.. _pcep-user-guide: PCEP User Guide =============== This guide contains information on how to use the OpenDaylight Path Computation Element Configuration Protocol (PCEP) plugin. The user should learn about PCEP basic concepts, supported capabilities, configuration and operations. .. contents:: Contents :depth: 1 :local: Overview -------- This section provides a high-level overview of the PCEP, SDN use-cases and OpenDaylight implementation. .. contents:: Contents :depth: 2 :local: Path Computation Element Communication Protocol ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ The Path Computation Element (PCE) Communication Protocol (PCEP) is used for communication between a Path Computation Client (PCC) and a PCE in context of MPLS and GMPLS Traffic Engineering (TE) Label Switched Paths (LSPs). This interaction include path computation requests and computation replies. The PCE operates on a network graph, built from the (Traffic Engineering Database) TED, in order to compute paths based on the path computation request issued by the PCC. The path computation request includes the source and destination of the path and set of constrains to be applied during the computation. The PCE response contains the computed path or the computation failure reason. The PCEP operates on top the TCP, which provides reliable communication. .. figure:: ./images/bgpcep/pcep.png :align: center :alt: PCEP PCE-based architecture. PCEP in SDN ^^^^^^^^^^^ The Path Computation Element perfectly fits into the centralized SDN controller architecture. The PCE's knowledge of the availability of network resources (i.e. TED) and active LSPs awareness (LSP-DB) allows to perform automated application-driven network operations: * LSP Re-optimization * Resource defragmentation * Link failure restoration * Auto-bandwidth adjustment * Bandwidth scheduling * Shared Risk Link Group (SRLG) diversity maintenance OpenDaylight PCEP plugin ^^^^^^^^^^^^^^^^^^^^^^^^ The OpenDaylight PCEP plugin provides all basic service units necessary to build-up a PCE-based controller. In addition, it offers LSP management functionality for Active Stateful PCE - the cornerstone for majority of PCE-enabled SDN solutions. It consists of the following components: * Protocol library * PCEP session handling * Stateful PCE LSP-DB * Active Stateful PCE LSP Operations .. figure:: ./images/bgpcep/pcep-plugin.png :align: center :alt: PCEP plugin OpenDaylight PCEP plugin overview. .. important:: The PCEP plugin does not provide path computational functionality and does not build TED. List of supported capabilities '''''''''''''''''''''''''''''' * `RFC5440 `_ - Path Computation Element (PCE) Communication Protocol (PCEP) * `RFC5455 `_ - Diffserv-Aware Class-Type Object for the Path Computation Element Communication Protocol * `RFC5520 `_ - Preserving Topology Confidentiality in Inter-Domain Path Computation Using a Path-Key-Based Mechanism * `RFC5521 `_ - Extensions to the Path Computation Element Communication Protocol (PCEP) for Route Exclusions * `RFC5541 `_ - Encoding of Objective Functions in the Path Computation Element Communication Protocol (PCEP) * `RFC5557 `_ - Path Computation Element Communication Protocol (PCEP) Requirements and Protocol Extensions in Support of Global Concurrent Optimization * `RFC5886 `_ - A Set of Monitoring Tools for Path Computation Element (PCE)-Based Architecture * `RFC7470 `_ - Conveying Vendor-Specific Constraints in the Path Computation Element Communication Protocol * `RFC7896 `_ - Update to the Include Route Object (IRO) Specification in the Path Computation Element Communication Protocol (PCEP) * `draft-ietf-pce-stateful-pce `_ - PCEP Extensions for Stateful PCE * `draft-ietf-pce-pce-initiated-lsp `_ - PCEP Extensions for PCE-initiated LSP Setup in a Stateful PCE Model * `draft-ietf-pce-segment-routing `_ - PCEP Extension for segment routing * `draft-ietf-pce-lsp-setup-type `_ - PCEP Extension for path setup type * `draft-ietf-pce-stateful-sync-optimizations `_ - Optimizations of Label Switched Path State Synchronization Procedures for a Stateful PCE * `draft-sivabalan-pce-binding-label-sid `_ - Carrying Binding Label/Segment-ID in PCE-based Networks * `draft-ietf-pce-pceps `_ - Secure Transport for PCEP Running PCEP ------------ This section explains how to install PCEP plugin. 1. Install PCEP feature - ``odl-bgpcep-pcep``. Also, for sake of this sample, it is required to install RESTCONF. In the Karaf console, type command: .. code-block:: console feature:install odl-restconf odl-bgpcep-pcep 2. The PCEP plugin contains a default configuration, which is applied after the feature starts up. One instance of PCEP plugin is created (named *pcep-topology*), and its presence can be verified via REST: **URL:** ``restconf/operational/network-topology:network-topology/topology/pcep-topology`` **Method:** ``GET`` **Response Body:** .. code-block:: xml pcep-topology Active Stateful PCE ------------------- The PCEP extension for Stateful PCE brings a visibility of active LSPs to PCE, in order to optimize path computation, while considering individual LSPs and their interactions. This requires state synchronization mechanism between PCE and PCC. Moreover, Active Stateful PCE is capable to address LSP parameter changes to the PCC. .. contents:: Contents :depth: 2 :local: Configuration ^^^^^^^^^^^^^ This capability is enabled by default. No additional configuration is required. Speaker Entity identifier ''''''''''''''''''''''''' The Speaker Entity Identifier is an optional TLV that may be included in the OPEN Object when a PCEP speaker wishes to determine if state synchronization can be skipped when a PCEP session is restarted. **URL:** ``/restconf/config/network-topology:network-topology/topology/pcep-topology/node/43.43.43.43`` **Method:** ``PUT`` **Content-Type:** ``application/xml`` **Request Body:** .. code-block:: xml :linenos: :emphasize-lines: 2,4 43.43.43.43 AQIDBA== @line 2: **address** - A PCC IP address. @line 4: **Speaker Entity Identifier** - The Speaker Entity identifier assigned to PCEP Node. MD5 authentication configuration '''''''''''''''''''''''''''''''' The OpenDaylight PCEP implementation supports TCP MD5 for authentication. The sample configuration below shows how to set authentication password for a particular PCC. **URL:** ``/restconf/config/network-topology:network-topology/topology/pcep-topology/node/43.43.43.43`` **Method:** ``PUT`` **Content-Type:** ``application/xml`` **Request Body:** .. code-block:: xml :linenos: :emphasize-lines: 2,4 43.43.43.43 topsecret @line 2: **address** - A PCC IP address. @line 4: **password** - MD5 authentication phrase. LSP State Database ^^^^^^^^^^^^^^^^^^ The *LSP State Database* (LSP-DB) contains an information about all LSPs and their attributes. The LSP state is synchronized between the PCC and PCE. First, initial LSP state synchronization is performed once the session between PCC and PCE is established in order to learn PCC's LPSs. This step is a prerequisite to following LSPs manipulation operations. .. figure:: ./images/bgpcep/pcep-sync.png :align: center :alt: LSP State synchronization LSP State Synchronization. LSP-DB API '''''''''' .. code-block:: console path-computation-client +--ro reported-lsp* [name] +--ro name string +--ro path* [lsp-id] | +--ro lsp-id rsvp:lsp-id | +--ro ero | | +--ro processing-rule? boolean | | +--ro ignore? boolean | | +--ro subobject* | | +--ro loose boolean | | +--ro (subobject-type)? | | +--:(as-number-case) | | | +--ro as-number | | | +--ro as-number inet:as-number | | +--:(ip-prefix-case) | | | +--ro ip-prefix | | | +--ro ip-prefix inet:ip-prefix | | +--:(label-case) | | | +--ro label | | | +--ro uni-directional boolean | | | +--ro (label-type)? | | | +--:(type1-label-case) | | | | +--ro type1-label | | | | +--ro type1-label uint32 | | | +--:(generalized-label-case) | | | | +--ro generalized-label | | | | +--ro generalized-label binary | | | +--:(waveband-switching-label-case) | | | +--ro waveband-switching-label | | | +--ro end-label uint32 | | | +--ro start-label uint32 | | | +--ro waveband-id uint32 | | +--:(srlg-case) | | | +--ro srlg | | | +--ro srlg-id srlg-id | | +--:(unnumbered-case) | | | +--ro unnumbered | | | +--ro router-id uint32 | | | +--ro interface-id uint32 | | +--:(exrs-case) | | | +--ro exrs | | | +--ro exrs* | | | +--ro mandatory? boolean | | | +--ro attribute enumeration | | | +--ro (subobject-type)? | | | +--:(as-number-case) | | | | +--ro as-number | | | | +--ro as-number inet:as-number | | | +--:(ip-prefix-case) | | | | +--ro ip-prefix | | | | +--ro ip-prefix inet:ip-prefix | | | +--:(label-case) | | | | +--ro label | | | | +--ro uni-directional boolean | | | | +--ro (label-type)? | | | | +--:(type1-label-case) | | | | | +--ro type1-label | | | | | +--ro type1-label uint32 | | | | +--:(generalized-label-case) | | | | | +--ro generalized-label | | | | | +--ro generalized-label binary | | | | +--:(waveband-switching-label-case) | | | | +--ro waveband-switching-label | | | | +--ro end-label uint32 | | | | +--ro start-label uint32 | | | | +--ro waveband-id uint32 | | | +--:(srlg-case) | | | | +--ro srlg | | | | +--ro srlg-id srlg-id | | | +--:(unnumbered-case) | | | +--ro unnumbered | | | +--ro router-id uint32 | | | +--ro interface-id uint32 | | +--:(path-key-case) | | +--ro path-key | | +--ro pce-id pce-id | | +--ro path-key path-key | +--ro lspa | | +--ro processing-rule? boolean | | +--ro ignore? boolean | | +--ro hold-priority? uint8 | | +--ro setup-priority? uint8 | | +--ro local-protection-desired? boolean | | +--ro label-recording-desired? boolean | | +--ro se-style-desired? boolean | | +--ro session-name? string | | +--ro include-any? attribute-filter | | +--ro exclude-any? attribute-filter | | +--ro include-all? attribute-filter | | +--ro tlvs | | +--ro vendor-information-tlv* | | +--ro enterprise-number? iana:enterprise-number | | +--ro (enterprise-specific-information)? | +--ro bandwidth | | +--ro processing-rule? boolean | | +--ro ignore? boolean | | +--ro bandwidth? netc:bandwidth | +--ro reoptimization-bandwidth | | +--ro processing-rule? boolean | | +--ro ignore? boolean | | +--ro bandwidth? netc:bandwidth | +--ro metrics* | | +--ro metric | | +--ro processing-rule? boolean | | +--ro ignore? boolean | | +--ro metric-type uint8 | | +--ro bound? boolean | | +--ro computed? boolean | | +--ro value? ieee754:float32 | +--ro iro | | +--ro processing-rule? boolean | | +--ro ignore? boolean | | +--ro subobject* | | +--ro loose boolean | | +--ro (subobject-type)? | | +--:(as-number-case) | | | +--ro as-number | | | +--ro as-number inet:as-number | | +--:(ip-prefix-case) | | | +--ro ip-prefix | | | +--ro ip-prefix inet:ip-prefix | | +--:(label-case) | | | +--ro label | | | +--ro uni-directional boolean | | | +--ro (label-type)? | | | +--:(type1-label-case) | | | | +--ro type1-label | | | | +--ro type1-label uint32 | | | +--:(generalized-label-case) | | | | +--ro generalized-label | | | | +--ro generalized-label binary | | | +--:(waveband-switching-label-case) | | | +--ro waveband-switching-label | | | +--ro end-label uint32 | | | +--ro start-label uint32 | | | +--ro waveband-id uint32 | | +--:(srlg-case) | | | +--ro srlg | | | +--ro srlg-id srlg-id | | +--:(unnumbered-case) | | | +--ro unnumbered | | | +--ro router-id uint32 | | | +--ro interface-id uint32 | | +--:(exrs-case) | | | +--ro exrs | | | +--ro exrs* | | | +--ro mandatory? boolean | | | +--ro attribute enumeration | | | +--ro (subobject-type)? | | | +--:(as-number-case) | | | | +--ro as-number | | | | +--ro as-number inet:as-number | | | +--:(ip-prefix-case) | | | | +--ro ip-prefix | | | | +--ro ip-prefix inet:ip-prefix | | | +--:(label-case) | | | | +--ro label | | | | +--ro uni-directional boolean | | | | +--ro (label-type)? | | | | +--:(type1-label-case) | | | | | +--ro type1-label | | | | | +--ro type1-label uint32 | | | | +--:(generalized-label-case) | | | | | +--ro generalized-label | | | | | +--ro generalized-label binary | | | | +--:(waveband-switching-label-case) | | | | +--ro waveband-switching-label | | | | +--ro end-label uint32 | | | | +--ro start-label uint32 | | | | +--ro waveband-id uint32 | | | +--:(srlg-case) | | | | +--ro srlg | | | | +--ro srlg-id srlg-id | | | +--:(unnumbered-case) | | | +--ro unnumbered | | | +--ro router-id uint32 | | | +--ro interface-id uint32 | | +--:(path-key-case) | | +--ro path-key | | +--ro pce-id pce-id | | +--ro path-key path-key | +--ro rro | | +--ro processing-rule? boolean | | +--ro ignore? boolean | | +--ro subobject* | | +--ro protection-available? boolean | | +--ro protection-in-use? boolean | | +--ro (subobject-type)? | | +--:(ip-prefix-case) | | | +--ro ip-prefix | | | +--ro ip-prefix inet:ip-prefix | | +--:(label-case) | | | +--ro label | | | +--ro uni-directional boolean | | | +--ro (label-type)? | | | | +--:(type1-label-case) | | | | | +--ro type1-label | | | | | +--ro type1-label uint32 | | | | +--:(generalized-label-case) | | | | | +--ro generalized-label | | | | | +--ro generalized-label binary | | | | +--:(waveband-switching-label-case) | | | | +--ro waveband-switching-label | | | | +--ro end-label uint32 | | | | +--ro start-label uint32 | | | | +--ro waveband-id uint32 | | | +--ro global? boolean | | +--:(unnumbered-case) | | | +--ro unnumbered | | | +--ro router-id uint32 | | | +--ro interface-id uint32 | | +--:(path-key-case) | | +--ro path-key | | +--ro pce-id pce-id | | +--ro path-key path-key | +--ro xro | | +--ro processing-rule? boolean | | +--ro ignore? boolean | | +--ro flags bits | | +--ro subobject* | | +--ro mandatory? boolean | | +--ro attribute enumeration | | +--ro (subobject-type)? | | +--:(as-number-case) | | | +--ro as-number | | | +--ro as-number inet:as-number | | +--:(ip-prefix-case) | | | +--ro ip-prefix | | | +--ro ip-prefix inet:ip-prefix | | +--:(label-case) | | | +--ro label | | | +--ro uni-directional boolean | | | +--ro (label-type)? | | | +--:(type1-label-case) | | | | +--ro type1-label | | | | +--ro type1-label uint32 | | | +--:(generalized-label-case) | | | | +--ro generalized-label | | | | +--ro generalized-label binary | | | +--:(waveband-switching-label-case) | | | +--ro waveband-switching-label | | | +--ro end-label uint32 | | | +--ro start-label uint32 | | | +--ro waveband-id uint32 | | +--:(srlg-case) | | | +--ro srlg | | | +--ro srlg-id srlg-id | | +--:(unnumbered-case) | | +--ro unnumbered | | +--ro router-id uint32 | | +--ro interface-id uint32 | +--ro of | | +--ro processing-rule? boolean | | +--ro ignore? boolean | | +--ro code of-id | | +--ro tlvs | | +--ro vendor-information-tlv* | | +--ro enterprise-number? iana:enterprise-number | | +--ro (enterprise-specific-information)? | +--ro class-type | +--ro processing-rule? boolean | +--ro ignore? boolean | +--ro class-type class-type +--ro metadata +--ro lsp | +--ro processing-rule? boolean | +--ro ignore? boolean | +--ro tlvs | | +--ro lsp-error-code | | | +--ro error-code? uint32 | | +--ro lsp-identifiers | | | +--ro lsp-id? rsvp:lsp-id | | | +--ro tunnel-id? rsvp:tunnel-id | | | +--ro (address-family)? | | | +--:(ipv4-case) | | | | +--ro ipv4 | | | | +--ro ipv4-tunnel-sender-address inet:ipv4-address | | | | +--ro ipv4-extended-tunnel-id rsvp:ipv4-extended-tunnel-id | | | | +--ro ipv4-tunnel-endpoint-address inet:ipv4-address | | | +--:(ipv6-case) | | | +--ro ipv6 | | | +--ro ipv6-tunnel-sender-address inet:ipv6-address | | | +--ro ipv6-extended-tunnel-id rsvp:ipv6-extended-tunnel-id | | | +--ro ipv6-tunnel-endpoint-address inet:ipv6-address | | +--ro rsvp-error-spec | | | +--ro (error-type)? | | | +--:(rsvp-case) | | | | +--ro rsvp-error | | | +--:(user-case) | | | +--ro user-error | | +--ro symbolic-path-name | | | +--ro path-name? symbolic-path-name | | o--ro vs-tlv | | | +--ro enterprise-number? iana:enterprise-number | | | +--ro (vendor-payload)? | | +--ro vendor-information-tlv* | | | +--ro enterprise-number? iana:enterprise-number | | | +--ro (enterprise-specific-information)? | | +--ro path-binding | | x--ro binding-type? uint8 | | x--ro binding-value? binary | | +--ro (binding-type-value)? | | +--:(mpls-label) | | | +--ro mpls-label? netc:mpls-label | | +--:(mpls-label-entry) | | +--ro label? netc:mpls-label | | +--ro traffic-class? uint8 | | +--ro bottom-of-stack? boolean | | +--ro time-to-live? uint8 | +--ro plsp-id? plsp-id | +--ro delegate? boolean | +--ro sync? boolean | +--ro remove? boolean | +--ro administrative? boolean | +--ro operational? operational-status +--ro path-setup-type +--ro pst? uint8 ----- The LSP-DB is accessible via RESTCONF. The PCC's LSPs are stored in the ``pcep-topology`` while the session is active. In a next example, there is one PCEP session with PCC identified by its IP address (*43.43.43.43*) and one reported LSP (*foo*). **URL:** ``/restconf/operational/network-topology:network-topology/topology/pcep-topology/node/pcc:%2F%2F43.43.43.43`` **Method:** ``GET`` **Response Body:** .. code-block:: xml :linenos: :emphasize-lines: 2,4,5,8,12,14,15,16,17,18,20,24,25,26,28,29,32,36 pcc://43.43.43.43 43.43.43.43 synchronized true foo up true 1 false true false true 43.43.43.43 39.39.39.39 39.39.39.39 1 1 Zm9v false 201.20.160.40/32 false 195.20.160.39/32 false 39.39.39.39/32 @line 2: **node-id** The PCC identifier. @line 4: **ip-address** IP address of the PCC. @line 5: **state-sync** Synchronization status of the PCC's LSPs. The *synchronized* indicates the State Synchronization is done. @line 8: **lsp-update-capability** - Indicates that PCC allows LSP modifications. @line 12: **name** - Textual representation of LPS's name. @line 14: **operational** - Represent operational status of the LSP: * *down* - not active. * *up* - signaled. * *active* - up and carrying traffic. * *going-down* - LSP is being torn down, resources are being released. * *going-up* - LSP is being signaled. @line 15: **sync** - The flag set by PCC during LSPs State Synchronization. @line 16: **plsp-id** - A PCEP-specific identifier for the LSP. It is assigned by PCC and it is constant for a lifetime of a PCEP session. @line 17: **create** - The *false* indicates that LSP is PCC-initiated. @line 18: **administrative** - The flag indicates target operational status of the LSP. @line 20: **delegate** - The delegate flag indicates that the PCC is delegating the LSP to the PCE. @line 24: **ipv4-tunnel-sender-address** - Contains the sender node's IP address. @line 25: **ipv4-tunnel-endpoint-address** - Contains the egress node's IP address. @line 26: **ipv4-extended-tunnel-id** - The *Extended Tunnel ID* identifier. @line 28: **tunnel-id** - The *Tunnel ID* identifier. @line 29: **lsp-id** - The *LSP ID* identifier. @line 32: **path-name** - The symbolic name for the LSP. @line 36: **ero** - The *Explicit Route Object* is encoding the path of the TE LSP through the network. LSP Delegation '''''''''''''' The LSP control delegations is an mechanism, where PCC grants to a PCE the temporary right in order to modify LSP attributes. The PCC can revoke the delegation or the PCE may waive the delegation at any time. The LSP control is delegated to at most one PCE at the same time. .. figure:: ./images/bgpcep/pcep-delegation-return.png :align: center :alt: Returning a Delegation Returning a Delegation. ----- Following RPC example illustrates a request for the LSP delegation give up: **URL:** ``/restconf/operations/network-topology-pcep:update-lsp`` **Method:** ``POST`` **Content-Type:** ``application/xml`` **Request Body:** .. code-block:: xml :linenos: :emphasize-lines: 2,3,6,10 pcc://43.43.43.43 foo false true Zm9v /topo:network-topology/topo:topology[topo:topology-id="pcep-topology"] @line 2: **node** The PCC identifier. @line 3: **name** The name of the LSP. @line 6: **delegate** - Delegation flag set *false* in order to return the LSP delegation. @line 10: **path-name** - The Symbolic Path Name TLV must be present when sending a request to give up the delegation. LSP Update '''''''''' The LSP Update Request is an operation where a PCE requests a PCC to update attributes of an LSP and to rebuild the LSP with updated attributes. In order to update LSP, the PCE must hold a LSP delegation. The LSP update is done in *make-before-break* fashion - first, new LSP is initiated and then the old LSP is torn down. .. figure:: ./images/bgpcep/pcep-update.png :align: center :alt: Active Stateful PCE LSP Update Active Stateful PCE LSP Update. ----- Following RPC example shows a request for the LSP update: **URL:** ``/restconf/operations/network-topology-pcep:update-lsp`` **Method:** ``POST`` **Content-Type:** ``application/xml`` **Request Body:** .. code-block:: xml :linenos: :emphasize-lines: 2,3,6,7,9 pcc://43.43.43.43 foo true true false 200.20.160.41/32 false 196.20.160.39/32 false 39.39.39.39/32 /topo:network-topology/topo:topology[topo:topology-id="pcep-topology"] @line 2: **node** The PCC identifier. @line 3: **name** The name of the LSP to be updated. @line 6: **delegate** - Delegation flag set *true* in order to keep the LSP control. @line 7: **administrative** - Desired administrative status of the LSP is active. @line 9: **ero** - This LSP attribute is changed. PCE-initiated LSP Setup ^^^^^^^^^^^^^^^^^^^^^^^ The PCEP Extension for PCE-initiated LSP Setup allows PCE to request a creation and deletion of LSPs. Configuration ''''''''''''' This capability is enabled by default. No additional configuration is required. LSP Instantiation ''''''''''''''''' The PCE can request LSP creation. The LSP instantiation is done by sending an LSP Initiate Message to PCC. The PCC assign delegation to PCE which triggered creation. PCE-initiated LSPs are identified by *Create* flag. .. figure:: ./images/bgpcep/pcep-initiate.png :align: center :alt: LSP instantiation LSP instantiation. ----- Following RPC example shows a request for the LSP initiation: **URL:** ``/restconf/operations/network-topology-pcep:add-lsp`` **Method:** ``POST`` **Content-Type:** ``application/xml`` **Request Body:** .. code-block:: xml :linenos: :emphasize-lines: 2,3,8,14 pcc://43.43.43.43 update-tunel true true 43.43.43.43 39.39.39.39 false 201.20.160.40/32 false 195.20.160.39/32 false 39.39.39.39/32 /topo:network-topology/topo:topology[topo:topology-id="pcep-topology"] @line 2: **node** The PCC identifier. @line 3: **name** The name of the LSP to be created. @line 8: **endpoints-obj** - The *END-POINT* Object is mandatory for an instantiation request of an RSVP-signaled LSP. It contains source and destination addresses for provisioning the LSP. @line 14: **ero** - The *ERO* object is mandatory for LSP initiation request. LSP Deletion '''''''''''' The PCE may request a deletion of PCE-initiated LSPs. The PCE must be delegation holder for this particular LSP. .. figure:: ./images/bgpcep/pcep-deletion.png :align: center :alt: LSP deletion. LSP deletion. ----- Following RPC example shows a request for the LSP deletion: **URL:** ``/restconf/operations/network-topology-pcep:remove-lsp`` **Method:** ``POST`` **Content-Type:** ``application/xml`` **Request Body:** .. code-block:: xml :linenos: :emphasize-lines: 2,3 pcc://43.43.43.43 update-tunel /topo:network-topology/topo:topology[topo:topology-id="pcep-topology"] @line 2: **node** The PCC identifier. @line 3: **name** The name of the LSP to be removed. PCE-initiated LSP Delegation '''''''''''''''''''''''''''' The PCE-initiated LSP control is delegated to the PCE which requested the initiation. The PCC cannot revoke delegation of PCE-initiated LSP. When PCE returns delegation for such LSP or PCE fails, then the LSP become orphan and can be removed by a PCC after some time. The PCE may ask for a delegation of the orphan LSP. .. figure:: ./images/bgpcep/pcep-revoke-delegation.png :align: center :alt: LSP re-delegation Orphan PCE-initiated LSP - control taken by PCE. ----- Following RPC example illustrates a request for the LSP delegation: **URL:** ``/restconf/operations/network-topology-pcep:update-lsp`` **Method:** ``POST`` **Content-Type:** ``application/xml`` **Request Body:** .. code-block:: xml :linenos: :emphasize-lines: 2,3,6,10 pcc://43.43.43.43 update-tunel true true dXBkYXRlLXR1bmVs /topo:network-topology/topo:topology[topo:topology-id="pcep-topology"] @line 2: **node** The PCC identifier. @line 3: **name** The name of the LSP. @line 6: **delegate** - *Delegation* flag set *true* in order to take the LSP delegation. @line 10: **path-name** - The *Symbolic Path Name* TLV must be present when sending a request to take a delegation. Segment Routing ^^^^^^^^^^^^^^^ The PCEP Extensions for Segment Routing (SR) allow a stateful PCE to compute and initiate TE paths in SR networks. The SR path is defined as an order list of *segments*. Segment Routing architecture can be directly applied to the MPLS forwarding plane without changes. Segment Identifier (SID) is encoded as a MPLS label. Configuration ''''''''''''' This capability is enabled by default. In order to disable it, a configuration should be changed as follows: **URL:** ``/restconf/config/pcep-segment-routing-app-config:pcep-segment-routing-app-config`` **Method:** ``PUT`` **Content-Type:** ``application/xml`` **Request Body:** .. code-block:: xml :linenos: :emphasize-lines: 2 false @line 2: **sr-capable** - True if capability is supported. IANA code points '''''''''''''''' In PCEP-SR draft version 6, SR Explicit Route Object/Record Route Object subobjects IANA code points change was proposed. In order to use the latest code points, a configuration should be changed as follows: **URL:** ``/restconf/config/pcep-segment-routing-app-config:pcep-segment-routing-config`` **Method:** ``PUT`` **Content-Type:** ``application/xml`` **Request Body:** .. code-block:: xml :linenos: :emphasize-lines: 2 true @line 2: **iana-sr-subobjects-type** - True if IANA code points should be used. LSP Operations for PCEP SR '''''''''''''''''''''''''' The PCEP SR extension defines new ERO subobject - *SR-ERO subobject* capable of carrying a SID. .. code-block:: console sr-ero-type +---- c-flag? boolean +---- m-flag? boolean +---- sid-type? sid-type +---- sid? uint32 +---- (nai)? +--:(ip-node-id) | +---- ip-address inet:ip-address +--:(ip-adjacency) | +---- local-ip-address inet:ip-address | +---- remote-ip-address inet:ip-address +--:(unnumbered-adjacency) +---- local-node-id uint32 +---- local-interface-id uint32 +---- remote-node-id uint32 +---- remote-interface-id uint32 ----- Following RPC example illustrates a request for the SR-TE LSP creation: **URL:** ``/restconf/operations/network-topology-pcep:add-lsp`` **Method:** ``POST`` **Content-Type:** ``application/xml`` **Request Body:** .. code-block:: xml :linenos: :emphasize-lines: 16,21,22,23 pcc://43.43.43.43 sr-path true true 43.43.43.43 39.39.39.39 1 false ipv4-node-id true 24001 39.39.39.39 /topo:network-topology/topo:topology[topo:topology-id="pcep-topology"] @line 16: **path-setup-type** - Set *1* for SR-TE LSP @line 21: **ipv4-node-id** - The SR-ERO subobject represents *IPv4 Node ID* NAI. @line 22: **m-flag** - The SID value represents an MPLS label. @line 23: **sid** - The Segment Identifier. ----- Following RPC example illustrates a request for the SR-TE LSP update including modified path: **URL:** ``/restconf/operations/network-topology-pcep:update-lsp`` **Method:** ``POST`` **Content-Type:** ``application/xml`` **Request Body:** .. code-block:: xml :linenos: pcc://43.43.43.43 update-tunnel true true 1 false ipv4-node-id true 24002 200.20.160.41 false ipv4-node-id true 24001 39.39.39.39 /topo:network-topology/topo:topology[topo:topology-id="pcep-topology"] LSP State Synchronization Optimization Procedures ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ This extension bring optimizations for state synchronization: * State Synchronization Avoidance * Incremental State Synchronization * PCE-triggered Initial Synchronization * PCE-triggered Re-synchronization Configuration ''''''''''''' This capability is enabled by default. No additional configuration is required. State Synchronization Avoidance ''''''''''''''''''''''''''''''' The State Synchronization Avoidance procedure is intended to skip state synchronization if the state has survived and not changed during session restart. .. figure:: ./images/bgpcep/pcep-sync-skipped.png :align: center :alt: Sync skipped State Synchronization Skipped. Incremental State Synchronization ''''''''''''''''''''''''''''''''' The Incremental State Synchronization procedure is intended to do incremental (delta) state synchronization when possible. .. figure:: ./images/bgpcep/pcep-sync-incremental.png :align: center :alt: Sync incremental Incremental Synchronization Procedure. PCE-triggered Initial Synchronization ''''''''''''''''''''''''''''''''''''' The PCE-triggered Initial Synchronization procedure is intended to do let PCE control the timing of the initial state synchronization. .. figure:: ./images/bgpcep/pcep-sync-initial.png :align: center :alt: Initial Sync PCE-triggered Initial State Synchronization Procedure. ----- Following RPC example illustrates a request for the initial synchronization: **URL:** ``/restconf/operations/network-topology-pcep:trigger-sync`` **Method:** ``POST`` **Content-Type:** ``application/xml`` **Request Body:** .. code-block:: xml :linenos: pcc://43.43.43.43 /topo:network-topology/topo:topology[topo:topology-id="pcep-topology"] PCE-triggered Re-synchronization '''''''''''''''''''''''''''''''' The PCE-triggered Re-synchronization: To let PCE re-synchronize the state for sanity check. .. figure:: ./images/bgpcep/pcep-re-sync.png :align: center :alt: Re-sync PCE-triggered Re-synchronization Procedure. ----- Following RPC example illustrates a request for the LSP re-synchronization: **URL:** ``/restconf/operations/network-topology-pcep:trigger-sync`` **Method:** ``POST`` **Content-Type:** ``application/xml`` **Request Body:** .. code-block:: xml :linenos: :emphasize-lines: 3 pcc://43.43.43.43 update-lsp /topo:network-topology/topo:topology[topo:topology-id="pcep-topology"] @line 3: **name** - The LSP name. If this parameter is omitted, re-synchronization is requested for all PCC's LSPs. Node session statistics ---------------------------- The PCEP statistics provides information about PCE <-> PCC session and its stateful listener (topology-provider). Usage ''''' **URL:** ``/restconf/operational/network-topology:network-topology/topology/pcep-topology/node/pcc:%2F%2F43.43.43.43/pcep-session-state`` **Method:** ``GET`` **Response Body:** .. code-block:: xml :linenos: :emphasize-lines: 3,4,5,6,7,8,9,10,13,14,15,16,19,20,21,22,25,26,27,28,31,32,33,35,36,37 1512640592 0 2 0 0 0 0 2 0 0 0 0 0 30 120 127.0.0.1 0 30 120 127.0.0.1 0 true true true 0:00:00:18 1 true @line 3: **last-received-rpt-msg-timestamp** - The timestamp of last received PCRpt message. @line 4: **sent-upd-msg-count** - The number of sent PCUpd messages. @line 5: **received-rpt-msg-count** - The number of received PcRpt messages. @line 6: **sent-init-msg-count** - The number of sent PCInitiate messages. @line 7: **sent-msg-count** - Total number of sent PCEP messages. @line 8: **last-sent-msg-timestamp** - The timestamp of last sent message. @line 9: **unknown-msg-received** - The number of received unknown messages. @line 10: **received-msg-count** - Total number of received PCEP messages. @line 13: **last-sent-error** - Type/value tuple of last sent error. @line 14: **received-error-msg-count** - Total number of received PCErr messages. @line 15: **sent-error-msg-count** - Total number of sent PCErr messages. @line 16: **last-received-error** - Type/value tuple of last sent error. @line 19: **keepalive** - Advertised keep-alive value. @line 20: **deadtimer** - Advertised deadtimer value. @line 21: **ip-address** - Peer's IP address. @line 22: **session-id** - Peer's session identifier. @line 25: **keepalive** - Advertised keep-alive value. @line 26: **deadtimer** - Advertised deadtimer value. @line 27: **ip-address** - Peer's IP address. @line 28: **session-id** - Peer's session identifier. @line 31: **stateful** - Represents peer's stateful/stateless capability. @line 32: **instantiation** - Represents peer's instantiation capability. @line 33: **active** - Represents peer's LSP update capability. @line 35: **session-duration** - Elapsed time (in d:H:m:s) from session-up until last statistic update. @line 36: **delegated-lsps-count** - The number of delegated LSPs (tunnels) from PCC. @line 37: **synchronized** - Represents synchronization status. CLI --- PCEP Karaf Console (odl-bgpcep-pcep-cli) provides a CLI feature to read session statistics per node. .. code-block:: bash :linenos: opendaylight-user@root> pcep:node-state -topology-id pcep-topology -node-id pcc://43.43.43.43 Test tools ---------- PCC Mock ^^^^^^^^ The PCC Mock is a stand-alone Java application purposed to simulate a PCC(s). The simulator is capable to report sample LSPs, respond to delegation, LSP management operations and synchronization optimization procedures. This application is not part of the OpenDaylight Karaf distribution, however it can be downloaded from OpenDaylight's Nexus (use latest release version): ``https://nexus.opendaylight.org/content/repositories/opendaylight.release/org/opendaylight/bgpcep/pcep-pcc-mock`` Usage ''''' The application can be run from command line: .. code-block:: console java -jar pcep-pcc-mock-*-executable.jar with optional input parameters: .. code-block:: console --local-address (optional, default 127.0.0.1) The first PCC IP address. If more PCCs are required, the IP address will be incremented. Port number can be optionally specified. --remote-address (optional, default 127.0.0.1:4189) The list of IP address for the PCE servers. Port number can be optionally specified, otherwise default port number 4189 is used. --pcc (optional, default 1) Number of mocked PCC instances. --lsp (optional, default 1) Number of tunnels (LSPs) reported per PCC, might be zero. --pcerr (optional flag) If the flag is present, response with PCErr, otherwise PCUpd. --log-level (optional, default INFO) Set logging level for pcc-mock. -d, --deadtimer <0..255> (optional, default 120) DeadTimer value in seconds. -ka, --keepalive <0.255> (optional, default 30) KeepAlive timer value in seconds. --password (optional) If the password is present, it is used in TCP MD5 signature, otherwise plain TCP is used. --reconnect (optional) If the argument is present, the value in seconds, is used as a delay before each new reconnect (initial connect or connection re-establishment) attempt. The number of reconnect attempts is unlimited. If the argument is omitted, pcc-mock is not trying to reconnect. --redelegation-timeout (optional, default 0) The timeout starts when LSP delegation is returned or PCE fails, stops when LSP is re-delegated to PCE. When timeout expires, LSP delegation is revoked and held by PCC. --state-timeout (optional, default -1 (disabled)) The timeout starts when LSP delegation is returned or PCE fails, stops when LSP is re-delegated to PCE. When timeout expires, PCE-initiated LSP is removed. --state-sync-avoidance Synchronization avoidance capability enabled. - disconnect_after_x_seconds: seconds that will pass until disconnections is forced. If set to smaller number than 1, disconnection wont be performed. - reconnect_after_x_seconds: seconds that will pass between disconnection and new connection attempt. Only happens if disconnection has been performed. - dbVersion: dbVersion used in new Open and must be always equal or bigger than LSP. If equal than LSP skip synchronization will be performed, if not full synchronization will be performed taking in account new starting dbVersion desired. --incremental-sync-procedure Incremental synchronization capability enabled. - dbVersion: dbVersion used in new Open and must be always bigger than LSP. Incremental synchronization will be performed taking in account new starting dbVersion desired. --triggered-initial-sync PCE-triggered synchronization capability enabled. Can be combined combined with state-sync-avoidance/incremental-sync-procedure. --triggered-re-sync PCE-triggered re-synchronization capability enabled. Data Change Counter Tool ^^^^^^^^^^^^^^^^^^^^^^^^ Data Change Counter tool registers a Data Change Listener to a specified topology's subtree. This will allow us to know the quantity of changes produced under it, with each data change event counter will be incremented. Installation '''''''''''' Installing data change counter tool .. code-block:: console feature:install odl-restconf odl-bgpcep-data-change-counter Configuration ''''''''''''' Once we set the configuration, a new data change counter will be created and registers to example-linkstate-topology. .. important:: **Clustering** - Each Counter Identifier should be unique. **URL:** ``/restconf/config/odl-data-change-counter-config:data-change-counter-config/data-change-counter`` **Method:** ``PUT`` **Content-Type:** ``application/xml`` **Request Body:** .. code-block:: xml :linenos: :emphasize-lines: 2,3 data-change-counter example-linkstate-topology @line 2: **Counter Id** - Unique counter change identifier. @line 3: **Topology Name** - An identifier for a topology. Usage ''''' Counter state for topology **URL:** ``/restconf/operational/data-change-counter:data-change-counter/counter/data-change-counter`` **Method:** ``GET`` **Response Body:** .. code-block:: xml :linenos: :emphasize-lines: 2,3 data-change-counter 0 @line 2: **Counter Id** - Unique counter change identifier. @line 3: **Count** - Number of changes under registered topology's subtree. Troubleshooting --------------- This section offers advices in a case OpenDaylight PCEP plugin is not working as expected. .. contents:: Contents :depth: 2 :local: PCEP is not working... ^^^^^^^^^^^^^^^^^^^^^^ * First of all, ensure that all required features are installed, local PCE and remote PCC configuration is correct. To list all installed features in OpenDaylight use the following command at the Karaf console: .. code-block:: console feature:list -i * Check OpenDaylight Karaf logs: From Karaf console: .. code-block:: console log:tail or open log file: ``data/log/karaf.log`` Possibly, a reason/hint for a cause of the problem can be found there. * Try to minimize effect of other OpenDaylight features, when searching for a reason of the problem. * Try to set DEBUG severity level for PCEP logger via Karaf console commands, in order to collect more information: .. code-block:: console log:set DEBUG org.opendaylight.protocol.pcep .. code-block:: console log:set DEBUG org.opendaylight.bgpcep.pcep Bug reporting ^^^^^^^^^^^^^ Before you report a bug, check `BGPCEP Bugzilla `_ to ensure same/similar bug is not already filed there. Write an e-mail to bgpcep-users@lists.opendaylight.org and provide following information: #. State OpenDaylight version #. Describe your use-case and provide as much details related to PCEP as possible #. Steps to reproduce #. Attach Karaf log files, optionally packet captures, REST input/output References ---------- * `A Path Computation Element (PCE)-Based Architecture `_ * `Path Computation Element (PCE) Communication Protocol Generic Requirements `_ * `Unanswered Questions in the Path Computation Element Architecture `_ * `A PCE-Based Architecture for Application-Based Network Operations `_ * `Framework for PCE-Based Inter-Layer MPLS and GMPLS Traffic Engineering `_ * `Applicability of a Stateful Path Computation Element (PCE) `_