP. The line number links this local VP to an LAN line. This number is created in C12 Ri P1. A single local VP is authorized per LAN line.. | -,,--,-,--
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C35 - R2 Reserved
CLASS 36 - TABLE OF CONNECTIONS | ||
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C36 - R0 WAN addresses | ||
Displayed parameters | Meaning of parameters | Possible values |
0 --------------- . 199 COMMAND | A parameter contains a WAN address to X.121 format of the aimed port. If a WAN network of the X.25 type is used, the equipment constitutes the aimed point. If a P.P.P. (Point to Point Protocol, not available in V12.1) type WAN network is used, the output line on the local equipment constitutes the aimed point. If a Frame Relay type WAN network is used, the virtual output line (PLL, permanent logical link) on the local equipment constitutes the aimed point. | X.121 address on 15 digits from 0 to 9.
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C36 - R1 Reserved
C36 - R2 Virtual port numbers, connection number | ||
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C36 - R0 WAN addresses | ||
Displayed parameters | Meaning of parameters | Possible values |
0 --,--,--,-- . 199 COMMAND | A parameter contains 3 remote virtual port numbers and the connection number associated with the address in the same row under C36 R0. Each VP number (from 0 to 11) designates the virtual port used by the Bridge and Router functions of each module to communicate with the remote equipment. This number is created in C35 R0 and must be that of a remote VP. When several connections can be established with the same encapsulation for the same remote equipment (at V12.2 only an X25 type network is capable of supporting this situation), the number of the connection will identify each of the connections capable of transporting different flow types (see at C36 R3, the flow selection). This connection number must also be configured on the remote equipment. | --,--,--,-- | | | | |
C36 - R3 Encapsulation, Connection mode, Grouping. Flow selection | ||
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Displayed parameters | Meaning of parameters | Possible values |
0 --,-,-,-- . 199 COMMAND | A parameter contains 3 values indicating respectively the type of encapsulation used, the connection setup mode, the grouping option and the flow types. This parameter is associated with the address of the same rank in C36 R0. The type of encapsulation indicates the protocol(s) to be transferred on the connection. The connection mode indicates the connection setup mode. The grouping option indicates the used of the frame grouping/separation service (according to a specific proprietary encapsulation). It requires the configuration of the Fast Select option on the output line. | --,-,-,-- | | |
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CLASS 36 - (Continued)
| The flow selection is a mask specifying the flow types (defined by the flow router under C51) which must transit via this connection (see C36 R2 for the connection identification). E.g.: Note 1: If two connections to the same address and the same encapsulation select the same type of flow, the flow type will be oriented toward the first of these connections (increasing order on connections at C36, R2). Note 2: By convention, the value 255 selects , out of all the flows directed towards a WAN address, not only all the typed flows (i.e., defined under C51) but also the untyped flows i.e., not defined under C51). This is the default value to be used when flow separation is not being implemented. |
(*) Type of encapsulation | (**) Connection mode | ||||
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Value | Type of encapsulation |
| Value | Connection mode | |
1 | Multiplexing | 0 | Calling | ||
10 | Bridge | 1 | Called | ||
11 | Specific Port | 2 | Mixed | ||
20 | IP | 3 | Datagram | ||
30 | IPX |
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31 | Specific IPX |
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40 | CLNP |
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The frame grouping option is compatible only with the specific Bridge (11) and IP (20) types of encapsulation.
In Calling and Mixed mode, the connection request is made as of the initialization of the machine. In Called mode, the request is made by the remote equipment. In Datagram mode, the request is made when a frame is to be transmitted.
CLASS 36 - (Continued)
C36 - R4 State of the input, Duration of silence, Call retransmission time-out | ||
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Displayed parameters | Meaning of parameters | Possible values |
0 -,---,--,-- . 199 COMMAND | A parameter contains 3 values indicating respectively the state of the input, the duration of silence and the call retransmission time-out. The state indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment. The duration of silence (in tens of seconds) is the period after which a connection is cleared in the absence of traffic. The call retransmission time-out (in tens of seconds). When a calling or mixed type connection has not been established, a connection establishment request is again generated by the equipment after a period of time equal to or greater than this time-out. This parameter is associated with the address of the same rank in C36 R0. | -,---,--,-- | | |
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CLASS 37 - BRIDGE FUNCTION
C37 - R0 | General |
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Displayed parameters | Meaning of parameters | Possible values |
0 - | P0: general implementation of the transparent Bridge function. P1: Implementation of bridging between WANs. P2: Reserved. P3: Reserved. | 0=no, 1=Bridge 0=no, (1=yes, not offered in V12.1)
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CLASS 38 - TRANSPARENT BRIDGE FUNCTION
C38 - R0 Virtual port table | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,---,-,-- . 35 COMMAND | A parameter corresponds to a virtual port. The state indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment. The VP number identifies this VP. This number is created in C35 R0. The Bridge activation indicates that this VP is or is not used by the transparent Bridge function. | -,---,--,--
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CLASS 38 - (Continued)
C38 - R1 Virtual port table (Continued) | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,---,-,-- . 35 COMMAND | A parameter corresponds to a virtual port. The Aging Timer limits the duration of existence of inputs not used in the address tables managed by the Bridge function. The distribution authorization allows distribution for each virtual port. FCS preservation indicates whether the checksum field of the MAC frame is or is not transported on the wan. This value is significant only for a remote type VP. | ---,-,-
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C38 - R2 Static inputs to address correspondence table | ||
The transparent Bridge function learns dynamically the inputs of the address correspondence table. Owing to speed considerations or the possibility of learning, it may be necessary to create static inputs in this table. | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ------------ . 63 COMMAND | Each parameter is the MAC address of a remote station to be reached through WAN networks. Distribution (FF FF FF FF FF FF), null (00 00 00 00 00 00) and group (bit 0 of first byte equal to 1) addresses must not be used. | MAC address on 6 bytes (12 digits from 0 to F).
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C38 - R3 Static inputs to the address correspondence table (Continued) | ||
The transparent Bridge function learns dynamically the inputs of the address correspondence table. Owing to speed considerations or the possibility of learning, it may be necessary to create static inputs in this table. | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ------------ . 63 COMMAND | A parameter contains the WAN address to X.121 format of the remote equipment giving access to the remote station. This WAN address is associated with the MAC address of the same rank in C38 R2, and must be configured in the table of connections in C36 R0. | X.121 address on 15 bytes from 0 to 9.
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CLASS 38 - (Continued)
C38 - R4 Static inputs to address correspondence table | ||
The transparent Bridge function learns dynamically the inputs of the address correspondence table. Owing to speed considerations or the possibility of learning, it may be necessary to create static inputs in this table. | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, | A parameter contains the state of the input. The state indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment. This parameter is associated with the MAC address of the same rank in C38 R2. | State 0=invalid, 1=valid
|
C38 - R5 Reserved |
CLASS 39 - Spanning Tree Protocol
C39 - R0 Spanning Tree Protocol | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ----- | P0: The Bridge Priority is used in association with the MAC address of the Ethernet port by the STP algorithm so as to determine from among all the possibilities, the bridge that will be elected as tolology root. The lower the displayed value, the higher the port priority. P1: The Max Age value corresponds to the life duration assigned to a BPDU issued at the initiative of the bridge; this life duration will be decremented by the various bridges crossed and which reach zero, causing the deletion of the BPDU. P2: The Hello Time value corresponds to transmission periodicity of the BPDUs by the bridge. P3: The Forward Delay value corresponds to the time during which the bridge that has just been started does not provide its service; it waits until the STP protocol has established its topology. During this period, only the BPDus are bridged, the user frames are not processed and this time delay is also used as minimum duration of a bridge state P4: Reserved. P5: Reserved. | 0=no, 1=yes
Max. age of 600 to 4000 milliseconds.
Hello time from 100 to 1000 milliseconds
|
CLASS 39 - (Continued)
C39 - R1 STP : Virtual port table | ||
Displayed parameters | Meaning of parameters | Possible values |
0 | A parameter corresponds to a virtual port. The state indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment. The VP number identifies this VP. This number is created in C35 R0. The cost of the bridge is used jointly with its priority and its MAC address by the STP algorithm in order to classify the bridge ports in order of preference. The lower the cost, the better preferred is the port. This concept is used by the STP algorithm on initialization to elect the root port and when a loop is detected in oder to determine which port is to be cut off. The priority of the port is used with its extra cost and its MAC address for the STP algorithm in order to grade the ports of the bridge in order of preference. This concept is used by the STP algorithm to elect the root port and to detect a loop so as to determine the port to be cut off. The encapsulation of the STP frames on the WAn is specific to each WAN port. It can be of the SNAP 802.3 (0=mac) type of the SNAP BPDU (1=bpdu) type. | -,--,----,--- State 0=invalid, 1=valid
|
CLASS 40 - Reserved
C41 - R0 RIL: General | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - 1 - 2 - 3 - 4 -- 5 -- COMMAND |
|
|
C41 - R1 RIL: Table of local addresses | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---- |
|
|
C41 - R2 RIL: Table of local addresses (continued) | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---- |
|
|
C40 - R3 Reserved |
CLASS 41 - IP
C41 - R0 IP: General | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - 1 - 2 - 3 - 4 -- 5 -- 6 -- 7 -- COMMAND | P0: General implementation of the IP frame routing functionality of the IP Router function. P1: Implementation of optimized routing of frames. This implementation is obtained by reducing the validity checks carried out on each frame. P2: Transmission of ICMP redirection frames. P3: Insertion of "Source Routing" information in the routed frames. P4: Reserved. P5: Reserved. P6: Reserved. P7: Reserved. | 0=no, 1=yes 0=no, 1=yes |
C41 - R1 IP: Virtual port table | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,---,-,-- . 35 COMMAND
| A parameter corresponds to a virtual port. The state indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment. The VP number identifies the VP. This number is created in C35 R0. Proxy-ARP activates or does not activate the operating mode on this VP | -,---,-,-- State 0=invalid, 1=valid |
C41 - R2 IP: Table of virtual ports (Continued): IP address | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,---,-,-- . 35 COMMAND
| A parameter contains the four bytes (separated by commas) of the IP address associated with the virtual port of the same rank defined in C41 R1. The IP address must be a valid host address.
| ---,---,---,--- |
CLASS 41 - (Continued)
C41 - R3 IP: Virtual port table (Continued): Subnetwork mask | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---,---,---,--- . 35 COMMAND
| A parameter contains the four bytes (separated by commas) of the subnetwork mask associated with the IP address of the same rank defined in C41 R2. The mask must be consistent with the address with which it is associated. In the absence of subnetworks, the mask contains 255.0.0.0 for an address of class A, 255.255.0.0 for class B, 255.255.255.0 for class C.Byte 1 from 0 to 255
| ---,---,---,--- |
C41 - R4 IP: Virtual port table (Continued): MTU | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---- . 35 COMMAND
| A parameter contains the maximum length of a frame (Maximum Transmit Unit) that the VP of the same rank defined in C41 R1 is capable of supporting.
| MTU from 576 to 1500 bytes |
C41 - R5 IP: Table of virtual ports (Continued): Reserved |
C41 - R6 IP: Table of virtual ports associated with an Ethernet line | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,---,-,-- . 35 COMMAND
| A parameter corresponds to a virtual port. The state specifies the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment. The VP number identifies the VP. This number is created in C35 R0 and must be that of a local type VP. Encapsulation is used to choose a frame format in conformity with Ethernet V2 standard or with IEEE 802.3 standard. | -,---,-,-- |
CLASS 42 - IP: REMOTE ADDRESS CORRESPONDENCE TABLE
This table lists the equipment accessible through WAN networks
C42 - R0 IP: Remote address correspondence table: IP address | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---,---,---,--- . 199 COMMAND
| A parameter contains the four bytes (separated by commas) of the IP address used to reach equipment through WAN networks.
The IP address must be a valid host address. | ---,---,---,--- |
C42 - R1 IP: Remote address correspondence table: Address X.121 | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ------------ . 199 COMMAND
| A parameter contains the WAN address to X.121 format of the remote equipment. This WAN address is associated with the IP address of the same rank in C42 R0, and must be configured in the table of connections in C36 R0. | X.121 address on 15 digits from 0 to 9 |
C42 - R2 IP: Remote address correspondence table: Input state | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - . 199 COMMAND
| A parameter contains the state which indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment.
This state is associated with the IP address of the same rank in C42 R0. | State 0=invalid, 1=valid |
CLASS 43 - IP: LOCAL ADDRESS CORRESPONDENCE TABLE
This table is completed dynamically by the ARP (Address Resolution Protocol) protocol. This class allows the addition of static inputs to this table.
C43 - R0 IP: Local address correspondence table: IP address | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---,---,---,--- . 31 COMMAND | A parameter contains the four bytes (separated by commas) of the IP address used to reach equipment through LAN networks
The IP address must be a valid host address. | ---,---,---,--- | | | | |
C43 - R1 IP: Local address correspondence table: MAC address | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ------------ . 31 COMMAND | A parameter contains the MAC address of the equipment to be reached.
This MAC address is associated with the IP address of the same rank in C43 R0.
The distribution (FF FF FF FF FF FF), null (00 00 00 00 00 00) and group (bit 0 of first byte equal to 1) addresses must not be used. | MAC address on 6 bytes (12 bytes from 0 to F). |
C43 - R2 IP: Local address correspondence table: input state | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - . 31 COMMAND | A parameter contains the state which indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment.
This state is associated with the IP address of the same rank in C43 R0. | State 0=invalid, 1=valid |
CLASS 44 - IP: ROUTING TABLE
In the case of routing by address, this table is completed dynamically by the RIP (Routing Information Protocol) or EGP (External Gateway Protocol) protocol. This class is used to add static inputs to this table. The static inputs are not modified by the routing parameters.
In the case of routing by flow, this table indicates directly the route used by any frame belonging to a specific flow, independent of the destination address contained in that frame.
Caution: for each entry in this routing table, the distinction between routing by address and flow routing is specified by the third value of the parameter C44 R2.
C44 - R0 IP: Routing table: flow number destination IP address | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---,---,---,--- . 95 COMMAND | A parameter contains four bytes (separated by commas) of the destination IP address. This IP address may be:
| ---,---,---,--- | | | | |
| Case of routing by address C44 R2 V3 = 0 |
|
0 ---,---,---,--- . 95 COMMAND | A parameter contains the flow number (created by C51 R0) to be oriented to the route defined by the input of this table. | ---,---,---,--- | | | | |
The order of the parameters has no effect on the choice of the route. The default router is chosen only if no route has been found.
C44 - R1 IP: Routing table: destination IP address sub-network mask | ||
Caution: see the concepts of routing by address and flow rerouting at C44 R0. | ||
Case of routing by address C44 R2 V3 = 0 |
| |
Displayed parameters | Meaning of parameters | Possible values |
0 ---,---,---,--- . 95 COMMAND | A parameter contains four bytes (separated by commas) of the destination IP address.
The mask must be consistent with the address with which it is associated. If there are no subnetworks, the mask contains 255.0.0.0 for an address in class A, 255.255.0.0 for class B and 255.255.255.0 for class C.Byte 1 from 0 to 255 | ---,---,---,--- | | | | |
| Case of routing by address C44 R2 V3 = 1 |
|
Displayed parameters | Meaning of parameters | Possible values |
0 ---,---,---,--- . 95 COMMAND |
| Reserved |
CLASS 44 - (Continued)
C44 - R2 IP: Routing table: state of input Metric | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,--,--,-- . 95 COMMAND | A parameter corresponds to a static input of the routing table. The state indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment. A search algorithm is based on metrics for choosing between several possible routes to reach the destination of an IP frame.. In the case of RIP, the metrics indicates the number of IP routers through which an IP frame must pass to reach its destination.. The algorithm chooses preferably the shortest metric route.. This parameter is associated with the IP address of the same rank defined in C44 R0. | -,--,--,-- | | | | |
C44 - R3 IP: Routing table: IP address of "Next Hop" | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---,---,---,--- . 95 COMMAND | A parameter contains the four bytes (separated by commas) of the IP address of the next router proposing the route used to reach the destination. This IP address must be a valid host address. This next hop is associated with the IP address of the same rank defined in C44 R0.Byte 1 from 0 to 255
| ---,---,---,---
|
CLASS 45 - IP: IP destination address substitution table | ||
This table is used for replacing the IP destination address contained in every frame belonging to a specific flow by a precise IP address. This substitution takes place before the frame is examined by the IP routing. Therefore, it is possible, for instance, to orient the IP/UDP traffic distributed towards a specific recipient.. | ||
C45 - R0 | Reserved | |
C45 - R1 IP: | Address substitution table: State of input, flow number | |
Displayed parameters | Meaning of parameters | Possible values |
0 -,--- . 15 COMMAND | A parameter corresponds to a specific flow. The state specifies the validity of the input of this table. Only valid inputs (state = 1) are used by the equipment. The flow number (created at C51 R0) indicates the flow whose frames will replace the destination IP address. The replaced IP address is defined at the same row under C45 R2 | -,--- |
CLASS 46 - RIP (Routing Information Protocol) IP
C46 - R0 RIP IP: General | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - 1 - 2 - 3 - 4 ---- 5 ---- 6 ---- 7 ---- 8 ---- 9 ---- COMMAND | P0: Implementation of RIP. In active mode, the equipment learns the routes transmitted by the adjacent routers and itself distributes the routes contained in its routing table. In passive mode, the equipment learns the routes but distributes nothing.
P1: The operating mode allows the exchange of RIP frames either through VPs selected in C46 R1 or only with routers C46 R2, C46 R3.
P2: The distribution of static inputs of the routing table (defined in C44) may be prohibited or authorized. P3: The distribution of inputs of the routing table learnt by the EGP protocol (see C47) may be prohibited or authorized. EGP inputs distributed are defined in C46 R4. P4: The transmission frequency indicates the waiting time between two transmissions by RIP of the routing tables. P5: Reserved. P6: Reserved. P7: Reserved. P8: Reserved. P9: Reserved.
| 0=no, 1=active, 2=passive
0= list VP, 1=backup list
0=prohibited, 1=authorized
|
CLASS 46 - (Continued)
C46 - R1 RIP IP: Virtual port table | ||
This table lists the VPs on which RIP is active when the operating mode (C46 R0 P1) is "VP list", and those on which RIP is not active. | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,---,-,-- . 35 COMMAND | A parameter corresponds to a virtual port on which the IP function is activated.. The state indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment. The VP number identifies the VP. This number is created in C35 R0. Activation indicates whether or not RIP performs its information exchanges on the IP network attached to this VP.. | -,---,-,--
|
C46 - R2 RIP IP: Table of adjacent equipment: IP address | ||
This table (C46 R2, C46 R3) lists the IP routers with which RIP will exchange information when the operating mode (C46 R0 P1) is "list of routers". | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---,---,---,--- . 15 COMMAND | A parameter contains the four bytes (separated by commas) of the IP address of an IP router with which RIP frames are to be exchanged.
This IP address must be a valid host address. | ---,---,---,---
|
C46 - R3 RIP IP: Table of adjacent equipment: input state | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - . 15 COMMAND | A parameter contains the state which indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment. This state is associated with the IP address of the same rank in C46 R2. | State 0=invalid, 1=valid |
CLASS 46 - (Continued)
C46 - R4 RIP IP: Table of EGP input distribution | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,--,--- . 15 COMMAND | A parameter corresponds to all the routing information coming from an adjacent autonomous system.
The state indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment.
Metrics is the value indicated in the transmitted IP frames concerning routing information learnt by EGP and coming from this autonomous system.
The AS (Autonomous System) number identifies the autonomous system delivering the routing information that RIP must distribute. This distribution by RIP takes place according to the value of parameter C46 R0 P3. | -,--,--- | | | State 0=invalid, 1=valid
|
CLASS 47 - EGP (Exterior Gateway Protocol) IP
C47 - R0 EGP IP: General | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - COMMAND | P0: Implementation of EGP.
P1: Number of the autonomous system (AS) to which the equipment belongs.
P2: The distribution of the static inputs of the routing table (defined in C44) may be prohibited or authorized. The ASs to which the routing information is distributed are defined in C47 R4, C47 R5.
P3: The distribution of the inputs of the routing table learnt by RIP (see C46) may be prohibited or authorized. The ASs to which the routing information is distributed are defined in C47 R4, C47 R5.
P4: Metrics is the value indicated in the transmitted EGP frames concerning routing information which is static or learnt by RIP.
P5: Reserved. P6: Reserved. P7: Reserved. P8: Reserved. P9: Reserved. | 0=no, 1=yes
AS number from 1 to 65534
0=prohibited, 1=authorized list
Metrics from 1 to 255
|
CLASS 47 - (Continued)
C47 - R1 EGP IP: Table of EGP adjacent routers: IP address | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---,---,---,--- COMMAND | A parameter contains the four bytes (separated by commas) of the IP address of an adjacent EGP router. This IP address must be a valid host address. | ---,---,---,--- |
C47 - R2 EGP IP: Table of EGP adjacent routers: autonomous system number | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ----- COMMAND | A parameter contains the number of the autonomous system (AS) to which belongs the adjacent equipment whose IP address is defined at the same rank in C47 R1. | A S number from 1 to 65534 |
C47 - R3 EGP IP: Table of EGP adjacent routers: input state | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - 15 COMMAND | A parameter contains the state that indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment. This state is associated with the IP address of the same rank in C47 R1 | State 0=invalid, 1=valid |
C47 - R4 EGP IP: Routing information redistribution table: autonomous system | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---- 15 COMMAND | A parameter corresponds to an adjacent autonomous system to which EGP distributes the routing information. The AS (Autonomous System) number is the number of the adjacent autonomous system. It must appear in the table of adjacent equipment in C47 R2. | AS number from 1 to 65534 |
CLASS 47 - (Continued)
C47 - R5 EGP IP: Routing information redistribution table: input state | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - 15 COMMAND | The state indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment. This state is associated with the AS number of the same rank defined in C47 R4. | State 0=invalid, 1=valid |
CLASS 48 - IP Reserved |
CLASS 49 - SNMP IP
C49 - R0 SNMP IP: Community String | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -------------- | P0: Community String authorizing read access only. P1: Community String authorizing read and write access P2: Community String indicated in the TRAP transmitted by the equipment. | 1 to 14 characters |
CLASS 49 - (Continued)
C49 - R1 SNMP IP:TRAP and checking of SNMP managers | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - 1 --- 2 --- 3 --- 4 - 5 -- COMMAND | P0: Generation of TRAP authenticationFailure. This TRAP is transmitted with each reception of an unauthorized SNMP request (erroneous community string or manager not authorized). P1: The SNMP agent of module 0 indicates, as the source address of each TRAP, the IP address (defined in C41 R2) associated with the VP number (defined in C41 R1) indicated by this parameter. P2: Same as concerns module 1. P3: Same as concerns module 2. P4: This parameter indicates whether the agent replies to all the requests coming from managers listed in C49 R2. P5: Reserved. | 0=no, 1=yes VP number from 0 to 11
0=no filtering, 1=filtering of managers |
C49 - R2 SNMP IP:Table of managers: IP address | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---,---,---,--- | A parameter contains the four bytes (separated by commas) of the IP address of a manager. The IP address must be a valid host address. | ---,---,---,--- |
C49 - R3 SNMP IP:Table of managers: Input state, TRAP | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,-,-- | A parameter corresponds to an SNMP manager. The state indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment. The sending of TRAPs indicates whether or not the SNMP agent of the equipment transmits the TRAPs intended for this manager (the same TRAPs are sent to all the managers defined in this table). This parameter is associated with the IP address of the same rank defined in C49 R2 | -,-,--, | | | Sending of TRAPs 0=no, 1=yes |
CLASS 50 - Local VPs: Filtering of frames
C50 - R0 Local filtering: Table of conditions: Input state, condition No., shift | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,---,---- COMMAND | The condition number identifies the input of this table. This number is used in the filter description table C50 R3. The shift identifies the byte as of which is applied the mask (defined in C50 R1) and the value (defined in C50 R2) | -,---,----, E.g.: shifting at MAC level E.g.: shifting at IP level with Ethernet encapsulation (cf. C41 R6) |
C50 - R1 Local filtering: Table of conditions: Mask | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -------- . 63 COMMAND | The mask indicates the bits of the bytes selected in C50 R0 of the same rank which are to be compared with the bytes defined in C50 R2 of the same rank. | Mask of four bytes (8 digits from 0 to F) |
CLASS 50 - (Continued)
C50 - R2 Local filtering: Table of conditions: Value | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -------- COMMAND | This parameter indicates the values of the bits with which are compared, according to the mask defined in C50 R1 of the same rank, the bytes selected in C50 R0 of the same rank.. | Value of four bytes (8 digits from 0 to F) |
C50 - R3 Local filtering: Filtering table | ||
Important: In this table, the number of inputs simultaneously valid must not exceed 48. | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,---,---,---,---,-- 63 COMMAND
| The state indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment. The filter number identifies the input of this table. This number is used in the filtering cable in C50 R4. The three condition numbers identify up to three conditions defined in C50 R0, C50 R1 and C50 R2. Filtering selects the received frames which simultaneously verify those of the three conditions which are actually defined in C50 R0. By convention, the condition number increased by 100 allows the opposite condition to be applied: the received frames not verifying this condition are then selected.
| -,---,---,---,---,-- | | | | | | State 0=invalid, 1=valid |
CLASS 50 - (Continued)
C50 - R4 Local filtering: Filtering table | ||
Important: In this table, the number of inputs simultaneously valid must not exceed 48. | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,---,---,- 63 | The state indicates the validity of the input of this table. Only valid inputs (State=1) are managed by the equipment. The VP number identifies the virtual port to which the filter is applied. This VP number is created in C35 R0 and must be that of a local type VP. The filter number identifies the filter (defined in C50 R3) to be applied to all the frames received by this VP. By convention, number 200 designates a special filter grouping all the frames received by this VP which were not selected by the other filters applied to this VP. For a given VP, the filters are examined in the order in which they appear in this recurrence 4. The filtering mode specifies whether the frames selected by the filter are rejected (the others then being accepted) or accepted (the others then being rejected). If no filter has been configured or if the frame has not selected any filter, it is accepted: this is the default choice. | -,---,---,- | VP No. from 0 to 11 |
CLASS 51 - IP: Flow definition table
C51 - R0 Flow table: Input state, Flow No., Virtual Port No. Type of Flow | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,---,---,- 63 COMMAND | A parameter corresponds to a particular flow. The state indicates the validity of the input of this table. Only the valid inputs (State=1) are used by the equipment. The flow number identifies the flow. The VP number specifies the virtual port for which the flow is defined. Any frame received on this VP will go through the evaluations defined at the same level at C51 R1 to C51 R9. The frame is selected is all the significant comparisons made produce positive results. The flow type specifies the flow to which any frame selected by the filters defining this flow belongs (the transmission of the flows through the WANs is described in C36 R3). The authorized values are: 0, 1, 2, 4, 8, 16, 32, 64, 128. | -,---,---,-
|
| Note 1: By convention, the type of flow 0 groups together all the frames that the router must reject (filtering at the IP router ) whereas the filtering described in C50 R4 concerns all the traffic received on one of the IP, IPX or CNLP routers. Note 2: By convention, if none of the criteria defined under C51 R1 to C51 R9 are significant, then every frame is selected (default flow). Note 3: When several flows are defined for the same VP with overlapping criteria, the frame belongs to the first (in increasing order of flow numbers) of all the flows that select it. |
|
C51 - R1 IP: Flow Table: Value for the source IP address | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - . 63 COMMAND | A parameter corresponds to the flow defined at the same level in C51 R0. This -parameter specifies the value with which the IP source address of all the frames received on the VP (defined at C51 R0) after application of the mask defined at the same level at C51 R2 is compared. This value is not necessarily a valid IP source address (e.g. 0,0,0,41 or 255,0,0,0) | ---,---,---,---
|
CLASS 51 - (continued)
C51 - R3 IP: Flow Table: Value for the destination IP address | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - . 63 COMMAND | A parameter corresponds to the flow defined at the same level in C51 R0. This -parameter specifies the value with which the IP source address of all the frames received on the VP (defined at C51 R0) after application of the mask defined at the same level at C51 R4 is compared. This value is not necessarily a valid IP source address (e.g. 0,0,0,41 or 255,0,0,0) | ---,---,---,---
|
C51 - R4 IP: Flow Table: Mask on the destination IP address | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - . 63 COMMAND | This parameter specifies the value of the mask to be applied to the destination IP address of all frames received on the VP (defined under C51 R0) before comparing it with the value defined at the same level on C51 R3. If the mask is 0,0,0,0, the source IP address will not be evaluated (criterion not significant). This mask is not necessarily a valid subnetwork mask (e.g., 0,0,0,127 or 0,255,0,0). | ---,---,---,--- |
CLASS 51 - (continued)
C51 - R5 IP: Flow Table: Protocol field | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - . 63 COMMAND | A parameter corresponds to the flow defined at the same level in C51 R0. This -parameter specifies the value with which the "Protocol" field of all the frames received on the VP (defined at C51 R0) is compared. This field identifies the protocol transported by the IP (see PROTOCOL NUMBERS in RFC 1700). E.g. 1 = ICMP, 6 = TCP, * = EGP, 17 = UDP ... If this parameter is 0 the "Protocol" field is not evaluated (criterion not significant) | Protocol from 0 to 255 |
C51 - R6 IP: Flow Table: Minimum port number | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - . 63 COMMAND | A parameter corresponds to the flow defined at the same level in C51 R0. Any frame received on the VP (defined at C51 R0) transporting TCP or UDP protocols has a "Port source" field and a "Destination port" field. This field is selected if at least one of the two fields has a value included between the limits defined at the same level at C51 R6 (inclusive of lower limit) and C51 R7 (inclusive of higher limit). If the lower limit at C51 R6 is 0, the frame is selected if at least one of the "Port source" and "Destination port" fields has a value equal to the upper limit defined at the same level at C51 R7. If the upper limit at C51 R6 is 0, the frame is selected if at least one of the "Port source" and "Destination port" fields has a value equal to the lower limit defined at the same level at C51 R6. If both limits defined at the same level for C51 R6 are 0, the "Port source" and "Destination port" fields are not evaluated (criterion not significant). Examples: (see WELL KNOWN PORT NUMBERS in RFC 1700); 21 = ftp, 23 = telnet, 67 = bootp server, 68 = bootp client, 69 = ftfp, 161 = snmp, 162 = snmptrap. | Port No. from 0 to 65535 |
CLASS 51 - (continued)
C51 - R7 IP: Flow Table: Maximum port number | ||
Displayed parameters | Meaning of parameters | Port No. from 0 to 65535 |
0 - . 63 COMMAND | A parameter corresponds to the flow defined at the same level in C51 R0. Any frame received on the VP (defined at C51 R0) transporting TCP or UDP protocols has a "Port source" field and a "Destination port" field. This field is selected if at least one of the two fields has a value included between the limits defined at the same level at C51 R6 (inclusive of lower limit) and C51 R7 (inclusive of higher limit). If the lower limit at C51 R6 is 0, the frame is selected if at least one of the "Port source" and "Destination port" fields has a value equal to the upper limit defined at the same level at C51 R7. If the upper limit at C51 R6 is 0, the frame is selected if at least one of the "Port source" and "Destination port" fields has a value equal to the lower limit defined at the same level at C51 R6. If both limits defined at the same level for C51 R6 are 0, the "Port source" and "Destination port" fields are not evaluated (criterion not significant). | Possible values |
C51 - R8 IP: Flow Table: Maximum datagram length | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - . 63 COMMAND | A parameter corresponds to the flow defined at the same level in C51 R0. This parameter specifies the value with which the length of any frame received on the VP is compared (defined at C51 R0), while any datagram of shorter or equal length is selected If the parameter is zero, the frame length is not evaluated (criterion not significant). | Port No. from 0 to 65535 |
CLASS 51 - (continued)
C51 - R9 IP: Flow Table: Segmentation | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - . 63 COMMAND | A parameter corresponds to the flow defined at the same level in C51 R0. This parameter is used for selecting any frame received on the VP (defined at C51 R0), having (2=yes) or not (1=no) put through segmentation. If the parameter is zero, the frame length is not evaluated (criterion not significant). | Port No. from 0 to 65535 |
CLASS 52 - CLNP protocol
C52 - R0 CLNP : General | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - 1 - 2 -- 3 -- COMMAND | P0: Overall implementation of the CLNP router function P1: Implementation of PDU (Protocol Data Unit) error transmission P2 : Reserved. P3 : Reserved. | 0= no, 1=yes |
Notes:
The ES-IS (End System - Intermediate System) protocol is implemented on all the local VPs but is not implemented on the distant VPs (see C35 R0 for local-distant differentiation).
The IS-IS (Intermediate System - Intermediate System) protocol is not implemented. Routing is carried out statically by the configuration of the inputs in the routing table (C52 R13 and C52 R14).
C52 - R1 CLNP : Local address | ||
Displayed parameters | Meaning of parameters | Possible values |
0------------------------- COMMAND | P0: Local address (Network Entity Title) without "SAP selector" (Service Access Point selector). The format used is as follows: the first two digits (i.e. the first byte) indicate the number of digits forming the address the following digits are the RPF format (Reference Publication Format) address using as separator between IDP (Initial Domain Part in decimal) and DSP (Domain Specific Part in hexadecimal) the character "A". | CLNP address on 3 to 43 digits from 0 to F |
Example: Address: | 38171+9001B3F5 |
|
Capture: | 0E38171A9001B3F5 |
|
Display: | 0E38171A9001B3F5FFFFFFFFFFFFFFFFFFFFFFFFFFF | |
| <-------- 41 digits at most ---------> |
C52 - R2 CLNP : Table of virtual ports | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, --, -, -- . 35 COMMAND | A parameter corresponds to a virtual port. The state specifies the validity of the table input. Only the valid inputs (State = 1) are used by the equipment. The VP number identifies this VP. The number is generated under C35 R0. The activation of routing indicates that this VP is or is not used by the CLNP router. | -, --, -, -- |
C52 - R3 CLNP : Table of virtual ports (continued): MTU | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,-,-,-- . 35 COMMAND | A parameter contains the maximum length of a PDU (Maximum Transmit Unit) that the VP in the same rank defined under C52 R2 is capable of supporting | MTU from 512 to 1600 bytes |
CLASS 52 - (Continued)
C52 - R4 CLNP : Table of local virtual ports | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, --, -, -- . 5 COMMAND | A parameter corresponds to a virtual port. The status indicates the validity of the input of this table. Only valid inputs (State = 1) are used by the equipment. The VP number identifies this VP. This number is created under C35 R0 and must be that of a local type VP. The ESIS redirection specifies whether the equipment is or is not transmitting the PDU "ES-IS redirects" (End System - Intermediate System). | -, --, -, -- | | | | |
C52 - R5 CLNP : Table of local virtual ports (continued): Configuration delay | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,-,-,-- . 5 COMMAND | A parameter contains the ES-IS configuration timer (ES-IS config timer) used on the VP in the same rank as defined for C52 R4 | ES-IS config timer from 1 to 3600 seconds |
C52 - R6 CLNP : Table of local virtual ports (continued): ES IS holding timer | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -,-,-,-- . 5 COMMAND | A parameter contains the ES-IS holding timer used on the VP in the same rank as defined for C52 R4. | ES-IS holding timer from 1 to 3600 seconds. |
C52 - R7 CLNP : Table of neighbors | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, ---, -, -- . 63 COMMAND | A parameter corresponds to a neighbor. The state specifies the validity of the table entry. Only valid entries (State = 1) are used by the equipment. The neighbor number identifies this neighbor. The type indicates whether the neighbor is a station (ES = End System) or a CLNP router (IS = Intermediate System). The VP number identifies the VP (defined by C52 R2) through which the neighbor can be reached. | -, ---, -, -- State 0 = invalid, 1 = valid |
CLASS 52 - (Continued)
C52 - R8 CLNP : Table of neighbors (continued): CLNP address | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ------------------------- . 63 COMMAND | A parameter contains the address (Network Entity Title) with an "SAP selector" associated with the neighbor in the same rank defined under C52 R7.CLNP address on 3 to 43 digits from 0 to F | See format described under C52 R1. |
C52 - R9 CLNP : Table of local neighbors | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, --- . 15 COMMAND | A parameter corresponds to a local neighbor (i.e. is accessible through a local VP, see C52 R7 and C35 R0). The state specifies the validity of the table entry. Only valid entries (State = 1) are used by the equipment. The neighbor number (defined under C52 R7) identifies this neighbor. | -, --- |
CLASS 52 - (Continued)
C52 - R10 CLNP : Table of local neighbors (continued): MAC address | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ------------ . 15 COMMAND | A parameter contains the MAC address of the local neighbor defined in the same rank for C52 R9. Distribution addresses (FF FF FF FF FF FF), zero (00 00 00 00 00 00) and group (bit 0 of first byte equals 1) not to be used. | MAC address on 6 bytes (12 digits from 0 to F) |
C52 - R11 CLNP : Table of remote neighbors | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, --- . 63 COMMAND | A parameter corresponds to a remote neighbor (i.e. accessible through a remote type VP, see C52 R7 and C35 R0). The state specifies the validity of the input of this table. Only valid inputs (State = 1) are used by the equipment. The neighbor number (defined under C52 R7) identifies this neighbor. | -, --- |
C52 - R12 CLNP : Table of remote neighbors (continued): X121 address | ||
Displayed parameters | Meaning of parameters | Possible values |
0 --------------- . 63 COMMAND | A parameter contains the WAN address of the X121 format of the remote neighbor defined in the same rank under C52 R11. | Address X121 on 15 digits from 0 to 9
|
C52 - R13 CLNP : Routing table | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, --- . 63 COMMAND | A parameter corresponds to a routing table input. The state indicates the validity of the input of this table. Only valid inputs (State = 1) are used by the equipment. The IS type neighbor number (created in C52 R7) identifies the next CLNP router (Next Hop) capable of reaching the CLNP address of the destination indicated in the same rank under C52 R14. | -, --- | | |
C52 - R14 CLNP : Routing table (continued): CLNP destination address | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ------------------------- . 63 COMMAND | A parameter contains the CLNP destination address of the route defined in the same rank for C52 R13. The CLNP destination address can be: a prefix (IDP alone or IDP plus DSP), an NSAP (Network Service Access Point) i.e. an NET (Network Entity Title) plus the "SAP selector" Service Access Point selector). | CLNP address on 3 to 43 digits from 0 to F See format described under C52 R1 |
CLASS 53 - IPX router
C53 - R0 IPX : General | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - 1 -- 2 -- 3 -- 4 --- 5 -- 6 -- 7 -- COMMAND | P0: Global implementation of IPX router function P1: Maximum number of routes with same metric value as router used in parallel to send packets to same recipient P2: Maximum number of routers crossed by a packet P3 : Reserved. P4 : Reserved. P5 : Reserved. P6 : Reserved. P7 : Reserved. | 0= no, 1=yes. Number from 2 to 255 routers |
C53 - R1 IPX : Router name | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---------------------- COMMAND | P0 : Router name.
| 1 to 48 characters. |
CLASS 54 - IPX router: Circuits
C54 - R0 IPX : Table of circuits: Input state, Circuit number, VP number | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, ---, --, - . 99 COMMAND | A parameter corresponds to a circuit. The state indicates the validity of the table input. Only the valid inputs (State = 1) are used by the equipment. The circuit number identifies this circuit. The VP number designates the virtual port used by this circuit. This number is created in C35 R0. The Checksum value indicates whether the management of this two byte field of the IPX packet is implemented. If not (compatibility with versions of Netware up to 3.12), this field is not checked on reception and is systematically given value FF FF for transmission. This behavior is always used on all of the local virtual port circuits with IEEE 802.3 encapsulation (see C54 R4). If yes (compatibility with Netware versions starting from 4.0x), the checksum field is checked for reception (with rejection of incorrect packets) and calculated for transmission. | -, ---, --, - | | | | State 0 = invalid, 1 = valid |
CLASS 54 - (Continued)
C54 - R1 IPX : Table of circuits: Operational state, Type, Packet size | ||
Displayed parameters | Meaning of parameters | Possible values |
-, -, ----- . 99 COMMAND | A parameter contains three values associated with a circuit defined at the same rank under C54 R0. Circuit operational state: HS: the circuit is not used ES: the circuit is in use The type characterizes the circuit: 2 = distribution, 3 = point to point, 6 = dynamic, The packet size indicates the maximum number of bytes (including the header) that the router will support on this circuit. | -, -, ----- | | | Operational state 0 = HS, 1 = ES |
C54 - R2 IPX : Table of circuits: Circuit network number | ||
0 -------- . 99 COMMAND | A parameter corresponds to a circuit defined in the same rank under C54 R0. | Circuit IPX network number.Network number on 4 bytes (8 digits from 0 to F). |
C54 - R3 IPX : Table of circuits: Circuit name | ||
0 ------------------- . 99 COMMAND | A parameter corresponds to a circuit defined in the same rank at C54 R0.
Circuit name | 1 to 24 characters |
C54 - R4 IPX : Table of circuits on local virtual ports | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, ---, -, -- . 23 COMMAND | The state indicates the validity of the table input. Only valid inputs (State = 1) are used by the equipment. The circuit number identifies this circuit. The number is created at C54 R0 and must be that of a circuit associated with a local VP (defined at C35 R0). Encapsulation is a way of choosing a packet format conforming with the following standards: 0 = Ethernet V2 1 = IEEE 802.3 2 = IEEE 802.2 3 = Ethernet SNAP | -, ---, -, -- | | | | |
C54 - R5 IPX : Table of circuits on remote virtual ports: Input state, Circuit number | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, --- . 99 COMMAND | A parameter corresponds to a circuit. The state indicates the validity of the table input. Only valid inputs (State = 1) are used by the equipment. The circuit number identifies this circuit. This number is created at C54 R0 and must be that of a circuit associated with a remote VP (defined under C35 R0) | .-, --- | | Circuit No. from 1 to 199 State 0 = invalid, 1 = valid |
C54 - R6 IPX : Table of circuits on remote virtual ports: Address X121 | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---------------- . 99 COMMAND | A parameter contains the WAN address of the remote equipment in X121 format. This WAN address is associated with a circuit in the same rank defined under C54 R5. It must appear in the table of connections under C36 R0. | Address X121 on 15 digits from 0 to 9. |
CLASS 54 - (Continued)
C54 - R7 IPX : Table of circuits for remote virtual ports: Equipment local address | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ------------ . 99 COMMAND | A parameter contains the IPX address station part used by the equipment as source address for packets transmitted on this circuit. This address is associated with a circuit in the same rank defined for C54 R5. Distribution addresses (FF FF FF FF FF FF), zero (00 00 00 00 00 00) and group (bit 0 of the first byte, equal to 1) must not be used. | MAC address on 6 bytes (12 digits from 0 to F). |
C55 - R0 IPX routing: General | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -1 -- 2 -- 3 -- COMMAND | P0: IPX type 20 packet distribution. P1 : Reserved. P2 : Reserved. P3 : Reserved. | 0= no, 1= yes on LAN side only, 2 = yes on LAN and WAN sides. |
CLASS 55 - (Continued)
C55 - R1 IPX routing: Table of circuits: Input state, Circuit number | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, --- . 99 COMMAND | A parameter corresponds to a circuit. The state indicate the validity of the table input. Only valid inputs (State = 1) are used by the equipment. The circuit number identifies this circuit. This number is generated under C54 R0. | -, --- |
C55 - R2 IPX routing: Table of circuits: Filtering on addresses, Distribution, NCP spoofing | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, -, -,-- . 99 COMMAND | A parameter contains three values associated with the circuit defined in the same rank in C55 R1. The filtering specifies the action carried out on the packets to be transmitted on this circuit, satisfying one of the applicable filters defined under C55 R6, C55 R7 and C55 R8. 0 = no filtering 1 = packet accepted 2 = packet rejected Type 20 distribution enables or inhibits, on this circuit, the transmission of type 20 distribution packets received on another circuit. Implementation of NCP spoofing (*) on WAN circuits. | -, -, -,-- | | | |
|
(*) Every five minutes, the NCP (Netware Core Protocol) session service transmits session check packets (keepalive) which must be acknowledged by the remote equipment. This mechanism requires communication established even in case of inactivity leading to pointless costs when this communication uses paid WAN networks. NCP spoofing is a way of asking the router to release the unused communication and simulate the remote equipment by acknowledging the control packages in its place. Therefore, the transmitter continues to behave as if the session were still open although the communication is no longer really established. It will be re-established as soon as another packet is transmitted to the remote equipment.
CLASS 55 - (Continued)
C55 - R3 IPX routing: Table of static routes: Destination network number | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -------- . 63 COMMAND | A parameter contains the destination network number used for reaching a static route. | Network number on 4 bytes (8 digits from 0 to F). |
C55 - R4 IPX routing: Table of static routes: Input state, Circuit No., No. of hops | ||
0 -, ---,---,-- . 63 COMMAND | The state specifies the validity of the table input. Only the valid inputs (State = 1) are used by the equipment. The circuit number identifies the circuit used for reaching the next router and the next destination network number defined at the same rank under C55 R3. This circuit number is created at C54 R0. The number of hops is the number of routers to be crossed to reach the destination network number defined at the same rank in C55 R3. | -, ---,---,-- | | | | |
C55 - R5 IPX routing: Table of static routes: Deadline | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ----- . 63 COMMAND | A parameter contains the deadline needed to reach the destination network number defined at the same rank in C55 R3. The unit of time used corresponds to approximately one sixtieth (1/60th) of a second. | Deadline from 1 to 65535 time units. |
C55 - R6 IPX routing: Table of filters on addresses: Input state, Circuit, Evaluated field | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, ---, -, -- . 63 COMMAND | A parameter corresponds to a filter used for selecting the packets to be transmitted for which one of the fields has a special value. The action on these packets is indicated in the table of circuits under C55 R2. The state indicates the validity of the inputs of the table. Only the valid inputs (State = 1) are used by the equipment. The circuit number specifies which circuit the filter applies to. If several filters are set on the same circuit, the packets to be transmitted, verifying at least one of the filters, will be selected. The field specifies which packet field is to be transmitted with a value compared to the value defined in the first rank at C55 R8 after the application of the mask defined at the same rank under C55 R7. 0 = source network number, 1 = destination network number, 2 = source "socket" number, 3 = destination "socket" number | .-, ---, -, -- | | | | | | | Reserved |
CLASS 55 - (Continued)
C55 - R7 IPX routing: Table of filters on addresses: Mask | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -------- . 63 COMMAND | A parameter contains the value of the mask to be applied to the value of any packet to be sent, defined at the same rank in C55 R6 before comparison with the value defined in the same rank in C55 R8. In the case of a socket number, only the first two bytes are taken into consideration. | Mask on four bytes (8 digits from 0 to F). |
C55 - R8 IPX routing: Table of filters on addresses: Value | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -------- . 63 COMMAND | A parameter contains the value to be compared with the value of the field of any packet to be sent, defined at the same rank in C55 R6, after application of the mask defined at the same rank in C55 R7. In the case of a socket number, only the first two bytes are taken into consideration. | Value on four bytes (8 digits from 0 to F). |
CLASS 56 - IPX router: RIP (Routing Information Protocol)
C56 - R0 IPX : RIP : General | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - 1 - 2 -- 3 -- COMMAND | P0: Implementation of RIP protocol P1: RIP reception filtering. This parameter specifies the action carried out on the RIP packets received on all the circuits, satisfying one of the filters defined for C56 R4, C56 R5 and C56 R6. P2 : Reserved. P3 : Reserved. | 0= no, 1= yes. 0 = no filtering |
CLASS 56 - (Continued)
C56 - R1 IPX-RIP: Table of circuits: Input state, Circuit number, RIP activation, Transmit RIP filtering | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, ---, -, - . 99 COMMAND | A parameter corresponds to a circuit. The state indicates the validity of the table input. Only valid inputs (State = 1) are used by the equipment. The circuit number identifies this circuit. This number is created at C54 R0. RIP activation specifies the implementation of RIP on this circuit. Filtering specifies the action performed on the RIP packets to be transmitted in this circuit, satisfying one of the applicable filters defined at C56 R7, C56 R8 and C56 R9.
| -, ---, -, - |
C56 - R2 IPX-RIP: Table of circuits: Life duration, Transmission rate, Transmission period | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, -, ----- . 99 COMMAND | A parameter contains three values associated with the circuit defined at the same rank at C56 R1. The duration specifies the life duration of the routes learned by RIP in this circuit. It is expressed as a number of periods (the period is defined by the third parameter value). Example : If the transmission period is set at 60 seconds (1 minute) and the life duration is limited to 240 seconds (4 minutes), the value to be entered is 4 (life duration = 4 times the period). The speed specifies the maximum speed at which RIP packets can be sent over this circuit. The period specifies the waiting time between two RIP packet transmissions in this circuit. Value 0 indicates that the RIP packets are not transmitted through this circuit. | -, -, ----- |
CLASS 56 - (Continued)
C56 - R3 IPX-RIP: Circuit table: Packet size | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ----- . 99 COMMAND | A parameter contains the number of RIP packet bytes exchanged in the circuit, defined at the same level at C56 R1. | Packet size from 512 to 65535 bytes |
C56 - R4 IPX-RIP: Table of reception RIP filters: Input state | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - . 31 COMMAND | A parameter corresponds to a filter used for selecting the received RIP packets whose source network number has a specific value. The action carried out on these packets is specified generally at C56 R0 P1. The state indicates the validity of the table input. Only the valid inputs (State = 1) are used by the equipment. | State 0=invalid, 1=valid |
C56 - R5 IPX-RIP: Table of RIP reception filters: Mask | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -------- . 31 COMMAND | A parameter contains the value of the mask to be applied to the source network number of any RIP packet received before comparison with the value defined at the same rank at C56 R6. | Mask on four bytes (8 digits from 0 to F). |
C56 - R6 IPX routing: Table of RIP reception filters: Network number value | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -------- . 31 COMMAND | A parameter contains the value to be compared with the source network number of any RIP packet received after the application of the mask defined at the same rank for C56 R5. | Value on four bytes (8 digits from 0 to F). |
CLASS 56 - (Continued)
C56 - R7 IPX-RIP: Table of RIP transmission filters: Input state, Circuit | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, --- . 127 COMMAND | A parameter corresponds to a filter used for selecting the RIP packets to be transmitted with destination network numbers having a particular value. The action on these packets is specified in the circuits table under C56 R1. The state indicates the validity of the input of this table. Only the valid inputs (State = 1) are used by the equipment. The circuit number specifies to which circuit this filter applies. If several filters are positioned in the same circuit, the RIP packets to be transmitted, verifying at least one of the filters, are selected. | -, --- State 0=invalid, 1=valid |
C56 - R8 IPX-RIP: Table of RIP transmission filters: Mask | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -------- . 127 COMMAND | A parameter contains the value of the mask to be applied to the destination network number of any RIP packet to be transmitted, before comparison with the value defined at the same rank at C56 R9. | Mask on four bytes (8 digits from 0 to F). |
C56 - R9 IPX-RIP: Table of RIP transmission filters: Network number value | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -------- . 127 COMMAND | A parameter contains the value to be compared with the destination network number of any RIP packet to be transmitted after application of the mask defined at the same rank at C56 R8. | Value on four bytes (8 digits from 0 to F). |
CLASS 57 - IPX router: SAP (Service Access Protocol)
C57 - R0 IPX - SAP : General | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - 1 - 2 -- 3 -- COMMAND | P0 : Implementing of SAP protocol. P1 : SAP reception filtering. This parameter specifies the action carried out on the SAP package received in all the circuits, satisfying one of the filters defined for C57 R11, C57 R12, C57 R13 and C57 R14. P2 : Reserved. P3 : Reserved.0= no, 1= yes. | 0 = no filtering 1 = accepted packet 2 = rejected packet |
C57 - R1 IPX - SAP : Table of circuits : Input state, Circuit number, SAP activation, SAP filtering on transmission | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, ---, -, - . 99 COMMAND | A parameter corresponds to a circuit. The status corresponds to the input validity of this table. Only the valid inputs (State=1) are used by the equipment. The circuit number identifies this circuit. The number is created by C54 R0. SAP activation indicates the implementing of the SAP in this circuit. The filtering specifies the action accomplished on the SAP packets to be transmitted through the circuit, satisfying one of the applicable filters defined under C57 R15, C57 R16, C57 R17 and C57 R18.
| -, ---, -, - |
CLASS 57 - (Continued)
C57 - R2 IPX - SAP : Table of circuits : Life duration, Transmission speed, Transmission period | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, -, ----- . 99 COMMAND | A parameter contains three values associated with a circuit defined in the same rank for C57 R1. The duration specifies the life duration of the services learned by SAP in this circuit. It is expressed as a number of periods (the period is defined by the third value of the parameter). E.g.: If the transmission period is set at 60 seconds (1 minute) and the life duration is limited to 240 seconds (4 minutes), the value to be entered will be 4 (life duration = 4 times the period). The speed indicates the maximum speed at which the SAP packets can be transmitted over this circuit. The period specifies the waiting time between two SAP packet transmissions over this circuit. Value 0 means that the SAP packets are not transmitted through this circuit. | -, -, ----- | | Period from 0 to 65535 seconds |Speed: 1 to 100 packets / second Life duration from 2 to 255 |
C57 - R3 IPX - SAP : Table of circuits : Packet size | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ----- . 99 COMMAND | A parameter contains the number of SAP packet bytes exchanged through the circuit defined at the same rank for C57 R1. | Packet size from 512 to 65535 bytes. |
C57 - R4 IPX - SAP : Table of circuits : Response to GetNearestServer | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - . 99 COMMAND | This parameter, associated with the circuit defined at the same rank for C57 R1, enables or inhibits the router with respect to receiving search requests for the best server (GetNearestServer) on the circuit. | Response 0=no, 1=yes |
C57 - R5 IPX - SAP : Table of static services : Destination service name | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---------------------- . 63 COMMAND | A parameter contains the destination service name to reach a static route. | Service name on 1 to 48 characters. |
CLASS 57 - (Continued)
C57 - R6 IPX - SAP : Table of static services : Destination service type | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---- . 63 COMMAND | A parameter contains the type of destination service associated with the service name defined at the same rank for C57 R5. | Service type on 2 bytes (4 digits from 0 to F). |
C57 - R7 IPX - SAP : Table of static services : Input state, Circuit No., Jump No. | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, ---,---,-- . 63 COMMAND | The status indicates the validity at the input of this table. Only the valid inputs (State=1) are used by the equipment. The circuit number identifies the circuit used to reached the server proposing the service defined at the same rank for C57 R5 and C57 R6. This circuit number is created under C54 R0. The number of jumps represents the number of routers to be crossed to reach the server proposing the service defined at the same rank for C57 R5 and C57 R6. | -, ---,---,-- |
CLASS 57 - (Continued)
C57 - R8 IPX - SAP : Table of static services : Server network number | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -------- . 63 COMMAND | A parameter contains the network number part of the server address proposing the service defined at the same rank for C57 R5 and C57 R6. | Network number on 4 bytes (8 digits from 0 to F). |
C57 - R9 IPX - SAP : Table of static services : Server station number | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ------------ . 63 COMMANDs | A parameter contains the part of the station number for the server address proposing the service defined at the same rank for C57 R5 and C57 R6. | Station number on 6 bytes (12 digits from 0 to F). |
C57 - R10 IPX - SAP : Table of static services : Socket number | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---- . 63 COMMAND | A parameter contains the service socket number part defined at the same rank for C57 R5 and C57 R6 as proposed by the server defined at the same rank for C57 R8 and C57 R9. | Socket number on 2 bytes (4 digits from 0 to F). |
CLASS 57 - (Continued)
C57 - R11 IPX - SAP : Table of SAP filters for reception: Input state, Evaluated field | ||
Displayed parameters | Meaning of parameters | Possible values |
0 -, - . 31 COMMAND | A parameter corresponds to a filter used for selecting the received SAP packets whose service has a name or a particular type. The action on these packets is specified generally under C57 R0 P1. The status indicates the validity at the input of this table. Only the valid inputs (State=1) are used by the equipment. The field indicates the field of the SAP packet received whose value must be compared with the values defined at the same rank for C57 R12, C57 R13 or C57 R14 :
| ,-, - |Evaluated field State 0=invalid, 1=valid |
CLASS 57 - (Continued)
C57 - R12 IPX - SAP : Table of SAP filters for reception : Service name type | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - . 31 COMMAND | A parameter contains the service name type defined at the same rank for C57 R13. complete name : all the received SAP packets whose service name field equals the name defined at the same rank for C57 R13 are selected, partial name : all the SAP packets received whose service name field begins with the characters defined at the same rank for C57 R13 are selected.
| 0=complete name, 1=partial name |
C57 - R13 IPX - SAP : Table of SAP filters for reception : Service name | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---------------------- . 31 COMMAND | A parameter contains the name of the service to be compared with the service name of any received SAP packet (if the parameter having the same rank at C57 R11 indicates that the service name field must be evaluated). The parameter at the same rank at C57 R12 indicates if this name is full or partial. | Service name on 0 to 48 characters. |
C57 - R14 IPX - SAP : Table of SAP filters for reception : Service type | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---- . 31 COMMAND | A parameter contains the service type to be compared with the service type of any SAP packet received (if the parameter having the same rank at C57 R11 indicates that the service type field must be evaluated). | Service type on 2 bytes (4 digits from 0 to F). |
CLASS 57 - (Continued)
C57 - R15 IPX - SAP : Table of SAP transmission filters : Input state, Circuit, Evaluated field | ||
Displayed parameters | Meaning of parameters | Possible values |
0 | A parameter corresponds to a filter used for selecting the SAP packets to be transmitted when its service has a name or a particular type. The action carried out on these packets is specified in the table of circuits under C57 R1. The status indicates the validity at the input of this table. Only the valid inputs (State=1) are used by the equipment. The circuit number specifies the circuit to which this filter applies. If several filters are positioned on the same circuit, the SAP packets to be transmitted, verifying at least one of the filters, will be selected. The field indicates the field of the SAP packet received whose value must be compared with the values defined at the same rank for C57 R16, C57 R17 or C57 R18 :
| ,-, ---, -, -- State 0=invalid, 1=valid |
CLASS 57 - (Continued)
C57 - R16 IPX - SAP : Table of SAP transmission filters : Service name type | ||
Displayed parameters | Meaning of parameters | Possible values |
0 - . 127 COMMAND | A parameter contains the type of service name defined at the same tank for C57 R17. complete name : all the received SAP packets whose service name field equals the name defined at the same rank for C57 R17 are selected, partial name : all the SAP packets received whose service name field begins with the characters defined at the same rank for C57 R17 are selected. | 0=complete name, 1=partial name |
C57 - R17 IPX - SAP : Table of SAP transmission filters : Service name | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---------------------- . 127 COMMAND
| A parameter contains the name of the service to be compared with the service name of any received SAP packet (if the parameter having the same rank at C57 R15 indicates that the service name field must be evaluated). The parameter at the same rank at C57 R16 indicates if this name is full or partial. | Service name on 0 to 48 characters. |
C57 - R18 IPX - SAP : Table of SAP transmission filters : Service type | ||
Displayed parameters | Meaning of parameters | Possible values |
0 ---- . 127 COMMAND | A parameter contains the service type to be compared with the service type of any SAP packet received (if the parameter having the same rank at C57 R15 indicates that the service type field must be evaluated). | Service type on 2 bytes (4 digits from 0 to F). |
Posted: Thu Jan 25 14:02:10 PST 2001
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