Label Switched Path (LSP) Ping/Trace over MPLS Network using Entropy Labels (EL)
Cisco Systemsnobo@cisco.comCisco Systemsswallow@cisco.comCisco Systemscpignata@cisco.com
MPLS Working Group
Internet Engineering Task ForceMPLSLSP PingEntropyThe Multiprotocol Label Switching (MPLS) Label Switched Path
(LSP) Ping and Traceroute are used to exercise specific paths of
Equal Cost Multipath (ECMP). When LSP is signaled to use Entropy
Label (EL) described in RFC6790, the ability for LSP
Ping and Traceroute operation to discover and exercise ECMP paths has
been lost in scenarios which LSRs apply deviating load balance
techniques. One such scenario is when some LSRs apply EL based load
balancing while other LSRs apply non-EL based load balancing (ex: IP).
Another scenario is when EL based LSP is stitched with another LSP
which can be EL based or non-EL based.
This document extends the MPLS LSP Ping and Traceroute
mechanisms to restore the ability of exercising specific paths
of ECMP over LSP which make use of Entropy Label. This
document updates RFC4379 and RFC6790.
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.Section 3.3.1 of specifies
multipath information encoding which can be used by LSP Ping
initiator to trace and validate all ECMP paths between ingress
and egress. These encodings are sufficient when all the LSRs along
the path(s), between ingress and egress, consider same set of
"keys" as input for load balancing algorithm: all IP
based or all label based.With introduction of , it is quite
normal to see set of LSRs performing load balancing based on
EL/ELI while others still follow the traditional way (IP
based). This results in LSP Ping initiator not be able to
trace and validate all ECMP paths in following scenarios:
One or more transit LSRs along LSP with ELI/EL in label
stack do not perform ECMP load balancing based on EL
(hashes based on "keys" including IP destination
address). This scenario is not only possible but quite common
due transit LSRs not implementing
or transit LSRs implementing but
not implementing suggested transit LSR behavior in Section
4.3 of .Two or more LSPs stitched together with at least one of these
LSP pushing ELI/EL in label stack. Such scenarios are described
in .
These scenarios will be quite common because every deployment
of will invariably end up with nodes
that support ELI/EL and nodes that do not. There will
typically be areas that support ELI/EL and areas that do
not.As pointed out in the procedures of
with respect to multipath
information type {9} are incomplete. However
does not actually update
. Further the specific EL location
is not clearly defined, particularly in the case of Flow-Aware
Transport Pseudowires . This document
defines a new FEC Stack sub-TLV for the Entropy Label.
of this document updates the
procedures for multipath information type {9} described in
Rest of this document describes
extensions required to restore ECMP discovery and tracing
capabilities for scenarios described.
describes LSP traceroute as an operation where the initiating LSR send a series of MPLS echo requests towards the same destination. The first packet in the series have the TTL set to 1. When the echo reply is received from the LSR one hop away the second echo request in the series is sent with the TTL set to 2, for each echo request the TLL is incremented by one until a response is received from the intended destination. Initiating LSR discovers and exercises ECMP by
obtaining multipath information from each transit LSR and using
specific destination IP address or specific entropy label.LSP Ping initiating LSR sends MPLS echo request with multipath
information. This multipath information is described in
DSMAP/DDMAP TLV of echo request, and can contain set of IP
addresses or set of labels today. Multipath information types
{2, 4, 8} carry set of IP addresses and multipath information
type {9} carries set of labels. Responder LSR (receiver of MPLS
echo request) is to determine subset of initiator specified
multipath information which load balances to each downstream
(outgoing interface). Responder LSR sends MPLS echo reply with
resulting multipath information per downstream (outgoing
interface) back to the initiating LSR. Initiating LSR is then able
to use specific IP destination address or specific label to
exercise specific ECMP path on the responder LSR.Current behavior is problematic in following scenarios:
Initiating LSR sends IP multipath information, but
responder LSR load balances on labels.Initiating LSR sends label multipath information, but
responder LSR load balances on IP addresses.Initiating LSR sends one of existing multipath information
to LSR which pushes ELI/EL in label stack, but initiating
LSR can only continue to discover and exercise specific
path of ECMP if LSR which pushes ELI/EL responds with both
IP addresses and associated EL corresponding to each IP
address. This is because:
ELI/EL pushing LSR that is a stitching point will
load balance based on IP address.Downstream LSR(s) of ELI/EL pushing LSR may load
balance based on ELs.Initiating LSR sends one of existing multipath information
to ELI/EL pushing LSR, but initiating LSR can only
continue to discover and exercise specific path of ECMP
if ELI/EL pushing LSR responds with both labels and
associated EL corresponding to label. This is because:
ELI/EL pushing LSR that is a stitching point will
load balance based on EL from previous LSP and pushes
new EL.Downstream LSR(s) of ELI/EL pushing LSR may load
balance based on new ELs.
The above scenarios point to how the existing multipath
information is insufficient when LSP traceroute is operated on
an LSP with Entropy Labels described by . Therefore, this document defines a multipath information
type to be used in the DSMAP/DDMAP of MPLS echo request/reply
packets in .
In addition, responder LSR can reply with empty multipath
information if no IP address set or label set from received
multipath information matched load balancing to a
downstream. Empty return is also possible if initiating LSR sends
multipath information of one type, IP address or label, but
responder LSR load balances on the other type. To disambiguate
between the two results, this document introduces new flags in
the DSMAP/DDMAP TLV to allow responder LSR to describe the load
balance technique being used.It is required that all LSRs along the LSP understand new
flags as well as new multipath information type. It is also
required that initiating LSR can select both IP destination
address and label to use on transmitting MPLS echo request
packets. Two additional DS Flags are defined for the DSMAP and
DDMAP TLVs in .
defined multipath type {9} for tracing of LSPs where
label based load-balancing is used. However, as pointed out
in , the procedures for using this type are incomplete.
First, the specific location of the label was not defined.
What was assumed, but not spelled out, was that the presence
of multipath type {9} meant the responder
should act as if the payload of the received packet were
non-IP and that the bottom-of-stack label should be replaced
by the values indicated by multipath type {9} to determine
their respective out-going interfaces.
Further, with the introduction of , entropy labels may
now appear anywhere in a label stack.
This section defines to which labels multipath type {9} can
apply. Additionally it defines procedures for tracing
pseudowires and flow-aware pseudowires. These procedures
pertain to the use of multipath information type {9} as well
as type {10}.
defines a new FEC-Stack sub-TLV to
indicate and entropy label. Multipath type {9} applies
exclusively to this sub-TLV. Any LSP Ping message containing
a DD-MAP or DS-MAP with multipath type {9} MUST include an
EL_FEC at the bottom of the FEC-Stack.
When an MPLS echo request message is received containing a
FEC-Stack with an EL-FEC at the bottom of the FEC stack and is
not preceded by an entropy label, the responder must behave
(for load balancing purposes) as if the first word of the
message were a Pseudowire Control Word.
In order to trace a non-FAT pseudowire, instead of
including the appropriate PW-FEC in the FEC-Stack, an EL-FEC
is included. Tracing in this way will cause compliant routers
to return the proper outgoing interface. Note that this
procedure only traces to the end of the MPLS LSP at transport layer
(e.g. LDP and/or RSVP). To actually verify the PW-FEC or in
the case of a MS-PW, to determine the next pseudowire label
value, the initiator MUST repeat that step of the trace, (i.e.,
repeating the TTL value used) but with the FEC-Stack
modified to contain the appropriate PW-FEC.
In order to trace a Flow-Aware Transport Pseudowire, the initiator
includes an EL-FEC at the bottom of the FEC-Stack and pushes
the appropriate PW-FEC onto the FEC-Stack.
In order to facilitate the flow of the following text we
speak in terms of a boolean called EL_LSP maintained by the
initiating LSR. This value controls the multipath information type to be
used in transmitted echo request packets. When the initiating LSR is
transmitting an echo request packet with DSMAP/DDMAP with a non-zero
multipath information type, then EL_LSP boolean MUST be consulted to
determine the multipath information type to use.
In addition to procedures described in as updated by and , initiating LSR MUST operate
with following procedures.
When initiating LSR is IP based load balancer (not pushing ELI/EL), initialize EL_LSP=False.When initiating LSR pushes ELI/EL, initialize
EL_LSP=True.When initiating LSR is transmitting non-zero multipath
information type:
If (EL_LSP) initiating LSR MUST use multipath
information type {10}.Else initiating LSR MUST use multipath
information type {2, 4, 8, 9}.When initiating LSR is transmitting multipath information
type {10}, both "IP Multipath Information" and
"Label Multipath Information" MUST be included,
and "IP Associated Label Multipath Information"
MUST be omitted (NULL).When initiating LSR receives echo reply with {L=0, E=1} in
DS flags with valid contents, set EL_LSP=True.In following conditions, initiating LSR may have lost the
ability to exercise specific ECMP paths. Initiating LSR MAY
continue with "best effort".
Received echo reply contains empty multipath
information.Received echo reply contains {L=0, E=<any>} DS
flags, but does not contain IP multipath information.Received echo reply contains {L=1, E=<any>} DS
flags, but does not contain label multipath information.Received echo reply contains {L=<any>, E=1} DS
flags, but does not contain associated label multipath
information.IP multipath information types {2, 4, 8} sent, and
received echo reply with {L=1, E=0} in DS flags.Multipath information type {10} sent, and received echo
reply with multipath information type other than {10}.Common Procedures: Responder LSR receiving MPLS echo request
packet with multipath information type {10} MUST validate
following contents. Any deviation MUST result in responder LSR
to consider the packet as malformed and return code 1
(Malformed echo request received) in MPLS echo reply packet.
IP multipath information MUST be included.Label multipath information MUST be included.IP associated label multipath information MUST be omitted (NULL).
Following subsections describe expected responder LSR
procedures when echo reply is to include DSMAP/DDMAP TLVs,
based on local load balance technique being employed. In case
responder LSR performs deviating load balance techniques per
downstream basis, appropriate procedures matching to each
downstream load balance technique MUST be operated.
Responder MUST set {L=0, E=0} in DS flags.If multipath information type {2, 4, 8} is received,
responder MUST comply with /.If multipath information type {9} is received,
responder MUST reply with multipath type {0}.If multipath information type {10} is received,
responder MUST reply with multipath information type
{10}. "Label Multipath Information" and
"Associated Label Multipath Information"
sections MUST be omitted (NULL). If no matching IP address
is found, then "IPMultipathType" field MUST be
set to multipath information type {0} and "IP
Multipath Information" section MUST also be omitted
(NULL). If at least one matching IP address is found, then
"IPMultipathType" field MUST be set to
appropriate multipath information type {2, 4, 8} and
"IP Multipath Information" section MUST be
included.Responder MUST set {L=0, E=1} in DS flags.If multipath information type {9} is received,
responder MUST reply with multipath type {0}.
If multipath type {2, 4, 8, 10} is received, responder
MUST respond with multipath type {10}. See
for details of multipath type
{10}. "Label Multipath Information" section
MUST be omitted (i.e. is it not there). IP address set
specified in received IP multipath information MUST be
used to determine the returning IP/Label pairs. If
received multipath information type was {10}, received
"Label Multipath Information" sections MUST NOT
be used to determine the associated label portion of
returning IP/Label pairs. If no matching IP address is
found, then "IPMultipathType" field MUST be
set to multipath information type {0} and "IP
Multipath Information" section MUST be omitted. In
addition, "Assoc Label Multipath Length" MUST
be set to 0, and "Associated Label Multipath
Information" section MUST also be omitted. If at
least one matching IP address is found,
then "IPMultipathType" field MUST be set to
appropriate multipath information type {2, 4, 8} and
"IP Multipath Information" section MUST be
included. In addition, "Associated Label Multipath
Information" section MUST be populated with list of
labels corresponding to each IP address specified in
"IP Multipath Information"
section. "Assoc Label Multipath Length" MUST
be set to a value representing length in octets of
"Associated Label Multipath Information" field.
Responder MUST set {L=1, E=0} in DS flags.If multipath information type {2, 4, 8} is received,
responder MUST reply with multipath type {0}.If multipath information type {9} is received,
responder MUST comply with
/ as updated by
.
If multipath information type {10} is received,
responder MUST reply with multipath information type
{10}. "IP Multipath Information" and
"Associated Label Multipath Information"
sections MUST be omitted (NULL). If no matching label is
found, then "LbMultipathType" field MUST be set
to multipath information type {0} and "Label
Multipath Information" section MUST also be omitted
(NULL). If at least one matching label is found, then
"LbMultipathType" field MUST be set to
appropriate multipath information type {9} and "Label
Multipath Information" section MUST be included.Responder MUST set {L=1, E=1} in DS flags.If multipath information type {2, 4, 8} is received,
responder MUST reply with multipath type {0}.If multipath type {9, 10} is received, responder MUST
respond with multipath type {10}. "IP Multipath
Information" section MUST be omitted. Label
set specified in received label multipath information MUST
be used to determine the returning Label/Label pairs. If
received multipath information type was {10}, received
"Label Multipath Information" sections MUST NOT
be used to determine the associated label portion of
returning Label/Label pairs. If no matching label is
found, then "LbMultipathType" field MUST be set
to multipath information type {0} and "Label
Multipath Information" section MUST be omitted. In
addition, "Assoc Label Multipath
Length" MUST be set to 0, and "Associated Label
Multipath Information" section MUST also be omitted.
If at least one matching label is found, then
"LbMultipathType" field MUST be set to
appropriate multipath information type {9} and "Label
Multipath Information" section MUST be included. In
addition, "Associated Label Multipath
Information" section MUST be populated with list of
labels corresponding to each label specified in
"Label Multipath Information"
section. "Assoc Label Multipath Length" MUST
be set to a value representing length in octets of
"Associated Label Multipath Information" field.Stitching LSR that xconnects Flow-Aware Transport
Pseudowires behave in one of two ways:
Load balances on previous flow label, and carries over
same flow label. For this case, stitching LSR is to behave as
procedures described in .Load balances on previous flow label, and replaces flow label
with newly computed. For this case, stitching LSR is to behave
as procedures described in .Entropy Label Indicator (ELI) is a reserved label that has no
explicit FEC associated, and has label value 7 assigned from
the reserved range. Use Nil FEC as Target FEC Stack sub-TLV to
account for ELI in a Target FEC Stack TLV.Entropy Label (EL) is a special purpose label with label
value being discretionary (i.e. label value may not be from
the reserved range). For LSP verification mechanics to perform
its purpose, it is necessary for a Target FEC Stack sub-TLV to
clearly describe EL, particularly in the scenario where label
stack does not carry ELI (ex: FAT-PW ). Therefore, this document defines a EL FEC to allow a
Target FEC Stack sub-TLV to be added to the Target FEC Stack
to account for EL.The Length is 4. Labels are 20-bit values treated as numbers.
Label is the actual label value inserted in the label stack;
the MBZ fields MUST be zero when sent and ignored on
receipt.Two flags, L and E, are added in DS Flags field of the
DSMAP/DDMAP TLVs. Both flags MUST NOT be set in echo request
packets when sending, and ignored when received. Zero, one or
both new flags MUST be set in echo reply packets.
Two flags result in four load balancing techniques which echo
reply generating LSR can indicate:
{L=0, E=0} LSR load balances based on IP and does not
push ELI/EL.{L=0, E=1} LSR load balances based on IP and pushes
ELI/EL.{L=1, E=0} LSR load balances based on label and does not
push ELI/EL.{L=1, E=1} LSR load balances based on label and pushes
ELI/EL.One new multipath information type is added to be used in
DSMAP/DDMAP TLVs. New multipath type has value of 10.
Multipath type 10 is comprised of three sections. One section
to describe IP address set. One section to describe label
set. One section to describe another label set which associates
to either IP address set or label set specified in the other
section.Multipath information type 10 has following format:
IPMultipathType
0 when "IP Multipath Information" is omitted.
Otherwise one of IP multipath information values:
{2, 4, 8}.IP Multipath Information
This section is omitted when "IPMultipathType"
is 0. Otherwise this section reuses IP multipath information
from . Specifically, multipath
information for values {2, 4, 8} can be used.LbMultipathType
0 when "Label Multipath Information" is omitted.
Otherwise label multipath information value {9}.Label Multipath Information
This section is omitted when "LbMultipathType"
is 0. Otherwise this section reuses label multipath
information from . Specifically,
multipath information for value {9} can be used.Associated Label Multipath Information
"Assoc Label Multipath Length" is a 16 bit field of multipath information which indicates length in octets of the associated label multipath information."Associated Label Multipath Information" is a list of labels with each label described in 24 bits. This section MUST be omitted in an MPLS echo request message. A midpoint which pushes ELI/EL labels SHOULD include "Assoc Label Multipath Information" in its MPLS echo reply message, along with either "IP Multipath Information" or "Label Multipath Information". Each specified associated label described in this section maps to specific IP address OR label described in the "IP Multipath Information" section or "Label Multipath Information" section. For example, if 3 IP addresses are specified in the "IP Multipath Information" section, then there MUST be 3 labels described in this section. First label maps to the lowest IP address specified, second label maps to the second lowest IP address specified and third label maps to the third lowest IP address specified.There are couple of scenarios where LSP path tracing
mechanics are not supported in this draft revision.
When one or more LSP transit node(s) performs label based
load balancing on a label that is not bottom-of-stack label
when Entropy Label Indicator is not included.When one or more LSP transit node(s) performs label based
load balancing on a label other than Entropy Label when
Entropy Label Indicator and Entropy Label pair is included.This document extends LSP Traceroute mechanism to discover
and exercise ECMP paths when LSP uses ELI/EL in label stack.
Additional processings are required for responder and initiator
nodes. Responder node that pushes ELI/EL will need to compute
and return multipath data including associated EL. Initiator
node will need to store and handle both IP multipath and label
multipath information, and include destination IP addresses
and/or ELs in MPLS echo request packet as well as in carried
multipath information to downstream nodes. Due to additional
processing, it is critical that proper security measures
described in and
are followed. defines the Downstream Mapping TLV, which has the Type 2 assigned from the "Multi-Protocol Label Switching (MPLS) Label Switched Paths (LSPs) Ping Parameters - TLVs" registry. [RFC6424] defines the Downstream Detailed Mapping TLV, which has the Type 20 assigned from the "Multi-Protocol Label Switching (MPLS) Label Switched Paths (LSPs) Ping Parameters - TLVs" registry. Both TLVs shares two fields: "DS Flags" and "Multipath Type". This document requires allocation of new values in both the "DS Flags" and "Multipath Type" fields, which are not maintained by IANA today. Therefore, this document requests IANA to create new registries within protocol to maintain "DS Flags" and "Multipath Type" fields. Name of registries and initial values are described in immediate sub-sections to follow.
Assignments of DS Flags are via Standards Action or IESG Approval .Note that "DS Flags" is a field included in two TLVs defined in "Multi-Protocol Label Switching (MPLS) Label Switched Paths (LSPs) Ping Parameters - TLVs" registry: Downstream Mapping TLV (value 2) and Downstream Detailed Mapping TLV (value 20). Modification to "DS Flags" registry will affect both TLVs.
Assignments of Multipath Type are via IETF Review or IESG Approval .Note that "Multipath Type" is a field included in two TLVs defined in "Multi-Protocol Label Switching (MPLS) Label Switched Paths (LSPs) Ping Parameters - TLVs" registry: Downstream Mapping TLV (value 2) and Downstream Detailed Mapping TLV (value 20). Modification to "Multipath Type" registry will affect both TLVs.IANA is requested to assign a new sub-TLV from the "Sub-TLVs for TLV Types 1 and 16" section from "Multi-Protocol Label Switching (MPLS) Label Switched Paths (LSPs) Ping Parameters - TLVs" registry.
Authors would like to thank Loa Andersson for performing thorough review and providing valuable comments.Nagendra Kumar
Cisco Systems
Email: naikumar@cisco.comMulti-Protocol Label Switching (MPLS) Label Switched Paths (LSPs) Ping ParametersIANA