PCEP Extensions for Establishing Relationships Between Sets of LSPsGoogle, Inc.1600 Amphitheatre ParkwayMountain ViewCA94043USinaminei@google.comIndividual Contributoredward.crabbe@gmail.comCisco Systems, Inc.170 West Tasman Dr.San JoseCA95134USmsiva@cisco.comPacket Designhari@packetdesign.comHuaweiDivyashree Techno Park, WhitefieldBangaloreKA560066Indiadhruv.ietf@gmail.comNTT Communications CorporationGranpark Tower 3-4-1 Shibaura, Minato-ku
Tokyo108-8118Japanyosuke.tanaka@ntt.comPCE Working Group This document introduces a generic mechanism to create a grouping of LSPs in the
context of a PCE.
This grouping can then be used to define associations between sets of LSPs or between a
set of LSPs and a set of attributes (such as configuration parameters or behaviors),
and is equally applicable to stateful PCE (active and passive modes) and stateless PCE.
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL
NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED",
"MAY", and "OPTIONAL" in this document are to be interpreted as
described in BCP 14 when, and only when, they
appear in all capitals, as shown here.
describes the Path Computation Element
Protocol PCEP. PCEP enables the communication between a Path Computation
Client (PCC) and a Path Control Element (PCE), or between PCE and PCE,
for the purpose of computation of Multiprotocol Label Switching (MPLS) as well
as Generalzied MPLS (GMPLS) for Traffic
Engineering Label Switched Path (TE LSP) characteristics.
Stateful pce specifies a
set of extensions to PCEP to enable stateful
control of TE LSPs between and across PCEP sessions in compliance with
and focuses on a model where LSPs are configured
on the PCC and control over them is delegated to the PCE. The model of
operation where LSPs are initiated from the PCE is described in
.
This document introduces a generic mechanism to create a grouping of LSPs.
This grouping can then be used to define associations between sets of LSPs or between a
set of LSPs and a set of attributes (such as configuration parameters or behaviors),
and is equally applicable to stateful PCE (active and passive modes) and stateless PCE.
The associations could be created dynamically and conveyed to a PCEP peer within PCEP, or
it could be configured by an operator on the PCEP peers. Refer for more details.
This document uses the following terms defined in : PCC, PCE, PCEP Peer. This document uses the following terms defined in : Stateful PCE, Delegation.This document uses the following terms defined in : Redelegation Timeout Interval, LSP State
Report, LSP Update Request.This document uses the following terms defined in : PCE-initiated LSP, LSP Initiate. The following term is defined in this document: Association Timeout Interval: when a PCEP session is terminated,
a PCC waits for this time period before deleting associations created by the PCEP peer.
Stateful PCE provides the ability to update existing LSPs and to instantiate new ones.
To enable support for PCE-controlled make-before-break and for protection, there is a need
to define associations between LSPs. For example, the association between the original
and the re-optimized path in the make-before break scenario, or between the
working and protection path in end-to-end protection. Another use for LSP grouping is for
applying a common set of configuration parameters or behaviors to a set of LSPs.
For a stateless PCE, it might be useful to associate a path
computation request to an association group, thus enabling it to associate
a common set of policy, configuration parameters or behaviors with the request.
Some associations could be created dynamically, such as association between the working and protections LSPs of a tunnel. Whereas
some association could be created by the operator manually, such as policy based association, where the LSP could join
an operator-configured existing association.
Rather than creating separate mechanisms for each use case, this draft defines a generic mechanism that can
be reused as needed.
LSPs are associated with other LSPs with which they interact by
adding them to a common association group. Association groups as
defined in this document can be applied to LSPs originating at the same head end
or different head ends.Some associations could be created dynamically by a PCEP speaker and the associations (along with the set of LSPs) are conveyed to a PCEP peer.
Whereas, some associations are configured by the operator on the PCEP peers involved before hand, a PCEP speaker then could ask for a LSP to join the operator-configured association. Usage of dynamic and configured is usually dependent on the type of the association.For the operator-configured association, the association identifier, type,
as well as the association source IP address is manually configured by the operator. In case of dynamic association, the association identifier is allocated dynamically by the PCEP speaker.The dynamically created association can be reported to the PCEP peer
via the PCEP messages as per the stateful extensions. While the operator-configured association are known to the PCEP peer before hand, a PCEP peer could ask for a LSP to join the operator-configured association via the stateful PCEP messages.The association are properties of the LSP and thus could be stored in the LSP state database. The dynamic association exist as long as the LSP state. In case of PCEP session termination, the LSP state clean up SHOULD also take care of associations.
Multiple types of associations can exist, each with their own association identifier space.
The definition of the different association types and their behaviors is
outside the scope of this document. The establishment and removal of the
association relationship can be done on a per LSP basis.
An LSP may join multiple association groups, of different or of the same association type.
Some association types are dynamic, some are operator-configured and some could be both. For the association types that could be dynamic and operator-configured, it is necessary to configure a range of association identifiers that are marked for operator-configured associations to avoid any association identifier clash.A range of association identifier for each association-type are kept for the operator-configured associations.
Dynamic associations MUST NOT use the association identifier from this range. This range needs to be communicated to a PCEP peer in the Open Message. A new TLV is defined in this specification for this purpose ().This section defines PCEP extension to support
the advertisement of the Operator-configured Association Range used for an association-type.A new PCEP OP-CONF-ASSOC-RANGE (Operator-configured Association Range) TLV is defined. The
PCEP OP-CONF-ASSOC-RANGE TLV is carried within an OPEN object. This way, during
PCEP session-setup phase, a PCEP speaker can advertise to a PCEP peer
the Operator-configured Association Range for an association type.The PCEP OP-CONF-ASSOC-RANGE TLV is optional. It MAY be carried within an OPEN
object sent by a PCEP speaker in an Open message to a PCEP peer.
The OP-CONF-ASSOC-RANGE TLV format is compliant with the PCEP TLV format defined
in . That is, the TLV is composed of 2 octets for the type,
2 octets specifying the TLV length, and a Value field. The Length
field defines the length of the value portion in octets.The PCEP OP-CONF-ASSOC-RANGE TLV has the following format:The Value portion includes the following fields, repeated for each association type:
Reserved (2 bytes): This field MUST be set to 0 on
transmission and MUST be ignored on receipt.Assoc-type (2 bytes): The association type.Start-Assoc-ID (2 bytes): The start association identifier for the Operator-configured Association Range for the particular association type.Range (2 bytes): The number of associations marked for the Operator-configured Associations.A PCEP speaker MAY include an OP-CONF-ASSOC-RANGE TLV within an OPEN object in an Open
message sent to a PCEP peer in order to advertise the Operator-configured Association Range for an association type.
The OP-CONF-ASSOC-RANGE TLV MUST NOT appear more than
once in an OPEN object. If it appears more than once, the PCEP
session MUST be rejected with error type 1 and error value 1 (PCEP
session establishment failure / Reception of an invalid Open
message).As specified in , a PCEP peer that does not recognize the
OP-CONF-ASSOC-RANGE TLV will silently ignore it.The Operator-configured Association Range SHOULD be included for each association type that could be both dynamic and operator-configured. For association types that are only dynamic or only operator-configured, this TLV can be skipped, in which case the full range of association identifier is considered dynamic or operator-configured respectively.
Each association type (that are defined in separate documents) can specify the default value for the operator-configured association range for their respective association type. The absence of the OP-CONF-ASSOC-RANGE TLV in an OPEN object MUST be
interpreted as an absence of explicit Operator-configured Association Range at the PCEP peer.
In which case, the default behavior as per each association type would be applied.Association groups
and their memberships are defined using a new ASSOCIATION object.
ASSOCIATION Object-Class is to be assigned by IANA (TBD). ASSOCIATION Object-Type is 1 for IPv4 and its format is shown in
: ASSOCIATION Object-Type is 2 for IPv6 and its format is shown in
: Reserved (2-byte): MUST be set to 0 and ignored upon receipt.
Flags (2-byte): The following flags are currently defined:
when set, the requesting
PCE peer requires the removal of an LSP from the association group.
This flag is used for ASSOCIATION object in PCRpt and PCUpd message, the flag is ignored
in other PCEP messages.
Association type (2-byte): the association type (for example protection).
The association type are defined in separate documents.
Association ID (2-byte): the identifier of the association group. When combined
with Type and Association Source, this value uniquely identifies an association group.
The value 0xffff and 0x0 are reserved. The value 0xffff is used to indicate
all association groups.
Association Source: 4 or 16 bytes - An IPv4 or IPv6 address. This could be the IP
address of the PCEP speaker that created a dynamic association, an operator configured IP address, or an IP
address selected as per the local policy. The value such as 0.0.0.0 or ::/128 are acceptable.
Optional TLVs: The optional TLVs follow the PCEP TLV format
of . This document defines two optional TLVs. Other documents can define more TLVs.
The Global Association Source TLV is an optional TLV for use in the Association Object.
Type: To be allocated by IANA. Length: Fixed value of 4 bytes. Global Association Source: as defined in . The Extended Association ID TLV is an optional TLV for use in
the Association Object.
Type: To be allocated by IANA. Length: variable. Extended Association ID: as defined in . The ASSOCIATION Object is OPTIONAL and MAY be carried in the Path
Computation Update (PCUpd), Path Computation Report (PCRpt) and Path
Computation Initiate (PCInitiate) messages. When carried in PCRpt message, it is used to report the association
group membership information pertaining to a LSP to a stateful PCE.
It can also be used to remove an LSP from one or more association groups
by setting the R flag to 1 in the ASSOCIATION object. Unless, a PCE wants to delete an association
from an LSP, it does not need to carry the ASSOCIATION
object in future messages. The PCRpt message is defined in
and updated as below: When an LSP is delegated to a stateful PCE, the stateful PCE can initiate
a new association group for this LSP, or associate it with one or more existing
association groups. This is done by including the ASSOCIATION Object in a
PCUpd message. A stateful PCE can also remove a delegated
LSP from one or more association groups by setting the R flag to 1 in the ASSOCIATION object. The PCUpd message is defined in
and updated as below:A PCE initiating a new LSP, can include the association group information. This is done by including the ASSOCIATION Object in a
PCInitiate message.
The PCInitiate message is defined in
and updated as below:
In case of passive stateful or stateless PCE, the ASSOCIATION Object
is OPTIONAL and MAY be carried in the Path Computation Request
(PCReq) message.
When carried in a PCReq message, the ASSOCIATION Object is used to associate the path
computation request to an association group. The association (and the other LSPs) should be known to the PCE before hand.
These could be operator-configured or dynamically learned before. The R flag in ASSOCIATION object within PCReq message
MUST be set to 0 while sending and ignored on receipt.
The PCReq message is defined in [RFC5440] and updated in
[I-D.ietf-pce-stateful-pce], it is further updated below for
association:
Note that LSP object MAY be present for the passive stateful PCE mode.
Association groups can be operator-configured on the necessary PCC and PCE.
In addition, a PCC or a PCE can create association groups dynamically.
The PCEP speaker can reports the association to its peer via PCEP messages.
If a
PCEP speaker does not recognize the ASSOCIATION object, it will return a PCErr
message with Error-Type "Unknown Object" as described in [RFC5440].
If a
PCEP speaker understand the ASSOCIATION object but does not support the association-type,
it MUST return a PCErr
message with Error-Type TBD "Association Error" and Error-Value
1 "Association-type is not supported".
On receiving a PCEP
message with ASSOCIATION, if a
PCEP speaker finds that too many LSPs belong to the association group, it MUST
return a PCErr message with Error-Type TBD "Association Error" and Error-Value
2 "Too many LSPs in the association group". If a PCEP speaker cannot handle
a new associations, it MUST
return a PCErr message with Error-Type TBD "Association Error" and Error-Value
3 "Too many association groups". These number MAY be set by operator or decided
based on a local policy. If a PCE speaker receives ASSOCIATION in PCReq message, and the association
information is not known (association is not configured, or created dynamically, or learned from a PCEP peer), it MUST
return a PCErr message with Error-Type TBD "Association Error" and Error-Value
4 "Association unknown". If the association information
received from the peer does not match with the local operator configured
information, it MUST
return a PCErr message with Error-Type TBD "Association Error" and Error-Value
5 "Operator-configured association information mismatch". On receiving association
information that does not match with the association information previously received
about the same association from a peer, it MUST
return a PCErr message with Error-Type TBD "Association Error" and Error-Value
6 "Association information mismatch".
If a PCE
peer is unwilling or unable to process the ASSOCIATION object, it MUST return a
PCErr message with the Error-Type "Not supported object" and follow the relevant
procedures described in [RFC5440].
On receiving a PCEP
message with ASSOCIATION, if a
PCEP speaker could not add the LSP to the association group for any reason, it MUST
return a PCErr message with Error-Type TBD "Association Error" and Error-Value
7 "Cannot join the association group".
The association information is cleared along with the LSP state information as
per the . When a
PCEP session is terminated,
after expiry of State Timeout Interval at PCC, the LSP state associated
with that PCEP session is reverted to operator-defined default
parameters or behaviors. Same procedure is also followed for the association information. On session
termination at the PCE, when the LSP state reported by PCC is cleared, the association information
is also cleared. Where there are no LSPs in a association group, the association is considered to be deleted. In case the LSP is delegated to another PCE on session failure,
the association information set by the PCE remains intact, unless updated by the new PCE. Upon LSP delegation revocation, the PCC MAY clear the association
created by the PCE, but in order to avoid traffic loss, it can perform this
in a make-before-break fashion, which is the same as what is defined in
for handling
LSP state cleanup.If a PCE speaker receives ASSOCIATION object with R bit set for removal, and the association
information is not known, it MUST
return a PCErr message with Error-Type TBD "Association Error" and Error-Value
4 "Association unknown". IANA maintains the "Path Computation Element Protocol (PCEP) Numbers"
registry at <http://www.iana.org/assignments/pcep>.The "PCEP Numbers" registry contains a subregistry "PCEP Objects".
This document request IANA to allocate code points from this registry.Object-Class Value Name Reference TBDAssociation[This I-D]Object-Type 0: Reserved 1: IPv4 2: IPv6 IANA is requested to make the
assignment of the new code points for the existing "PCEP TLV Type Indicators"
registry as follows:ValueMeaning Reference TBD Operator-configured Association Range[This I-D]TBD Global Association Source[This I-D]TBD Extended Association Id[This I-D]This document requests IANA to create a subregistry of the "PCEP Numbers" for
the bits carried in the Flags field of the ASSOCIATION object.
The subregistry is called "ASSOCIATION Flags Field". New values are
assigned by Standards Action . Each bit should be tracked
with the following qualities:
Bit number (counting from bit 0 as the most significant bit)Capability descriptionDefining RFCBitDescription Reference 15R (Removal)[This I-D]This document requests IANA to create a subregistry of the "PCEP Numbers" for
the Association Type field of the the ASSOCIATION object.
The subregistry is called "ASSOCIATION Type Field". New values are
to be assigned by Standards Action . Each value should be
tracked with the following qualities:
TypeNameReferenceThere are no association type specified in this document, future document should request the
assignment of association types from this subregistry.IANA is requested to allocate new error values within
the "PCEP-ERROR Object Error Types and Values" sub-registry of the
"PCEP Numbers" registry, as follows: The security considerations described in and
apply to the extensions described in this document as well. Additional
considerations related to a malicious PCEP speaker are introduced, as associations could be spoofed and could be used as an
attack vector. An attacker could report too many associations in an attempt to load the PCEP peer. The PCEP peer responds with
PCErr as described in . An attacker could impact LSP operations by creating bogus associations.
Further, association information could provides an adversary with the opportunity to eavesdrop on the relationship
between the LSPs.
Thus securing the PCEP session using Transport Layer
Security (TLS) , as per the recommendations and
best current practices in , is RECOMMENDED.
All manageability requirements and considerations listed in
and
apply to PCEP protocol extensions defined in this document. In addition, requirements and considerations listed in this section apply.
A PCE or PCC implementation MUST allow operator-configured associations as described in this document. The identifier MUST be from the operator-configured identifier range .
An implementation SHOULD allow the operator to view the associations configured or created dynamically. Further implementation SHOULD allow to view associations reported by each peer, and the current set of LSPs in the association . To serve this purpose, the PCEP YANG module can be extended to include association information.
Mechanisms defined in this document do not imply any new liveness detection and monitoring requirements in addition to those already listed in .
Mechanisms defined in this document do not imply any new operation verification requirements in addition to those already listed in
and .
Mechanisms defined in this document do not imply any new requirements on other protocols.
Mechanisms defined in
and
also apply to PCEP extensions defined in this document. We would like to thank Yuji Kamite and Joshua George for
their contributions to this document. Also thanks to Venugopal Reddy,
Cyril Margaria and Rakesh Gandhi for their useful comments.