One document matched: draft-swallow-mpls-remote-lsp-ping-00.txt
Network Working Group George Swallow
Internet Draft Cisco Systems, Inc.
Category: Standards Track
Expiration Date: April 2007
Vanson Lim
Cisco Systems, Inc.
October 2006
Remote LSP Ping
draft-swallow-mpls-remote-lsp-ping-00.txt
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Abstract
This document defines a means of remotely initiating Multiprocal
Label Switched Protocol Pings from proxy Label Switching Routers.
The motivation for this facility is to limit the number of
messages and related processing when using LSP Ping in large
Point-to-Multipoint LSPs.
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Contents
1 Introduction .............................................. 3
1.1 Conventions ............................................... 3
2 Remote Ping Overview ...................................... 4
3 Remote Echo / Reply Pprocedures ........................... 5
3.1 Procedures for the initiator .............................. 5
3.2 Procedures for the proxy LSR .............................. 6
3.2.1 Sending an MPLS remote echo reply ......................... 7
3.2.2 Sending the MPLS echo requests ............................ 7
4 Remote Echo / Reply Messages .............................. 9
4.1 Remote Echo / Reply Message formats ....................... 9
4.2 Remote Echo Message contents .............................. 10
4.3 Remote Echo Reply Message Contents ........................ 10
5 Object formats ............................................ 11
5.1 Remote Echo Parameters Object ............................. 11
5.2 Previous Hop Object ....................................... 13
6 Security Considerations ................................... 13
7 IANA Considerations ....................................... 13
7.1 Message and Object Type Assignments ....................... 13
7.2 Return Code Assignments ................................... 14
8 Acknowledgments ........................................... 14
9 References ................................................ 14
9.1 Normative References ...................................... 14
9.2 Informative References .................................... 15
10 Authors' Addresses ........................................ 15
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1. Introduction
It is anticipated that very large Point-to-Multipoint (P2MP) Label
Switched Paths (LSPs) will exist. Further it is anticipated that
many of the applications for P2MP tunnels will require OAM that is
both rigorous and scalable.
Suppose one wishes to trace a P2MP LSP to localize a fault which is
affecting one egress or a set of egresses. Suppose one follows the
normal procedure for tracing - namely repeatedly pinging from the
root, incrementing the TTL by one after each three or so pings. Such
a procedure has the potential for producing a large amount of pro-
cessing at the P2MP-LSP midpoints and egresses. It also could pro-
duce an unwieldy number of replies back to the root.
An alternative would be to begin sending pings from points at or near
the affected egress(es) and working backwards toward the root. The
TTL could be held constant as say two, limiting the the number of
responses to the number of next-next-hops of the point where the ping
was initiated.
The above procedure does require that the root know the previous-hop
node to the one which was pinged on the prior iteration. This infor-
mation is readily available in [P2MP-TE]. This document provides a
means for obtaining this information for [mLDP] as well as defining a
means for remotely causing an MPLS echo request message to be sent
down a Label Switched Path (LSP) or part of an LSP.
While the motivaton for this document came from multicast scaling
concerns, its applicability may be wider. However other uses of this
facility are beyond the scope of this document. Further the discus-
sion is cauched in terms of multipoint LSPs.
1.1. Conventions
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in RFC 2119 [KeyWords].
The term "Must Be Zero" (MBZ) is used in object descriptions for
reserved fields. These fields MUST be set to zero when sent and
ignored on receipt.
Based on context the terms leaf and egress are used interchangeably.
Egress is used where consistency with [RFC4379] was deemed appropri-
ate. Receiver is used in the context of receiving protocol messages.
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2. Remote Ping Overview
Two new LSP Ping messages are defined for remote pinging, the MPLS
remote echo message and the MPLS remote echo reply.
A remote ping operation on a P2MP LSP involves at least three LSRs;
in some scenarios none of these are the ingress (root) or an egress
(leaf) of the LSP.
We refer to these nodes with the following terms:
Initiator - the node which initiates the ping operation by sending
an MPLS remote echo message
Proxy LSR - the node which is the destination of the MPLS remote
echo message and potential initiator of the MPLS echo
request
Receiver(s) - the receivers of the MPLS echo request messages
The initiator formats an MPLS remote echo message and sends it to the
proxy LSR, a node it believes to be on the path of the LSP. This
message specifies the MPLS echo request to be sent inband of the LSP.
It may also request the proxy LSR to acknowledge the receipt of the
remote echo message and/or respond with the address of the previous
hop, i.e. the LSR upstream of it on this LSP.
The proxy LSR validates that it has a label mapping for the specified
FEC and that it is authorized to send the specified MPLS echo request
on behalf of the initiator. Depending on the Reply Mode carried in
the header of the remote echo message and the above results an MPLS
remote echo reply message might be sent back to the initiator. This
message may also communicate the address of the previous hop.
If the proxy LSR has a label mapping for the FEC and and all autho-
rization check have passed, the proxy LSR formats an MPLS echo
request. If the source address of the IP packet is not the initia-
tor, it includes a ReplyTo object containing the initiator's address.
It then sends it inband of the LSP.
The receivers process the MPLS echo request as normal, sending their
MPLS echo replies back to the initiator.
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3. Remote Echo / Reply Pprocedures
3.1. Procedures for the initiator
The initiator creates an MPLS remote echo message.
The message MUST contain a Target FEC Stack that describes the FEC
being tested.
[Note for the current version of the ID, the FEC stack is limited to
a single FEC as we have not yet fully considered the operational and
security impacts of permitting more FECs]
The message MUST contain a Remote Echo Parameters object. The
address type is set to either IPv4 or IPv6. The Destination IP
Address is set to the value to be used in the MPLS echo request
packet. If the Address Type is IPv4, an address from the range 127/8.
If the Address Type is IPv6, an address from the range
0:0:0:0:0:FFFF:127/104. By default the source address will be set to
an address of the proxy LSR. Flags MAY be set to request use of
either the ingress' source address or the initiators source address.
The Reply mode and Global Flags of the Remote Echo Parameters object
are set to the values to be used in the MPLS echo request message
header. The Source UDP Port is set to the value to be used in the
MPLS echo request packet. The TTL is set to the value to be used in
the outgoing MPLS label stack. See section 5.2.2.2 for further
details.
Flags MAY be set to request the previous hop address and/or a down-
stream mapping object from the proxy LSR.
A list of Next Hop IP Addresses MAY be included to limit the next
hops towards which the MPLS echo request message will be sent.
Any of following objects MAY be included; these objects will be
copied into the MPLS echo request messages:
Target FEC Stack
Pad
Vendor Enterprise Number
Reply TOS Byte
P2MP Egress Identifier [McstPing]
Echo Jitter TLV [McstPing]
Vendor Private TLVs
Downstream Mapping objects MAY be included. These objects will be
matched to the next hop address for inclusion in those particular
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MPLS echo request messages.
The message is then encapsulated in a UDP packet. The source UDP
port is chosen by the sender; the destination UDP port is set to
3503. The IP header is set as follows: the source IP address is a
routable address of the sender; the destination IP address is a
routable address of the midpoint. The packet is then sent with the
IP TTL is set to 255.
3.2. Procedures for the proxy LSR
A proxy LSR that receives an MPLS remote echo message, parses the
packet to ensure that it is a well-formed packet. It checks that the
TLVs that are not marked "Ignore" are understood. If not, it sets
the Return Code set to "Malformed echo request received" or "TLV not
understood" (as appropriate), and the Subcode set to zero. If the
Reply Mode of the message header is not 0, an MPLS remote echo reply
message SHOULD be sent as described below. In the latter case, the
misunderstood TLVs (only) are included in an Errored TLVs object.
The header fields Sender's Handle and Sequence Number are not exam-
ined, but are saved to be included in the MPLS remote echo reply and
MPLS echo request messages.
The proxy LSR validates that it has a label mapping for the specified
FEC, it then determines if it is an egress, transit or bud node and
sets the Return Code as appropriate.
The proxy LSR then determines if it is authorized to send the speci-
fied MPLS echo request on behalf of the initiator. An LSR MUST be
capable of filtering addresses to validate initiators. Other filters
on FECs or MPLS echo request contents MAY be applied. If a filter
has been invoked (i.e. configured) and an address does not pass the
filter, then an MPLS echo request message MUST NOT be sent, and the
event SHOULD be logged. An MPLS remote echo reply message may be
sent with a Return Code of <tba>, "Remote Ping not authorized".
If the "Ingress Source Address" flag is set and the proxy LSR is con-
figured to allow to use the ingress address, the proxy LSR determines
the ingress LSR. If the address is found, it is used as the source
address of the MPLS echo request. Otherwise the Return Code is set
to <tba>, "Unable to use ingress source address". If the Reply Mode
of the message header is not 0, an MPLS remote echo reply message
SHOULD be sent as described below.
If the "Initiator Source Address" flag is set and the proxy LSR is
configured to allow to use the iniator's address it is used as the
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source address of the MPLS echo request. Otherwise the Return Code
is set to <tba>, "Unable to use intiator source address". If the
Reply Mode of the message header is not 0, an MPLS remote echo reply
message SHOULD be sent as described below.
If the "Request for Previous Hop" flag is set, a PHOP Address Object
is formatted for inclusion in the MPLS remote echo reply. If the
previous HOP is unknown or ambiguous the Address Type is set to "No
Address Supplied".
If there is a list of Next Hop addresses in the Remote Echo Parame-
ters object, each address is examined to determine if it is a next
hop for this FEC. If any are not, those addresses are deleted from
the list. The updated Remote Echo Parameters object is included in
the MPLS remote echo reply.
If the "Request for Downstream Mapping" flag is set the LSR formats a
Downstream Mapping object for each interface that the MPLS echo
request will be sent out.
If the Reply Mode of the message header is not 0 or 5, an MPLS remote
echo reply message SHOULD be sent as described below.
3.2.1. Sending an MPLS remote echo reply
The Reply mode, Sender's Handle and Sequence Number fields are copied
from the remote echo message. Various objects are included as speci-
fied above. The message is encapsulated in a UDP packet. The source
IP address is a routable address of the proxy LSR; the source port is
the well-known UDP port for LSP ping. The destination IP address and
UDP port are copied from the source IP address and UDP port of the
echo request. The IP TTL is set to 255.
3.2.2. Sending the MPLS echo requests
A base MPLS echo request is formed as decribed in the next section.
The section below that describes how the base MPLS echo request is
sent on each interface.
3.2.2.1. Forming the base MPLS echo request
A Next_Hop_List is created as follows. If Next Hop addresses were
included in the received Remote Echo Parameters object, the
Next_Hop_List is copied from the Remote Echo Parameters object as
adjusted above. Otherwise, the list is set to all the next hops to
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which the FEC would be forwarded.
The proxy LSR then formats an MPLS echo request message. The Global
Flags and Reply Mode are copied from the Remote Echo Parameters
object. The Return Code and Return Subcode are set to zero.
The Sender's Handle and Sequence Number are copied from the remote
echo message.
The TimeStamp Sent is set to the time-of-day (in seconds and
microseconds) that the echo request is sent. The TimeStamp Received
is set to zero.
The following objects are copied from the MPLS remote echo message.
Note that of these, only the Target FEC Stack is REQUIRED to appear
in the MPLS remote echo message.
Target FEC Stack
Pad
Vendor Enterprise Number
Reply TOS Byte
P2MP Egress Identifier [McstPing]
Echo Jitter TLV [McstPing]
Vendor Private TLVs
If the source address of the IP packet is not the address of the ini-
tiator, it includes a ReplyTo object (see [SelfTest]) containing the
initiator's address.
The message is then encapsulated in a UDP packet. The source UDP
port is copied from the Remote Echo Parameters object. destination
ports are copied from the remote echo message.
If either the "Initiator Source Address" or "Initiator Source
Address" flags is set, the source address is set as specified. Oth-
erwise the source IP address is set to a routable address of the
proxy LSR. Per usual the TTL of the IP packet is set to 1.
3.2.2.2. Per interface sending procedures
The proxy LSR now iterates through the Next_Hop_List modifying the
base MPLS echo request to form the MPLS echo request packet which is
then sent on that particular interface.
For each next hop address, the outgoing label stack is determained.
The TTL for the label corresponding to the FEC in the FEC stack is
set such that the TTL on the wire will be one less than the TTL
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specified in the remote echo message. If any additional labels are
pushed onto the stack, their TTLs are set to 255.
If the MPLS remote echo message contained Downstream Mapping objects,
they are examined. If the Downstream IP Address matches the next hop
address that Downstream Mapping object is included in the MPLS echo
request.
The packet is then transmitted on this interface.
4. Remote Echo / Reply Messages
Two new LSP Ping messages are defined for remote pinging, the MPLS
remote echo message and the MPLS remote echo reply.
4.1. Remote Echo / Reply Message formats
Except where noted, the definitions of all fields in the messages are
identical to those found in [LSP-PING]. The messages have the fol-
lowing format:
0 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Version Number | MUST Be Zero |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Message Type | Reply mode | Return Code | Return Subcode|
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Sender's Handle |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Sequence Number |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| TLVs ... |
. .
. .
. .
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Message Type
Type Message
---- -------
5 MPLS remote echo
6 MPLS remote echo reply
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Reply mode
The reply modes are the same as [LSP-PING] with the addtion of
value 5. For completeness, the full list of reply modes
follows:
Value Meaning
----- -------
1 Do not reply
2 Reply via an IPv4/IPv6 UDP packet
3 Reply via an IPv4/IPv6 UDP packet with Router Alert
4 Reply via application level control channel
5 Reply only if the proxy request is not fulfilled
4.2. Remote Echo Message contents
The MPLS remote echo message MAY contain the following objects:
Type Object
---- -----------
1 Target FEC Stack
2 Downstream Mapping
3 Pad
5 Vendor Enterprise Number
10 Reply TOS Byte
tba Remote echo parameters
tba PHOP Address
tba P2MP Egress Identifier [McstPing]
tba Echo Jitter TLV [McstPing]
Vendor Private TLVs
4.3. Remote Echo Reply Message Contents
The MPLS remote echo reply message MAY contain the following objects:
Type Object
---- -----------
1 Target FEC Stack
2 Downstream Mapping
5 Vendor Enterprise Number
9 Errored TLVs
tba Remote Echo Parameters
tba PHOP Address
Vendor Private objects
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5. Object formats
5.1. Remote Echo Parameters Object
0 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Address Type | Flags | Reply mode | TTL |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Source UDP Port | Global Flags |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
: Destination IP Address :
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
: :
: Next Hop IP Addresses :
: :
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Address Type
The type of address found in the in the Destination IP Address
and Next Hop IP Addresses fields. The type codes appear in the
table below:
Address Family Type
IPv4 Numbered 1
IPv6 Numbered 3
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Flags
Ingress Source Address 0x01
When set this requests that the address of the ingress of
the LSP be used as the source address of the MPLS echo
request packet
Initiator Source Address 0x02
When set this requests that the address of the initiator be
used as the source address of the MPLS echo request packet
Request for Previous Hop 0x04
When set this requests that the proxy LSR supply the PHOP
address in the MPLS remote echo reply message
Request for Downstream Mapping 0x08
When set this requests that the proxy LSR supply a
Downstream Mapping object in the MPLS remote echo reply
message
Reply mode
The reply mode to be sent in the MPLS Echo Request message; the
values are as specified in [RFC4379]
TTL
The TTL mode to be sent in the MPLS Echo Request packet
Source UDP Port
The source UDP port to be sent in the MPLS Echo Request packet
Global Flags
The Global Flags to be sent in the MPLS Echo Request messge
Destination IP Address
If the Address Type is IPv4, an address from the range 127/8;
If the Address Type is IPv6, an address from the range
0:0:0:0:0:FFFF:127/104
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Next Hop IP Addresses
A list of next hop address that the echo request message is to
be sent towards
5.2. Previous Hop Object
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Address Type | MUST be Zero |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
: Previous Hop IP Address :
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Address Type
A type code as specified in the table below:
Type Type of Address
0 No Address Supplied
1 IPv4
3 IPv6
6. Security Considerations
[To be written]
7. IANA Considerations
[Not complete]
7.1. Message and Object Type Assignments
This document makes the following codepoint assigments (pending IANA
action):
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Registry Codepoint Purpose
LSP Ping Message Type tba MPLS remote echo message
tba MPLS remote echo reply
LSP Ping Object Type tba Remote echo parameters
tba PHOP Address
7.2. Return Code Assignments
Value Meaning
tba Remote Ping not authorized
tba Unable to use ingress source address
tba Unable to use initiator source address
tba Failed Next Hops
8. Acknowledgments
9. References
9.1. Normative References
[RFC4379] Kompella, K. and G. Swallow, "Detecting Multi-Protocol
Label Switched (MPLS) Data Plane Failures", RFC 4379,
February 2006.
[SelfTest] Swallow, G. et al., "LSR Self Test",
draft-ietf-mpls-lsr-self-test-06.txt, October 2005.
[KeyWords] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
[McstPing] Farrel, A. et al, "Detecting Data Plane Failures in
Point-to-Multipoint MPLS Traffic Engineering -
Extensions to LSP Ping",
draft-ietf-mpls-p2mp-lsp-ping-02.txt, September 2006.
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9.2. Informative References
[P2MP-TE] Aggarwal, R., et al., "Extensions to RSVP-TE for
Point-to-Multipoint TE LSPs",
draft-ietf-mpls-rsvp-te-p2mp-06.txt, July 2006.
[mLDP] Minei, I., et. al., "Label Distribution Protocol
Extensions for Point-to-Multipoint and
Multipoint-to-Multipoint Label Switched Paths"
draft-ietf-mpls-ldp-p2mp-01.txt, June 2006.
10. Authors' Addresses
George Swallow
Cisco Systems, Inc.
1414 Massachusetts Ave
Boxborough, MA 01719
Email: swallow@cisco.com
Vanson Lim
Cisco Systems, Inc.
1414 Massachusetts Ave
Boxborough, MA 01719
Email: vlim@cisco.com
Copyright Notice
Copyright (C) The Internet Society (2006). This document is subject
to the rights, licenses and restrictions contained in BCP 78, and
except as set forth therein, the authors retain all their rights.
Expiration Date
April 2007
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